Writing new browser mochitests¶
After creating a new empty test file, you will
have an empty add_task
into which you can write your test.
General guidance¶
The test can use ok
, is
, isnot
, as well as all the regular
CommonJS standard assertions,
to make test assertions.
The test can use info
to log strings into the test output.
console.log
will work for local runs of individual tests, but aren’t
normally used for checked-in tests.
The test will run in a separate scope inside the browser window.
gBrowser
, gURLBar
, document
, and various other globals are thus
accessible just as they are for non-test code in the same window. However,
variables declared in the test file will not outlive the test.
Test architecture¶
It is the responsibility of individual tests to leave the browser as they found it. If the test changes prefs, opens tabs, customizes the UI, or makes other changes, it should revert those when it is done.
To help do this, a number of useful primitives are available:
add_setup
allows you to add setup tasks that run before anyadd_task
tasks.SpecialPowers.pushPrefEnv
(see below) allows you to set prefs that will be automatically reverted when the test file has finished running.BrowserTestUtils.withNewTab
, allows you to easily run async code talking to a tab that you open and close it when done.registerCleanupFunction
takes an async callback function that you can use to do any other cleanup your test might need.
Common operations¶
Opening new tabs and new windows, and closing them¶
Should be done using the relevant methods in BrowserTestUtils
(which
is available without any additional work).
Typical would be something like:
add_task(async function() {
await BrowserTestUtils.withNewTab("https://example.com/mypage", async (browser) {
// `browser` will have finished loading the passed URL when this code runs.
// Do stuff with `browser` in here. When the async function exits,
// the test framework will clean up the tab.
});
});
Executing code in the content process associated with a tab or its subframes¶
Should be done using SpecialPowers.spawn
:
let result = await SpecialPowers.spawn(browser, [42, 100], async (val, val2) => {
// Replaces the document body with '42':
content.document.body.textContent = val;
// Optionally, return a result. Has to be serializable to make it back to
// the parent process (so DOM nodes or similar won't work!).
return Promise.resolve(val2 * 2);
});
You can pass a BrowsingContext reference instead of browser
to directly execute
code in subframes.
Inside the function argument passed to SpecialPowers.spawn
, content
refers
to the window
of the web content in that browser/BrowsingContext.
For some operations, like mouse clicks, convenience helpers are available on
BrowserTestUtils
:
await BrowserTestUtils.synthesizeMouseAtCenter("#my.css.selector", {accelKey: true}, browser);
Changing preferences¶
Use SpecialPowers.pushPrefEnv
:
await SpecialPowers.pushPrefEnv({
set: [["accessibility.tabfocus", 7]]
});
This example sets the pref allowing buttons and other controls to receive tab focus - this is the default on Windows and Linux but not on macOS, so it can be necessary in order for your test to pass reliably on macOS if it uses keyboard focus.
Wait for an observer service notification topic or DOM event¶
Use the utilities for this on TestUtils
:
await TestUtils.topicObserved("sync-pane-loaded");
and BrowserTestUtils
, respectively:
await BrowserTestUtils.waitForEvent(domElement, "click");
Wait for some DOM to update.¶
Use BrowserTestUtils.waitForMutationCondition
.
Do not use waitForCondition
, which uses a timeout loop and often
leads to intermittent failures.
Mocking code not under test¶
The Sinon
mocking framework is available. You can import it
using something like:
const { sinon } = ChromeUtils.importESModule("resource://testing-common/Sinon.sys.mjs");
More details on how to do mocking are available on the Sinon website.
Additional files¶
You can use extra files (e.g. webpages to load) by adding them to a support-files
property using the browser.toml
file:
["browser_foo.js"]
support-files = [
"bar.html",
"baz.js",
]
Reusing code across tests¶
For operations that are common to a specific set of tests, you can use the head.js
file to share JS code.
Where code is needed across various directories of tests, you should consider if it’s
common enough to warrant being in BrowserTestUtils.sys.mjs
, or if not, setting up
a separate jsm
module containing your test helpers. You can add these to
TESTING_JS_MODULES
in moz.build
to avoid packaging them with Firefox. They
will be available in resource://testing-common/
to all tests.