mirror of https://github.com/zulip/zulip.git
237 lines
9.1 KiB
Markdown
237 lines
9.1 KiB
Markdown
# JavaScript/TypeScript unit tests
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Our node-based unit tests system is the preferred way to test
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JavaScript/TypeScript code in Zulip. We prefer it over the [Puppeteer
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black-box whole-app testing](testing-with-puppeteer.md),
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system since it is much (>100x) faster and also easier to do correctly
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than the Puppeteer system.
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You can run this test suite as follows:
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```bash
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tools/test-js-with-node
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```
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See `test-js-with-node --help` for useful options; even though the
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whole suite is quite fast, it still saves time to run a single test by
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name when debugging something.
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The JS unit tests are written to work with node. You can find them
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in `frontend_tests/node_tests`. Here is an example test from
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`frontend_tests/node_tests/stream_data.js`:
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```js
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(function test_get_by_id() {
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stream_data.clear_subscriptions();
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var id = 42;
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var sub = {
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name: 'Denmark',
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subscribed: true,
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color: 'red',
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stream_id: id
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};
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stream_data.add_sub('Denmark', sub);
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sub = stream_data.get_sub('Denmark');
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assert.equal(sub.color, 'red');
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sub = sub_store.get(id);
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assert.equal(sub.color, 'red');
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}());
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```
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The names of the node tests generally align with the names of the
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modules they test. If you modify a JS module in `static/js` you should
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see if there are corresponding test in `frontend_tests/node_tests`. If
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there are, you should strive to follow the patterns of the existing tests
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and add your own tests.
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A good first test to read is
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[example1.js](https://github.com/zulip/zulip/blob/main/frontend_tests/node_tests/example1.js).
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(And then there are several other example files.)
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## How the node tests work
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Unlike the [Puppeteer unit tests](testing-with-puppeteer.md),
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which use a headless Chromium browser connected to a running Zulip
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development server, our node unit tests don't have a browser, don't
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talk to a server, and generally don't use a complete virtual DOM (a
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handful of tests use the `jsdom` library for this purpose) because
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those slow down the tests a lot, and often don't add much value.
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Instead, the preferred model for our unit tests is to mock DOM
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manipulations (which in Zulip are almost exclusively done via
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`jQuery`) using a custom library
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[zjquery](https://github.com/zulip/zulip/blob/main/frontend_tests/zjsunit/zjquery.js).
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The
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[unit test file](https://github.com/zulip/zulip/blob/main/frontend_tests/node_tests/zjquery.js)
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for `zjquery` is designed to be also serve as nice documentation for
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how to use `zjquery`, and is **highly recommended reading** for anyone
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working on or debugging the Zulip node tests.
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Conceptually, the `zjquery` library provides minimal versions of most
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`jQuery` DOM manipulation functions, and has a convenient system for
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letting you set up return values for more complex functions. For
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example, if the code you'd like to test calls `$obj.find()`, you can
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use `$obj.set_find_results(selector, $value)` to set up `zjquery` so
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that calls to `$obj.find(selector)` will return `$value`. See the unit
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test file for details.
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This process of substituting `jQuery` functions with our own code for
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testing purposes is known as "stubbing". `zjquery` does not stub all
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possible interactions with the dom, as such, you may need to write out
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the stub for a function you're calling in your patch. Typically the stub
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is just placed in the test file, to prevent bloating of `zjquery`
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with functions that are only used in a single test.
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If you need to stub, you will see an error of this form:
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`Error: You must create a stub for $("#foo").bar`
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The `zjquery` library itself is only about 500 lines of code, and can
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also be a useful resource if you're having trouble debugging DOM
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access in the unit tests.
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It is typically a good idea to figure out how to stub a given function
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based on how other functions have been stubbed in the same file.
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## Handling dependencies in unit tests
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The other big challenge with doing unit tests for a JavaScript project
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is that often one wants to limit the scope the production code being
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run, just to avoid doing extra setup work that isn't relevant to the
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code you're trying to test. For that reason, each unit test file
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explicitly declares all of the modules it depends on, with a few
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different types of declarations depending on whether we want to:
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- Exercise the module's real code for deeper, more realistic testing?
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- Stub out the module's interface for more control, speed, and
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isolation?
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- Do some combination of the above?
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For all the modules where you want to run actual code, add statements
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like the following toward the top of your test file:
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```js
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zrequire('util');
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zrequire('stream_data');
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zrequire('Filter', 'js/filter');
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```
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For modules that you want to completely stub out, use a pattern like
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this:
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```js
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const reminder = mock_esm("../../static/js/reminder", {
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is_deferred_delivery: noop,
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});
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// then maybe further down
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reminder.is_deferred_delivery = () => true;
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```
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One can similarly stub out functions in a module's exported interface
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with either `noop` functions or actual code.
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Finally, there's the hybrid situation, where you want to borrow some
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of a module's real functionality but stub out other pieces. Obviously,
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this is a pretty strong code smell that the other module might be
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lacking in cohesion, but sometimes it's not worth going down the
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rabbit hole of trying to improve that. The pattern here is this:
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```js
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// Import real code.
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zrequire('narrow_state');
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// And later...
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narrow_state.stream = function () {
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return 'office';
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};
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```
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## Creating new test modules
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The test runner (`index.js`) automatically runs all .js files in the
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`frontend_tests/node_tests` directory, so you can simply start editing a file
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in that directory to create a new test.
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## Coverage reports
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You can automatically generate coverage reports for the JavaScript unit
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tests like this:
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```bash
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tools/test-js-with-node --coverage
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```
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If tests pass, you will get instructions to view coverage reports
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in your browser.
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Note that modules that we don't test _at all_ aren't listed in the
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report, so this tends to overstate how good our overall coverage is,
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but it's accurate for individual files. You can also click a filename
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to see the specific statements and branches not tested. 100% branch
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coverage isn't necessarily possible, but getting to at least 80%
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branch coverage is a good goal.
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The overall project goal is to get to 100% node test coverage on all
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data/logic modules (UI modules are lower priority for unit testing).
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## Editor debugger integration
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Our node test system is pretty simple, and it's possible to configure
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the native debugger features of popular editors to allow stepping
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through the code. Below we document the editors where someone has put
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together detailed instructions for how to do so. Contributions of
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notes for other editors are welcome!
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## Webstorm integration setup
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These instructions assume you're using the Vagrant development environment.
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1. Set up [Vagrant in WebStorm][vagrant-webstorm].
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2. In WebStorm, navigate to `Preferences -> Tools -> Vagrant` and
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configure the following:
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- `Instance folder` should be the root of the `zulip` repository on
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your host (where the Vagrantfile is located).
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- `Provider` should be `virtualbox` on macOS and Docker on Linux
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- In `Boxes`, choose the one used for Zulip (unless you use
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Virtualbox for other things, there should only be one option).
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You shouldn't need to set these additional settings:
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- `Vagrant executable` should already be correctly `vagrant`.
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- `Environment Variables` is not needed.
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3. You'll now need to set up a WebStorm "Debug Configuration". Open
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the `Run/Debug Configuration` menu and create a new `Node.js` config:
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1. Under `Node interpreter:` click the 3 dots to the right side and
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click on the little plus in the bottom left of the
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`Node.js Interpreters` window.
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1. Select `Add Remote...`.
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1. In the `Configure Node.js Remote Interpreter`, window select `Vagrant`
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1. Wait for WebStorm to connect to Vagrant. This will be displayed
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by the `Vagrant Host URL` section updating to contain the Vagrant
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SSH URL, e.g. `ssh://vagrant@127.0.0.1:2222`.
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1. **Set the `Node.js interpreter path` to `/usr/local/bin/node`**
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1. Hit `OK` 2 times to get back to the `Run/Debug Configurations` window.
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1. Under `Working Directory` select the root `zulip` directory.
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1. Under `JavaScript file`, enter `frontend_tests/zjsunit/index.js`
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-- this is the root script for Zulip's node unit tests.
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Congratulations! You've now set up the integration.
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## Running tests with the debugger
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To use Webstorm to debug a given node test file, do the following:
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1. Under `Application parameters` choose the node test file that you
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are trying to test (e.g. `frontend_tests/node_tests/message_store.js`).
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1. Under `Path Mappings`, set `Project Root` to `/srv/zulip`
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(i.e. where the `zulip` Git repository is mounted in the Vagrant guest).
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1. Use the WebStorm debugger; see [this overview][webstorm-debugging]
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for details on how to use it.
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[webstorm-debugging]: https://blog.jetbrains.com/webstorm/2018/01/how-to-debug-with-webstorm/
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[vagrant-webstorm]: https://www.jetbrains.com/help/webstorm/vagrant-support.html?section=Windows%20or%20Linux
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