Wallaby helps you test your web applications by simulating realistic user interactions. By default it runs each test case concurrently and manages browsers for you. Here's an example test for a simple Todo application:
defmodule MyApp.Features.TodoTest do
use ExUnit.Case, async: true
use Wallaby.Feature
import Wallaby.Query, only: [css: 2, text_field: 1, button: 1]
feature "users can create todos", %{session: session} do
session
|> visit("/todos")
|> fill_in(text_field("New Todo"), with: "Write my first Wallaby test")
|> click(button("Save"))
|> assert_has(css(".alert", text: "You created a todo"))
|> assert_has(css(".todo-list > .todo", text: "Write my first Wallaby test"))
end
end
Because Wallaby manages multiple browsers for you, its possible to test several users interacting with a page simultaneously.
defmodule MyApp.Features.MultipleUsersTest do
use ExUnit.Case, async: true
use Wallaby.Feature
import Wallaby.Query, only: [text_field: 1, button: 1, css: 2]
@page message_path(Endpoint, :index)
@message_field text_field("Share Message")
@share_button button("Share")
def message(msg), do: css(".messages > .message", text: msg)
@sessions 2
feature "That users can send messages to each other", %{sessions: [user1, user2]} do
user1
|> visit(@page)
|> fill_in(@message_field, with: "Hello there!")
|> click(@share_button)
user2
|> visit(@page)
|> fill_in(@message_field, with: "Hello yourself")
|> click(@share_button)
user1
|> assert_has(message("Hello yourself"))
user2
|> assert_has(message("Hello there!"))
end
end
Read on to see what else Wallaby can do or check out the Official Documentation.
Wallaby requires Elixir 1.7+ and OTP 21+.
Add Wallaby to your list of dependencies in mix.exs
:
def deps do
[
{:wallaby, "~> 0.24.0", runtime: false, only: :test}
]
end
Then ensure that Wallaby is started in your test_helper.exs
:
{:ok, _} = Application.ensure_all_started(:wallaby)
If you're testing a Phoenix application with Ecto 2 or 3 and a database that supports sandbox mode then you can enable concurrent testing by adding the Phoenix.Ecto.SQL.Sandbox
plug to your Endpoint
.
It's important that this is at the top of endpoint.ex
before any other plugs.
# lib/endpoint.ex
defmodule YourApp.Endpoint do
use Phoenix.Endpoint, otp_app: :your_app
if Application.get_env(:your_app, :sql_sandbox) do
plug Phoenix.Ecto.SQL.Sandbox
end
Make sure Phoenix is set up to serve endpoints in tests and that the SQL sandbox is enabled:
# config/test.exs
config :your_app, YourApplication.Endpoint,
server: true
config :your_app, :sql_sandbox, true
Then in your test_helper.exs
you can provide some configuration to Wallaby.
At minimum, you need to specify a :base_url
, so Wallaby knows how to resolve relative paths.
# test/test_helper.exs
Application.put_env(:wallaby, :base_url, YourApplication.Endpoint.url)
Assets are not re-compiled when you run mix test
.
This can lead to confusion if you've made changes in javascript or css but tests are still failing.
There are two common ways to avoid this confusion.
The first solution is to run webpack --mode development --watch
from the assets directory.
This will ensure that assets get recompiled after any changes.
The second solution is to add a new alias to your mix config that recompiles assets for you:
def project do
[
app: :my_app,
version: "1.0.0",
aliases: aliases()
]
end
defp aliases, do: [
"test": [
"assets.compile --quiet",
"ecto.create --quiet",
"ecto.migrate",
"test",
],
"assets.compile": &compile_assets/1
]
defp compile_assets(_) do
Mix.shell().cmd("./assets/node_modules/webpack/bin/webpack.js --mode development",
quiet: true
)
end
This method is less error prone but it will cause a delay when starting your test suite.
If you're testing an umbrella application containing a Phoenix application for the web interface (MyWebApp
) and a separate persistence application (MyPersistenceApp
) using Ecto 2 or 3 with a database that supports sandbox mode, then you can use the same setup as above, with a few tweaks.
# my_web_app/lib/endpoint.ex
defmodule MyWebApp.Endpoint do
use Phoenix.Endpoint, otp_app: :my_web_app
if Application.get_env(:my_persistence_app, :sql_sandbox) do
plug Phoenix.Ecto.SQL.Sandbox
end
Make sure MyWebApp
is set up to serve endpoints in tests and that the SQL sandbox is enabled:
# my_web_app/config/test.exs
config :my_web_app, MyWebApp.Endpoint,
server: true
config :my_persistence_app, :sql_sandbox, true
Then in MyWebApp
's test_helper.exs
you can provide some configuration to Wallaby.
At minimum, you need to specify a :base_url
, so Wallaby knows how to resolve relative paths.
# my_web_app/test/test_helper.exs
Application.put_env(:wallaby, :base_url, MyWebApp.Endpoint.url)
You will also want to add phoenix_ecto
as a dependency to MyWebApp
:
# my_web_app/mix.exs
def deps do
[
{:wallaby, "~> 0.24", only: :test, runtime: false},
{:phoenix_ecto, "~> 3.0", only: :test}
]
end
Wallaby requires PhantomJS. You can install PhantomJS through NPM or your package manager of choice:
$ npm install -g phantomjs-prebuilt
Wallaby will use whatever PhantomJS you have installed in your path. If you need to specify a specific PhantomJS you can pass the path in the configuration:
config :wallaby, phantomjs: "some/path/to/phantomjs"
You can also pass arguments to PhantomJS through the phantomjs_args
config setting, e.g.:
config :wallaby, phantomjs_args: "--webdriver-logfile=phantomjs.log"
It's easiest to add Wallaby to your test suite by using the Wallaby.Feature
module.
defmodule YourApp.UserListTest do
use ExUnit.Case, async: true
use Wallaby.Feature
feature "users have names", %{session: session} do
session
|> visit("/users")
|> find(Query.css(".user", count: 3))
|> List.first()
|> assert_has(Query.css(".user-name", text: "Chris"))
end
end
The full documentation for the DSL is in the official documentation.
Wallaby's API is broken into 2 concepts: Queries and Actions.
Queries allow us to declaratively describe the elements that we would like to interact with and Actions allow us to use those queries to interact with the DOM.
Lets say that our html looks like this:
<ul class="users">
<li class="user">
<span class="user-name">Ada</span>
</li>
<li class="user">
<span class="user-name">Grace</span>
</li>
<li class="user">
<span class="user-name">Alan</span>
</li>
</ul>
If we wanted to interact with all of the users then we could write a query like so css(".user", count: 3)
.
If we only wanted to interact with a specific user then we could write a query like this css(".user-name", count: 1, text: "Ada")
. Now we can use those queries with some actions:
session
|> find(css(".user", count: 3))
|> List.first
|> assert_has(css(".user-name", count: 1, text: "Ada"))
There are several queries for common html elements defined in the Query module. All actions accept a query. This makes it easy to use queries we've already defined. Actions will block until the query is either satisfied or the action times out. Blocking reduces race conditions when elements are added or removed dynamically.
We can navigate directly to pages with visit
:
visit(session, "/page.html")
visit(session, user_path(Endpoint, :index, 17))
It's also possible to click links directly:
click(session, link("Page 1"))
We can find a specific element or list of elements with find
:
@user_form css(".user-form")
@name_field text_field("Name")
@email_field text_field("Email")
@save_button button("Save")
find(page, @user_form, fn(form) ->
form
|> fill_in(@name_field, with: "Chris")
|> fill_in(@email_field, with: "c@keathley.io")
|> click(@save_button)
end)
Passing a callback to find
will return the parent which makes it easy to chain find
with other actions:
page
|> find(css(".users"), & assert has?(&1, css(".user", count: 3)))
|> click(link("Next Page"))
Without the callback find
returns the element.
This provides a way to scope all future actions within an element.
page
|> find(css(".user-form"))
|> fill_in(text_field("Name"), with: "Chris")
|> fill_in(text_field("Email"), with: "c@keathley.io")
|> click(button("Save"))
There are a few ways to interact with form elements on a page:
fill_in(session, text_field("First Name"), with: "Chris")
clear(session, text_field("last_name"))
click(session, option("Some option"))
click(session, radio_button("My Fancy Radio Button"))
click(session, button("Some Button"))
If you need to send specific keys to an element, you can do that with send_keys
:
send_keys(session, ["Example", "Text", :enter])
Wallaby provides custom assertions to make writing tests easier:
assert_has(session, css(".signup-form"))
refute_has(session, css(".alert"))
has?(session, css(".user-edit-modal", visible: false))
assert_has
and refute_has
both take a parent element as their first argument.
They return that parent, making it easy to chain them together with other actions.
session
|> assert_has(css(".signup-form"))
|> fill_in(text_field("Email", with: "c@keathley.io"))
|> click(button("Sign up"))
|> refute_has(css(".error"))
|> assert_has(css(".alert", text: "Welcome!"))
You can set the default window size by passing in the window_size
option into Wallaby.start_session\1
.
Wallaby.start_session(window_size: [width: 1280, height: 720])
You can also resize the window and get the current window size during the test.
resize_window(session, 100, 100)
window_size(session)
It's possible take screenshots:
take_screenshot(session)
All screenshots are saved to a screenshots
directory in the directory that the tests were run in.
If you want to customize the screenshot directory you can pass it as a config value:
# config/test.exs
config :wallaby, screenshot_dir: "/file/path"
# test_helper.exs
Application.put_env(:wallaby, :screenshot_dir, "/file/path")
You can automatically take screenshots on an error when using the Wallaby.Feature.feature/3
macro.
# config/test.exs
config :wallaby, screenshot_on_failure: true
# test_helper.exs
Application.put_env(:wallaby, :screenshot_on_failure, true)
Testing asynchronous JavaScript code can expose timing issues and race conditions. We might try to interact with an element that hasn't yet appeared on the page. Elements can become stale while we're trying to interact with them.
Wallaby helps solve this by blocking.
Instead of manually setting timeouts we can use assert_has
and some declarative queries to block until the DOM is in a good state.
session
|> click(button("Some Async Button"))
|> assert_has(css(".async-result"))
|> click(button("Next Action"))
Wallaby provides several ways to interact with JavaScript dialogs such as window.alert
, window.confirm
and window.prompt
.
You can use one of the following functions:
- For
window.alert
useaccept_alert/2
- For
window.confirm
useaccept_confirm/2
ordismiss_confirm/2
- For
window.prompt
useaccept_prompt/2-3
ordismiss_prompt/2
All of these take a function as last parameter, which must include the necessary interactions to trigger the dialog. For example:
alert_message = accept_alert session, fn(session) ->
click(session, link("Trigger alert"))
end
To emulate user input for a prompt, accept_prompt
takes an optional parameter:
prompt_message = accept_prompt session, [with: "User input"], fn(session) ->
click(session, link("Trigger prompt"))
end
Wallaby captures both JavaScript logs and errors.
Any uncaught exceptions in JavaScript will be re-thrown in Elixir.
This can be disabled by specifying js_errors: false
in your Wallaby config.
JavaScript logs are written to :stdio by default.
This can be changed to any IO device by setting the :js_logger
option in your Wallaby config.
For instance if you want to write all JavaScript console logs to a file you could do something like this:
{:ok, file} = File.open("browser_logs.log", [:write])
Application.put_env(:wallaby, :js_logger, file)
Logging can be disabled by setting :js_logger
to nil
.
Wallaby uses hackney under the hood, so we offer a hook that allows you to control any hackney options you'd like to have sent along on every request.
This can be controlled with the :hackney_options
setting in config.exs
.
config :wallaby,
hackney_options: [timeout: :infinity, recv_timeout: :infinity]
# Overriding a value
config :wallaby,
hackney_options: [timeout: 5_000]
Wallaby works with PhantomJS out of the box. There is also experimental support for both headless chrome and selenium.
The driver can be specified by setting the driver
option in the wallaby config like so:
# Chrome
config :wallaby,
driver: Wallaby.Experimental.Chrome
# Selenium
config :wallaby,
driver: Wallaby.Experimental.Selenium
See below for more information on the experimental drivers.
Currently Wallaby provides experimental support for both headless chrome and selenium. Both of these drivers are still "experimental" because they don't support the full API yet and because the implementation is changing rapidly. But, if you would like to use them in your project here's what you'll need to do.
Please refer to the documentation for further information about using Chromedriver.
In order to run headless chrome you'll need to have ChromeDriver >= 2.30 and chrome >= 60. Previous versions of both of these tools may work, but several features will be buggy. If you want to setup chrome in a CI environment then you'll still need to install and run xvfb. This is due to a bug in ChromeDriver 2.30 that inhibits ChromeDriver from handling input text correctly. The bug should be fixed in ChromeDriver 2.31.
Please refer to the documentation for further information about using Selenium.
Wallaby is a community project. PRs and Issues are greatly welcome.
To get started and setup the project, make sure you've got Elixir 1.7+ installed and then:
$ mix deps.get
$ npm install -g phantomjs-prebuilt # unless you've already got PhantomJS installed
$ mix test # Make sure the tests pass!
Besides running the unit tests above, it is recommended to run the driver integration tests too:
# Run only phantomjs integration tests
$ WALLABY_DRIVER=phantom mix test
# Run all tests (unit and all drivers)
$ mix test.all