defmodule Phoenix.ConnTest do
@moduledoc """
Conveniences for testing Phoenix endpoints and connection related helpers.
You likely want to use this module or make it part of your `ExUnit.CaseTemplate`.
Once used, this module automatically imports all functions defined here as
well as the functions in `Plug.Conn`.
## Endpoint testing
`Phoenix.ConnTest` typically works against endpoints. That's the preferred way
to test anything that your router dispatches to:
@endpoint MyAppWeb.Endpoint
test "says welcome on the home page" do
conn = get(build_conn(), "/")
assert conn.resp_body =~ "Welcome!"
end
test "logs in" do
conn = post(build_conn(), "/login", [username: "john", password: "doe"])
assert conn.resp_body =~ "Logged in!"
end
The `@endpoint` module attribute contains the endpoint under testing,
most commonly your application endpoint itself. If you are using the
MyApp.ConnCase generated by Phoenix, it is automatically set for you.
As in your router and controllers, the connection is the main abstraction
in testing. `build_conn()` returns a new connection and functions in this
module can be used to manipulate the connection before dispatching
to the endpoint.
For example, one could set the accepts header for json requests as
follows:
build_conn()
|> put_req_header("accept", "application/json")
|> get("/")
You can also create your own helpers, such as `json_conn()` that uses
`build_conn/0` and `put_req_header/3`, so you avoid repeating the connection
setup throughout your tests.
## Controller testing
The functions in this module can also be used for controller testing.
While endpoint testing is preferred over controller testing, especially
since the controller in Phoenix plays an integration role between your
domain and your views, unit testing controllers may be helpful in some
situations.
For such cases, you need to set the `@endpoint` attribute to your controller
and pass an atom representing the action to dispatch:
@endpoint MyAppWeb.HomeController
test "says welcome on the home page" do
conn = get(build_conn(), :index)
assert conn.resp_body =~ "Welcome!"
end
Keep in mind that, once the `@endpoint` variable is set, all tests after
setting it will be affected.
## Views testing
Under other circumstances, you may be testing a view or another layer that
requires a connection for processing. For such cases, a connection can be
created using the `build_conn/3` helper:
MyApp.UserView.render("hello.html", conn: build_conn(:get, "/"))
While `build_conn/0` returns a connection with no request information to it,
`build_conn/3` returns a connection with the given request information already
filled in.
## Recycling
Browsers implement a storage by using cookies. When a cookie is set in the
response, the browser stores it and sends it in the next request.
To emulate this behaviour, this module provides the idea of recycling.
The `recycle/1` function receives a connection and returns a new connection,
similar to the one returned by `build_conn/0` with all the response cookies
from the previous connection defined as request headers. This is useful when
testing multiple routes that require cookies or session to work.
Keep in mind Phoenix will automatically recycle the connection between
dispatches. This usually works out well most times, but it may discard
information if you are modifying the connection before the next dispatch:
# No recycling as the connection is fresh
conn = get(build_conn(), "/")
# The connection is recycled, creating a new one behind the scenes
conn = post(conn, "/login")
# We can also recycle manually in case we want custom headers
conn =
conn
|> recycle()
|> put_req_header("x-special", "nice")
# No recycling as we did it explicitly
conn = delete(conn, "/logout")
Recycling also recycles the "accept" and "authorization" headers,
as well as peer data information.
"""
@doc false
defmacro __using__(_) do
IO.warn """
Using Phoenix.ConnTest is deprecated, instead of:
use Phoenix.ConnTest
do:
import Plug.Conn
import Phoenix.ConnTest
""", Macro.Env.stacktrace(__CALLER__)
quote do
import Plug.Conn
import Phoenix.ConnTest
end
end
alias Plug.Conn
import ExUnit.Assertions, only: [flunk: 1]
@doc """
Creates a connection to be used in upcoming requests.
"""
@spec build_conn() :: Conn.t
def build_conn() do
build_conn(:get, "/", nil)
end
@doc """
Creates a connection to be used in upcoming requests
with a preset method, path and body.
This is useful when a specific connection is required
for testing a plug or a particular function.
"""
@spec build_conn(atom | binary, binary, binary | list | map | nil) :: Conn.t
def build_conn(method, path, params_or_body \\ nil) do
Plug.Adapters.Test.Conn.conn(%Conn{}, method, path, params_or_body)
|> Conn.put_private(:plug_skip_csrf_protection, true)
|> Conn.put_private(:phoenix_recycled, true)
end
@http_methods [:get, :post, :put, :patch, :delete, :options, :connect, :trace, :head]
for method <- @http_methods do
@doc """
Dispatches to the current endpoint.
See `dispatch/5` for more information.
"""
defmacro unquote(method)(conn, path_or_action, params_or_body \\ nil) do
method = unquote(method)
quote do
Phoenix.ConnTest.dispatch(unquote(conn), @endpoint, unquote(method),
unquote(path_or_action), unquote(params_or_body))
end
end
end
@doc """
Dispatches the connection to the given endpoint.
When invoked via `get/3`, `post/3` and friends, the endpoint
is automatically retrieved from the `@endpoint` module
attribute, otherwise it must be given as an argument.
The connection will be configured with the given `method`,
`path_or_action` and `params_or_body`.
If `path_or_action` is a string, it is considered to be the
request path and stored as so in the connection. If an atom,
it is assumed to be an action and the connection is dispatched
to the given action.
## Parameters and body
This function, as well as `get/3`, `post/3` and friends, accepts the
request body or parameters as last argument:
get(build_conn(), "/", some: "param")
get(build_conn(), "/", "some=param&url=encoded")
The allowed values are:
* `nil` - meaning there is no body
* a binary - containing a request body. For such cases, `:headers`
must be given as option with a content-type
* a map or list - containing the parameters which will automatically
set the content-type to multipart. The map or list may contain
other lists or maps and all entries will be normalized to string
keys
* a struct - unlike other maps, a struct will be passed through as-is
without normalizing its entries
"""
def dispatch(conn, endpoint, method, path_or_action, params_or_body \\ nil)
def dispatch(%Plug.Conn{} = conn, endpoint, method, path_or_action, params_or_body) do
if is_nil(endpoint) do
raise "no @endpoint set in test case"
end
if is_binary(params_or_body) and is_nil(List.keyfind(conn.req_headers, "content-type", 0)) do
raise ArgumentError, "a content-type header is required when setting " <>
"a binary body in a test connection"
end
conn
|> ensure_recycled()
|> dispatch_endpoint(endpoint, method, path_or_action, params_or_body)
|> Conn.put_private(:phoenix_recycled, false)
|> from_set_to_sent()
end
def dispatch(conn, _endpoint, method, _path_or_action, _params_or_body) do
raise ArgumentError, "expected first argument to #{method} to be a " <>
"%Plug.Conn{}, got #{inspect conn}"
end
defp dispatch_endpoint(conn, endpoint, method, path, params_or_body) when is_binary(path) do
conn
|> Plug.Adapters.Test.Conn.conn(method, path, params_or_body)
|> endpoint.call(endpoint.init([]))
end
defp dispatch_endpoint(conn, endpoint, method, action, params_or_body) when is_atom(action) do
conn
|> Plug.Adapters.Test.Conn.conn(method, "/", params_or_body)
|> endpoint.call(endpoint.init(action))
end
defp from_set_to_sent(%Conn{state: :set} = conn), do: Conn.send_resp(conn)
defp from_set_to_sent(conn), do: conn
@doc """
Inits a session used exclusively for testing.
"""
@spec init_test_session(Conn.t, map | keyword) :: Conn.t
defdelegate init_test_session(conn, session), to: Plug.Test
@doc """
Puts a request cookie.
"""
@spec put_req_cookie(Conn.t, binary, binary) :: Conn.t
defdelegate put_req_cookie(conn, key, value), to: Plug.Test
@doc """
Deletes a request cookie.
"""
@spec delete_req_cookie(Conn.t, binary) :: Conn.t
defdelegate delete_req_cookie(conn, key), to: Plug.Test
@doc """
Fetches the flash storage.
"""
@spec fetch_flash(Conn.t) :: Conn.t
defdelegate fetch_flash(conn), to: Phoenix.Controller
@doc """
Gets the whole flash storage.
"""
@spec get_flash(Conn.t) :: map
@deprecated "get_flash/1 is deprecated. Use conn.assigns.flash instead"
def get_flash(conn), do: conn.assigns.flash
@doc """
Gets the given key from the flash storage.
"""
@spec get_flash(Conn.t, term) :: term
@deprecated "get_flash/2 is deprecated. Use Phoenix.Flash.get/2 instead"
def get_flash(conn, key) do
Phoenix.Flash.get(conn.assigns.flash, key)
end
@doc """
Puts the given value under key in the flash storage.
"""
@spec put_flash(Conn.t, term, term) :: Conn.t
defdelegate put_flash(conn, key, value), to: Phoenix.Controller
@doc """
Clears up the flash storage.
"""
@spec clear_flash(Conn.t) :: Conn.t
defdelegate clear_flash(conn), to: Phoenix.Controller
@doc """
Returns the content type as long as it matches the given format.
## Examples
# Assert we have an html response with utf-8 charset
assert response_content_type(conn, :html) =~ "charset=utf-8"
"""
@spec response_content_type(Conn.t, atom) :: String.t
def response_content_type(conn, format) when is_atom(format) do
case Conn.get_resp_header(conn, "content-type") do
[] ->
raise "no content-type was set, expected a #{format} response"
[h] ->
if response_content_type?(h, format) do
h
else
raise "expected content-type for #{format}, got: #{inspect h}"
end
[_|_] ->
raise "more than one content-type was set, expected a #{format} response"
end
end
defp response_content_type?(header, format) do
case parse_content_type(header) do
{part, subpart} ->
format = Atom.to_string(format)
format in MIME.extensions(part <> "/" <> subpart) or
format == subpart or String.ends_with?(subpart, "+" <> format)
_ ->
false
end
end
defp parse_content_type(header) do
case Plug.Conn.Utils.content_type(header) do
{:ok, part, subpart, _params} ->
{part, subpart}
_ ->
false
end
end
@doc """
Asserts the given status code and returns the response body
if one was set or sent.
## Examples
conn = get(build_conn(), "/")
assert response(conn, 200) =~ "hello world"
"""
@spec response(Conn.t, status :: integer | atom) :: binary
def response(%Conn{state: :unset}, _status) do
raise """
expected connection to have a response but no response was set/sent.
Please verify that you assign to "conn" after a request:
conn = get(conn, "/")
assert html_response(conn) =~ "Hello"
"""
end
def response(%Conn{status: status, resp_body: body}, given) do
given = Plug.Conn.Status.code(given)
if given == status do
body
else
raise "expected response with status #{given}, got: #{status}, with body:\n#{inspect(body)}"
end
end
@doc """
Asserts the given status code, that we have an html response and
returns the response body if one was set or sent.
## Examples
assert html_response(conn, 200) =~ "<html>"
"""
@spec html_response(Conn.t, status :: integer | atom) :: String.t
def html_response(conn, status) do
body = response(conn, status)
_ = response_content_type(conn, :html)
body
end
@doc """
Asserts the given status code, that we have a text response and
returns the response body if one was set or sent.
## Examples
assert text_response(conn, 200) =~ "hello"
"""
@spec text_response(Conn.t, status :: integer | atom) :: String.t
def text_response(conn, status) do
body = response(conn, status)
_ = response_content_type(conn, :text)
body
end
@doc """
Asserts the given status code, that we have a json response and
returns the decoded JSON response if one was set or sent.
## Examples
body = json_response(conn, 200)
assert "can't be blank" in body["errors"]
"""
@spec json_response(Conn.t, status :: integer | atom) :: term
def json_response(conn, status) do
body = response(conn, status)
_ = response_content_type(conn, :json)
Phoenix.json_library().decode!(body)
end
@doc """
Returns the location header from the given redirect response.
Raises if the response does not match the redirect status code
(defaults to 302).
## Examples
assert redirected_to(conn) =~ "/foo/bar"
assert redirected_to(conn, 301) =~ "/foo/bar"
assert redirected_to(conn, :moved_permanently) =~ "/foo/bar"
"""
@spec redirected_to(Conn.t, status :: non_neg_integer) :: String.t
def redirected_to(conn, status \\ 302)
def redirected_to(%Conn{state: :unset}, _status) do
raise "expected connection to have redirected but no response was set/sent"
end
def redirected_to(conn, status) when is_atom(status) do
redirected_to(conn, Plug.Conn.Status.code(status))
end
def redirected_to(%Conn{status: status} = conn, status) do
location = Conn.get_resp_header(conn, "location") |> List.first
location || raise "no location header was set on redirected_to"
end
def redirected_to(conn, status) do
raise "expected redirection with status #{status}, got: #{conn.status}"
end
@doc """
Recycles the connection.
Recycling receives a connection and returns a new connection,
containing cookies and relevant information from the given one.
This emulates behaviour performed by browsers where cookies
returned in the response are available in following requests.
By default, only the headers "accept", "accept-language", and
"authorization" are recycled. However, a custom set of headers
can be specified by passing a list of strings representing its
names as the second argument of the function.
Note `recycle/1` is automatically invoked when dispatching
to the endpoint, unless the connection has already been
recycled.
"""
@spec recycle(Conn.t, [String.t]) :: Conn.t
def recycle(conn, headers \\ ~w(accept accept-language authorization)) do
build_conn()
|> Map.put(:host, conn.host)
|> Plug.Test.recycle_cookies(conn)
|> Plug.Test.put_peer_data(Plug.Conn.get_peer_data(conn))
|> copy_headers(conn.req_headers, headers)
end
defp copy_headers(conn, headers, copy) do
headers = for {k, v} <- headers, k in copy, do: {k, v}
%{conn | req_headers: headers ++ conn.req_headers}
end
@doc """
Ensures the connection is recycled if it wasn't already.
See `recycle/1` for more information.
"""
@spec ensure_recycled(Conn.t) :: Conn.t
def ensure_recycled(conn) do
if conn.private[:phoenix_recycled] do
conn
else
recycle(conn)
end
end
@doc """
Calls the Endpoint and Router pipelines.
Useful for unit testing Plugs where Endpoint and/or router pipeline
plugs are required for proper setup.
Note the use of `get("/")` following `bypass_through` in the examples below.
To execute the plug pipelines, you must issue a request against the router.
Most often, you can simply send a GET request against the root path, but you
may also specify a different method or path which your pipelines may operate
against.
## Examples
For example, imagine you are testing an authentication plug in
isolation, but you need to invoke the Endpoint plugs and router
pipelines to set up session and flash related dependencies.
One option is to invoke an existing route that uses the proper
pipelines. You can do so by passing the connection and the
router name to `bypass_through`:
conn =
conn
|> bypass_through(MyAppWeb.Router)
|> get("/some_url")
|> MyApp.RequireAuthentication.call([])
assert conn.halted
You can also specify which pipelines you want to run:
conn =
conn
|> bypass_through(MyAppWeb.Router, [:browser])
|> get("/")
|> MyApp.RequireAuthentication.call([])
assert conn.halted
Alternatively, you could only invoke the Endpoint's plugs:
conn =
conn
|> bypass_through()
|> get("/")
|> MyApp.RequireAuthentication.call([])
assert conn.halted
"""
@spec bypass_through(Conn.t) :: Conn.t
def bypass_through(conn) do
Plug.Conn.put_private(conn, :phoenix_bypass, :all)
end
@doc """
Calls the Endpoint and Router pipelines for the current route.
See `bypass_through/1`.
"""
@spec bypass_through(Conn.t, module) :: Conn.t
def bypass_through(conn, router) do
Plug.Conn.put_private(conn, :phoenix_bypass, {router, :current})
end
@doc """
Calls the Endpoint and the given Router pipelines.
See `bypass_through/1`.
"""
@spec bypass_through(Conn.t, module, atom | list) :: Conn.t
def bypass_through(conn, router, pipelines) do
Plug.Conn.put_private(conn, :phoenix_bypass, {router, List.wrap(pipelines)})
end
@doc """
Returns the matched params from the URL the connection was redirected to.
Uses the provided `%Plug.Conn{}`s router matched in the previous request.
Raises if the response's location header is not set or if the response does
not match the redirect status code (defaults to 302).
## Examples
assert redirected_to(conn) =~ "/posts/123"
assert %{id: "123"} = redirected_params(conn)
assert %{id: "123"} = redirected_params(conn, 303)
"""
@spec redirected_params(Conn.t, status :: non_neg_integer) :: map
def redirected_params(%Plug.Conn{} = conn, status \\ 302) do
router = Phoenix.Controller.router_module(conn)
%URI{path: path, host: host} = conn |> redirected_to(status) |> URI.parse()
path = remove_script_name(conn, router, path)
case Phoenix.Router.route_info(router, "GET", path, host || conn.host) do
:error ->
raise Phoenix.Router.NoRouteError, conn: conn, router: router
%{path_params: path_params} ->
Enum.into(path_params, %{}, fn {key, val} -> {String.to_atom(key), val} end)
end
end
defp remove_script_name(conn, router, path) do
case conn.private[router] do
[_ | _] = list ->
script_name = "/" <> Enum.join(list, ",")
String.replace_leading(path, script_name, "")
_ ->
path
end
end
@doc """
Returns the matched params of the URL for the `%Plug.Conn{}`'s router.
Useful for extracting path params out of returned URLs, such as those
returned by `Phoenix.LiveViewTest`'s redirected results.
## Examples
assert {:error, {:redirect, %{to: "/posts/123" = to}}} = live(conn, "/path")
assert %{id: "123"} = path_params(conn, to)
"""
@spec path_params(Conn.t, String.t) :: map
def path_params(%Plug.Conn{} = conn, to) when is_binary(to) do
router = Phoenix.Controller.router_module(conn)
case Phoenix.Router.route_info(router, "GET", to, conn.host) do
%{path_params: path_params} ->
Enum.into(path_params, %{}, fn {key, val} -> {String.to_atom(key), val} end)
:error ->
raise Phoenix.Router.NoRouteError, conn: conn, router: router
end
end
@doc """
Asserts an error was wrapped and sent with the given status.
Useful for testing actions that you expect raise an error and have
the response wrapped in an HTTP status, with content usually rendered
by your MyApp.ErrorView.
The function accepts a status either as an integer HTTP status or
atom, such as `404` or `:not_found`. The list of allowed atoms is available
in `Plug.Conn.Status`. If an error is raised, a 3-tuple of the wrapped
response is returned matching the status, headers, and body of the response:
{404, [{"content-type", "text/html"} | _], "Page not found"}
## Examples
assert_error_sent :not_found, fn ->
get(build_conn(), "/users/not-found")
end
response = assert_error_sent 404, fn ->
get(build_conn(), "/users/not-found")
end
assert {404, [_h | _t], "Page not found"} = response
"""
@spec assert_error_sent(integer | atom, function) :: {integer, list, term}
def assert_error_sent(status_int_or_atom, func) do
expected_status = Plug.Conn.Status.code(status_int_or_atom)
discard_previously_sent()
result =
func
|> wrap_request()
|> receive_response(expected_status)
discard_previously_sent()
result
end
defp receive_response({:ok, conn}, expected_status) do
if conn.state == :sent do
flunk "expected error to be sent as #{expected_status} status, but response sent #{conn.status} without error"
else
flunk "expected error to be sent as #{expected_status} status, but no error happened"
end
end
defp receive_response({:error, {_kind, exception, stack}}, expected_status) do
receive do
{ref, {^expected_status, headers, body}} when is_reference(ref) ->
{expected_status, headers, body}
{ref, {sent_status, _headers, _body}} when is_reference(ref) ->
reraise ExUnit.AssertionError.exception("""
expected error to be sent as #{expected_status} status, but got #{sent_status} from:
#{Exception.format_banner(:error, exception)}
"""), stack
after 0 ->
reraise ExUnit.AssertionError.exception("""
expected error to be sent as #{expected_status} status, but got an error with no response from:
#{Exception.format_banner(:error, exception)}
"""), stack
end
end
defp discard_previously_sent() do
receive do
{ref, {_, _, _}} when is_reference(ref) -> discard_previously_sent()
{:plug_conn, :sent} -> discard_previously_sent()
after
0 -> :ok
end
end
defp wrap_request(func) do
try do
{:ok, func.()}
catch
kind, error -> {:error, {kind, error, __STACKTRACE__}}
end
end
end