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Test Info: Warnings
- This test has a WPT meta file that expects 4 subtest issues.
- This WPT test may be referenced by the following Test IDs:
- /service-workers/service-worker/navigation-redirect.https.html?client - WPT Dashboard Interop Dashboard
- /service-workers/service-worker/navigation-redirect.https.html?default - WPT Dashboard Interop Dashboard
<!DOCTYPE html>
<title>Service Worker: Navigation redirection</title>
<meta name="timeout" content="long">
<!-- default variant tests document.location and intercepted URLs -->
<meta name="variant" content="?default">
<!-- client variant tests the Clients API (resultingClientId and Client.url) -->
<meta name="variant" content="?client">
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<script src="/common/get-host-info.sub.js"></script>
<script src="resources/test-helpers.sub.js"></script>
<body>
<script>
const host_info = get_host_info();
// This test registers three Service Workers at SCOPE1, SCOPE2 and
// OTHER_ORIGIN_SCOPE. And checks the redirected page's URL and the requests
// which are intercepted by Service Worker while loading redirect page.
const BASE_URL = host_info['HTTPS_ORIGIN'] + base_path();
const OTHER_BASE_URL = host_info['HTTPS_REMOTE_ORIGIN'] + base_path();
const SCOPE1 = BASE_URL + 'resources/navigation-redirect-scope1.py?';
const SCOPE2 = BASE_URL + 'resources/navigation-redirect-scope2.py?';
const OUT_SCOPE = BASE_URL + 'resources/navigation-redirect-out-scope.py?';
const SCRIPT = 'resources/redirect-worker.js';
const OTHER_ORIGIN_IFRAME_URL =
OTHER_BASE_URL + 'resources/navigation-redirect-other-origin.html';
const OTHER_ORIGIN_SCOPE =
OTHER_BASE_URL + 'resources/navigation-redirect-scope1.py?';
const OTHER_ORIGIN_OUT_SCOPE =
OTHER_BASE_URL + 'resources/navigation-redirect-out-scope.py?';
let registrations;
let workers;
let other_origin_frame;
let message_resolvers = {};
let next_message_id = 0;
promise_test(async t => {
// In this frame we register a service worker at OTHER_ORIGIN_SCOPE.
// And will use this frame to communicate with the worker.
other_origin_frame = await with_iframe(OTHER_ORIGIN_IFRAME_URL);
// Register same-origin service workers.
registrations = await Promise.all([
service_worker_unregister_and_register(t, SCRIPT, SCOPE1),
service_worker_unregister_and_register(t, SCRIPT, SCOPE2)]);
// Wait for all workers to activate.
workers = registrations.map(get_effective_worker);
return Promise.all([
wait_for_state(t, workers[0], 'activated'),
wait_for_state(t, workers[1], 'activated'),
// This promise will resolve when |wait_for_worker_promise|
// in OTHER_ORIGIN_IFRAME_URL resolves.
send_to_iframe(other_origin_frame, {command: 'wait_for_worker'})]);
}, 'initialize global state');
function get_effective_worker(registration) {
if (registration.active)
return registration.active;
if (registration.waiting)
return registration.waiting;
if (registration.installing)
return registration.installing;
}
async function check_all_intercepted_urls(expected_urls) {
const urls = [];
urls.push(await get_intercepted_urls(workers[0]));
urls.push(await get_intercepted_urls(workers[1]));
// Gets the request URLs which are intercepted by OTHER_ORIGIN_SCOPE's
// SW. This promise will resolve when get_request_infos() in
// OTHER_ORIGIN_IFRAME_URL resolves.
const request_infos = await send_to_iframe(other_origin_frame,
{command: 'get_request_infos'});
urls.push(request_infos.map(info => { return info.url; }));
assert_object_equals(urls, expected_urls, 'Intercepted URLs should match.');
}
// Checks |clients| returned from a worker. Only the client matching
// |expected_final_client_tag| should be found. Returns true if a client was
// found. Note that the final client is not necessarily found by this worker,
// if the client is cross-origin.
//
// |clients| is an object like:
// {x: {found: true, id: id1, url: url1}, b: {found: false}}
function check_clients(clients,
expected_id,
expected_url,
expected_final_client_tag,
worker_name) {
let found = false;
Object.keys(clients).forEach(key => {
const info = clients[key];
if (info.found) {
assert_true(!!expected_final_client_tag,
`${worker_name} client tag exists`);
assert_equals(key, expected_final_client_tag,
`${worker_name} client tag matches`);
assert_equals(info.id, expected_id, `${worker_name} client id`);
assert_equals(info.url, expected_url, `${worker_name} client url`);
found = true;
}
});
return found;
}
function check_resulting_client_ids(infos, expected_infos, actual_ids, worker) {
assert_equals(infos.length, expected_infos.length,
`request length for ${worker}`);
for (var i = 0; i < infos.length; i++) {
const tag = expected_infos[i].resultingClientIdTag;
const url = expected_infos[i].url;
const actual_id = infos[i].resultingClientId;
const expected_id = actual_ids[tag];
assert_equals(typeof(actual_id), 'string',
`resultingClientId for ${url} request to ${worker}`);
if (expected_id) {
assert_equals(actual_id, expected_id,
`resultingClientId for ${url} request to ${worker}`);
} else {
actual_ids[tag] = actual_id;
}
}
}
// Creates an iframe and navigates to |url|, which is expected to start a chain
// of redirects.
// - |expected_last_url| is the expected window.location after the
// navigation.
//
// - |expected_request_infos| is the expected requests that the service workers
// were dispatched fetch events for. The format is:
// [
// [
// // Requests received by workers[0].
// {url: url1, resultingClientIdTag: 'a'},
// {url: url2, resultingClientIdTag: 'a'}
// ],
// [
// // Requests received by workers[1].
// {url: url3, resultingClientIdTag: 'a'}
// ],
// [
// // Requests received by the cross-origin worker.
// {url: url4, resultingClientIdTag: 'x'}
// {url: url5, resultingClientIdTag: 'x'}
// ]
// ]
// Here, |url| is |event.request.url| and |resultingClientIdTag| represents
// |event.resultingClientId|. Since the actual client ids are not known
// beforehand, the expectation isn't the literal expected value, but all equal
// tags must map to the same actual id.
//
// - |expected_final_client_tag| is the resultingClientIdTag that is
// expected to map to the created client's id. This is null if there
// is no such tag, which can happen when the final request was a cross-origin
// redirect to out-scope, so no worker received a fetch event whose
// resultingClientId is the id of the resulting client.
//
// In the example above:
// - workers[0] receives two requests with the same resultingClientId.
// - workers[1] receives one request also with that resultingClientId.
// - The cross-origin worker receives two requests with the same
// resultingClientId which differs from the previous one.
// - Assuming |expected_final_client_tag| is 'x', then the created
// client has the id seen by the cross-origin worker above.
function redirect_test(url,
expected_last_url,
expected_request_infos,
expected_final_client_tag,
test_name) {
promise_test(async t => {
const frame = await with_iframe(url);
t.add_cleanup(() => { frame.remove(); });
// Switch on variant.
if (document.location.search == '?client') {
return client_variant_test(url, expected_last_url, expected_request_infos,
expected_final_client_tag, test_name);
}
return default_variant_test(url, expected_last_url, expected_request_infos,
frame, test_name);
}, test_name);
}
// The default variant tests the request interception chain and
// resulting document.location.
async function default_variant_test(url,
expected_last_url,
expected_request_infos,
frame,
test_name) {
const expected_intercepted_urls = expected_request_infos.map(
requests_for_worker => {
return requests_for_worker.map(info => {
return info.url;
});
});
await check_all_intercepted_urls(expected_intercepted_urls);
const last_url = await send_to_iframe(frame, 'getLocation');
assert_equals(last_url, expected_last_url, 'Last URL should match.');
}
// The "client" variant tests the Clients API using resultingClientId.
async function client_variant_test(url,
expected_last_url,
expected_request_infos,
expected_final_client_tag,
test_name) {
// Request infos is an array like:
// [
// [{url: url1, resultingClientIdTag: tag1}],
// [{url: url2, resultingClientIdTag: tag2}],
// [{url: url3: resultingClientIdTag: tag3}]
// ]
const requestInfos = await get_all_request_infos();
// We check the actual infos against the expected ones, and learn the
// actual ids as we go.
const actual_ids = {};
check_resulting_client_ids(requestInfos[0],
expected_request_infos[0],
actual_ids,
'worker0');
check_resulting_client_ids(requestInfos[1],
expected_request_infos[1],
actual_ids,
'worker1');
check_resulting_client_ids(requestInfos[2],
expected_request_infos[2],
actual_ids,
'crossOriginWorker');
// Now |actual_ids| maps tag to actual id:
// {x: id1, b: id2, c: id3}
// Ask each worker to try to resolve the actual ids to clients.
// Only |expected_final_client_tag| should resolve to a client.
const client_infos = await get_all_clients(actual_ids);
// Client infos is an object like:
// {
// worker0: {x: {found: true, id: id1, url: url1}, b: {found: false}},
// worker1: {x: {found: true, id: id1, url: url1}},
// crossOriginWorker: {x: {found: false}}, {b: {found: false}}
// }
//
// Now check each client info. check_clients() verifies each info: only
// |expected_final_client_tag| should ever be found and the found client
// should have the expected url and id. A wrinkle is that not all workers
// will find the client, if they are cross-origin to the client. This
// means check_clients() trivially passes if no clients are found. So
// additionally check that at least one worker found the client (|found|),
// if that was expected (|expect_found|).
let found = false;
const expect_found = !!expected_final_client_tag;
const expected_id = actual_ids[expected_final_client_tag];
found = check_clients(client_infos.worker0,
expected_id,
expected_last_url,
expected_final_client_tag,
'worker0');
found = check_clients(client_infos.worker1,
expected_id,
expected_last_url,
expected_final_client_tag,
'worker1') || found;
found = check_clients(client_infos.crossOriginWorker,
expected_id,
expected_last_url,
expected_final_client_tag,
'crossOriginWorker') || found;
assert_equals(found, expect_found, 'client found');
if (!expect_found) {
// TODO(falken): Ask the other origin frame if it has a client of the
// expected URL.
}
}
window.addEventListener('message', on_message, false);
function on_message(e) {
if (e.origin != host_info['HTTPS_REMOTE_ORIGIN'] &&
e.origin != host_info['HTTPS_ORIGIN'] ) {
console.error('invalid origin: ' + e.origin);
return;
}
var resolve = message_resolvers[e.data.id];
delete message_resolvers[e.data.id];
resolve(e.data.result);
}
function send_to_iframe(frame, message) {
var message_id = next_message_id++;
return new Promise(resolve => {
message_resolvers[message_id] = resolve;
frame.contentWindow.postMessage(
{id: message_id, message},
'*');
});
}
async function get_all_clients(actual_ids) {
const client_infos = {};
client_infos['worker0'] = await get_clients(workers[0], actual_ids);
client_infos['worker1'] = await get_clients(workers[1], actual_ids);
client_infos['crossOriginWorker'] =
await send_to_iframe(other_origin_frame,
{command: 'get_clients', actual_ids});
return client_infos;
}
function get_clients(worker, actual_ids) {
return new Promise(resolve => {
var channel = new MessageChannel();
channel.port1.onmessage = (msg) => {
resolve(msg.data.clients);
};
worker.postMessage({command: 'getClients', actual_ids, port: channel.port2},
[channel.port2]);
});
}
// Returns an array of the URLs that |worker| received fetch events for:
// [url1, url2]
async function get_intercepted_urls(worker) {
const infos = await get_request_infos(worker);
return infos.map(info => { return info.url; });
}
// Returns the requests that |worker| received fetch events for. The return
// value is an array of format:
// [
// {url: url1, resultingClientId: id},
// {url: url2, resultingClientId: id}
// ]
function get_request_infos(worker) {
return new Promise(resolve => {
var channel = new MessageChannel();
channel.port1.onmessage = (msg) => {
resolve(msg.data.requestInfos);
};
worker.postMessage({command: 'getRequestInfos', port: channel.port2},
[channel.port2]);
});
}
// Returns an array of the requests the workers received fetch events for:
// [
// // Requests from workers[0].
// [
// {url: url1, resultingClientIdTag: tag1},
// {url: url2, resultingClientIdTag: tag1}
// ],
//
// // Requests from workers[1].
// [{url: url3, resultingClientIdTag: tag2}],
//
// // Requests from the cross-origin worker.
// []
// ]
async function get_all_request_infos() {
const request_infos = [];
request_infos.push(await get_request_infos(workers[0]));
request_infos.push(await get_request_infos(workers[1]));
request_infos.push(await send_to_iframe(other_origin_frame,
{command: 'get_request_infos'}));
return request_infos;
}
let url;
let url1;
let url2;
// Normal redirect (from out-scope to in-scope).
url = SCOPE1;
redirect_test(
OUT_SCOPE + 'url=' + encodeURIComponent(url),
url,
[[{url, resultingClientIdTag: 'x'}], [], []],
'x',
'Normal redirect to same-origin scope.');
url = SCOPE1 + '#ref';
redirect_test(
OUT_SCOPE + 'url=' + encodeURIComponent(SCOPE1) + '#ref',
url,
[[{url, resultingClientIdTag: 'x'}], [], []],
'x',
'Normal redirect to same-origin scope with a hash fragment.');
url = SCOPE1 + '#ref2';
redirect_test(
OUT_SCOPE + 'url=' + encodeURIComponent(url) + '#ref',
url,
[[{url, resultingClientIdTag: 'x'}], [], []],
'x',
'Normal redirect to same-origin scope with different hash fragments.');
url = OTHER_ORIGIN_SCOPE;
redirect_test(
OUT_SCOPE + 'url=' + encodeURIComponent(url),
url,
[[], [], [{url, resultingClientIdTag: 'x'}]],
'x',
'Normal redirect to other-origin scope.');
// SW fallbacked redirect. SW doesn't handle the fetch request.
url = SCOPE1 + 'url=' + encodeURIComponent(OUT_SCOPE);
redirect_test(
url,
OUT_SCOPE,
[[{url, resultingClientIdTag: 'x'}], [], []],
'x',
'SW-fallbacked redirect to same-origin out-scope.');
url1 = SCOPE1 + 'url=' + encodeURIComponent(SCOPE1);
url2 = SCOPE1;
redirect_test(
url1,
url2,
[
[
{url: url1, resultingClientIdTag: 'x'},
{url: url2, resultingClientIdTag: 'x'}
],
[],
[]
],
'x',
'SW-fallbacked redirect to same-origin same-scope.');
url1 = SCOPE1 + 'url=' + encodeURIComponent(SCOPE1) + '#ref';
url2 = SCOPE1 + '#ref';
redirect_test(
url1,
url2,
[
[
{url: url1, resultingClientIdTag: 'x'},
{url: url2, resultingClientIdTag: 'x'}
],
[],
[]
],
'x',
'SW-fallbacked redirect to same-origin same-scope with a hash fragment.');
url1 = SCOPE1 + 'url=' + encodeURIComponent(SCOPE1 + '#ref2') + '#ref';
url2 = SCOPE1 + '#ref2';
redirect_test(
url1,
url2,
[
[
{url: url1, resultingClientIdTag: 'x'},
{url: url2, resultingClientIdTag: 'x'}
],
[],
[]
],
'x',
'SW-fallbacked redirect to same-origin same-scope with different hash ' +
'fragments.');
url1 = SCOPE1 + 'url=' + encodeURIComponent(SCOPE2);
url2 = SCOPE2;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'x'}],
[{url: url2, resultingClientIdTag: 'x'}],
[]
],
'x',
'SW-fallbacked redirect to same-origin other-scope.');
url1 = SCOPE1 + 'url=' + encodeURIComponent(OTHER_ORIGIN_OUT_SCOPE);
url2 = OTHER_ORIGIN_OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'a'}], [], []],
null,
'SW-fallbacked redirect to other-origin out-scope.');
url1 = SCOPE1 + 'url=' + encodeURIComponent(OTHER_ORIGIN_SCOPE);
url2 = OTHER_ORIGIN_SCOPE;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'a'}],
[],
[{url: url2, resultingClientIdTag: 'x'}]
],
'x',
'SW-fallbacked redirect to other-origin in-scope.');
url3 = SCOPE1;
url2 = OTHER_ORIGIN_SCOPE + 'url=' + encodeURIComponent(url3);
url1 = SCOPE1 + 'url=' + encodeURIComponent(url2);
redirect_test(
url1,
url3,
[
[
{url: url1, resultingClientIdTag: 'a'},
{url: url3, resultingClientIdTag: 'x'}
],
[],
[{url: url2, resultingClientIdTag: 'b'}]
],
'x',
'SW-fallbacked redirect to other-origin and back to same-origin.');
// SW generated redirect.
// SW: event.respondWith(Response.redirect(params['url']));
url1 = SCOPE1 + 'sw=gen&url=' + encodeURIComponent(OUT_SCOPE);
url2 = OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'x'}], [], []],
'x',
'SW-generated redirect to same-origin out-scope.');
url1 = SCOPE1 + 'sw=gen&url=' + encodeURIComponent(OUT_SCOPE) + '#ref';
url2 = OUT_SCOPE + '#ref';
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'x'}], [], []],
'x',
'SW-generated redirect to same-origin out-scope with a hash fragment.');
url1 = SCOPE1 + 'sw=gen&url=' + encodeURIComponent(OUT_SCOPE + '#ref2') + '#ref';
url2 = OUT_SCOPE + '#ref2';
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'x'}], [], []],
'x',
'SW-generated redirect to same-origin out-scope with different hash ' +
'fragments.');
url1 = SCOPE1 + 'sw=gen&url=' + encodeURIComponent(SCOPE1);
url2 = SCOPE1;
redirect_test(
url1,
url2,
[
[
{url: url1, resultingClientIdTag: 'x'},
{url: url2, resultingClientIdTag: 'x'}
],
[],
[]
],
'x',
'SW-generated redirect to same-origin same-scope.');
url1 = SCOPE1 + 'sw=gen&url=' + encodeURIComponent(SCOPE2);
url2 = SCOPE2;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'x'}],
[{url: url2, resultingClientIdTag: 'x'}],
[]
],
'x',
'SW-generated redirect to same-origin other-scope.');
url1 = SCOPE1 + 'sw=gen&url=' + encodeURIComponent(OTHER_ORIGIN_OUT_SCOPE);
url2 = OTHER_ORIGIN_OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'a'}], [], []],
null,
'SW-generated redirect to other-origin out-scope.');
url1 = SCOPE1 + 'sw=gen&url=' + encodeURIComponent(OTHER_ORIGIN_SCOPE);
url2 = OTHER_ORIGIN_SCOPE;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'a'}],
[],
[{url: url2, resultingClientIdTag: 'x'}]
],
'x',
'SW-generated redirect to other-origin in-scope.');
// SW fetched redirect.
// SW: event.respondWith(fetch(event.request));
url1 = SCOPE1 + 'sw=fetch&url=' + encodeURIComponent(OUT_SCOPE)
url2 = OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'x'}], [], []],
'x',
'SW-fetched redirect to same-origin out-scope.');
url1 = SCOPE1 + 'sw=fetch&url=' + encodeURIComponent(SCOPE1);
url2 = SCOPE1;
redirect_test(
url1,
url2,
[
[
{url: url1, resultingClientIdTag: 'x'},
{url: url2, resultingClientIdTag: 'x'}
],
[],
[]
],
'x',
'SW-fetched redirect to same-origin same-scope.');
url1 = SCOPE1 + 'sw=fetch&url=' + encodeURIComponent(SCOPE2);
url2 = SCOPE2;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'x'}],
[{url: url2, resultingClientIdTag: 'x'}],
[]
],
'x',
'SW-fetched redirect to same-origin other-scope.');
url1 = SCOPE1 + 'sw=fetch&url=' + encodeURIComponent(OTHER_ORIGIN_OUT_SCOPE);
url2 = OTHER_ORIGIN_OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'a'}], [], []],
null,
'SW-fetched redirect to other-origin out-scope.');
url1 = SCOPE1 + 'sw=fetch&url=' + encodeURIComponent(OTHER_ORIGIN_SCOPE);
url2 = OTHER_ORIGIN_SCOPE;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'a'}],
[],
[{url: url2, resultingClientIdTag: 'x'}]
],
'x',
'SW-fetched redirect to other-origin in-scope.');
// SW responds with a fetch from a different url.
// SW: event.respondWith(fetch(params['url']));
url2 = SCOPE1;
url1 = SCOPE1 + 'sw=fetch-url&url=' + encodeURIComponent(url2);
redirect_test(
url1,
url1,
[
[
{url: url1, resultingClientIdTag: 'x'}
],
[],
[]
],
'x',
'SW-fetched response from different URL, same-origin same-scope.');
// Opaque redirect.
// SW: event.respondWith(fetch(
// new Request(event.request.url, {redirect: 'manual'})));
url1 = SCOPE1 + 'sw=manual&url=' + encodeURIComponent(OUT_SCOPE);
url2 = OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'x'}], [], []],
'x',
'Redirect to same-origin out-scope with opaque redirect response.');
url1 = SCOPE1 + 'sw=manual&url=' + encodeURIComponent(SCOPE1);
url2 = SCOPE1;
redirect_test(
url1,
url2,
[
[
{url: url1, resultingClientIdTag: 'x'},
{url: url2, resultingClientIdTag: 'x'}
],
[],
[]
],
'x',
'Redirect to same-origin same-scope with opaque redirect response.');
url1 = SCOPE1 + 'sw=manual&url=' + encodeURIComponent(SCOPE2);
url2 = SCOPE2;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'x'}],
[{url: url2, resultingClientIdTag: 'x'}],
[]
],
'x',
'Redirect to same-origin other-scope with opaque redirect response.');
url1 = SCOPE1 + 'sw=manual&url=' + encodeURIComponent(OTHER_ORIGIN_OUT_SCOPE);
url2 = OTHER_ORIGIN_OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'a'}], [], []],
null,
'Redirect to other-origin out-scope with opaque redirect response.');
url1 = SCOPE1 + 'sw=manual&url=' + encodeURIComponent(OTHER_ORIGIN_SCOPE);
url2 = OTHER_ORIGIN_SCOPE;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'a'}],
[],
[{url: url2, resultingClientIdTag: 'x'}]
],
'x',
'Redirect to other-origin in-scope with opaque redirect response.');
url= SCOPE1 + 'sw=manual&noLocationRedirect';
redirect_test(
url, url, [[{url, resultingClientIdTag: 'x'}], [], []],
'x',
'No location redirect response.');
// Opaque redirect passed through Cache.
// SW responds with an opaque redirectresponse from the Cache API.
url1 = SCOPE1 + 'sw=manualThroughCache&url=' + encodeURIComponent(OUT_SCOPE);
url2 = OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'x'}], [], []],
'x',
'Redirect to same-origin out-scope with opaque redirect response which ' +
'is passed through Cache.');
url1 = SCOPE1 + 'sw=manualThroughCache&url=' + encodeURIComponent(SCOPE1);
url2 = SCOPE1;
redirect_test(
url1,
url2,
[
[
{url: url1, resultingClientIdTag: 'x'},
{url: url2, resultingClientIdTag: 'x'}
],
[],
[]
],
'x',
'Redirect to same-origin same-scope with opaque redirect response which ' +
'is passed through Cache.');
url1 = SCOPE1 + 'sw=manualThroughCache&url=' + encodeURIComponent(SCOPE2);
url2 = SCOPE2;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'x'}],
[{url: url2, resultingClientIdTag: 'x'}],
[]
],
'x',
'Redirect to same-origin other-scope with opaque redirect response which ' +
'is passed through Cache.');
url1 = SCOPE1 + 'sw=manualThroughCache&url=' +
encodeURIComponent(OTHER_ORIGIN_OUT_SCOPE);
url2 = OTHER_ORIGIN_OUT_SCOPE;
redirect_test(
url1,
url2,
[[{url: url1, resultingClientIdTag: 'a'}], [], []],
null,
'Redirect to other-origin out-scope with opaque redirect response which ' +
'is passed through Cache.');
url1 = SCOPE1 + 'sw=manualThroughCache&url=' +
encodeURIComponent(OTHER_ORIGIN_SCOPE);
url2 = OTHER_ORIGIN_SCOPE;
redirect_test(
url1,
url2,
[
[{url: url1, resultingClientIdTag: 'a'}],
[],
[{url: url2, resultingClientIdTag: 'x'}],
],
'x',
'Redirect to other-origin in-scope with opaque redirect response which ' +
'is passed through Cache.');
url = SCOPE1 + 'sw=manualThroughCache&noLocationRedirect';
redirect_test(
url,
url,
[[{url, resultingClientIdTag: 'x'}], [], []],
'x',
'No location redirect response via Cache.');
// Clean up the test environment. This promise_test() needs to be the last one.
promise_test(async t => {
registrations.forEach(async registration => {
if (registration)
await registration.unregister();
});
await send_to_iframe(other_origin_frame, {command: 'unregister'});
other_origin_frame.remove();
}, 'clean up global state');
</script>
</body>