blob: ea55b7b495259c58027ac24be4b918585cb44fed (
plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
|
// META: script=/resources/testdriver.js
// META: script=/resources/testdriver-vendor.js
// META: script=/common/gc.js
// META: script=/bluetooth/resources/bluetooth-test.js
// META: script=/bluetooth/resources/bluetooth-fake-devices.js
// Generated by //third_party/WebKit/LayoutTests/bluetooth/generate.py
'use strict';
const test_desc =
'Calls to getPrimaryServices when device disconnects and discovery' +
' times out should reject promise rather than get stuck.';
let device;
bluetooth_test(
async (t) => {
let {device, fake_peripheral} =
await getConnectedHealthThermometerDevice({
filters: [{services: ['health_thermometer']}],
optionalServices: ['generic_access']
});
await fake_peripheral.setNextGATTDiscoveryResponse({
code: HCI_CONNECTION_TIMEOUT,
});
await Promise.all([
fake_peripheral.simulateGATTDisconnection({
code: HCI_SUCCESS,
}),
// Using promise_rejects_dom here rather than
// assert_promise_rejects_with_message as the race between
// simulateGATTDisconnection and getPrimaryServices might end up giving
// slightly different exception message (i.e has "Failed to execute ...
// on
// ... " prefix when disconnected state is reflected on the renderer
// side). The point of the test is no matter how race between them, the
// promise will be rejected as opposed to get stuck.
promise_rejects_dom(t, 'NetworkError', device.gatt.getPrimaryServices()),
]);
},
test_desc, '',
// As specified above there is a race condition between
// simulateGATTDisconnection and getPrimaryServices, the artificial
// GATTDiscoveryResponse might not be consumed in case
// simulateGATTDisconnection happens first. As a result explicitly skip
// all response consumed validation at the end of the test.
/*validate_response_consumed=*/ false);
|