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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-19 01:47:29 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-19 01:47:29 +0000
commit0ebf5bdf043a27fd3dfb7f92e0cb63d88954c44d (patch)
treea31f07c9bcca9d56ce61e9a1ffd30ef350d513aa /testing/web-platform/tests/web-nfc/NDEFReader_scan.https.html
parentInitial commit. (diff)
downloadfirefox-esr-0ebf5bdf043a27fd3dfb7f92e0cb63d88954c44d.tar.xz
firefox-esr-0ebf5bdf043a27fd3dfb7f92e0cb63d88954c44d.zip
Adding upstream version 115.8.0esr.upstream/115.8.0esr
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
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+<!DOCTYPE html>
+<meta charset=utf-8>
+<title>Web NFC: NDEFReader.scan tests</title>
+<link rel="author" title="Intel" href="http://www.intel.com"/>
+<link rel="help" href="https://w3c.github.io/web-nfc/"/>
+<script src="/resources/testharness.js"></script>
+<script src="/resources/testharnessreport.js"></script>
+<script src="resources/nfc-helpers.js"></script>
+<script>
+
+"use strict";
+
+const invalid_signals = [
+ "string",
+ 123,
+ {},
+ true,
+ Symbol(),
+ () => {},
+ self
+];
+
+function waitSyntaxErrorPromise(t, scan_options) {
+ const ndef = new NDEFReader();
+ return promise_rejects_dom(t, 'SyntaxError', ndef.scan(scan_options));
+}
+
+nfc_test(async t => {
+ const ndef = new NDEFReader();
+ const promises = [];
+ invalid_signals.forEach(invalid_signal => {
+ promises.push(promise_rejects_js(t, TypeError,
+ ndef.scan({ signal: invalid_signal })));
+ });
+ await Promise.all(promises);
+}, "Test that NDEFReader.scan rejects if signal is not an AbortSignal.");
+
+nfc_test(async t => {
+ await test_driver.set_permission({ name: 'nfc' }, 'denied');
+ const ndef = new NDEFReader();
+ await promise_rejects_dom(t, 'NotAllowedError', ndef.scan());
+}, "NDEFReader.scan should fail if user permission is not granted.");
+
+// We do not provide NFC mock here to simulate that there has no available
+// implementation for NFC Mojo interface.
+nfc_test(async (t, mockNFC) => {
+ mockNFC.simulateClosedPipe();
+ const ndef = new NDEFReader();
+ await promise_rejects_dom(t, 'NotSupportedError', ndef.scan());
+}, "NDEFReader.scan should fail if no implementation for NFC Mojo interface.");
+
+nfc_test(async (t, mockNFC) => {
+ mockNFC.setHWStatus(NFCHWStatus.DISABLED);
+ const ndef = new NDEFReader();
+ await promise_rejects_dom(t, 'NotReadableError', ndef.scan());
+}, "NDEFReader.scan should fail if NFC HW is disabled.");
+
+nfc_test(async (t, mockNFC) => {
+ mockNFC.setHWStatus(NFCHWStatus.NOT_SUPPORTED);
+ const ndef = new NDEFReader();
+ await promise_rejects_dom(t, 'NotSupportedError', ndef.scan());
+}, "NDEFReader.scan should fail if NFC HW is not supported.");
+
+nfc_test(async () => {
+ await new Promise((resolve,reject) => {
+ const iframe = document.createElement('iframe');
+ iframe.srcdoc = `<script>
+ window.onmessage = async (message) => {
+ if (message.data === "Ready") {
+ try {
+ const ndef = new NDEFReader();
+ await ndef.scan();
+ parent.postMessage("Failure", "*");
+ } catch (error) {
+ if (error.name == "InvalidStateError") {
+ parent.postMessage("Success", "*");
+ } else {
+ parent.postMessage("Failure", "*");
+ }
+ }
+ }
+ };
+ <\/script>`;
+ iframe.onload = () => iframe.contentWindow.postMessage('Ready', '*');
+ document.body.appendChild(iframe);
+ window.onmessage = message => {
+ if (message.data == 'Success') {
+ resolve();
+ } else if (message.data == 'Failure') {
+ reject();
+ }
+ }
+ });
+}, 'Test that WebNFC API is not accessible from iframe context.');
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ const ndefWatcher = new EventWatcher(t, ndef, ["reading", "readingerror"]);
+ const promise = ndefWatcher.wait_for("reading").then(event => {
+ assert_true(event instanceof NDEFReadingEvent);
+ controller.abort();
+ });
+ await ndef.scan({signal : controller.signal});
+
+ mockNFC.setReadingMessage(createMessage([createTextRecord(test_text_data)]));
+ await promise;
+}, "Test that nfc watch success if NFC HW is enabled.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ controller.abort();
+ await promise_rejects_dom(t, 'AbortError', ndef.scan({signal: controller.signal}));
+}, "Test that NDEFReader.scan rejects if NDEFScanOptions.signal is already aborted.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ const promise = ndef.scan({signal: controller.signal});
+ controller.abort();
+ await promise_rejects_dom(t, 'AbortError', promise);
+}, "Test that NDEFReader.scan rejects if NDEFScanOptions.signal aborts right after \
+the scan invocation.");
+
+nfc_test(async () => {
+ const ndef = new NDEFReader();
+
+ const controller1 = new AbortController();
+ await ndef.scan({signal: controller1.signal});
+
+ controller1.abort();
+
+ const controller2 = new AbortController();
+ await ndef.scan({signal: controller2.signal});
+}, "Test that NDEFReader.scan signals are independant.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ const ndefWatcher = new EventWatcher(t, ndef, ["reading", "readingerror"]);
+ const message = createMessage([createTextRecord(test_text_data)]);
+ const promise = ndefWatcher.wait_for("reading").then(event => {
+ assert_true(event instanceof NDEFReadingEvent);
+ });
+ await ndef.scan({signal : controller.signal});
+
+ mockNFC.setReadingMessage(message);
+ await promise;
+
+ ndef.onreading = t.unreached_func("reading event should not be fired.");
+ mockNFC.setReadingMessage(message);
+ controller.abort();
+ await new Promise((resolve, reject) => {
+ t.step_timeout(resolve, 100);
+ });
+}, "Test that NDEFReader can not get any reading events once the signal aborts.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ const ndefWatcher = new EventWatcher(t, ndef, ["reading", "readingerror"]);
+ const promise = ndefWatcher.wait_for("reading").then(event => {
+ controller.abort();
+ assert_true(event instanceof NDEFReadingEvent);
+
+ // The message in the event contains only the external type record.
+ assert_equals(event.message.records.length, 1);
+ assert_equals(event.message.records[0].recordType, 'example.com:containsLocalRecord',
+ 'recordType');
+
+ // The external type record contains only the local type record.
+ assert_equals(event.message.records[0].toRecords().length, 1);
+ assert_equals(event.message.records[0].toRecords()[0].recordType, ':containsTextRecord',
+ 'recordType');
+
+ // The local type record contains only the text record.
+ assert_equals(event.message.records[0].toRecords()[0].toRecords()[0].recordType, 'text',
+ 'recordType');
+ const decoder = new TextDecoder();
+ assert_equals(decoder.decode(event.message.records[0].toRecords()[0].toRecords()[0].data),
+ test_text_data, 'data has the same content with the original dictionary');
+ });
+ await ndef.scan({signal : controller.signal});
+
+ // An external type record --contains-> a local type record --contains-> a text record.
+ const messageContainText = createMessage([createTextRecord(test_text_data)]);
+ const messageContainLocal= createMessage([createRecord(':containsTextRecord',
+ messageContainText)]);
+ const message = createMessage([createRecord('example.com:containsLocalRecord',
+ messageContainLocal)]);
+ mockNFC.setReadingMessage(message);
+ await promise;
+}, "NDEFRecord.toRecords returns its embedded records correctly.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ const ndefWatcher = new EventWatcher(t, ndef, ["reading", "readingerror"]);
+ const promise = ndefWatcher.wait_for("reading").then(event => {
+ controller.abort();
+ assert_true(event instanceof NDEFReadingEvent);
+
+ // The message in the event contains only the smart-poster record.
+ assert_equals(event.message.records.length, 1);
+ assert_equals(event.message.records[0].recordType, 'smart-poster', 'recordType');
+ assert_equals(event.message.records[0].mediaType, null, 'mediaType');
+ assert_equals(event.message.records[0].id, 'dummy_record_id', 'id');
+
+ // The smart-poster record contains one uri record and one text record.
+ const embedded_records = event.message.records[0].toRecords();
+ assert_equals(embedded_records.length, 2);
+
+ const decoder = new TextDecoder();
+ let embedded_record_types = [];
+ for(let record of embedded_records) {
+ embedded_record_types.push(record.recordType);
+ switch(record.recordType) {
+ case 'url':
+ assert_equals(record.mediaType, null, 'url record\'s mediaType');
+ assert_equals(record.id, test_record_id, 'url record\'s id');
+ assert_equals(decoder.decode(record.data), test_url_data, 'url record\'s data');
+ break;
+ case 'text':
+ assert_equals(record.mediaType, null, 'text record\'s mediaType');
+ assert_equals(record.id, test_record_id, 'text record\'s id');
+ assert_equals(decoder.decode(record.data), test_text_data, 'text record\'s data');
+ break;
+ default:
+ assert_unreached("Unknown recordType");
+ }
+ }
+ assert_array_equals(embedded_record_types.sort(), ['text', 'url'],
+ 'smart-poster record\'s contained record types');
+ });
+ await ndef.scan({signal : controller.signal});
+
+ // A smart-poster record contains a uri record, text record.
+ const uri_record = createUrlRecord(test_url_data);
+ const text_record = createTextRecord(test_text_data);
+ const payload_message = createMessage([uri_record, text_record]);
+ const message = createMessage([createRecord(
+ 'smart-poster', payload_message, "dummy_record_id")]);
+ mockNFC.setReadingMessage(message);
+ await promise;
+}, "NDEFReader.scan returns smart-poster record correctly.");
+
+nfc_test(async (t, mockNFC) => {
+ const promises = [];
+
+ const ndef1 = new NDEFReader();
+ const ndefWatcher1 = new EventWatcher(t, ndef1, ["reading", "readingerror"]);
+ const promise1 = ndefWatcher1.wait_for("readingerror");
+ promises.push(promise1);
+ await ndef1.scan();
+
+ const ndef2 = new NDEFReader();
+ const ndefWatcher2 = new EventWatcher(t, ndef2, ["reading", "readingerror"]);
+ const promise2 = ndefWatcher2.wait_for("readingerror");
+ promises.push(promise2);
+ await ndef2.scan();
+
+ mockNFC.simulateNonNDEFTagDiscovered();
+ await Promise.all(promises);
+}, "Test that NDEFReader.onreadingerror should be fired if the NFC tag does not \
+expose NDEF technology.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ const ndefWatcher = new EventWatcher(t, ndef, ["reading", "readingerror"]);
+ const promise = ndefWatcher.wait_for("reading").then(event => {
+ assert_equals(event.serialNumber, fake_tag_serial_number);
+ assert_equals(event.message.records.length, 0);
+ controller.abort();
+ });
+ await ndef.scan({signal : controller.signal});
+
+ mockNFC.setReadingMessage({ records: [] });
+ await promise;
+}, "Test that NDEFReader.onreading should be fired on an unformatted NFC tag \
+with empty records array for NDEFMessage.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ const message = createMessage([createTextRecord(test_text_data),
+ createMimeRecordFromJson(test_json_data),
+ createMimeRecord(test_buffer_data),
+ createUnknownRecord(test_buffer_data),
+ createUrlRecord(test_url_data),
+ createUrlRecord(test_url_data, true),
+ createRecord('w3.org:xyz', test_buffer_data)],
+ test_message_origin);
+ const ndefWatcher = new EventWatcher(t, ndef, ["reading", "readingerror"]);
+ const promise = ndefWatcher.wait_for("reading").then(event => {
+ assert_equals(event.serialNumber, fake_tag_serial_number);
+ assertWebNDEFMessagesEqual(event.message, new NDEFMessage(message));
+ controller.abort();
+ });
+ await ndef.scan({signal : controller.signal});
+
+ mockNFC.setReadingMessage(message);
+ await promise;
+}, "Test that reading message with multiple records should succeed.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const promise1 = ndef.scan();
+ const promise2 = promise_rejects_dom(t, 'InvalidStateError', ndef.scan());
+ await promise1;
+ await promise2;
+ await promise_rejects_dom(t, 'InvalidStateError', ndef.scan());
+}, "Test that NDEFReader.scan rejects if there is already an ongoing scan.");
+
+nfc_test(async (t, mockNFC) => {
+ const ndef = new NDEFReader();
+ const controller = new AbortController();
+ await ndef.scan({signal : controller.signal});
+ controller.abort();
+ await ndef.scan();
+}, "Test that NDEFReader.scan can be started after the previous scan is aborted.");
+</script>