mirror of
https://github.com/servo/servo.git
synced 2025-06-28 11:03:39 +01:00
211 lines
6.9 KiB
JavaScript
211 lines
6.9 KiB
JavaScript
let unreached = event => {
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assert_unreached(event.error.name + ": " + event.error.message);
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};
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let properties = {
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'AmbientLightSensor' : ['timestamp', 'illuminance'],
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'Accelerometer' : ['timestamp', 'x', 'y', 'z'],
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'LinearAccelerationSensor' : ['timestamp', 'x', 'y', 'z'],
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'Gyroscope' : ['timestamp', 'x', 'y', 'z'],
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'Magnetometer' : ['timestamp', 'x', 'y', 'z'],
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'AbsoluteOrientationSensor' : ['timestamp', 'quaternion'],
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'RelativeOrientationSensor' : ['timestamp', 'quaternion']
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};
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function assert_reading_not_null(sensor) {
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for (let property in properties[sensor.constructor.name]) {
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let propertyName = properties[sensor.constructor.name][property];
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assert_not_equals(sensor[propertyName], null);
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}
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}
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function assert_reading_null(sensor) {
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for (let property in properties[sensor.constructor.name]) {
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let propertyName = properties[sensor.constructor.name][property];
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assert_equals(sensor[propertyName], null);
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}
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}
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function reading_to_array(sensor) {
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let arr = new Array();
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for (let property in properties[sensor.constructor.name]) {
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let propertyName = properties[sensor.constructor.name][property];
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arr[property] = sensor[propertyName];
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}
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return arr;
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}
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function runGenericSensorTests(sensorType) {
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async_test(t => {
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let sensor = new sensorType();
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sensor.onreading = t.step_func_done(() => {
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assert_reading_not_null(sensor);
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assert_true(sensor.hasReading);
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sensor.stop();
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assert_reading_null(sensor);
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assert_false(sensor.hasReading);
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});
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sensor.onerror = t.step_func_done(unreached);
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sensor.start();
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}, `${sensorType.name}: Test that 'onreading' is called and sensor reading is valid`);
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async_test(t => {
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let sensor1 = new sensorType();
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let sensor2 = new sensorType();
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sensor1.onactivate = t.step_func_done(() => {
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// Reading values are correct for both sensors.
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assert_reading_not_null(sensor1);
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assert_reading_not_null(sensor2);
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//After first sensor stops its reading values are null,
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//reading values for the second sensor remains
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sensor1.stop();
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assert_reading_null(sensor1);
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assert_reading_not_null(sensor2);
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sensor2.stop();
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assert_reading_null(sensor2);
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});
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sensor1.onerror = t.step_func_done(unreached);
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sensor2.onerror = t.step_func_done(unreached);
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sensor1.start();
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sensor2.start();
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}, `${sensorType.name}: sensor reading is correct`);
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async_test(t => {
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let sensor = new sensorType();
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let cachedTimeStamp1;
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sensor.onactivate = () => {
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cachedTimeStamp1 = sensor.timestamp;
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};
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sensor.onerror = t.step_func_done(unreached);
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sensor.start();
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t.step_timeout(() => {
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sensor.onreading = t.step_func_done(() => {
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//sensor.timestamp changes.
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let cachedTimeStamp2 = sensor.timestamp;
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assert_greater_than(cachedTimeStamp2, cachedTimeStamp1);
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sensor.stop();
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});
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}, 1000);
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}, `${sensorType.name}: sensor timestamp is updated when time passes`);
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async_test(t => {
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let sensor = new sensorType();
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sensor.onerror = t.step_func_done(unreached);
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assert_false(sensor.activated);
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sensor.onreading = t.step_func_done(() => {
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assert_true(sensor.activated);
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sensor.stop();
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assert_false(sensor.activated);
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});
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sensor.start();
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assert_false(sensor.activated);
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}, `${sensorType.name}: Test that sensor can be successfully created and its states are correct.`);
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test(() => {
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let sensor, start_return;
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sensor = new sensorType();
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sensor.onerror = unreached;
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start_return = sensor.start();
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assert_equals(start_return, undefined);
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sensor.stop();
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}, `${sensorType.name}: sensor.start() returns undefined`);
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test(() => {
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try {
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let sensor = new sensorType();
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sensor.onerror = unreached;
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sensor.start();
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sensor.start();
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assert_false(sensor.activated);
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sensor.stop();
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} catch (e) {
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assert_unreached(e.name + ": " + e.message);
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}
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}, `${sensorType.name}: no exception is thrown when calling start() on already started sensor`);
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test(() => {
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let sensor, stop_return;
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sensor = new sensorType();
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sensor.onerror = unreached;
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sensor.start();
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stop_return = sensor.stop();
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assert_equals(stop_return, undefined);
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}, `${sensorType.name}: sensor.stop() returns undefined`);
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test(() => {
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try {
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let sensor = new sensorType();
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sensor.onerror = unreached;
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sensor.start();
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sensor.stop();
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sensor.stop();
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assert_false(sensor.activated);
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} catch (e) {
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assert_unreached(e.name + ": " + e.message);
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}
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}, `${sensorType.name}: no exception is thrown when calling stop() on already stopped sensor`);
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promise_test(() => {
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return new Promise((resolve,reject) => {
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let iframe = document.createElement('iframe');
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iframe.srcdoc = '<script>' +
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' window.onmessage = message => {' +
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' if (message.data === "LOADED") {' +
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' try {' +
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' new ' + sensorType.name + '();' +
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' parent.postMessage("FAIL", "*");' +
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' } catch (e) {' +
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' parent.postMessage(e.name, "*");' +
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' }' +
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' }' +
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' };' +
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'<\/script>';
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iframe.onload = () => iframe.contentWindow.postMessage('LOADED', '*');
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document.body.appendChild(iframe);
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window.onmessage = message => {
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if (message.data == 'SecurityError') {
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resolve();
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} else {
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reject();
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}
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}
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});
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}, `${sensorType.name}: throw a 'SecurityError' when constructing sensor object within iframe`);
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async_test(t => {
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let sensor = new sensorType();
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sensor.onactivate = t.step_func(() => {
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assert_reading_not_null(sensor);
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let cachedSensor1 = reading_to_array(sensor);
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let win = window.open('', '_blank');
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t.step_timeout(() => {
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let cachedSensor2 = reading_to_array(sensor);
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win.close();
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sensor.stop();
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assert_array_equals(cachedSensor1, cachedSensor2);
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t.done();
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}, 1000);
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});
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sensor.onerror = t.step_func_done(unreached);
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sensor.start();
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}, `${sensorType.name}: sensor readings can not be fired on the background tab`);
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}
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function runGenericSensorInsecureContext(sensorType) {
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test(() => {
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assert_false(sensorType in window, `${sensorType} must not be exposed`);
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}, `${sensorType} is not exposed in an insecure context`);
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}
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function runGenericSensorOnerror(sensorType) {
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async_test(t => {
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let sensor = new sensorType();
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sensor.onactivate = t.step_func_done(assert_unreached);
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sensor.onerror = t.step_func_done(event => {
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assert_false(sensor.activated);
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assert_equals(event.error.name, 'NotReadableError');
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});
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sensor.start();
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}, `${sensorType.name}: 'onerror' event is fired when sensor is not supported`);
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}
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