/***************************************************************************** * Open MCT, Copyright (c) 2014-2023, United States Government * as represented by the Administrator of the National Aeronautics and Space * Administration. All rights reserved. * * Open MCT is licensed under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the License. * You may obtain a copy of the License at * http://www.apache.org/licenses/LICENSE-2.0. * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * * Open MCT includes source code licensed under additional open source * licenses. See the Open Source Licenses file (LICENSES.md) included with * this source code distribution or the Licensing information page available * at runtime from the About dialog for additional information. *****************************************************************************/ /** * The fixtures in this file are to be used to consolidate common actions performed by the * various test suites. The goal is only to avoid duplication of code across test suites and not to abstract * away the underlying functionality of the application. For more about the App Action pattern, see /e2e/README.md) * * For example, if two functions are nearly identical in * timer.e2e.spec.js and notebook.e2e.spec.js, that function should be generalized and moved into this file. */ /** * Defines parameters to be used in the creation of a domain object. * @typedef {Object} CreateObjectOptions * @property {string} type the type of domain object to create (e.g.: "Sine Wave Generator"). * @property {string} [name] the desired name of the created domain object. * @property {string | import('../src/api/objects/ObjectAPI').Identifier} [parent] the Identifier or uuid of the parent object. * @property {Object} [customParameters] any additional parameters to be passed to the domain object's form. E.g. '[aria-label="Data Rate (hz)"]': {'0.1'} */ /** * Contains information about the newly created domain object. * @typedef {Object} CreatedObjectInfo * @property {string} name the name of the created object * @property {string} uuid the uuid of the created object * @property {string} url the relative url to the object (for use with `page.goto()`) */ /** * Defines parameters to be used in the creation of a notification. * @typedef {Object} CreateNotificationOptions * @property {string} message the message * @property {'info' | 'alert' | 'error'} severity the severity * @property {import('../src/api/notifications/NotificationAPI').NotificationOptions} [notificationOptions] additional options */ const Buffer = require('buffer').Buffer; const genUuid = require('uuid').v4; const { expect } = require('@playwright/test'); /** * This common function creates a domain object with the default options. It is the preferred way of creating objects * in the e2e suite when uninterested in properties of the objects themselves. * * @param {import('@playwright/test').Page} page * @param {CreateObjectOptions} options * @returns {Promise} An object containing information about the newly created domain object. */ async function createDomainObjectWithDefaults( page, { type, name, parent = 'mine', customParameters = {} } ) { if (!name) { name = `${type}:${genUuid()}`; } const parentUrl = await getHashUrlToDomainObject(page, parent); // Navigate to the parent object. This is necessary to create the object // in the correct location, such as a folder, layout, or plot. await page.goto(`${parentUrl}?hideTree=true`); //Click the Create button await page.click('button:has-text("Create")'); // Click the object specified by 'type' await page.click(`li[role='menuitem']:text("${type}")`); // Modify the name input field of the domain object to accept 'name' const nameInput = page.locator('form[name="mctForm"] .first input[type="text"]'); await nameInput.fill(''); await nameInput.fill(name); if (page.testNotes) { // Fill the "Notes" section with information about the // currently running test and its project. const notesInput = page.locator('form[name="mctForm"] #notes-textarea'); await notesInput.fill(page.testNotes); } // If there are any further parameters, fill them in for (const [key, value] of Object.entries(customParameters)) { const input = page.locator(`form[name="mctForm"] ${key}`); await input.fill(''); await input.fill(value); } // Click OK button and wait for Navigate event await Promise.all([ page.waitForLoadState(), page.click('[aria-label="Save"]'), // Wait for Save Banner to appear page.waitForSelector('.c-message-banner__message') ]); // Wait until the URL is updated await page.waitForURL(`**/${parent}/*`); const uuid = await getFocusedObjectUuid(page); const objectUrl = await getHashUrlToDomainObject(page, uuid); if (await _isInEditMode(page, uuid)) { // Save (exit edit mode) await page.locator('button[title="Save"]').click(); await page.locator('li[title="Save and Finish Editing"]').click(); } return { name, uuid, url: objectUrl }; } /** * Generate a notification with the given options. * @param {import('@playwright/test').Page} page * @param {CreateNotificationOptions} createNotificationOptions */ async function createNotification(page, createNotificationOptions) { await page.evaluate((_createNotificationOptions) => { const { message, severity, options } = _createNotificationOptions; const notificationApi = window.openmct.notifications; if (severity === 'info') { notificationApi.info(message, options); } else if (severity === 'alert') { notificationApi.alert(message, options); } else { notificationApi.error(message, options); } }, createNotificationOptions); } /** * Expand an item in the tree by a given object name. * @param {import('@playwright/test').Page} page * @param {string} name */ async function expandTreePaneItemByName(page, name) { const treePane = page.getByRole('tree', { name: 'Main Tree' }); const treeItem = treePane.locator(`role=treeitem[expanded=false][name=/${name}/]`); const expandTriangle = treeItem.locator('.c-disclosure-triangle'); await expandTriangle.click(); } /** * Create a Plan object from JSON with the provided options. * @param {import('@playwright/test').Page} page * @param {*} options * @returns {Promise} An object containing information about the newly created domain object. */ async function createPlanFromJSON(page, { name, json, parent = 'mine' }) { if (!name) { name = `Plan:${genUuid()}`; } const parentUrl = await getHashUrlToDomainObject(page, parent); // Navigate to the parent object. This is necessary to create the object // in the correct location, such as a folder, layout, or plot. await page.goto(`${parentUrl}?hideTree=true`); // Click the Create button await page.click('button:has-text("Create")'); // Click 'Plan' menu option await page.click(`li:text("Plan")`); // Modify the name input field of the domain object to accept 'name' const nameInput = page.getByLabel('Title', { exact: true }); await nameInput.fill(''); await nameInput.fill(name); // Upload buffer from memory await page.locator('input#fileElem').setInputFiles({ name: 'plan.txt', mimeType: 'text/plain', buffer: Buffer.from(JSON.stringify(json)) }); // Click OK button and wait for Navigate event await Promise.all([ page.waitForLoadState(), page.click('[aria-label="Save"]'), // Wait for Save Banner to appear page.waitForSelector('.c-message-banner__message') ]); // Wait until the URL is updated await page.waitForURL(`**/${parent}/*`); const uuid = await getFocusedObjectUuid(page); const objectUrl = await getHashUrlToDomainObject(page, uuid); return { uuid, name, url: objectUrl }; } /** * Open the given `domainObject`'s context menu from the object tree. * Expands the path to the object and scrolls to it if necessary. * * @param {import('@playwright/test').Page} page * @param {string} url the url to the object */ async function openObjectTreeContextMenu(page, url) { await page.goto(url); await page.click('button[title="Show selected item in tree"]'); await page.locator('.is-navigated-object').click({ button: 'right' }); } /** * Expands the entire object tree (every expandable tree item). * @param {import('@playwright/test').Page} page * @param {"Main Tree" | "Create Modal Tree"} [treeName="Main Tree"] */ async function expandEntireTree(page, treeName = 'Main Tree') { const treeLocator = page.getByRole('tree', { name: treeName }); const collapsedTreeItems = treeLocator .getByRole('treeitem', { expanded: false }) .locator('span.c-disclosure-triangle.is-enabled'); while ((await collapsedTreeItems.count()) > 0) { await collapsedTreeItems.nth(0).click(); // FIXME: Replace hard wait with something event-driven. // Without the wait, this fails periodically due to a race condition // with Vue rendering (loop exits prematurely). // eslint-disable-next-line playwright/no-wait-for-timeout await page.waitForTimeout(200); } } /** * Gets the UUID of the currently focused object by parsing the current URL * and returning the last UUID in the path. * @param {import('@playwright/test').Page} page * @returns {Promise} the uuid of the focused object */ async function getFocusedObjectUuid(page) { const UUIDv4Regexp = /[0-9a-f]{8}-[0-9a-f]{4}-4[0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}/gi; const focusedObjectUuid = await page.evaluate((regexp) => { return window.location.href.split('?')[0].match(regexp).at(-1); }, UUIDv4Regexp); return focusedObjectUuid; } /** * Returns the hashUrl to the domainObject given its uuid. * Useful for directly navigating to the given domainObject. * * URLs returned will be of the form `'./browse/#/mine///...'` * * @param {import('@playwright/test').Page} page * @param {string} uuid the uuid of the object to get the url for * @returns {Promise} the url of the object */ async function getHashUrlToDomainObject(page, uuid) { await page.waitForLoadState('load'); //Add some determinism const hashUrl = await page.evaluate(async (objectUuid) => { const path = await window.openmct.objects.getOriginalPath(objectUuid); let url = './#/browse/' + [...path] .reverse() .map((object) => window.openmct.objects.makeKeyString(object.identifier)) .join('/'); // Drop the vestigial '/ROOT' if it exists if (url.includes('/ROOT')) { url = url.split('/ROOT').join(''); } return url; }, uuid); return hashUrl; } /** * Utilizes the OpenMCT API to detect if the UI is in Edit mode. * @private * @param {import('@playwright/test').Page} page * @return {Promise} true if the Open MCT is in Edit Mode */ async function _isInEditMode(page, identifier) { // eslint-disable-next-line no-return-await return await page.evaluate(() => window.openmct.editor.isEditing()); } /** * Set the time conductor mode to either fixed timespan or realtime mode. * @param {import('@playwright/test').Page} page * @param {boolean} [isFixedTimespan=true] true for fixed timespan mode, false for realtime mode; default is true */ async function setTimeConductorMode(page, isFixedTimespan = true) { // Click 'mode' button await page.getByRole('button', { name: 'Time Conductor Mode', exact: true }).click(); await page.getByRole('button', { name: 'Time Conductor Mode Menu' }).click(); // Switch time conductor mode if (isFixedTimespan) { await page.getByRole('menuitem', { name: /Fixed Timespan/ }).click(); } else { await page.getByRole('menuitem', { name: /Real-Time/ }).click(); } } /** * Set the time conductor to fixed timespan mode * @param {import('@playwright/test').Page} page */ async function setFixedTimeMode(page) { await setTimeConductorMode(page, true); } /** * Set the time conductor to realtime mode * @param {import('@playwright/test').Page} page */ async function setRealTimeMode(page) { await setTimeConductorMode(page, false); } /** * @typedef {Object} OffsetValues * @property {string | undefined} startHours * @property {string | undefined} startMins * @property {string | undefined} startSecs * @property {string | undefined} endHours * @property {string | undefined} endMins * @property {string | undefined} endSecs */ /** * Set the values (hours, mins, secs) for the TimeConductor offsets when in realtime mode * @param {import('@playwright/test').Page} page * @param {OffsetValues} offset * @param {import('@playwright/test').Locator} offsetButton */ async function setTimeConductorOffset( page, { startHours, startMins, startSecs, endHours, endMins, endSecs } ) { if (startHours) { await page.getByRole('spinbutton', { name: 'Start offset hours' }).fill(startHours); } if (startMins) { await page.getByRole('spinbutton', { name: 'Start offset minutes' }).fill(startMins); } if (startSecs) { await page.getByRole('spinbutton', { name: 'Start offset seconds' }).fill(startSecs); } if (endHours) { await page.getByRole('spinbutton', { name: 'End offset hours' }).fill(endHours); } if (endMins) { await page.getByRole('spinbutton', { name: 'End offset minutes' }).fill(endMins); } if (endSecs) { await page.getByRole('spinbutton', { name: 'End offset seconds' }).fill(endSecs); } // Click the check button await page.locator('.pr-time-input--buttons .icon-check').click(); } /** * Set the values (hours, mins, secs) for the start time offset when in realtime mode * @param {import('@playwright/test').Page} page * @param {OffsetValues} offset */ async function setStartOffset(page, offset) { // Click 'mode' button await page.getByRole('button', { name: 'Time Conductor Mode', exact: true }).click(); await setTimeConductorOffset(page, offset); } /** * Set the values (hours, mins, secs) for the end time offset when in realtime mode * @param {import('@playwright/test').Page} page * @param {OffsetValues} offset */ async function setEndOffset(page, offset) { // Click 'mode' button await page.getByRole('button', { name: 'Time Conductor Mode', exact: true }).click(); await setTimeConductorOffset(page, offset); } /** * Set the time conductor bounds in fixed time mode * * NOTE: Unless explicitly testing the Time Conductor itself, it is advised to instead * navigate directly to the object with the desired time bounds using `navigateToObjectWithFixedTimeBounds()`. * @param {import('@playwright/test').Page} page * @param {string} startDate * @param {string} endDate */ async function setTimeConductorBounds(page, startDate, endDate) { // Bring up the time conductor popup expect(await page.locator('.l-shell__time-conductor.c-compact-tc').count()).toBe(1); await page.click('.l-shell__time-conductor.c-compact-tc'); await setTimeBounds(page, startDate, endDate); await page.keyboard.press('Enter'); } /** * Set the independent time conductor bounds in fixed time mode * @param {import('@playwright/test').Page} page * @param {string} startDate * @param {string} endDate */ async function setIndependentTimeConductorBounds(page, startDate, endDate) { // Activate Independent Time Conductor in Fixed Time Mode await page.getByRole('switch').click(); // Bring up the time conductor popup await page.click('.c-conductor-holder--compact .c-compact-tc'); await expect(page.locator('.itc-popout')).toBeInViewport(); await setTimeBounds(page, startDate, endDate); await page.keyboard.press('Enter'); } /** * Set the bounds of the visible conductor in fixed time mode * @param {import('@playwright/test').Page} page * @param {string} startDate * @param {string} endDate */ async function setTimeBounds(page, startDate, endDate) { if (startDate) { // Fill start time await page .getByRole('textbox', { name: 'Start date' }) .fill(startDate.toString().substring(0, 10)); await page .getByRole('textbox', { name: 'Start time' }) .fill(startDate.toString().substring(11, 19)); } if (endDate) { // Fill end time await page.getByRole('textbox', { name: 'End date' }).fill(endDate.toString().substring(0, 10)); await page .getByRole('textbox', { name: 'End time' }) .fill(endDate.toString().substring(11, 19)); } } /** * Selects an inspector tab based on the provided tab name * * @param {import('@playwright/test').Page} page * @param {String} name the name of the tab */ async function selectInspectorTab(page, name) { const inspectorTabs = page.getByRole('tablist'); const inspectorTab = inspectorTabs.getByTitle(name); await inspectorTab.click(); } /** * Waits and asserts that all plot series data on the page * is loaded and drawn. * * In lieu of a better way to detect when a plot is done rendering, * we [attach a class to the '.gl-plot' element](https://github.com/nasa/openmct/blob/5924d7ea95a0c2d4141c602a3c7d0665cb91095f/src/plugins/plot/MctPlot.vue#L27) * once all pending series data has been loaded. The following appAction retrieves * all plots on the page and waits up to the default timeout for the class to be * attached to each plot. * @param {import('@playwright/test').Page} page */ async function waitForPlotsToRender(page) { const plotLocator = page.locator('.gl-plot'); for (const plot of await plotLocator.all()) { await expect(plot).toHaveClass(/js-series-data-loaded/); } } /** * @typedef {Object} PlotPixel * @property {number} r The value of the red channel (0-255) * @property {number} g The value of the green channel (0-255) * @property {number} b The value of the blue channel (0-255) * @property {number} a The value of the alpha channel (0-255) * @property {string} strValue The rgba string value of the pixel */ /** * Wait for all plots to render and then retrieve and return an array * of canvas plot pixel data (RGBA values). * @param {import('@playwright/test').Page} page * @param {string} canvasSelector The selector for the canvas element * @return {Promise} */ async function getCanvasPixels(page, canvasSelector) { const getTelemValuePromise = new Promise((resolve) => page.exposeFunction('getCanvasValue', resolve) ); const canvasHandle = await page.evaluateHandle( (canvas) => document.querySelector(canvas), canvasSelector ); const canvasContextHandle = await page.evaluateHandle( (canvas) => canvas.getContext('2d'), canvasHandle ); await waitForPlotsToRender(page); await page.evaluate( ([canvas, ctx]) => { // The document canvas is where the plot points and lines are drawn. // The only way to access the canvas is using document (using page.evaluate) /** @type {ImageData} */ const data = ctx.getImageData(0, 0, canvas.width, canvas.height).data; /** @type {number[]} */ const imageDataValues = Object.values(data); /** @type {PlotPixel[]} */ const plotPixels = []; // Each pixel consists of four values within the ImageData.data array. The for loop iterates by multiples of four. // The values associated with each pixel are R (red), G (green), B (blue), and A (alpha), in that order. for (let i = 0; i < imageDataValues.length; ) { if (imageDataValues[i] > 0) { plotPixels.push({ r: imageDataValues[i], g: imageDataValues[i + 1], b: imageDataValues[i + 2], a: imageDataValues[i + 3], strValue: `rgb(${imageDataValues[i]}, ${imageDataValues[i + 1]}, ${ imageDataValues[i + 2] }, ${imageDataValues[i + 3]})` }); } i = i + 4; } window.getCanvasValue(plotPixels); }, [canvasHandle, canvasContextHandle] ); return getTelemValuePromise; } /** * @param {import('@playwright/test').Page} page * @param {string} myItemsFolderName * @param {string} url * @param {string} newName */ async function renameObjectFromContextMenu(page, url, newName) { await openObjectTreeContextMenu(page, url); await page.click('li:text("Edit Properties")'); const nameInput = page.getByLabel('Title', { exact: true }); await nameInput.fill(''); await nameInput.fill(newName); await page.click('[aria-label="Save"]'); } // eslint-disable-next-line no-undef module.exports = { createDomainObjectWithDefaults, createNotification, createPlanFromJSON, expandEntireTree, expandTreePaneItemByName, getCanvasPixels, getHashUrlToDomainObject, getFocusedObjectUuid, openObjectTreeContextMenu, setFixedTimeMode, setRealTimeMode, setStartOffset, setEndOffset, setTimeConductorBounds, setIndependentTimeConductorBounds, selectInspectorTab, waitForPlotsToRender, renameObjectFromContextMenu };