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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* eslint-env node */
const fs = require("fs");
const http = require("http");
const URL = "/secrets/v1/secret/project/perftest/gecko/level-";
const SECRET = "/perftest-login";
const DEFAULT_SERVER = "https://firefox-ci-tc.services.mozilla.com";
const SCM_LOGIN_SITES = ["facebook", "netflix"];
/**
* This function obtains the perftest secret from Taskcluster.
*
* It will NOT work locally. Please see the get_logins function, you
* will need to define a JSON file and set the RAPTOR_LOGINS
* env variable to its path.
*/
async function get_tc_secrets(context) {
const MOZ_AUTOMATION = process.env.MOZ_AUTOMATION;
if (!MOZ_AUTOMATION) {
throw Error(
"Not running in CI. Set RAPTOR_LOGINS to a JSON file containing the logins."
);
}
let TASKCLUSTER_PROXY_URL = process.env.TASKCLUSTER_PROXY_URL
? process.env.TASKCLUSTER_PROXY_URL
: DEFAULT_SERVER;
let MOZ_SCM_LEVEL = process.env.MOZ_SCM_LEVEL ? process.env.MOZ_SCM_LEVEL : 1;
const url = TASKCLUSTER_PROXY_URL + URL + MOZ_SCM_LEVEL + SECRET;
const data = await new Promise((resolve, reject) => {
context.log.info("Obtaining secrets for login...");
http.get(
url,
{
headers: {
"Content-Type": "application/json",
Accept: "application/json",
},
},
res => {
let data = "";
context.log.info(`Secret status code: ${res.statusCode}`);
res.on("data", d => {
data += d.toString();
});
res.on("end", () => {
resolve(data);
});
res.on("error", error => {
context.log.error(error);
reject(error);
});
}
);
});
return JSON.parse(data);
}
/**
* This function gets the login information required.
*
* It starts by looking for a local file whose path is defined
* within RAPTOR_LOGINS. If we don't find this file, then we'll
* attempt to get the login information from our Taskcluster secret.
* If MOZ_AUTOMATION is undefined, then the test will fail, Taskcluster
* secrets can only be obtained in CI.
*/
async function get_logins(context) {
let logins;
let RAPTOR_LOGINS = process.env.RAPTOR_LOGINS;
if (RAPTOR_LOGINS) {
// Get logins from a local file
if (!RAPTOR_LOGINS.endsWith(".json")) {
throw Error(
`File given for logins does not end in '.json': ${RAPTOR_LOGINS}`
);
}
let logins_file = null;
try {
logins_file = await fs.readFileSync(RAPTOR_LOGINS, "utf8");
} catch (err) {
throw Error(`Failed to read the file ${RAPTOR_LOGINS}: ${err}`);
}
logins = await JSON.parse(logins_file);
} else {
// Get logins from a perftest Taskcluster secret
logins = await get_tc_secrets(context);
}
return logins;
}
/**
* This function returns the type of login to do.
*
* This function returns "single-form" when we find a single form. If we only
* find a single input field, we assume that there is one page per input
* and return "multi-page". Otherwise, we return null.
*/
async function get_login_type(context, commands) {
/*
Determine if there's a password field visible with this
query selector. Some sites use `tabIndex` to hide the password
field behind other elements. In this case, we are searching
for any password-type field that has a tabIndex of 0 or undefined and
is not hidden.
*/
let input_length = await commands.js.run(`
return document.querySelectorAll(
"input[type=password][tabIndex='0']:not([type=hidden])," +
"input[type=password]:not([tabIndex]):not([type=hidden])"
).length;
`);
if (input_length == 0) {
context.log.info("Found a multi-page login");
return multi_page_login;
} else if (input_length == 1) {
context.log.info("Found a single-page login");
return single_page_login;
}
if (
(await commands.js.run(
`return document.querySelectorAll("form").length;`
)) >= 1
) {
context.log.info("Found a single-form login");
return single_form_login;
}
return null;
}
/**
* This function sets up the login for a single form.
*
* The username field is defined as the field which immediately precedes
* the password field. We have to do this in two steps because we need
* to make sure that the event we emit from the change has the `isTrusted`
* field set to `true`. Otherwise, some websites will ignore the input and
* the form submission.
*/
async function single_page_login(login_info, context, commands, prefix = "") {
// Get the first input field in the form that is not hidden and add the
// username. Assumes that email/username is always the first input field.
await commands.addText.bySelector(
login_info.username,
`${prefix}input:not([type=hidden]):not([type=password])`
);
// Get the password field and ensure it's not hidden.
await commands.addText.bySelector(
login_info.password,
`${prefix}input[type=password]:not([type=hidden])`
);
return undefined;
}
/**
* See single_page_login.
*/
async function single_form_login(login_info, context, commands) {
return single_page_login(login_info, context, commands, "form ");
}
/**
* Login to a website that uses multiple pages for the login.
*
* WARNING: Assumes that the first page is for the username.
*/
// TODO cleanup comments
async function multi_page_login(login_info, context, commands) {
const driver = context.selenium.driver;
const webdriver = context.selenium.webdriver;
//TODO fails here in netflix for Try...
const username_field = await driver.findElement(
webdriver.By.css(`input:not([type=hidden]):not([type=password])`)
);
await username_field.sendKeys(login_info.username);
await username_field.sendKeys(webdriver.Key.ENTER);
await commands.wait.byTime(5000);
let password_field;
try {
password_field = await driver.findElement(
webdriver.By.css(`input[type=password]:not([type=hidden])`)
);
} catch (err) {
if (err.toString().includes("NoSuchElementError")) {
// Sometimes we're suspicious (i.e. they think we're a bot/bad-actor)
let name_field = await driver.findElement(
webdriver.By.css(`input:not([type=hidden]):not([type=password])`)
);
await name_field.sendKeys(login_info.suspicious_answer);
await name_field.sendKeys(webdriver.Key.ENTER);
await commands.wait.byTime(5000);
// Try getting the password field again
password_field = await driver.findElement(
webdriver.By.css(`input[type=password]:not([type=hidden])`)
);
} else {
throw err;
}
}
await password_field.sendKeys(login_info.password);
return async function() {
password_field.sendKeys(webdriver.Key.ENTER);
await commands.wait.byTime(5000);
};
}
/**
* This function sets up the login.
*
* This is done by first the login type, and then performing the
* actual login setup. The return is a possible button to click
* to perform the login.
*/
async function setup_login(login_info, context, commands) {
let login_func = await get_login_type(context, commands);
if (!login_func) {
throw Error("Could not determine the type of login page.");
}
try {
return await login_func(login_info, context, commands);
} catch (err) {
throw Error(`Could not setup login information: ${err}`);
}
}
/**
* This function performs the login.
*
* It does this by either clicking on a button with a type
* of "sumbit", or running a final_button function that was
* obtained from the setup_login function. Some pages also ask
* questions about setting up 2FA or other information. Generally,
* these contain the "skip" text.
*/
async function login(context, commands, final_button) {
try {
if (!final_button) {
// The mouse double click emits an event with `evt.isTrusted=true`
await commands.mouse.doubleClick.bySelector("button[type=submit]");
await commands.wait.byTime(10000);
} else {
// In some cases, it's preferable to be given a function for the final button
await final_button();
}
// Some pages ask to setup 2FA, skip this based on the text
const XPATHS = [
"//a[contains(text(), 'skip')]",
"//button[contains(text(), 'skip')]",
"//input[contains(text(), 'skip')]",
"//div[contains(text(), 'skip')]",
];
for (let xpath of XPATHS) {
try {
await commands.mouse.doubleClick.byXpath(xpath);
} catch (err) {
if (err.toString().includes("not double click")) {
context.log.info(`Can't find a button with the text: ${xpath}`);
} else {
throw err;
}
}
}
} catch (err) {
throw Error(
`Could not login to website as we could not find the submit button/input: ${err}`
);
}
}
/**
* Grab the base URL from the browsertime url.
*
* This is a necessary step for getting the login values from the Taskcluster
* secrets, which are hashed by the base URL.
*
* The first entry is the protocal, third is the top-level domain (or host)
*/
function get_base_URL(fullUrl) {
let pathAsArray = fullUrl.split("/");
return pathAsArray[0] + "//" + pathAsArray[2];
}
/**
* This function attempts the login-login sequence for a live pageload test
*/
async function perform_live_login(context, commands) {
let testUrl = context.options.browsertime.url;
let logins = await get_logins(context);
const baseUrl = get_base_URL(testUrl);
await commands.navigate("about:blank");
let login_info = logins.secret[baseUrl];
try {
await commands.navigate(login_info.login_url);
} catch (err) {
context.log.info("Unable to acquire login information");
throw err;
}
await commands.wait.byTime(10000);
let final_button = await setup_login(login_info, context, commands);
await login(context, commands, final_button);
}
module.exports = async function(context, commands) {
context.log.info("Starting a browsertime pageload");
let test_url = context.options.browsertime.url;
let secondary_url = context.options.browsertime.secondary_url;
let page_cycles = context.options.browsertime.page_cycles;
let page_cycle_delay = context.options.browsertime.page_cycle_delay;
let post_startup_delay = context.options.browsertime.post_startup_delay;
let chimera_mode = context.options.browsertime.chimera;
let test_bytecode_cache = context.options.browsertime.test_bytecode_cache;
let login_required = context.options.browsertime.loginRequired;
let live_site = context.options.browsertime.liveSite;
let test_name = context.options.browsertime.testName;
context.log.info(
"Waiting for %d ms (post_startup_delay)",
post_startup_delay
);
await commands.wait.byTime(post_startup_delay);
let cached = false;
// Login once before testing the test_url/secondary_url cycles
// If the user has RAPTOR_LOGINS configured correctly, a local login pageload
// test can be attempted. Otherwise if attempting it in CI, only sites with the
// associated MOZ_SCM_LEVEL will be attempted (e.g. Try = 1, autoland = 3).
// In addition, ensure login sequence is only attempted on live sites and for sites
// that we have Taskcluster secrets for.
if (
login_required == "True" &&
live_site == "True" &&
SCM_LOGIN_SITES.includes(test_name)
) {
await perform_live_login(context, commands);
}
for (let count = 0; count < page_cycles; count++) {
if (count !== 0 && secondary_url !== undefined) {
context.log.info("Navigating to secondary url:" + secondary_url);
await commands.navigate(secondary_url);
await commands.wait.byTime(1000);
await commands.js.runAndWait(`
(function() {
const white = document.createElement('div');
white.id = 'raptor-white';
white.style.position = 'absolute';
white.style.top = '0';
white.style.left = '0';
white.style.width = Math.max(document.documentElement.clientWidth, document.body.clientWidth) + 'px';
white.style.height = Math.max(document.documentElement.clientHeight,document.body.clientHeight) + 'px';
white.style.backgroundColor = 'white';
white.style.zIndex = '2147483647';
document.body.appendChild(white);
document.body.style.display = '';
})();`);
await commands.wait.byTime(1000);
} else {
context.log.info("Navigating to about:blank, count: " + count);
await commands.navigate("about:blank");
}
context.log.info("Navigating to primary url:" + test_url);
context.log.info("Cycle %d, waiting for %d ms", count, page_cycle_delay);
await commands.wait.byTime(page_cycle_delay);
context.log.info("Cycle %d, starting the measure", count);
await commands.measure.start(test_url);
// Wait 20 seconds to populate bytecode cache
if (test_bytecode_cache == "true" && chimera_mode == "true" && !cached) {
context.log.info("Waiting 20s to populate bytecode cache...");
await commands.wait.byTime(20000);
cached = true;
}
}
context.log.info("Browsertime pageload ended.");
return true;
};
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