1
0
mirror of https://github.com/kremalicious/metamask-extension.git synced 2024-11-29 23:58:06 +01:00
metamask-extension/test/e2e/benchmark.js
Elliot Winkler 8ffebb294b
Fix 'yarn setup' on M1 Macs (#11887)
There are a few issues encountered when running `yarn setup` on new
Apple Silicon (aka M1, aka arm64) Macs:

* The script halts when attempting to run the install step for
  the `chromedriver` package with the message "Only Mac 64 bits
  supported". This is somewhat misleading as it seems to indicate that
  chromedriver can only be installed on a 64-bit Mac. However, what I
  think is happening is that the installation script for `chromedriver`
  is not able to detect that an arm64 CPU *is* a 64-bit CPU. After
  looking through the `chromedriver` repo, it appears that 87.0.1 is the
  first version that adds a proper check ([1]).

  Note that upgrading chromedriver caused the Chrome-specific tests to
  fail intermittently on CI. I was not able to 100% work out the reason
  for this, but ensuring that X (which provides a way for Chrome to run
  in a GUI setting from the command line) is available seems to fix
  these issues.

* The script also halts when attempting to run the install step for
  the `electron` package. This happens because for the version of
  `electron` we are using (9.4.2), there is no available binary for
  arm64. It appears that Electron 11.x was the first version to support
  arm64 Macs ([2]). This is a bit trickier to resolve because we don't
  explicitly rely on `electron` — that's brought in by `react-devtools`.
  The first version of `react-devtools` that relies on `electron` 11.x
  is 4.11.0 ([3]).

[1]: 469dd0a6ee
[2]: https://www.electronjs.org/blog/apple-silicon
[3]: https://github.com/facebook/react/blob/main/packages/react-devtools/CHANGELOG.md#4110-april-9-2021
2021-09-01 10:40:40 -06:00

201 lines
6.1 KiB
JavaScript

#!/usr/bin/env node
const path = require('path');
const { promises: fs, constants: fsConstants } = require('fs');
const yargs = require('yargs/yargs');
const { hideBin } = require('yargs/helpers');
const ttest = require('ttest');
const { retry } = require('../../development/lib/retry');
const { exitWithError } = require('../../development/lib/exit-with-error');
const { withFixtures, tinyDelayMs } = require('./helpers');
const { PAGES } = require('./webdriver/driver');
const DEFAULT_NUM_SAMPLES = 20;
const ALL_PAGES = Object.values(PAGES);
async function measurePage(pageName) {
let metrics;
await withFixtures({ fixtures: 'imported-account' }, async ({ driver }) => {
await driver.delay(tinyDelayMs);
await driver.navigate();
await driver.fill('#password', 'correct horse battery staple');
await driver.press('#password', driver.Key.ENTER);
await driver.findElement('.selected-account__name');
await driver.navigate(pageName);
await driver.delay(1000);
metrics = await driver.collectMetrics();
});
return metrics;
}
function calculateResult(calc) {
return (result) => {
const calculatedResult = {};
for (const key of Object.keys(result)) {
calculatedResult[key] = calc(result[key]);
}
return calculatedResult;
};
}
const calculateSum = (array) => array.reduce((sum, val) => sum + val);
const calculateAverage = (array) => calculateSum(array) / array.length;
const minResult = calculateResult((array) => Math.min(...array));
const maxResult = calculateResult((array) => Math.max(...array));
const averageResult = calculateResult((array) => calculateAverage(array));
const standardDeviationResult = calculateResult((array) => {
if (array.length === 1) {
return 0;
}
const average = calculateAverage(array);
const squareDiffs = array.map((value) => Math.pow(value - average, 2));
return Math.sqrt(calculateAverage(squareDiffs));
});
// 95% margin of error calculated using Student's t-distribution
const calculateMarginOfError = (array) =>
ttest(array).confidence()[1] - calculateAverage(array);
const marginOfErrorResult = calculateResult((array) =>
array.length === 1 ? 0 : calculateMarginOfError(array),
);
async function profilePageLoad(pages, numSamples, retries) {
const results = {};
for (const pageName of pages) {
const runResults = [];
for (let i = 0; i < numSamples; i += 1) {
let result;
await retry({ retries }, async () => {
result = await measurePage(pageName);
});
runResults.push(result);
}
if (runResults.some((result) => result.navigation.lenth > 1)) {
throw new Error(`Multiple navigations not supported`);
} else if (
runResults.some((result) => result.navigation[0].type !== 'navigate')
) {
throw new Error(
`Navigation type ${
runResults.find((result) => result.navigation[0].type !== 'navigate')
.navigation[0].type
} not supported`,
);
}
const result = {
firstPaint: runResults.map((metrics) => metrics.paint['first-paint']),
domContentLoaded: runResults.map(
(metrics) =>
metrics.navigation[0] && metrics.navigation[0].domContentLoaded,
),
load: runResults.map(
(metrics) => metrics.navigation[0] && metrics.navigation[0].load,
),
domInteractive: runResults.map(
(metrics) =>
metrics.navigation[0] && metrics.navigation[0].domInteractive,
),
};
results[pageName] = {
min: minResult(result),
max: maxResult(result),
average: averageResult(result),
standardDeviation: standardDeviationResult(result),
marginOfError: marginOfErrorResult(result),
};
}
return results;
}
async function isWritable(directory) {
try {
await fs.access(directory, fsConstants.W_OK);
return true;
} catch (error) {
if (error.code !== 'EACCES') {
throw error;
}
return false;
}
}
async function getFirstParentDirectoryThatExists(directory) {
let nextDirectory = directory;
for (;;) {
try {
await fs.access(nextDirectory, fsConstants.F_OK);
return nextDirectory;
} catch (error) {
if (error.code !== 'ENOENT') {
throw error;
} else if (nextDirectory === path.dirname(nextDirectory)) {
throw new Error('Failed to find parent directory that exists');
}
nextDirectory = path.dirname(nextDirectory);
}
}
}
async function main() {
const { argv } = yargs(hideBin(process.argv)).usage(
'$0 [options]',
'Run a page load benchmark',
(_yargs) =>
_yargs
.option('pages', {
array: true,
default: ['home'],
description:
'Set the page(s) to be benchmarked. This flag can accept multiple values (space-separated).',
choices: ALL_PAGES,
})
.option('samples', {
default: DEFAULT_NUM_SAMPLES,
description: 'The number of times the benchmark should be run.',
type: 'number',
})
.option('out', {
description:
'Output filename. Output printed to STDOUT of this is omitted.',
type: 'string',
normalize: true,
})
.option('retries', {
default: 0,
description:
'Set how many times each benchmark sample should be retried upon failure.',
type: 'number',
}),
);
const { pages, samples, out, retries } = argv;
let outputDirectory;
let existingParentDirectory;
if (out) {
outputDirectory = path.dirname(out);
existingParentDirectory = await getFirstParentDirectoryThatExists(
outputDirectory,
);
if (!(await isWritable(existingParentDirectory))) {
throw new Error('Specified output file directory is not writable');
}
}
const results = await profilePageLoad(pages, samples, retries);
if (out) {
if (outputDirectory !== existingParentDirectory) {
await fs.mkdir(outputDirectory, { recursive: true });
}
await fs.writeFile(out, JSON.stringify(results, null, 2));
} else {
console.log(JSON.stringify(results, null, 2));
}
}
main().catch((error) => {
exitWithError(error);
});