skia2/tools/run-wasm-gm-tests/run-wasm-gm-tests.js

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/**
* Command line application to test GMS and unit tests with puppeteer.
* node run-wasm-gm-tests --js_file ../../out/wasm_gm_tests/wasm_gm_tests.js --wasm_file ../../out/wasm_gm_tests/wasm_gm_tests.wasm --known_hashes /tmp/gold2/tests/hashes.txt --output /tmp/gold2/tests/ --use_gpu --timeout 180
*/
const puppeteer = require('puppeteer');
const express = require('express');
const path = require('path');
const bodyParser = require('body-parser');
const fs = require('fs');
const commandLineArgs = require('command-line-args');
const commandLineUsage = require('command-line-usage');
const opts = [
{
name: 'js_file',
typeLabel: '{underline file}',
description: '(required) The path to wasm_gm_tests.js.'
},
{
name: 'wasm_file',
typeLabel: '{underline file}',
description: '(required) The path to wasm_gm_tests.wasm.'
},
{
name: 'known_hashes',
typeLabel: '{underline file}',
description: '(required) The hashes that should not be written to disk.'
},
{
name: 'output',
typeLabel: '{underline file}',
description: '(required) The directory to write the output JSON and images to.',
},
{
name: 'resources',
typeLabel: '{underline file}',
description: '(required) The directory that test images are stored in.',
},
{
name: 'use_gpu',
description: 'Whether we should run in non-headless mode with GPU.',
type: Boolean,
},
{
name: 'enable_simd',
description: 'enable execution of wasm SIMD operations in chromium',
type: Boolean
},
{
name: 'port',
description: 'The port number to use, defaults to 8081.',
type: Number,
},
{
name: 'help',
alias: 'h',
type: Boolean,
description: 'Print this usage guide.'
},
{
name: 'timeout',
description: 'Number of seconds to allow test to run.',
type: Number,
},
{
name: 'manual_mode',
description: 'If set, tests will not run automatically.',
type: Boolean,
},
{
name: 'batch_size',
description: 'Number of gms (or unit tests) to run in a batch. The main thread ' +
'of the page is only unlocked between batches. Default: 50. Use 1 for debugging.',
type: Number,
}
];
const usage = [
{
header: 'Measuring correctness of Skia WASM code',
content: 'Command line application to capture images drawn from tests',
},
{
header: 'Options',
optionList: opts,
},
];
// Parse and validate flags.
const options = commandLineArgs(opts);
if (!options.port) {
options.port = 8081;
}
if (!options.timeout) {
options.timeout = 60;
}
if (!options.batch_size) {
options.batch_size = 50;
}
if (options.help) {
console.log(commandLineUsage(usage));
process.exit(0);
}
if (!options.output) {
console.error('You must supply an output directory.');
console.log(commandLineUsage(usage));
process.exit(1);
}
if (!options.js_file) {
console.error('You must supply path to wasm_gm_tests.js.');
console.log(commandLineUsage(usage));
process.exit(1);
}
if (!options.wasm_file) {
console.error('You must supply path to wasm_gm_tests.wasm.');
console.log(commandLineUsage(usage));
process.exit(1);
}
if (!options.known_hashes) {
console.error('You must supply path to known_hashes.txt');
console.log(commandLineUsage(usage));
process.exit(1);
}
if (!options.resources) {
console.error('You must supply resources directory');
console.log(commandLineUsage(usage));
process.exit(1);
}
const resourceBaseDir = path.resolve(options.resources)
// This executes recursively and synchronously.
const recursivelyListFiles = (dir) => {
const absolutePaths = [];
const files = fs.readdirSync(dir);
files.forEach((file) => {
const filepath = path.join(dir, file);
const stats = fs.statSync(filepath);
if (stats.isDirectory()) {
absolutePaths.push(...recursivelyListFiles(filepath));
} else if (stats.isFile()) {
absolutePaths.push(path.relative(resourceBaseDir, filepath));
}
});
return absolutePaths;
};
const resourceListing = recursivelyListFiles(options.resources);
console.log('Saw resources', resourceListing);
const driverHTML = fs.readFileSync('run-wasm-gm-tests.html', 'utf8');
const testJS = fs.readFileSync(options.js_file, 'utf8');
const testWASM = fs.readFileSync(options.wasm_file, 'binary');
const knownHashes = fs.readFileSync(options.known_hashes, 'utf8');
// This express webserver will serve the HTML file running the benchmark and any additional assets
// needed to run the tests.
const app = express();
app.get('/', (req, res) => res.send(driverHTML));
app.use('/static/resources/', express.static(resourceBaseDir));
console.log('resources served from', resourceBaseDir);
// This allows the server to receive POST requests of up to 10MB for image/png and read the body
// as raw bytes, housed in a buffer.
app.use(bodyParser.raw({ type: 'image/png', limit: '10mb' }));
app.get('/static/hashes.txt', (req, res) => res.send(knownHashes));
app.get('/static/resource_listing.json', (req, res) => res.send(JSON.stringify(resourceListing)));
app.get('/static/wasm_gm_tests.js', (req, res) => res.send(testJS));
app.get('/static/wasm_gm_tests.wasm', function(req, res) {
// Set the MIME type so it can be streamed efficiently.
res.type('application/wasm');
res.send(new Buffer(testWASM, 'binary'));
});
app.post('/write_png', (req, res) => {
const md5 = req.header('X-MD5-Hash');
if (!md5) {
res.sendStatus(400);
return;
}
const data = req.body;
const newFile = path.join(options.output, md5 + '.png');
fs.writeFileSync(newFile, data, {
encoding: 'binary',
});
res.sendStatus(200);
});
const server = app.listen(options.port, () => console.log('- Local web server started.'));
const hash = options.use_gpu? '#gpu': '#cpu';
const targetURL = `http://localhost:${options.port}/${hash}`;
const viewPort = {width: 1000, height: 1000};
// Drive chrome to load the web page from the server we have running.
async function driveBrowser() {
console.log('- Launching chrome for ' + options.input);
const browser_args = [
'--no-sandbox',
'--disable-setuid-sandbox',
'--window-size=' + viewPort.width + ',' + viewPort.height,
// The following two params allow Chrome to run at an unlimited fps. Note, if there is
// already a chrome instance running, these arguments will have NO EFFECT, as the existing
// Chrome instance will be used instead of puppeteer spinning up a new one.
'--disable-frame-rate-limit',
'--disable-gpu-vsync',
];
if (options.enable_simd) {
browser_args.push('--enable-features=WebAssemblySimd');
}
if (options.use_gpu) {
browser_args.push('--ignore-gpu-blacklist');
browser_args.push('--ignore-gpu-blocklist');
browser_args.push('--enable-gpu-rasterization');
}
const headless = !options.use_gpu;
console.log("Running with headless: " + headless + " args: " + browser_args);
let browser;
let page;
try {
browser = await puppeteer.launch({
headless: headless,
args: browser_args,
executablePath: options.chromium_executable_path
});
page = await browser.newPage();
await page.setViewport(viewPort);
} catch (e) {
console.log('Could not open the browser.', e);
process.exit(1);
}
console.log("Loading " + targetURL);
let failed = [];
try {
await page.goto(targetURL, {
timeout: 60000,
waitUntil: 'networkidle0'
});
if (options.manual_mode) {
console.log('Manual mode detected. Will hang');
// Wait a very long time, with the web server running.
await page.waitForFunction(`window._abort_manual_mode`, {
timeout: 1000000000,
polling: 1000,
});
}
// Page is mostly loaded, wait for test harness page to report itself ready. Some resources
// may still be loading.
console.log('Waiting 30s for test harness to be ready');
await page.waitForFunction(`(window._testsReady === true) || window._error`, {
timeout: 30000,
});
const err = await page.evaluate('window._error');
if (err) {
const log = await page.evaluate('window._log');
console.info(log);
console.error(`ERROR: ${err}`);
process.exit(1);
}
// There is a button with id #start_tests to click (this also makes manual debugging easier).
await page.click('#start_tests');
// Rather than wait a long time for things to finish, we send progress updates every 50 tests.
let batch = options.batch_size;
while (true) {
console.log(`Waiting ${options.timeout}s for ${options.batch_size} tests to complete`);
await page.waitForFunction(`(window._testsProgress >= ${batch}) || window._testsDone || window._error`, {
timeout: options.timeout*1000,
});
const progress = await page.evaluate(() => {
return {
err: window._error,
done: window._testsDone,
count: window._testsProgress,
};
});
if (progress.err) {
const log = await page.evaluate('window._log');
console.info(log);
console.error(`ERROR: ${progress.err}`);
process.exit(1);
}
if (progress.done) {
console.log(`Completed ${progress.count} tests. Finished.`);
break;
}
console.log(`In Progress; completed ${progress.count} tests.`)
batch = progress.count + options.batch_size;
}
const goldResults = await page.evaluate('window._results');
failed = await(page.evaluate('window._failed'));
const log = await page.evaluate('window._log');
console.info(log);
const jsonFile = path.join(options.output, 'gold_results.json');
fs.writeFileSync(jsonFile, JSON.stringify(goldResults));
} catch(e) {
console.log('Timed out while loading, drawing, or writing to disk.', e);
if (page) {
const log = await page.evaluate('window._log');
console.error(log);
}
await browser.close();
await new Promise((resolve) => server.close(resolve));
process.exit(1);
}
await browser.close();
await new Promise((resolve) => server.close(resolve));
if (failed.length > 0) {
console.error('Failed tests', failed);
process.exit(1);
} else {
process.exit(0);
}
}
driveBrowser();