electron/script/spec-runner.js

261 строка
8.1 KiB
JavaScript
Executable File

#!/usr/bin/env node
const { ElectronVersions, Installer } = require('@electron/fiddle-core');
const chalk = require('chalk');
const { hashElement } = require('folder-hash');
const minimist = require('minimist');
const childProcess = require('node:child_process');
const crypto = require('node:crypto');
const fs = require('node:fs');
const os = require('node:os');
const path = require('node:path');
const unknownFlags = [];
const pass = chalk.green('✓');
const fail = chalk.red('✗');
const args = minimist(process.argv, {
string: ['runners', 'target', 'electronVersion'],
unknown: arg => unknownFlags.push(arg)
});
const unknownArgs = [];
for (const flag of unknownFlags) {
unknownArgs.push(flag);
const onlyFlag = flag.replace(/^-+/, '');
if (args[onlyFlag]) {
unknownArgs.push(args[onlyFlag]);
}
}
const utils = require('./lib/utils');
const { YARN_VERSION } = require('./yarn');
const BASE = path.resolve(__dirname, '../..');
const NPX_CMD = process.platform === 'win32' ? 'npx.cmd' : 'npx';
const runners = new Map([
['main', { description: 'Main process specs', run: runMainProcessElectronTests }]
]);
const specHashPath = path.resolve(__dirname, '../spec/.hash');
if (args.electronVersion) {
if (args.runners && args.runners !== 'main') {
console.log(`${fail} only 'main' runner can be used with --electronVersion`);
process.exit(1);
}
args.runners = 'main';
}
let runnersToRun = null;
if (args.runners !== undefined) {
runnersToRun = args.runners.split(',').filter(value => value);
if (!runnersToRun.every(r => [...runners.keys()].includes(r))) {
console.log(`${fail} ${runnersToRun} must be a subset of [${[...runners.keys()].join(' | ')}]`);
process.exit(1);
}
console.log('Only running:', runnersToRun);
} else {
console.log(`Triggering runners: ${[...runners.keys()].join(', ')}`);
}
async function main () {
if (args.electronVersion) {
const versions = await ElectronVersions.create();
if (args.electronVersion === 'latest') {
args.electronVersion = versions.latest.version;
} else if (args.electronVersion.startsWith('latest@')) {
const majorVersion = parseInt(args.electronVersion.slice('latest@'.length));
const ver = versions.inMajor(majorVersion).slice(-1)[0];
if (ver) {
args.electronVersion = ver.version;
} else {
console.log(`${fail} '${majorVersion}' is not a recognized Electron major version`);
process.exit(1);
}
} else if (!versions.isVersion(args.electronVersion)) {
console.log(`${fail} '${args.electronVersion}' is not a recognized Electron version`);
process.exit(1);
}
const versionString = `v${args.electronVersion}`;
console.log(`Running against Electron ${versionString.green}`);
}
const [lastSpecHash, lastSpecInstallHash] = loadLastSpecHash();
const [currentSpecHash, currentSpecInstallHash] = await getSpecHash();
const somethingChanged = (currentSpecHash !== lastSpecHash) ||
(lastSpecInstallHash !== currentSpecInstallHash);
if (somethingChanged) {
await installSpecModules(path.resolve(__dirname, '..', 'spec'));
await getSpecHash().then(saveSpecHash);
}
if (!fs.existsSync(path.resolve(__dirname, '../electron.d.ts'))) {
console.log('Generating electron.d.ts as it is missing');
generateTypeDefinitions();
}
await runElectronTests();
}
function generateTypeDefinitions () {
const { status } = childProcess.spawnSync('npm', ['run', 'create-typescript-definitions'], {
cwd: path.resolve(__dirname, '..'),
stdio: 'inherit',
shell: true
});
if (status !== 0) {
throw new Error(`Electron typescript definition generation failed with exit code: ${status}.`);
}
}
function loadLastSpecHash () {
return fs.existsSync(specHashPath)
? fs.readFileSync(specHashPath, 'utf8').split('\n')
: [null, null];
}
function saveSpecHash ([newSpecHash, newSpecInstallHash]) {
fs.writeFileSync(specHashPath, `${newSpecHash}\n${newSpecInstallHash}`);
}
async function runElectronTests () {
const errors = [];
const testResultsDir = process.env.ELECTRON_TEST_RESULTS_DIR;
for (const [runnerId, { description, run }] of runners) {
if (runnersToRun && !runnersToRun.includes(runnerId)) {
console.info('\nSkipping:', description);
continue;
}
try {
console.info('\nRunning:', description);
if (testResultsDir) {
process.env.MOCHA_FILE = path.join(testResultsDir, `test-results-${runnerId}.xml`);
}
await run();
} catch (err) {
errors.push([runnerId, err]);
}
}
if (errors.length !== 0) {
for (const err of errors) {
console.error('\n\nRunner Failed:', err[0]);
console.error(err[1]);
}
console.log(`${fail} Electron test runners have failed`);
process.exit(1);
}
}
async function runTestUsingElectron (specDir, testName) {
let exe;
if (args.electronVersion) {
const installer = new Installer();
exe = await installer.install(args.electronVersion);
} else {
exe = path.resolve(BASE, utils.getElectronExec());
}
const runnerArgs = [`electron/${specDir}`, ...unknownArgs.slice(2)];
if (process.platform === 'linux') {
runnerArgs.unshift(path.resolve(__dirname, 'dbus_mock.py'), exe);
exe = 'python3';
}
const { status, signal } = childProcess.spawnSync(exe, runnerArgs, {
cwd: path.resolve(__dirname, '../..'),
stdio: 'inherit'
});
if (status !== 0) {
if (status) {
const textStatus = process.platform === 'win32' ? `0x${status.toString(16)}` : status.toString();
console.log(`${fail} Electron tests failed with code ${textStatus}.`);
} else {
console.log(`${fail} Electron tests failed with kill signal ${signal}.`);
}
process.exit(1);
}
console.log(`${pass} Electron ${testName} process tests passed.`);
}
async function runMainProcessElectronTests () {
await runTestUsingElectron('spec', 'main');
}
async function installSpecModules (dir) {
const env = {
...process.env,
CXXFLAGS: process.env.CXXFLAGS,
npm_config_msvs_version: '2022',
npm_config_yes: 'true'
};
if (args.electronVersion) {
env.npm_config_target = args.electronVersion;
env.npm_config_disturl = 'https://electronjs.org/headers';
env.npm_config_runtime = 'electron';
env.npm_config_devdir = path.join(os.homedir(), '.electron-gyp');
env.npm_config_build_from_source = 'true';
const { status } = childProcess.spawnSync('npm', ['run', 'node-gyp-install', '--ensure'], {
env,
cwd: dir,
stdio: 'inherit',
shell: true
});
if (status !== 0) {
console.log(`${fail} Failed to "npm run node-gyp-install" install in '${dir}'`);
process.exit(1);
}
} else {
env.npm_config_nodedir = path.resolve(BASE, `out/${utils.getOutDir({ shouldLog: true })}/gen/node_headers`);
}
if (fs.existsSync(path.resolve(dir, 'node_modules'))) {
await fs.promises.rm(path.resolve(dir, 'node_modules'), { force: true, recursive: true });
}
const { status } = childProcess.spawnSync(NPX_CMD, [`yarn@${YARN_VERSION}`, 'install', '--frozen-lockfile'], {
env,
cwd: dir,
stdio: 'inherit',
shell: process.platform === 'win32'
});
if (status !== 0 && !process.env.IGNORE_YARN_INSTALL_ERROR) {
console.log(`${fail} Failed to yarn install in '${dir}'`);
process.exit(1);
}
}
function getSpecHash () {
return Promise.all([
(async () => {
const hasher = crypto.createHash('SHA256');
hasher.update(fs.readFileSync(path.resolve(__dirname, '../spec/package.json')));
hasher.update(fs.readFileSync(path.resolve(__dirname, '../spec/yarn.lock')));
hasher.update(fs.readFileSync(path.resolve(__dirname, '../script/spec-runner.js')));
return hasher.digest('hex');
})(),
(async () => {
const specNodeModulesPath = path.resolve(__dirname, '../spec/node_modules');
if (!fs.existsSync(specNodeModulesPath)) {
return null;
}
const { hash } = await hashElement(specNodeModulesPath, {
folders: {
exclude: ['.bin']
}
});
return hash;
})()
]);
}
main().catch((error) => {
console.error('An error occurred inside the spec runner:', error);
process.exit(1);
});