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denoland-deno/cli/tests/node_compat/test/parallel/test-child-process-spawnsync-validation-errors.js
Yoshiya Hinosawa 6915a9b7a7
test(ext/node): more node compat tests (#17827) 
This PR adds the remaining ~650 Node.js compat test cases from std/node.

Among these 650 cases, about 130 cases are now failing. These failing
cases are prefixed with `TODO:` in `tests/node_compat/config.json`.
These will be addressed in later PRs.
2023-02-20 16:35:04 +01:00

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// deno-fmt-ignore-file
// deno-lint-ignore-file
// Copyright Joyent and Node contributors. All rights reserved. MIT license.
// Taken from Node 18.12.1
// This file is automatically generated by "node/_tools/setup.ts". Do not modify this file manually
'use strict';
const common = require('../common');
const assert = require('assert');
const spawnSync = require('child_process').spawnSync;
const signals = require('os').constants.signals;
const rootUser = common.isWindows ? false :
common.isIBMi ? true : process.getuid() === 0;
const invalidArgTypeError = { code: 'ERR_INVALID_ARG_TYPE', name: 'TypeError' };
const invalidRangeError = { code: 'ERR_OUT_OF_RANGE', name: 'RangeError' };
function pass(option, value) {
// Run the command with the specified option. Since it's not a real command,
// spawnSync() should run successfully but return an ENOENT error.
const child = spawnSync('not_a_real_command', { [option]: value });
assert.strictEqual(child.error.code, 'ENOENT');
}
function fail(option, value, message) {
assert.throws(() => {
spawnSync('not_a_real_command', { [option]: value });
}, message);
}
{
// Validate the cwd option
pass('cwd', undefined);
pass('cwd', null);
pass('cwd', __dirname);
fail('cwd', 0, invalidArgTypeError);
fail('cwd', 1, invalidArgTypeError);
fail('cwd', true, invalidArgTypeError);
fail('cwd', false, invalidArgTypeError);
fail('cwd', [], invalidArgTypeError);
fail('cwd', {}, invalidArgTypeError);
fail('cwd', common.mustNotCall(), invalidArgTypeError);
}
{
// Validate the detached option
pass('detached', undefined);
pass('detached', null);
pass('detached', true);
pass('detached', false);
fail('detached', 0, invalidArgTypeError);
fail('detached', 1, invalidArgTypeError);
fail('detached', __dirname, invalidArgTypeError);
fail('detached', [], invalidArgTypeError);
fail('detached', {}, invalidArgTypeError);
fail('detached', common.mustNotCall(), invalidArgTypeError);
}
if (!common.isWindows) {
{
// Validate the uid option
if (!rootUser) {
pass('uid', undefined);
pass('uid', null);
pass('uid', process.getuid());
fail('uid', __dirname, invalidArgTypeError);
fail('uid', true, invalidArgTypeError);
fail('uid', false, invalidArgTypeError);
fail('uid', [], invalidArgTypeError);
fail('uid', {}, invalidArgTypeError);
fail('uid', common.mustNotCall(), invalidArgTypeError);
fail('uid', NaN, invalidArgTypeError);
fail('uid', Infinity, invalidArgTypeError);
fail('uid', 3.1, invalidArgTypeError);
fail('uid', -3.1, invalidArgTypeError);
}
}
{
// Validate the gid option
if (process.getgid() !== 0) {
pass('gid', undefined);
pass('gid', null);
pass('gid', process.getgid());
fail('gid', __dirname, invalidArgTypeError);
fail('gid', true, invalidArgTypeError);
fail('gid', false, invalidArgTypeError);
fail('gid', [], invalidArgTypeError);
fail('gid', {}, invalidArgTypeError);
fail('gid', common.mustNotCall(), invalidArgTypeError);
fail('gid', NaN, invalidArgTypeError);
fail('gid', Infinity, invalidArgTypeError);
fail('gid', 3.1, invalidArgTypeError);
fail('gid', -3.1, invalidArgTypeError);
}
}
}
{
// Validate the shell option
pass('shell', undefined);
pass('shell', null);
pass('shell', false);
fail('shell', 0, invalidArgTypeError);
fail('shell', 1, invalidArgTypeError);
fail('shell', [], invalidArgTypeError);
fail('shell', {}, invalidArgTypeError);
fail('shell', common.mustNotCall(), invalidArgTypeError);
}
{
// Validate the argv0 option
pass('argv0', undefined);
pass('argv0', null);
pass('argv0', 'myArgv0');
fail('argv0', 0, invalidArgTypeError);
fail('argv0', 1, invalidArgTypeError);
fail('argv0', true, invalidArgTypeError);
fail('argv0', false, invalidArgTypeError);
fail('argv0', [], invalidArgTypeError);
fail('argv0', {}, invalidArgTypeError);
fail('argv0', common.mustNotCall(), invalidArgTypeError);
}
{
// Validate the windowsHide option
pass('windowsHide', undefined);
pass('windowsHide', null);
pass('windowsHide', true);
pass('windowsHide', false);
fail('windowsHide', 0, invalidArgTypeError);
fail('windowsHide', 1, invalidArgTypeError);
fail('windowsHide', __dirname, invalidArgTypeError);
fail('windowsHide', [], invalidArgTypeError);
fail('windowsHide', {}, invalidArgTypeError);
fail('windowsHide', common.mustNotCall(), invalidArgTypeError);
}
{
// Validate the windowsVerbatimArguments option
pass('windowsVerbatimArguments', undefined);
pass('windowsVerbatimArguments', null);
pass('windowsVerbatimArguments', true);
pass('windowsVerbatimArguments', false);
fail('windowsVerbatimArguments', 0, invalidArgTypeError);
fail('windowsVerbatimArguments', 1, invalidArgTypeError);
fail('windowsVerbatimArguments', __dirname, invalidArgTypeError);
fail('windowsVerbatimArguments', [], invalidArgTypeError);
fail('windowsVerbatimArguments', {}, invalidArgTypeError);
fail('windowsVerbatimArguments', common.mustNotCall(), invalidArgTypeError);
}
{
// Validate the timeout option
pass('timeout', undefined);
pass('timeout', null);
pass('timeout', 1);
pass('timeout', 0);
fail('timeout', -1, invalidRangeError);
fail('timeout', true, invalidRangeError);
fail('timeout', false, invalidRangeError);
fail('timeout', __dirname, invalidRangeError);
fail('timeout', [], invalidRangeError);
fail('timeout', {}, invalidRangeError);
fail('timeout', common.mustNotCall(), invalidRangeError);
fail('timeout', NaN, invalidRangeError);
fail('timeout', Infinity, invalidRangeError);
fail('timeout', 3.1, invalidRangeError);
fail('timeout', -3.1, invalidRangeError);
}
{
// Validate the maxBuffer option
pass('maxBuffer', undefined);
pass('maxBuffer', null);
pass('maxBuffer', 1);
pass('maxBuffer', 0);
pass('maxBuffer', Infinity);
pass('maxBuffer', 3.14);
fail('maxBuffer', -1, invalidRangeError);
fail('maxBuffer', NaN, invalidRangeError);
fail('maxBuffer', -Infinity, invalidRangeError);
fail('maxBuffer', true, invalidRangeError);
fail('maxBuffer', false, invalidRangeError);
fail('maxBuffer', __dirname, invalidRangeError);
fail('maxBuffer', [], invalidRangeError);
fail('maxBuffer', {}, invalidRangeError);
fail('maxBuffer', common.mustNotCall(), invalidRangeError);
}
{
// Validate the killSignal option
const unknownSignalErr = { code: 'ERR_UNKNOWN_SIGNAL', name: 'TypeError' };
pass('killSignal', undefined);
pass('killSignal', null);
pass('killSignal', 'SIGKILL');
fail('killSignal', 'SIGNOTAVALIDSIGNALNAME', unknownSignalErr);
fail('killSignal', true, invalidArgTypeError);
fail('killSignal', false, invalidArgTypeError);
fail('killSignal', [], invalidArgTypeError);
fail('killSignal', {}, invalidArgTypeError);
fail('killSignal', common.mustNotCall(), invalidArgTypeError);
// Invalid signal names and numbers should fail
fail('killSignal', 500, unknownSignalErr);
fail('killSignal', 0, unknownSignalErr);
fail('killSignal', -200, unknownSignalErr);
fail('killSignal', 3.14, unknownSignalErr);
Object.getOwnPropertyNames(Object.prototype).forEach((property) => {
fail('killSignal', property, unknownSignalErr);
});
// Valid signal names and numbers should pass
for (const signalName in signals) {
pass('killSignal', signals[signalName]);
pass('killSignal', signalName);
pass('killSignal', signalName.toLowerCase());
}
}
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