// deno-fmt-ignore-file // deno-lint-ignore-file // Copyright Joyent and Node contributors. All rights reserved. MIT license. // Taken from Node 20.11.1 // This file is automatically generated by `tests/node_compat/runner/setup.ts`. Do not modify this file manually. // Test for "overlapped" stdio option. This test uses the "overlapped-checker" // helper program which basically a specialized echo program. // // The test has two goals: // // - Verify that overlapped I/O works on windows. The test program will deadlock // if stdin doesn't have the FILE_FLAG_OVERLAPPED flag set on startup (see // test/overlapped-checker/main_win.c for more details). // - Verify that "overlapped" stdio option works transparently as a pipe (on // unix/windows) // // This is how the test works: // // - This script assumes only numeric strings are written to the test program // stdout. // - The test program will be spawned with "overlapped" set on stdin and "pipe" // set on stdout/stderr and at startup writes a number to its stdout // - When this script receives some data, it will parse the number, add 50 and // write to the test program's stdin. // - The test program will then echo the number back to us which will repeat the // cycle until the number reaches 200, at which point we send the "exit" // string, which causes the test program to exit. // - Extra assertion: Every time the test program writes a string to its stdout, // it will write the number of bytes written to stderr. // - If overlapped I/O is not setup correctly, this test is going to hang. 'use strict'; const common = require('../common'); const assert = require('assert'); const path = require('path'); const child_process = require('child_process'); const exeExtension = process.platform === 'win32' ? '.exe' : ''; const exe = 'overlapped-checker' + exeExtension; const exePath = path.join(path.dirname(process.execPath), exe); if (!require('fs').existsSync(exePath)) { common.skip(exe + ' binary is not available'); } const child = child_process.spawn(exePath, [], { stdio: ['overlapped', 'pipe', 'pipe'] }); child.stdin.setEncoding('utf8'); child.stdout.setEncoding('utf8'); child.stderr.setEncoding('utf8'); function writeNext(n) { child.stdin.write((n + 50).toString()); } child.stdout.on('data', (s) => { const n = Number(s); if (n >= 200) { child.stdin.write('exit'); return; } writeNext(n); }); let stderr = ''; child.stderr.on('data', (s) => { stderr += s; }); child.stderr.on('end', common.mustCall(() => { // This is the sequence of numbers sent to us: // - 0 (1 byte written) // - 50 (2 bytes written) // - 100 (3 bytes written) // - 150 (3 bytes written) // - 200 (3 bytes written) assert.strictEqual(stderr, '12333'); })); child.on('exit', common.mustCall((status) => { // The test program will return the number of writes as status code. assert.strictEqual(status, 0); }));