// 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. 'use strict'; const common = require('../common'); const { Duplex } = require('stream'); const assert = require('assert'); { const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {} }); duplex.resume(); duplex.on('end', common.mustNotCall()); duplex.on('finish', common.mustNotCall()); duplex.on('close', common.mustCall()); duplex.destroy(); assert.strictEqual(duplex.destroyed, true); } { const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {} }); duplex.resume(); const expected = new Error('kaboom'); duplex.on('end', common.mustNotCall()); duplex.on('finish', common.mustNotCall()); duplex.on('error', common.mustCall((err) => { assert.strictEqual(err, expected); })); duplex.destroy(expected); assert.strictEqual(duplex.destroyed, true); } { const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {} }); duplex._destroy = common.mustCall(function(err, cb) { assert.strictEqual(err, expected); cb(err); }); const expected = new Error('kaboom'); duplex.on('finish', common.mustNotCall('no finish event')); duplex.on('error', common.mustCall((err) => { assert.strictEqual(err, expected); })); duplex.destroy(expected); assert.strictEqual(duplex.destroyed, true); } { const expected = new Error('kaboom'); const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {}, destroy: common.mustCall(function(err, cb) { assert.strictEqual(err, expected); cb(); }) }); duplex.resume(); duplex.on('end', common.mustNotCall('no end event')); duplex.on('finish', common.mustNotCall('no finish event')); // Error is swallowed by the custom _destroy duplex.on('error', common.mustNotCall('no error event')); duplex.on('close', common.mustCall()); duplex.destroy(expected); assert.strictEqual(duplex.destroyed, true); } { const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {} }); duplex._destroy = common.mustCall(function(err, cb) { assert.strictEqual(err, null); cb(); }); duplex.destroy(); assert.strictEqual(duplex.destroyed, true); } { const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {} }); duplex.resume(); duplex._destroy = common.mustCall(function(err, cb) { assert.strictEqual(err, null); process.nextTick(() => { this.push(null); this.end(); cb(); }); }); const fail = common.mustNotCall('no finish or end event'); duplex.on('finish', fail); duplex.on('end', fail); duplex.destroy(); duplex.removeListener('end', fail); duplex.removeListener('finish', fail); duplex.on('end', common.mustNotCall()); duplex.on('finish', common.mustNotCall()); assert.strictEqual(duplex.destroyed, true); } { const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {} }); const expected = new Error('kaboom'); duplex._destroy = common.mustCall(function(err, cb) { assert.strictEqual(err, null); cb(expected); }); duplex.on('finish', common.mustNotCall('no finish event')); duplex.on('end', common.mustNotCall('no end event')); duplex.on('error', common.mustCall((err) => { assert.strictEqual(err, expected); })); duplex.destroy(); assert.strictEqual(duplex.destroyed, true); } { const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {}, allowHalfOpen: true }); duplex.resume(); duplex.on('finish', common.mustNotCall()); duplex.on('end', common.mustNotCall()); duplex.destroy(); assert.strictEqual(duplex.destroyed, true); } { const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {}, }); duplex.destroyed = true; assert.strictEqual(duplex.destroyed, true); // The internal destroy() mechanism should not be triggered duplex.on('finish', common.mustNotCall()); duplex.on('end', common.mustNotCall()); duplex.destroy(); } { function MyDuplex() { assert.strictEqual(this.destroyed, false); this.destroyed = false; Duplex.call(this); } Object.setPrototypeOf(MyDuplex.prototype, Duplex.prototype); Object.setPrototypeOf(MyDuplex, Duplex); new MyDuplex(); } { const duplex = new Duplex({ writable: false, autoDestroy: true, write(chunk, enc, cb) { cb(); }, read() {}, }); duplex.push(null); duplex.resume(); duplex.on('close', common.mustCall()); } { const duplex = new Duplex({ readable: false, autoDestroy: true, write(chunk, enc, cb) { cb(); }, read() {}, }); duplex.end(); duplex.on('close', common.mustCall()); } { const duplex = new Duplex({ allowHalfOpen: false, autoDestroy: true, write(chunk, enc, cb) { cb(); }, read() {}, }); duplex.push(null); duplex.resume(); const orgEnd = duplex.end; duplex.end = common.mustNotCall(); duplex.on('end', () => { // Ensure end() is called in next tick to allow // any pending writes to be invoked first. process.nextTick(() => { duplex.end = common.mustCall(orgEnd); }); }); duplex.on('close', common.mustCall()); } { // Check abort signal const controller = new AbortController(); const { signal } = controller; const duplex = new Duplex({ write(chunk, enc, cb) { cb(); }, read() {}, signal, }); let count = 0; duplex.on('error', common.mustCall((e) => { assert.strictEqual(count++, 0); // Ensure not called twice assert.strictEqual(e.name, 'AbortError'); })); duplex.on('close', common.mustCall()); controller.abort(); }