// 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 `tests/node_compat/runner/setup.ts`. Do not modify this file manually. // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. 'use strict'; const common = require('../common'); const { Writable: W, Duplex: D } = require('stream'); const assert = require('assert'); class TestWriter extends W { constructor(opts) { super(opts); this.buffer = []; this.written = 0; } _write(chunk, encoding, cb) { // Simulate a small unpredictable latency setTimeout(() => { this.buffer.push(chunk.toString()); this.written += chunk.length; cb(); }, Math.floor(Math.random() * 10)); } } const chunks = new Array(50); for (let i = 0; i < chunks.length; i++) { chunks[i] = 'x'.repeat(i); } { // Verify fast writing const tw = new TestWriter({ highWaterMark: 100 }); tw.on('finish', common.mustCall(function() { // Got chunks in the right order assert.deepStrictEqual(tw.buffer, chunks); })); chunks.forEach(function(chunk) { // Ignore backpressure. Just buffer it all up. tw.write(chunk); }); tw.end(); } { // Verify slow writing const tw = new TestWriter({ highWaterMark: 100 }); tw.on('finish', common.mustCall(function() { // Got chunks in the right order assert.deepStrictEqual(tw.buffer, chunks); })); let i = 0; (function W() { tw.write(chunks[i++]); if (i < chunks.length) setTimeout(W, 10); else tw.end(); })(); } { // Verify write backpressure const tw = new TestWriter({ highWaterMark: 50 }); let drains = 0; tw.on('finish', common.mustCall(function() { // Got chunks in the right order assert.deepStrictEqual(tw.buffer, chunks); assert.strictEqual(drains, 17); })); tw.on('drain', function() { drains++; }); let i = 0; (function W() { let ret; do { ret = tw.write(chunks[i++]); } while (ret !== false && i < chunks.length); if (i < chunks.length) { assert(tw.writableLength >= 50); tw.once('drain', W); } else { tw.end(); } })(); } { // Verify write buffersize const tw = new TestWriter({ highWaterMark: 100 }); const encodings = [ 'hex', 'utf8', 'utf-8', 'ascii', 'latin1', 'binary', 'base64', 'ucs2', 'ucs-2', 'utf16le', 'utf-16le', undefined ]; tw.on('finish', function() { // Got the expected chunks assert.deepStrictEqual(tw.buffer, chunks); }); chunks.forEach(function(chunk, i) { const enc = encodings[i % encodings.length]; chunk = Buffer.from(chunk); tw.write(chunk.toString(enc), enc); }); } { // Verify write with no buffersize const tw = new TestWriter({ highWaterMark: 100, decodeStrings: false }); tw._write = function(chunk, encoding, cb) { assert.strictEqual(typeof chunk, 'string'); chunk = Buffer.from(chunk, encoding); return TestWriter.prototype._write.call(this, chunk, encoding, cb); }; const encodings = [ 'hex', 'utf8', 'utf-8', 'ascii', 'latin1', 'binary', 'base64', 'ucs2', 'ucs-2', 'utf16le', 'utf-16le', undefined ]; tw.on('finish', function() { // Got the expected chunks assert.deepStrictEqual(tw.buffer, chunks); }); chunks.forEach(function(chunk, i) { const enc = encodings[i % encodings.length]; chunk = Buffer.from(chunk); tw.write(chunk.toString(enc), enc); }); } { // Verify write callbacks const callbacks = chunks.map(function(chunk, i) { return [i, function() { callbacks._called[i] = chunk; }]; }).reduce(function(set, x) { set[`callback-${x[0]}`] = x[1]; return set; }, {}); callbacks._called = []; const tw = new TestWriter({ highWaterMark: 100 }); tw.on('finish', common.mustCall(function() { process.nextTick(common.mustCall(function() { // Got chunks in the right order assert.deepStrictEqual(tw.buffer, chunks); // Called all callbacks assert.deepStrictEqual(callbacks._called, chunks); })); })); chunks.forEach(function(chunk, i) { tw.write(chunk, callbacks[`callback-${i}`]); }); tw.end(); } { // Verify end() callback const tw = new TestWriter(); tw.end(common.mustCall()); } const helloWorldBuffer = Buffer.from('hello world'); { // Verify end() callback with chunk const tw = new TestWriter(); tw.end(helloWorldBuffer, common.mustCall()); } { // Verify end() callback with chunk and encoding const tw = new TestWriter(); tw.end('hello world', 'ascii', common.mustCall()); } { // Verify end() callback after write() call const tw = new TestWriter(); tw.write(helloWorldBuffer); tw.end(common.mustCall()); } { // Verify end() callback after write() callback const tw = new TestWriter(); let writeCalledback = false; tw.write(helloWorldBuffer, function() { writeCalledback = true; }); tw.end(common.mustCall(function() { assert.strictEqual(writeCalledback, true); })); } { // Verify encoding is ignored for buffers const tw = new W(); const hex = '018b5e9a8f6236ffe30e31baf80d2cf6eb'; tw._write = common.mustCall(function(chunk) { assert.strictEqual(chunk.toString('hex'), hex); }); const buf = Buffer.from(hex, 'hex'); tw.write(buf, 'latin1'); } { // Verify writables cannot be piped const w = new W({ autoDestroy: false }); w._write = common.mustNotCall(); let gotError = false; w.on('error', function() { gotError = true; }); w.pipe(process.stdout); assert.strictEqual(gotError, true); } { // Verify that duplex streams cannot be piped const d = new D(); d._read = common.mustCall(); d._write = common.mustNotCall(); let gotError = false; d.on('error', function() { gotError = true; }); d.pipe(process.stdout); assert.strictEqual(gotError, false); } { // Verify that end(chunk) twice is an error const w = new W(); w._write = common.mustCall((msg) => { assert.strictEqual(msg.toString(), 'this is the end'); }); let gotError = false; w.on('error', function(er) { gotError = true; assert.strictEqual(er.message, 'write after end'); }); w.end('this is the end'); w.end('and so is this'); process.nextTick(common.mustCall(function() { assert.strictEqual(gotError, true); })); } { // Verify stream doesn't end while writing const w = new W(); let wrote = false; w._write = function(chunk, e, cb) { assert.strictEqual(this.writing, undefined); wrote = true; this.writing = true; setTimeout(() => { this.writing = false; cb(); }, 1); }; w.on('finish', common.mustCall(function() { assert.strictEqual(wrote, true); assert.strictEqual(this.writing, false); })); w.write(Buffer.alloc(0)); w.end(); } { // Verify finish does not come before write() callback const w = new W(); let writeCb = false; w._write = function(chunk, e, cb) { setTimeout(function() { writeCb = true; cb(); }, 10); }; w.on('finish', common.mustCall(function() { assert.strictEqual(writeCb, true); })); w.write(Buffer.alloc(0)); w.end(); } { // Verify finish does not come before synchronous _write() callback const w = new W(); let writeCb = false; w._write = function(chunk, e, cb) { cb(); }; w.on('finish', common.mustCall(function() { assert.strictEqual(writeCb, true); })); w.write(Buffer.alloc(0), function() { writeCb = true; }); w.end(); } { // Verify finish is emitted if the last chunk is empty const w = new W(); w._write = function(chunk, e, cb) { process.nextTick(cb); }; w.on('finish', common.mustCall()); w.write(Buffer.allocUnsafe(1)); w.end(Buffer.alloc(0)); } { // Verify that finish is emitted after shutdown const w = new W(); let shutdown = false; w._final = common.mustCall(function(cb) { assert.strictEqual(this, w); setTimeout(function() { shutdown = true; cb(); }, 100); }); w._write = function(chunk, e, cb) { process.nextTick(cb); }; w.on('finish', common.mustCall(function() { assert.strictEqual(shutdown, true); })); w.write(Buffer.allocUnsafe(1)); w.end(Buffer.allocUnsafe(0)); } { // Verify that error is only emitted once when failing in _finish. const w = new W(); w._final = common.mustCall(function(cb) { cb(new Error('test')); }); w.on('error', common.mustCall((err) => { assert.strictEqual(w._writableState.errorEmitted, true); assert.strictEqual(err.message, 'test'); w.on('error', common.mustNotCall()); w.destroy(new Error()); })); w.end(); } { // Verify that error is only emitted once when failing in write. const w = new W(); w.on('error', common.mustNotCall()); assert.throws(() => { w.write(null); }, { code: 'ERR_STREAM_NULL_VALUES' }); } { // Verify that error is only emitted once when failing in write after end. const w = new W(); w.on('error', common.mustCall((err) => { assert.strictEqual(w._writableState.errorEmitted, true); assert.strictEqual(err.code, 'ERR_STREAM_WRITE_AFTER_END'); })); w.end(); w.write('hello'); w.destroy(new Error()); } { // Verify that finish is not emitted after error const w = new W(); w._final = common.mustCall(function(cb) { cb(new Error()); }); w._write = function(chunk, e, cb) { process.nextTick(cb); }; w.on('error', common.mustCall()); w.on('prefinish', common.mustNotCall()); w.on('finish', common.mustNotCall()); w.write(Buffer.allocUnsafe(1)); w.end(Buffer.allocUnsafe(0)); }