// 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. // 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 { Readable: R, Writable: W } = require('stream'); const assert = require('assert'); const EE = require('events').EventEmitter; class TestReader extends R { constructor(n) { super(); this._buffer = Buffer.alloc(n || 100, 'x'); this._pos = 0; this._bufs = 10; } _read(n) { const max = this._buffer.length - this._pos; n = Math.max(n, 0); const toRead = Math.min(n, max); if (toRead === 0) { // Simulate the read buffer filling up with some more bytes some time // in the future. setTimeout(() => { this._pos = 0; this._bufs -= 1; if (this._bufs <= 0) { // read them all! if (!this.ended) this.push(null); } else { // now we have more. // kinda cheating by calling _read, but whatever, // it's just fake anyway. this._read(n); } }, 10); return; } const ret = this._buffer.slice(this._pos, this._pos + toRead); this._pos += toRead; this.push(ret); } } class TestWriter extends EE { constructor() { super(); this.received = []; this.flush = false; } write(c) { this.received.push(c.toString()); this.emit('write', c); return true; } end(c) { if (c) this.write(c); this.emit('end', this.received); } } { // Test basic functionality const r = new TestReader(20); const reads = []; const expect = [ 'x', 'xx', 'xxx', 'xxxx', 'xxxxx', 'xxxxxxxxx', 'xxxxxxxxxx', 'xxxxxxxxxxxx', 'xxxxxxxxxxxxx', 'xxxxxxxxxxxxxxx', 'xxxxxxxxxxxxxxxxx', 'xxxxxxxxxxxxxxxxxxx', 'xxxxxxxxxxxxxxxxxxxxx', 'xxxxxxxxxxxxxxxxxxxxxxx', 'xxxxxxxxxxxxxxxxxxxxxxxxx', 'xxxxxxxxxxxxxxxxxxxxx' ]; r.on('end', common.mustCall(function() { assert.deepStrictEqual(reads, expect); })); let readSize = 1; function flow() { let res; while (null !== (res = r.read(readSize++))) { reads.push(res.toString()); } r.once('readable', flow); } flow(); } { // Verify pipe const r = new TestReader(5); const expect = [ 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx' ]; const w = new TestWriter(); w.on('end', common.mustCall(function(received) { assert.deepStrictEqual(received, expect); })); r.pipe(w); } [1, 2, 3, 4, 5, 6, 7, 8, 9].forEach(function(SPLIT) { // Verify unpipe const r = new TestReader(5); // Unpipe after 3 writes, then write to another stream instead. let expect = [ 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx' ]; expect = [ expect.slice(0, SPLIT), expect.slice(SPLIT) ]; const w = [ new TestWriter(), new TestWriter() ]; let writes = SPLIT; w[0].on('write', function() { if (--writes === 0) { r.unpipe(); assert.deepStrictEqual(r._readableState.pipes, []); w[0].end(); r.pipe(w[1]); assert.deepStrictEqual(r._readableState.pipes, [w[1]]); } }); let ended = 0; w[0].on('end', common.mustCall(function(results) { ended++; assert.strictEqual(ended, 1); assert.deepStrictEqual(results, expect[0]); })); w[1].on('end', common.mustCall(function(results) { ended++; assert.strictEqual(ended, 2); assert.deepStrictEqual(results, expect[1]); })); r.pipe(w[0]); }); { // Verify both writers get the same data when piping to destinations const r = new TestReader(5); const w = [ new TestWriter(), new TestWriter() ]; const expect = [ 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx' ]; w[0].on('end', common.mustCall(function(received) { assert.deepStrictEqual(received, expect); })); w[1].on('end', common.mustCall(function(received) { assert.deepStrictEqual(received, expect); })); r.pipe(w[0]); r.pipe(w[1]); } [1, 2, 3, 4, 5, 6, 7, 8, 9].forEach(function(SPLIT) { // Verify multi-unpipe const r = new TestReader(5); // Unpipe after 3 writes, then write to another stream instead. let expect = [ 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx', 'xxxxx' ]; expect = [ expect.slice(0, SPLIT), expect.slice(SPLIT) ]; const w = [ new TestWriter(), new TestWriter(), new TestWriter() ]; let writes = SPLIT; w[0].on('write', function() { if (--writes === 0) { r.unpipe(); w[0].end(); r.pipe(w[1]); } }); let ended = 0; w[0].on('end', common.mustCall(function(results) { ended++; assert.strictEqual(ended, 1); assert.deepStrictEqual(results, expect[0]); })); w[1].on('end', common.mustCall(function(results) { ended++; assert.strictEqual(ended, 2); assert.deepStrictEqual(results, expect[1]); })); r.pipe(w[0]); r.pipe(w[2]); }); { // Verify that back pressure is respected const r = new R({ objectMode: true }); r._read = common.mustNotCall(); let counter = 0; r.push(['one']); r.push(['two']); r.push(['three']); r.push(['four']); r.push(null); const w1 = new R(); w1.write = function(chunk) { assert.strictEqual(chunk[0], 'one'); w1.emit('close'); process.nextTick(function() { r.pipe(w2); r.pipe(w3); }); }; w1.end = common.mustNotCall(); r.pipe(w1); const expected = ['two', 'two', 'three', 'three', 'four', 'four']; const w2 = new R(); w2.write = function(chunk) { assert.strictEqual(chunk[0], expected.shift()); assert.strictEqual(counter, 0); counter++; if (chunk[0] === 'four') { return true; } setTimeout(function() { counter--; w2.emit('drain'); }, 10); return false; }; w2.end = common.mustCall(); const w3 = new R(); w3.write = function(chunk) { assert.strictEqual(chunk[0], expected.shift()); assert.strictEqual(counter, 1); counter++; if (chunk[0] === 'four') { return true; } setTimeout(function() { counter--; w3.emit('drain'); }, 50); return false; }; w3.end = common.mustCall(function() { assert.strictEqual(counter, 2); assert.strictEqual(expected.length, 0); }); } { // Verify read(0) behavior for ended streams const r = new R(); let written = false; let ended = false; r._read = common.mustNotCall(); r.push(Buffer.from('foo')); r.push(null); const v = r.read(0); assert.strictEqual(v, null); const w = new R(); w.write = function(buffer) { written = true; assert.strictEqual(ended, false); assert.strictEqual(buffer.toString(), 'foo'); }; w.end = common.mustCall(function() { ended = true; assert.strictEqual(written, true); }); r.pipe(w); } { // Verify synchronous _read ending const r = new R(); let called = false; r._read = function(n) { r.push(null); }; r.once('end', function() { // Verify that this is called before the next tick called = true; }); r.read(); process.nextTick(function() { assert.strictEqual(called, true); }); } { // Verify that adding readable listeners trigger data flow const r = new R({ highWaterMark: 5 }); let onReadable = false; let readCalled = 0; r._read = function(n) { if (readCalled++ === 2) r.push(null); else r.push(Buffer.from('asdf')); }; r.on('readable', function() { onReadable = true; r.read(); }); r.on('end', common.mustCall(function() { assert.strictEqual(readCalled, 3); assert.ok(onReadable); })); } { // Verify that streams are chainable const r = new R(); r._read = common.mustCall(); const r2 = r.setEncoding('utf8').pause().resume().pause(); assert.strictEqual(r, r2); } { // Verify readableEncoding property assert(Object.hasOwn(R.prototype, 'readableEncoding')); const r = new R({ encoding: 'utf8' }); assert.strictEqual(r.readableEncoding, 'utf8'); } { // Verify readableObjectMode property assert(Object.hasOwn(R.prototype, 'readableObjectMode')); const r = new R({ objectMode: true }); assert.strictEqual(r.readableObjectMode, true); } { // Verify writableObjectMode property assert(Object.hasOwn(W.prototype, 'writableObjectMode')); const w = new W({ objectMode: true }); assert.strictEqual(w.writableObjectMode, true); }