'use strict'; const common = require('../common'); const { Readable, addAbortSignal } = require('stream'); const assert = require('assert'); { const read = new Readable({ read() {} }); read.resume(); read.on('close', common.mustCall()); read.destroy(); assert.strictEqual(read.errored, null); assert.strictEqual(read.destroyed, true); } { const read = new Readable({ read() {} }); read.resume(); const expected = new Error('kaboom'); read.on('end', common.mustNotCall('no end event')); read.on('close', common.mustCall()); read.on('error', common.mustCall((err) => { assert.strictEqual(err, expected); })); read.destroy(expected); assert.strictEqual(read.errored, expected); assert.strictEqual(read.destroyed, true); } { const read = new Readable({ read() {} }); read._destroy = common.mustCall(function(err, cb) { assert.strictEqual(err, expected); cb(err); }); const expected = new Error('kaboom'); read.on('end', common.mustNotCall('no end event')); read.on('close', common.mustCall()); read.on('error', common.mustCall((err) => { assert.strictEqual(err, expected); })); read.destroy(expected); assert.strictEqual(read.destroyed, true); } { const read = new Readable({ read() {}, destroy: common.mustCall(function(err, cb) { assert.strictEqual(err, expected); cb(); }) }); const expected = new Error('kaboom'); read.on('end', common.mustNotCall('no end event')); // Error is swallowed by the custom _destroy read.on('error', common.mustNotCall('no error event')); read.on('close', common.mustCall()); read.destroy(expected); assert.strictEqual(read.destroyed, true); } { const read = new Readable({ read() {} }); read._destroy = common.mustCall(function(err, cb) { assert.strictEqual(err, null); cb(); }); read.destroy(); assert.strictEqual(read.destroyed, true); } { const read = new Readable({ read() {} }); read.resume(); read._destroy = common.mustCall(function(err, cb) { assert.strictEqual(err, null); process.nextTick(() => { this.push(null); cb(); }); }); const fail = common.mustNotCall('no end event'); read.on('end', fail); read.on('close', common.mustCall()); read.destroy(); read.removeListener('end', fail); read.on('end', common.mustNotCall()); assert.strictEqual(read.destroyed, true); } { const read = new Readable({ read() {} }); const expected = new Error('kaboom'); read._destroy = common.mustCall(function(err, cb) { assert.strictEqual(err, null); cb(expected); }); let ticked = false; read.on('end', common.mustNotCall('no end event')); read.on('error', common.mustCall((err) => { assert.strictEqual(ticked, true); assert.strictEqual(read._readableState.errorEmitted, true); assert.strictEqual(read._readableState.errored, expected); assert.strictEqual(err, expected); })); read.destroy(); assert.strictEqual(read._readableState.errorEmitted, false); assert.strictEqual(read._readableState.errored, expected); assert.strictEqual(read.destroyed, true); ticked = true; } { const read = new Readable({ read() {} }); read.resume(); read.destroyed = true; assert.strictEqual(read.destroyed, true); // The internal destroy() mechanism should not be triggered read.on('end', common.mustNotCall()); read.destroy(); } { function MyReadable() { assert.strictEqual(this.destroyed, false); this.destroyed = false; Readable.call(this); } Object.setPrototypeOf(MyReadable.prototype, Readable.prototype); Object.setPrototypeOf(MyReadable, Readable); new MyReadable(); } { // Destroy and destroy callback const read = new Readable({ read() {} }); read.resume(); const expected = new Error('kaboom'); let ticked = false; read.on('close', common.mustCall(() => { assert.strictEqual(read._readableState.errorEmitted, true); assert.strictEqual(ticked, true); })); read.on('error', common.mustCall((err) => { assert.strictEqual(err, expected); })); assert.strictEqual(read._readableState.errored, null); assert.strictEqual(read._readableState.errorEmitted, false); read.destroy(expected, common.mustCall(function(err) { assert.strictEqual(read._readableState.errored, expected); assert.strictEqual(err, expected); })); assert.strictEqual(read._readableState.errorEmitted, false); assert.strictEqual(read._readableState.errored, expected); ticked = true; } { const readable = new Readable({ destroy: common.mustCall(function(err, cb) { process.nextTick(cb, new Error('kaboom 1')); }), read() {} }); let ticked = false; readable.on('close', common.mustCall(() => { assert.strictEqual(ticked, true); assert.strictEqual(readable._readableState.errorEmitted, true); })); readable.on('error', common.mustCall((err) => { assert.strictEqual(ticked, true); assert.strictEqual(err.message, 'kaboom 1'); assert.strictEqual(readable._readableState.errorEmitted, true); })); readable.destroy(); assert.strictEqual(readable.destroyed, true); assert.strictEqual(readable._readableState.errored, null); assert.strictEqual(readable._readableState.errorEmitted, false); // Test case where `readable.destroy()` is called again with an error before // the `_destroy()` callback is called. readable.destroy(new Error('kaboom 2')); assert.strictEqual(readable._readableState.errorEmitted, false); assert.strictEqual(readable._readableState.errored, null); ticked = true; } { const read = new Readable({ read() {} }); read.destroy(); read.push('hi'); read.on('data', common.mustNotCall()); } { const read = new Readable({ read: common.mustNotCall() }); read.destroy(); assert.strictEqual(read.destroyed, true); read.read(); } { const read = new Readable({ autoDestroy: false, read() { this.push(null); this.push('asd'); } }); read.on('error', common.mustCall(() => { assert(read._readableState.errored); })); read.resume(); } { const controller = new AbortController(); const read = addAbortSignal(controller.signal, new Readable({ read() { this.push('asd'); }, })); read.on('error', common.mustCall((e) => { assert.strictEqual(e.name, 'AbortError'); })); controller.abort(); read.on('data', common.mustNotCall()); } { const controller = new AbortController(); const read = new Readable({ signal: controller.signal, read() { this.push('asd'); }, }); read.on('error', common.mustCall((e) => { assert.strictEqual(e.name, 'AbortError'); })); controller.abort(); read.on('data', common.mustNotCall()); } { const controller = new AbortController(); const read = addAbortSignal(controller.signal, new Readable({ objectMode: true, read() { return false; } })); read.push('asd'); read.on('error', common.mustCall((e) => { assert.strictEqual(e.name, 'AbortError'); })); assert.rejects((async () => { // eslint-disable-next-line no-unused-vars, no-empty for await (const chunk of read) { } })(), /AbortError/).then(common.mustCall()); setTimeout(() => controller.abort(), 0); } { const read = new Readable({ read() { }, }); read.on('data', common.mustNotCall()); read.on('error', common.mustCall((e) => { read.push('asd'); read.read(); })); read.on('close', common.mustCall((e) => { read.push('asd'); read.read(); })); read.destroy(new Error('asd')); } { const read = new Readable({ read() { }, }); read.on('data', common.mustNotCall()); read.on('close', common.mustCall((e) => { read.push('asd'); read.read(); })); read.destroy(); } { const read = new Readable({ read() { }, }); read.on('data', common.mustNotCall()); read.on('close', common.mustCall((e) => { read.push('asd'); read.unshift('asd'); })); read.destroy(); } { const read = new Readable({ read() { }, }); read.on('data', common.mustNotCall()); read.destroy(); read.unshift('asd'); } { const read = new Readable({ read() { }, }); read.resume(); read.on('data', common.mustNotCall()); read.on('close', common.mustCall((e) => { read.push('asd'); })); read.destroy(); } { const read = new Readable({ read() { }, }); read.on('data', common.mustNotCall()); read.destroy(); read.push('asd'); }