// ***************************************************************************** // Copyright (C) 2021 Red Hat, Inc. and others. // // This program and the accompanying materials are made available under the // terms of the Eclipse Public License v. 2.0 which is available at // http://www.eclipse.org/legal/epl-2.0. // // This Source Code may also be made available under the following Secondary // Licenses when the conditions for such availability set forth in the Eclipse // Public License v. 2.0 are satisfied: GNU General Public License, version 2 // with the GNU Classpath Exception which is available at // https://www.gnu.org/software/classpath/license.html. // // SPDX-License-Identifier: EPL-2.0 OR GPL-2.0-only WITH Classpath-exception-2.0 // ***************************************************************************** import { assert, expect, spy, use } from 'chai'; import * as spies from 'chai-spies'; import { Uint8ArrayReadBuffer, Uint8ArrayWriteBuffer } from './uint8-array-message-buffer'; import { ChannelMultiplexer, ForwardingChannel, MessageProvider } from './channel'; import { RpcProtocol } from './rpc-protocol'; use(spies); /** * A pipe with two channels at each end for testing. */ export class ChannelPipe { readonly left: ForwardingChannel = new ForwardingChannel('left', () => this.right.onCloseEmitter.fire({ reason: 'Left channel has been closed' }), () => { const leftWrite = new Uint8ArrayWriteBuffer(); leftWrite.onCommit(buffer => { this.right.onMessageEmitter.fire(() => new Uint8ArrayReadBuffer(buffer)); }); return leftWrite; }); readonly right: ForwardingChannel = new ForwardingChannel('right', () => this.left.onCloseEmitter.fire({ reason: 'Right channel has been closed' }), () => { const rightWrite = new Uint8ArrayWriteBuffer(); rightWrite.onCommit(buffer => { this.left.onMessageEmitter.fire(() => new Uint8ArrayReadBuffer(buffer)); }); return rightWrite; }); } describe('Message Channel', () => { describe('Channel multiplexer', () => { it('should forward messages to intended target channel', async () => { const pipe = new ChannelPipe(); const leftMultiplexer = new ChannelMultiplexer(pipe.left); const rightMultiplexer = new ChannelMultiplexer(pipe.right); const openChannelSpy = spy(() => { }); rightMultiplexer.onDidOpenChannel(openChannelSpy); leftMultiplexer.onDidOpenChannel(openChannelSpy); const leftFirst = await leftMultiplexer.open('first'); const leftSecond = await leftMultiplexer.open('second'); const rightFirst = rightMultiplexer.getOpenChannel('first'); const rightSecond = rightMultiplexer.getOpenChannel('second'); assert.isNotNull(rightFirst); assert.isNotNull(rightSecond); const leftSecondSpy = spy((buf: MessageProvider) => { const message = buf().readString(); expect(message).equal('message for second'); }); leftSecond.onMessage(leftSecondSpy); const rightFirstSpy = spy((buf: MessageProvider) => { const message = buf().readString(); expect(message).equal('message for first'); }); rightFirst!.onMessage(rightFirstSpy); leftFirst.getWriteBuffer().writeString('message for first').commit(); rightSecond!.getWriteBuffer().writeString('message for second').commit(); expect(leftSecondSpy).to.be.called(); expect(rightFirstSpy).to.be.called(); expect(openChannelSpy).to.be.called.exactly(4); }); it('should reject pending open() promises when underlying channel closes', async () => { const pipe = new ChannelPipe(); const leftMultiplexer = new ChannelMultiplexer(pipe.left); // Don't create a right multiplexer, so no AckOpen will arrive const openPromise = leftMultiplexer.open('test'); // Close the underlying channel pipe.left.onCloseEmitter.fire({ reason: 'test close' }); // The open promise should reject, not hang forever try { await openPromise; assert.fail('Expected open() promise to be rejected'); } catch (err) { expect(err).to.be.instanceOf(Error); expect((err as Error).message).to.contain('test close'); } }); it('should fire onClose on sub-channels when underlying channel closes', async () => { const pipe = new ChannelPipe(); const leftMultiplexer = new ChannelMultiplexer(pipe.left); const rightMultiplexer = new ChannelMultiplexer(pipe.right); const leftChannel = await leftMultiplexer.open('test'); const rightChannel = rightMultiplexer.getOpenChannel('test'); assert.isDefined(rightChannel); const leftCloseSpy = spy(() => { }); leftChannel.onClose(leftCloseSpy); // Close the underlying channel from the remote side pipe.left.onCloseEmitter.fire({ reason: 'underlying closed' }); expect(leftCloseSpy).to.have.been.called(); }); }); describe('Channel close event ordering', () => { it('should not deliver onClose after close() has been called', () => { const channel = new ForwardingChannel('test', () => { }, () => new Uint8ArrayWriteBuffer()); const closeSpy = spy(() => { }); channel.onClose(closeSpy); // Bug pattern: close() first (disposes emitters), then fire (no-op) channel.close(); channel.onCloseEmitter.fire({ reason: 'too late' }); // The listener should not be called because close() already disposed the emitter expect(closeSpy).to.not.have.been.called(); }); it('should deliver onClose when fired before close()', () => { const channel = new ForwardingChannel('test', () => { }, () => new Uint8ArrayWriteBuffer()); const closeSpy = spy(() => { }); channel.onClose(closeSpy); // Correct pattern: fire first, then close channel.onCloseEmitter.fire({ reason: 'proper close' }); channel.close(); expect(closeSpy).to.have.been.called(); }); }); describe('RPC protocol with write buffer overflow', () => { it('should reject the promise when commit fails due to buffer overflow', async () => { // Simulate a channel whose write buffer throws on commit (e.g. SocketWriteBuffer overflow) const channel = new ForwardingChannel('test', () => { }, () => { const buffer = new Uint8ArrayWriteBuffer(); buffer.onCommit(() => { throw new Error('Max disconnected buffer size exceeded'); }); return buffer; }); const protocol = new RpcProtocol(channel, undefined, { mode: 'clientOnly' }); // sendRequest should return a rejected promise, not throw synchronously const promise = protocol.sendRequest('testMethod', []); try { await promise; assert.fail('Expected promise to be rejected'); } catch (err) { expect(err).to.be.instanceOf(Error); expect((err as Error).message).to.contain('buffer size exceeded'); } }); it('should not leak pending requests when commit fails', async () => { const channel = new ForwardingChannel('test', () => { }, () => { const buffer = new Uint8ArrayWriteBuffer(); buffer.onCommit(() => { throw new Error('Max disconnected buffer size exceeded'); }); return buffer; }); const protocol = new RpcProtocol(channel, undefined, { mode: 'clientOnly' }); // sendRequest should return a rejected promise and clean up pendingRequests try { await protocol.sendRequest('testMethod', []); } catch { // expected: the promise is rejected due to buffer overflow } // eslint-disable-next-line @typescript-eslint/no-explicit-any expect((protocol as any).pendingRequests.size).to.equal(0); }); }); });