// META: global=window,worker // META: script=../resources/rs-utils.js // META: script=../resources/test-utils.js // META: script=../resources/recording-streams.js 'use strict'; function duckTypedPassThroughTransform() { let enqueueInReadable; let closeReadable; return { writable: new WritableStream({ write(chunk) { enqueueInReadable(chunk); }, close() { closeReadable(); } }), readable: new ReadableStream({ start(c) { enqueueInReadable = c.enqueue.bind(c); closeReadable = c.close.bind(c); } }) }; } function uninterestingReadableWritablePair() { return { writable: new WritableStream(), readable: new ReadableStream() }; } promise_test(() => { const readableEnd = sequentialReadableStream(5).pipeThrough(duckTypedPassThroughTransform()); return readableStreamToArray(readableEnd).then(chunks => assert_array_equals(chunks, [1, 2, 3, 4, 5]), 'chunks should match'); }, 'Piping through a duck-typed pass-through transform stream should work'); promise_test(() => { const transform = { writable: new WritableStream({ start(c) { c.error(new Error('this rejection should not be reported as unhandled')); } }), readable: new ReadableStream() }; sequentialReadableStream(5).pipeThrough(transform); // The test harness should complain about unhandled rejections by then. return flushAsyncEvents(); }, 'Piping through a transform errored on the writable end does not cause an unhandled promise rejection'); test(() => { let calledPipeTo = false; class BadReadableStream extends ReadableStream { pipeTo() { calledPipeTo = true; } } const brs = new BadReadableStream({ start(controller) { controller.close(); } }); const readable = new ReadableStream(); const writable = new WritableStream(); const result = brs.pipeThrough({ readable, writable }); assert_false(calledPipeTo, 'the overridden pipeTo should not have been called'); assert_equals(result, readable, 'return value should be the passed readable property'); }, 'pipeThrough should not call pipeTo on this'); test(t => { let calledFakePipeTo = false; const realPipeTo = ReadableStream.prototype.pipeTo; t.add_cleanup(() => { ReadableStream.prototype.pipeTo = realPipeTo; }); ReadableStream.prototype.pipeTo = () => { calledFakePipeTo = true; }; const rs = new ReadableStream(); const readable = new ReadableStream(); const writable = new WritableStream(); const result = rs.pipeThrough({ readable, writable }); assert_false(calledFakePipeTo, 'the monkey-patched pipeTo should not have been called'); assert_equals(result, readable, 'return value should be the passed readable property'); }, 'pipeThrough should not call pipeTo on the ReadableStream prototype'); const badReadables = [null, undefined, 0, NaN, true, 'ReadableStream', Object.create(ReadableStream.prototype)]; for (const readable of badReadables) { test(() => { assert_throws_js(TypeError, ReadableStream.prototype.pipeThrough.bind(readable, uninterestingReadableWritablePair()), 'pipeThrough should throw'); }, `pipeThrough should brand-check this and not allow '${readable}'`); test(() => { const rs = new ReadableStream(); let writableGetterCalled = false; assert_throws_js( TypeError, () => rs.pipeThrough({ get writable() { writableGetterCalled = true; return new WritableStream(); }, readable }), 'pipeThrough should brand-check readable' ); assert_false(writableGetterCalled, 'writable should not have been accessed'); }, `pipeThrough should brand-check readable and not allow '${readable}'`); } const badWritables = [null, undefined, 0, NaN, true, 'WritableStream', Object.create(WritableStream.prototype)]; for (const writable of badWritables) { test(() => { const rs = new ReadableStream({ start(c) { c.close(); } }); let readableGetterCalled = false; assert_throws_js(TypeError, () => rs.pipeThrough({ get readable() { readableGetterCalled = true; return new ReadableStream(); }, writable }), 'pipeThrough should brand-check writable'); assert_true(readableGetterCalled, 'readable should have been accessed'); }, `pipeThrough should brand-check writable and not allow '${writable}'`); } test(t => { const error = new Error(); error.name = 'custom'; const rs = new ReadableStream({ pull: t.unreached_func('pull should not be called') }, { highWaterMark: 0 }); const throwingWritable = { readable: rs, get writable() { throw error; } }; assert_throws_exactly(error, () => ReadableStream.prototype.pipeThrough.call(rs, throwingWritable, {}), 'pipeThrough should rethrow the error thrown by the writable getter'); const throwingReadable = { get readable() { throw error; }, writable: {} }; assert_throws_exactly(error, () => ReadableStream.prototype.pipeThrough.call(rs, throwingReadable, {}), 'pipeThrough should rethrow the error thrown by the readable getter'); }, 'pipeThrough should rethrow errors from accessing readable or writable'); const badSignals = [null, 0, NaN, true, 'AbortSignal', Object.create(AbortSignal.prototype)]; for (const signal of badSignals) { test(() => { const rs = new ReadableStream(); assert_throws_js(TypeError, () => rs.pipeThrough(uninterestingReadableWritablePair(), { signal }), 'pipeThrough should throw'); }, `invalid values of signal should throw; specifically '${signal}'`); } test(() => { const rs = new ReadableStream(); const controller = new AbortController(); const signal = controller.signal; rs.pipeThrough(uninterestingReadableWritablePair(), { signal }); }, 'pipeThrough should accept a real AbortSignal'); test(() => { const rs = new ReadableStream(); rs.getReader(); assert_throws_js(TypeError, () => rs.pipeThrough(uninterestingReadableWritablePair()), 'pipeThrough should throw'); }, 'pipeThrough should throw if this is locked'); test(() => { const rs = new ReadableStream(); const writable = new WritableStream(); const readable = new ReadableStream(); writable.getWriter(); assert_throws_js(TypeError, () => rs.pipeThrough({writable, readable}), 'pipeThrough should throw'); }, 'pipeThrough should throw if writable is locked'); test(() => { const rs = new ReadableStream(); const writable = new WritableStream(); const readable = new ReadableStream(); readable.getReader(); assert_equals(rs.pipeThrough({ writable, readable }), readable, 'pipeThrough should not throw'); }, 'pipeThrough should not care if readable is locked'); promise_test(() => { const rs = recordingReadableStream(); const writable = new WritableStream({ start(controller) { controller.error(); } }); const readable = new ReadableStream(); rs.pipeThrough({ writable, readable }, { preventCancel: true }); return flushAsyncEvents(0).then(() => { assert_array_equals(rs.events, ['pull'], 'cancel should not have been called'); }); }, 'preventCancel should work'); promise_test(() => { const rs = new ReadableStream({ start(controller) { controller.close(); } }); const writable = recordingWritableStream(); const readable = new ReadableStream(); rs.pipeThrough({ writable, readable }, { preventClose: true }); return flushAsyncEvents(0).then(() => { assert_array_equals(writable.events, [], 'writable should not be closed'); }); }, 'preventClose should work'); promise_test(() => { const rs = new ReadableStream({ start(controller) { controller.error(); } }); const writable = recordingWritableStream(); const readable = new ReadableStream(); rs.pipeThrough({ writable, readable }, { preventAbort: true }); return flushAsyncEvents(0).then(() => { assert_array_equals(writable.events, [], 'writable should not be aborted'); }); }, 'preventAbort should work'); test(() => { const rs = new ReadableStream(); const readable = new ReadableStream(); const writable = new WritableStream(); assert_throws_js(TypeError, () => rs.pipeThrough({readable, writable}, { get preventAbort() { writable.getWriter(); } }), 'pipeThrough should throw'); }, 'pipeThrough() should throw if an option getter grabs a writer'); test(() => { const rs = new ReadableStream(); const readable = new ReadableStream(); const writable = new WritableStream(); rs.pipeThrough({readable, writable}, null); }, 'pipeThrough() should not throw if option is null'); test(() => { const rs = new ReadableStream(); const readable = new ReadableStream(); const writable = new WritableStream(); rs.pipeThrough({readable, writable}, {signal:undefined}); }, 'pipeThrough() should not throw if signal is undefined'); function tryPipeThrough(pair, options) { const rs = new ReadableStream(); if (!pair) pair = {readable:new ReadableStream(), writable:new WritableStream()}; try { rs.pipeThrough(pair, options) } catch (e) { return e; } } test(() => { let result = tryPipeThrough({ get readable() { return new ReadableStream(); }, get writable() { throw "writable threw"; } }, { }); assert_equals(result, "writable threw"); result = tryPipeThrough({ get readable() { throw "readable threw"; }, get writable() { throw "writable threw"; } }, { }); assert_equals(result, "readable threw"); result = tryPipeThrough({ get readable() { throw "readable threw"; }, get writable() { throw "writable threw"; } }, { get preventAbort() { throw "preventAbort threw"; } }); assert_equals(result, "readable threw"); }, 'pipeThrough() should throw if readable/writable getters throw');