// META: global=window,worker // META: script=../resources/rs-utils.js // META: script=../resources/test-utils.js // META: script=../resources/recording-streams.js // META: script=../resources/rs-test-templates.js 'use strict'; test(() => { const rs = new ReadableStream(); const result = rs.tee(); assert_true(Array.isArray(result), 'return value should be an array'); assert_equals(result.length, 2, 'array should have length 2'); assert_equals(result[0].constructor, ReadableStream, '0th element should be a ReadableStream'); assert_equals(result[1].constructor, ReadableStream, '1st element should be a ReadableStream'); }, 'ReadableStream teeing: rs.tee() returns an array of two ReadableStreams'); promise_test(t => { const rs = new ReadableStream({ start(c) { c.enqueue('a'); c.enqueue('b'); c.close(); } }); const branch = rs.tee(); const branch1 = branch[0]; const branch2 = branch[1]; const reader1 = branch1.getReader(); const reader2 = branch2.getReader(); reader2.closed.then(t.unreached_func('branch2 should not be closed')); return Promise.all([ reader1.closed, reader1.read().then(r => { assert_object_equals(r, { value: 'a', done: false }, 'first chunk from branch1 should be correct'); }), reader1.read().then(r => { assert_object_equals(r, { value: 'b', done: false }, 'second chunk from branch1 should be correct'); }), reader1.read().then(r => { assert_object_equals(r, { value: undefined, done: true }, 'third read() from branch1 should be done'); }), reader2.read().then(r => { assert_object_equals(r, { value: 'a', done: false }, 'first chunk from branch2 should be correct'); }) ]); }, 'ReadableStream teeing: should be able to read one branch to the end without affecting the other'); promise_test(() => { const theObject = { the: 'test object' }; const rs = new ReadableStream({ start(c) { c.enqueue(theObject); } }); const branch = rs.tee(); const branch1 = branch[0]; const branch2 = branch[1]; const reader1 = branch1.getReader(); const reader2 = branch2.getReader(); return Promise.all([reader1.read(), reader2.read()]).then(values => { assert_object_equals(values[0], values[1], 'the values should be equal'); }); }, 'ReadableStream teeing: values should be equal across each branch'); promise_test(t => { const theError = { name: 'boo!' }; const rs = new ReadableStream({ start(c) { c.enqueue('a'); c.enqueue('b'); }, pull() { throw theError; } }); const branches = rs.tee(); const reader1 = branches[0].getReader(); const reader2 = branches[1].getReader(); reader1.label = 'reader1'; reader2.label = 'reader2'; return Promise.all([ promise_rejects_exactly(t, theError, reader1.closed), promise_rejects_exactly(t, theError, reader2.closed), reader1.read().then(r => { assert_object_equals(r, { value: 'a', done: false }, 'should be able to read the first chunk in branch1'); }), reader1.read().then(r => { assert_object_equals(r, { value: 'b', done: false }, 'should be able to read the second chunk in branch1'); return promise_rejects_exactly(t, theError, reader2.read()); }) .then(() => promise_rejects_exactly(t, theError, reader1.read())) ]); }, 'ReadableStream teeing: errors in the source should propagate to both branches'); promise_test(() => { const rs = new ReadableStream({ start(c) { c.enqueue('a'); c.enqueue('b'); c.close(); } }); const branches = rs.tee(); const branch1 = branches[0]; const branch2 = branches[1]; branch1.cancel(); return Promise.all([ readableStreamToArray(branch1).then(chunks => { assert_array_equals(chunks, [], 'branch1 should have no chunks'); }), readableStreamToArray(branch2).then(chunks => { assert_array_equals(chunks, ['a', 'b'], 'branch2 should have two chunks'); }) ]); }, 'ReadableStream teeing: canceling branch1 should not impact branch2'); promise_test(() => { const rs = new ReadableStream({ start(c) { c.enqueue('a'); c.enqueue('b'); c.close(); } }); const branches = rs.tee(); const branch1 = branches[0]; const branch2 = branches[1]; branch2.cancel(); return Promise.all([ readableStreamToArray(branch1).then(chunks => { assert_array_equals(chunks, ['a', 'b'], 'branch1 should have two chunks'); }), readableStreamToArray(branch2).then(chunks => { assert_array_equals(chunks, [], 'branch2 should have no chunks'); }) ]); }, 'ReadableStream teeing: canceling branch2 should not impact branch1'); templatedRSTeeCancel('ReadableStream teeing', (extras) => { return new ReadableStream({ ...extras }); }); promise_test(t => { let controller; const stream = new ReadableStream({ start(c) { controller = c; } }); const [branch1, branch2] = stream.tee(); const error = new Error(); error.name = 'distinctive'; // Ensure neither branch is waiting in ReadableStreamDefaultReaderRead(). controller.enqueue(); controller.enqueue(); return delay(0).then(() => { // This error will have to be detected via [[closedPromise]]. controller.error(error); const reader1 = branch1.getReader(); const reader2 = branch2.getReader(); return Promise.all([ promise_rejects_exactly(t, error, reader1.closed, 'reader1.closed should reject'), promise_rejects_exactly(t, error, reader2.closed, 'reader2.closed should reject') ]); }); }, 'ReadableStream teeing: erroring a teed stream should error both branches'); promise_test(() => { let controller; const rs = new ReadableStream({ start(c) { controller = c; } }); const branches = rs.tee(); const reader1 = branches[0].getReader(); const reader2 = branches[1].getReader(); const promise = Promise.all([reader1.closed, reader2.closed]); controller.close(); return promise; }, 'ReadableStream teeing: closing the original should immediately close the branches'); promise_test(t => { let controller; const rs = new ReadableStream({ start(c) { controller = c; } }); const branches = rs.tee(); const reader1 = branches[0].getReader(); const reader2 = branches[1].getReader(); const theError = { name: 'boo!' }; const promise = Promise.all([ promise_rejects_exactly(t, theError, reader1.closed), promise_rejects_exactly(t, theError, reader2.closed) ]); controller.error(theError); return promise; }, 'ReadableStream teeing: erroring the original should immediately error the branches'); promise_test(async t => { let controller; const rs = new ReadableStream({ start(c) { controller = c; } }); const [reader1, reader2] = rs.tee().map(branch => branch.getReader()); const cancelPromise = reader2.cancel(); controller.enqueue('a'); const read1 = await reader1.read(); assert_object_equals(read1, { value: 'a', done: false }, 'first read() from branch1 should fulfill with the chunk'); controller.close(); const read2 = await reader1.read(); assert_object_equals(read2, { value: undefined, done: true }, 'second read() from branch1 should be done'); await Promise.all([ reader1.closed, cancelPromise ]); }, 'ReadableStream teeing: canceling branch1 should finish when branch2 reads until end of stream'); promise_test(async t => { let controller; const theError = { name: 'boo!' }; const rs = new ReadableStream({ start(c) { controller = c; } }); const [reader1, reader2] = rs.tee().map(branch => branch.getReader()); const cancelPromise = reader2.cancel(); controller.error(theError); await Promise.all([ promise_rejects_exactly(t, theError, reader1.read()), cancelPromise ]); }, 'ReadableStream teeing: canceling branch1 should finish when original stream errors'); promise_test(async () => { const rs = new ReadableStream({}); const [branch1, branch2] = rs.tee(); const cancel1 = branch1.cancel(); await flushAsyncEvents(); const cancel2 = branch2.cancel(); await Promise.all([cancel1, cancel2]); }, 'ReadableStream teeing: canceling both branches in sequence with delay'); promise_test(async t => { const theError = { name: 'boo!' }; const rs = new ReadableStream({ cancel() { throw theError; } }); const [branch1, branch2] = rs.tee(); const cancel1 = branch1.cancel(); await flushAsyncEvents(); const cancel2 = branch2.cancel(); await Promise.all([ promise_rejects_exactly(t, theError, cancel1), promise_rejects_exactly(t, theError, cancel2) ]); }, 'ReadableStream teeing: failing to cancel when canceling both branches in sequence with delay'); test(t => { // Copy original global. const oldReadableStream = ReadableStream; const getReader = ReadableStream.prototype.getReader; const origRS = new ReadableStream(); // Replace the global ReadableStream constructor with one that doesn't work. ReadableStream = function() { throw new Error('global ReadableStream constructor called'); }; t.add_cleanup(() => { ReadableStream = oldReadableStream; }); // This will probably fail if the global ReadableStream constructor was used. const [rs1, rs2] = origRS.tee(); // These will definitely fail if the global ReadableStream constructor was used. assert_not_equals(getReader.call(rs1), undefined, 'getReader should work on rs1'); assert_not_equals(getReader.call(rs2), undefined, 'getReader should work on rs2'); }, 'ReadableStreamTee should not use a modified ReadableStream constructor from the global object'); promise_test(t => { const rs = recordingReadableStream({}, { highWaterMark: 0 }); // Create two branches, each with a HWM of 1. This should result in one // chunk being pulled, not two. rs.tee(); return flushAsyncEvents().then(() => { assert_array_equals(rs.events, ['pull'], 'pull should only be called once'); }); }, 'ReadableStreamTee should not pull more chunks than can fit in the branch queue'); promise_test(t => { const rs = recordingReadableStream({ pull(controller) { controller.enqueue('a'); } }, { highWaterMark: 0 }); const [reader1, reader2] = rs.tee().map(branch => branch.getReader()); return Promise.all([reader1.read(), reader2.read()]) .then(() => { assert_array_equals(rs.events, ['pull', 'pull'], 'pull should be called twice'); }); }, 'ReadableStreamTee should only pull enough to fill the emptiest queue'); promise_test(t => { const rs = recordingReadableStream({}, { highWaterMark: 0 }); const theError = { name: 'boo!' }; rs.controller.error(theError); const [reader1, reader2] = rs.tee().map(branch => branch.getReader()); return flushAsyncEvents().then(() => { assert_array_equals(rs.events, [], 'pull should not be called'); return Promise.all([ promise_rejects_exactly(t, theError, reader1.closed), promise_rejects_exactly(t, theError, reader2.closed) ]); }); }, 'ReadableStreamTee should not pull when original is already errored'); for (const branch of [1, 2]) { promise_test(t => { const rs = recordingReadableStream({}, { highWaterMark: 0 }); const theError = { name: 'boo!' }; const [reader1, reader2] = rs.tee().map(branch => branch.getReader()); return flushAsyncEvents().then(() => { assert_array_equals(rs.events, ['pull'], 'pull should be called once'); rs.controller.enqueue('a'); const reader = (branch === 1) ? reader1 : reader2; return reader.read(); }).then(() => flushAsyncEvents()).then(() => { assert_array_equals(rs.events, ['pull', 'pull'], 'pull should be called twice'); rs.controller.error(theError); return Promise.all([ promise_rejects_exactly(t, theError, reader1.closed), promise_rejects_exactly(t, theError, reader2.closed) ]); }).then(() => flushAsyncEvents()).then(() => { assert_array_equals(rs.events, ['pull', 'pull'], 'pull should be called twice'); }); }, `ReadableStreamTee stops pulling when original stream errors while branch ${branch} is reading`); } promise_test(t => { const rs = recordingReadableStream({}, { highWaterMark: 0 }); const theError = { name: 'boo!' }; const [reader1, reader2] = rs.tee().map(branch => branch.getReader()); return flushAsyncEvents().then(() => { assert_array_equals(rs.events, ['pull'], 'pull should be called once'); rs.controller.enqueue('a'); return Promise.all([reader1.read(), reader2.read()]); }).then(() => flushAsyncEvents()).then(() => { assert_array_equals(rs.events, ['pull', 'pull'], 'pull should be called twice'); rs.controller.error(theError); return Promise.all([ promise_rejects_exactly(t, theError, reader1.closed), promise_rejects_exactly(t, theError, reader2.closed) ]); }).then(() => flushAsyncEvents()).then(() => { assert_array_equals(rs.events, ['pull', 'pull'], 'pull should be called twice'); }); }, 'ReadableStreamTee stops pulling when original stream errors while both branches are reading'); promise_test(async () => { const rs = recordingReadableStream(); const [reader1, reader2] = rs.tee().map(branch => branch.getReader()); const branch1Reads = [reader1.read(), reader1.read()]; const branch2Reads = [reader2.read(), reader2.read()]; await flushAsyncEvents(); rs.controller.enqueue('a'); rs.controller.close(); assert_object_equals(await branch1Reads[0], { value: 'a', done: false }, 'first chunk from branch1 should be correct'); assert_object_equals(await branch2Reads[0], { value: 'a', done: false }, 'first chunk from branch2 should be correct'); assert_object_equals(await branch1Reads[1], { value: undefined, done: true }, 'second read() from branch1 should be done'); assert_object_equals(await branch2Reads[1], { value: undefined, done: true }, 'second read() from branch2 should be done'); }, 'ReadableStream teeing: enqueue() and close() while both branches are pulling');