// META: global=window,worker // META: script=../resources/test-utils.js // META: script=../resources/recording-streams.js 'use strict'; // These tests exercise the pathological case of calling WritableStream* methods from within the strategy.size() // callback. This is not something any real code should ever do. Failures here indicate subtle deviations from the // standard that may affect real, non-pathological code. const error1 = { name: 'error1' }; promise_test(() => { let writer; const strategy = { size(chunk) { if (chunk > 0) { writer.write(chunk - 1); } return chunk; } }; const ws = recordingWritableStream({}, strategy); writer = ws.getWriter(); return writer.write(2) .then(() => { assert_array_equals(ws.events, ['write', 0, 'write', 1, 'write', 2], 'writes should appear in order'); }); }, 'writes should be written in the standard order'); promise_test(() => { let writer; const events = []; const strategy = { size(chunk) { events.push('size', chunk); if (chunk > 0) { writer.write(chunk - 1) .then(() => events.push('writer.write done', chunk - 1)); } return chunk; } }; const ws = new WritableStream({ write(chunk) { events.push('sink.write', chunk); } }, strategy); writer = ws.getWriter(); return writer.write(2) .then(() => events.push('writer.write done', 2)) .then(() => flushAsyncEvents()) .then(() => { assert_array_equals(events, ['size', 2, 'size', 1, 'size', 0, 'sink.write', 0, 'sink.write', 1, 'writer.write done', 0, 'sink.write', 2, 'writer.write done', 1, 'writer.write done', 2], 'events should happen in standard order'); }); }, 'writer.write() promises should resolve in the standard order'); promise_test(t => { let controller; const strategy = { size() { controller.error(error1); return 1; } }; const ws = recordingWritableStream({ start(c) { controller = c; } }, strategy); const resolved = []; const writer = ws.getWriter(); const readyPromise1 = writer.ready.then(() => resolved.push('ready1')); const writePromise = promise_rejects_exactly(t, error1, writer.write(), 'write() should reject with the error') .then(() => resolved.push('write')); const readyPromise2 = promise_rejects_exactly(t, error1, writer.ready, 'ready should reject with error1') .then(() => resolved.push('ready2')); const closedPromise = promise_rejects_exactly(t, error1, writer.closed, 'closed should reject with error1') .then(() => resolved.push('closed')); return Promise.all([readyPromise1, writePromise, readyPromise2, closedPromise]) .then(() => { assert_array_equals(resolved, ['ready1', 'write', 'ready2', 'closed'], 'promises should resolve in standard order'); assert_array_equals(ws.events, [], 'underlying sink write should not be called'); }); }, 'controller.error() should work when called from within strategy.size()'); promise_test(t => { let writer; const strategy = { size() { writer.close(); return 1; } }; const ws = recordingWritableStream({}, strategy); writer = ws.getWriter(); return promise_rejects_js(t, TypeError, writer.write('a'), 'write() promise should reject') .then(() => { assert_array_equals(ws.events, ['close'], 'sink.write() should not be called'); }); }, 'close() should work when called from within strategy.size()'); promise_test(t => { let writer; const strategy = { size() { writer.abort(error1); return 1; } }; const ws = recordingWritableStream({}, strategy); writer = ws.getWriter(); return promise_rejects_exactly(t, error1, writer.write('a'), 'write() promise should reject') .then(() => { assert_array_equals(ws.events, ['abort', error1], 'sink.write() should not be called'); }); }, 'abort() should work when called from within strategy.size()'); promise_test(t => { let writer; const strategy = { size() { writer.releaseLock(); return 1; } }; const ws = recordingWritableStream({}, strategy); writer = ws.getWriter(); const writePromise = promise_rejects_js(t, TypeError, writer.write('a'), 'write() promise should reject'); const readyPromise = promise_rejects_js(t, TypeError, writer.ready, 'ready promise should reject'); const closedPromise = promise_rejects_js(t, TypeError, writer.closed, 'closed promise should reject'); return Promise.all([writePromise, readyPromise, closedPromise]) .then(() => { assert_array_equals(ws.events, [], 'sink.write() should not be called'); }); }, 'releaseLock() should abort the write() when called within strategy.size()'); promise_test(t => { let writer1; let ws; let writePromise2; let closePromise; let closedPromise2; const strategy = { size(chunk) { if (chunk > 0) { writer1.releaseLock(); const writer2 = ws.getWriter(); writePromise2 = writer2.write(0); closePromise = writer2.close(); closedPromise2 = writer2.closed; } return 1; } }; ws = recordingWritableStream({}, strategy); writer1 = ws.getWriter(); const writePromise1 = promise_rejects_js(t, TypeError, writer1.write(1), 'write() promise should reject'); const readyPromise = promise_rejects_js(t, TypeError, writer1.ready, 'ready promise should reject'); const closedPromise1 = promise_rejects_js(t, TypeError, writer1.closed, 'closed promise should reject'); return Promise.all([writePromise1, readyPromise, closedPromise1, writePromise2, closePromise, closedPromise2]) .then(() => { assert_array_equals(ws.events, ['write', 0, 'close'], 'sink.write() should only be called once'); }); }, 'original reader should error when new reader is created within strategy.size()');