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ladybird/Userland/Libraries/LibWeb/Streams/AbstractOperations.cpp
Andreas Kling ffac32d20e LibWeb: Use JS::HeapFunction for WebIDL promise reaction steps 
Switching away from SafeFunction immediately backfired here, as we're
dealing with two layers of captures, not one.

Let's do the correct fix, which is to use HeapFunction. This makes the
API and its behavior explicit, and keeps captures alive as long as the
HeapFunction is alive.

Fixes #23819.
2024-04-03 18:14:33 +02:00

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/*
* Copyright (c) 2022, Linus Groh <linusg@serenityos.org>
* Copyright (c) 2023, Matthew Olsson <mattco@serenityos.org>
* Copyright (c) 2023-2024, Shannon Booth <shannon@serenityos.org>
* Copyright (c) 2023, Kenneth Myhra <kennethmyhra@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/ArrayBuffer.h>
#include <LibJS/Runtime/DataView.h>
#include <LibJS/Runtime/DataViewConstructor.h>
#include <LibJS/Runtime/Intrinsics.h>
#include <LibJS/Runtime/PromiseCapability.h>
#include <LibJS/Runtime/PromiseConstructor.h>
#include <LibJS/Runtime/TypedArray.h>
#include <LibWeb/Bindings/ExceptionOrUtils.h>
#include <LibWeb/DOM/AbortSignal.h>
#include <LibWeb/HTML/EventLoop/EventLoop.h>
#include <LibWeb/HTML/Scripting/TemporaryExecutionContext.h>
#include <LibWeb/HTML/StructuredSerialize.h>
#include <LibWeb/Streams/AbstractOperations.h>
#include <LibWeb/Streams/QueuingStrategy.h>
#include <LibWeb/Streams/ReadableByteStreamController.h>
#include <LibWeb/Streams/ReadableStream.h>
#include <LibWeb/Streams/ReadableStreamBYOBReader.h>
#include <LibWeb/Streams/ReadableStreamBYOBRequest.h>
#include <LibWeb/Streams/ReadableStreamDefaultController.h>
#include <LibWeb/Streams/ReadableStreamDefaultReader.h>
#include <LibWeb/Streams/ReadableStreamGenericReader.h>
#include <LibWeb/Streams/TransformStream.h>
#include <LibWeb/Streams/TransformStreamDefaultController.h>
#include <LibWeb/Streams/Transformer.h>
#include <LibWeb/Streams/UnderlyingSink.h>
#include <LibWeb/Streams/UnderlyingSource.h>
#include <LibWeb/Streams/WritableStream.h>
#include <LibWeb/Streams/WritableStreamDefaultController.h>
#include <LibWeb/Streams/WritableStreamDefaultWriter.h>
#include <LibWeb/WebIDL/AbstractOperations.h>
#include <LibWeb/WebIDL/Buffers.h>
#include <LibWeb/WebIDL/ExceptionOr.h>
#include <LibWeb/WebIDL/Promise.h>
namespace Web::Streams {
// https://streams.spec.whatwg.org/#acquire-readable-stream-reader
WebIDL::ExceptionOr<JS::NonnullGCPtr<ReadableStreamDefaultReader>> acquire_readable_stream_default_reader(ReadableStream& stream)
{
auto& realm = stream.realm();
// 1. Let reader be a new ReadableStreamDefaultReader.
auto reader = realm.heap().allocate<ReadableStreamDefaultReader>(realm, realm);
// 2. Perform ? SetUpReadableStreamDefaultReader(reader, stream).
TRY(set_up_readable_stream_default_reader(reader, stream));
// 3. Return reader.
return reader;
}
// https://streams.spec.whatwg.org/#acquire-readable-stream-byob-reader
WebIDL::ExceptionOr<JS::NonnullGCPtr<ReadableStreamBYOBReader>> acquire_readable_stream_byob_reader(ReadableStream& stream)
{
auto& realm = stream.realm();
// 1. Let reader be a new ReadableStreamBYOBReader.
auto reader = realm.heap().allocate<ReadableStreamBYOBReader>(realm, realm);
// 2. Perform ? SetUpReadableStreamBYOBReader(reader, stream).
TRY(set_up_readable_stream_byob_reader(reader, stream));
// 3. Return reader.
return reader;
}
// https://streams.spec.whatwg.org/#is-readable-stream-locked
bool is_readable_stream_locked(ReadableStream const& stream)
{
// 1. If stream.[[reader]] is undefined, return false.
if (!stream.reader().has_value())
return false;
// 2. Return true.
return true;
}
// https://streams.spec.whatwg.org/#readable-stream-cancel
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> readable_stream_cancel(ReadableStream& stream, JS::Value reason)
{
auto& realm = stream.realm();
// 1. Set stream.[[disturbed]] to true.
stream.set_disturbed(true);
// 2. If stream.[[state]] is "closed", return a promise resolved with undefined.
if (stream.state() == ReadableStream::State::Closed)
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
// 3. If stream.[[state]] is "errored", return a promise rejected with stream.[[storedError]].
if (stream.state() == ReadableStream::State::Errored)
return WebIDL::create_rejected_promise(realm, stream.stored_error());
// 4. Perform ! ReadableStreamClose(stream).
readable_stream_close(stream);
// 5. Let reader be stream.[[reader]].
auto reader = stream.reader();
// 6. If reader is not undefined and reader implements ReadableStreamBYOBReader,
if (reader.has_value() && reader->has<JS::NonnullGCPtr<ReadableStreamBYOBReader>>()) {
// 1. Let readIntoRequests be reader.[[readIntoRequests]].
// 2. Set reader.[[readIntoRequests]] to an empty list.
auto read_into_requests = move(reader->get<JS::NonnullGCPtr<ReadableStreamBYOBReader>>()->read_into_requests());
// 3. For each readIntoRequest of readIntoRequests,
for (auto& read_into_request : read_into_requests) {
// 1. Perform readIntoRequests close steps, given undefined.
read_into_request->on_close(JS::js_undefined());
}
}
// 7. Let sourceCancelPromise be ! stream.[[controller]].[[CancelSteps]](reason).
auto source_cancel_promise = TRY(stream.controller()->visit([&](auto const& controller) {
return controller->cancel_steps(reason);
}));
// 8. Return the result of reacting to sourceCancelPromise with a fulfillment step that returns undefined.
auto react_result = WebIDL::react_to_promise(*source_cancel_promise,
JS::create_heap_function(stream.heap(), [](JS::Value) -> WebIDL::ExceptionOr<JS::Value> { return JS::js_undefined(); }),
{});
return WebIDL::create_resolved_promise(realm, react_result);
}
// https://streams.spec.whatwg.org/#readable-stream-fulfill-read-into-request
void readable_stream_fulfill_read_into_request(ReadableStream& stream, JS::Value chunk, bool done)
{
// 1. Assert: ! ReadableStreamHasBYOBReader(stream) is true.
VERIFY(readable_stream_has_byob_reader(stream));
// 2. Let reader be stream.[[reader]].
auto reader = stream.reader()->get<JS::NonnullGCPtr<ReadableStreamBYOBReader>>();
// 3. Assert: reader.[[readIntoRequests]] is not empty.
VERIFY(!reader->read_into_requests().is_empty());
// 4. Let readIntoRequest be reader.[[readIntoRequests]][0].
// 5. Remove readIntoRequest from reader.[[readIntoRequests]].
auto read_into_request = reader->read_into_requests().take_first();
// 6. If done is true, perform readIntoRequests close steps, given chunk.
if (done) {
read_into_request->on_close(chunk);
}
// 7. Otherwise, perform readIntoRequests chunk steps, given chunk.
else {
read_into_request->on_chunk(chunk);
}
}
// https://streams.spec.whatwg.org/#readable-stream-fulfill-read-request
void readable_stream_fulfill_read_request(ReadableStream& stream, JS::Value chunk, bool done)
{
// 1. Assert: ! ReadableStreamHasDefaultReader(stream) is true.
VERIFY(readable_stream_has_default_reader(stream));
// 2. Let reader be stream.[[reader]].
auto reader = stream.reader()->get<JS::NonnullGCPtr<ReadableStreamDefaultReader>>();
// 3. Assert: reader.[[readRequests]] is not empty.
VERIFY(!reader->read_requests().is_empty());
// 4. Let readRequest be reader.[[readRequests]][0].
// 5. Remove readRequest from reader.[[readRequests]].
auto read_request = reader->read_requests().take_first();
// 6. If done is true, perform readRequests close steps.
if (done) {
read_request->on_close();
}
// 7. Otherwise, perform readRequests chunk steps, given chunk.
else {
read_request->on_chunk(chunk);
}
}
// https://streams.spec.whatwg.org/#readable-stream-get-num-read-into-requests
size_t readable_stream_get_num_read_into_requests(ReadableStream const& stream)
{
// 1. Assert: ! ReadableStreamHasBYOBReader(stream) is true.
VERIFY(readable_stream_has_byob_reader(stream));
// 2. Return stream.[[reader]].[[readIntoRequests]]'s size.
return stream.reader()->get<JS::NonnullGCPtr<ReadableStreamBYOBReader>>()->read_into_requests().size();
}
// https://streams.spec.whatwg.org/#readable-stream-get-num-read-requests
size_t readable_stream_get_num_read_requests(ReadableStream const& stream)
{
// 1. Assert: ! ReadableStreamHasDefaultReader(stream) is true.
VERIFY(readable_stream_has_default_reader(stream));
// 2. Return stream.[[reader]].[[readRequests]]'s size.
return stream.reader()->get<JS::NonnullGCPtr<ReadableStreamDefaultReader>>()->read_requests().size();
}
// https://streams.spec.whatwg.org/#readable-stream-has-byob-reader
bool readable_stream_has_byob_reader(ReadableStream const& stream)
{
// 1. Let reader be stream.[[reader]].
auto reader = stream.reader();
// 2. If reader is undefined, return false.
if (!reader.has_value())
return false;
// 3. If reader implements ReadableStreamBYOBReader, return true.
if (reader->has<JS::NonnullGCPtr<ReadableStreamBYOBReader>>())
return true;
// 4. Return false.
return false;
}
// https://streams.spec.whatwg.org/#readable-stream-has-default-reader
bool readable_stream_has_default_reader(ReadableStream const& stream)
{
// 1. Let reader be stream.[[reader]].
auto reader = stream.reader();
// 2. If reader is undefined, return false.
if (!reader.has_value())
return false;
// 3. If reader implements ReadableStreamDefaultReader, return true.
if (reader->has<JS::NonnullGCPtr<ReadableStreamDefaultReader>>())
return true;
// 4. Return false.
return false;
}
// https://streams.spec.whatwg.org/#readable-stream-tee
WebIDL::ExceptionOr<ReadableStreamPair> readable_stream_tee(JS::Realm& realm, ReadableStream& stream, bool clone_for_branch2)
{
// 1. Assert: stream implements ReadableStream.
// 2. Assert: cloneForBranch2 is a boolean.
// 3. If stream.[[controller]] implements ReadableByteStreamController, return ? ReadableByteStreamTee(stream).
if (stream.controller()->has<JS::NonnullGCPtr<Streams::ReadableByteStreamController>>()) {
return TRY(readable_byte_stream_tee(realm, stream));
}
// 4. Return ? ReadableStreamDefaultTee(stream, cloneForBranch2).
return TRY(readable_stream_default_tee(realm, stream, clone_for_branch2));
}
struct DefaultStreamTeeParams final : JS::Cell {
JS_CELL(TeeParams, JS::Cell);
JS_DECLARE_ALLOCATOR(DefaultStreamTeeParams);
virtual void visit_edges(Visitor& visitor) override
{
Base::visit_edges(visitor);
visitor.visit(reason1);
visitor.visit(reason2);
visitor.visit(branch1);
visitor.visit(branch2);
visitor.visit(pull_algorithm);
}
bool reading { false };
bool read_again { false };
bool canceled1 { false };
bool canceled2 { false };
JS::Value reason1 { JS::js_undefined() };
JS::Value reason2 { JS::js_undefined() };
JS::GCPtr<ReadableStream> branch1;
JS::GCPtr<ReadableStream> branch2;
JS::GCPtr<PullAlgorithm> pull_algorithm;
};
JS_DEFINE_ALLOCATOR(DefaultStreamTeeParams);
// https://streams.spec.whatwg.org/#ref-for-read-request③
class DefaultStreamTeeReadRequest final : public ReadRequest {
JS_CELL(DefaultStreamTeeReadRequest, Cell);
JS_DECLARE_ALLOCATOR(DefaultStreamTeeReadRequest);
public:
DefaultStreamTeeReadRequest(
JS::Realm& realm,
JS::NonnullGCPtr<ReadableStream> stream,
JS::NonnullGCPtr<DefaultStreamTeeParams> params,
JS::NonnullGCPtr<WebIDL::Promise> cancel_promise,
bool clone_for_branch2)
: m_realm(realm)
, m_stream(stream)
, m_params(params)
, m_cancel_promise(cancel_promise)
, m_clone_for_branch2(clone_for_branch2)
{
}
// https://streams.spec.whatwg.org/#ref-for-read-request-chunk-steps③
virtual void on_chunk(JS::Value chunk) override
{
// 1. Queue a microtask to perform the following steps:
HTML::queue_a_microtask(nullptr, [this, chunk]() {
HTML::TemporaryExecutionContext execution_context { Bindings::host_defined_environment_settings_object(m_realm) };
auto controller1 = m_params->branch1->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
auto controller2 = m_params->branch2->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
// 1. Set readAgain to false.
m_params->read_again = false;
// 2. Let chunk1 and chunk2 be chunk.
auto chunk1 = chunk;
auto chunk2 = chunk;
// 3. If canceled2 is false and cloneForBranch2 is true,
if (!m_params->canceled2 && m_clone_for_branch2) {
// 1. Let cloneResult be StructuredClone(chunk2).
auto clone_result = structured_clone(m_realm, chunk2);
// 2. If cloneResult is an abrupt completion,
if (clone_result.is_exception()) {
auto completion = Bindings::dom_exception_to_throw_completion(m_realm->vm(), clone_result.release_error());
// 1. Perform ! ReadableStreamDefaultControllerError(branch1.[[controller]], cloneResult.[[Value]]).
readable_stream_default_controller_error(controller1, completion.value().value());
// 2. Perform ! ReadableStreamDefaultControllerError(branch2.[[controller]], cloneResult.[[Value]]).
readable_stream_default_controller_error(controller2, completion.value().value());
// 3. Resolve cancelPromise with ! ReadableStreamCancel(stream, cloneResult.[[Value]]).
auto cancel_result = MUST(readable_stream_cancel(m_stream, completion.value().value()));
JS::NonnullGCPtr cancel_value = verify_cast<JS::Promise>(*cancel_result->promise().ptr());
WebIDL::resolve_promise(m_realm, m_cancel_promise, cancel_value);
// 4. Return.
return;
}
// 3. Otherwise, set chunk2 to cloneResult.[[Value]].
chunk2 = clone_result.release_value();
}
// 4. If canceled1 is false, perform ! ReadableStreamDefaultControllerEnqueue(branch1.[[controller]], chunk1).
if (!m_params->canceled1) {
MUST(readable_stream_default_controller_enqueue(controller1, chunk1));
}
// 5. If canceled2 is false, perform ! ReadableStreamDefaultControllerEnqueue(branch2.[[controller]], chunk2).
if (!m_params->canceled2) {
MUST(readable_stream_default_controller_enqueue(controller2, chunk2));
}
// 6. Set reading to false.
m_params->reading = false;
// 7. If readAgain is true, perform pullAlgorithm.
if (m_params->read_again) {
MUST(m_params->pull_algorithm->function()());
}
});
// NOTE: The microtask delay here is necessary because it takes at least a microtask to detect errors, when we
// use reader.[[closedPromise]] below. We want errors in stream to error both branches immediately, so we
// cannot let successful synchronously-available reads happen ahead of asynchronously-available errors.
}
// https://streams.spec.whatwg.org/#ref-for-read-request-close-steps②
virtual void on_close() override
{
auto controller1 = m_params->branch1->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
auto controller2 = m_params->branch2->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
// 1. Set reading to false.
m_params->reading = false;
// 2. If canceled1 is false, perform ! ReadableStreamDefaultControllerClose(branch1.[[controller]]).
if (!m_params->canceled1) {
readable_stream_default_controller_close(controller1);
}
// 3. If canceled2 is false, perform ! ReadableStreamDefaultControllerClose(branch2.[[controller]]).
if (!m_params->canceled2) {
readable_stream_default_controller_close(controller2);
}
// 4. If canceled1 is false or canceled2 is false, resolve cancelPromise with undefined.
if (!m_params->canceled1 || !m_params->canceled2) {
WebIDL::resolve_promise(m_realm, m_cancel_promise, JS::js_undefined());
}
}
// https://streams.spec.whatwg.org/#ref-for-read-request-error-steps③
virtual void on_error(JS::Value) override
{
// 1. Set reading to false.
m_params->reading = false;
}
private:
virtual void visit_edges(Visitor& visitor) override
{
Base::visit_edges(visitor);
visitor.visit(m_realm);
visitor.visit(m_stream);
visitor.visit(m_params);
visitor.visit(m_cancel_promise);
}
JS::NonnullGCPtr<JS::Realm> m_realm;
JS::NonnullGCPtr<ReadableStream> m_stream;
JS::NonnullGCPtr<DefaultStreamTeeParams> m_params;
JS::NonnullGCPtr<WebIDL::Promise> m_cancel_promise;
bool m_clone_for_branch2 { false };
};
JS_DEFINE_ALLOCATOR(DefaultStreamTeeReadRequest);
// https://streams.spec.whatwg.org/#abstract-opdef-readablestreamdefaulttee
WebIDL::ExceptionOr<ReadableStreamPair> readable_stream_default_tee(JS::Realm& realm, ReadableStream& stream, bool clone_for_branch2)
{
// 1. Assert: stream implements ReadableStream.
// 2. Assert: cloneForBranch2 is a boolean.
// 3. Let reader be ? AcquireReadableStreamDefaultReader(stream).
auto reader = TRY(acquire_readable_stream_default_reader(stream));
// 4. Let reading be false.
// 5. Let readAgain be false.
// 6. Let canceled1 be false.
// 7. Let canceled2 be false.
// 8. Let reason1 be undefined.
// 9. Let reason2 be undefined.
// 10. Let branch1 be undefined.
// 11. Let branch2 be undefined.
auto params = realm.heap().allocate<DefaultStreamTeeParams>(realm);
// 12. Let cancelPromise be a new promise.
auto cancel_promise = WebIDL::create_promise(realm);
// 13. Let pullAlgorithm be the following steps:
auto pull_algorithm = JS::create_heap_function(realm.heap(), [&realm, &stream, reader, params, cancel_promise, clone_for_branch2]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. If reading is true,
if (params->reading) {
// 1. Set readAgain to true.
params->read_again = true;
// 2. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
}
// 2. Set reading to true.
params->reading = true;
// 3. Let readRequest be a read request with the following items:
auto read_request = realm.heap().allocate_without_realm<DefaultStreamTeeReadRequest>(realm, stream, params, cancel_promise, clone_for_branch2);
// 4. Perform ! ReadableStreamDefaultReaderRead(reader, readRequest).
MUST(readable_stream_default_reader_read(reader, read_request));
// 5. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// AD-HOC: The read request within the pull algorithm must be able to re-invoke the pull algorithm, so cache it here.
params->pull_algorithm = pull_algorithm;
// 14. Let cancel1Algorithm be the following steps, taking a reason argument:
auto cancel1_algorithm = JS::create_heap_function(realm.heap(), [&realm, &stream, params, cancel_promise](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Set canceled1 to true.
params->canceled1 = true;
// 2. Set reason1 to reason.
params->reason1 = reason;
// 3. If canceled2 is true,
if (params->canceled2) {
// 1. Let compositeReason be ! CreateArrayFromList(« reason1, reason2 »).
auto composite_reason = JS::Array::create_from(realm, AK::Array { params->reason1, params->reason2 });
// 2. Let cancelResult be ! ReadableStreamCancel(stream, compositeReason).
auto cancel_result = MUST(readable_stream_cancel(stream, composite_reason));
// 3. Resolve cancelPromise with cancelResult.
JS::NonnullGCPtr cancel_value = verify_cast<JS::Promise>(*cancel_result->promise().ptr());
WebIDL::resolve_promise(realm, cancel_promise, cancel_value);
}
// 4. Return cancelPromise.
return cancel_promise;
});
// 15. Let cancel2Algorithm be the following steps, taking a reason argument:
auto cancel2_algorithm = JS::create_heap_function(realm.heap(), [&realm, &stream, params, cancel_promise](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Set canceled2 to true.
params->canceled2 = true;
// 2. Set reason2 to reason.
params->reason2 = reason;
// 3. If canceled1 is true,
if (params->canceled1) {
// 1. Let compositeReason be ! CreateArrayFromList(« reason1, reason2 »).
auto composite_reason = JS::Array::create_from(realm, AK::Array { params->reason1, params->reason2 });
// 2. Let cancelResult be ! ReadableStreamCancel(stream, compositeReason).
auto cancel_result = MUST(readable_stream_cancel(stream, composite_reason));
// 3. Resolve cancelPromise with cancelResult.
JS::NonnullGCPtr cancel_value = verify_cast<JS::Promise>(*cancel_result->promise().ptr());
WebIDL::resolve_promise(realm, cancel_promise, cancel_value);
}
// 4. Return cancelPromise.
return cancel_promise;
});
// 16. Let startAlgorithm be an algorithm that returns undefined.
auto start_algorithm = JS::create_heap_function(realm.heap(), []() -> WebIDL::ExceptionOr<JS::Value> {
return JS::js_undefined();
});
// 17. Set branch1 to ! CreateReadableStream(startAlgorithm, pullAlgorithm, cancel1Algorithm).
params->branch1 = MUST(create_readable_stream(realm, start_algorithm, pull_algorithm, cancel1_algorithm));
// 18. Set branch2 to ! CreateReadableStream(startAlgorithm, pullAlgorithm, cancel2Algorithm).
params->branch2 = MUST(create_readable_stream(realm, start_algorithm, pull_algorithm, cancel2_algorithm));
// 19. Upon rejection of reader.[[closedPromise]] with reason r,
WebIDL::upon_rejection(*reader->closed_promise_capability(), JS::create_heap_function(realm.heap(), [&realm, params, cancel_promise](JS::Value reason) -> WebIDL::ExceptionOr<JS::Value> {
auto controller1 = params->branch1->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
auto controller2 = params->branch2->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
// 1. Perform ! ReadableStreamDefaultControllerError(branch1.[[controller]], r).
readable_stream_default_controller_error(controller1, reason);
// 2. Perform ! ReadableStreamDefaultControllerError(branch2.[[controller]], r).
readable_stream_default_controller_error(controller2, reason);
// 3. If canceled1 is false or canceled2 is false, resolve cancelPromise with undefined.
if (!params->canceled1 || !params->canceled2) {
WebIDL::resolve_promise(realm, cancel_promise, JS::js_undefined());
}
return JS::js_undefined();
}));
// 20. Return « branch1, branch2 ».
return ReadableStreamPair { *params->branch1, *params->branch2 };
}
struct ByteStreamTeeParams final : JS::Cell {
JS_CELL(TeeParams, JS::Cell);
JS_DECLARE_ALLOCATOR(ByteStreamTeeParams);
explicit ByteStreamTeeParams(ReadableStreamReader reader)
: reader(move(reader))
{
}
virtual void visit_edges(Visitor& visitor) override
{
Base::visit_edges(visitor);
visitor.visit(reason1);
visitor.visit(reason2);
visitor.visit(branch1);
visitor.visit(branch2);
visitor.visit(pull1_algorithm);
visitor.visit(pull2_algorithm);
reader.visit([&](auto const& underlying_reader) { visitor.visit(underlying_reader); });
}
bool reading { false };
bool read_again_for_branch1 { false };
bool read_again_for_branch2 { false };
bool canceled1 { false };
bool canceled2 { false };
JS::Value reason1 { JS::js_undefined() };
JS::Value reason2 { JS::js_undefined() };
JS::GCPtr<ReadableStream> branch1;
JS::GCPtr<ReadableStream> branch2;
JS::GCPtr<PullAlgorithm> pull1_algorithm;
JS::GCPtr<PullAlgorithm> pull2_algorithm;
ReadableStreamReader reader;
};
JS_DEFINE_ALLOCATOR(ByteStreamTeeParams);
// https://streams.spec.whatwg.org/#ref-for-read-request④
class ByteStreamTeeDefaultReadRequest final : public ReadRequest {
JS_CELL(ByteStreamTeeDefaultReadRequest, Cell);
JS_DECLARE_ALLOCATOR(ByteStreamTeeDefaultReadRequest);
public:
ByteStreamTeeDefaultReadRequest(
JS::Realm& realm,
JS::NonnullGCPtr<ReadableStream> stream,
JS::NonnullGCPtr<ByteStreamTeeParams> params,
JS::NonnullGCPtr<WebIDL::Promise> cancel_promise)
: m_realm(realm)
, m_stream(stream)
, m_params(params)
, m_cancel_promise(cancel_promise)
{
}
// https://streams.spec.whatwg.org/#ref-for-read-request-chunk-steps④
virtual void on_chunk(JS::Value chunk) override
{
// 1. Queue a microtask to perform the following steps:
HTML::queue_a_microtask(nullptr, [this, chunk]() mutable {
HTML::TemporaryExecutionContext execution_context { Bindings::host_defined_environment_settings_object(m_realm) };
auto controller1 = m_params->branch1->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
auto controller2 = m_params->branch2->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
// 1. Set readAgainForBranch1 to false.
m_params->read_again_for_branch1 = false;
// 2. Set readAgainForBranch2 to false.
m_params->read_again_for_branch2 = false;
// 3. Let chunk1 and chunk2 be chunk.
auto chunk1 = chunk;
auto chunk2 = chunk;
// 4. If canceled1 is false and canceled2 is false,
if (!m_params->canceled1 && !m_params->canceled2) {
// 1. Let cloneResult be CloneAsUint8Array(chunk).
auto chunk_view = m_realm->vm().heap().allocate<WebIDL::ArrayBufferView>(m_realm, chunk.as_object());
auto clone_result = clone_as_uint8_array(m_realm, chunk_view);
// 2. If cloneResult is an abrupt completion,
if (clone_result.is_exception()) {
auto completion = Bindings::dom_exception_to_throw_completion(m_realm->vm(), clone_result.release_error());
// 1. Perform ! ReadableByteStreamControllerError(branch1.[[controller]], cloneResult.[[Value]]).
readable_byte_stream_controller_error(controller1, completion.value().value());
// 2. Perform ! ReadableByteStreamControllerError(branch2.[[controller]], cloneResult.[[Value]]).
readable_byte_stream_controller_error(controller2, completion.value().value());
// 3. Resolve cancelPromise with ! ReadableStreamCancel(stream, cloneResult.[[Value]]).
auto cancel_result = MUST(readable_stream_cancel(m_stream, completion.value().value()));
JS::NonnullGCPtr cancel_value = verify_cast<JS::Promise>(*cancel_result->promise().ptr());
WebIDL::resolve_promise(m_realm, m_cancel_promise, cancel_value);
// 4. Return.
return;
}
// 3. Otherwise, set chunk2 to cloneResult.[[Value]].
chunk2 = clone_result.release_value();
}
// 5. If canceled1 is false, perform ! ReadableByteStreamControllerEnqueue(branch1.[[controller]], chunk1).
if (!m_params->canceled1) {
MUST(readable_byte_stream_controller_enqueue(controller1, chunk1));
}
// 6. If canceled2 is false, perform ! ReadableByteStreamControllerEnqueue(branch2.[[controller]], chunk2).
if (!m_params->canceled2) {
MUST(readable_byte_stream_controller_enqueue(controller2, chunk2));
}
// 7. Set reading to false.
m_params->reading = false;
// 8. If readAgainForBranch1 is true, perform pull1Algorithm.
if (m_params->read_again_for_branch1) {
MUST(m_params->pull1_algorithm->function()());
}
// 9. Otherwise, if readAgainForBranch2 is true, perform pull2Algorithm.
else if (m_params->read_again_for_branch2) {
MUST(m_params->pull2_algorithm->function()());
}
});
// NOTE: The microtask delay here is necessary because it takes at least a microtask to detect errors, when we
// use reader.[[closedPromise]] below. We want errors in stream to error both branches immediately, so we
// cannot let successful synchronously-available reads happen ahead of asynchronously-available errors.
}
// https://streams.spec.whatwg.org/#ref-for-read-request-close-steps③
virtual void on_close() override
{
auto controller1 = m_params->branch1->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
auto controller2 = m_params->branch2->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
// 1. Set reading to false.
m_params->reading = false;
// 2. If canceled1 is false, perform ! ReadableByteStreamControllerClose(branch1.[[controller]]).
if (!m_params->canceled1) {
MUST(readable_byte_stream_controller_close(controller1));
}
// 3. If canceled2 is false, perform ! ReadableByteStreamControllerClose(branch2.[[controller]]).
if (!m_params->canceled2) {
MUST(readable_byte_stream_controller_close(controller2));
}
// 4. If branch1.[[controller]].[[pendingPullIntos]] is not empty, perform ! ReadableByteStreamControllerRespond(branch1.[[controller]], 0).
if (!controller1->pending_pull_intos().is_empty()) {
MUST(readable_byte_stream_controller_respond(controller1, 0));
}
// 5. If branch2.[[controller]].[[pendingPullIntos]] is not empty, perform ! ReadableByteStreamControllerRespond(branch2.[[controller]], 0).
if (!controller2->pending_pull_intos().is_empty()) {
MUST(readable_byte_stream_controller_respond(controller2, 0));
}
// 6. If canceled1 is false or canceled2 is false, resolve cancelPromise with undefined.
if (!m_params->canceled1 || !m_params->canceled2) {
WebIDL::resolve_promise(m_realm, m_cancel_promise, JS::js_undefined());
}
}
// https://streams.spec.whatwg.org/#ref-for-read-request-error-steps④
virtual void on_error(JS::Value) override
{
// 1. Set reading to false.
m_params->reading = false;
}
private:
virtual void visit_edges(Visitor& visitor) override
{
Base::visit_edges(visitor);
visitor.visit(m_realm);
visitor.visit(m_stream);
visitor.visit(m_params);
visitor.visit(m_cancel_promise);
}
JS::NonnullGCPtr<JS::Realm> m_realm;
JS::NonnullGCPtr<ReadableStream> m_stream;
JS::NonnullGCPtr<ByteStreamTeeParams> m_params;
JS::NonnullGCPtr<WebIDL::Promise> m_cancel_promise;
};
JS_DEFINE_ALLOCATOR(ByteStreamTeeDefaultReadRequest);
// https://streams.spec.whatwg.org/#ref-for-read-into-request②
class ByteStreamTeeBYOBReadRequest final : public ReadIntoRequest {
JS_CELL(ByteStreamTeeBYOBReadRequest, Cell);
JS_DECLARE_ALLOCATOR(ByteStreamTeeBYOBReadRequest);
public:
ByteStreamTeeBYOBReadRequest(
JS::Realm& realm,
JS::NonnullGCPtr<ReadableStream> stream,
JS::NonnullGCPtr<ByteStreamTeeParams> params,
JS::NonnullGCPtr<WebIDL::Promise> cancel_promise,
JS::NonnullGCPtr<ReadableStream> byob_branch,
JS::NonnullGCPtr<ReadableStream> other_branch,
bool for_branch2)
: m_realm(realm)
, m_stream(stream)
, m_params(params)
, m_cancel_promise(cancel_promise)
, m_byob_branch(byob_branch)
, m_other_branch(other_branch)
, m_for_branch2(for_branch2)
{
}
// https://streams.spec.whatwg.org/#ref-for-read-into-request-chunk-steps①
virtual void on_chunk(JS::Value chunk) override
{
auto chunk_view = m_realm->vm().heap().allocate<WebIDL::ArrayBufferView>(m_realm, chunk.as_object());
// 1. Queue a microtask to perform the following steps:
HTML::queue_a_microtask(nullptr, [this, chunk = chunk_view]() {
HTML::TemporaryExecutionContext execution_context { Bindings::host_defined_environment_settings_object(m_realm) };
auto byob_controller = m_byob_branch->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
auto other_controller = m_other_branch->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
// 1. Set readAgainForBranch1 to false.
m_params->read_again_for_branch1 = false;
// 2. Set readAgainForBranch2 to false.
m_params->read_again_for_branch2 = false;
// 3. Let byobCanceled be canceled2 if forBranch2 is true, and canceled1 otherwise.
auto byob_cancelled = m_for_branch2 ? m_params->canceled2 : m_params->canceled1;
// 4. Let otherCanceled be canceled2 if forBranch2 is false, and canceled1 otherwise.
auto other_cancelled = !m_for_branch2 ? m_params->canceled2 : m_params->canceled1;
// 5. If otherCanceled is false,
if (!other_cancelled) {
// 1. Let cloneResult be CloneAsUint8Array(chunk).
auto clone_result = clone_as_uint8_array(m_realm, chunk);
// 2. If cloneResult is an abrupt completion,
if (clone_result.is_exception()) {
auto completion = Bindings::dom_exception_to_throw_completion(m_realm->vm(), clone_result.release_error());
// 1. Perform ! ReadableByteStreamControllerError(byobBranch.[[controller]], cloneResult.[[Value]]).
readable_byte_stream_controller_error(byob_controller, completion.value().value());
// 2. Perform ! ReadableByteStreamControllerError(otherBranch.[[controller]], cloneResult.[[Value]]).
readable_byte_stream_controller_error(other_controller, completion.value().value());
// 3. Resolve cancelPromise with ! ReadableStreamCancel(stream, cloneResult.[[Value]]).
auto cancel_result = MUST(readable_stream_cancel(m_stream, completion.value().value()));
JS::NonnullGCPtr cancel_value = verify_cast<JS::Promise>(*cancel_result->promise().ptr());
WebIDL::resolve_promise(m_realm, m_cancel_promise, cancel_value);
// 4. Return.
return;
}
// 3. Otherwise, let clonedChunk be cloneResult.[[Value]].
auto cloned_chunk = clone_result.release_value();
// 4. If byobCanceled is false, perform ! ReadableByteStreamControllerRespondWithNewView(byobBranch.[[controller]], chunk).
if (!byob_cancelled) {
MUST(readable_byte_stream_controller_respond_with_new_view(m_realm, byob_controller, chunk));
}
// 5. Perform ! ReadableByteStreamControllerEnqueue(otherBranch.[[controller]], clonedChunk).
MUST(readable_byte_stream_controller_enqueue(other_controller, cloned_chunk));
}
// 6. Otherwise, if byobCanceled is false, perform ! ReadableByteStreamControllerRespondWithNewView(byobBranch.[[controller]], chunk).
else if (!byob_cancelled) {
MUST(readable_byte_stream_controller_respond_with_new_view(m_realm, byob_controller, chunk));
}
// 7. Set reading to false.
m_params->reading = false;
// 8. If readAgainForBranch1 is true, perform pull1Algorithm.
if (m_params->read_again_for_branch1) {
MUST(m_params->pull1_algorithm->function()());
}
// 9. Otherwise, if readAgainForBranch2 is true, perform pull2Algorithm.
else if (m_params->read_again_for_branch2) {
MUST(m_params->pull2_algorithm->function()());
}
});
// NOTE: The microtask delay here is necessary because it takes at least a microtask to detect errors, when we
// use reader.[[closedPromise]] below. We want errors in stream to error both branches immediately, so we
// cannot let successful synchronously-available reads happen ahead of asynchronously-available errors.
}
// https://streams.spec.whatwg.org/#ref-for-read-into-request-close-steps②
virtual void on_close(JS::Value chunk) override
{
auto byob_controller = m_byob_branch->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
auto other_controller = m_other_branch->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
// 1. Set reading to false.
m_params->reading = false;
// 2. Let byobCanceled be canceled2 if forBranch2 is true, and canceled1 otherwise.
auto byob_cancelled = m_for_branch2 ? m_params->canceled2 : m_params->canceled1;
// 3. Let otherCanceled be canceled2 if forBranch2 is false, and canceled1 otherwise.
auto other_cancelled = !m_for_branch2 ? m_params->canceled2 : m_params->canceled1;
// 4. If byobCanceled is false, perform ! ReadableByteStreamControllerClose(byobBranch.[[controller]]).
if (!byob_cancelled) {
MUST(readable_byte_stream_controller_close(byob_controller));
}
// 5. If otherCanceled is false, perform ! ReadableByteStreamControllerClose(otherBranch.[[controller]]).
if (!other_cancelled) {
MUST(readable_byte_stream_controller_close(other_controller));
}
// 6. If chunk is not undefined,
if (!chunk.is_undefined()) {
// 1. Assert: chunk.[[ByteLength]] is 0.
// 2. If byobCanceled is false, perform ! ReadableByteStreamControllerRespondWithNewView(byobBranch.[[controller]], chunk).
if (!byob_cancelled) {
auto array_buffer_view = m_realm->vm().heap().allocate<WebIDL::ArrayBufferView>(m_realm, chunk.as_object());
MUST(readable_byte_stream_controller_respond_with_new_view(m_realm, byob_controller, array_buffer_view));
}
// 3. If otherCanceled is false and otherBranch.[[controller]].[[pendingPullIntos]] is not empty,
// perform ! ReadableByteStreamControllerRespond(otherBranch.[[controller]], 0).
if (!other_cancelled && !other_controller->pending_pull_intos().is_empty()) {
MUST(readable_byte_stream_controller_respond(other_controller, 0));
}
}
// 7. If byobCanceled is false or otherCanceled is false, resolve cancelPromise with undefined.
if (!byob_cancelled || !other_cancelled) {
WebIDL::resolve_promise(m_realm, m_cancel_promise, JS::js_undefined());
}
}
// https://streams.spec.whatwg.org/#ref-for-read-into-request-error-steps①
virtual void on_error(JS::Value) override
{
// 1. Set reading to false.
m_params->reading = false;
}
private:
virtual void visit_edges(Visitor& visitor) override
{
Base::visit_edges(visitor);
visitor.visit(m_realm);
visitor.visit(m_stream);
visitor.visit(m_params);
visitor.visit(m_cancel_promise);
visitor.visit(m_byob_branch);
visitor.visit(m_other_branch);
}
JS::NonnullGCPtr<JS::Realm> m_realm;
JS::NonnullGCPtr<ReadableStream> m_stream;
JS::NonnullGCPtr<ByteStreamTeeParams> m_params;
JS::NonnullGCPtr<WebIDL::Promise> m_cancel_promise;
JS::NonnullGCPtr<ReadableStream> m_byob_branch;
JS::NonnullGCPtr<ReadableStream> m_other_branch;
bool m_for_branch2 { false };
};
JS_DEFINE_ALLOCATOR(ByteStreamTeeBYOBReadRequest);
// https://streams.spec.whatwg.org/#abstract-opdef-readablebytestreamtee
WebIDL::ExceptionOr<ReadableStreamPair> readable_byte_stream_tee(JS::Realm& realm, ReadableStream& stream)
{
// 1. Assert: stream implements ReadableStream.
// 2. Assert: stream.[[controller]] implements ReadableByteStreamController.
VERIFY(stream.controller().has_value() && stream.controller()->has<JS::NonnullGCPtr<ReadableByteStreamController>>());
// 3. Let reader be ? AcquireReadableStreamDefaultReader(stream).
auto reader = TRY(acquire_readable_stream_default_reader(stream));
// 4. Let reading be false.
// 5. Let readAgainForBranch1 be false.
// 6. Let readAgainForBranch2 be false.
// 7. Let canceled1 be false.
// 8. Let canceled2 be false.
// 9. Let reason1 be undefined.
// 10. Let reason2 be undefined.
// 11. Let branch1 be undefined.
// 12. Let branch2 be undefined.
auto params = realm.heap().allocate<ByteStreamTeeParams>(realm, reader);
// 13. Let cancelPromise be a new promise.
auto cancel_promise = WebIDL::create_promise(realm);
// 14. Let forwardReaderError be the following steps, taking a thisReader argument:
auto forward_reader_error = JS::create_heap_function(realm.heap(), [&realm, params, cancel_promise](ReadableStreamReader const& this_reader) {
// 1. Upon rejection of thisReader.[[closedPromise]] with reason r,
auto closed_promise = this_reader.visit([](auto const& underlying_reader) { return underlying_reader->closed_promise_capability(); });
WebIDL::upon_rejection(*closed_promise, JS::create_heap_function(realm.heap(), [&realm, this_reader, params, cancel_promise](JS::Value reason) -> WebIDL::ExceptionOr<JS::Value> {
auto controller1 = params->branch1->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
auto controller2 = params->branch2->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
// 1. If thisReader is not reader, return.
if (this_reader != params->reader) {
return JS::js_undefined();
}
// 2. Perform ! ReadableByteStreamControllerError(branch1.[[controller]], r).
readable_byte_stream_controller_error(controller1, reason);
// 3. Perform ! ReadableByteStreamControllerError(branch2.[[controller]], r).
readable_byte_stream_controller_error(controller2, reason);
// 4. If canceled1 is false or canceled2 is false, resolve cancelPromise with undefined.
if (!params->canceled1 || !params->canceled2) {
WebIDL::resolve_promise(realm, cancel_promise, JS::js_undefined());
}
return JS::js_undefined();
}));
});
// 15. Let pullWithDefaultReader be the following steps:
auto pull_with_default_reader = JS::create_heap_function(realm.heap(), [&realm, &stream, params, cancel_promise, forward_reader_error]() mutable {
// 1. If reader implements ReadableStreamBYOBReader,
if (auto const* byob_reader = params->reader.get_pointer<JS::NonnullGCPtr<ReadableStreamBYOBReader>>()) {
// 1. Assert: reader.[[readIntoRequests]] is empty.
VERIFY((*byob_reader)->read_into_requests().is_empty());
// 2. Perform ! ReadableStreamBYOBReaderRelease(reader).
readable_stream_byob_reader_release(*byob_reader);
// 3. Set reader to ! AcquireReadableStreamDefaultReader(stream).
params->reader = MUST(acquire_readable_stream_default_reader(stream));
// 4. Perform forwardReaderError, given reader.
forward_reader_error->function()(params->reader);
}
// 2. Let readRequest be a read request with the following items:
auto read_request = realm.heap().allocate_without_realm<ByteStreamTeeDefaultReadRequest>(realm, stream, params, cancel_promise);
// 3. Perform ! ReadableStreamDefaultReaderRead(reader, readRequest).
MUST(readable_stream_default_reader_read(params->reader.get<JS::NonnullGCPtr<ReadableStreamDefaultReader>>(), read_request));
});
// 16. Let pullWithBYOBReader be the following steps, given view and forBranch2:
auto pull_with_byob_reader = JS::create_heap_function(realm.heap(), [&realm, &stream, params, cancel_promise, forward_reader_error](JS::NonnullGCPtr<WebIDL::ArrayBufferView> view, bool for_branch2) mutable {
// 1. If reader implements ReadableStreamDefaultReader,
if (auto const* default_reader = params->reader.get_pointer<JS::NonnullGCPtr<ReadableStreamDefaultReader>>()) {
// 2. Assert: reader.[[readRequests]] is empty.
VERIFY((*default_reader)->read_requests().is_empty());
// 3. Perform ! ReadableStreamDefaultReaderRelease(reader).
MUST(readable_stream_default_reader_release(*default_reader));
// 4. Set reader to ! AcquireReadableStreamBYOBReader(stream).
params->reader = MUST(acquire_readable_stream_byob_reader(stream));
// 5. Perform forwardReaderError, given reader.
forward_reader_error->function()(params->reader);
};
// 2. Let byobBranch be branch2 if forBranch2 is true, and branch1 otherwise.
auto byob_branch = for_branch2 ? params->branch2 : params->branch1;
// 3. Let otherBranch be branch2 if forBranch2 is false, and branch1 otherwise.
auto other_branch = !for_branch2 ? params->branch2 : params->branch1;
// 4. Let readIntoRequest be a read-into request with the following items:
auto read_into_request = realm.heap().allocate_without_realm<ByteStreamTeeBYOBReadRequest>(realm, stream, params, cancel_promise, *byob_branch, *other_branch, for_branch2);
// 5. Perform ! ReadableStreamBYOBReaderRead(reader, view, 1, readIntoRequest).
readable_stream_byob_reader_read(params->reader.get<JS::NonnullGCPtr<ReadableStreamBYOBReader>>(), view, read_into_request);
});
// 17. Let pull1Algorithm be the following steps:
auto pull1_algorithm = JS::create_heap_function(realm.heap(), [&realm, params, pull_with_default_reader, pull_with_byob_reader]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
auto controller1 = params->branch1->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
// 1. If reading is true,
if (params->reading) {
// 1. Set readAgainForBranch1 to true.
params->read_again_for_branch1 = true;
// 2. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
}
// 2. Set reading to true.
params->reading = true;
// 3. Let byobRequest be ! ReadableByteStreamControllerGetBYOBRequest(branch1.[[controller]]).
auto byob_request = readable_byte_stream_controller_get_byob_request(controller1);
// 4. If byobRequest is null, perform pullWithDefaultReader.
if (!byob_request) {
pull_with_default_reader->function()();
}
// 5. Otherwise, perform pullWithBYOBReader, given byobRequest.[[view]] and false.
else {
pull_with_byob_reader->function()(*byob_request->view(), false);
}
// 6. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 18. Let pull2Algorithm be the following steps:
auto pull2_algorithm = JS::create_heap_function(realm.heap(), [&realm, params, pull_with_default_reader, pull_with_byob_reader]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
auto controller2 = params->branch2->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>();
// 1. If reading is true,
if (params->reading) {
// 1. Set readAgainForBranch2 to true.
params->read_again_for_branch2 = true;
// 2. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
}
// 2. Set reading to true.
params->reading = true;
// 3. Let byobRequest be ! ReadableByteStreamControllerGetBYOBRequest(branch2.[[controller]]).
auto byob_request = readable_byte_stream_controller_get_byob_request(controller2);
// 4. If byobRequest is null, perform pullWithDefaultReader.
if (!byob_request) {
pull_with_default_reader->function()();
}
// 5. Otherwise, perform pullWithBYOBReader, given byobRequest.[[view]] and true.
else {
pull_with_byob_reader->function()(*byob_request->view(), true);
}
// 6. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// AD-HOC: The read requests within the pull algorithms must be able to re-invoke the pull algorithms, so cache them here.
params->pull1_algorithm = pull1_algorithm;
params->pull2_algorithm = pull2_algorithm;
// 19. Let cancel1Algorithm be the following steps, taking a reason argument:
auto cancel1_algorithm = JS::create_heap_function(realm.heap(), [&realm, &stream, params, cancel_promise](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Set canceled1 to true.
params->canceled1 = true;
// 2. Set reason1 to reason.
params->reason1 = reason;
// 3. If canceled2 is true,
if (params->canceled2) {
// 1. Let compositeReason be ! CreateArrayFromList(« reason1, reason2 »).
auto composite_reason = JS::Array::create_from(realm, AK::Array { params->reason1, params->reason2 });
// 2. Let cancelResult be ! ReadableStreamCancel(stream, compositeReason).
auto cancel_result = MUST(readable_stream_cancel(stream, composite_reason));
// 3. Resolve cancelPromise with cancelResult.
JS::NonnullGCPtr cancel_value = verify_cast<JS::Promise>(*cancel_result->promise().ptr());
WebIDL::resolve_promise(realm, cancel_promise, cancel_value);
}
// 4. Return cancelPromise.
return cancel_promise;
});
// 20. Let cancel2Algorithm be the following steps, taking a reason argument:
auto cancel2_algorithm = JS::create_heap_function(realm.heap(), [&realm, &stream, params, cancel_promise](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Set canceled2 to true.
params->canceled2 = true;
// 2. Set reason2 to reason.
params->reason2 = reason;
// 3. If canceled1 is true,
if (params->canceled1) {
// 1. Let compositeReason be ! CreateArrayFromList(« reason1, reason2 »).
auto composite_reason = JS::Array::create_from(realm, AK::Array { params->reason1, params->reason2 });
// 2. Let cancelResult be ! ReadableStreamCancel(stream, compositeReason).
auto cancel_result = MUST(readable_stream_cancel(stream, composite_reason));
// 3. Resolve cancelPromise with cancelResult.
JS::NonnullGCPtr cancel_value = verify_cast<JS::Promise>(*cancel_result->promise().ptr());
WebIDL::resolve_promise(realm, cancel_promise, cancel_value);
}
// 4. Return cancelPromise.
return cancel_promise;
});
// 21. Let startAlgorithm be an algorithm that returns undefined.
auto start_algorithm = JS::create_heap_function(realm.heap(), []() -> WebIDL::ExceptionOr<JS::Value> {
return JS::js_undefined();
});
// 22. Set branch1 to ! CreateReadableByteStream(startAlgorithm, pull1Algorithm, cancel1Algorithm).
params->branch1 = MUST(create_readable_byte_stream(realm, start_algorithm, pull1_algorithm, cancel1_algorithm));
// 23. Set branch2 to ! CreateReadableByteStream(startAlgorithm, pull2Algorithm, cancel2Algorithm).
params->branch2 = MUST(create_readable_byte_stream(realm, start_algorithm, pull2_algorithm, cancel2_algorithm));
// 24. Perform forwardReaderError, given reader.
forward_reader_error->function()(reader);
// 25. Return « branch1, branch2 ».
return ReadableStreamPair { *params->branch1, *params->branch2 };
}
// https://streams.spec.whatwg.org/#make-size-algorithm-from-size-function
JS::NonnullGCPtr<SizeAlgorithm> extract_size_algorithm(JS::VM& vm, QueuingStrategy const& strategy)
{
// 1. If strategy["size"] does not exist, return an algorithm that returns 1.
if (!strategy.size)
return JS::create_heap_function(vm.heap(), [](JS::Value) { return JS::normal_completion(JS::Value(1)); });
// 2. Return an algorithm that performs the following steps, taking a chunk argument:
return JS::create_heap_function(vm.heap(), [size = strategy.size](JS::Value chunk) {
return WebIDL::invoke_callback(*size, JS::js_undefined(), chunk);
});
}
// https://streams.spec.whatwg.org/#validate-and-normalize-high-water-mark
WebIDL::ExceptionOr<double> extract_high_water_mark(QueuingStrategy const& strategy, double default_hwm)
{
// 1. If strategy["highWaterMark"] does not exist, return defaultHWM.
if (!strategy.high_water_mark.has_value())
return default_hwm;
// 2. Let highWaterMark be strategy["highWaterMark"].
auto high_water_mark = strategy.high_water_mark.value();
// 3. If highWaterMark is NaN or highWaterMark < 0, throw a RangeError exception.
if (isnan(high_water_mark) || high_water_mark < 0)
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::RangeError, "Invalid value for high water mark"sv };
// 4. Return highWaterMark.
return high_water_mark;
}
// https://streams.spec.whatwg.org/#readable-stream-close
void readable_stream_close(ReadableStream& stream)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[state]] is "readable".
VERIFY(stream.state() == ReadableStream::State::Readable);
// 2. Set stream.[[state]] to "closed".
stream.set_state(ReadableStream::State::Closed);
// 3. Let reader be stream.[[reader]].
auto reader = stream.reader();
// 4. If reader is undefined, return.
if (!reader.has_value())
return;
// 5. Resolve reader.[[closedPromise]] with undefined.
WebIDL::resolve_promise(realm, *reader->visit([](auto& reader) {
return reader->closed_promise_capability();
}));
// 6. If reader implements ReadableStreamDefaultReader,
if (reader->has<JS::NonnullGCPtr<ReadableStreamDefaultReader>>()) {
// 1. Let readRequests be reader.[[readRequests]].
// 2. Set reader.[[readRequests]] to an empty list.
auto read_requests = move(reader->get<JS::NonnullGCPtr<ReadableStreamDefaultReader>>()->read_requests());
// 3. For each readRequest of readRequests,
for (auto& read_request : read_requests) {
// 1. Perform readRequests close steps.
read_request->on_close();
}
}
}
// https://streams.spec.whatwg.org/#readable-stream-error
void readable_stream_error(ReadableStream& stream, JS::Value error)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[state]] is "readable".
VERIFY(stream.state() == ReadableStream::State::Readable);
// 2. Set stream.[[state]] to "errored".
stream.set_state(ReadableStream::State::Errored);
// 3. Set stream.[[storedError]] to e.
stream.set_stored_error(error);
// 4. Let reader be stream.[[reader]].
auto reader = stream.reader();
// 5. If reader is undefined, return.
if (!reader.has_value())
return;
auto closed_promise_capability = reader->visit([](auto& reader) { return reader->closed_promise_capability(); });
// 6. Reject reader.[[closedPromise]] with e.
WebIDL::reject_promise(realm, *closed_promise_capability, error);
// 7. Set reader.[[closedPromise]].[[PromiseIsHandled]] to true.
WebIDL::mark_promise_as_handled(*closed_promise_capability);
// 8. If reader implements ReadableStreamDefaultReader,
if (reader->has<JS::NonnullGCPtr<ReadableStreamDefaultReader>>()) {
// 1. Perform ! ReadableStreamDefaultReaderErrorReadRequests(reader, e).
readable_stream_default_reader_error_read_requests(*reader->get<JS::NonnullGCPtr<ReadableStreamDefaultReader>>(), error);
}
// 9. Otherwise,
else {
// 1. Assert: reader implements ReadableStreamBYOBReader.
VERIFY(reader->has<JS::NonnullGCPtr<ReadableStreamBYOBReader>>());
// 2. Perform ! ReadableStreamBYOBReaderErrorReadIntoRequests(reader, e).
readable_stream_byob_reader_error_read_into_requests(*reader->get<JS::NonnullGCPtr<ReadableStreamBYOBReader>>(), error);
}
}
// https://streams.spec.whatwg.org/#readable-stream-add-read-request
void readable_stream_add_read_request(ReadableStream& stream, JS::NonnullGCPtr<ReadRequest> read_request)
{
// 1. Assert: stream.[[reader]] implements ReadableStreamDefaultReader.
VERIFY(stream.reader().has_value() && stream.reader()->has<JS::NonnullGCPtr<ReadableStreamDefaultReader>>());
// 2. Assert: stream.[[state]] is "readable".
VERIFY(stream.state() == ReadableStream::State::Readable);
// 3. Append readRequest to stream.[[reader]].[[readRequests]].
stream.reader()->get<JS::NonnullGCPtr<ReadableStreamDefaultReader>>()->read_requests().append(read_request);
}
// https://streams.spec.whatwg.org/#readable-stream-add-read-into-request
void readable_stream_add_read_into_request(ReadableStream& stream, JS::NonnullGCPtr<ReadIntoRequest> read_into_request)
{
// 1. Assert: stream.[[reader]] implements ReadableStreamBYOBReader.
VERIFY(stream.reader().has_value() && stream.reader()->has<JS::NonnullGCPtr<ReadableStreamBYOBReader>>());
// 2. Assert: stream.[[state]] is "readable" or "closed".
VERIFY(stream.is_readable() || stream.is_closed());
// 3. Append readRequest to stream.[[reader]].[[readIntoRequests]].
stream.reader()->get<JS::NonnullGCPtr<ReadableStreamBYOBReader>>()->read_into_requests().append(read_into_request);
}
// https://streams.spec.whatwg.org/#readable-stream-reader-generic-cancel
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> readable_stream_reader_generic_cancel(ReadableStreamGenericReaderMixin& reader, JS::Value reason)
{
// 1. Let stream be reader.[[stream]]
auto stream = reader.stream();
// 2. Assert: stream is not undefined
VERIFY(stream);
// 3. Return ! ReadableStreamCancel(stream, reason)
return TRY(readable_stream_cancel(*stream, reason));
}
// https://streams.spec.whatwg.org/#readable-stream-reader-generic-initialize
void readable_stream_reader_generic_initialize(ReadableStreamReader reader, ReadableStream& stream)
{
auto& realm = stream.realm();
// 1. Set reader.[[stream]] to stream.
reader.visit([&](auto& reader) { reader->set_stream(stream); });
// 2. Set stream.[[reader]] to reader.
stream.set_reader(reader);
// 3. If stream.[[state]] is "readable",
if (stream.state() == ReadableStream::State::Readable) {
// 1. Set reader.[[closedPromise]] to a new promise.
reader.visit([&](auto& reader) { reader->set_closed_promise_capability(WebIDL::create_promise(realm)); });
}
// 4. Otherwise, if stream.[[state]] is "closed",
else if (stream.state() == ReadableStream::State::Closed) {
// 1. Set reader.[[closedPromise]] to a promise resolved with undefined.
reader.visit([&](auto& reader) {
reader->set_closed_promise_capability(WebIDL::create_resolved_promise(realm, JS::js_undefined()));
});
}
// 5. Otherwise,
else {
// 1. Assert: stream.[[state]] is "errored".
VERIFY(stream.state() == ReadableStream::State::Errored);
// 2. Set reader.[[closedPromise]] to a promise rejected with stream.[[storedError]].
// 3. Set reader.[[closedPromise]].[[PromiseIsHandled]] to true.
reader.visit([&](auto& reader) {
reader->set_closed_promise_capability(WebIDL::create_rejected_promise(realm, stream.stored_error()));
WebIDL::mark_promise_as_handled(*reader->closed_promise_capability());
});
}
}
// https://streams.spec.whatwg.org/#readable-stream-reader-generic-release
WebIDL::ExceptionOr<void> readable_stream_reader_generic_release(ReadableStreamGenericReaderMixin& reader)
{
// 1. Let stream be reader.[[stream]].
auto stream = reader.stream();
// 2. Assert: stream is not undefined.
VERIFY(stream);
// 3. Assert: stream.[[reader]] is reader.
VERIFY(stream->reader()->visit([](auto& reader) -> ReadableStreamGenericReaderMixin* { return reader.ptr(); }) == &reader);
auto& realm = stream->realm();
// 4. If stream.[[state]] is "readable", reject reader.[[closedPromise]] with a TypeError exception.
auto exception = JS::TypeError::create(realm, "Released readable stream"sv);
if (stream->is_readable()) {
WebIDL::reject_promise(realm, *reader.closed_promise_capability(), exception);
}
// 5. Otherwise, set reader.[[closedPromise]] to a promise rejected with a TypeError exception.
else {
reader.set_closed_promise_capability(WebIDL::create_rejected_promise(realm, exception));
}
// 6. Set reader.[[closedPromise]].[[PromiseIsHandled]] to true.
WebIDL::mark_promise_as_handled(*reader.closed_promise_capability());
// 7. Perform ! stream.[[controller]].[[ReleaseSteps]]().
TRY(stream->controller()->visit([](auto const& controller) { return controller->release_steps(); }));
// 8. Set stream.[[reader]] to undefined.
stream->set_reader({});
// 9. Set reader.[[stream]] to undefined.
reader.set_stream({});
return {};
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablestreamdefaultreadererrorreadrequests
void readable_stream_default_reader_error_read_requests(ReadableStreamDefaultReader& reader, JS::Value error)
{
// 1. Let readRequests be reader.[[readRequests]].
auto read_requests = move(reader.read_requests());
// 2. Set reader.[[readRequests]] to a new empty list.
reader.read_requests().clear();
// 3. For each readRequest of readRequests,
for (auto& read_request : read_requests) {
// 1. Perform readRequests error steps, given e.
read_request->on_error(error);
}
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablestreambyobreadererrorreadintorequests
void readable_stream_byob_reader_error_read_into_requests(ReadableStreamBYOBReader& reader, JS::Value error)
{
// 1. Let readIntoRequests be reader.[[readIntoRequests]].
auto read_into_requests = move(reader.read_into_requests());
// 2. Set reader.[[readIntoRequests]] to a new empty list.
reader.read_into_requests().clear();
// 3. For each readIntoRequest of readIntoRequests,
for (auto& read_into_request : read_into_requests) {
// 1. Perform readIntoRequests error steps, given e.
read_into_request->on_error(error);
}
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-fill-head-pull-into-descriptor
void readable_byte_stream_controller_fill_head_pull_into_descriptor(ReadableByteStreamController const& controller, u64 size, PullIntoDescriptor& pull_into_descriptor)
{
// 1. Assert: either controller.[[pendingPullIntos]] is empty, or controller.[[pendingPullIntos]][0] is pullIntoDescriptor.
VERIFY(controller.pending_pull_intos().is_empty() || &controller.pending_pull_intos().first() == &pull_into_descriptor);
// 2. Assert: controller.[[byobRequest]] is null.
VERIFY(!controller.raw_byob_request());
// 3. Set pullIntoDescriptors bytes filled to bytes filled + size.
pull_into_descriptor.bytes_filled += size;
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-fill-pull-into-descriptor-from-queue
bool readable_byte_stream_controller_fill_pull_into_descriptor_from_queue(ReadableByteStreamController& controller, PullIntoDescriptor& pull_into_descriptor)
{
// 1. Let elementSize be pullIntoDescriptor.[[elementSize]].
auto element_size = pull_into_descriptor.element_size;
// 2. Let currentAlignedBytes be pullIntoDescriptors bytes filled (pullIntoDescriptors bytes filled mod elementSize).
auto current_aligned_bytes = pull_into_descriptor.bytes_filled - (pull_into_descriptor.bytes_filled % pull_into_descriptor.element_size);
// 3. Let maxBytesToCopy be min(controller.[[queueTotalSize]], pullIntoDescriptors byte length pullIntoDescriptors bytes filled).
auto max_bytes_to_copy = min(controller.queue_total_size(), pull_into_descriptor.byte_length - pull_into_descriptor.bytes_filled);
// 4. Let maxBytesFilled be pullIntoDescriptors bytes filled + maxBytesToCopy.
u64 max_bytes_filled = pull_into_descriptor.bytes_filled + max_bytes_to_copy;
// 5. Let maxAlignedBytes be maxBytesFilled (maxBytesFilled mod elementSize).
auto max_aligned_bytes = max_bytes_filled - (max_bytes_filled % element_size);
// 6. Let totalBytesToCopyRemaining be maxBytesToCopy.
auto total_bytes_to_copy_remaining = max_bytes_to_copy;
// 7. Let ready be false.
bool ready = false;
// 8. If maxAlignedBytes > currentAlignedBytes,
if (max_aligned_bytes > current_aligned_bytes) {
// 1. Set totalBytesToCopyRemaining to maxAlignedBytes pullIntoDescriptors bytes filled.
total_bytes_to_copy_remaining = max_aligned_bytes - pull_into_descriptor.bytes_filled;
// 2. Set ready to true.
ready = true;
}
// 9. Let queue be controller.[[queue]].
auto& queue = controller.queue();
// 10. While totalBytesToCopyRemaining > 0,
while (total_bytes_to_copy_remaining > 0) {
// 1. Let headOfQueue be queue[0].
auto& head_of_queue = queue.first();
// 2. Let bytesToCopy be min(totalBytesToCopyRemaining, headOfQueues byte length).
auto bytes_to_copy = min(total_bytes_to_copy_remaining, head_of_queue.byte_length);
// 3. Let destStart be pullIntoDescriptors byte offset + pullIntoDescriptors bytes filled.
auto dest_start = pull_into_descriptor.byte_offset + pull_into_descriptor.bytes_filled;
// 4. Perform ! CopyDataBlockBytes(pullIntoDescriptors buffer.[[ArrayBufferData]], destStart, headOfQueues buffer.[[ArrayBufferData]], headOfQueues byte offset, bytesToCopy).
JS::copy_data_block_bytes(pull_into_descriptor.buffer->buffer(), dest_start, head_of_queue.buffer->buffer(), head_of_queue.byte_offset, bytes_to_copy);
// 5. If headOfQueues byte length is bytesToCopy,
if (head_of_queue.byte_length == bytes_to_copy) {
// 1. Remove queue[0].
queue.take_first();
}
// 6. Otherwise,
else {
// 1. Set headOfQueues byte offset to headOfQueues byte offset + bytesToCopy.
head_of_queue.byte_offset += bytes_to_copy;
// 2. Set headOfQueues byte length to headOfQueues byte length bytesToCopy.
head_of_queue.byte_length -= bytes_to_copy;
}
// 7. Set controller.[[queueTotalSize]] to controller.[[queueTotalSize]] bytesToCopy.
controller.set_queue_total_size(controller.queue_total_size() - bytes_to_copy);
// 8, Perform ! ReadableByteStreamControllerFillHeadPullIntoDescriptor(controller, bytesToCopy, pullIntoDescriptor).
readable_byte_stream_controller_fill_head_pull_into_descriptor(controller, bytes_to_copy, pull_into_descriptor);
// 9. Set totalBytesToCopyRemaining to totalBytesToCopyRemaining bytesToCopy.
total_bytes_to_copy_remaining -= bytes_to_copy;
}
// 11. If ready is false,
if (!ready) {
// 1. Assert: controller.[[queueTotalSize]] is 0.
VERIFY(controller.queue_total_size() == 0);
// 2. Assert: pullIntoDescriptors bytes filled > 0.
VERIFY(pull_into_descriptor.bytes_filled > 0);
// 3. Assert: pullIntoDescriptors bytes filled < pullIntoDescriptors element size.
VERIFY(pull_into_descriptor.bytes_filled < pull_into_descriptor.element_size);
}
// 12. Return ready.
return ready;
}
// https://streams.spec.whatwg.org/#readable-stream-default-reader-read
WebIDL::ExceptionOr<void> readable_stream_default_reader_read(ReadableStreamDefaultReader& reader, ReadRequest& read_request)
{
// 1. Let stream be reader.[[stream]].
auto stream = reader.stream();
// 2. Assert: stream is not undefined.
VERIFY(stream);
// 3. Set stream.[[disturbed]] to true.
stream->set_disturbed(true);
// 4. If stream.[[state]] is "closed", perform readRequests close steps.
if (stream->is_closed()) {
read_request.on_close();
}
// 5. Otherwise, if stream.[[state]] is "errored", perform readRequests error steps given stream.[[storedError]].
else if (stream->is_errored()) {
read_request.on_error(stream->stored_error());
}
// 6. Otherwise,
else {
// 1. Assert: stream.[[state]] is "readable".
VERIFY(stream->is_readable());
// 2. Perform ! stream.[[controller]].[[PullSteps]](readRequest).
TRY(stream->controller()->visit([&](auto const& controller) {
return controller->pull_steps(read_request);
}));
}
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-convert-pull-into-descriptor
JS::Value readable_byte_stream_controller_convert_pull_into_descriptor(JS::Realm& realm, PullIntoDescriptor const& pull_into_descriptor)
{
auto& vm = realm.vm();
// 1. Let bytesFilled be pullIntoDescriptors bytes filled.
auto bytes_filled = pull_into_descriptor.bytes_filled;
// 2. Let elementSize be pullIntoDescriptors element size.
auto element_size = pull_into_descriptor.element_size;
// 3. Assert: bytesFilled ≤ pullIntoDescriptors byte length.
VERIFY(bytes_filled <= pull_into_descriptor.byte_length);
// 4. Assert: bytesFilled mod elementSize is 0.
VERIFY(bytes_filled % element_size == 0);
// 5. Let buffer be ! TransferArrayBuffer(pullIntoDescriptors buffer).
auto buffer = MUST(transfer_array_buffer(realm, pull_into_descriptor.buffer));
// 6. Return ! Construct(pullIntoDescriptors view constructor, « buffer, pullIntoDescriptors byte offset, bytesFilled ÷ elementSize »).
return MUST(JS::construct(vm, *pull_into_descriptor.view_constructor, buffer, JS::Value(pull_into_descriptor.byte_offset), JS::Value(bytes_filled / element_size)));
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-pull-into
void readable_byte_stream_controller_pull_into(ReadableByteStreamController& controller, WebIDL::ArrayBufferView& view, ReadIntoRequest& read_into_request)
{
auto& vm = controller.vm();
auto& realm = controller.realm();
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. Let elementSize be 1.
size_t element_size = 1;
// 3. Let ctor be %DataView%.
JS::NativeFunction* ctor = realm.intrinsics().data_view_constructor();
// 4. If view has a [[TypedArrayName]] internal slot (i.e., it is not a DataView),
if (view.bufferable_object().has<JS::NonnullGCPtr<JS::TypedArrayBase>>()) {
auto const& typed_array = *view.bufferable_object().get<JS::NonnullGCPtr<JS::TypedArrayBase>>();
// 1. Set elementSize to the element size specified in the typed array constructors table for view.[[TypedArrayName]].
element_size = typed_array.element_size();
// 2. Set ctor to the constructor specified in the typed array constructors table for view.[[TypedArrayName]].
switch (typed_array.kind()) {
#define __JS_ENUMERATE(ClassName, snake_name, PrototypeName, ConstructorName, Type) \
case JS::TypedArrayBase::Kind::ClassName: \
ctor = realm.intrinsics().snake_name##_constructor(); \
break;
JS_ENUMERATE_TYPED_ARRAYS
#undef __JS_ENUMERATE
}
}
// 5. Let byteOffset be view.[[ByteOffset]].
auto byte_offset = view.byte_offset();
// 6. Let byteLength be view.[[ByteLength]].
auto byte_length = view.byte_length();
// 7. Let bufferResult be TransferArrayBuffer(view.[[ViewedArrayBuffer]]).
auto buffer_result = transfer_array_buffer(realm, *view.viewed_array_buffer());
// 8. If bufferResult is an abrupt completion,
if (buffer_result.is_exception()) {
// 1. Perform readIntoRequests error steps, given bufferResult.[[Value]].
auto throw_completion = Bindings::dom_exception_to_throw_completion(vm, buffer_result.exception());
read_into_request.on_error(*throw_completion.release_value());
// 2. Return.
return;
}
// 9. Let buffer be bufferResult.[[Value]].
auto buffer = buffer_result.value();
// 10. Let pullIntoDescriptor be a new pull-into descriptor with buffer buffer, buffer byte length buffer.[[ArrayBufferByteLength]],
// byte offset byteOffset, byte length byteLength, bytes filled 0, element size elementSize, view constructor ctor, and reader type "byob".
PullIntoDescriptor pull_into_descriptor {
.buffer = buffer,
.buffer_byte_length = buffer->byte_length(),
.byte_offset = byte_offset,
.byte_length = byte_length,
.bytes_filled = 0,
.element_size = element_size,
.view_constructor = *ctor,
.reader_type = ReaderType::Byob,
};
// 11. If controller.[[pendingPullIntos]] is not empty,
if (!controller.pending_pull_intos().is_empty()) {
// 1. Append pullIntoDescriptor to controller.[[pendingPullIntos]].
controller.pending_pull_intos().append(pull_into_descriptor);
// 2. Perform ! ReadableStreamAddReadIntoRequest(stream, readIntoRequest).
readable_stream_add_read_into_request(*stream, read_into_request);
// 3. Return.
return;
}
// 12. If stream.[[state]] is "closed",
if (stream->is_closed()) {
// 1. Let emptyView be ! Construct(ctor, « pullIntoDescriptors buffer, pullIntoDescriptors byte offset, 0 »).
auto empty_view = MUST(JS::construct(vm, *ctor, pull_into_descriptor.buffer, JS::Value(pull_into_descriptor.byte_offset), JS::Value(0)));
// 2. Perform readIntoRequests close steps, given emptyView.
read_into_request.on_close(empty_view);
// 3. Return.
return;
}
// 13. If controller.[[queueTotalSize]] > 0,
if (controller.queue_total_size() > 0) {
// 1. If ! ReadableByteStreamControllerFillPullIntoDescriptorFromQueue(controller, pullIntoDescriptor) is true,
if (readable_byte_stream_controller_fill_pull_into_descriptor_from_queue(controller, pull_into_descriptor)) {
// 1. Let filledView be ! ReadableByteStreamControllerConvertPullIntoDescriptor(pullIntoDescriptor).
auto filled_view = readable_byte_stream_controller_convert_pull_into_descriptor(realm, pull_into_descriptor);
// 2. Perform ! ReadableByteStreamControllerHandleQueueDrain(controller).
MUST(readable_byte_stream_controller_handle_queue_drain(controller));
// 3. Perform readIntoRequests chunk steps, given filledView.
read_into_request.on_chunk(filled_view);
// 4. Return.
return;
}
// 2. If controller.[[closeRequested]] is true,
if (controller.close_requested()) {
// 1. Let e be a TypeError exception.
auto error = JS::TypeError::create(realm, "Reader has been released"sv);
// 2. Perform ! ReadableByteStreamControllerError(controller, e).
readable_byte_stream_controller_error(controller, error);
// 3. Perform readIntoRequests error steps, given e.
read_into_request.on_error(error);
// 4. Return.
return;
}
}
// 14. Append pullIntoDescriptor to controller.[[pendingPullIntos]].
controller.pending_pull_intos().append(pull_into_descriptor);
// 15. Perform ! ReadableStreamAddReadIntoRequest(stream, readIntoRequest).
readable_stream_add_read_into_request(*stream, read_into_request);
// 16. Perform ! ReadableByteStreamControllerCallPullIfNeeded(controller).
MUST(readable_byte_stream_controller_call_pull_if_needed(controller));
}
// https://streams.spec.whatwg.org/#readable-stream-byob-reader-read
void readable_stream_byob_reader_read(ReadableStreamBYOBReader& reader, WebIDL::ArrayBufferView& view, ReadIntoRequest& read_into_request)
{
// 1. Let stream be reader.[[stream]].
auto stream = reader.stream();
// 2. Assert: stream is not undefined.
VERIFY(stream);
// 3. Set stream.[[disturbed]] to true.
stream->set_disturbed(true);
// 4. If stream.[[state]] is "errored", perform readIntoRequests error steps given stream.[[storedError]].
if (stream->is_errored()) {
read_into_request.on_error(stream->stored_error());
}
// 5. Otherwise, perform ! ReadableByteStreamControllerPullInto(stream.[[controller]], view, readIntoRequest).
else {
readable_byte_stream_controller_pull_into(*stream->controller()->get<JS::NonnullGCPtr<ReadableByteStreamController>>(), view, read_into_request);
}
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablestreamdefaultreaderrelease
WebIDL::ExceptionOr<void> readable_stream_default_reader_release(ReadableStreamDefaultReader& reader)
{
auto& realm = reader.realm();
// 1. Perform ! ReadableStreamReaderGenericRelease(reader).
TRY(readable_stream_reader_generic_release(reader));
// 2. Let e be a new TypeError exception.
auto exception = JS::TypeError::create(realm, "Reader has been released"sv);
// 3. Perform ! ReadableStreamDefaultReaderErrorReadRequests(reader, e).
readable_stream_default_reader_error_read_requests(reader, exception);
return {};
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablestreambyobreaderrelease
void readable_stream_byob_reader_release(ReadableStreamBYOBReader& reader)
{
auto& realm = reader.realm();
// 1. Perform ! ReadableStreamReaderGenericRelease(reader).
MUST(readable_stream_reader_generic_release(reader));
// 2. Let e be a new TypeError exception.
auto exception = JS::TypeError::create(realm, "Reader has been released"sv);
// 3. Perform ! ReadableStreamBYOBReaderErrorReadIntoRequests(reader, e).
readable_stream_byob_reader_error_read_into_requests(reader, exception);
}
// https://streams.spec.whatwg.org/#set-up-readable-stream-default-reader
WebIDL::ExceptionOr<void> set_up_readable_stream_default_reader(ReadableStreamDefaultReader& reader, ReadableStream& stream)
{
// 1. If ! IsReadableStreamLocked(stream) is true, throw a TypeError exception.
if (is_readable_stream_locked(stream))
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Cannot create stream reader for a locked stream"sv };
// 2. Perform ! ReadableStreamReaderGenericInitialize(reader, stream).
// 3. Set reader.[[readRequests]] to a new empty list.
readable_stream_reader_generic_initialize(ReadableStreamReader { reader }, stream);
return {};
}
// https://streams.spec.whatwg.org/#set-up-readable-stream-byob-reader
WebIDL::ExceptionOr<void> set_up_readable_stream_byob_reader(ReadableStreamBYOBReader& reader, ReadableStream& stream)
{
// 1. If ! IsReadableStreamLocked(stream) is true, throw a TypeError exception.
if (is_readable_stream_locked(stream))
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Cannot create stream reader for a locked stream"sv };
// 2. If stream.[[controller]] does not implement ReadableByteStreamController, throw a TypeError exception.
if (!stream.controller()->has<JS::NonnullGCPtr<ReadableByteStreamController>>())
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "BYOB reader cannot set up reader from non-byte stream"sv };
// 3. Perform ! ReadableStreamReaderGenericInitialize(reader, stream).
readable_stream_reader_generic_initialize(ReadableStreamReader { reader }, stream);
// 4. Set reader.[[readIntoRequests]] to a new empty list.
reader.read_into_requests().clear();
return {};
}
// https://streams.spec.whatwg.org/#readable-stream-default-controller-close
void readable_stream_default_controller_close(ReadableStreamDefaultController& controller)
{
// 1. If ! ReadableStreamDefaultControllerCanCloseOrEnqueue(controller) is false, return.
if (!readable_stream_default_controller_can_close_or_enqueue(controller))
return;
// 2. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 3. Set controller.[[closeRequested]] to true.
controller.set_close_requested(true);
// 4. If controller.[[queue]] is empty,
if (controller.queue().is_empty()) {
// 1. Perform ! ReadableStreamDefaultControllerClearAlgorithms(controller).
readable_stream_default_controller_clear_algorithms(controller);
// 2. Perform ! ReadableStreamClose(stream).
readable_stream_close(*stream);
}
}
// https://streams.spec.whatwg.org/#rs-default-controller-has-backpressure
bool readable_stream_default_controller_has_backpressure(ReadableStreamDefaultController& controller)
{
// 1. If ! ReadableStreamDefaultControllerShouldCallPull(controller) is true, return false.
if (readable_stream_default_controller_should_call_pull(controller))
return false;
// 2. Otherwise, return true.
return true;
}
// https://streams.spec.whatwg.org/#readable-stream-default-controller-enqueue
WebIDL::ExceptionOr<void> readable_stream_default_controller_enqueue(ReadableStreamDefaultController& controller, JS::Value chunk)
{
auto& vm = controller.vm();
// 1. If ! ReadableStreamDefaultControllerCanCloseOrEnqueue(controller) is false, return.
if (!readable_stream_default_controller_can_close_or_enqueue(controller))
return {};
// 2. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 3. If ! IsReadableStreamLocked(stream) is true and ! ReadableStreamGetNumReadRequests(stream) > 0, perform ! ReadableStreamFulfillReadRequest(stream, chunk, false).
if (is_readable_stream_locked(*stream) && readable_stream_get_num_read_requests(*stream) > 0) {
readable_stream_fulfill_read_request(*stream, chunk, false);
}
// 4. Otherwise,
else {
// 1. Let result be the result of performing controller.[[strategySizeAlgorithm]], passing in chunk, and interpreting the result as a completion record.
auto result = controller.strategy_size_algorithm()->function()(chunk);
// 2. If result is an abrupt completion,
if (result.is_abrupt()) {
// 1. Perform ! ReadableStreamDefaultControllerError(controller, result.[[Value]]).
readable_stream_default_controller_error(controller, result.value().value());
// 2. Return result.
return result;
}
// 3. Let chunkSize be result.[[Value]].
auto chunk_size = result.release_value().release_value();
// 4. Let enqueueResult be EnqueueValueWithSize(controller, chunk, chunkSize).
auto enqueue_result = enqueue_value_with_size(controller, chunk, chunk_size);
// 5. If enqueueResult is an abrupt completion,
if (enqueue_result.is_error()) {
auto throw_completion = Bindings::throw_dom_exception_if_needed(vm, [&] { return enqueue_result; }).throw_completion();
// 1. Perform ! ReadableStreamDefaultControllerError(controller, enqueueResult.[[Value]]).
readable_stream_default_controller_error(controller, throw_completion.value().value());
// 2. Return enqueueResult.
// Note: We need to return the throw_completion object here, as enqueue needs to throw the same object that the controller is errored with
return throw_completion;
}
}
// 5. Perform ! ReadableStreamDefaultControllerCallPullIfNeeded(controller).
return readable_stream_default_controller_can_pull_if_needed(controller);
}
// https://streams.spec.whatwg.org/#readable-stream-default-controller-call-pull-if-needed
WebIDL::ExceptionOr<void> readable_stream_default_controller_can_pull_if_needed(ReadableStreamDefaultController& controller)
{
// 1. Let shouldPull be ! ReadableStreamDefaultControllerShouldCallPull(controller).
auto should_pull = readable_stream_default_controller_should_call_pull(controller);
// 2. If shouldPull is false, return.
if (!should_pull)
return {};
// 3. If controller.[[pulling]] is true,
if (controller.pulling()) {
// 1. Set controller.[[pullAgain]] to true.
controller.set_pull_again(true);
// 2. Return.
return {};
}
// 4. Assert: controller.[[pullAgain]] is false.
VERIFY(!controller.pull_again());
// 5. Set controller.[[pulling]] to true.
controller.set_pulling(true);
// 6. Let pullPromise be the result of performing controller.[[pullAlgorithm]].
auto pull_promise = TRY(controller.pull_algorithm()->function()());
// 7. Upon fulfillment of pullPromise,
WebIDL::upon_fulfillment(*pull_promise, JS::create_heap_function(controller.heap(), [&controller](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Set controller.[[pulling]] to false.
controller.set_pulling(false);
// 2. If controller.[[pullAgain]] is true,
if (controller.pull_again()) {
// 1. Set controller.[[pullAgain]] to false.
controller.set_pull_again(false);
// 2. Perform ! ReadableStreamDefaultControllerCallPullIfNeeded(controller).
TRY(readable_stream_default_controller_can_pull_if_needed(controller));
}
return JS::js_undefined();
}));
// 8. Upon rejection of pullPromise with reason e,
WebIDL::upon_rejection(*pull_promise, JS::create_heap_function(controller.heap(), [&controller](JS::Value e) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! ReadableStreamDefaultControllerError(controller, e).
readable_stream_default_controller_error(controller, e);
return JS::js_undefined();
}));
return {};
}
// https://streams.spec.whatwg.org/#readable-stream-default-controller-should-call-pull
bool readable_stream_default_controller_should_call_pull(ReadableStreamDefaultController& controller)
{
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. If ! ReadableStreamDefaultControllerCanCloseOrEnqueue(controller) is false, return false.
if (!readable_stream_default_controller_can_close_or_enqueue(controller))
return false;
// 3. If controller.[[started]] is false, return false.
if (!controller.started())
return false;
// 4. If ! IsReadableStreamLocked(stream) is true and ! ReadableStreamGetNumReadRequests(stream) > 0, return true.
if (is_readable_stream_locked(*stream) && readable_stream_get_num_read_requests(*stream) > 0)
return true;
// 5. Let desiredSize be ! ReadableStreamDefaultControllerGetDesiredSize(controller).
auto desired_size = readable_stream_default_controller_get_desired_size(controller);
// 6. Assert: desiredSize is not null.
VERIFY(desired_size.has_value());
// 7. If desiredSize > 0, return true.
if (desired_size.release_value() > 0.0)
return true;
// 8. Return false.
return false;
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablebytestreamcontrollergetbyobrequest
JS::GCPtr<ReadableStreamBYOBRequest> readable_byte_stream_controller_get_byob_request(JS::NonnullGCPtr<ReadableByteStreamController> controller)
{
auto& vm = controller->vm();
auto& realm = controller->realm();
// 1. If controller.[[byobRequest]] is null and controller.[[pendingPullIntos]] is not empty,
if (!controller->raw_byob_request() && !controller->pending_pull_intos().is_empty()) {
// 1. Let firstDescriptor be controller.[[pendingPullIntos]][0].
auto const& first_descriptor = controller->pending_pull_intos().first();
// 2. Let view be ! Construct(%Uint8Array%, « firstDescriptors buffer, firstDescriptors byte offset + firstDescriptors bytes filled, firstDescriptors byte length firstDescriptors bytes filled »).
auto view = MUST(JS::construct(vm, *realm.intrinsics().uint8_array_constructor(), first_descriptor.buffer, JS::Value(first_descriptor.byte_offset + first_descriptor.bytes_filled), JS::Value(first_descriptor.byte_length - first_descriptor.bytes_filled)));
// 3. Let byobRequest be a new ReadableStreamBYOBRequest.
auto byob_request = realm.heap().allocate<ReadableStreamBYOBRequest>(realm, realm);
// 4. Set byobRequest.[[controller]] to controller.
byob_request->set_controller(controller);
// 5. Set byobRequest.[[view]] to view.
auto array_buffer_view = vm.heap().allocate<WebIDL::ArrayBufferView>(realm, view);
byob_request->set_view(array_buffer_view);
// 6. Set controller.[[byobRequest]] to byobRequest.
controller->set_byob_request(byob_request);
}
// 2. Return controller.[[byobRequest]].
return controller->raw_byob_request();
}
// https://streams.spec.whatwg.org/#readable-stream-default-controller-clear-algorithms
void readable_stream_default_controller_clear_algorithms(ReadableStreamDefaultController& controller)
{
// 1. Set controller.[[pullAlgorithm]] to undefined.
controller.set_pull_algorithm({});
// 2. Set controller.[[cancelAlgorithm]] to undefined.
controller.set_cancel_algorithm({});
// 3. Set controller.[[strategySizeAlgorithm]] to undefined.
controller.set_strategy_size_algorithm({});
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-respond-in-readable-state
WebIDL::ExceptionOr<void> readable_byte_stream_controller_respond_in_readable_state(ReadableByteStreamController& controller, u64 bytes_written, PullIntoDescriptor& pull_into_descriptor)
{
// 1. Assert: pullIntoDescriptors bytes filled + bytesWritten ≤ pullIntoDescriptors byte length.
VERIFY(pull_into_descriptor.bytes_filled + bytes_written <= pull_into_descriptor.byte_length);
// 2. Perform ! ReadableByteStreamControllerFillHeadPullIntoDescriptor(controller, bytesWritten, pullIntoDescriptor).
readable_byte_stream_controller_fill_head_pull_into_descriptor(controller, bytes_written, pull_into_descriptor);
// 3. If pullIntoDescriptors reader type is "none",
if (pull_into_descriptor.reader_type == ReaderType::None) {
// 1. Perform ? ReadableByteStreamControllerEnqueueDetachedPullIntoToQueue(controller, pullIntoDescriptor).
TRY(readable_byte_stream_controller_enqueue_detached_pull_into_queue(controller, pull_into_descriptor));
// 2. Perform ! ReadableByteStreamControllerProcessPullIntoDescriptorsUsingQueue(controller).
readable_byte_stream_controller_process_pull_into_descriptors_using_queue(controller);
// 3. Return.
return {};
}
// 4. If pullIntoDescriptors bytes filled < pullIntoDescriptors minimum fill, return.
// FIXME: Support minimum fill.
if (pull_into_descriptor.bytes_filled < pull_into_descriptor.element_size)
return {};
// NOTE: A descriptor for a read() request that is not yet filled up to its minimum length will stay at the head of the queue, so the underlying source can keep filling it.
// 5. Perform ! ReadableByteStreamControllerShiftPendingPullInto(controller).
// NOTE: We need to take a copy of pull_into_descriptor here as the shift destroys the pull into descriptor we are given.
auto pull_into_descriptor_copy = readable_byte_stream_controller_shift_pending_pull_into(controller);
// 6. Let remainderSize be the remainder after dividing pullIntoDescriptors bytes filled by pullIntoDescriptors element size.
auto remainder_size = pull_into_descriptor_copy.bytes_filled % pull_into_descriptor_copy.element_size;
// 7. If remainderSize > 0,
if (remainder_size > 0) {
// 1. Let end be pullIntoDescriptors byte offset + pullIntoDescriptors bytes filled.
auto end = pull_into_descriptor_copy.byte_offset + pull_into_descriptor_copy.bytes_filled;
// 2. Perform ? ReadableByteStreamControllerEnqueueClonedChunkToQueue(controller, pullIntoDescriptors buffer, end remainderSize, remainderSize).
TRY(readable_byte_stream_controller_enqueue_cloned_chunk_to_queue(controller, *pull_into_descriptor_copy.buffer, end - remainder_size, remainder_size));
}
// 8. Set pullIntoDescriptors bytes filled to pullIntoDescriptors bytes filled remainderSize.
pull_into_descriptor_copy.bytes_filled -= remainder_size;
// 9. Perform ! ReadableByteStreamControllerCommitPullIntoDescriptor(controller.[[stream]], pullIntoDescriptor).
readable_byte_stream_controller_commit_pull_into_descriptor(*controller.stream(), pull_into_descriptor_copy);
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-respond-in-closed-state
void readable_byte_stream_controller_respond_in_closed_state(ReadableByteStreamController& controller, PullIntoDescriptor& first_descriptor)
{
// 1. Assert: the remainder after dividing firstDescriptors bytes filled by firstDescriptors element size is 0.
VERIFY(first_descriptor.bytes_filled % first_descriptor.element_size == 0);
// 2. If firstDescriptors reader type is "none", perform ! ReadableByteStreamControllerShiftPendingPullInto(controller).
if (first_descriptor.reader_type == ReaderType::None)
readable_byte_stream_controller_shift_pending_pull_into(controller);
// 3. Let stream be controller.[[stream]].
auto& stream = *controller.stream();
// 4. If ! ReadableStreamHasBYOBReader(stream) is true,
if (readable_stream_has_byob_reader(stream)) {
// 1. While ! ReadableStreamGetNumReadIntoRequests(stream) > 0,
while (readable_stream_get_num_read_into_requests(stream) > 0) {
// 1. Let pullIntoDescriptor be ! ReadableByteStreamControllerShiftPendingPullInto(controller).
auto pull_into_descriptor = readable_byte_stream_controller_shift_pending_pull_into(controller);
// 2. Perform ! ReadableByteStreamControllerCommitPullIntoDescriptor(stream, pullIntoDescriptor).
readable_byte_stream_controller_commit_pull_into_descriptor(stream, pull_into_descriptor);
}
}
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-respond-internal
WebIDL::ExceptionOr<void> readable_byte_stream_controller_respond_internal(ReadableByteStreamController& controller, u64 bytes_written)
{
// 1. Let firstDescriptor be controller.[[pendingPullIntos]][0].
auto& first_descriptor = controller.pending_pull_intos().first();
// 2. Assert: ! CanTransferArrayBuffer(firstDescriptors buffer) is true.
VERIFY(can_transfer_array_buffer(*first_descriptor.buffer));
// 3. Perform ! ReadableByteStreamControllerInvalidateBYOBRequest(controller).
readable_byte_stream_controller_invalidate_byob_request(controller);
// 4. Let state be controller.[[stream]].[[state]].
auto state = controller.stream()->state();
// 5. If state is "closed",
if (state == ReadableStream::State::Closed) {
// 1. Assert: bytesWritten is 0.
VERIFY(bytes_written == 0);
// 2. Perform ! ReadableByteStreamControllerRespondInClosedState(controller, firstDescriptor).
readable_byte_stream_controller_respond_in_closed_state(controller, first_descriptor);
}
// 6. Otherwise,
else {
// 1. Assert: state is "readable".
VERIFY(state == ReadableStream::State::Readable);
// 2. Assert: bytesWritten > 0.
VERIFY(bytes_written > 0);
// 3. Perform ? ReadableByteStreamControllerRespondInReadableState(controller, bytesWritten, firstDescriptor).
TRY(readable_byte_stream_controller_respond_in_readable_state(controller, bytes_written, first_descriptor));
}
// 7. Perform ! ReadableByteStreamControllerCallPullIfNeeded(controller).
MUST(readable_byte_stream_controller_call_pull_if_needed(controller));
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-respond
WebIDL::ExceptionOr<void> readable_byte_stream_controller_respond(ReadableByteStreamController& controller, u64 bytes_written)
{
auto& realm = controller.realm();
// 1. Assert: controller.[[pendingPullIntos]] is not empty.
VERIFY(!controller.pending_pull_intos().is_empty());
// 2. Let firstDescriptor be controller.[[pendingPullIntos]][0].
auto& first_descriptor = controller.pending_pull_intos().first();
// 3. Let state be controller.[[stream]].[[state]].
auto state = controller.stream()->state();
// 4. If state is "closed",
if (state == ReadableStream::State::Closed) {
// 1. If bytesWritten is not 0, throw a TypeError exception.
if (bytes_written != 0)
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Bytes written is not zero for closed stream"sv };
}
// 5. Otherwise,
else {
// 1. Assert: state is "readable".
VERIFY(state == ReadableStream::State::Readable);
// 2. If bytesWritten is 0, throw a TypeError exception.
if (bytes_written == 0)
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Bytes written is zero for stream which is not closed"sv };
// 3. If firstDescriptors bytes filled + bytesWritten > firstDescriptors byte length, throw a RangeError exception.
if (first_descriptor.bytes_filled + bytes_written > first_descriptor.byte_length)
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::RangeError, "Bytes written is greater than the pull requests byte length"sv };
}
// 6. Set firstDescriptors buffer to ! TransferArrayBuffer(firstDescriptors buffer).
first_descriptor.buffer = MUST(transfer_array_buffer(realm, *first_descriptor.buffer));
// 7. Perform ? ReadableByteStreamControllerRespondInternal(controller, bytesWritten).
return readable_byte_stream_controller_respond_internal(controller, bytes_written);
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-respond-with-new-view
WebIDL::ExceptionOr<void> readable_byte_stream_controller_respond_with_new_view(JS::Realm& realm, ReadableByteStreamController& controller, WebIDL::ArrayBufferView& view)
{
// 1. Assert: controller.[[pendingPullIntos]] is not empty.
VERIFY(!controller.pending_pull_intos().is_empty());
// 2. Assert: ! IsDetachedBuffer(view.[[ViewedArrayBuffer]]) is false.
VERIFY(!view.viewed_array_buffer()->is_detached());
// 3. Let firstDescriptor be controller.[[pendingPullIntos]][0].
auto& first_descriptor = controller.pending_pull_intos().first();
// 4. Let state be controller.[[stream]].[[state]].
auto state = controller.stream()->state();
// 5. If state is "closed",
if (state == ReadableStream::State::Closed) {
// 1. If view.[[ByteLength]] is not 0, throw a TypeError exception.
if (view.byte_length() != 0)
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Byte length is not zero for closed stream"sv };
}
// 6. Otherwise,
else {
// 1. Assert: state is "readable".
VERIFY(state == ReadableStream::State::Readable);
// 2. If view.[[ByteLength]] is 0, throw a TypeError exception.
if (view.byte_length() == 0)
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Byte length is zero for stream which is not closed"sv };
}
// 7. If firstDescriptors byte offset + firstDescriptor bytes filled is not view.[[ByteOffset]], throw a RangeError exception.
if (first_descriptor.byte_offset + first_descriptor.bytes_filled != view.byte_offset())
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::RangeError, "Byte offset is not aligned with the pull request's byte offset"sv };
// 8. If firstDescriptors buffer byte length is not view.[[ViewedArrayBuffer]].[[ByteLength]], throw a RangeError exception.
if (first_descriptor.buffer_byte_length != view.viewed_array_buffer()->byte_length())
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::RangeError, "Buffer byte length is not aligned with the pull request's byte length"sv };
// 9. If firstDescriptors bytes filled + view.[[ByteLength]] > firstDescriptors byte length, throw a RangeError exception.
if (first_descriptor.bytes_filled + view.byte_length() > first_descriptor.byte_length)
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::RangeError, "Byte length is greater than the pull request's byte length"sv };
// 10. Let viewByteLength be view.[[ByteLength]].
auto view_byte_length = view.byte_length();
// 11. Set firstDescriptors buffer to ? TransferArrayBuffer(view.[[ViewedArrayBuffer]]).
first_descriptor.buffer = TRY(transfer_array_buffer(realm, *view.viewed_array_buffer()));
// 12. Perform ? ReadableByteStreamControllerRespondInternal(controller, viewByteLength).
TRY(readable_byte_stream_controller_respond_internal(controller, view_byte_length));
return {};
}
// https://streams.spec.whatwg.org/#readable-stream-default-controller-error
void readable_stream_default_controller_error(ReadableStreamDefaultController& controller, JS::Value error)
{
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. If stream.[[state]] is not "readable", return.
if (!stream->is_readable())
return;
// 3. Perform ! ResetQueue(controller).
reset_queue(controller);
// 4. Perform ! ReadableStreamDefaultControllerClearAlgorithms(controller).
readable_stream_default_controller_clear_algorithms(controller);
// 5. Perform ! ReadableStreamError(stream, e).
readable_stream_error(*stream, error);
}
// https://streams.spec.whatwg.org/#readable-stream-default-controller-get-desired-size
Optional<double> readable_stream_default_controller_get_desired_size(ReadableStreamDefaultController& controller)
{
auto stream = controller.stream();
// 1. Let state be controller.[[stream]].[[state]].
// 2. If state is "errored", return null.
if (stream->is_errored())
return {};
// 3. If state is "closed", return 0.
if (stream->is_closed())
return 0.0;
// 4. Return controller.[[strategyHWM]] controller.[[queueTotalSize]].
return controller.strategy_hwm() - controller.queue_total_size();
}
// https://streams.spec.whatwg.org/#readable-stream-default-controller-can-close-or-enqueue
bool readable_stream_default_controller_can_close_or_enqueue(ReadableStreamDefaultController& controller)
{
// 1. Let state be controller.[[stream]].[[state]].
// 2. If controller.[[closeRequested]] is false and state is "readable", return true.
// 3. Otherwise, return false.
return !controller.close_requested() && controller.stream()->is_readable();
}
// https://streams.spec.whatwg.org/#set-up-readable-stream-default-controller
WebIDL::ExceptionOr<void> set_up_readable_stream_default_controller(ReadableStream& stream, ReadableStreamDefaultController& controller, JS::NonnullGCPtr<StartAlgorithm> start_algorithm, JS::NonnullGCPtr<PullAlgorithm> pull_algorithm, JS::NonnullGCPtr<CancelAlgorithm> cancel_algorithm, double high_water_mark, JS::NonnullGCPtr<SizeAlgorithm> size_algorithm)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[controller]] is undefined.
VERIFY(!stream.controller().has_value());
// 2. Set controller.[[stream]] to stream.
controller.set_stream(stream);
// 3. Perform ! ResetQueue(controller).
reset_queue(controller);
// 4. Set controller.[[started]], controller.[[closeRequested]], controller.[[pullAgain]], and controller.[[pulling]] to false.
controller.set_started(false);
controller.set_close_requested(false);
controller.set_pull_again(false);
controller.set_pulling(false);
// 5. Set controller.[[strategySizeAlgorithm]] to sizeAlgorithm and controller.[[strategyHWM]] to highWaterMark.
controller.set_strategy_size_algorithm(size_algorithm);
controller.set_strategy_hwm(high_water_mark);
// 6. Set controller.[[pullAlgorithm]] to pullAlgorithm.
controller.set_pull_algorithm(pull_algorithm);
// 7. Set controller.[[cancelAlgorithm]] to cancelAlgorithm.
controller.set_cancel_algorithm(cancel_algorithm);
// 8. Set stream.[[controller]] to controller.
stream.set_controller(ReadableStreamController { controller });
// 9. Let startResult be the result of performing startAlgorithm. (This might throw an exception.)
auto start_result = TRY(start_algorithm->function()());
// 10. Let startPromise be a promise resolved with startResult.
auto start_promise = WebIDL::create_resolved_promise(realm, start_result);
// 11. Upon fulfillment of startPromise,
WebIDL::upon_fulfillment(start_promise, JS::create_heap_function(controller.heap(), [&controller](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Set controller.[[started]] to true.
controller.set_started(true);
// 2. Assert: controller.[[pulling]] is false.
VERIFY(!controller.pulling());
// 3. Assert: controller.[[pullAgain]] is false.
VERIFY(!controller.pull_again());
// 4. Perform ! ReadableStreamDefaultControllerCallPullIfNeeded(controller).
TRY(readable_stream_default_controller_can_pull_if_needed(controller));
return JS::js_undefined();
}));
// 12. Upon rejection of startPromise with reason r,
WebIDL::upon_rejection(start_promise, JS::create_heap_function(controller.heap(), [&controller](JS::Value r) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! ReadableStreamDefaultControllerError(controller, r).
readable_stream_default_controller_error(controller, r);
return JS::js_undefined();
}));
return {};
}
// https://streams.spec.whatwg.org/#set-up-readable-stream-default-controller-from-underlying-source
WebIDL::ExceptionOr<void> set_up_readable_stream_default_controller_from_underlying_source(ReadableStream& stream, JS::Value underlying_source_value, UnderlyingSource underlying_source, double high_water_mark, JS::NonnullGCPtr<SizeAlgorithm> size_algorithm)
{
auto& realm = stream.realm();
// 1. Let controller be a new ReadableStreamDefaultController.
auto controller = stream.heap().allocate<ReadableStreamDefaultController>(realm, realm);
// 2. Let startAlgorithm be an algorithm that returns undefined.
auto start_algorithm = JS::create_heap_function(realm.heap(), []() -> WebIDL::ExceptionOr<JS::Value> {
return JS::js_undefined();
});
// 3. Let pullAlgorithm be an algorithm that returns a promise resolved with undefined.
auto pull_algorithm = JS::create_heap_function(realm.heap(), [&realm]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 4. Let cancelAlgorithm be an algorithm that returns a promise resolved with undefined.
auto cancel_algorithm = JS::create_heap_function(realm.heap(), [&realm](JS::Value) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 5. If underlyingSourceDict["start"] exists, then set startAlgorithm to an algorithm which returns the result of invoking underlyingSourceDict["start"] with argument list « controller » and callback this value underlyingSource.
if (underlying_source.start) {
start_algorithm = JS::create_heap_function(realm.heap(), [controller, underlying_source_value, callback = underlying_source.start]() -> WebIDL::ExceptionOr<JS::Value> {
// Note: callback does not return a promise, so invoke_callback may return an abrupt completion
return TRY(WebIDL::invoke_callback(*callback, underlying_source_value, controller)).release_value();
});
}
// 6. If underlyingSourceDict["pull"] exists, then set pullAlgorithm to an algorithm which returns the result of invoking underlyingSourceDict["pull"] with argument list « controller » and callback this value underlyingSource.
if (underlying_source.pull) {
pull_algorithm = JS::create_heap_function(realm.heap(), [&realm, controller, underlying_source_value, callback = underlying_source.pull]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback return a promise, so invoke_callback will never return an abrupt completion
auto result = MUST_OR_THROW_OOM(WebIDL::invoke_callback(*callback, underlying_source_value, controller)).release_value();
return WebIDL::create_resolved_promise(realm, result);
});
}
// 7. If underlyingSourceDict["cancel"] exists, then set cancelAlgorithm to an algorithm which takes an argument reason and returns the result of invoking underlyingSourceDict["cancel"] with argument list « reason » and callback this value underlyingSource.
if (underlying_source.cancel) {
cancel_algorithm = JS::create_heap_function(realm.heap(), [&realm, underlying_source_value, callback = underlying_source.cancel](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback return a promise, so invoke_callback will never return an abrupt completion
auto result = MUST_OR_THROW_OOM(WebIDL::invoke_callback(*callback, underlying_source_value, reason)).release_value();
return WebIDL::create_resolved_promise(realm, result);
});
}
// 8. Perform ? SetUpReadableStreamDefaultController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark, sizeAlgorithm).
return set_up_readable_stream_default_controller(stream, controller, start_algorithm, pull_algorithm, cancel_algorithm, high_water_mark, size_algorithm);
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-call-pull-if-needed
WebIDL::ExceptionOr<void> readable_byte_stream_controller_call_pull_if_needed(ReadableByteStreamController& controller)
{
// 1. Let shouldPull be ! ReadableByteStreamControllerShouldCallPull(controller).
auto should_pull = readable_byte_stream_controller_should_call_pull(controller);
// 2. If shouldPull is false, return.
if (!should_pull)
return {};
// 3. If controller.[[pulling]] is true,
if (controller.pulling()) {
// 1. Set controller.[[pullAgain]] to true.
controller.set_pull_again(true);
// 2. Return.
return {};
}
// 4. Assert: controller.[[pullAgain]] is false.
VERIFY(!controller.pull_again());
// 5. Set controller.[[pulling]] to true.
controller.set_pulling(true);
// 6. Let pullPromise be the result of performing controller.[[pullAlgorithm]].
auto pull_promise = TRY(controller.pull_algorithm()->function()());
// 7. Upon fulfillment of pullPromise,
WebIDL::upon_fulfillment(*pull_promise, JS::create_heap_function(controller.heap(), [&controller](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Set controller.[[pulling]] to false.
controller.set_pulling(false);
// 2. If controller.[[pullAgain]] is true,
if (controller.pull_again()) {
// 1. Set controller.[[pullAgain]] to false.
controller.set_pull_again(false);
// 2. Perform ! ReadableByteStreamControllerCallPullIfNeeded(controller).
TRY(readable_byte_stream_controller_call_pull_if_needed(controller));
}
return JS::js_undefined();
}));
// 8. Upon rejection of pullPromise with reason e,
WebIDL::upon_rejection(*pull_promise, JS::create_heap_function(controller.heap(), [&controller](JS::Value error) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! ReadableByteStreamControllerError(controller, e).
readable_byte_stream_controller_error(controller, error);
return JS::js_undefined();
}));
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-clear-algorithms
void readable_byte_stream_controller_clear_algorithms(ReadableByteStreamController& controller)
{
// 1. Set controller.[[pullAlgorithm]] to undefined.
controller.set_pull_algorithm({});
// 2. Set controller.[[cancelAlgorithm]] to undefined.
controller.set_cancel_algorithm({});
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-clear-pending-pull-intos
void readable_byte_stream_controller_clear_pending_pull_intos(ReadableByteStreamController& controller)
{
// 1. Perform ! ReadableByteStreamControllerInvalidateBYOBRequest(controller).
readable_byte_stream_controller_invalidate_byob_request(controller);
// 2. Set controller.[[pendingPullIntos]] to a new empty list.
controller.pending_pull_intos().clear();
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-close
WebIDL::ExceptionOr<void> readable_byte_stream_controller_close(ReadableByteStreamController& controller)
{
auto& realm = controller.realm();
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. If controller.[[closeRequested]] is true or stream.[[state]] is not "readable", return.
if (controller.close_requested() || stream->state() != ReadableStream::State::Readable)
return {};
// 3. If controller.[[queueTotalSize]] > 0,
if (controller.queue_total_size() > 0.0) {
// 1. Set controller.[[closeRequested]] to true.
controller.set_close_requested(true);
// 2. Return.
return {};
}
// 4. If controller.[[pendingPullIntos]] is not empty,
if (!controller.pending_pull_intos().is_empty()) {
// 1. Let firstPendingPullInto be controller.[[pendingPullIntos]][0].
auto& first_pending_pull_into = controller.pending_pull_intos().first();
// 2. If firstPendingPullIntos bytes filled > 0,
if (first_pending_pull_into.bytes_filled > 0) {
// 1. Let e be a new TypeError exception.
auto error = JS::TypeError::create(realm, "Cannot close controller in the middle of processing a write request"sv);
// 2. Perform ! ReadableByteStreamControllerError(controller, e).
readable_byte_stream_controller_error(controller, error);
// 3. Throw e.
return JS::throw_completion(error);
}
}
// 5. Perform ! ReadableByteStreamControllerClearAlgorithms(controller).
readable_byte_stream_controller_clear_algorithms(controller);
// 6. Perform ! ReadableStreamClose(stream).
readable_stream_close(*stream);
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-error
void readable_byte_stream_controller_error(ReadableByteStreamController& controller, JS::Value error)
{
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. If stream.[[state]] is not "readable", return.
if (stream->state() != ReadableStream::State::Readable)
return;
// 3. Perform ! ReadableByteStreamControllerClearPendingPullIntos(controller).
readable_byte_stream_controller_clear_pending_pull_intos(controller);
// 4. Perform ! ResetQueue(controller).
reset_queue(controller);
// 5. Perform ! ReadableByteStreamControllerClearAlgorithms(controller).
readable_byte_stream_controller_clear_algorithms(controller);
// 6. Perform ! ReadableStreamError(stream, e).
readable_stream_error(*stream, error);
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablebytestreamcontrollerfillreadrequestfromqueue
WebIDL::ExceptionOr<void> readable_byte_stream_controller_fill_read_request_from_queue(ReadableByteStreamController& controller, JS::NonnullGCPtr<ReadRequest> read_request)
{
auto& vm = controller.vm();
auto& realm = controller.realm();
// 1. Assert: controller.[[queueTotalSize]] > 0.
VERIFY(controller.queue_total_size() > 0.0);
// 2. Let entry be controller.[[queue]][0].
// 3. Remove entry from controller.[[queue]].
auto entry = controller.queue().take_first();
// 4. Set controller.[[queueTotalSize]] to controller.[[queueTotalSize]] entrys byte length.
controller.set_queue_total_size(controller.queue_total_size() - entry.byte_length);
// 5. Perform ! ReadableByteStreamControllerHandleQueueDrain(controller).
TRY(readable_byte_stream_controller_handle_queue_drain(controller));
// 6. Let view be ! Construct(%Uint8Array%, « entrys buffer, entrys byte offset, entrys byte length »).
auto view = MUST_OR_THROW_OOM(JS::construct(vm, *realm.intrinsics().uint8_array_constructor(), entry.buffer, JS::Value(entry.byte_offset), JS::Value(entry.byte_length)));
// 7. Perform readRequests chunk steps, given view.
read_request->on_chunk(view);
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-get-desired-size
Optional<double> readable_byte_stream_controller_get_desired_size(ReadableByteStreamController const& controller)
{
auto stream = controller.stream();
// 1. Let state be controller.[[stream]].[[state]].
// 2. If state is "errored", return null.
if (stream->is_errored())
return {};
// 3. If state is "closed", return 0.
if (stream->is_closed())
return 0.0;
// 4. Return controller.[[strategyHWM]] controller.[[queueTotalSize]].
return controller.strategy_hwm() - controller.queue_total_size();
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-handle-queue-drain
WebIDL::ExceptionOr<void> readable_byte_stream_controller_handle_queue_drain(ReadableByteStreamController& controller)
{
// 1. Assert: controller.[[stream]].[[state]] is "readable".
VERIFY(controller.stream()->state() == ReadableStream::State::Readable);
// 2. If controller.[[queueTotalSize]] is 0 and controller.[[closeRequested]] is true,
if (controller.queue_total_size() == 0.0 && controller.close_requested()) {
// 1. Perform ! ReadableByteStreamControllerClearAlgorithms(controller).
readable_byte_stream_controller_clear_algorithms(controller);
// 2. Perform ! ReadableStreamClose(controller.[[stream]]).
readable_stream_close(*controller.stream());
}
// 3. Otherwise,
else {
// 1. Perform ! ReadableByteStreamControllerCallPullIfNeeded(controller).
TRY(readable_byte_stream_controller_call_pull_if_needed(controller));
}
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-invalidate-byob-request
void readable_byte_stream_controller_invalidate_byob_request(ReadableByteStreamController& controller)
{
// 1. If controller.[[byobRequest]] is null, return.
if (!controller.byob_request())
return;
// 2. Set controller.[[byobRequest]].[[controller]] to undefined.
controller.byob_request()->set_controller({});
// 3. Set controller.[[byobRequest]].[[view]] to null.
controller.byob_request()->set_view({});
// 4. Set controller.[[byobRequest]] to null.
controller.set_byob_request({});
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-error
bool readable_byte_stream_controller_should_call_pull(ReadableByteStreamController const& controller)
{
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. If stream.[[state]] is not "readable", return false.
if (stream->state() != ReadableStream::State::Readable)
return false;
// 3. If controller.[[closeRequested]] is true, return false.
if (controller.close_requested())
return false;
// 4. If controller.[[started]] is false, return false.
if (!controller.started())
return false;
// 5. If ! ReadableStreamHasDefaultReader(stream) is true and ! ReadableStreamGetNumReadRequests(stream) > 0, return true.
if (readable_stream_has_default_reader(*stream) && readable_stream_get_num_read_requests(*stream) > 0)
return true;
// 6. If ! ReadableStreamHasBYOBReader(stream) is true and ! ReadableStreamGetNumReadIntoRequests(stream) > 0, return true.
if (readable_stream_has_byob_reader(*stream) && readable_stream_get_num_read_into_requests(*stream) > 0)
return true;
// 7. Let desiredSize be ! ReadableByteStreamControllerGetDesiredSize(controller).
auto desired_size = readable_byte_stream_controller_get_desired_size(controller);
// 8. Assert: desiredSize is not null.
VERIFY(desired_size.has_value());
// 9. If desiredSize > 0, return true.
if (*desired_size > 0.0)
return true;
// 10. Return false.
return false;
}
// https://streams.spec.whatwg.org/#create-readable-stream
WebIDL::ExceptionOr<JS::NonnullGCPtr<ReadableStream>> create_readable_stream(JS::Realm& realm, JS::NonnullGCPtr<StartAlgorithm> start_algorithm, JS::NonnullGCPtr<PullAlgorithm> pull_algorithm, JS::NonnullGCPtr<CancelAlgorithm> cancel_algorithm, Optional<double> high_water_mark, JS::GCPtr<SizeAlgorithm> size_algorithm)
{
// 1. If highWaterMark was not passed, set it to 1.
if (!high_water_mark.has_value())
high_water_mark = 1.0;
// 2. If sizeAlgorithm was not passed, set it to an algorithm that returns 1.
if (!size_algorithm)
size_algorithm = JS::create_heap_function(realm.heap(), [](JS::Value) { return JS::normal_completion(JS::Value(1)); });
// 3. Assert: ! IsNonNegativeNumber(highWaterMark) is true.
VERIFY(is_non_negative_number(JS::Value { *high_water_mark }));
// 4. Let stream be a new ReadableStream.
auto stream = realm.heap().allocate<ReadableStream>(realm, realm);
// 5. Perform ! InitializeReadableStream(stream).
initialize_readable_stream(*stream);
// 6. Let controller be a new ReadableStreamDefaultController.
auto controller = realm.heap().allocate<ReadableStreamDefaultController>(realm, realm);
// 7. Perform ? SetUpReadableStreamDefaultController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark, sizeAlgorithm).
TRY(set_up_readable_stream_default_controller(*stream, *controller, start_algorithm, pull_algorithm, cancel_algorithm, *high_water_mark, *size_algorithm));
// 8. Return stream.
return stream;
}
// https://streams.spec.whatwg.org/#abstract-opdef-createreadablebytestream
WebIDL::ExceptionOr<JS::NonnullGCPtr<ReadableStream>> create_readable_byte_stream(JS::Realm& realm, JS::NonnullGCPtr<StartAlgorithm> start_algorithm, JS::NonnullGCPtr<PullAlgorithm> pull_algorithm, JS::NonnullGCPtr<CancelAlgorithm> cancel_algorithm)
{
// 1. Let stream be a new ReadableStream.
auto stream = realm.heap().allocate<ReadableStream>(realm, realm);
// 2. Perform ! InitializeReadableStream(stream).
initialize_readable_stream(*stream);
// 3. Let controller be a new ReadableByteStreamController.
auto controller = realm.heap().allocate<ReadableByteStreamController>(realm, realm);
// 4. Perform ? SetUpReadableByteStreamController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, 0, undefined).
TRY(set_up_readable_byte_stream_controller(stream, controller, start_algorithm, pull_algorithm, cancel_algorithm, 0, JS::js_undefined()));
// 5. Return stream.
return stream;
}
// https://streams.spec.whatwg.org/#create-writable-stream
WebIDL::ExceptionOr<JS::NonnullGCPtr<WritableStream>> create_writable_stream(JS::Realm& realm, JS::NonnullGCPtr<StartAlgorithm> start_algorithm, JS::NonnullGCPtr<WriteAlgorithm> write_algorithm, JS::NonnullGCPtr<CloseAlgorithm> close_algorithm, JS::NonnullGCPtr<AbortAlgorithm> abort_algorithm, double high_water_mark, JS::NonnullGCPtr<SizeAlgorithm> size_algorithm)
{
// 1. Assert: ! IsNonNegativeNumber(highWaterMark) is true.
VERIFY(is_non_negative_number(JS::Value { high_water_mark }));
// 2. Let stream be a new WritableStream.
auto stream = realm.heap().allocate<WritableStream>(realm, realm);
// 3. Perform ! InitializeWritableStream(stream).
initialize_writable_stream(*stream);
// 4. Let controller be a new WritableStreamDefaultController.
auto controller = realm.heap().allocate<WritableStreamDefaultController>(realm, realm);
// 5. Perform ? SetUpWritableStreamDefaultController(stream, controller, startAlgorithm, writeAlgorithm, closeAlgorithm, abortAlgorithm, highWaterMark, sizeAlgorithm).
TRY(set_up_writable_stream_default_controller(*stream, *controller, move(start_algorithm), move(write_algorithm), move(close_algorithm), move(abort_algorithm), high_water_mark, move(size_algorithm)));
// 6. Return stream.
return stream;
}
// https://streams.spec.whatwg.org/#initialize-readable-stream
void initialize_readable_stream(ReadableStream& stream)
{
// 1. Set stream.[[state]] to "readable".
stream.set_state(ReadableStream::State::Readable);
// 2. Set stream.[[reader]] and stream.[[storedError]] to undefined.
stream.set_reader({});
stream.set_stored_error({});
// 3. Set stream.[[disturbed]] to false.
stream.set_disturbed(false);
}
// https://streams.spec.whatwg.org/#initialize-writable-stream
void initialize_writable_stream(WritableStream& stream)
{
// 1. Set stream.[[state]] to "writable".
stream.set_state(WritableStream::State::Writable);
// 2. Set stream.[[storedError]], stream.[[writer]], stream.[[controller]], stream.[[inFlightWriteRequest]],
// stream.[[closeRequest]], stream.[[inFlightCloseRequest]], and stream.[[pendingAbortRequest]] to undefined.
stream.set_stored_error(JS::js_undefined());
stream.set_writer({});
stream.set_controller({});
stream.set_in_flight_write_request({});
stream.set_close_request({});
stream.set_in_flight_close_request({});
stream.set_pending_abort_request({});
// 3. Set stream.[[writeRequests]] to a new empty list.
stream.write_requests().clear();
// 4. Set stream.[[backpressure]] to false.
stream.set_backpressure(false);
}
// https://streams.spec.whatwg.org/#acquire-writable-stream-default-writer
WebIDL::ExceptionOr<JS::NonnullGCPtr<WritableStreamDefaultWriter>> acquire_writable_stream_default_writer(WritableStream& stream)
{
auto& realm = stream.realm();
// 1. Let writer be a new WritableStreamDefaultWriter.
auto writer = stream.heap().allocate<WritableStreamDefaultWriter>(realm, realm);
// 2. Perform ? SetUpWritableStreamDefaultWriter(writer, stream).
TRY(set_up_writable_stream_default_writer(*writer, stream));
// 3. Return writer.
return writer;
}
// https://streams.spec.whatwg.org/#is-writable-stream-locked
bool is_writable_stream_locked(WritableStream const& stream)
{
// 1. If stream.[[writer]] is undefined, return false.
if (!stream.writer())
return false;
// 2. Return true.
return true;
}
// https://streams.spec.whatwg.org/#set-up-writable-stream-default-writer
WebIDL::ExceptionOr<void> set_up_writable_stream_default_writer(WritableStreamDefaultWriter& writer, WritableStream& stream)
{
auto& realm = writer.realm();
// 1. If ! IsWritableStreamLocked(stream) is true, throw a TypeError exception.
if (is_writable_stream_locked(stream))
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Stream is locked"sv };
// 2. Set writer.[[stream]] to stream.
writer.set_stream(stream);
// 3. Set stream.[[writer]] to writer.
stream.set_writer(writer);
// 4. Let state be stream.[[state]].
auto state = stream.state();
// 5. If state is "writable",
if (state == WritableStream::State::Writable) {
// 1. If ! WritableStreamCloseQueuedOrInFlight(stream) is false and stream.[[backpressure]] is true, set writer.[[readyPromise]] to a new promise.
if (!writable_stream_close_queued_or_in_flight(stream) && stream.backpressure()) {
writer.set_ready_promise(WebIDL::create_promise(realm));
}
// 2. Otherwise, set writer.[[readyPromise]] to a promise resolved with undefined.
else {
writer.set_ready_promise(WebIDL::create_resolved_promise(realm, JS::js_undefined()));
}
// 3. Set writer.[[closedPromise]] to a new promise.
writer.set_closed_promise(WebIDL::create_promise(realm));
}
// 6. Otherwise, if state is "erroring",
else if (state == WritableStream::State::Erroring) {
// 1. Set writer.[[readyPromise]] to a promise rejected with stream.[[storedError]].
writer.set_ready_promise(WebIDL::create_rejected_promise(realm, stream.stored_error()));
// 2. Set writer.[[readyPromise]].[[PromiseIsHandled]] to true.
WebIDL::mark_promise_as_handled(*writer.ready_promise());
// 3. Set writer.[[closedPromise]] to a new promise.
writer.set_closed_promise(WebIDL::create_promise(realm));
}
// 7. Otherwise, if state is "closed",
else if (state == WritableStream::State::Closed) {
// 1. Set writer.[[readyPromise]] to a promise resolved with undefined.
writer.set_ready_promise(WebIDL::create_resolved_promise(realm, JS::js_undefined()));
// 2. Set writer.[[closedPromise]] to a promise resolved with undefined.
writer.set_closed_promise(WebIDL::create_resolved_promise(realm, JS::js_undefined()));
}
// 8. Otherwise,
else {
// 1. Assert: state is "errored".
VERIFY(state == WritableStream::State::Errored);
// 2. Let storedError be stream.[[storedError]].
auto stored_error = stream.stored_error();
// 3. Set writer.[[readyPromise]] to a promise rejected with storedError.
writer.set_ready_promise(WebIDL::create_rejected_promise(realm, stored_error));
// 4. Set writer.[[readyPromise]].[[PromiseIsHandled]] to true.
WebIDL::mark_promise_as_handled(*writer.ready_promise());
// 5. Set writer.[[closedPromise]] to a promise rejected with storedError.
writer.set_closed_promise(WebIDL::create_rejected_promise(realm, stored_error));
// 6. Set writer.[[closedPromise]].[[PromiseIsHandled]] to true.
WebIDL::mark_promise_as_handled(*writer.closed_promise());
}
return {};
}
// https://streams.spec.whatwg.org/#set-up-readable-byte-stream-controller
WebIDL::ExceptionOr<void> set_up_readable_byte_stream_controller(ReadableStream& stream, ReadableByteStreamController& controller, JS::NonnullGCPtr<StartAlgorithm> start_algorithm, JS::NonnullGCPtr<PullAlgorithm> pull_algorithm, JS::NonnullGCPtr<CancelAlgorithm> cancel_algorithm, double high_water_mark, JS::Value auto_allocate_chunk_size)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[controller]] is undefined.
VERIFY(!stream.controller().has_value());
// 2. If autoAllocateChunkSize is not undefined,
if (!auto_allocate_chunk_size.is_undefined()) {
// 1. Assert: ! IsInteger(autoAllocateChunkSize) is true.
VERIFY(auto_allocate_chunk_size.is_integral_number());
// 2. Assert: autoAllocateChunkSize is positive.
VERIFY(auto_allocate_chunk_size.as_double() > 0);
}
// 3. Set controller.[[stream]] to stream.
controller.set_stream(stream);
// 4. Set controller.[[pullAgain]] and controller.[[pulling]] to false.
controller.set_pull_again(false);
controller.set_pulling(false);
// 5. Set controller.[[byobRequest]] to null.
controller.set_byob_request({});
// 6. Perform ! ResetQueue(controller).
reset_queue(controller);
// 7. Set controller.[[closeRequested]] and controller.[[started]] to false.
controller.set_close_requested(false);
controller.set_started(false);
// 8. Set controller.[[strategyHWM]] to highWaterMark.
controller.set_strategy_hwm(high_water_mark);
// 9. Set controller.[[pullAlgorithm]] to pullAlgorithm.
controller.set_pull_algorithm(pull_algorithm);
// 10. Set controller.[[cancelAlgorithm]] to cancelAlgorithm.
controller.set_cancel_algorithm(cancel_algorithm);
// 11. Set controller.[[autoAllocateChunkSize]] to autoAllocateChunkSize.
if (auto_allocate_chunk_size.is_integral_number())
controller.set_auto_allocate_chunk_size(auto_allocate_chunk_size.as_double());
// 12. Set controller.[[pendingPullIntos]] to a new empty list.
controller.pending_pull_intos().clear();
// 13. Set stream.[[controller]] to controller.
stream.set_controller(ReadableStreamController { controller });
// 14. Let startResult be the result of performing startAlgorithm.
auto start_result = TRY(start_algorithm->function()());
// 15. Let startPromise be a promise resolved with startResult.
auto start_promise = WebIDL::create_resolved_promise(realm, start_result);
// 16. Upon fulfillment of startPromise,
WebIDL::upon_fulfillment(start_promise, JS::create_heap_function(controller.heap(), [&controller](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Set controller.[[started]] to true.
controller.set_started(true);
// 2. Assert: controller.[[pulling]] is false.
VERIFY(!controller.pulling());
// 3. Assert: controller.[[pullAgain]] is false.
VERIFY(!controller.pull_again());
// 4. Perform ! ReadableByteStreamControllerCallPullIfNeeded(controller).
TRY(readable_byte_stream_controller_call_pull_if_needed(controller));
return JS::js_undefined();
}));
// 17. Upon rejection of startPromise with reason r,
WebIDL::upon_rejection(start_promise, JS::create_heap_function(controller.heap(), [&controller](JS::Value r) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! ReadableByteStreamControllerError(controller, r).
readable_byte_stream_controller_error(controller, r);
return JS::js_undefined();
}));
return {};
}
// https://streams.spec.whatwg.org/#readablestream-enqueue
WebIDL::ExceptionOr<void> readable_stream_enqueue(ReadableStreamController& controller, JS::Value chunk)
{
// 1. If stream.[[controller]] implements ReadableStreamDefaultController,
if (controller.has<JS::NonnullGCPtr<ReadableStreamDefaultController>>()) {
// 1. Perform ! ReadableStreamDefaultControllerEnqueue(stream.[[controller]], chunk).
return readable_stream_default_controller_enqueue(controller.get<JS::NonnullGCPtr<ReadableStreamDefaultController>>(), chunk);
}
// 2. Otherwise,
else {
// 1. Assert: stream.[[controller]] implements ReadableByteStreamController.
VERIFY(controller.has<JS::NonnullGCPtr<ReadableByteStreamController>>());
auto readable_byte_controller = controller.get<JS::NonnullGCPtr<ReadableByteStreamController>>();
// FIXME: 2. Assert: chunk is an ArrayBufferView.
// 3. Let byobView be the current BYOB request view for stream.
// FIXME: This is not what the spec means by 'current BYOB request view'
auto byob_view = readable_byte_controller->raw_byob_request();
// 4. If byobView is non-null, and chunk.[[ViewedArrayBuffer]] is byobView.[[ViewedArrayBuffer]], then:
if (byob_view) {
// FIXME: 1. Assert: chunk.[[ByteOffset]] is byobView.[[ByteOffset]].
// FIXME: 2. Assert: chunk.[[ByteLength]] ≤ byobView.[[ByteLength]].
// FIXME: 3. Perform ? ReadableByteStreamControllerRespond(stream.[[controller]], chunk.[[ByteLength]]).
TODO();
}
// 5. Otherwise, perform ? ReadableByteStreamControllerEnqueue(stream.[[controller]], chunk).
return readable_byte_stream_controller_enqueue(readable_byte_controller, chunk);
}
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-enqueue
WebIDL::ExceptionOr<void> readable_byte_stream_controller_enqueue(ReadableByteStreamController& controller, JS::Value chunk)
{
auto& vm = controller.vm();
auto& realm = controller.realm();
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. If controller.[[closeRequested]] is true or stream.[[state]] is not "readable", return.
if (controller.close_requested() || stream->state() != ReadableStream ::State::Readable)
return {};
// 3. Let buffer be chunk.[[ViewedArrayBuffer]].
auto* typed_array = TRY(JS::typed_array_from(vm, chunk));
auto* buffer = typed_array->viewed_array_buffer();
// 4. Let byteOffset be chunk.[[ByteOffset]].
auto byte_offset = typed_array->byte_offset();
// 6. If ! IsDetachedBuffer(buffer) is true, throw a TypeError exception.
// FIXME: The streams spec has not been updated for resizable ArrayBuffer objects. We must perform step 6 before
// invoking TypedArrayByteLength in step 5. We also must check if the array is out-of-bounds, rather than
// just detached.
auto typed_array_record = JS::make_typed_array_with_buffer_witness_record(*typed_array, JS::ArrayBuffer::Order::SeqCst);
if (JS::is_typed_array_out_of_bounds(typed_array_record))
return vm.throw_completion<JS::TypeError>(JS::ErrorType::BufferOutOfBounds, "TypedArray"sv);
// 5. Let byteLength be chunk.[[ByteLength]].
auto byte_length = JS::typed_array_byte_length(typed_array_record);
// 7. Let transferredBuffer be ? TransferArrayBuffer(buffer).
auto transferred_buffer = TRY(transfer_array_buffer(realm, *buffer));
// 8. If controller.[[pendingPullIntos]] is not empty,
if (!controller.pending_pull_intos().is_empty()) {
// 1. Let firstPendingPullInto be controller.[[pendingPullIntos]][0].
auto& first_pending_pull_into = controller.pending_pull_intos().first();
// 2. If ! IsDetachedBuffer(firstPendingPullIntos buffer) is true, throw a TypeError exception.
if (first_pending_pull_into.buffer->is_detached()) {
auto error = JS::TypeError::create(realm, "Buffer is detached"sv);
return JS::throw_completion(error);
}
// 3. Perform ! ReadableByteStreamControllerInvalidateBYOBRequest(controller).
readable_byte_stream_controller_invalidate_byob_request(controller);
// 4. Set firstPendingPullIntos buffer to ! TransferArrayBuffer(firstPendingPullIntos buffer).
first_pending_pull_into.buffer = TRY(transfer_array_buffer(realm, first_pending_pull_into.buffer));
// 5. If firstPendingPullIntos reader type is "none", perform ? ReadableByteStreamControllerEnqueueDetachedPullIntoToQueue(controller, firstPendingPullInto).
if (first_pending_pull_into.reader_type == ReaderType::None)
TRY(readable_byte_stream_controller_enqueue_detached_pull_into_queue(controller, first_pending_pull_into));
}
// 9. If ! ReadableStreamHasDefaultReader(stream) is true,
if (readable_stream_has_default_reader(*stream)) {
// 1. Perform ! ReadableByteStreamControllerProcessReadRequestsUsingQueue(controller).
TRY(readable_byte_stream_controller_process_read_requests_using_queue(controller));
// 2. If ! ReadableStreamGetNumReadRequests(stream) is 0,
if (readable_stream_get_num_read_requests(*stream) == 0) {
// 1. Assert: controller.[[pendingPullIntos]] is empty.
VERIFY(controller.pending_pull_intos().is_empty());
// 2. Perform ! ReadableByteStreamControllerEnqueueChunkToQueue(controller, transferredBuffer, byteOffset, byteLength).
readable_byte_stream_controller_enqueue_chunk_to_queue(controller, transferred_buffer, byte_offset, byte_length);
}
// 3. Otherwise.
else {
// 1. Assert: controller.[[queue]] is empty.
VERIFY(controller.queue().is_empty());
// 2. If controller.[[pendingPullIntos]] is not empty,
if (!controller.pending_pull_intos().is_empty()) {
// 1. Assert: controller.[[pendingPullIntos]][0]'s reader type is "default".
VERIFY(controller.pending_pull_intos().first().reader_type == ReaderType::Default);
// 2. Perform ! ReadableByteStreamControllerShiftPendingPullInto(controller).
readable_byte_stream_controller_shift_pending_pull_into(controller);
}
// 3. Let transferredView be ! Construct(%Uint8Array%, « transferredBuffer, byteOffset, byteLength »).
auto transferred_view = MUST_OR_THROW_OOM(JS::construct(vm, *realm.intrinsics().uint8_array_constructor(), transferred_buffer, JS::Value(byte_offset), JS::Value(byte_length)));
// 4. Perform ! ReadableStreamFulfillReadRequest(stream, transferredView, false).
readable_stream_fulfill_read_request(*stream, transferred_view, false);
}
}
// 10. Otherwise, if ! ReadableStreamHasBYOBReader(stream) is true,
else if (readable_stream_has_byob_reader(*stream)) {
// 1. Perform ! ReadableByteStreamControllerEnqueueChunkToQueue(controller, transferredBuffer, byteOffset, byteLength).
readable_byte_stream_controller_enqueue_chunk_to_queue(controller, transferred_buffer, byte_offset, byte_length);
// 2. Perform ! ReadableByteStreamControllerProcessPullIntoDescriptorsUsingQueue(controller).
readable_byte_stream_controller_process_pull_into_descriptors_using_queue(controller);
}
// 11. Otherwise,
else {
// 1. Assert: ! IsReadableStreamLocked(stream) is false.
VERIFY(!is_readable_stream_locked(*stream));
// 2. Perform ! ReadableByteStreamControllerEnqueueChunkToQueue(controller, transferredBuffer, byteOffset, byteLength).
readable_byte_stream_controller_enqueue_chunk_to_queue(controller, transferred_buffer, byte_offset, byte_length);
}
// 12. Perform ! ReadableByteStreamControllerCallPullIfNeeded(controller).
TRY(readable_byte_stream_controller_call_pull_if_needed(controller));
return {};
}
// https://streams.spec.whatwg.org/#transfer-array-buffer
WebIDL::ExceptionOr<JS::NonnullGCPtr<JS::ArrayBuffer>> transfer_array_buffer(JS::Realm& realm, JS::ArrayBuffer& buffer)
{
auto& vm = realm.vm();
// 1. Assert: ! IsDetachedBuffer(O) is false.
VERIFY(!buffer.is_detached());
// 2. Let arrayBufferData be O.[[ArrayBufferData]].
// 3. Let arrayBufferByteLength be O.[[ArrayBufferByteLength]].
auto array_buffer = buffer.buffer();
// 4. Perform ? DetachArrayBuffer(O).
TRY(JS::detach_array_buffer(vm, buffer));
// 5. Return a new ArrayBuffer object, created in the current Realm, whose [[ArrayBufferData]] internal slot value is arrayBufferData and whose [[ArrayBufferByteLength]] internal slot value is arrayBufferByteLength.
return JS::ArrayBuffer::create(realm, move(array_buffer));
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablebytestreamcontrollerenqueuedetachedpullintotoqueue
WebIDL::ExceptionOr<void> readable_byte_stream_controller_enqueue_detached_pull_into_queue(ReadableByteStreamController& controller, PullIntoDescriptor& pull_into_descriptor)
{
// 1. Assert: pullIntoDescriptors reader type is "none".
VERIFY(pull_into_descriptor.reader_type == ReaderType::None);
// 2. If pullIntoDescriptors bytes filled > 0, perform ? ReadableByteStreamControllerEnqueueClonedChunkToQueue(controller, pullIntoDescriptors buffer, pullIntoDescriptors byte offset, pullIntoDescriptors bytes filled).
if (pull_into_descriptor.bytes_filled > 0)
TRY(readable_byte_stream_controller_enqueue_cloned_chunk_to_queue(controller, pull_into_descriptor.buffer, pull_into_descriptor.byte_offset, pull_into_descriptor.bytes_filled));
// 3. Perform ! ReadableByteStreamControllerShiftPendingPullInto(controller).
readable_byte_stream_controller_shift_pending_pull_into(controller);
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-commit-pull-into-descriptor
void readable_byte_stream_controller_commit_pull_into_descriptor(ReadableStream& stream, PullIntoDescriptor const& pull_into_descriptor)
{
// 1. Assert: stream.[[state]] is not "errored".
VERIFY(!stream.is_errored());
// 2. Assert: pullIntoDescriptor.reader type is not "none".
VERIFY(pull_into_descriptor.reader_type != ReaderType::None);
// 3. Let done be false.
bool done = false;
// 4. If stream.[[state]] is "closed",
if (stream.is_closed()) {
// 1. Assert: pullIntoDescriptors bytes filled is 0.
VERIFY(pull_into_descriptor.bytes_filled == 0);
// 2. Set done to true.
done = true;
}
// 5. Let filledView be ! ReadableByteStreamControllerConvertPullIntoDescriptor(pullIntoDescriptor).
auto filled_view = readable_byte_stream_controller_convert_pull_into_descriptor(stream.realm(), pull_into_descriptor);
// 6. If pullIntoDescriptors reader type is "default",
if (pull_into_descriptor.reader_type == ReaderType::Default) {
// 1. Perform ! ReadableStreamFulfillReadRequest(stream, filledView, done).
readable_stream_fulfill_read_request(stream, filled_view, done);
}
// 7. Otherwise,
else {
// 1. Assert: pullIntoDescriptors reader type is "byob".
VERIFY(pull_into_descriptor.reader_type == ReaderType::Byob);
// 2. Perform ! ReadableStreamFulfillReadIntoRequest(stream, filledView, done).
readable_stream_fulfill_read_into_request(stream, filled_view, done);
}
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-process-pull-into-descriptors-using-queue
void readable_byte_stream_controller_process_pull_into_descriptors_using_queue(ReadableByteStreamController& controller)
{
// 1. Assert: controller.[[closeRequested]] is false.
VERIFY(!controller.close_requested());
// 2. While controller.[[pendingPullIntos]] is not empty,
while (!controller.pending_pull_intos().is_empty()) {
// 1. If controller.[[queueTotalSize]] is 0, return.
if (controller.queue_total_size() == 0)
return;
// 2. Let pullIntoDescriptor be controller.[[pendingPullIntos]][0].
auto& pull_into_descriptor = controller.pending_pull_intos().first();
// 3. If ! ReadableByteStreamControllerFillPullIntoDescriptorFromQueue(controller, pullIntoDescriptor) is true,
if (readable_byte_stream_controller_fill_pull_into_descriptor_from_queue(controller, pull_into_descriptor)) {
// NOTE: We store the returned pull into descriptor here as the 'shift pending pull into' will remove
// the first entry into the list which we have a reference to above.
// 1. Perform ! ReadableByteStreamControllerShiftPendingPullInto(controller).
auto descriptor = readable_byte_stream_controller_shift_pending_pull_into(controller);
// 2. Perform ! ReadableByteStreamControllerCommitPullIntoDescriptor(controller.[[stream]], pullIntoDescriptor).
readable_byte_stream_controller_commit_pull_into_descriptor(*controller.stream(), descriptor);
}
}
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablebytestreamcontrollerprocessreadrequestsusingqueue
WebIDL::ExceptionOr<void> readable_byte_stream_controller_process_read_requests_using_queue(ReadableByteStreamController& controller)
{
// 1. Let reader be controller.[[stream]].[[reader]].
auto reader = controller.stream()->reader();
// 2. Assert: reader implements ReadableStreamDefaultReader.
VERIFY(reader->has<JS::NonnullGCPtr<ReadableStreamDefaultReader>>());
// 3. While reader.[[readRequests]] is not empty,
auto readable_stream_default_reader = reader->get<JS::NonnullGCPtr<ReadableStreamDefaultReader>>();
while (!readable_stream_default_reader->read_requests().is_empty()) {
// 1. If controller.[[queueTotalSize]] is 0, return.
if (controller.queue_total_size() == 0.0)
return {};
// 2. Let readRequest be reader.[[readRequests]][0].
// 3. Remove readRequest from reader.[[readRequests]].
auto read_request = readable_stream_default_reader->read_requests().take_first();
// 4. Perform ! ReadableByteStreamControllerFillReadRequestFromQueue(controller, readRequest).
TRY(readable_byte_stream_controller_fill_read_request_from_queue(controller, read_request));
}
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-enqueue-chunk-to-queue
void readable_byte_stream_controller_enqueue_chunk_to_queue(ReadableByteStreamController& controller, JS::NonnullGCPtr<JS::ArrayBuffer> buffer, u32 byte_offset, u32 byte_length)
{
// 1. Append a new readable byte stream queue entry with buffer buffer, byte offset byteOffset, and byte length byteLength to controller.[[queue]].
controller.queue().append(ReadableByteStreamQueueEntry {
.buffer = buffer,
.byte_offset = byte_offset,
.byte_length = byte_length,
});
// 2. Set controller.[[queueTotalSize]] to controller.[[queueTotalSize]] + byteLength.
controller.set_queue_total_size(controller.queue_total_size() + byte_length);
}
// https://streams.spec.whatwg.org/#abstract-opdef-readablebytestreamcontrollerenqueueclonedchunktoqueue
WebIDL::ExceptionOr<void> readable_byte_stream_controller_enqueue_cloned_chunk_to_queue(ReadableByteStreamController& controller, JS::ArrayBuffer& buffer, u64 byte_offset, u64 byte_length)
{
auto& vm = controller.vm();
// 1. Let cloneResult be CloneArrayBuffer(buffer, byteOffset, byteLength, %ArrayBuffer%).
auto clone_result = JS::clone_array_buffer(vm, buffer, byte_offset, byte_length);
// 2. If cloneResult is an abrupt completion,
if (clone_result.is_throw_completion()) {
auto throw_completion = Bindings::throw_dom_exception_if_needed(vm, [&] { return clone_result; }).throw_completion();
// 1. Perform ! ReadableByteStreamControllerError(controller, cloneResult.[[Value]]).
readable_byte_stream_controller_error(controller, throw_completion.value().value());
// 2. Return cloneResult.
// Note: We need to return the throw_completion object here, as enqueue needs to throw the same object that the controller is errored with
return throw_completion;
}
// 3. Perform ! ReadableByteStreamControllerEnqueueChunkToQueue(controller, cloneResult.[[Value]], 0, byteLength).
readable_byte_stream_controller_enqueue_chunk_to_queue(controller, *clone_result.release_value(), 0, byte_length);
return {};
}
// https://streams.spec.whatwg.org/#readable-byte-stream-controller-shift-pending-pull-into
PullIntoDescriptor readable_byte_stream_controller_shift_pending_pull_into(ReadableByteStreamController& controller)
{
// 1. Assert: controller.[[byobRequest]] is null.
VERIFY(!controller.raw_byob_request());
// 2. Let descriptor be controller.[[pendingPullIntos]][0].
// 3. Remove descriptor from controller.[[pendingPullIntos]].
auto descriptor = controller.pending_pull_intos().take_first();
// 4. Return descriptor.
return descriptor;
}
// https://streams.spec.whatwg.org/#readablestream-set-up-with-byte-reading-support
WebIDL::ExceptionOr<void> set_up_readable_stream_controller_with_byte_reading_support(ReadableStream& stream, JS::GCPtr<PullAlgorithm> pull_algorithm, JS::GCPtr<CancelAlgorithm> cancel_algorithm, double high_water_mark)
{
auto& realm = stream.realm();
// 1. Let startAlgorithm be an algorithm that returns undefined.
auto start_algorithm = JS::create_heap_function(realm.heap(), []() -> WebIDL::ExceptionOr<JS::Value> { return JS::js_undefined(); });
// 2. Let pullAlgorithmWrapper be an algorithm that runs these steps:
auto pull_algorithm_wrapper = JS::create_heap_function(realm.heap(), [&realm, pull_algorithm]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Let result be the result of running pullAlgorithm, if pullAlgorithm was given, or null otherwise. If this throws an exception e, return a promise rejected with e.
JS::GCPtr<JS::PromiseCapability> result = nullptr;
if (pull_algorithm)
result = TRY(pull_algorithm->function()());
// 2. If result is a Promise, then return result.
if (result != nullptr)
return JS::NonnullGCPtr(*result);
// 3. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 3. Let cancelAlgorithmWrapper be an algorithm that runs these steps:
auto cancel_algorithm_wrapper = JS::create_heap_function(realm.heap(), [&realm, cancel_algorithm](JS::Value c) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Let result be the result of running cancelAlgorithm, if cancelAlgorithm was given, or null otherwise. If this throws an exception e, return a promise rejected with e.
JS::GCPtr<JS::PromiseCapability> result = nullptr;
if (cancel_algorithm)
result = TRY(cancel_algorithm->function()(c));
// 2. If result is a Promise, then return result.
if (result != nullptr)
return JS::NonnullGCPtr(*result);
// 3. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 4. Perform ! InitializeReadableStream(stream).
// 5. Let controller be a new ReadableByteStreamController.
auto controller = stream.heap().allocate<ReadableByteStreamController>(realm, realm);
// 6. Perform ! SetUpReadableByteStreamController(stream, controller, startAlgorithm, pullAlgorithmWrapper, cancelAlgorithmWrapper, highWaterMark, undefined).
TRY(set_up_readable_byte_stream_controller(stream, controller, start_algorithm, pull_algorithm_wrapper, cancel_algorithm_wrapper, high_water_mark, JS::js_undefined()));
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-abort
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> writable_stream_abort(WritableStream& stream, JS::Value reason)
{
auto& realm = stream.realm();
// 1. If stream.[[state]] is "closed" or "errored", return a promise resolved with undefined.
auto state = stream.state();
if (state == WritableStream::State::Closed || state == WritableStream::State::Errored)
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
// 2. Signal abort on stream.[[controller]].[[signal]] with reason.
stream.controller()->signal()->signal_abort(reason);
// 3. Let state be stream.[[state]].
state = stream.state();
// 4. If state is "closed" or "errored", return a promise resolved with undefined.
if (state == WritableStream::State::Closed || state == WritableStream::State::Errored)
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
// 5. If stream.[[pendingAbortRequest]] is not undefined, return stream.[[pendingAbortRequest]]'s promise.
if (stream.pending_abort_request().has_value())
return stream.pending_abort_request()->promise;
// 6. Assert: state is "writable" or "erroring".
VERIFY(state == WritableStream::State::Writable || state == WritableStream::State::Erroring);
// 7. Let wasAlreadyErroring be false.
auto was_already_erroring = false;
// 8. If state is "erroring",
if (state == WritableStream::State::Erroring) {
// 1. Set wasAlreadyErroring to true.
was_already_erroring = true;
// 2. Set reason to undefined.
reason = JS::js_undefined();
}
// 9. Let promise be a new promise.
auto promise = WebIDL::create_promise(realm);
// 10. Set stream.[[pendingAbortRequest]] to a new pending abort request whose promise is promise, reason is reason, and was already erroring is wasAlreadyErroring.
stream.set_pending_abort_request(PendingAbortRequest { promise, reason, was_already_erroring });
// 11. If wasAlreadyErroring is false, perform ! WritableStreamStartErroring(stream, reason).
if (!was_already_erroring)
TRY(writable_stream_start_erroring(stream, reason));
// 12. Return promise.
return promise;
}
// https://streams.spec.whatwg.org/#writable-stream-close
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> writable_stream_close(WritableStream& stream)
{
auto& realm = stream.realm();
// 1. Let state be stream.[[state]].
auto state = stream.state();
// 2. If state is "closed" or "errored", return a promise rejected with a TypeError exception.
if (state == WritableStream::State::Closed || state == WritableStream::State::Errored) {
auto message = state == WritableStream::State::Closed ? "Cannot close a closed stream"sv : "Cannot close an errored stream"sv;
auto exception = JS::TypeError::create(realm, message);
return WebIDL::create_rejected_promise(realm, exception);
}
// 3. Assert: state is "writable" or "erroring".
VERIFY(state == WritableStream::State::Writable || state == WritableStream::State::Erroring);
// 4. Assert: ! WritableStreamCloseQueuedOrInFlight(stream) is false.
VERIFY(!writable_stream_close_queued_or_in_flight(stream));
// 5. Let promise be a new promise.
auto promise = WebIDL::create_promise(realm);
// 6. Set stream.[[closeRequest]] to promise.
stream.set_close_request(promise);
// 7. Let writer be stream.[[writer]].
auto writer = stream.writer();
// 8. If writer is not undefined, and stream.[[backpressure]] is true, and state is "writable", resolve writer.[[readyPromise]] with undefined.
if (writer && stream.backpressure() && state == WritableStream::State::Writable)
WebIDL::resolve_promise(realm, *writer->ready_promise(), JS::js_undefined());
// 9. Perform ! WritableStreamDefaultControllerClose(stream.[[controller]]).
TRY(writable_stream_default_controller_close(*stream.controller()));
// 10. Return promise.
return promise;
}
// https://streams.spec.whatwg.org/#writable-stream-add-write-request
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> writable_stream_add_write_request(WritableStream& stream)
{
auto& realm = stream.realm();
auto& vm = stream.vm();
// 1. Assert: ! IsWritableStreamLocked(stream) is true.
VERIFY(is_writable_stream_locked(stream));
// 2. Assert: stream.[[state]] is "writable".
VERIFY(stream.state() == WritableStream::State::Writable);
// 3. Let promise be a new promise.
auto promise = WebIDL::create_promise(realm);
// 4. Append promise to stream.[[writeRequests]].
TRY_OR_THROW_OOM(vm, stream.write_requests().try_append(promise));
// 5. Return promise.
return promise;
}
// https://streams.spec.whatwg.org/#writable-stream-close-queued-or-in-flight
bool writable_stream_close_queued_or_in_flight(WritableStream const& stream)
{
// 1. If stream.[[closeRequest]] is undefined and stream.[[inFlightCloseRequest]] is undefined, return false.
if (!stream.close_request() && !stream.in_flight_close_request())
return false;
// 2. Return true.
return true;
}
// https://streams.spec.whatwg.org/#writable-stream-deal-with-rejection
WebIDL::ExceptionOr<void> writable_stream_deal_with_rejection(WritableStream& stream, JS::Value error)
{
// 1. Let state be stream.[[state]].
auto state = stream.state();
// 2. If state is "writable",
if (state == WritableStream::State::Writable) {
// 1. Perform ! WritableStreamStartErroring(stream, error).
// 2. Return.
return writable_stream_start_erroring(stream, error);
}
// 3. Assert: state is "erroring".
VERIFY(state == WritableStream::State::Erroring);
// 4. Perform ! WritableStreamFinishErroring(stream).
return writable_stream_finish_erroring(stream);
}
// https://streams.spec.whatwg.org/#writable-stream-finish-erroring
WebIDL::ExceptionOr<void> writable_stream_finish_erroring(WritableStream& stream)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[state]] is "erroring".
VERIFY(stream.state() == WritableStream::State::Erroring);
// 2. Assert: ! WritableStreamHasOperationMarkedInFlight(stream) is false.
VERIFY(!writable_stream_has_operation_marked_in_flight(stream));
// 3. Set stream.[[state]] to "errored".
stream.set_state(WritableStream::State::Errored);
// 4. Perform ! stream.[[controller]].[[ErrorSteps]]().
stream.controller()->error_steps();
// 5. Let storedError be stream.[[storedError]].
auto stored_error = stream.stored_error();
// 6. For each writeRequest of stream.[[writeRequests]]:
for (auto& write_request : stream.write_requests()) {
// 1. Reject writeRequest with storedError.
WebIDL::reject_promise(realm, *write_request, stored_error);
}
// 7. Set stream.[[writeRequests]] to an empty list.
stream.write_requests().clear();
// 8. If stream.[[pendingAbortRequest]] is undefined,
if (!stream.pending_abort_request().has_value()) {
// 1. Perform ! WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream).
writable_stream_reject_close_and_closed_promise_if_needed(stream);
// 2. Return.
return {};
}
// 9. Let abortRequest be stream.[[pendingAbortRequest]].
// 10. Set stream.[[pendingAbortRequest]] to undefined.
auto abort_request = stream.pending_abort_request().release_value();
// 11. If abortRequests was already erroring is true,
if (abort_request.was_already_erroring) {
// 1. Reject abortRequests promise with storedError.
WebIDL::reject_promise(realm, abort_request.promise, stored_error);
// 2. Perform ! WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream).
writable_stream_reject_close_and_closed_promise_if_needed(stream);
// 3. Return.
return {};
}
// 12. Let promise be ! stream.[[controller]].[[AbortSteps]](abortRequests reason).
auto promise = TRY(stream.controller()->abort_steps(abort_request.reason));
// 13. Upon fulfillment of promise,
WebIDL::upon_fulfillment(*promise, JS::create_heap_function(realm.heap(), [&realm, &stream, abort_promise = abort_request.promise](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Resolve abortRequests promise with undefined.
WebIDL::resolve_promise(realm, abort_promise, JS::js_undefined());
// 2. Perform ! WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream).
writable_stream_reject_close_and_closed_promise_if_needed(stream);
return JS::js_undefined();
}));
// 14. Upon rejection of promise with reason reason,
WebIDL::upon_rejection(*promise, JS::create_heap_function(realm.heap(), [&realm, &stream, abort_promise = abort_request.promise](JS::Value reason) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Reject abortRequests promise with reason.
WebIDL::reject_promise(realm, abort_promise, reason);
// 2. Perform ! WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream).
writable_stream_reject_close_and_closed_promise_if_needed(stream);
return JS::js_undefined();
}));
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-finish-in-flight-close
void writable_stream_finish_in_flight_close(WritableStream& stream)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[inFlightCloseRequest]] is not undefined.
VERIFY(stream.in_flight_close_request());
// 2. Resolve stream.[[inFlightCloseRequest]] with undefined.
WebIDL::resolve_promise(realm, *stream.in_flight_close_request(), JS::js_undefined());
// 3. Set stream.[[inFlightCloseRequest]] to undefined.
stream.set_in_flight_close_request({});
// 4. Let state be stream.[[state]].
auto state = stream.state();
// 5. Assert: stream.[[state]] is "writable" or "erroring".
VERIFY(state == WritableStream::State::Writable || state == WritableStream::State::Erroring);
// 6. If state is "erroring",
if (state == WritableStream::State::Erroring) {
// 1. Set stream.[[storedError]] to undefined.
stream.set_stored_error(JS::js_undefined());
// 2. If stream.[[pendingAbortRequest]] is not undefined,
if (stream.pending_abort_request().has_value()) {
// 1. Resolve stream.[[pendingAbortRequest]]'s promise with undefined.
// 2. Set stream.[[pendingAbortRequest]] to undefined.
WebIDL::resolve_promise(realm, stream.pending_abort_request().release_value().promise, JS::js_undefined());
}
}
// 7. Set stream.[[state]] to "closed".
stream.set_state(WritableStream::State::Closed);
// 8. Let writer be stream.[[writer]].
auto writer = stream.writer();
// 9. If writer is not undefined, resolve writer.[[closedPromise]] with undefined.
if (writer)
WebIDL::resolve_promise(realm, *writer->closed_promise(), JS::js_undefined());
// 10. Assert: stream.[[pendingAbortRequest]] is undefined.
VERIFY(!stream.pending_abort_request().has_value());
// 11. Assert: stream.[[storedError]] is undefined.
VERIFY(stream.stored_error().is_undefined());
}
// https://streams.spec.whatwg.org/#writable-stream-finish-in-flight-close-with-error
WebIDL::ExceptionOr<void> writable_stream_finish_in_flight_close_with_error(WritableStream& stream, JS::Value error)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[inFlightCloseRequest]] is not undefined.
VERIFY(stream.in_flight_close_request());
// 2. Reject stream.[[inFlightCloseRequest]] with error.
WebIDL::reject_promise(realm, *stream.in_flight_close_request(), error);
// 3. Set stream.[[inFlightCloseRequest]] to undefined.
stream.set_in_flight_close_request({});
// 4. Assert: stream.[[state]] is "writable" or "erroring".
auto state = stream.state();
VERIFY(state == WritableStream::State::Writable || state == WritableStream::State::Erroring);
// 5. If stream.[[pendingAbortRequest]] is not undefined,
if (stream.pending_abort_request().has_value()) {
// 1. Reject stream.[[pendingAbortRequest]]'s promise with error.
// 2. Set stream.[[pendingAbortRequest]] to undefined.
WebIDL::reject_promise(realm, stream.pending_abort_request().release_value().promise, error);
}
// 6. Perform ! WritableStreamDealWithRejection(stream, error).
return writable_stream_deal_with_rejection(stream, error);
}
// https://streams.spec.whatwg.org/#writable-stream-finish-in-flight-write
void writable_stream_finish_in_flight_write(WritableStream& stream)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[inFlightWriteRequest]] is not undefined.
VERIFY(stream.in_flight_write_request());
// 2. Resolve stream.[[inFlightWriteRequest]] with undefined.
WebIDL::resolve_promise(realm, *stream.in_flight_write_request(), JS::js_undefined());
// 3. Set stream.[[inFlightWriteRequest]] to undefined.
stream.set_in_flight_write_request({});
}
// https://streams.spec.whatwg.org/#writable-stream-finish-in-flight-write-with-error
WebIDL::ExceptionOr<void> writable_stream_finish_in_flight_write_with_error(WritableStream& stream, JS::Value error)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[inFlightWriteRequest]] is not undefined.
VERIFY(stream.in_flight_write_request());
// 2. Reject stream.[[inFlightWriteRequest]] with error.
WebIDL::reject_promise(realm, *stream.in_flight_write_request(), error);
// 3. Set stream.[[inFlightWriteRequest]] to undefined.
stream.set_in_flight_write_request({});
// 4. Assert: stream.[[state]] is "writable" or "erroring".
auto state = stream.state();
VERIFY(state == WritableStream::State::Writable || state == WritableStream::State::Erroring);
// 5. Perform ! WritableStreamDealWithRejection(stream, error).
return writable_stream_deal_with_rejection(stream, error);
}
// https://streams.spec.whatwg.org/#writable-stream-has-operation-marked-in-flight
bool writable_stream_has_operation_marked_in_flight(WritableStream const& stream)
{
// 1. If stream.[[inFlightWriteRequest]] is undefined and stream.[[inFlightCloseRequest]] is undefined, return false.
if (!stream.in_flight_write_request() && !stream.in_flight_close_request())
return false;
// 2. Return true.
return true;
}
// https://streams.spec.whatwg.org/#writable-stream-mark-close-request-in-flight
void writable_stream_mark_close_request_in_flight(WritableStream& stream)
{
// 1. Assert: stream.[[inFlightCloseRequest]] is undefined.
VERIFY(!stream.in_flight_close_request());
// 2. Assert: stream.[[closeRequest]] is not undefined.
VERIFY(stream.close_request());
// 3. Set stream.[[inFlightCloseRequest]] to stream.[[closeRequest]].
stream.set_in_flight_close_request(stream.close_request());
// 4. Set stream.[[closeRequest]] to undefined.
stream.set_close_request({});
}
// https://streams.spec.whatwg.org/#writable-stream-mark-first-write-request-in-flight
void writable_stream_mark_first_write_request_in_flight(WritableStream& stream)
{
// 1. Assert: stream.[[inFlightWriteRequest]] is undefined.
VERIFY(!stream.in_flight_write_request());
// 2. Assert: stream.[[writeRequests]] is not empty.
VERIFY(!stream.write_requests().is_empty());
// 3. Let writeRequest be stream.[[writeRequests]][0].
// 4. Remove writeRequest from stream.[[writeRequests]].
auto write_request = stream.write_requests().take_first();
// 5. Set stream.[[inFlightWriteRequest]] to writeRequest.
stream.set_in_flight_write_request(write_request);
}
// https://streams.spec.whatwg.org/#writable-stream-reject-close-and-closed-promise-if-needed
void writable_stream_reject_close_and_closed_promise_if_needed(WritableStream& stream)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[state]] is "errored".
VERIFY(stream.state() == WritableStream::State::Errored);
// 2. If stream.[[closeRequest]] is not undefined,
if (stream.close_request()) {
// 1. Assert: stream.[[inFlightCloseRequest]] is undefined.
VERIFY(!stream.in_flight_close_request());
// 2. Reject stream.[[closeRequest]] with stream.[[storedError]].
WebIDL::reject_promise(realm, *stream.close_request(), stream.stored_error());
// 3. Set stream.[[closeRequest]] to undefined.
stream.set_close_request({});
}
// 3. Let writer be stream.[[writer]].
auto writer = stream.writer();
// 4. If writer is not undefined,
if (writer) {
// 1. Reject writer.[[closedPromise]] with stream.[[storedError]].
WebIDL::reject_promise(realm, *writer->closed_promise(), stream.stored_error());
// 2. Set writer.[[closedPromise]].[[PromiseIsHandled]] to true.
WebIDL::mark_promise_as_handled(*writer->closed_promise());
}
}
// https://streams.spec.whatwg.org/#writable-stream-start-erroring
WebIDL::ExceptionOr<void> writable_stream_start_erroring(WritableStream& stream, JS::Value reason)
{
// 1. Assert: stream.[[storedError]] is undefined.
VERIFY(stream.stored_error().is_undefined());
// 2. Assert: stream.[[state]] is "writable".
VERIFY(stream.state() == WritableStream::State::Writable);
// 3. Let controller be stream.[[controller]].
auto controller = stream.controller();
// 4. Assert: controller is not undefined.
VERIFY(controller);
// 5. Set stream.[[state]] to "erroring".
stream.set_state(WritableStream::State::Erroring);
// 6. Set stream.[[storedError]] to reason.
stream.set_stored_error(reason);
// 7. Let writer be stream.[[writer]].
auto writer = stream.writer();
// 8. If writer is not undefined, perform ! WritableStreamDefaultWriterEnsureReadyPromiseRejected(writer, reason).
if (writer)
writable_stream_default_writer_ensure_ready_promise_rejected(*writer, reason);
// 9. If ! WritableStreamHasOperationMarkedInFlight(stream) is false and controller.[[started]] is true, perform ! WritableStreamFinishErroring(stream).
if (!writable_stream_has_operation_marked_in_flight(stream) && controller->started())
TRY(writable_stream_finish_erroring(stream));
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-update-backpressure
void writable_stream_update_backpressure(WritableStream& stream, bool backpressure)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[state]] is "writable".
VERIFY(stream.state() == WritableStream::State::Writable);
// 2. Assert: ! WritableStreamCloseQueuedOrInFlight(stream) is false.
VERIFY(!writable_stream_close_queued_or_in_flight(stream));
// 3. Let writer be stream.[[writer]].
auto writer = stream.writer();
// 4. If writer is not undefined and backpressure is not stream.[[backpressure]],
if (writer && backpressure != stream.backpressure()) {
// 1. If backpressure is true, set writer.[[readyPromise]] to a new promise.
if (backpressure) {
writer->set_ready_promise(WebIDL::create_promise(realm));
}
// 2. Otherwise,
else {
// 1. Assert: backpressure is false.
// 2. Resolve writer.[[readyPromise]] with undefined.
WebIDL::resolve_promise(realm, *writer->ready_promise(), JS::js_undefined());
}
}
// 5. Set stream.[[backpressure]] to backpressure.
stream.set_backpressure(backpressure);
}
// https://streams.spec.whatwg.org/#writable-stream-default-writer-abort
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> writable_stream_default_writer_abort(WritableStreamDefaultWriter& writer, JS::Value reason)
{
// 1. Let stream be writer.[[stream]].
auto stream = writer.stream();
// 2. Assert: stream is not undefined.
VERIFY(stream);
// 3. Return ! WritableStreamAbort(stream, reason).
return writable_stream_abort(*stream, reason);
}
// https://streams.spec.whatwg.org/#writable-stream-default-writer-close
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> writable_stream_default_writer_close(WritableStreamDefaultWriter& writer)
{
// 1. Let stream be writer.[[stream]].
auto stream = writer.stream();
// 2. Assert: stream is not undefined.
VERIFY(stream);
// 3. Return ! WritableStreamClose(stream).
return writable_stream_close(*stream);
}
// https://streams.spec.whatwg.org/#writable-stream-default-writer-ensure-closed-promise-rejected
void writable_stream_default_writer_ensure_closed_promise_rejected(WritableStreamDefaultWriter& writer, JS::Value error)
{
auto& realm = writer.realm();
// 1. If writer.[[closedPromise]].[[PromiseState]] is "pending", reject writer.[[closedPromise]] with error.
auto& closed_promise = verify_cast<JS::Promise>(*writer.closed_promise()->promise());
if (closed_promise.state() == JS::Promise::State::Pending) {
WebIDL::reject_promise(realm, *writer.closed_promise(), error);
}
// 2. Otherwise, set writer.[[closedPromise]] to a promise rejected with error.
else {
writer.set_closed_promise(WebIDL::create_rejected_promise(realm, error));
}
// 3. Set writer.[[closedPromise]].[[PromiseIsHandled]] to true.
WebIDL::mark_promise_as_handled(*writer.closed_promise());
}
// https://streams.spec.whatwg.org/#writable-stream-default-writer-ensure-ready-promise-rejected
void writable_stream_default_writer_ensure_ready_promise_rejected(WritableStreamDefaultWriter& writer, JS::Value error)
{
auto& realm = writer.realm();
// 1. If writer.[[readyPromise]].[[PromiseState]] is "pending", reject writer.[[readyPromise]] with error.
auto& ready_promise = verify_cast<JS::Promise>(*writer.ready_promise()->promise());
if (ready_promise.state() == JS::Promise::State::Pending) {
WebIDL::reject_promise(realm, *writer.ready_promise(), error);
}
// 2. Otherwise, set writer.[[readyPromise]] to a promise rejected with error.
else {
writer.set_ready_promise(WebIDL::create_rejected_promise(realm, error));
}
// 3. Set writer.[[readyPromise]].[[PromiseIsHandled]] to true.
WebIDL::mark_promise_as_handled(*writer.ready_promise());
}
// https://streams.spec.whatwg.org/#writable-stream-default-writer-get-desired-size
Optional<double> writable_stream_default_writer_get_desired_size(WritableStreamDefaultWriter const& writer)
{
// 1. Let stream be writer.[[stream]].
auto stream = writer.stream();
// 2. Let state be stream.[[state]].
auto state = stream->state();
// 3. If state is "errored" or "erroring", return null.
if (state == WritableStream::State::Errored || state == WritableStream::State::Erroring)
return {};
// 4. If state is "closed", return 0.
if (state == WritableStream::State::Closed)
return 0.0;
// 5. Return ! WritableStreamDefaultControllerGetDesiredSize(stream.[[controller]]).
return writable_stream_default_controller_get_desired_size(*stream->controller());
}
// https://streams.spec.whatwg.org/#writable-stream-default-writer-release
WebIDL::ExceptionOr<void> writable_stream_default_writer_release(WritableStreamDefaultWriter& writer)
{
auto& realm = writer.realm();
// 1. Let stream be writer.[[stream]].
auto stream = writer.stream();
// 2. Assert: stream is not undefined.
VERIFY(stream);
// 3. Assert: stream.[[writer]] is writer.
VERIFY(stream->writer().ptr() == &writer);
// 4. Let releasedError be a new TypeError.
auto released_error = JS::TypeError::create(realm, "Writer's stream lock has been released"sv);
// 5. Perform ! WritableStreamDefaultWriterEnsureReadyPromiseRejected(writer, releasedError).
writable_stream_default_writer_ensure_ready_promise_rejected(writer, released_error);
// 6. Perform ! WritableStreamDefaultWriterEnsureClosedPromiseRejected(writer, releasedError).
writable_stream_default_writer_ensure_closed_promise_rejected(writer, released_error);
// 7. Set stream.[[writer]] to undefined.
stream->set_writer({});
// 8. Set writer.[[stream]] to undefined.
writer.set_stream({});
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-default-writer-write
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> writable_stream_default_writer_write(WritableStreamDefaultWriter& writer, JS::Value chunk)
{
auto& realm = writer.realm();
// 1. Let stream be writer.[[stream]].
auto stream = writer.stream();
// 2. Assert: stream is not undefined.
VERIFY(stream);
// 3. Let controller be stream.[[controller]].
auto controller = stream->controller();
// 4. Let chunkSize be ! WritableStreamDefaultControllerGetChunkSize(controller, chunk).
auto chunk_size = TRY(writable_stream_default_controller_get_chunk_size(*controller, chunk));
// 5. If stream is not equal to writer.[[stream]], return a promise rejected with a TypeError exception.
if (stream.ptr() != writer.stream().ptr()) {
auto exception = JS::TypeError::create(realm, "Writer's locked stream changed during write"sv);
return WebIDL::create_rejected_promise(realm, exception);
}
// 6. Let state be stream.[[state]].
auto state = stream->state();
// 7. If state is "errored", return a promise rejected with stream.[[storedError]].
if (state == WritableStream::State::Errored)
return WebIDL::create_rejected_promise(realm, stream->stored_error());
// 8. If ! WritableStreamCloseQueuedOrInFlight(stream) is true or state is "closed", return a promise rejected with a TypeError exception indicating that the stream is closing or closed.
if (writable_stream_close_queued_or_in_flight(*stream) || state == WritableStream::State::Closed) {
auto exception = JS::TypeError::create(realm, "Cannot write to a writer whose stream is closing or already closed"sv);
return WebIDL::create_rejected_promise(realm, exception);
}
// 9. If state is "erroring", return a promise rejected with stream.[[storedError]].
if (state == WritableStream::State::Erroring)
return WebIDL::create_rejected_promise(realm, stream->stored_error());
// 10. Assert: state is "writable".
VERIFY(state == WritableStream::State::Writable);
// 11. Let promise be ! WritableStreamAddWriteRequest(stream).
auto promise = writable_stream_add_write_request(*stream);
// 12. Perform ! WritableStreamDefaultControllerWrite(controller, chunk, chunkSize).
TRY(writable_stream_default_controller_write(*controller, chunk, chunk_size));
// 13. Return promise.
return promise;
}
// https://streams.spec.whatwg.org/#set-up-writable-stream-default-controller
WebIDL::ExceptionOr<void> set_up_writable_stream_default_controller(WritableStream& stream, WritableStreamDefaultController& controller, JS::NonnullGCPtr<StartAlgorithm> start_algorithm, JS::NonnullGCPtr<WriteAlgorithm> write_algorithm, JS::NonnullGCPtr<CloseAlgorithm> close_algorithm, JS::NonnullGCPtr<AbortAlgorithm> abort_algorithm, double high_water_mark, JS::NonnullGCPtr<SizeAlgorithm> size_algorithm)
{
auto& realm = stream.realm();
// 1. Assert: stream implements WritableStream.
// 2. Assert: stream.[[controller]] is undefined.
VERIFY(!stream.controller());
// 3. Set controller.[[stream]] to stream.
controller.set_stream(stream);
// 4. Set stream.[[controller]] to controller.
stream.set_controller(controller);
// 5. Perform ! ResetQueue(controller).
reset_queue(controller);
// 6. Set controller.[[signal]] to a new AbortSignal.
controller.set_signal(realm.heap().allocate<DOM::AbortSignal>(realm, realm));
// 7. Set controller.[[started]] to false.
controller.set_started(false);
// 8. Set controller.[[strategySizeAlgorithm]] to sizeAlgorithm.
controller.set_strategy_size_algorithm(size_algorithm);
// 9. Set controller.[[strategyHWM]] to highWaterMark.
controller.set_strategy_hwm(high_water_mark);
// 10. Set controller.[[writeAlgorithm]] to writeAlgorithm.
controller.set_write_algorithm(write_algorithm);
// 11. Set controller.[[closeAlgorithm]] to closeAlgorithm.
controller.set_close_algorithm(close_algorithm);
// 12. Set controller.[[abortAlgorithm]] to abortAlgorithm.
controller.set_abort_algorithm(abort_algorithm);
// 13. Let backpressure be ! WritableStreamDefaultControllerGetBackpressure(controller).
auto backpressure = writable_stream_default_controller_get_backpressure(controller);
// 14. Perform ! WritableStreamUpdateBackpressure(stream, backpressure).
writable_stream_update_backpressure(stream, backpressure);
// 15. Let startResult be the result of performing startAlgorithm. (This may throw an exception.)
auto start_result = TRY(start_algorithm->function()());
// 16. Let startPromise be a promise resolved with startResult.
auto start_promise = WebIDL::create_resolved_promise(realm, start_result);
// 17. Upon fulfillment of startPromise,
WebIDL::upon_fulfillment(*start_promise, JS::create_heap_function(realm.heap(), [&controller, &stream](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Assert: stream.[[state]] is "writable" or "erroring".
auto state = stream.state();
VERIFY(state == WritableStream::State::Writable || state == WritableStream::State::Erroring);
// 2. Set controller.[[started]] to true.
controller.set_started(true);
// 3. Perform ! WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller).
TRY(writable_stream_default_controller_advance_queue_if_needed(controller));
return JS::js_undefined();
}));
// 18. Upon rejection of startPromise with reason r,
WebIDL::upon_rejection(*start_promise, JS::create_heap_function(realm.heap(), [&stream, &controller](JS::Value reason) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Assert: stream.[[state]] is "writable" or "erroring".
auto state = stream.state();
VERIFY(state == WritableStream::State::Writable || state == WritableStream::State::Erroring);
// 2. Set controller.[[started]] to true.
controller.set_started(true);
// 3. Perform ! WritableStreamDealWithRejection(stream, r).
TRY(writable_stream_deal_with_rejection(stream, reason));
return JS::js_undefined();
}));
return {};
}
// https://streams.spec.whatwg.org/#set-up-writable-stream-default-controller-from-underlying-sink
WebIDL::ExceptionOr<void> set_up_writable_stream_default_controller_from_underlying_sink(WritableStream& stream, JS::Value underlying_sink_value, UnderlyingSink& underlying_sink, double high_water_mark, JS::NonnullGCPtr<SizeAlgorithm> size_algorithm)
{
auto& realm = stream.realm();
// 1. Let controller be a new WritableStreamDefaultController.
auto controller = realm.heap().allocate<WritableStreamDefaultController>(realm, realm);
// 2. Let startAlgorithm be an algorithm that returns undefined.
auto start_algorithm = JS::create_heap_function(realm.heap(), []() -> WebIDL::ExceptionOr<JS::Value> { return JS::js_undefined(); });
// 3. Let writeAlgorithm be an algorithm that returns a promise resolved with undefined.
auto write_algorithm = JS::create_heap_function(realm.heap(), [&realm](JS::Value) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 4. Let closeAlgorithm be an algorithm that returns a promise resolved with undefined.
auto close_algorithm = JS::create_heap_function(realm.heap(), [&realm]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 5. Let abortAlgorithm be an algorithm that returns a promise resolved with undefined.
auto abort_algorithm = JS::create_heap_function(realm.heap(), [&realm](JS::Value) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 6. If underlyingSinkDict["start"] exists, then set startAlgorithm to an algorithm which returns the result of invoking underlyingSinkDict["start"] with argument list « controller » and callback this value underlyingSink.
if (underlying_sink.start) {
start_algorithm = JS::create_heap_function(realm.heap(), [controller, underlying_sink_value, callback = underlying_sink.start]() -> WebIDL::ExceptionOr<JS::Value> {
// Note: callback does not return a promise, so invoke_callback may return an abrupt completion
return TRY(WebIDL::invoke_callback(*callback, underlying_sink_value, controller)).release_value();
});
}
// 7. If underlyingSinkDict["write"] exists, then set writeAlgorithm to an algorithm which takes an argument chunk and returns the result of invoking underlyingSinkDict["write"] with argument list « chunk, controller » and callback this value underlyingSink.
if (underlying_sink.write) {
write_algorithm = JS::create_heap_function(realm.heap(), [&realm, controller, underlying_sink_value, callback = underlying_sink.write](JS::Value chunk) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback return a promise, so invoke_callback will never return an abrupt completion
auto result = MUST_OR_THROW_OOM(WebIDL::invoke_callback(*callback, underlying_sink_value, chunk, controller)).release_value();
return WebIDL::create_resolved_promise(realm, result);
});
}
// 8. If underlyingSinkDict["close"] exists, then set closeAlgorithm to an algorithm which returns the result of invoking underlyingSinkDict["close"] with argument list «» and callback this value underlyingSink.
if (underlying_sink.close) {
close_algorithm = JS::create_heap_function(realm.heap(), [&realm, underlying_sink_value, callback = underlying_sink.close]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback return a promise, so invoke_callback will never return an abrupt completion
auto result = MUST_OR_THROW_OOM(WebIDL::invoke_callback(*callback, underlying_sink_value)).release_value();
return WebIDL::create_resolved_promise(realm, result);
});
}
// 9. If underlyingSinkDict["abort"] exists, then set abortAlgorithm to an algorithm which takes an argument reason and returns the result of invoking underlyingSinkDict["abort"] with argument list « reason » and callback this value underlyingSink.
if (underlying_sink.abort) {
abort_algorithm = JS::create_heap_function(realm.heap(), [&realm, underlying_sink_value, callback = underlying_sink.abort](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback return a promise, so invoke_callback will never return an abrupt completion
auto result = MUST_OR_THROW_OOM(WebIDL::invoke_callback(*callback, underlying_sink_value, reason)).release_value();
return WebIDL::create_resolved_promise(realm, result);
});
}
// 10. Perform ? SetUpWritableStreamDefaultController(stream, controller, startAlgorithm, writeAlgorithm, closeAlgorithm, abortAlgorithm, highWaterMark, sizeAlgorithm).
TRY(set_up_writable_stream_default_controller(stream, controller, start_algorithm, write_algorithm, close_algorithm, abort_algorithm, high_water_mark, size_algorithm));
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-advance-queue-if-needed
WebIDL::ExceptionOr<void> writable_stream_default_controller_advance_queue_if_needed(WritableStreamDefaultController& controller)
{
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. If controller.[[started]] is false, return.
if (!controller.started())
return {};
// 3. If stream.[[inFlightWriteRequest]] is not undefined, return.
if (stream->in_flight_write_request())
return {};
// 4. Let state be stream.[[state]].
auto state = stream->state();
// 5. Assert: state is not "closed" or "errored".
VERIFY(state != WritableStream::State::Closed && state != WritableStream::State::Errored);
// 6. If state is "erroring",
if (state == WritableStream::State::Erroring) {
// 1. Perform ! WritableStreamFinishErroring(stream).
// 2. Return.
return writable_stream_finish_erroring(*stream);
}
// 7. If controller.[[queue]] is empty, return.
if (controller.queue().is_empty())
return {};
// 8. Let value be ! PeekQueueValue(controller).
auto value = peek_queue_value(controller);
// 9. If value is the close sentinel, perform ! WritableStreamDefaultControllerProcessClose(controller).
if (is_close_sentinel(value)) {
TRY(writable_stream_default_controller_process_close(controller));
}
// 10. Otherwise, perform ! WritableStreamDefaultControllerProcessWrite(controller, value).
else {
TRY(writable_stream_default_controller_process_write(controller, value));
}
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-clear-algorithms
void writable_stream_default_controller_clear_algorithms(WritableStreamDefaultController& controller)
{
// 1. Set controller.[[writeAlgorithm]] to undefined.
controller.set_write_algorithm({});
// 2. Set controller.[[closeAlgorithm]] to undefined.
controller.set_close_algorithm({});
// 3. Set controller.[[abortAlgorithm]] to undefined.
controller.set_abort_algorithm({});
// 4. Set controller.[[strategySizeAlgorithm]] to undefined.
controller.set_strategy_size_algorithm({});
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-close
WebIDL::ExceptionOr<void> writable_stream_default_controller_close(WritableStreamDefaultController& controller)
{
// 1. Perform ! EnqueueValueWithSize(controller, close sentinel, 0).
TRY(enqueue_value_with_size(controller, create_close_sentinel(), JS::Value(0.0)));
// 2. Perform ! WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller).
TRY(writable_stream_default_controller_advance_queue_if_needed(controller));
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-error
WebIDL::ExceptionOr<void> writable_stream_default_controller_error(WritableStreamDefaultController& controller, JS::Value error)
{
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. Assert: stream.[[state]] is "writable".
VERIFY(stream->state() == WritableStream::State::Writable);
// 3. Perform ! WritableStreamDefaultControllerClearAlgorithms(controller).
writable_stream_default_controller_clear_algorithms(controller);
// 4. Perform ! WritableStreamStartErroring(stream, error).
return writable_stream_start_erroring(stream, error);
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-error-if-needed
WebIDL::ExceptionOr<void> writable_stream_default_controller_error_if_needed(WritableStreamDefaultController& controller, JS::Value error)
{
// 1. If controller.[[stream]].[[state]] is "writable", perform ! WritableStreamDefaultControllerError(controller, error).
if (controller.stream()->state() == WritableStream::State::Writable)
TRY(writable_stream_default_controller_error(controller, error));
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-get-backpressure
bool writable_stream_default_controller_get_backpressure(WritableStreamDefaultController const& controller)
{
// 1. Let desiredSize be ! WritableStreamDefaultControllerGetDesiredSize(controller).
auto desired_size = writable_stream_default_controller_get_desired_size(controller);
// 2. Return true if desiredSize ≤ 0, or false otherwise.
return desired_size <= 0.0;
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-get-chunk-size
WebIDL::ExceptionOr<JS::Value> writable_stream_default_controller_get_chunk_size(WritableStreamDefaultController& controller, JS::Value chunk)
{
// 1. Let returnValue be the result of performing controller.[[strategySizeAlgorithm]], passing in chunk, and interpreting the result as a completion record.
auto return_value = controller.strategy_size_algorithm()->function()(chunk);
// 2. If returnValue is an abrupt completion,
if (return_value.is_abrupt()) {
// 1. Perform ! WritableStreamDefaultControllerErrorIfNeeded(controller, returnValue.[[Value]]).
TRY(writable_stream_default_controller_error_if_needed(controller, *return_value.release_value()));
// 2. Return 1.
return 1.0;
}
// 3. Return returnValue.[[Value]].
return *return_value.release_value();
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-get-desired-size
double writable_stream_default_controller_get_desired_size(WritableStreamDefaultController const& controller)
{
// 1. Return controller.[[strategyHWM]] controller.[[queueTotalSize]].
return controller.strategy_hwm() - controller.queue_total_size();
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-process-close
WebIDL::ExceptionOr<void> writable_stream_default_controller_process_close(WritableStreamDefaultController& controller)
{
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. Perform ! WritableStreamMarkCloseRequestInFlight(stream).
writable_stream_mark_close_request_in_flight(*stream);
// 3. Perform ! DequeueValue(controller).
dequeue_value(controller);
// 4. Assert: controller.[[queue]] is empty.
VERIFY(controller.queue().is_empty());
// 5. Let sinkClosePromise be the result of performing controller.[[closeAlgorithm]].
auto sink_close_promise = TRY(controller.close_algorithm()->function()());
// 6. Perform ! WritableStreamDefaultControllerClearAlgorithms(controller).
writable_stream_default_controller_clear_algorithms(controller);
// 7. Upon fulfillment of sinkClosePromise,
WebIDL::upon_fulfillment(*sink_close_promise, JS::create_heap_function(controller.heap(), [stream](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! WritableStreamFinishInFlightClose(stream).
writable_stream_finish_in_flight_close(*stream);
return JS::js_undefined();
}));
// 8. Upon rejection of sinkClosePromise with reason reason,
WebIDL::upon_rejection(*sink_close_promise, JS::create_heap_function(controller.heap(), [stream = stream](JS::Value reason) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! WritableStreamFinishInFlightCloseWithError(stream, reason).
TRY(writable_stream_finish_in_flight_close_with_error(*stream, reason));
return JS::js_undefined();
}));
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-process-write
WebIDL::ExceptionOr<void> writable_stream_default_controller_process_write(WritableStreamDefaultController& controller, JS::Value chunk)
{
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. Perform ! WritableStreamMarkFirstWriteRequestInFlight(stream).
writable_stream_mark_first_write_request_in_flight(*stream);
// 3. Let sinkWritePromise be the result of performing controller.[[writeAlgorithm]], passing in chunk.
auto sink_write_promise = TRY(controller.write_algorithm()->function()(chunk));
// 4. Upon fulfillment of sinkWritePromise,
WebIDL::upon_fulfillment(*sink_write_promise, JS::create_heap_function(controller.heap(), [&controller, stream](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! WritableStreamFinishInFlightWrite(stream).
writable_stream_finish_in_flight_write(*stream);
// 2. Let state be stream.[[state]].
auto state = stream->state();
// 3. Assert: state is "writable" or "erroring".
VERIFY(state == WritableStream::State::Writable || state == WritableStream::State::Erroring);
// 4. Perform ! DequeueValue(controller).
dequeue_value(controller);
// 5. If ! WritableStreamCloseQueuedOrInFlight(stream) is false and state is "writable",
if (!writable_stream_close_queued_or_in_flight(*stream) && state == WritableStream::State::Writable) {
// 1. Let backpressure be ! WritableStreamDefaultControllerGetBackpressure(controller).
auto backpressure = writable_stream_default_controller_get_backpressure(controller);
// 2. Perform ! WritableStreamUpdateBackpressure(stream, backpressure).
writable_stream_update_backpressure(*stream, backpressure);
}
// 6 .Perform ! WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller).
TRY(writable_stream_default_controller_advance_queue_if_needed(controller));
return JS::js_undefined();
}));
// 5. Upon rejection of sinkWritePromise with reason,
WebIDL::upon_rejection(*sink_write_promise, JS::create_heap_function(controller.heap(), [&controller, stream](JS::Value reason) -> WebIDL::ExceptionOr<JS::Value> {
// 1. If stream.[[state]] is "writable", perform ! WritableStreamDefaultControllerClearAlgorithms(controller).
if (stream->state() == WritableStream::State::Writable)
writable_stream_default_controller_clear_algorithms(controller);
// 2. Perform ! WritableStreamFinishInFlightWriteWithError(stream, reason).
TRY(writable_stream_finish_in_flight_write_with_error(*stream, reason));
return JS::js_undefined();
}));
return {};
}
// https://streams.spec.whatwg.org/#writable-stream-default-controller-write
WebIDL::ExceptionOr<void> writable_stream_default_controller_write(WritableStreamDefaultController& controller, JS::Value chunk, JS::Value chunk_size)
{
auto& vm = controller.vm();
// 1. Let enqueueResult be EnqueueValueWithSize(controller, chunk, chunkSize).
auto enqueue_result = enqueue_value_with_size(controller, chunk, chunk_size);
// 2. If enqueueResult is an abrupt completion,
if (enqueue_result.is_exception()) {
auto throw_completion = Bindings::throw_dom_exception_if_needed(vm, [&] { return enqueue_result; }).throw_completion();
// 1. Perform ! WritableStreamDefaultControllerErrorIfNeeded(controller, enqueueResult.[[Value]]).
TRY(writable_stream_default_controller_error_if_needed(controller, *throw_completion.release_value()));
// 2. Return.
return {};
}
// 3. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 4. If ! WritableStreamCloseQueuedOrInFlight(stream) is false and stream.[[state]] is "writable",
if (!writable_stream_close_queued_or_in_flight(*stream) && stream->state() == WritableStream::State::Writable) {
// 1. Let backpressure be ! WritableStreamDefaultControllerGetBackpressure(controller).
auto backpressure = writable_stream_default_controller_get_backpressure(controller);
// 2. Perform ! WritableStreamUpdateBackpressure(stream, backpressure).
writable_stream_update_backpressure(*stream, backpressure);
}
// 5. Perform ! WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller).
TRY(writable_stream_default_controller_advance_queue_if_needed(controller));
return {};
}
// https://streams.spec.whatwg.org/#initialize-transform-stream
WebIDL::ExceptionOr<void> initialize_transform_stream(TransformStream& stream, JS::NonnullGCPtr<JS::PromiseCapability> start_promise, double writable_high_water_mark, JS::NonnullGCPtr<SizeAlgorithm> writable_size_algorithm, double readable_high_water_mark, JS::NonnullGCPtr<SizeAlgorithm> readable_size_algorithm)
{
auto& realm = stream.realm();
// 1. Let startAlgorithm be an algorithm that returns startPromise.
auto writable_start_algorithm = JS::create_heap_function(realm.heap(), [start_promise]() -> WebIDL::ExceptionOr<JS::Value> {
return start_promise->promise();
});
auto readable_start_algorithm = JS::create_heap_function(realm.heap(), [start_promise]() -> WebIDL::ExceptionOr<JS::Value> {
return start_promise->promise();
});
// 2. Let writeAlgorithm be the following steps, taking a chunk argument:
auto write_algorithm = JS::create_heap_function(realm.heap(), [&stream](JS::Value chunk) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Return ! TransformStreamDefaultSinkWriteAlgorithm(stream, chunk).
return transform_stream_default_sink_write_algorithm(stream, chunk);
});
// 3. Let abortAlgorithm be the following steps, taking a reason argument:
auto abort_algorithm = JS::create_heap_function(realm.heap(), [&stream](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Return ! TransformStreamDefaultSinkAbortAlgorithm(stream, reason).
return transform_stream_default_sink_abort_algorithm(stream, reason);
});
// 4. Let closeAlgorithm be the following steps:
auto close_algorithm = JS::create_heap_function(realm.heap(), [&stream]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Return ! TransformStreamDefaultSinkCloseAlgorithm(stream).
return transform_stream_default_sink_close_algorithm(stream);
});
// 5. Set stream.[[writable]] to ! CreateWritableStream(startAlgorithm, writeAlgorithm, closeAlgorithm, abortAlgorithm, writableHighWaterMark, writableSizeAlgorithm).
stream.set_writable(TRY(create_writable_stream(realm, writable_start_algorithm, write_algorithm, close_algorithm, abort_algorithm, writable_high_water_mark, writable_size_algorithm)));
// 6. Let pullAlgorithm be the following steps:
auto pull_algorithm = JS::create_heap_function(realm.heap(), [&stream]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Return ! TransformStreamDefaultSourcePullAlgorithm(stream).
return transform_stream_default_source_pull_algorithm(stream);
});
// 7. Let cancelAlgorithm be the following steps, taking a reason argument:
auto cancel_algorithm = JS::create_heap_function(realm.heap(), [&stream, &realm](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Perform ! TransformStreamErrorWritableAndUnblockWrite(stream, reason).
TRY(transform_stream_error_writable_and_unblock_write(stream, reason));
// 2. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 8. Set stream.[[readable]] to ! CreateReadableStream(startAlgorithm, pullAlgorithm, cancelAlgorithm, readableHighWaterMark, readableSizeAlgorithm).
stream.set_readable(TRY(create_readable_stream(realm, readable_start_algorithm, pull_algorithm, cancel_algorithm, readable_high_water_mark, readable_size_algorithm)));
// 9. Set stream.[[backpressure]] and stream.[[backpressureChangePromise]] to undefined.
stream.set_backpressure({});
stream.set_backpressure_change_promise({});
// 10. Perform ! TransformStreamSetBackpressure(stream, true).
TRY(transform_stream_set_backpressure(stream, true));
// 11. Set stream.[[controller]] to undefined.
stream.set_controller({});
return {};
}
// https://streams.spec.whatwg.org/#set-up-transform-stream-default-controller
void set_up_transform_stream_default_controller(TransformStream& stream, TransformStreamDefaultController& controller, JS::NonnullGCPtr<TransformAlgorithm> transform_algorithm, JS::NonnullGCPtr<FlushAlgorithm> flush_algorithm)
{
// 1. Assert: stream implements TransformStream.
// 2. Assert: stream.[[controller]] is undefined.
VERIFY(!stream.controller());
// 3. Set controller.[[stream]] to stream.
controller.set_stream(stream);
// 4. Set stream.[[controller]] to controller.
stream.set_controller(controller);
// 5. Set controller.[[transformAlgorithm]] to transformAlgorithm.
controller.set_transform_algorithm(transform_algorithm);
// 6. Set controller.[[flushAlgorithm]] to flushAlgorithm.
controller.set_flush_algorithm(flush_algorithm);
}
// https://streams.spec.whatwg.org/#set-up-transform-stream-default-controller-from-transformer
WebIDL::ExceptionOr<void> set_up_transform_stream_default_controller_from_transformer(TransformStream& stream, JS::Value transformer, Transformer& transformer_dict)
{
auto& realm = stream.realm();
auto& vm = realm.vm();
// 1. Let controller be a new TransformStreamDefaultController.
auto controller = realm.heap().allocate<TransformStreamDefaultController>(realm, realm);
// 2. Let transformAlgorithm be the following steps, taking a chunk argument:
auto transform_algorithm = JS::create_heap_function(realm.heap(), [controller, &realm, &vm](JS::Value chunk) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// 1. Let result be TransformStreamDefaultControllerEnqueue(controller, chunk).
auto result = transform_stream_default_controller_enqueue(*controller, chunk);
// 2. If result is an abrupt completion, return a promise rejected with result.[[Value]].
if (result.is_error()) {
auto throw_completion = Bindings::dom_exception_to_throw_completion(vm, result.exception());
return WebIDL::create_rejected_promise(realm, *throw_completion.release_value());
}
// 3. Otherwise, return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 3. Let flushAlgorithm be an algorithm which returns a promise resolved with undefined.
auto flush_algorithm = JS::create_heap_function(realm.heap(), [&realm]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 4. If transformerDict["transform"] exists, set transformAlgorithm to an algorithm which takes an argument chunk
// and returns the result of invoking transformerDict["transform"] with argument list « chunk, controller » and
// callback this value transformer.
if (transformer_dict.transform) {
transform_algorithm = JS::create_heap_function(realm.heap(), [controller, &realm, transformer, callback = transformer_dict.transform](JS::Value chunk) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback does not return a promise, so invoke_callback may return an abrupt completion
auto result = WebIDL::invoke_callback(*callback, transformer, chunk, controller);
if (result.is_error())
return WebIDL::create_rejected_promise(realm, *result.release_value());
return WebIDL::create_resolved_promise(realm, *result.release_value());
});
}
// 5. If transformerDict["flush"] exists, set flushAlgorithm to an algorithm which returns the result of invoking
// transformerDict["flush"] with argument list « controller » and callback this value transformer.
if (transformer_dict.flush) {
flush_algorithm = JS::create_heap_function(realm.heap(), [&realm, transformer, callback = transformer_dict.flush, controller]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback does not return a promise, so invoke_callback may return an abrupt completion
auto result = WebIDL::invoke_callback(*callback, transformer, controller);
if (result.is_error()) {
return WebIDL::create_rejected_promise(realm, *result.release_value());
}
return WebIDL::create_resolved_promise(realm, *result.release_value());
});
}
// 6. Perform ! SetUpTransformStreamDefaultController(stream, controller, transformAlgorithm, flushAlgorithm).
set_up_transform_stream_default_controller(stream, *controller, transform_algorithm, flush_algorithm);
return {};
}
// https://streams.spec.whatwg.org/#transform-stream-default-controller-clear-algorithms
void transform_stream_default_controller_clear_algorithms(TransformStreamDefaultController& controller)
{
// NOTE: This is observable using weak references. See tc39/proposal-weakrefs#31 for more detail.
// 1. Set controller.[[transformAlgorithm]] to undefined.
controller.set_transform_algorithm({});
// 2. Set controller.[[flushAlgorithm]] to undefined.
controller.set_flush_algorithm({});
}
// https://streams.spec.whatwg.org/#transform-stream-default-controller-enqueue
WebIDL::ExceptionOr<void> transform_stream_default_controller_enqueue(TransformStreamDefaultController& controller, JS::Value chunk)
{
auto& vm = controller.vm();
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. Let readableController be stream.[[readable]].[[controller]].
VERIFY(stream->readable()->controller().has_value() && stream->readable()->controller()->has<JS::NonnullGCPtr<ReadableStreamDefaultController>>());
auto& readable_controller = stream->readable()->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
// 3. If ! ReadableStreamDefaultControllerCanCloseOrEnqueue(readableController) is false, throw a TypeError exception.
if (!readable_stream_default_controller_can_close_or_enqueue(readable_controller))
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "ReadableController is either closed or not readable."sv };
// 4. Let enqueueResult be ReadableStreamDefaultControllerEnqueue(readableController, chunk).
auto enqueue_result = readable_stream_default_controller_enqueue(readable_controller, chunk);
// 5. If enqueueResult is an abrupt completion,
if (enqueue_result.is_error()) {
auto throw_completion = Bindings::dom_exception_to_throw_completion(vm, enqueue_result.exception());
// 1. Perform ! TransformStreamErrorWritableAndUnblockWrite(stream, enqueueResult.[[Value]]).
TRY(transform_stream_error_writable_and_unblock_write(*stream, throw_completion.value().value()));
// 2. Throw stream.[[readable]].[[storedError]].
return JS::throw_completion(stream->readable()->stored_error());
}
// 6. Let backpressure be ! ReadableStreamDefaultControllerHasBackpressure(readableController).
auto backpressure = readable_stream_default_controller_has_backpressure(readable_controller);
// 7. If backpressure is not stream.[[backpressure]],
if (backpressure != stream->backpressure()) {
// 1. Assert: backpressure is true.
VERIFY(backpressure);
// 2. Perform ! TransformStreamSetBackpressure(stream, true).
TRY(transform_stream_set_backpressure(*stream, true));
}
return {};
}
// https://streams.spec.whatwg.org/#transform-stream-default-controller-error
WebIDL::ExceptionOr<void> transform_stream_default_controller_error(TransformStreamDefaultController& controller, JS::Value error)
{
// 1. Perform ! TransformStreamError(controller.[[stream]], e).
TRY(transform_stream_error(*controller.stream(), error));
return {};
}
// https://streams.spec.whatwg.org/#transform-stream-default-controller-terminate
WebIDL::ExceptionOr<void> transform_stream_default_controller_terminate(TransformStreamDefaultController& controller)
{
auto& realm = controller.realm();
// 1. Let stream be controller.[[stream]].
auto stream = controller.stream();
// 2. Let readableController be stream.[[readable]].[[controller]].
VERIFY(stream->readable()->controller().has_value() && stream->readable()->controller()->has<JS::NonnullGCPtr<ReadableStreamDefaultController>>());
auto readable_controller = stream->readable()->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
// 3. Perform ! ReadableStreamDefaultControllerClose(readableController).
readable_stream_default_controller_close(readable_controller);
// 4. Let error be a TypeError exception indicating that the stream has been terminated.
auto error = JS::TypeError::create(realm, "Stream has been terminated."sv);
// 5. Perform ! TransformStreamErrorWritableAndUnblockWrite(stream, error).
TRY(transform_stream_error_writable_and_unblock_write(*stream, error));
return {};
}
// https://streams.spec.whatwg.org/#transform-stream-default-controller-perform-transform
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> transform_stream_default_controller_perform_transform(TransformStreamDefaultController& controller, JS::Value chunk)
{
auto& realm = controller.realm();
// 1. Let transformPromise be the result of performing controller.[[transformAlgorithm]], passing chunk.
auto transform_promise = TRY(controller.transform_algorithm()->function()(chunk));
// 2. Return the result of reacting to transformPromise with the following rejection steps given the argument r:
auto react_result = WebIDL::react_to_promise(*transform_promise,
{},
JS::create_heap_function(realm.heap(), [&controller](JS::Value reason) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! TransformStreamError(controller.[[stream]], r).
TRY(transform_stream_error(*controller.stream(), reason));
// 2. Throw r.
return JS::throw_completion(reason);
}));
return WebIDL::create_resolved_promise(realm, react_result);
}
// https://streams.spec.whatwg.org/#transform-stream-default-sink-abort-algorithm
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> transform_stream_default_sink_abort_algorithm(TransformStream& stream, JS::Value reason)
{
auto& realm = stream.realm();
// 1. Perform ! TransformStreamError(stream, reason).
TRY(transform_stream_error(stream, reason));
// 2. Return a promise resolved with undefined.
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
}
// https://streams.spec.whatwg.org/#transform-stream-default-sink-close-algorithm
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> transform_stream_default_sink_close_algorithm(TransformStream& stream)
{
auto& realm = stream.realm();
// 1. Let readable be stream.[[readable]].
auto readable = stream.readable();
// 2. Let controller be stream.[[controller]].
auto controller = stream.controller();
// 3. Let flushPromise be the result of performing controller.[[flushAlgorithm]].
auto flush_promise = TRY(controller->flush_algorithm()->function()());
// 4. Perform ! TransformStreamDefaultControllerClearAlgorithms(controller).
transform_stream_default_controller_clear_algorithms(*controller);
// 5. Return the result of reacting to flushPromise:
auto react_result = WebIDL::react_to_promise(
*flush_promise,
// 1. If flushPromise was fulfilled, then:
JS::create_heap_function(realm.heap(), [readable](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. If readable.[[state]] is "errored", throw readable.[[storedError]].
if (readable->state() == ReadableStream::State::Errored)
return JS::throw_completion(readable->stored_error());
VERIFY(readable->controller().has_value() && readable->controller()->has<JS::NonnullGCPtr<ReadableStreamDefaultController>>());
// 2. Perform ! ReadableStreamDefaultControllerClose(readable.[[controller]]).
readable_stream_default_controller_close(readable->controller().value().get<JS::NonnullGCPtr<ReadableStreamDefaultController>>());
return JS::js_undefined();
}),
// 2. If flushPromise was rejected with reason r, then:
JS::create_heap_function(realm.heap(), [&stream, readable](JS::Value reason) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Perform ! TransformStreamError(stream, r).
TRY(transform_stream_error(stream, reason));
// 2. Throw readable.[[storedError]].
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, readable->stored_error().as_string().utf8_string() };
}));
return WebIDL::create_resolved_promise(realm, react_result);
}
// https://streams.spec.whatwg.org/#transform-stream-default-sink-write-algorithm
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> transform_stream_default_sink_write_algorithm(TransformStream& stream, JS::Value chunk)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[writable]].[[state]] is "writable".
VERIFY(stream.writable()->state() == WritableStream::State::Writable);
// 2. Let controller be stream.[[controller]].
auto controller = stream.controller();
// 3. If stream.[[backpressure]] is true,
if (stream.backpressure().has_value() && *stream.backpressure()) {
// 1. Let backpressureChangePromise be stream.[[backpressureChangePromise]].
auto backpressure_change_promise = stream.backpressure_change_promise();
// 2. Assert: backpressureChangePromise is not undefined.
VERIFY(backpressure_change_promise);
// 3. Return the result of reacting to backpressureChangePromise with the following fulfillment steps:
auto react_result = WebIDL::react_to_promise(*backpressure_change_promise,
JS::create_heap_function(realm.heap(), [&stream, controller, chunk](JS::Value) -> WebIDL::ExceptionOr<JS::Value> {
// 1. Let writable be stream.[[writable]].
auto writable = stream.writable();
// 2. Let state be writable.[[state]].
auto state = writable->state();
// 3. If state is "erroring", throw writable.[[storedError]].
if (state == WritableStream::State::Erroring)
return JS::throw_completion(writable->stored_error());
// 4. Assert: state is "writable".
VERIFY(state == WritableStream::State::Writable);
// 5. Return ! TransformStreamDefaultControllerPerformTransform(controller, chunk).
return TRY(transform_stream_default_controller_perform_transform(*controller, chunk))->promise();
}),
{});
return WebIDL::create_resolved_promise(realm, react_result);
}
// 4. Return ! TransformStreamDefaultControllerPerformTransform(controller, chunk).
return transform_stream_default_controller_perform_transform(*controller, chunk);
}
WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> transform_stream_default_source_pull_algorithm(TransformStream& stream)
{
// 1. Assert: stream.[[backpressure]] is true.
VERIFY(stream.backpressure().has_value() && *stream.backpressure());
// 2. Assert: stream.[[backpressureChangePromise]] is not undefined.
VERIFY(stream.backpressure_change_promise());
// 3. Perform ! TransformStreamSetBackpressure(stream, false).
TRY(transform_stream_set_backpressure(stream, false));
// 4. Return stream.[[backpressureChangePromise]].
return JS::NonnullGCPtr { *stream.backpressure_change_promise() };
}
// https://streams.spec.whatwg.org/#transform-stream-error
WebIDL::ExceptionOr<void> transform_stream_error(TransformStream& stream, JS::Value error)
{
VERIFY(stream.readable()->controller().has_value() && stream.readable()->controller()->has<JS::NonnullGCPtr<ReadableStreamDefaultController>>());
auto readable_controller = stream.readable()->controller()->get<JS::NonnullGCPtr<ReadableStreamDefaultController>>();
// 1. Perform ! ReadableStreamDefaultControllerError(stream.[[readable]].[[controller]], e).
readable_stream_default_controller_error(*readable_controller, error);
// 2. Perform ! TransformStreamErrorWritableAndUnblockWrite(stream, e).
TRY(transform_stream_error_writable_and_unblock_write(stream, error));
return {};
}
// https://streams.spec.whatwg.org/#transform-stream-error-writable-and-unblock-write
WebIDL::ExceptionOr<void> transform_stream_error_writable_and_unblock_write(TransformStream& stream, JS::Value error)
{
// 1. Perform ! TransformStreamDefaultControllerClearAlgorithms(stream.[[controller]]).
transform_stream_default_controller_clear_algorithms(*stream.controller());
// 2. Perform ! WritableStreamDefaultControllerErrorIfNeeded(stream.[[writable]].[[controller]], e).
TRY(writable_stream_default_controller_error_if_needed(*stream.writable()->controller(), error));
// 3. If stream.[[backpressure]] is true, perform ! TransformStreamSetBackpressure(stream, false).
if (stream.backpressure().has_value() && *stream.backpressure())
TRY(transform_stream_set_backpressure(stream, false));
return {};
}
// https://streams.spec.whatwg.org/#transform-stream-set-backpressure
WebIDL::ExceptionOr<void> transform_stream_set_backpressure(TransformStream& stream, bool backpressure)
{
auto& realm = stream.realm();
// 1. Assert: stream.[[backpressure]] is not backpressure.
VERIFY(stream.backpressure() != backpressure);
// 2. If stream.[[backpressureChangePromise]] is not undefined, resolve stream.[[backpressureChangePromise]] with undefined.
if (stream.backpressure_change_promise())
WebIDL::resolve_promise(realm, *stream.backpressure_change_promise(), JS::js_undefined());
// 3. Set stream.[[backpressureChangePromise]] to a new promise.
stream.set_backpressure_change_promise(WebIDL::create_promise(realm));
// 4. Set stream.[[backpressure]] to backpressure.
stream.set_backpressure(backpressure);
return {};
}
// https://streams.spec.whatwg.org/#is-non-negative-number
bool is_non_negative_number(JS::Value value)
{
// 1. If Type(v) is not Number, return false.
if (!value.is_number())
return false;
// 2. If v is NaN, return false.
if (value.is_nan())
return false;
// 3. If v < 0, return false.
if (value.as_double() < 0.0)
return false;
// 4. Return true.
return true;
}
// https://streams.spec.whatwg.org/#can-transfer-array-buffer
bool can_transfer_array_buffer(JS::ArrayBuffer const& array_buffer)
{
// 1. Assert: Type(O) is Object.
// 2. Assert: O has an [[ArrayBufferData]] internal slot.
// 3. If ! IsDetachedBuffer(O) is true, return false.
if (array_buffer.is_detached())
return false;
// 4. If SameValue(O.[[ArrayBufferDetachKey]], undefined) is false, return false.
if (!JS::same_value(array_buffer.detach_key(), JS::js_undefined()))
return false;
// 5. Return true.
return true;
}
// https://streams.spec.whatwg.org/#abstract-opdef-cloneasuint8array
WebIDL::ExceptionOr<JS::Value> clone_as_uint8_array(JS::Realm& realm, WebIDL::ArrayBufferView& view)
{
auto& vm = realm.vm();
// 1. Assert: Type(O) is Object.
// 2. Assert: O has an [[ViewedArrayBuffer]] internal slot.
// 3. Assert: ! IsDetachedBuffer(O.[[ViewedArrayBuffer]]) is false.
VERIFY(!view.viewed_array_buffer()->is_detached());
// 4. Let buffer be ? CloneArrayBuffer(O.[[ViewedArrayBuffer]], O.[[ByteOffset]], O.[[ByteLength]], %ArrayBuffer%).
auto* buffer = TRY(JS::clone_array_buffer(vm, *view.viewed_array_buffer(), view.byte_offset(), view.byte_length()));
// 5. Let array be ! Construct(%Uint8Array%, « buffer »).
auto array = MUST(JS::construct(vm, *realm.intrinsics().uint8_array_constructor(), buffer));
// 5. Return array.
return array;
}
// https://streams.spec.whatwg.org/#abstract-opdef-structuredclone
WebIDL::ExceptionOr<JS::Value> structured_clone(JS::Realm& realm, JS::Value value)
{
auto& vm = realm.vm();
// 1. Let serialized be ? StructuredSerialize(v).
auto serialized = TRY(HTML::structured_serialize(vm, value));
// 2. Return ? StructuredDeserialize(serialized, the current Realm).
return TRY(HTML::structured_deserialize(vm, serialized, realm, {}));
}
// https://streams.spec.whatwg.org/#close-sentinel
// Non-standard function that implements the "close sentinel" value.
JS::Value create_close_sentinel()
{
// The close sentinel is a unique value enqueued into [[queue]], in lieu of a chunk, to signal that the stream is closed. It is only used internally, and is never exposed to web developers.
// Note: We use the empty Value to signal this as, similarly to the note above, the empty value is not exposed to nor creatable by web developers.
return {};
}
// https://streams.spec.whatwg.org/#close-sentinel
// Non-standard function that implements the "If value is a close sentinel" check.
bool is_close_sentinel(JS::Value value)
{
return value.is_empty();
}
// Non-standard function to aid in converting a user-provided function into a WebIDL::Callback. This is essentially
// what the Bindings generator would do at compile time, but at runtime instead.
JS::ThrowCompletionOr<JS::Handle<WebIDL::CallbackType>> property_to_callback(JS::VM& vm, JS::Value value, JS::PropertyKey const& property_key, WebIDL::OperationReturnsPromise operation_returns_promise)
{
auto property = TRY(value.get(vm, property_key));
if (property.is_undefined())
return JS::Handle<WebIDL::CallbackType> {};
if (!property.is_function())
return vm.throw_completion<JS::TypeError>(JS::ErrorType::NotAFunction, property.to_string_without_side_effects());
return vm.heap().allocate_without_realm<WebIDL::CallbackType>(property.as_object(), HTML::incumbent_settings_object(), operation_returns_promise);
}
// https://streams.spec.whatwg.org/#set-up-readable-byte-stream-controller-from-underlying-source
WebIDL::ExceptionOr<void> set_up_readable_byte_stream_controller_from_underlying_source(ReadableStream& stream, JS::Value underlying_source, UnderlyingSource const& underlying_source_dict, double high_water_mark)
{
auto& realm = stream.realm();
// 1. Let controller be a new ReadableByteStreamController.
auto controller = stream.heap().allocate<ReadableByteStreamController>(realm, realm);
// 2. Let startAlgorithm be an algorithm that returns undefined.
auto start_algorithm = JS::create_heap_function(realm.heap(), []() -> WebIDL::ExceptionOr<JS::Value> { return JS::js_undefined(); });
// 3. Let pullAlgorithm be an algorithm that returns a promise resolved with undefined.
auto pull_algorithm = JS::create_heap_function(realm.heap(), [&realm]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 4. Let cancelAlgorithm be an algorithm that returns a promise resolved with undefined.
auto cancel_algorithm = JS::create_heap_function(realm.heap(), [&realm](JS::Value) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
return WebIDL::create_resolved_promise(realm, JS::js_undefined());
});
// 5. If underlyingSourceDict["start"] exists, then set startAlgorithm to an algorithm which returns the result of invoking underlyingSourceDict["start"] with argument list « controller » and callback this value underlyingSource.
if (underlying_source_dict.start) {
start_algorithm = JS::create_heap_function(realm.heap(), [controller, underlying_source, callback = underlying_source_dict.start]() -> WebIDL::ExceptionOr<JS::Value> {
// Note: callback does not return a promise, so invoke_callback may return an abrupt completion
return TRY(WebIDL::invoke_callback(*callback, underlying_source, controller)).release_value();
});
}
// 6. If underlyingSourceDict["pull"] exists, then set pullAlgorithm to an algorithm which returns the result of invoking underlyingSourceDict["pull"] with argument list « controller » and callback this value underlyingSource.
if (underlying_source_dict.pull) {
pull_algorithm = JS::create_heap_function(realm.heap(), [&realm, controller, underlying_source, callback = underlying_source_dict.pull]() -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback return a promise, so invoke_callback will never return an abrupt completion
auto result = MUST_OR_THROW_OOM(WebIDL::invoke_callback(*callback, underlying_source, controller)).release_value();
return WebIDL::create_resolved_promise(realm, result);
});
}
// 7. If underlyingSourceDict["cancel"] exists, then set cancelAlgorithm to an algorithm which takes an argument reason and returns the result of invoking underlyingSourceDict["cancel"] with argument list « reason » and callback this value underlyingSource.
if (underlying_source_dict.cancel) {
cancel_algorithm = JS::create_heap_function(realm.heap(), [&realm, underlying_source, callback = underlying_source_dict.cancel](JS::Value reason) -> WebIDL::ExceptionOr<JS::NonnullGCPtr<WebIDL::Promise>> {
// Note: callback return a promise, so invoke_callback will never return an abrupt completion
auto result = MUST_OR_THROW_OOM(WebIDL::invoke_callback(*callback, underlying_source, reason)).release_value();
return WebIDL::create_resolved_promise(realm, result);
});
}
// 8. Let autoAllocateChunkSize be underlyingSourceDict["autoAllocateChunkSize"], if it exists, or undefined otherwise.
auto auto_allocate_chunk_size = underlying_source_dict.auto_allocate_chunk_size.has_value()
? JS::Value(underlying_source_dict.auto_allocate_chunk_size.value())
: JS::js_undefined();
// 9. If autoAllocateChunkSize is 0, then throw a TypeError exception.
if (auto_allocate_chunk_size.is_integral_number() && auto_allocate_chunk_size.as_double() == 0)
return WebIDL::SimpleException { WebIDL::SimpleExceptionType::TypeError, "Cannot use an auto allocate chunk size of 0"sv };
// 10. Perform ? SetUpReadableByteStreamController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark, autoAllocateChunkSize).
return set_up_readable_byte_stream_controller(stream, controller, start_algorithm, pull_algorithm, cancel_algorithm, high_water_mark, auto_allocate_chunk_size);
}
}
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