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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "StreamUtils.h"
#include "mozilla/dom/ReadableStream.h"
#include "mozilla/dom/ReadableStreamDefaultController.h"
#include "mozilla/dom/ReadableByteStreamController.h"
#include "mozilla/dom/UnderlyingSourceCallbackHelpers.h"
#include "mozilla/dom/UnderlyingSourceBinding.h"
#include "mozilla/dom/WorkerCommon.h"
#include "mozilla/dom/WorkerPrivate.h"
#include "mozilla/dom/WorkerRunnable.h"
#include "js/experimental/TypedData.h"
#include "nsStreamUtils.h"
namespace mozilla::dom {
using namespace streams_abstract;
// UnderlyingSourceAlgorithmsBase
NS_IMPL_CYCLE_COLLECTION(UnderlyingSourceAlgorithmsBase)
NS_IMPL_CYCLE_COLLECTING_ADDREF(UnderlyingSourceAlgorithmsBase)
NS_IMPL_CYCLE_COLLECTING_RELEASE(UnderlyingSourceAlgorithmsBase)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(UnderlyingSourceAlgorithmsBase)
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
NS_IMPL_CYCLE_COLLECTION_INHERITED_WITH_JS_MEMBERS(
UnderlyingSourceAlgorithms, UnderlyingSourceAlgorithmsBase,
(mGlobal, mStartCallback, mPullCallback, mCancelCallback),
(mUnderlyingSource))
NS_IMPL_ADDREF_INHERITED(UnderlyingSourceAlgorithms,
UnderlyingSourceAlgorithmsBase)
NS_IMPL_RELEASE_INHERITED(UnderlyingSourceAlgorithms,
UnderlyingSourceAlgorithmsBase)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(UnderlyingSourceAlgorithms)
NS_INTERFACE_MAP_END_INHERITING(UnderlyingSourceAlgorithmsBase)
// https://streams.spec.whatwg.org/#set-up-readable-stream-default-controller-from-underlying-source
void UnderlyingSourceAlgorithms::StartCallback(
JSContext* aCx, ReadableStreamController& aController,
JS::MutableHandle<JS::Value> aRetVal, ErrorResult& aRv) {
if (!mStartCallback) {
// Step 2: Let startAlgorithm be an algorithm that returns undefined.
aRetVal.setUndefined();
return;
}
// Step 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.
JS::Rooted<JSObject*> thisObj(aCx, mUnderlyingSource);
ReadableStreamDefaultControllerOrReadableByteStreamController controller;
if (aController.IsDefault()) {
controller.SetAsReadableStreamDefaultController() = aController.AsDefault();
} else {
controller.SetAsReadableByteStreamController() = aController.AsByte();
}
return mStartCallback->Call(thisObj, controller, aRetVal, aRv,
"UnderlyingSource.start",
CallbackFunction::eRethrowExceptions);
}
// https://streams.spec.whatwg.org/#set-up-readable-stream-default-controller-from-underlying-source
already_AddRefed<Promise> UnderlyingSourceAlgorithms::PullCallback(
JSContext* aCx, ReadableStreamController& aController, ErrorResult& aRv) {
JS::Rooted<JSObject*> thisObj(aCx, mUnderlyingSource);
if (!mPullCallback) {
// Step 3: Let pullAlgorithm be an algorithm that returns a promise resolved
// with undefined.
return Promise::CreateResolvedWithUndefined(mGlobal, aRv);
}
// Step 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.
ReadableStreamDefaultControllerOrReadableByteStreamController controller;
if (aController.IsDefault()) {
controller.SetAsReadableStreamDefaultController() = aController.AsDefault();
} else {
controller.SetAsReadableByteStreamController() = aController.AsByte();
}
RefPtr<Promise> promise =
mPullCallback->Call(thisObj, controller, aRv, "UnderlyingSource.pull",
CallbackFunction::eRethrowExceptions);
return promise.forget();
}
// https://streams.spec.whatwg.org/#set-up-readable-stream-default-controller-from-underlying-source
already_AddRefed<Promise> UnderlyingSourceAlgorithms::CancelCallback(
JSContext* aCx, const Optional<JS::Handle<JS::Value>>& aReason,
ErrorResult& aRv) {
if (!mCancelCallback) {
// Step 4: Let cancelAlgorithm be an algorithm that returns a promise
// resolved with undefined.
return Promise::CreateResolvedWithUndefined(mGlobal, aRv);
}
// Step 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.
JS::Rooted<JSObject*> thisObj(aCx, mUnderlyingSource);
RefPtr<Promise> promise =
mCancelCallback->Call(thisObj, aReason, aRv, "UnderlyingSource.cancel",
CallbackFunction::eRethrowExceptions);
return promise.forget();
}
// Shared between:
// https://streams.spec.whatwg.org/#readablestream-set-up
// https://streams.spec.whatwg.org/#readablestream-set-up-with-byte-reading-support
// Step 1: Let startAlgorithm be an algorithm that returns undefined.
void UnderlyingSourceAlgorithmsWrapper::StartCallback(
JSContext*, ReadableStreamController&, JS::MutableHandle<JS::Value> aRetVal,
ErrorResult&) {
aRetVal.setUndefined();
}
// Shared between:
// https://streams.spec.whatwg.org/#readablestream-set-up
// https://streams.spec.whatwg.org/#readablestream-set-up-with-byte-reading-support
// Step 2: Let pullAlgorithmWrapper be an algorithm that runs these steps:
already_AddRefed<Promise> UnderlyingSourceAlgorithmsWrapper::PullCallback(
JSContext* aCx, ReadableStreamController& aController, ErrorResult& aRv) {
nsCOMPtr<nsIGlobalObject> global = aController.GetParentObject();
return PromisifyAlgorithm(
global,
[&](ErrorResult& aRv) MOZ_CAN_RUN_SCRIPT_FOR_DEFINITION {
return PullCallbackImpl(aCx, aController, aRv);
},
aRv);
}
// Shared between:
// https://streams.spec.whatwg.org/#readablestream-set-up
// https://streams.spec.whatwg.org/#readablestream-set-up-with-byte-reading-support
// Step 3: Let cancelAlgorithmWrapper be an algorithm that runs these steps:
already_AddRefed<Promise> UnderlyingSourceAlgorithmsWrapper::CancelCallback(
JSContext* aCx, const Optional<JS::Handle<JS::Value>>& aReason,
ErrorResult& aRv) {
nsCOMPtr<nsIGlobalObject> global = xpc::CurrentNativeGlobal(aCx);
return PromisifyAlgorithm(
global,
[&](ErrorResult& aRv) MOZ_CAN_RUN_SCRIPT_FOR_DEFINITION {
return CancelCallbackImpl(aCx, aReason, aRv);
},
aRv);
}
NS_IMPL_ISUPPORTS(InputStreamHolder, nsIInputStreamCallback)
InputStreamHolder::InputStreamHolder(nsIGlobalObject* aGlobal,
InputToReadableStreamAlgorithms* aCallback,
nsIAsyncInputStream* aInput)
: GlobalTeardownObserver(aGlobal), mCallback(aCallback), mInput(aInput) {}
void InputStreamHolder::Init(JSContext* aCx) {
if (!NS_IsMainThread()) {
// We're in a worker
WorkerPrivate* workerPrivate = GetWorkerPrivateFromContext(aCx);
MOZ_ASSERT(workerPrivate);
workerPrivate->AssertIsOnWorkerThread();
// Note, this will create a ref-cycle between the holder and the stream.
// The cycle is broken when the stream is closed or the worker begins
// shutting down.
mWorkerRef = StrongWorkerRef::Create(workerPrivate, "InputStreamHolder",
[self = RefPtr{this}]() {});
if (NS_WARN_IF(!mWorkerRef)) {
return;
}
}
}
InputStreamHolder::~InputStreamHolder() = default;
void InputStreamHolder::DisconnectFromOwner() {
Shutdown();
GlobalTeardownObserver::DisconnectFromOwner();
}
void InputStreamHolder::Shutdown() {
if (mInput) {
mInput->Close();
}
// NOTE(krosylight): Dropping mAsyncWaitAlgorithms here means letting cycle
// collection happen on the underlying source, which can cause a dangling
// read promise that never resolves. Doing so shouldn't be a problem at
// shutdown phase.
// Note that this is currently primarily for Fetch which does not explicitly
// close its streams at shutdown. (i.e. to prevent memory leak for cases e.g
// WPT /fetch/api/basic/stream-response.any.html)
mAsyncWaitAlgorithms = nullptr;
// If we have an AsyncWait running, we'll get a callback and clear
// the mAsyncWaitWorkerRef
mWorkerRef = nullptr;
}
nsresult InputStreamHolder::AsyncWait(uint32_t aFlags, uint32_t aRequestedCount,
nsIEventTarget* aEventTarget) {
nsresult rv = mInput->AsyncWait(this, aFlags, aRequestedCount, aEventTarget);
if (NS_SUCCEEDED(rv)) {
mAsyncWaitWorkerRef = mWorkerRef;
mAsyncWaitAlgorithms = mCallback;
}
return rv;
}
NS_IMETHODIMP InputStreamHolder::OnInputStreamReady(
nsIAsyncInputStream* aStream) {
mAsyncWaitWorkerRef = nullptr;
mAsyncWaitAlgorithms = nullptr;
// We may get called back after ::Shutdown()
if (mCallback) {
return mCallback->OnInputStreamReady(aStream);
}
return NS_ERROR_FAILURE;
}
NS_IMPL_ISUPPORTS_CYCLE_COLLECTION_INHERITED(InputToReadableStreamAlgorithms,
UnderlyingSourceAlgorithmsWrapper,
nsIInputStreamCallback)
NS_IMPL_CYCLE_COLLECTION_WEAK_PTR_INHERITED(InputToReadableStreamAlgorithms,
UnderlyingSourceAlgorithmsWrapper,
mPullPromise, mStream)
InputToReadableStreamAlgorithms::InputToReadableStreamAlgorithms(
JSContext* aCx, nsIAsyncInputStream* aInput, ReadableStream* aStream)
: mOwningEventTarget(GetCurrentSerialEventTarget()),
mInput(new InputStreamHolder(aStream->GetParentObject(), this, aInput)),
mStream(aStream) {
mInput->Init(aCx);
}
already_AddRefed<Promise> InputToReadableStreamAlgorithms::PullCallbackImpl(
JSContext* aCx, ReadableStreamController& aController, ErrorResult& aRv) {
MOZ_ASSERT(aController.IsByte());
ReadableStream* stream = aController.Stream();
MOZ_ASSERT(stream);
MOZ_DIAGNOSTIC_ASSERT(stream->Disturbed());
MOZ_DIAGNOSTIC_ASSERT(!IsClosed());
MOZ_ASSERT(!mPullPromise);
mPullPromise = Promise::CreateInfallible(aController.GetParentObject());
MOZ_DIAGNOSTIC_ASSERT(mInput);
nsresult rv = mInput->AsyncWait(0, 0, mOwningEventTarget);
if (NS_WARN_IF(NS_FAILED(rv))) {
ErrorPropagation(aCx, stream, rv);
return nullptr;
}
// All good.
return do_AddRef(mPullPromise);
}
// _BOUNDARY because OnInputStreamReady doesn't have [can-run-script]
MOZ_CAN_RUN_SCRIPT_BOUNDARY NS_IMETHODIMP
InputToReadableStreamAlgorithms::OnInputStreamReady(
nsIAsyncInputStream* aStream) {
MOZ_DIAGNOSTIC_ASSERT(aStream);
// Already closed. We have nothing else to do here.
if (IsClosed()) {
return NS_OK;
}
AutoEntryScript aes(mStream->GetParentObject(),
"InputToReadableStream data available");
MOZ_DIAGNOSTIC_ASSERT(mInput);
JSContext* cx = aes.cx();
uint64_t size = 0;
nsresult rv = mInput->Available(&size);
MOZ_ASSERT_IF(NS_SUCCEEDED(rv), size > 0);
// No warning for stream closed.
if (rv == NS_BASE_STREAM_CLOSED || NS_WARN_IF(NS_FAILED(rv))) {
ErrorPropagation(cx, mStream, rv);
return NS_OK;
}
// Not having a promise means we are pinged by stream closure
// (WAIT_CLOSURE_ONLY below), but here we still have more data to read. Let's
// wait for the next read request in that case.
if (!mPullPromise) {
return NS_OK;
}
MOZ_DIAGNOSTIC_ASSERT(mPullPromise->State() ==
Promise::PromiseState::Pending);
ErrorResult errorResult;
PullFromInputStream(cx, size, errorResult);
errorResult.WouldReportJSException();
if (errorResult.Failed()) {
ErrorPropagation(cx, mStream, errorResult.StealNSResult());
return NS_OK;
}
// PullFromInputStream can fulfill read request, which can trigger read
// request chunk steps, which again may execute JS. But it should be still
// safe from cycle collection as the caller nsIAsyncInputStream should hold
// the reference of `this`.
//
// That said, it's generally good to be cautious as there's no guarantee that
// the interface is implemented in the safest way.
MOZ_DIAGNOSTIC_ASSERT(mPullPromise);
if (mPullPromise) {
mPullPromise->MaybeResolveWithUndefined();
mPullPromise = nullptr;
}
MOZ_DIAGNOSTIC_ASSERT(mInput);
if (mInput) {
// Subscribe WAIT_CLOSURE_ONLY so that OnInputStreamReady can be called when
// mInput is closed.
rv = mInput->AsyncWait(nsIAsyncInputStream::WAIT_CLOSURE_ONLY, 0,
mOwningEventTarget);
if (NS_WARN_IF(NS_FAILED(rv))) {
ErrorPropagation(cx, mStream, errorResult.StealNSResult());
return NS_OK;
}
}
return NS_OK;
}
void InputToReadableStreamAlgorithms::WriteIntoReadRequestBuffer(
JSContext* aCx, ReadableStream* aStream, JS::Handle<JSObject*> aBuffer,
uint32_t aLength, uint32_t* aByteWritten, ErrorResult& aRv) {
MOZ_DIAGNOSTIC_ASSERT(aBuffer);
MOZ_DIAGNOSTIC_ASSERT(aByteWritten);
MOZ_DIAGNOSTIC_ASSERT(mInput);
MOZ_DIAGNOSTIC_ASSERT(!IsClosed());
MOZ_DIAGNOSTIC_ASSERT(mPullPromise->State() ==
Promise::PromiseState::Pending);
uint32_t written;
nsresult rv;
void* buffer;
{
// Bug 1754513: Hazard suppression.
//
// Because mInput->Read is detected as possibly GCing by the
// current state of our static hazard analysis, we need to do the
// suppression here. This can be removed with future improvements
// to the static analysis.
JS::AutoSuppressGCAnalysis suppress;
JS::AutoCheckCannotGC noGC;
bool isSharedMemory;
buffer = JS_GetArrayBufferViewData(aBuffer, &isSharedMemory, noGC);
MOZ_ASSERT(!isSharedMemory);
rv = mInput->Read(static_cast<char*>(buffer), aLength, &written);
if (NS_WARN_IF(NS_FAILED(rv))) {
aRv.Throw(rv);
return;
}
}
*aByteWritten = written;
if (written == 0) {
// If bytesWritten is zero, then the stream has been closed; return rather
// than enqueueing a chunk filled with zeros.
aRv.Throw(NS_BASE_STREAM_CLOSED);
return;
}
// All good.
}
// https://streams.spec.whatwg.org/#readablestream-pull-from-bytes
// This is a ReadableStream algorithm but will probably be used solely in
// InputToReadableStreamAlgorithms.
void InputToReadableStreamAlgorithms::PullFromInputStream(JSContext* aCx,
uint64_t aAvailable,
ErrorResult& aRv) {
// Step 1. Assert: stream.[[controller]] implements
// ReadableByteStreamController.
MOZ_ASSERT(mStream->Controller()->IsByte());
// Step 2. Let available be bytes’s length. (aAvailable)
// Step 3. Let desiredSize be available.
uint64_t desiredSize = aAvailable;
// Step 4. If stream’s current BYOB request view is non-null, then set
// desiredSize to stream’s current BYOB request view's byte length.
JS::Rooted<JSObject*> byobView(aCx);
mStream->GetCurrentBYOBRequestView(aCx, &byobView, aRv);
if (aRv.Failed()) {
return;
}
if (byobView) {
desiredSize = JS_GetArrayBufferViewByteLength(byobView);
}
// Step 5. Let pullSize be the smaller value of available and desiredSize.
//
// To avoid OOMing up on huge amounts of available data on a 32 bit system,
// as well as potentially overflowing nsIInputStream's Read method's
// parameter, let's limit our maximum chunk size to 256MB.
//
// (Note that nsIInputStream uses uint64_t for Available and uint32_t for
// Read.)
uint64_t pullSize = std::min(static_cast<uint64_t>(256 * 1024 * 1024),
std::min(aAvailable, desiredSize));
// Step 6. Let pulled be the first pullSize bytes of bytes.
// Step 7. Remove the first pullSize bytes from bytes.
//
// We do this in step 8 and 9, as we don't have a direct access to the data
// but need to let nsIInputStream to write into the view.
// Step 8. If stream’s current BYOB request view is non-null, then:
if (byobView) {
// Step 8.1. Write pulled into stream’s current BYOB request view.
uint32_t bytesWritten = 0;
WriteIntoReadRequestBuffer(aCx, mStream, byobView, pullSize, &bytesWritten,
aRv);
if (aRv.Failed()) {
return;
}
// Step 8.2. Perform ?
// ReadableByteStreamControllerRespond(stream.[[controller]], pullSize).
//
// But we do not use pullSize but use byteWritten here, since nsIInputStream
// does not guarantee to read as much as it told in Available().
MOZ_DIAGNOSTIC_ASSERT(pullSize == bytesWritten);
ReadableByteStreamControllerRespond(
aCx, MOZ_KnownLive(mStream->Controller()->AsByte()), bytesWritten, aRv);
}
// Step 9. Otherwise,
else {
// Step 9.1. Set view to the result of creating a Uint8Array from pulled in
// stream’s relevant Realm.
UniquePtr<uint8_t[], JS::FreePolicy> buffer(
static_cast<uint8_t*>(JS_malloc(aCx, pullSize)));
if (!buffer) {
aRv.ThrowTypeError("Out of memory");
return;
}
uint32_t bytesWritten = 0;
nsresult rv = mInput->Read((char*)buffer.get(), pullSize, &bytesWritten);
if (!bytesWritten) {
rv = NS_BASE_STREAM_CLOSED;
}
if (NS_FAILED(rv)) {
aRv.Throw(rv);
return;
}
MOZ_DIAGNOSTIC_ASSERT(pullSize == bytesWritten);
JS::Rooted<JSObject*> view(aCx, nsJSUtils::MoveBufferAsUint8Array(
aCx, bytesWritten, std::move(buffer)));
if (!view) {
JS_ClearPendingException(aCx);
aRv.ThrowTypeError("Out of memory");
return;
}
// Step 9.2. Perform ?
// ReadableByteStreamControllerEnqueue(stream.[[controller]], view).
ReadableByteStreamControllerEnqueue(
aCx, MOZ_KnownLive(mStream->Controller()->AsByte()), view, aRv);
}
}
void InputToReadableStreamAlgorithms::CloseAndReleaseObjects(
JSContext* aCx, ReadableStream* aStream) {
MOZ_DIAGNOSTIC_ASSERT(!IsClosed());
ReleaseObjects();
if (aStream->State() == ReadableStream::ReaderState::Readable) {
IgnoredErrorResult rv;
aStream->CloseNative(aCx, rv);
NS_WARNING_ASSERTION(!rv.Failed(), "Failed to Close Stream");
}
}
void InputToReadableStreamAlgorithms::ReleaseObjects() {
if (mInput) {
mInput->CloseWithStatus(NS_BASE_STREAM_CLOSED);
mInput->Shutdown();
mInput = nullptr;
}
// It's okay to leave a potentially unsettled promise as-is as this is only
// used to prevent reentrant to PullCallback. CloseNative() or ErrorNative()
// will settle the read requests for us.
mPullPromise = nullptr;
}
nsIInputStream* InputToReadableStreamAlgorithms::MaybeGetInputStreamIfUnread() {
MOZ_ASSERT(!mStream->Disturbed(),
"Should be only called on non-disturbed streams");
return mInput->GetInputStream();
}
void InputToReadableStreamAlgorithms::ErrorPropagation(JSContext* aCx,
ReadableStream* aStream,
nsresult aError) {
// Nothing to do.
if (IsClosed()) {
return;
}
// Let's close the stream.
if (aError == NS_BASE_STREAM_CLOSED) {
CloseAndReleaseObjects(aCx, aStream);
return;
}
// Let's use a generic error.
ErrorResult rv;
// XXXbz can we come up with a better error message here to tell the
// consumer what went wrong?
rv.ThrowTypeError("Error in input stream");
JS::Rooted<JS::Value> errorValue(aCx);
bool ok = ToJSValue(aCx, std::move(rv), &errorValue);
MOZ_RELEASE_ASSERT(ok, "ToJSValue never fails for ErrorResult");
{
// This will be ignored if it's already errored.
IgnoredErrorResult rv;
aStream->ErrorNative(aCx, errorValue, rv);
NS_WARNING_ASSERTION(!rv.Failed(), "Failed to error InputToReadableStream");
}
MOZ_ASSERT(IsClosed());
}
NS_IMPL_ISUPPORTS_CYCLE_COLLECTION_INHERITED_0(
NonAsyncInputToReadableStreamAlgorithms, UnderlyingSourceAlgorithmsWrapper)
NS_IMPL_CYCLE_COLLECTION_INHERITED(NonAsyncInputToReadableStreamAlgorithms,
UnderlyingSourceAlgorithmsWrapper,
mAsyncAlgorithms)
already_AddRefed<Promise>
NonAsyncInputToReadableStreamAlgorithms::PullCallbackImpl(
JSContext* aCx, ReadableStreamController& aController, ErrorResult& aRv) {
if (!mAsyncAlgorithms) {
nsCOMPtr<nsIAsyncInputStream> asyncStream;
// NS_MakeAsyncNonBlockingInputStream may immediately start a stream read
// via nsInputStreamTransport::OpenInputStream, which is why this should be
// called on a pull callback instead of in the constructor.
nsresult rv = NS_MakeAsyncNonBlockingInputStream(
mInput.forget(), getter_AddRefs(asyncStream));
if (NS_WARN_IF(NS_FAILED(rv))) {
aRv.Throw(rv);
return nullptr;
}
mAsyncAlgorithms = MakeRefPtr<InputToReadableStreamAlgorithms>(
aCx, asyncStream, aController.Stream());
}
MOZ_ASSERT(!mInput);
return mAsyncAlgorithms->PullCallbackImpl(aCx, aController, aRv);
}
} // namespace mozilla::dom
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