/* 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 https://mozilla.org/MPL/2.0/. */
#![allow(unsafe_code)]
#[cfg(feature = "webgpu")]
use std::ffi::c_void;
use std::marker::PhantomData;
#[cfg(feature = "webgpu")]
use std::ops::Range;
use std::ptr;
#[cfg(feature = "webgpu")]
use std::sync::Arc;
#[cfg(feature = "webgpu")]
use js::jsapi::NewExternalArrayBuffer;
use js::jsapi::{
ArrayBufferClone, ArrayBufferCopyData, GetArrayBufferByteLength,
HasDefinedArrayBufferDetachKey, Heap, IsArrayBufferObject, IsDetachedArrayBufferObject,
JS_ClearPendingException, JS_GetArrayBufferViewBuffer, JS_GetArrayBufferViewByteLength,
JS_GetArrayBufferViewByteOffset, JS_GetArrayBufferViewType, JS_GetPendingException,
JS_GetTypedArrayLength, JS_IsArrayBufferViewObject, JS_IsTypedArrayObject,
JS_NewBigInt64ArrayWithBuffer, JS_NewBigUint64ArrayWithBuffer, JS_NewDataView,
JS_NewFloat16ArrayWithBuffer, JS_NewFloat32ArrayWithBuffer, JS_NewFloat64ArrayWithBuffer,
JS_NewInt8ArrayWithBuffer, JS_NewInt16ArrayWithBuffer, JS_NewInt32ArrayWithBuffer,
JS_NewUint8ArrayWithBuffer, JS_NewUint8ClampedArrayWithBuffer, JS_NewUint16ArrayWithBuffer,
JS_NewUint32ArrayWithBuffer, JSObject, NewArrayBuffer, NewArrayBufferWithContents,
StealArrayBufferContents, Type,
};
use js::jsval::{ObjectValue, UndefinedValue};
use js::rust::wrappers::DetachArrayBuffer;
use js::rust::{
CustomAutoRooterGuard, Handle, MutableHandleObject,
MutableHandleValue as SafeMutableHandleValue,
};
#[cfg(feature = "webgpu")]
use js::typedarray::{ArrayBuffer, HeapArrayBuffer};
use js::typedarray::{
ArrayBufferU8, ArrayBufferViewU8, CreateWith, TypedArray, TypedArrayElement,
TypedArrayElementCreator,
};
use crate::dom::bindings::error::{Error, Fallible};
#[cfg(feature = "webgpu")]
use crate::dom::globalscope::GlobalScope;
use crate::script_runtime::{CanGc, JSContext};
// Represents a `BufferSource` as defined in the WebIDL specification.
///
/// A `BufferSource` is either an `ArrayBuffer` or an `ArrayBufferView`, which
/// provides a view onto an `ArrayBuffer`.
///
/// See: <https://webidl.spec.whatwg.org/#BufferSource>
#[derive(PartialEq)]
pub(crate) enum BufferSource {
/// Represents an `ArrayBufferView` (e.g., `Uint8Array`, `DataView`).
/// See: <https://webidl.spec.whatwg.org/#ArrayBufferView>
ArrayBufferView(Box<Heap<*mut JSObject>>),
/// Represents an `ArrayBuffer`, a fixed-length binary data buffer.
/// See: <https://webidl.spec.whatwg.org/#idl-ArrayBuffer>
ArrayBuffer(Box<Heap<*mut JSObject>>),
}
pub(crate) fn create_heap_buffer_source_with_length<T>(
cx: JSContext,
len: u32,
can_gc: CanGc,
) -> Fallible<HeapBufferSource<T>>
where
T: TypedArrayElement + TypedArrayElementCreator,
T::Element: Clone + Copy,
{
rooted!(in (*cx) let mut array = ptr::null_mut::<JSObject>());
let typed_array_result =
create_buffer_source_with_length::<T>(cx, len as usize, array.handle_mut(), can_gc);
if typed_array_result.is_err() {
return Err(Error::JSFailed);
}
Ok(HeapBufferSource::<T>::new(BufferSource::ArrayBufferView(
Heap::boxed(*array.handle()),
)))
}
pub(crate) struct HeapBufferSource<T> {
buffer_source: BufferSource,
phantom: PhantomData<T>,
}
impl<T> Eq for HeapBufferSource<T> where T: TypedArrayElement {}
impl<T> PartialEq for HeapBufferSource<T>
where
T: TypedArrayElement,
{
fn eq(&self, other: &Self) -> bool {
match &self.buffer_source {
BufferSource::ArrayBufferView(heap) | BufferSource::ArrayBuffer(heap) => match &other
.buffer_source
{
BufferSource::ArrayBufferView(from_heap) | BufferSource::ArrayBuffer(from_heap) => unsafe {
heap.handle() == from_heap.handle()
},
},
}
}
}
impl<T> HeapBufferSource<T>
where
T: TypedArrayElement,
{
pub(crate) fn new(buffer_source: BufferSource) -> HeapBufferSource<T> {
HeapBufferSource {
buffer_source,
phantom: PhantomData,
}
}
pub(crate) fn from_view(
chunk: CustomAutoRooterGuard<TypedArray<T, *mut JSObject>>,
) -> HeapBufferSource<T> {
HeapBufferSource::<T>::new(BufferSource::ArrayBufferView(Heap::boxed(unsafe {
*chunk.underlying_object()
})))
}
pub(crate) fn default() -> Self {
HeapBufferSource {
buffer_source: BufferSource::ArrayBufferView(Heap::boxed(std::ptr::null_mut())),
phantom: PhantomData,
}
}
pub(crate) fn is_initialized(&self) -> bool {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer) => {
!buffer.get().is_null()
},
}
}
pub(crate) fn get_typed_array(&self) -> Result<TypedArray<T, *mut JSObject>, ()> {
TypedArray::from(match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer) => {
buffer.get()
},
})
}
pub(crate) fn get_buffer_view_value(
&self,
cx: JSContext,
mut handle_mut: SafeMutableHandleValue,
) {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => {
rooted!(in(*cx) let value = ObjectValue(buffer.get()));
handle_mut.set(*value);
},
BufferSource::ArrayBuffer(_) => {
unreachable!("BufferSource::ArrayBuffer does not have a view buffer.")
},
}
}
pub(crate) fn get_array_buffer_view_buffer(
&self,
cx: JSContext,
) -> HeapBufferSource<ArrayBufferU8> {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => unsafe {
let mut is_shared = false;
rooted!(in (*cx) let view_buffer =
JS_GetArrayBufferViewBuffer(*cx, buffer.handle(), &mut is_shared));
HeapBufferSource::<ArrayBufferU8>::new(BufferSource::ArrayBuffer(Heap::boxed(
*view_buffer.handle(),
)))
},
BufferSource::ArrayBuffer(_) => {
unreachable!("BufferSource::ArrayBuffer does not have a view buffer.")
},
}
}
/// <https://tc39.es/ecma262/#sec-detacharraybuffer>
pub(crate) fn detach_buffer(&self, cx: JSContext) -> bool {
assert!(self.is_initialized());
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => {
let mut is_shared = false;
unsafe {
// assert buffer is an ArrayBuffer view
assert!(JS_IsArrayBufferViewObject(*buffer.handle()));
rooted!(in (*cx) let view_buffer =
JS_GetArrayBufferViewBuffer(*cx, buffer.handle(), &mut is_shared));
// This buffer is always created unshared
debug_assert!(!is_shared);
// Detach the ArrayBuffer
DetachArrayBuffer(*cx, view_buffer.handle())
}
},
BufferSource::ArrayBuffer(buffer) => unsafe {
DetachArrayBuffer(*cx, Handle::from_raw(buffer.handle()))
},
}
}
pub(crate) fn typed_array_to_option(&self) -> Option<TypedArray<T, *mut JSObject>> {
if self.is_initialized() {
self.get_typed_array().ok()
} else {
warn!("Buffer not initialized.");
None
}
}
pub(crate) fn is_detached_buffer(&self, cx: JSContext) -> bool {
assert!(self.is_initialized());
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => {
let mut is_shared = false;
unsafe {
assert!(JS_IsArrayBufferViewObject(*buffer.handle()));
rooted!(in (*cx) let view_buffer =
JS_GetArrayBufferViewBuffer(*cx, buffer.handle(), &mut is_shared));
debug_assert!(!is_shared);
IsDetachedArrayBufferObject(*view_buffer.handle())
}
},
BufferSource::ArrayBuffer(buffer) => unsafe {
IsDetachedArrayBufferObject(*buffer.handle())
},
}
}
pub(crate) fn viewed_buffer_array_byte_length(&self, cx: JSContext) -> usize {
assert!(self.is_initialized());
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => {
let mut is_shared = false;
unsafe {
assert!(JS_IsArrayBufferViewObject(*buffer.handle()));
rooted!(in (*cx) let view_buffer =
JS_GetArrayBufferViewBuffer(*cx, buffer.handle(), &mut is_shared));
debug_assert!(!is_shared);
GetArrayBufferByteLength(*view_buffer.handle())
}
},
BufferSource::ArrayBuffer(buffer) => unsafe {
GetArrayBufferByteLength(*buffer.handle())
},
}
}
pub(crate) fn byte_length(&self) -> usize {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => unsafe {
JS_GetArrayBufferViewByteLength(*buffer.handle())
},
BufferSource::ArrayBuffer(buffer) => unsafe {
GetArrayBufferByteLength(*buffer.handle())
},
}
}
pub(crate) fn get_byte_offset(&self) -> usize {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => unsafe {
JS_GetArrayBufferViewByteOffset(*buffer.handle())
},
BufferSource::ArrayBuffer(_) => {
unreachable!("BufferSource::ArrayBuffer does not have a byte offset.")
},
}
}
pub(crate) fn get_typed_array_length(&self) -> usize {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => unsafe {
JS_GetTypedArrayLength(*buffer.handle())
},
BufferSource::ArrayBuffer(_) => {
unreachable!("BufferSource::ArrayBuffer does not have a length.")
},
}
}
/// <https://tc39.es/ecma262/#typedarray>
pub(crate) fn has_typed_array_name(&self) -> bool {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => unsafe {
JS_IsTypedArrayObject(*buffer.handle())
},
BufferSource::ArrayBuffer(_) => false,
}
}
pub(crate) fn get_array_buffer_view_type(&self) -> Type {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) => unsafe {
JS_GetArrayBufferViewType(*buffer.handle())
},
BufferSource::ArrayBuffer(_) => unreachable!("ArrayBuffer does not have a view type."),
}
}
pub(crate) fn is_array_buffer_object(&self) -> bool {
match &self.buffer_source {
BufferSource::ArrayBufferView(heap) | BufferSource::ArrayBuffer(heap) => unsafe {
IsArrayBufferObject(*heap.handle())
},
}
}
}
impl<T> HeapBufferSource<T>
where
T: TypedArrayElement + TypedArrayElementCreator,
T::Element: Clone + Copy,
{
pub(crate) fn acquire_data(&self, cx: JSContext) -> Result<Vec<T::Element>, ()> {
assert!(self.is_initialized());
typedarray!(in(*cx) let array: TypedArray = match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer)
=> {
buffer.get()
},
});
let data = if let Ok(array) =
array as Result<CustomAutoRooterGuard<'_, TypedArray<T, *mut JSObject>>, &mut ()>
{
let data = array.to_vec();
let _ = self.detach_buffer(cx);
Ok(data)
} else {
Err(())
};
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer) => {
buffer.set(ptr::null_mut());
},
}
data
}
pub(crate) fn copy_data_to(
&self,
cx: JSContext,
dest: &mut [T::Element],
source_start: usize,
length: usize,
) -> Result<(), ()> {
assert!(self.is_initialized());
typedarray!(in(*cx) let array: TypedArray = match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer)
=> {
buffer.get()
},
});
let Ok(array) =
array as Result<CustomAutoRooterGuard<'_, TypedArray<T, *mut JSObject>>, &mut ()>
else {
return Err(());
};
unsafe {
let slice = (*array).as_slice();
dest.copy_from_slice(&slice[source_start..length]);
}
Ok(())
}
pub(crate) fn copy_data_from(
&self,
cx: JSContext,
source: CustomAutoRooterGuard<TypedArray<T, *mut JSObject>>,
dest_start: usize,
length: usize,
) -> Result<(), ()> {
assert!(self.is_initialized());
typedarray!(in(*cx) let mut array: TypedArray = match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer)
=> {
buffer.get()
},
});
let Ok(mut array) =
array as Result<CustomAutoRooterGuard<'_, TypedArray<T, *mut JSObject>>, &mut ()>
else {
return Err(());
};
unsafe {
let slice = (*array).as_mut_slice();
let (_, dest) = slice.split_at_mut(dest_start);
dest[0..length].copy_from_slice(&source.as_slice()[0..length])
}
Ok(())
}
pub(crate) fn set_data(
&self,
cx: JSContext,
data: &[T::Element],
can_gc: CanGc,
) -> Result<(), ()> {
rooted!(in (*cx) let mut array = ptr::null_mut::<JSObject>());
let _: TypedArray<T, *mut JSObject> =
create_buffer_source(cx, data, array.handle_mut(), can_gc)?;
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer) => {
buffer.set(*array);
},
}
Ok(())
}
/// <https://tc39.es/ecma262/#sec-clonearraybuffer>
pub(crate) fn clone_array_buffer(
&self,
cx: JSContext,
byte_offset: usize,
byte_length: usize,
) -> Option<HeapBufferSource<ArrayBufferU8>> {
match &self.buffer_source {
BufferSource::ArrayBufferView(heap) | BufferSource::ArrayBuffer(heap) => {
let result =
unsafe { ArrayBufferClone(*cx, heap.handle(), byte_offset, byte_length) };
if result.is_null() {
None
} else {
Some(HeapBufferSource::<ArrayBufferU8>::new(
BufferSource::ArrayBuffer(Heap::boxed(result)),
))
}
},
}
}
/// <https://streams.spec.whatwg.org/#abstract-opdef-cancopydatablockbytes>
// CanCopyDataBlockBytes(descriptorBuffer, destStart, queueBuffer, queueByteOffset, bytesToCopy)
pub(crate) fn can_copy_data_block_bytes(
&self,
cx: JSContext,
to_index: usize,
from_buffer: &HeapBufferSource<ArrayBufferU8>,
from_index: usize,
bytes_to_copy: usize,
) -> bool {
// Assert: toBuffer is an Object.
// Assert: toBuffer has an [[ArrayBufferData]] internal slot.
assert!(self.is_array_buffer_object());
// Assert: fromBuffer is an Object.
// Assert: fromBuffer has an [[ArrayBufferData]] internal slot.
assert!(from_buffer.is_array_buffer_object());
// If toBuffer is fromBuffer, return false.
match &self.buffer_source {
BufferSource::ArrayBufferView(heap) | BufferSource::ArrayBuffer(heap) => {
match &from_buffer.buffer_source {
BufferSource::ArrayBufferView(from_heap) |
BufferSource::ArrayBuffer(from_heap) => {
unsafe {
if heap.handle() == from_heap.handle() {
return false;
}
};
},
}
},
}
// If ! IsDetachedBuffer(toBuffer) is true, return false.
if self.is_detached_buffer(cx) {
return false;
}
// If ! IsDetachedBuffer(fromBuffer) is true, return false.
if from_buffer.is_detached_buffer(cx) {
return false;
}
// If toIndex + count > toBuffer.[[ArrayBufferByteLength]], return false.
if to_index + bytes_to_copy > self.byte_length() {
return false;
}
// If fromIndex + count > fromBuffer.[[ArrayBufferByteLength]], return false.
if from_index + bytes_to_copy > from_buffer.byte_length() {
return false;
}
// Return true.
true
}
pub(crate) fn copy_data_block_bytes(
&self,
cx: JSContext,
dest_start: usize,
from_buffer: &HeapBufferSource<ArrayBufferU8>,
from_byte_offset: usize,
bytes_to_copy: usize,
) -> bool {
match &self.buffer_source {
BufferSource::ArrayBufferView(heap) | BufferSource::ArrayBuffer(heap) => unsafe {
match &from_buffer.buffer_source {
BufferSource::ArrayBufferView(from_heap) |
BufferSource::ArrayBuffer(from_heap) => ArrayBufferCopyData(
*cx,
heap.handle(),
dest_start,
from_heap.handle(),
from_byte_offset,
bytes_to_copy,
),
}
},
}
}
/// <https://streams.spec.whatwg.org/#can-transfer-array-buffer>
pub(crate) fn can_transfer_array_buffer(&self, cx: JSContext) -> bool {
// Assert: O is an Object.
// Assert: O has an [[ArrayBufferData]] internal slot.
assert!(self.is_array_buffer_object());
// If ! IsDetachedBuffer(O) is true, return false.
if self.is_detached_buffer(cx) {
return false;
}
// If SameValue(O.[[ArrayBufferDetachKey]], undefined) is false, return false.
// Return true.
let mut is_defined = false;
match &self.buffer_source {
BufferSource::ArrayBufferView(heap) | BufferSource::ArrayBuffer(heap) => unsafe {
if !HasDefinedArrayBufferDetachKey(*cx, heap.handle(), &mut is_defined) {
return false;
}
},
}
!is_defined
}
/// <https://streams.spec.whatwg.org/#transfer-array-buffer>
pub(crate) fn transfer_array_buffer(
&self,
cx: JSContext,
) -> Fallible<HeapBufferSource<ArrayBufferU8>> {
assert!(self.is_array_buffer_object());
// Assert: ! IsDetachedBuffer(O) is false.
assert!(!self.is_detached_buffer(cx));
// Let arrayBufferByteLength be O.[[ArrayBufferByteLength]].
// Step 3 (Reordered)
let buffer_length = self.byte_length();
// Let arrayBufferData be O.[[ArrayBufferData]].
// Step 2 (Reordered)
let buffer_data = match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer) => unsafe {
StealArrayBufferContents(*cx, buffer.handle())
},
};
// Perform ? DetachArrayBuffer(O).
// This will throw an exception if O has an [[ArrayBufferDetachKey]] that is not undefined,
// such as a WebAssembly.Memory’s buffer. [WASM-JS-API-1]
if !self.detach_buffer(cx) {
rooted!(in(*cx) let mut rval = UndefinedValue());
unsafe {
assert!(JS_GetPendingException(*cx, rval.handle_mut().into()));
JS_ClearPendingException(*cx)
};
Err(Error::Type("can't transfer array buffer".to_owned()))
} else {
// 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.
Ok(HeapBufferSource::<ArrayBufferU8>::new(
BufferSource::ArrayBuffer(Heap::boxed(unsafe {
NewArrayBufferWithContents(*cx, buffer_length, buffer_data)
})),
))
}
}
}
unsafe impl<T> crate::dom::bindings::trace::JSTraceable for HeapBufferSource<T> {
#[inline]
unsafe fn trace(&self, tracer: *mut js::jsapi::JSTracer) {
match &self.buffer_source {
BufferSource::ArrayBufferView(buffer) | BufferSource::ArrayBuffer(buffer) => {
buffer.trace(tracer);
},
}
}
}
/// <https://webidl.spec.whatwg.org/#arraybufferview-create>
pub(crate) fn create_buffer_source<T>(
cx: JSContext,
data: &[T::Element],
mut dest: MutableHandleObject,
_can_gc: CanGc,
) -> Result<TypedArray<T, *mut JSObject>, ()>
where
T: TypedArrayElement + TypedArrayElementCreator,
{
let res = unsafe {
TypedArray::<T, *mut JSObject>::create(*cx, CreateWith::Slice(data), dest.reborrow())
};
if res.is_err() {
Err(())
} else {
TypedArray::from(dest.get())
}
}
fn create_buffer_source_with_length<T>(
cx: JSContext,
len: usize,
mut dest: MutableHandleObject,
_can_gc: CanGc,
) -> Result<TypedArray<T, *mut JSObject>, ()>
where
T: TypedArrayElement + TypedArrayElementCreator,
{
let res = unsafe {
TypedArray::<T, *mut JSObject>::create(*cx, CreateWith::Length(len), dest.reborrow())
};
if res.is_err() {
Err(())
} else {
TypedArray::from(dest.get())
}
}
pub(crate) fn byte_size(byte_type: Type) -> u64 {
match byte_type {
Type::Int8 | Type::Uint8 | Type::Uint8Clamped => 1,
Type::Int16 | Type::Uint16 | Type::Float16 => 2,
Type::Int32 | Type::Uint32 | Type::Float32 => 4,
Type::Int64 | Type::Float64 | Type::BigInt64 | Type::BigUint64 => 8,
Type::Simd128 => 16,
_ => unreachable!("invalid scalar type"),
}
}
#[derive(Clone, Eq, JSTraceable, MallocSizeOf, PartialEq)]
pub(crate) enum Constructor {
DataView,
Name(
#[ignore_malloc_size_of = "mozjs"]
#[no_trace]
Type,
),
}
pub(crate) fn create_buffer_source_with_constructor(
cx: JSContext,
constructor: &Constructor,
buffer_source: &HeapBufferSource<ArrayBufferU8>,
byte_offset: usize,
byte_length: usize,
) -> Fallible<HeapBufferSource<ArrayBufferViewU8>> {
match &buffer_source.buffer_source {
BufferSource::ArrayBuffer(heap) => match constructor {
Constructor::DataView => Ok(HeapBufferSource::new(BufferSource::ArrayBufferView(
Heap::boxed(unsafe {
JS_NewDataView(*cx, heap.handle(), byte_offset, byte_length)
}),
))),
Constructor::Name(name_type) => construct_typed_array(
cx,
name_type,
buffer_source,
byte_offset,
byte_length as i64,
),
},
BufferSource::ArrayBufferView(_) => {
unreachable!("Can not create a new ArrayBufferView from an existing ArrayBufferView");
},
}
}
/// Helper function to construct different TypedArray views
fn construct_typed_array(
cx: JSContext,
name_type: &Type,
buffer_source: &HeapBufferSource<ArrayBufferU8>,
byte_offset: usize,
byte_length: i64,
) -> Fallible<HeapBufferSource<ArrayBufferViewU8>> {
match &buffer_source.buffer_source {
BufferSource::ArrayBuffer(heap) => {
let array_view = unsafe {
match name_type {
Type::Int8 => {
JS_NewInt8ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Uint8 => {
JS_NewUint8ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Uint16 => {
JS_NewUint16ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Int16 => {
JS_NewInt16ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Int32 => {
JS_NewInt32ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Uint32 => {
JS_NewUint32ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Float32 => {
JS_NewFloat32ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Float64 => {
JS_NewFloat64ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Uint8Clamped => JS_NewUint8ClampedArrayWithBuffer(
*cx,
heap.handle(),
byte_offset,
byte_length,
),
Type::BigInt64 => {
JS_NewBigInt64ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::BigUint64 => {
JS_NewBigUint64ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Float16 => {
JS_NewFloat16ArrayWithBuffer(*cx, heap.handle(), byte_offset, byte_length)
},
Type::Int64 | Type::Simd128 | Type::MaxTypedArrayViewType => {
unreachable!("Invalid TypedArray type")
},
}
};
Ok(HeapBufferSource::new(BufferSource::ArrayBufferView(
Heap::boxed(array_view),
)))
},
BufferSource::ArrayBufferView(_) => {
unreachable!("Can not create a new ArrayBufferView from an existing ArrayBufferView");
},
}
}
pub(crate) fn create_array_buffer_with_size(
cx: JSContext,
size: usize,
) -> Fallible<HeapBufferSource<ArrayBufferU8>> {
let result = unsafe { NewArrayBuffer(*cx, size) };
if result.is_null() {
rooted!(in(*cx) let mut rval = UndefinedValue());
unsafe {
assert!(JS_GetPendingException(*cx, rval.handle_mut().into()));
JS_ClearPendingException(*cx)
};
Err(Error::Type("can't create array buffer".to_owned()))
} else {
Ok(HeapBufferSource::<ArrayBufferU8>::new(
BufferSource::ArrayBuffer(Heap::boxed(result)),
))
}
}
#[cfg(feature = "webgpu")]
#[derive(JSTraceable, MallocSizeOf)]
pub(crate) struct DataBlock {
#[ignore_malloc_size_of = "Arc"]
data: Arc<Box<[u8]>>,
/// Data views (mutable subslices of data)
data_views: Vec<DataView>,
}
/// Returns true if two non-inclusive ranges overlap
// https://stackoverflow.com/questions/3269434/whats-the-most-efficient-way-to-test-if-two-ranges-overlap
#[cfg(feature = "webgpu")]
fn range_overlap<T: std::cmp::PartialOrd>(range1: &Range<T>, range2: &Range<T>) -> bool {
range1.start < range2.end && range2.start < range1.end
}
#[cfg(feature = "webgpu")]
impl DataBlock {
pub(crate) fn new_zeroed(size: usize) -> Self {
let data = vec![0; size];
Self {
data: Arc::new(data.into_boxed_slice()),
data_views: Vec::new(),
}
}
/// Panics if there is any active view or src data is not same length
pub(crate) fn load(&mut self, src: &[u8]) {
// `Arc::get_mut` ensures there are no views
Arc::get_mut(&mut self.data).unwrap().clone_from_slice(src)
}
/// Panics if there is any active view
pub(crate) fn data(&mut self) -> &mut [u8] {
// `Arc::get_mut` ensures there are no views
Arc::get_mut(&mut self.data).unwrap()
}
pub(crate) fn clear_views(&mut self) {
self.data_views.clear()
}
/// Returns error if requested range is already mapped
pub(crate) fn view(&mut self, range: Range<usize>, _can_gc: CanGc) -> Result<&DataView, ()> {
if self
.data_views
.iter()
.any(|view| range_overlap(&view.range, &range))
{
return Err(());
}
let cx = GlobalScope::get_cx();
/// `freeFunc()` must be threadsafe, should be safely callable from any thread
/// without causing conflicts, unexpected behavior.
unsafe extern "C" fn free_func(_contents: *mut c_void, free_user_data: *mut c_void) {
// Clippy warns about "creating a `Arc` from a void raw pointer" here, but suggests
// the exact same line to fix it. Doing the cast is tricky because of the use of
// a generic type in this parameter.
#[allow(clippy::from_raw_with_void_ptr)]
drop(Arc::from_raw(free_user_data as *const _));
}
let raw: *mut Box<[u8]> = Arc::into_raw(Arc::clone(&self.data)) as _;
rooted!(in(*cx) let object = unsafe {
NewExternalArrayBuffer(
*cx,
range.end - range.start,
// SAFETY: This is safe because we have checked there is no overlapping view
(*raw)[range.clone()].as_mut_ptr() as _,
Some(free_func),
raw as _,
)
});
self.data_views.push(DataView {
range,
buffer: HeapArrayBuffer::from(*object).unwrap(),
});
Ok(self.data_views.last().unwrap())
}
}
#[cfg(feature = "webgpu")]
#[derive(JSTraceable, MallocSizeOf)]
pub(crate) struct DataView {
#[no_trace]
range: Range<usize>,
#[ignore_malloc_size_of = "defined in mozjs"]
buffer: HeapArrayBuffer,
}
#[cfg(feature = "webgpu")]
impl DataView {
pub(crate) fn array_buffer(&self) -> ArrayBuffer {
unsafe { ArrayBuffer::from(self.buffer.underlying_object().get()).unwrap() }
}
}
#[cfg(feature = "webgpu")]
impl Drop for DataView {
#[allow(unsafe_code)]
fn drop(&mut self) {
let cx = GlobalScope::get_cx();
assert!(unsafe {
js::jsapi::DetachArrayBuffer(*cx, self.buffer.underlying_object().handle())
})
}
}