ladybird/Userland/Libraries/LibJS/Runtime/ArrayBuffer.h

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/*
* Copyright (c) 2020-2022, Linus Groh <linusg@serenityos.org>
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*
* SPDX-License-Identifier: BSD-2-Clause
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*/
#pragma once
#include <AK/ByteBuffer.h>
#include <AK/Function.h>
#include <AK/Variant.h>
#include <LibJS/Runtime/Completion.h>
#include <LibJS/Runtime/GlobalObject.h>
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#include <LibJS/Runtime/Object.h>
namespace JS {
struct ClampedU8 {
};
// 25.1.1 Notation (read-modify-write modification function), https://tc39.es/ecma262/#sec-arraybuffer-notation
using ReadWriteModifyFunction = Function<ByteBuffer(ByteBuffer, ByteBuffer)>;
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class ArrayBuffer : public Object {
JS_OBJECT(ArrayBuffer, Object);
public:
static ThrowCompletionOr<ArrayBuffer*> create(Realm&, size_t);
static ArrayBuffer* create(Realm&, ByteBuffer);
static ArrayBuffer* create(Realm&, ByteBuffer*);
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ArrayBuffer(ByteBuffer buffer, Object& prototype);
ArrayBuffer(ByteBuffer* buffer, Object& prototype);
virtual ~ArrayBuffer() override = default;
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size_t byte_length() const { return buffer_impl().size(); }
ByteBuffer& buffer() { return buffer_impl(); }
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ByteBuffer const& buffer() const { return buffer_impl(); }
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// Used by allocate_array_buffer() to attach the data block after construction
void set_buffer(ByteBuffer buffer) { m_buffer = move(buffer); }
Value detach_key() const { return m_detach_key; }
void set_detach_key(Value detach_key) { m_detach_key = detach_key; }
void detach_buffer() { m_buffer = Empty {}; }
bool is_detached() const { return m_buffer.has<Empty>(); }
enum Order {
SeqCst,
Unordered
};
template<typename type>
Value get_value(size_t byte_index, bool is_typed_array, Order, bool is_little_endian = true);
template<typename type>
void set_value(size_t byte_index, Value value, bool is_typed_array, Order, bool is_little_endian = true);
template<typename T>
Value get_modify_set_value(size_t byte_index, Value value, ReadWriteModifyFunction operation, bool is_little_endian = true);
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private:
virtual void visit_edges(Visitor&) override;
ByteBuffer& buffer_impl()
{
ByteBuffer* ptr { nullptr };
m_buffer.visit([&](Empty) { VERIFY_NOT_REACHED(); }, [&](auto* pointer) { ptr = pointer; }, [&](auto& value) { ptr = &value; });
return *ptr;
}
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ByteBuffer const& buffer_impl() const { return const_cast<ArrayBuffer*>(this)->buffer_impl(); }
Variant<Empty, ByteBuffer, ByteBuffer*> m_buffer;
// The various detach related members of ArrayBuffer are not used by any ECMA262 functionality,
// but are required to be available for the use of various harnesses like the Test262 test runner.
Value m_detach_key;
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};
ThrowCompletionOr<ArrayBuffer*> allocate_array_buffer(VM&, FunctionObject& constructor, size_t byte_length);
ThrowCompletionOr<void> detach_array_buffer(VM&, ArrayBuffer& array_buffer, Optional<Value> key = {});
ThrowCompletionOr<ArrayBuffer*> clone_array_buffer(VM&, ArrayBuffer& source_buffer, size_t source_byte_offset, size_t source_length);
// 25.1.2.9 RawBytesToNumeric ( type, rawBytes, isLittleEndian ), https://tc39.es/ecma262/#sec-rawbytestonumeric
template<typename T>
static Value raw_bytes_to_numeric(VM& vm, ByteBuffer raw_value, bool is_little_endian)
{
if (!is_little_endian) {
VERIFY(raw_value.size() % 2 == 0);
for (size_t i = 0; i < raw_value.size() / 2; ++i)
swap(raw_value[i], raw_value[raw_value.size() - 1 - i]);
}
using UnderlyingBufferDataType = Conditional<IsSame<ClampedU8, T>, u8, T>;
if constexpr (IsSame<UnderlyingBufferDataType, float>) {
float value;
raw_value.span().copy_to({ &value, sizeof(float) });
if (isnan(value))
return js_nan();
return Value(value);
}
if constexpr (IsSame<UnderlyingBufferDataType, double>) {
double value;
raw_value.span().copy_to({ &value, sizeof(double) });
if (isnan(value))
return js_nan();
return Value(value);
}
if constexpr (!IsIntegral<UnderlyingBufferDataType>)
VERIFY_NOT_REACHED();
UnderlyingBufferDataType int_value = 0;
raw_value.span().copy_to({ &int_value, sizeof(UnderlyingBufferDataType) });
if constexpr (sizeof(UnderlyingBufferDataType) == 8) {
if constexpr (IsSigned<UnderlyingBufferDataType>)
return js_bigint(vm, Crypto::SignedBigInteger::create_from(int_value));
else
return js_bigint(vm, Crypto::SignedBigInteger { Crypto::UnsignedBigInteger::create_from(int_value) });
} else {
return Value(int_value);
}
}
LibJS: Rewrite most of Object for spec compliance :^) This is a huge patch, I know. In hindsight this perhaps could've been done slightly more incremental, but I started and then fixed everything until it worked, and here we are. I tried splitting of some completely unrelated changes into separate commits, however. Anyway. This is a rewrite of most of Object, and by extension large parts of Array, Proxy, Reflect, String, TypedArray, and some other things. What we already had worked fine for about 90% of things, but getting the last 10% right proved to be increasingly difficult with the current code that sort of grew organically and is only very loosely based on the spec - this became especially obvious when we started fixing a large number of test262 failures. Key changes include: - 1:1 matching function names and parameters of all object-related functions, to avoid ambiguity. Previously we had things like put(), which the spec doesn't have - as a result it wasn't always clear which need to be used. - Better separation between object abstract operations and internal methods - the former are always the same, the latter can be overridden (and are therefore virtual). The internal methods (i.e. [[Foo]] in the spec) are now prefixed with 'internal_' for clarity - again, it was previously not always clear which AO a certain method represents, get() could've been both Get and [[Get]] (I don't know which one it was closer to right now). Note that some of the old names have been kept until all code relying on them is updated, but they are now simple wrappers around the closest matching standard abstract operation. - Simplifications of the storage layer: functions that write values to storage are now prefixed with 'storage_' to make their purpose clear, and as they are not part of the spec they should not contain any steps specified by it. Much functionality is now covered by the layers above it and was removed (e.g. handling of accessors, attribute checks). - PropertyAttributes has been greatly simplified, and is being replaced by PropertyDescriptor - a concept similar to the current implementation, but more aligned with the actual spec. See the commit message of the previous commit where it was introduced for details. - As a bonus, and since I had to look at the spec a whole lot anyway, I introduced more inline comments with the exact steps from the spec - this makes it super easy to verify correctness. - East-const all the things. As a result of all of this, things are much more correct but a bit slower now. Retaining speed wasn't a consideration at all, I have done no profiling of the new code - there might be low hanging fruits, which we can then harvest separately. Special thanks to Idan for helping me with this by tracking down bugs, updating everything outside of LibJS to work with these changes (LibWeb, Spreadsheet, HackStudio), as well as providing countless patches to fix regressions I introduced - there still are very few (we got it down to 5), but we also get many new passing test262 tests in return. :^) Co-authored-by: Idan Horowitz <idan.horowitz@gmail.com>
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// Implementation for 25.1.2.10 GetValueFromBuffer, used in TypedArray<T>::get_value_from_buffer().
template<typename T>
Value ArrayBuffer::get_value(size_t byte_index, [[maybe_unused]] bool is_typed_array, Order, bool is_little_endian)
{
auto& vm = this->vm();
auto element_size = sizeof(T);
// FIXME: Check for shared buffer
// FIXME: Propagate errors.
auto raw_value = MUST(buffer_impl().slice(byte_index, element_size));
return raw_bytes_to_numeric<T>(vm, move(raw_value), is_little_endian);
}
// 25.1.2.11 NumericToRawBytes ( type, value, isLittleEndian ), https://tc39.es/ecma262/#sec-numerictorawbytes
template<typename T>
static ByteBuffer numeric_to_raw_bytes(VM& vm, Value value, bool is_little_endian)
{
VERIFY(value.is_number() || value.is_bigint());
using UnderlyingBufferDataType = Conditional<IsSame<ClampedU8, T>, u8, T>;
ByteBuffer raw_bytes = ByteBuffer::create_uninitialized(sizeof(UnderlyingBufferDataType)).release_value_but_fixme_should_propagate_errors(); // FIXME: Handle possible OOM situation.
auto flip_if_needed = [&]() {
if (is_little_endian)
return;
VERIFY(sizeof(UnderlyingBufferDataType) % 2 == 0);
for (size_t i = 0; i < sizeof(UnderlyingBufferDataType) / 2; ++i)
swap(raw_bytes[i], raw_bytes[sizeof(UnderlyingBufferDataType) - 1 - i]);
};
if constexpr (IsSame<UnderlyingBufferDataType, float>) {
float raw_value = MUST(value.to_double(vm));
ReadonlyBytes { &raw_value, sizeof(float) }.copy_to(raw_bytes);
flip_if_needed();
return raw_bytes;
}
if constexpr (IsSame<UnderlyingBufferDataType, double>) {
double raw_value = MUST(value.to_double(vm));
ReadonlyBytes { &raw_value, sizeof(double) }.copy_to(raw_bytes);
flip_if_needed();
return raw_bytes;
}
if constexpr (!IsIntegral<UnderlyingBufferDataType>)
VERIFY_NOT_REACHED();
if constexpr (sizeof(UnderlyingBufferDataType) == 8) {
UnderlyingBufferDataType int_value;
if constexpr (IsSigned<UnderlyingBufferDataType>)
int_value = MUST(value.to_bigint_int64(vm));
else
int_value = MUST(value.to_bigint_uint64(vm));
ReadonlyBytes { &int_value, sizeof(UnderlyingBufferDataType) }.copy_to(raw_bytes);
flip_if_needed();
return raw_bytes;
} else {
UnderlyingBufferDataType int_value;
if constexpr (IsSigned<UnderlyingBufferDataType>) {
if constexpr (sizeof(UnderlyingBufferDataType) == 4)
int_value = MUST(value.to_i32(vm));
else if constexpr (sizeof(UnderlyingBufferDataType) == 2)
int_value = MUST(value.to_i16(vm));
else
int_value = MUST(value.to_i8(vm));
} else {
if constexpr (sizeof(UnderlyingBufferDataType) == 4)
int_value = MUST(value.to_u32(vm));
else if constexpr (sizeof(UnderlyingBufferDataType) == 2)
int_value = MUST(value.to_u16(vm));
else if constexpr (!IsSame<T, ClampedU8>)
int_value = MUST(value.to_u8(vm));
else
int_value = MUST(value.to_u8_clamp(vm));
}
ReadonlyBytes { &int_value, sizeof(UnderlyingBufferDataType) }.copy_to(raw_bytes);
if constexpr (sizeof(UnderlyingBufferDataType) % 2 == 0)
flip_if_needed();
return raw_bytes;
}
}
// 25.1.2.12 SetValueInBuffer ( arrayBuffer, byteIndex, type, value, isTypedArray, order [ , isLittleEndian ] ), https://tc39.es/ecma262/#sec-setvalueinbuffer
template<typename T>
void ArrayBuffer::set_value(size_t byte_index, Value value, [[maybe_unused]] bool is_typed_array, Order, bool is_little_endian)
{
auto& vm = this->vm();
auto raw_bytes = numeric_to_raw_bytes<T>(vm, value, is_little_endian);
// FIXME: Check for shared buffer
raw_bytes.span().copy_to(buffer_impl().span().slice(byte_index));
}
// 25.1.2.13 GetModifySetValueInBuffer ( arrayBuffer, byteIndex, type, value, op [ , isLittleEndian ] ), https://tc39.es/ecma262/#sec-getmodifysetvalueinbuffer
template<typename T>
Value ArrayBuffer::get_modify_set_value(size_t byte_index, Value value, ReadWriteModifyFunction operation, bool is_little_endian)
{
auto& vm = this->vm();
auto raw_bytes = numeric_to_raw_bytes<T>(vm, value, is_little_endian);
// FIXME: Check for shared buffer
// FIXME: Propagate errors.
auto raw_bytes_read = MUST(buffer_impl().slice(byte_index, sizeof(T)));
auto raw_bytes_modified = operation(raw_bytes_read, raw_bytes);
raw_bytes_modified.span().copy_to(buffer_impl().span().slice(byte_index));
return raw_bytes_to_numeric<T>(vm, raw_bytes_read, is_little_endian);
}
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}