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/*
* Copyright (C) 2009, 2013, 2016 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "ArrayBuffer.h"
#include "ArrayBufferNeuteringWatchpoint.h"
#include "JSArrayBufferView.h"
#include "JSCInlines.h"
namespace JSC {
SharedArrayBufferContents::SharedArrayBufferContents(void* data, ArrayBufferDestructorFunction&& destructor)
: m_data(data)
, m_destructor(WTFMove(destructor))
{
}
SharedArrayBufferContents::~SharedArrayBufferContents()
{
m_destructor(m_data);
}
ArrayBufferContents::ArrayBufferContents()
{
reset();
}
ArrayBufferContents::ArrayBufferContents(ArrayBufferContents&& other)
{
reset();
other.transferTo(*this);
}
ArrayBufferContents::ArrayBufferContents(void* data, unsigned sizeInBytes, ArrayBufferDestructorFunction&& destructor)
: m_data(data)
, m_sizeInBytes(sizeInBytes)
{
m_destructor = WTFMove(destructor);
}
ArrayBufferContents& ArrayBufferContents::operator=(ArrayBufferContents&& other)
{
other.transferTo(*this);
return *this;
}
ArrayBufferContents::~ArrayBufferContents()
{
destroy();
}
void ArrayBufferContents::clear()
{
destroy();
reset();
}
void ArrayBufferContents::destroy()
{
m_destructor(m_data);
}
void ArrayBufferContents::reset()
{
m_destructor = [] (void*) { };
m_shared = nullptr;
m_data = nullptr;
m_sizeInBytes = 0;
}
void ArrayBufferContents::tryAllocate(unsigned numElements, unsigned elementByteSize, InitializationPolicy policy)
{
// Do not allow 31-bit overflow of the total size.
if (numElements) {
unsigned totalSize = numElements * elementByteSize;
if (totalSize / numElements != elementByteSize
|| totalSize > static_cast<unsigned>(std::numeric_limits<int32_t>::max())) {
reset();
return;
}
}
bool allocationSucceeded = false;
if (policy == ZeroInitialize)
allocationSucceeded = WTF::tryFastCalloc(numElements, elementByteSize).getValue(m_data);
else {
ASSERT(policy == DontInitialize);
allocationSucceeded = WTF::tryFastMalloc(numElements * elementByteSize).getValue(m_data);
}
if (allocationSucceeded) {
m_sizeInBytes = numElements * elementByteSize;
m_destructor = [] (void* p) { fastFree(p); };
return;
}
reset();
}
void ArrayBufferContents::makeShared()
{
m_shared = adoptRef(new SharedArrayBufferContents(m_data, WTFMove(m_destructor)));
m_destructor = [] (void*) { };
}
void ArrayBufferContents::transferTo(ArrayBufferContents& other)
{
other.clear();
other.m_data = m_data;
other.m_sizeInBytes = m_sizeInBytes;
other.m_destructor = WTFMove(m_destructor);
other.m_shared = m_shared;
clear();
}
void ArrayBufferContents::copyTo(ArrayBufferContents& other)
{
ASSERT(!other.m_data);
other.tryAllocate(m_sizeInBytes, sizeof(char), ArrayBufferContents::DontInitialize);
if (!other.m_data)
return;
memcpy(other.m_data, m_data, m_sizeInBytes);
other.m_sizeInBytes = m_sizeInBytes;
}
void ArrayBufferContents::shareWith(ArrayBufferContents& other)
{
ASSERT(!other.m_data);
ASSERT(m_shared);
other.m_destructor = [] (void*) { };
other.m_shared = m_shared;
other.m_data = m_data;
other.m_sizeInBytes = m_sizeInBytes;
}
Ref<ArrayBuffer> ArrayBuffer::create(unsigned numElements, unsigned elementByteSize)
{
auto buffer = tryCreate(numElements, elementByteSize);
if (!buffer)
CRASH();
return buffer.releaseNonNull();
}
Ref<ArrayBuffer> ArrayBuffer::create(ArrayBuffer& other)
{
return ArrayBuffer::create(other.data(), other.byteLength());
}
Ref<ArrayBuffer> ArrayBuffer::create(const void* source, unsigned byteLength)
{
auto buffer = tryCreate(source, byteLength);
if (!buffer)
CRASH();
return buffer.releaseNonNull();
}
Ref<ArrayBuffer> ArrayBuffer::create(ArrayBufferContents&& contents)
{
return adoptRef(*new ArrayBuffer(WTFMove(contents)));
}
Ref<ArrayBuffer> ArrayBuffer::createAdopted(const void* data, unsigned byteLength)
{
return createFromBytes(data, byteLength, [] (void* p) { fastFree(p); });
}
Ref<ArrayBuffer> ArrayBuffer::createFromBytes(const void* data, unsigned byteLength, ArrayBufferDestructorFunction&& destructor)
{
ArrayBufferContents contents(const_cast<void*>(data), byteLength, WTFMove(destructor));
return create(WTFMove(contents));
}
RefPtr<ArrayBuffer> ArrayBuffer::tryCreate(unsigned numElements, unsigned elementByteSize)
{
return tryCreate(numElements, elementByteSize, ArrayBufferContents::ZeroInitialize);
}
RefPtr<ArrayBuffer> ArrayBuffer::tryCreate(ArrayBuffer& other)
{
return tryCreate(other.data(), other.byteLength());
}
RefPtr<ArrayBuffer> ArrayBuffer::tryCreate(const void* source, unsigned byteLength)
{
ArrayBufferContents contents;
contents.tryAllocate(byteLength, 1, ArrayBufferContents::ZeroInitialize);
if (!contents.m_data)
return nullptr;
return createInternal(WTFMove(contents), source, byteLength);
}
Ref<ArrayBuffer> ArrayBuffer::createUninitialized(unsigned numElements, unsigned elementByteSize)
{
return create(numElements, elementByteSize, ArrayBufferContents::DontInitialize);
}
RefPtr<ArrayBuffer> ArrayBuffer::tryCreateUninitialized(unsigned numElements, unsigned elementByteSize)
{
return tryCreate(numElements, elementByteSize, ArrayBufferContents::DontInitialize);
}
Ref<ArrayBuffer> ArrayBuffer::create(unsigned numElements, unsigned elementByteSize, ArrayBufferContents::InitializationPolicy policy)
{
auto buffer = tryCreate(numElements, elementByteSize, policy);
if (!buffer)
CRASH();
return buffer.releaseNonNull();
}
Ref<ArrayBuffer> ArrayBuffer::createInternal(ArrayBufferContents&& contents, const void* source, unsigned byteLength)
{
ASSERT(!byteLength || source);
auto buffer = adoptRef(*new ArrayBuffer(WTFMove(contents)));
memcpy(buffer->data(), source, byteLength);
return buffer;
}
RefPtr<ArrayBuffer> ArrayBuffer::tryCreate(unsigned numElements, unsigned elementByteSize, ArrayBufferContents::InitializationPolicy policy)
{
ArrayBufferContents contents;
contents.tryAllocate(numElements, elementByteSize, policy);
if (!contents.m_data)
return nullptr;
return adoptRef(*new ArrayBuffer(WTFMove(contents)));
}
ArrayBuffer::ArrayBuffer(ArrayBufferContents&& contents)
: m_contents(WTFMove(contents))
, m_pinCount(0)
, m_locked(false)
{
}
RefPtr<ArrayBuffer> ArrayBuffer::slice(int begin, int end) const
{
return sliceImpl(clampIndex(begin), clampIndex(end));
}
RefPtr<ArrayBuffer> ArrayBuffer::slice(int begin) const
{
return sliceImpl(clampIndex(begin), byteLength());
}
RefPtr<ArrayBuffer> ArrayBuffer::sliceImpl(unsigned begin, unsigned end) const
{
unsigned size = begin <= end ? end - begin : 0;
RefPtr<ArrayBuffer> result = ArrayBuffer::create(static_cast<const char*>(data()) + begin, size);
result->setSharingMode(sharingMode());
return result;
}
void ArrayBuffer::makeShared()
{
m_contents.makeShared();
}
void ArrayBuffer::setSharingMode(ArrayBufferSharingMode newSharingMode)
{
if (newSharingMode == sharingMode())
return;
RELEASE_ASSERT(!isShared()); // Cannot revert sharing.
RELEASE_ASSERT(newSharingMode == ArrayBufferSharingMode::Shared);
makeShared();
}
bool ArrayBuffer::shareWith(ArrayBufferContents& result)
{
if (!m_contents.m_data || !isShared()) {
result.m_data = nullptr;
return false;
}
m_contents.shareWith(result);
return true;
}
bool ArrayBuffer::transferTo(VM& vm, ArrayBufferContents& result)
{
Ref<ArrayBuffer> protect(*this);
if (!m_contents.m_data) {
result.m_data = 0;
return false;
}
if (isShared()) {
m_contents.shareWith(result);
return true;
}
bool isNeuterable = !m_pinCount && !m_locked;
if (!isNeuterable) {
m_contents.copyTo(result);
if (!result.m_data)
return false;
return true;
}
m_contents.transferTo(result);
for (size_t i = numberOfIncomingReferences(); i--;) {
JSCell* cell = incomingReferenceAt(i);
if (JSArrayBufferView* view = jsDynamicCast<JSArrayBufferView*>(vm, cell))
view->neuter();
else if (ArrayBufferNeuteringWatchpoint* watchpoint = jsDynamicCast<ArrayBufferNeuteringWatchpoint*>(vm, cell))
watchpoint->fireAll();
}
return true;
}
} // namespace JSC
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