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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* 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 "vm/ArrayBufferObject-inl.h"
#include "vm/ArrayBufferObject.h"
#include "mozilla/Alignment.h"
#include "mozilla/CheckedInt.h"
#include "mozilla/FloatingPoint.h"
#include "mozilla/Maybe.h"
#include "mozilla/PodOperations.h"
#include "mozilla/TaggedAnonymousMemory.h"
#include <string.h>
#ifndef XP_WIN
# include <sys/mman.h>
#endif
#ifdef MOZ_VALGRIND
# include <valgrind/memcheck.h>
#endif
#include "jsapi.h"
#include "jsarray.h"
#include "jscntxt.h"
#include "jscpucfg.h"
#include "jsfriendapi.h"
#include "jsnum.h"
#include "jsobj.h"
#include "jstypes.h"
#include "jsutil.h"
#ifdef XP_WIN
# include "jswin.h"
#endif
#include "jswrapper.h"
#include "gc/Barrier.h"
#include "gc/Marking.h"
#include "gc/Memory.h"
#include "js/Conversions.h"
#include "js/MemoryMetrics.h"
#include "vm/GlobalObject.h"
#include "vm/Interpreter.h"
#include "vm/SelfHosting.h"
#include "vm/SharedArrayObject.h"
#include "vm/WrapperObject.h"
#include "wasm/WasmSignalHandlers.h"
#include "wasm/WasmTypes.h"
#include "jsatominlines.h"
#include "vm/NativeObject-inl.h"
#include "vm/Shape-inl.h"
using JS::ToInt32;
using mozilla::DebugOnly;
using mozilla::CheckedInt;
using mozilla::Some;
using mozilla::Maybe;
using mozilla::Nothing;
using namespace js;
using namespace js::gc;
/*
* Convert |v| to an array index for an array of length |length| per
* the Typed Array Specification section 7.0, |subarray|. If successful,
* the output value is in the range [0, length].
*/
bool
js::ToClampedIndex(JSContext* cx, HandleValue v, uint32_t length, uint32_t* out)
{
int32_t result;
if (!ToInt32(cx, v, &result))
return false;
if (result < 0) {
result += length;
if (result < 0)
result = 0;
} else if (uint32_t(result) > length) {
result = length;
}
*out = uint32_t(result);
return true;
}
static bool
arraybuffer_static_slice(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
if (args.length() < 1) {
ReportMissingArg(cx, args.calleev(), 1);
return false;
}
if (!GlobalObject::warnOnceAboutArrayBufferSlice(cx, cx->global()))
return false;
FixedInvokeArgs<2> args2(cx);
args2[0].set(args.get(1));
args2[1].set(args.get(2));
return CallSelfHostedFunction(cx, "ArrayBufferSlice", args[0], args2, args.rval());
}
/*
* ArrayBufferObject
*
* This class holds the underlying raw buffer that the TypedArrayObject classes
* access. It can be created explicitly and passed to a TypedArrayObject, or
* can be created implicitly by constructing a TypedArrayObject with a size.
*/
/*
* ArrayBufferObject (base)
*/
static const ClassSpec ArrayBufferObjectProtoClassSpec = {
DELEGATED_CLASSSPEC(ArrayBufferObject::class_.spec),
nullptr,
nullptr,
nullptr,
nullptr,
nullptr,
nullptr,
ClassSpec::IsDelegated
};
static const Class ArrayBufferObjectProtoClass = {
"ArrayBufferPrototype",
JSCLASS_HAS_CACHED_PROTO(JSProto_ArrayBuffer),
JS_NULL_CLASS_OPS,
&ArrayBufferObjectProtoClassSpec
};
static JSObject*
CreateArrayBufferPrototype(JSContext* cx, JSProtoKey key)
{
return cx->global()->createBlankPrototype(cx, &ArrayBufferObjectProtoClass);
}
static const ClassOps ArrayBufferObjectClassOps = {
nullptr, /* addProperty */
nullptr, /* delProperty */
nullptr, /* getProperty */
nullptr, /* setProperty */
nullptr, /* enumerate */
nullptr, /* resolve */
nullptr, /* mayResolve */
ArrayBufferObject::finalize,
nullptr, /* call */
nullptr, /* hasInstance */
nullptr, /* construct */
ArrayBufferObject::trace,
};
static const JSFunctionSpec static_functions[] = {
JS_FN("isView", ArrayBufferObject::fun_isView, 1, 0),
JS_FN("slice", arraybuffer_static_slice, 3, 0),
JS_FS_END
};
static const JSPropertySpec static_properties[] = {
JS_SELF_HOSTED_SYM_GET(species, "ArrayBufferSpecies", 0),
JS_PS_END
};
static const JSFunctionSpec prototype_functions[] = {
JS_SELF_HOSTED_FN("slice", "ArrayBufferSlice", 2, 0),
JS_FS_END
};
static const JSPropertySpec prototype_properties[] = {
JS_PSG("byteLength", ArrayBufferObject::byteLengthGetter, 0),
JS_STRING_SYM_PS(toStringTag, "ArrayBuffer", JSPROP_READONLY),
JS_PS_END
};
static const ClassSpec ArrayBufferObjectClassSpec = {
GenericCreateConstructor<ArrayBufferObject::class_constructor, 1, gc::AllocKind::FUNCTION>,
CreateArrayBufferPrototype,
static_functions,
static_properties,
prototype_functions,
prototype_properties
};
static const ClassExtension ArrayBufferObjectClassExtension = {
nullptr, /* weakmapKeyDelegateOp */
ArrayBufferObject::objectMoved
};
const Class ArrayBufferObject::class_ = {
"ArrayBuffer",
JSCLASS_DELAY_METADATA_BUILDER |
JSCLASS_HAS_RESERVED_SLOTS(RESERVED_SLOTS) |
JSCLASS_HAS_CACHED_PROTO(JSProto_ArrayBuffer) |
JSCLASS_BACKGROUND_FINALIZE,
&ArrayBufferObjectClassOps,
&ArrayBufferObjectClassSpec,
&ArrayBufferObjectClassExtension
};
bool
js::IsArrayBuffer(HandleValue v)
{
return v.isObject() && v.toObject().is<ArrayBufferObject>();
}
bool
js::IsArrayBuffer(HandleObject obj)
{
return obj->is<ArrayBufferObject>();
}
bool
js::IsArrayBuffer(JSObject* obj)
{
return obj->is<ArrayBufferObject>();
}
ArrayBufferObject&
js::AsArrayBuffer(HandleObject obj)
{
MOZ_ASSERT(IsArrayBuffer(obj));
return obj->as<ArrayBufferObject>();
}
ArrayBufferObject&
js::AsArrayBuffer(JSObject* obj)
{
MOZ_ASSERT(IsArrayBuffer(obj));
return obj->as<ArrayBufferObject>();
}
MOZ_ALWAYS_INLINE bool
ArrayBufferObject::byteLengthGetterImpl(JSContext* cx, const CallArgs& args)
{
MOZ_ASSERT(IsArrayBuffer(args.thisv()));
args.rval().setInt32(args.thisv().toObject().as<ArrayBufferObject>().byteLength());
return true;
}
bool
ArrayBufferObject::byteLengthGetter(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
return CallNonGenericMethod<IsArrayBuffer, byteLengthGetterImpl>(cx, args);
}
/*
* ArrayBuffer.isView(obj); ES6 (Dec 2013 draft) 24.1.3.1
*/
bool
ArrayBufferObject::fun_isView(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
args.rval().setBoolean(args.get(0).isObject() &&
JS_IsArrayBufferViewObject(&args.get(0).toObject()));
return true;
}
/*
* new ArrayBuffer(byteLength)
*/
bool
ArrayBufferObject::class_constructor(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
if (!ThrowIfNotConstructing(cx, args, "ArrayBuffer"))
return false;
int32_t nbytes = 0;
if (argc > 0 && !ToInt32(cx, args[0], &nbytes))
return false;
if (nbytes < 0) {
/*
* We're just not going to support arrays that are bigger than what will fit
* as an integer value; if someone actually ever complains (validly), then we
* can fix.
*/
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_BAD_ARRAY_LENGTH);
return false;
}
RootedObject proto(cx);
RootedObject newTarget(cx, &args.newTarget().toObject());
if (!GetPrototypeFromConstructor(cx, newTarget, &proto))
return false;
JSObject* bufobj = create(cx, uint32_t(nbytes), proto);
if (!bufobj)
return false;
args.rval().setObject(*bufobj);
return true;
}
static ArrayBufferObject::BufferContents
AllocateArrayBufferContents(JSContext* cx, uint32_t nbytes)
{
uint8_t* p = cx->runtime()->pod_callocCanGC<uint8_t>(nbytes);
if (!p)
ReportOutOfMemory(cx);
return ArrayBufferObject::BufferContents::create<ArrayBufferObject::PLAIN>(p);
}
static void
NoteViewBufferWasDetached(ArrayBufferViewObject* view,
ArrayBufferObject::BufferContents newContents,
JSContext* cx)
{
view->notifyBufferDetached(cx, newContents.data());
// Notify compiled jit code that the base pointer has moved.
MarkObjectStateChange(cx, view);
}
/* static */ void
ArrayBufferObject::detach(JSContext* cx, Handle<ArrayBufferObject*> buffer,
BufferContents newContents)
{
assertSameCompartment(cx, buffer);
MOZ_ASSERT(!buffer->isPreparedForAsmJS());
// When detaching buffers where we don't know all views, the new data must
// match the old data. All missing views are typed objects, which do not
// expect their data to ever change.
MOZ_ASSERT_IF(buffer->forInlineTypedObject(),
newContents.data() == buffer->dataPointer());
// When detaching a buffer with typed object views, any jitcode accessing
// such views must be deoptimized so that detachment checks are performed.
// This is done by setting a compartment-wide flag indicating that buffers
// with typed object views have been detached.
if (buffer->hasTypedObjectViews()) {
// Make sure the global object's group has been instantiated, so the
// flag change will be observed.
AutoEnterOOMUnsafeRegion oomUnsafe;
if (!cx->global()->getGroup(cx))
oomUnsafe.crash("ArrayBufferObject::detach");
MarkObjectGroupFlags(cx, cx->global(), OBJECT_FLAG_TYPED_OBJECT_HAS_DETACHED_BUFFER);
cx->compartment()->detachedTypedObjects = 1;
}
// Update all views of the buffer to account for the buffer having been
// detached, and clear the buffer's data and list of views.
auto& innerViews = cx->compartment()->innerViews;
if (InnerViewTable::ViewVector* views = innerViews.maybeViewsUnbarriered(buffer)) {
for (size_t i = 0; i < views->length(); i++)
NoteViewBufferWasDetached((*views)[i], newContents, cx);
innerViews.removeViews(buffer);
}
if (buffer->firstView()) {
if (buffer->forInlineTypedObject()) {
// The buffer points to inline data in its first view, so to keep
// this pointer alive we don't clear out the first view.
MOZ_ASSERT(buffer->firstView()->is<InlineTransparentTypedObject>());
} else {
NoteViewBufferWasDetached(buffer->firstView(), newContents, cx);
buffer->setFirstView(nullptr);
}
}
if (newContents.data() != buffer->dataPointer())
buffer->setNewData(cx->runtime()->defaultFreeOp(), newContents, OwnsData);
buffer->setByteLength(0);
buffer->setIsDetached();
}
void
ArrayBufferObject::setNewData(FreeOp* fop, BufferContents newContents, OwnsState ownsState)
{
if (ownsData()) {
MOZ_ASSERT(newContents.data() != dataPointer());
releaseData(fop);
}
setDataPointer(newContents, ownsState);
}
// This is called *only* from changeContents(), below.
// By construction, every view parameter will be mapping unshared memory (an ArrayBuffer).
// Hence no reason to worry about shared memory here.
void
ArrayBufferObject::changeViewContents(JSContext* cx, ArrayBufferViewObject* view,
uint8_t* oldDataPointer, BufferContents newContents)
{
MOZ_ASSERT(!view->isSharedMemory());
// Watch out for NULL data pointers in views. This means that the view
// is not fully initialized (in which case it'll be initialized later
// with the correct pointer).
JS::AutoCheckCannotGC nogc(cx);
uint8_t* viewDataPointer = view->dataPointerUnshared(nogc);
if (viewDataPointer) {
MOZ_ASSERT(newContents);
ptrdiff_t offset = viewDataPointer - oldDataPointer;
viewDataPointer = static_cast<uint8_t*>(newContents.data()) + offset;
view->setDataPointerUnshared(viewDataPointer);
}
// Notify compiled jit code that the base pointer has moved.
MarkObjectStateChange(cx, view);
}
// BufferContents is specific to ArrayBuffer, hence it will not represent shared memory.
void
ArrayBufferObject::changeContents(JSContext* cx, BufferContents newContents,
OwnsState ownsState)
{
MOZ_RELEASE_ASSERT(!isWasm());
MOZ_ASSERT(!forInlineTypedObject());
// Change buffer contents.
uint8_t* oldDataPointer = dataPointer();
setNewData(cx->runtime()->defaultFreeOp(), newContents, ownsState);
// Update all views.
auto& innerViews = cx->compartment()->innerViews;
if (InnerViewTable::ViewVector* views = innerViews.maybeViewsUnbarriered(this)) {
for (size_t i = 0; i < views->length(); i++)
changeViewContents(cx, (*views)[i], oldDataPointer, newContents);
}
if (firstView())
changeViewContents(cx, firstView(), oldDataPointer, newContents);
}
/*
* Wasm Raw Buf Linear Memory Structure
*
* The linear heap in Wasm is an mmaped array buffer. Several
* constants manage its lifetime:
*
* - length - the wasm-visible current length of the buffer. Acesses in the
* range [0, length] succeed. May only increase
*
* - boundsCheckLimit - when !WASM_HUGE_MEMORY, the size against which we
* perform bounds checks. It is always a constant offset smaller than
* mappedSize. Currently that constant offset is 0.
*
* - max - the optional declared limit on how much length can grow.
*
* - mappedSize - the actual mmaped size. Access in the range
* [0, mappedSize] will either succeed, or be handled by the wasm signal
* handlers.
*
* The below diagram shows the layout of the wams heap. The wasm-visible
* portion of the heap starts at 0. There is one extra page prior to the
* start of the wasm heap which contains the WasmArrayRawBuffer struct at
* its end. (i.e. right before the start of the WASM heap).
*
* WasmArrayRawBuffer
* \ ArrayBufferObject::dataPointer()
* \ /
* \ |
* ______|_|____________________________________________________________
* |______|_|______________|___________________|____________|____________|
* 0 length maxSize boundsCheckLimit mappedSize
*
* \_______________________/
* COMMITED
* \____________________________________________/
* SLOP
* \_____________________________________________________________________/
* MAPPED
*
* Invariants:
* - length only increases
* - 0 <= length <= maxSize (if present) <= boundsCheckLimit <= mappedSize
* - on ARM boundsCheckLimit must be a valid ARM immediate.
* - if maxSize is not specified, boundsCheckLimit/mappedSize may grow. They are
* otherwise constant.
*
* NOTE: For asm.js on non-x64 we guarantee that
*
* length == maxSize == boundsCheckLimit == mappedSize
*
* That is, signal handlers will not be invoked, since they cannot emulate
* asm.js accesses on non-x64 architectures.
*
* The region between length and mappedSize is the SLOP - an area where we use
* signal handlers to catch things that slip by bounds checks. Logically it has
* two parts:
*
* - from length to boundsCheckLimit - this part of the SLOP serves to catch
* accesses to memory we have reserved but not yet grown into. This allows us
* to grow memory up to max (when present) without having to patch/update the
* bounds checks.
*
* - from boundsCheckLimit to mappedSize - (Note: In current patch 0) - this
* part of the SLOP allows us to bounds check against base pointers and fold
* some constant offsets inside loads. This enables better Bounds
* Check Elimination.
*
*/
class js::WasmArrayRawBuffer
{
Maybe<uint32_t> maxSize_;
size_t mappedSize_;
protected:
WasmArrayRawBuffer(uint8_t* buffer, uint32_t length, Maybe<uint32_t> maxSize, size_t mappedSize)
: maxSize_(maxSize), mappedSize_(mappedSize)
{
MOZ_ASSERT(buffer == dataPointer());
}
public:
static WasmArrayRawBuffer* Allocate(uint32_t numBytes, Maybe<uint32_t> maxSize);
static void Release(void* mem);
uint8_t* dataPointer() {
uint8_t* ptr = reinterpret_cast<uint8_t*>(this);
return ptr + sizeof(WasmArrayRawBuffer);
}
uint8_t* basePointer() {
return dataPointer() - gc::SystemPageSize();
}
size_t mappedSize() const {
return mappedSize_;
}
Maybe<uint32_t> maxSize() const {
return maxSize_;
}
size_t allocatedBytes() const {
return mappedSize_ + gc::SystemPageSize();
}
#ifndef WASM_HUGE_MEMORY
uint32_t boundsCheckLimit() const {
MOZ_ASSERT(mappedSize_ <= UINT32_MAX);
MOZ_ASSERT(mappedSize_ >= wasm::GuardSize);
MOZ_ASSERT(wasm::IsValidBoundsCheckImmediate(mappedSize_ - wasm::GuardSize));
return mappedSize_ - wasm::GuardSize;
}
#endif
MOZ_MUST_USE bool growToSizeInPlace(uint32_t oldSize, uint32_t newSize) {
MOZ_ASSERT(newSize >= oldSize);
MOZ_ASSERT_IF(maxSize(), newSize <= maxSize().value());
MOZ_ASSERT(newSize <= mappedSize());
uint32_t delta = newSize - oldSize;
MOZ_ASSERT(delta % wasm::PageSize == 0);
uint8_t* dataEnd = dataPointer() + oldSize;
MOZ_ASSERT(uintptr_t(dataEnd) % gc::SystemPageSize() == 0);
# ifdef XP_WIN
if (delta && !VirtualAlloc(dataEnd, delta, MEM_COMMIT, PAGE_READWRITE))
return false;
# else // XP_WIN
if (delta && mprotect(dataEnd, delta, PROT_READ | PROT_WRITE))
return false;
# endif // !XP_WIN
# if defined(MOZ_VALGRIND) && defined(VALGRIND_DISABLE_ADDR_ERROR_REPORTING_IN_RANGE)
VALGRIND_ENABLE_ADDR_ERROR_REPORTING_IN_RANGE((unsigned char*)dataEnd, delta);
# endif
MemProfiler::SampleNative(dataEnd, delta);
return true;
}
#ifndef WASM_HUGE_MEMORY
bool extendMappedSize(uint32_t maxSize) {
size_t newMappedSize = wasm::ComputeMappedSize(maxSize);
MOZ_ASSERT(mappedSize_ <= newMappedSize);
if (mappedSize_ == newMappedSize)
return true;
# ifdef XP_WIN
uint8_t* mappedEnd = dataPointer() + mappedSize_;
uint32_t delta = newMappedSize - mappedSize_;
if (!VirtualAlloc(mappedEnd, delta, MEM_RESERVE, PAGE_NOACCESS))
return false;
# elif defined(XP_LINUX)
// Note this will not move memory (no MREMAP_MAYMOVE specified)
if (MAP_FAILED == mremap(dataPointer(), mappedSize_, newMappedSize, 0))
return false;
# else
// No mechanism for remapping on MacOS and other Unices. Luckily
// shouldn't need it here as most of these are 64-bit.
return false;
# endif
mappedSize_ = newMappedSize;
return true;
}
// Try and grow the mapped region of memory. Does not changes current size.
// Does not move memory if no space to grow.
void tryGrowMaxSizeInPlace(uint32_t deltaMaxSize) {
CheckedInt<uint32_t> newMaxSize = maxSize_.value();
newMaxSize += deltaMaxSize;
MOZ_ASSERT(newMaxSize.isValid());
MOZ_ASSERT(newMaxSize.value() % wasm::PageSize == 0);
if (!extendMappedSize(newMaxSize.value()))
return;
maxSize_ = Some(newMaxSize.value());
}
#endif // WASM_HUGE_MEMORY
};
/* static */ WasmArrayRawBuffer*
WasmArrayRawBuffer::Allocate(uint32_t numBytes, Maybe<uint32_t> maxSize)
{
size_t mappedSize;
#ifdef WASM_HUGE_MEMORY
mappedSize = wasm::HugeMappedSize;
#else
mappedSize = wasm::ComputeMappedSize(maxSize.valueOr(numBytes));
#endif
MOZ_RELEASE_ASSERT(mappedSize <= SIZE_MAX - gc::SystemPageSize());
MOZ_RELEASE_ASSERT(numBytes <= maxSize.valueOr(UINT32_MAX));
MOZ_ASSERT(numBytes % gc::SystemPageSize() == 0);
MOZ_ASSERT(mappedSize % gc::SystemPageSize() == 0);
uint64_t mappedSizeWithHeader = mappedSize + gc::SystemPageSize();
uint64_t numBytesWithHeader = numBytes + gc::SystemPageSize();
# ifdef XP_WIN
void* data = VirtualAlloc(nullptr, (size_t) mappedSizeWithHeader, MEM_RESERVE, PAGE_NOACCESS);
if (!data)
return nullptr;
if (!VirtualAlloc(data, numBytesWithHeader, MEM_COMMIT, PAGE_READWRITE)) {
VirtualFree(data, 0, MEM_RELEASE);
return nullptr;
}
# else // XP_WIN
void* data = MozTaggedAnonymousMmap(nullptr, (size_t) mappedSizeWithHeader, PROT_NONE,
MAP_PRIVATE | MAP_ANON, -1, 0, "wasm-reserved");
if (data == MAP_FAILED)
return nullptr;
// Note we will waste a page on zero-sized memories here
if (mprotect(data, numBytesWithHeader, PROT_READ | PROT_WRITE)) {
munmap(data, mappedSizeWithHeader);
return nullptr;
}
# endif // !XP_WIN
MemProfiler::SampleNative(data, numBytesWithHeader);
# if defined(MOZ_VALGRIND) && defined(VALGRIND_DISABLE_ADDR_ERROR_REPORTING_IN_RANGE)
VALGRIND_DISABLE_ADDR_ERROR_REPORTING_IN_RANGE((unsigned char*)data + numBytesWithHeader,
mappedSizeWithHeader - numBytesWithHeader);
# endif
uint8_t* base = reinterpret_cast<uint8_t*>(data) + gc::SystemPageSize();
uint8_t* header = base - sizeof(WasmArrayRawBuffer);
auto rawBuf = new (header) WasmArrayRawBuffer(base, numBytes, maxSize, mappedSize);
return rawBuf;
}
/* static */ void
WasmArrayRawBuffer::Release(void* mem)
{
WasmArrayRawBuffer* header = (WasmArrayRawBuffer*)((uint8_t*)mem - sizeof(WasmArrayRawBuffer));
uint8_t* base = header->basePointer();
MOZ_RELEASE_ASSERT(header->mappedSize() <= SIZE_MAX - gc::SystemPageSize());
size_t mappedSizeWithHeader = header->mappedSize() + gc::SystemPageSize();
MemProfiler::RemoveNative(base);
# ifdef XP_WIN
VirtualFree(base, 0, MEM_RELEASE);
# else // XP_WIN
munmap(base, mappedSizeWithHeader);
# endif // !XP_WIN
# if defined(MOZ_VALGRIND) && defined(VALGRIND_ENABLE_ADDR_ERROR_REPORTING_IN_RANGE)
VALGRIND_ENABLE_ADDR_ERROR_REPORTING_IN_RANGE(base, mappedSizeWithHeader);
# endif
}
WasmArrayRawBuffer*
ArrayBufferObject::BufferContents::wasmBuffer() const
{
MOZ_RELEASE_ASSERT(kind_ == WASM);
return (WasmArrayRawBuffer*)(data_ - sizeof(WasmArrayRawBuffer));
}
#define ROUND_UP(v, a) ((v) % (a) == 0 ? (v) : v + a - ((v) % (a)))
/* static */ ArrayBufferObject*
ArrayBufferObject::createForWasm(JSContext* cx, uint32_t initialSize, Maybe<uint32_t> maxSize)
{
MOZ_ASSERT(initialSize % wasm::PageSize == 0);
MOZ_RELEASE_ASSERT(wasm::HaveSignalHandlers());
// Prevent applications specifying a large max (like UINT32_MAX) from
// unintentially OOMing the browser on 32-bit: they just want "a lot of
// memory". Maintain the invariant that initialSize <= maxSize.
if (sizeof(void*) == 4 && maxSize) {
static const uint32_t OneGiB = 1 << 30;
uint32_t clamp = Max(OneGiB, initialSize);
maxSize = Some(Min(clamp, maxSize.value()));
}
RootedArrayBufferObject buffer(cx, ArrayBufferObject::createEmpty(cx));
if (!buffer)
return nullptr;
// Try to reserve the maximum requested memory
WasmArrayRawBuffer* wasmBuf = WasmArrayRawBuffer::Allocate(initialSize, maxSize);
if (!wasmBuf) {
#ifdef WASM_HUGE_MEMORY
ReportOutOfMemory(cx);
return nullptr;
#else
// If we fail, and have a maxSize, try to reserve the biggest chunk in
// the range [initialSize, maxSize) using log backoff.
if (!maxSize) {
ReportOutOfMemory(cx);
return nullptr;
}
uint32_t cur = maxSize.value() / 2;
for (; cur > initialSize; cur /= 2) {
wasmBuf = WasmArrayRawBuffer::Allocate(initialSize, Some(ROUND_UP(cur, wasm::PageSize)));
if (wasmBuf)
break;
}
if (!wasmBuf) {
ReportOutOfMemory(cx);
return nullptr;
}
// Try to grow our chunk as much as possible.
for (size_t d = cur / 2; d >= wasm::PageSize; d /= 2)
wasmBuf->tryGrowMaxSizeInPlace(ROUND_UP(d, wasm::PageSize));
#endif
}
auto contents = BufferContents::create<WASM>(wasmBuf->dataPointer());
buffer->initialize(initialSize, contents, OwnsData);
cx->zone()->updateMallocCounter(wasmBuf->mappedSize());
return buffer;
}
// Note this function can return false with or without an exception pending. The
// asm.js caller checks cx->isExceptionPending before propagating failure.
// Returning false without throwing means that asm.js linking will fail which
// will recompile as non-asm.js.
/* static */ bool
ArrayBufferObject::prepareForAsmJS(JSContext* cx, Handle<ArrayBufferObject*> buffer, bool needGuard)
{
#ifdef WASM_HUGE_MEMORY
MOZ_ASSERT(needGuard);
#endif
MOZ_ASSERT(buffer->byteLength() % wasm::PageSize == 0);
MOZ_RELEASE_ASSERT(wasm::HaveSignalHandlers());
if (buffer->forInlineTypedObject())
return false;
if (needGuard) {
if (buffer->isWasm() && buffer->isPreparedForAsmJS())
return true;
// Non-prepared-for-asm.js wasm buffers can be detached at any time.
// This error can only be triggered for SIMD.js (which isn't shipping)
// on !WASM_HUGE_MEMORY so this error is only visible in testing.
if (buffer->isWasm() || buffer->isPreparedForAsmJS())
return false;
uint32_t length = buffer->byteLength();
WasmArrayRawBuffer* wasmBuf = WasmArrayRawBuffer::Allocate(length, Some(length));
if (!wasmBuf) {
ReportOutOfMemory(cx);
return false;
}
void* data = wasmBuf->dataPointer();
memcpy(data, buffer->dataPointer(), length);
// Swap the new elements into the ArrayBufferObject. Mark the
// ArrayBufferObject so we don't do this again.
buffer->changeContents(cx, BufferContents::create<WASM>(data), OwnsData);
buffer->setIsPreparedForAsmJS();
MOZ_ASSERT(data == buffer->dataPointer());
cx->zone()->updateMallocCounter(wasmBuf->mappedSize());
return true;
}
if (!buffer->isWasm() && buffer->isPreparedForAsmJS())
return true;
// Non-prepared-for-asm.js wasm buffers can be detached at any time.
if (buffer->isWasm())
return false;
if (!buffer->ownsData()) {
BufferContents contents = AllocateArrayBufferContents(cx, buffer->byteLength());
if (!contents)
return false;
memcpy(contents.data(), buffer->dataPointer(), buffer->byteLength());
buffer->changeContents(cx, contents, OwnsData);
}
buffer->setIsPreparedForAsmJS();
return true;
}
ArrayBufferObject::BufferContents
ArrayBufferObject::createMappedContents(int fd, size_t offset, size_t length)
{
void* data = AllocateMappedContent(fd, offset, length, ARRAY_BUFFER_ALIGNMENT);
MemProfiler::SampleNative(data, length);
return BufferContents::create<MAPPED>(data);
}
uint8_t*
ArrayBufferObject::inlineDataPointer() const
{
return static_cast<uint8_t*>(fixedData(JSCLASS_RESERVED_SLOTS(&class_)));
}
uint8_t*
ArrayBufferObject::dataPointer() const
{
return static_cast<uint8_t*>(getSlot(DATA_SLOT).toPrivate());
}
SharedMem<uint8_t*>
ArrayBufferObject::dataPointerShared() const
{
return SharedMem<uint8_t*>::unshared(getSlot(DATA_SLOT).toPrivate());
}
void
ArrayBufferObject::releaseData(FreeOp* fop)
{
MOZ_ASSERT(ownsData());
switch (bufferKind()) {
case PLAIN:
fop->free_(dataPointer());
break;
case MAPPED:
MemProfiler::RemoveNative(dataPointer());
DeallocateMappedContent(dataPointer(), byteLength());
break;
case WASM:
WasmArrayRawBuffer::Release(dataPointer());
break;
case KIND_MASK:
MOZ_CRASH("bad bufferKind()");
}
}
void
ArrayBufferObject::setDataPointer(BufferContents contents, OwnsState ownsData)
{
setSlot(DATA_SLOT, PrivateValue(contents.data()));
setOwnsData(ownsData);
setFlags((flags() & ~KIND_MASK) | contents.kind());
}
uint32_t
ArrayBufferObject::byteLength() const
{
return getSlot(BYTE_LENGTH_SLOT).toInt32();
}
void
ArrayBufferObject::setByteLength(uint32_t length)
{
MOZ_ASSERT(length <= INT32_MAX);
setSlot(BYTE_LENGTH_SLOT, Int32Value(length));
}
size_t
ArrayBufferObject::wasmMappedSize() const
{
if (isWasm())
return contents().wasmBuffer()->mappedSize();
return byteLength();
}
size_t
js::WasmArrayBufferMappedSize(const ArrayBufferObjectMaybeShared* buf)
{
if (buf->is<ArrayBufferObject>())
return buf->as<ArrayBufferObject>().wasmMappedSize();
#ifdef WASM_HUGE_MEMORY
return wasm::HugeMappedSize;
#else
return buf->as<SharedArrayBufferObject>().byteLength();
#endif
}
Maybe<uint32_t>
ArrayBufferObject::wasmMaxSize() const
{
if (isWasm())
return contents().wasmBuffer()->maxSize();
else
return Some<uint32_t>(byteLength());
}
Maybe<uint32_t>
js::WasmArrayBufferMaxSize(const ArrayBufferObjectMaybeShared* buf)
{
if (buf->is<ArrayBufferObject>())
return buf->as<ArrayBufferObject>().wasmMaxSize();
return Some(buf->as<SharedArrayBufferObject>().byteLength());
}
/* static */ bool
ArrayBufferObject::wasmGrowToSizeInPlace(uint32_t newSize,
HandleArrayBufferObject oldBuf,
MutableHandleArrayBufferObject newBuf,
JSContext* cx)
{
// On failure, do not throw and ensure that the original buffer is
// unmodified and valid. After WasmArrayRawBuffer::growToSizeInPlace(), the
// wasm-visible length of the buffer has been increased so it must be the
// last fallible operation.
// byteLength can be at most INT32_MAX.
if (newSize > INT32_MAX)
return false;
newBuf.set(ArrayBufferObject::createEmpty(cx));
if (!newBuf) {
cx->clearPendingException();
return false;
}
if (!oldBuf->contents().wasmBuffer()->growToSizeInPlace(oldBuf->byteLength(), newSize))
return false;
bool hasStealableContents = true;
BufferContents contents = ArrayBufferObject::stealContents(cx, oldBuf, hasStealableContents);
MOZ_ASSERT(contents);
newBuf->initialize(newSize, contents, OwnsData);
return true;
}
#ifndef WASM_HUGE_MEMORY
/* static */ bool
ArrayBufferObject::wasmMovingGrowToSize(uint32_t newSize,
HandleArrayBufferObject oldBuf,
MutableHandleArrayBufferObject newBuf,
JSContext* cx)
{
// On failure, do not throw and ensure that the original buffer is
// unmodified and valid.
// byteLength can be at most INT32_MAX.
if (newSize > INT32_MAX)
return false;
if (newSize <= oldBuf->wasmBoundsCheckLimit() ||
oldBuf->contents().wasmBuffer()->extendMappedSize(newSize))
{
return wasmGrowToSizeInPlace(newSize, oldBuf, newBuf, cx);
}
newBuf.set(ArrayBufferObject::createEmpty(cx));
if (!newBuf) {
cx->clearPendingException();
return false;
}
WasmArrayRawBuffer* newRawBuf = WasmArrayRawBuffer::Allocate(newSize, Nothing());
if (!newRawBuf)
return false;
BufferContents contents = BufferContents::create<WASM>(newRawBuf->dataPointer());
newBuf->initialize(newSize, contents, OwnsData);
memcpy(newBuf->dataPointer(), oldBuf->dataPointer(), oldBuf->byteLength());
ArrayBufferObject::detach(cx, oldBuf, BufferContents::createPlain(nullptr));
return true;
}
uint32_t
ArrayBufferObject::wasmBoundsCheckLimit() const
{
if (isWasm())
return contents().wasmBuffer()->boundsCheckLimit();
else
return byteLength();
}
uint32_t
ArrayBufferObjectMaybeShared::wasmBoundsCheckLimit() const
{
if (is<ArrayBufferObject>())
return as<ArrayBufferObject>().wasmBoundsCheckLimit();
return as<SharedArrayBufferObject>().byteLength();
}
#endif
uint32_t
ArrayBufferObject::flags() const
{
return uint32_t(getSlot(FLAGS_SLOT).toInt32());
}
void
ArrayBufferObject::setFlags(uint32_t flags)
{
setSlot(FLAGS_SLOT, Int32Value(flags));
}
ArrayBufferObject*
ArrayBufferObject::create(JSContext* cx, uint32_t nbytes, BufferContents contents,
OwnsState ownsState /* = OwnsData */,
HandleObject proto /* = nullptr */,
NewObjectKind newKind /* = GenericObject */)
{
MOZ_ASSERT_IF(contents.kind() == MAPPED, contents);
// 24.1.1.1, step 3 (Inlined 6.2.6.1 CreateByteDataBlock, step 2).
// Refuse to allocate too large buffers, currently limited to ~2 GiB.
if (nbytes > INT32_MAX) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_BAD_ARRAY_LENGTH);
return nullptr;
}
// If we need to allocate data, try to use a larger object size class so
// that the array buffer's data can be allocated inline with the object.
// The extra space will be left unused by the object's fixed slots and
// available for the buffer's data, see NewObject().
size_t reservedSlots = JSCLASS_RESERVED_SLOTS(&class_);
size_t nslots = reservedSlots;
bool allocated = false;
if (contents) {
if (ownsState == OwnsData) {
// The ABO is taking ownership, so account the bytes against the zone.
size_t nAllocated = nbytes;
if (contents.kind() == MAPPED)
nAllocated = JS_ROUNDUP(nbytes, js::gc::SystemPageSize());
else if (contents.kind() == WASM)
nAllocated = contents.wasmBuffer()->allocatedBytes();
cx->zone()->updateMallocCounter(nAllocated);
}
} else {
MOZ_ASSERT(ownsState == OwnsData);
size_t usableSlots = NativeObject::MAX_FIXED_SLOTS - reservedSlots;
if (nbytes <= usableSlots * sizeof(Value)) {
int newSlots = (nbytes - 1) / sizeof(Value) + 1;
MOZ_ASSERT(int(nbytes) <= newSlots * int(sizeof(Value)));
nslots = reservedSlots + newSlots;
contents = BufferContents::createPlain(nullptr);
} else {
contents = AllocateArrayBufferContents(cx, nbytes);
if (!contents)
return nullptr;
allocated = true;
}
}
MOZ_ASSERT(!(class_.flags & JSCLASS_HAS_PRIVATE));
gc::AllocKind allocKind = GetGCObjectKind(nslots);
AutoSetNewObjectMetadata metadata(cx);
Rooted<ArrayBufferObject*> obj(cx,
NewObjectWithClassProto<ArrayBufferObject>(cx, proto, allocKind, newKind));
if (!obj) {
if (allocated)
js_free(contents.data());
return nullptr;
}
MOZ_ASSERT(obj->getClass() == &class_);
MOZ_ASSERT(!gc::IsInsideNursery(obj));
if (!contents) {
void* data = obj->inlineDataPointer();
memset(data, 0, nbytes);
obj->initialize(nbytes, BufferContents::createPlain(data), DoesntOwnData);
} else {
obj->initialize(nbytes, contents, ownsState);
}
return obj;
}
ArrayBufferObject*
ArrayBufferObject::create(JSContext* cx, uint32_t nbytes,
HandleObject proto /* = nullptr */,
NewObjectKind newKind /* = GenericObject */)
{
return create(cx, nbytes, BufferContents::createPlain(nullptr),
OwnsState::OwnsData, proto);
}
ArrayBufferObject*
ArrayBufferObject::createEmpty(JSContext* cx)
{
AutoSetNewObjectMetadata metadata(cx);
ArrayBufferObject* obj = NewObjectWithClassProto<ArrayBufferObject>(cx, nullptr);
if (!obj)
return nullptr;
obj->initEmpty();
return obj;
}
bool
ArrayBufferObject::createDataViewForThisImpl(JSContext* cx, const CallArgs& args)
{
MOZ_ASSERT(IsArrayBuffer(args.thisv()));
/*
* This method is only called for |DataView(alienBuf, ...)| which calls
* this as |createDataViewForThis.call(alienBuf, byteOffset, byteLength,
* DataView.prototype)|,
* ergo there must be exactly 3 arguments.
*/
MOZ_ASSERT(args.length() == 3);
uint32_t byteOffset = args[0].toPrivateUint32();
uint32_t byteLength = args[1].toPrivateUint32();
Rooted<ArrayBufferObject*> buffer(cx, &args.thisv().toObject().as<ArrayBufferObject>());
/*
* Pop off the passed-along prototype and delegate to normal DataViewObject
* construction.
*/
JSObject* obj = DataViewObject::create(cx, byteOffset, byteLength, buffer, &args[2].toObject());
if (!obj)
return false;
args.rval().setObject(*obj);
return true;
}
bool
ArrayBufferObject::createDataViewForThis(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
return CallNonGenericMethod<IsArrayBuffer, createDataViewForThisImpl>(cx, args);
}
/* static */ ArrayBufferObject::BufferContents
ArrayBufferObject::externalizeContents(JSContext* cx, Handle<ArrayBufferObject*> buffer,
bool hasStealableContents)
{
MOZ_ASSERT(buffer->isPlain(), "Only support doing this on plain ABOs");
MOZ_ASSERT(!buffer->isDetached(), "must have contents to externalize");
MOZ_ASSERT_IF(hasStealableContents, buffer->hasStealableContents());
BufferContents contents(buffer->dataPointer(), buffer->bufferKind());
if (hasStealableContents) {
buffer->setOwnsData(DoesntOwnData);
return contents;
}
// Create a new chunk of memory to return since we cannot steal the
// existing contents away from the buffer.
BufferContents newContents = AllocateArrayBufferContents(cx, buffer->byteLength());
if (!newContents)
return BufferContents::createPlain(nullptr);
memcpy(newContents.data(), contents.data(), buffer->byteLength());
buffer->changeContents(cx, newContents, DoesntOwnData);
return newContents;
}
/* static */ ArrayBufferObject::BufferContents
ArrayBufferObject::stealContents(JSContext* cx, Handle<ArrayBufferObject*> buffer,
bool hasStealableContents)
{
// While wasm buffers cannot generally be transferred by content, the
// stealContents() is used internally by the impl of memory growth.
MOZ_ASSERT_IF(hasStealableContents, buffer->hasStealableContents() ||
(buffer->isWasm() && !buffer->isPreparedForAsmJS()));
assertSameCompartment(cx, buffer);
BufferContents oldContents(buffer->dataPointer(), buffer->bufferKind());
if (hasStealableContents) {
// Return the old contents and reset the detached buffer's data
// pointer. This pointer should never be accessed.
auto newContents = BufferContents::createPlain(nullptr);
buffer->setOwnsData(DoesntOwnData); // Do not free the stolen data.
ArrayBufferObject::detach(cx, buffer, newContents);
buffer->setOwnsData(DoesntOwnData); // Do not free the nullptr.
return oldContents;
}
// Create a new chunk of memory to return since we cannot steal the
// existing contents away from the buffer.
BufferContents contentsCopy = AllocateArrayBufferContents(cx, buffer->byteLength());
if (!contentsCopy)
return BufferContents::createPlain(nullptr);
if (buffer->byteLength() > 0)
memcpy(contentsCopy.data(), oldContents.data(), buffer->byteLength());
ArrayBufferObject::detach(cx, buffer, oldContents);
return contentsCopy;
}
/* static */ void
ArrayBufferObject::addSizeOfExcludingThis(JSObject* obj, mozilla::MallocSizeOf mallocSizeOf,
JS::ClassInfo* info)
{
ArrayBufferObject& buffer = AsArrayBuffer(obj);
if (!buffer.ownsData())
return;
switch (buffer.bufferKind()) {
case PLAIN:
if (buffer.isPreparedForAsmJS())
info->objectsMallocHeapElementsAsmJS += mallocSizeOf(buffer.dataPointer());
else
info->objectsMallocHeapElementsNormal += mallocSizeOf(buffer.dataPointer());
break;
case MAPPED:
info->objectsNonHeapElementsNormal += buffer.byteLength();
break;
case WASM:
info->objectsNonHeapElementsWasm += buffer.byteLength();
MOZ_ASSERT(buffer.wasmMappedSize() >= buffer.byteLength());
info->wasmGuardPages += buffer.wasmMappedSize() - buffer.byteLength();
break;
case KIND_MASK:
MOZ_CRASH("bad bufferKind()");
}
}
/* static */ void
ArrayBufferObject::finalize(FreeOp* fop, JSObject* obj)
{
ArrayBufferObject& buffer = obj->as<ArrayBufferObject>();
if (buffer.ownsData())
buffer.releaseData(fop);
}
/* static */ void
ArrayBufferObject::copyData(Handle<ArrayBufferObject*> toBuffer,
Handle<ArrayBufferObject*> fromBuffer,
uint32_t fromIndex, uint32_t count)
{
MOZ_ASSERT(toBuffer->byteLength() >= count);
MOZ_ASSERT(fromBuffer->byteLength() >= fromIndex);
MOZ_ASSERT(fromBuffer->byteLength() >= fromIndex + count);
memcpy(toBuffer->dataPointer(), fromBuffer->dataPointer() + fromIndex, count);
}
/* static */ void
ArrayBufferObject::trace(JSTracer* trc, JSObject* obj)
{
// If this buffer is associated with an inline typed object,
// fix up the data pointer if the typed object was moved.
ArrayBufferObject& buf = obj->as<ArrayBufferObject>();
if (!buf.forInlineTypedObject())
return;
JSObject* view = MaybeForwarded(buf.firstView());
MOZ_ASSERT(view && view->is<InlineTransparentTypedObject>());
TraceManuallyBarrieredEdge(trc, &view, "array buffer inline typed object owner");
buf.setSlot(DATA_SLOT, PrivateValue(view->as<InlineTransparentTypedObject>().inlineTypedMem()));
}
/* static */ void
ArrayBufferObject::objectMoved(JSObject* obj, const JSObject* old)
{
ArrayBufferObject& dst = obj->as<ArrayBufferObject>();
const ArrayBufferObject& src = old->as<ArrayBufferObject>();
// Fix up possible inline data pointer.
if (src.hasInlineData())
dst.setSlot(DATA_SLOT, PrivateValue(dst.inlineDataPointer()));
}
ArrayBufferViewObject*
ArrayBufferObject::firstView()
{
return getSlot(FIRST_VIEW_SLOT).isObject()
? static_cast<ArrayBufferViewObject*>(&getSlot(FIRST_VIEW_SLOT).toObject())
: nullptr;
}
void
ArrayBufferObject::setFirstView(ArrayBufferViewObject* view)
{
setSlot(FIRST_VIEW_SLOT, ObjectOrNullValue(view));
}
bool
ArrayBufferObject::addView(JSContext* cx, JSObject* viewArg)
{
// Note: we don't pass in an ArrayBufferViewObject as the argument due to
// tricky inheritance in the various view classes. View classes do not
// inherit from ArrayBufferViewObject so won't be upcast automatically.
MOZ_ASSERT(viewArg->is<ArrayBufferViewObject>() || viewArg->is<TypedObject>());
ArrayBufferViewObject* view = static_cast<ArrayBufferViewObject*>(viewArg);
if (!firstView()) {
setFirstView(view);
return true;
}
return cx->compartment()->innerViews.get().addView(cx, this, view);
}
/*
* InnerViewTable
*/
static size_t VIEW_LIST_MAX_LENGTH = 500;
bool
InnerViewTable::addView(JSContext* cx, ArrayBufferObject* buffer, ArrayBufferViewObject* view)
{
// ArrayBufferObject entries are only added when there are multiple views.
MOZ_ASSERT(buffer->firstView());
if (!map.initialized() && !map.init()) {
ReportOutOfMemory(cx);
return false;
}
Map::AddPtr p = map.lookupForAdd(buffer);
MOZ_ASSERT(!gc::IsInsideNursery(buffer));
bool addToNursery = nurseryKeysValid && gc::IsInsideNursery(view);
if (p) {
ViewVector& views = p->value();
MOZ_ASSERT(!views.empty());
if (addToNursery) {
// Only add the entry to |nurseryKeys| if it isn't already there.
if (views.length() >= VIEW_LIST_MAX_LENGTH) {
// To avoid quadratic blowup, skip the loop below if we end up
// adding enormous numbers of views for the same object.
nurseryKeysValid = false;
} else {
for (size_t i = 0; i < views.length(); i++) {
if (gc::IsInsideNursery(views[i])) {
addToNursery = false;
break;
}
}
}
}
if (!views.append(view)) {
ReportOutOfMemory(cx);
return false;
}
} else {
if (!map.add(p, buffer, ViewVector())) {
ReportOutOfMemory(cx);
return false;
}
// ViewVector has one inline element, so the first insertion is
// guaranteed to succeed.
MOZ_ALWAYS_TRUE(p->value().append(view));
}
if (addToNursery && !nurseryKeys.append(buffer))
nurseryKeysValid = false;
return true;
}
InnerViewTable::ViewVector*
InnerViewTable::maybeViewsUnbarriered(ArrayBufferObject* buffer)
{
if (!map.initialized())
return nullptr;
Map::Ptr p = map.lookup(buffer);
if (p)
return &p->value();
return nullptr;
}
void
InnerViewTable::removeViews(ArrayBufferObject* buffer)
{
Map::Ptr p = map.lookup(buffer);
MOZ_ASSERT(p);
map.remove(p);
}
/* static */ bool
InnerViewTable::sweepEntry(JSObject** pkey, ViewVector& views)
{
if (IsAboutToBeFinalizedUnbarriered(pkey))
return true;
MOZ_ASSERT(!views.empty());
for (size_t i = 0; i < views.length(); i++) {
if (IsAboutToBeFinalizedUnbarriered(&views[i])) {
views[i--] = views.back();
views.popBack();
}
}
return views.empty();
}
void
InnerViewTable::sweep()
{
MOZ_ASSERT(nurseryKeys.empty());
map.sweep();
}
void
InnerViewTable::sweepAfterMinorGC()
{
MOZ_ASSERT(needsSweepAfterMinorGC());
if (nurseryKeysValid) {
for (size_t i = 0; i < nurseryKeys.length(); i++) {
JSObject* buffer = MaybeForwarded(nurseryKeys[i]);
Map::Ptr p = map.lookup(buffer);
if (!p)
continue;
if (sweepEntry(&p->mutableKey(), p->value()))
map.remove(buffer);
}
nurseryKeys.clear();
} else {
// Do the required sweeping by looking at every map entry.
nurseryKeys.clear();
sweep();
nurseryKeysValid = true;
}
}
size_t
InnerViewTable::sizeOfExcludingThis(mozilla::MallocSizeOf mallocSizeOf)
{
if (!map.initialized())
return 0;
size_t vectorSize = 0;
for (Map::Enum e(map); !e.empty(); e.popFront())
vectorSize += e.front().value().sizeOfExcludingThis(mallocSizeOf);
return vectorSize
+ map.sizeOfExcludingThis(mallocSizeOf)
+ nurseryKeys.sizeOfExcludingThis(mallocSizeOf);
}
/*
* ArrayBufferViewObject
*/
/*
* This method is used to trace TypedArrayObjects and DataViewObjects. We need
* a custom tracer to move the object's data pointer if its owner was moved and
* stores its data inline.
*/
/* static */ void
ArrayBufferViewObject::trace(JSTracer* trc, JSObject* objArg)
{
NativeObject* obj = &objArg->as<NativeObject>();
HeapSlot& bufSlot = obj->getFixedSlotRef(TypedArrayObject::BUFFER_SLOT);
TraceEdge(trc, &bufSlot, "typedarray.buffer");
// Update obj's data pointer if it moved.
if (bufSlot.isObject()) {
if (IsArrayBuffer(&bufSlot.toObject())) {
ArrayBufferObject& buf = AsArrayBuffer(MaybeForwarded(&bufSlot.toObject()));
uint32_t offset = uint32_t(obj->getFixedSlot(TypedArrayObject::BYTEOFFSET_SLOT).toInt32());
MOZ_ASSERT(offset <= INT32_MAX);
if (buf.forInlineTypedObject()) {
MOZ_ASSERT(buf.dataPointer() != nullptr);
// The data is inline with an InlineTypedObject associated with the
// buffer. Get a new address for the typed object if it moved.
JSObject* view = buf.firstView();
// Mark the object to move it into the tenured space.
TraceManuallyBarrieredEdge(trc, &view, "typed array nursery owner");
MOZ_ASSERT(view->is<InlineTypedObject>());
MOZ_ASSERT(view != obj);
void* srcData = obj->getPrivate();
void* dstData = view->as<InlineTypedObject>().inlineTypedMemForGC() + offset;
obj->setPrivateUnbarriered(dstData);
// We can't use a direct forwarding pointer here, as there might
// not be enough bytes available, and other views might have data
// pointers whose forwarding pointers would overlap this one.
trc->runtime()->gc.nursery.maybeSetForwardingPointer(trc, srcData, dstData,
/* direct = */ false);
} else {
MOZ_ASSERT_IF(buf.dataPointer() == nullptr, offset == 0);
// The data may or may not be inline with the buffer. The buffer
// can only move during a compacting GC, in which case its
// objectMoved hook has already updated the buffer's data pointer.
obj->initPrivate(buf.dataPointer() + offset);
}
}
}
}
template <>
bool
JSObject::is<js::ArrayBufferViewObject>() const
{
return is<DataViewObject>() || is<TypedArrayObject>();
}
template <>
bool
JSObject::is<js::ArrayBufferObjectMaybeShared>() const
{
return is<ArrayBufferObject>() || is<SharedArrayBufferObject>();
}
void
ArrayBufferViewObject::notifyBufferDetached(JSContext* cx, void* newData)
{
if (is<DataViewObject>()) {
as<DataViewObject>().notifyBufferDetached(newData);
} else if (is<TypedArrayObject>()) {
if (as<TypedArrayObject>().isSharedMemory())
return;
as<TypedArrayObject>().notifyBufferDetached(cx, newData);
} else {
as<OutlineTypedObject>().notifyBufferDetached(newData);
}
}
uint8_t*
ArrayBufferViewObject::dataPointerUnshared(const JS::AutoRequireNoGC& nogc)
{
if (is<DataViewObject>())
return static_cast<uint8_t*>(as<DataViewObject>().dataPointer());
if (is<TypedArrayObject>()) {
MOZ_ASSERT(!as<TypedArrayObject>().isSharedMemory());
return static_cast<uint8_t*>(as<TypedArrayObject>().viewDataUnshared());
}
return as<TypedObject>().typedMem(nogc);
}
#ifdef DEBUG
bool
ArrayBufferViewObject::isSharedMemory()
{
if (is<TypedArrayObject>())
return as<TypedArrayObject>().isSharedMemory();
return false;
}
#endif
void
ArrayBufferViewObject::setDataPointerUnshared(uint8_t* data)
{
if (is<DataViewObject>()) {
as<DataViewObject>().setPrivate(data);
} else if (is<TypedArrayObject>()) {
MOZ_ASSERT(!as<TypedArrayObject>().isSharedMemory());
as<TypedArrayObject>().setPrivate(data);
} else if (is<OutlineTypedObject>()) {
as<OutlineTypedObject>().setData(data);
} else {
MOZ_CRASH();
}
}
/* static */ ArrayBufferObjectMaybeShared*
ArrayBufferViewObject::bufferObject(JSContext* cx, Handle<ArrayBufferViewObject*> thisObject)
{
if (thisObject->is<TypedArrayObject>()) {
Rooted<TypedArrayObject*> typedArray(cx, &thisObject->as<TypedArrayObject>());
if (!TypedArrayObject::ensureHasBuffer(cx, typedArray))
return nullptr;
return thisObject->as<TypedArrayObject>().bufferEither();
}
MOZ_ASSERT(thisObject->is<DataViewObject>());
return &thisObject->as<DataViewObject>().arrayBuffer();
}
/* JS Friend API */
JS_FRIEND_API(bool)
JS_IsArrayBufferViewObject(JSObject* obj)
{
obj = CheckedUnwrap(obj);
return obj && obj->is<ArrayBufferViewObject>();
}
JS_FRIEND_API(JSObject*)
js::UnwrapArrayBufferView(JSObject* obj)
{
if (JSObject* unwrapped = CheckedUnwrap(obj))
return unwrapped->is<ArrayBufferViewObject>() ? unwrapped : nullptr;
return nullptr;
}
JS_FRIEND_API(uint32_t)
JS_GetArrayBufferByteLength(JSObject* obj)
{
obj = CheckedUnwrap(obj);
return obj ? AsArrayBuffer(obj).byteLength() : 0;
}
JS_FRIEND_API(uint8_t*)
JS_GetArrayBufferData(JSObject* obj, bool* isSharedMemory, const JS::AutoCheckCannotGC&)
{
obj = CheckedUnwrap(obj);
if (!obj)
return nullptr;
if (!IsArrayBuffer(obj))
return nullptr;
*isSharedMemory = false;
return AsArrayBuffer(obj).dataPointer();
}
JS_FRIEND_API(bool)
JS_DetachArrayBuffer(JSContext* cx, HandleObject obj)
{
AssertHeapIsIdle(cx);
CHECK_REQUEST(cx);
assertSameCompartment(cx, obj);
if (!obj->is<ArrayBufferObject>()) {
JS_ReportErrorASCII(cx, "ArrayBuffer object required");
return false;
}
Rooted<ArrayBufferObject*> buffer(cx, &obj->as<ArrayBufferObject>());
if (buffer->isWasm() || buffer->isPreparedForAsmJS()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_WASM_NO_TRANSFER);
return false;
}
ArrayBufferObject::BufferContents newContents =
buffer->hasStealableContents() ? ArrayBufferObject::BufferContents::createPlain(nullptr)
: buffer->contents();
ArrayBufferObject::detach(cx, buffer, newContents);
return true;
}
JS_FRIEND_API(bool)
JS_IsDetachedArrayBufferObject(JSObject* obj)
{
obj = CheckedUnwrap(obj);
if (!obj)
return false;
return obj->is<ArrayBufferObject>() && obj->as<ArrayBufferObject>().isDetached();
}
JS_FRIEND_API(JSObject*)
JS_NewArrayBuffer(JSContext* cx, uint32_t nbytes)
{
AssertHeapIsIdle(cx);
CHECK_REQUEST(cx);
MOZ_ASSERT(nbytes <= INT32_MAX);
return ArrayBufferObject::create(cx, nbytes);
}
JS_PUBLIC_API(JSObject*)
JS_NewArrayBufferWithContents(JSContext* cx, size_t nbytes, void* data)
{
AssertHeapIsIdle(cx);
CHECK_REQUEST(cx);
MOZ_ASSERT_IF(!data, nbytes == 0);
ArrayBufferObject::BufferContents contents =
ArrayBufferObject::BufferContents::create<ArrayBufferObject::PLAIN>(data);
return ArrayBufferObject::create(cx, nbytes, contents, ArrayBufferObject::OwnsData,
/* proto = */ nullptr, TenuredObject);
}
JS_PUBLIC_API(JSObject*)
JS_NewArrayBufferWithExternalContents(JSContext* cx, size_t nbytes, void* data)
{
AssertHeapIsIdle(cx);
CHECK_REQUEST(cx);
MOZ_ASSERT_IF(!data, nbytes == 0);
ArrayBufferObject::BufferContents contents =
ArrayBufferObject::BufferContents::create<ArrayBufferObject::PLAIN>(data);
return ArrayBufferObject::create(cx, nbytes, contents, ArrayBufferObject::DoesntOwnData,
/* proto = */ nullptr, TenuredObject);
}
JS_FRIEND_API(bool)
JS_IsArrayBufferObject(JSObject* obj)
{
obj = CheckedUnwrap(obj);
return obj && obj->is<ArrayBufferObject>();
}
JS_FRIEND_API(bool)
JS_ArrayBufferHasData(JSObject* obj)
{
return CheckedUnwrap(obj)->as<ArrayBufferObject>().hasData();
}
JS_FRIEND_API(JSObject*)
js::UnwrapArrayBuffer(JSObject* obj)
{
if (JSObject* unwrapped = CheckedUnwrap(obj))
return unwrapped->is<ArrayBufferObject>() ? unwrapped : nullptr;
return nullptr;
}
JS_FRIEND_API(JSObject*)
js::UnwrapSharedArrayBuffer(JSObject* obj)
{
if (JSObject* unwrapped = CheckedUnwrap(obj))
return unwrapped->is<SharedArrayBufferObject>() ? unwrapped : nullptr;
return nullptr;
}
JS_PUBLIC_API(void*)
JS_ExternalizeArrayBufferContents(JSContext* cx, HandleObject obj)
{
AssertHeapIsIdle(cx);
CHECK_REQUEST(cx);
assertSameCompartment(cx, obj);
if (!obj->is<ArrayBufferObject>()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_TYPED_ARRAY_BAD_ARGS);
return nullptr;
}
Handle<ArrayBufferObject*> buffer = obj.as<ArrayBufferObject>();
if (!buffer->isPlain()) {
// This operation isn't supported on mapped or wsm ArrayBufferObjects.
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_TYPED_ARRAY_BAD_ARGS);
return nullptr;
}
if (buffer->isDetached()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_TYPED_ARRAY_DETACHED);
return nullptr;
}
// The caller assumes that a plain malloc'd buffer is returned.
// hasStealableContents is true for mapped buffers, so we must additionally
// require that the buffer is plain. In the future, we could consider
// returning something that handles releasing the memory.
bool hasStealableContents = buffer->hasStealableContents();
return ArrayBufferObject::externalizeContents(cx, buffer, hasStealableContents).data();
}
JS_PUBLIC_API(void*)
JS_StealArrayBufferContents(JSContext* cx, HandleObject objArg)
{
AssertHeapIsIdle(cx);
CHECK_REQUEST(cx);
assertSameCompartment(cx, objArg);
JSObject* obj = CheckedUnwrap(objArg);
if (!obj)
return nullptr;
if (!obj->is<ArrayBufferObject>()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_TYPED_ARRAY_BAD_ARGS);
return nullptr;
}
Rooted<ArrayBufferObject*> buffer(cx, &obj->as<ArrayBufferObject>());
if (buffer->isDetached()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_TYPED_ARRAY_DETACHED);
return nullptr;
}
if (buffer->isWasm() || buffer->isPreparedForAsmJS()) {
JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_WASM_NO_TRANSFER);
return nullptr;
}
// The caller assumes that a plain malloc'd buffer is returned.
// hasStealableContents is true for mapped buffers, so we must additionally
// require that the buffer is plain. In the future, we could consider
// returning something that handles releasing the memory.
bool hasStealableContents = buffer->hasStealableContents() && buffer->isPlain();
AutoCompartment ac(cx, buffer);
return ArrayBufferObject::stealContents(cx, buffer, hasStealableContents).data();
}
JS_PUBLIC_API(JSObject*)
JS_NewMappedArrayBufferWithContents(JSContext* cx, size_t nbytes, void* data)
{
AssertHeapIsIdle(cx);
CHECK_REQUEST(cx);
MOZ_ASSERT(data);
ArrayBufferObject::BufferContents contents =
ArrayBufferObject::BufferContents::create<ArrayBufferObject::MAPPED>(data);
return ArrayBufferObject::create(cx, nbytes, contents, ArrayBufferObject::OwnsData,
/* proto = */ nullptr, TenuredObject);
}
JS_PUBLIC_API(void*)
JS_CreateMappedArrayBufferContents(int fd, size_t offset, size_t length)
{
return ArrayBufferObject::createMappedContents(fd, offset, length).data();
}
JS_PUBLIC_API(void)
JS_ReleaseMappedArrayBufferContents(void* contents, size_t length)
{
MemProfiler::RemoveNative(contents);
DeallocateMappedContent(contents, length);
}
JS_FRIEND_API(bool)
JS_IsMappedArrayBufferObject(JSObject* obj)
{
obj = CheckedUnwrap(obj);
if (!obj)
return false;
return obj->is<ArrayBufferObject>() && obj->as<ArrayBufferObject>().isMapped();
}
JS_FRIEND_API(void*)
JS_GetArrayBufferViewData(JSObject* obj, bool* isSharedMemory, const JS::AutoCheckCannotGC&)
{
obj = CheckedUnwrap(obj);
if (!obj)
return nullptr;
if (obj->is<DataViewObject>()) {
*isSharedMemory = false;
return obj->as<DataViewObject>().dataPointer();
}
TypedArrayObject& ta = obj->as<TypedArrayObject>();
*isSharedMemory = ta.isSharedMemory();
return ta.viewDataEither().unwrap(/*safe - caller sees isShared flag*/);
}
JS_FRIEND_API(JSObject*)
JS_GetArrayBufferViewBuffer(JSContext* cx, HandleObject objArg, bool* isSharedMemory)
{
AssertHeapIsIdle(cx);
CHECK_REQUEST(cx);
assertSameCompartment(cx, objArg);
JSObject* obj = CheckedUnwrap(objArg);
if (!obj)
return nullptr;
MOZ_ASSERT(obj->is<ArrayBufferViewObject>());
Rooted<ArrayBufferViewObject*> viewObject(cx, static_cast<ArrayBufferViewObject*>(obj));
ArrayBufferObjectMaybeShared* buffer = ArrayBufferViewObject::bufferObject(cx, viewObject);
*isSharedMemory = buffer->is<SharedArrayBufferObject>();
return buffer;
}
JS_FRIEND_API(uint32_t)
JS_GetArrayBufferViewByteLength(JSObject* obj)
{
obj = CheckedUnwrap(obj);
if (!obj)
return 0;
return obj->is<DataViewObject>()
? obj->as<DataViewObject>().byteLength()
: obj->as<TypedArrayObject>().byteLength();
}
JS_FRIEND_API(JSObject*)
JS_GetObjectAsArrayBufferView(JSObject* obj, uint32_t* length, bool* isSharedMemory, uint8_t** data)
{
if (!(obj = CheckedUnwrap(obj)))
return nullptr;
if (!(obj->is<ArrayBufferViewObject>()))
return nullptr;
js::GetArrayBufferViewLengthAndData(obj, length, isSharedMemory, data);
return obj;
}
JS_FRIEND_API(void)
js::GetArrayBufferViewLengthAndData(JSObject* obj, uint32_t* length, bool* isSharedMemory, uint8_t** data)
{
MOZ_ASSERT(obj->is<ArrayBufferViewObject>());
*length = obj->is<DataViewObject>()
? obj->as<DataViewObject>().byteLength()
: obj->as<TypedArrayObject>().byteLength();
if (obj->is<DataViewObject>()) {
*isSharedMemory = false;
*data = static_cast<uint8_t*>(obj->as<DataViewObject>().dataPointer());
}
else {
TypedArrayObject& ta = obj->as<TypedArrayObject>();
*isSharedMemory = ta.isSharedMemory();
*data = static_cast<uint8_t*>(ta.viewDataEither().unwrap(/*safe - caller sees isShared flag*/));
}
}
JS_FRIEND_API(JSObject*)
JS_GetObjectAsArrayBuffer(JSObject* obj, uint32_t* length, uint8_t** data)
{
if (!(obj = CheckedUnwrap(obj)))
return nullptr;
if (!IsArrayBuffer(obj))
return nullptr;
*length = AsArrayBuffer(obj).byteLength();
*data = AsArrayBuffer(obj).dataPointer();
return obj;
}
JS_FRIEND_API(void)
js::GetArrayBufferLengthAndData(JSObject* obj, uint32_t* length, bool* isSharedMemory, uint8_t** data)
{
MOZ_ASSERT(IsArrayBuffer(obj));
*length = AsArrayBuffer(obj).byteLength();
*data = AsArrayBuffer(obj).dataPointer();
*isSharedMemory = false;
}
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