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JSCRuntime.cpp
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JSCRuntime.cpp
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/*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
#include "JSCRuntime.h"
#include <JavaScriptCore/JavaScript.h>
#include <atomic>
#include <condition_variable>
#include <cstdlib>
#include <jsi/jsilib.h>
#include <mutex>
#include <queue>
#include <sstream>
#include <thread>
namespace facebook {
namespace jsc {
namespace detail {
class ArgsConverter;
} // namespace detail
class JSCRuntime;
struct Lock {
void lock(const jsc::JSCRuntime&) const {}
void unlock(const jsc::JSCRuntime&) const {}
};
class JSCRuntime : public jsi::Runtime {
public:
// Creates new context in new context group
JSCRuntime();
// Retains ctx
JSCRuntime(JSGlobalContextRef ctx);
~JSCRuntime();
std::shared_ptr<const jsi::PreparedJavaScript> prepareJavaScript(
const std::shared_ptr<const jsi::Buffer> &buffer,
std::string sourceURL) override;
jsi::Value evaluatePreparedJavaScript(
const std::shared_ptr<const jsi::PreparedJavaScript>& js) override;
jsi::Value evaluateJavaScript(
const std::shared_ptr<const jsi::Buffer> &buffer,
const std::string& sourceURL) override;
jsi::Object global() override;
std::string description() override;
bool isInspectable() override;
void setDescription(const std::string& desc);
// Please don't use the following two functions, only exposed for
// integration efforts.
JSGlobalContextRef getContext() {
return ctx_;
}
// JSValueRef->JSValue (needs make.*Value so it must be member function)
jsi::Value createValue(JSValueRef value) const;
// Value->JSValueRef (similar to above)
JSValueRef valueRef(const jsi::Value& value);
protected:
friend class detail::ArgsConverter;
class JSCSymbolValue final : public PointerValue {
#ifndef NDEBUG
JSCSymbolValue(JSGlobalContextRef ctx,
const std::atomic<bool>& ctxInvalid,
JSValueRef sym, std::atomic<intptr_t>& counter);
#else
JSCSymbolValue(JSGlobalContextRef ctx,
const std::atomic<bool>& ctxInvalid,
JSValueRef sym);
#endif
void invalidate() override;
JSGlobalContextRef ctx_;
const std::atomic<bool>& ctxInvalid_;
// There is no C type in the JSC API to represent Symbol, so this stored
// a JSValueRef which contains the Symbol.
JSValueRef sym_;
#ifndef NDEBUG
std::atomic<intptr_t>& counter_;
#endif
protected:
friend class JSCRuntime;
};
class JSCStringValue final : public PointerValue {
#ifndef NDEBUG
JSCStringValue(JSStringRef str, std::atomic<intptr_t>& counter);
#else
JSCStringValue(JSStringRef str);
#endif
void invalidate() override;
JSStringRef str_;
#ifndef NDEBUG
std::atomic<intptr_t>& counter_;
#endif
protected:
friend class JSCRuntime;
};
class JSCObjectValue final : public PointerValue {
JSCObjectValue(
JSGlobalContextRef ctx,
const std::atomic<bool>& ctxInvalid,
JSObjectRef obj
#ifndef NDEBUG
,
std::atomic<intptr_t>& counter
#endif
);
void invalidate() override;
JSGlobalContextRef ctx_;
const std::atomic<bool>& ctxInvalid_;
JSObjectRef obj_;
#ifndef NDEBUG
std::atomic<intptr_t>& counter_;
#endif
protected:
friend class JSCRuntime;
};
PointerValue* cloneSymbol(const Runtime::PointerValue* pv) override;
PointerValue* cloneString(const Runtime::PointerValue* pv) override;
PointerValue* cloneObject(const Runtime::PointerValue* pv) override;
PointerValue* clonePropNameID(const Runtime::PointerValue* pv) override;
jsi::PropNameID createPropNameIDFromAscii(const char* str, size_t length)
override;
jsi::PropNameID createPropNameIDFromUtf8(const uint8_t* utf8, size_t length)
override;
jsi::PropNameID createPropNameIDFromString(const jsi::String& str) override;
std::string utf8(const jsi::PropNameID&) override;
bool compare(const jsi::PropNameID&, const jsi::PropNameID&) override;
std::string symbolToString(const jsi::Symbol&) override;
jsi::String createStringFromAscii(const char* str, size_t length) override;
jsi::String createStringFromUtf8(const uint8_t* utf8, size_t length) override;
std::string utf8(const jsi::String&) override;
jsi::Object createObject() override;
jsi::Object createObject(std::shared_ptr<jsi::HostObject> ho) override;
virtual std::shared_ptr<jsi::HostObject> getHostObject(
const jsi::Object&) override;
jsi::HostFunctionType& getHostFunction(const jsi::Function&) override;
jsi::Value getProperty(const jsi::Object&, const jsi::String& name) override;
jsi::Value getProperty(const jsi::Object&, const jsi::PropNameID& name)
override;
bool hasProperty(const jsi::Object&, const jsi::String& name) override;
bool hasProperty(const jsi::Object&, const jsi::PropNameID& name) override;
void setPropertyValue(
jsi::Object&,
const jsi::String& name,
const jsi::Value& value) override;
void setPropertyValue(
jsi::Object&,
const jsi::PropNameID& name,
const jsi::Value& value) override;
bool isArray(const jsi::Object&) const override;
bool isArrayBuffer(const jsi::Object&) const override;
bool isFunction(const jsi::Object&) const override;
bool isHostObject(const jsi::Object&) const override;
bool isHostFunction(const jsi::Function&) const override;
jsi::Array getPropertyNames(const jsi::Object&) override;
// TODO: revisit this implementation
jsi::WeakObject createWeakObject(const jsi::Object&) override;
jsi::Value lockWeakObject(const jsi::WeakObject&) override;
jsi::Array createArray(size_t length) override;
size_t size(const jsi::Array&) override;
size_t size(const jsi::ArrayBuffer&) override;
uint8_t* data(const jsi::ArrayBuffer&) override;
jsi::Value getValueAtIndex(const jsi::Array&, size_t i) override;
void setValueAtIndexImpl(jsi::Array&, size_t i, const jsi::Value& value)
override;
jsi::Function createFunctionFromHostFunction(
const jsi::PropNameID& name,
unsigned int paramCount,
jsi::HostFunctionType func) override;
jsi::Value call(
const jsi::Function&,
const jsi::Value& jsThis,
const jsi::Value* args,
size_t count) override;
jsi::Value callAsConstructor(
const jsi::Function&,
const jsi::Value* args,
size_t count) override;
bool strictEquals(const jsi::Symbol& a, const jsi::Symbol& b) const override;
bool strictEquals(const jsi::String& a, const jsi::String& b) const override;
bool strictEquals(const jsi::Object& a, const jsi::Object& b) const override;
bool instanceOf(const jsi::Object& o, const jsi::Function& f) override;
private:
// Basically convenience casts
static JSValueRef symbolRef(const jsi::Symbol& str);
static JSStringRef stringRef(const jsi::String& str);
static JSStringRef stringRef(const jsi::PropNameID& sym);
static JSObjectRef objectRef(const jsi::Object& obj);
#ifdef RN_FABRIC_ENABLED
static JSObjectRef objectRef(const jsi::WeakObject& obj);
#endif
// Factory methods for creating String/Object
jsi::Symbol createSymbol(JSValueRef symbolRef) const;
jsi::String createString(JSStringRef stringRef) const;
jsi::PropNameID createPropNameID(JSStringRef stringRef);
jsi::Object createObject(JSObjectRef objectRef) const;
// Used by factory methods and clone methods
jsi::Runtime::PointerValue* makeSymbolValue(JSValueRef sym) const;
jsi::Runtime::PointerValue* makeStringValue(JSStringRef str) const;
jsi::Runtime::PointerValue* makeObjectValue(JSObjectRef obj) const;
void checkException(JSValueRef exc);
void checkException(JSValueRef res, JSValueRef exc);
void checkException(JSValueRef exc, const char* msg);
void checkException(JSValueRef res, JSValueRef exc, const char* msg);
JSGlobalContextRef ctx_;
std::atomic<bool> ctxInvalid_;
std::string desc_;
#ifndef NDEBUG
mutable std::atomic<intptr_t> objectCounter_;
mutable std::atomic<intptr_t> symbolCounter_;
mutable std::atomic<intptr_t> stringCounter_;
#endif
};
#ifndef __has_builtin
#define __has_builtin(x) 0
#endif
#if __has_builtin(__builtin_expect) || defined(__GNUC__)
#define JSC_LIKELY(EXPR) __builtin_expect((bool)(EXPR), true)
#define JSC_UNLIKELY(EXPR) __builtin_expect((bool)(EXPR), false)
#else
#define JSC_LIKELY(EXPR) (EXPR)
#define JSC_UNLIKELY(EXPR) (EXPR)
#endif
#define JSC_ASSERT(x) \
do { \
if (JSC_UNLIKELY(!!(x))) { \
abort(); \
} \
} while (0)
#if defined(__IPHONE_OS_VERSION_MIN_REQUIRED)
// This takes care of watch and tvos (due to backwards compatibility in
// Availability.h
#if __IPHONE_OS_VERSION_MIN_REQUIRED >= __IPHONE_9_0
#define _JSC_FAST_IS_ARRAY
#endif
#endif
#if defined(__MAC_OS_X_VERSION_MIN_REQUIRED)
#if __MAC_OS_X_VERSION_MIN_REQUIRED >= __MAC_10_11
// Only one of these should be set for a build. If somehow that's not
// true, this will be a compile-time error and it can be resolved when
// we understand why.
#define _JSC_FAST_IS_ARRAY
#endif
#endif
// JSStringRef utilities
namespace {
std::string JSStringToSTLString(JSStringRef str) {
size_t maxBytes = JSStringGetMaximumUTF8CStringSize(str);
std::vector<char> buffer(maxBytes);
JSStringGetUTF8CString(str, buffer.data(), maxBytes);
return std::string(buffer.data());
}
JSStringRef getLengthString() {
static JSStringRef length = JSStringCreateWithUTF8CString("length");
return length;
}
JSStringRef getNameString() {
static JSStringRef name = JSStringCreateWithUTF8CString("name");
return name;
}
JSStringRef getFunctionString() {
static JSStringRef func = JSStringCreateWithUTF8CString("Function");
return func;
}
#if !defined(_JSC_FAST_IS_ARRAY)
JSStringRef getArrayString() {
static JSStringRef array = JSStringCreateWithUTF8CString("Array");
return array;
}
JSStringRef getIsArrayString() {
static JSStringRef isArray = JSStringCreateWithUTF8CString("isArray");
return isArray;
}
#endif
} // namespace
// std::string utility
namespace {
std::string to_string(void* value) {
std::ostringstream ss;
ss << value;
return ss.str();
}
} // namespace
JSCRuntime::JSCRuntime()
: JSCRuntime(JSGlobalContextCreateInGroup(nullptr, nullptr)) {
JSGlobalContextRelease(ctx_);
}
JSCRuntime::JSCRuntime(JSGlobalContextRef ctx)
: ctx_(JSGlobalContextRetain(ctx)),
ctxInvalid_(false)
#ifndef NDEBUG
,
objectCounter_(0),
stringCounter_(0)
#endif
{
}
JSCRuntime::~JSCRuntime() {
// On shutting down and cleaning up: when JSC is actually torn down,
// it calls JSC::Heap::lastChanceToFinalize internally which
// finalizes anything left over. But at this point,
// JSValueUnprotect() can no longer be called. We use an
// atomic<bool> to avoid unsafe unprotects happening after shutdown
// has started.
ctxInvalid_ = true;
JSGlobalContextRelease(ctx_);
#ifndef NDEBUG
assert(
objectCounter_ == 0 && "JSCRuntime destroyed with a dangling API object");
assert(
stringCounter_ == 0 && "JSCRuntime destroyed with a dangling API string");
#endif
}
std::shared_ptr<const jsi::PreparedJavaScript> JSCRuntime::prepareJavaScript(
const std::shared_ptr<const jsi::Buffer> &buffer,
std::string sourceURL) {
return std::make_shared<jsi::SourceJavaScriptPreparation>(
buffer, std::move(sourceURL));
}
jsi::Value JSCRuntime::evaluatePreparedJavaScript(
const std::shared_ptr<const jsi::PreparedJavaScript>& js) {
assert(
dynamic_cast<const jsi::SourceJavaScriptPreparation*>(js.get()) &&
"preparedJavaScript must be a SourceJavaScriptPreparation");
auto sourceJs =
std::static_pointer_cast<const jsi::SourceJavaScriptPreparation>(js);
return evaluateJavaScript(sourceJs, sourceJs->sourceURL());
}
jsi::Value JSCRuntime::evaluateJavaScript(
const std::shared_ptr<const jsi::Buffer> &buffer,
const std::string& sourceURL) {
std::string tmp(
reinterpret_cast<const char*>(buffer->data()), buffer->size());
JSStringRef sourceRef = JSStringCreateWithUTF8CString(tmp.c_str());
JSStringRef sourceURLRef = nullptr;
if (!sourceURL.empty()) {
sourceURLRef = JSStringCreateWithUTF8CString(sourceURL.c_str());
}
JSValueRef exc = nullptr;
JSValueRef res =
JSEvaluateScript(ctx_, sourceRef, nullptr, sourceURLRef, 0, &exc);
JSStringRelease(sourceRef);
if (sourceURLRef) {
JSStringRelease(sourceURLRef);
}
checkException(res, exc);
return createValue(res);
}
jsi::Object JSCRuntime::global() {
return createObject(JSContextGetGlobalObject(ctx_));
}
std::string JSCRuntime::description() {
if (desc_.empty()) {
desc_ = std::string("<JSCRuntime@") + to_string(this) + ">";
}
return desc_;
}
bool JSCRuntime::isInspectable() {
return false;
}
namespace {
bool smellsLikeES6Symbol(JSGlobalContextRef ctx, JSValueRef ref) {
// Empirically, an es6 Symbol is not an object, but its type is
// object. This makes no sense, but we'll run with it.
return (!JSValueIsObject(ctx, ref) &&
JSValueGetType(ctx, ref) == kJSTypeObject);
}
}
JSCRuntime::JSCSymbolValue::JSCSymbolValue(
JSGlobalContextRef ctx,
const std::atomic<bool>& ctxInvalid,
JSValueRef sym
#ifndef NDEBUG
,
std::atomic<intptr_t>& counter
#endif
)
: ctx_(ctx),
ctxInvalid_(ctxInvalid),
sym_(sym)
#ifndef NDEBUG
,
counter_(counter)
#endif
{
assert(smellsLikeES6Symbol(ctx_, sym_));
JSValueProtect(ctx_, sym_);
#ifndef NDEBUG
counter_ += 1;
#endif
}
void JSCRuntime::JSCSymbolValue::invalidate() {
#ifndef NDEBUG
counter_ -= 1;
#endif
if (!ctxInvalid_) {
JSValueUnprotect(ctx_, sym_);
}
delete this;
}
#ifndef NDEBUG
JSCRuntime::JSCStringValue::JSCStringValue(
JSStringRef str,
std::atomic<intptr_t>& counter)
: str_(JSStringRetain(str)), counter_(counter) {
// Since std::atomic returns a copy instead of a reference when calling
// operator+= we must do this explicitly in the constructor
counter_ += 1;
}
#else
JSCRuntime::JSCStringValue::JSCStringValue(JSStringRef str)
: str_(JSStringRetain(str)) {
}
#endif
void JSCRuntime::JSCStringValue::invalidate() {
// These JSC{String,Object}Value objects are implicitly owned by the
// {String,Object} objects, thus when a String/Object is destructed
// the JSC{String,Object}Value should be released.
#ifndef NDEBUG
counter_ -= 1;
#endif
JSStringRelease(str_);
// Angery reaccs only
delete this;
}
JSCRuntime::JSCObjectValue::JSCObjectValue(
JSGlobalContextRef ctx,
const std::atomic<bool>& ctxInvalid,
JSObjectRef obj
#ifndef NDEBUG
,
std::atomic<intptr_t>& counter
#endif
)
: ctx_(ctx),
ctxInvalid_(ctxInvalid),
obj_(obj)
#ifndef NDEBUG
,
counter_(counter)
#endif
{
JSValueProtect(ctx_, obj_);
#ifndef NDEBUG
counter_ += 1;
#endif
}
void JSCRuntime::JSCObjectValue::invalidate() {
#ifndef NDEBUG
counter_ -= 1;
#endif
// When shutting down the VM, if there is a HostObject which
// contains or otherwise owns a jsi::Object, then the final GC will
// finalize the HostObject, leading to a call to invalidate(). But
// at that point, making calls to JSValueUnprotect will crash.
// It is up to the application to make sure that any other calls to
// invalidate() happen before VM destruction; see the comment on
// jsi::Runtime.
//
// Another potential concern here is that in the non-shutdown case,
// if a HostObject is GCd, JSValueUnprotect will be called from the
// JSC finalizer. The documentation warns against this: "You must
// not call any function that may cause a garbage collection or an
// allocation of a garbage collected object from within a
// JSObjectFinalizeCallback. This includes all functions that have a
// JSContextRef parameter." However, an audit of the source code for
// JSValueUnprotect in late 2018 shows that it cannot cause
// allocation or a GC, and further, this code has not changed in
// about two years. In the future, we may choose to reintroduce the
// mechanism previously used here which uses a separate thread for
// JSValueUnprotect, in order to conform to the documented API, but
// use the "unsafe" synchronous version on iOS 11 and earlier.
if (!ctxInvalid_) {
JSValueUnprotect(ctx_, obj_);
}
delete this;
}
jsi::Runtime::PointerValue* JSCRuntime::cloneSymbol(
const jsi::Runtime::PointerValue* pv) {
if (!pv) {
return nullptr;
}
const JSCSymbolValue* symbol = static_cast<const JSCSymbolValue*>(pv);
return makeSymbolValue(symbol->sym_);
}
jsi::Runtime::PointerValue* JSCRuntime::cloneString(
const jsi::Runtime::PointerValue* pv) {
if (!pv) {
return nullptr;
}
const JSCStringValue* string = static_cast<const JSCStringValue*>(pv);
return makeStringValue(string->str_);
}
jsi::Runtime::PointerValue* JSCRuntime::cloneObject(
const jsi::Runtime::PointerValue* pv) {
if (!pv) {
return nullptr;
}
const JSCObjectValue* object = static_cast<const JSCObjectValue*>(pv);
assert(
object->ctx_ == ctx_ &&
"Don't try to clone an object backed by a different Runtime");
return makeObjectValue(object->obj_);
}
jsi::Runtime::PointerValue* JSCRuntime::clonePropNameID(
const jsi::Runtime::PointerValue* pv) {
if (!pv) {
return nullptr;
}
const JSCStringValue* string = static_cast<const JSCStringValue*>(pv);
return makeStringValue(string->str_);
}
jsi::PropNameID JSCRuntime::createPropNameIDFromAscii(
const char* str,
size_t length) {
// For system JSC this must is identical to a string
std::string tmp(str, length);
JSStringRef strRef = JSStringCreateWithUTF8CString(tmp.c_str());
auto res = createPropNameID(strRef);
JSStringRelease(strRef);
return res;
}
jsi::PropNameID JSCRuntime::createPropNameIDFromUtf8(
const uint8_t* utf8,
size_t length) {
std::string tmp(reinterpret_cast<const char*>(utf8), length);
JSStringRef strRef = JSStringCreateWithUTF8CString(tmp.c_str());
auto res = createPropNameID(strRef);
JSStringRelease(strRef);
return res;
}
jsi::PropNameID JSCRuntime::createPropNameIDFromString(const jsi::String& str) {
return createPropNameID(stringRef(str));
}
std::string JSCRuntime::utf8(const jsi::PropNameID& sym) {
return JSStringToSTLString(stringRef(sym));
}
bool JSCRuntime::compare(const jsi::PropNameID& a, const jsi::PropNameID& b) {
return JSStringIsEqual(stringRef(a), stringRef(b));
}
std::string JSCRuntime::symbolToString(const jsi::Symbol& sym) {
return jsi::Value(*this, sym)
.toString(*this)
.utf8(*this);
}
jsi::String JSCRuntime::createStringFromAscii(const char* str, size_t length) {
// Yes we end up double casting for semantic reasons (UTF8 contains ASCII,
// not the other way around)
return this->createStringFromUtf8(
reinterpret_cast<const uint8_t*>(str), length);
}
jsi::String JSCRuntime::createStringFromUtf8(
const uint8_t* str,
size_t length) {
std::string tmp(reinterpret_cast<const char*>(str), length);
JSStringRef stringRef = JSStringCreateWithUTF8CString(tmp.c_str());
auto result = createString(stringRef);
JSStringRelease(stringRef);
return result;
}
std::string JSCRuntime::utf8(const jsi::String& str) {
return JSStringToSTLString(stringRef(str));
}
jsi::Object JSCRuntime::createObject() {
return createObject(static_cast<JSObjectRef>(nullptr));
}
// HostObject details
namespace detail {
struct HostObjectProxyBase {
HostObjectProxyBase(
JSCRuntime& rt,
const std::shared_ptr<jsi::HostObject>& sho)
: runtime(rt), hostObject(sho) {}
JSCRuntime& runtime;
std::shared_ptr<jsi::HostObject> hostObject;
};
} // namespace detail
namespace {
std::once_flag hostObjectClassOnceFlag;
JSClassRef hostObjectClass{};
} // namespace
jsi::Object JSCRuntime::createObject(std::shared_ptr<jsi::HostObject> ho) {
struct HostObjectProxy : public detail::HostObjectProxyBase {
static JSValueRef getProperty(
JSContextRef ctx,
JSObjectRef object,
JSStringRef propName,
JSValueRef* exception) {
auto proxy = static_cast<HostObjectProxy*>(JSObjectGetPrivate(object));
auto& rt = proxy->runtime;
jsi::PropNameID sym = rt.createPropNameID(propName);
jsi::Value ret;
try {
ret = proxy->hostObject->get(rt, sym);
} catch (const jsi::JSError& error) {
*exception = rt.valueRef(error.value());
return JSValueMakeUndefined(ctx);
} catch (const std::exception& ex) {
auto excValue =
rt.global()
.getPropertyAsFunction(rt, "Error")
.call(
rt,
std::string("Exception in HostObject::get(propName:")
+ JSStringToSTLString(propName)
+ std::string("): ") + ex.what());
*exception = rt.valueRef(excValue);
return JSValueMakeUndefined(ctx);
} catch (...) {
auto excValue =
rt.global()
.getPropertyAsFunction(rt, "Error")
.call(
rt,
std::string("Exception in HostObject::get(propName:")
+ JSStringToSTLString(propName)
+ std::string("): <unknown>"));
*exception = rt.valueRef(excValue);
return JSValueMakeUndefined(ctx);
}
return rt.valueRef(ret);
}
#define JSC_UNUSED(x) (void) (x);
static bool setProperty(
JSContextRef ctx,
JSObjectRef object,
JSStringRef propName,
JSValueRef value,
JSValueRef* exception) {
JSC_UNUSED(ctx);
auto proxy = static_cast<HostObjectProxy*>(JSObjectGetPrivate(object));
auto& rt = proxy->runtime;
jsi::PropNameID sym = rt.createPropNameID(propName);
try {
proxy->hostObject->set(rt, sym, rt.createValue(value));
} catch (const jsi::JSError& error) {
*exception = rt.valueRef(error.value());
return false;
} catch (const std::exception& ex) {
auto excValue =
rt.global()
.getPropertyAsFunction(rt, "Error")
.call(
rt,
std::string("Exception in HostObject::set(propName:")
+ JSStringToSTLString(propName)
+ std::string("): ") + ex.what());
*exception = rt.valueRef(excValue);
return false;
} catch (...) {
auto excValue =
rt.global()
.getPropertyAsFunction(rt, "Error")
.call(
rt,
std::string("Exception in HostObject::set(propName:")
+ JSStringToSTLString(propName)
+ std::string("): <unknown>"));
*exception = rt.valueRef(excValue);
return false;
}
return true;
}
// JSC does not provide means to communicate errors from this callback,
// so the error handling strategy is very brutal - we'll just crash
// due to noexcept.
static void getPropertyNames(
JSContextRef ctx,
JSObjectRef object,
JSPropertyNameAccumulatorRef propertyNames) noexcept {
JSC_UNUSED(ctx);
auto proxy = static_cast<HostObjectProxy*>(JSObjectGetPrivate(object));
auto& rt = proxy->runtime;
auto names = proxy->hostObject->getPropertyNames(rt);
for (auto& name : names) {
JSPropertyNameAccumulatorAddName(propertyNames, stringRef(name));
}
}
#undef JSC_UNUSED
static void finalize(JSObjectRef obj) {
auto hostObject = static_cast<HostObjectProxy*>(JSObjectGetPrivate(obj));
JSObjectSetPrivate(obj, nullptr);
delete hostObject;
}
using HostObjectProxyBase::HostObjectProxyBase;
};
std::call_once(hostObjectClassOnceFlag, []() {
JSClassDefinition hostObjectClassDef = kJSClassDefinitionEmpty;
hostObjectClassDef.version = 0;
hostObjectClassDef.attributes = kJSClassAttributeNoAutomaticPrototype;
hostObjectClassDef.finalize = HostObjectProxy::finalize;
hostObjectClassDef.getProperty = HostObjectProxy::getProperty;
hostObjectClassDef.setProperty = HostObjectProxy::setProperty;
hostObjectClassDef.getPropertyNames = HostObjectProxy::getPropertyNames;
hostObjectClass = JSClassCreate(&hostObjectClassDef);
});
JSObjectRef obj =
JSObjectMake(ctx_, hostObjectClass, new HostObjectProxy(*this, ho));
return createObject(obj);
}
std::shared_ptr<jsi::HostObject> JSCRuntime::getHostObject(
const jsi::Object& obj) {
// We are guaranteed at this point to have isHostObject(obj) == true
// so the private data should be HostObjectMetadata
JSObjectRef object = objectRef(obj);
auto metadata =
static_cast<detail::HostObjectProxyBase*>(JSObjectGetPrivate(object));
assert(metadata);
return metadata->hostObject;
}
jsi::Value JSCRuntime::getProperty(
const jsi::Object& obj,
const jsi::String& name) {
JSObjectRef objRef = objectRef(obj);
JSValueRef exc = nullptr;
JSValueRef res = JSObjectGetProperty(ctx_, objRef, stringRef(name), &exc);
checkException(exc);
return createValue(res);
}
jsi::Value JSCRuntime::getProperty(
const jsi::Object& obj,
const jsi::PropNameID& name) {
JSObjectRef objRef = objectRef(obj);
JSValueRef exc = nullptr;
JSValueRef res = JSObjectGetProperty(ctx_, objRef, stringRef(name), &exc);
checkException(exc);
return createValue(res);
}
bool JSCRuntime::hasProperty(const jsi::Object& obj, const jsi::String& name) {
JSObjectRef objRef = objectRef(obj);
return JSObjectHasProperty(ctx_, objRef, stringRef(name));
}
bool JSCRuntime::hasProperty(
const jsi::Object& obj,
const jsi::PropNameID& name) {
JSObjectRef objRef = objectRef(obj);
return JSObjectHasProperty(ctx_, objRef, stringRef(name));
}
void JSCRuntime::setPropertyValue(
jsi::Object& object,
const jsi::PropNameID& name,
const jsi::Value& value) {
JSValueRef exc = nullptr;
JSObjectSetProperty(
ctx_,
objectRef(object),
stringRef(name),
valueRef(value),
kJSPropertyAttributeNone,
&exc);
checkException(exc);
}
void JSCRuntime::setPropertyValue(
jsi::Object& object,
const jsi::String& name,
const jsi::Value& value) {
JSValueRef exc = nullptr;
JSObjectSetProperty(
ctx_,
objectRef(object),
stringRef(name),
valueRef(value),
kJSPropertyAttributeNone,
&exc);
checkException(exc);
}
bool JSCRuntime::isArray(const jsi::Object& obj) const {
#if !defined(_JSC_FAST_IS_ARRAY)
JSObjectRef global = JSContextGetGlobalObject(ctx_);
JSStringRef arrayString = getArrayString();
JSValueRef exc = nullptr;
JSValueRef arrayCtorValue =
JSObjectGetProperty(ctx_, global, arrayString, &exc);
JSC_ASSERT(exc);
JSObjectRef arrayCtor = JSValueToObject(ctx_, arrayCtorValue, &exc);
JSC_ASSERT(exc);
JSStringRef isArrayString = getIsArrayString();
JSValueRef isArrayValue =
JSObjectGetProperty(ctx_, arrayCtor, isArrayString, &exc);
JSC_ASSERT(exc);
JSObjectRef isArray = JSValueToObject(ctx_, isArrayValue, &exc);
JSC_ASSERT(exc);
JSValueRef arg = objectRef(obj);
JSValueRef result =
JSObjectCallAsFunction(ctx_, isArray, nullptr, 1, &arg, &exc);
JSC_ASSERT(exc);
return JSValueToBoolean(ctx_, result);
#else
return JSValueIsArray(ctx_, objectRef(obj));
#endif
}
bool JSCRuntime::isArrayBuffer(const jsi::Object& /*obj*/) const {
// TODO: T23270523 - This would fail on builds that use our custom JSC
// auto typedArrayType = JSValueGetTypedArrayType(ctx_, objectRef(obj),
// nullptr); return typedArrayType == kJSTypedArrayTypeArrayBuffer;
throw std::runtime_error("Unsupported");
}
uint8_t* JSCRuntime::data(const jsi::ArrayBuffer& /*obj*/) {
// TODO: T23270523 - This would fail on builds that use our custom JSC
// return static_cast<uint8_t*>(
// JSObjectGetArrayBufferBytesPtr(ctx_, objectRef(obj), nullptr));
throw std::runtime_error("Unsupported");
}
size_t JSCRuntime::size(const jsi::ArrayBuffer& /*obj*/) {
// TODO: T23270523 - This would fail on builds that use our custom JSC
// return JSObjectGetArrayBufferByteLength(ctx_, objectRef(obj), nullptr);
throw std::runtime_error("Unsupported");
}
bool JSCRuntime::isFunction(const jsi::Object& obj) const {
return JSObjectIsFunction(ctx_, objectRef(obj));
}
bool JSCRuntime::isHostObject(const jsi::Object& obj) const {
auto cls = hostObjectClass;
return cls != nullptr && JSValueIsObjectOfClass(ctx_, objectRef(obj), cls);
}
// Very expensive
jsi::Array JSCRuntime::getPropertyNames(const jsi::Object& obj) {
JSPropertyNameArrayRef names =
JSObjectCopyPropertyNames(ctx_, objectRef(obj));
size_t len = JSPropertyNameArrayGetCount(names);
// Would be better if we could create an array with explicit elements
auto result = createArray(len);
for (size_t i = 0; i < len; i++) {
JSStringRef str = JSPropertyNameArrayGetNameAtIndex(names, i);
result.setValueAtIndex(*this, i, createString(str));
}
JSPropertyNameArrayRelease(names);
return result;
}
jsi::WeakObject JSCRuntime::createWeakObject(const jsi::Object& obj) {
#ifdef RN_FABRIC_ENABLED
// TODO: revisit this implementation
JSObjectRef objRef = objectRef(obj);
return make<jsi::WeakObject>(makeObjectValue(objRef));
#else
throw std::logic_error("Not implemented");
#endif
}
jsi::Value JSCRuntime::lockWeakObject(const jsi::WeakObject& obj) {
#ifdef RN_FABRIC_ENABLED
// TODO: revisit this implementation
JSObjectRef objRef = objectRef(obj);
return jsi::Value(createObject(objRef));
#else
throw std::logic_error("Not implemented");
#endif
}
jsi::Array JSCRuntime::createArray(size_t length) {
JSValueRef exc = nullptr;
JSObjectRef obj = JSObjectMakeArray(ctx_, 0, nullptr, &exc);
checkException(obj, exc);
JSObjectSetProperty(
ctx_,
obj,
getLengthString(),
JSValueMakeNumber(ctx_, static_cast<double>(length)),
0,
&exc);
checkException(exc);
return createObject(obj).getArray(*this);
}
size_t JSCRuntime::size(const jsi::Array& arr) {
return static_cast<size_t>(
getProperty(arr, createPropNameID(getLengthString())).getNumber());
}
jsi::Value JSCRuntime::getValueAtIndex(const jsi::Array& arr, size_t i) {
JSValueRef exc = nullptr;
auto res = JSObjectGetPropertyAtIndex(ctx_, objectRef(arr), (int)i, &exc);
checkException(exc);
return createValue(res);
}
void JSCRuntime::setValueAtIndexImpl(
jsi::Array& arr,
size_t i,
const jsi::Value& value) {
JSValueRef exc = nullptr;
JSObjectSetPropertyAtIndex(ctx_, objectRef(arr), (int)i, valueRef(value), &exc);
checkException(exc);
}
namespace {
std::once_flag hostFunctionClassOnceFlag;
JSClassRef hostFunctionClass{};
class HostFunctionProxy {
public:
HostFunctionProxy(jsi::HostFunctionType hostFunction)
: hostFunction_(hostFunction) {}