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webkit / WebKit / a505795d6604e65c53d1725ad4e11f5541e21004 / . / Source / JavaScriptCore / API / JSWrapperMap.mm
blob: 28c233ea18696135ed1131d960bafb669ca3386c [file] [log] [blame]
/*
* Copyright (C) 2013-2019 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"
#import "JavaScriptCore.h"
#if JSC_OBJC_API_ENABLED
#import "APICast.h"
#import "APIUtils.h"
#import "JSAPIWrapperObject.h"
#import "JSCInlines.h"
#import "JSCallbackObject.h"
#import "JSContextInternal.h"
#import "JSWrapperMap.h"
#import "ObjCCallbackFunction.h"
#import "ObjcRuntimeExtras.h"
#import "ObjectConstructor.h"
#import "WeakGCMap.h"
#import "WeakGCMapInlines.h"
#import <wtf/Vector.h>
#import <wtf/spi/darwin/dyldSPI.h>
#include <mach-o/dyld.h>
#if PLATFORM(APPLETV)
#else
static constexpr int32_t firstJavaScriptCoreVersionWithInitConstructorSupport = 0x21A0400; // 538.4.0
#if PLATFORM(IOS_FAMILY)
static constexpr uint32_t firstSDKVersionWithInitConstructorSupport = DYLD_IOS_VERSION_10_0;
#elif PLATFORM(MAC)
static constexpr uint32_t firstSDKVersionWithInitConstructorSupport = 0xA0A00; // OSX 10.10.0
#endif
#endif
@class JSObjCClassInfo;
@interface JSWrapperMap ()
- (JSObjCClassInfo*)classInfoForClass:(Class)cls;
@end
static constexpr unsigned InitialBufferSize { 256 };
// Default conversion of selectors to property names.
// All semicolons are removed, lowercase letters following a semicolon are capitalized.
static NSString *selectorToPropertyName(const char* start)
{
// Use 'index' to check for colons, if there are none, this is easy!
const char* firstColon = strchr(start, ':');
if (!firstColon)
return [NSString stringWithUTF8String:start];
// 'header' is the length of string up to the first colon.
size_t header = firstColon - start;
// The new string needs to be long enough to hold 'header', plus the remainder of the string, excluding
// at least one ':', but including a '\0'. (This is conservative if there are more than one ':').
Vector<char, InitialBufferSize> buffer(header + strlen(firstColon + 1) + 1);
// Copy 'header' characters, set output to point to the end of this & input to point past the first ':'.
memcpy(buffer.data(), start, header);
char* output = buffer.data() + header;
const char* input = start + header + 1;
// On entry to the loop, we have already skipped over a ':' from the input.
while (true) {
char c;
// Skip over any additional ':'s. We'll leave c holding the next character after the
// last ':', and input pointing past c.
while ((c = *(input++)) == ':');
// Copy the character, converting to upper case if necessary.
// If the character we copy is '\0', then we're done!
if (!(*(output++) = toASCIIUpper(c)))
goto done;
// Loop over characters other than ':'.
while ((c = *(input++)) != ':') {
// Copy the character.
// If the character we copy is '\0', then we're done!
if (!(*(output++) = c))
goto done;
}
// If we get here, we've consumed a ':' - wash, rinse, repeat.
}
done:
return [NSString stringWithUTF8String:buffer.data()];
}
static bool constructorHasInstance(JSContextRef ctx, JSObjectRef constructorRef, JSValueRef possibleInstance, JSValueRef*)
{
JSC::JSGlobalObject* globalObject = toJS(ctx);
JSC::VM& vm = globalObject->vm();
JSC::JSLockHolder locker(vm);
JSC::JSObject* constructor = toJS(constructorRef);
JSC::JSValue instance = toJS(globalObject, possibleInstance);
return JSC::JSObject::defaultHasInstance(globalObject, instance, constructor->get(globalObject, vm.propertyNames->prototype));
}
static JSC::JSObject* makeWrapper(JSContextRef ctx, JSClassRef jsClass, id wrappedObject)
{
JSC::JSGlobalObject* globalObject = toJS(ctx);
JSC::VM& vm = globalObject->vm();
JSC::JSLockHolder locker(vm);
ASSERT(jsClass);
JSC::JSCallbackObject<JSC::JSAPIWrapperObject>* object = JSC::JSCallbackObject<JSC::JSAPIWrapperObject>::create(globalObject, globalObject->objcWrapperObjectStructure(), jsClass, 0);
object->setWrappedObject((__bridge void*)wrappedObject);
if (JSC::JSObject* prototype = jsClass->prototype(globalObject))
object->setPrototypeDirect(vm, prototype);
return object;
}
// Make an object that is in all ways a completely vanilla JavaScript object,
// other than that it has a native brand set that will be displayed by the default
// Object.prototype.toString conversion.
static JSC::JSObject *objectWithCustomBrand(JSContext *context, NSString *brand, Class cls = 0)
{
JSClassDefinition definition;
definition = kJSClassDefinitionEmpty;
definition.className = [brand UTF8String];
JSClassRef classRef = JSClassCreate(&definition);
JSC::JSObject* result = makeWrapper([context JSGlobalContextRef], classRef, cls);
JSClassRelease(classRef);
return result;
}
static JSC::JSObject *constructorWithCustomBrand(JSContext *context, NSString *brand, Class cls)
{
JSClassDefinition definition;
definition = kJSClassDefinitionEmpty;
definition.className = [brand UTF8String];
definition.hasInstance = constructorHasInstance;
JSClassRef classRef = JSClassCreate(&definition);
JSC::JSObject* result = makeWrapper([context JSGlobalContextRef], classRef, cls);
JSClassRelease(classRef);
return result;
}
// Look for @optional properties in the prototype containing a selector to property
// name mapping, separated by a __JS_EXPORT_AS__ delimiter.
static NSMutableDictionary *createRenameMap(Protocol *protocol, BOOL isInstanceMethod)
{
NSMutableDictionary *renameMap = [[NSMutableDictionary alloc] init];
forEachMethodInProtocol(protocol, NO, isInstanceMethod, ^(SEL sel, const char*){
NSString *rename = @(sel_getName(sel));
NSRange range = [rename rangeOfString:@"__JS_EXPORT_AS__"];
if (range.location == NSNotFound)
return;
NSString *selector = [rename substringToIndex:range.location];
NSUInteger begin = range.location + range.length;
NSUInteger length = [rename length] - begin - 1;
NSString *name = [rename substringWithRange:(NSRange){ begin, length }];
renameMap[selector] = name;
});
return renameMap;
}
inline void putNonEnumerable(JSContext *context, JSValue *base, NSString *propertyName, JSValue *value)
{
if (![base isObject])
return;
JSC::JSGlobalObject* globalObject = toJS([context JSGlobalContextRef]);
JSC::VM& vm = globalObject->vm();
JSC::JSLockHolder locker(vm);
auto scope = DECLARE_CATCH_SCOPE(vm);
JSC::JSObject* baseObject = JSC::asObject(toJS(globalObject, [base JSValueRef]));
auto name = OpaqueJSString::tryCreate(propertyName);
if (!name)
return;
JSC::PropertyDescriptor descriptor;
descriptor.setValue(toJS(globalObject, [value JSValueRef]));
descriptor.setEnumerable(false);
descriptor.setConfigurable(true);
descriptor.setWritable(true);
bool shouldThrow = false;
baseObject->methodTable(vm)->defineOwnProperty(baseObject, globalObject, name->identifier(&vm), descriptor, shouldThrow);
JSValueRef exception = 0;
if (handleExceptionIfNeeded(scope, [context JSGlobalContextRef], &exception) == ExceptionStatus::DidThrow)
[context valueFromNotifyException:exception];
}
static bool isInitFamilyMethod(NSString *name)
{
NSUInteger i = 0;
// Skip over initial underscores.
for (; i < [name length]; ++i) {
if ([name characterAtIndex:i] != '_')
break;
}
// Match 'init'.
NSUInteger initIndex = 0;
NSString* init = @"init";
for (; i < [name length] && initIndex < [init length]; ++i, ++initIndex) {
if ([name characterAtIndex:i] != [init characterAtIndex:initIndex])
return false;
}
// We didn't match all of 'init'.
if (initIndex < [init length])
return false;
// If we're at the end or the next character is a capital letter then this is an init-family selector.
return i == [name length] || [[NSCharacterSet uppercaseLetterCharacterSet] characterIsMember:[name characterAtIndex:i]];
}
static bool shouldSkipMethodWithName(NSString *name)
{
// For clients that don't support init-based constructors just copy
// over the init method as we would have before.
if (!supportsInitMethodConstructors())
return false;
// Skip over init family methods because we handle those specially
// for the purposes of hooking up the constructor correctly.
return isInitFamilyMethod(name);
}
// This method will iterate over the set of required methods in the protocol, and:
// * Determine a property name (either via a renameMap or default conversion).
// * If an accessorMap is provided, and contains this name, store the method in the map.
// * Otherwise, if the object doesn't already contain a property with name, create it.
static void copyMethodsToObject(JSContext *context, Class objcClass, Protocol *protocol, BOOL isInstanceMethod, JSValue *object, NSMutableDictionary *accessorMethods = nil)
{
NSMutableDictionary *renameMap = createRenameMap(protocol, isInstanceMethod);
forEachMethodInProtocol(protocol, YES, isInstanceMethod, ^(SEL sel, const char* types){
const char* nameCStr = sel_getName(sel);
NSString *name = @(nameCStr);
if (shouldSkipMethodWithName(name))
return;
if (accessorMethods && accessorMethods[name]) {
JSObjectRef method = objCCallbackFunctionForMethod(context, objcClass, protocol, isInstanceMethod, sel, types);
if (!method)
return;
accessorMethods[name] = [JSValue valueWithJSValueRef:method inContext:context];
} else {
name = renameMap[name];
if (!name)
name = selectorToPropertyName(nameCStr);
JSC::JSGlobalObject* globalObject = toJS([context JSGlobalContextRef]);
JSValue *existingMethod = object[name];
// ObjCCallbackFunction does a dynamic lookup for the
// selector before calling the method. In order to save
// memory we only put one callback object in any givin
// prototype chain. However, to handle the client trying
// to override normal builtins e.g. "toString" we check if
// the existing value on the prototype chain is an ObjC
// callback already.
if ([existingMethod isObject] && JSC::jsDynamicCast<JSC::ObjCCallbackFunction*>(globalObject->vm(), toJS(globalObject, [existingMethod JSValueRef])))
return;
JSObjectRef method = objCCallbackFunctionForMethod(context, objcClass, protocol, isInstanceMethod, sel, types);
if (method)
putNonEnumerable(context, object, name, [JSValue valueWithJSValueRef:method inContext:context]);
}
});
[renameMap release];
}
struct Property {
const char* name;
RetainPtr<NSString> getterName;
RetainPtr<NSString> setterName;
};
static bool parsePropertyAttributes(objc_property_t objcProperty, Property& property)
{
bool readonly = false;
unsigned attributeCount;
auto attributes = adoptSystem<objc_property_attribute_t[]>(property_copyAttributeList(objcProperty, &attributeCount));
if (attributeCount) {
for (unsigned i = 0; i < attributeCount; ++i) {
switch (*(attributes[i].name)) {
case 'G':
property.getterName = @(attributes[i].value);
break;
case 'S':
property.setterName = @(attributes[i].value);
break;
case 'R':
readonly = true;
break;
default:
break;
}
}
}
return readonly;
}
static RetainPtr<NSString> makeSetterName(const char* name)
{
size_t nameLength = strlen(name);
// "set" Name ":\0" => nameLength + 5.
Vector<char, 128> buffer(nameLength + 5);
buffer[0] = 's';
buffer[1] = 'e';
buffer[2] = 't';
buffer[3] = toASCIIUpper(*name);
memcpy(buffer.data() + 4, name + 1, nameLength - 1);
buffer[nameLength + 3] = ':';
buffer[nameLength + 4] = '\0';
return @(buffer.data());
}
static void copyPrototypeProperties(JSContext *context, Class objcClass, Protocol *protocol, JSValue *prototypeValue)
{
// First gather propreties into this list, then handle the methods (capturing the accessor methods).
__block Vector<Property> propertyList;
// Map recording the methods used as getters/setters.
NSMutableDictionary *accessorMethods = [NSMutableDictionary dictionary];
// Useful value.
JSValue *undefined = [JSValue valueWithUndefinedInContext:context];
forEachPropertyInProtocol(protocol, ^(objc_property_t objcProperty) {
const char* name = property_getName(objcProperty);
Property property { name, nullptr, nullptr };
bool readonly = parsePropertyAttributes(objcProperty, property);
// Add the names of the getter & setter methods to
if (!property.getterName)
property.getterName = @(name);
accessorMethods[property.getterName.get()] = undefined;
if (!readonly) {
if (!property.setterName)
property.setterName = makeSetterName(name);
accessorMethods[property.setterName.get()] = undefined;
}
// Add the properties to a list.
propertyList.append(WTFMove(property));
});
// Copy methods to the prototype, capturing accessors in the accessorMethods map.
copyMethodsToObject(context, objcClass, protocol, YES, prototypeValue, accessorMethods);
// Iterate the propertyList & generate accessor properties.
for (auto& property : propertyList) {
JSValue* getter = accessorMethods[property.getterName.get()];
ASSERT(![getter isUndefined]);
JSValue* setter = undefined;
if (property.setterName) {
setter = accessorMethods[property.setterName.get()];
ASSERT(![setter isUndefined]);
}
[prototypeValue defineProperty:@(property.name) descriptor:@{
JSPropertyDescriptorGetKey: getter,
JSPropertyDescriptorSetKey: setter,
JSPropertyDescriptorEnumerableKey: @NO,
JSPropertyDescriptorConfigurableKey: @YES
}];
}
}
@interface JSObjCClassInfo : NSObject {
Class m_class;
bool m_block;
JSClassRef m_classRef;
JSC::Weak<JSC::JSObject> m_prototype;
JSC::Weak<JSC::JSObject> m_constructor;
JSC::Weak<JSC::Structure> m_structure;
}
- (instancetype)initForClass:(Class)cls;
- (JSC::JSObject *)wrapperForObject:(id)object inContext:(JSContext *)context;
- (JSC::JSObject *)constructorInContext:(JSContext *)context;
- (JSC::JSObject *)prototypeInContext:(JSContext *)context;
@end
@implementation JSObjCClassInfo
- (instancetype)initForClass:(Class)cls
{
self = [super init];
if (!self)
return nil;
const char* className = class_getName(cls);
m_class = cls;
m_block = [cls isSubclassOfClass:getNSBlockClass()];
JSClassDefinition definition;
definition = kJSClassDefinitionEmpty;
definition.className = className;
m_classRef = JSClassCreate(&definition);
return self;
}
- (void)dealloc
{
JSClassRelease(m_classRef);
[super dealloc];
}
static JSC::JSObject* allocateConstructorForCustomClass(JSContext *context, const char* className, Class cls)
{
if (!supportsInitMethodConstructors())
return constructorWithCustomBrand(context, [NSString stringWithFormat:@"%sConstructor", className], cls);
// For each protocol that the class implements, gather all of the init family methods into a hash table.
__block HashMap<String, CFTypeRef> initTable;
Protocol *exportProtocol = getJSExportProtocol();
for (Class currentClass = cls; currentClass; currentClass = class_getSuperclass(currentClass)) {
forEachProtocolImplementingProtocol(currentClass, exportProtocol, ^(Protocol *protocol, bool&) {
forEachMethodInProtocol(protocol, YES, YES, ^(SEL selector, const char*) {
const char* name = sel_getName(selector);
if (!isInitFamilyMethod(@(name)))
return;
initTable.set(name, (__bridge CFTypeRef)protocol);
});
});
}
for (Class currentClass = cls; currentClass; currentClass = class_getSuperclass(currentClass)) {
__block unsigned numberOfInitsFound = 0;
__block SEL initMethod = 0;
__block Protocol *initProtocol = 0;
__block const char* types = 0;
forEachMethodInClass(currentClass, ^(Method method) {
SEL selector = method_getName(method);
const char* name = sel_getName(selector);
auto iter = initTable.find(name);
if (iter == initTable.end())
return;
numberOfInitsFound++;
initMethod = selector;
initProtocol = (__bridge Protocol *)iter->value;
types = method_getTypeEncoding(method);
});
if (!numberOfInitsFound)
continue;
if (numberOfInitsFound > 1) {
NSLog(@"ERROR: Class %@ exported more than one init family method via JSExport. Class %@ will not have a callable JavaScript constructor function.", cls, cls);
break;
}
JSObjectRef method = objCCallbackFunctionForInit(context, cls, initProtocol, initMethod, types);
return toJS(method);
}
return constructorWithCustomBrand(context, [NSString stringWithFormat:@"%sConstructor", className], cls);
}
typedef std::pair<JSC::JSObject*, JSC::JSObject*> ConstructorPrototypePair;
- (ConstructorPrototypePair)allocateConstructorAndPrototypeInContext:(JSContext *)context
{
JSObjCClassInfo* superClassInfo = [context.wrapperMap classInfoForClass:class_getSuperclass(m_class)];
ASSERT(!m_constructor || !m_prototype);
ASSERT((m_class == [NSObject class]) == !superClassInfo);
JSC::JSObject* jsPrototype = m_prototype.get();
JSC::JSObject* jsConstructor = m_constructor.get();
if (!superClassInfo) {
JSC::JSGlobalObject* globalObject = toJSGlobalObject([context JSGlobalContextRef]);
if (!jsConstructor)
jsConstructor = globalObject->objectConstructor();
if (!jsPrototype)
jsPrototype = globalObject->objectPrototype();
} else {
const char* className = class_getName(m_class);
// Create or grab the prototype/constructor pair.
if (!jsPrototype)
jsPrototype = objectWithCustomBrand(context, [NSString stringWithFormat:@"%sPrototype", className]);
if (!jsConstructor)
jsConstructor = allocateConstructorForCustomClass(context, className, m_class);
JSValue* prototype = [JSValue valueWithJSValueRef:toRef(jsPrototype) inContext:context];
JSValue* constructor = [JSValue valueWithJSValueRef:toRef(jsConstructor) inContext:context];
putNonEnumerable(context, prototype, @"constructor", constructor);
putNonEnumerable(context, constructor, @"prototype", prototype);
Protocol *exportProtocol = getJSExportProtocol();
forEachProtocolImplementingProtocol(m_class, exportProtocol, ^(Protocol *protocol, bool&){
copyPrototypeProperties(context, m_class, protocol, prototype);
copyMethodsToObject(context, m_class, protocol, NO, constructor);
});
// Set [Prototype].
JSC::JSObject* superClassPrototype = [superClassInfo prototypeInContext:context];
JSObjectSetPrototype([context JSGlobalContextRef], toRef(jsPrototype), toRef(superClassPrototype));
}
m_prototype = jsPrototype;
m_constructor = jsConstructor;
return ConstructorPrototypePair(jsConstructor, jsPrototype);
}
- (JSC::JSObject*)wrapperForObject:(id)object inContext:(JSContext *)context
{
ASSERT([object isKindOfClass:m_class]);
ASSERT(m_block == [object isKindOfClass:getNSBlockClass()]);
if (m_block) {
if (JSObjectRef method = objCCallbackFunctionForBlock(context, object)) {
JSValue *constructor = [JSValue valueWithJSValueRef:method inContext:context];
JSValue *prototype = [JSValue valueWithNewObjectInContext:context];
putNonEnumerable(context, constructor, @"prototype", prototype);
putNonEnumerable(context, prototype, @"constructor", constructor);
return toJS(method);
}
}
JSC::Structure* structure = [self structureInContext:context];
JSC::JSGlobalObject* globalObject = toJS([context JSGlobalContextRef]);
JSC::VM& vm = globalObject->vm();
JSC::JSLockHolder locker(vm);
auto wrapper = JSC::JSCallbackObject<JSC::JSAPIWrapperObject>::create(globalObject, structure, m_classRef, 0);
wrapper->setWrappedObject((__bridge void*)object);
return wrapper;
}
- (JSC::JSObject*)constructorInContext:(JSContext *)context
{
JSC::JSObject* constructor = m_constructor.get();
if (!constructor)
constructor = [self allocateConstructorAndPrototypeInContext:context].first;
ASSERT(!!constructor);
return constructor;
}
- (JSC::JSObject*)prototypeInContext:(JSContext *)context
{
JSC::JSObject* prototype = m_prototype.get();
if (!prototype)
prototype = [self allocateConstructorAndPrototypeInContext:context].second;
ASSERT(!!prototype);
return prototype;
}
- (JSC::Structure*)structureInContext:(JSContext *)context
{
JSC::Structure* structure = m_structure.get();
if (structure)
return structure;
JSC::JSGlobalObject* globalObject = toJSGlobalObject([context JSGlobalContextRef]);
JSC::JSObject* prototype = [self prototypeInContext:context];
m_structure = JSC::JSCallbackObject<JSC::JSAPIWrapperObject>::createStructure(globalObject->vm(), globalObject, prototype);
return m_structure.get();
}
@end
@implementation JSWrapperMap {
NSMutableDictionary *m_classMap;
std::unique_ptr<JSC::WeakGCMap<__unsafe_unretained id, JSC::JSObject>> m_cachedJSWrappers;
NSMapTable *m_cachedObjCWrappers;
}
- (instancetype)initWithGlobalContextRef:(JSGlobalContextRef)context
{
self = [super init];
if (!self)
return nil;
NSPointerFunctionsOptions keyOptions = NSPointerFunctionsOpaqueMemory | NSPointerFunctionsOpaquePersonality;
NSPointerFunctionsOptions valueOptions = NSPointerFunctionsWeakMemory | NSPointerFunctionsObjectPersonality;
m_cachedObjCWrappers = [[NSMapTable alloc] initWithKeyOptions:keyOptions valueOptions:valueOptions capacity:0];
m_cachedJSWrappers = makeUnique<JSC::WeakGCMap<__unsafe_unretained id, JSC::JSObject>>(toJS(context)->vm());
ASSERT(!toJSGlobalObject(context)->wrapperMap());
toJSGlobalObject(context)->setWrapperMap(self);
m_classMap = [[NSMutableDictionary alloc] init];
return self;
}
- (void)dealloc
{
[m_cachedObjCWrappers release];
[m_classMap release];
[super dealloc];
}
- (JSObjCClassInfo*)classInfoForClass:(Class)cls
{
if (!cls)
return nil;
// Check if we've already created a JSObjCClassInfo for this Class.
if (JSObjCClassInfo* classInfo = (JSObjCClassInfo*)m_classMap[cls])
return classInfo;
// Skip internal classes beginning with '_' - just copy link to the parent class's info.
if ('_' == *class_getName(cls)) {
bool conformsToExportProtocol = false;
forEachProtocolImplementingProtocol(cls, getJSExportProtocol(), [&conformsToExportProtocol](Protocol *, bool& stop) {
conformsToExportProtocol = true;
stop = true;
});
if (!conformsToExportProtocol)
return m_classMap[cls] = [self classInfoForClass:class_getSuperclass(cls)];
}
return m_classMap[cls] = [[[JSObjCClassInfo alloc] initForClass:cls] autorelease];
}
- (JSValue *)jsWrapperForObject:(id)object inContext:(JSContext *)context
{
ASSERT(toJSGlobalObject([context JSGlobalContextRef])->wrapperMap() == self);
JSC::JSObject* jsWrapper = m_cachedJSWrappers->get(object);
if (jsWrapper)
return [JSValue valueWithJSValueRef:toRef(jsWrapper) inContext:context];
if (class_isMetaClass(object_getClass(object)))
jsWrapper = [[self classInfoForClass:(Class)object] constructorInContext:context];
else {
JSObjCClassInfo* classInfo = [self classInfoForClass:[object class]];
jsWrapper = [classInfo wrapperForObject:object inContext:context];
}
// FIXME: https://bugs.webkit.org/show_bug.cgi?id=105891
// This general approach to wrapper caching is pretty effective, but there are a couple of problems:
// (1) For immortal objects JSValues will effectively leak and this results in error output being logged - we should avoid adding associated objects to immortal objects.
// (2) A long lived object may rack up many JSValues. When the contexts are released these will unprotect the associated JavaScript objects,
// but still, would probably nicer if we made it so that only one associated object was required, broadcasting object dealloc.
m_cachedJSWrappers->set(object, jsWrapper);
return [JSValue valueWithJSValueRef:toRef(jsWrapper) inContext:context];
}
- (JSValue *)objcWrapperForJSValueRef:(JSValueRef)value inContext:context
{
ASSERT(toJSGlobalObject([context JSGlobalContextRef])->wrapperMap() == self);
JSValue *wrapper = (__bridge JSValue *)NSMapGet(m_cachedObjCWrappers, value);
if (!wrapper) {
wrapper = [[[JSValue alloc] initWithValue:value inContext:context] autorelease];
NSMapInsert(m_cachedObjCWrappers, value, (__bridge void*)wrapper);
}
return wrapper;
}
@end
id tryUnwrapObjcObject(JSGlobalContextRef context, JSValueRef value)
{
if (!JSValueIsObject(context, value))
return nil;
JSValueRef exception = 0;
JSObjectRef object = JSValueToObject(context, value, &exception);
ASSERT(!exception);
JSC::JSLockHolder locker(toJS(context));
JSC::VM& vm = toJS(context)->vm();
if (toJS(object)->inherits<JSC::JSCallbackObject<JSC::JSAPIWrapperObject>>(vm))
return (__bridge id)JSC::jsCast<JSC::JSAPIWrapperObject*>(toJS(object))->wrappedObject();
if (id target = tryUnwrapConstructor(&vm, object))
return target;
return nil;
}
// This class ensures that the JSExport protocol is registered with the runtime.
NS_ROOT_CLASS @interface JSExport <JSExport>
@end
@implementation JSExport
@end
bool supportsInitMethodConstructors()
{
#if PLATFORM(APPLETV)
// There are no old clients on Apple TV, so there's no need for backwards compatibility.
return true;
#else
// First check to see the version of JavaScriptCore we directly linked against.
static int32_t versionOfLinkTimeJavaScriptCore = 0;
if (!versionOfLinkTimeJavaScriptCore)
versionOfLinkTimeJavaScriptCore = NSVersionOfLinkTimeLibrary("JavaScriptCore");
// Only do the link time version comparison if we linked directly with JavaScriptCore
if (versionOfLinkTimeJavaScriptCore != -1)
return versionOfLinkTimeJavaScriptCore >= firstJavaScriptCoreVersionWithInitConstructorSupport;
// If we didn't link directly with JavaScriptCore,
// base our check on what SDK was used to build the application.
static uint32_t programSDKVersion = 0;
if (!programSDKVersion)
programSDKVersion = dyld_get_program_sdk_version();
return programSDKVersion >= firstSDKVersionWithInitConstructorSupport;
#endif
}
Protocol *getJSExportProtocol()
{
static Protocol *protocol = objc_getProtocol("JSExport");
return protocol;
}
Class getNSBlockClass()
{
static Class cls = objc_getClass("NSBlock");
return cls;
}
#endif