/* * Copyright (C) 2006, 2007, 2008, 2009 Google 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: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "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 THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "V8NPObject.h" #include "HTMLPlugInElement.h" #include "NPV8Object.h" #include "V8DOMMap.h" #include "V8HTMLAppletElement.h" #include "V8HTMLEmbedElement.h" #include "V8HTMLObjectElement.h" #include "V8Helpers.h" #include "V8NPUtils.h" #include "V8Proxy.h" #include "npruntime_impl.h" #include "npruntime_priv.h" #include namespace WebCore { enum InvokeFunctionType { InvokeMethod = 1, InvokeConstruct = 2, InvokeDefault = 3 }; struct IdentifierRep { int number() const { return m_isString ? 0 : m_value.m_number; } const char* string() const { return m_isString ? m_value.m_string : 0; } union { const char* m_string; int m_number; } m_value; bool m_isString; }; // FIXME: need comments. // Params: holder could be HTMLEmbedElement or NPObject static v8::Handle npObjectInvokeImpl(const v8::Arguments& args, InvokeFunctionType functionId) { NPObject* npObject; // These three types are subtypes of HTMLPlugInElement. if (V8HTMLAppletElement::HasInstance(args.Holder()) || V8HTMLEmbedElement::HasInstance(args.Holder()) || V8HTMLObjectElement::HasInstance(args.Holder())) { // The holder object is a subtype of HTMLPlugInElement. HTMLPlugInElement* element; if (V8HTMLAppletElement::HasInstance(args.Holder())) element = V8HTMLAppletElement::toNative(args.Holder()); else if (V8HTMLEmbedElement::HasInstance(args.Holder())) element = V8HTMLEmbedElement::toNative(args.Holder()); else element = V8HTMLObjectElement::toNative(args.Holder()); ScriptInstance scriptInstance = element->getInstance(); if (scriptInstance) npObject = v8ObjectToNPObject(scriptInstance->instance()); else npObject = 0; } else { // The holder object is not a subtype of HTMLPlugInElement, it must be an NPObject which has three // internal fields. if (args.Holder()->InternalFieldCount() != npObjectInternalFieldCount) return throwError("NPMethod called on non-NPObject", V8Proxy::ReferenceError); npObject = v8ObjectToNPObject(args.Holder()); } // Verify that our wrapper wasn't using a NPObject which has already been deleted. if (!npObject || !_NPN_IsAlive(npObject)) return throwError("NPObject deleted", V8Proxy::ReferenceError); // Wrap up parameters. int numArgs = args.Length(); OwnArrayPtr npArgs = adoptArrayPtr(new NPVariant[numArgs]); for (int i = 0; i < numArgs; i++) convertV8ObjectToNPVariant(args[i], npObject, &npArgs[i]); NPVariant result; VOID_TO_NPVARIANT(result); bool retval = true; switch (functionId) { case InvokeMethod: if (npObject->_class->invoke) { v8::Handle functionName(v8::String::Cast(*args.Data())); NPIdentifier identifier = getStringIdentifier(functionName); retval = npObject->_class->invoke(npObject, identifier, npArgs.get(), numArgs, &result); } break; case InvokeConstruct: if (npObject->_class->construct) retval = npObject->_class->construct(npObject, npArgs.get(), numArgs, &result); break; case InvokeDefault: if (npObject->_class->invokeDefault) retval = npObject->_class->invokeDefault(npObject, npArgs.get(), numArgs, &result); break; default: break; } if (!retval) throwError("Error calling method on NPObject.", V8Proxy::GeneralError); for (int i = 0; i < numArgs; i++) _NPN_ReleaseVariantValue(&npArgs[i]); // Unwrap return values. v8::Handle returnValue = convertNPVariantToV8Object(&result, npObject); _NPN_ReleaseVariantValue(&result); return returnValue; } v8::Handle npObjectMethodHandler(const v8::Arguments& args) { return npObjectInvokeImpl(args, InvokeMethod); } v8::Handle npObjectInvokeDefaultHandler(const v8::Arguments& args) { if (args.IsConstructCall()) return npObjectInvokeImpl(args, InvokeConstruct); return npObjectInvokeImpl(args, InvokeDefault); } static void weakTemplateCallback(v8::Persistent, void* parameter); // NPIdentifier is PrivateIdentifier*. static WeakReferenceMap staticTemplateMap(&weakTemplateCallback); static void weakTemplateCallback(v8::Persistent object, void* parameter) { PrivateIdentifier* identifier = static_cast(parameter); ASSERT(identifier); ASSERT(staticTemplateMap.contains(identifier)); staticTemplateMap.forget(identifier); } static v8::Handle npObjectGetProperty(v8::Local self, NPIdentifier identifier, v8::Local key) { NPObject* npObject = v8ObjectToNPObject(self); // Verify that our wrapper wasn't using a NPObject which // has already been deleted. if (!npObject || !_NPN_IsAlive(npObject)) return throwError("NPObject deleted", V8Proxy::ReferenceError); if (npObject->_class->hasProperty && npObject->_class->hasProperty(npObject, identifier) && npObject->_class->getProperty) { NPVariant result; VOID_TO_NPVARIANT(result); if (!npObject->_class->getProperty(npObject, identifier, &result)) return v8::Handle(); v8::Handle returnValue = convertNPVariantToV8Object(&result, npObject); _NPN_ReleaseVariantValue(&result); return returnValue; } if (key->IsString() && npObject->_class->hasMethod && npObject->_class->hasMethod(npObject, identifier)) { PrivateIdentifier* id = static_cast(identifier); v8::Persistent functionTemplate = staticTemplateMap.get(id); // Cache templates using identifier as the key. if (functionTemplate.IsEmpty()) { // Create a new template. v8::Local temp = v8::FunctionTemplate::New(); temp->SetCallHandler(npObjectMethodHandler, key); functionTemplate = v8::Persistent::New(temp); staticTemplateMap.set(id, functionTemplate); } // FunctionTemplate caches function for each context. v8::Local v8Function = functionTemplate->GetFunction(); v8Function->SetName(v8::Handle::Cast(key)); return v8Function; } return v8::Handle(); } v8::Handle npObjectNamedPropertyGetter(v8::Local name, const v8::AccessorInfo& info) { NPIdentifier identifier = getStringIdentifier(name); return npObjectGetProperty(info.Holder(), identifier, name); } v8::Handle npObjectIndexedPropertyGetter(uint32_t index, const v8::AccessorInfo& info) { NPIdentifier identifier = _NPN_GetIntIdentifier(index); return npObjectGetProperty(info.Holder(), identifier, v8::Number::New(index)); } v8::Handle npObjectGetNamedProperty(v8::Local self, v8::Local name) { NPIdentifier identifier = getStringIdentifier(name); return npObjectGetProperty(self, identifier, name); } v8::Handle npObjectGetIndexedProperty(v8::Local self, uint32_t index) { NPIdentifier identifier = _NPN_GetIntIdentifier(index); return npObjectGetProperty(self, identifier, v8::Number::New(index)); } v8::Handle npObjectQueryProperty(v8::Local name, const v8::AccessorInfo& info) { NPIdentifier identifier = getStringIdentifier(name); return npObjectGetProperty(info.Holder(), identifier, name).IsEmpty() ? v8::Handle() : v8::Integer::New(v8::None); } static v8::Handle npObjectSetProperty(v8::Local self, NPIdentifier identifier, v8::Local value) { NPObject* npObject = v8ObjectToNPObject(self); // Verify that our wrapper wasn't using a NPObject which has already been deleted. if (!npObject || !_NPN_IsAlive(npObject)) { throwError("NPObject deleted", V8Proxy::ReferenceError); return value; // Intercepted, but an exception was thrown. } if (npObject->_class->hasProperty && npObject->_class->hasProperty(npObject, identifier) && npObject->_class->setProperty) { NPVariant npValue; VOID_TO_NPVARIANT(npValue); convertV8ObjectToNPVariant(value, npObject, &npValue); bool success = npObject->_class->setProperty(npObject, identifier, &npValue); _NPN_ReleaseVariantValue(&npValue); if (success) return value; // Intercept the call. } return notHandledByInterceptor(); } v8::Handle npObjectNamedPropertySetter(v8::Local name, v8::Local value, const v8::AccessorInfo& info) { NPIdentifier identifier = getStringIdentifier(name); return npObjectSetProperty(info.Holder(), identifier, value); } v8::Handle npObjectIndexedPropertySetter(uint32_t index, v8::Local value, const v8::AccessorInfo& info) { NPIdentifier identifier = _NPN_GetIntIdentifier(index); return npObjectSetProperty(info.Holder(), identifier, value); } v8::Handle npObjectSetNamedProperty(v8::Local self, v8::Local name, v8::Local value) { NPIdentifier identifier = getStringIdentifier(name); return npObjectSetProperty(self, identifier, value); } v8::Handle npObjectSetIndexedProperty(v8::Local self, uint32_t index, v8::Local value) { NPIdentifier identifier = _NPN_GetIntIdentifier(index); return npObjectSetProperty(self, identifier, value); } v8::Handle npObjectPropertyEnumerator(const v8::AccessorInfo& info, bool namedProperty) { NPObject* npObject = v8ObjectToNPObject(info.Holder()); // Verify that our wrapper wasn't using a NPObject which // has already been deleted. if (!npObject || !_NPN_IsAlive(npObject)) throwError("NPObject deleted", V8Proxy::ReferenceError); if (NP_CLASS_STRUCT_VERSION_HAS_ENUM(npObject->_class) && npObject->_class->enumerate) { uint32_t count; NPIdentifier* identifiers; if (npObject->_class->enumerate(npObject, &identifiers, &count)) { v8::Handle properties = v8::Array::New(count); for (uint32_t i = 0; i < count; ++i) { IdentifierRep* identifier = static_cast(identifiers[i]); if (namedProperty) properties->Set(v8::Integer::New(i), v8::String::New(identifier->string())); else properties->Set(v8::Integer::New(i), v8::Integer::New(identifier->number())); } return properties; } } return v8::Handle(); } v8::Handle npObjectNamedPropertyEnumerator(const v8::AccessorInfo& info) { return npObjectPropertyEnumerator(info, true); } v8::Handle npObjectIndexedPropertyEnumerator(const v8::AccessorInfo& info) { return npObjectPropertyEnumerator(info, false); } static void weakNPObjectCallback(v8::Persistent, void* parameter); static DOMWrapperMap staticNPObjectMap(&weakNPObjectCallback); static void weakNPObjectCallback(v8::Persistent object, void* parameter) { NPObject* npObject = static_cast(parameter); ASSERT(staticNPObjectMap.contains(npObject)); ASSERT(npObject); // Must remove from our map before calling _NPN_ReleaseObject(). _NPN_ReleaseObject can call ForgetV8ObjectForNPObject, which // uses the table as well. staticNPObjectMap.forget(npObject); if (_NPN_IsAlive(npObject)) _NPN_ReleaseObject(npObject); } v8::Local createV8ObjectForNPObject(NPObject* object, NPObject* root) { static v8::Persistent npObjectDesc; ASSERT(v8::Context::InContext()); // If this is a v8 object, just return it. if (object->_class == npScriptObjectClass) { V8NPObject* v8NPObject = reinterpret_cast(object); return v8::Local::New(v8NPObject->v8Object); } // If we've already wrapped this object, just return it. if (staticNPObjectMap.contains(object)) return v8::Local::New(staticNPObjectMap.get(object)); // FIXME: we should create a Wrapper type as a subclass of JSObject. It has two internal fields, field 0 is the wrapped // pointer, and field 1 is the type. There should be an api function that returns unused type id. The same Wrapper type // can be used by DOM bindings. if (npObjectDesc.IsEmpty()) { npObjectDesc = v8::Persistent::New(v8::FunctionTemplate::New()); npObjectDesc->InstanceTemplate()->SetInternalFieldCount(npObjectInternalFieldCount); npObjectDesc->InstanceTemplate()->SetNamedPropertyHandler(npObjectNamedPropertyGetter, npObjectNamedPropertySetter, npObjectQueryProperty, 0, npObjectNamedPropertyEnumerator); npObjectDesc->InstanceTemplate()->SetIndexedPropertyHandler(npObjectIndexedPropertyGetter, npObjectIndexedPropertySetter, 0, 0, npObjectIndexedPropertyEnumerator); npObjectDesc->InstanceTemplate()->SetCallAsFunctionHandler(npObjectInvokeDefaultHandler); } v8::Handle v8Function = npObjectDesc->GetFunction(); v8::Local value = SafeAllocation::newInstance(v8Function); // If we were unable to allocate the instance, we avoid wrapping and registering the NP object. if (value.IsEmpty()) return value; V8DOMWrapper::setDOMWrapper(value, npObjectTypeInfo(), object); // KJS retains the object as part of its wrapper (see Bindings::CInstance). _NPN_RetainObject(object); _NPN_RegisterObject(object, root); // Maintain a weak pointer for v8 so we can cleanup the object. v8::Persistent weakRef = v8::Persistent::New(value); staticNPObjectMap.set(object, weakRef); return value; } void forgetV8ObjectForNPObject(NPObject* object) { if (staticNPObjectMap.contains(object)) { v8::HandleScope scope; v8::Persistent handle(staticNPObjectMap.get(object)); V8DOMWrapper::setDOMWrapper(handle, npObjectTypeInfo(), 0); staticNPObjectMap.forget(object); _NPN_ReleaseObject(object); } } } // namespace WebCore