/* * Copyright (C) 2003, 2008, 2010 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 COMPUTER, 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 COMPUTER, INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "JavaInstanceJSC.h" #if ENABLE(MAC_JAVA_BRIDGE) #include "JNIBridgeJSC.h" #include "JNIUtility.h" #include "JNIUtilityPrivate.h" #include "JavaClassJSC.h" #include "runtime_object.h" #include "runtime_root.h" #include #include #include #if PLATFORM(ANDROID) #include #endif #ifdef NDEBUG #define JS_LOG(formatAndArgs...) ((void)0) #else #define JS_LOG(formatAndArgs...) { \ fprintf(stderr, "%s:%d -- %s: ", __FILE__, __LINE__, __FUNCTION__); \ fprintf(stderr, formatAndArgs); \ } #endif using namespace JSC::Bindings; using namespace JSC; JavaInstance::JavaInstance(jobject instance, PassRefPtr rootObject) : Instance(rootObject) { m_instance = new JObjectWrapper(instance); m_class = 0; } JavaInstance::~JavaInstance() { delete m_class; } #define NUM_LOCAL_REFS 64 void JavaInstance::virtualBegin() { getJNIEnv()->PushLocalFrame(NUM_LOCAL_REFS); } void JavaInstance::virtualEnd() { getJNIEnv()->PopLocalFrame(0); } Class* JavaInstance::getClass() const { if (!m_class) m_class = new JavaClass (m_instance->m_instance); return m_class; } JSValue JavaInstance::stringValue(ExecState* exec) const { JSLock lock(SilenceAssertionsOnly); jstring stringValue = (jstring)callJNIMethod(m_instance->m_instance, "toString", "()Ljava/lang/String;"); JNIEnv* env = getJNIEnv(); const jchar* c = getUCharactersFromJStringInEnv(env, stringValue); UString u((const UChar*)c, (int)env->GetStringLength(stringValue)); releaseUCharactersForJStringInEnv(env, stringValue, c); return jsString(exec, u); } JSValue JavaInstance::numberValue(ExecState* exec) const { jdouble doubleValue = callJNIMethod(m_instance->m_instance, "doubleValue", "()D"); return jsNumber(exec, doubleValue); } JSValue JavaInstance::booleanValue() const { jboolean booleanValue = callJNIMethod(m_instance->m_instance, "booleanValue", "()Z"); return jsBoolean(booleanValue); } JSValue JavaInstance::invokeMethod(ExecState* exec, const MethodList& methodList, const ArgList &args) { int i, count = args.size(); jvalue* jArgs; JSValue resultValue; Method* method = 0; size_t numMethods = methodList.size(); // Try to find a good match for the overloaded method. The // fundamental problem is that JavaScript doesn have the // notion of method overloading and Java does. We could // get a bit more sophisticated and attempt to does some // type checking as we as checking the number of parameters. Method* aMethod; for (size_t methodIndex = 0; methodIndex < numMethods; methodIndex++) { aMethod = methodList[methodIndex]; if (aMethod->numParameters() == count) { method = aMethod; break; } } if (!method) { JS_LOG("unable to find an appropiate method\n"); return jsUndefined(); } const JavaMethod* jMethod = static_cast(method); JS_LOG("call %s %s on %p\n", UString(jMethod->name()).UTF8String().c_str(), jMethod->signature(), m_instance->m_instance); if (count > 0) jArgs = (jvalue*)malloc(count * sizeof(jvalue)); else jArgs = 0; for (i = 0; i < count; i++) { JavaParameter* aParameter = jMethod->parameterAt(i); jArgs[i] = convertValueToJValue(exec, args.at(i), aParameter->getJNIType(), aParameter->type()); JS_LOG("arg[%d] = %s\n", i, args.at(i).toString(exec).ascii()); } jvalue result; // Try to use the JNI abstraction first, otherwise fall back to // nornmal JNI. The JNI dispatch abstraction allows the Java plugin // to dispatch the call on the appropriate internal VM thread. RootObject* rootObject = this->rootObject(); if (!rootObject) return jsUndefined(); bool handled = false; if (rootObject->nativeHandle()) { jobject obj = m_instance->m_instance; JSValue exceptionDescription; const char *callingURL = 0; // FIXME, need to propagate calling URL to Java handled = dispatchJNICall(exec, rootObject->nativeHandle(), obj, jMethod->isStatic(), jMethod->JNIReturnType(), jMethod->methodID(obj), jArgs, result, callingURL, exceptionDescription); if (exceptionDescription) { throwError(exec, GeneralError, exceptionDescription.toString(exec)); free(jArgs); return jsUndefined(); } } // The following code can be conditionally removed once we have a Tiger update that // contains the new Java plugin. It is needed for builds prior to Tiger. if (!handled) { jobject obj = m_instance->m_instance; switch (jMethod->JNIReturnType()) { case void_type: callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case object_type: result.l = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case boolean_type: result.z = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case byte_type: result.b = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case char_type: result.c = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case short_type: result.s = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case int_type: result.i = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case long_type: result.j = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case float_type: result.f = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case double_type: result.d = callJNIMethodIDA(obj, jMethod->methodID(obj), jArgs); break; case invalid_type: default: break; } } switch (jMethod->JNIReturnType()) { case void_type: { resultValue = jsUndefined(); } break; case object_type: { if (result.l) { const char* arrayType = jMethod->returnType(); if (arrayType[0] == '[') resultValue = JavaArray::convertJObjectToArray(exec, result.l, arrayType, rootObject); else resultValue = JavaInstance::create(result.l, rootObject)->createRuntimeObject(exec); } else resultValue = jsUndefined(); } break; case boolean_type: { resultValue = jsBoolean(result.z); } break; case byte_type: { resultValue = jsNumber(exec, result.b); } break; case char_type: { resultValue = jsNumber(exec, result.c); } break; case short_type: { resultValue = jsNumber(exec, result.s); } break; case int_type: { resultValue = jsNumber(exec, result.i); } break; case long_type: { resultValue = jsNumber(exec, result.j); } break; case float_type: { resultValue = jsNumber(exec, result.f); } break; case double_type: { resultValue = jsNumber(exec, result.d); } break; case invalid_type: default: { resultValue = jsUndefined(); } break; } free(jArgs); return resultValue; } JSValue JavaInstance::defaultValue(ExecState* exec, PreferredPrimitiveType hint) const { if (hint == PreferString) return stringValue(exec); if (hint == PreferNumber) return numberValue(exec); JavaClass* aClass = static_cast(getClass()); if (aClass->isStringClass()) return stringValue(exec); if (aClass->isNumberClass()) return numberValue(exec); if (aClass->isBooleanClass()) return booleanValue(); return valueOf(exec); } JSValue JavaInstance::valueOf(ExecState* exec) const { return stringValue(exec); } JObjectWrapper::JObjectWrapper(jobject instance) : m_refCount(0) { assert(instance); // Cache the JNIEnv used to get the global ref for this java instanace. // It'll be used to delete the reference. m_env = getJNIEnv(); m_instance = m_env->NewGlobalRef(instance); JS_LOG("new global ref %p for %p\n", m_instance, instance); if (!m_instance) fprintf(stderr, "%s: could not get GlobalRef for %p\n", __PRETTY_FUNCTION__, instance); } JObjectWrapper::~JObjectWrapper() { JS_LOG("deleting global ref %p\n", m_instance); m_env->DeleteGlobalRef(m_instance); } #endif // ENABLE(MAC_JAVA_BRIDGE)