View file File name : director.swg Content :/* ----------------------------------------------------------------------------- * director.swg * * This file contains support for director classes so that Java proxy * methods can be called from C++. * ----------------------------------------------------------------------------- */ #if defined(DEBUG_DIRECTOR_OWNED) || defined(DEBUG_DIRECTOR_EXCEPTION) || defined(DEBUG_DIRECTOR_THREAD_NAME) #include <iostream> #endif #include <exception> #if defined(SWIG_JAVA_USE_THREAD_NAME) #if !defined(SWIG_JAVA_GET_THREAD_NAME) namespace Swig { SWIGINTERN int GetThreadName(char *name, size_t len); } #if defined(__linux__) #include <sys/prctl.h> SWIGINTERN int Swig::GetThreadName(char *name, size_t len) { (void)len; #if defined(PR_GET_NAME) return prctl(PR_GET_NAME, (unsigned long)name, 0, 0, 0); #else (void)name; return 1; #endif } #elif defined(__unix__) || defined(__APPLE__) #include <pthread.h> SWIGINTERN int Swig::GetThreadName(char *name, size_t len) { return pthread_getname_np(pthread_self(), name, len); } #else SWIGINTERN int Swig::GetThreadName(char *name, size_t len) { (void)len; (void)name; return 1; } #endif #endif #endif namespace Swig { /* Java object wrapper */ class JObjectWrapper { public: JObjectWrapper() : jthis_(NULL), weak_global_(true) { } ~JObjectWrapper() { jthis_ = NULL; weak_global_ = true; } bool set(JNIEnv *jenv, jobject jobj, bool mem_own, bool weak_global) { if (!jthis_) { weak_global_ = weak_global || !mem_own; // hold as weak global if explicitly requested or not owned if (jobj) jthis_ = weak_global_ ? jenv->NewWeakGlobalRef(jobj) : jenv->NewGlobalRef(jobj); #if defined(DEBUG_DIRECTOR_OWNED) std::cout << "JObjectWrapper::set(" << jobj << ", " << (weak_global ? "weak_global" : "global_ref") << ") -> " << jthis_ << std::endl; #endif return true; } else { #if defined(DEBUG_DIRECTOR_OWNED) std::cout << "JObjectWrapper::set(" << jobj << ", " << (weak_global ? "weak_global" : "global_ref") << ") -> already set" << std::endl; #endif return false; } } jobject get(JNIEnv *jenv) const { #if defined(DEBUG_DIRECTOR_OWNED) std::cout << "JObjectWrapper::get("; if (jthis_) std::cout << jthis_; else std::cout << "null"; std::cout << ") -> return new local ref" << std::endl; #endif return (jthis_ ? jenv->NewLocalRef(jthis_) : jthis_); } void release(JNIEnv *jenv) { #if defined(DEBUG_DIRECTOR_OWNED) std::cout << "JObjectWrapper::release(" << jthis_ << "): " << (weak_global_ ? "weak global ref" : "global ref") << std::endl; #endif if (jthis_) { if (weak_global_) { if (jenv->IsSameObject(jthis_, NULL) == JNI_FALSE) jenv->DeleteWeakGlobalRef((jweak)jthis_); } else jenv->DeleteGlobalRef(jthis_); } jthis_ = NULL; weak_global_ = true; } /* Only call peek if you know what you are doing wrt to weak/global references */ jobject peek() { return jthis_; } /* Java proxy releases ownership of C++ object, C++ object is now responsible for destruction (creates NewGlobalRef to pin Java proxy) */ void java_change_ownership(JNIEnv *jenv, jobject jself, bool take_or_release) { if (take_or_release) { /* Java takes ownership of C++ object's lifetime. */ if (!weak_global_) { jenv->DeleteGlobalRef(jthis_); jthis_ = jenv->NewWeakGlobalRef(jself); weak_global_ = true; } } else { /* Java releases ownership of C++ object's lifetime */ if (weak_global_) { jenv->DeleteWeakGlobalRef((jweak)jthis_); jthis_ = jenv->NewGlobalRef(jself); weak_global_ = false; } } } private: /* pointer to Java object */ jobject jthis_; /* Local or global reference flag */ bool weak_global_; }; /* Local JNI reference deleter */ class LocalRefGuard { JNIEnv *jenv_; jobject jobj_; // non-copyable LocalRefGuard(const LocalRefGuard &); LocalRefGuard &operator=(const LocalRefGuard &); public: LocalRefGuard(JNIEnv *jenv, jobject jobj): jenv_(jenv), jobj_(jobj) {} ~LocalRefGuard() { if (jobj_) jenv_->DeleteLocalRef(jobj_); } }; /* director base class */ class Director { /* pointer to Java virtual machine */ JavaVM *swig_jvm_; protected: #if defined (_MSC_VER) && (_MSC_VER<1300) class JNIEnvWrapper; friend class JNIEnvWrapper; #endif /* Utility class for managing the JNI environment */ class JNIEnvWrapper { const Director *director_; JNIEnv *jenv_; int env_status; public: JNIEnvWrapper(const Director *director) : director_(director), jenv_(0), env_status(0) { #if defined(__ANDROID__) JNIEnv **jenv = &jenv_; #else void **jenv = (void **)&jenv_; #endif env_status = director_->swig_jvm_->GetEnv((void **)&jenv_, JNI_VERSION_1_2); JavaVMAttachArgs args; args.version = JNI_VERSION_1_2; args.group = NULL; args.name = NULL; #if defined(SWIG_JAVA_USE_THREAD_NAME) char thread_name[64]; // MAX_TASK_COMM_LEN=16 is hard-coded in the Linux kernel and MacOS has MAXTHREADNAMESIZE=64. if (Swig::GetThreadName(thread_name, sizeof(thread_name)) == 0) { args.name = thread_name; #if defined(DEBUG_DIRECTOR_THREAD_NAME) std::cout << "JNIEnvWrapper: thread name: " << thread_name << std::endl; } else { std::cout << "JNIEnvWrapper: Couldn't set Java thread name" << std::endl; #endif } #endif #if defined(SWIG_JAVA_ATTACH_CURRENT_THREAD_AS_DAEMON) // Attach a daemon thread to the JVM. Useful when the JVM should not wait for // the thread to exit upon shutdown. Only for jdk-1.4 and later. director_->swig_jvm_->AttachCurrentThreadAsDaemon(jenv, &args); #else director_->swig_jvm_->AttachCurrentThread(jenv, &args); #endif } ~JNIEnvWrapper() { #if !defined(SWIG_JAVA_NO_DETACH_CURRENT_THREAD) // Some JVMs, eg jdk-1.4.2 and lower on Solaris have a bug and crash with the DetachCurrentThread call. // However, without this call, the JVM hangs on exit when the thread was not created by the JVM and creates a memory leak. if (env_status == JNI_EDETACHED) director_->swig_jvm_->DetachCurrentThread(); #endif } JNIEnv *getJNIEnv() const { return jenv_; } }; /* Java object wrapper */ JObjectWrapper swig_self_; /* Disconnect director from Java object */ void swig_disconnect_director_self(const char *disconn_method) { JNIEnvWrapper jnienv(this) ; JNIEnv *jenv = jnienv.getJNIEnv() ; jobject jobj = swig_self_.get(jenv); LocalRefGuard ref_deleter(jenv, jobj); #if defined(DEBUG_DIRECTOR_OWNED) std::cout << "Swig::Director::disconnect_director_self(" << jobj << ")" << std::endl; #endif if (jobj && jenv->IsSameObject(jobj, NULL) == JNI_FALSE) { jmethodID disconn_meth = jenv->GetMethodID(jenv->GetObjectClass(jobj), disconn_method, "()V"); if (disconn_meth) { #if defined(DEBUG_DIRECTOR_OWNED) std::cout << "Swig::Director::disconnect_director_self upcall to " << disconn_method << std::endl; #endif jenv->CallVoidMethod(jobj, disconn_meth); } } } public: Director(JNIEnv *jenv) : swig_jvm_((JavaVM *) NULL), swig_self_() { /* Acquire the Java VM pointer */ jenv->GetJavaVM(&swig_jvm_); } virtual ~Director() { JNIEnvWrapper jnienv(this) ; JNIEnv *jenv = jnienv.getJNIEnv() ; swig_self_.release(jenv); } bool swig_set_self(JNIEnv *jenv, jobject jself, bool mem_own, bool weak_global) { return swig_self_.set(jenv, jself, mem_own, weak_global); } jobject swig_get_self(JNIEnv *jenv) const { return swig_self_.get(jenv); } // Change C++ object's ownership, relative to Java void swig_java_change_ownership(JNIEnv *jenv, jobject jself, bool take_or_release) { swig_self_.java_change_ownership(jenv, jself, take_or_release); } }; // Zero initialized bool array template<size_t N> class BoolArray { bool array_[N]; public: BoolArray() { memset(array_, 0, sizeof(array_)); } bool& operator[](size_t n) { return array_[n]; } bool operator[](size_t n) const { return array_[n]; } }; // Utility classes and functions for exception handling. // Simple holder for a Java string during exception handling, providing access to a c-style string class JavaString { public: JavaString(JNIEnv *jenv, jstring jstr) : jenv_(jenv), jstr_(jstr), cstr_(0) { if (jenv_ && jstr_) cstr_ = (const char *) jenv_->GetStringUTFChars(jstr_, NULL); } ~JavaString() { if (jenv_ && jstr_ && cstr_) jenv_->ReleaseStringUTFChars(jstr_, cstr_); } const char *c_str(const char *null_string = "null JavaString") const { return cstr_ ? cstr_ : null_string; } private: // non-copyable JavaString(const JavaString &); JavaString &operator=(const JavaString &); JNIEnv *jenv_; jstring jstr_; const char *cstr_; }; // Helper class to extract the exception message from a Java throwable class JavaExceptionMessage { public: JavaExceptionMessage(JNIEnv *jenv, jthrowable throwable) : message_(jenv, exceptionMessageFromThrowable(jenv, throwable)) { } // Return a C string of the exception message in the jthrowable passed in the constructor // If no message is available, null_string is return instead const char *message(const char *null_string = "Could not get exception message in JavaExceptionMessage") const { return message_.c_str(null_string); } private: // non-copyable JavaExceptionMessage(const JavaExceptionMessage &); JavaExceptionMessage &operator=(const JavaExceptionMessage &); // Get exception message by calling Java method Throwable.getMessage() static jstring exceptionMessageFromThrowable(JNIEnv *jenv, jthrowable throwable) { jstring jmsg = NULL; if (jenv && throwable) { jenv->ExceptionClear(); // Cannot invoke methods with any pending exceptions jclass throwclz = jenv->GetObjectClass(throwable); if (throwclz) { // All Throwable classes have a getMessage() method, so call it to extract the exception message jmethodID getMessageMethodID = jenv->GetMethodID(throwclz, "getMessage", "()Ljava/lang/String;"); if (getMessageMethodID) jmsg = (jstring)jenv->CallObjectMethod(throwable, getMessageMethodID); } if (jmsg == NULL && jenv->ExceptionCheck()) jenv->ExceptionClear(); } return jmsg; } JavaString message_; }; // C++ Exception class for handling Java exceptions thrown during a director method Java upcall class DirectorException : public std::exception { public: // Construct exception from a Java throwable DirectorException(JNIEnv *jenv, jthrowable throwable) : jenv_(jenv), throwable_(throwable), classname_(0), msg_(0) { // Call Java method Object.getClass().getName() to obtain the throwable's class name (delimited by '/') if (jenv && throwable) { jenv->ExceptionClear(); // Cannot invoke methods with any pending exceptions jclass throwclz = jenv->GetObjectClass(throwable); if (throwclz) { jclass clzclz = jenv->GetObjectClass(throwclz); if (clzclz) { jmethodID getNameMethodID = jenv->GetMethodID(clzclz, "getName", "()Ljava/lang/String;"); if (getNameMethodID) { jstring jstr_classname = (jstring)(jenv->CallObjectMethod(throwclz, getNameMethodID)); // Copy strings, since there is no guarantee that jenv will be active when handled if (jstr_classname) { JavaString jsclassname(jenv, jstr_classname); const char *classname = jsclassname.c_str(0); if (classname) classname_ = copypath(classname); } } } } } JavaExceptionMessage exceptionmsg(jenv, throwable); msg_ = copystr(exceptionmsg.message(0)); } // More general constructor for handling as a java.lang.RuntimeException DirectorException(const char *msg) : jenv_(0), throwable_(0), classname_(0), msg_(msg ? copystr(msg) : 0) { } ~DirectorException() throw() { delete[] classname_; delete[] msg_; } const char *what() const throw() { return msg_ ? msg_ : "Unspecified DirectorException message"; } // Reconstruct and raise/throw the Java Exception that caused the DirectorException // Note that any error in the JNI exception handling results in a Java RuntimeException void throwException(JNIEnv *jenv) const { if (jenv) { if (jenv == jenv_ && throwable_) { // Throw original exception if not already pending jthrowable throwable = jenv->ExceptionOccurred(); if (throwable && jenv->IsSameObject(throwable, throwable_) == JNI_FALSE) { jenv->ExceptionClear(); throwable = 0; } if (!throwable) jenv->Throw(throwable_); } else { // Try and reconstruct original exception, but original stacktrace is not reconstructed jenv->ExceptionClear(); jmethodID ctorMethodID = 0; jclass throwableclass = 0; if (classname_) { throwableclass = jenv->FindClass(classname_); if (throwableclass) ctorMethodID = jenv->GetMethodID(throwableclass, "<init>", "(Ljava/lang/String;)V"); } if (ctorMethodID) { jenv->ThrowNew(throwableclass, what()); } else { SWIG_JavaThrowException(jenv, SWIG_JavaRuntimeException, what()); } } } } // Deprecated - use throwException void raiseJavaException(JNIEnv *jenv) const { throwException(jenv); } // Create and throw the DirectorException static void raise(JNIEnv *jenv, jthrowable throwable) { throw DirectorException(jenv, throwable); } private: static char *copypath(const char *srcmsg) { char *target = copystr(srcmsg); for (char *c=target; *c; ++c) { if ('.' == *c) *c = '/'; } return target; } static char *copystr(const char *srcmsg) { char *target = 0; if (srcmsg) { size_t msglen = strlen(srcmsg) + 1; target = new char[msglen]; strncpy(target, srcmsg, msglen); } return target; } JNIEnv *jenv_; jthrowable throwable_; const char *classname_; const char *msg_; }; // Helper method to determine if a Java throwable matches a particular Java class type // Note side effect of clearing any pending exceptions SWIGINTERN bool ExceptionMatches(JNIEnv *jenv, jthrowable throwable, const char *classname) { bool matches = false; if (throwable && jenv && classname) { // Exceptions need to be cleared for correct behavior. // The caller of ExceptionMatches should restore pending exceptions if desired - // the caller already has the throwable. jenv->ExceptionClear(); jclass clz = jenv->FindClass(classname); if (clz) { jclass classclz = jenv->GetObjectClass(clz); jmethodID isInstanceMethodID = jenv->GetMethodID(classclz, "isInstance", "(Ljava/lang/Object;)Z"); if (isInstanceMethodID) { matches = jenv->CallBooleanMethod(clz, isInstanceMethodID, throwable) != 0; } } #if defined(DEBUG_DIRECTOR_EXCEPTION) if (jenv->ExceptionCheck()) { // Typically occurs when an invalid classname argument is passed resulting in a ClassNotFoundException JavaExceptionMessage exc(jenv, jenv->ExceptionOccurred()); std::cout << "Error: ExceptionMatches: class '" << classname << "' : " << exc.message() << std::endl; } #endif } return matches; } }