/* * Copyright (C) 2006 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "JavaBinder" //#define LOG_NDEBUG 0 #include "android_os_Parcel.h" #include "android_util_Binder.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "core_jni_helpers.h" //#undef ALOGV //#define ALOGV(...) fprintf(stderr, __VA_ARGS__) #define DEBUG_DEATH 0 #if DEBUG_DEATH #define LOGDEATH ALOGD #else #define LOGDEATH ALOGV #endif using namespace android; // ---------------------------------------------------------------------------- static struct bindernative_offsets_t { // Class state. jclass mClass; jmethodID mExecTransact; jmethodID mGetInterfaceDescriptor; // Object state. jfieldID mObject; } gBinderOffsets; // ---------------------------------------------------------------------------- static struct binderinternal_offsets_t { // Class state. jclass mClass; jmethodID mForceGc; jmethodID mProxyLimitCallback; } gBinderInternalOffsets; static struct sparseintarray_offsets_t { jclass classObject; jmethodID constructor; jmethodID put; } gSparseIntArrayOffsets; // ---------------------------------------------------------------------------- static struct error_offsets_t { jclass mError; jclass mOutOfMemory; jclass mStackOverflow; } gErrorOffsets; // ---------------------------------------------------------------------------- static struct binderproxy_offsets_t { // Class state. jclass mClass; jmethodID mGetInstance; jmethodID mSendDeathNotice; // Object state. jfieldID mNativeData; // Field holds native pointer to BinderProxyNativeData. } gBinderProxyOffsets; static struct class_offsets_t { jmethodID mGetName; } gClassOffsets; // ---------------------------------------------------------------------------- static struct log_offsets_t { // Class state. jclass mClass; jmethodID mLogE; } gLogOffsets; static struct parcel_file_descriptor_offsets_t { jclass mClass; jmethodID mConstructor; } gParcelFileDescriptorOffsets; static struct strict_mode_callback_offsets_t { jclass mClass; jmethodID mCallback; } gStrictModeCallbackOffsets; static struct thread_dispatch_offsets_t { // Class state. jclass mClass; jmethodID mDispatchUncaughtException; jmethodID mCurrentThread; } gThreadDispatchOffsets; // **************************************************************************** // **************************************************************************** // **************************************************************************** static constexpr int32_t PROXY_WARN_INTERVAL = 5000; static constexpr uint32_t GC_INTERVAL = 1000; static std::atomic gNumProxies(0); static std::atomic gProxiesWarned(0); // Number of GlobalRefs held by JavaBBinders. static std::atomic gNumLocalRefsCreated(0); static std::atomic gNumLocalRefsDeleted(0); // Number of GlobalRefs held by JavaDeathRecipients. static std::atomic gNumDeathRefsCreated(0); static std::atomic gNumDeathRefsDeleted(0); // We collected after creating this many refs. static std::atomic gCollectedAtRefs(0); // Garbage collect if we've allocated at least GC_INTERVAL refs since the last time. // TODO: Consider removing this completely. We should no longer be generating GlobalRefs // that are reclaimed as a result of GC action. __attribute__((no_sanitize("unsigned-integer-overflow"))) static void gcIfManyNewRefs(JNIEnv* env) { uint32_t totalRefs = gNumLocalRefsCreated.load(std::memory_order_relaxed) + gNumDeathRefsCreated.load(std::memory_order_relaxed); uint32_t collectedAtRefs = gCollectedAtRefs.load(memory_order_relaxed); // A bound on the number of threads that can have incremented gNum...RefsCreated before the // following check is executed. Effectively a bound on #threads. Almost any value will do. static constexpr uint32_t MAX_RACING = 100000; if (totalRefs - (collectedAtRefs + GC_INTERVAL) /* modular arithmetic! */ < MAX_RACING) { // Recently passed next GC interval. if (gCollectedAtRefs.compare_exchange_strong(collectedAtRefs, collectedAtRefs + GC_INTERVAL, std::memory_order_relaxed)) { ALOGV("Binder forcing GC at %u created refs", totalRefs); env->CallStaticVoidMethod(gBinderInternalOffsets.mClass, gBinderInternalOffsets.mForceGc); } // otherwise somebody else beat us to it. } else { ALOGV("Now have %d binder ops", totalRefs - collectedAtRefs); } } static JavaVM* jnienv_to_javavm(JNIEnv* env) { JavaVM* vm; return env->GetJavaVM(&vm) >= 0 ? vm : NULL; } static JNIEnv* javavm_to_jnienv(JavaVM* vm) { JNIEnv* env; return vm->GetEnv((void **)&env, JNI_VERSION_1_4) >= 0 ? env : NULL; } static const char* GetErrorTypeName(JNIEnv* env, jthrowable error) { if (env->IsInstanceOf(error, gErrorOffsets.mOutOfMemory)) { return "OutOfMemoryError"; } if (env->IsInstanceOf(error, gErrorOffsets.mStackOverflow)) { return "StackOverflowError"; } return nullptr; } // Report a java.lang.Error (or subclass). This will terminate the runtime by // calling FatalError with a message derived from the given error. static void report_java_lang_error_fatal_error(JNIEnv* env, jthrowable error, const char* msg) { // Report an error: reraise the exception and ask the runtime to abort. // Try to get the exception string. Sometimes logcat isn't available, // so try to add it to the abort message. std::string exc_msg; { ScopedLocalRef exc_class(env, env->GetObjectClass(error)); jmethodID method_id = env->GetMethodID(exc_class.get(), "toString", "()Ljava/lang/String;"); ScopedLocalRef jstr( env, reinterpret_cast( env->CallObjectMethod(error, method_id))); ScopedLocalRef new_error(env, nullptr); bool got_jstr = false; if (env->ExceptionCheck()) { new_error = ScopedLocalRef(env, env->ExceptionOccurred()); env->ExceptionClear(); } if (jstr.get() != nullptr) { ScopedUtfChars jstr_utf(env, jstr.get()); if (jstr_utf.c_str() != nullptr) { exc_msg = jstr_utf.c_str(); got_jstr = true; } else { new_error = ScopedLocalRef(env, env->ExceptionOccurred()); env->ExceptionClear(); } } if (!got_jstr) { exc_msg = "(Unknown exception message)"; const char* orig_type = GetErrorTypeName(env, error); if (orig_type != nullptr) { exc_msg = base::StringPrintf("%s (Error was %s)", exc_msg.c_str(), orig_type); } const char* new_type = new_error == nullptr ? nullptr : GetErrorTypeName(env, new_error.get()); if (new_type != nullptr) { exc_msg = base::StringPrintf("%s (toString() error was %s)", exc_msg.c_str(), new_type); } } } env->Throw(error); ALOGE("java.lang.Error thrown during binder transaction (stack trace follows) : "); env->ExceptionDescribe(); std::string error_msg = base::StringPrintf( "java.lang.Error thrown during binder transaction: %s", exc_msg.c_str()); env->FatalError(error_msg.c_str()); } // Report a java.lang.Error (or subclass). This will terminate the runtime, either by // the uncaught exception handler, or explicitly by calling // report_java_lang_error_fatal_error. static void report_java_lang_error(JNIEnv* env, jthrowable error, const char* msg) { // Try to run the uncaught exception machinery. jobject thread = env->CallStaticObjectMethod(gThreadDispatchOffsets.mClass, gThreadDispatchOffsets.mCurrentThread); if (thread != nullptr) { env->CallVoidMethod(thread, gThreadDispatchOffsets.mDispatchUncaughtException, error); // Should not return here, unless more errors occured. } // Some error occurred that meant that either dispatchUncaughtException could not be // called or that it had an error itself (as this should be unreachable under normal // conditions). As the binder code cannot handle Errors, attempt to log the error and // abort. env->ExceptionClear(); report_java_lang_error_fatal_error(env, error, msg); } static void report_exception(JNIEnv* env, jthrowable excep, const char* msg) { env->ExceptionClear(); ScopedLocalRef tagstr(env, env->NewStringUTF(LOG_TAG)); ScopedLocalRef msgstr(env); if (tagstr != nullptr) { msgstr.reset(env->NewStringUTF(msg)); } if ((tagstr != nullptr) && (msgstr != nullptr)) { env->CallStaticIntMethod(gLogOffsets.mClass, gLogOffsets.mLogE, tagstr.get(), msgstr.get(), excep); if (env->ExceptionCheck()) { // Attempting to log the failure has failed. ALOGW("Failed trying to log exception, msg='%s'\n", msg); env->ExceptionClear(); } } else { env->ExceptionClear(); /* assume exception (OOM?) was thrown */ ALOGE("Unable to call Log.e()\n"); ALOGE("%s", msg); } if (env->IsInstanceOf(excep, gErrorOffsets.mError)) { report_java_lang_error(env, excep, msg); } } class JavaBBinderHolder; class JavaBBinder : public BBinder { public: JavaBBinder(JNIEnv* env, jobject /* Java Binder */ object) : mVM(jnienv_to_javavm(env)), mObject(env->NewGlobalRef(object)) { ALOGV("Creating JavaBBinder %p\n", this); gNumLocalRefsCreated.fetch_add(1, std::memory_order_relaxed); gcIfManyNewRefs(env); } bool checkSubclass(const void* subclassID) const { return subclassID == &gBinderOffsets; } jobject object() const { return mObject; } protected: virtual ~JavaBBinder() { ALOGV("Destroying JavaBBinder %p\n", this); gNumLocalRefsDeleted.fetch_add(1, memory_order_relaxed); JNIEnv* env = javavm_to_jnienv(mVM); env->DeleteGlobalRef(mObject); } const String16& getInterfaceDescriptor() const override { call_once(mPopulateDescriptor, [this] { JNIEnv* env = javavm_to_jnienv(mVM); ALOGV("getInterfaceDescriptor() on %p calling object %p in env %p vm %p\n", this, mObject, env, mVM); jstring descriptor = (jstring)env->CallObjectMethod(mObject, gBinderOffsets.mGetInterfaceDescriptor); if (descriptor == nullptr) { return; } static_assert(sizeof(jchar) == sizeof(char16_t), ""); const jchar* descriptorChars = env->GetStringChars(descriptor, nullptr); const char16_t* rawDescriptor = reinterpret_cast(descriptorChars); jsize rawDescriptorLen = env->GetStringLength(descriptor); mDescriptor = String16(rawDescriptor, rawDescriptorLen); env->ReleaseStringChars(descriptor, descriptorChars); }); return mDescriptor; } status_t onTransact( uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags = 0) override { JNIEnv* env = javavm_to_jnienv(mVM); ALOGV("onTransact() on %p calling object %p in env %p vm %p\n", this, mObject, env, mVM); IPCThreadState* thread_state = IPCThreadState::self(); const int32_t strict_policy_before = thread_state->getStrictModePolicy(); //printf("Transact from %p to Java code sending: ", this); //data.print(); //printf("\n"); jboolean res = env->CallBooleanMethod(mObject, gBinderOffsets.mExecTransact, code, reinterpret_cast(&data), reinterpret_cast(reply), flags); if (env->ExceptionCheck()) { ScopedLocalRef excep(env, env->ExceptionOccurred()); report_exception(env, excep.get(), "*** Uncaught remote exception! " "(Exceptions are not yet supported across processes.)"); res = JNI_FALSE; } // Check if the strict mode state changed while processing the // call. The Binder state will be restored by the underlying // Binder system in IPCThreadState, however we need to take care // of the parallel Java state as well. if (thread_state->getStrictModePolicy() != strict_policy_before) { set_dalvik_blockguard_policy(env, strict_policy_before); } if (env->ExceptionCheck()) { ScopedLocalRef excep(env, env->ExceptionOccurred()); report_exception(env, excep.get(), "*** Uncaught exception in onBinderStrictModePolicyChange"); } // Need to always call through the native implementation of // SYSPROPS_TRANSACTION. if (code == SYSPROPS_TRANSACTION) { BBinder::onTransact(code, data, reply, flags); } //aout << "onTransact to Java code; result=" << res << endl // << "Transact from " << this << " to Java code returning " // << reply << ": " << *reply << endl; return res != JNI_FALSE ? NO_ERROR : UNKNOWN_TRANSACTION; } status_t dump(int fd, const Vector& args) override { return 0; } private: JavaVM* const mVM; jobject const mObject; // GlobalRef to Java Binder mutable std::once_flag mPopulateDescriptor; mutable String16 mDescriptor; }; // ---------------------------------------------------------------------------- class JavaBBinderHolder { public: sp get(JNIEnv* env, jobject obj) { AutoMutex _l(mLock); sp b = mBinder.promote(); if (b == NULL) { b = new JavaBBinder(env, obj); if (mVintf) { ::android::internal::Stability::markVintf(b.get()); } if (mExtension != nullptr) { b.get()->setExtension(mExtension); } mBinder = b; ALOGV("Creating JavaBinder %p (refs %p) for Object %p, weakCount=%" PRId32 "\n", b.get(), b->getWeakRefs(), obj, b->getWeakRefs()->getWeakCount()); } return b; } sp getExisting() { AutoMutex _l(mLock); return mBinder.promote(); } void markVintf() { mVintf = true; } sp getExtension() { AutoMutex _l(mLock); sp b = mBinder.promote(); if (b != nullptr) { return b.get()->getExtension(); } return mExtension; } void setExtension(const sp& extension) { AutoMutex _l(mLock); mExtension = extension; sp b = mBinder.promote(); if (b != nullptr) { b.get()->setExtension(mExtension); } } private: Mutex mLock; wp mBinder; // in the future, we might condense this into int32_t stability, or if there // is too much binder state here, we can think about making JavaBBinder an // sp here (avoid recreating it) bool mVintf = false; sp mExtension; }; // ---------------------------------------------------------------------------- // Per-IBinder death recipient bookkeeping. This is how we reconcile local jobject // death recipient references passed in through JNI with the permanent corresponding // JavaDeathRecipient objects. class JavaDeathRecipient; class DeathRecipientList : public RefBase { List< sp > mList; Mutex mLock; public: DeathRecipientList(); ~DeathRecipientList(); void add(const sp& recipient); void remove(const sp& recipient); sp find(jobject recipient); Mutex& lock(); // Use with care; specifically for mutual exclusion during binder death }; // ---------------------------------------------------------------------------- class JavaDeathRecipient : public IBinder::DeathRecipient { public: JavaDeathRecipient(JNIEnv* env, jobject object, const sp& list) : mVM(jnienv_to_javavm(env)), mObject(env->NewGlobalRef(object)), mObjectWeak(NULL), mList(list) { // These objects manage their own lifetimes so are responsible for final bookkeeping. // The list holds a strong reference to this object. LOGDEATH("Adding JDR %p to DRL %p", this, list.get()); list->add(this); gNumDeathRefsCreated.fetch_add(1, std::memory_order_relaxed); gcIfManyNewRefs(env); } void binderDied(const wp& who) { LOGDEATH("Receiving binderDied() on JavaDeathRecipient %p\n", this); if (mObject != NULL) { JNIEnv* env = javavm_to_jnienv(mVM); ScopedLocalRef jBinderProxy(env, javaObjectForIBinder(env, who.promote())); env->CallStaticVoidMethod(gBinderProxyOffsets.mClass, gBinderProxyOffsets.mSendDeathNotice, mObject, jBinderProxy.get()); if (env->ExceptionCheck()) { jthrowable excep = env->ExceptionOccurred(); report_exception(env, excep, "*** Uncaught exception returned from death notification!"); } // Serialize with our containing DeathRecipientList so that we can't // delete the global ref on mObject while the list is being iterated. sp list = mList.promote(); if (list != NULL) { AutoMutex _l(list->lock()); // Demote from strong ref to weak after binderDied() has been delivered, // to allow the DeathRecipient and BinderProxy to be GC'd if no longer needed. mObjectWeak = env->NewWeakGlobalRef(mObject); env->DeleteGlobalRef(mObject); mObject = NULL; } } } void clearReference() { sp list = mList.promote(); if (list != NULL) { LOGDEATH("Removing JDR %p from DRL %p", this, list.get()); list->remove(this); } else { LOGDEATH("clearReference() on JDR %p but DRL wp purged", this); } } bool matches(jobject obj) { bool result; JNIEnv* env = javavm_to_jnienv(mVM); if (mObject != NULL) { result = env->IsSameObject(obj, mObject); } else { ScopedLocalRef me(env, env->NewLocalRef(mObjectWeak)); result = env->IsSameObject(obj, me.get()); } return result; } void warnIfStillLive() { if (mObject != NULL) { // Okay, something is wrong -- we have a hard reference to a live death // recipient on the VM side, but the list is being torn down. JNIEnv* env = javavm_to_jnienv(mVM); ScopedLocalRef objClassRef(env, env->GetObjectClass(mObject)); ScopedLocalRef nameRef(env, (jstring) env->CallObjectMethod(objClassRef.get(), gClassOffsets.mGetName)); ScopedUtfChars nameUtf(env, nameRef.get()); if (nameUtf.c_str() != NULL) { ALOGW("BinderProxy is being destroyed but the application did not call " "unlinkToDeath to unlink all of its death recipients beforehand. " "Releasing leaked death recipient: %s", nameUtf.c_str()); } else { ALOGW("BinderProxy being destroyed; unable to get DR object name"); env->ExceptionClear(); } } } protected: virtual ~JavaDeathRecipient() { //ALOGI("Removing death ref: recipient=%p\n", mObject); gNumDeathRefsDeleted.fetch_add(1, std::memory_order_relaxed); JNIEnv* env = javavm_to_jnienv(mVM); if (mObject != NULL) { env->DeleteGlobalRef(mObject); } else { env->DeleteWeakGlobalRef(mObjectWeak); } } private: JavaVM* const mVM; jobject mObject; // Initial strong ref to Java-side DeathRecipient. Cleared on binderDied(). jweak mObjectWeak; // Weak ref to the same Java-side DeathRecipient after binderDied(). wp mList; }; // ---------------------------------------------------------------------------- DeathRecipientList::DeathRecipientList() { LOGDEATH("New DRL @ %p", this); } DeathRecipientList::~DeathRecipientList() { LOGDEATH("Destroy DRL @ %p", this); AutoMutex _l(mLock); // Should never happen -- the JavaDeathRecipient objects that have added themselves // to the list are holding references on the list object. Only when they are torn // down can the list header be destroyed. if (mList.size() > 0) { List< sp >::iterator iter; for (iter = mList.begin(); iter != mList.end(); iter++) { (*iter)->warnIfStillLive(); } } } void DeathRecipientList::add(const sp& recipient) { AutoMutex _l(mLock); LOGDEATH("DRL @ %p : add JDR %p", this, recipient.get()); mList.push_back(recipient); } void DeathRecipientList::remove(const sp& recipient) { AutoMutex _l(mLock); List< sp >::iterator iter; for (iter = mList.begin(); iter != mList.end(); iter++) { if (*iter == recipient) { LOGDEATH("DRL @ %p : remove JDR %p", this, recipient.get()); mList.erase(iter); return; } } } sp DeathRecipientList::find(jobject recipient) { AutoMutex _l(mLock); List< sp >::iterator iter; for (iter = mList.begin(); iter != mList.end(); iter++) { if ((*iter)->matches(recipient)) { return *iter; } } return NULL; } Mutex& DeathRecipientList::lock() { return mLock; } // ---------------------------------------------------------------------------- namespace android { // We aggregate native pointer fields for BinderProxy in a single object to allow // management with a single NativeAllocationRegistry, and to reduce the number of JNI // Java field accesses. This costs us some extra indirections here. struct BinderProxyNativeData { // Both fields are constant and not null once javaObjectForIBinder returns this as // part of a BinderProxy. // The native IBinder proxied by this BinderProxy. sp mObject; // Death recipients for mObject. Reference counted only because DeathRecipients // hold a weak reference that can be temporarily promoted. sp mOrgue; // Death recipients for mObject. }; BinderProxyNativeData* getBPNativeData(JNIEnv* env, jobject obj) { return (BinderProxyNativeData *) env->GetLongField(obj, gBinderProxyOffsets.mNativeData); } // If the argument is a JavaBBinder, return the Java object that was used to create it. // Otherwise return a BinderProxy for the IBinder. If a previous call was passed the // same IBinder, and the original BinderProxy is still alive, return the same BinderProxy. jobject javaObjectForIBinder(JNIEnv* env, const sp& val) { // N.B. This function is called from a @FastNative JNI method, so don't take locks around // calls to Java code or block the calling thread for a long time for any reason. if (val == NULL) return NULL; if (val->checkSubclass(&gBinderOffsets)) { // It's a JavaBBinder created by ibinderForJavaObject. Already has Java object. jobject object = static_cast(val.get())->object(); LOGDEATH("objectForBinder %p: it's our own %p!\n", val.get(), object); return object; } BinderProxyNativeData* nativeData = new BinderProxyNativeData(); nativeData->mOrgue = new DeathRecipientList; nativeData->mObject = val; jobject object = env->CallStaticObjectMethod(gBinderProxyOffsets.mClass, gBinderProxyOffsets.mGetInstance, (jlong) nativeData, (jlong) val.get()); if (env->ExceptionCheck()) { // In the exception case, getInstance still took ownership of nativeData. return NULL; } BinderProxyNativeData* actualNativeData = getBPNativeData(env, object); if (actualNativeData == nativeData) { // Created a new Proxy uint32_t numProxies = gNumProxies.fetch_add(1, std::memory_order_relaxed); uint32_t numLastWarned = gProxiesWarned.load(std::memory_order_relaxed); if (numProxies >= numLastWarned + PROXY_WARN_INTERVAL) { // Multiple threads can get here, make sure only one of them gets to // update the warn counter. if (gProxiesWarned.compare_exchange_strong(numLastWarned, numLastWarned + PROXY_WARN_INTERVAL, std::memory_order_relaxed)) { ALOGW("Unexpectedly many live BinderProxies: %d\n", numProxies); } } } else { delete nativeData; } return object; } sp ibinderForJavaObject(JNIEnv* env, jobject obj) { if (obj == NULL) return NULL; // Instance of Binder? if (env->IsInstanceOf(obj, gBinderOffsets.mClass)) { JavaBBinderHolder* jbh = (JavaBBinderHolder*) env->GetLongField(obj, gBinderOffsets.mObject); return jbh->get(env, obj); } // Instance of BinderProxy? if (env->IsInstanceOf(obj, gBinderProxyOffsets.mClass)) { return getBPNativeData(env, obj)->mObject; } ALOGW("ibinderForJavaObject: %p is not a Binder object", obj); return NULL; } jobject newParcelFileDescriptor(JNIEnv* env, jobject fileDesc) { return env->NewObject( gParcelFileDescriptorOffsets.mClass, gParcelFileDescriptorOffsets.mConstructor, fileDesc); } void set_dalvik_blockguard_policy(JNIEnv* env, jint strict_policy) { // Call back into android.os.StrictMode#onBinderStrictModePolicyChange // to sync our state back to it. See the comments in StrictMode.java. env->CallStaticVoidMethod(gStrictModeCallbackOffsets.mClass, gStrictModeCallbackOffsets.mCallback, strict_policy); } void signalExceptionForError(JNIEnv* env, jobject obj, status_t err, bool canThrowRemoteException, int parcelSize) { switch (err) { case UNKNOWN_ERROR: jniThrowException(env, "java/lang/RuntimeException", "Unknown error"); break; case NO_MEMORY: jniThrowException(env, "java/lang/OutOfMemoryError", NULL); break; case INVALID_OPERATION: jniThrowException(env, "java/lang/UnsupportedOperationException", NULL); break; case BAD_VALUE: jniThrowException(env, "java/lang/IllegalArgumentException", NULL); break; case BAD_INDEX: jniThrowException(env, "java/lang/IndexOutOfBoundsException", NULL); break; case BAD_TYPE: jniThrowException(env, "java/lang/IllegalArgumentException", NULL); break; case NAME_NOT_FOUND: jniThrowException(env, "java/util/NoSuchElementException", NULL); break; case PERMISSION_DENIED: jniThrowException(env, "java/lang/SecurityException", NULL); break; case NOT_ENOUGH_DATA: jniThrowException(env, "android/os/ParcelFormatException", "Not enough data"); break; case NO_INIT: jniThrowException(env, "java/lang/RuntimeException", "Not initialized"); break; case ALREADY_EXISTS: jniThrowException(env, "java/lang/RuntimeException", "Item already exists"); break; case DEAD_OBJECT: // DeadObjectException is a checked exception, only throw from certain methods. jniThrowException(env, canThrowRemoteException ? "android/os/DeadObjectException" : "java/lang/RuntimeException", NULL); break; case UNKNOWN_TRANSACTION: jniThrowException(env, "java/lang/RuntimeException", "Unknown transaction code"); break; case FAILED_TRANSACTION: { ALOGE("!!! FAILED BINDER TRANSACTION !!! (parcel size = %d)", parcelSize); const char* exceptionToThrow; char msg[128]; // TransactionTooLargeException is a checked exception, only throw from certain methods. // FIXME: Transaction too large is the most common reason for FAILED_TRANSACTION // but it is not the only one. The Binder driver can return BR_FAILED_REPLY // for other reasons also, such as if the transaction is malformed or // refers to an FD that has been closed. We should change the driver // to enable us to distinguish these cases in the future. if (canThrowRemoteException && parcelSize > 200*1024) { // bona fide large payload exceptionToThrow = "android/os/TransactionTooLargeException"; snprintf(msg, sizeof(msg)-1, "data parcel size %d bytes", parcelSize); } else { // Heuristic: a payload smaller than this threshold "shouldn't" be too // big, so it's probably some other, more subtle problem. In practice // it seems to always mean that the remote process died while the binder // transaction was already in flight. exceptionToThrow = (canThrowRemoteException) ? "android/os/DeadObjectException" : "java/lang/RuntimeException"; snprintf(msg, sizeof(msg)-1, "Transaction failed on small parcel; remote process probably died"); } jniThrowException(env, exceptionToThrow, msg); } break; case FDS_NOT_ALLOWED: jniThrowException(env, "java/lang/RuntimeException", "Not allowed to write file descriptors here"); break; case UNEXPECTED_NULL: jniThrowNullPointerException(env, NULL); break; case -EBADF: jniThrowException(env, "java/lang/RuntimeException", "Bad file descriptor"); break; case -ENFILE: jniThrowException(env, "java/lang/RuntimeException", "File table overflow"); break; case -EMFILE: jniThrowException(env, "java/lang/RuntimeException", "Too many open files"); break; case -EFBIG: jniThrowException(env, "java/lang/RuntimeException", "File too large"); break; case -ENOSPC: jniThrowException(env, "java/lang/RuntimeException", "No space left on device"); break; case -ESPIPE: jniThrowException(env, "java/lang/RuntimeException", "Illegal seek"); break; case -EROFS: jniThrowException(env, "java/lang/RuntimeException", "Read-only file system"); break; case -EMLINK: jniThrowException(env, "java/lang/RuntimeException", "Too many links"); break; default: ALOGE("Unknown binder error code. 0x%" PRIx32, err); String8 msg; msg.appendFormat("Unknown binder error code. 0x%" PRIx32, err); // RemoteException is a checked exception, only throw from certain methods. jniThrowException(env, canThrowRemoteException ? "android/os/RemoteException" : "java/lang/RuntimeException", msg.string()); break; } } } // ---------------------------------------------------------------------------- static jint android_os_Binder_getCallingPid() { return IPCThreadState::self()->getCallingPid(); } static jint android_os_Binder_getCallingUid() { return IPCThreadState::self()->getCallingUid(); } static jboolean android_os_Binder_isHandlingTransaction() { return getCurrentServingCall() == BinderCallType::BINDER; } static jlong android_os_Binder_clearCallingIdentity() { return IPCThreadState::self()->clearCallingIdentity(); } static void android_os_Binder_restoreCallingIdentity(JNIEnv* env, jobject clazz, jlong token) { // XXX temporary sanity check to debug crashes. int uid = (int)(token>>32); if (uid > 0 && uid < 999) { // In Android currently there are no uids in this range. char buf[128]; sprintf(buf, "Restoring bad calling ident: 0x%" PRIx64, token); jniThrowException(env, "java/lang/IllegalStateException", buf); return; } IPCThreadState::self()->restoreCallingIdentity(token); } static void android_os_Binder_setThreadStrictModePolicy(jint policyMask) { IPCThreadState::self()->setStrictModePolicy(policyMask); } static jint android_os_Binder_getThreadStrictModePolicy() { return IPCThreadState::self()->getStrictModePolicy(); } static jlong android_os_Binder_setCallingWorkSourceUid(jint workSource) { return IPCThreadState::self()->setCallingWorkSourceUid(workSource); } static jlong android_os_Binder_getCallingWorkSourceUid() { return IPCThreadState::self()->getCallingWorkSourceUid(); } static jlong android_os_Binder_clearCallingWorkSource() { return IPCThreadState::self()->clearCallingWorkSource(); } static void android_os_Binder_restoreCallingWorkSource(jlong token) { IPCThreadState::self()->restoreCallingWorkSource(token); } static void android_os_Binder_markVintfStability(JNIEnv* env, jobject clazz) { JavaBBinderHolder* jbh = (JavaBBinderHolder*) env->GetLongField(clazz, gBinderOffsets.mObject); jbh->markVintf(); } static void android_os_Binder_flushPendingCommands(JNIEnv* env, jobject clazz) { IPCThreadState::self()->flushCommands(); } static jlong android_os_Binder_getNativeBBinderHolder(JNIEnv* env, jobject clazz) { JavaBBinderHolder* jbh = new JavaBBinderHolder(); return (jlong) jbh; } static void Binder_destroy(void* rawJbh) { JavaBBinderHolder* jbh = (JavaBBinderHolder*) rawJbh; ALOGV("Java Binder: deleting holder %p", jbh); delete jbh; } JNIEXPORT jlong JNICALL android_os_Binder_getNativeFinalizer(JNIEnv*, jclass) { return (jlong) Binder_destroy; } static void android_os_Binder_blockUntilThreadAvailable(JNIEnv* env, jobject clazz) { return IPCThreadState::self()->blockUntilThreadAvailable(); } static jobject android_os_Binder_getExtension(JNIEnv* env, jobject obj) { JavaBBinderHolder* jbh = (JavaBBinderHolder*) env->GetLongField(obj, gBinderOffsets.mObject); return javaObjectForIBinder(env, jbh->getExtension()); } static void android_os_Binder_setExtension(JNIEnv* env, jobject obj, jobject extensionObject) { JavaBBinderHolder* jbh = (JavaBBinderHolder*) env->GetLongField(obj, gBinderOffsets.mObject); sp extension = ibinderForJavaObject(env, extensionObject); jbh->setExtension(extension); } // ---------------------------------------------------------------------------- static const JNINativeMethod gBinderMethods[] = { /* name, signature, funcPtr */ // @CriticalNative { "getCallingPid", "()I", (void*)android_os_Binder_getCallingPid }, // @CriticalNative { "getCallingUid", "()I", (void*)android_os_Binder_getCallingUid }, // @CriticalNative { "isHandlingTransaction", "()Z", (void*)android_os_Binder_isHandlingTransaction }, // @CriticalNative { "clearCallingIdentity", "()J", (void*)android_os_Binder_clearCallingIdentity }, { "restoreCallingIdentity", "(J)V", (void*)android_os_Binder_restoreCallingIdentity }, // @CriticalNative { "setThreadStrictModePolicy", "(I)V", (void*)android_os_Binder_setThreadStrictModePolicy }, // @CriticalNative { "getThreadStrictModePolicy", "()I", (void*)android_os_Binder_getThreadStrictModePolicy }, // @CriticalNative { "setCallingWorkSourceUid", "(I)J", (void*)android_os_Binder_setCallingWorkSourceUid }, // @CriticalNative { "getCallingWorkSourceUid", "()I", (void*)android_os_Binder_getCallingWorkSourceUid }, // @CriticalNative { "clearCallingWorkSource", "()J", (void*)android_os_Binder_clearCallingWorkSource }, { "restoreCallingWorkSource", "(J)V", (void*)android_os_Binder_restoreCallingWorkSource }, { "markVintfStability", "()V", (void*)android_os_Binder_markVintfStability}, { "flushPendingCommands", "()V", (void*)android_os_Binder_flushPendingCommands }, { "getNativeBBinderHolder", "()J", (void*)android_os_Binder_getNativeBBinderHolder }, { "getNativeFinalizer", "()J", (void*)android_os_Binder_getNativeFinalizer }, { "blockUntilThreadAvailable", "()V", (void*)android_os_Binder_blockUntilThreadAvailable }, { "getExtension", "()Landroid/os/IBinder;", (void*)android_os_Binder_getExtension }, { "setExtension", "(Landroid/os/IBinder;)V", (void*)android_os_Binder_setExtension }, }; const char* const kBinderPathName = "android/os/Binder"; static int int_register_android_os_Binder(JNIEnv* env) { jclass clazz = FindClassOrDie(env, kBinderPathName); gBinderOffsets.mClass = MakeGlobalRefOrDie(env, clazz); gBinderOffsets.mExecTransact = GetMethodIDOrDie(env, clazz, "execTransact", "(IJJI)Z"); gBinderOffsets.mGetInterfaceDescriptor = GetMethodIDOrDie(env, clazz, "getInterfaceDescriptor", "()Ljava/lang/String;"); gBinderOffsets.mObject = GetFieldIDOrDie(env, clazz, "mObject", "J"); return RegisterMethodsOrDie( env, kBinderPathName, gBinderMethods, NELEM(gBinderMethods)); } // **************************************************************************** // **************************************************************************** // **************************************************************************** namespace android { jint android_os_Debug_getLocalObjectCount(JNIEnv* env, jobject clazz) { return gNumLocalRefsCreated - gNumLocalRefsDeleted; } jint android_os_Debug_getProxyObjectCount(JNIEnv* env, jobject clazz) { return gNumProxies.load(); } jint android_os_Debug_getDeathObjectCount(JNIEnv* env, jobject clazz) { return gNumDeathRefsCreated - gNumDeathRefsDeleted; } } // **************************************************************************** // **************************************************************************** // **************************************************************************** static jobject android_os_BinderInternal_getContextObject(JNIEnv* env, jobject clazz) { sp b = ProcessState::self()->getContextObject(NULL); return javaObjectForIBinder(env, b); } static void android_os_BinderInternal_joinThreadPool(JNIEnv* env, jobject clazz) { sp b = ProcessState::self()->getContextObject(NULL); android::IPCThreadState::self()->joinThreadPool(); } static void android_os_BinderInternal_disableBackgroundScheduling(JNIEnv* env, jobject clazz, jboolean disable) { IPCThreadState::disableBackgroundScheduling(disable ? true : false); } static void android_os_BinderInternal_setMaxThreads(JNIEnv* env, jobject clazz, jint maxThreads) { ProcessState::self()->setThreadPoolMaxThreadCount(maxThreads); } static void android_os_BinderInternal_handleGc(JNIEnv* env, jobject clazz) { ALOGV("Gc has executed, updating Refs count at GC"); gCollectedAtRefs = gNumLocalRefsCreated + gNumDeathRefsCreated; } static void android_os_BinderInternal_proxyLimitcallback(int uid) { JNIEnv *env = AndroidRuntime::getJNIEnv(); env->CallStaticVoidMethod(gBinderInternalOffsets.mClass, gBinderInternalOffsets.mProxyLimitCallback, uid); if (env->ExceptionCheck()) { ScopedLocalRef excep(env, env->ExceptionOccurred()); report_exception(env, excep.get(), "*** Uncaught exception in binderProxyLimitCallbackFromNative"); } } static void android_os_BinderInternal_setBinderProxyCountEnabled(JNIEnv* env, jobject clazz, jboolean enable) { BpBinder::setCountByUidEnabled((bool) enable); } static jobject android_os_BinderInternal_getBinderProxyPerUidCounts(JNIEnv* env, jclass clazz) { Vector uids, counts; BpBinder::getCountByUid(uids, counts); jobject sparseIntArray = env->NewObject(gSparseIntArrayOffsets.classObject, gSparseIntArrayOffsets.constructor); for (size_t i = 0; i < uids.size(); i++) { env->CallVoidMethod(sparseIntArray, gSparseIntArrayOffsets.put, static_cast(uids[i]), static_cast(counts[i])); } return sparseIntArray; } static jint android_os_BinderInternal_getBinderProxyCount(JNIEnv* env, jobject clazz, jint uid) { return static_cast(BpBinder::getBinderProxyCount(static_cast(uid))); } static void android_os_BinderInternal_setBinderProxyCountWatermarks(JNIEnv* env, jobject clazz, jint high, jint low) { BpBinder::setBinderProxyCountWatermarks(high, low); } // ---------------------------------------------------------------------------- static const JNINativeMethod gBinderInternalMethods[] = { /* name, signature, funcPtr */ { "getContextObject", "()Landroid/os/IBinder;", (void*)android_os_BinderInternal_getContextObject }, { "joinThreadPool", "()V", (void*)android_os_BinderInternal_joinThreadPool }, { "disableBackgroundScheduling", "(Z)V", (void*)android_os_BinderInternal_disableBackgroundScheduling }, { "setMaxThreads", "(I)V", (void*)android_os_BinderInternal_setMaxThreads }, { "handleGc", "()V", (void*)android_os_BinderInternal_handleGc }, { "nSetBinderProxyCountEnabled", "(Z)V", (void*)android_os_BinderInternal_setBinderProxyCountEnabled }, { "nGetBinderProxyPerUidCounts", "()Landroid/util/SparseIntArray;", (void*)android_os_BinderInternal_getBinderProxyPerUidCounts }, { "nGetBinderProxyCount", "(I)I", (void*)android_os_BinderInternal_getBinderProxyCount }, { "nSetBinderProxyCountWatermarks", "(II)V", (void*)android_os_BinderInternal_setBinderProxyCountWatermarks} }; const char* const kBinderInternalPathName = "com/android/internal/os/BinderInternal"; static int int_register_android_os_BinderInternal(JNIEnv* env) { jclass clazz = FindClassOrDie(env, kBinderInternalPathName); gBinderInternalOffsets.mClass = MakeGlobalRefOrDie(env, clazz); gBinderInternalOffsets.mForceGc = GetStaticMethodIDOrDie(env, clazz, "forceBinderGc", "()V"); gBinderInternalOffsets.mProxyLimitCallback = GetStaticMethodIDOrDie(env, clazz, "binderProxyLimitCallbackFromNative", "(I)V"); jclass SparseIntArrayClass = FindClassOrDie(env, "android/util/SparseIntArray"); gSparseIntArrayOffsets.classObject = MakeGlobalRefOrDie(env, SparseIntArrayClass); gSparseIntArrayOffsets.constructor = GetMethodIDOrDie(env, gSparseIntArrayOffsets.classObject, "", "()V"); gSparseIntArrayOffsets.put = GetMethodIDOrDie(env, gSparseIntArrayOffsets.classObject, "put", "(II)V"); BpBinder::setLimitCallback(android_os_BinderInternal_proxyLimitcallback); return RegisterMethodsOrDie( env, kBinderInternalPathName, gBinderInternalMethods, NELEM(gBinderInternalMethods)); } // **************************************************************************** // **************************************************************************** // **************************************************************************** static jboolean android_os_BinderProxy_pingBinder(JNIEnv* env, jobject obj) { IBinder* target = getBPNativeData(env, obj)->mObject.get(); if (target == NULL) { return JNI_FALSE; } status_t err = target->pingBinder(); return err == NO_ERROR ? JNI_TRUE : JNI_FALSE; } static jstring android_os_BinderProxy_getInterfaceDescriptor(JNIEnv* env, jobject obj) { IBinder* target = getBPNativeData(env, obj)->mObject.get(); if (target != NULL) { const String16& desc = target->getInterfaceDescriptor(); return env->NewString(reinterpret_cast(desc.string()), desc.size()); } jniThrowException(env, "java/lang/RuntimeException", "No binder found for object"); return NULL; } static jboolean android_os_BinderProxy_isBinderAlive(JNIEnv* env, jobject obj) { IBinder* target = getBPNativeData(env, obj)->mObject.get(); if (target == NULL) { return JNI_FALSE; } bool alive = target->isBinderAlive(); return alive ? JNI_TRUE : JNI_FALSE; } static int getprocname(pid_t pid, char *buf, size_t len) { char filename[32]; FILE *f; snprintf(filename, sizeof(filename), "/proc/%d/cmdline", pid); f = fopen(filename, "re"); if (!f) { *buf = '\0'; return 1; } if (!fgets(buf, len, f)) { *buf = '\0'; fclose(f); return 2; } fclose(f); return 0; } static bool push_eventlog_string(char** pos, const char* end, const char* str) { jint len = strlen(str); int space_needed = 1 + sizeof(len) + len; if (end - *pos < space_needed) { ALOGW("not enough space for string. remain=%" PRIdPTR "; needed=%d", end - *pos, space_needed); return false; } **pos = EVENT_TYPE_STRING; (*pos)++; memcpy(*pos, &len, sizeof(len)); *pos += sizeof(len); memcpy(*pos, str, len); *pos += len; return true; } static bool push_eventlog_int(char** pos, const char* end, jint val) { int space_needed = 1 + sizeof(val); if (end - *pos < space_needed) { ALOGW("not enough space for int. remain=%" PRIdPTR "; needed=%d", end - *pos, space_needed); return false; } **pos = EVENT_TYPE_INT; (*pos)++; memcpy(*pos, &val, sizeof(val)); *pos += sizeof(val); return true; } // From frameworks/base/core/java/android/content/EventLogTags.logtags: static const bool kEnableBinderSample = false; #define LOGTAG_BINDER_OPERATION 52004 static void conditionally_log_binder_call(int64_t start_millis, IBinder* target, jint code) { int duration_ms = static_cast(uptimeMillis() - start_millis); int sample_percent; if (duration_ms >= 500) { sample_percent = 100; } else { sample_percent = 100 * duration_ms / 500; if (sample_percent == 0) { return; } if (sample_percent < (random() % 100 + 1)) { return; } } char process_name[40]; getprocname(getpid(), process_name, sizeof(process_name)); String8 desc(target->getInterfaceDescriptor()); char buf[LOGGER_ENTRY_MAX_PAYLOAD]; buf[0] = EVENT_TYPE_LIST; buf[1] = 5; char* pos = &buf[2]; char* end = &buf[LOGGER_ENTRY_MAX_PAYLOAD - 1]; // leave room for final \n if (!push_eventlog_string(&pos, end, desc.string())) return; if (!push_eventlog_int(&pos, end, code)) return; if (!push_eventlog_int(&pos, end, duration_ms)) return; if (!push_eventlog_string(&pos, end, process_name)) return; if (!push_eventlog_int(&pos, end, sample_percent)) return; *(pos++) = '\n'; // conventional with EVENT_TYPE_LIST apparently. android_bWriteLog(LOGTAG_BINDER_OPERATION, buf, pos - buf); } // We only measure binder call durations to potentially log them if // we're on the main thread. static bool should_time_binder_calls() { return (getpid() == gettid()); } static jboolean android_os_BinderProxy_transact(JNIEnv* env, jobject obj, jint code, jobject dataObj, jobject replyObj, jint flags) // throws RemoteException { if (dataObj == NULL) { jniThrowNullPointerException(env, NULL); return JNI_FALSE; } Parcel* data = parcelForJavaObject(env, dataObj); if (data == NULL) { return JNI_FALSE; } Parcel* reply = parcelForJavaObject(env, replyObj); if (reply == NULL && replyObj != NULL) { return JNI_FALSE; } IBinder* target = getBPNativeData(env, obj)->mObject.get(); if (target == NULL) { jniThrowException(env, "java/lang/IllegalStateException", "Binder has been finalized!"); return JNI_FALSE; } ALOGV("Java code calling transact on %p in Java object %p with code %" PRId32 "\n", target, obj, code); bool time_binder_calls; int64_t start_millis; if (kEnableBinderSample) { // Only log the binder call duration for things on the Java-level main thread. // But if we don't time_binder_calls = should_time_binder_calls(); if (time_binder_calls) { start_millis = uptimeMillis(); } } //printf("Transact from Java code to %p sending: ", target); data->print(); status_t err = target->transact(code, *data, reply, flags); //if (reply) printf("Transact from Java code to %p received: ", target); reply->print(); if (kEnableBinderSample) { if (time_binder_calls) { conditionally_log_binder_call(start_millis, target, code); } } if (err == NO_ERROR) { return JNI_TRUE; } else if (err == UNKNOWN_TRANSACTION) { return JNI_FALSE; } signalExceptionForError(env, obj, err, true /*canThrowRemoteException*/, data->dataSize()); return JNI_FALSE; } static void android_os_BinderProxy_linkToDeath(JNIEnv* env, jobject obj, jobject recipient, jint flags) // throws RemoteException { if (recipient == NULL) { jniThrowNullPointerException(env, NULL); return; } BinderProxyNativeData *nd = getBPNativeData(env, obj); IBinder* target = nd->mObject.get(); LOGDEATH("linkToDeath: binder=%p recipient=%p\n", target, recipient); if (!target->localBinder()) { DeathRecipientList* list = nd->mOrgue.get(); sp jdr = new JavaDeathRecipient(env, recipient, list); status_t err = target->linkToDeath(jdr, NULL, flags); if (err != NO_ERROR) { // Failure adding the death recipient, so clear its reference // now. jdr->clearReference(); signalExceptionForError(env, obj, err, true /*canThrowRemoteException*/); } } } static jboolean android_os_BinderProxy_unlinkToDeath(JNIEnv* env, jobject obj, jobject recipient, jint flags) { jboolean res = JNI_FALSE; if (recipient == NULL) { jniThrowNullPointerException(env, NULL); return res; } BinderProxyNativeData* nd = getBPNativeData(env, obj); IBinder* target = nd->mObject.get(); if (target == NULL) { ALOGW("Binder has been finalized when calling linkToDeath() with recip=%p)\n", recipient); return JNI_FALSE; } LOGDEATH("unlinkToDeath: binder=%p recipient=%p\n", target, recipient); if (!target->localBinder()) { status_t err = NAME_NOT_FOUND; // If we find the matching recipient, proceed to unlink using that DeathRecipientList* list = nd->mOrgue.get(); sp origJDR = list->find(recipient); LOGDEATH(" unlink found list %p and JDR %p", list, origJDR.get()); if (origJDR != NULL) { wp dr; err = target->unlinkToDeath(origJDR, NULL, flags, &dr); if (err == NO_ERROR && dr != NULL) { sp sdr = dr.promote(); JavaDeathRecipient* jdr = static_cast(sdr.get()); if (jdr != NULL) { jdr->clearReference(); } } } if (err == NO_ERROR || err == DEAD_OBJECT) { res = JNI_TRUE; } else { jniThrowException(env, "java/util/NoSuchElementException", "Death link does not exist"); } } return res; } static void BinderProxy_destroy(void* rawNativeData) { BinderProxyNativeData * nativeData = (BinderProxyNativeData *) rawNativeData; LOGDEATH("Destroying BinderProxy: binder=%p drl=%p\n", nativeData->mObject.get(), nativeData->mOrgue.get()); delete nativeData; IPCThreadState::self()->flushCommands(); --gNumProxies; } JNIEXPORT jlong JNICALL android_os_BinderProxy_getNativeFinalizer(JNIEnv*, jclass) { return (jlong) BinderProxy_destroy; } static jobject android_os_BinderProxy_getExtension(JNIEnv* env, jobject obj) { IBinder* binder = getBPNativeData(env, obj)->mObject.get(); if (binder == nullptr) { jniThrowException(env, "java/lang/IllegalStateException", "Native IBinder is null"); return nullptr; } sp extension; status_t err = binder->getExtension(&extension); if (err != OK) { signalExceptionForError(env, obj, err, true /* canThrowRemoteException */); return nullptr; } return javaObjectForIBinder(env, extension); } // ---------------------------------------------------------------------------- static const JNINativeMethod gBinderProxyMethods[] = { /* name, signature, funcPtr */ {"pingBinder", "()Z", (void*)android_os_BinderProxy_pingBinder}, {"isBinderAlive", "()Z", (void*)android_os_BinderProxy_isBinderAlive}, {"getInterfaceDescriptor", "()Ljava/lang/String;", (void*)android_os_BinderProxy_getInterfaceDescriptor}, {"transactNative", "(ILandroid/os/Parcel;Landroid/os/Parcel;I)Z", (void*)android_os_BinderProxy_transact}, {"linkToDeath", "(Landroid/os/IBinder$DeathRecipient;I)V", (void*)android_os_BinderProxy_linkToDeath}, {"unlinkToDeath", "(Landroid/os/IBinder$DeathRecipient;I)Z", (void*)android_os_BinderProxy_unlinkToDeath}, {"getNativeFinalizer", "()J", (void*)android_os_BinderProxy_getNativeFinalizer}, {"getExtension", "()Landroid/os/IBinder;", (void*)android_os_BinderProxy_getExtension}, }; const char* const kBinderProxyPathName = "android/os/BinderProxy"; static int int_register_android_os_BinderProxy(JNIEnv* env) { gErrorOffsets.mError = MakeGlobalRefOrDie(env, FindClassOrDie(env, "java/lang/Error")); gErrorOffsets.mOutOfMemory = MakeGlobalRefOrDie(env, FindClassOrDie(env, "java/lang/OutOfMemoryError")); gErrorOffsets.mStackOverflow = MakeGlobalRefOrDie(env, FindClassOrDie(env, "java/lang/StackOverflowError")); jclass clazz = FindClassOrDie(env, kBinderProxyPathName); gBinderProxyOffsets.mClass = MakeGlobalRefOrDie(env, clazz); gBinderProxyOffsets.mGetInstance = GetStaticMethodIDOrDie(env, clazz, "getInstance", "(JJ)Landroid/os/BinderProxy;"); gBinderProxyOffsets.mSendDeathNotice = GetStaticMethodIDOrDie(env, clazz, "sendDeathNotice", "(Landroid/os/IBinder$DeathRecipient;Landroid/os/IBinder;)V"); gBinderProxyOffsets.mNativeData = GetFieldIDOrDie(env, clazz, "mNativeData", "J"); clazz = FindClassOrDie(env, "java/lang/Class"); gClassOffsets.mGetName = GetMethodIDOrDie(env, clazz, "getName", "()Ljava/lang/String;"); return RegisterMethodsOrDie( env, kBinderProxyPathName, gBinderProxyMethods, NELEM(gBinderProxyMethods)); } // **************************************************************************** // **************************************************************************** // **************************************************************************** int register_android_os_Binder(JNIEnv* env) { if (int_register_android_os_Binder(env) < 0) return -1; if (int_register_android_os_BinderInternal(env) < 0) return -1; if (int_register_android_os_BinderProxy(env) < 0) return -1; jclass clazz = FindClassOrDie(env, "android/util/Log"); gLogOffsets.mClass = MakeGlobalRefOrDie(env, clazz); gLogOffsets.mLogE = GetStaticMethodIDOrDie(env, clazz, "e", "(Ljava/lang/String;Ljava/lang/String;Ljava/lang/Throwable;)I"); clazz = FindClassOrDie(env, "android/os/ParcelFileDescriptor"); gParcelFileDescriptorOffsets.mClass = MakeGlobalRefOrDie(env, clazz); gParcelFileDescriptorOffsets.mConstructor = GetMethodIDOrDie(env, clazz, "", "(Ljava/io/FileDescriptor;)V"); clazz = FindClassOrDie(env, "android/os/StrictMode"); gStrictModeCallbackOffsets.mClass = MakeGlobalRefOrDie(env, clazz); gStrictModeCallbackOffsets.mCallback = GetStaticMethodIDOrDie(env, clazz, "onBinderStrictModePolicyChange", "(I)V"); clazz = FindClassOrDie(env, "java/lang/Thread"); gThreadDispatchOffsets.mClass = MakeGlobalRefOrDie(env, clazz); gThreadDispatchOffsets.mDispatchUncaughtException = GetMethodIDOrDie(env, clazz, "dispatchUncaughtException", "(Ljava/lang/Throwable;)V"); gThreadDispatchOffsets.mCurrentThread = GetStaticMethodIDOrDie(env, clazz, "currentThread", "()Ljava/lang/Thread;"); return 0; }