/* * Copyright (C) 2011 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. */ #include "java_vm_ext.h" #include #include "android-base/stringprintf.h" #include "art_method-inl.h" #include "base/dumpable.h" #include "base/mutex-inl.h" #include "base/stl_util.h" #include "base/systrace.h" #include "check_jni.h" #include "dex_file-inl.h" #include "fault_handler.h" #include "gc_root-inl.h" #include "indirect_reference_table-inl.h" #include "jni_internal.h" #include "mirror/class-inl.h" #include "mirror/class_loader.h" #include "nativebridge/native_bridge.h" #include "nativehelper/ScopedLocalRef.h" #include "nativeloader/native_loader.h" #include "object_callbacks.h" #include "parsed_options.h" #include "runtime-inl.h" #include "runtime_options.h" #include "scoped_thread_state_change-inl.h" #include "sigchain.h" #include "thread-inl.h" #include "thread_list.h" #include "ti/agent.h" namespace art { using android::base::StringAppendF; using android::base::StringAppendV; static constexpr size_t kGlobalsMax = 51200; // Arbitrary sanity check. (Must fit in 16 bits.) static constexpr size_t kWeakGlobalsMax = 51200; // Arbitrary sanity check. (Must fit in 16 bits.) bool JavaVMExt::IsBadJniVersion(int version) { // We don't support JNI_VERSION_1_1. These are the only other valid versions. return version != JNI_VERSION_1_2 && version != JNI_VERSION_1_4 && version != JNI_VERSION_1_6; } class SharedLibrary { public: SharedLibrary(JNIEnv* env, Thread* self, const std::string& path, void* handle, bool needs_native_bridge, jobject class_loader, void* class_loader_allocator) : path_(path), handle_(handle), needs_native_bridge_(needs_native_bridge), class_loader_(env->NewWeakGlobalRef(class_loader)), class_loader_allocator_(class_loader_allocator), jni_on_load_lock_("JNI_OnLoad lock"), jni_on_load_cond_("JNI_OnLoad condition variable", jni_on_load_lock_), jni_on_load_thread_id_(self->GetThreadId()), jni_on_load_result_(kPending) { CHECK(class_loader_allocator_ != nullptr); } ~SharedLibrary() { Thread* self = Thread::Current(); if (self != nullptr) { self->GetJniEnv()->DeleteWeakGlobalRef(class_loader_); } android::CloseNativeLibrary(handle_, needs_native_bridge_); } jweak GetClassLoader() const { return class_loader_; } const void* GetClassLoaderAllocator() const { return class_loader_allocator_; } const std::string& GetPath() const { return path_; } /* * Check the result of an earlier call to JNI_OnLoad on this library. * If the call has not yet finished in another thread, wait for it. */ bool CheckOnLoadResult() REQUIRES(!jni_on_load_lock_) { Thread* self = Thread::Current(); bool okay; { MutexLock mu(self, jni_on_load_lock_); if (jni_on_load_thread_id_ == self->GetThreadId()) { // Check this so we don't end up waiting for ourselves. We need to return "true" so the // caller can continue. LOG(INFO) << *self << " recursive attempt to load library " << "\"" << path_ << "\""; okay = true; } else { while (jni_on_load_result_ == kPending) { VLOG(jni) << "[" << *self << " waiting for \"" << path_ << "\" " << "JNI_OnLoad...]"; jni_on_load_cond_.Wait(self); } okay = (jni_on_load_result_ == kOkay); VLOG(jni) << "[Earlier JNI_OnLoad for \"" << path_ << "\" " << (okay ? "succeeded" : "failed") << "]"; } } return okay; } void SetResult(bool result) REQUIRES(!jni_on_load_lock_) { Thread* self = Thread::Current(); MutexLock mu(self, jni_on_load_lock_); jni_on_load_result_ = result ? kOkay : kFailed; jni_on_load_thread_id_ = 0; // Broadcast a wakeup to anybody sleeping on the condition variable. jni_on_load_cond_.Broadcast(self); } void SetNeedsNativeBridge(bool needs) { needs_native_bridge_ = needs; } bool NeedsNativeBridge() const { return needs_native_bridge_; } // No mutator lock since dlsym may block for a while if another thread is doing dlopen. void* FindSymbol(const std::string& symbol_name, const char* shorty = nullptr) REQUIRES(!Locks::mutator_lock_) { return NeedsNativeBridge() ? FindSymbolWithNativeBridge(symbol_name.c_str(), shorty) : FindSymbolWithoutNativeBridge(symbol_name.c_str()); } // No mutator lock since dlsym may block for a while if another thread is doing dlopen. void* FindSymbolWithoutNativeBridge(const std::string& symbol_name) REQUIRES(!Locks::mutator_lock_) { CHECK(!NeedsNativeBridge()); return dlsym(handle_, symbol_name.c_str()); } void* FindSymbolWithNativeBridge(const std::string& symbol_name, const char* shorty) REQUIRES(!Locks::mutator_lock_) { CHECK(NeedsNativeBridge()); uint32_t len = 0; return android::NativeBridgeGetTrampoline(handle_, symbol_name.c_str(), shorty, len); } private: enum JNI_OnLoadState { kPending, kFailed, kOkay, }; // Path to library "/system/lib/libjni.so". const std::string path_; // The void* returned by dlopen(3). void* const handle_; // True if a native bridge is required. bool needs_native_bridge_; // The ClassLoader this library is associated with, a weak global JNI reference that is // created/deleted with the scope of the library. const jweak class_loader_; // Used to do equality check on class loaders so we can avoid decoding the weak root and read // barriers that mess with class unloading. const void* class_loader_allocator_; // Guards remaining items. Mutex jni_on_load_lock_ DEFAULT_MUTEX_ACQUIRED_AFTER; // Wait for JNI_OnLoad in other thread. ConditionVariable jni_on_load_cond_ GUARDED_BY(jni_on_load_lock_); // Recursive invocation guard. uint32_t jni_on_load_thread_id_ GUARDED_BY(jni_on_load_lock_); // Result of earlier JNI_OnLoad call. JNI_OnLoadState jni_on_load_result_ GUARDED_BY(jni_on_load_lock_); }; // This exists mainly to keep implementation details out of the header file. class Libraries { public: Libraries() { } ~Libraries() { STLDeleteValues(&libraries_); } // NO_THREAD_SAFETY_ANALYSIS since this may be called from Dumpable. Dumpable can't be annotated // properly due to the template. The caller should be holding the jni_libraries_lock_. void Dump(std::ostream& os) const NO_THREAD_SAFETY_ANALYSIS { Locks::jni_libraries_lock_->AssertHeld(Thread::Current()); bool first = true; for (const auto& library : libraries_) { if (!first) { os << ' '; } first = false; os << library.first; } } size_t size() const REQUIRES(Locks::jni_libraries_lock_) { return libraries_.size(); } SharedLibrary* Get(const std::string& path) REQUIRES(Locks::jni_libraries_lock_) { auto it = libraries_.find(path); return (it == libraries_.end()) ? nullptr : it->second; } void Put(const std::string& path, SharedLibrary* library) REQUIRES(Locks::jni_libraries_lock_) { libraries_.Put(path, library); } // See section 11.3 "Linking Native Methods" of the JNI spec. void* FindNativeMethod(Thread* self, ArtMethod* m, std::string& detail) REQUIRES(!Locks::jni_libraries_lock_) REQUIRES_SHARED(Locks::mutator_lock_) { std::string jni_short_name(m->JniShortName()); std::string jni_long_name(m->JniLongName()); mirror::ClassLoader* const declaring_class_loader = m->GetDeclaringClass()->GetClassLoader(); ScopedObjectAccessUnchecked soa(Thread::Current()); void* const declaring_class_loader_allocator = Runtime::Current()->GetClassLinker()->GetAllocatorForClassLoader(declaring_class_loader); CHECK(declaring_class_loader_allocator != nullptr); // TODO: Avoid calling GetShorty here to prevent dirtying dex pages? const char* shorty = m->GetShorty(); { // Go to suspended since dlsym may block for a long time if other threads are using dlopen. ScopedThreadSuspension sts(self, kNative); void* native_code = FindNativeMethodInternal(self, declaring_class_loader_allocator, shorty, jni_short_name, jni_long_name); if (native_code != nullptr) { return native_code; } } detail += "No implementation found for "; detail += m->PrettyMethod(); detail += " (tried " + jni_short_name + " and " + jni_long_name + ")"; return nullptr; } void* FindNativeMethodInternal(Thread* self, void* declaring_class_loader_allocator, const char* shorty, const std::string& jni_short_name, const std::string& jni_long_name) REQUIRES(!Locks::jni_libraries_lock_) REQUIRES(!Locks::mutator_lock_) { MutexLock mu(self, *Locks::jni_libraries_lock_); for (const auto& lib : libraries_) { SharedLibrary* const library = lib.second; // Use the allocator address for class loader equality to avoid unnecessary weak root decode. if (library->GetClassLoaderAllocator() != declaring_class_loader_allocator) { // We only search libraries loaded by the appropriate ClassLoader. continue; } // Try the short name then the long name... const char* arg_shorty = library->NeedsNativeBridge() ? shorty : nullptr; void* fn = library->FindSymbol(jni_short_name, arg_shorty); if (fn == nullptr) { fn = library->FindSymbol(jni_long_name, arg_shorty); } if (fn != nullptr) { VLOG(jni) << "[Found native code for " << jni_long_name << " in \"" << library->GetPath() << "\"]"; return fn; } } return nullptr; } // Unload native libraries with cleared class loaders. void UnloadNativeLibraries() REQUIRES(!Locks::jni_libraries_lock_) REQUIRES_SHARED(Locks::mutator_lock_) { Thread* const self = Thread::Current(); std::vector unload_libraries; { MutexLock mu(self, *Locks::jni_libraries_lock_); for (auto it = libraries_.begin(); it != libraries_.end(); ) { SharedLibrary* const library = it->second; // If class loader is null then it was unloaded, call JNI_OnUnload. const jweak class_loader = library->GetClassLoader(); // If class_loader is a null jobject then it is the boot class loader. We should not unload // the native libraries of the boot class loader. if (class_loader != nullptr && self->IsJWeakCleared(class_loader)) { unload_libraries.push_back(library); it = libraries_.erase(it); } else { ++it; } } } ScopedThreadSuspension sts(self, kNative); // Do this without holding the jni libraries lock to prevent possible deadlocks. typedef void (*JNI_OnUnloadFn)(JavaVM*, void*); for (auto library : unload_libraries) { void* const sym = library->FindSymbol("JNI_OnUnload", nullptr); if (sym == nullptr) { VLOG(jni) << "[No JNI_OnUnload found in \"" << library->GetPath() << "\"]"; } else { VLOG(jni) << "[JNI_OnUnload found for \"" << library->GetPath() << "\"]: Calling..."; JNI_OnUnloadFn jni_on_unload = reinterpret_cast(sym); jni_on_unload(self->GetJniEnv()->vm, nullptr); } delete library; } } private: AllocationTrackingSafeMap libraries_ GUARDED_BY(Locks::jni_libraries_lock_); }; class JII { public: static jint DestroyJavaVM(JavaVM* vm) { if (vm == nullptr) { return JNI_ERR; } JavaVMExt* raw_vm = reinterpret_cast(vm); delete raw_vm->GetRuntime(); android::ResetNativeLoader(); return JNI_OK; } static jint AttachCurrentThread(JavaVM* vm, JNIEnv** p_env, void* thr_args) { return AttachCurrentThreadInternal(vm, p_env, thr_args, false); } static jint AttachCurrentThreadAsDaemon(JavaVM* vm, JNIEnv** p_env, void* thr_args) { return AttachCurrentThreadInternal(vm, p_env, thr_args, true); } static jint DetachCurrentThread(JavaVM* vm) { if (vm == nullptr || Thread::Current() == nullptr) { return JNI_ERR; } JavaVMExt* raw_vm = reinterpret_cast(vm); Runtime* runtime = raw_vm->GetRuntime(); runtime->DetachCurrentThread(); return JNI_OK; } static jint GetEnv(JavaVM* vm, void** env, jint version) { if (vm == nullptr || env == nullptr) { return JNI_ERR; } Thread* thread = Thread::Current(); if (thread == nullptr) { *env = nullptr; return JNI_EDETACHED; } JavaVMExt* raw_vm = reinterpret_cast(vm); return raw_vm->HandleGetEnv(env, version); } private: static jint AttachCurrentThreadInternal(JavaVM* vm, JNIEnv** p_env, void* raw_args, bool as_daemon) { if (vm == nullptr || p_env == nullptr) { return JNI_ERR; } // Return immediately if we're already attached. Thread* self = Thread::Current(); if (self != nullptr) { *p_env = self->GetJniEnv(); return JNI_OK; } Runtime* runtime = reinterpret_cast(vm)->GetRuntime(); // No threads allowed in zygote mode. if (runtime->IsZygote()) { LOG(ERROR) << "Attempt to attach a thread in the zygote"; return JNI_ERR; } JavaVMAttachArgs* args = static_cast(raw_args); const char* thread_name = nullptr; jobject thread_group = nullptr; if (args != nullptr) { if (JavaVMExt::IsBadJniVersion(args->version)) { LOG(ERROR) << "Bad JNI version passed to " << (as_daemon ? "AttachCurrentThreadAsDaemon" : "AttachCurrentThread") << ": " << args->version; return JNI_EVERSION; } thread_name = args->name; thread_group = args->group; } if (!runtime->AttachCurrentThread(thread_name, as_daemon, thread_group, !runtime->IsAotCompiler())) { *p_env = nullptr; return JNI_ERR; } else { *p_env = Thread::Current()->GetJniEnv(); return JNI_OK; } } }; const JNIInvokeInterface gJniInvokeInterface = { nullptr, // reserved0 nullptr, // reserved1 nullptr, // reserved2 JII::DestroyJavaVM, JII::AttachCurrentThread, JII::DetachCurrentThread, JII::GetEnv, JII::AttachCurrentThreadAsDaemon }; JavaVMExt::JavaVMExt(Runtime* runtime, const RuntimeArgumentMap& runtime_options, std::string* error_msg) : runtime_(runtime), check_jni_abort_hook_(nullptr), check_jni_abort_hook_data_(nullptr), check_jni_(false), // Initialized properly in the constructor body below. force_copy_(runtime_options.Exists(RuntimeArgumentMap::JniOptsForceCopy)), tracing_enabled_(runtime_options.Exists(RuntimeArgumentMap::JniTrace) || VLOG_IS_ON(third_party_jni)), trace_(runtime_options.GetOrDefault(RuntimeArgumentMap::JniTrace)), globals_(kGlobalsMax, kGlobal, IndirectReferenceTable::ResizableCapacity::kNo, error_msg), libraries_(new Libraries), unchecked_functions_(&gJniInvokeInterface), weak_globals_(kWeakGlobalsMax, kWeakGlobal, IndirectReferenceTable::ResizableCapacity::kNo, error_msg), allow_accessing_weak_globals_(true), weak_globals_add_condition_("weak globals add condition", (CHECK(Locks::jni_weak_globals_lock_ != nullptr), *Locks::jni_weak_globals_lock_)), env_hooks_() { functions = unchecked_functions_; SetCheckJniEnabled(runtime_options.Exists(RuntimeArgumentMap::CheckJni)); } JavaVMExt::~JavaVMExt() { } // Checking "globals" and "weak_globals" usually requires locks, but we // don't need the locks to check for validity when constructing the // object. Use NO_THREAD_SAFETY_ANALYSIS for this. std::unique_ptr JavaVMExt::Create(Runtime* runtime, const RuntimeArgumentMap& runtime_options, std::string* error_msg) NO_THREAD_SAFETY_ANALYSIS { std::unique_ptr java_vm(new JavaVMExt(runtime, runtime_options, error_msg)); if (java_vm && java_vm->globals_.IsValid() && java_vm->weak_globals_.IsValid()) { return java_vm; } return nullptr; } jint JavaVMExt::HandleGetEnv(/*out*/void** env, jint version) { for (GetEnvHook hook : env_hooks_) { jint res = hook(this, env, version); if (res == JNI_OK) { return JNI_OK; } else if (res != JNI_EVERSION) { LOG(ERROR) << "Error returned from a plugin GetEnv handler! " << res; return res; } } LOG(ERROR) << "Bad JNI version passed to GetEnv: " << version; return JNI_EVERSION; } // Add a hook to handle getting environments from the GetEnv call. void JavaVMExt::AddEnvironmentHook(GetEnvHook hook) { CHECK(hook != nullptr) << "environment hooks shouldn't be null!"; env_hooks_.push_back(hook); } void JavaVMExt::JniAbort(const char* jni_function_name, const char* msg) { Thread* self = Thread::Current(); ScopedObjectAccess soa(self); ArtMethod* current_method = self->GetCurrentMethod(nullptr); std::ostringstream os; os << "JNI DETECTED ERROR IN APPLICATION: " << msg; if (jni_function_name != nullptr) { os << "\n in call to " << jni_function_name; } // TODO: is this useful given that we're about to dump the calling thread's stack? if (current_method != nullptr) { os << "\n from " << current_method->PrettyMethod(); } os << "\n"; self->Dump(os); if (check_jni_abort_hook_ != nullptr) { check_jni_abort_hook_(check_jni_abort_hook_data_, os.str()); } else { // Ensure that we get a native stack trace for this thread. ScopedThreadSuspension sts(self, kNative); LOG(FATAL) << os.str(); UNREACHABLE(); } } void JavaVMExt::JniAbortV(const char* jni_function_name, const char* fmt, va_list ap) { std::string msg; StringAppendV(&msg, fmt, ap); JniAbort(jni_function_name, msg.c_str()); } void JavaVMExt::JniAbortF(const char* jni_function_name, const char* fmt, ...) { va_list args; va_start(args, fmt); JniAbortV(jni_function_name, fmt, args); va_end(args); } bool JavaVMExt::ShouldTrace(ArtMethod* method) { // Fast where no tracing is enabled. if (trace_.empty() && !VLOG_IS_ON(third_party_jni)) { return false; } // Perform checks based on class name. StringPiece class_name(method->GetDeclaringClassDescriptor()); if (!trace_.empty() && class_name.find(trace_) != std::string::npos) { return true; } if (!VLOG_IS_ON(third_party_jni)) { return false; } // Return true if we're trying to log all third-party JNI activity and 'method' doesn't look // like part of Android. static const char* gBuiltInPrefixes[] = { "Landroid/", "Lcom/android/", "Lcom/google/android/", "Ldalvik/", "Ljava/", "Ljavax/", "Llibcore/", "Lorg/apache/harmony/", }; for (size_t i = 0; i < arraysize(gBuiltInPrefixes); ++i) { if (class_name.starts_with(gBuiltInPrefixes[i])) { return false; } } return true; } jobject JavaVMExt::AddGlobalRef(Thread* self, ObjPtr obj) { // Check for null after decoding the object to handle cleared weak globals. if (obj == nullptr) { return nullptr; } WriterMutexLock mu(self, *Locks::jni_globals_lock_); IndirectRef ref = globals_.Add(kIRTFirstSegment, obj); return reinterpret_cast(ref); } jweak JavaVMExt::AddWeakGlobalRef(Thread* self, ObjPtr obj) { if (obj == nullptr) { return nullptr; } MutexLock mu(self, *Locks::jni_weak_globals_lock_); // CMS needs this to block for concurrent reference processing because an object allocated during // the GC won't be marked and concurrent reference processing would incorrectly clear the JNI weak // ref. But CC (kUseReadBarrier == true) doesn't because of the to-space invariant. while (!kUseReadBarrier && UNLIKELY(!MayAccessWeakGlobals(self))) { // Check and run the empty checkpoint before blocking so the empty checkpoint will work in the // presence of threads blocking for weak ref access. self->CheckEmptyCheckpointFromWeakRefAccess(Locks::jni_weak_globals_lock_); weak_globals_add_condition_.WaitHoldingLocks(self); } IndirectRef ref = weak_globals_.Add(kIRTFirstSegment, obj); return reinterpret_cast(ref); } void JavaVMExt::DeleteGlobalRef(Thread* self, jobject obj) { if (obj == nullptr) { return; } WriterMutexLock mu(self, *Locks::jni_globals_lock_); if (!globals_.Remove(kIRTFirstSegment, obj)) { LOG(WARNING) << "JNI WARNING: DeleteGlobalRef(" << obj << ") " << "failed to find entry"; } } void JavaVMExt::DeleteWeakGlobalRef(Thread* self, jweak obj) { if (obj == nullptr) { return; } MutexLock mu(self, *Locks::jni_weak_globals_lock_); if (!weak_globals_.Remove(kIRTFirstSegment, obj)) { LOG(WARNING) << "JNI WARNING: DeleteWeakGlobalRef(" << obj << ") " << "failed to find entry"; } } static void ThreadEnableCheckJni(Thread* thread, void* arg) { bool* check_jni = reinterpret_cast(arg); thread->GetJniEnv()->SetCheckJniEnabled(*check_jni); } bool JavaVMExt::SetCheckJniEnabled(bool enabled) { bool old_check_jni = check_jni_; check_jni_ = enabled; functions = enabled ? GetCheckJniInvokeInterface() : unchecked_functions_; MutexLock mu(Thread::Current(), *Locks::thread_list_lock_); runtime_->GetThreadList()->ForEach(ThreadEnableCheckJni, &check_jni_); return old_check_jni; } void JavaVMExt::DumpForSigQuit(std::ostream& os) { os << "JNI: CheckJNI is " << (check_jni_ ? "on" : "off"); if (force_copy_) { os << " (with forcecopy)"; } Thread* self = Thread::Current(); { ReaderMutexLock mu(self, *Locks::jni_globals_lock_); os << "; globals=" << globals_.Capacity(); } { MutexLock mu(self, *Locks::jni_weak_globals_lock_); if (weak_globals_.Capacity() > 0) { os << " (plus " << weak_globals_.Capacity() << " weak)"; } } os << '\n'; { MutexLock mu(self, *Locks::jni_libraries_lock_); os << "Libraries: " << Dumpable(*libraries_) << " (" << libraries_->size() << ")\n"; } } void JavaVMExt::DisallowNewWeakGlobals() { CHECK(!kUseReadBarrier); Thread* const self = Thread::Current(); MutexLock mu(self, *Locks::jni_weak_globals_lock_); // DisallowNewWeakGlobals is only called by CMS during the pause. It is required to have the // mutator lock exclusively held so that we don't have any threads in the middle of // DecodeWeakGlobal. Locks::mutator_lock_->AssertExclusiveHeld(self); allow_accessing_weak_globals_.StoreSequentiallyConsistent(false); } void JavaVMExt::AllowNewWeakGlobals() { CHECK(!kUseReadBarrier); Thread* self = Thread::Current(); MutexLock mu(self, *Locks::jni_weak_globals_lock_); allow_accessing_weak_globals_.StoreSequentiallyConsistent(true); weak_globals_add_condition_.Broadcast(self); } void JavaVMExt::BroadcastForNewWeakGlobals() { Thread* self = Thread::Current(); MutexLock mu(self, *Locks::jni_weak_globals_lock_); weak_globals_add_condition_.Broadcast(self); } ObjPtr JavaVMExt::DecodeGlobal(IndirectRef ref) { return globals_.SynchronizedGet(ref); } void JavaVMExt::UpdateGlobal(Thread* self, IndirectRef ref, ObjPtr result) { WriterMutexLock mu(self, *Locks::jni_globals_lock_); globals_.Update(ref, result); } inline bool JavaVMExt::MayAccessWeakGlobals(Thread* self) const { return MayAccessWeakGlobalsUnlocked(self); } inline bool JavaVMExt::MayAccessWeakGlobalsUnlocked(Thread* self) const { DCHECK(self != nullptr); return kUseReadBarrier ? self->GetWeakRefAccessEnabled() : allow_accessing_weak_globals_.LoadSequentiallyConsistent(); } ObjPtr JavaVMExt::DecodeWeakGlobal(Thread* self, IndirectRef ref) { // It is safe to access GetWeakRefAccessEnabled without the lock since CC uses checkpoints to call // SetWeakRefAccessEnabled, and the other collectors only modify allow_accessing_weak_globals_ // when the mutators are paused. // This only applies in the case where MayAccessWeakGlobals goes from false to true. In the other // case, it may be racy, this is benign since DecodeWeakGlobalLocked does the correct behavior // if MayAccessWeakGlobals is false. DCHECK_EQ(IndirectReferenceTable::GetIndirectRefKind(ref), kWeakGlobal); if (LIKELY(MayAccessWeakGlobalsUnlocked(self))) { return weak_globals_.SynchronizedGet(ref); } MutexLock mu(self, *Locks::jni_weak_globals_lock_); return DecodeWeakGlobalLocked(self, ref); } ObjPtr JavaVMExt::DecodeWeakGlobalLocked(Thread* self, IndirectRef ref) { if (kDebugLocking) { Locks::jni_weak_globals_lock_->AssertHeld(self); } while (UNLIKELY(!MayAccessWeakGlobals(self))) { // Check and run the empty checkpoint before blocking so the empty checkpoint will work in the // presence of threads blocking for weak ref access. self->CheckEmptyCheckpointFromWeakRefAccess(Locks::jni_weak_globals_lock_); weak_globals_add_condition_.WaitHoldingLocks(self); } return weak_globals_.Get(ref); } ObjPtr JavaVMExt::DecodeWeakGlobalDuringShutdown(Thread* self, IndirectRef ref) { DCHECK_EQ(IndirectReferenceTable::GetIndirectRefKind(ref), kWeakGlobal); DCHECK(Runtime::Current()->IsShuttingDown(self)); if (self != nullptr) { return DecodeWeakGlobal(self, ref); } // self can be null during a runtime shutdown. ~Runtime()->~ClassLinker()->DecodeWeakGlobal(). if (!kUseReadBarrier) { DCHECK(allow_accessing_weak_globals_.LoadSequentiallyConsistent()); } return weak_globals_.SynchronizedGet(ref); } bool JavaVMExt::IsWeakGlobalCleared(Thread* self, IndirectRef ref) { DCHECK_EQ(IndirectReferenceTable::GetIndirectRefKind(ref), kWeakGlobal); MutexLock mu(self, *Locks::jni_weak_globals_lock_); while (UNLIKELY(!MayAccessWeakGlobals(self))) { // Check and run the empty checkpoint before blocking so the empty checkpoint will work in the // presence of threads blocking for weak ref access. self->CheckEmptyCheckpointFromWeakRefAccess(Locks::jni_weak_globals_lock_); weak_globals_add_condition_.WaitHoldingLocks(self); } // When just checking a weak ref has been cleared, avoid triggering the read barrier in decode // (DecodeWeakGlobal) so that we won't accidentally mark the object alive. Since the cleared // sentinel is a non-moving object, we can compare the ref to it without the read barrier and // decide if it's cleared. return Runtime::Current()->IsClearedJniWeakGlobal(weak_globals_.Get(ref)); } void JavaVMExt::UpdateWeakGlobal(Thread* self, IndirectRef ref, ObjPtr result) { MutexLock mu(self, *Locks::jni_weak_globals_lock_); weak_globals_.Update(ref, result); } void JavaVMExt::DumpReferenceTables(std::ostream& os) { Thread* self = Thread::Current(); { ReaderMutexLock mu(self, *Locks::jni_globals_lock_); globals_.Dump(os); } { MutexLock mu(self, *Locks::jni_weak_globals_lock_); weak_globals_.Dump(os); } } void JavaVMExt::UnloadNativeLibraries() { libraries_.get()->UnloadNativeLibraries(); } bool JavaVMExt::LoadNativeLibrary(JNIEnv* env, const std::string& path, jobject class_loader, jstring library_path, std::string* error_msg) { error_msg->clear(); // See if we've already loaded this library. If we have, and the class loader // matches, return successfully without doing anything. // TODO: for better results we should canonicalize the pathname (or even compare // inodes). This implementation is fine if everybody is using System.loadLibrary. SharedLibrary* library; Thread* self = Thread::Current(); { // TODO: move the locking (and more of this logic) into Libraries. MutexLock mu(self, *Locks::jni_libraries_lock_); library = libraries_->Get(path); } void* class_loader_allocator = nullptr; { ScopedObjectAccess soa(env); // As the incoming class loader is reachable/alive during the call of this function, // it's okay to decode it without worrying about unexpectedly marking it alive. ObjPtr loader = soa.Decode(class_loader); ClassLinker* class_linker = Runtime::Current()->GetClassLinker(); if (class_linker->IsBootClassLoader(soa, loader.Ptr())) { loader = nullptr; class_loader = nullptr; } class_loader_allocator = class_linker->GetAllocatorForClassLoader(loader.Ptr()); CHECK(class_loader_allocator != nullptr); } if (library != nullptr) { // Use the allocator pointers for class loader equality to avoid unnecessary weak root decode. if (library->GetClassLoaderAllocator() != class_loader_allocator) { // The library will be associated with class_loader. The JNI // spec says we can't load the same library into more than one // class loader. StringAppendF(error_msg, "Shared library \"%s\" already opened by " "ClassLoader %p; can't open in ClassLoader %p", path.c_str(), library->GetClassLoader(), class_loader); LOG(WARNING) << error_msg; return false; } VLOG(jni) << "[Shared library \"" << path << "\" already loaded in " << " ClassLoader " << class_loader << "]"; if (!library->CheckOnLoadResult()) { StringAppendF(error_msg, "JNI_OnLoad failed on a previous attempt " "to load \"%s\"", path.c_str()); return false; } return true; } // Open the shared library. Because we're using a full path, the system // doesn't have to search through LD_LIBRARY_PATH. (It may do so to // resolve this library's dependencies though.) // Failures here are expected when java.library.path has several entries // and we have to hunt for the lib. // Below we dlopen but there is no paired dlclose, this would be necessary if we supported // class unloading. Libraries will only be unloaded when the reference count (incremented by // dlopen) becomes zero from dlclose. Locks::mutator_lock_->AssertNotHeld(self); const char* path_str = path.empty() ? nullptr : path.c_str(); bool needs_native_bridge = false; void* handle = android::OpenNativeLibrary(env, runtime_->GetTargetSdkVersion(), path_str, class_loader, library_path, &needs_native_bridge, error_msg); VLOG(jni) << "[Call to dlopen(\"" << path << "\", RTLD_NOW) returned " << handle << "]"; if (handle == nullptr) { VLOG(jni) << "dlopen(\"" << path << "\", RTLD_NOW) failed: " << *error_msg; return false; } if (env->ExceptionCheck() == JNI_TRUE) { LOG(ERROR) << "Unexpected exception:"; env->ExceptionDescribe(); env->ExceptionClear(); } // Create a new entry. // TODO: move the locking (and more of this logic) into Libraries. bool created_library = false; { // Create SharedLibrary ahead of taking the libraries lock to maintain lock ordering. std::unique_ptr new_library( new SharedLibrary(env, self, path, handle, needs_native_bridge, class_loader, class_loader_allocator)); MutexLock mu(self, *Locks::jni_libraries_lock_); library = libraries_->Get(path); if (library == nullptr) { // We won race to get libraries_lock. library = new_library.release(); libraries_->Put(path, library); created_library = true; } } if (!created_library) { LOG(INFO) << "WOW: we lost a race to add shared library: " << "\"" << path << "\" ClassLoader=" << class_loader; return library->CheckOnLoadResult(); } VLOG(jni) << "[Added shared library \"" << path << "\" for ClassLoader " << class_loader << "]"; bool was_successful = false; void* sym = library->FindSymbol("JNI_OnLoad", nullptr); if (sym == nullptr) { VLOG(jni) << "[No JNI_OnLoad found in \"" << path << "\"]"; was_successful = true; } else { // Call JNI_OnLoad. We have to override the current class // loader, which will always be "null" since the stuff at the // top of the stack is around Runtime.loadLibrary(). (See // the comments in the JNI FindClass function.) ScopedLocalRef old_class_loader(env, env->NewLocalRef(self->GetClassLoaderOverride())); self->SetClassLoaderOverride(class_loader); VLOG(jni) << "[Calling JNI_OnLoad in \"" << path << "\"]"; typedef int (*JNI_OnLoadFn)(JavaVM*, void*); JNI_OnLoadFn jni_on_load = reinterpret_cast(sym); int version = (*jni_on_load)(this, nullptr); if (runtime_->GetTargetSdkVersion() != 0 && runtime_->GetTargetSdkVersion() <= 21) { // Make sure that sigchain owns SIGSEGV. EnsureFrontOfChain(SIGSEGV); } self->SetClassLoaderOverride(old_class_loader.get()); if (version == JNI_ERR) { StringAppendF(error_msg, "JNI_ERR returned from JNI_OnLoad in \"%s\"", path.c_str()); } else if (JavaVMExt::IsBadJniVersion(version)) { StringAppendF(error_msg, "Bad JNI version returned from JNI_OnLoad in \"%s\": %d", path.c_str(), version); // It's unwise to call dlclose() here, but we can mark it // as bad and ensure that future load attempts will fail. // We don't know how far JNI_OnLoad got, so there could // be some partially-initialized stuff accessible through // newly-registered native method calls. We could try to // unregister them, but that doesn't seem worthwhile. } else { was_successful = true; } VLOG(jni) << "[Returned " << (was_successful ? "successfully" : "failure") << " from JNI_OnLoad in \"" << path << "\"]"; } library->SetResult(was_successful); return was_successful; } static void* FindCodeForNativeMethodInAgents(ArtMethod* m) REQUIRES_SHARED(Locks::mutator_lock_) { std::string jni_short_name(m->JniShortName()); std::string jni_long_name(m->JniLongName()); for (const ti::Agent& agent : Runtime::Current()->GetAgents()) { void* fn = agent.FindSymbol(jni_short_name); if (fn != nullptr) { VLOG(jni) << "Found implementation for " << m->PrettyMethod() << " (symbol: " << jni_short_name << ") in " << agent; return fn; } fn = agent.FindSymbol(jni_long_name); if (fn != nullptr) { VLOG(jni) << "Found implementation for " << m->PrettyMethod() << " (symbol: " << jni_long_name << ") in " << agent; return fn; } } return nullptr; } void* JavaVMExt::FindCodeForNativeMethod(ArtMethod* m) { CHECK(m->IsNative()); mirror::Class* c = m->GetDeclaringClass(); // If this is a static method, it could be called before the class has been initialized. CHECK(c->IsInitializing()) << c->GetStatus() << " " << m->PrettyMethod(); std::string detail; Thread* const self = Thread::Current(); void* native_method = libraries_->FindNativeMethod(self, m, detail); if (native_method == nullptr) { // Lookup JNI native methods from native TI Agent libraries. See runtime/ti/agent.h for more // information. Agent libraries are searched for native methods after all jni libraries. native_method = FindCodeForNativeMethodInAgents(m); } // Throwing can cause libraries_lock to be reacquired. if (native_method == nullptr) { LOG(ERROR) << detail; self->ThrowNewException("Ljava/lang/UnsatisfiedLinkError;", detail.c_str()); } return native_method; } void JavaVMExt::SweepJniWeakGlobals(IsMarkedVisitor* visitor) { MutexLock mu(Thread::Current(), *Locks::jni_weak_globals_lock_); Runtime* const runtime = Runtime::Current(); for (auto* entry : weak_globals_) { // Need to skip null here to distinguish between null entries and cleared weak ref entries. if (!entry->IsNull()) { // Since this is called by the GC, we don't need a read barrier. mirror::Object* obj = entry->Read(); mirror::Object* new_obj = visitor->IsMarked(obj); if (new_obj == nullptr) { new_obj = runtime->GetClearedJniWeakGlobal(); } *entry = GcRoot(new_obj); } } } void JavaVMExt::TrimGlobals() { WriterMutexLock mu(Thread::Current(), *Locks::jni_globals_lock_); globals_.Trim(); } void JavaVMExt::VisitRoots(RootVisitor* visitor) { Thread* self = Thread::Current(); ReaderMutexLock mu(self, *Locks::jni_globals_lock_); globals_.VisitRoots(visitor, RootInfo(kRootJNIGlobal)); // The weak_globals table is visited by the GC itself (because it mutates the table). } // JNI Invocation interface. extern "C" jint JNI_CreateJavaVM(JavaVM** p_vm, JNIEnv** p_env, void* vm_args) { ScopedTrace trace(__FUNCTION__); const JavaVMInitArgs* args = static_cast(vm_args); if (JavaVMExt::IsBadJniVersion(args->version)) { LOG(ERROR) << "Bad JNI version passed to CreateJavaVM: " << args->version; return JNI_EVERSION; } RuntimeOptions options; for (int i = 0; i < args->nOptions; ++i) { JavaVMOption* option = &args->options[i]; options.push_back(std::make_pair(std::string(option->optionString), option->extraInfo)); } bool ignore_unrecognized = args->ignoreUnrecognized; if (!Runtime::Create(options, ignore_unrecognized)) { return JNI_ERR; } // Initialize native loader. This step makes sure we have // everything set up before we start using JNI. android::InitializeNativeLoader(); Runtime* runtime = Runtime::Current(); bool started = runtime->Start(); if (!started) { delete Thread::Current()->GetJniEnv(); delete runtime->GetJavaVM(); LOG(WARNING) << "CreateJavaVM failed"; return JNI_ERR; } *p_env = Thread::Current()->GetJniEnv(); *p_vm = runtime->GetJavaVM(); return JNI_OK; } extern "C" jint JNI_GetCreatedJavaVMs(JavaVM** vms_buf, jsize buf_len, jsize* vm_count) { Runtime* runtime = Runtime::Current(); if (runtime == nullptr || buf_len == 0) { *vm_count = 0; } else { *vm_count = 1; vms_buf[0] = runtime->GetJavaVM(); } return JNI_OK; } // Historically unsupported. extern "C" jint JNI_GetDefaultJavaVMInitArgs(void* /*vm_args*/) { return JNI_ERR; } } // namespace art