// Copyright 2021 gRPC authors. // // 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 <grpc/support/port_platform.h> #include "src/core/ext/transport/binder/utils/ndk_binder.h" #ifndef GRPC_NO_BINDER #ifdef GPR_SUPPORT_BINDER_TRANSPORT #include <dlfcn.h> #include <grpc/support/log.h> #include "src/core/lib/gprpp/crash.h" #include "src/core/lib/gprpp/sync.h" namespace { void* GetNdkBinderHandle() { // TODO(mingcl): Consider using RTLD_NOLOAD to check if it is already loaded // first static void* handle = dlopen("libbinder_ndk.so", RTLD_LAZY); if (handle == nullptr) { gpr_log( GPR_ERROR, "Cannot open libbinder_ndk.so. Does this device support API level 29?"); GPR_ASSERT(0); } return handle; } JavaVM* g_jvm = nullptr; grpc_core::Mutex g_jvm_mu; // Whether the thread has already attached to JVM (this is to prevent // repeated attachment in `AttachJvm()`) thread_local bool g_is_jvm_attached = false; void SetJvm(JNIEnv* env) { // OK to lock here since this function will only be called once for each // connection. grpc_core::MutexLock lock(&g_jvm_mu); if (g_jvm != nullptr) { return; } JavaVM* jvm = nullptr; jint error = env->GetJavaVM(&jvm); if (error != JNI_OK) { gpr_log(GPR_ERROR, "Failed to get JVM"); } g_jvm = jvm; gpr_log(GPR_INFO, "JVM cached"); } // `SetJvm` need to be called in the process before `AttachJvm`. This is always // the case because one of `AIBinder_fromJavaBinder`/`AIBinder_toJavaBinder` // will be called before we actually uses the binder. Return `false` if not able // to attach to JVM. Return `true` if JVM is attached (or already attached). bool AttachJvm() { if (g_is_jvm_attached) { return true; } // Note: The following code would be run at most once per thread. grpc_core::MutexLock lock(&g_jvm_mu); if (g_jvm == nullptr) { gpr_log(GPR_ERROR, "JVM not cached yet"); return false; } JNIEnv* env_unused; // Note that attach a thread that is already attached is a no-op, so it is // fine to call this again if the thread has already been attached by other. g_jvm->AttachCurrentThread(&env_unused, /* thr_args= */ nullptr); gpr_log(GPR_INFO, "JVM attached successfully"); g_is_jvm_attached = true; return true; } } // namespace namespace grpc_binder { namespace ndk_util { // Helper macro to obtain the function pointer corresponding to the name #define FORWARD … void AIBinder_Class_disableInterfaceTokenHeader(AIBinder_Class* clazz) { FORWARD(AIBinder_Class_disableInterfaceTokenHeader)(clazz); } void* AIBinder_getUserData(AIBinder* binder) { FORWARD(AIBinder_getUserData)(binder); } uid_t AIBinder_getCallingUid() { FORWARD(AIBinder_getCallingUid)(); } AIBinder* AIBinder_fromJavaBinder(JNIEnv* env, jobject binder) { SetJvm(env); FORWARD(AIBinder_fromJavaBinder)(env, binder); } AIBinder_Class* AIBinder_Class_define(const char* interfaceDescriptor, AIBinder_Class_onCreate onCreate, AIBinder_Class_onDestroy onDestroy, AIBinder_Class_onTransact onTransact) { FORWARD(AIBinder_Class_define) (interfaceDescriptor, onCreate, onDestroy, onTransact); } AIBinder* AIBinder_new(const AIBinder_Class* clazz, void* args) { FORWARD(AIBinder_new)(clazz, args); } bool AIBinder_associateClass(AIBinder* binder, const AIBinder_Class* clazz) { FORWARD(AIBinder_associateClass)(binder, clazz); } void AIBinder_incStrong(AIBinder* binder) { FORWARD(AIBinder_incStrong)(binder); } void AIBinder_decStrong(AIBinder* binder) { FORWARD(AIBinder_decStrong)(binder); } binder_status_t AIBinder_transact(AIBinder* binder, transaction_code_t code, AParcel** in, AParcel** out, binder_flags_t flags) { if (!AttachJvm()) { gpr_log(GPR_ERROR, "failed to attach JVM. AIBinder_transact might fail."); } FORWARD(AIBinder_transact)(binder, code, in, out, flags); } binder_status_t AParcel_readByteArray(const AParcel* parcel, void* arrayData, AParcel_byteArrayAllocator allocator) { FORWARD(AParcel_readByteArray)(parcel, arrayData, allocator); } void AParcel_delete(AParcel* parcel) { FORWARD(AParcel_delete)(parcel); } int32_t AParcel_getDataSize(const AParcel* parcel) { FORWARD(AParcel_getDataSize)(parcel); } binder_status_t AParcel_writeInt32(AParcel* parcel, int32_t value) { FORWARD(AParcel_writeInt32)(parcel, value); } binder_status_t AParcel_writeInt64(AParcel* parcel, int64_t value) { FORWARD(AParcel_writeInt64)(parcel, value); } binder_status_t AParcel_writeStrongBinder(AParcel* parcel, AIBinder* binder) { FORWARD(AParcel_writeStrongBinder)(parcel, binder); } binder_status_t AParcel_writeString(AParcel* parcel, const char* string, int32_t length) { FORWARD(AParcel_writeString)(parcel, string, length); } binder_status_t AParcel_readInt32(const AParcel* parcel, int32_t* value) { FORWARD(AParcel_readInt32)(parcel, value); } binder_status_t AParcel_readInt64(const AParcel* parcel, int64_t* value) { FORWARD(AParcel_readInt64)(parcel, value); } binder_status_t AParcel_readString(const AParcel* parcel, void* stringData, AParcel_stringAllocator allocator) { FORWARD(AParcel_readString)(parcel, stringData, allocator); } binder_status_t AParcel_readStrongBinder(const AParcel* parcel, AIBinder** binder) { FORWARD(AParcel_readStrongBinder)(parcel, binder); } binder_status_t AParcel_writeByteArray(AParcel* parcel, const int8_t* arrayData, int32_t length) { FORWARD(AParcel_writeByteArray)(parcel, arrayData, length); } binder_status_t AIBinder_prepareTransaction(AIBinder* binder, AParcel** in) { FORWARD(AIBinder_prepareTransaction)(binder, in); } jobject AIBinder_toJavaBinder(JNIEnv* env, AIBinder* binder) { SetJvm(env); FORWARD(AIBinder_toJavaBinder)(env, binder); } } // namespace ndk_util } // namespace grpc_binder #endif #endif
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