/* * Copyright (C) 2015 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "android/aidl/tests/BackendType.h" #include "android/aidl/tests/BnTestService.h" #include "android/aidl/tests/ITestService.h" #include "android/aidl/tests/BnNamedCallback.h" #include "android/aidl/tests/INamedCallback.h" #include "android/aidl/versioned/tests/BnFooInterface.h" #include "android/aidl/versioned/tests/IFooInterface.h" #include "android/aidl/tests/BnNewName.h" #include "android/aidl/tests/BnOldName.h" #include "android/aidl/tests/BnCppJavaTests.h" #include "android/aidl/tests/ICppJavaTests.h" #include "android/aidl/tests/Union.h" #include "android/aidl/tests/extension/MyExt.h" #include "android/aidl/tests/extension/MyExt2.h" #include "android/aidl/loggable/BnLoggableInterface.h" #include "android/aidl/loggable/Data.h" // Used implicitly. #undef LOG_TAG #define LOG_TAG "aidl_native_service" // libbase using android::base::unique_fd; // libutils: using android::Looper; using android::LooperCallback; using android::OK; using android::sp; using android::String16; using android::String8; // libbinder: using android::BnInterface; using android::defaultServiceManager; using android::IInterface; using android::IPCThreadState; using android::Parcel; using android::ProcessState; using android::binder::Status; // Generated code: using android::aidl::tests::BackendType; using android::aidl::tests::BnCppJavaTests; using android::aidl::tests::BnNamedCallback; using android::aidl::tests::BnNewName; using android::aidl::tests::BnOldName; using android::aidl::tests::BnTestService; using android::aidl::tests::ByteEnum; using android::aidl::tests::ConstantExpressionEnum; using android::aidl::tests::GenericStructuredParcelable; using android::aidl::tests::ICppJavaTests; using android::aidl::tests::INamedCallback; using android::aidl::tests::INewName; using android::aidl::tests::IntEnum; using android::aidl::tests::IOldName; using android::aidl::tests::LongEnum; using android::aidl::tests::SimpleParcelable; using android::aidl::tests::StructuredParcelable; using android::aidl::tests::Union; using android::os::ParcelFileDescriptor; using android::os::PersistableBundle; // Standard library using std::map; using std::optional; using std::string; using std::vector; namespace { class BinderCallback : public LooperCallback { public: BinderCallback() {} ~BinderCallback() override {} int handleEvent(int /* fd */, int /* events */, void* /* data */) override { IPCThreadState::self()->handlePolledCommands(); return 1; // Continue receiving callbacks. } }; class NamedCallback : public BnNamedCallback { public: explicit NamedCallback(String16 name) : name_(name) {} Status GetName(String16* ret) { *ret = name_; return Status::ok(); } private: String16 name_; }; class OldName : public BnOldName { public: OldName() = default; ~OldName() = default; Status RealName(String16* output) override { *output = String16("OldName"); return Status::ok(); } }; class NewName : public BnNewName { public: NewName() = default; ~NewName() = default; Status RealName(String16* output) override { *output = String16("NewName"); return Status::ok(); } }; template Status ReverseArray(const vector& input, vector* repeated, vector* _aidl_return) { ALOGI("Reversing array of length %zu", input.size()); *repeated = input; *_aidl_return = input; std::reverse(_aidl_return->begin(), _aidl_return->end()); return Status::ok(); } template Status RepeatNullable(const optional& input, optional* _aidl_return) { ALOGI("Repeating nullable value"); *_aidl_return = input; return Status::ok(); } class CppJavaTests : public BnCppJavaTests { public: CppJavaTests() = default; ~CppJavaTests() = default; Status RepeatSimpleParcelable(const SimpleParcelable& input, SimpleParcelable* repeat, SimpleParcelable* _aidl_return) override { ALOGI("Repeated a SimpleParcelable %s", input.toString().c_str()); *repeat = input; *_aidl_return = input; return Status::ok(); } Status RepeatGenericParcelable( const GenericStructuredParcelable& input, GenericStructuredParcelable* repeat, GenericStructuredParcelable* _aidl_return) { ALOGI("Repeating Generic Parcelable"); *repeat = input; *_aidl_return = input; return Status::ok(); } Status RepeatPersistableBundle(const PersistableBundle& input, PersistableBundle* _aidl_return) override { ALOGI("Repeated a PersistableBundle"); *_aidl_return = input; return Status::ok(); } Status ReverseSimpleParcelables(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReversePersistableBundles(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseUnion(const Union& input, Union* repeated, Union* _aidl_return) override { ALOGI("Repeated a Union"); *repeated = input; *_aidl_return = input; auto reverse = [](auto& reversible) { std::reverse(std::begin(reversible), std::end(reversible)); }; switch (input.getTag()) { case Union::ns: // int[] reverse(_aidl_return->get()); break; case Union::s: // String reverse(_aidl_return->get()); break; case Union::ss: // List reverse(_aidl_return->get()); break; default: break; } return Status::ok(); } Status ReverseNamedCallbackList(const vector>& input, vector>* repeated, vector>* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status RepeatFileDescriptor(unique_fd read, unique_fd* _aidl_return) override { ALOGE("Repeating file descriptor"); *_aidl_return = unique_fd(dup(read.get())); return Status::ok(); } Status ReverseFileDescriptorArray(const vector& input, vector* repeated, vector* _aidl_return) override { ALOGI("Reversing descriptor array of length %zu", input.size()); for (const auto& item : input) { repeated->push_back(unique_fd(dup(item.get()))); _aidl_return->push_back(unique_fd(dup(item.get()))); } std::reverse(_aidl_return->begin(), _aidl_return->end()); return Status::ok(); } Status TakesAnIBinderList(const vector>& input) override { (void)input; return Status::ok(); } Status TakesANullableIBinderList(const optional>>& input) { (void)input; return Status::ok(); } ::android::binder::Status RepeatExtendableParcelable( const ::android::aidl::tests::extension::ExtendableParcelable& ep, ::android::aidl::tests::extension::ExtendableParcelable* ep2) { ep2->a = ep.a; ep2->b = ep.b; std::shared_ptr myExt; ep.ext.getParcelable(&myExt); ep2->ext.setParcelable(myExt); return Status::ok(); } }; class NativeService : public BnTestService { public: NativeService() {} virtual ~NativeService() = default; void LogRepeatedStringToken(const String16& token) { ALOGI("Repeating '%s' of length=%zu", android::String8(token).string(), token.size()); } template void LogRepeatedToken(const T& token) { std::ostringstream token_str; token_str << token; ALOGI("Repeating token %s", token_str.str().c_str()); } Status TestOneway() override { return Status::fromStatusT(android::UNKNOWN_ERROR); } Status Deprecated() override { return Status::ok(); } Status RepeatBoolean(bool token, bool* _aidl_return) override { LogRepeatedToken(token ? 1 : 0); *_aidl_return = token; return Status::ok(); } Status RepeatByte(int8_t token, int8_t* _aidl_return) override { LogRepeatedToken(token); *_aidl_return = token; return Status::ok(); } Status RepeatChar(char16_t token, char16_t* _aidl_return) override { LogRepeatedStringToken(String16(&token, 1)); *_aidl_return = token; return Status::ok(); } Status RepeatInt(int32_t token, int32_t* _aidl_return) override { LogRepeatedToken(token); *_aidl_return = token; return Status::ok(); } Status RepeatLong(int64_t token, int64_t* _aidl_return) override { LogRepeatedToken(token); *_aidl_return = token; return Status::ok(); } Status RepeatFloat(float token, float* _aidl_return) override { LogRepeatedToken(token); *_aidl_return = token; return Status::ok(); } Status RepeatDouble(double token, double* _aidl_return) override { LogRepeatedToken(token); *_aidl_return = token; return Status::ok(); } Status RepeatString(const String16& token, String16* _aidl_return) override { LogRepeatedStringToken(token); *_aidl_return = token; return Status::ok(); } Status RepeatByteEnum(ByteEnum token, ByteEnum* _aidl_return) override { ALOGI("Repeating ByteEnum token %s", toString(token).c_str()); *_aidl_return = token; return Status::ok(); } Status RepeatIntEnum(IntEnum token, IntEnum* _aidl_return) override { ALOGI("Repeating IntEnum token %s", toString(token).c_str()); *_aidl_return = token; return Status::ok(); } Status RepeatLongEnum(LongEnum token, LongEnum* _aidl_return) override { ALOGI("Repeating LongEnum token %s", toString(token).c_str()); *_aidl_return = token; return Status::ok(); } Status ReverseBoolean(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseByte(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseChar(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseInt(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseLong(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseFloat(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseDouble(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseString(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseByteEnum(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseIntEnum(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status ReverseLongEnum(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status GetOtherTestService(const String16& name, sp* returned_service) override { if (service_map_.find(name) == service_map_.end()) { sp new_item(new NamedCallback(name)); service_map_[name] = new_item; } *returned_service = service_map_[name]; return Status::ok(); } Status VerifyName(const sp& service, const String16& name, bool* returned_value) override { String16 foundName; Status status = service->GetName(&foundName); if (status.isOk()) { *returned_value = foundName == name; } return status; } Status ReverseStringList(const vector& input, vector* repeated, vector* _aidl_return) override { return ReverseArray(input, repeated, _aidl_return); } Status RepeatParcelFileDescriptor(const ParcelFileDescriptor& read, ParcelFileDescriptor* _aidl_return) override { ALOGE("Repeating parcel file descriptor"); _aidl_return->reset(unique_fd(dup(read.get()))); return Status::ok(); } Status ReverseParcelFileDescriptorArray(const vector& input, vector* repeated, vector* _aidl_return) override { ALOGI("Reversing parcel descriptor array of length %zu", input.size()); for (const auto& item : input) { repeated->push_back(ParcelFileDescriptor(unique_fd(dup(item.get())))); } for (auto i = input.rbegin(); i != input.rend(); i++) { _aidl_return->push_back(ParcelFileDescriptor(unique_fd(dup(i->get())))); } return Status::ok(); } Status ThrowServiceException(int code) override { return Status::fromServiceSpecificError(code); } Status RepeatNullableIntArray(const optional>& input, optional>* _aidl_return) { return RepeatNullable(input, _aidl_return); } Status RepeatNullableByteEnumArray(const optional>& input, optional>* _aidl_return) { return RepeatNullable(input, _aidl_return); } Status RepeatNullableIntEnumArray(const optional>& input, optional>* _aidl_return) { return RepeatNullable(input, _aidl_return); } Status RepeatNullableLongEnumArray(const optional>& input, optional>* _aidl_return) { return RepeatNullable(input, _aidl_return); } Status RepeatNullableStringList(const optional>>& input, optional>>* _aidl_return) { ALOGI("Repeating nullable string list"); return RepeatNullable(input, _aidl_return); } Status RepeatNullableString(const optional& input, optional* _aidl_return) { return RepeatNullable(input, _aidl_return); } Status RepeatNullableParcelable(const optional& input, optional* _aidl_return) { return RepeatNullable(input, _aidl_return); } Status TakesAnIBinder(const sp& input) override { (void)input; return Status::ok(); } Status TakesANullableIBinder(const sp& input) { (void)input; return Status::ok(); } Status RepeatUtf8CppString(const string& token, string* _aidl_return) override { ALOGI("Repeating utf8 string '%s' of length=%zu", token.c_str(), token.size()); *_aidl_return = token; return Status::ok(); } Status RepeatNullableUtf8CppString(const optional& token, optional* _aidl_return) override { if (!token) { ALOGI("Received null @utf8InCpp string"); return Status::ok(); } ALOGI("Repeating utf8 string '%s' of length=%zu", token->c_str(), token->size()); *_aidl_return = token; return Status::ok(); } Status ReverseUtf8CppString(const vector& input, vector* repeated, vector* _aidl_return) { return ReverseArray(input, repeated, _aidl_return); } Status ReverseNullableUtf8CppString(const optional>>& input, optional>>* repeated, optional>>* _aidl_return) { return ReverseUtf8CppStringList(input, repeated, _aidl_return); } Status ReverseUtf8CppStringList(const optional>>& input, optional>>* repeated, optional>>* _aidl_return) { if (!input) { ALOGI("Received null list of utf8 strings"); return Status::ok(); } *_aidl_return = input; *repeated = input; std::reverse((*_aidl_return)->begin(), (*_aidl_return)->end()); return Status::ok(); } Status GetCallback(bool return_null, sp* ret) { if (!return_null) { return GetOtherTestService(String16("ABT: always be testing"), ret); } return Status::ok(); } virtual ::android::binder::Status FillOutStructuredParcelable(StructuredParcelable* parcelable) { parcelable->shouldBeJerry = "Jerry"; parcelable->shouldContainThreeFs = {parcelable->f, parcelable->f, parcelable->f}; parcelable->shouldBeByteBar = ByteEnum::BAR; parcelable->shouldBeIntBar = IntEnum::BAR; parcelable->shouldBeLongBar = LongEnum::BAR; parcelable->shouldContainTwoByteFoos = {ByteEnum::FOO, ByteEnum::FOO}; parcelable->shouldContainTwoIntFoos = {IntEnum::FOO, IntEnum::FOO}; parcelable->shouldContainTwoLongFoos = {LongEnum::FOO, LongEnum::FOO}; parcelable->const_exprs_1 = ConstantExpressionEnum::decInt32_1; parcelable->const_exprs_2 = ConstantExpressionEnum::decInt32_2; parcelable->const_exprs_3 = ConstantExpressionEnum::decInt64_1; parcelable->const_exprs_4 = ConstantExpressionEnum::decInt64_2; parcelable->const_exprs_5 = ConstantExpressionEnum::decInt64_3; parcelable->const_exprs_6 = ConstantExpressionEnum::decInt64_4; parcelable->const_exprs_7 = ConstantExpressionEnum::hexInt32_1; parcelable->const_exprs_8 = ConstantExpressionEnum::hexInt32_2; parcelable->const_exprs_9 = ConstantExpressionEnum::hexInt32_3; parcelable->const_exprs_10 = ConstantExpressionEnum::hexInt64_1; parcelable->shouldSetBit0AndBit2 = StructuredParcelable::BIT0 | StructuredParcelable::BIT2; parcelable->u = Union::make({1, 2, 3}); parcelable->shouldBeConstS1 = Union::S1(); return Status::ok(); } Status UnimplementedMethod(int32_t /* arg */, int32_t* /* _aidl_return */) override { LOG_ALWAYS_FATAL("UnimplementedMethod shouldn't be called"); } Status GetOldNameInterface(sp* ret) { *ret = new OldName; return Status::ok(); } Status GetNewNameInterface(sp* ret) { *ret = new NewName; return Status::ok(); } Status GetCppJavaTests(sp* ret) { *ret = new CppJavaTests; return Status::ok(); } Status getBackendType(BackendType* _aidl_return) override { *_aidl_return = BackendType::CPP; return Status::ok(); } android::status_t onTransact(uint32_t code, const Parcel& data, Parcel* reply, uint32_t flags) override { if (code == ::android::IBinder::FIRST_CALL_TRANSACTION + 0 /* UnimplementedMethod */) { // pretend that UnimplementedMethod isn't implemented by this service. return android::UNKNOWN_TRANSACTION; } else { return BnTestService::onTransact(code, data, reply, flags); } } private: map> service_map_; }; class VersionedService : public android::aidl::versioned::tests::BnFooInterface { public: VersionedService() {} virtual ~VersionedService() = default; Status originalApi() override { return Status::ok(); } Status acceptUnionAndReturnString(const ::android::aidl::versioned::tests::BazUnion& u, std::string* _aidl_return) override { switch (u.getTag()) { case ::android::aidl::versioned::tests::BazUnion::intNum: *_aidl_return = std::to_string(u.get<::android::aidl::versioned::tests::BazUnion::intNum>()); break; } return Status::ok(); } Status returnsLengthOfFooArray(const vector<::android::aidl::versioned::tests::Foo>& foos, int32_t* ret) override { *ret = static_cast(foos.size()); return Status::ok(); } Status ignoreParcelablesAndRepeatInt(const ::android::aidl::versioned::tests::Foo& inFoo, ::android::aidl::versioned::tests::Foo* inoutFoo, ::android::aidl::versioned::tests::Foo* outFoo, int32_t value, int32_t* ret) override { (void)inFoo; (void)inoutFoo; (void)outFoo; *ret = value; return Status::ok(); } }; class LoggableInterfaceService : public android::aidl::loggable::BnLoggableInterface { public: LoggableInterfaceService() {} virtual ~LoggableInterfaceService() = default; virtual Status LogThis(bool, vector*, int8_t, vector*, char16_t, vector*, int32_t, vector*, int64_t, vector*, float, vector*, double, vector*, const String16&, vector*, vector*, const android::aidl::loggable::Data&, const sp&, optional*, vector*, vector* _aidl_return) override { *_aidl_return = vector{String16("loggable")}; return Status::ok(); } }; int Run() { android::sp service = new NativeService; sp looper(Looper::prepare(0 /* opts */)); int binder_fd = -1; ProcessState::self()->setThreadPoolMaxThreadCount(0); IPCThreadState::self()->disableBackgroundScheduling(true); IPCThreadState::self()->setupPolling(&binder_fd); ALOGI("Got binder FD %d", binder_fd); if (binder_fd < 0) return -1; sp cb(new BinderCallback); if (looper->addFd(binder_fd, Looper::POLL_CALLBACK, Looper::EVENT_INPUT, cb, nullptr) != 1) { ALOGE("Failed to add binder FD to Looper"); return -1; } auto status = defaultServiceManager()->addService(service->getInterfaceDescriptor(), service); if (status != OK) { ALOGE("Failed to add service %s", String8(service->getInterfaceDescriptor()).c_str()); return -1; } android::sp versionedService = new VersionedService; status = defaultServiceManager()->addService(versionedService->getInterfaceDescriptor(), versionedService); if (status != OK) { ALOGE("Failed to add service %s", String8(versionedService->getInterfaceDescriptor()).c_str()); return -1; } android::sp loggableInterfaceService = new LoggableInterfaceService; status = defaultServiceManager()->addService(loggableInterfaceService->getInterfaceDescriptor(), loggableInterfaceService); if (status != OK) { ALOGE("Failed to add service %s", String8(loggableInterfaceService->getInterfaceDescriptor()).c_str()); return -1; } ALOGI("Entering loop"); while (true) { const int result = looper->pollAll(-1 /* timeoutMillis */); ALOGI("Looper returned %d", result); } return 0; } } // namespace int main(int /* argc */, char* /* argv */ []) { return Run(); }