/* * Copyright (C) 2022 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 "rpc_test.h" #include #include "chre/core/event_loop.h" #include "chre/core/event_loop_manager.h" #include "chre/core/settings.h" #include "chre/util/nanoapp/log.h" #include "chre/util/time.h" #include "chre_api/chre/event.h" #include "chre_api/chre/re.h" #include "gtest/gtest.h" #include "inc/test_util.h" #include "test_base.h" #include "test_event.h" #include "test_event_queue.h" #include "test_util.h" namespace chre { pw::Status RpcTestService::Increment(const chre_rpc_NumberMessage &request, chre_rpc_NumberMessage &response) { EnvSingleton::get()->mServer.setPermissionForNextMessage( CHRE_MESSAGE_PERMISSION_NONE); response.number = request.number + 1; return pw::OkStatus(); } namespace { TEST_F(TestBase, PwRpcCanPublishServicesInNanoappStart) { class App : public TestNanoapp { public: bool start() override { struct chreNanoappRpcService servicesA[] = { {.id = 1, .version = 0}, {.id = 2, .version = 0}, }; struct chreNanoappRpcService servicesB[] = { {.id = 3, .version = 0}, {.id = 4, .version = 0}, }; return chrePublishRpcServices(servicesA, 2 /* numServices */) && chrePublishRpcServices(servicesB, 2 /* numServices */); } }; uint64_t appId = loadNanoapp(MakeUnique()); Nanoapp *napp = getNanoappByAppId(appId); ASSERT_NE(napp, nullptr); EXPECT_EQ(napp->getRpcServices().size(), 4); EXPECT_EQ(napp->getRpcServices()[0].id, 1); EXPECT_EQ(napp->getRpcServices()[1].id, 2); EXPECT_EQ(napp->getRpcServices()[2].id, 3); EXPECT_EQ(napp->getRpcServices()[3].id, 4); } TEST_F(TestBase, PwRpcCanNotPublishDuplicateServices) { class App : public TestNanoapp { bool start() override { struct chreNanoappRpcService servicesA[] = { {.id = 1, .version = 0}, {.id = 2, .version = 0}, }; bool success = chrePublishRpcServices(servicesA, 2 /* numServices */); EXPECT_FALSE(chrePublishRpcServices(servicesA, 2 /* numServices */)); struct chreNanoappRpcService servicesB[] = { {.id = 5, .version = 0}, {.id = 5, .version = 0}, }; EXPECT_FALSE(chrePublishRpcServices(servicesB, 2 /* numServices */)); return success; } }; uint64_t appId = loadNanoapp(MakeUnique()); Nanoapp *napp = getNanoappByAppId(appId); ASSERT_NE(napp, nullptr); EXPECT_EQ(napp->getRpcServices().size(), 2); EXPECT_EQ(napp->getRpcServices()[0].id, 1); EXPECT_EQ(napp->getRpcServices()[1].id, 2); } TEST_F(TestBase, PwRpcDifferentAppCanPublishSameServices) { class App : public TestNanoapp { public: explicit App(uint64_t id) : TestNanoapp(TestNanoappInfo{.id = id}) {} bool start() override { struct chreNanoappRpcService services[] = { {.id = 1, .version = 0}, {.id = 2, .version = 0}, }; return chrePublishRpcServices(services, 2 /* numServices */); } }; uint64_t app1Id = loadNanoapp(MakeUnique(0x01)); uint64_t app2Id = loadNanoapp(MakeUnique(0x02)); Nanoapp *napp1 = getNanoappByAppId(app1Id); ASSERT_NE(napp1, nullptr); EXPECT_EQ(napp1->getRpcServices().size(), 2); EXPECT_EQ(napp1->getRpcServices()[0].id, 1); EXPECT_EQ(napp1->getRpcServices()[1].id, 2); Nanoapp *napp2 = getNanoappByAppId(app2Id); ASSERT_NE(napp2, nullptr); EXPECT_EQ(napp2->getRpcServices().size(), 2); EXPECT_EQ(napp2->getRpcServices()[0].id, 1); EXPECT_EQ(napp2->getRpcServices()[1].id, 2); } TEST_F(TestBase, PwRpcCanNotPublishServicesOutsideOfNanoappStart) { CREATE_CHRE_TEST_EVENT(PUBLISH_SERVICES, 0); class App : public TestNanoapp { public: void handleEvent(uint32_t, uint16_t eventType, const void *eventData) override { switch (eventType) { case CHRE_EVENT_TEST_EVENT: { auto event = static_cast(eventData); switch (event->type) { case PUBLISH_SERVICES: { struct chreNanoappRpcService services[] = { {.id = 1, .version = 0}, {.id = 2, .version = 0}, }; bool success = chrePublishRpcServices(services, 2 /* numServices */); TestEventQueueSingleton::get()->pushEvent(PUBLISH_SERVICES, success); break; } } } } } }; uint64_t appId = loadNanoapp(MakeUnique()); bool success = true; sendEventToNanoapp(appId, PUBLISH_SERVICES); waitForEvent(PUBLISH_SERVICES, &success); EXPECT_FALSE(success); Nanoapp *napp = getNanoappByAppId(appId); ASSERT_NE(napp, nullptr); EXPECT_EQ(napp->getRpcServices().size(), 0); } TEST_F(TestBase, PwRpcRegisterServicesShouldGracefullyFailOnDuplicatedService) { class App : public TestNanoapp { public: bool start() override { static RpcTestService testService; chre::RpcServer::Service service = {.service = testService, .id = 0xca8f7150a3f05847, .version = 0x01020034}; chre::RpcServer &server = EnvSingleton::get()->mServer; bool status = server.registerServices(1, &service); EXPECT_TRUE(status); EXPECT_FALSE(server.registerServices(1, &service)); return status; } void end() override { EnvSingleton::get()->closeServer(); } }; EnvSingleton::init(); uint64_t appId = loadNanoapp(MakeUnique()); unloadNanoapp(appId); EnvSingleton::deinit(); } TEST_F(TestBase, PwRpcGetNanoappInfoByAppIdReturnsServices) { CREATE_CHRE_TEST_EVENT(QUERY_INFO, 0); class App : public TestNanoapp { public: bool start() override { struct chreNanoappRpcService services[] = { {.id = 1, .version = 2}, {.id = 2, .version = 3}, }; return chrePublishRpcServices(services, 2 /* numServices */); } void handleEvent(uint32_t, uint16_t eventType, const void *eventData) override { switch (eventType) { case CHRE_EVENT_TEST_EVENT: { auto event = static_cast(eventData); switch (event->type) { case QUERY_INFO: { auto id = static_cast(event->data); bool success = chreGetNanoappInfoByAppId(*id, &mInfo); const struct chreNanoappInfo *pInfo = success ? &mInfo : nullptr; TestEventQueueSingleton::get()->pushEvent(QUERY_INFO, pInfo); break; } } } } } protected: struct chreNanoappInfo mInfo; }; uint64_t appId = loadNanoapp(MakeUnique()); struct chreNanoappInfo *pInfo = nullptr; sendEventToNanoapp(appId, QUERY_INFO, appId); waitForEvent(QUERY_INFO, &pInfo); EXPECT_TRUE(pInfo != nullptr); EXPECT_EQ(pInfo->rpcServiceCount, 2); EXPECT_EQ(pInfo->rpcServices[0].id, 1); EXPECT_EQ(pInfo->rpcServices[0].version, 2); EXPECT_EQ(pInfo->rpcServices[1].id, 2); EXPECT_EQ(pInfo->rpcServices[1].version, 3); EXPECT_EQ(pInfo->reserved[0], 0); EXPECT_EQ(pInfo->reserved[1], 0); EXPECT_EQ(pInfo->reserved[2], 0); } TEST_F(TestBase, PwRpcClientNanoappCanRequestServerNanoapp) { CREATE_CHRE_TEST_EVENT(INCREMENT_REQUEST, 0); class ClientApp : public TestNanoapp { public: ClientApp() : TestNanoapp(TestNanoappInfo{.id = kPwRcpClientAppId}) {} void handleEvent(uint32_t senderInstanceId, uint16_t eventType, const void *eventData) override { Env *env = EnvSingleton::get(); env->mClient.handleEvent(senderInstanceId, eventType, eventData); switch (eventType) { case CHRE_EVENT_TEST_EVENT: { auto event = static_cast(eventData); switch (event->type) { case INCREMENT_REQUEST: { auto client = env->mClient .get(); if (client.has_value()) { chre_rpc_NumberMessage incrementRequest; incrementRequest.number = *static_cast(event->data); env->mIncrementCall = client->Increment( incrementRequest, [](const chre_rpc_NumberMessage &response, pw::Status status) { if (status.ok()) { EnvSingleton::get()->mNumber = response.number; TestEventQueueSingleton::get()->pushEvent( INCREMENT_REQUEST, true); } else { TestEventQueueSingleton::get()->pushEvent( INCREMENT_REQUEST, false); } }); } else { TestEventQueueSingleton::get()->pushEvent(INCREMENT_REQUEST, false); } } } } } } void end() { EnvSingleton::get()->closeClient(); } }; class ServerApp : public TestNanoapp { public: ServerApp() : TestNanoapp(TestNanoappInfo{.id = kPwRcpServerAppId}) {} bool start() override { chre::RpcServer::Service service = { .service = EnvSingleton::get()->mRpcTestService, .id = 0xca8f7150a3f05847, .version = 0x01020034}; return EnvSingleton::get()->mServer.registerServices(1, &service); } void handleEvent(uint32_t senderInstanceId, uint16_t eventType, const void *eventData) override { EnvSingleton::get()->mServer.handleEvent(senderInstanceId, eventType, eventData); } void end() { EnvSingleton::get()->closeServer(); } }; EnvSingleton::init(); uint64_t serverId = loadNanoapp(MakeUnique()); uint64_t clientId = loadNanoapp(MakeUnique()); bool status; constexpr uint32_t kNumber = 101; sendEventToNanoapp(clientId, INCREMENT_REQUEST, kNumber); waitForEvent(INCREMENT_REQUEST, &status); EXPECT_TRUE(status); EXPECT_EQ(EnvSingleton::get()->mNumber, kNumber + 1); unloadNanoapp(serverId); unloadNanoapp(clientId); EnvSingleton::deinit(); } TEST_F(TestBase, PwRpcRpcClientHasServiceCheckForAMatchingService) { CREATE_CHRE_TEST_EVENT(QUERY_HAS_SERVICE, 0); struct ServiceInfo { uint64_t id; uint32_t version; uint64_t appId; }; class App : public TestNanoapp { public: bool start() override { struct chreNanoappRpcService services[] = {{.id = 1, .version = 2}}; return chrePublishRpcServices(services, 1 /* numServices */); } void handleEvent(uint32_t, uint16_t eventType, const void *eventData) { switch (eventType) { case CHRE_EVENT_TEST_EVENT: { auto event = static_cast(eventData); switch (event->type) { case QUERY_HAS_SERVICE: { auto service = static_cast(event->data); RpcClient client{service->appId}; bool hasService = client.hasService(service->id, service->version); TestEventQueueSingleton::get()->pushEvent(QUERY_HAS_SERVICE, hasService); break; } } break; } } } }; uint64_t appId = loadNanoapp(MakeUnique()); ServiceInfo service; bool hasService = false; service = {.id = 1, .version = 2, .appId = appId}; sendEventToNanoapp(appId, QUERY_HAS_SERVICE, service); waitForEvent(QUERY_HAS_SERVICE, &hasService); EXPECT_TRUE(hasService); service = {.id = 10, .version = 2, .appId = appId}; sendEventToNanoapp(appId, QUERY_HAS_SERVICE, service); waitForEvent(QUERY_HAS_SERVICE, &hasService); EXPECT_FALSE(hasService); } } // namespace } // namespace chre