/* * Copyright (C) 2018 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 "nfc_hidl_hal_test" #include #include #include #include #include #include #include #include #include using ::android::hardware::nfc::V1_1::INfc; using ::android::hardware::nfc::V1_1::INfcClientCallback; using ::android::hardware::nfc::V1_1::NfcEvent; using ::android::hardware::nfc::V1_1::NfcConfig; using ::android::hardware::nfc::V1_0::NfcStatus; using ::android::hardware::nfc::V1_0::NfcData; using ::android::hardware::Return; using ::android::hardware::Void; using ::android::hardware::hidl_vec; using ::android::sp; // 261 bytes is the default and minimum transceive length constexpr unsigned int MIN_ISO_DEP_TRANSCEIVE_LENGTH = 261; constexpr char kCallbackNameSendEvent[] = "sendEvent"; constexpr char kCallbackNameSendData[] = "sendData"; class NfcClientCallbackArgs { public: NfcEvent last_event_; NfcStatus last_status_; NfcData last_data_; }; /* Callback class for data & Event. */ class NfcClientCallback : public ::testing::VtsHalHidlTargetCallbackBase, public INfcClientCallback { public: virtual ~NfcClientCallback() = default; /* sendEvent callback function - Records the Event & Status * and notifies the TEST **/ Return sendEvent_1_1(NfcEvent event, NfcStatus event_status) override { NfcClientCallbackArgs args; args.last_event_ = event; args.last_status_ = event_status; NotifyFromCallback(kCallbackNameSendEvent, args); return Void(); }; /** NFC 1.1 HAL shouldn't send 1.0 callbacks */ Return sendEvent(__attribute__((unused))::android::hardware::nfc::V1_0::NfcEvent event, __attribute__((unused)) NfcStatus event_status) override { return Void(); } /* sendData callback function. Records the data and notifies the TEST*/ Return sendData(const NfcData& data) override { NfcClientCallbackArgs args; args.last_data_ = data; NotifyFromCallback(kCallbackNameSendData, args); return Void(); }; }; // Test environment for Nfc HIDL HAL. class NfcHidlEnvironment : public ::testing::VtsHalHidlTargetTestEnvBase { public: // get the test environment singleton static NfcHidlEnvironment* Instance() { static NfcHidlEnvironment* instance = new NfcHidlEnvironment; return instance; } virtual void registerTestServices() override { registerTestService(); } private: NfcHidlEnvironment() {} }; // The main test class for NFC HIDL HAL. class NfcHidlTest : public ::testing::VtsHalHidlTargetTestBase { public: virtual void SetUp() override { nfc_ = ::testing::VtsHalHidlTargetTestBase::getService(); ASSERT_NE(nfc_, nullptr); nfc_cb_ = new NfcClientCallback(); ASSERT_NE(nfc_cb_, nullptr); EXPECT_EQ(NfcStatus::OK, nfc_->open_1_1(nfc_cb_)); // Wait for OPEN_CPLT event auto res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::OPEN_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); /* * Close the hal and then re-open to make sure we are in a predictable * state for all the tests. */ EXPECT_EQ(NfcStatus::OK, nfc_->close()); // Wait for CLOSE_CPLT event res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::CLOSE_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); EXPECT_EQ(NfcStatus::OK, nfc_->open_1_1(nfc_cb_)); // Wait for OPEN_CPLT event res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::OPEN_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); } virtual void TearDown() override { EXPECT_EQ(NfcStatus::OK, nfc_->close()); // Wait for CLOSE_CPLT event auto res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::CLOSE_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); } sp nfc_; sp nfc_cb_; }; /* * factoryReset * calls factoryReset() * checks status */ TEST_F(NfcHidlTest, FactoryReset) { nfc_->factoryReset(); EXPECT_EQ(NfcStatus::OK, nfc_->close()); // Wait for CLOSE_CPLT event auto res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::CLOSE_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); EXPECT_EQ(NfcStatus::OK, nfc_->open_1_1(nfc_cb_)); // Wait for OPEN_CPLT event res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::OPEN_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); } /* * OpenAndClose: * Makes an open call, waits for NfcEvent.OPEN_CPLT * Immediately calls closeforPowerOffCase() and waits for NfcEvent.CLOSE_CPLT */ TEST_F(NfcHidlTest, OpenAndCloseForPowerOff) { EXPECT_EQ(NfcStatus::OK, nfc_->closeForPowerOffCase()); // Wait for CLOSE_CPLT event auto res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::CLOSE_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); EXPECT_EQ(NfcStatus::OK, nfc_->open_1_1(nfc_cb_)); // Wait for OPEN_CPLT event res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::OPEN_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); } /* * CloseForPowerOffCaseAfterClose: * Calls closeForPowerOffCase() * Calls close() - checks failed status */ TEST_F(NfcHidlTest, CloseForPowerCaseOffAfterClose) { EXPECT_EQ(NfcStatus::OK, nfc_->closeForPowerOffCase()); // Wait for CLOSE_CPLT event auto res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::CLOSE_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); EXPECT_EQ(NfcStatus::FAILED, nfc_->close()); EXPECT_EQ(NfcStatus::OK, nfc_->open_1_1(nfc_cb_)); // Wait for OPEN_CPLT event res = nfc_cb_->WaitForCallback(kCallbackNameSendEvent); EXPECT_TRUE(res.no_timeout); EXPECT_EQ(NfcEvent::OPEN_CPLT, res.args->last_event_); EXPECT_EQ(NfcStatus::OK, res.args->last_status_); } /* * getConfig: * Calls getConfig() * checks if fields in NfcConfig are populated correctly */ TEST_F(NfcHidlTest, GetConfig) { nfc_->getConfig([](NfcConfig config) { EXPECT_GE(config.maxIsoDepTransceiveLength, MIN_ISO_DEP_TRANSCEIVE_LENGTH); }); } int main(int argc, char** argv) { ::testing::AddGlobalTestEnvironment(NfcHidlEnvironment::Instance()); ::testing::InitGoogleTest(&argc, argv); NfcHidlEnvironment::Instance()->init(&argc, argv); std::system("svc nfc disable"); /* Turn off NFC */ sleep(5); int status = RUN_ALL_TESTS(); LOG(INFO) << "Test result = " << status; std::system("svc nfc enable"); /* Turn on NFC */ sleep(5); return status; }