/* * Copyright (C) 2021 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 "RadioTest" #include "radio_aidl_hal_utils.h" #include "VtsCoreUtil.h" #include "radio_config_utils.h" #include "radio_sim_utils.h" #define WAIT_TIMEOUT_PERIOD 75 sim::CardStatus cardStatus = {}; config::SimSlotStatus slotStatus = {}; int serial = 0; int count_ = 0; int GetRandomSerialNumber() { return rand(); } ::testing::AssertionResult CheckAnyOfErrors(RadioError err, std::vector errors, CheckFlag flag) { const static std::vector generalErrors = { RadioError::RADIO_NOT_AVAILABLE, RadioError::NO_MEMORY, RadioError::INTERNAL_ERR, RadioError::SYSTEM_ERR, RadioError::REQUEST_NOT_SUPPORTED, RadioError::CANCELLED}; if (flag == CHECK_GENERAL_ERROR || flag == CHECK_OEM_AND_GENERAL_ERROR) { for (size_t i = 0; i < generalErrors.size(); i++) { if (err == generalErrors[i]) { return testing::AssertionSuccess(); } } } if (flag == CHECK_OEM_ERROR || flag == CHECK_OEM_AND_GENERAL_ERROR) { if (err >= RadioError::OEM_ERROR_1 && err <= RadioError::OEM_ERROR_25) { return testing::AssertionSuccess(); } } for (size_t i = 0; i < errors.size(); i++) { if (err == errors[i]) { return testing::AssertionSuccess(); } } return testing::AssertionFailure() << "RadioError:" + toString(err) + " is returned"; } // Runs "pm list features" and attempts to find the specified feature in its output. bool deviceSupportsFeature(const char* feature) { bool hasFeature = false; FILE* p = popen("/system/bin/pm list features", "re"); if (p) { char* line = NULL; size_t len = 0; while (getline(&line, &len, p) > 0) { if (strstr(line, feature)) { hasFeature = true; break; } } pclose(p); } else { __android_log_print(ANDROID_LOG_FATAL, LOG_TAG, "popen failed: %d", errno); _exit(EXIT_FAILURE); } __android_log_print(ANDROID_LOG_INFO, LOG_TAG, "Feature %s: %ssupported", feature, hasFeature ? "" : "not "); return hasFeature; } bool isSsSsEnabled() { // Do not use checkSubstringInCommandOutput("getprop persist.radio.multisim.config", "") // until b/148904287 is fixed. We need exact matching instead of partial matching. (i.e. // by definition the empty string "" is a substring of any string). return !isDsDsEnabled() && !isTsTsEnabled() && !isDsDaEnabled(); } bool isDsDsEnabled() { return testing::checkSubstringInCommandOutput("getprop persist.radio.multisim.config", "dsds"); } bool isDsDaEnabled() { return testing::checkSubstringInCommandOutput("getprop persist.radio.multisim.config", "dsda"); } bool isTsTsEnabled() { return testing::checkSubstringInCommandOutput("getprop persist.radio.multisim.config", "tsts"); } bool isVoiceInService(RegState state) { return RegState::REG_HOME == state || RegState::REG_ROAMING == state; } bool isVoiceEmergencyOnly(RegState state) { return RegState::NOT_REG_MT_NOT_SEARCHING_OP_EM == state || RegState::NOT_REG_MT_SEARCHING_OP_EM == state || RegState::REG_DENIED_EM == state || RegState::UNKNOWN_EM == state; } bool stringEndsWith(std::string const& string, std::string const& end) { if (string.size() >= end.size()) { return std::equal(end.rbegin(), end.rend(), string.rbegin()); } else { return false; } } bool isServiceValidForDeviceConfiguration(std::string& serviceName) { if (isSsSsEnabled()) { // Device is configured as SSSS. if (!stringEndsWith(serviceName, RADIO_SERVICE_SLOT1_NAME)) { ALOGI("%s instance is not valid for SSSS device.", serviceName.c_str()); return false; } } else if (isDsDsEnabled() || isDsDaEnabled()) { // Device is configured as DSDS or DSDA. if (!stringEndsWith(serviceName, RADIO_SERVICE_SLOT1_NAME) && !stringEndsWith(serviceName, RADIO_SERVICE_SLOT2_NAME)) { ALOGI("%s instance is not valid for DSDS device.", serviceName.c_str()); return false; } } else if (isTsTsEnabled()) { // Device is configured as TSTS. if (!stringEndsWith(serviceName, RADIO_SERVICE_SLOT1_NAME) && !stringEndsWith(serviceName, RADIO_SERVICE_SLOT2_NAME) && !stringEndsWith(serviceName, RADIO_SERVICE_SLOT3_NAME)) { ALOGI("%s instance is not valid for TSTS device.", serviceName.c_str()); return false; } } return true; } void RadioServiceTest::SetUp() { ALOGD("BEGIN %s#%s", ::testing::UnitTest::GetInstance()->current_test_info()->test_suite_name(), ::testing::UnitTest::GetInstance()->current_test_info()->name()); count_ = 0; serial = -1; } void RadioServiceTest::TearDown() { count_ = 0; serial = -1; ALOGD("END %s#%s", ::testing::UnitTest::GetInstance()->current_test_info()->test_suite_name(), ::testing::UnitTest::GetInstance()->current_test_info()->name()); } /* * Notify that the response message is received. */ void RadioServiceTest::notify(int receivedSerial) { std::lock_guard lock(mtx_); if (serial == receivedSerial) { count_++; cv_.notify_one(); } } /* * Wait till the response message is notified or till WAIT_TIMEOUT_PERIOD. */ std::cv_status RadioServiceTest::wait() { std::unique_lock lock(mtx_); std::cv_status status = std::cv_status::no_timeout; auto now = std::chrono::system_clock::now(); while (count_ == 0) { status = cv_.wait_until(lock, now + std::chrono::seconds(WAIT_TIMEOUT_PERIOD)); if (status == std::cv_status::timeout) { return status; } } count_--; return status; } /** * Specific features on the Radio HAL rely on Radio HAL Capabilities. * The VTS test related to those features must not run if the related capability is disabled. * Typical usage within VTS: * if (getRadioHalCapabilities()) return; */ bool RadioServiceTest::getRadioHalCapabilities() { // Get HalDeviceCapabilities from RadioConfig std::shared_ptr radioConfigRsp = ndk::SharedRefBase::make(*this); std::shared_ptr radioConfigInd = ndk::SharedRefBase::make(*this); radio_config->setResponseFunctions(radioConfigRsp, radioConfigInd); serial = GetRandomSerialNumber(); radio_config->getHalDeviceCapabilities(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); return radioConfigRsp->modemReducedFeatureSet1; } /** * Some VTS tests require the SIM card status to be present before running. * Update the SIM card status, which can be accessed via the extern cardStatus. */ void RadioServiceTest::updateSimCardStatus() { // Update CardStatus from RadioSim std::shared_ptr radioSimRsp = ndk::SharedRefBase::make(*this); std::shared_ptr radioSimInd = ndk::SharedRefBase::make(*this); radio_sim->setResponseFunctions(radioSimRsp, radioSimInd); serial = GetRandomSerialNumber(); radio_sim->getIccCardStatus(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioSimRsp->rspInfo.type); EXPECT_EQ(serial, radioSimRsp->rspInfo.serial); EXPECT_EQ(RadioError::NONE, radioSimRsp->rspInfo.error); } void RadioServiceTest::updateSimSlotStatus(int physicalSlotId) { // Update SimSlotStatus from RadioConfig std::shared_ptr radioConfigRsp = ndk::SharedRefBase::make(*this); std::shared_ptr radioConfigInd = ndk::SharedRefBase::make(*this); radio_config->setResponseFunctions(radioConfigRsp, radioConfigInd); serial = GetRandomSerialNumber(); radio_config->getSimSlotsStatus(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioConfigRsp->rspInfo.type); EXPECT_EQ(serial, radioConfigRsp->rspInfo.serial); EXPECT_EQ(RadioError::NONE, radioConfigRsp->rspInfo.error); if (radioConfigRsp->simSlotStatus.size() > physicalSlotId) { slotStatus = radioConfigRsp->simSlotStatus[physicalSlotId]; } } bool isLteConnected(){ return testing::checkSubstringInCommandOutput("getprop gsm.network.type", "LTE"); }