/* * Copyright (C) 2017 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 using namespace ::android::hardware::radio::V1_0; /* * Test IRadio.getDataRegistrationState() for the response returned. */ TEST_F(RadioHidlTest, getDataRegistrationState) { serial = GetRandomSerialNumber(); radio->getDataRegistrationState(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp->rspInfo.type); EXPECT_EQ(serial, radioRsp->rspInfo.serial); if (cardStatus.cardState == CardState::ABSENT) { EXPECT_EQ(RadioError::NONE, radioRsp->rspInfo.error); } else if (cardStatus.cardState == CardState::PRESENT) { ASSERT_TRUE(CheckAnyOfErrors( radioRsp->rspInfo.error, {RadioError::NONE, RadioError::NOT_PROVISIONED, RadioError::CANCELLED})); // Check the mcc [0, 999] and mnc [0, 999]. string hidl_mcc; string hidl_mnc; bool checkMccMnc = true; int totalIdentitySizeExpected = 1; CellIdentity cellIdentities = radioRsp->dataRegResp.cellIdentity; CellInfoType cellInfoType = cellIdentities.cellInfoType; if (cellInfoType == CellInfoType::NONE) { // All the fields are 0 totalIdentitySizeExpected = 0; checkMccMnc = false; } else if (cellInfoType == CellInfoType::GSM) { EXPECT_EQ(1, cellIdentities.cellIdentityGsm.size()); CellIdentityGsm cig = cellIdentities.cellIdentityGsm[0]; hidl_mcc = cig.mcc; hidl_mnc = cig.mnc; } else if (cellInfoType == CellInfoType::LTE) { EXPECT_EQ(1, cellIdentities.cellIdentityLte.size()); CellIdentityLte cil = cellIdentities.cellIdentityLte[0]; hidl_mcc = cil.mcc; hidl_mnc = cil.mnc; } else if (cellInfoType == CellInfoType::WCDMA) { EXPECT_EQ(1, cellIdentities.cellIdentityWcdma.size()); CellIdentityWcdma ciw = cellIdentities.cellIdentityWcdma[0]; hidl_mcc = ciw.mcc; hidl_mnc = ciw.mnc; } else if (cellInfoType == CellInfoType::TD_SCDMA) { EXPECT_EQ(1, cellIdentities.cellIdentityTdscdma.size()); CellIdentityTdscdma cit = cellIdentities.cellIdentityTdscdma[0]; hidl_mcc = cit.mcc; hidl_mnc = cit.mnc; } else { // CellIndentityCdma has no mcc and mnc. EXPECT_EQ(CellInfoType::CDMA, cellInfoType); EXPECT_EQ(1, cellIdentities.cellIdentityCdma.size()); checkMccMnc = false; } // Check only one CellIdentity is size 1, and others must be 0. EXPECT_EQ(totalIdentitySizeExpected, cellIdentities.cellIdentityGsm.size() + cellIdentities.cellIdentityCdma.size() + cellIdentities.cellIdentityLte.size() + cellIdentities.cellIdentityWcdma.size() + cellIdentities.cellIdentityTdscdma.size()); if (checkMccMnc) { // 32 bit system gets result: "\xff\xff\xff..." from RIL, which is not testable. Only // test for 64 bit here. TODO: remove this limit after b/113181277 being fixed. if (hidl_mcc.size() < 4 && hidl_mnc.size() < 4) { int mcc = stoi(hidl_mcc); int mnc = stoi(hidl_mnc); EXPECT_TRUE(mcc >= 0 && mcc <= 999); EXPECT_TRUE(mnc >= 0 && mnc <= 999); } } } } /* * Test IRadio.setupDataCall() for the response returned. */ TEST_F(RadioHidlTest, setupDataCall) { serial = GetRandomSerialNumber(); RadioTechnology radioTechnology = RadioTechnology::LTE; DataProfileInfo dataProfileInfo; memset(&dataProfileInfo, 0, sizeof(dataProfileInfo)); dataProfileInfo.profileId = DataProfileId::IMS; dataProfileInfo.apn = hidl_string("VZWIMS"); dataProfileInfo.protocol = hidl_string("IPV4V6"); dataProfileInfo.roamingProtocol = hidl_string("IPV6"); dataProfileInfo.authType = ApnAuthType::NO_PAP_NO_CHAP; dataProfileInfo.user = ""; dataProfileInfo.password = ""; dataProfileInfo.type = DataProfileInfoType::THREE_GPP2; dataProfileInfo.maxConnsTime = 300; dataProfileInfo.maxConns = 20; dataProfileInfo.waitTime = 0; dataProfileInfo.enabled = true; dataProfileInfo.supportedApnTypesBitmap = 320; dataProfileInfo.bearerBitmap = 161543; dataProfileInfo.mtu = 0; dataProfileInfo.mvnoType = MvnoType::NONE; dataProfileInfo.mvnoMatchData = hidl_string(); bool modemCognitive = false; bool roamingAllowed = false; bool isRoaming = false; radio->setupDataCall(serial, radioTechnology, dataProfileInfo, modemCognitive, roamingAllowed, isRoaming); EXPECT_EQ(std::cv_status::no_timeout, wait(300)); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp->rspInfo.type); EXPECT_EQ(serial, radioRsp->rspInfo.serial); if (cardStatus.cardState == CardState::ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp->rspInfo.error, {RadioError::NONE, RadioError::OP_NOT_ALLOWED_BEFORE_REG_TO_NW, RadioError::OP_NOT_ALLOWED_DURING_VOICE_CALL, RadioError::RADIO_NOT_AVAILABLE, RadioError::SIM_ABSENT}, CHECK_OEM_ERROR)); } } /* * Test IRadio.deactivateDataCall() for the response returned. */ TEST_F(RadioHidlTest, deactivateDataCall) { serial = GetRandomSerialNumber(); int cid = 1; bool reasonRadioShutDown = false; radio->deactivateDataCall(serial, cid, reasonRadioShutDown); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp->rspInfo.type); EXPECT_EQ(serial, radioRsp->rspInfo.serial); if (cardStatus.cardState == CardState::ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp->rspInfo.error, {RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::SIM_ABSENT, RadioError::INVALID_CALL_ID}, CHECK_OEM_ERROR)); } } /* * Test IRadio.getDataCallList() for the response returned. */ TEST_F(RadioHidlTest, getDataCallList) { serial = GetRandomSerialNumber(); radio->getDataCallList(serial); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp->rspInfo.type); EXPECT_EQ(serial, radioRsp->rspInfo.serial); if (cardStatus.cardState == CardState::ABSENT) { ASSERT_TRUE(CheckAnyOfErrors( radioRsp->rspInfo.error, {RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::SIM_ABSENT})); } } /* * Test IRadio.setInitialAttachApn() for the response returned. */ TEST_F(RadioHidlTest, setInitialAttachApn) { serial = GetRandomSerialNumber(); DataProfileInfo dataProfileInfo; memset(&dataProfileInfo, 0, sizeof(dataProfileInfo)); dataProfileInfo.profileId = DataProfileId::IMS; dataProfileInfo.apn = hidl_string("VZWIMS"); dataProfileInfo.protocol = hidl_string("IPV4V6"); dataProfileInfo.roamingProtocol = hidl_string("IPV6"); dataProfileInfo.authType = ApnAuthType::NO_PAP_NO_CHAP; dataProfileInfo.user = ""; dataProfileInfo.password = ""; dataProfileInfo.type = DataProfileInfoType::THREE_GPP2; dataProfileInfo.maxConnsTime = 300; dataProfileInfo.maxConns = 20; dataProfileInfo.waitTime = 0; dataProfileInfo.enabled = true; dataProfileInfo.supportedApnTypesBitmap = 320; dataProfileInfo.bearerBitmap = 161543; dataProfileInfo.mtu = 0; dataProfileInfo.mvnoType = MvnoType::NONE; dataProfileInfo.mvnoMatchData = hidl_string(); bool modemCognitive = true; bool isRoaming = false; radio->setInitialAttachApn(serial, dataProfileInfo, modemCognitive, isRoaming); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp->rspInfo.type); EXPECT_EQ(serial, radioRsp->rspInfo.serial); if (cardStatus.cardState == CardState::ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp->rspInfo.error, {RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::SUBSCRIPTION_NOT_AVAILABLE}, CHECK_OEM_ERROR)); } } /* * Test IRadio.setDataAllowed() for the response returned. */ TEST_F(RadioHidlTest, setDataAllowed) { serial = GetRandomSerialNumber(); bool allow = true; radio->setDataAllowed(serial, allow); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp->rspInfo.type); EXPECT_EQ(serial, radioRsp->rspInfo.serial); if (cardStatus.cardState == CardState::ABSENT) { EXPECT_EQ(RadioError::NONE, radioRsp->rspInfo.error); } } /* * Test IRadio.setDataProfile() for the response returned. */ TEST_F(RadioHidlTest, setDataProfile) { serial = GetRandomSerialNumber(); // Create a dataProfileInfo DataProfileInfo dataProfileInfo; memset(&dataProfileInfo, 0, sizeof(dataProfileInfo)); dataProfileInfo.profileId = DataProfileId::IMS; dataProfileInfo.apn = hidl_string("VZWIMS"); dataProfileInfo.protocol = hidl_string("IPV4V6"); dataProfileInfo.roamingProtocol = hidl_string("IPV6"); dataProfileInfo.authType = ApnAuthType::NO_PAP_NO_CHAP; dataProfileInfo.user = ""; dataProfileInfo.password = ""; dataProfileInfo.type = DataProfileInfoType::THREE_GPP2; dataProfileInfo.maxConnsTime = 300; dataProfileInfo.maxConns = 20; dataProfileInfo.waitTime = 0; dataProfileInfo.enabled = true; dataProfileInfo.supportedApnTypesBitmap = 320; dataProfileInfo.bearerBitmap = 161543; dataProfileInfo.mtu = 0; dataProfileInfo.mvnoType = MvnoType::NONE; dataProfileInfo.mvnoMatchData = hidl_string(); // Create a dataProfileInfoList android::hardware::hidl_vec dataProfileInfoList = {dataProfileInfo}; bool isRoadming = false; radio->setDataProfile(serial, dataProfileInfoList, isRoadming); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp->rspInfo.type); EXPECT_EQ(serial, radioRsp->rspInfo.serial); if (cardStatus.cardState == CardState::ABSENT) { ASSERT_TRUE(CheckAnyOfErrors(radioRsp->rspInfo.error, {RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::SIM_ABSENT, RadioError::REQUEST_NOT_SUPPORTED})); } }