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platform_hardware_interfaces/radio/aidl/vts/radio_config_test.cpp
Tim Lin 118816d298 check all active ports 
Bug: 226018537
Test: run vts -m VtsHalRadioTargetTest

Change-Id: Ie3d8f7387ebb2846ea772d4f879039a127282c9a
Merged-In: Ie3d8f7387ebb2846ea772d4f879039a127282c9a
2022-04-13 00:28:45 +00:00

261 lines
11 KiB
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/*
* 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.
*/
#include <android-base/logging.h>
#include <android/binder_manager.h>
#include "radio_config_utils.h"
#define ASSERT_OK(ret) ASSERT_TRUE(ret.isOk())
void RadioConfigTest::SetUp() {
std::string serviceName = GetParam();
radio_config = IRadioConfig::fromBinder(
ndk::SpAIBinder(AServiceManager_waitForService(GetParam().c_str())));
ASSERT_NE(nullptr, radio_config.get());
radioRsp_config = ndk::SharedRefBase::make<RadioConfigResponse>(*this);
ASSERT_NE(nullptr, radioRsp_config.get());
count_ = 0;
radioInd_config = ndk::SharedRefBase::make<RadioConfigIndication>(*this);
ASSERT_NE(nullptr, radioInd_config.get());
radio_config->setResponseFunctions(radioRsp_config, radioInd_config);
}
void RadioConfigTest::updateSimSlotStatus() {
serial = GetRandomSerialNumber();
radio_config->getSimSlotsStatus(serial);
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_config->rspInfo.type);
EXPECT_EQ(serial, radioRsp_config->rspInfo.serial);
EXPECT_EQ(RadioError::NONE, radioRsp_config->rspInfo.error);
// assuming only 1 slot
for (const SimSlotStatus& slotStatusResponse : radioRsp_config->simSlotStatus) {
slotStatus = slotStatusResponse;
}
}
/*
* Test IRadioConfig.getHalDeviceCapabilities() for the response returned.
*/
TEST_P(RadioConfigTest, getHalDeviceCapabilities) {
serial = GetRandomSerialNumber();
ndk::ScopedAStatus res = radio_config->getHalDeviceCapabilities(serial);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
ALOGI("getHalDeviceCapabilities, rspInfo.error = %s\n",
toString(radioRsp_config->rspInfo.error).c_str());
}
/*
* Test IRadioConfig.getSimSlotsStatus() for the response returned.
*/
TEST_P(RadioConfigTest, getSimSlotsStatus) {
serial = GetRandomSerialNumber();
ndk::ScopedAStatus res = radio_config->getSimSlotsStatus(serial);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
ALOGI("getSimSlotsStatus, rspInfo.error = %s\n",
toString(radioRsp_config->rspInfo.error).c_str());
}
/*
* Test IRadioConfig.getPhoneCapability() for the response returned.
*/
TEST_P(RadioConfigTest, getPhoneCapability) {
serial = GetRandomSerialNumber();
ndk::ScopedAStatus res = radio_config->getPhoneCapability(serial);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_config->rspInfo.type);
EXPECT_EQ(serial, radioRsp_config->rspInfo.serial);
ALOGI("getPhoneCapability, rspInfo.error = %s\n",
toString(radioRsp_config->rspInfo.error).c_str());
ASSERT_TRUE(CheckAnyOfErrors(
radioRsp_config->rspInfo.error,
{RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::INTERNAL_ERR}));
if (radioRsp_config->rspInfo.error == RadioError ::NONE) {
// maxActiveData should be greater than or equal to maxActiveInternetData.
EXPECT_GE(radioRsp_config->phoneCap.maxActiveData,
radioRsp_config->phoneCap.maxActiveInternetData);
// maxActiveData and maxActiveInternetData should be 0 or positive numbers.
EXPECT_GE(radioRsp_config->phoneCap.maxActiveInternetData, 0);
}
}
/*
* Test IRadioConfig.setPreferredDataModem() for the response returned.
*/
TEST_P(RadioConfigTest, setPreferredDataModem) {
serial = GetRandomSerialNumber();
ndk::ScopedAStatus res = radio_config->getPhoneCapability(serial);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_config->rspInfo.type);
EXPECT_EQ(serial, radioRsp_config->rspInfo.serial);
ALOGI("getPhoneCapability, rspInfo.error = %s\n",
toString(radioRsp_config->rspInfo.error).c_str());
ASSERT_TRUE(CheckAnyOfErrors(
radioRsp_config->rspInfo.error,
{RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::INTERNAL_ERR}));
if (radioRsp_config->rspInfo.error != RadioError ::NONE) {
return;
}
if (radioRsp_config->phoneCap.logicalModemIds.size() == 0) {
return;
}
// We get phoneCapability. Send setPreferredDataModem command
serial = GetRandomSerialNumber();
uint8_t modemId = radioRsp_config->phoneCap.logicalModemIds[0];
res = radio_config->setPreferredDataModem(serial, modemId);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_config->rspInfo.type);
EXPECT_EQ(serial, radioRsp_config->rspInfo.serial);
ALOGI("setPreferredDataModem, rspInfo.error = %s\n",
toString(radioRsp_config->rspInfo.error).c_str());
ASSERT_TRUE(CheckAnyOfErrors(
radioRsp_config->rspInfo.error,
{RadioError::NONE, RadioError::RADIO_NOT_AVAILABLE, RadioError::INTERNAL_ERR}));
}
/*
* Test IRadioConfig.setPreferredDataModem() with invalid arguments.
*/
TEST_P(RadioConfigTest, setPreferredDataModem_invalidArgument) {
serial = GetRandomSerialNumber();
uint8_t modemId = -1;
ndk::ScopedAStatus res = radio_config->setPreferredDataModem(serial, modemId);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_config->rspInfo.type);
EXPECT_EQ(serial, radioRsp_config->rspInfo.serial);
ALOGI("setPreferredDataModem, rspInfo.error = %s\n",
toString(radioRsp_config->rspInfo.error).c_str());
ASSERT_TRUE(CheckAnyOfErrors(radioRsp_config->rspInfo.error,
{RadioError::INVALID_ARGUMENTS, RadioError::RADIO_NOT_AVAILABLE,
RadioError::INTERNAL_ERR}));
}
/*
* Test IRadioConfig.setSimSlotsMapping() for the response returned.
*/
TEST_P(RadioConfigTest, setSimSlotsMapping) {
// get slot status and set SIM slots mapping based on the result.
updateSimSlotStatus();
if (radioRsp_config->rspInfo.error == RadioError::NONE) {
SlotPortMapping slotPortMapping;
// put invalid value at first and adjust by slotStatusResponse.
slotPortMapping.physicalSlotId = -1;
slotPortMapping.portId = -1;
std::vector<SlotPortMapping> slotPortMappingList = {slotPortMapping};
if (isDsDsEnabled()) {
slotPortMappingList.push_back(slotPortMapping);
} else if (isTsTsEnabled()) {
slotPortMappingList.push_back(slotPortMapping);
slotPortMappingList.push_back(slotPortMapping);
}
for (size_t i = 0; i < radioRsp_config->simSlotStatus.size(); i++) {
ASSERT_TRUE(radioRsp_config->simSlotStatus[i].portInfo.size() > 0);
for (size_t j = 0; j < radioRsp_config->simSlotStatus[i].portInfo.size(); j++) {
if (radioRsp_config->simSlotStatus[i].portInfo[j].portActive) {
int32_t logicalSlotId =
radioRsp_config->simSlotStatus[i].portInfo[j].logicalSlotId;
// logicalSlotId should be 0 or positive numbers if the port
// is active.
EXPECT_GE(logicalSlotId, 0);
// logicalSlotId should be less than the maximum number of
// supported SIM slots.
EXPECT_LT(logicalSlotId, slotPortMappingList.size());
if (logicalSlotId >= 0 && logicalSlotId < slotPortMappingList.size()) {
slotPortMappingList[logicalSlotId].physicalSlotId = i;
slotPortMappingList[logicalSlotId].portId = j;
}
}
}
}
// set SIM slots mapping
for (size_t i = 0; i < slotPortMappingList.size(); i++) {
// physicalSlotId and portId should be 0 or positive numbers for the
// input of setSimSlotsMapping.
EXPECT_GE(slotPortMappingList[i].physicalSlotId, 0);
EXPECT_GE(slotPortMappingList[i].portId, 0);
}
serial = GetRandomSerialNumber();
ndk::ScopedAStatus res = radio_config->setSimSlotsMapping(serial, slotPortMappingList);
ASSERT_OK(res);
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_config->rspInfo.type);
EXPECT_EQ(serial, radioRsp_config->rspInfo.serial);
ALOGI("setSimSlotsMapping, rspInfo.error = %s\n",
toString(radioRsp_config->rspInfo.error).c_str());
ASSERT_TRUE(CheckAnyOfErrors(radioRsp_config->rspInfo.error, {RadioError::NONE}));
// Give some time for modem to fully switch SIM configuration
sleep(MODEM_SET_SIM_SLOT_MAPPING_DELAY_IN_SECONDS);
}
}
/*
* Test IRadioConfig.getSimSlotStatus() for the response returned.
*/
TEST_P(RadioConfigTest, checkPortInfoExistsAndPortActive) {
serial = GetRandomSerialNumber();
ndk::ScopedAStatus res = radio_config->getSimSlotsStatus(serial);
ASSERT_OK(res);
ALOGI("getSimSlotsStatus, rspInfo.error = %s\n",
toString(radioRsp_config->rspInfo.error).c_str());
EXPECT_EQ(std::cv_status::no_timeout, wait());
EXPECT_EQ(RadioResponseType::SOLICITED, radioRsp_config->rspInfo.type);
EXPECT_EQ(serial, radioRsp_config->rspInfo.serial);
if (radioRsp_config->rspInfo.error == RadioError::NONE) {
uint8_t simCount = 0;
// check if cardState is present, portInfo size should be more than 0
for (const SimSlotStatus& slotStatusResponse : radioRsp_config->simSlotStatus) {
if (slotStatusResponse.cardState == CardStatus::STATE_PRESENT) {
ASSERT_TRUE(slotStatusResponse.portInfo.size() > 0);
for (const SimPortInfo& simPortInfo : slotStatusResponse.portInfo) {
if (simPortInfo.portActive) {
simCount++;
}
}
}
}
if (isSsSsEnabled()) {
EXPECT_EQ(1, simCount);
} else if (isDsDsEnabled()) {
EXPECT_EQ(2, simCount);
} else if (isTsTsEnabled()) {
EXPECT_EQ(3, simCount);
}
}
}
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