/*
* Copyright 2020 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 "FrontendTests.h"
Return<void> FrontendCallback::onEvent(FrontendEventType frontendEventType) {
android::Mutex::Autolock autoLock(mMsgLock);
ALOGD("[vts] frontend event received. Type: %d", frontendEventType);
mEventReceived = true;
mMsgCondition.signal();
switch (frontendEventType) {
case FrontendEventType::LOCKED:
mLockMsgReceived = true;
mLockMsgCondition.signal();
return Void();
default:
// do nothing
return Void();
}
}
Return<void> FrontendCallback::onScanMessage(FrontendScanMessageType type,
const FrontendScanMessage& message) {
android::Mutex::Autolock autoLock(mMsgLock);
while (!mScanMsgProcessed) {
mMsgCondition.wait(mMsgLock);
}
ALOGD("[vts] frontend scan message. Type: %d", type);
mScanMessageReceived = true;
mScanMsgProcessed = false;
mScanMessageType = type;
mScanMessage = message;
mMsgCondition.signal();
return Void();
}
Return<void> FrontendCallback::onScanMessageExt1_1(FrontendScanMessageTypeExt1_1 type,
const FrontendScanMessageExt1_1& message) {
android::Mutex::Autolock autoLock(mMsgLock);
ALOGD("[vts] frontend ext1_1 scan message. Type: %d", type);
switch (message.getDiscriminator()) {
case FrontendScanMessageExt1_1::hidl_discriminator::modulation:
readFrontendScanMessageExt1_1Modulation(message.modulation());
break;
case FrontendScanMessageExt1_1::hidl_discriminator::isHighPriority:
ALOGD("[vts] frontend ext1_1 scan message high priority: %d", message.isHighPriority());
break;
case FrontendScanMessageExt1_1::hidl_discriminator::annex:
ALOGD("[vts] frontend ext1_1 scan message dvbc annex: %hhu", message.annex());
break;
default:
break;
}
return Void();
}
void FrontendCallback::readFrontendScanMessageExt1_1Modulation(FrontendModulation modulation) {
switch (modulation.getDiscriminator()) {
case FrontendModulation::hidl_discriminator::dvbc:
ALOGD("[vts] frontend ext1_1 scan message modulation dvbc: %d", modulation.dvbc());
break;
case FrontendModulation::hidl_discriminator::dvbs:
ALOGD("[vts] frontend ext1_1 scan message modulation dvbs: %d", modulation.dvbs());
break;
case FrontendModulation::hidl_discriminator::isdbs:
ALOGD("[vts] frontend ext1_1 scan message modulation isdbs: %d", modulation.isdbs());
break;
case FrontendModulation::hidl_discriminator::isdbs3:
ALOGD("[vts] frontend ext1_1 scan message modulation isdbs3: %d", modulation.isdbs3());
break;
case FrontendModulation::hidl_discriminator::isdbt:
ALOGD("[vts] frontend ext1_1 scan message modulation isdbt: %d", modulation.isdbt());
break;
case FrontendModulation::hidl_discriminator::atsc:
ALOGD("[vts] frontend ext1_1 scan message modulation atsc: %d", modulation.atsc());
break;
case FrontendModulation::hidl_discriminator::atsc3:
ALOGD("[vts] frontend ext1_1 scan message modulation atsc3: %d", modulation.atsc3());
break;
case FrontendModulation::hidl_discriminator::dvbt:
ALOGD("[vts] frontend ext1_1 scan message modulation dvbt: %d", modulation.dvbt());
break;
default:
break;
}
}
void FrontendCallback::tuneTestOnLock(sp<IFrontend>& frontend, FrontendSettings settings,
FrontendSettingsExt1_1 settingsExt1_1) {
sp<android::hardware::tv::tuner::V1_1::IFrontend> frontend_1_1;
frontend_1_1 = android::hardware::tv::tuner::V1_1::IFrontend::castFrom(frontend);
if (frontend_1_1 == nullptr) {
EXPECT_TRUE(false) << "Couldn't get 1.1 IFrontend from the Hal implementation.";
return;
}
Result result = frontend_1_1->tune_1_1(settings, settingsExt1_1);
EXPECT_TRUE(result == Result::SUCCESS);
android::Mutex::Autolock autoLock(mMsgLock);
while (!mLockMsgReceived) {
if (-ETIMEDOUT == mLockMsgCondition.waitRelative(mMsgLock, WAIT_TIMEOUT)) {
EXPECT_TRUE(false) << "Event LOCKED not received within timeout";
mLockMsgReceived = false;
return;
}
}
mLockMsgReceived = false;
}
void FrontendCallback::scanTest(sp<IFrontend>& frontend, FrontendConfig1_1 config,
FrontendScanType type) {
sp<android::hardware::tv::tuner::V1_1::IFrontend> frontend_1_1;
frontend_1_1 = android::hardware::tv::tuner::V1_1::IFrontend::castFrom(frontend);
if (frontend_1_1 == nullptr) {
EXPECT_TRUE(false) << "Couldn't get 1.1 IFrontend from the Hal implementation.";
return;
}
uint32_t targetFrequency = getTargetFrequency(config.config1_0.settings);
if (type == FrontendScanType::SCAN_BLIND) {
// reset the frequency in the scan configuration to test blind scan. The settings param of
// passed in means the real input config on the transponder connected to the DUT.
// We want the blind the test to start from lower frequency than this to check the blind
// scan implementation.
resetBlindScanStartingFrequency(config, targetFrequency - 100);
}
Result result = frontend_1_1->scan_1_1(config.config1_0.settings, type, config.settingsExt1_1);
EXPECT_TRUE(result == Result::SUCCESS);
bool scanMsgLockedReceived = false;
bool targetFrequencyReceived = false;
android::Mutex::Autolock autoLock(mMsgLock);
wait:
while (!mScanMessageReceived) {
if (-ETIMEDOUT == mMsgCondition.waitRelative(mMsgLock, WAIT_TIMEOUT)) {
EXPECT_TRUE(false) << "Scan message not received within timeout";
mScanMessageReceived = false;
mScanMsgProcessed = true;
return;
}
}
if (mScanMessageType != FrontendScanMessageType::END) {
if (mScanMessageType == FrontendScanMessageType::LOCKED) {
scanMsgLockedReceived = true;
Result result =
frontend_1_1->scan_1_1(config.config1_0.settings, type, config.settingsExt1_1);
EXPECT_TRUE(result == Result::SUCCESS);
}
if (mScanMessageType == FrontendScanMessageType::FREQUENCY) {
targetFrequencyReceived = mScanMessage.frequencies().size() > 0 &&
mScanMessage.frequencies()[0] == targetFrequency;
}
if (mScanMessageType == FrontendScanMessageType::PROGRESS_PERCENT) {
ALOGD("[vts] Scan in progress...[%d%%]", mScanMessage.progressPercent());
}
mScanMessageReceived = false;
mScanMsgProcessed = true;
mMsgCondition.signal();
goto wait;
}
EXPECT_TRUE(scanMsgLockedReceived) << "Scan message LOCKED not received before END";
EXPECT_TRUE(targetFrequencyReceived) << "frequency not received before LOCKED on blindScan";
mScanMessageReceived = false;
mScanMsgProcessed = true;
}
uint32_t FrontendCallback::getTargetFrequency(FrontendSettings settings) {
switch (settings.getDiscriminator()) {
case FrontendSettings::hidl_discriminator::analog:
return settings.analog().frequency;
case FrontendSettings::hidl_discriminator::atsc:
return settings.atsc().frequency;
case FrontendSettings::hidl_discriminator::atsc3:
return settings.atsc3().frequency;
case FrontendSettings::hidl_discriminator::dvbc:
return settings.dvbc().frequency;
case FrontendSettings::hidl_discriminator::dvbs:
return settings.dvbs().frequency;
case FrontendSettings::hidl_discriminator::dvbt:
return settings.dvbt().frequency;
case FrontendSettings::hidl_discriminator::isdbs:
return settings.isdbs().frequency;
case FrontendSettings::hidl_discriminator::isdbs3:
return settings.isdbs3().frequency;
case FrontendSettings::hidl_discriminator::isdbt:
return settings.isdbt().frequency;
}
}
void FrontendCallback::resetBlindScanStartingFrequency(FrontendConfig1_1& config,
uint32_t resetingFreq) {
switch (config.config1_0.settings.getDiscriminator()) {
case FrontendSettings::hidl_discriminator::analog:
config.config1_0.settings.analog().frequency = resetingFreq;
break;
case FrontendSettings::hidl_discriminator::atsc:
config.config1_0.settings.atsc().frequency = resetingFreq;
break;
case FrontendSettings::hidl_discriminator::atsc3:
config.config1_0.settings.atsc3().frequency = resetingFreq;
break;
case FrontendSettings::hidl_discriminator::dvbc:
config.config1_0.settings.dvbc().frequency = resetingFreq;
break;
case FrontendSettings::hidl_discriminator::dvbs:
config.config1_0.settings.dvbs().frequency = resetingFreq;
break;
case FrontendSettings::hidl_discriminator::dvbt:
config.config1_0.settings.dvbt().frequency = resetingFreq;
break;
case FrontendSettings::hidl_discriminator::isdbs:
config.config1_0.settings.isdbs().frequency = resetingFreq;
break;
case FrontendSettings::hidl_discriminator::isdbs3:
config.config1_0.settings.isdbs3().frequency = resetingFreq;
break;
case FrontendSettings::hidl_discriminator::isdbt:
config.config1_0.settings.isdbt().frequency = resetingFreq;
break;
}
}
AssertionResult FrontendTests::getFrontendIds() {
Result status;
mService->getFrontendIds([&](Result result, const hidl_vec<FrontendId>& frontendIds) {
status = result;
mFeIds = frontendIds;
});
return AssertionResult(status == Result::SUCCESS);
}
AssertionResult FrontendTests::getFrontendInfo(uint32_t frontendId) {
Result status;
mService->getFrontendInfo(frontendId, [&](Result result, const FrontendInfo& frontendInfo) {
mFrontendInfo = frontendInfo;
status = result;
});
return AssertionResult(status == Result::SUCCESS);
}
AssertionResult FrontendTests::openFrontendById(uint32_t frontendId) {
Result status;
mService->openFrontendById(frontendId, [&](Result result, const sp<IFrontend>& frontend) {
mFrontend = frontend;
status = result;
});
return AssertionResult(status == Result::SUCCESS);
}
AssertionResult FrontendTests::setFrontendCallback() {
EXPECT_TRUE(mFrontend) << "Test with openFrontendById first.";
mFrontendCallback = new FrontendCallback();
auto callbackStatus = mFrontend->setCallback(mFrontendCallback);
return AssertionResult(callbackStatus.isOk());
}
AssertionResult FrontendTests::scanFrontend(FrontendConfig1_1 config, FrontendScanType type) {
EXPECT_TRUE(mFrontendCallback)
<< "test with openFrontendById/setFrontendCallback/getFrontendInfo first.";
EXPECT_TRUE(mFrontendInfo.type == config.config1_0.type)
<< "FrontendConfig does not match the frontend info of the given id.";
mFrontendCallback->scanTest(mFrontend, config, type);
return AssertionResult(true);
}
AssertionResult FrontendTests::stopScanFrontend() {
EXPECT_TRUE(mFrontend) << "Test with openFrontendById first.";
Result status;
status = mFrontend->stopScan();
return AssertionResult(status == Result::SUCCESS);
}
AssertionResult FrontendTests::getFrontendDtmbCaps(uint32_t id) {
Result status;
mService->getFrontendDtmbCapabilities(
id, [&](Result result, const FrontendDtmbCapabilities& /*caps*/) { status = result; });
return AssertionResult(status == Result::SUCCESS);
}
AssertionResult FrontendTests::linkCiCam(uint32_t ciCamId) {
sp<android::hardware::tv::tuner::V1_1::IFrontend> frontend_1_1;
frontend_1_1 = android::hardware::tv::tuner::V1_1::IFrontend::castFrom(mFrontend);
if (frontend_1_1 == nullptr) {
EXPECT_TRUE(false) << "Couldn't get 1.1 IFrontend from the Hal implementation.";
return failure();
}
Result status;
uint32_t ltsId;
frontend_1_1->linkCiCam(ciCamId, [&](Result r, uint32_t id) {
status = r;
ltsId = id;
});
return AssertionResult(status == Result::SUCCESS);
}
AssertionResult FrontendTests::unlinkCiCam(uint32_t ciCamId) {
sp<android::hardware::tv::tuner::V1_1::IFrontend> frontend_1_1;
frontend_1_1 = android::hardware::tv::tuner::V1_1::IFrontend::castFrom(mFrontend);
if (frontend_1_1 == nullptr) {
EXPECT_TRUE(false) << "Couldn't get 1.1 IFrontend from the Hal implementation.";
return failure();
}
Result status = frontend_1_1->unlinkCiCam(ciCamId);
return AssertionResult(status == Result::SUCCESS);
}
void FrontendTests::verifyFrontendStatusExt1_1(vector<FrontendStatusTypeExt1_1> statusTypes,
vector<FrontendStatusExt1_1> expectStatuses) {
ASSERT_TRUE(mFrontend) << "Frontend is not opened yet.";
Result status;
vector<FrontendStatusExt1_1> realStatuses;
sp<android::hardware::tv::tuner::V1_1::IFrontend> frontend_1_1;
frontend_1_1 = android::hardware::tv::tuner::V1_1::IFrontend::castFrom(mFrontend);
if (frontend_1_1 == nullptr) {
EXPECT_TRUE(false) << "Couldn't get 1.1 IFrontend from the Hal implementation.";
return;
}
frontend_1_1->getStatusExt1_1(
statusTypes, [&](Result result, const hidl_vec<FrontendStatusExt1_1>& statuses) {
status = result;
realStatuses = statuses;
});
ASSERT_TRUE(realStatuses.size() == statusTypes.size());
for (int i = 0; i < statusTypes.size(); i++) {
FrontendStatusTypeExt1_1 type = statusTypes[i];
switch (type) {
case FrontendStatusTypeExt1_1::MODULATIONS: {
// TODO: verify modulations
break;
}
case FrontendStatusTypeExt1_1::BERS: {
ASSERT_TRUE(std::equal(realStatuses[i].bers().begin(), realStatuses[i].bers().end(),
expectStatuses[i].bers().begin()));
break;
}
case FrontendStatusTypeExt1_1::CODERATES: {
ASSERT_TRUE(std::equal(realStatuses[i].codeRates().begin(),
realStatuses[i].codeRates().end(),
expectStatuses[i].codeRates().begin()));
break;
}
case FrontendStatusTypeExt1_1::GUARD_INTERVAL: {
// TODO: verify interval
break;
}
case FrontendStatusTypeExt1_1::TRANSMISSION_MODE: {
// TODO: verify tranmission mode
break;
}
case FrontendStatusTypeExt1_1::UEC: {
ASSERT_TRUE(realStatuses[i].uec() == expectStatuses[i].uec());
break;
}
case FrontendStatusTypeExt1_1::T2_SYSTEM_ID: {
ASSERT_TRUE(realStatuses[i].systemId() == expectStatuses[i].systemId());
break;
}
case FrontendStatusTypeExt1_1::INTERLEAVINGS: {
ASSERT_TRUE(std::equal(realStatuses[i].interleaving().begin(),
realStatuses[i].interleaving().end(),
expectStatuses[i].interleaving().begin()));
break;
}
case FrontendStatusTypeExt1_1::ISDBT_SEGMENTS: {
ASSERT_TRUE(std::equal(realStatuses[i].isdbtSegment().begin(),
realStatuses[i].isdbtSegment().end(),
expectStatuses[i].isdbtSegment().begin()));
break;
}
case FrontendStatusTypeExt1_1::TS_DATA_RATES: {
ASSERT_TRUE(std::equal(realStatuses[i].tsDataRate().begin(),
realStatuses[i].tsDataRate().end(),
expectStatuses[i].tsDataRate().begin()));
break;
}
case FrontendStatusTypeExt1_1::ROLL_OFF: {
// TODO: verify roll off
break;
}
case FrontendStatusTypeExt1_1::IS_MISO: {
ASSERT_TRUE(realStatuses[i].isMiso() == expectStatuses[i].isMiso());
break;
}
case FrontendStatusTypeExt1_1::IS_LINEAR: {
ASSERT_TRUE(realStatuses[i].isLinear() == expectStatuses[i].isLinear());
break;
}
case FrontendStatusTypeExt1_1::IS_SHORT_FRAMES: {
ASSERT_TRUE(realStatuses[i].isShortFrames() == expectStatuses[i].isShortFrames());
break;
}
default: {
continue;
}
}
}
ASSERT_TRUE(status == Result::SUCCESS);
}
AssertionResult FrontendTests::tuneFrontend(FrontendConfig1_1 config, bool testWithDemux) {
EXPECT_TRUE(mFrontendCallback)
<< "test with openFrontendById/setFrontendCallback/getFrontendInfo first.";
EXPECT_TRUE(mFrontendInfo.type == config.config1_0.type)
<< "FrontendConfig does not match the frontend info of the given id.";
mIsSoftwareFe = config.config1_0.isSoftwareFe;
bool result = true;
if (mIsSoftwareFe && testWithDemux) {
result &= mDvrTests.openDvrInDemux(mDvrConfig.type, mDvrConfig.bufferSize) == success();
result &= mDvrTests.configDvrPlayback(mDvrConfig.settings) == success();
result &= mDvrTests.getDvrPlaybackMQDescriptor() == success();
mDvrTests.startPlaybackInputThread(mDvrConfig.playbackInputFile,
mDvrConfig.settings.playback());
if (!result) {
ALOGW("[vts] Software frontend dvr configure failed.");
return failure();
}
}
mFrontendCallback->tuneTestOnLock(mFrontend, config.config1_0.settings, config.settingsExt1_1);
return AssertionResult(true);
}
AssertionResult FrontendTests::stopTuneFrontend(bool testWithDemux) {
EXPECT_TRUE(mFrontend) << "Test with openFrontendById first.";
Result status;
status = mFrontend->stopTune();
if (mIsSoftwareFe && testWithDemux) {
mDvrTests.stopPlaybackThread();
mDvrTests.closeDvrPlayback();
}
return AssertionResult(status == Result::SUCCESS);
}
AssertionResult FrontendTests::closeFrontend() {
EXPECT_TRUE(mFrontend) << "Test with openFrontendById first.";
Result status;
status = mFrontend->close();
mFrontend = nullptr;
mFrontendCallback = nullptr;
return AssertionResult(status == Result::SUCCESS);
}
void FrontendTests::getFrontendIdByType(FrontendType feType, uint32_t& feId) {
ASSERT_TRUE(getFrontendIds());
ASSERT_TRUE(mFeIds.size() > 0);
for (size_t i = 0; i < mFeIds.size(); i++) {
ASSERT_TRUE(getFrontendInfo(mFeIds[i]));
if (mFrontendInfo.type != feType) {
continue;
}
feId = mFeIds[i];
return;
}
feId = INVALID_ID;
}
void FrontendTests::tuneTest(FrontendConfig1_1 frontendConf) {
uint32_t feId;
getFrontendIdByType(frontendConf.config1_0.type, feId);
ASSERT_TRUE(feId != INVALID_ID);
ASSERT_TRUE(openFrontendById(feId));
ASSERT_TRUE(setFrontendCallback());
if (frontendConf.canConnectToCiCam) {
ASSERT_TRUE(linkCiCam(frontendConf.ciCamId));
ASSERT_TRUE(unlinkCiCam(frontendConf.ciCamId));
}
ASSERT_TRUE(tuneFrontend(frontendConf, false /*testWithDemux*/));
verifyFrontendStatusExt1_1(frontendConf.tuneStatusTypes, frontendConf.expectTuneStatuses);
ASSERT_TRUE(stopTuneFrontend(false /*testWithDemux*/));
ASSERT_TRUE(closeFrontend());
}
void FrontendTests::scanTest(FrontendConfig1_1 frontendConf, FrontendScanType scanType) {
uint32_t feId;
getFrontendIdByType(frontendConf.config1_0.type, feId);
ASSERT_TRUE(feId != INVALID_ID);
ASSERT_TRUE(openFrontendById(feId));
ASSERT_TRUE(setFrontendCallback());
ASSERT_TRUE(scanFrontend(frontendConf, scanType));
ASSERT_TRUE(stopScanFrontend());
ASSERT_TRUE(closeFrontend());
}
void FrontendTests::getFrontendDtmbCapsTest() {
uint32_t feId;
getFrontendIdByType(
static_cast<FrontendType>(android::hardware::tv::tuner::V1_1::FrontendType::DTMB),
feId);
if (feId != INVALID_ID) {
ALOGD("[vts] Found DTMB Frontend");
ASSERT_TRUE(getFrontendDtmbCaps(feId));
}
}