Tuner HAL VTS: Testing LnbDescrambling
This CL implements integration tests for LnbDescrambling. The new
testing function ScrambledBroadcastTestWithLnb tests the functionality
of the Lnb and, if the frontend is not software, tests passing a signal
through the tuner and descrambling a broadcast.
Additionally, this CL adds a context variable to the
ScrambledBroadcastTest function to determine which dataflow
(LnbDescrambling or Descrambling) is being tested. It specializes
behavior differently for each datflow to model real world
use cases. Notably, a Descrambler could be tested with no frontend when
playing back a descrambled recording, whereas testing an Lnb broadcast
would require a hardware frontend.
Bug: b/240476983
Test: ts-tradefed run vts --module VtsHalTvTunerTargetTest
Change-Id: Ia35d2d45dca4411b0a15f0585d6ddaecd3f9321a
diff --git a/tv/tuner/aidl/vts/functional/VtsHalTvTunerTargetTest.cpp b/tv/tuner/aidl/vts/functional/VtsHalTvTunerTargetTest.cpp
index 4d176ab..f78e508 100644
--- a/tv/tuner/aidl/vts/functional/VtsHalTvTunerTargetTest.cpp
+++ b/tv/tuner/aidl/vts/functional/VtsHalTvTunerTargetTest.cpp
@@ -428,28 +428,45 @@
void TunerDescramblerAidlTest::scrambledBroadcastTest(set<struct FilterConfig> mediaFilterConfs,
FrontendConfig frontendConf,
- DescramblerConfig descConfig) {
+ DescramblerConfig descConfig,
+ Dataflow_Context context) {
int32_t demuxId;
std::shared_ptr<IDemux> demux;
ASSERT_TRUE(mDemuxTests.openDemux(demux, demuxId));
DvrConfig dvrSourceConfig;
- if (descrambling.hasFrontendConnection) {
+ if (context == Dataflow_Context::DESCRAMBLING) {
+ if (descrambling.hasFrontendConnection) {
+ int32_t feId;
+ mFrontendTests.getFrontendIdByType(frontendConf.type, feId);
+ ASSERT_TRUE(mFrontendTests.openFrontendById(feId));
+ ASSERT_TRUE(mFrontendTests.setFrontendCallback());
+ if (frontendConf.isSoftwareFe) {
+ mFrontendTests.setSoftwareFrontendDvrConfig(dvrMap[descrambling.dvrSoftwareFeId]);
+ }
+ ASSERT_TRUE(mDemuxTests.setDemuxFrontendDataSource(feId));
+ mFrontendTests.setDemux(demux);
+ } else {
+ dvrSourceConfig = dvrMap[descrambling.dvrSourceId];
+ mDvrTests.setDemux(demux);
+ ASSERT_TRUE(mDvrTests.openDvrInDemux(dvrSourceConfig.type, dvrSourceConfig.bufferSize));
+ ASSERT_TRUE(mDvrTests.configDvrPlayback(dvrSourceConfig.settings));
+ ASSERT_TRUE(mDvrTests.getDvrPlaybackMQDescriptor());
+ }
+ } else if (context == Dataflow_Context::LNBDESCRAMBLING) {
int32_t feId;
mFrontendTests.getFrontendIdByType(frontendConf.type, feId);
ASSERT_TRUE(mFrontendTests.openFrontendById(feId));
ASSERT_TRUE(mFrontendTests.setFrontendCallback());
- if (frontendConf.isSoftwareFe) {
- mFrontendTests.setSoftwareFrontendDvrConfig(dvrMap[descrambling.dvrSoftwareFeId]);
+ if (mLnbId != INVALID_LNB_ID) {
+ ASSERT_TRUE(mFrontendTests.setLnb(mLnbId));
+ } else {
+ // If, for some reason, the test got here without failing. We fail it here.
+ ALOGD("mLnbId is null. Something went wrong. Exiting ScrambledBroadcastWithLnbId.");
+ FAIL();
}
ASSERT_TRUE(mDemuxTests.setDemuxFrontendDataSource(feId));
mFrontendTests.setDemux(demux);
- } else {
- dvrSourceConfig = dvrMap[descrambling.dvrSourceId];
- mDvrTests.setDemux(demux);
- ASSERT_TRUE(mDvrTests.openDvrInDemux(dvrSourceConfig.type, dvrSourceConfig.bufferSize));
- ASSERT_TRUE(mDvrTests.configDvrPlayback(dvrSourceConfig.settings));
- ASSERT_TRUE(mDvrTests.getDvrPlaybackMQDescriptor());
}
set<int64_t> filterIds;
@@ -480,24 +497,32 @@
ASSERT_TRUE(mFilterTests.startFilter(*id));
}
- if (descrambling.hasFrontendConnection) {
- // tune test
+ if (context == Dataflow_Context::DESCRAMBLING) {
+ if (descrambling.hasFrontendConnection) {
+ // tune test
+ ASSERT_TRUE(mFrontendTests.tuneFrontend(frontendConf, true /*testWithDemux*/));
+ } else {
+ // Start DVR Source
+ mDvrTests.startPlaybackInputThread(
+ dvrSourceConfig.playbackInputFile,
+ dvrSourceConfig.settings.get<DvrSettings::Tag::playback>());
+ ASSERT_TRUE(mDvrTests.startDvrPlayback());
+ }
+ } else if (context == Dataflow_Context::LNBDESCRAMBLING) {
ASSERT_TRUE(mFrontendTests.tuneFrontend(frontendConf, true /*testWithDemux*/));
- } else {
- // Start DVR Source
- mDvrTests.startPlaybackInputThread(
- dvrSourceConfig.playbackInputFile,
- dvrSourceConfig.settings.get<DvrSettings::Tag::playback>());
- ASSERT_TRUE(mDvrTests.startDvrPlayback());
}
ASSERT_TRUE(filterDataOutputTest());
- if (descrambling.hasFrontendConnection) {
+ if (context == Dataflow_Context::DESCRAMBLING) {
+ if (descrambling.hasFrontendConnection) {
+ ASSERT_TRUE(mFrontendTests.stopTuneFrontend(true /*testWithDemux*/));
+ } else {
+ mDvrTests.stopPlaybackThread();
+ ASSERT_TRUE(mDvrTests.stopDvrPlayback());
+ }
+ } else if (context == Dataflow_Context::LNBDESCRAMBLING) {
ASSERT_TRUE(mFrontendTests.stopTuneFrontend(true /*testWithDemux*/));
- } else {
- mDvrTests.stopPlaybackThread();
- ASSERT_TRUE(mDvrTests.stopDvrPlayback());
}
for (id = filterIds.begin(); id != filterIds.end(); id++) {
@@ -511,15 +536,50 @@
ASSERT_TRUE(mFilterTests.closeFilter(*id));
}
- if (descrambling.hasFrontendConnection) {
+ if (context == Dataflow_Context::DESCRAMBLING) {
+ if (descrambling.hasFrontendConnection) {
+ ASSERT_TRUE(mFrontendTests.closeFrontend());
+ } else {
+ mDvrTests.closeDvrPlayback();
+ }
+ } else if (context == Dataflow_Context::LNBDESCRAMBLING) {
ASSERT_TRUE(mFrontendTests.closeFrontend());
- } else {
- mDvrTests.closeDvrPlayback();
}
ASSERT_TRUE(mDemuxTests.closeDemux());
}
+void TunerDescramblerAidlTest::scrambledBroadcastTestWithLnb(
+ set<struct FilterConfig>& mediaFilterConfs, FrontendConfig& frontendConf,
+ DescramblerConfig& descConfig, LnbConfig& lnbConfig) {
+ // We can test the Lnb individually and make sure it functions properly. If the frontend is
+ // software, we cannot test the whole dataflow. If the frontend is hardware, we can
+ if (lnbConfig.name.compare(emptyHardwareId) == 0) {
+ vector<int32_t> ids;
+ ASSERT_TRUE(mLnbTests.getLnbIds(ids));
+ ASSERT_TRUE(ids.size() > 0);
+ ASSERT_TRUE(mLnbTests.openLnbById(ids[0]));
+ mLnbId = ids[0];
+ } else {
+ ASSERT_TRUE(mLnbTests.openLnbByName(lnbConfig.name, mLnbId));
+ }
+ // Once Lnb is opened, test some of its basic functionality
+ ASSERT_TRUE(mLnbTests.setLnbCallback());
+ ASSERT_TRUE(mLnbTests.setVoltage(lnbConfig.voltage));
+ ASSERT_TRUE(mLnbTests.setTone(lnbConfig.tone));
+ ASSERT_TRUE(mLnbTests.setSatellitePosition(lnbConfig.position));
+ if (!frontendConf.isSoftwareFe) {
+ ALOGD("Frontend is not software, testing entire dataflow.");
+ scrambledBroadcastTest(mediaFilterConfs, frontendConf, descConfig,
+ Dataflow_Context::LNBDESCRAMBLING);
+ } else {
+ ALOGD("Frontend is software, did not test the entire dataflow, but tested the Lnb "
+ "individually.");
+ }
+ ASSERT_TRUE(mLnbTests.closeLnb());
+ mLnbId = INVALID_LNB_ID;
+}
+
TEST_P(TunerLnbAidlTest, SendDiseqcMessageToLnb) {
description("Open and configure an Lnb with specific settings then send a diseqc msg to it.");
if (!lnbLive.support) {
@@ -1227,10 +1287,24 @@
filterConfs.insert(static_cast<FilterConfig>(filterMap[descrambling.audioFilterId]));
filterConfs.insert(static_cast<FilterConfig>(filterMap[descrambling.videoFilterId]));
scrambledBroadcastTest(filterConfs, frontendMap[descrambling.frontendId],
- descramblerMap[descrambling.descramblerId]);
+ descramblerMap[descrambling.descramblerId],
+ Dataflow_Context::DESCRAMBLING);
}
}
+TEST_P(TunerDescramblerAidlTest, ScrambledBroadcastDataFlowMediaFiltersTestWithLnb) {
+ description("Test media filters in scrambled broadcast use case with Lnb");
+ if (!lnbDescrambling.support) {
+ return;
+ }
+ set<FilterConfig> filterConfs;
+ filterConfs.insert(static_cast<FilterConfig>(filterMap[lnbDescrambling.audioFilterId]));
+ filterConfs.insert(static_cast<FilterConfig>(filterMap[lnbDescrambling.videoFilterId]));
+ scrambledBroadcastTestWithLnb(filterConfs, frontendMap[lnbDescrambling.frontendId],
+ descramblerMap[lnbDescrambling.descramblerId],
+ lnbMap[lnbDescrambling.lnbId]);
+}
+
INSTANTIATE_TEST_SUITE_P(PerInstance, TunerBroadcastAidlTest,
testing::ValuesIn(android::getAidlHalInstanceNames(ITuner::descriptor)),
android::PrintInstanceNameToString);
diff --git a/tv/tuner/aidl/vts/functional/VtsHalTvTunerTargetTest.h b/tv/tuner/aidl/vts/functional/VtsHalTvTunerTargetTest.h
index fbb8693..f68e1ec 100644
--- a/tv/tuner/aidl/vts/functional/VtsHalTvTunerTargetTest.h
+++ b/tv/tuner/aidl/vts/functional/VtsHalTvTunerTargetTest.h
@@ -80,7 +80,7 @@
sectionFilterIds.clear();
}
-enum class Dataflow_Context { LNBRECORD, RECORD };
+enum class Dataflow_Context { LNBRECORD, RECORD, DESCRAMBLING, LNBDESCRAMBLING };
class TunerLnbAidlTest : public testing::TestWithParam<std::string> {
public:
@@ -407,6 +407,7 @@
mDvrTests.setService(mService);
mDescramblerTests.setService(mService);
mDescramblerTests.setCasService(mCasService);
+ mLnbTests.setService(mService);
}
virtual void TearDown() override {
@@ -420,7 +421,11 @@
}
void scrambledBroadcastTest(set<struct FilterConfig> mediaFilterConfs,
- FrontendConfig frontendConf, DescramblerConfig descConfig);
+ FrontendConfig frontendConf, DescramblerConfig descConfig,
+ Dataflow_Context context);
+ void scrambledBroadcastTestWithLnb(set<struct FilterConfig>& mediaFilterConfs,
+ FrontendConfig& frontendConf, DescramblerConfig& descConfig,
+ LnbConfig& lnbConfig);
AssertionResult filterDataOutputTest();
std::shared_ptr<ITuner> mService;
@@ -430,6 +435,10 @@
FilterTests mFilterTests;
DescramblerTests mDescramblerTests;
DvrTests mDvrTests;
+ LnbTests mLnbTests;
+
+ private:
+ int32_t mLnbId = INVALID_LNB_ID;
};
GTEST_ALLOW_UNINSTANTIATED_PARAMETERIZED_TEST(TunerDescramblerAidlTest);
diff --git a/tv/tuner/config/sample_tuner_vts_config_aidl_V1.xml b/tv/tuner/config/sample_tuner_vts_config_aidl_V1.xml
index 1a148a4..f74af7e 100644
--- a/tv/tuner/config/sample_tuner_vts_config_aidl_V1.xml
+++ b/tv/tuner/config/sample_tuner_vts_config_aidl_V1.xml
@@ -196,7 +196,6 @@
videoFilterConnection="FILTER_VIDEO_DEFAULT"
dvrSoftwareFeConnection="DVR_PLAYBACK_0"
dvrSourceConnection="DVR_PLAYBACK_1">
- <optionalFilters>FILTER_TS_RECORD_0 FILTER_IP_IP_0</optionalFilters>
</descrambling>
<timeFilter timeFilterConnection="TIME_FILTER_0"/>
<lnbLive frontendConnection="FE_DVBS_0"
@@ -209,5 +208,11 @@
dvrRecordConnection="DVR_RECORD_0"
lnbConnection="LNB_0"
diseqcMsgSender="DISEQC_POWER_ON"/>
+ <lnbDescrambling frontendConnection="FE_DVBS_0"
+ audioFilterConnection="FILTER_AUDIO_DEFAULT"
+ videoFilterConnection="FILTER_VIDEO_DEFAULT"
+ lnbConnection="LNB_1"
+ descramblerConnection="DESCRAMBLER_0"/>
+
</dataFlowConfiguration>
</TunerConfiguration>