bool getProperties();
bool openTuner();
bool checkAntenna();
+ BandConfig& getBand(unsigned idx);
static const nsecs_t kConnectCallbacktimeoutNs = seconds_to_nanoseconds(1);
static const nsecs_t kConfigCallbacktimeoutNs = seconds_to_nanoseconds(10);
bool skipped;
sp<IBroadcastRadio> mRadio;
Properties mHalProperties;
+ bool mHalPropertiesInitialized = false;
sp<ITuner> mTuner;
sp<MyCallback> mTunerCallback;
Mutex mLock;
bool BroadcastRadioHidlTest::getProperties()
{
- if (mHalProperties.bands.size() == 0) {
- Result halResult = Result::NOT_INITIALIZED;
- Return<void> hidlReturn =
- mRadio->getProperties([&](Result result, const Properties& properties) {
- halResult = result;
- if (result == Result::OK) {
- mHalProperties = properties;
- }
- });
+ if (mHalPropertiesInitialized) return true;
- EXPECT_TRUE(hidlReturn.isOk());
- EXPECT_EQ(Result::OK, halResult);
- EXPECT_EQ(Class::AM_FM, mHalProperties.classId);
- EXPECT_GT(mHalProperties.numTuners, 0u);
+ Result halResult = Result::NOT_INITIALIZED;
+ auto hidlReturn = mRadio->getProperties([&](Result result, const Properties& properties) {
+ halResult = result;
+ if (result == Result::OK) {
+ mHalProperties = properties;
+ }
+ });
+
+ EXPECT_TRUE(hidlReturn.isOk());
+ EXPECT_EQ(Result::OK, halResult);
+ EXPECT_EQ(radioClass, mHalProperties.classId);
+ EXPECT_GT(mHalProperties.numTuners, 0u);
+ if (radioClass == Class::AM_FM) {
EXPECT_GT(mHalProperties.bands.size(), 0u);
}
- return mHalProperties.bands.size() > 0;
+
+ if (hidlReturn.isOk() && halResult == Result::OK) {
+ mHalPropertiesInitialized = true;
+ return true;
+ }
+ return false;
}
bool BroadcastRadioHidlTest::openTuner()
}
if (mTuner.get() == nullptr) {
Result halResult = Result::NOT_INITIALIZED;
- Return<void> hidlReturn =
- mRadio->openTuner(mHalProperties.bands[0], true, mTunerCallback,
- [&](Result result, const sp<ITuner>& tuner) {
- halResult = result;
- if (result == Result::OK) {
- mTuner = tuner;
- }
- });
+ auto openCb = [&](Result result, const sp<ITuner>& tuner) {
+ halResult = result;
+ if (result == Result::OK) {
+ mTuner = tuner;
+ }
+ };
+ auto hidlReturn = mRadio->openTuner(getBand(0), true, mTunerCallback, openCb);
EXPECT_TRUE(hidlReturn.isOk());
EXPECT_EQ(Result::OK, halResult);
- EXPECT_EQ(true, waitForCallback(kConfigCallbacktimeoutNs));
+ if (radioClass == Class::AM_FM) {
+ EXPECT_EQ(true, waitForCallback(kConfigCallbacktimeoutNs));
+ }
}
EXPECT_NE(nullptr, mTuner.get());
return nullptr != mTuner.get();
bool BroadcastRadioHidlTest::checkAntenna()
{
+ if (radioClass != Class::AM_FM) return true;
+
BandConfig halConfig;
Result halResult = Result::NOT_INITIALIZED;
Return<void> hidlReturn =
return ((halResult == Result::OK) && (halConfig.antennaConnected == true));
}
+BandConfig& BroadcastRadioHidlTest::getBand(unsigned idx) {
+ static BandConfig dummyBandConfig = {};
+ if (radioClass == Class::AM_FM) {
+ EXPECT_GT(mHalProperties.bands.size(), idx);
+ if (mHalProperties.bands.size() > idx) {
+ return mHalProperties.bands[idx];
+ } else {
+ return dummyBandConfig;
+ }
+ } else {
+ return dummyBandConfig;
+ }
+}
/**
* Test IBroadcastRadio::getProperties() method
* Verifies that:
* - the HAL implements the method
* - the method returns 0 (no error)
- * - the implementation class is AM_FM
+ * - the implementation class is radioClass
* - the implementation supports at least one tuner
* - the implementation supports at one band
*/
* Test IBroadcastRadio::openTuner() method called twice.
*
* Verifies that:
- * - the openTuner method fails when called for the second time without deleting previous
- * ITuner instance
+ * - the openTuner method fails with INVALID_STATE or succeeds when called for the second time
+ * without deleting previous ITuner instance
*/
TEST_P(BroadcastRadioHidlTest, OpenTunerTwice) {
RETURN_IF_SKIPPED;
EXPECT_TRUE(openTuner());
Result halResult = Result::NOT_INITIALIZED;
- Return<void> hidlReturn =
- mRadio->openTuner(mHalProperties.bands[0], true, mTunerCallback,
- [&](Result result, const sp<ITuner>&) {
- halResult = result;
- });
+ auto openCb = [&](Result result, const sp<ITuner>&) { halResult = result; };
+ auto hidlReturn = mRadio->openTuner(getBand(0), true, mTunerCallback, openCb);
EXPECT_TRUE(hidlReturn.isOk());
- EXPECT_EQ(Result::INVALID_STATE, halResult);
- EXPECT_TRUE(waitForCallback(kConfigCallbacktimeoutNs));
+ if (halResult == Result::INVALID_STATE) {
+ EXPECT_TRUE(waitForCallback(kConfigCallbacktimeoutNs));
+ }
}
/**
* - the configuration read back from HAl has the same class Id
*/
TEST_P(BroadcastRadioHidlTest, SetAndGetConfiguration) {
+ if (radioClass != Class::AM_FM) skipped = true;
RETURN_IF_SKIPPED;
ASSERT_EQ(true, openTuner());
// test setConfiguration
mCallbackCalled = false;
- Return<Result> hidlResult = mTuner->setConfiguration(mHalProperties.bands[1]);
+ Return<Result> hidlResult = mTuner->setConfiguration(getBand(1));
EXPECT_TRUE(hidlResult.isOk());
EXPECT_EQ(Result::OK, hidlResult);
EXPECT_EQ(true, waitForCallback(kConfigCallbacktimeoutNs));
EXPECT_EQ(Result::OK, mResultCallbackData);
- EXPECT_EQ(mHalProperties.bands[1], mBandConfigCallbackData);
+ EXPECT_EQ(getBand(1), mBandConfigCallbackData);
// test getConfiguration
BandConfig halConfig;
});
EXPECT_TRUE(hidlReturn.isOk());
EXPECT_EQ(Result::OK, halResult);
- EXPECT_EQ(mHalProperties.bands[1], halConfig);
+ EXPECT_EQ(getBand(1), halConfig);
}
/**
* - the method recovers and succeeds after passing correct arguments
*/
TEST_P(BroadcastRadioHidlTest, SetConfigurationFails) {
+ if (radioClass != Class::AM_FM) skipped = true;
RETURN_IF_SKIPPED;
ASSERT_EQ(true, openTuner());
// Test setConfiguration recovering after passing good data.
mCallbackCalled = false;
- setResult = mTuner->setConfiguration(mHalProperties.bands[0]);
+ setResult = mTuner->setConfiguration(getBand(0));
EXPECT_TRUE(setResult.isOk());
EXPECT_EQ(Result::OK, setResult);
EXPECT_EQ(true, waitForCallback(kConfigCallbacktimeoutNs));
* - skipping sub-channel or not does not fail the call
*/
TEST_P(BroadcastRadioHidlTest, Step) {
+ if (radioClass != Class::AM_FM) skipped = true;
RETURN_IF_SKIPPED;
ASSERT_EQ(true, openTuner());
ASSERT_TRUE(checkAntenna());
* - the tuned callback is received within kTuneCallbacktimeoutNs ns after tune()
*/
TEST_P(BroadcastRadioHidlTest, TuneAndGetProgramInformationAndCancel) {
+ if (radioClass != Class::AM_FM) skipped = true;
RETURN_IF_SKIPPED;
ASSERT_EQ(true, openTuner());
ASSERT_TRUE(checkAntenna());
+ auto& band = getBand(0);
+
// test tune
- ASSERT_GT(mHalProperties.bands[0].spacings.size(), 0u);
- ASSERT_GT(mHalProperties.bands[0].upperLimit, mHalProperties.bands[0].lowerLimit);
+ ASSERT_GT(band.spacings.size(), 0u);
+ ASSERT_GT(band.upperLimit, band.lowerLimit);
// test scan UP
- uint32_t lowerLimit = mHalProperties.bands[0].lowerLimit;
- uint32_t upperLimit = mHalProperties.bands[0].upperLimit;
- uint32_t spacing = mHalProperties.bands[0].spacings[0];
+ uint32_t lowerLimit = band.lowerLimit;
+ uint32_t upperLimit = band.upperLimit;
+ uint32_t spacing = band.spacings[0];
uint32_t channel =
lowerLimit + (((upperLimit - lowerLimit) / 2 + spacing - 1) / spacing) * spacing;
EXPECT_TRUE(hidlReturn.isOk());
EXPECT_EQ(Result::OK, halResult);
if (mResultCallbackData == Result::OK) {
- EXPECT_EQ(true, halInfo.tuned);
EXPECT_LE(halInfo.channel, upperLimit);
EXPECT_GE(halInfo.channel, lowerLimit);
- } else {
- EXPECT_EQ(false, halInfo.tuned);
}
// test cancel
* - the method recovers and succeeds after passing correct arguments
*/
TEST_P(BroadcastRadioHidlTest, TuneFailsOutOfBounds) {
+ if (radioClass != Class::AM_FM) skipped = true;
RETURN_IF_SKIPPED;
ASSERT_TRUE(openTuner());
ASSERT_TRUE(checkAntenna());