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gerrit.omnirom.org / android_hardware_interfaces / 94aae5e51d4886a222da0a003595a0831718c136 / . / audio / aidl / vts / VtsHalVisualizerTargetTest.cpp
blob: a7834fbb9c1da633b73e78805ad20b6ebc71a692 [file] [log] [blame]
/*
* Copyright (C) 2022 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 <aidl/Vintf.h>
#define LOG_TAG "VtsHalVisualizerTest"
#include <Utils.h>
#include "EffectHelper.h"
using namespace android;
using aidl::android::hardware::audio::effect::Capability;
using aidl::android::hardware::audio::effect::Descriptor;
using aidl::android::hardware::audio::effect::IEffect;
using aidl::android::hardware::audio::effect::IFactory;
using aidl::android::hardware::audio::effect::kVisualizerTypeUUID;
using aidl::android::hardware::audio::effect::Parameter;
using aidl::android::hardware::audio::effect::Visualizer;
/**
* Here we focus on specific parameter checking, general IEffect interfaces testing performed in
* VtsAudioEffectTargetTest.
*/
enum ParamName {
PARAM_INSTANCE_NAME,
PARAM_CAPTURE_SIZE,
PARAM_SCALING_MODE,
PARAM_MEASUREMENT_MODE,
PARAM_LATENCY,
};
using VisualizerParamTestParam =
std::tuple<std::pair<std::shared_ptr<IFactory>, Descriptor>, int, Visualizer::ScalingMode,
Visualizer::MeasurementMode, int>;
const int MIN_CAPTURE_SIZE = 128;
const int MAX_CAPTURE_SIZE = 1024;
const int MAX_LATENCY = 3000;
const std::vector<int> kCaptureSizeValues = {MIN_CAPTURE_SIZE - 1, MIN_CAPTURE_SIZE,
MAX_CAPTURE_SIZE, MAX_CAPTURE_SIZE + 1};
const std::vector<Visualizer::ScalingMode> kScalingModeValues = {
Visualizer::ScalingMode::NORMALIZED, Visualizer::ScalingMode::AS_PLAYED};
const std::vector<Visualizer::MeasurementMode> kMeasurementModeValues = {
Visualizer::MeasurementMode::NONE, Visualizer::MeasurementMode::PEAK_RMS};
const std::vector<int> kLatencyValues = {-1, 0, MAX_LATENCY, MAX_LATENCY + 1};
class VisualizerParamTest : public ::testing::TestWithParam<VisualizerParamTestParam>,
public EffectHelper {
public:
VisualizerParamTest()
: mCaptureSize(std::get<PARAM_CAPTURE_SIZE>(GetParam())),
mScalingMode(std::get<PARAM_SCALING_MODE>(GetParam())),
mMeasurementMode(std::get<PARAM_MEASUREMENT_MODE>(GetParam())),
mLatency(std::get<PARAM_LATENCY>(GetParam())) {
std::tie(mFactory, mDescriptor) = std::get<PARAM_INSTANCE_NAME>(GetParam());
}
void SetUp() override {
ASSERT_NE(nullptr, mFactory);
ASSERT_NO_FATAL_FAILURE(create(mFactory, mEffect, mDescriptor));
Parameter::Specific specific = getDefaultParamSpecific();
Parameter::Common common = EffectHelper::createParamCommon(
0 /* session */, 1 /* ioHandle */, 44100 /* iSampleRate */, 44100 /* oSampleRate */,
kInputFrameCount /* iFrameCount */, kOutputFrameCount /* oFrameCount */);
IEffect::OpenEffectReturn ret;
ASSERT_NO_FATAL_FAILURE(open(mEffect, common, specific, &ret, EX_NONE));
ASSERT_NE(nullptr, mEffect);
}
void TearDown() override {
ASSERT_NO_FATAL_FAILURE(close(mEffect));
ASSERT_NO_FATAL_FAILURE(destroy(mFactory, mEffect));
}
Parameter::Specific getDefaultParamSpecific() {
Visualizer vs = Visualizer::make<Visualizer::captureSizeBytes>(MIN_CAPTURE_SIZE);
Parameter::Specific specific =
Parameter::Specific::make<Parameter::Specific::visualizer>(vs);
return specific;
}
static const long kInputFrameCount = 0x100, kOutputFrameCount = 0x100;
std::shared_ptr<IFactory> mFactory;
std::shared_ptr<IEffect> mEffect;
Descriptor mDescriptor;
int mCaptureSize = MAX_CAPTURE_SIZE;
Visualizer::ScalingMode mScalingMode = Visualizer::ScalingMode::NORMALIZED;
Visualizer::MeasurementMode mMeasurementMode = Visualizer::MeasurementMode::NONE;
int mLatency = 0;
void SetAndGetCommonParameters() {
for (auto& it : mCommonTags) {
auto& tag = it.first;
auto& vs = it.second;
// validate parameter
Descriptor desc;
ASSERT_STATUS(EX_NONE, mEffect->getDescriptor(&desc));
const bool valid = isTagInRange(tag, vs, desc);
const binder_exception_t expected = valid ? EX_NONE : EX_ILLEGAL_ARGUMENT;
// set parameter
Parameter expectParam;
Parameter::Specific specific;
specific.set<Parameter::Specific::visualizer>(vs);
expectParam.set<Parameter::specific>(specific);
EXPECT_STATUS(expected, mEffect->setParameter(expectParam)) << expectParam.toString();
// only get if parameter in range and set success
if (expected == EX_NONE) {
Parameter getParam;
Parameter::Id id;
Visualizer::Id vsId;
vsId.set<Visualizer::Id::commonTag>(tag);
id.set<Parameter::Id::visualizerTag>(vsId);
EXPECT_STATUS(EX_NONE, mEffect->getParameter(id, &getParam));
EXPECT_EQ(expectParam, getParam) << "\nexpect:" << expectParam.toString()
<< "\ngetParam:" << getParam.toString();
}
}
}
void SetAndGetSetOnlyParameters() {
for (auto& it : mSetOnlyParamTags) {
auto& tag = it.first;
auto& vs = it.second;
// validate parameter
Descriptor desc;
ASSERT_STATUS(EX_NONE, mEffect->getDescriptor(&desc));
const bool valid = isSetOnlyParamTagInRange(tag, vs, desc);
const binder_exception_t expected = valid ? EX_NONE : EX_ILLEGAL_ARGUMENT;
// set parameter
Parameter expectParam;
Parameter::Specific specific;
specific.set<Parameter::Specific::visualizer>(vs);
expectParam.set<Parameter::specific>(specific);
ASSERT_STATUS(expected, mEffect->setParameter(expectParam));
// parameter defined in this setOnlyParameter union must be settable via
// setParameter(), but must not be gettable
Parameter getParam;
Parameter::Id id;
Visualizer::Id vsId;
vsId.set<Visualizer::Id::setOnlyParamTag>(tag);
id.set<Parameter::Id::visualizerTag>(vsId);
EXPECT_STATUS(EX_ILLEGAL_ARGUMENT, mEffect->getParameter(id, &getParam));
}
}
void GetandSetGetOnlyParameters() {
for (auto& tag : mGetOnlyParamTags) {
// get parameter
Parameter getParam;
Parameter::Id id;
Visualizer::Id vsId;
vsId.set<Visualizer::Id::getOnlyParamTag>(tag);
id.set<Parameter::Id::visualizerTag>(vsId);
ASSERT_STATUS(EX_NONE, mEffect->getParameter(id, &getParam));
// parameter defined in this getOnlyParameter union must be gettable via
// getParameter(), but must not be settable
// set parameter
ASSERT_STATUS(EX_ILLEGAL_ARGUMENT, mEffect->setParameter(getParam));
}
}
void addCaptureSizeParam(int captureSize) {
Visualizer vs;
vs.set<Visualizer::captureSizeBytes>(captureSize);
mCommonTags.push_back({Visualizer::captureSizeBytes, vs});
}
void addScalingModeParam(Visualizer::ScalingMode scalingMode) {
Visualizer vs;
vs.set<Visualizer::scalingMode>(scalingMode);
mCommonTags.push_back({Visualizer::scalingMode, vs});
}
void addMeasurementModeParam(Visualizer::MeasurementMode measurementMode) {
Visualizer vs;
vs.set<Visualizer::measurementMode>(measurementMode);
mCommonTags.push_back({Visualizer::measurementMode, vs});
}
void addLatencyParam(int latency) {
Visualizer vs;
Visualizer::SetOnlyParameters setOnlyParam;
setOnlyParam.set<Visualizer::SetOnlyParameters::latencyMs>(latency);
vs.set<Visualizer::setOnlyParameters>(setOnlyParam);
mSetOnlyParamTags.push_back({Visualizer::SetOnlyParameters::latencyMs, vs});
}
void addMeasurementTag() {
mGetOnlyParamTags.push_back(Visualizer::GetOnlyParameters::measurement);
}
void addCaptureBytesTag() {
mGetOnlyParamTags.push_back(Visualizer::GetOnlyParameters::captureBytes);
}
bool isTagInRange(const Visualizer::Tag& tag, const Visualizer& vs,
const Descriptor& desc) const {
const Visualizer::Capability& vsCap = desc.capability.get<Capability::visualizer>();
switch (tag) {
case Visualizer::captureSizeBytes: {
int captureSize = vs.get<Visualizer::captureSizeBytes>();
return isCaptureSizeInRange(vsCap, captureSize);
}
case Visualizer::scalingMode:
case Visualizer::measurementMode:
return true;
default:
return false;
}
}
bool isSetOnlyParamTagInRange(Visualizer::SetOnlyParameters::Tag, const Visualizer& vs,
const Descriptor& desc) const {
const Visualizer::Capability& vsCap = desc.capability.get<Capability::visualizer>();
if (vs.getTag() != Visualizer::setOnlyParameters) return false;
Visualizer::SetOnlyParameters setOnlyParam = vs.get<Visualizer::setOnlyParameters>();
if (setOnlyParam.getTag() != Visualizer::SetOnlyParameters::latencyMs) return false;
int latency = setOnlyParam.get<Visualizer::SetOnlyParameters::latencyMs>();
return isLatencyInRange(vsCap, latency);
}
bool isCaptureSizeInRange(const Visualizer::Capability& cap, int captureSize) const {
return (captureSize >= cap.captureSizeRange.minBytes &&
captureSize <= cap.captureSizeRange.maxBytes);
}
bool isLatencyInRange(const Visualizer::Capability& cap, int latency) const {
return (latency >= 0 && latency <= cap.maxLatencyMs);
}
private:
std::vector<std::pair<Visualizer::Tag, Visualizer>> mCommonTags;
std::vector<std::pair<Visualizer::SetOnlyParameters::Tag, Visualizer>> mSetOnlyParamTags;
std::vector<Visualizer::GetOnlyParameters::Tag> mGetOnlyParamTags;
void CleanUp() {
mCommonTags.clear();
mSetOnlyParamTags.clear();
mGetOnlyParamTags.clear();
}
};
TEST_P(VisualizerParamTest, SetAndGetCaptureSize) {
EXPECT_NO_FATAL_FAILURE(addCaptureSizeParam(mCaptureSize));
SetAndGetCommonParameters();
}
TEST_P(VisualizerParamTest, SetAndGetScalingMode) {
EXPECT_NO_FATAL_FAILURE(addScalingModeParam(mScalingMode));
SetAndGetCommonParameters();
}
TEST_P(VisualizerParamTest, SetAndGetMeasurementMode) {
EXPECT_NO_FATAL_FAILURE(addMeasurementModeParam(mMeasurementMode));
SetAndGetCommonParameters();
}
TEST_P(VisualizerParamTest, SetAndGetLatency) {
EXPECT_NO_FATAL_FAILURE(addLatencyParam(mLatency));
SetAndGetSetOnlyParameters();
}
TEST_P(VisualizerParamTest, GetAndSetMeasurement) {
EXPECT_NO_FATAL_FAILURE(addMeasurementTag());
GetandSetGetOnlyParameters();
}
TEST_P(VisualizerParamTest, GetAndSetCaptureBytes) {
EXPECT_NO_FATAL_FAILURE(addCaptureBytesTag());
GetandSetGetOnlyParameters();
}
INSTANTIATE_TEST_SUITE_P(
VisualizerTest, VisualizerParamTest,
::testing::Combine(testing::ValuesIn(EffectFactoryHelper::getAllEffectDescriptors(
IFactory::descriptor, kVisualizerTypeUUID)),
testing::ValuesIn(kCaptureSizeValues),
testing::ValuesIn(kScalingModeValues),
testing::ValuesIn(kMeasurementModeValues),
testing::ValuesIn(kLatencyValues)),
[](const testing::TestParamInfo<VisualizerParamTest::ParamType>& info) {
auto descriptor = std::get<PARAM_INSTANCE_NAME>(info.param).second;
std::string captureSize = std::to_string(std::get<PARAM_CAPTURE_SIZE>(info.param));
std::string scalingMode =
std::to_string(static_cast<int>(std::get<PARAM_SCALING_MODE>(info.param)));
std::string measurementMode =
std::to_string(static_cast<int>(std::get<PARAM_MEASUREMENT_MODE>(info.param)));
std::string latency = std::to_string(std::get<PARAM_LATENCY>(info.param));
std::string name = "Implementor_" + descriptor.common.implementor + "_name_" +
descriptor.common.name + "_UUID_" +
descriptor.common.id.uuid.toString() + "_captureSize" + captureSize +
"_scalingMode" + scalingMode + "_measurementMode" + measurementMode +
"_latency" + latency;
std::replace_if(
name.begin(), name.end(), [](const char c) { return !std::isalnum(c); }, '_');
return name;
});
GTEST_ALLOW_UNINSTANTIATED_PARAMETERIZED_TEST(VisualizerParamTest);
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
ABinderProcess_setThreadPoolMaxThreadCount(1);
ABinderProcess_startThreadPool();
return RUN_ALL_TESTS();
}