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review.blissroms.org / platform_hardware_interfaces / ee771e9cfac6d0ec1d930ef9e71b1c7bd9b91fa9 / . / audio / 2.0 / vts / functional / AudioPrimaryHidlHalTest.cpp
blob: af2ace5e09d430d12c3df8670b61a90613df521a [file] [log] [blame]
/*
* Copyright (C) 2017 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.
*/
#define LOG_TAG "VtsHalAudioV2_0TargetTest"
#include <algorithm>
#include <cmath>
#include <cstddef>
#include <cstdio>
#include <limits>
#include <list>
#include <string>
#include <type_traits>
#include <vector>
#include <VtsHalHidlTargetTestBase.h>
#include <android-base/logging.h>
#include <android/hardware/audio/2.0/IDevice.h>
#include <android/hardware/audio/2.0/IDevicesFactory.h>
#include <android/hardware/audio/2.0/IPrimaryDevice.h>
#include <android/hardware/audio/2.0/types.h>
#include <android/hardware/audio/common/2.0/types.h>
#include "utility/ReturnIn.h"
#include "utility/AssertOk.h"
#include "utility/PrettyPrintAudioTypes.h"
using std::string;
using std::to_string;
using std::vector;
using ::android::sp;
using ::android::hardware::Return;
using ::android::hardware::hidl_handle;
using ::android::hardware::hidl_string;
using ::android::hardware::hidl_vec;
using ::android::hardware::audio::V2_0::DeviceAddress;
using ::android::hardware::audio::V2_0::IDevice;
using ::android::hardware::audio::V2_0::IPrimaryDevice;
using TtyMode = ::android::hardware::audio::V2_0::IPrimaryDevice::TtyMode;
using ::android::hardware::audio::V2_0::IDevicesFactory;
using ::android::hardware::audio::V2_0::IStream;
using ::android::hardware::audio::V2_0::IStreamIn;
using ::android::hardware::audio::V2_0::IStreamOut;
using ::android::hardware::audio::V2_0::ParameterValue;
using ::android::hardware::audio::V2_0::Result;
using ::android::hardware::audio::common::V2_0::AudioChannelMask;
using ::android::hardware::audio::common::V2_0::AudioConfig;
using ::android::hardware::audio::common::V2_0::AudioDevice;
using ::android::hardware::audio::common::V2_0::AudioFormat;
using ::android::hardware::audio::common::V2_0::AudioHandleConsts;
using ::android::hardware::audio::common::V2_0::AudioInputFlag;
using ::android::hardware::audio::common::V2_0::AudioIoHandle;
using ::android::hardware::audio::common::V2_0::AudioMode;
using ::android::hardware::audio::common::V2_0::AudioOffloadInfo;
using ::android::hardware::audio::common::V2_0::AudioOutputFlag;
using ::android::hardware::audio::common::V2_0::AudioSource;
using utility::returnIn;
namespace doc {
/** Document the current test case.
* Eg: calling `doc::test("Dump the state of the hal")` in the "debugDump" test will output:
* <testcase name="debugDump" status="run" time="6" classname="AudioPrimaryHidlTest"
description="Dump the state of the hal." />
* see https://github.com/google/googletest/blob/master/googletest/docs/AdvancedGuide.md#logging-additional-information
*/
void test(const std::string& testCaseDocumentation) {
::testing::Test::RecordProperty("description", testCaseDocumentation);
}
/** Document why a test was not fully run. Usually due to an optional feature not implemented. */
void partialTest(const std::string& reason) {
::testing::Test::RecordProperty("partialyRunTest", reason);
}
}
// Register callback for static object destruction
// Avoid destroying static objects after main return.
// Post main return destruction leads to incorrect gtest timing measurements as well as harder
// debuging if anything goes wrong during destruction.
class Environment : public ::testing::Environment {
public:
using TearDownFunc = std::function<void ()>;
void registerTearDown(TearDownFunc&& tearDown) {
tearDowns.push_back(std::move(tearDown));
}
private:
void TearDown() override {
// Call the tear downs in reverse order of insertion
for (auto& tearDown : tearDowns) {
tearDown();
}
}
std::list<TearDownFunc> tearDowns;
};
// Instance to register global tearDown
static Environment* environment;
class HidlTest : public ::testing::VtsHalHidlTargetTestBase {
protected:
// Convenient member to store results
Result res;
};
//////////////////////////////////////////////////////////////////////////////
////////////////////// getService audio_devices_factory //////////////////////
//////////////////////////////////////////////////////////////////////////////
// Test all audio devices
class AudioHidlTest : public HidlTest {
public:
void SetUp() override {
ASSERT_NO_FATAL_FAILURE(HidlTest::SetUp()); // setup base
if (devicesFactory == nullptr) {
environment->registerTearDown([]{ devicesFactory.clear(); });
devicesFactory = ::testing::VtsHalHidlTargetTestBase::getService<IDevicesFactory>();
}
ASSERT_TRUE(devicesFactory != nullptr);
}
protected:
// Cache the devicesFactory retrieval to speed up each test by ~0.5s
static sp<IDevicesFactory> devicesFactory;
};
sp<IDevicesFactory> AudioHidlTest::devicesFactory;
TEST_F(AudioHidlTest, GetAudioDevicesFactoryService) {
doc::test("test the getService (called in SetUp)");
}
//////////////////////////////////////////////////////////////////////////////
/////////////////////////////// openDevice primary ///////////////////////////
//////////////////////////////////////////////////////////////////////////////
// Test the primary device
class AudioPrimaryHidlTest : public AudioHidlTest {
public:
/** Primary HAL test are NOT thread safe. */
void SetUp() override {
ASSERT_NO_FATAL_FAILURE(AudioHidlTest::SetUp()); // setup base
if (device == nullptr) {
IDevicesFactory::Result result;
sp<IDevice> baseDevice;
ASSERT_OK(devicesFactory->openDevice(IDevicesFactory::Device::PRIMARY,
returnIn(result, baseDevice)));
ASSERT_TRUE(baseDevice != nullptr);
environment->registerTearDown([]{ device.clear(); });
device = IPrimaryDevice::castFrom(baseDevice);
ASSERT_TRUE(device != nullptr);
}
}
protected:
// Cache the device opening to speed up each test by ~0.5s
static sp<IPrimaryDevice> device;
};
sp<IPrimaryDevice> AudioPrimaryHidlTest::device;
TEST_F(AudioPrimaryHidlTest, OpenPrimaryDevice) {
doc::test("Test the openDevice (called in SetUp)");
}
TEST_F(AudioPrimaryHidlTest, Init) {
doc::test("Test that the audio primary hal initialized correctly");
ASSERT_OK(device->initCheck());
}
//////////////////////////////////////////////////////////////////////////////
//////////////////////////// {set,get}MasterVolume ///////////////////////////
//////////////////////////////////////////////////////////////////////////////
class MasterVolumeTest : public AudioPrimaryHidlTest {
protected:
void testSetGetConsistency(float volume, Result expectedSetResult, float expectedGetVolume) {
SCOPED_TRACE("Test set/get consistency for " + to_string(volume));
auto ret = device->setMasterVolume(volume);
ASSERT_TRUE(ret.isOk());
ASSERT_EQ(expectedSetResult, ret);
float observedVolume;
ASSERT_OK(device->getMasterVolume(returnIn(res, observedVolume)));
ASSERT_OK(res);
// Check that `get` returned the expected value
EXPECT_EQ(expectedGetVolume, observedVolume);
}
};
TEST_F(MasterVolumeTest, MasterVolumeTest) {
doc::test("Test the master volume if supported");
{
SCOPED_TRACE("Check for master volume support");
auto ret = device->setMasterVolume(1);
ASSERT_TRUE(ret.isOk());
if (ret == Result::NOT_SUPPORTED) {
doc::partialTest("Master volume is not supported");
return;
}
}
// NOTE: this code has never been tested on a platform supporting MasterVolume
float lastValidVolumeSet;
using Volumes = float[];
SCOPED_TRACE("As set/get master volume are supported...");
{
SCOPED_TRACE("...test them with valid values");
for (float validVolume : Volumes{0, 0.5, 1}) {
ASSERT_NO_FATAL_FAILURE(testSetGetConsistency(validVolume, Result::OK, validVolume));
lastValidVolumeSet = validVolume;
}
}{
SCOPED_TRACE("...test them with tricky values");
for (float outOfBoundVolume :Volumes{-0.1, 1.1, NAN, INFINITY, -INFINITY,
1 + std::numeric_limits<float>::epsilon()}) {
ASSERT_NO_FATAL_FAILURE(testSetGetConsistency(outOfBoundVolume,
Result::INVALID_ARGUMENTS,
lastValidVolumeSet));
}
}
}
//////////////////////////////////////////////////////////////////////////////
////////////////////////// {set,get}{Master,Mic}Mute /////////////////////////
//////////////////////////////////////////////////////////////////////////////
template <class Property>
class AccessorPrimaryHidlTest : public AudioPrimaryHidlTest {
protected:
/** Test a property getter and setter. */
template <class Getter, class Setter>
void testAccessors(const string& propertyName, const vector<Property>& valuesToTest,
Setter setter, Getter getter) {
Property initialValue; // Save initial value to restore it at the end of the test
ASSERT_OK((device.get()->*getter)(returnIn(res, initialValue)));
ASSERT_OK(res);
for (Property setValue : valuesToTest) {
SCOPED_TRACE("Test " + propertyName + " getter and setter for " + testing::PrintToString(setValue));
ASSERT_OK((device.get()->*setter)(setValue));
Property getValue;
// Make sure the getter returns the same value just set
ASSERT_OK((device.get()->*getter)(returnIn(res, getValue)));
ASSERT_OK(res);
EXPECT_EQ(setValue, getValue);
}
ASSERT_OK((device.get()->*setter)(initialValue)); // restore initial value
}
/** Test the getter and setter of an optional feature. */
template <class Getter, class Setter>
void testOptionalAccessors(const string& propertyName, const vector<Property>& valuesToTest,
Setter setter, Getter getter) {
doc::test("Test the optional " + propertyName + " getters and setter");
{
SCOPED_TRACE("Test feature support by calling the getter");
Property initialValue;
ASSERT_OK((device.get()->*getter)(returnIn(res, initialValue)));
if (res == Result::NOT_SUPPORTED) {
doc::partialTest(propertyName + " getter is not supported");
return;
}
ASSERT_OK(res); // If it is supported it must succeed
}
// The feature is supported, test it
testAccessors(propertyName, valuesToTest, setter, getter);
}
};
using BoolAccessorPrimaryHidlTest = AccessorPrimaryHidlTest<bool>;
TEST_F(BoolAccessorPrimaryHidlTest, MicMuteTest) {
doc::test("Check that the mic can be muted and unmuted");
testAccessors("mic mute", {true, false, true}, &IDevice::setMicMute, &IDevice::getMicMute);
// TODO: check that the mic is really muted (all sample are 0)
}
TEST_F(BoolAccessorPrimaryHidlTest, MasterMuteTest) {
doc::test("If master mute is supported, try to mute and unmute the master output");
testOptionalAccessors("master mute", {true, false, true},
&IDevice::setMasterMute, &IDevice::getMasterMute);
// TODO: check that the master volume is really muted
}
//////////////////////////////////////////////////////////////////////////////
//////////////// Required and recommended audio format support ///////////////
// From: https://source.android.com/compatibility/android-cdd.html#5_4_audio_recording
// From: https://source.android.com/compatibility/android-cdd.html#5_5_audio_playback
/////////// TODO: move to the beginning of the file for easier update ////////
//////////////////////////////////////////////////////////////////////////////
class AudioConfigPrimaryTest : public AudioPrimaryHidlTest {
public:
// Cache result ?
static const vector<AudioConfig> getRequiredSupportPlaybackAudioConfig() {
return combineAudioConfig({AudioChannelMask::OUT_STEREO, AudioChannelMask::OUT_MONO},
{8000, 11025, 16000, 22050, 32000, 44100},
{AudioFormat::PCM_16_BIT});
}
static const vector<AudioConfig> getRecommendedSupportPlaybackAudioConfig() {
return combineAudioConfig({AudioChannelMask::OUT_STEREO, AudioChannelMask::OUT_MONO},
{24000, 48000},
{AudioFormat::PCM_16_BIT});
}
static const vector<AudioConfig> getSupportedPlaybackAudioConfig() {
// TODO: retrieve audio config supported by the platform
// as declared in the policy configuration
return {};
}
static const vector<AudioConfig> getRequiredSupportCaptureAudioConfig() {
return combineAudioConfig({AudioChannelMask::IN_MONO},
{8000, 11025, 16000, 44100},
{AudioFormat::PCM_16_BIT});
}
static const vector<AudioConfig> getRecommendedSupportCaptureAudioConfig() {
return combineAudioConfig({AudioChannelMask::IN_STEREO},
{22050, 48000},
{AudioFormat::PCM_16_BIT});
}
static const vector<AudioConfig> getSupportedCaptureAudioConfig() {
// TODO: retrieve audio config supported by the platform
// as declared in the policy configuration
return {};
}
private:
static const vector<AudioConfig> combineAudioConfig(
vector<AudioChannelMask> channelMasks,
vector<uint32_t> sampleRates,
vector<AudioFormat> formats) {
vector<AudioConfig> configs;
for (auto channelMask: channelMasks) {
for (auto sampleRate : sampleRates) {
for (auto format : formats) {
AudioConfig config{};
// leave offloadInfo to 0
config.channelMask = channelMask;
config.sampleRateHz = sampleRate;
config.format = format;
// FIXME: leave frameCount to 0 ?
configs.push_back(config);
}
}
}
return configs;
}
};
//////////////////////////////////////////////////////////////////////////////
///////////////////////////// getInputBufferSize /////////////////////////////
//////////////////////////////////////////////////////////////////////////////
// FIXME: execute input test only if platform declares android.hardware.microphone
// how to get this value ? is it a property ???
class AudioCaptureConfigPrimaryTest : public AudioConfigPrimaryTest,
public ::testing::WithParamInterface<AudioConfig> {
protected:
void inputBufferSizeTest(const AudioConfig& audioConfig, bool supportRequired) {
uint64_t bufferSize;
ASSERT_OK(device->getInputBufferSize(audioConfig, returnIn(res, bufferSize)));
switch (res) {
case Result::INVALID_ARGUMENTS:
EXPECT_FALSE(supportRequired);
break;
case Result::OK:
// Check that the buffer is of a sane size
// For now only that it is > 0
EXPECT_GT(bufferSize, uint64_t(0));
break;
default:
FAIL() << "Invalid return status: " << ::testing::PrintToString(res);
}
}
};
// Test that the required capture config and those declared in the policy are indeed supported
class RequiredInputBufferSizeTest : public AudioCaptureConfigPrimaryTest {};
TEST_P(RequiredInputBufferSizeTest, RequiredInputBufferSizeTest) {
doc::test("Input buffer size must be retrievable for a format with required support.");
inputBufferSizeTest(GetParam(), true);
}
INSTANTIATE_TEST_CASE_P(
RequiredInputBufferSize, RequiredInputBufferSizeTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getRequiredSupportCaptureAudioConfig()));
INSTANTIATE_TEST_CASE_P(
SupportedInputBufferSize, RequiredInputBufferSizeTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getSupportedCaptureAudioConfig()));
// Test that the recommended capture config are supported or lead to a INVALID_ARGUMENTS return
class OptionalInputBufferSizeTest : public AudioCaptureConfigPrimaryTest {};
TEST_P(OptionalInputBufferSizeTest, OptionalInputBufferSizeTest) {
doc::test("Input buffer size should be retrievable for a format with recommended support.");
inputBufferSizeTest(GetParam(), false);
}
INSTANTIATE_TEST_CASE_P(
RecommendedCaptureAudioConfigSupport, OptionalInputBufferSizeTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getRecommendedSupportCaptureAudioConfig()));
//////////////////////////////////////////////////////////////////////////////
/////////////////////////////// setScreenState ///////////////////////////////
//////////////////////////////////////////////////////////////////////////////
TEST_F(AudioPrimaryHidlTest, setScreenState) {
doc::test("Check that the hal can receive the screen state");
for (bool turnedOn : {false, true, true, false, false}) {
auto ret = device->setScreenState(turnedOn);
ASSERT_TRUE(ret.isOk());
Result result = ret;
ASSERT_TRUE(result == Result::OK || result == Result::NOT_SUPPORTED) << toString(result);
}
}
//////////////////////////////////////////////////////////////////////////////
//////////////////////////// {get,set}Parameters /////////////////////////////
//////////////////////////////////////////////////////////////////////////////
TEST_F(AudioPrimaryHidlTest, getParameters) {
doc::test("Check that the hal can set and get parameters");
hidl_vec<hidl_string> keys;
hidl_vec<ParameterValue> values;
ASSERT_OK(device->getParameters(keys, returnIn(res, values)));
ASSERT_OK(device->setParameters(values));
values.resize(0);
ASSERT_OK(device->setParameters(values));
}
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////// debugDebug //////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
TEST_F(AudioPrimaryHidlTest, debugDump) {
doc::test("Check that the hal can dump its state without error");
FILE* file = tmpfile();
ASSERT_NE(nullptr, file) << errno;
auto* nativeHandle = native_handle_create(1, 0);
ASSERT_NE(nullptr, nativeHandle);
nativeHandle->data[0] = fileno(file);
hidl_handle handle;
handle.setTo(nativeHandle, true /*take ownership*/);
// TODO: debugDump does not return a Result.
// This mean that the hal can not report that it not implementing the function.
ASSERT_OK(device->debugDump(handle));
rewind(file); // can not fail
// Check that at least one bit was written by the hal
char buff;
ASSERT_EQ(size_t{1}, fread(&buff, sizeof(buff), 1, file));
EXPECT_EQ(0, fclose(file)) << errno;
}
//////////////////////////////////////////////////////////////////////////////
////////////////////////// open{Output,Input}Stream //////////////////////////
//////////////////////////////////////////////////////////////////////////////
template <class Stream>
class OpenStreamTest : public AudioConfigPrimaryTest,
public ::testing::WithParamInterface<AudioConfig> {
protected:
template <class Open>
void testOpen(Open openStream, const AudioConfig& config) {
// FIXME: Open a stream without an IOHandle
// This is not required to be accepted by hal implementations
AudioIoHandle ioHandle = (AudioIoHandle)AudioHandleConsts::AUDIO_IO_HANDLE_NONE;
AudioConfig suggestedConfig{};
ASSERT_OK(openStream(ioHandle, config, returnIn(res, stream, suggestedConfig)));
// TODO: only allow failure for RecommendedPlaybackAudioConfig
switch (res) {
case Result::OK:
ASSERT_TRUE(stream != nullptr);
audioConfig = config;
break;
case Result::INVALID_ARGUMENTS:
ASSERT_TRUE(stream == nullptr);
AudioConfig suggestedConfigRetry;
// Could not open stream with config, try again with the suggested one
ASSERT_OK(openStream(ioHandle, suggestedConfig,
returnIn(res, stream, suggestedConfigRetry)));
// This time it must succeed
ASSERT_OK(res);
ASSERT_TRUE(stream == nullptr);
audioConfig = suggestedConfig;
break;
default:
FAIL() << "Invalid return status: " << ::testing::PrintToString(res);
}
open = true;
}
private:
void TearDown() override {
if (open) {
ASSERT_OK(stream->close());
}
}
protected:
AudioConfig audioConfig;
sp<Stream> stream;
bool open = false;
};
////////////////////////////// openOutputStream //////////////////////////////
class OutputStreamTest : public OpenStreamTest<IStreamOut> {
virtual void SetUp() override {
ASSERT_NO_FATAL_FAILURE(OpenStreamTest::SetUp()); // setup base
const AudioConfig& config = GetParam();
DeviceAddress deviceAddr{}; // Ignored by primary hal
AudioOutputFlag flags = AudioOutputFlag::NONE; // TODO: test all flag combination
testOpen([&](AudioIoHandle handle, AudioConfig config, auto cb)
{ return device->openOutputStream(handle, deviceAddr, config, flags, cb); },
config);
}
};
TEST_P(OutputStreamTest, OpenOutputStreamTest) {
doc::test("Check that output streams can be open with the required and recommended config");
// Open done in SetUp
}
INSTANTIATE_TEST_CASE_P(
RequiredOutputStreamConfigSupport, OutputStreamTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getRequiredSupportPlaybackAudioConfig()));
INSTANTIATE_TEST_CASE_P(
SupportedOutputStreamConfig, OutputStreamTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getSupportedPlaybackAudioConfig()));
INSTANTIATE_TEST_CASE_P(
RecommendedOutputStreamConfigSupport, OutputStreamTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getRecommendedSupportPlaybackAudioConfig()));
////////////////////////////// openInputStream //////////////////////////////
class InputStreamTest : public OpenStreamTest<IStreamIn> {
virtual void SetUp() override {
ASSERT_NO_FATAL_FAILURE(OpenStreamTest::SetUp()); // setup base
const AudioConfig& config = GetParam();
DeviceAddress deviceAddr{}; // TODO: test all devices
AudioInputFlag flags = AudioInputFlag::NONE; // TODO: test all flag combination
AudioSource source = AudioSource::DEFAULT; // TODO: test all flag combination
testOpen([&](AudioIoHandle handle, AudioConfig config, auto cb)
{ return device->openInputStream(handle, deviceAddr, config, flags, source, cb); },
config);
}
};
TEST_P(InputStreamTest, OpenInputStreamTest) {
doc::test("Check that input streams can be open with the required and recommended config");
// Open done in setup
}
INSTANTIATE_TEST_CASE_P(
RequiredInputStreamConfigSupport, InputStreamTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getRequiredSupportCaptureAudioConfig()));
INSTANTIATE_TEST_CASE_P(
SupportedInputStreamConfig, InputStreamTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getSupportedCaptureAudioConfig()));
INSTANTIATE_TEST_CASE_P(
RecommendedInputStreamConfigSupport, InputStreamTest,
::testing::ValuesIn(AudioConfigPrimaryTest::getRecommendedSupportCaptureAudioConfig()));
//////////////////////////////////////////////////////////////////////////////
////////////////////////////// IStream getters ///////////////////////////////
//////////////////////////////////////////////////////////////////////////////
/** Unpack the provided result.
* If the result is not OK, register a failure and return an undefined value. */
template <class R>
static R extract(Return<R> ret) {
if (!ret.isOk()) {
ADD_FAILURE();
return R{};
}
return ret;
}
template <class Property, class CapabilityGetter, class Getter, class Setter>
static void testCapabilityGetter(const string& name,IStream* stream, Property currentValue,
CapabilityGetter capablityGetter, Getter getter, Setter setter) {
hidl_vec<Property> capabilities;
ASSERT_OK((stream->*capablityGetter)(returnIn(capabilities)));
if (capabilities.size() == 0) {
// The default hal should probably return a NOT_SUPPORTED if the hal does not expose
// capability retrieval. For now it returns an empty list if not implemented
doc::partialTest(name + " is not supported");
return;
};
// TODO: This code has never been tested on a hal that supports getSupportedSampleRates
EXPECT_NE(std::find(capabilities.begin(), capabilities.end(), currentValue),
capabilities.end())
<< "current " << name << " is not in the list of the supported ones "
<< toString(capabilities);
// Check that all declared supported values are indeed supported
for (auto capability : capabilities) {
ASSERT_OK((stream->*setter)(capability));
ASSERT_EQ(capability, extract((stream->*getter)()));
}
}
static void testGetAudioProperties(IStream* stream, AudioConfig expectedConfig) {
uint32_t sampleRateHz;
AudioChannelMask mask;
AudioFormat format;
stream->getAudioProperties(returnIn(sampleRateHz, mask, format));
// FIXME: the qcom hal it does not currently negotiate the sampleRate & channel mask
EXPECT_EQ(expectedConfig.sampleRateHz, sampleRateHz);
EXPECT_EQ(expectedConfig.channelMask, mask);
EXPECT_EQ(expectedConfig.format, format);
}
static void testAccessors(IStream* stream, AudioConfig audioConfig) {
doc::test("Test IStream getters and setters that can be called in the stop state");
auto frameCount = extract(stream->getFrameCount());
ASSERT_EQ(audioConfig.frameCount, frameCount);
auto sampleRate = extract(stream->getSampleRate());
// FIXME: the qcom hal it does not currently negotiate the sampleRate
ASSERT_EQ(audioConfig.sampleRateHz, sampleRate);
auto channelMask = extract(stream->getChannelMask());
// FIXME: the qcom hal it does not currently negotiate the channelMask
ASSERT_EQ(audioConfig.channelMask, channelMask);
auto frameSize = extract(stream->getFrameSize());
ASSERT_GE(frameSize, 0U);
auto bufferSize = extract(stream->getBufferSize());
ASSERT_GE(bufferSize, frameSize);
testCapabilityGetter("getSupportedsampleRate", stream, sampleRate,
&IStream::getSupportedSampleRates,
&IStream::getSampleRate, &IStream::setSampleRate);
testCapabilityGetter("getSupportedChannelMask", stream, channelMask,
&IStream::getSupportedChannelMasks,
&IStream::getChannelMask, &IStream::setChannelMask);
AudioFormat format = extract(stream->getFormat());
ASSERT_EQ(audioConfig.format, format);
testCapabilityGetter("getSupportedFormats", stream, format,
&IStream::getSupportedFormats, &IStream::getFormat, &IStream::setFormat);
testGetAudioProperties(stream, audioConfig);
auto ret = stream->getDevice();
ASSERT_TRUE(ret.isOk());
AudioDevice device = ret;
ASSERT_EQ(AudioDevice::OUT_DEFAULT, device);
}
TEST_P(InputStreamTest, GettersTest) {
testAccessors(stream.get(), audioConfig);
}
TEST_P(OutputStreamTest, GettersTest) {
testAccessors(stream.get(), audioConfig);
}
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////// AudioPatches ////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
TEST_F(AudioPrimaryHidlTest, AudioPatches) {
doc::test("Test if audio patches are supported");
auto result = device->supportsAudioPatches();
ASSERT_TRUE(result.isOk());
bool supportsAudioPatch = result;
if (!supportsAudioPatch) {
doc::partialTest("Audio patches are not supported");
return;
}
// TODO: test audio patches
}
//////////////////////////////////////////////////////////////////////////////
/////////////////////////////// PrimaryDevice ////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
TEST_F(AudioPrimaryHidlTest, setVoiceVolume) {
doc::test("Make sure setVoiceVolume only succeed if volume is in [0,1]");
for (float volume : {0.0, 0.01, 0.5, 0.09, 1.0}) {
SCOPED_TRACE("volume=" + to_string(volume));
ASSERT_OK(device->setVoiceVolume(volume));
}
for (float volume : (float[]){-INFINITY,-1.0, -0.0,
1.0 + std::numeric_limits<float>::epsilon(), 2.0, INFINITY,
NAN}) {
SCOPED_TRACE("volume=" + to_string(volume));
// FIXME: NAN should never be accepted
// FIXME: Missing api doc. What should the impl do if the volume is outside [0,1] ?
ASSERT_INVALID_ARGUMENTS(device->setVoiceVolume(volume));
}
}
TEST_F(AudioPrimaryHidlTest, setMode) {
doc::test("Make sure setMode always succeeds if mode is valid");
for (AudioMode mode : {AudioMode::IN_CALL, AudioMode::IN_COMMUNICATION,
AudioMode::RINGTONE, AudioMode::CURRENT,
AudioMode::NORMAL /* Make sure to leave the test in normal mode */ }) {
SCOPED_TRACE("mode=" + toString(mode));
ASSERT_OK(device->setMode(mode));
}
// FIXME: Missing api doc. What should the impl do if the mode is invalid ?
ASSERT_INVALID_ARGUMENTS(device->setMode(AudioMode::INVALID));
}
TEST_F(BoolAccessorPrimaryHidlTest, BtScoNrecEnabled) {
doc::test("Query and set the BT SCO NR&EC state");
testOptionalAccessors("BtScoNrecEnabled", {true, false, true},
&IPrimaryDevice::setBtScoNrecEnabled,
&IPrimaryDevice::getBtScoNrecEnabled);
}
TEST_F(BoolAccessorPrimaryHidlTest, setGetBtScoWidebandEnabled) {
doc::test("Query and set the SCO whideband state");
testOptionalAccessors("BtScoWideband", {true, false, true},
&IPrimaryDevice::setBtScoWidebandEnabled,
&IPrimaryDevice::getBtScoWidebandEnabled);
}
using TtyModeAccessorPrimaryHidlTest = AccessorPrimaryHidlTest<TtyMode>;
TEST_F(TtyModeAccessorPrimaryHidlTest, setGetTtyMode) {
doc::test("Query and set the TTY mode state");
testOptionalAccessors("TTY mode", {TtyMode::OFF, TtyMode::HCO, TtyMode::VCO, TtyMode::FULL},
&IPrimaryDevice::setTtyMode, &IPrimaryDevice::getTtyMode);
}
TEST_F(BoolAccessorPrimaryHidlTest, setGetHac) {
doc::test("Query and set the HAC state");
testAccessors("HAC", {true, false, true},
&IPrimaryDevice::setHacEnabled,
&IPrimaryDevice::getHacEnabled);
}
//////////////////////////////////////////////////////////////////////////////
//////////////////// Clean caches on global tear down ////////////////////////
//////////////////////////////////////////////////////////////////////////////
int main(int argc, char** argv) {
environment = new Environment;
::testing::AddGlobalTestEnvironment(environment);
::testing::InitGoogleTest(&argc, argv);
int status = RUN_ALL_TESTS();
LOG(INFO) << "Test result = " << status;
return status;
}