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fuchsia / third_party / android / platform / frameworks / av / be4b7d0bb7099ffa416f64d48b681e026ff09b90 / . / services / audiopolicy / tests / audiopolicymanager_tests.cpp
blob: 4486ce60e4a3aae543331ddd05c16d79d0205341 [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.
*/
#include <memory>
#include <string>
#include <sys/wait.h>
#include <unistd.h>
#include <gtest/gtest.h>
#include <gmock/gmock.h>
#define LOG_TAG "APM_Test"
#include <Serializer.h>
#include <android-base/file.h>
#include <android/content/AttributionSourceState.h>
#include <media/AudioPolicy.h>
#include <media/PatchBuilder.h>
#include <media/RecordingActivityTracker.h>
#include <utils/Log.h>
#include <utils/Vector.h>
#include "AudioPolicyInterface.h"
#include "AudioPolicyManagerTestClient.h"
#include "AudioPolicyManagerTestClientForHdmi.h"
#include "AudioPolicyTestClient.h"
#include "AudioPolicyTestManager.h"
using namespace android;
using testing::UnorderedElementsAre;
using android::content::AttributionSourceState;
namespace {
AudioMixMatchCriterion createUidCriterion(uint32_t uid, bool exclude = false) {
AudioMixMatchCriterion criterion;
criterion.mValue.mUid = uid;
criterion.mRule = exclude ? RULE_EXCLUDE_UID : RULE_MATCH_UID;
return criterion;
}
AudioMixMatchCriterion createUsageCriterion(audio_usage_t usage, bool exclude = false) {
AudioMixMatchCriterion criterion;
criterion.mValue.mUsage = usage;
criterion.mRule = exclude ? RULE_EXCLUDE_ATTRIBUTE_USAGE : RULE_MATCH_ATTRIBUTE_USAGE;
return criterion;
}
AudioMixMatchCriterion createCapturePresetCriterion(audio_source_t source, bool exclude = false) {
AudioMixMatchCriterion criterion;
criterion.mValue.mSource = source;
criterion.mRule = exclude ?
RULE_EXCLUDE_ATTRIBUTE_CAPTURE_PRESET : RULE_MATCH_ATTRIBUTE_CAPTURE_PRESET;
return criterion;
}
} // namespace
TEST(AudioPolicyConfigTest, DefaultConfigForTestsIsEmpty) {
auto config = AudioPolicyConfig::createWritableForTests();
EXPECT_TRUE(config->getSource().empty());
EXPECT_TRUE(config->getHwModules().isEmpty());
EXPECT_TRUE(config->getInputDevices().isEmpty());
EXPECT_TRUE(config->getOutputDevices().isEmpty());
}
TEST(AudioPolicyConfigTest, FallbackToDefault) {
auto config = AudioPolicyConfig::loadFromApmXmlConfigWithFallback(
base::GetExecutableDirectory() + "/test_invalid_audio_policy_configuration.xml");
EXPECT_EQ(AudioPolicyConfig::kDefaultConfigSource, config->getSource());
}
TEST(AudioPolicyConfigTest, LoadForTests) {
{
auto result = AudioPolicyConfig::loadFromCustomXmlConfigForTests(
base::GetExecutableDirectory() + "/test_invalid_audio_policy_configuration.xml");
EXPECT_FALSE(result.ok());
}
{
const std::string source =
base::GetExecutableDirectory() + "/test_audio_policy_configuration.xml";
auto result = AudioPolicyConfig::loadFromCustomXmlConfigForTests(source);
ASSERT_TRUE(result.ok());
EXPECT_EQ(source, result.value()->getSource());
EXPECT_FALSE(result.value()->getHwModules().isEmpty());
EXPECT_FALSE(result.value()->getInputDevices().isEmpty());
EXPECT_FALSE(result.value()->getOutputDevices().isEmpty());
}
}
TEST(AudioPolicyManagerTestInit, EngineFailure) {
AudioPolicyTestClient client;
auto config = AudioPolicyConfig::createWritableForTests();
config->setDefault();
config->setEngineLibraryNameSuffix("non-existent");
AudioPolicyTestManager manager(config, &client);
ASSERT_EQ(NO_INIT, manager.initialize());
ASSERT_EQ(NO_INIT, manager.initCheck());
}
TEST(AudioPolicyManagerTestInit, ClientFailure) {
AudioPolicyTestClient client;
AudioPolicyTestManager manager(&client);
// Since the default client fails to open anything,
// APM should indicate that the initialization didn't succeed.
ASSERT_EQ(NO_INIT, manager.initialize());
ASSERT_EQ(NO_INIT, manager.initCheck());
}
class PatchCountCheck {
public:
explicit PatchCountCheck(AudioPolicyManagerTestClient *client)
: mClient{client},
mInitialCount{mClient->getActivePatchesCount()} {}
int deltaFromSnapshot() const {
size_t currentCount = mClient->getActivePatchesCount();
if (mInitialCount <= currentCount) {
return currentCount - mInitialCount;
} else {
return -(static_cast<int>(mInitialCount - currentCount));
}
}
private:
const AudioPolicyManagerTestClient *mClient;
const size_t mInitialCount;
};
class AudioPolicyManagerTest : public testing::Test {
protected:
void SetUp() override;
void TearDown() override;
virtual void SetUpManagerConfig();
void dumpToLog();
// When explicit routing is needed, selectedDeviceId needs to be set as the wanted port
// id. Otherwise, selectedDeviceId needs to be initialized as AUDIO_PORT_HANDLE_NONE.
void getOutputForAttr(
audio_port_handle_t *selectedDeviceId,
audio_format_t format,
audio_channel_mask_t channelMask,
int sampleRate,
audio_output_flags_t flags = AUDIO_OUTPUT_FLAG_NONE,
audio_io_handle_t *output = nullptr,
audio_port_handle_t *portId = nullptr,
audio_attributes_t attr = {});
void getInputForAttr(
const audio_attributes_t &attr,
audio_unique_id_t riid,
audio_port_handle_t *selectedDeviceId,
audio_format_t format,
audio_channel_mask_t channelMask,
int sampleRate,
audio_input_flags_t flags = AUDIO_INPUT_FLAG_NONE,
audio_port_handle_t *portId = nullptr);
PatchCountCheck snapshotPatchCount() { return PatchCountCheck(mClient.get()); }
void getAudioPorts(audio_port_type_t type, audio_port_role_t role,
std::vector<audio_port_v7>* ports);
// Tries to find a device port. If 'foundPort' isn't nullptr,
// will generate a failure if the port hasn't been found.
bool findDevicePort(audio_port_role_t role, audio_devices_t deviceType,
const std::string &address, audio_port_v7 *foundPort);
static audio_port_handle_t getDeviceIdFromPatch(const struct audio_patch* patch);
virtual AudioPolicyManagerTestClient* getClient() { return new AudioPolicyManagerTestClient; }
sp<AudioPolicyConfig> mConfig;
std::unique_ptr<AudioPolicyManagerTestClient> mClient;
std::unique_ptr<AudioPolicyTestManager> mManager;
const uint32_t k48000SamplingRate = 48000;
};
void AudioPolicyManagerTest::SetUp() {
mClient.reset(getClient());
ASSERT_NO_FATAL_FAILURE(SetUpManagerConfig()); // Subclasses may want to customize the config.
mManager.reset(new AudioPolicyTestManager(mConfig, mClient.get()));
ASSERT_EQ(NO_ERROR, mManager->initialize());
ASSERT_EQ(NO_ERROR, mManager->initCheck());
}
void AudioPolicyManagerTest::TearDown() {
mManager.reset();
mClient.reset();
}
void AudioPolicyManagerTest::SetUpManagerConfig() {
mConfig = AudioPolicyConfig::createWritableForTests();
mConfig->setDefault();
}
void AudioPolicyManagerTest::dumpToLog() {
int pipefd[2];
ASSERT_NE(-1, pipe(pipefd));
pid_t cpid = fork();
ASSERT_NE(-1, cpid);
if (cpid == 0) {
// Child process reads from the pipe and logs.
close(pipefd[1]);
std::string line;
char buf;
while (read(pipefd[0], &buf, sizeof(buf)) > 0) {
if (buf != '\n') {
line += buf;
} else {
ALOGI("%s", line.c_str());
line = "";
}
}
if (!line.empty()) ALOGI("%s", line.c_str());
close(pipefd[0]);
_exit(EXIT_SUCCESS);
} else {
// Parent does the dump and checks the status code.
close(pipefd[0]);
ASSERT_EQ(NO_ERROR, mManager->dump(pipefd[1]));
close(pipefd[1]);
wait(NULL); // Wait for the child to exit.
}
}
void AudioPolicyManagerTest::getOutputForAttr(
audio_port_handle_t *selectedDeviceId,
audio_format_t format,
audio_channel_mask_t channelMask,
int sampleRate,
audio_output_flags_t flags,
audio_io_handle_t *output,
audio_port_handle_t *portId,
audio_attributes_t attr) {
audio_io_handle_t localOutput;
if (!output) output = &localOutput;
*output = AUDIO_IO_HANDLE_NONE;
audio_stream_type_t stream = AUDIO_STREAM_DEFAULT;
audio_config_t config = AUDIO_CONFIG_INITIALIZER;
config.sample_rate = sampleRate;
config.channel_mask = channelMask;
config.format = format;
audio_port_handle_t localPortId;
if (!portId) portId = &localPortId;
*portId = AUDIO_PORT_HANDLE_NONE;
AudioPolicyInterface::output_type_t outputType;
bool isSpatialized;
// TODO b/182392769: use attribution source util
AttributionSourceState attributionSource = AttributionSourceState();
attributionSource.uid = 0;
attributionSource.token = sp<BBinder>::make();
ASSERT_EQ(OK, mManager->getOutputForAttr(
&attr, output, AUDIO_SESSION_NONE, &stream, attributionSource, &config, &flags,
selectedDeviceId, portId, {}, &outputType, &isSpatialized));
ASSERT_NE(AUDIO_PORT_HANDLE_NONE, *portId);
ASSERT_NE(AUDIO_IO_HANDLE_NONE, *output);
}
void AudioPolicyManagerTest::getInputForAttr(
const audio_attributes_t &attr,
audio_unique_id_t riid,
audio_port_handle_t *selectedDeviceId,
audio_format_t format,
audio_channel_mask_t channelMask,
int sampleRate,
audio_input_flags_t flags,
audio_port_handle_t *portId) {
audio_io_handle_t input = AUDIO_PORT_HANDLE_NONE;
audio_config_base_t config = AUDIO_CONFIG_BASE_INITIALIZER;
config.sample_rate = sampleRate;
config.channel_mask = channelMask;
config.format = format;
audio_port_handle_t localPortId;
if (!portId) portId = &localPortId;
*portId = AUDIO_PORT_HANDLE_NONE;
AudioPolicyInterface::input_type_t inputType;
// TODO b/182392769: use attribution source util
AttributionSourceState attributionSource = AttributionSourceState();
attributionSource.uid = 0;
attributionSource.token = sp<BBinder>::make();
ASSERT_EQ(OK, mManager->getInputForAttr(
&attr, &input, riid, AUDIO_SESSION_NONE, attributionSource, &config, flags,
selectedDeviceId, &inputType, portId));
ASSERT_NE(AUDIO_PORT_HANDLE_NONE, *portId);
}
void AudioPolicyManagerTest::getAudioPorts(audio_port_type_t type, audio_port_role_t role,
std::vector<audio_port_v7>* ports) {
uint32_t numPorts = 0;
uint32_t generation1;
status_t ret;
ret = mManager->listAudioPorts(role, type, &numPorts, nullptr, &generation1);
ASSERT_EQ(NO_ERROR, ret) << "mManager->listAudioPorts returned error";
uint32_t generation2;
ports->resize(numPorts);
ret = mManager->listAudioPorts(role, type, &numPorts, ports->data(), &generation2);
ASSERT_EQ(NO_ERROR, ret) << "mManager->listAudioPorts returned error";
ASSERT_EQ(generation1, generation2) << "Generations changed during ports retrieval";
}
bool AudioPolicyManagerTest::findDevicePort(audio_port_role_t role,
audio_devices_t deviceType, const std::string &address, audio_port_v7 *foundPort) {
std::vector<audio_port_v7> ports;
getAudioPorts(AUDIO_PORT_TYPE_DEVICE, role, &ports);
if (HasFailure()) return false;
for (const auto &port : ports) {
if (port.role == role && port.ext.device.type == deviceType &&
(strncmp(port.ext.device.address, address.c_str(),
AUDIO_DEVICE_MAX_ADDRESS_LEN) == 0)) {
if (foundPort) *foundPort = port;
return true;
}
}
if (foundPort) {
ADD_FAILURE() << "Device port with role " << role << " and address "
<< address << " not found";
}
return false;
}
audio_port_handle_t AudioPolicyManagerTest::getDeviceIdFromPatch(
const struct audio_patch* patch) {
// The logic here is the same as the one in AudioIoDescriptor.
// Note this function is aim to get routed device id for test.
// In that case, device to device patch is not expected here.
if (patch->num_sources != 0 && patch->num_sinks != 0) {
if (patch->sources[0].type == AUDIO_PORT_TYPE_MIX) {
return patch->sinks[0].id;
} else {
return patch->sources[0].id;
}
}
return AUDIO_PORT_HANDLE_NONE;
}
TEST_F(AudioPolicyManagerTest, InitSuccess) {
// SetUp must finish with no assertions.
}
TEST_F(AudioPolicyManagerTest, Dump) {
dumpToLog();
}
TEST_F(AudioPolicyManagerTest, CreateAudioPatchFailure) {
audio_patch patch{};
audio_patch_handle_t handle = AUDIO_PATCH_HANDLE_NONE;
const PatchCountCheck patchCount = snapshotPatchCount();
ASSERT_EQ(BAD_VALUE, mManager->createAudioPatch(nullptr, &handle, 0));
ASSERT_EQ(BAD_VALUE, mManager->createAudioPatch(&patch, nullptr, 0));
ASSERT_EQ(BAD_VALUE, mManager->createAudioPatch(&patch, &handle, 0));
patch.num_sources = AUDIO_PATCH_PORTS_MAX + 1;
patch.num_sinks = 1;
ASSERT_EQ(BAD_VALUE, mManager->createAudioPatch(&patch, &handle, 0));
patch.num_sources = 1;
patch.num_sinks = AUDIO_PATCH_PORTS_MAX + 1;
ASSERT_EQ(BAD_VALUE, mManager->createAudioPatch(&patch, &handle, 0));
patch.num_sources = 2;
patch.num_sinks = 1;
ASSERT_EQ(INVALID_OPERATION, mManager->createAudioPatch(&patch, &handle, 0));
patch = {};
patch.num_sources = 1;
patch.sources[0].role = AUDIO_PORT_ROLE_SINK;
patch.num_sinks = 1;
patch.sinks[0].role = AUDIO_PORT_ROLE_SINK;
ASSERT_EQ(INVALID_OPERATION, mManager->createAudioPatch(&patch, &handle, 0));
patch = {};
patch.num_sources = 1;
patch.sources[0].role = AUDIO_PORT_ROLE_SOURCE;
patch.num_sinks = 1;
patch.sinks[0].role = AUDIO_PORT_ROLE_SOURCE;
ASSERT_EQ(INVALID_OPERATION, mManager->createAudioPatch(&patch, &handle, 0));
// Verify that the handle is left unchanged.
ASSERT_EQ(AUDIO_PATCH_HANDLE_NONE, handle);
ASSERT_EQ(0, patchCount.deltaFromSnapshot());
}
TEST_F(AudioPolicyManagerTest, CreateAudioPatchFromMix) {
audio_patch_handle_t handle = AUDIO_PATCH_HANDLE_NONE;
uid_t uid = 42;
const PatchCountCheck patchCount = snapshotPatchCount();
ASSERT_FALSE(mManager->getAvailableInputDevices().isEmpty());
PatchBuilder patchBuilder;
patchBuilder.addSource(mManager->getAvailableInputDevices()[0]).
addSink(mManager->getConfig().getDefaultOutputDevice());
ASSERT_EQ(NO_ERROR, mManager->createAudioPatch(patchBuilder.patch(), &handle, uid));
ASSERT_NE(AUDIO_PATCH_HANDLE_NONE, handle);
ASSERT_EQ(1, patchCount.deltaFromSnapshot());
}
// TODO: Add patch creation tests that involve already existing patch
enum
{
MSD_AUDIO_PATCH_COUNT_NUM_AUDIO_PATCHES_INDEX = 0,
MSD_AUDIO_PATCH_COUNT_NAME_INDEX = 1
};
using MsdAudioPatchCountSpecification = std::tuple<size_t, std::string>;
class AudioPolicyManagerTestMsd : public AudioPolicyManagerTest,
public ::testing::WithParamInterface<MsdAudioPatchCountSpecification> {
public:
AudioPolicyManagerTestMsd();
protected:
void SetUpManagerConfig() override;
void TearDown() override;
AudioProfileVector getDirectProfilesForAttributes(const audio_attributes_t& attr);
sp<DeviceDescriptor> mMsdOutputDevice;
sp<DeviceDescriptor> mMsdInputDevice;
sp<DeviceDescriptor> mDefaultOutputDevice;
const size_t mExpectedAudioPatchCount;
sp<DeviceDescriptor> mSpdifDevice;
sp<DeviceDescriptor> mHdmiInputDevice;
};
AudioPolicyManagerTestMsd::AudioPolicyManagerTestMsd()
: mExpectedAudioPatchCount(std::get<MSD_AUDIO_PATCH_COUNT_NUM_AUDIO_PATCHES_INDEX>(
GetParam())) {}
INSTANTIATE_TEST_CASE_P(
MsdAudioPatchCount,
AudioPolicyManagerTestMsd,
::testing::Values(
MsdAudioPatchCountSpecification(1u, "single"),
MsdAudioPatchCountSpecification(2u, "dual")
),
[](const ::testing::TestParamInfo<MsdAudioPatchCountSpecification> &info) {
return std::get<MSD_AUDIO_PATCH_COUNT_NAME_INDEX>(info.param); }
);
void AudioPolicyManagerTestMsd::SetUpManagerConfig() {
// TODO: Consider using Serializer to load part of the config from a string.
ASSERT_NO_FATAL_FAILURE(AudioPolicyManagerTest::SetUpManagerConfig());
mMsdOutputDevice = new DeviceDescriptor(AUDIO_DEVICE_OUT_BUS);
sp<AudioProfile> pcmOutputProfile = new AudioProfile(
AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_OUT_STEREO, k48000SamplingRate);
sp<AudioProfile> ac3OutputProfile = new AudioProfile(
AUDIO_FORMAT_AC3, AUDIO_CHANNEL_OUT_5POINT1, k48000SamplingRate);
sp<AudioProfile> iec958OutputProfile = new AudioProfile(
AUDIO_FORMAT_IEC60958, AUDIO_CHANNEL_INDEX_MASK_24, k48000SamplingRate);
mMsdOutputDevice->addAudioProfile(pcmOutputProfile);
mMsdOutputDevice->addAudioProfile(ac3OutputProfile);
mMsdOutputDevice->addAudioProfile(iec958OutputProfile);
mMsdInputDevice = new DeviceDescriptor(AUDIO_DEVICE_IN_BUS);
// Match output profile from AudioPolicyConfig::setDefault.
sp<AudioProfile> pcmInputProfile = new AudioProfile(
AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_IN_STEREO, 44100);
mMsdInputDevice->addAudioProfile(pcmInputProfile);
mConfig->addDevice(mMsdOutputDevice);
mConfig->addDevice(mMsdInputDevice);
if (mExpectedAudioPatchCount == 2) {
// Add SPDIF device with PCM output profile as a second device for dual MSD audio patching.
mSpdifDevice = new DeviceDescriptor(AUDIO_DEVICE_OUT_SPDIF);
mSpdifDevice->addAudioProfile(pcmOutputProfile);
mConfig->addDevice(mSpdifDevice);
sp<OutputProfile> spdifOutputProfile = new OutputProfile("spdif output");
spdifOutputProfile->addAudioProfile(pcmOutputProfile);
spdifOutputProfile->addSupportedDevice(mSpdifDevice);
mConfig->getHwModules().getModuleFromName(AUDIO_HARDWARE_MODULE_ID_PRIMARY)->
addOutputProfile(spdifOutputProfile);
}
sp<HwModule> msdModule = new HwModule(AUDIO_HARDWARE_MODULE_ID_MSD, 2 /*halVersionMajor*/);
HwModuleCollection modules = mConfig->getHwModules();
modules.add(msdModule);
mConfig->setHwModules(modules);
sp<OutputProfile> msdOutputProfile = new OutputProfile("msd input");
msdOutputProfile->addAudioProfile(pcmOutputProfile);
msdOutputProfile->addSupportedDevice(mMsdOutputDevice);
msdModule->addOutputProfile(msdOutputProfile);
sp<OutputProfile> msdCompressedOutputProfile = new OutputProfile("msd compressed input");
msdCompressedOutputProfile->addAudioProfile(ac3OutputProfile);
msdCompressedOutputProfile->setFlags(
AUDIO_OUTPUT_FLAG_DIRECT | AUDIO_OUTPUT_FLAG_COMPRESS_OFFLOAD |
AUDIO_OUTPUT_FLAG_NON_BLOCKING);
msdCompressedOutputProfile->addSupportedDevice(mMsdOutputDevice);
msdModule->addOutputProfile(msdCompressedOutputProfile);
sp<OutputProfile> msdIec958OutputProfile = new OutputProfile("msd iec958 input");
msdIec958OutputProfile->addAudioProfile(iec958OutputProfile);
msdIec958OutputProfile->setFlags(AUDIO_OUTPUT_FLAG_DIRECT);
msdIec958OutputProfile->addSupportedDevice(mMsdOutputDevice);
msdModule->addOutputProfile(msdIec958OutputProfile);
sp<InputProfile> msdInputProfile = new InputProfile("msd output");
msdInputProfile->addAudioProfile(pcmInputProfile);
msdInputProfile->addSupportedDevice(mMsdInputDevice);
msdModule->addInputProfile(msdInputProfile);
// Add a profile with another encoding to the default device to test routing
// of streams that are not supported by MSD.
sp<AudioProfile> dtsOutputProfile = new AudioProfile(
AUDIO_FORMAT_DTS, AUDIO_CHANNEL_OUT_5POINT1, k48000SamplingRate);
mConfig->getDefaultOutputDevice()->addAudioProfile(dtsOutputProfile);
sp<OutputProfile> primaryEncodedOutputProfile = new OutputProfile("encoded");
primaryEncodedOutputProfile->addAudioProfile(dtsOutputProfile);
primaryEncodedOutputProfile->setFlags(AUDIO_OUTPUT_FLAG_DIRECT);
primaryEncodedOutputProfile->addSupportedDevice(mConfig->getDefaultOutputDevice());
mConfig->getHwModules().getModuleFromName(AUDIO_HARDWARE_MODULE_ID_PRIMARY)->
addOutputProfile(primaryEncodedOutputProfile);
mDefaultOutputDevice = mConfig->getDefaultOutputDevice();
if (mExpectedAudioPatchCount == 2) {
mSpdifDevice->addAudioProfile(dtsOutputProfile);
primaryEncodedOutputProfile->addSupportedDevice(mSpdifDevice);
}
// Add HDMI input device with IEC60958 profile for HDMI in -> MSD patching.
mHdmiInputDevice = new DeviceDescriptor(AUDIO_DEVICE_IN_HDMI);
sp<AudioProfile> iec958InputProfile = new AudioProfile(
AUDIO_FORMAT_IEC60958, AUDIO_CHANNEL_INDEX_MASK_24, k48000SamplingRate);
mHdmiInputDevice->addAudioProfile(iec958InputProfile);
mConfig->addDevice(mHdmiInputDevice);
sp<InputProfile> hdmiInputProfile = new InputProfile("hdmi input");
hdmiInputProfile->addAudioProfile(iec958InputProfile);
hdmiInputProfile->setFlags(AUDIO_INPUT_FLAG_DIRECT);
hdmiInputProfile->addSupportedDevice(mHdmiInputDevice);
mConfig->getHwModules().getModuleFromName(AUDIO_HARDWARE_MODULE_ID_PRIMARY)->
addInputProfile(hdmiInputProfile);
}
void AudioPolicyManagerTestMsd::TearDown() {
mMsdOutputDevice.clear();
mMsdInputDevice.clear();
mDefaultOutputDevice.clear();
mSpdifDevice.clear();
mHdmiInputDevice.clear();
AudioPolicyManagerTest::TearDown();
}
AudioProfileVector AudioPolicyManagerTestMsd::getDirectProfilesForAttributes(
const audio_attributes_t& attr) {
AudioProfileVector audioProfilesVector;
mManager->getDirectProfilesForAttributes(&attr, audioProfilesVector);
return audioProfilesVector;
}
TEST_P(AudioPolicyManagerTestMsd, InitSuccess) {
ASSERT_TRUE(mMsdOutputDevice);
ASSERT_TRUE(mMsdInputDevice);
ASSERT_TRUE(mDefaultOutputDevice);
}
TEST_P(AudioPolicyManagerTestMsd, Dump) {
dumpToLog();
}
TEST_P(AudioPolicyManagerTestMsd, PatchCreationOnSetForceUse) {
const PatchCountCheck patchCount = snapshotPatchCount();
mManager->setForceUse(AUDIO_POLICY_FORCE_FOR_ENCODED_SURROUND,
AUDIO_POLICY_FORCE_ENCODED_SURROUND_ALWAYS);
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
}
TEST_P(AudioPolicyManagerTestMsd, PatchCreationSetReleaseMsdOutputPatches) {
const PatchCountCheck patchCount = snapshotPatchCount();
DeviceVector devices = mManager->getAvailableOutputDevices();
// Remove MSD output device to avoid patching to itself
devices.remove(mMsdOutputDevice);
ASSERT_EQ(mExpectedAudioPatchCount, devices.size());
mManager->setMsdOutputPatches(&devices);
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
// Dual patch: exercise creating one new audio patch and reusing another existing audio patch.
DeviceVector singleDevice(devices[0]);
mManager->releaseMsdOutputPatches(singleDevice);
ASSERT_EQ(mExpectedAudioPatchCount - 1, patchCount.deltaFromSnapshot());
mManager->setMsdOutputPatches(&devices);
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
mManager->releaseMsdOutputPatches(devices);
ASSERT_EQ(0, patchCount.deltaFromSnapshot());
}
TEST_P(AudioPolicyManagerTestMsd, GetOutputForAttrEncodedRoutesToMsd) {
const PatchCountCheck patchCount = snapshotPatchCount();
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_AC3, AUDIO_CHANNEL_OUT_5POINT1,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_DIRECT);
ASSERT_EQ(selectedDeviceId, mDefaultOutputDevice->getId());
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
}
TEST_P(AudioPolicyManagerTestMsd, GetOutputForAttrPcmRoutesToMsd) {
const PatchCountCheck patchCount = snapshotPatchCount();
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
getOutputForAttr(&selectedDeviceId,
AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_OUT_STEREO, k48000SamplingRate);
ASSERT_EQ(selectedDeviceId, mDefaultOutputDevice->getId());
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
}
TEST_P(AudioPolicyManagerTestMsd, GetOutputForAttrEncodedPlusPcmRoutesToMsd) {
const PatchCountCheck patchCount = snapshotPatchCount();
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_AC3, AUDIO_CHANNEL_OUT_5POINT1,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_DIRECT);
ASSERT_EQ(selectedDeviceId, mDefaultOutputDevice->getId());
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
getOutputForAttr(&selectedDeviceId,
AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_OUT_STEREO, k48000SamplingRate);
ASSERT_EQ(selectedDeviceId, mDefaultOutputDevice->getId());
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
}
TEST_P(AudioPolicyManagerTestMsd, GetOutputForAttrUnsupportedFormatBypassesMsd) {
const PatchCountCheck patchCount = snapshotPatchCount();
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_DTS, AUDIO_CHANNEL_OUT_5POINT1,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_DIRECT);
ASSERT_NE(selectedDeviceId, mMsdOutputDevice->getId());
ASSERT_EQ(0, patchCount.deltaFromSnapshot());
}
TEST_P(AudioPolicyManagerTestMsd, GetOutputForAttrFormatSwitching) {
// Switch between formats that are supported and not supported by MSD.
{
const PatchCountCheck patchCount = snapshotPatchCount();
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
audio_port_handle_t portId;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_AC3, AUDIO_CHANNEL_OUT_5POINT1,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_DIRECT, nullptr /*output*/, &portId);
ASSERT_EQ(selectedDeviceId, mDefaultOutputDevice->getId());
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
mManager->releaseOutput(portId);
ASSERT_EQ(mExpectedAudioPatchCount, patchCount.deltaFromSnapshot());
}
{
const PatchCountCheck patchCount = snapshotPatchCount();
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
audio_port_handle_t portId;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_DTS, AUDIO_CHANNEL_OUT_5POINT1,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_DIRECT, nullptr /*output*/, &portId);
ASSERT_NE(selectedDeviceId, mMsdOutputDevice->getId());
ASSERT_EQ(-static_cast<int>(mExpectedAudioPatchCount), patchCount.deltaFromSnapshot());
mManager->releaseOutput(portId);
ASSERT_EQ(0, patchCount.deltaFromSnapshot());
}
{
const PatchCountCheck patchCount = snapshotPatchCount();
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_AC3, AUDIO_CHANNEL_OUT_5POINT1,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_DIRECT);
ASSERT_EQ(selectedDeviceId, mDefaultOutputDevice->getId());
ASSERT_EQ(0, patchCount.deltaFromSnapshot());
}
}
TEST_P(AudioPolicyManagerTestMsd, PatchCreationFromHdmiInToMsd) {
audio_patch_handle_t handle = AUDIO_PATCH_HANDLE_NONE;
uid_t uid = 42;
const PatchCountCheck patchCount = snapshotPatchCount();
ASSERT_FALSE(mManager->getAvailableInputDevices().isEmpty());
PatchBuilder patchBuilder;
patchBuilder.
addSource(mManager->getAvailableInputDevices().
getDevice(AUDIO_DEVICE_IN_HDMI, String8(""), AUDIO_FORMAT_DEFAULT)).
addSink(mManager->getAvailableOutputDevices().
getDevice(AUDIO_DEVICE_OUT_BUS, String8(""), AUDIO_FORMAT_DEFAULT));
ASSERT_EQ(NO_ERROR, mManager->createAudioPatch(patchBuilder.patch(), &handle, uid));
ASSERT_NE(AUDIO_PATCH_HANDLE_NONE, handle);
AudioPatchCollection patches = mManager->getAudioPatches();
sp<AudioPatch> patch = patches.valueFor(handle);
ASSERT_EQ(1, patch->mPatch.num_sources);
ASSERT_EQ(1, patch->mPatch.num_sinks);
ASSERT_EQ(AUDIO_PORT_ROLE_SOURCE, patch->mPatch.sources[0].role);
ASSERT_EQ(AUDIO_PORT_ROLE_SINK, patch->mPatch.sinks[0].role);
ASSERT_EQ(AUDIO_FORMAT_IEC60958, patch->mPatch.sources[0].format);
ASSERT_EQ(AUDIO_FORMAT_IEC60958, patch->mPatch.sinks[0].format);
ASSERT_EQ(AUDIO_CHANNEL_INDEX_MASK_24, patch->mPatch.sources[0].channel_mask);
ASSERT_EQ(AUDIO_CHANNEL_INDEX_MASK_24, patch->mPatch.sinks[0].channel_mask);
ASSERT_EQ(k48000SamplingRate, patch->mPatch.sources[0].sample_rate);
ASSERT_EQ(k48000SamplingRate, patch->mPatch.sinks[0].sample_rate);
ASSERT_EQ(1, patchCount.deltaFromSnapshot());
}
TEST_P(AudioPolicyManagerTestMsd, GetDirectProfilesForAttributesWithMsd) {
const audio_attributes_t attr = {
AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""};
// count expected direct profiles for the default device
int countDirectProfilesPrimary = 0;
const auto& primary = mManager->getConfig().getHwModules()
.getModuleFromName(AUDIO_HARDWARE_MODULE_ID_PRIMARY);
for (const auto& outputProfile : primary->getOutputProfiles()) {
if (outputProfile->asAudioPort()->isDirectOutput()) {
countDirectProfilesPrimary += outputProfile->asAudioPort()->getAudioProfiles().size();
}
}
// count expected direct profiles for the msd device
int countDirectProfilesMsd = 0;
const auto& msd = mManager->getConfig().getHwModules()
.getModuleFromName(AUDIO_HARDWARE_MODULE_ID_MSD);
for (const auto& outputProfile : msd->getOutputProfiles()) {
if (outputProfile->asAudioPort()->isDirectOutput()) {
countDirectProfilesMsd += outputProfile->asAudioPort()->getAudioProfiles().size();
}
}
// before setting up MSD audio patches we only have the primary hal direct profiles
ASSERT_EQ(countDirectProfilesPrimary, getDirectProfilesForAttributes(attr).size());
DeviceVector outputDevices = mManager->getAvailableOutputDevices();
// Remove MSD output device to avoid patching to itself
outputDevices.remove(mMsdOutputDevice);
mManager->setMsdOutputPatches(&outputDevices);
// after setting up MSD audio patches the MSD direct profiles are added
ASSERT_EQ(countDirectProfilesPrimary + countDirectProfilesMsd,
getDirectProfilesForAttributes(attr).size());
mManager->releaseMsdOutputPatches(outputDevices);
// releasing the MSD audio patches gets us back to the primary hal direct profiles only
ASSERT_EQ(countDirectProfilesPrimary, getDirectProfilesForAttributes(attr).size());
}
TEST_P(AudioPolicyManagerTestMsd, IsDirectPlaybackSupportedWithMsd) {
const audio_attributes_t attr = {
AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""};
audio_config_base_t directConfig = AUDIO_CONFIG_BASE_INITIALIZER;
directConfig.format = AUDIO_FORMAT_DTS;
directConfig.sample_rate = 48000;
directConfig.channel_mask = AUDIO_CHANNEL_OUT_5POINT1;
audio_config_base_t nonDirectConfig = AUDIO_CONFIG_BASE_INITIALIZER;
nonDirectConfig.format = AUDIO_FORMAT_PCM_16_BIT;
nonDirectConfig.sample_rate = 48000;
nonDirectConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audio_config_base_t nonExistentConfig = AUDIO_CONFIG_BASE_INITIALIZER;
nonExistentConfig.format = AUDIO_FORMAT_E_AC3;
nonExistentConfig.sample_rate = 48000;
nonExistentConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audio_config_base_t msdDirectConfig1 = AUDIO_CONFIG_BASE_INITIALIZER;
msdDirectConfig1.format = AUDIO_FORMAT_AC3;
msdDirectConfig1.sample_rate = 48000;
msdDirectConfig1.channel_mask = AUDIO_CHANNEL_OUT_5POINT1;
audio_config_base_t msdDirectConfig2 = AUDIO_CONFIG_BASE_INITIALIZER;
msdDirectConfig2.format = AUDIO_FORMAT_IEC60958;
msdDirectConfig2.sample_rate = 48000;
msdDirectConfig2.channel_mask = AUDIO_CHANNEL_INDEX_MASK_24;
audio_config_base_t msdNonDirectConfig = AUDIO_CONFIG_BASE_INITIALIZER;
msdNonDirectConfig.format = AUDIO_FORMAT_PCM_16_BIT;
msdNonDirectConfig.sample_rate = 96000;
msdNonDirectConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
ASSERT_TRUE(mManager->isDirectOutputSupported(directConfig, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(nonDirectConfig, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(nonExistentConfig, attr));
// before setting MSD patches the direct MSD configs return false
ASSERT_FALSE(mManager->isDirectOutputSupported(msdDirectConfig1, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(msdDirectConfig2, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(msdNonDirectConfig, attr));
DeviceVector outputDevices = mManager->getAvailableOutputDevices();
// Remove MSD output device to avoid patching to itself
outputDevices.remove(mMsdOutputDevice);
mManager->setMsdOutputPatches(&outputDevices);
ASSERT_TRUE(mManager->isDirectOutputSupported(directConfig, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(nonDirectConfig, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(nonExistentConfig, attr));
// after setting MSD patches the direct MSD configs return true
ASSERT_TRUE(mManager->isDirectOutputSupported(msdDirectConfig1, attr));
ASSERT_TRUE(mManager->isDirectOutputSupported(msdDirectConfig2, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(msdNonDirectConfig, attr));
mManager->releaseMsdOutputPatches(outputDevices);
ASSERT_TRUE(mManager->isDirectOutputSupported(directConfig, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(nonDirectConfig, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(nonExistentConfig, attr));
// AFTER releasing MSD patches the direct MSD configs return false
ASSERT_FALSE(mManager->isDirectOutputSupported(msdDirectConfig1, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(msdDirectConfig2, attr));
ASSERT_FALSE(mManager->isDirectOutputSupported(msdNonDirectConfig, attr));
}
TEST_P(AudioPolicyManagerTestMsd, GetDirectPlaybackSupportWithMsd) {
const audio_attributes_t attr = {
AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""};
audio_config_t directConfig = AUDIO_CONFIG_INITIALIZER;
directConfig.format = AUDIO_FORMAT_DTS;
directConfig.sample_rate = 48000;
directConfig.channel_mask = AUDIO_CHANNEL_OUT_5POINT1;
audio_config_t nonDirectConfig = AUDIO_CONFIG_INITIALIZER;
nonDirectConfig.format = AUDIO_FORMAT_PCM_16_BIT;
nonDirectConfig.sample_rate = 48000;
nonDirectConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audio_config_t nonExistentConfig = AUDIO_CONFIG_INITIALIZER;
nonExistentConfig.format = AUDIO_FORMAT_E_AC3;
nonExistentConfig.sample_rate = 48000;
nonExistentConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audio_config_t msdDirectConfig1 = AUDIO_CONFIG_INITIALIZER;
msdDirectConfig1.format = AUDIO_FORMAT_AC3;
msdDirectConfig1.sample_rate = 48000;
msdDirectConfig1.channel_mask = AUDIO_CHANNEL_OUT_5POINT1;
audio_config_t msdDirectConfig2 = AUDIO_CONFIG_INITIALIZER;
msdDirectConfig2.format = AUDIO_FORMAT_IEC60958;
msdDirectConfig2.sample_rate = 48000;
msdDirectConfig2.channel_mask = AUDIO_CHANNEL_INDEX_MASK_24;
audio_config_t msdNonDirectConfig = AUDIO_CONFIG_INITIALIZER;
msdNonDirectConfig.format = AUDIO_FORMAT_PCM_16_BIT;
msdNonDirectConfig.sample_rate = 96000;
msdNonDirectConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
ASSERT_EQ(AUDIO_DIRECT_BITSTREAM_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &directConfig));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &nonDirectConfig));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &nonExistentConfig));
// before setting MSD patches the direct MSD configs return AUDIO_DIRECT_NOT_SUPPORTED
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdDirectConfig1));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdDirectConfig2));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdNonDirectConfig));
DeviceVector outputDevices = mManager->getAvailableOutputDevices();
// Remove MSD output device to avoid patching to itself
outputDevices.remove(mMsdOutputDevice);
mManager->setMsdOutputPatches(&outputDevices);
ASSERT_EQ(AUDIO_DIRECT_BITSTREAM_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &directConfig));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &nonDirectConfig));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &nonExistentConfig));
// after setting MSD patches the direct MSD configs return values according to their flags
ASSERT_EQ(AUDIO_DIRECT_OFFLOAD_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdDirectConfig1));
ASSERT_EQ(AUDIO_DIRECT_BITSTREAM_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdDirectConfig2));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdNonDirectConfig));
mManager->releaseMsdOutputPatches(outputDevices);
ASSERT_EQ(AUDIO_DIRECT_BITSTREAM_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &directConfig));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &nonDirectConfig));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &nonExistentConfig));
// after releasing MSD patches the direct MSD configs return AUDIO_DIRECT_NOT_SUPPORTED
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdDirectConfig1));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdDirectConfig2));
ASSERT_EQ(AUDIO_DIRECT_NOT_SUPPORTED,
mManager->getDirectPlaybackSupport(&attr, &msdNonDirectConfig));
}
class AudioPolicyManagerTestWithConfigurationFile : public AudioPolicyManagerTest {
protected:
void SetUpManagerConfig() override;
virtual std::string getConfigFile() { return sDefaultConfig; }
static const std::string sExecutableDir;
static const std::string sDefaultConfig;
};
const std::string AudioPolicyManagerTestWithConfigurationFile::sExecutableDir =
base::GetExecutableDirectory() + "/";
const std::string AudioPolicyManagerTestWithConfigurationFile::sDefaultConfig =
sExecutableDir + "test_audio_policy_configuration.xml";
void AudioPolicyManagerTestWithConfigurationFile::SetUpManagerConfig() {
auto result = AudioPolicyConfig::loadFromCustomXmlConfigForTests(getConfigFile());
ASSERT_TRUE(result.ok());
mConfig = result.value();
}
TEST_F(AudioPolicyManagerTestWithConfigurationFile, InitSuccess) {
// SetUp must finish with no assertions.
}
TEST_F(AudioPolicyManagerTestWithConfigurationFile, Dump) {
dumpToLog();
}
TEST_F(AudioPolicyManagerTestWithConfigurationFile, ListAudioPortsHasFlags) {
// Create an input for VOIP TX because it's not opened automatically like outputs are.
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
audio_port_handle_t mixPortId = AUDIO_PORT_HANDLE_NONE;
audio_source_t source = AUDIO_SOURCE_VOICE_COMMUNICATION;
audio_attributes_t attr = {
AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN, source, AUDIO_FLAG_NONE, ""};
ASSERT_NO_FATAL_FAILURE(getInputForAttr(attr, 1, &selectedDeviceId, AUDIO_FORMAT_PCM_16_BIT,
AUDIO_CHANNEL_IN_MONO, 8000, AUDIO_INPUT_FLAG_VOIP_TX, &mixPortId));
std::vector<audio_port_v7> ports;
ASSERT_NO_FATAL_FAILURE(
getAudioPorts(AUDIO_PORT_TYPE_MIX, AUDIO_PORT_ROLE_NONE, &ports));
EXPECT_NE(0, ports.size());
bool hasFlags = false, foundPrimary = false, foundVoipRx = false, foundVoipTx = false;
for (const auto& port : ports) {
if ((port.active_config.config_mask & AUDIO_PORT_CONFIG_FLAGS) != 0) {
hasFlags = true;
if (port.role == AUDIO_PORT_ROLE_SOURCE) {
if ((port.active_config.flags.output & AUDIO_OUTPUT_FLAG_PRIMARY) != 0) {
foundPrimary = true;
}
if ((port.active_config.flags.output & AUDIO_OUTPUT_FLAG_VOIP_RX) != 0) {
foundVoipRx = true;
}
} else if (port.role == AUDIO_PORT_ROLE_SINK) {
if ((port.active_config.flags.input & AUDIO_INPUT_FLAG_VOIP_TX) != 0) {
foundVoipTx = true;
}
}
}
}
EXPECT_TRUE(hasFlags);
EXPECT_TRUE(foundPrimary);
EXPECT_TRUE(foundVoipRx);
EXPECT_TRUE(foundVoipTx);
}
TEST_F(AudioPolicyManagerTestWithConfigurationFile, HandleDeviceConfigChange) {
{
const auto prevCounter = mClient->getRoutingUpdatedCounter();
EXPECT_EQ(NO_ERROR, mManager->setDeviceConnectionState(AUDIO_DEVICE_OUT_BLUETOOTH_A2DP,
AUDIO_POLICY_DEVICE_STATE_AVAILABLE,
"", "", AUDIO_FORMAT_LDAC));
const auto currCounter = mClient->getRoutingUpdatedCounter();
EXPECT_GT(currCounter, prevCounter);
}
{
const auto prevCounter = mClient->getRoutingUpdatedCounter();
// Update device configuration
EXPECT_EQ(NO_ERROR, mManager->handleDeviceConfigChange(AUDIO_DEVICE_OUT_BLUETOOTH_A2DP,
"" /*address*/, "" /*name*/,
AUDIO_FORMAT_AAC));
// As mClient marks isReconfigA2dpSupported to false, device state needs to be toggled for
// config changes to take effect
const auto currCounter = mClient->getRoutingUpdatedCounter();
EXPECT_GT(currCounter, prevCounter);
}
}
class AudioPolicyManagerTestDynamicPolicy : public AudioPolicyManagerTestWithConfigurationFile {
protected:
void TearDown() override;
status_t addPolicyMix(int mixType, int mixFlag, audio_devices_t deviceType,
std::string mixAddress, const audio_config_t& audioConfig,
const std::vector<AudioMixMatchCriterion>& matchCriteria);
void clearPolicyMix();
Vector<AudioMix> mAudioMixes;
const std::string mMixAddress = "remote_submix_media";
};
void AudioPolicyManagerTestDynamicPolicy::TearDown() {
mManager->unregisterPolicyMixes(mAudioMixes);
AudioPolicyManagerTestWithConfigurationFile::TearDown();
}
status_t AudioPolicyManagerTestDynamicPolicy::addPolicyMix(int mixType, int mixFlag,
audio_devices_t deviceType, std::string mixAddress, const audio_config_t& audioConfig,
const std::vector<AudioMixMatchCriterion>& matchCriteria = {}) {
AudioMix myAudioMix(matchCriteria, mixType, audioConfig, mixFlag,
String8(mixAddress.c_str()), 0);
myAudioMix.mDeviceType = deviceType;
// Clear mAudioMix before add new one to make sure we don't add already exist mixes.
mAudioMixes.clear();
mAudioMixes.add(myAudioMix);
// As the policy mixes registration may fail at some case,
// caller need to check the returned status.
status_t ret = mManager->registerPolicyMixes(mAudioMixes);
return ret;
}
void AudioPolicyManagerTestDynamicPolicy::clearPolicyMix() {
if (mManager != nullptr) {
mManager->unregisterPolicyMixes(mAudioMixes);
}
mAudioMixes.clear();
}
TEST_F(AudioPolicyManagerTestDynamicPolicy, InitSuccess) {
// SetUp must finish with no assertions
}
TEST_F(AudioPolicyManagerTestDynamicPolicy, Dump) {
dumpToLog();
}
TEST_F(AudioPolicyManagerTestDynamicPolicy, RegisterPolicyMixes) {
status_t ret;
audio_config_t audioConfig = AUDIO_CONFIG_INITIALIZER;
// Only capture of playback is allowed in LOOP_BACK &RENDER mode
ret = addPolicyMix(MIX_TYPE_RECORDERS, MIX_ROUTE_FLAG_LOOP_BACK_AND_RENDER,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, "", audioConfig);
ASSERT_EQ(INVALID_OPERATION, ret);
// Fail due to the device is already connected.
clearPolicyMix();
ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_LOOP_BACK,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, "", audioConfig);
ASSERT_EQ(INVALID_OPERATION, ret);
// The first time to register policy mixes with valid parameter should succeed.
clearPolicyMix();
audioConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audioConfig.format = AUDIO_FORMAT_PCM_16_BIT;
audioConfig.sample_rate = k48000SamplingRate;
ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_LOOP_BACK,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, mMixAddress, audioConfig);
ASSERT_EQ(NO_ERROR, ret);
// Registering the same policy mixes should fail.
ret = mManager->registerPolicyMixes(mAudioMixes);
ASSERT_EQ(INVALID_OPERATION, ret);
// Registration should fail due to device not found.
// Note that earpiece is not present in the test configuration file.
// This will need to be updated if earpiece is added in the test configuration file.
clearPolicyMix();
ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_RENDER,
AUDIO_DEVICE_OUT_EARPIECE, "", audioConfig);
ASSERT_EQ(INVALID_OPERATION, ret);
// Registration should fail due to output not found.
clearPolicyMix();
ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_RENDER,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, "", audioConfig);
ASSERT_EQ(INVALID_OPERATION, ret);
// The first time to register valid policy mixes should succeed.
clearPolicyMix();
ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_RENDER,
AUDIO_DEVICE_OUT_SPEAKER, "", audioConfig);
ASSERT_EQ(NO_ERROR, ret);
// Registering the same policy mixes should fail.
ret = mManager->registerPolicyMixes(mAudioMixes);
ASSERT_EQ(INVALID_OPERATION, ret);
}
TEST_F(AudioPolicyManagerTestDynamicPolicy, UnregisterPolicyMixes) {
status_t ret;
audio_config_t audioConfig = AUDIO_CONFIG_INITIALIZER;
audioConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audioConfig.format = AUDIO_FORMAT_PCM_16_BIT;
audioConfig.sample_rate = k48000SamplingRate;
ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_LOOP_BACK,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, mMixAddress, audioConfig);
ASSERT_EQ(NO_ERROR, ret);
// After successfully registering policy mixes, it should be able to unregister.
ret = mManager->unregisterPolicyMixes(mAudioMixes);
ASSERT_EQ(NO_ERROR, ret);
// After unregistering policy mixes successfully, it should fail unregistering
// the same policy mixes as they are not registered.
ret = mManager->unregisterPolicyMixes(mAudioMixes);
ASSERT_EQ(INVALID_OPERATION, ret);
}
TEST_F(AudioPolicyManagerTestDynamicPolicy, RegisterPolicyWithConsistentMixSucceeds) {
audio_config_t audioConfig = AUDIO_CONFIG_INITIALIZER;
audioConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audioConfig.format = AUDIO_FORMAT_PCM_16_BIT;
audioConfig.sample_rate = k48000SamplingRate;
std::vector<AudioMixMatchCriterion> mixMatchCriteria = {
createUidCriterion(/*uid=*/42),
createUsageCriterion(AUDIO_USAGE_MEDIA, /*exclude=*/true)};
status_t ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_LOOP_BACK,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, mMixAddress, audioConfig,
mixMatchCriteria);
ASSERT_EQ(NO_ERROR, ret);
}
TEST_F(AudioPolicyManagerTestDynamicPolicy, RegisterPolicyWithInconsistentMixFails) {
audio_config_t audioConfig = AUDIO_CONFIG_INITIALIZER;
audioConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audioConfig.format = AUDIO_FORMAT_PCM_16_BIT;
audioConfig.sample_rate = k48000SamplingRate;
std::vector<AudioMixMatchCriterion> mixMatchCriteria = {
createUidCriterion(/*uid=*/42),
createUidCriterion(/*uid=*/1235, /*exclude=*/true),
createUsageCriterion(AUDIO_USAGE_MEDIA, /*exclude=*/true)};
status_t ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_LOOP_BACK,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, mMixAddress, audioConfig,
mixMatchCriteria);
ASSERT_EQ(INVALID_OPERATION, ret);
}
class AudioPolicyManagerTestForHdmi
: public AudioPolicyManagerTestWithConfigurationFile,
public testing::WithParamInterface<audio_format_t> {
protected:
void SetUp() override;
std::string getConfigFile() override { return sTvConfig; }
std::map<audio_format_t, bool> getSurroundFormatsHelper();
std::vector<audio_format_t> getReportedSurroundFormatsHelper();
std::unordered_set<audio_format_t> getFormatsFromPorts();
AudioPolicyManagerTestClient* getClient() override {
return new AudioPolicyManagerTestClientForHdmi;
}
void TearDown() override;
static const std::string sTvConfig;
};
const std::string AudioPolicyManagerTestForHdmi::sTvConfig =
AudioPolicyManagerTestForHdmi::sExecutableDir +
"test_settop_box_surround_configuration.xml";
void AudioPolicyManagerTestForHdmi::SetUp() {
ASSERT_NO_FATAL_FAILURE(AudioPolicyManagerTest::SetUp());
mClient->addSupportedFormat(AUDIO_FORMAT_AC3);
mClient->addSupportedFormat(AUDIO_FORMAT_E_AC3);
mManager->setDeviceConnectionState(
AUDIO_DEVICE_OUT_HDMI, AUDIO_POLICY_DEVICE_STATE_AVAILABLE,
"" /*address*/, "" /*name*/, AUDIO_FORMAT_DEFAULT);
}
void AudioPolicyManagerTestForHdmi::TearDown() {
mManager->setDeviceConnectionState(
AUDIO_DEVICE_OUT_HDMI, AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE,
"" /*address*/, "" /*name*/, AUDIO_FORMAT_DEFAULT);
AudioPolicyManagerTest::TearDown();
}
std::map<audio_format_t, bool>
AudioPolicyManagerTestForHdmi::getSurroundFormatsHelper() {
unsigned int numSurroundFormats = 0;
std::map<audio_format_t, bool> surroundFormatsMap;
status_t ret = mManager->getSurroundFormats(
&numSurroundFormats, nullptr /* surroundFormats */,
nullptr /* surroundFormatsEnabled */);
EXPECT_EQ(NO_ERROR, ret);
if (ret != NO_ERROR) {
return surroundFormatsMap;
}
audio_format_t surroundFormats[numSurroundFormats];
memset(surroundFormats, 0, sizeof(audio_format_t) * numSurroundFormats);
bool surroundFormatsEnabled[numSurroundFormats];
memset(surroundFormatsEnabled, 0, sizeof(bool) * numSurroundFormats);
ret = mManager->getSurroundFormats(
&numSurroundFormats, surroundFormats, surroundFormatsEnabled);
EXPECT_EQ(NO_ERROR, ret);
if (ret != NO_ERROR) {
return surroundFormatsMap;
}
for (int i = 0; i< numSurroundFormats; i++) {
surroundFormatsMap[surroundFormats[i]] = surroundFormatsEnabled[i];
}
return surroundFormatsMap;
}
std::vector<audio_format_t> AudioPolicyManagerTestForHdmi::getReportedSurroundFormatsHelper() {
unsigned int numSurroundFormats = 0;
std::vector<audio_format_t> surroundFormatsVector;
status_t ret = mManager->getReportedSurroundFormats(
&numSurroundFormats, nullptr /* surroundFormats */);
EXPECT_EQ(NO_ERROR, ret);
if (ret != NO_ERROR) {
return surroundFormatsVector;
}
audio_format_t surroundFormats[numSurroundFormats];
memset(surroundFormats, 0, sizeof(audio_format_t) * numSurroundFormats);
ret = mManager->getReportedSurroundFormats(&numSurroundFormats, surroundFormats);
EXPECT_EQ(NO_ERROR, ret);
if (ret != NO_ERROR) {
return surroundFormatsVector;
}
for (const auto &surroundFormat : surroundFormats) {
surroundFormatsVector.push_back(surroundFormat);
}
return surroundFormatsVector;
}
std::unordered_set<audio_format_t>
AudioPolicyManagerTestForHdmi::getFormatsFromPorts() {
uint32_t numPorts = 0;
uint32_t generation1;
status_t ret;
std::unordered_set<audio_format_t> formats;
ret = mManager->listAudioPorts(
AUDIO_PORT_ROLE_SINK, AUDIO_PORT_TYPE_DEVICE, &numPorts, nullptr, &generation1);
EXPECT_EQ(NO_ERROR, ret) << "mManager->listAudioPorts returned error";
if (ret != NO_ERROR) {
return formats;
}
struct audio_port_v7 ports[numPorts];
ret = mManager->listAudioPorts(
AUDIO_PORT_ROLE_SINK, AUDIO_PORT_TYPE_DEVICE, &numPorts, ports, &generation1);
EXPECT_EQ(NO_ERROR, ret) << "mManager->listAudioPorts returned error";
if (ret != NO_ERROR) {
return formats;
}
for (const auto &port : ports) {
for (size_t i = 0; i < port.num_audio_profiles; ++i) {
formats.insert(port.audio_profiles[i].format);
}
}
return formats;
}
TEST_P(AudioPolicyManagerTestForHdmi, GetSurroundFormatsReturnsSupportedFormats) {
mManager->setForceUse(
AUDIO_POLICY_FORCE_FOR_ENCODED_SURROUND, AUDIO_POLICY_FORCE_ENCODED_SURROUND_ALWAYS);
auto surroundFormats = getSurroundFormatsHelper();
ASSERT_EQ(1, surroundFormats.count(GetParam()));
}
TEST_P(AudioPolicyManagerTestForHdmi,
GetSurroundFormatsReturnsManipulatedFormats) {
mManager->setForceUse(
AUDIO_POLICY_FORCE_FOR_ENCODED_SURROUND, AUDIO_POLICY_FORCE_ENCODED_SURROUND_MANUAL);
status_t ret =
mManager->setSurroundFormatEnabled(GetParam(), false /*enabled*/);
ASSERT_EQ(NO_ERROR, ret);
auto surroundFormats = getSurroundFormatsHelper();
ASSERT_EQ(1, surroundFormats.count(GetParam()));
ASSERT_FALSE(surroundFormats[GetParam()]);
ret = mManager->setSurroundFormatEnabled(GetParam(), true /*enabled*/);
ASSERT_EQ(NO_ERROR, ret);
surroundFormats = getSurroundFormatsHelper();
ASSERT_EQ(1, surroundFormats.count(GetParam()));
ASSERT_TRUE(surroundFormats[GetParam()]);
ret = mManager->setSurroundFormatEnabled(GetParam(), false /*enabled*/);
ASSERT_EQ(NO_ERROR, ret);
surroundFormats = getSurroundFormatsHelper();
ASSERT_EQ(1, surroundFormats.count(GetParam()));
ASSERT_FALSE(surroundFormats[GetParam()]);
}
TEST_P(AudioPolicyManagerTestForHdmi,
ListAudioPortsReturnManipulatedHdmiFormats) {
mManager->setForceUse(
AUDIO_POLICY_FORCE_FOR_ENCODED_SURROUND, AUDIO_POLICY_FORCE_ENCODED_SURROUND_MANUAL);
ASSERT_EQ(NO_ERROR, mManager->setSurroundFormatEnabled(GetParam(), false /*enabled*/));
auto formats = getFormatsFromPorts();
ASSERT_EQ(0, formats.count(GetParam()));
ASSERT_EQ(NO_ERROR, mManager->setSurroundFormatEnabled(GetParam(), true /*enabled*/));
formats = getFormatsFromPorts();
ASSERT_EQ(1, formats.count(GetParam()));
}
TEST_P(AudioPolicyManagerTestForHdmi,
GetReportedSurroundFormatsReturnsHdmiReportedFormats) {
mManager->setForceUse(
AUDIO_POLICY_FORCE_FOR_ENCODED_SURROUND, AUDIO_POLICY_FORCE_ENCODED_SURROUND_ALWAYS);
auto surroundFormats = getReportedSurroundFormatsHelper();
ASSERT_EQ(1, std::count(surroundFormats.begin(), surroundFormats.end(), GetParam()));
}
TEST_P(AudioPolicyManagerTestForHdmi,
GetReportedSurroundFormatsReturnsNonManipulatedHdmiReportedFormats) {
mManager->setForceUse(
AUDIO_POLICY_FORCE_FOR_ENCODED_SURROUND, AUDIO_POLICY_FORCE_ENCODED_SURROUND_MANUAL);
status_t ret = mManager->setSurroundFormatEnabled(GetParam(), false /*enabled*/);
ASSERT_EQ(NO_ERROR, ret);
auto surroundFormats = getReportedSurroundFormatsHelper();
ASSERT_EQ(1, std::count(surroundFormats.begin(), surroundFormats.end(), GetParam()));
ret = mManager->setSurroundFormatEnabled(GetParam(), true /*enabled*/);
ASSERT_EQ(NO_ERROR, ret);
surroundFormats = getReportedSurroundFormatsHelper();
ASSERT_EQ(1, std::count(surroundFormats.begin(), surroundFormats.end(), GetParam()));
}
TEST_P(AudioPolicyManagerTestForHdmi, GetSurroundFormatsIgnoresSupportedFormats) {
mManager->setForceUse(
AUDIO_POLICY_FORCE_FOR_ENCODED_SURROUND, AUDIO_POLICY_FORCE_ENCODED_SURROUND_NEVER);
auto surroundFormats = getSurroundFormatsHelper();
ASSERT_EQ(1, surroundFormats.count(GetParam()));
ASSERT_FALSE(surroundFormats[GetParam()]);
}
INSTANTIATE_TEST_SUITE_P(SurroundFormatSupport, AudioPolicyManagerTestForHdmi,
testing::Values(AUDIO_FORMAT_AC3, AUDIO_FORMAT_E_AC3),
[](const ::testing::TestParamInfo<AudioPolicyManagerTestForHdmi::ParamType>& info) {
return audio_format_to_string(info.param);
});
class AudioPolicyManagerTestDPNoRemoteSubmixModule : public AudioPolicyManagerTestDynamicPolicy {
protected:
std::string getConfigFile() override { return sPrimaryOnlyConfig; }
static const std::string sPrimaryOnlyConfig;
};
const std::string AudioPolicyManagerTestDPNoRemoteSubmixModule::sPrimaryOnlyConfig =
sExecutableDir + "test_audio_policy_primary_only_configuration.xml";
TEST_F(AudioPolicyManagerTestDPNoRemoteSubmixModule, InitSuccess) {
// SetUp must finish with no assertions.
}
TEST_F(AudioPolicyManagerTestDPNoRemoteSubmixModule, Dump) {
dumpToLog();
}
TEST_F(AudioPolicyManagerTestDPNoRemoteSubmixModule, RegistrationFailure) {
// Registration/Unregistration should fail due to module for remote submix not found.
status_t ret;
audio_config_t audioConfig = AUDIO_CONFIG_INITIALIZER;
audioConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audioConfig.format = AUDIO_FORMAT_PCM_16_BIT;
audioConfig.sample_rate = k48000SamplingRate;
ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_LOOP_BACK,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, "", audioConfig);
ASSERT_EQ(INVALID_OPERATION, ret);
ret = mManager->unregisterPolicyMixes(mAudioMixes);
ASSERT_EQ(INVALID_OPERATION, ret);
}
class AudioPolicyManagerTestDPPlaybackReRouting : public AudioPolicyManagerTestDynamicPolicy,
public testing::WithParamInterface<audio_attributes_t> {
protected:
void SetUp() override;
void TearDown() override;
std::unique_ptr<RecordingActivityTracker> mTracker;
std::vector<AudioMixMatchCriterion> mUsageRules = {
createUsageCriterion(AUDIO_USAGE_MEDIA),
createUsageCriterion(AUDIO_USAGE_ALARM)
};
struct audio_port_v7 mInjectionPort;
audio_port_handle_t mPortId = AUDIO_PORT_HANDLE_NONE;
};
void AudioPolicyManagerTestDPPlaybackReRouting::SetUp() {
ASSERT_NO_FATAL_FAILURE(AudioPolicyManagerTestDynamicPolicy::SetUp());
mTracker.reset(new RecordingActivityTracker());
audio_config_t audioConfig = AUDIO_CONFIG_INITIALIZER;
audioConfig.channel_mask = AUDIO_CHANNEL_OUT_STEREO;
audioConfig.format = AUDIO_FORMAT_PCM_16_BIT;
audioConfig.sample_rate = k48000SamplingRate;
status_t ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_LOOP_BACK,
AUDIO_DEVICE_OUT_REMOTE_SUBMIX, mMixAddress, audioConfig, mUsageRules);
ASSERT_EQ(NO_ERROR, ret);
struct audio_port_v7 extractionPort;
ASSERT_TRUE(findDevicePort(AUDIO_PORT_ROLE_SOURCE, AUDIO_DEVICE_IN_REMOTE_SUBMIX,
mMixAddress, &extractionPort));
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
audio_source_t source = AUDIO_SOURCE_REMOTE_SUBMIX;
audio_attributes_t attr = {
AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN, source, AUDIO_FLAG_NONE, ""};
std::string tags = "addr=" + mMixAddress;
strncpy(attr.tags, tags.c_str(), AUDIO_ATTRIBUTES_TAGS_MAX_SIZE - 1);
getInputForAttr(attr, mTracker->getRiid(), &selectedDeviceId, AUDIO_FORMAT_PCM_16_BIT,
AUDIO_CHANNEL_IN_STEREO, k48000SamplingRate, AUDIO_INPUT_FLAG_NONE, &mPortId);
ASSERT_EQ(NO_ERROR, mManager->startInput(mPortId));
ASSERT_EQ(extractionPort.id, selectedDeviceId);
ASSERT_TRUE(findDevicePort(AUDIO_PORT_ROLE_SINK, AUDIO_DEVICE_OUT_REMOTE_SUBMIX,
mMixAddress, &mInjectionPort));
}
void AudioPolicyManagerTestDPPlaybackReRouting::TearDown() {
mManager->stopInput(mPortId);
AudioPolicyManagerTestDynamicPolicy::TearDown();
}
TEST_F(AudioPolicyManagerTestDPPlaybackReRouting, InitSuccess) {
// SetUp must finish with no assertions
}
TEST_F(AudioPolicyManagerTestDPPlaybackReRouting, Dump) {
dumpToLog();
}
TEST_P(AudioPolicyManagerTestDPPlaybackReRouting, PlaybackReRouting) {
const audio_attributes_t attr = GetParam();
const audio_usage_t usage = attr.usage;
audio_port_handle_t playbackRoutedPortId = AUDIO_PORT_HANDLE_NONE;
getOutputForAttr(&playbackRoutedPortId, AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_OUT_STEREO,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_NONE, nullptr /*output*/, nullptr /*portId*/,
attr);
if (std::find_if(begin(mUsageRules), end(mUsageRules),
[&usage](const AudioMixMatchCriterion &c) {
return c.mRule == RULE_MATCH_ATTRIBUTE_USAGE &&
c.mValue.mUsage == usage;}) != end(mUsageRules) ||
(strncmp(attr.tags, "addr=", strlen("addr=")) == 0 &&
strncmp(attr.tags + strlen("addr="), mMixAddress.c_str(),
AUDIO_ATTRIBUTES_TAGS_MAX_SIZE - strlen("addr=") - 1) == 0)) {
EXPECT_EQ(mInjectionPort.id, playbackRoutedPortId);
} else {
EXPECT_NE(mInjectionPort.id, playbackRoutedPortId);
}
}
INSTANTIATE_TEST_CASE_P(
PlaybackReroutingUsageMatch,
AudioPolicyManagerTestDPPlaybackReRouting,
testing::Values(
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_MEDIA,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_ALARM,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""}
)
);
INSTANTIATE_TEST_CASE_P(
PlaybackReroutingAddressPriorityMatch,
AudioPolicyManagerTestDPPlaybackReRouting,
testing::Values(
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_MEDIA,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_VOICE_COMMUNICATION,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_ALARM,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_NOTIFICATION,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_NOTIFICATION_TELEPHONY_RINGTONE,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_NOTIFICATION_COMMUNICATION_REQUEST,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_NOTIFICATION_COMMUNICATION_INSTANT,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_NOTIFICATION_COMMUNICATION_DELAYED,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_NOTIFICATION_EVENT,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_ASSISTANCE_ACCESSIBILITY,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_ASSISTANCE_SONIFICATION,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_GAME,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_VIRTUAL_SOURCE,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_ASSISTANT,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_SPEECH, AUDIO_USAGE_ASSISTANT,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, "addr=remote_submix_media"}
)
);
INSTANTIATE_TEST_CASE_P(
PlaybackReroutingUnHandledUsages,
AudioPolicyManagerTestDPPlaybackReRouting,
testing::Values(
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_VOICE_COMMUNICATION,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_NOTIFICATION,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_NOTIFICATION_TELEPHONY_RINGTONE,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_NOTIFICATION_COMMUNICATION_REQUEST,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_NOTIFICATION_COMMUNICATION_INSTANT,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_NOTIFICATION_COMMUNICATION_DELAYED,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_NOTIFICATION_EVENT,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_ASSISTANCE_ACCESSIBILITY,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC,
AUDIO_USAGE_ASSISTANCE_SONIFICATION,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_GAME,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_MUSIC, AUDIO_USAGE_ASSISTANT,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_SPEECH, AUDIO_USAGE_ASSISTANT,
AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""}
)
);
class AudioPolicyManagerTestDPMixRecordInjection : public AudioPolicyManagerTestDynamicPolicy,
public testing::WithParamInterface<audio_attributes_t> {
protected:
void SetUp() override;
void TearDown() override;
std::unique_ptr<RecordingActivityTracker> mTracker;
std::vector<AudioMixMatchCriterion> mSourceRules = {
createCapturePresetCriterion(AUDIO_SOURCE_CAMCORDER),
createCapturePresetCriterion(AUDIO_SOURCE_MIC),
createCapturePresetCriterion(AUDIO_SOURCE_VOICE_COMMUNICATION)
};
struct audio_port_v7 mExtractionPort;
audio_port_handle_t mPortId = AUDIO_PORT_HANDLE_NONE;
};
void AudioPolicyManagerTestDPMixRecordInjection::SetUp() {
ASSERT_NO_FATAL_FAILURE(AudioPolicyManagerTestDynamicPolicy::SetUp());
mTracker.reset(new RecordingActivityTracker());
audio_config_t audioConfig = AUDIO_CONFIG_INITIALIZER;
audioConfig.channel_mask = AUDIO_CHANNEL_IN_STEREO;
audioConfig.format = AUDIO_FORMAT_PCM_16_BIT;
audioConfig.sample_rate = k48000SamplingRate;
status_t ret = addPolicyMix(MIX_TYPE_RECORDERS, MIX_ROUTE_FLAG_LOOP_BACK,
AUDIO_DEVICE_IN_REMOTE_SUBMIX, mMixAddress, audioConfig, mSourceRules);
ASSERT_EQ(NO_ERROR, ret);
struct audio_port_v7 injectionPort;
ASSERT_TRUE(findDevicePort(AUDIO_PORT_ROLE_SINK, AUDIO_DEVICE_OUT_REMOTE_SUBMIX,
mMixAddress, &injectionPort));
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
audio_usage_t usage = AUDIO_USAGE_VIRTUAL_SOURCE;
audio_attributes_t attr =
{AUDIO_CONTENT_TYPE_UNKNOWN, usage, AUDIO_SOURCE_DEFAULT, AUDIO_FLAG_NONE, ""};
std::string tags = std::string("addr=") + mMixAddress;
strncpy(attr.tags, tags.c_str(), AUDIO_ATTRIBUTES_TAGS_MAX_SIZE - 1);
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_OUT_STEREO,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_NONE, nullptr /*output*/, &mPortId, attr);
ASSERT_EQ(NO_ERROR, mManager->startOutput(mPortId));
ASSERT_EQ(injectionPort.id, getDeviceIdFromPatch(mClient->getLastAddedPatch()));
ASSERT_TRUE(findDevicePort(AUDIO_PORT_ROLE_SOURCE, AUDIO_DEVICE_IN_REMOTE_SUBMIX,
mMixAddress, &mExtractionPort));
}
void AudioPolicyManagerTestDPMixRecordInjection::TearDown() {
mManager->stopOutput(mPortId);
AudioPolicyManagerTestDynamicPolicy::TearDown();
}
TEST_F(AudioPolicyManagerTestDPMixRecordInjection, InitSuccess) {
// SetUp mush finish with no assertions.
}
TEST_F(AudioPolicyManagerTestDPMixRecordInjection, Dump) {
dumpToLog();
}
TEST_P(AudioPolicyManagerTestDPMixRecordInjection, RecordingInjection) {
const audio_attributes_t attr = GetParam();
const audio_source_t source = attr.source;
audio_port_handle_t captureRoutedPortId = AUDIO_PORT_HANDLE_NONE;
audio_port_handle_t portId = AUDIO_PORT_HANDLE_NONE;
getInputForAttr(attr, mTracker->getRiid(), &captureRoutedPortId, AUDIO_FORMAT_PCM_16_BIT,
AUDIO_CHANNEL_IN_STEREO, k48000SamplingRate, AUDIO_INPUT_FLAG_NONE, &portId);
if (std::find_if(begin(mSourceRules), end(mSourceRules),
[&source](const AudioMixMatchCriterion &c) {
return c.mRule == RULE_MATCH_ATTRIBUTE_CAPTURE_PRESET &&
c.mValue.mSource == source;})
!= end(mSourceRules)) {
EXPECT_EQ(mExtractionPort.id, captureRoutedPortId);
} else {
EXPECT_NE(mExtractionPort.id, captureRoutedPortId);
}
}
// No address priority rule for remote recording, address is a "don't care"
INSTANTIATE_TEST_CASE_P(
RecordInjectionSourceMatch,
AudioPolicyManagerTestDPMixRecordInjection,
testing::Values(
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_CAMCORDER, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_CAMCORDER, AUDIO_FLAG_NONE,
"addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_MIC, AUDIO_FLAG_NONE,
"addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_MIC, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_VOICE_COMMUNICATION, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_VOICE_COMMUNICATION, AUDIO_FLAG_NONE,
"addr=remote_submix_media"}
)
);
// No address priority rule for remote recording
INSTANTIATE_TEST_CASE_P(
RecordInjectionSourceNotMatch,
AudioPolicyManagerTestDPMixRecordInjection,
testing::Values(
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_VOICE_RECOGNITION, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_HOTWORD, AUDIO_FLAG_NONE, ""},
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_VOICE_RECOGNITION, AUDIO_FLAG_NONE,
"addr=remote_submix_media"},
(audio_attributes_t){AUDIO_CONTENT_TYPE_UNKNOWN, AUDIO_USAGE_UNKNOWN,
AUDIO_SOURCE_HOTWORD, AUDIO_FLAG_NONE,
"addr=remote_submix_media"}
)
);
using DeviceConnectionTestParams =
std::tuple<audio_devices_t /*type*/, std::string /*name*/, std::string /*address*/>;
class AudioPolicyManagerTestDeviceConnection : public AudioPolicyManagerTestWithConfigurationFile,
public testing::WithParamInterface<DeviceConnectionTestParams> {
};
TEST_F(AudioPolicyManagerTestDeviceConnection, InitSuccess) {
// SetUp must finish with no assertions.
}
TEST_F(AudioPolicyManagerTestDeviceConnection, Dump) {
dumpToLog();
}
TEST_F(AudioPolicyManagerTestDeviceConnection, RoutingUpdate) {
mClient->resetRoutingUpdatedCounter();
// Connecting a valid output device with valid parameters should trigger a routing update
ASSERT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
AUDIO_DEVICE_OUT_BLUETOOTH_SCO, AUDIO_POLICY_DEVICE_STATE_AVAILABLE,
"00:11:22:33:44:55", "b", AUDIO_FORMAT_DEFAULT));
ASSERT_EQ(1, mClient->getRoutingUpdatedCounter());
// Disconnecting a connected device should succeed and trigger a routing update
ASSERT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
AUDIO_DEVICE_OUT_BLUETOOTH_SCO, AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE,
"00:11:22:33:44:55", "b", AUDIO_FORMAT_DEFAULT));
ASSERT_EQ(2, mClient->getRoutingUpdatedCounter());
// Disconnecting a disconnected device should fail and not trigger a routing update
ASSERT_EQ(INVALID_OPERATION, mManager->setDeviceConnectionState(
AUDIO_DEVICE_OUT_BLUETOOTH_SCO, AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE,
"00:11:22:33:44:55", "b", AUDIO_FORMAT_DEFAULT));
ASSERT_EQ(2, mClient->getRoutingUpdatedCounter());
// Changing force use should trigger an update
auto config = mManager->getForceUse(AUDIO_POLICY_FORCE_FOR_MEDIA);
auto newConfig = config == AUDIO_POLICY_FORCE_BT_A2DP ?
AUDIO_POLICY_FORCE_NONE : AUDIO_POLICY_FORCE_BT_A2DP;
mManager->setForceUse(AUDIO_POLICY_FORCE_FOR_MEDIA, newConfig);
ASSERT_EQ(3, mClient->getRoutingUpdatedCounter());
}
TEST_P(AudioPolicyManagerTestDeviceConnection, SetDeviceConnectionState) {
const audio_devices_t type = std::get<0>(GetParam());
const std::string name = std::get<1>(GetParam());
const std::string address = std::get<2>(GetParam());
if (type == AUDIO_DEVICE_OUT_HDMI) {
// Set device connection state failed due to no device descriptor found
// For HDMI case, it is easier to simulate device descriptor not found error
// by using an encoded format which isn't listed in the 'encodedFormats'
// attribute for this devicePort.
ASSERT_EQ(INVALID_OPERATION, mManager->setDeviceConnectionState(
type, AUDIO_POLICY_DEVICE_STATE_AVAILABLE,
address.c_str(), name.c_str(), AUDIO_FORMAT_MAT_2_1));
}
// Connect with valid parameters should succeed
ASSERT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
type, AUDIO_POLICY_DEVICE_STATE_AVAILABLE,
address.c_str(), name.c_str(), AUDIO_FORMAT_DEFAULT));
// Try to connect with the same device again should fail
ASSERT_EQ(INVALID_OPERATION, mManager->setDeviceConnectionState(
type, AUDIO_POLICY_DEVICE_STATE_AVAILABLE,
address.c_str(), name.c_str(), AUDIO_FORMAT_DEFAULT));
// Disconnect the connected device should succeed
ASSERT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
type, AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE,
address.c_str(), name.c_str(), AUDIO_FORMAT_DEFAULT));
// Disconnect device that is not connected should fail
ASSERT_EQ(INVALID_OPERATION, mManager->setDeviceConnectionState(
type, AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE,
address.c_str(), name.c_str(), AUDIO_FORMAT_DEFAULT));
// Try to set device connection state with a invalid connection state should fail
ASSERT_EQ(BAD_VALUE, mManager->setDeviceConnectionState(
type, AUDIO_POLICY_DEVICE_STATE_CNT,
"", "", AUDIO_FORMAT_DEFAULT));
}
TEST_P(AudioPolicyManagerTestDeviceConnection, ExplicitlyRoutingAfterConnection) {
const audio_devices_t type = std::get<0>(GetParam());
const std::string name = std::get<1>(GetParam());
const std::string address = std::get<2>(GetParam());
// Connect device to do explicitly routing test
ASSERT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
type, AUDIO_POLICY_DEVICE_STATE_AVAILABLE,
address.c_str(), name.c_str(), AUDIO_FORMAT_DEFAULT));
audio_port_v7 devicePort;
const audio_port_role_t role = audio_is_output_device(type)
? AUDIO_PORT_ROLE_SINK : AUDIO_PORT_ROLE_SOURCE;
ASSERT_TRUE(findDevicePort(role, type, address, &devicePort));
audio_port_handle_t routedPortId = devicePort.id;
// Try start input or output according to the device type
if (audio_is_output_devices(type)) {
getOutputForAttr(&routedPortId, AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_OUT_STEREO,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_NONE);
} else if (audio_is_input_device(type)) {
RecordingActivityTracker tracker;
getInputForAttr({}, tracker.getRiid(), &routedPortId, AUDIO_FORMAT_PCM_16_BIT,
AUDIO_CHANNEL_IN_STEREO, k48000SamplingRate, AUDIO_INPUT_FLAG_NONE);
}
ASSERT_EQ(devicePort.id, routedPortId);
ASSERT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
type, AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE,
address.c_str(), name.c_str(), AUDIO_FORMAT_DEFAULT));
}
android::media::audio::common::ExtraAudioDescriptor make_ExtraAudioDescriptor(
android::media::audio::common::AudioStandard audioStandard,
android::media::audio::common::AudioEncapsulationType audioEncapsulationType) {
android::media::audio::common::ExtraAudioDescriptor result;
result.standard = audioStandard;
result.audioDescriptor = {0xb4, 0xaf, 0x98, 0x1a};
result.encapsulationType = audioEncapsulationType;
return result;
}
TEST_P(AudioPolicyManagerTestDeviceConnection, PassingExtraAudioDescriptors) {
const audio_devices_t type = std::get<0>(GetParam());
if (!audio_device_is_digital(type)) {
// EADs are used only for HDMI devices.
GTEST_SKIP() << "Not a digital device type: " << audio_device_to_string(type);
}
const std::string name = std::get<1>(GetParam());
const std::string address = std::get<2>(GetParam());
android::media::AudioPortFw audioPort;
ASSERT_EQ(NO_ERROR,
mManager->deviceToAudioPort(type, address.c_str(), name.c_str(), &audioPort));
android::media::audio::common::AudioPort& port = audioPort.hal;
port.extraAudioDescriptors.push_back(make_ExtraAudioDescriptor(
android::media::audio::common::AudioStandard::EDID,
android::media::audio::common::AudioEncapsulationType::IEC61937));
const size_t lastConnectedDevicePortCount = mClient->getConnectedDevicePortCount();
const size_t lastDisconnectedDevicePortCount = mClient->getDisconnectedDevicePortCount();
EXPECT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
AUDIO_POLICY_DEVICE_STATE_AVAILABLE, port, AUDIO_FORMAT_DEFAULT));
EXPECT_EQ(lastConnectedDevicePortCount + 1, mClient->getConnectedDevicePortCount());
EXPECT_EQ(lastDisconnectedDevicePortCount, mClient->getDisconnectedDevicePortCount());
const audio_port_v7* devicePort = mClient->getLastConnectedDevicePort();
EXPECT_EQ(port.extraAudioDescriptors.size(), devicePort->num_extra_audio_descriptors);
EXPECT_EQ(AUDIO_STANDARD_EDID, devicePort->extra_audio_descriptors[0].standard);
EXPECT_EQ(AUDIO_ENCAPSULATION_TYPE_IEC61937,
devicePort->extra_audio_descriptors[0].encapsulation_type);
EXPECT_NE(0, devicePort->extra_audio_descriptors[0].descriptor[0]);
}
INSTANTIATE_TEST_CASE_P(
DeviceConnectionState,
AudioPolicyManagerTestDeviceConnection,
testing::Values(
DeviceConnectionTestParams({AUDIO_DEVICE_IN_HDMI, "test_in_hdmi",
"audio_policy_test_in_hdmi"}),
DeviceConnectionTestParams({AUDIO_DEVICE_OUT_HDMI, "test_out_hdmi",
"audio_policy_test_out_hdmi"}),
DeviceConnectionTestParams({AUDIO_DEVICE_IN_BLUETOOTH_SCO_HEADSET, "bt_hfp_in",
"00:11:22:33:44:55"}),
DeviceConnectionTestParams({AUDIO_DEVICE_OUT_BLUETOOTH_SCO, "bt_hfp_out",
"00:11:22:33:44:55"})
)
);
class AudioPolicyManagerCarTest : public AudioPolicyManagerTestDynamicPolicy {
protected:
std::string getConfigFile() override { return sCarConfig; }
static const std::string sCarConfig;
};
const std::string AudioPolicyManagerCarTest::sCarConfig =
AudioPolicyManagerCarTest::sExecutableDir + "test_car_ap_atmos_offload_configuration.xml";
TEST_F(AudioPolicyManagerCarTest, InitSuccess) {
// SetUp must finish with no assertions.
}
TEST_F(AudioPolicyManagerCarTest, Dump) {
dumpToLog();
}
TEST_F(AudioPolicyManagerCarTest, GetOutputForAttrAtmosOutputAfterRegisteringPolicyMix) {
status_t ret;
audio_config_t audioConfig = AUDIO_CONFIG_INITIALIZER;
const std::string kTestBusMediaOutput = "bus0_media_out";
ret = addPolicyMix(MIX_TYPE_PLAYERS, MIX_ROUTE_FLAG_RENDER,
AUDIO_DEVICE_OUT_BUS, kTestBusMediaOutput, audioConfig);
ASSERT_EQ(NO_ERROR, ret);
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
audio_io_handle_t output;
audio_port_handle_t portId;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_E_AC3_JOC, AUDIO_CHANNEL_OUT_5POINT1,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_DIRECT, &output, &portId);
ASSERT_NE(AUDIO_PORT_HANDLE_NONE, selectedDeviceId);
sp<SwAudioOutputDescriptor> outDesc = mManager->getOutputs().valueFor(output);
ASSERT_NE(nullptr, outDesc.get());
ASSERT_EQ(AUDIO_FORMAT_E_AC3_JOC, outDesc->getFormat());
ASSERT_EQ(AUDIO_CHANNEL_OUT_5POINT1, outDesc->getChannelMask());
ASSERT_EQ(k48000SamplingRate, outDesc->getSamplingRate());
selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
output = AUDIO_IO_HANDLE_NONE;
portId = AUDIO_PORT_HANDLE_NONE;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_OUT_7POINT1POINT4,
k48000SamplingRate, AUDIO_OUTPUT_FLAG_DIRECT, &output, &portId);
ASSERT_NE(AUDIO_PORT_HANDLE_NONE, selectedDeviceId);
outDesc = mManager->getOutputs().valueFor(output);
ASSERT_NE(nullptr, outDesc.get());
ASSERT_EQ(AUDIO_FORMAT_PCM_16_BIT, outDesc->getFormat());
ASSERT_EQ(AUDIO_CHANNEL_OUT_7POINT1POINT4, outDesc->getChannelMask());
ASSERT_EQ(k48000SamplingRate, outDesc->getSamplingRate());
}
class AudioPolicyManagerTVTest : public AudioPolicyManagerTestWithConfigurationFile {
protected:
std::string getConfigFile() override { return sTvConfig; }
void testHDMIPortSelection(audio_output_flags_t flags, const char* expectedMixPortName);
static const std::string sTvConfig;
};
const std::string AudioPolicyManagerTVTest::sTvConfig =
AudioPolicyManagerTVTest::sExecutableDir + "test_tv_apm_configuration.xml";
// SwAudioOutputDescriptor doesn't populate flags so check against the port name.
void AudioPolicyManagerTVTest::testHDMIPortSelection(
audio_output_flags_t flags, const char* expectedMixPortName) {
ASSERT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
AUDIO_DEVICE_OUT_AUX_DIGITAL, AUDIO_POLICY_DEVICE_STATE_AVAILABLE,
"" /*address*/, "" /*name*/, AUDIO_FORMAT_DEFAULT));
audio_port_handle_t selectedDeviceId = AUDIO_PORT_HANDLE_NONE;
audio_io_handle_t output;
audio_port_handle_t portId;
getOutputForAttr(&selectedDeviceId, AUDIO_FORMAT_PCM_16_BIT, AUDIO_CHANNEL_OUT_STEREO,
k48000SamplingRate, flags, &output, &portId);
sp<SwAudioOutputDescriptor> outDesc = mManager->getOutputs().valueFor(output);
ASSERT_NE(nullptr, outDesc.get());
audio_port_v7 port = {};
outDesc->toAudioPort(&port);
mManager->releaseOutput(portId);
ASSERT_EQ(NO_ERROR, mManager->setDeviceConnectionState(
AUDIO_DEVICE_OUT_AUX_DIGITAL, AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE,
"" /*address*/, "" /*name*/, AUDIO_FORMAT_DEFAULT));
ASSERT_EQ(AUDIO_PORT_TYPE_MIX, port.type);
ASSERT_EQ(AUDIO_PORT_ROLE_SOURCE, port.role);
ASSERT_STREQ(expectedMixPortName, port.name);
}
TEST_F(AudioPolicyManagerTVTest, InitSuccess) {
// SetUp must finish with no assertions.
}
TEST_F(AudioPolicyManagerTVTest, Dump) {
dumpToLog();
}
TEST_F(AudioPolicyManagerTVTest, MatchNoFlags) {
testHDMIPortSelection(AUDIO_OUTPUT_FLAG_NONE, "primary output");
}
TEST_F(AudioPolicyManagerTVTest, MatchOutputDirectNoHwAvSync) {
// b/140447125: The selected port must not have HW AV Sync flag (see the config file).
testHDMIPortSelection(AUDIO_OUTPUT_FLAG_DIRECT, "direct");
}
TEST_F(AudioPolicyManagerTVTest, MatchOutputDirectHwAvSync) {
testHDMIPortSelection(static_cast<audio_output_flags_t>(
AUDIO_OUTPUT_FLAG_DIRECT|AUDIO_OUTPUT_FLAG_HW_AV_SYNC),
"tunnel");
}
TEST_F(AudioPolicyManagerTVTest, MatchOutputDirectMMapNoIrq) {
testHDMIPortSelection(static_cast<audio_output_flags_t>(
AUDIO_OUTPUT_FLAG_DIRECT|AUDIO_OUTPUT_FLAG_MMAP_NOIRQ),
"low latency");
}
class AudioPolicyManagerDynamicHwModulesTest : public AudioPolicyManagerTestWithConfigurationFile {
protected:
void SetUpManagerConfig() override;
};
void AudioPolicyManagerDynamicHwModulesTest::SetUpManagerConfig() {
ASSERT_NO_FATAL_FAILURE(AudioPolicyManagerTestWithConfigurationFile::SetUpManagerConfig());
// Only allow successful opening of "primary" hw module during APM initialization.
mClient->swapAllowedModuleNames({"primary"});
}
TEST_F(AudioPolicyManagerDynamicHwModulesTest, InitSuccess) {
// SetUp must finish with no assertions.
}
TEST_F(AudioPolicyManagerDynamicHwModulesTest, DynamicAddition) {
const auto handleBefore = mClient->peekNextModuleHandle();
mManager->onNewAudioModulesAvailable();
ASSERT_EQ(handleBefore, mClient->peekNextModuleHandle());
// Reset module loading restrictions.
mClient->swapAllowedModuleNames();
mManager->onNewAudioModulesAvailable();
const auto handleAfter = mClient->peekNextModuleHandle();
ASSERT_GT(handleAfter, handleBefore);
mManager->onNewAudioModulesAvailable();
ASSERT_EQ(handleAfter, mClient->peekNextModuleHandle());
}
TEST_F(AudioPolicyManagerDynamicHwModulesTest, AddedDeviceAvailable) {
ASSERT_EQ(AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE, mManager->getDeviceConnectionState(
AUDIO_DEVICE_IN_REMOTE_SUBMIX, "0"));
mClient->swapAllowedModuleNames({"primary", "r_submix"});
mManager->onNewAudioModulesAvailable();
ASSERT_EQ(AUDIO_POLICY_DEVICE_STATE_AVAILABLE, mManager->getDeviceConnectionState(
AUDIO_DEVICE_IN_REMOTE_SUBMIX, "0"));
}
TEST_F(AudioPolicyManagerDynamicHwModulesTest, ListAddedAudioPorts) {
ASSERT_FALSE(
findDevicePort(AUDIO_PORT_ROLE_SOURCE, AUDIO_DEVICE_IN_REMOTE_SUBMIX, "0", nullptr));
mClient->swapAllowedModuleNames({"primary", "r_submix"});
mManager->onNewAudioModulesAvailable();
struct audio_port_v7 port;
ASSERT_TRUE(findDevicePort(AUDIO_PORT_ROLE_SOURCE, AUDIO_DEVICE_IN_REMOTE_SUBMIX, "0", &port));
}
TEST_F(AudioPolicyManagerDynamicHwModulesTest, ClientIsUpdated) {
const size_t prevAudioPortListUpdateCount = mClient->getAudioPortListUpdateCount();
const uint32_t prevAudioPortGeneration = mManager->getAudioPortGeneration();
mClient->swapAllowedModuleNames({"primary", "r_submix"});
mManager->onNewAudioModulesAvailable();
EXPECT_GT(mClient->getAudioPortListUpdateCount(), prevAudioPortListUpdateCount);
EXPECT_GT(mManager->getAudioPortGeneration(), prevAudioPortGeneration);
}
using DevicesRoleForCapturePresetParam = std::tuple<audio_source_t, device_role_t>;
class AudioPolicyManagerDevicesRoleForCapturePresetTest
: public AudioPolicyManagerTestWithConfigurationFile,
public testing::WithParamInterface<DevicesRoleForCapturePresetParam> {
protected:
// The `inputDevice` and `inputDevice2` indicate the audio devices type to be used for setting
// device role. They must be declared in the test_audio_policy_configuration.xml
AudioDeviceTypeAddr inputDevice = AudioDeviceTypeAddr(AUDIO_DEVICE_IN_BUILTIN_MIC, "");
AudioDeviceTypeAddr inputDevice2 = AudioDeviceTypeAddr(AUDIO_DEVICE_IN_HDMI, "");
};
TEST_P(AudioPolicyManagerDevicesRoleForCapturePresetTest, DevicesRoleForCapturePreset) {
const audio_source_t audioSource = std::get<0>(GetParam());
const device_role_t role = std::get<1>(GetParam());
// Test invalid device when setting
const AudioDeviceTypeAddr outputDevice(AUDIO_DEVICE_OUT_SPEAKER, "");
const AudioDeviceTypeAddrVector outputDevices = {outputDevice};
ASSERT_EQ(BAD_VALUE,
mManager->setDevicesRoleForCapturePreset(audioSource, role, outputDevices));
ASSERT_EQ(BAD_VALUE,
mManager->addDevicesRoleForCapturePreset(audioSource, role, outputDevices));
AudioDeviceTypeAddrVector devices;
ASSERT_EQ(NAME_NOT_FOUND,
mManager->getDevicesForRoleAndCapturePreset(audioSource, role, devices));
ASSERT_TRUE(devices.empty());
ASSERT_EQ(BAD_VALUE,
mManager->removeDevicesRoleForCapturePreset(audioSource, role, outputDevices));
// Without setting, call get/remove/clear must fail
ASSERT_EQ(NAME_NOT_FOUND,
mManager->getDevicesForRoleAndCapturePreset(audioSource, role, devices));
ASSERT_EQ(NAME_NOT_FOUND,
mManager->removeDevicesRoleForCapturePreset(audioSource, role, devices));
ASSERT_EQ(NAME_NOT_FOUND,
mManager->clearDevicesRoleForCapturePreset(audioSource, role));
// Test set/get devices role
const AudioDeviceTypeAddrVector inputDevices = {inputDevice};
ASSERT_EQ(NO_ERROR,
mManager->setDevicesRoleForCapturePreset(audioSource, role, inputDevices));
ASSERT_EQ(NO_ERROR, mManager->getDevicesForRoleAndCapturePreset(audioSource, role, devices));
EXPECT_THAT(devices, UnorderedElementsAre(inputDevice));
// Test setting will change the previously set devices
const AudioDeviceTypeAddrVector inputDevices2 = {inputDevice2};
ASSERT_EQ(NO_ERROR,
mManager->setDevicesRoleForCapturePreset(audioSource, role, inputDevices2));
devices.clear();
ASSERT_EQ(NO_ERROR, mManager->getDevicesForRoleAndCapturePreset(audioSource, role, devices));
EXPECT_THAT(devices, UnorderedElementsAre(inputDevice2));
// Test add devices
ASSERT_EQ(NO_ERROR,
mManager->addDevicesRoleForCapturePreset(audioSource, role, inputDevices));
devices.clear();
ASSERT_EQ(NO_ERROR, mManager->getDevicesForRoleAndCapturePreset(audioSource, role, devices));
EXPECT_THAT(devices, UnorderedElementsAre(inputDevice, inputDevice2));
// Test remove devices
ASSERT_EQ(NO_ERROR,
mManager->removeDevicesRoleForCapturePreset(audioSource, role, inputDevices));
devices.clear();
ASSERT_EQ(NO_ERROR, mManager->getDevicesForRoleAndCapturePreset(audioSource, role, devices));
EXPECT_THAT(devices, UnorderedElementsAre(inputDevice2));
// Test remove devices that are not set as the device role
ASSERT_EQ(BAD_VALUE,
mManager->removeDevicesRoleForCapturePreset(audioSource, role, inputDevices));
// Test clear devices
ASSERT_EQ(NO_ERROR,
mManager->clearDevicesRoleForCapturePreset(audioSource, role));
devices.clear();
ASSERT_EQ(NAME_NOT_FOUND,
mManager->getDevicesForRoleAndCapturePreset(audioSource, role, devices));
}
INSTANTIATE_TEST_CASE_P(
DevicesRoleForCapturePresetOperation,
AudioPolicyManagerDevicesRoleForCapturePresetTest,
testing::Values(
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_MIC, DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_VOICE_UPLINK,
DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_VOICE_DOWNLINK,
DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_VOICE_CALL, DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_CAMCORDER, DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_VOICE_RECOGNITION,
DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_VOICE_COMMUNICATION,
DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_REMOTE_SUBMIX,
DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_UNPROCESSED, DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_VOICE_PERFORMANCE,
DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_ECHO_REFERENCE,
DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_FM_TUNER, DEVICE_ROLE_PREFERRED}),
DevicesRoleForCapturePresetParam({AUDIO_SOURCE_HOTWORD, DEVICE_ROLE_PREFERRED})
)
);