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LeafOS / LeafOS-Project / android_frameworks_av / 62e0d430b180227d72db33dfd00ddc5395ad35a7 / . / services / audiopolicy / service / AudioPolicyInterfaceImpl.cpp
blob: 509b6734304731b7774ee365f4f970eadf4795c1 [file] [log] [blame]
/*
* Copyright (C) 2009 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 "AudioPolicyIntefaceImpl"
//#define LOG_NDEBUG 0
#include "AudioPolicyService.h"
#include "AudioRecordClient.h"
#include "TypeConverter.h"
#include <media/AidlConversion.h>
#include <media/AudioPolicy.h>
#include <media/AudioValidator.h>
#include <media/MediaMetricsItem.h>
#include <media/PolicyAidlConversion.h>
#include <utils/Log.h>
#include <android/content/AttributionSourceState.h>
#define VALUE_OR_RETURN_BINDER_STATUS(x) \
({ auto _tmp = (x); \
if (!_tmp.ok()) return aidl_utils::binderStatusFromStatusT(_tmp.error()); \
std::move(_tmp.value()); })
#define RETURN_BINDER_STATUS_IF_ERROR(x) \
if (status_t _tmp = (x); _tmp != OK) return aidl_utils::binderStatusFromStatusT(_tmp);
#define RETURN_IF_BINDER_ERROR(x) \
{ \
binder::Status _tmp = (x); \
if (!_tmp.isOk()) return _tmp; \
}
#define MAX_ITEMS_PER_LIST 1024
namespace android {
using binder::Status;
using aidl_utils::binderStatusFromStatusT;
using content::AttributionSourceState;
using media::audio::common::AudioConfig;
using media::audio::common::AudioConfigBase;
using media::audio::common::AudioDevice;
using media::audio::common::AudioDeviceAddress;
using media::audio::common::AudioDeviceDescription;
using media::audio::common::AudioFormatDescription;
using media::audio::common::AudioMode;
using media::audio::common::AudioOffloadInfo;
using media::audio::common::AudioSource;
using media::audio::common::AudioStreamType;
using media::audio::common::AudioUsage;
using media::audio::common::AudioUuid;
using media::audio::common::Int;
const std::vector<audio_usage_t>& SYSTEM_USAGES = {
AUDIO_USAGE_CALL_ASSISTANT,
AUDIO_USAGE_EMERGENCY,
AUDIO_USAGE_SAFETY,
AUDIO_USAGE_VEHICLE_STATUS,
AUDIO_USAGE_ANNOUNCEMENT
};
bool isSystemUsage(audio_usage_t usage) {
return std::find(std::begin(SYSTEM_USAGES), std::end(SYSTEM_USAGES), usage)
!= std::end(SYSTEM_USAGES);
}
bool AudioPolicyService::isSupportedSystemUsage(audio_usage_t usage) {
return std::find(std::begin(mSupportedSystemUsages), std::end(mSupportedSystemUsages), usage)
!= std::end(mSupportedSystemUsages);
}
status_t AudioPolicyService::validateUsage(const audio_attributes_t& attr) {
return validateUsage(attr, getCallingAttributionSource());
}
status_t AudioPolicyService::validateUsage(const audio_attributes_t& attr,
const AttributionSourceState& attributionSource) {
if (isSystemUsage(attr.usage)) {
if (isSupportedSystemUsage(attr.usage)) {
if (attr.usage == AUDIO_USAGE_CALL_ASSISTANT
&& ((attr.flags & AUDIO_FLAG_CALL_REDIRECTION) != 0)) {
if (!callAudioInterceptionAllowed(attributionSource)) {
ALOGE("%s: call audio interception not allowed for attribution source: %s",
__func__, attributionSource.toString().c_str());
return PERMISSION_DENIED;
}
} else if (!modifyAudioRoutingAllowed(attributionSource)) {
ALOGE("%s: modify audio routing not allowed for attribution source: %s",
__func__, attributionSource.toString().c_str());
return PERMISSION_DENIED;
}
} else {
return BAD_VALUE;
}
}
return NO_ERROR;
}
// ----------------------------------------------------------------------------
void AudioPolicyService::doOnNewAudioModulesAvailable()
{
if (mAudioPolicyManager == NULL) return;
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
mAudioPolicyManager->onNewAudioModulesAvailable();
}
Status AudioPolicyService::setDeviceConnectionState(
media::AudioPolicyDeviceState stateAidl,
const android::media::audio::common::AudioPort& port,
const AudioFormatDescription& encodedFormatAidl) {
audio_policy_dev_state_t state = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPolicyDeviceState_audio_policy_dev_state_t(stateAidl));
audio_format_t encodedFormat = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioFormatDescription_audio_format_t(encodedFormatAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (!settingsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (state != AUDIO_POLICY_DEVICE_STATE_AVAILABLE &&
state != AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE) {
return binderStatusFromStatusT(BAD_VALUE);
}
ALOGV("setDeviceConnectionState()");
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
status_t status = mAudioPolicyManager->setDeviceConnectionState(
state, port, encodedFormat);
if (status == NO_ERROR) {
onCheckSpatializer_l();
}
return binderStatusFromStatusT(status);
}
Status AudioPolicyService::getDeviceConnectionState(const AudioDevice& deviceAidl,
media::AudioPolicyDeviceState* _aidl_return) {
audio_devices_t device;
std::string address;
RETURN_BINDER_STATUS_IF_ERROR(
aidl2legacy_AudioDevice_audio_device(deviceAidl, &device, &address));
if (mAudioPolicyManager == NULL) {
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_policy_dev_state_t_AudioPolicyDeviceState(
AUDIO_POLICY_DEVICE_STATE_UNAVAILABLE));
return Status::ok();
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_policy_dev_state_t_AudioPolicyDeviceState(
mAudioPolicyManager->getDeviceConnectionState(
device, address.c_str())));
return Status::ok();
}
Status AudioPolicyService::handleDeviceConfigChange(
const AudioDevice& deviceAidl,
const std::string& deviceNameAidl,
const AudioFormatDescription& encodedFormatAidl) {
audio_devices_t device;
std::string address;
RETURN_BINDER_STATUS_IF_ERROR(
aidl2legacy_AudioDevice_audio_device(deviceAidl, &device, &address));
audio_format_t encodedFormat = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioFormatDescription_audio_format_t(encodedFormatAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (!settingsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
ALOGV("handleDeviceConfigChange()");
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
status_t status = mAudioPolicyManager->handleDeviceConfigChange(
device, address.c_str(), deviceNameAidl.c_str(), encodedFormat);
if (status == NO_ERROR) {
onCheckSpatializer_l();
}
return binderStatusFromStatusT(status);
}
Status AudioPolicyService::setPhoneState(AudioMode stateAidl, int32_t uidAidl)
{
audio_mode_t state = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioMode_audio_mode_t(stateAidl));
uid_t uid = VALUE_OR_RETURN_BINDER_STATUS(aidl2legacy_int32_t_uid_t(uidAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (!settingsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (uint32_t(state) >= AUDIO_MODE_CNT) {
return binderStatusFromStatusT(BAD_VALUE);
}
ALOGV("setPhoneState()");
// acquire lock before calling setMode() so that setMode() + setPhoneState() are an atomic
// operation from policy manager standpoint (no other operation (e.g track start or stop)
// can be interleaved).
Mutex::Autolock _l(mLock);
// TODO: check if it is more appropriate to do it in platform specific policy manager
// Audio HAL mode conversion for call redirect modes
audio_mode_t halMode = state;
if (state == AUDIO_MODE_CALL_REDIRECT) {
halMode = AUDIO_MODE_CALL_SCREEN;
} else if (state == AUDIO_MODE_COMMUNICATION_REDIRECT) {
halMode = AUDIO_MODE_NORMAL;
}
AudioSystem::setMode(halMode);
AutoCallerClear acc;
mAudioPolicyManager->setPhoneState(state);
mPhoneState = state;
mPhoneStateOwnerUid = uid;
updateUidStates_l();
return Status::ok();
}
Status AudioPolicyService::getPhoneState(AudioMode* _aidl_return) {
Mutex::Autolock _l(mLock);
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_audio_mode_t_AudioMode(mPhoneState));
return Status::ok();
}
Status AudioPolicyService::setForceUse(media::AudioPolicyForceUse usageAidl,
media::AudioPolicyForcedConfig configAidl)
{
audio_policy_force_use_t usage = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPolicyForceUse_audio_policy_force_use_t(usageAidl));
audio_policy_forced_cfg_t config = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPolicyForcedConfig_audio_policy_forced_cfg_t(configAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (usage < 0 || usage >= AUDIO_POLICY_FORCE_USE_CNT) {
return binderStatusFromStatusT(BAD_VALUE);
}
if (config < 0 || config >= AUDIO_POLICY_FORCE_CFG_CNT) {
return binderStatusFromStatusT(BAD_VALUE);
}
ALOGV("setForceUse()");
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
mAudioPolicyManager->setForceUse(usage, config);
onCheckSpatializer_l();
return Status::ok();
}
Status AudioPolicyService::getForceUse(media::AudioPolicyForceUse usageAidl,
media::AudioPolicyForcedConfig* _aidl_return) {
audio_policy_force_use_t usage = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPolicyForceUse_audio_policy_force_use_t(usageAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (usage < 0 || usage >= AUDIO_POLICY_FORCE_USE_CNT) {
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_policy_forced_cfg_t_AudioPolicyForcedConfig(AUDIO_POLICY_FORCE_NONE));
return Status::ok();
}
AutoCallerClear acc;
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_policy_forced_cfg_t_AudioPolicyForcedConfig(
mAudioPolicyManager->getForceUse(usage)));
return Status::ok();
}
Status AudioPolicyService::getOutput(AudioStreamType streamAidl, int32_t* _aidl_return)
{
audio_stream_type_t stream = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioStreamType_audio_stream_type_t(streamAidl));
if (uint32_t(stream) >= AUDIO_STREAM_PUBLIC_CNT
&& stream != AUDIO_STREAM_ASSISTANT && stream != AUDIO_STREAM_CALL_ASSISTANT) {
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_io_handle_t_int32_t(AUDIO_IO_HANDLE_NONE));
return Status::ok();
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
ALOGV("getOutput()");
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_io_handle_t_int32_t(mAudioPolicyManager->getOutput(stream)));
return Status::ok();
}
Status AudioPolicyService::getOutputForAttr(const media::audio::common::AudioAttributes& attrAidl,
int32_t sessionAidl,
const AttributionSourceState& attributionSource,
const AudioConfig& configAidl,
int32_t flagsAidl,
int32_t selectedDeviceIdAidl,
media::GetOutputForAttrResponse* _aidl_return)
{
audio_attributes_t attr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
audio_session_t session = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_session_t(sessionAidl));
audio_stream_type_t stream = AUDIO_STREAM_DEFAULT;
audio_config_t config = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioConfig_audio_config_t(configAidl, false /*isInput*/));
audio_output_flags_t flags = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_output_flags_t_mask(flagsAidl));
audio_port_handle_t selectedDeviceId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(selectedDeviceIdAidl));
audio_io_handle_t output;
audio_port_handle_t portId;
std::vector<audio_io_handle_t> secondaryOutputs;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(AudioValidator::validateAudioAttributes(attr, "68953950")));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(validateUsage(attr, attributionSource)));
ALOGV("%s()", __func__);
Mutex::Autolock _l(mLock);
if (!mPackageManager.allowPlaybackCapture(VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_uid_t(attributionSource.uid)))) {
attr.flags = static_cast<audio_flags_mask_t>(attr.flags | AUDIO_FLAG_NO_MEDIA_PROJECTION);
}
if (((attr.flags & (AUDIO_FLAG_BYPASS_INTERRUPTION_POLICY|AUDIO_FLAG_BYPASS_MUTE)) != 0)
&& !bypassInterruptionPolicyAllowed(attributionSource)) {
attr.flags = static_cast<audio_flags_mask_t>(
attr.flags & ~(AUDIO_FLAG_BYPASS_INTERRUPTION_POLICY|AUDIO_FLAG_BYPASS_MUTE));
}
if (attr.content_type == AUDIO_CONTENT_TYPE_ULTRASOUND) {
if (!accessUltrasoundAllowed(attributionSource)) {
ALOGE("%s: permission denied: ultrasound not allowed for uid %d pid %d",
__func__, attributionSource.uid, attributionSource.pid);
return binderStatusFromStatusT(PERMISSION_DENIED);
}
}
AutoCallerClear acc;
AudioPolicyInterface::output_type_t outputType;
bool isSpatialized = false;
bool isBitPerfect = false;
status_t result = mAudioPolicyManager->getOutputForAttr(&attr, &output, session,
&stream,
attributionSource,
&config,
&flags, &selectedDeviceId, &portId,
&secondaryOutputs,
&outputType,
&isSpatialized,
&isBitPerfect);
// FIXME: Introduce a way to check for the the telephony device before opening the output
if (result == NO_ERROR) {
// enforce permission (if any) required for each type of input
switch (outputType) {
case AudioPolicyInterface::API_OUTPUT_LEGACY:
break;
case AudioPolicyInterface::API_OUTPUT_TELEPHONY_TX:
if (((attr.flags & AUDIO_FLAG_CALL_REDIRECTION) != 0)
&& !callAudioInterceptionAllowed(attributionSource)) {
ALOGE("%s() permission denied: call redirection not allowed for uid %d",
__func__, attributionSource.uid);
result = PERMISSION_DENIED;
} else if (!modifyPhoneStateAllowed(attributionSource)) {
ALOGE("%s() permission denied: modify phone state not allowed for uid %d",
__func__, attributionSource.uid);
result = PERMISSION_DENIED;
}
break;
case AudioPolicyInterface::API_OUT_MIX_PLAYBACK:
if (!modifyAudioRoutingAllowed(attributionSource)) {
ALOGE("%s() permission denied: modify audio routing not allowed for uid %d",
__func__, attributionSource.uid);
result = PERMISSION_DENIED;
}
break;
case AudioPolicyInterface::API_OUTPUT_INVALID:
default:
LOG_ALWAYS_FATAL("%s() encountered an invalid output type %d",
__func__, (int)outputType);
}
}
if (result == NO_ERROR) {
attr = VALUE_OR_RETURN_BINDER_STATUS(
mUsecaseValidator->verifyAudioAttributes(output, attributionSource, attr));
sp<AudioPlaybackClient> client =
new AudioPlaybackClient(attr, output, attributionSource, session,
portId, selectedDeviceId, stream, isSpatialized);
mAudioPlaybackClients.add(portId, client);
_aidl_return->output = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_io_handle_t_int32_t(output));
_aidl_return->stream = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_stream_type_t_AudioStreamType(stream));
_aidl_return->selectedDeviceId = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_port_handle_t_int32_t(selectedDeviceId));
_aidl_return->portId = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_port_handle_t_int32_t(portId));
_aidl_return->secondaryOutputs = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<int32_t>>(secondaryOutputs,
legacy2aidl_audio_io_handle_t_int32_t));
_aidl_return->isSpatialized = isSpatialized;
_aidl_return->isBitPerfect = isBitPerfect;
_aidl_return->attr = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_attributes_t_AudioAttributes(attr));
} else {
_aidl_return->configBase.format = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_format_t_AudioFormatDescription(config.format));
_aidl_return->configBase.channelMask = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_channel_mask_t_AudioChannelLayout(
config.channel_mask, false /*isInput*/));
_aidl_return->configBase.sampleRate = config.sample_rate;
}
return binderStatusFromStatusT(result);
}
void AudioPolicyService::getPlaybackClientAndEffects(audio_port_handle_t portId,
sp<AudioPlaybackClient>& client,
sp<AudioPolicyEffects>& effects,
const char *context)
{
Mutex::Autolock _l(mLock);
const ssize_t index = mAudioPlaybackClients.indexOfKey(portId);
if (index < 0) {
ALOGE("%s AudioTrack client not found for portId %d", context, portId);
return;
}
client = mAudioPlaybackClients.valueAt(index);
effects = mAudioPolicyEffects;
}
Status AudioPolicyService::startOutput(int32_t portIdAidl)
{
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
ALOGV("startOutput()");
sp<AudioPlaybackClient> client;
sp<AudioPolicyEffects> audioPolicyEffects;
getPlaybackClientAndEffects(portId, client, audioPolicyEffects, __func__);
if (audioPolicyEffects != 0) {
// create audio processors according to stream
status_t status = audioPolicyEffects->addOutputSessionEffects(client->io, client->stream,
client->session);
if (status != NO_ERROR && status != ALREADY_EXISTS) {
ALOGW("Failed to add effects on session %d", client->session);
}
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
status_t status = mAudioPolicyManager->startOutput(portId);
if (status == NO_ERROR) {
//TODO b/257922898: decide if/how we need to handle attributes update when playback starts
// or during playback
(void)mUsecaseValidator->startClient(client->io, client->portId, client->attributionSource,
client->attributes, nullptr /* callback */);
client->active = true;
onUpdateActiveSpatializerTracks_l();
}
return binderStatusFromStatusT(status);
}
Status AudioPolicyService::stopOutput(int32_t portIdAidl)
{
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
ALOGV("stopOutput()");
mOutputCommandThread->stopOutputCommand(portId);
return Status::ok();
}
status_t AudioPolicyService::doStopOutput(audio_port_handle_t portId)
{
ALOGV("doStopOutput");
sp<AudioPlaybackClient> client;
sp<AudioPolicyEffects>audioPolicyEffects;
getPlaybackClientAndEffects(portId, client, audioPolicyEffects, __func__);
if (audioPolicyEffects != 0) {
// release audio processors from the stream
status_t status = audioPolicyEffects->releaseOutputSessionEffects(
client->io, client->stream, client->session);
if (status != NO_ERROR && status != ALREADY_EXISTS) {
ALOGW("Failed to release effects on session %d", client->session);
}
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
status_t status = mAudioPolicyManager->stopOutput(portId);
if (status == NO_ERROR) {
client->active = false;
onUpdateActiveSpatializerTracks_l();
mUsecaseValidator->stopClient(client->io, client->portId);
}
return status;
}
Status AudioPolicyService::releaseOutput(int32_t portIdAidl)
{
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
ALOGV("releaseOutput()");
mOutputCommandThread->releaseOutputCommand(portId);
return Status::ok();
}
void AudioPolicyService::doReleaseOutput(audio_port_handle_t portId)
{
ALOGV("doReleaseOutput from tid %d", gettid());
sp<AudioPlaybackClient> client;
sp<AudioPolicyEffects> audioPolicyEffects;
getPlaybackClientAndEffects(portId, client, audioPolicyEffects, __func__);
if (audioPolicyEffects != 0 && client->active) {
// clean up effects if output was not stopped before being released
audioPolicyEffects->releaseOutputSessionEffects(
client->io, client->stream, client->session);
}
Mutex::Autolock _l(mLock);
if (client != nullptr && client->active) {
onUpdateActiveSpatializerTracks_l();
}
mAudioPlaybackClients.removeItem(portId);
// called from internal thread: no need to clear caller identity
mAudioPolicyManager->releaseOutput(portId);
}
Status AudioPolicyService::getInputForAttr(const media::audio::common::AudioAttributes& attrAidl,
int32_t inputAidl,
int32_t riidAidl,
int32_t sessionAidl,
const AttributionSourceState& attributionSource,
const AudioConfigBase& configAidl,
int32_t flagsAidl,
int32_t selectedDeviceIdAidl,
media::GetInputForAttrResponse* _aidl_return) {
audio_attributes_t attr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
audio_io_handle_t input = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_io_handle_t(inputAidl));
audio_unique_id_t riid = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_unique_id_t(riidAidl));
audio_session_t session = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_session_t(sessionAidl));
audio_config_base_t config = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioConfigBase_audio_config_base_t(configAidl, true /*isInput*/));
audio_input_flags_t flags = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_input_flags_t_mask(flagsAidl));
audio_port_handle_t selectedDeviceId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(selectedDeviceIdAidl));
audio_port_handle_t portId;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(AudioValidator::validateAudioAttributes(attr, "68953950")));
audio_source_t inputSource = attr.source;
if (inputSource == AUDIO_SOURCE_DEFAULT) {
inputSource = AUDIO_SOURCE_MIC;
}
// already checked by client, but double-check in case the client wrapper is bypassed
if ((inputSource < AUDIO_SOURCE_DEFAULT)
|| (inputSource >= AUDIO_SOURCE_CNT
&& inputSource != AUDIO_SOURCE_HOTWORD
&& inputSource != AUDIO_SOURCE_FM_TUNER
&& inputSource != AUDIO_SOURCE_ECHO_REFERENCE
&& inputSource != AUDIO_SOURCE_ULTRASOUND)) {
return binderStatusFromStatusT(BAD_VALUE);
}
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(validateUsage(attr,
attributionSource)));
// check calling permissions.
// Capturing from the following sources does not require permission RECORD_AUDIO
// as the captured audio does not come from a microphone:
// - FM_TUNER source is controlled by captureTunerAudioInputAllowed() or
// captureAudioOutputAllowed() (deprecated).
// - REMOTE_SUBMIX source is controlled by captureAudioOutputAllowed() if the input
// type is API_INPUT_MIX_EXT_POLICY_REROUTE and by AudioService if a media projection
// is used and input type is API_INPUT_MIX_PUBLIC_CAPTURE_PLAYBACK
// - ECHO_REFERENCE source is controlled by captureAudioOutputAllowed()
if (!(recordingAllowed(attributionSource, inputSource)
|| inputSource == AUDIO_SOURCE_FM_TUNER
|| inputSource == AUDIO_SOURCE_REMOTE_SUBMIX
|| inputSource == AUDIO_SOURCE_ECHO_REFERENCE)) {
ALOGE("%s permission denied: recording not allowed for %s",
__func__, attributionSource.toString().c_str());
return binderStatusFromStatusT(PERMISSION_DENIED);
}
bool canCaptureOutput = captureAudioOutputAllowed(attributionSource);
bool canInterceptCallAudio = callAudioInterceptionAllowed(attributionSource);
bool isCallAudioSource = inputSource == AUDIO_SOURCE_VOICE_UPLINK
|| inputSource == AUDIO_SOURCE_VOICE_DOWNLINK
|| inputSource == AUDIO_SOURCE_VOICE_CALL;
if (isCallAudioSource && !canInterceptCallAudio && !canCaptureOutput) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (inputSource == AUDIO_SOURCE_ECHO_REFERENCE
&& !canCaptureOutput) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (inputSource == AUDIO_SOURCE_FM_TUNER
&& !canCaptureOutput
&& !captureTunerAudioInputAllowed(attributionSource)) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
bool canCaptureHotword = captureHotwordAllowed(attributionSource);
if ((inputSource == AUDIO_SOURCE_HOTWORD) && !canCaptureHotword) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (((flags & (AUDIO_INPUT_FLAG_HW_HOTWORD |
AUDIO_INPUT_FLAG_HOTWORD_TAP |
AUDIO_INPUT_FLAG_HW_LOOKBACK)) != 0)
&& !canCaptureHotword) {
ALOGE("%s: permission denied: hotword mode not allowed"
" for uid %d pid %d", __func__, attributionSource.uid, attributionSource.pid);
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (attr.source == AUDIO_SOURCE_ULTRASOUND) {
if (!accessUltrasoundAllowed(attributionSource)) {
ALOGE("%s: permission denied: ultrasound not allowed for uid %d pid %d",
__func__, attributionSource.uid, attributionSource.pid);
return binderStatusFromStatusT(PERMISSION_DENIED);
}
}
sp<AudioPolicyEffects>audioPolicyEffects;
{
status_t status;
AudioPolicyInterface::input_type_t inputType;
Mutex::Autolock _l(mLock);
{
AutoCallerClear acc;
// the audio_in_acoustics_t parameter is ignored by get_input()
status = mAudioPolicyManager->getInputForAttr(&attr, &input, riid, session,
attributionSource, &config,
flags, &selectedDeviceId,
&inputType, &portId);
}
audioPolicyEffects = mAudioPolicyEffects;
if (status == NO_ERROR) {
// enforce permission (if any) required for each type of input
switch (inputType) {
case AudioPolicyInterface::API_INPUT_MIX_PUBLIC_CAPTURE_PLAYBACK:
// this use case has been validated in audio service with a MediaProjection token,
// and doesn't rely on regular permissions
case AudioPolicyInterface::API_INPUT_LEGACY:
break;
case AudioPolicyInterface::API_INPUT_TELEPHONY_RX:
if ((attr.flags & AUDIO_FLAG_CALL_REDIRECTION) != 0
&& canInterceptCallAudio) {
break;
}
// FIXME: use the same permission as for remote submix for now.
FALLTHROUGH_INTENDED;
case AudioPolicyInterface::API_INPUT_MIX_CAPTURE:
if (!canCaptureOutput) {
ALOGE("%s permission denied: capture not allowed", __func__);
status = PERMISSION_DENIED;
}
break;
case AudioPolicyInterface::API_INPUT_MIX_EXT_POLICY_REROUTE:
if (!(modifyAudioRoutingAllowed(attributionSource)
|| ((attr.flags & AUDIO_FLAG_CALL_REDIRECTION) != 0
&& canInterceptCallAudio))) {
ALOGE("%s permission denied for remote submix capture", __func__);
status = PERMISSION_DENIED;
}
break;
case AudioPolicyInterface::API_INPUT_INVALID:
default:
LOG_ALWAYS_FATAL("%s encountered an invalid input type %d",
__func__, (int)inputType);
}
}
if (status != NO_ERROR) {
if (status == PERMISSION_DENIED) {
AutoCallerClear acc;
mAudioPolicyManager->releaseInput(portId);
} else {
_aidl_return->config = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_config_base_t_AudioConfigBase(config, true /*isInput*/));
}
return binderStatusFromStatusT(status);
}
sp<AudioRecordClient> client = new AudioRecordClient(attr, input, session, portId,
selectedDeviceId, attributionSource,
canCaptureOutput, canCaptureHotword,
mOutputCommandThread);
mAudioRecordClients.add(portId, client);
}
if (audioPolicyEffects != 0) {
// create audio pre processors according to input source
status_t status = audioPolicyEffects->addInputEffects(input, inputSource, session);
if (status != NO_ERROR && status != ALREADY_EXISTS) {
ALOGW("Failed to add effects on input %d", input);
}
}
_aidl_return->input = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_io_handle_t_int32_t(input));
_aidl_return->selectedDeviceId = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_port_handle_t_int32_t(selectedDeviceId));
_aidl_return->portId = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_port_handle_t_int32_t(portId));
return Status::ok();
}
std::string AudioPolicyService::getDeviceTypeStrForPortId(audio_port_handle_t portId) {
struct audio_port_v7 port = {};
port.id = portId;
status_t status = mAudioPolicyManager->getAudioPort(&port);
if (status == NO_ERROR && port.type == AUDIO_PORT_TYPE_DEVICE) {
return toString(port.ext.device.type);
}
return {};
}
Status AudioPolicyService::startInput(int32_t portIdAidl)
{
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
sp<AudioRecordClient> client;
{
Mutex::Autolock _l(mLock);
ssize_t index = mAudioRecordClients.indexOfKey(portId);
if (index < 0) {
return binderStatusFromStatusT(INVALID_OPERATION);
}
client = mAudioRecordClients.valueAt(index);
}
std::stringstream msg;
msg << "Audio recording on session " << client->session;
// check calling permissions
if (!(startRecording(client->attributionSource, String16(msg.str().c_str()),
client->attributes.source)
|| client->attributes.source == AUDIO_SOURCE_FM_TUNER
|| client->attributes.source == AUDIO_SOURCE_REMOTE_SUBMIX
|| client->attributes.source == AUDIO_SOURCE_ECHO_REFERENCE)) {
ALOGE("%s permission denied: recording not allowed for attribution source %s",
__func__, client->attributionSource.toString().c_str());
return binderStatusFromStatusT(PERMISSION_DENIED);
}
Mutex::Autolock _l(mLock);
ALOGW_IF(client->silenced, "startInput on silenced input for port %d, uid %d. Unsilencing.",
portIdAidl,
client->attributionSource.uid);
if (client->active) {
ALOGE("Client should never be active before startInput. Uid %d port %d",
client->attributionSource.uid, portId);
finishRecording(client->attributionSource, client->attributes.source);
return binderStatusFromStatusT(INVALID_OPERATION);
}
// Force the possibly silenced client to be unsilenced since we just called
// startRecording (i.e. we have assumed it is unsilenced).
// At this point in time, the client is inactive, so no calls to appops are sent in
// setAppState_l.
// This ensures existing clients have the same behavior as new clients (starting unsilenced).
// TODO(b/282076713)
setAppState_l(client, APP_STATE_TOP);
client->active = true;
client->startTimeNs = systemTime();
// This call updates the silenced state, and since we are active, appropriately notifies appops
// if we silence the track.
updateUidStates_l();
status_t status;
{
AutoCallerClear acc;
status = mAudioPolicyManager->startInput(portId);
}
// including successes gets very verbose
// but once we cut over to statsd, log them all.
if (status != NO_ERROR) {
static constexpr char kAudioPolicy[] = "audiopolicy";
static constexpr char kAudioPolicyStatus[] = "android.media.audiopolicy.status";
static constexpr char kAudioPolicyRqstSrc[] = "android.media.audiopolicy.rqst.src";
static constexpr char kAudioPolicyRqstPkg[] = "android.media.audiopolicy.rqst.pkg";
static constexpr char kAudioPolicyRqstSession[] = "android.media.audiopolicy.rqst.session";
static constexpr char kAudioPolicyRqstDevice[] =
"android.media.audiopolicy.rqst.device";
static constexpr char kAudioPolicyActiveSrc[] = "android.media.audiopolicy.active.src";
static constexpr char kAudioPolicyActivePkg[] = "android.media.audiopolicy.active.pkg";
static constexpr char kAudioPolicyActiveSession[] =
"android.media.audiopolicy.active.session";
static constexpr char kAudioPolicyActiveDevice[] =
"android.media.audiopolicy.active.device";
mediametrics::Item *item = mediametrics::Item::create(kAudioPolicy);
if (item != NULL) {
item->setInt32(kAudioPolicyStatus, status);
item->setCString(kAudioPolicyRqstSrc,
toString(client->attributes.source).c_str());
item->setInt32(kAudioPolicyRqstSession, client->session);
if (client->attributionSource.packageName.has_value() &&
client->attributionSource.packageName.value().size() != 0) {
item->setCString(kAudioPolicyRqstPkg,
client->attributionSource.packageName.value().c_str());
} else {
item->setCString(kAudioPolicyRqstPkg,
std::to_string(client->attributionSource.uid).c_str());
}
item->setCString(
kAudioPolicyRqstDevice, getDeviceTypeStrForPortId(client->deviceId).c_str());
int count = mAudioRecordClients.size();
for (int i = 0; i < count ; i++) {
if (portId == mAudioRecordClients.keyAt(i)) {
continue;
}
sp<AudioRecordClient> other = mAudioRecordClients.valueAt(i);
if (other->active) {
// keeps the last of the clients marked active
item->setCString(kAudioPolicyActiveSrc,
toString(other->attributes.source).c_str());
item->setInt32(kAudioPolicyActiveSession, other->session);
if (other->attributionSource.packageName.has_value() &&
other->attributionSource.packageName.value().size() != 0) {
item->setCString(kAudioPolicyActivePkg,
other->attributionSource.packageName.value().c_str());
} else {
item->setCString(kAudioPolicyRqstPkg, std::to_string(
other->attributionSource.uid).c_str());
}
item->setCString(kAudioPolicyActiveDevice,
getDeviceTypeStrForPortId(other->deviceId).c_str());
}
}
item->selfrecord();
delete item;
item = NULL;
}
}
if (status != NO_ERROR) {
client->active = false;
client->startTimeNs = 0;
updateUidStates_l();
finishRecording(client->attributionSource, client->attributes.source);
}
return binderStatusFromStatusT(status);
}
Status AudioPolicyService::stopInput(int32_t portIdAidl)
{
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
ssize_t index = mAudioRecordClients.indexOfKey(portId);
if (index < 0) {
return binderStatusFromStatusT(INVALID_OPERATION);
}
sp<AudioRecordClient> client = mAudioRecordClients.valueAt(index);
client->active = false;
client->startTimeNs = 0;
updateUidStates_l();
// finish the recording app op
finishRecording(client->attributionSource, client->attributes.source);
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->stopInput(portId));
}
Status AudioPolicyService::releaseInput(int32_t portIdAidl)
{
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
sp<AudioPolicyEffects>audioPolicyEffects;
sp<AudioRecordClient> client;
{
Mutex::Autolock _l(mLock);
audioPolicyEffects = mAudioPolicyEffects;
ssize_t index = mAudioRecordClients.indexOfKey(portId);
if (index < 0) {
return Status::ok();
}
client = mAudioRecordClients.valueAt(index);
if (client->active) {
ALOGW("%s releasing active client portId %d", __FUNCTION__, portId);
client->active = false;
client->startTimeNs = 0;
updateUidStates_l();
}
mAudioRecordClients.removeItem(portId);
}
if (client == 0) {
return Status::ok();
}
if (audioPolicyEffects != 0) {
// release audio processors from the input
status_t status = audioPolicyEffects->releaseInputEffects(client->io, client->session);
if(status != NO_ERROR) {
ALOGW("Failed to release effects on input %d", client->io);
}
}
{
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
mAudioPolicyManager->releaseInput(portId);
}
return Status::ok();
}
Status AudioPolicyService::initStreamVolume(AudioStreamType streamAidl,
int32_t indexMinAidl,
int32_t indexMaxAidl) {
audio_stream_type_t stream = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioStreamType_audio_stream_type_t(streamAidl));
int indexMin = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int>(indexMinAidl));
int indexMax = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int>(indexMaxAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (!settingsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (uint32_t(stream) >= AUDIO_STREAM_PUBLIC_CNT) {
return binderStatusFromStatusT(BAD_VALUE);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
mAudioPolicyManager->initStreamVolume(stream, indexMin, indexMax);
return binderStatusFromStatusT(NO_ERROR);
}
Status AudioPolicyService::setStreamVolumeIndex(AudioStreamType streamAidl,
const AudioDeviceDescription& deviceAidl,
int32_t indexAidl) {
audio_stream_type_t stream = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioStreamType_audio_stream_type_t(streamAidl));
int index = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int>(indexAidl));
audio_devices_t device = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioDeviceDescription_audio_devices_t(deviceAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (!settingsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (uint32_t(stream) >= AUDIO_STREAM_PUBLIC_CNT) {
return binderStatusFromStatusT(BAD_VALUE);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->setStreamVolumeIndex(stream,
index,
device));
}
Status AudioPolicyService::getStreamVolumeIndex(AudioStreamType streamAidl,
const AudioDeviceDescription& deviceAidl,
int32_t* _aidl_return) {
audio_stream_type_t stream = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioStreamType_audio_stream_type_t(streamAidl));
audio_devices_t device = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioDeviceDescription_audio_devices_t(deviceAidl));
int index;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (uint32_t(stream) >= AUDIO_STREAM_PUBLIC_CNT) {
return binderStatusFromStatusT(BAD_VALUE);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getStreamVolumeIndex(stream, &index, device)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int32_t>(index));
return Status::ok();
}
Status AudioPolicyService::setVolumeIndexForAttributes(
const media::audio::common::AudioAttributes& attrAidl,
const AudioDeviceDescription& deviceAidl, int32_t indexAidl) {
audio_attributes_t attributes = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
int index = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int>(indexAidl));
audio_devices_t device = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioDeviceDescription_audio_devices_t(deviceAidl));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateAudioAttributes(attributes, "169572641")));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (!settingsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(
mAudioPolicyManager->setVolumeIndexForAttributes(attributes, index, device));
}
Status AudioPolicyService::getVolumeIndexForAttributes(
const media::audio::common::AudioAttributes& attrAidl,
const AudioDeviceDescription& deviceAidl, int32_t* _aidl_return) {
audio_attributes_t attributes = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
audio_devices_t device = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioDeviceDescription_audio_devices_t(deviceAidl));
int index;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateAudioAttributes(attributes, "169572641")));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getVolumeIndexForAttributes(attributes, index, device)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int32_t>(index));
return Status::ok();
}
Status AudioPolicyService::getMinVolumeIndexForAttributes(
const media::audio::common::AudioAttributes& attrAidl, int32_t* _aidl_return) {
audio_attributes_t attributes = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
int index;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateAudioAttributes(attributes, "169572641")));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getMinVolumeIndexForAttributes(attributes, index)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int32_t>(index));
return Status::ok();
}
Status AudioPolicyService::getMaxVolumeIndexForAttributes(
const media::audio::common::AudioAttributes& attrAidl, int32_t* _aidl_return) {
audio_attributes_t attributes = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
int index;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateAudioAttributes(attributes, "169572641")));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getMaxVolumeIndexForAttributes(attributes, index)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int32_t>(index));
return Status::ok();
}
Status AudioPolicyService::getStrategyForStream(AudioStreamType streamAidl,
int32_t* _aidl_return) {
audio_stream_type_t stream = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioStreamType_audio_stream_type_t(streamAidl));
if (uint32_t(stream) >= AUDIO_STREAM_PUBLIC_CNT) {
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertReinterpret<int32_t>(PRODUCT_STRATEGY_NONE));
return Status::ok();
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
// DO NOT LOCK, may be called from AudioFlinger with lock held, reaching deadlock
AutoCallerClear acc;
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_product_strategy_t_int32_t(
mAudioPolicyManager->getStrategyForStream(stream)));
return Status::ok();
}
Status AudioPolicyService::getDevicesForAttributes(
const media::audio::common::AudioAttributes& attrAidl,
bool forVolume,
std::vector<AudioDevice>* _aidl_return)
{
audio_attributes_t aa = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
AudioDeviceTypeAddrVector devices;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getDevicesForAttributes(aa, &devices, forVolume)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<AudioDevice>>(devices,
legacy2aidl_AudioDeviceTypeAddress));
return Status::ok();
}
Status AudioPolicyService::getOutputForEffect(const media::EffectDescriptor& descAidl,
int32_t* _aidl_return) {
effect_descriptor_t desc = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_EffectDescriptor_effect_descriptor_t(descAidl));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateEffectDescriptor(desc, "73126106")));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_io_handle_t_int32_t(mAudioPolicyManager->getOutputForEffect(&desc)));
return Status::ok();
}
Status AudioPolicyService::registerEffect(const media::EffectDescriptor& descAidl, int32_t ioAidl,
int32_t strategyAidl, int32_t sessionAidl,
int32_t idAidl) {
effect_descriptor_t desc = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_EffectDescriptor_effect_descriptor_t(descAidl));
audio_io_handle_t io = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_io_handle_t(ioAidl));
product_strategy_t strategy = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_product_strategy_t(strategyAidl));
audio_session_t session = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_session_t(sessionAidl));
int id = VALUE_OR_RETURN_BINDER_STATUS(convertReinterpret<int>(idAidl));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateEffectDescriptor(desc, "73126106")));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(
mAudioPolicyManager->registerEffect(&desc, io, strategy, session, id));
}
Status AudioPolicyService::unregisterEffect(int32_t idAidl)
{
int id = VALUE_OR_RETURN_BINDER_STATUS(convertReinterpret<int>(idAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->unregisterEffect(id));
}
Status AudioPolicyService::setEffectEnabled(int32_t idAidl, bool enabled)
{
int id = VALUE_OR_RETURN_BINDER_STATUS(convertReinterpret<int>(idAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->setEffectEnabled(id, enabled));
}
Status AudioPolicyService::moveEffectsToIo(const std::vector<int32_t>& idsAidl, int32_t ioAidl)
{
const std::vector<int>& ids = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<int>>(idsAidl, convertReinterpret<int, int32_t>));
audio_io_handle_t io = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_io_handle_t(ioAidl));
if (ids.size() > MAX_ITEMS_PER_LIST) {
return binderStatusFromStatusT(BAD_VALUE);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->moveEffectsToIo(ids, io));
}
Status AudioPolicyService::isStreamActive(AudioStreamType streamAidl, int32_t inPastMsAidl,
bool* _aidl_return) {
audio_stream_type_t stream = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioStreamType_audio_stream_type_t(streamAidl));
uint32_t inPastMs = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<uint32_t>(inPastMsAidl));
if (uint32_t(stream) >= AUDIO_STREAM_PUBLIC_CNT) {
*_aidl_return = false;
return Status::ok();
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = mAudioPolicyManager->isStreamActive(stream, inPastMs);
return Status::ok();
}
Status AudioPolicyService::isStreamActiveRemotely(AudioStreamType streamAidl,
int32_t inPastMsAidl,
bool* _aidl_return) {
audio_stream_type_t stream = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioStreamType_audio_stream_type_t(streamAidl));
uint32_t inPastMs = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<uint32_t>(inPastMsAidl));
if (uint32_t(stream) >= AUDIO_STREAM_PUBLIC_CNT) {
*_aidl_return = false;
return Status::ok();
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = mAudioPolicyManager->isStreamActiveRemotely(stream, inPastMs);
return Status::ok();
}
Status AudioPolicyService::isSourceActive(AudioSource sourceAidl, bool* _aidl_return) {
audio_source_t source = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioSource_audio_source_t(sourceAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = mAudioPolicyManager->isSourceActive(source);
return Status::ok();
}
status_t AudioPolicyService::getAudioPolicyEffects(sp<AudioPolicyEffects>& audioPolicyEffects)
{
if (mAudioPolicyManager == NULL) {
return NO_INIT;
}
{
Mutex::Autolock _l(mLock);
audioPolicyEffects = mAudioPolicyEffects;
}
if (audioPolicyEffects == 0) {
return NO_INIT;
}
return OK;
}
Status AudioPolicyService::queryDefaultPreProcessing(
int32_t audioSessionAidl,
Int* countAidl,
std::vector<media::EffectDescriptor>* _aidl_return) {
audio_session_t audioSession = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_session_t(audioSessionAidl));
uint32_t count = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<uint32_t>(countAidl->value));
if (count > AudioEffect::kMaxPreProcessing) {
count = AudioEffect::kMaxPreProcessing;
}
uint32_t countReq = count;
std::unique_ptr<effect_descriptor_t[]> descriptors(new effect_descriptor_t[count]);
sp<AudioPolicyEffects> audioPolicyEffects;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(getAudioPolicyEffects(audioPolicyEffects)));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(audioPolicyEffects->queryDefaultInputEffects(
(audio_session_t) audioSession, descriptors.get(), &count)));
countReq = std::min(count, countReq);
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
convertRange(descriptors.get(), descriptors.get() + countReq,
std::back_inserter(*_aidl_return),
legacy2aidl_effect_descriptor_t_EffectDescriptor)));
countAidl->value = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<uint32_t>(count));
return Status::ok();
}
Status AudioPolicyService::addSourceDefaultEffect(const AudioUuid& typeAidl,
const std::string& opPackageNameAidl,
const AudioUuid& uuidAidl,
int32_t priority,
AudioSource sourceAidl,
int32_t* _aidl_return) {
effect_uuid_t type = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioUuid_audio_uuid_t(typeAidl));
String16 opPackageName = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_string_view_String16(opPackageNameAidl));
effect_uuid_t uuid = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioUuid_audio_uuid_t(uuidAidl));
audio_source_t source = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioSource_audio_source_t(sourceAidl));
audio_unique_id_t id;
sp<AudioPolicyEffects>audioPolicyEffects;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(getAudioPolicyEffects(audioPolicyEffects)));
if (!modifyDefaultAudioEffectsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(audioPolicyEffects->addSourceDefaultEffect(
&type, opPackageName, &uuid, priority, source, &id)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_audio_unique_id_t_int32_t(id));
return Status::ok();
}
Status AudioPolicyService::addStreamDefaultEffect(const AudioUuid& typeAidl,
const std::string& opPackageNameAidl,
const AudioUuid& uuidAidl,
int32_t priority, AudioUsage usageAidl,
int32_t* _aidl_return) {
effect_uuid_t type = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioUuid_audio_uuid_t(typeAidl));
String16 opPackageName = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_string_view_String16(opPackageNameAidl));
effect_uuid_t uuid = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioUuid_audio_uuid_t(uuidAidl));
audio_usage_t usage = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioUsage_audio_usage_t(usageAidl));
audio_unique_id_t id;
sp<AudioPolicyEffects> audioPolicyEffects;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(getAudioPolicyEffects(audioPolicyEffects)));
if (!modifyDefaultAudioEffectsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(audioPolicyEffects->addStreamDefaultEffect(
&type, opPackageName, &uuid, priority, usage, &id)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_audio_unique_id_t_int32_t(id));
return Status::ok();
}
Status AudioPolicyService::removeSourceDefaultEffect(int32_t idAidl)
{
audio_unique_id_t id = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_unique_id_t(idAidl));
sp<AudioPolicyEffects>audioPolicyEffects;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(getAudioPolicyEffects(audioPolicyEffects)));
if (!modifyDefaultAudioEffectsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
return binderStatusFromStatusT(audioPolicyEffects->removeSourceDefaultEffect(id));
}
Status AudioPolicyService::removeStreamDefaultEffect(int32_t idAidl)
{
audio_unique_id_t id = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_unique_id_t(idAidl));
sp<AudioPolicyEffects>audioPolicyEffects;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(getAudioPolicyEffects(audioPolicyEffects)));
if (!modifyDefaultAudioEffectsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
return binderStatusFromStatusT(audioPolicyEffects->removeStreamDefaultEffect(id));
}
Status AudioPolicyService::setSupportedSystemUsages(
const std::vector<AudioUsage>& systemUsagesAidl) {
size_t size = systemUsagesAidl.size();
if (size > MAX_ITEMS_PER_LIST) {
size = MAX_ITEMS_PER_LIST;
}
std::vector<audio_usage_t> systemUsages;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
convertRange(systemUsagesAidl.begin(), systemUsagesAidl.begin() + size,
std::back_inserter(systemUsages), aidl2legacy_AudioUsage_audio_usage_t)));
Mutex::Autolock _l(mLock);
if(!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
bool areAllSystemUsages = std::all_of(begin(systemUsages), end(systemUsages),
[](audio_usage_t usage) { return isSystemUsage(usage); });
if (!areAllSystemUsages) {
return binderStatusFromStatusT(BAD_VALUE);
}
mSupportedSystemUsages = systemUsages;
return Status::ok();
}
Status AudioPolicyService::setAllowedCapturePolicy(int32_t uidAidl, int32_t capturePolicyAidl) {
uid_t uid = VALUE_OR_RETURN_BINDER_STATUS(aidl2legacy_int32_t_uid_t(uidAidl));
audio_flags_mask_t capturePolicy = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_flags_mask_t_mask(capturePolicyAidl));
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
ALOGV("%s() mAudioPolicyManager == NULL", __func__);
return binderStatusFromStatusT(NO_INIT);
}
return binderStatusFromStatusT(
mAudioPolicyManager->setAllowedCapturePolicy(uid, capturePolicy));
}
Status AudioPolicyService::getOffloadSupport(const AudioOffloadInfo& infoAidl,
media::AudioOffloadMode* _aidl_return) {
audio_offload_info_t info = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioOffloadInfo_audio_offload_info_t(infoAidl));
if (mAudioPolicyManager == NULL) {
ALOGV("mAudioPolicyManager == NULL");
return binderStatusFromStatusT(AUDIO_OFFLOAD_NOT_SUPPORTED);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_audio_offload_mode_t_AudioOffloadMode(
mAudioPolicyManager->getOffloadSupport(info)));
return Status::ok();
}
Status AudioPolicyService::isDirectOutputSupported(
const AudioConfigBase& configAidl,
const media::audio::common::AudioAttributes& attributesAidl,
bool* _aidl_return) {
audio_config_base_t config = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioConfigBase_audio_config_base_t(configAidl, false /*isInput*/));
audio_attributes_t attributes = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attributesAidl));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateAudioAttributes(attributes, "169572641")));
if (mAudioPolicyManager == NULL) {
ALOGV("mAudioPolicyManager == NULL");
return binderStatusFromStatusT(NO_INIT);
}
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(validateUsage(attributes)));
Mutex::Autolock _l(mLock);
*_aidl_return = mAudioPolicyManager->isDirectOutputSupported(config, attributes);
return Status::ok();
}
template <typename Port>
void anonymizePortBluetoothAddress(Port *port) {
if (port->type != AUDIO_PORT_TYPE_DEVICE) {
return;
}
if (!(audio_is_a2dp_device(port->ext.device.type)
|| audio_is_ble_device(port->ext.device.type)
|| audio_is_bluetooth_sco_device(port->ext.device.type)
|| audio_is_hearing_aid_out_device(port->ext.device.type))) {
return;
}
anonymizeBluetoothAddress(port->ext.device.address);
}
Status AudioPolicyService::listAudioPorts(media::AudioPortRole roleAidl,
media::AudioPortType typeAidl, Int* count,
std::vector<media::AudioPortFw>* portsAidl,
int32_t* _aidl_return) {
audio_port_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPortRole_audio_port_role_t(roleAidl));
audio_port_type_t type = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPortType_audio_port_type_t(typeAidl));
unsigned int num_ports = VALUE_OR_RETURN_BINDER_STATUS(
convertIntegral<unsigned int>(count->value));
if (num_ports > MAX_ITEMS_PER_LIST) {
num_ports = MAX_ITEMS_PER_LIST;
}
unsigned int numPortsReq = num_ports;
std::unique_ptr<audio_port_v7[]> ports(new audio_port_v7[num_ports]);
unsigned int generation;
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
const AttributionSourceState attributionSource = getCallingAttributionSource();
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->listAudioPorts(role, type, &num_ports, ports.get(), &generation)));
numPortsReq = std::min(numPortsReq, num_ports);
if (mustAnonymizeBluetoothAddress(attributionSource, String16(__func__))) {
for (size_t i = 0; i < numPortsReq; ++i) {
anonymizePortBluetoothAddress(&ports[i]);
}
}
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
convertRange(ports.get(), ports.get() + numPortsReq, std::back_inserter(*portsAidl),
legacy2aidl_audio_port_v7_AudioPortFw)));
count->value = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int32_t>(num_ports));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int32_t>(generation));
return Status::ok();
}
Status AudioPolicyService::listDeclaredDevicePorts(media::AudioPortRole role,
std::vector<media::AudioPortFw>* _aidl_return) {
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->listDeclaredDevicePorts(
role, _aidl_return));
}
Status AudioPolicyService::getAudioPort(int portId,
media::AudioPortFw* _aidl_return) {
audio_port_v7 port{ .id = portId };
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
const AttributionSourceState attributionSource = getCallingAttributionSource();
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(mAudioPolicyManager->getAudioPort(&port)));
if (mustAnonymizeBluetoothAddress(attributionSource, String16(__func__))) {
anonymizePortBluetoothAddress(&port);
}
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_audio_port_v7_AudioPortFw(port));
return Status::ok();
}
Status AudioPolicyService::createAudioPatch(const media::AudioPatchFw& patchAidl,
int32_t handleAidl,
int32_t* _aidl_return) {
audio_patch patch = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPatchFw_audio_patch(patchAidl));
audio_patch_handle_t handle = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(handleAidl));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(AudioValidator::validateAudioPatch(patch)));
Mutex::Autolock _l(mLock);
if(!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->createAudioPatch(&patch, &handle,
IPCThreadState::self()->getCallingUid())));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_audio_patch_handle_t_int32_t(handle));
return Status::ok();
}
Status AudioPolicyService::releaseAudioPatch(int32_t handleAidl)
{
audio_patch_handle_t handle = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_patch_handle_t(handleAidl));
Mutex::Autolock _l(mLock);
if(!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(
mAudioPolicyManager->releaseAudioPatch(handle,
IPCThreadState::self()->getCallingUid()));
}
Status AudioPolicyService::listAudioPatches(Int* count,
std::vector<media::AudioPatchFw>* patchesAidl,
int32_t* _aidl_return) {
unsigned int num_patches = VALUE_OR_RETURN_BINDER_STATUS(
convertIntegral<unsigned int>(count->value));
if (num_patches > MAX_ITEMS_PER_LIST) {
num_patches = MAX_ITEMS_PER_LIST;
}
unsigned int numPatchesReq = num_patches;
std::unique_ptr<audio_patch[]> patches(new audio_patch[num_patches]);
unsigned int generation;
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
const AttributionSourceState attributionSource = getCallingAttributionSource();
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->listAudioPatches(&num_patches, patches.get(), &generation)));
numPatchesReq = std::min(numPatchesReq, num_patches);
if (mustAnonymizeBluetoothAddress(attributionSource, String16(__func__))) {
for (size_t i = 0; i < numPatchesReq; ++i) {
for (size_t j = 0; j < patches[i].num_sources; ++j) {
anonymizePortBluetoothAddress(&patches[i].sources[j]);
}
for (size_t j = 0; j < patches[i].num_sinks; ++j) {
anonymizePortBluetoothAddress(&patches[i].sinks[j]);
}
}
}
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
convertRange(patches.get(), patches.get() + numPatchesReq,
std::back_inserter(*patchesAidl), legacy2aidl_audio_patch_AudioPatchFw)));
count->value = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int32_t>(num_patches));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int32_t>(generation));
return Status::ok();
}
Status AudioPolicyService::setAudioPortConfig(const media::AudioPortConfigFw& configAidl)
{
audio_port_config config = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPortConfigFw_audio_port_config(configAidl));
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(AudioValidator::validateAudioPortConfig(config)));
Mutex::Autolock _l(mLock);
if(!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->setAudioPortConfig(&config));
}
Status AudioPolicyService::acquireSoundTriggerSession(media::SoundTriggerSession* _aidl_return)
{
audio_session_t session;
audio_io_handle_t ioHandle;
audio_devices_t device;
{
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->acquireSoundTriggerSession(&session, &ioHandle, &device)));
}
_aidl_return->session = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_session_t_int32_t(session));
_aidl_return->ioHandle = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_io_handle_t_int32_t(ioHandle));
_aidl_return->device = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_devices_t_AudioDeviceDescription(device));
return Status::ok();
}
Status AudioPolicyService::releaseSoundTriggerSession(int32_t sessionAidl)
{
audio_session_t session = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_session_t(sessionAidl));
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->releaseSoundTriggerSession(session));
}
Status AudioPolicyService::registerPolicyMixes(const std::vector<media::AudioMix>& mixesAidl,
bool registration) {
size_t size = mixesAidl.size();
if (size > MAX_MIXES_PER_POLICY) {
size = MAX_MIXES_PER_POLICY;
}
Vector<AudioMix> mixes;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
convertRange(mixesAidl.begin(), mixesAidl.begin() + size, std::back_inserter(mixes),
aidl2legacy_AudioMix)));
Mutex::Autolock _l(mLock);
// loopback|render only need a MediaProjection (checked in caller AudioService.java)
bool needModifyAudioRouting = std::any_of(mixes.begin(), mixes.end(), [](auto& mix) {
return !is_mix_loopback_render(mix.mRouteFlags); });
if (needModifyAudioRouting && !modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
// If one of the mixes has needCaptureVoiceCommunicationOutput set to true, then we
// need to verify that the caller still has CAPTURE_VOICE_COMMUNICATION_OUTPUT
bool needCaptureVoiceCommunicationOutput =
std::any_of(mixes.begin(), mixes.end(), [](auto& mix) {
return mix.mVoiceCommunicationCaptureAllowed; });
bool needCaptureMediaOutput = std::any_of(mixes.begin(), mixes.end(), [](auto& mix) {
return mix.mAllowPrivilegedMediaPlaybackCapture; });
const AttributionSourceState attributionSource = getCallingAttributionSource();
if (needCaptureMediaOutput && !captureMediaOutputAllowed(attributionSource)) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (needCaptureVoiceCommunicationOutput &&
!captureVoiceCommunicationOutputAllowed(attributionSource)) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
if (registration) {
return binderStatusFromStatusT(mAudioPolicyManager->registerPolicyMixes(mixes));
} else {
return binderStatusFromStatusT(mAudioPolicyManager->unregisterPolicyMixes(mixes));
}
}
Status AudioPolicyService::updatePolicyMixes(
const ::std::vector<::android::media::AudioMixUpdate>& updates) {
Mutex::Autolock _l(mLock);
for (const auto& update : updates) {
AudioMix mix = VALUE_OR_RETURN_BINDER_STATUS(aidl2legacy_AudioMix(update.audioMix));
std::vector<AudioMixMatchCriterion> newCriteria =
VALUE_OR_RETURN_BINDER_STATUS(convertContainer<std::vector<AudioMixMatchCriterion>>(
update.newCriteria, aidl2legacy_AudioMixMatchCriterion));
int status;
if((status = mAudioPolicyManager->updatePolicyMix(mix, newCriteria)) != NO_ERROR) {
return binderStatusFromStatusT(status);
}
}
return binderStatusFromStatusT(NO_ERROR);
}
Status AudioPolicyService::setUidDeviceAffinities(
int32_t uidAidl,
const std::vector<AudioDevice>& devicesAidl) {
uid_t uid = VALUE_OR_RETURN_BINDER_STATUS(aidl2legacy_int32_t_uid_t(uidAidl));
AudioDeviceTypeAddrVector devices = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<AudioDeviceTypeAddrVector>(devicesAidl,
aidl2legacy_AudioDeviceTypeAddress));
Mutex::Autolock _l(mLock);
if(!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->setUidDeviceAffinities(uid, devices));
}
Status AudioPolicyService::removeUidDeviceAffinities(int32_t uidAidl) {
uid_t uid = VALUE_OR_RETURN_BINDER_STATUS(aidl2legacy_int32_t_uid_t(uidAidl));
Mutex::Autolock _l(mLock);
if(!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->removeUidDeviceAffinities(uid));
}
Status AudioPolicyService::setUserIdDeviceAffinities(
int32_t userIdAidl,
const std::vector<AudioDevice>& devicesAidl) {
int userId = VALUE_OR_RETURN_BINDER_STATUS(convertReinterpret<int>(userIdAidl));
AudioDeviceTypeAddrVector devices = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<AudioDeviceTypeAddrVector>(devicesAidl,
aidl2legacy_AudioDeviceTypeAddress));
Mutex::Autolock _l(mLock);
if(!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->setUserIdDeviceAffinities(userId, devices));
}
Status AudioPolicyService::removeUserIdDeviceAffinities(int32_t userIdAidl) {
int userId = VALUE_OR_RETURN_BINDER_STATUS(convertReinterpret<int>(userIdAidl));
Mutex::Autolock _l(mLock);
if(!modifyAudioRoutingAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->removeUserIdDeviceAffinities(userId));
}
Status AudioPolicyService::startAudioSource(const media::AudioPortConfigFw& sourceAidl,
const media::audio::common::AudioAttributes& attributesAidl,
int32_t* _aidl_return) {
audio_port_config source = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioPortConfigFw_audio_port_config(sourceAidl));
audio_attributes_t attributes = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attributesAidl));
audio_port_handle_t portId;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateAudioPortConfig(source)));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
AudioValidator::validateAudioAttributes(attributes, "68953950")));
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(validateUsage(attributes)));
// startAudioSource should be created as the calling uid
const uid_t callingUid = IPCThreadState::self()->getCallingUid();
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->startAudioSource(&source, &attributes, &portId, callingUid)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_audio_port_handle_t_int32_t(portId));
return Status::ok();
}
Status AudioPolicyService::stopAudioSource(int32_t portIdAidl)
{
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
Mutex::Autolock _l(mLock);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->stopAudioSource(portId));
}
Status AudioPolicyService::setMasterMono(bool mono)
{
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
if (!settingsAllowed()) {
return binderStatusFromStatusT(PERMISSION_DENIED);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->setMasterMono(mono));
}
Status AudioPolicyService::getMasterMono(bool* _aidl_return)
{
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(mAudioPolicyManager->getMasterMono(_aidl_return));
}
Status AudioPolicyService::getStreamVolumeDB(
AudioStreamType streamAidl, int32_t indexAidl,
const AudioDeviceDescription& deviceAidl, float* _aidl_return) {
audio_stream_type_t stream = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioStreamType_audio_stream_type_t(streamAidl));
int index = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<int>(indexAidl));
audio_devices_t device = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioDeviceDescription_audio_devices_t(deviceAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = mAudioPolicyManager->getStreamVolumeDB(stream, index, device);
return Status::ok();
}
Status AudioPolicyService::getSurroundFormats(Int* count,
std::vector<AudioFormatDescription>* formats,
std::vector<bool>* formatsEnabled) {
unsigned int numSurroundFormats = VALUE_OR_RETURN_BINDER_STATUS(
convertIntegral<unsigned int>(count->value));
if (numSurroundFormats > MAX_ITEMS_PER_LIST) {
numSurroundFormats = MAX_ITEMS_PER_LIST;
}
unsigned int numSurroundFormatsReq = numSurroundFormats;
std::unique_ptr<audio_format_t[]>surroundFormats(new audio_format_t[numSurroundFormats]);
std::unique_ptr<bool[]>surroundFormatsEnabled(new bool[numSurroundFormats]);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getSurroundFormats(&numSurroundFormats, surroundFormats.get(),
surroundFormatsEnabled.get())));
numSurroundFormatsReq = std::min(numSurroundFormats, numSurroundFormatsReq);
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
convertRange(surroundFormats.get(), surroundFormats.get() + numSurroundFormatsReq,
std::back_inserter(*formats),
legacy2aidl_audio_format_t_AudioFormatDescription)));
formatsEnabled->insert(
formatsEnabled->begin(),
surroundFormatsEnabled.get(),
surroundFormatsEnabled.get() + numSurroundFormatsReq);
count->value = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<uint32_t>(numSurroundFormats));
return Status::ok();
}
Status AudioPolicyService::getReportedSurroundFormats(
Int* count, std::vector<AudioFormatDescription>* formats) {
unsigned int numSurroundFormats = VALUE_OR_RETURN_BINDER_STATUS(
convertIntegral<unsigned int>(count->value));
if (numSurroundFormats > MAX_ITEMS_PER_LIST) {
numSurroundFormats = MAX_ITEMS_PER_LIST;
}
unsigned int numSurroundFormatsReq = numSurroundFormats;
std::unique_ptr<audio_format_t[]>surroundFormats(new audio_format_t[numSurroundFormats]);
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getReportedSurroundFormats(
&numSurroundFormats, surroundFormats.get())));
numSurroundFormatsReq = std::min(numSurroundFormats, numSurroundFormatsReq);
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
convertRange(surroundFormats.get(), surroundFormats.get() + numSurroundFormatsReq,
std::back_inserter(*formats),
legacy2aidl_audio_format_t_AudioFormatDescription)));
count->value = VALUE_OR_RETURN_BINDER_STATUS(convertIntegral<uint32_t>(numSurroundFormats));
return Status::ok();
}
Status AudioPolicyService::getHwOffloadFormatsSupportedForBluetoothMedia(
const AudioDeviceDescription& deviceAidl,
std::vector<AudioFormatDescription>* _aidl_return) {
std::vector<audio_format_t> formats;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
audio_devices_t device = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioDeviceDescription_audio_devices_t(deviceAidl));
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getHwOffloadFormatsSupportedForBluetoothMedia(device, &formats)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<AudioFormatDescription>>(
formats,
legacy2aidl_audio_format_t_AudioFormatDescription));
return Status::ok();
}
Status AudioPolicyService::setSurroundFormatEnabled(
const AudioFormatDescription& audioFormatAidl, bool enabled) {
audio_format_t audioFormat = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioFormatDescription_audio_format_t(audioFormatAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
return binderStatusFromStatusT(
mAudioPolicyManager->setSurroundFormatEnabled(audioFormat, enabled));
}
Status convertInt32VectorToUidVectorWithLimit(
const std::vector<int32_t>& uidsAidl, std::vector<uid_t>& uids) {
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
convertRangeWithLimit(uidsAidl.begin(),
uidsAidl.end(),
std::back_inserter(uids),
aidl2legacy_int32_t_uid_t,
MAX_ITEMS_PER_LIST)));
return Status::ok();
}
Status AudioPolicyService::setAssistantServicesUids(const std::vector<int32_t>& uidsAidl)
{
std::vector<uid_t> uids;
RETURN_IF_BINDER_ERROR(convertInt32VectorToUidVectorWithLimit(uidsAidl, uids));
Mutex::Autolock _l(mLock);
mUidPolicy->setAssistantUids(uids);
return Status::ok();
}
Status AudioPolicyService::setActiveAssistantServicesUids(
const std::vector<int32_t>& activeUidsAidl) {
std::vector<uid_t> activeUids;
RETURN_IF_BINDER_ERROR(convertInt32VectorToUidVectorWithLimit(activeUidsAidl, activeUids));
Mutex::Autolock _l(mLock);
mUidPolicy->setActiveAssistantUids(activeUids);
return Status::ok();
}
Status AudioPolicyService::setA11yServicesUids(const std::vector<int32_t>& uidsAidl)
{
std::vector<uid_t> uids;
RETURN_IF_BINDER_ERROR(convertInt32VectorToUidVectorWithLimit(uidsAidl, uids));
Mutex::Autolock _l(mLock);
mUidPolicy->setA11yUids(uids);
return Status::ok();
}
Status AudioPolicyService::setCurrentImeUid(int32_t uidAidl)
{
uid_t uid = VALUE_OR_RETURN_BINDER_STATUS(aidl2legacy_int32_t_uid_t(uidAidl));
Mutex::Autolock _l(mLock);
mUidPolicy->setCurrentImeUid(uid);
return Status::ok();
}
Status AudioPolicyService::isHapticPlaybackSupported(bool* _aidl_return)
{
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = mAudioPolicyManager->isHapticPlaybackSupported();
return Status::ok();
}
Status AudioPolicyService::isUltrasoundSupported(bool* _aidl_return)
{
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = mAudioPolicyManager->isUltrasoundSupported();
return Status::ok();
}
Status AudioPolicyService::isHotwordStreamSupported(bool lookbackAudio, bool* _aidl_return)
{
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = mAudioPolicyManager->isHotwordStreamSupported(lookbackAudio);
return Status::ok();
}
Status AudioPolicyService::listAudioProductStrategies(
std::vector<media::AudioProductStrategy>* _aidl_return) {
AudioProductStrategyVector strategies;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(mAudioPolicyManager->listAudioProductStrategies(strategies)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<media::AudioProductStrategy>>(
strategies,
legacy2aidl_AudioProductStrategy));
return Status::ok();
}
Status AudioPolicyService::getProductStrategyFromAudioAttributes(
const media::audio::common::AudioAttributes& aaAidl,
bool fallbackOnDefault, int32_t* _aidl_return) {
audio_attributes_t aa = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(aaAidl));
product_strategy_t productStrategy;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getProductStrategyFromAudioAttributes(
aa, productStrategy, fallbackOnDefault)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_product_strategy_t_int32_t(productStrategy));
return Status::ok();
}
Status AudioPolicyService::listAudioVolumeGroups(std::vector<media::AudioVolumeGroup>* _aidl_return)
{
AudioVolumeGroupVector groups;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(mAudioPolicyManager->listAudioVolumeGroups(groups)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<media::AudioVolumeGroup>>(groups,
legacy2aidl_AudioVolumeGroup));
return Status::ok();
}
Status AudioPolicyService::getVolumeGroupFromAudioAttributes(
const media::audio::common::AudioAttributes& aaAidl,
bool fallbackOnDefault, int32_t* _aidl_return) {
audio_attributes_t aa = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(aaAidl));
volume_group_t volumeGroup;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(
mAudioPolicyManager->getVolumeGroupFromAudioAttributes(
aa, volumeGroup, fallbackOnDefault)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_volume_group_t_int32_t(volumeGroup));
return Status::ok();
}
Status AudioPolicyService::setRttEnabled(bool enabled)
{
Mutex::Autolock _l(mLock);
mUidPolicy->setRttEnabled(enabled);
return Status::ok();
}
Status AudioPolicyService::isCallScreenModeSupported(bool* _aidl_return)
{
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
AutoCallerClear acc;
*_aidl_return = mAudioPolicyManager->isCallScreenModeSupported();
return Status::ok();
}
Status AudioPolicyService::setDevicesRoleForStrategy(
int32_t strategyAidl,
media::DeviceRole roleAidl,
const std::vector<AudioDevice>& devicesAidl) {
product_strategy_t strategy = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_product_strategy_t(strategyAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
AudioDeviceTypeAddrVector devices = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<AudioDeviceTypeAddrVector>(devicesAidl,
aidl2legacy_AudioDeviceTypeAddress));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
status_t status = mAudioPolicyManager->setDevicesRoleForStrategy(strategy, role, devices);
if (status == NO_ERROR) {
onCheckSpatializer_l();
}
return binderStatusFromStatusT(status);
}
Status AudioPolicyService::removeDevicesRoleForStrategy(
int32_t strategyAidl,
media::DeviceRole roleAidl,
const std::vector<AudioDevice>& devicesAidl) {
product_strategy_t strategy = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_product_strategy_t(strategyAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
AudioDeviceTypeAddrVector devices = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<AudioDeviceTypeAddrVector>(devicesAidl,
aidl2legacy_AudioDeviceTypeAddress));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
status_t status = mAudioPolicyManager->removeDevicesRoleForStrategy(strategy, role, devices);
if (status == NO_ERROR) {
onCheckSpatializer_l();
}
return binderStatusFromStatusT(status);
}
Status AudioPolicyService::clearDevicesRoleForStrategy(int32_t strategyAidl,
media::DeviceRole roleAidl) {
product_strategy_t strategy = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_product_strategy_t(strategyAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
status_t status = mAudioPolicyManager->clearDevicesRoleForStrategy(strategy, role);
if (status == NO_ERROR) {
onCheckSpatializer_l();
}
return binderStatusFromStatusT(status);
}
Status AudioPolicyService::getDevicesForRoleAndStrategy(
int32_t strategyAidl,
media::DeviceRole roleAidl,
std::vector<AudioDevice>* _aidl_return) {
product_strategy_t strategy = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_product_strategy_t(strategyAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
AudioDeviceTypeAddrVector devices;
if (mAudioPolicyManager == NULL) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getDevicesForRoleAndStrategy(strategy, role, devices)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<AudioDevice>>(devices,
legacy2aidl_AudioDeviceTypeAddress));
return Status::ok();
}
Status AudioPolicyService::registerSoundTriggerCaptureStateListener(
const sp<media::ICaptureStateListener>& listener, bool* _aidl_return) {
*_aidl_return = mCaptureStateNotifier.RegisterListener(listener);
return Status::ok();
}
Status AudioPolicyService::setDevicesRoleForCapturePreset(
AudioSource audioSourceAidl,
media::DeviceRole roleAidl,
const std::vector<AudioDevice>& devicesAidl) {
audio_source_t audioSource = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioSource_audio_source_t(audioSourceAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
AudioDeviceTypeAddrVector devices = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<AudioDeviceTypeAddrVector>(devicesAidl,
aidl2legacy_AudioDeviceTypeAddress));
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
return binderStatusFromStatusT(
mAudioPolicyManager->setDevicesRoleForCapturePreset(audioSource, role, devices));
}
Status AudioPolicyService::addDevicesRoleForCapturePreset(
AudioSource audioSourceAidl,
media::DeviceRole roleAidl,
const std::vector<AudioDevice>& devicesAidl) {
audio_source_t audioSource = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioSource_audio_source_t(audioSourceAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
AudioDeviceTypeAddrVector devices = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<AudioDeviceTypeAddrVector>(devicesAidl,
aidl2legacy_AudioDeviceTypeAddress));
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
return binderStatusFromStatusT(
mAudioPolicyManager->addDevicesRoleForCapturePreset(audioSource, role, devices));
}
Status AudioPolicyService::removeDevicesRoleForCapturePreset(
AudioSource audioSourceAidl,
media::DeviceRole roleAidl,
const std::vector<AudioDevice>& devicesAidl) {
audio_source_t audioSource = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioSource_audio_source_t(audioSourceAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
AudioDeviceTypeAddrVector devices = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<AudioDeviceTypeAddrVector>(devicesAidl,
aidl2legacy_AudioDeviceTypeAddress));
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
return binderStatusFromStatusT(
mAudioPolicyManager->removeDevicesRoleForCapturePreset(audioSource, role, devices));
}
Status AudioPolicyService::clearDevicesRoleForCapturePreset(AudioSource audioSourceAidl,
media::DeviceRole roleAidl) {
audio_source_t audioSource = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioSource_audio_source_t(audioSourceAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
return binderStatusFromStatusT(
mAudioPolicyManager->clearDevicesRoleForCapturePreset(audioSource, role));
}
Status AudioPolicyService::getDevicesForRoleAndCapturePreset(
AudioSource audioSourceAidl,
media::DeviceRole roleAidl,
std::vector<AudioDevice>* _aidl_return) {
audio_source_t audioSource = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioSource_audio_source_t(audioSourceAidl));
device_role_t role = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_DeviceRole_device_role_t(roleAidl));
AudioDeviceTypeAddrVector devices;
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
Mutex::Autolock _l(mLock);
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getDevicesForRoleAndCapturePreset(audioSource, role, devices)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<AudioDevice>>(devices,
legacy2aidl_AudioDeviceTypeAddress));
return Status::ok();
}
Status AudioPolicyService::getSpatializer(
const sp<media::INativeSpatializerCallback>& callback,
media::GetSpatializerResponse* _aidl_return) {
_aidl_return->spatializer = nullptr;
if (callback == nullptr) {
return binderStatusFromStatusT(BAD_VALUE);
}
if (mSpatializer != nullptr) {
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(mSpatializer->registerCallback(callback)));
_aidl_return->spatializer = mSpatializer;
}
return Status::ok();
}
Status AudioPolicyService::canBeSpatialized(
const std::optional<media::audio::common::AudioAttributes>& attrAidl,
const std::optional<AudioConfig>& configAidl,
const std::vector<AudioDevice>& devicesAidl,
bool* _aidl_return) {
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
audio_attributes_t attr = AUDIO_ATTRIBUTES_INITIALIZER;
if (attrAidl.has_value()) {
attr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl.value()));
}
audio_config_t config = AUDIO_CONFIG_INITIALIZER;
if (configAidl.has_value()) {
config = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioConfig_audio_config_t(configAidl.value(),
false /*isInput*/));
}
AudioDeviceTypeAddrVector devices = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<AudioDeviceTypeAddrVector>(devicesAidl,
aidl2legacy_AudioDeviceTypeAddress));
Mutex::Autolock _l(mLock);
*_aidl_return = mAudioPolicyManager->canBeSpatialized(&attr, &config, devices);
return Status::ok();
}
Status AudioPolicyService::getDirectPlaybackSupport(
const media::audio::common::AudioAttributes &attrAidl,
const AudioConfig &configAidl,
media::AudioDirectMode *_aidl_return) {
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
if (_aidl_return == nullptr) {
return binderStatusFromStatusT(BAD_VALUE);
}
audio_attributes_t attr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
audio_config_t config = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioConfig_audio_config_t(configAidl, false /*isInput*/));
Mutex::Autolock _l(mLock);
*_aidl_return = static_cast<media::AudioDirectMode>(
VALUE_OR_RETURN_BINDER_STATUS(legacy2aidl_audio_direct_mode_t_int32_t_mask(
mAudioPolicyManager->getDirectPlaybackSupport(&attr, &config))));
return Status::ok();
}
Status AudioPolicyService::getDirectProfilesForAttributes(
const media::audio::common::AudioAttributes& attrAidl,
std::vector<media::audio::common::AudioProfile>* _aidl_return) {
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
audio_attributes_t attr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
AudioProfileVector audioProfiles;
Mutex::Autolock _l(mLock);
RETURN_IF_BINDER_ERROR(binderStatusFromStatusT(
mAudioPolicyManager->getDirectProfilesForAttributes(&attr, audioProfiles)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<media::audio::common::AudioProfile>>(
audioProfiles, legacy2aidl_AudioProfile_common, false /*isInput*/));
return Status::ok();
}
Status AudioPolicyService::getSupportedMixerAttributes(
int32_t portIdAidl, std::vector<media::AudioMixerAttributesInternal>* _aidl_return) {
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
std::vector<audio_mixer_attributes_t> mixerAttrs;
Mutex::Autolock _l(mLock);
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(mAudioPolicyManager->getSupportedMixerAttributes(
portId, mixerAttrs)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
convertContainer<std::vector<media::AudioMixerAttributesInternal>>(
mixerAttrs,
legacy2aidl_audio_mixer_attributes_t_AudioMixerAttributesInternal));
return Status::ok();
}
Status AudioPolicyService::setPreferredMixerAttributes(
const media::audio::common::AudioAttributes& attrAidl,
int32_t portIdAidl,
int32_t uidAidl,
const media::AudioMixerAttributesInternal& mixerAttrAidl) {
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
audio_attributes_t attr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
audio_mixer_attributes_t mixerAttr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioMixerAttributesInternal_audio_mixer_attributes_t(mixerAttrAidl));
uid_t uid = VALUE_OR_RETURN_BINDER_STATUS(aidl2legacy_int32_t_uid_t(uidAidl));
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
Mutex::Autolock _l(mLock);
return binderStatusFromStatusT(
mAudioPolicyManager->setPreferredMixerAttributes(&attr, portId, uid, &mixerAttr));
}
Status AudioPolicyService::getPreferredMixerAttributes(
const media::audio::common::AudioAttributes& attrAidl,
int32_t portIdAidl,
std::optional<media::AudioMixerAttributesInternal>* _aidl_return) {
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
audio_attributes_t attr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
Mutex::Autolock _l(mLock);
audio_mixer_attributes_t mixerAttr = AUDIO_MIXER_ATTRIBUTES_INITIALIZER;
RETURN_IF_BINDER_ERROR(
binderStatusFromStatusT(mAudioPolicyManager->getPreferredMixerAttributes(
&attr, portId, &mixerAttr)));
*_aidl_return = VALUE_OR_RETURN_BINDER_STATUS(
legacy2aidl_audio_mixer_attributes_t_AudioMixerAttributesInternal(mixerAttr));
return Status::ok();
}
Status AudioPolicyService::clearPreferredMixerAttributes(
const media::audio::common::AudioAttributes& attrAidl,
int32_t portIdAidl,
int32_t uidAidl) {
if (mAudioPolicyManager == nullptr) {
return binderStatusFromStatusT(NO_INIT);
}
audio_attributes_t attr = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_AudioAttributes_audio_attributes_t(attrAidl));
uid_t uid = VALUE_OR_RETURN_BINDER_STATUS(aidl2legacy_int32_t_uid_t(uidAidl));
audio_port_handle_t portId = VALUE_OR_RETURN_BINDER_STATUS(
aidl2legacy_int32_t_audio_port_handle_t(portIdAidl));
Mutex::Autolock _l(mLock);
return binderStatusFromStatusT(
mAudioPolicyManager->clearPreferredMixerAttributes(&attr, portId, uid));
}
} // namespace android