/* * Copyright (C) 2016 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 #define LOG_TAG "DeviceHalHidl" // #define LOG_NDEBUG 0 #include #include #include #include #include #include #include PATH(android/hardware/audio/FILE_VERSION/IPrimaryDevice.h) #include #include #include #include "DeviceHalHidl.h" #include "EffectHalHidl.h" #include "ParameterUtils.h" #include "StreamHalHidl.h" #if MAJOR_VERSION == 7 && MINOR_VERSION == 1 #include #include #include constexpr std::string_view kSoundDoseInterfaceModule = "/default"; using aidl::android::hardware::audio::core::sounddose::ISoundDose; using aidl::android::hardware::audio::sounddose::ISoundDoseFactory; #endif using ::android::hardware::audio::common::COMMON_TYPES_CPP_VERSION::implementation::HidlUtils; using ::android::hardware::audio::common::utils::EnumBitfield; using ::android::hardware::audio::CORE_TYPES_CPP_VERSION::implementation::CoreUtils; using ::android::hardware::hidl_string; using ::android::hardware::hidl_vec; namespace android { using namespace ::android::hardware::audio::common::COMMON_TYPES_CPP_VERSION; using namespace ::android::hardware::audio::CORE_TYPES_CPP_VERSION; class DeviceHalHidl::SoundDoseWrapper { public: SoundDoseWrapper() = default; ~SoundDoseWrapper() = default; #if MAJOR_VERSION == 7 && MINOR_VERSION == 1 std::shared_ptr mSoundDoseFactory; std::shared_ptr mSoundDose; #endif }; DeviceHalHidl::DeviceHalHidl(const sp<::android::hardware::audio::CPP_VERSION::IDevice>& device) : CoreConversionHelperHidl("DeviceHalHidl"), mDevice(device), mSoundDoseWrapper(std::make_unique()) { } DeviceHalHidl::DeviceHalHidl( const sp<::android::hardware::audio::CPP_VERSION::IPrimaryDevice>& device) : CoreConversionHelperHidl("DeviceHalHidl"), #if MAJOR_VERSION <= 6 || (MAJOR_VERSION == 7 && MINOR_VERSION == 0) mDevice(device), #endif mPrimaryDevice(device), mSoundDoseWrapper(std::make_unique()) { #if MAJOR_VERSION == 7 && MINOR_VERSION == 1 auto getDeviceRet = mPrimaryDevice->getDevice(); if (getDeviceRet.isOk()) { mDevice = getDeviceRet; } else { ALOGE("Call to IPrimaryDevice.getDevice has failed: %s", getDeviceRet.description().c_str()); } #endif } DeviceHalHidl::~DeviceHalHidl() { if (mDevice != 0) { #if MAJOR_VERSION <= 5 mDevice.clear(); hardware::IPCThreadState::self()->flushCommands(); #elif MAJOR_VERSION >= 6 mDevice->close(); #endif } } status_t DeviceHalHidl::getAudioPorts( std::vector *ports __unused) { return INVALID_OPERATION; } status_t DeviceHalHidl::getAudioRoutes(std::vector *routes __unused) { return INVALID_OPERATION; } status_t DeviceHalHidl::getSupportedModes( std::vector *modes __unused) { return INVALID_OPERATION; } status_t DeviceHalHidl::getSupportedDevices(uint32_t*) { // Obsolete. return INVALID_OPERATION; } status_t DeviceHalHidl::initCheck() { TIME_CHECK(); if (mDevice == 0) return NO_INIT; return processReturn("initCheck", mDevice->initCheck()); } status_t DeviceHalHidl::setVoiceVolume(float volume) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; if (mPrimaryDevice == 0) return INVALID_OPERATION; return processReturn("setVoiceVolume", mPrimaryDevice->setVoiceVolume(volume)); } status_t DeviceHalHidl::setMasterVolume(float volume) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; return processReturn("setMasterVolume", mDevice->setMasterVolume(volume)); } status_t DeviceHalHidl::getMasterVolume(float *volume) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; Result retval; Return ret = mDevice->getMasterVolume( [&](Result r, float v) { retval = r; if (retval == Result::OK) { *volume = v; } }); return processReturn("getMasterVolume", ret, retval); } status_t DeviceHalHidl::setMode(audio_mode_t mode) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; if (mPrimaryDevice == 0) return INVALID_OPERATION; return processReturn("setMode", mPrimaryDevice->setMode(AudioMode(mode))); } status_t DeviceHalHidl::setMicMute(bool state) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; return processReturn("setMicMute", mDevice->setMicMute(state)); } status_t DeviceHalHidl::getMicMute(bool *state) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; Result retval; Return ret = mDevice->getMicMute( [&](Result r, bool mute) { retval = r; if (retval == Result::OK) { *state = mute; } }); return processReturn("getMicMute", ret, retval); } status_t DeviceHalHidl::setMasterMute(bool state) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; return processReturn("setMasterMute", mDevice->setMasterMute(state)); } status_t DeviceHalHidl::getMasterMute(bool *state) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; Result retval; Return ret = mDevice->getMasterMute( [&](Result r, bool mute) { retval = r; if (retval == Result::OK) { *state = mute; } }); return processReturn("getMasterMute", ret, retval); } status_t DeviceHalHidl::setParameters(const String8& kvPairs) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; hidl_vec hidlParams; status_t status = parametersFromHal(kvPairs, &hidlParams); if (status != OK) return status; // TODO: change the API so that context and kvPairs are separated return processReturn("setParameters", utils::setParameters(mDevice, {} /* context */, hidlParams)); } status_t DeviceHalHidl::getParameters(const String8& keys, String8 *values) { TIME_CHECK(); values->clear(); if (mDevice == 0) return NO_INIT; hidl_vec hidlKeys; status_t status = keysFromHal(keys, &hidlKeys); if (status != OK) return status; Result retval; Return ret = utils::getParameters(mDevice, {} /* context */, hidlKeys, [&](Result r, const hidl_vec& parameters) { retval = r; if (retval == Result::OK) { parametersToHal(parameters, values); } }); return processReturn("getParameters", ret, retval); } status_t DeviceHalHidl::getInputBufferSize( struct audio_config *config, size_t *size) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; AudioConfig hidlConfig; HidlUtils::audioConfigFromHal(*config, true /*isInput*/, &hidlConfig); Result retval; Return ret = mDevice->getInputBufferSize( hidlConfig, [&](Result r, uint64_t bufferSize) { retval = r; if (retval == Result::OK) { *size = static_cast(bufferSize); } }); return processReturn("getInputBufferSize", ret, retval); } status_t DeviceHalHidl::openOutputStream( audio_io_handle_t handle, audio_devices_t deviceType, audio_output_flags_t flags, struct audio_config *config, const char *address, sp *outStream) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; DeviceAddress hidlDevice; if (status_t status = CoreUtils::deviceAddressFromHal(deviceType, address, &hidlDevice); status != OK) { return status; } AudioConfig hidlConfig; if (status_t status = HidlUtils::audioConfigFromHal(*config, false /*isInput*/, &hidlConfig); status != OK) { return status; } #if !(MAJOR_VERSION == 7 && MINOR_VERSION == 1) //TODO: b/193496180 use spatializer flag at audio HAL when available if ((flags & AUDIO_OUTPUT_FLAG_SPATIALIZER) != 0) { flags = (audio_output_flags_t)(flags & ~AUDIO_OUTPUT_FLAG_SPATIALIZER); flags = (audio_output_flags_t) (flags | AUDIO_OUTPUT_FLAG_FAST | AUDIO_OUTPUT_FLAG_DEEP_BUFFER); } #endif CoreUtils::AudioOutputFlags hidlFlags; if (status_t status = CoreUtils::audioOutputFlagsFromHal(flags, &hidlFlags); status != OK) { return status; } Result retval = Result::NOT_INITIALIZED; #if MAJOR_VERSION == 7 && MINOR_VERSION == 1 Return ret = mDevice->openOutputStream_7_1( #else Return ret = mDevice->openOutputStream( #endif handle, hidlDevice, hidlConfig, hidlFlags, #if MAJOR_VERSION >= 4 {} /* metadata */, #endif [&](Result r, const sp<::android::hardware::audio::CPP_VERSION::IStreamOut>& result, const AudioConfig& suggestedConfig) { retval = r; if (retval == Result::OK) { *outStream = new StreamOutHalHidl(result); } HidlUtils::audioConfigToHal(suggestedConfig, config); }); const status_t status = processReturn("openOutputStream", ret, retval); cleanupStreams(); if (status == NO_ERROR) { mStreams.insert({handle, *outStream}); } return status; } status_t DeviceHalHidl::openInputStream( audio_io_handle_t handle, audio_devices_t devices, struct audio_config *config, audio_input_flags_t flags, const char *address, audio_source_t source, audio_devices_t outputDevice, const char *outputDeviceAddress, sp *inStream) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; DeviceAddress hidlDevice; if (status_t status = CoreUtils::deviceAddressFromHal(devices, address, &hidlDevice); status != OK) { return status; } AudioConfig hidlConfig; if (status_t status = HidlUtils::audioConfigFromHal(*config, true /*isInput*/, &hidlConfig); status != OK) { return status; } CoreUtils::AudioInputFlags hidlFlags; #if MAJOR_VERSION <= 5 // Some flags were specific to framework and must not leak to the HAL. flags = static_cast(flags & ~AUDIO_INPUT_FLAG_DIRECT); #endif if (status_t status = CoreUtils::audioInputFlagsFromHal(flags, &hidlFlags); status != OK) { return status; } Result retval = Result::NOT_INITIALIZED; #if MAJOR_VERSION == 2 auto sinkMetadata = AudioSource(source); #elif MAJOR_VERSION >= 4 // TODO: correctly propagate the tracks sources and volume // for now, only send the main source at 1dbfs AudioSource hidlSource; if (status_t status = HidlUtils::audioSourceFromHal(source, &hidlSource); status != OK) { return status; } SinkMetadata sinkMetadata = {{{ .source = std::move(hidlSource), .gain = 1 }}}; #endif #if MAJOR_VERSION < 5 (void)outputDevice; (void)outputDeviceAddress; #else #if MAJOR_VERSION >= 7 (void)HidlUtils::audioChannelMaskFromHal( AUDIO_CHANNEL_NONE, true /*isInput*/, &sinkMetadata.tracks[0].channelMask); #endif if (outputDevice != AUDIO_DEVICE_NONE) { DeviceAddress hidlOutputDevice; if (status_t status = CoreUtils::deviceAddressFromHal( outputDevice, outputDeviceAddress, &hidlOutputDevice); status != OK) { return status; } sinkMetadata.tracks[0].destination.device(std::move(hidlOutputDevice)); } #endif Return ret = mDevice->openInputStream( handle, hidlDevice, hidlConfig, hidlFlags, sinkMetadata, [&](Result r, const sp<::android::hardware::audio::CORE_TYPES_CPP_VERSION::IStreamIn>& result, const AudioConfig& suggestedConfig) { retval = r; if (retval == Result::OK) { *inStream = new StreamInHalHidl(result); } HidlUtils::audioConfigToHal(suggestedConfig, config); }); const status_t status = processReturn("openInputStream", ret, retval); cleanupStreams(); if (status == NO_ERROR) { mStreams.insert({handle, *inStream}); } return status; } status_t DeviceHalHidl::supportsAudioPatches(bool *supportsPatches) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; return processReturn("supportsAudioPatches", mDevice->supportsAudioPatches(), supportsPatches); } status_t DeviceHalHidl::createAudioPatch( unsigned int num_sources, const struct audio_port_config *sources, unsigned int num_sinks, const struct audio_port_config *sinks, audio_patch_handle_t *patch) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; if (patch == nullptr) return BAD_VALUE; #if MAJOR_VERSION < 6 if (*patch != AUDIO_PATCH_HANDLE_NONE) { status_t status = releaseAudioPatch(*patch); ALOGW_IF(status != NO_ERROR, "%s error %d releasing patch handle %d", __func__, status, *patch); *patch = AUDIO_PATCH_HANDLE_NONE; } #endif hidl_vec hidlSources, hidlSinks; HidlUtils::audioPortConfigsFromHal(num_sources, sources, &hidlSources); HidlUtils::audioPortConfigsFromHal(num_sinks, sinks, &hidlSinks); Result retval = Result::OK; Return ret; std::string methodName = "createAudioPatch"; if (*patch == AUDIO_PATCH_HANDLE_NONE) { // always true for MAJOR_VERSION < 6 ret = mDevice->createAudioPatch( hidlSources, hidlSinks, [&](Result r, AudioPatchHandle hidlPatch) { retval = r; if (retval == Result::OK) { *patch = static_cast(hidlPatch); } }); } else { #if MAJOR_VERSION >= 6 ret = mDevice->updateAudioPatch( *patch, hidlSources, hidlSinks, [&](Result r, AudioPatchHandle hidlPatch) { retval = r; if (retval == Result::OK) { *patch = static_cast(hidlPatch); } }); methodName = "updateAudioPatch"; #endif } return processReturn(methodName.c_str(), ret, retval); } status_t DeviceHalHidl::releaseAudioPatch(audio_patch_handle_t patch) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; return processReturn("releaseAudioPatch", mDevice->releaseAudioPatch(patch)); } template status_t DeviceHalHidl::getAudioPortImpl(HalPort *port) { using ::android::hardware::audio::common::COMMON_TYPES_CPP_VERSION::AudioPort; if (mDevice == 0) return NO_INIT; AudioPort hidlPort; HidlUtils::audioPortFromHal(*port, &hidlPort); Result retval; Return ret = mDevice->getAudioPort( hidlPort, [&](Result r, const AudioPort& p) { retval = r; if (retval == Result::OK) { HidlUtils::audioPortToHal(p, port); } }); return processReturn("getAudioPort", ret, retval); } status_t DeviceHalHidl::getAudioPort(struct audio_port *port) { TIME_CHECK(); return getAudioPortImpl(port); } status_t DeviceHalHidl::getAudioPort(struct audio_port_v7 *port) { TIME_CHECK(); #if MAJOR_VERSION >= 7 return getAudioPortImpl(port); #else struct audio_port audioPort = {}; status_t result = NO_ERROR; if (!audio_populate_audio_port(port, &audioPort)) { ALOGE("Failed to populate legacy audio port from audio_port_v7"); result = BAD_VALUE; } status_t status = getAudioPort(&audioPort); if (status == NO_ERROR) { audio_populate_audio_port_v7(&audioPort, port); } else { result = status; } return result; #endif } status_t DeviceHalHidl::setAudioPortConfig(const struct audio_port_config *config) { using ::android::hardware::audio::common::COMMON_TYPES_CPP_VERSION::AudioPortConfig; TIME_CHECK(); if (mDevice == 0) return NO_INIT; AudioPortConfig hidlConfig; HidlUtils::audioPortConfigFromHal(*config, &hidlConfig); return processReturn("setAudioPortConfig", mDevice->setAudioPortConfig(hidlConfig)); } #if MAJOR_VERSION == 2 status_t DeviceHalHidl::getMicrophones( std::vector *microphonesInfo __unused) { if (mDevice == 0) return NO_INIT; return INVALID_OPERATION; } #elif MAJOR_VERSION >= 4 status_t DeviceHalHidl::getMicrophones( std::vector *microphonesInfo) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; Result retval; Return ret = mDevice->getMicrophones( [&](Result r, hidl_vec micArrayHal) { retval = r; for (size_t k = 0; k < micArrayHal.size(); k++) { audio_microphone_characteristic_t dst; //convert (void)CoreUtils::microphoneInfoToHal(micArrayHal[k], &dst); microphonesInfo->push_back(dst); } }); return processReturn("getMicrophones", ret, retval); } #endif #if MAJOR_VERSION >= 6 status_t DeviceHalHidl::addDeviceEffect( const struct audio_port_config *device, sp effect) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; auto hidlEffect = sp::cast(effect); return processReturn("addDeviceEffect", mDevice->addDeviceEffect( static_cast(device->id), hidlEffect->effectId())); } #else status_t DeviceHalHidl::addDeviceEffect( const struct audio_port_config *device __unused, sp effect __unused) { return INVALID_OPERATION; } #endif #if MAJOR_VERSION >= 6 status_t DeviceHalHidl::removeDeviceEffect( const struct audio_port_config *device, sp effect) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; auto hidlEffect = sp::cast(effect); return processReturn("removeDeviceEffect", mDevice->removeDeviceEffect( static_cast(device->id), hidlEffect->effectId())); } #else status_t DeviceHalHidl::removeDeviceEffect( const struct audio_port_config *device __unused, sp effect __unused) { return INVALID_OPERATION; } #endif status_t DeviceHalHidl::prepareToDisconnectExternalDevice(const struct audio_port_v7* port) { // For HIDL HAL, there is not API to call notify the HAL to prepare for device connected // state changed. Call `setConnectedState` directly. const status_t status = setConnectedState(port, false /*connected*/); if (status == NO_ERROR) { // Cache the port id so that it won't disconnect twice. mDeviceDisconnectionNotified.insert(port->id); } return status; } status_t DeviceHalHidl::setConnectedState(const struct audio_port_v7 *port, bool connected) { using ::android::hardware::audio::common::COMMON_TYPES_CPP_VERSION::AudioPort; TIME_CHECK(); if (mDevice == 0) return NO_INIT; if (!connected && mDeviceDisconnectionNotified.erase(port->id) > 0) { // For device disconnection, APM will first call `prepareToDisconnectExternalDevice` and // then call `setConnectedState`. However, in HIDL HAL, there is no API for // `prepareToDisconnectExternalDevice`. In that case, HIDL HAL will call `setConnectedState` // when calling `prepareToDisconnectExternalDevice`. Do not call to the HAL if previous // call is successful. Also remove the cache here to avoid a large cache after a long run. return NO_ERROR; } #if MAJOR_VERSION == 7 && MINOR_VERSION == 1 if (supportsSetConnectedState7_1) { AudioPort hidlPort; if (status_t result = HidlUtils::audioPortFromHal(*port, &hidlPort); result != NO_ERROR) { return result; } Return ret = mDevice->setConnectedState_7_1(hidlPort, connected); if (!ret.isOk() || ret != Result::NOT_SUPPORTED) { return processReturn("setConnectedState_7_1", ret); } else if (ret == Result::OK) { return NO_ERROR; } supportsSetConnectedState7_1 = false; } #endif DeviceAddress hidlAddress; if (status_t result = CoreUtils::deviceAddressFromHal( port->ext.device.type, port->ext.device.address, &hidlAddress); result != NO_ERROR) { return result; } return processReturn("setConnectedState", mDevice->setConnectedState(hidlAddress, connected)); } error::Result DeviceHalHidl::getHwAvSync() { TIME_CHECK(); if (mDevice == 0) return NO_INIT; audio_hw_sync_t value; Result result; Return ret = mDevice->getHwAvSync([&value, &result](Result r, audio_hw_sync_t v) { value = v; result = r; }); RETURN_IF_ERROR(processReturn("getHwAvSync", ret, result)); return value; } status_t DeviceHalHidl::dump(int fd, const Vector& args) { TIME_CHECK(); if (mDevice == 0) return NO_INIT; native_handle_t* hidlHandle = native_handle_create(1, 0); hidlHandle->data[0] = fd; hidl_vec hidlArgs; argsFromHal(args, &hidlArgs); Return ret = mDevice->debug(hidlHandle, hidlArgs); native_handle_delete(hidlHandle); // TODO(b/111997867, b/177271958) Workaround - remove when fixed. // A Binder transmitted fd may not close immediately due to a race condition b/111997867 // when the remote binder thread removes the last refcount to the fd blocks in the // kernel for binder activity. We send a Binder ping() command to unblock the thread // and complete the fd close / release. // // See DeviceHalHidl::dump(), EffectHalHidl::dump(), StreamHalHidl::dump(), // EffectsFactoryHalHidl::dumpEffects(). (void)mDevice->ping(); // synchronous Binder call return processReturn("dump", ret); } #if MAJOR_VERSION == 7 && MINOR_VERSION == 1 status_t DeviceHalHidl::getSoundDoseInterface(const std::string& module, ::ndk::SpAIBinder* soundDoseBinder) { if (mSoundDoseWrapper->mSoundDose != nullptr) { *soundDoseBinder = mSoundDoseWrapper->mSoundDose->asBinder(); return OK; } if (mSoundDoseWrapper->mSoundDoseFactory == nullptr) { std::string interface = std::string(ISoundDoseFactory::descriptor) + kSoundDoseInterfaceModule.data(); AIBinder* binder = AServiceManager_checkService(interface.c_str()); if (binder == nullptr) { ALOGW("%s service %s doesn't exist", __func__, interface.c_str()); return NO_INIT; } mSoundDoseWrapper->mSoundDoseFactory = ISoundDoseFactory::fromBinder(ndk::SpAIBinder(binder)); } auto result = mSoundDoseWrapper->mSoundDoseFactory->getSoundDose( module, &mSoundDoseWrapper->mSoundDose); if (!result.isOk()) { ALOGW("%s could not get sound dose interface: %s", __func__, result.getMessage()); return BAD_VALUE; } if (mSoundDoseWrapper->mSoundDose == nullptr) { ALOGW("%s standalone sound dose interface is not implemented", __func__); *soundDoseBinder = nullptr; return OK; } *soundDoseBinder = mSoundDoseWrapper->mSoundDose->asBinder(); ALOGI("%s using standalone sound dose interface", __func__); return OK; } #else status_t DeviceHalHidl::getSoundDoseInterface(const std::string& module, ::ndk::SpAIBinder* soundDoseBinder) { (void)module; // avoid unused param (void)soundDoseBinder; // avoid unused param return INVALID_OPERATION; } #endif status_t DeviceHalHidl::supportsBluetoothVariableLatency(bool* supports) { if (supports == nullptr) { return BAD_VALUE; } *supports = false; String8 reply; status_t status = getParameters( String8(AUDIO_PARAMETER_BT_VARIABLE_LATENCY_SUPPORTED), &reply); if (status != NO_ERROR) { return status; } AudioParameter replyParams(reply); String8 trueOrFalse; status = replyParams.get( String8(AUDIO_PARAMETER_BT_VARIABLE_LATENCY_SUPPORTED), trueOrFalse); if (status != NO_ERROR) { return status; } *supports = trueOrFalse == AudioParameter::valueTrue; return NO_ERROR; } namespace { status_t getParametersFromStream( sp stream, const char* parameters, const char* extraParameters, String8* reply) { String8 request(parameters); if (extraParameters != nullptr) { request.append(";"); request.append(extraParameters); } status_t status = stream->getParameters(request, reply); if (status != NO_ERROR) { ALOGW("%s, failed to query %s, status=%d", __func__, parameters, status); return status; } AudioParameter repliedParameters(*reply); status = repliedParameters.get(String8(parameters), *reply); if (status != NO_ERROR) { ALOGW("%s: failed to retrieve %s, bailing out", __func__, parameters); } return status; } } // namespace status_t DeviceHalHidl::getAudioMixPort(const struct audio_port_v7 *devicePort, struct audio_port_v7 *mixPort) { // For HIDL HAL, querying mix port information is not supported. If the HAL supports // `getAudioPort` API to query the device port attributes, use the structured audio profiles // that have the same attributes reported by the `getParameters` API. Otherwise, only use // the attributes reported by `getParameters` API. struct audio_port_v7 temp = *devicePort; AudioProfileAttributesMultimap attrsFromDevice; bool supportsPatches; if (supportsAudioPatches(&supportsPatches) == OK && supportsPatches) { // The audio patches are supported since HAL 3.0, which is the same HAL version // requirement for 'getAudioPort' API. if (getAudioPort(&temp) == NO_ERROR) { attrsFromDevice = createAudioProfilesAttrMap(temp.audio_profiles, 0 /*first*/, temp.num_audio_profiles); } } auto streamIt = mStreams.find(mixPort->ext.mix.handle); if (streamIt == mStreams.end()) { return BAD_VALUE; } auto stream = streamIt->second.promote(); if (stream == nullptr) { return BAD_VALUE; } String8 formatsStr; status_t status = getParametersFromStream( stream, AudioParameter::keyStreamSupportedFormats, nullptr /*extraParameters*/, &formatsStr); if (status != NO_ERROR) { return status; } FormatVector formats = formatsFromString(formatsStr.c_str()); mixPort->num_audio_profiles = 0; for (audio_format_t format : formats) { if (mixPort->num_audio_profiles >= AUDIO_PORT_MAX_AUDIO_PROFILES) { ALOGW("%s, too many audio profiles", __func__); break; } AudioParameter formatParameter; formatParameter.addInt(String8(AudioParameter::keyFormat), format); String8 samplingRatesStr; status = getParametersFromStream( stream, AudioParameter::keyStreamSupportedSamplingRates, formatParameter.toString(), &samplingRatesStr); if (status != NO_ERROR) { // Failed to query supported sample rate for current format, may succeed with // other formats. ALOGW("Skip adding format=%#x, status=%d", format, status); continue; } SampleRateSet sampleRatesFromStream = samplingRatesFromString(samplingRatesStr.c_str()); if (sampleRatesFromStream.empty()) { ALOGW("Skip adding format=%#x as the returned sampling rates are empty", format); continue; } String8 channelMasksStr; status = getParametersFromStream( stream, AudioParameter::keyStreamSupportedChannels, formatParameter.toString(), &channelMasksStr); if (status != NO_ERROR) { // Failed to query supported channel masks for current format, may succeed with // other formats. ALOGW("Skip adding format=%#x, status=%d", format, status); continue; } ChannelMaskSet channelMasksFromStream = channelMasksFromString(channelMasksStr.c_str()); if (channelMasksFromStream.empty()) { ALOGW("Skip adding format=%#x as the returned channel masks are empty", format); continue; } // For an audio format, all audio profiles from the device port with the same format will // be added to mix port after filtering sample rates, channel masks according to the reply // of getParameters API. If there is any sample rate or channel mask reported by // getParameters API but not reported by the device, additional audio profiles will be // added. populateAudioProfiles(attrsFromDevice, format, channelMasksFromStream, sampleRatesFromStream, mixPort->audio_profiles, &mixPort->num_audio_profiles); } return NO_ERROR; } void DeviceHalHidl::cleanupStreams() { for (auto it = mStreams.begin(); it != mStreams.end();) { if (it->second.promote() == nullptr) { it = mStreams.erase(it); } else { ++it; } } } } // namespace android