/* * Copyright (C) 2022 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #define LOG_TAG "AHAL_Module" #include #include #include #include #include #include #include "core-impl/Module.h" #include "core-impl/ModuleBluetooth.h" #include "core-impl/ModulePrimary.h" #include "core-impl/ModuleRemoteSubmix.h" #include "core-impl/ModuleStub.h" #include "core-impl/ModuleUsb.h" #include "core-impl/SoundDose.h" #include "core-impl/utils.h" using aidl::android::hardware::audio::common::getFrameSizeInBytes; using aidl::android::hardware::audio::common::isBitPositionFlagSet; using aidl::android::hardware::audio::common::isValidAudioMode; using aidl::android::hardware::audio::common::SinkMetadata; using aidl::android::hardware::audio::common::SourceMetadata; using aidl::android::hardware::audio::core::sounddose::ISoundDose; using aidl::android::media::audio::common::AudioChannelLayout; using aidl::android::media::audio::common::AudioDevice; using aidl::android::media::audio::common::AudioFormatDescription; using aidl::android::media::audio::common::AudioFormatType; using aidl::android::media::audio::common::AudioInputFlags; using aidl::android::media::audio::common::AudioIoFlags; using aidl::android::media::audio::common::AudioMMapPolicy; using aidl::android::media::audio::common::AudioMMapPolicyInfo; using aidl::android::media::audio::common::AudioMMapPolicyType; using aidl::android::media::audio::common::AudioMode; using aidl::android::media::audio::common::AudioOffloadInfo; using aidl::android::media::audio::common::AudioOutputFlags; using aidl::android::media::audio::common::AudioPort; using aidl::android::media::audio::common::AudioPortConfig; using aidl::android::media::audio::common::AudioPortExt; using aidl::android::media::audio::common::AudioProfile; using aidl::android::media::audio::common::Boolean; using aidl::android::media::audio::common::Int; using aidl::android::media::audio::common::MicrophoneInfo; using aidl::android::media::audio::common::PcmType; namespace aidl::android::hardware::audio::core { namespace { bool generateDefaultPortConfig(const AudioPort& port, AudioPortConfig* config) { *config = {}; config->portId = port.id; if (port.profiles.empty()) { LOG(ERROR) << __func__ << ": port " << port.id << " has no profiles"; return false; } const auto& profile = port.profiles.begin(); config->format = profile->format; if (profile->channelMasks.empty()) { LOG(ERROR) << __func__ << ": the first profile in port " << port.id << " has no channel masks"; return false; } config->channelMask = *profile->channelMasks.begin(); if (profile->sampleRates.empty()) { LOG(ERROR) << __func__ << ": the first profile in port " << port.id << " has no sample rates"; return false; } Int sampleRate; sampleRate.value = *profile->sampleRates.begin(); config->sampleRate = sampleRate; config->flags = port.flags; config->ext = port.ext; return true; } bool findAudioProfile(const AudioPort& port, const AudioFormatDescription& format, AudioProfile* profile) { if (auto profilesIt = find_if(port.profiles.begin(), port.profiles.end(), [&format](const auto& profile) { return profile.format == format; }); profilesIt != port.profiles.end()) { *profile = *profilesIt; return true; } return false; } } // namespace // static std::shared_ptr Module::createInstance(Type type) { switch (type) { case Type::DEFAULT: return ndk::SharedRefBase::make(); case Type::R_SUBMIX: return ndk::SharedRefBase::make(); case Type::STUB: return ndk::SharedRefBase::make(); case Type::USB: return ndk::SharedRefBase::make(); case Type::BLUETOOTH: return ndk::SharedRefBase::make(); } } std::ostream& operator<<(std::ostream& os, Module::Type t) { switch (t) { case Module::Type::DEFAULT: os << "default"; break; case Module::Type::R_SUBMIX: os << "r_submix"; break; case Module::Type::STUB: os << "stub"; break; case Module::Type::USB: os << "usb"; break; case Module::Type::BLUETOOTH: os << "bluetooth"; break; } return os; } void Module::cleanUpPatch(int32_t patchId) { erase_all_values(mPatches, std::set{patchId}); } ndk::ScopedAStatus Module::createStreamContext( int32_t in_portConfigId, int64_t in_bufferSizeFrames, std::shared_ptr asyncCallback, std::shared_ptr outEventCallback, StreamContext* out_context) { if (in_bufferSizeFrames <= 0) { LOG(ERROR) << __func__ << ": non-positive buffer size " << in_bufferSizeFrames; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (in_bufferSizeFrames < kMinimumStreamBufferSizeFrames) { LOG(ERROR) << __func__ << ": insufficient buffer size " << in_bufferSizeFrames << ", must be at least " << kMinimumStreamBufferSizeFrames; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } auto& configs = getConfig().portConfigs; auto portConfigIt = findById(configs, in_portConfigId); // Since this is a private method, it is assumed that // validity of the portConfigId has already been checked. const size_t frameSize = getFrameSizeInBytes(portConfigIt->format.value(), portConfigIt->channelMask.value()); if (frameSize == 0) { LOG(ERROR) << __func__ << ": could not calculate frame size for port config " << portConfigIt->toString(); return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } LOG(DEBUG) << __func__ << ": frame size " << frameSize << " bytes"; if (frameSize > static_cast(kMaximumStreamBufferSizeBytes / in_bufferSizeFrames)) { LOG(ERROR) << __func__ << ": buffer size " << in_bufferSizeFrames << " frames is too large, maximum size is " << kMaximumStreamBufferSizeBytes / frameSize; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } const auto& flags = portConfigIt->flags.value(); if ((flags.getTag() == AudioIoFlags::Tag::input && !isBitPositionFlagSet(flags.get(), AudioInputFlags::MMAP_NOIRQ)) || (flags.getTag() == AudioIoFlags::Tag::output && !isBitPositionFlagSet(flags.get(), AudioOutputFlags::MMAP_NOIRQ))) { StreamContext::DebugParameters params{mDebug.streamTransientStateDelayMs, mVendorDebug.forceTransientBurst, mVendorDebug.forceSynchronousDrain}; StreamContext temp( std::make_unique(1, true /*configureEventFlagWord*/), std::make_unique(1, true /*configureEventFlagWord*/), portConfigIt->portId, portConfigIt->format.value(), portConfigIt->channelMask.value(), portConfigIt->sampleRate.value().value, flags, portConfigIt->ext.get().handle, std::make_unique(frameSize * in_bufferSizeFrames), asyncCallback, outEventCallback, params); if (temp.isValid()) { *out_context = std::move(temp); } else { return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } } else { // TODO: Implement simulation of MMAP buffer allocation } return ndk::ScopedAStatus::ok(); } std::vector Module::findConnectedDevices(int32_t portConfigId) { std::vector result; auto& ports = getConfig().ports; auto portIds = portIdsFromPortConfigIds(findConnectedPortConfigIds(portConfigId)); for (auto it = portIds.begin(); it != portIds.end(); ++it) { auto portIt = findById(ports, *it); if (portIt != ports.end() && portIt->ext.getTag() == AudioPortExt::Tag::device) { result.push_back(portIt->ext.template get().device); } } return result; } std::set Module::findConnectedPortConfigIds(int32_t portConfigId) { std::set result; auto patchIdsRange = mPatches.equal_range(portConfigId); auto& patches = getConfig().patches; for (auto it = patchIdsRange.first; it != patchIdsRange.second; ++it) { auto patchIt = findById(patches, it->second); if (patchIt == patches.end()) { LOG(FATAL) << __func__ << ": patch with id " << it->second << " taken from mPatches " << "not found in the configuration"; } if (std::find(patchIt->sourcePortConfigIds.begin(), patchIt->sourcePortConfigIds.end(), portConfigId) != patchIt->sourcePortConfigIds.end()) { result.insert(patchIt->sinkPortConfigIds.begin(), patchIt->sinkPortConfigIds.end()); } else { result.insert(patchIt->sourcePortConfigIds.begin(), patchIt->sourcePortConfigIds.end()); } } return result; } ndk::ScopedAStatus Module::findPortIdForNewStream(int32_t in_portConfigId, AudioPort** port) { auto& configs = getConfig().portConfigs; auto portConfigIt = findById(configs, in_portConfigId); if (portConfigIt == configs.end()) { LOG(ERROR) << __func__ << ": existing port config id " << in_portConfigId << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } const int32_t portId = portConfigIt->portId; // In our implementation, configs of mix ports always have unique IDs. CHECK(portId != in_portConfigId); auto& ports = getConfig().ports; auto portIt = findById(ports, portId); if (portIt == ports.end()) { LOG(ERROR) << __func__ << ": port id " << portId << " used by port config id " << in_portConfigId << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (mStreams.count(in_portConfigId) != 0) { LOG(ERROR) << __func__ << ": port config id " << in_portConfigId << " already has a stream opened on it"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } if (portIt->ext.getTag() != AudioPortExt::Tag::mix) { LOG(ERROR) << __func__ << ": port config id " << in_portConfigId << " does not correspond to a mix port"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } const size_t maxOpenStreamCount = portIt->ext.get().maxOpenStreamCount; if (maxOpenStreamCount != 0 && mStreams.count(portId) >= maxOpenStreamCount) { LOG(ERROR) << __func__ << ": port id " << portId << " has already reached maximum allowed opened stream count: " << maxOpenStreamCount; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } *port = &(*portIt); return ndk::ScopedAStatus::ok(); } template std::set Module::portIdsFromPortConfigIds(C portConfigIds) { std::set result; auto& portConfigs = getConfig().portConfigs; for (auto it = portConfigIds.begin(); it != portConfigIds.end(); ++it) { auto portConfigIt = findById(portConfigs, *it); if (portConfigIt != portConfigs.end()) { result.insert(portConfigIt->portId); } } return result; } std::unique_ptr Module::initializeConfig() { std::unique_ptr config; switch (getType()) { case Type::DEFAULT: config = std::move(internal::getPrimaryConfiguration()); break; case Type::R_SUBMIX: config = std::move(internal::getRSubmixConfiguration()); break; case Type::STUB: config = std::move(internal::getStubConfiguration()); break; case Type::USB: config = std::move(internal::getUsbConfiguration()); break; case Type::BLUETOOTH: config = std::move(internal::getBluetoothConfiguration()); break; } return config; } internal::Configuration& Module::getConfig() { if (!mConfig) { mConfig = std::move(initializeConfig()); } return *mConfig; } void Module::registerPatch(const AudioPatch& patch) { auto& configs = getConfig().portConfigs; auto do_insert = [&](const std::vector& portConfigIds) { for (auto portConfigId : portConfigIds) { auto configIt = findById(configs, portConfigId); if (configIt != configs.end()) { mPatches.insert(std::pair{portConfigId, patch.id}); if (configIt->portId != portConfigId) { mPatches.insert(std::pair{configIt->portId, patch.id}); } } }; }; do_insert(patch.sourcePortConfigIds); do_insert(patch.sinkPortConfigIds); } ndk::ScopedAStatus Module::updateStreamsConnectedState(const AudioPatch& oldPatch, const AudioPatch& newPatch) { // Streams from the old patch need to be disconnected, streams from the new // patch need to be connected. If the stream belongs to both patches, no need // to update it. auto maybeFailure = ndk::ScopedAStatus::ok(); std::set idsToDisconnect, idsToConnect, idsToDisconnectOnFailure; idsToDisconnect.insert(oldPatch.sourcePortConfigIds.begin(), oldPatch.sourcePortConfigIds.end()); idsToDisconnect.insert(oldPatch.sinkPortConfigIds.begin(), oldPatch.sinkPortConfigIds.end()); idsToConnect.insert(newPatch.sourcePortConfigIds.begin(), newPatch.sourcePortConfigIds.end()); idsToConnect.insert(newPatch.sinkPortConfigIds.begin(), newPatch.sinkPortConfigIds.end()); std::for_each(idsToDisconnect.begin(), idsToDisconnect.end(), [&](const auto& portConfigId) { if (idsToConnect.count(portConfigId) == 0 && mStreams.count(portConfigId) != 0) { if (auto status = mStreams.setStreamConnectedDevices(portConfigId, {}); status.isOk()) { LOG(DEBUG) << "updateStreamsConnectedState: The stream on port config id " << portConfigId << " has been disconnected"; } else { // Disconnection is tricky to roll back, just register a failure. maybeFailure = std::move(status); } } }); if (!maybeFailure.isOk()) return maybeFailure; std::for_each(idsToConnect.begin(), idsToConnect.end(), [&](const auto& portConfigId) { if (idsToDisconnect.count(portConfigId) == 0 && mStreams.count(portConfigId) != 0) { const auto connectedDevices = findConnectedDevices(portConfigId); if (connectedDevices.empty()) { // This is important as workers use the vector size to derive the connection status. LOG(FATAL) << "updateStreamsConnectedState: No connected devices found for port " "config id " << portConfigId; } if (auto status = mStreams.setStreamConnectedDevices(portConfigId, connectedDevices); status.isOk()) { LOG(DEBUG) << "updateStreamsConnectedState: The stream on port config id " << portConfigId << " has been connected to: " << ::android::internal::ToString(connectedDevices); } else { maybeFailure = std::move(status); idsToDisconnectOnFailure.insert(portConfigId); } } }); if (!maybeFailure.isOk()) { LOG(WARNING) << __func__ << ": Due to a failure, disconnecting streams on port config ids " << ::android::internal::ToString(idsToDisconnectOnFailure); std::for_each(idsToDisconnectOnFailure.begin(), idsToDisconnectOnFailure.end(), [&](const auto& portConfigId) { auto status = mStreams.setStreamConnectedDevices(portConfigId, {}); (void)status.isOk(); // Can't do much about a failure here. }); return maybeFailure; } return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::setModuleDebug( const ::aidl::android::hardware::audio::core::ModuleDebug& in_debug) { LOG(DEBUG) << __func__ << ": " << mType << ": old flags:" << mDebug.toString() << ", new flags: " << in_debug.toString(); if (mDebug.simulateDeviceConnections != in_debug.simulateDeviceConnections && !mConnectedDevicePorts.empty()) { LOG(ERROR) << __func__ << ": " << mType << ": attempting to change device connections simulation while having external " << "devices connected"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } if (in_debug.streamTransientStateDelayMs < 0) { LOG(ERROR) << __func__ << ": " << mType << ": streamTransientStateDelayMs is negative: " << in_debug.streamTransientStateDelayMs; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } mDebug = in_debug; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getTelephony(std::shared_ptr* _aidl_return) { *_aidl_return = nullptr; LOG(DEBUG) << __func__ << ": returning null"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getBluetooth(std::shared_ptr* _aidl_return) { *_aidl_return = nullptr; LOG(DEBUG) << __func__ << ": returning null"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getBluetoothA2dp(std::shared_ptr* _aidl_return) { *_aidl_return = nullptr; LOG(DEBUG) << __func__ << ": returning null"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getBluetoothLe(std::shared_ptr* _aidl_return) { *_aidl_return = nullptr; LOG(DEBUG) << __func__ << ": returning null"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::connectExternalDevice(const AudioPort& in_templateIdAndAdditionalData, AudioPort* _aidl_return) { const int32_t templateId = in_templateIdAndAdditionalData.id; auto& ports = getConfig().ports; AudioPort connectedPort; { // Scope the template port so that we don't accidentally modify it. auto templateIt = findById(ports, templateId); if (templateIt == ports.end()) { LOG(ERROR) << __func__ << ": port id " << templateId << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (templateIt->ext.getTag() != AudioPortExt::Tag::device) { LOG(ERROR) << __func__ << ": port id " << templateId << " is not a device port"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } auto& templateDevicePort = templateIt->ext.get(); if (templateDevicePort.device.type.connection.empty()) { LOG(ERROR) << __func__ << ": port id " << templateId << " is permanently attached"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (mConnectedDevicePorts.find(templateId) != mConnectedDevicePorts.end()) { LOG(ERROR) << __func__ << ": port id " << templateId << " is a connected device port"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } // Postpone id allocation until we ensure that there are no client errors. connectedPort = *templateIt; connectedPort.extraAudioDescriptors = in_templateIdAndAdditionalData.extraAudioDescriptors; const auto& inputDevicePort = in_templateIdAndAdditionalData.ext.get(); auto& connectedDevicePort = connectedPort.ext.get(); connectedDevicePort.device.address = inputDevicePort.device.address; LOG(DEBUG) << __func__ << ": device port " << connectedPort.id << " device set to " << connectedDevicePort.device.toString(); // Check if there is already a connected port with for the same external device. for (auto connectedPortPair : mConnectedDevicePorts) { auto connectedPortIt = findById(ports, connectedPortPair.first); if (connectedPortIt->ext.get().device == connectedDevicePort.device) { LOG(ERROR) << __func__ << ": device " << connectedDevicePort.device.toString() << " is already connected at the device port id " << connectedPortPair.first; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } } } if (connectedPort.profiles.empty()) { if (!mDebug.simulateDeviceConnections) { RETURN_STATUS_IF_ERROR(populateConnectedDevicePort(&connectedPort)); } else { auto& connectedProfiles = getConfig().connectedProfiles; if (auto connectedProfilesIt = connectedProfiles.find(templateId); connectedProfilesIt != connectedProfiles.end()) { connectedPort.profiles = connectedProfilesIt->second; } } if (connectedPort.profiles.empty()) { LOG(ERROR) << __func__ << ": profiles of a connected port still empty after connecting external " "device " << connectedPort.toString(); return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } } for (auto profile : connectedPort.profiles) { if (profile.channelMasks.empty()) { LOG(ERROR) << __func__ << ": the profile " << profile.name << " has no channel masks"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } if (profile.sampleRates.empty()) { LOG(ERROR) << __func__ << ": the profile " << profile.name << " has no sample rates"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } } connectedPort.id = ++getConfig().nextPortId; auto [connectedPortsIt, _] = mConnectedDevicePorts.insert(std::pair(connectedPort.id, std::vector())); LOG(DEBUG) << __func__ << ": template port " << templateId << " external device connected, " << "connected port ID " << connectedPort.id; ports.push_back(connectedPort); onExternalDeviceConnectionChanged(connectedPort, true /*connected*/); std::vector routablePortIds; std::vector newRoutes; auto& routes = getConfig().routes; for (auto& r : routes) { if (r.sinkPortId == templateId) { AudioRoute newRoute; newRoute.sourcePortIds = r.sourcePortIds; newRoute.sinkPortId = connectedPort.id; newRoute.isExclusive = r.isExclusive; newRoutes.push_back(std::move(newRoute)); routablePortIds.insert(routablePortIds.end(), r.sourcePortIds.begin(), r.sourcePortIds.end()); } else { auto& srcs = r.sourcePortIds; if (std::find(srcs.begin(), srcs.end(), templateId) != srcs.end()) { srcs.push_back(connectedPort.id); routablePortIds.push_back(r.sinkPortId); } } } routes.insert(routes.end(), newRoutes.begin(), newRoutes.end()); // Note: this is a simplistic approach assuming that a mix port can only be populated // from a single device port. Implementing support for stuffing dynamic profiles with a superset // of all profiles from all routable dynamic device ports would be more involved. for (const auto mixPortId : routablePortIds) { auto portsIt = findById(ports, mixPortId); if (portsIt != ports.end() && portsIt->profiles.empty()) { portsIt->profiles = connectedPort.profiles; connectedPortsIt->second.push_back(portsIt->id); } } *_aidl_return = std::move(connectedPort); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::disconnectExternalDevice(int32_t in_portId) { auto& ports = getConfig().ports; auto portIt = findById(ports, in_portId); if (portIt == ports.end()) { LOG(ERROR) << __func__ << ": port id " << in_portId << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (portIt->ext.getTag() != AudioPortExt::Tag::device) { LOG(ERROR) << __func__ << ": port id " << in_portId << " is not a device port"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } auto connectedPortsIt = mConnectedDevicePorts.find(in_portId); if (connectedPortsIt == mConnectedDevicePorts.end()) { LOG(ERROR) << __func__ << ": port id " << in_portId << " is not a connected device port"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } auto& configs = getConfig().portConfigs; auto& initials = getConfig().initialConfigs; auto configIt = std::find_if(configs.begin(), configs.end(), [&](const auto& config) { if (config.portId == in_portId) { // Check if the configuration was provided by the client. const auto& initialIt = findById(initials, config.id); return initialIt == initials.end() || config != *initialIt; } return false; }); if (configIt != configs.end()) { LOG(ERROR) << __func__ << ": port id " << in_portId << " has a non-default config with id " << configIt->id; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } onExternalDeviceConnectionChanged(*portIt, false /*connected*/); ports.erase(portIt); LOG(DEBUG) << __func__ << ": connected device port " << in_portId << " released"; auto& routes = getConfig().routes; for (auto routesIt = routes.begin(); routesIt != routes.end();) { if (routesIt->sinkPortId == in_portId) { routesIt = routes.erase(routesIt); } else { // Note: the list of sourcePortIds can't become empty because there must // be the id of the template port in the route. erase_if(routesIt->sourcePortIds, [in_portId](auto src) { return src == in_portId; }); ++routesIt; } } for (const auto mixPortId : connectedPortsIt->second) { auto mixPortIt = findById(ports, mixPortId); if (mixPortIt != ports.end()) { mixPortIt->profiles = {}; } } mConnectedDevicePorts.erase(connectedPortsIt); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getAudioPatches(std::vector* _aidl_return) { *_aidl_return = getConfig().patches; LOG(DEBUG) << __func__ << ": returning " << _aidl_return->size() << " patches"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getAudioPort(int32_t in_portId, AudioPort* _aidl_return) { auto& ports = getConfig().ports; auto portIt = findById(ports, in_portId); if (portIt != ports.end()) { *_aidl_return = *portIt; LOG(DEBUG) << __func__ << ": returning port by id " << in_portId; return ndk::ScopedAStatus::ok(); } LOG(ERROR) << __func__ << ": port id " << in_portId << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } ndk::ScopedAStatus Module::getAudioPortConfigs(std::vector* _aidl_return) { *_aidl_return = getConfig().portConfigs; LOG(DEBUG) << __func__ << ": returning " << _aidl_return->size() << " port configs"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getAudioPorts(std::vector* _aidl_return) { *_aidl_return = getConfig().ports; LOG(DEBUG) << __func__ << ": returning " << _aidl_return->size() << " ports"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getAudioRoutes(std::vector* _aidl_return) { *_aidl_return = getConfig().routes; LOG(DEBUG) << __func__ << ": returning " << _aidl_return->size() << " routes"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getAudioRoutesForAudioPort(int32_t in_portId, std::vector* _aidl_return) { auto& ports = getConfig().ports; if (auto portIt = findById(ports, in_portId); portIt == ports.end()) { LOG(ERROR) << __func__ << ": port id " << in_portId << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } auto& routes = getConfig().routes; std::copy_if(routes.begin(), routes.end(), std::back_inserter(*_aidl_return), [&](const auto& r) { const auto& srcs = r.sourcePortIds; return r.sinkPortId == in_portId || std::find(srcs.begin(), srcs.end(), in_portId) != srcs.end(); }); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::openInputStream(const OpenInputStreamArguments& in_args, OpenInputStreamReturn* _aidl_return) { LOG(DEBUG) << __func__ << ": port config id " << in_args.portConfigId << ", buffer size " << in_args.bufferSizeFrames << " frames"; AudioPort* port = nullptr; RETURN_STATUS_IF_ERROR(findPortIdForNewStream(in_args.portConfigId, &port)); if (port->flags.getTag() != AudioIoFlags::Tag::input) { LOG(ERROR) << __func__ << ": port config id " << in_args.portConfigId << " does not correspond to an input mix port"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } StreamContext context; RETURN_STATUS_IF_ERROR(createStreamContext(in_args.portConfigId, in_args.bufferSizeFrames, nullptr, nullptr, &context)); context.fillDescriptor(&_aidl_return->desc); std::shared_ptr stream; RETURN_STATUS_IF_ERROR(createInputStream(std::move(context), in_args.sinkMetadata, mConfig->microphones, &stream)); StreamWrapper streamWrapper(stream); if (auto patchIt = mPatches.find(in_args.portConfigId); patchIt != mPatches.end()) { RETURN_STATUS_IF_ERROR( streamWrapper.setConnectedDevices(findConnectedDevices(in_args.portConfigId))); } AIBinder_setMinSchedulerPolicy(streamWrapper.getBinder().get(), SCHED_NORMAL, ANDROID_PRIORITY_AUDIO); mStreams.insert(port->id, in_args.portConfigId, std::move(streamWrapper)); _aidl_return->stream = std::move(stream); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::openOutputStream(const OpenOutputStreamArguments& in_args, OpenOutputStreamReturn* _aidl_return) { LOG(DEBUG) << __func__ << ": port config id " << in_args.portConfigId << ", has offload info? " << (in_args.offloadInfo.has_value()) << ", buffer size " << in_args.bufferSizeFrames << " frames"; AudioPort* port = nullptr; RETURN_STATUS_IF_ERROR(findPortIdForNewStream(in_args.portConfigId, &port)); if (port->flags.getTag() != AudioIoFlags::Tag::output) { LOG(ERROR) << __func__ << ": port config id " << in_args.portConfigId << " does not correspond to an output mix port"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } const bool isOffload = isBitPositionFlagSet(port->flags.get(), AudioOutputFlags::COMPRESS_OFFLOAD); if (isOffload && !in_args.offloadInfo.has_value()) { LOG(ERROR) << __func__ << ": port id " << port->id << " has COMPRESS_OFFLOAD flag set, requires offload info"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } const bool isNonBlocking = isBitPositionFlagSet(port->flags.get(), AudioOutputFlags::NON_BLOCKING); if (isNonBlocking && in_args.callback == nullptr) { LOG(ERROR) << __func__ << ": port id " << port->id << " has NON_BLOCKING flag set, requires async callback"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } StreamContext context; RETURN_STATUS_IF_ERROR(createStreamContext(in_args.portConfigId, in_args.bufferSizeFrames, isNonBlocking ? in_args.callback : nullptr, in_args.eventCallback, &context)); context.fillDescriptor(&_aidl_return->desc); std::shared_ptr stream; RETURN_STATUS_IF_ERROR(createOutputStream(std::move(context), in_args.sourceMetadata, in_args.offloadInfo, &stream)); StreamWrapper streamWrapper(stream); if (auto patchIt = mPatches.find(in_args.portConfigId); patchIt != mPatches.end()) { RETURN_STATUS_IF_ERROR( streamWrapper.setConnectedDevices(findConnectedDevices(in_args.portConfigId))); } AIBinder_setMinSchedulerPolicy(streamWrapper.getBinder().get(), SCHED_NORMAL, ANDROID_PRIORITY_AUDIO); mStreams.insert(port->id, in_args.portConfigId, std::move(streamWrapper)); _aidl_return->stream = std::move(stream); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getSupportedPlaybackRateFactors( SupportedPlaybackRateFactors* _aidl_return) { LOG(DEBUG) << __func__; (void)_aidl_return; return ndk::ScopedAStatus::fromExceptionCode(EX_UNSUPPORTED_OPERATION); } ndk::ScopedAStatus Module::setAudioPatch(const AudioPatch& in_requested, AudioPatch* _aidl_return) { LOG(DEBUG) << __func__ << ": requested patch " << in_requested.toString(); if (in_requested.sourcePortConfigIds.empty()) { LOG(ERROR) << __func__ << ": requested patch has empty sources list"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (!all_unique(in_requested.sourcePortConfigIds)) { LOG(ERROR) << __func__ << ": requested patch has duplicate ids in the sources list"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (in_requested.sinkPortConfigIds.empty()) { LOG(ERROR) << __func__ << ": requested patch has empty sinks list"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (!all_unique(in_requested.sinkPortConfigIds)) { LOG(ERROR) << __func__ << ": requested patch has duplicate ids in the sinks list"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } auto& configs = getConfig().portConfigs; std::vector missingIds; auto sources = selectByIds(configs, in_requested.sourcePortConfigIds, &missingIds); if (!missingIds.empty()) { LOG(ERROR) << __func__ << ": following source port config ids not found: " << ::android::internal::ToString(missingIds); return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } auto sinks = selectByIds(configs, in_requested.sinkPortConfigIds, &missingIds); if (!missingIds.empty()) { LOG(ERROR) << __func__ << ": following sink port config ids not found: " << ::android::internal::ToString(missingIds); return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } // bool indicates whether a non-exclusive route is available. // If only an exclusive route is available, that means the patch can not be // established if there is any other patch which currently uses the sink port. std::map allowedSinkPorts; auto& routes = getConfig().routes; for (auto src : sources) { for (const auto& r : routes) { const auto& srcs = r.sourcePortIds; if (std::find(srcs.begin(), srcs.end(), src->portId) != srcs.end()) { if (!allowedSinkPorts[r.sinkPortId]) { // prefer non-exclusive allowedSinkPorts[r.sinkPortId] = !r.isExclusive; } } } } for (auto sink : sinks) { if (allowedSinkPorts.count(sink->portId) == 0) { LOG(ERROR) << __func__ << ": there is no route to the sink port id " << sink->portId; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } } RETURN_STATUS_IF_ERROR(checkAudioPatchEndpointsMatch(sources, sinks)); auto& patches = getConfig().patches; auto existing = patches.end(); std::optional patchesBackup; if (in_requested.id != 0) { existing = findById(patches, in_requested.id); if (existing != patches.end()) { patchesBackup = mPatches; cleanUpPatch(existing->id); } else { LOG(ERROR) << __func__ << ": not found existing patch id " << in_requested.id; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } } // Validate the requested patch. for (const auto& [sinkPortId, nonExclusive] : allowedSinkPorts) { if (!nonExclusive && mPatches.count(sinkPortId) != 0) { LOG(ERROR) << __func__ << ": sink port id " << sinkPortId << "is exclusive and is already used by some other patch"; if (patchesBackup.has_value()) { mPatches = std::move(*patchesBackup); } return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } } *_aidl_return = in_requested; _aidl_return->minimumStreamBufferSizeFrames = kMinimumStreamBufferSizeFrames; _aidl_return->latenciesMs.clear(); _aidl_return->latenciesMs.insert(_aidl_return->latenciesMs.end(), _aidl_return->sinkPortConfigIds.size(), kLatencyMs); AudioPatch oldPatch{}; if (existing == patches.end()) { _aidl_return->id = getConfig().nextPatchId++; patches.push_back(*_aidl_return); } else { oldPatch = *existing; } patchesBackup = mPatches; registerPatch(*_aidl_return); if (auto status = updateStreamsConnectedState(oldPatch, *_aidl_return); !status.isOk()) { mPatches = std::move(*patchesBackup); if (existing == patches.end()) { patches.pop_back(); } else { *existing = oldPatch; } return status; } LOG(DEBUG) << __func__ << ": " << (oldPatch.id == 0 ? "created" : "updated") << " patch " << _aidl_return->toString(); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::setAudioPortConfig(const AudioPortConfig& in_requested, AudioPortConfig* out_suggested, bool* _aidl_return) { LOG(DEBUG) << __func__ << ": requested " << in_requested.toString(); auto& configs = getConfig().portConfigs; auto existing = configs.end(); if (in_requested.id != 0) { if (existing = findById(configs, in_requested.id); existing == configs.end()) { LOG(ERROR) << __func__ << ": existing port config id " << in_requested.id << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } } const int portId = existing != configs.end() ? existing->portId : in_requested.portId; if (portId == 0) { LOG(ERROR) << __func__ << ": input port config does not specify portId"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } auto& ports = getConfig().ports; auto portIt = findById(ports, portId); if (portIt == ports.end()) { LOG(ERROR) << __func__ << ": input port config points to non-existent portId " << portId; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (existing != configs.end()) { *out_suggested = *existing; } else { AudioPortConfig newConfig; if (generateDefaultPortConfig(*portIt, &newConfig)) { *out_suggested = newConfig; } else { LOG(ERROR) << __func__ << ": unable generate a default config for port " << portId; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } } // From this moment, 'out_suggested' is either an existing port config, // or a new generated config. Now attempt to update it according to the specified // fields of 'in_requested'. bool requestedIsValid = true, requestedIsFullySpecified = true; AudioIoFlags portFlags = portIt->flags; if (in_requested.flags.has_value()) { if (in_requested.flags.value() != portFlags) { LOG(WARNING) << __func__ << ": requested flags " << in_requested.flags.value().toString() << " do not match port's " << portId << " flags " << portFlags.toString(); requestedIsValid = false; } } else { requestedIsFullySpecified = false; } AudioProfile portProfile; if (in_requested.format.has_value()) { const auto& format = in_requested.format.value(); if (findAudioProfile(*portIt, format, &portProfile)) { out_suggested->format = format; } else { LOG(WARNING) << __func__ << ": requested format " << format.toString() << " is not found in port's " << portId << " profiles"; requestedIsValid = false; } } else { requestedIsFullySpecified = false; } if (!findAudioProfile(*portIt, out_suggested->format.value(), &portProfile)) { LOG(ERROR) << __func__ << ": port " << portId << " does not support format " << out_suggested->format.value().toString() << " anymore"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } if (in_requested.channelMask.has_value()) { const auto& channelMask = in_requested.channelMask.value(); if (find(portProfile.channelMasks.begin(), portProfile.channelMasks.end(), channelMask) != portProfile.channelMasks.end()) { out_suggested->channelMask = channelMask; } else { LOG(WARNING) << __func__ << ": requested channel mask " << channelMask.toString() << " is not supported for the format " << portProfile.format.toString() << " by the port " << portId; requestedIsValid = false; } } else { requestedIsFullySpecified = false; } if (in_requested.sampleRate.has_value()) { const auto& sampleRate = in_requested.sampleRate.value(); if (find(portProfile.sampleRates.begin(), portProfile.sampleRates.end(), sampleRate.value) != portProfile.sampleRates.end()) { out_suggested->sampleRate = sampleRate; } else { LOG(WARNING) << __func__ << ": requested sample rate " << sampleRate.value << " is not supported for the format " << portProfile.format.toString() << " by the port " << portId; requestedIsValid = false; } } else { requestedIsFullySpecified = false; } if (in_requested.gain.has_value()) { // Let's pretend that gain can always be applied. out_suggested->gain = in_requested.gain.value(); } if (in_requested.ext.getTag() != AudioPortExt::Tag::unspecified) { if (in_requested.ext.getTag() == out_suggested->ext.getTag()) { if (out_suggested->ext.getTag() == AudioPortExt::Tag::mix) { // 'AudioMixPortExt.handle' is set by the client, copy from in_requested out_suggested->ext.get().handle = in_requested.ext.get().handle; } } else { LOG(WARNING) << __func__ << ": requested ext tag " << toString(in_requested.ext.getTag()) << " do not match port's tag " << toString(out_suggested->ext.getTag()); requestedIsValid = false; } } if (existing == configs.end() && requestedIsValid && requestedIsFullySpecified) { out_suggested->id = getConfig().nextPortId++; configs.push_back(*out_suggested); *_aidl_return = true; LOG(DEBUG) << __func__ << ": created new port config " << out_suggested->toString(); } else if (existing != configs.end() && requestedIsValid) { *existing = *out_suggested; *_aidl_return = true; LOG(DEBUG) << __func__ << ": updated port config " << out_suggested->toString(); } else { LOG(DEBUG) << __func__ << ": not applied; existing config ? " << (existing != configs.end()) << "; requested is valid? " << requestedIsValid << ", fully specified? " << requestedIsFullySpecified; *_aidl_return = false; } return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::resetAudioPatch(int32_t in_patchId) { auto& patches = getConfig().patches; auto patchIt = findById(patches, in_patchId); if (patchIt != patches.end()) { auto patchesBackup = mPatches; cleanUpPatch(patchIt->id); if (auto status = updateStreamsConnectedState(*patchIt, AudioPatch{}); !status.isOk()) { mPatches = std::move(patchesBackup); return status; } patches.erase(patchIt); LOG(DEBUG) << __func__ << ": erased patch " << in_patchId; return ndk::ScopedAStatus::ok(); } LOG(ERROR) << __func__ << ": patch id " << in_patchId << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } ndk::ScopedAStatus Module::resetAudioPortConfig(int32_t in_portConfigId) { auto& configs = getConfig().portConfigs; auto configIt = findById(configs, in_portConfigId); if (configIt != configs.end()) { if (mStreams.count(in_portConfigId) != 0) { LOG(ERROR) << __func__ << ": port config id " << in_portConfigId << " has a stream opened on it"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } auto patchIt = mPatches.find(in_portConfigId); if (patchIt != mPatches.end()) { LOG(ERROR) << __func__ << ": port config id " << in_portConfigId << " is used by the patch with id " << patchIt->second; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_STATE); } auto& initials = getConfig().initialConfigs; auto initialIt = findById(initials, in_portConfigId); if (initialIt == initials.end()) { configs.erase(configIt); LOG(DEBUG) << __func__ << ": erased port config " << in_portConfigId; } else if (*configIt != *initialIt) { *configIt = *initialIt; LOG(DEBUG) << __func__ << ": reset port config " << in_portConfigId; } return ndk::ScopedAStatus::ok(); } LOG(ERROR) << __func__ << ": port config id " << in_portConfigId << " not found"; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } ndk::ScopedAStatus Module::getMasterMute(bool* _aidl_return) { *_aidl_return = mMasterMute; LOG(DEBUG) << __func__ << ": returning " << *_aidl_return; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::setMasterMute(bool in_mute) { LOG(DEBUG) << __func__ << ": " << in_mute; auto result = mDebug.simulateDeviceConnections ? ndk::ScopedAStatus::ok() : onMasterMuteChanged(in_mute); if (result.isOk()) { mMasterMute = in_mute; } else { LOG(ERROR) << __func__ << ": failed calling onMasterMuteChanged(" << in_mute << "), error=" << result; // Reset master mute if it failed. onMasterMuteChanged(mMasterMute); } return std::move(result); } ndk::ScopedAStatus Module::getMasterVolume(float* _aidl_return) { *_aidl_return = mMasterVolume; LOG(DEBUG) << __func__ << ": returning " << *_aidl_return; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::setMasterVolume(float in_volume) { LOG(DEBUG) << __func__ << ": " << in_volume; if (in_volume >= 0.0f && in_volume <= 1.0f) { auto result = mDebug.simulateDeviceConnections ? ndk::ScopedAStatus::ok() : onMasterVolumeChanged(in_volume); if (result.isOk()) { mMasterVolume = in_volume; } else { // Reset master volume if it failed. LOG(ERROR) << __func__ << ": failed calling onMasterVolumeChanged(" << in_volume << "), error=" << result; onMasterVolumeChanged(mMasterVolume); } return std::move(result); } LOG(ERROR) << __func__ << ": invalid master volume value: " << in_volume; return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } ndk::ScopedAStatus Module::getMicMute(bool* _aidl_return) { *_aidl_return = mMicMute; LOG(DEBUG) << __func__ << ": returning " << *_aidl_return; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::setMicMute(bool in_mute) { LOG(DEBUG) << __func__ << ": " << in_mute; mMicMute = in_mute; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getMicrophones(std::vector* _aidl_return) { *_aidl_return = getConfig().microphones; LOG(DEBUG) << __func__ << ": returning " << ::android::internal::ToString(*_aidl_return); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::updateAudioMode(AudioMode in_mode) { if (!isValidAudioMode(in_mode)) { LOG(ERROR) << __func__ << ": invalid mode " << toString(in_mode); return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } // No checks for supported audio modes here, it's an informative notification. LOG(DEBUG) << __func__ << ": " << toString(in_mode); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::updateScreenRotation(ScreenRotation in_rotation) { LOG(DEBUG) << __func__ << ": " << toString(in_rotation); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::updateScreenState(bool in_isTurnedOn) { LOG(DEBUG) << __func__ << ": " << in_isTurnedOn; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getSoundDose(std::shared_ptr* _aidl_return) { if (!mSoundDose) { mSoundDose = ndk::SharedRefBase::make(); } *_aidl_return = mSoundDose.getInstance(); LOG(DEBUG) << __func__ << ": returning instance of ISoundDose: " << _aidl_return->get(); return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::generateHwAvSyncId(int32_t* _aidl_return) { LOG(DEBUG) << __func__; (void)_aidl_return; return ndk::ScopedAStatus::fromExceptionCode(EX_UNSUPPORTED_OPERATION); } const std::string Module::VendorDebug::kForceTransientBurstName = "aosp.forceTransientBurst"; const std::string Module::VendorDebug::kForceSynchronousDrainName = "aosp.forceSynchronousDrain"; ndk::ScopedAStatus Module::getVendorParameters(const std::vector& in_ids, std::vector* _aidl_return) { LOG(DEBUG) << __func__ << ": id count: " << in_ids.size(); bool allParametersKnown = true; for (const auto& id : in_ids) { if (id == VendorDebug::kForceTransientBurstName) { VendorParameter forceTransientBurst{.id = id}; forceTransientBurst.ext.setParcelable(Boolean{mVendorDebug.forceTransientBurst}); _aidl_return->push_back(std::move(forceTransientBurst)); } else if (id == VendorDebug::kForceSynchronousDrainName) { VendorParameter forceSynchronousDrain{.id = id}; forceSynchronousDrain.ext.setParcelable(Boolean{mVendorDebug.forceSynchronousDrain}); _aidl_return->push_back(std::move(forceSynchronousDrain)); } else { allParametersKnown = false; LOG(ERROR) << __func__ << ": unrecognized parameter \"" << id << "\""; } } if (allParametersKnown) return ndk::ScopedAStatus::ok(); return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } namespace { template bool extractParameter(const VendorParameter& p, decltype(W::value)* v) { std::optional value; binder_status_t result = p.ext.getParcelable(&value); if (result == STATUS_OK && value.has_value()) { *v = value.value().value; return true; } LOG(ERROR) << __func__ << ": failed to read the value of the parameter \"" << p.id << "\": " << result; return false; } } // namespace ndk::ScopedAStatus Module::setVendorParameters(const std::vector& in_parameters, bool in_async) { LOG(DEBUG) << __func__ << ": parameter count " << in_parameters.size() << ", async: " << in_async; bool allParametersKnown = true; for (const auto& p : in_parameters) { if (p.id == VendorDebug::kForceTransientBurstName) { if (!extractParameter(p, &mVendorDebug.forceTransientBurst)) { return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } } else if (p.id == VendorDebug::kForceSynchronousDrainName) { if (!extractParameter(p, &mVendorDebug.forceSynchronousDrain)) { return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } } else { allParametersKnown = false; LOG(ERROR) << __func__ << ": unrecognized parameter \"" << p.id << "\""; } } if (allParametersKnown) return ndk::ScopedAStatus::ok(); return ndk::ScopedAStatus::fromExceptionCode(EX_ILLEGAL_ARGUMENT); } ndk::ScopedAStatus Module::addDeviceEffect( int32_t in_portConfigId, const std::shared_ptr<::aidl::android::hardware::audio::effect::IEffect>& in_effect) { if (in_effect == nullptr) { LOG(DEBUG) << __func__ << ": port id " << in_portConfigId << ", null effect"; } else { LOG(DEBUG) << __func__ << ": port id " << in_portConfigId << ", effect Binder " << in_effect->asBinder().get(); } return ndk::ScopedAStatus::fromExceptionCode(EX_UNSUPPORTED_OPERATION); } ndk::ScopedAStatus Module::removeDeviceEffect( int32_t in_portConfigId, const std::shared_ptr<::aidl::android::hardware::audio::effect::IEffect>& in_effect) { if (in_effect == nullptr) { LOG(DEBUG) << __func__ << ": port id " << in_portConfigId << ", null effect"; } else { LOG(DEBUG) << __func__ << ": port id " << in_portConfigId << ", effect Binder " << in_effect->asBinder().get(); } return ndk::ScopedAStatus::fromExceptionCode(EX_UNSUPPORTED_OPERATION); } ndk::ScopedAStatus Module::getMmapPolicyInfos(AudioMMapPolicyType mmapPolicyType, std::vector* _aidl_return) { LOG(DEBUG) << __func__ << ": mmap policy type " << toString(mmapPolicyType); std::set mmapSinks; std::set mmapSources; auto& ports = getConfig().ports; for (const auto& port : ports) { if (port.flags.getTag() == AudioIoFlags::Tag::input && isBitPositionFlagSet(port.flags.get(), AudioInputFlags::MMAP_NOIRQ)) { mmapSinks.insert(port.id); } else if (port.flags.getTag() == AudioIoFlags::Tag::output && isBitPositionFlagSet(port.flags.get(), AudioOutputFlags::MMAP_NOIRQ)) { mmapSources.insert(port.id); } } for (const auto& route : getConfig().routes) { if (mmapSinks.count(route.sinkPortId) != 0) { // The sink is a mix port, add the sources if they are device ports. for (int sourcePortId : route.sourcePortIds) { auto sourcePortIt = findById(ports, sourcePortId); if (sourcePortIt == ports.end()) { // This must not happen LOG(ERROR) << __func__ << ": port id " << sourcePortId << " cannot be found"; continue; } if (sourcePortIt->ext.getTag() != AudioPortExt::Tag::device) { // The source is not a device port, skip continue; } AudioMMapPolicyInfo policyInfo; policyInfo.device = sourcePortIt->ext.get().device; // Always return AudioMMapPolicy.AUTO if the device supports mmap for // default implementation. policyInfo.mmapPolicy = AudioMMapPolicy::AUTO; _aidl_return->push_back(policyInfo); } } else { auto sinkPortIt = findById(ports, route.sinkPortId); if (sinkPortIt == ports.end()) { // This must not happen LOG(ERROR) << __func__ << ": port id " << route.sinkPortId << " cannot be found"; continue; } if (sinkPortIt->ext.getTag() != AudioPortExt::Tag::device) { // The sink is not a device port, skip continue; } if (count_any(mmapSources, route.sourcePortIds)) { AudioMMapPolicyInfo policyInfo; policyInfo.device = sinkPortIt->ext.get().device; // Always return AudioMMapPolicy.AUTO if the device supports mmap for // default implementation. policyInfo.mmapPolicy = AudioMMapPolicy::AUTO; _aidl_return->push_back(policyInfo); } } } return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::supportsVariableLatency(bool* _aidl_return) { LOG(DEBUG) << __func__; *_aidl_return = false; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getAAudioMixerBurstCount(int32_t* _aidl_return) { if (!isMmapSupported()) { LOG(DEBUG) << __func__ << ": mmap is not supported "; return ndk::ScopedAStatus::fromExceptionCode(EX_UNSUPPORTED_OPERATION); } *_aidl_return = DEFAULT_AAUDIO_MIXER_BURST_COUNT; LOG(DEBUG) << __func__ << ": returning " << *_aidl_return; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::getAAudioHardwareBurstMinUsec(int32_t* _aidl_return) { if (!isMmapSupported()) { LOG(DEBUG) << __func__ << ": mmap is not supported "; return ndk::ScopedAStatus::fromExceptionCode(EX_UNSUPPORTED_OPERATION); } *_aidl_return = DEFAULT_AAUDIO_HARDWARE_BURST_MIN_DURATION_US; LOG(DEBUG) << __func__ << ": returning " << *_aidl_return; return ndk::ScopedAStatus::ok(); } bool Module::isMmapSupported() { if (mIsMmapSupported.has_value()) { return mIsMmapSupported.value(); } std::vector mmapPolicyInfos; if (!getMmapPolicyInfos(AudioMMapPolicyType::DEFAULT, &mmapPolicyInfos).isOk()) { mIsMmapSupported = false; } else { mIsMmapSupported = std::find_if(mmapPolicyInfos.begin(), mmapPolicyInfos.end(), [](const auto& info) { return info.mmapPolicy == AudioMMapPolicy::AUTO || info.mmapPolicy == AudioMMapPolicy::ALWAYS; }) != mmapPolicyInfos.end(); } return mIsMmapSupported.value(); } ndk::ScopedAStatus Module::populateConnectedDevicePort(AudioPort* audioPort __unused) { LOG(VERBOSE) << __func__ << ": do nothing and return ok"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::checkAudioPatchEndpointsMatch( const std::vector& sources __unused, const std::vector& sinks __unused) { LOG(VERBOSE) << __func__ << ": do nothing and return ok"; return ndk::ScopedAStatus::ok(); } void Module::onExternalDeviceConnectionChanged( const ::aidl::android::media::audio::common::AudioPort& audioPort __unused, bool connected __unused) { LOG(DEBUG) << __func__ << ": do nothing and return"; } ndk::ScopedAStatus Module::onMasterMuteChanged(bool mute __unused) { LOG(VERBOSE) << __func__ << ": do nothing and return ok"; return ndk::ScopedAStatus::ok(); } ndk::ScopedAStatus Module::onMasterVolumeChanged(float volume __unused) { LOG(VERBOSE) << __func__ << ": do nothing and return ok"; return ndk::ScopedAStatus::ok(); } Module::BtProfileHandles Module::getBtProfileManagerHandles() { return std::make_tuple(std::weak_ptr(), std::weak_ptr(), std::weak_ptr()); } ndk::ScopedAStatus Module::bluetoothParametersUpdated() { return mStreams.bluetoothParametersUpdated(); } } // namespace aidl::android::hardware::audio::core