/* * Copyright (C) 2023 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_StreamAlsa" #include #include #include #include #include "core-impl/StreamAlsa.h" namespace aidl::android::hardware::audio::core { StreamAlsa::StreamAlsa(StreamContext* context, const Metadata& metadata, int readWriteRetries) : StreamCommonImpl(context, metadata), mBufferSizeFrames(getContext().getBufferSizeInFrames()), mFrameSizeBytes(getContext().getFrameSize()), mSampleRate(getContext().getSampleRate()), mIsInput(isInput(metadata)), mConfig(alsa::getPcmConfig(getContext(), mIsInput)), mReadWriteRetries(readWriteRetries) {} StreamAlsa::~StreamAlsa() { cleanupWorker(); } ::android::status_t StreamAlsa::init() { return mConfig.has_value() ? ::android::OK : ::android::NO_INIT; } ::android::status_t StreamAlsa::drain(StreamDescriptor::DrainMode) { if (!mIsInput) { static constexpr float kMicrosPerSecond = MICROS_PER_SECOND; const size_t delayUs = static_cast( std::roundf(mBufferSizeFrames * kMicrosPerSecond / mSampleRate)); usleep(delayUs); } return ::android::OK; } ::android::status_t StreamAlsa::flush() { return ::android::OK; } ::android::status_t StreamAlsa::pause() { return ::android::OK; } ::android::status_t StreamAlsa::standby() { mAlsaDeviceProxies.clear(); return ::android::OK; } ::android::status_t StreamAlsa::start() { if (!mAlsaDeviceProxies.empty()) { // This is a resume after a pause. return ::android::OK; } decltype(mAlsaDeviceProxies) alsaDeviceProxies; for (const auto& device : getDeviceProfiles()) { if ((device.direction == PCM_OUT && mIsInput) || (device.direction == PCM_IN && !mIsInput)) { continue; } alsa::DeviceProxy proxy; if (device.isExternal) { // Always ask alsa configure as required since the configuration should be supported // by the connected device. That is guaranteed by `setAudioPortConfig` and // `setAudioPatch`. proxy = alsa::openProxyForExternalDevice( device, const_cast(&mConfig.value()), true /*require_exact_match*/); } else { proxy = alsa::openProxyForAttachedDevice( device, const_cast(&mConfig.value()), mBufferSizeFrames); } if (proxy.get() == nullptr) { return ::android::NO_INIT; } alsaDeviceProxies.push_back(std::move(proxy)); } if (alsaDeviceProxies.empty()) { return ::android::NO_INIT; } mAlsaDeviceProxies = std::move(alsaDeviceProxies); return ::android::OK; } ::android::status_t StreamAlsa::transfer(void* buffer, size_t frameCount, size_t* actualFrameCount, int32_t* latencyMs) { if (mAlsaDeviceProxies.empty()) { LOG(FATAL) << __func__ << ": no opened devices"; return ::android::NO_INIT; } const size_t bytesToTransfer = frameCount * mFrameSizeBytes; unsigned maxLatency = 0; if (mIsInput) { // For input case, only support single device. proxy_read_with_retries(mAlsaDeviceProxies[0].get(), buffer, bytesToTransfer, mReadWriteRetries); maxLatency = proxy_get_latency(mAlsaDeviceProxies[0].get()); } else { alsa::applyGain(buffer, mGain, bytesToTransfer, mConfig.value().format, mConfig->channels); for (auto& proxy : mAlsaDeviceProxies) { proxy_write_with_retries(proxy.get(), buffer, bytesToTransfer, mReadWriteRetries); maxLatency = std::max(maxLatency, proxy_get_latency(proxy.get())); } } *actualFrameCount = frameCount; maxLatency = std::min(maxLatency, static_cast(std::numeric_limits::max())); *latencyMs = maxLatency; return ::android::OK; } ::android::status_t StreamAlsa::refinePosition(StreamDescriptor::Position* position) { if (mAlsaDeviceProxies.empty()) { LOG(WARNING) << __func__ << ": no opened devices"; return ::android::NO_INIT; } // Since the proxy can only count transferred frames since its creation, // we override its counter value with ours and let it to correct for buffered frames. alsa::resetTransferredFrames(mAlsaDeviceProxies[0], position->frames); if (mIsInput) { if (int ret = proxy_get_capture_position(mAlsaDeviceProxies[0].get(), &position->frames, &position->timeNs); ret != 0) { LOG(WARNING) << __func__ << ": failed to retrieve capture position: " << ret; return ::android::INVALID_OPERATION; } } else { uint64_t hwFrames; struct timespec timestamp; if (int ret = proxy_get_presentation_position(mAlsaDeviceProxies[0].get(), &hwFrames, ×tamp); ret == 0) { if (hwFrames > std::numeric_limits::max()) { hwFrames -= std::numeric_limits::max(); } position->frames = static_cast(hwFrames); position->timeNs = audio_utils_ns_from_timespec(×tamp); } else { LOG(WARNING) << __func__ << ": failed to retrieve presentation position: " << ret; return ::android::INVALID_OPERATION; } } return ::android::OK; } void StreamAlsa::shutdown() { mAlsaDeviceProxies.clear(); } ndk::ScopedAStatus StreamAlsa::setGain(float gain) { mGain = gain; return ndk::ScopedAStatus::ok(); } } // namespace aidl::android::hardware::audio::core