/* * Copyright (C) 2015 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 "AudioGain" //#define LOG_NDEBUG 0 //#define VERY_VERBOSE_LOGGING #ifdef VERY_VERBOSE_LOGGING #define ALOGVV ALOGV #else #define ALOGVV(a...) do { } while(0) #endif #include #include #include #include #include namespace android { AudioGain::AudioGain(int index, bool useInChannelMask) { mIndex = index; mUseInChannelMask = useInChannelMask; memset(&mGain, 0, sizeof(struct audio_gain)); } void AudioGain::getDefaultConfig(struct audio_gain_config *config) { config->index = mIndex; config->mode = mGain.mode; config->channel_mask = mGain.channel_mask; if ((mGain.mode & AUDIO_GAIN_MODE_JOINT) == AUDIO_GAIN_MODE_JOINT) { config->values[0] = mGain.default_value; } else { uint32_t numValues; if (mUseInChannelMask) { numValues = audio_channel_count_from_in_mask(mGain.channel_mask); } else { numValues = audio_channel_count_from_out_mask(mGain.channel_mask); } for (size_t i = 0; i < numValues; i++) { config->values[i] = mGain.default_value; } } if ((mGain.mode & AUDIO_GAIN_MODE_RAMP) == AUDIO_GAIN_MODE_RAMP) { config->ramp_duration_ms = mGain.min_ramp_ms; } } status_t AudioGain::checkConfig(const struct audio_gain_config *config) { if ((config->mode & ~mGain.mode) != 0) { return BAD_VALUE; } if ((config->mode & AUDIO_GAIN_MODE_JOINT) == AUDIO_GAIN_MODE_JOINT) { if ((config->values[0] < mGain.min_value) || (config->values[0] > mGain.max_value)) { return BAD_VALUE; } } else { if ((config->channel_mask & ~mGain.channel_mask) != 0) { return BAD_VALUE; } uint32_t numValues; if (mUseInChannelMask) { numValues = audio_channel_count_from_in_mask(config->channel_mask); } else { numValues = audio_channel_count_from_out_mask(config->channel_mask); } for (size_t i = 0; i < numValues; i++) { if ((config->values[i] < mGain.min_value) || (config->values[i] > mGain.max_value)) { return BAD_VALUE; } } } if ((config->mode & AUDIO_GAIN_MODE_RAMP) == AUDIO_GAIN_MODE_RAMP) { if ((config->ramp_duration_ms < mGain.min_ramp_ms) || (config->ramp_duration_ms > mGain.max_ramp_ms)) { return BAD_VALUE; } } return NO_ERROR; } void AudioGain::dump(std::string *dst, int spaces, int index) const { dst->append(base::StringPrintf("%*sGain %d:\n", spaces, "", index+1)); dst->append(base::StringPrintf("%*s- mode: %08x\n", spaces, "", mGain.mode)); dst->append(base::StringPrintf("%*s- channel_mask: %08x\n", spaces, "", mGain.channel_mask)); dst->append(base::StringPrintf("%*s- min_value: %d mB\n", spaces, "", mGain.min_value)); dst->append(base::StringPrintf("%*s- max_value: %d mB\n", spaces, "", mGain.max_value)); dst->append(base::StringPrintf("%*s- default_value: %d mB\n", spaces, "", mGain.default_value)); dst->append(base::StringPrintf("%*s- step_value: %d mB\n", spaces, "", mGain.step_value)); dst->append(base::StringPrintf("%*s- min_ramp_ms: %d ms\n", spaces, "", mGain.min_ramp_ms)); dst->append(base::StringPrintf("%*s- max_ramp_ms: %d ms\n", spaces, "", mGain.max_ramp_ms)); } bool AudioGain::equals(const sp& other) const { return other != nullptr && mUseInChannelMask == other->mUseInChannelMask && mUseForVolume == other->mUseForVolume && // Compare audio gain mGain.mode == other->mGain.mode && mGain.channel_mask == other->mGain.channel_mask && mGain.min_value == other->mGain.min_value && mGain.max_value == other->mGain.max_value && mGain.default_value == other->mGain.default_value && mGain.step_value == other->mGain.step_value && mGain.min_ramp_ms == other->mGain.min_ramp_ms && mGain.max_ramp_ms == other->mGain.max_ramp_ms; } status_t AudioGain::writeToParcel(android::Parcel *parcel) const { media::AudioGain parcelable; return writeToParcelable(&parcelable) ?: parcelable.writeToParcel(parcel); } status_t AudioGain::writeToParcelable(media::AudioGain* parcelable) const { parcelable->index = VALUE_OR_RETURN_STATUS(convertIntegral(mIndex)); parcelable->useInChannelMask = mUseInChannelMask; parcelable->useForVolume = mUseForVolume; parcelable->mode = VALUE_OR_RETURN_STATUS( legacy2aidl_audio_gain_mode_t_int32_t_mask(mGain.mode)); parcelable->channelMask = VALUE_OR_RETURN_STATUS( legacy2aidl_audio_channel_mask_t_int32_t(mGain.channel_mask)); parcelable->minValue = VALUE_OR_RETURN_STATUS(convertIntegral(mGain.min_value)); parcelable->maxValue = VALUE_OR_RETURN_STATUS(convertIntegral(mGain.max_value)); parcelable->defaultValue = VALUE_OR_RETURN_STATUS( convertIntegral(mGain.default_value)); parcelable->stepValue = VALUE_OR_RETURN_STATUS(convertIntegral(mGain.step_value)); parcelable->minRampMs = VALUE_OR_RETURN_STATUS(convertIntegral(mGain.min_ramp_ms)); parcelable->maxRampMs = VALUE_OR_RETURN_STATUS(convertIntegral(mGain.max_ramp_ms)); return OK; } status_t AudioGain::readFromParcel(const android::Parcel *parcel) { media::AudioGain parcelable; return parcelable.readFromParcel(parcel) ?: readFromParcelable(parcelable); } status_t AudioGain::readFromParcelable(const media::AudioGain& parcelable) { mIndex = VALUE_OR_RETURN_STATUS(convertIntegral(parcelable.index)); mUseInChannelMask = parcelable.useInChannelMask; mUseForVolume = parcelable.useForVolume; mGain.mode = VALUE_OR_RETURN_STATUS( aidl2legacy_int32_t_audio_gain_mode_t_mask(parcelable.mode)); mGain.channel_mask = VALUE_OR_RETURN_STATUS( aidl2legacy_int32_t_audio_channel_mask_t(parcelable.channelMask)); mGain.min_value = VALUE_OR_RETURN_STATUS(convertIntegral(parcelable.minValue)); mGain.max_value = VALUE_OR_RETURN_STATUS(convertIntegral(parcelable.maxValue)); mGain.default_value = VALUE_OR_RETURN_STATUS(convertIntegral(parcelable.defaultValue)); mGain.step_value = VALUE_OR_RETURN_STATUS(convertIntegral(parcelable.stepValue)); mGain.min_ramp_ms = VALUE_OR_RETURN_STATUS(convertIntegral(parcelable.minRampMs)); mGain.max_ramp_ms = VALUE_OR_RETURN_STATUS(convertIntegral(parcelable.maxRampMs)); return OK; } bool AudioGains::equals(const AudioGains &other) const { return std::equal(begin(), end(), other.begin(), other.end(), [](const sp& left, const sp& right) { return left->equals(right); }); } status_t AudioGains::writeToParcel(android::Parcel *parcel) const { status_t status = NO_ERROR; if ((status = parcel->writeVectorSize(*this)) != NO_ERROR) return status; for (const auto &audioGain : *this) { if ((status = parcel->writeParcelable(*audioGain)) != NO_ERROR) { break; } } return status; } status_t AudioGains::readFromParcel(const android::Parcel *parcel) { status_t status = NO_ERROR; this->clear(); if ((status = parcel->resizeOutVector(this)) != NO_ERROR) return status; for (size_t i = 0; i < this->size(); i++) { this->at(i) = new AudioGain(0, false); if ((status = parcel->readParcelable(this->at(i).get())) != NO_ERROR) { this->clear(); break; } } return status; } ConversionResult> aidl2legacy_AudioGain(const media::AudioGain& aidl) { sp legacy = new AudioGain(0, false); status_t status = legacy->readFromParcelable(aidl); if (status != OK) { return base::unexpected(status); } return legacy; } ConversionResult legacy2aidl_AudioGain(const sp& legacy) { media::AudioGain aidl; status_t status = legacy->writeToParcelable(&aidl); if (status != OK) { return base::unexpected(status); } return aidl; } ConversionResult aidl2legacy_AudioGains(const std::vector& aidl) { return convertContainer(aidl, aidl2legacy_AudioGain); } ConversionResult> legacy2aidl_AudioGains(const AudioGains& legacy) { return convertContainer>(legacy, legacy2aidl_AudioGain); } } // namespace android