1
0
mirror of https://github.com/yurisieucuti/treble_evolution.git synced 2024-11-24 13:16:19 +00:00
treble_evolution/bluetooth/audio/utils/session/BluetoothAudioSupportedCodecsDB.cpp
2024-03-10 06:48:11 +00:00

416 lines
17 KiB
C++

/*
* Copyright 2018 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 "BTAudioProviderSessionCodecsDB"
#include "BluetoothAudioSupportedCodecsDB.h"
#include <android-base/logging.h>
namespace android {
namespace bluetooth {
namespace audio {
using ::android::hardware::bluetooth::audio::V2_0::AacObjectType;
using ::android::hardware::bluetooth::audio::V2_0::AacParameters;
using ::android::hardware::bluetooth::audio::V2_0::AacVariableBitRate;
using ::android::hardware::bluetooth::audio::V2_0::AptxParameters;
using ::android::hardware::bluetooth::audio::V2_0::BitsPerSample;
using ::android::hardware::bluetooth::audio::V2_0::ChannelMode;
using ::android::hardware::bluetooth::audio::V2_0::CodecType;
using ::android::hardware::bluetooth::audio::V2_0::LdacChannelMode;
using ::android::hardware::bluetooth::audio::V2_0::LdacParameters;
using ::android::hardware::bluetooth::audio::V2_0::LdacQualityIndex;
using ::android::hardware::bluetooth::audio::V2_0::SampleRate;
using ::android::hardware::bluetooth::audio::V2_0::SbcAllocMethod;
using ::android::hardware::bluetooth::audio::V2_0::SbcBlockLength;
using ::android::hardware::bluetooth::audio::V2_0::SbcChannelMode;
using ::android::hardware::bluetooth::audio::V2_0::SbcNumSubbands;
using ::android::hardware::bluetooth::audio::V2_0::SbcParameters;
// Default Supported PCM Parameters
static const PcmParameters kDefaultSoftwarePcmCapabilities = {
.sampleRate = static_cast<SampleRate>(
SampleRate::RATE_44100 | SampleRate::RATE_48000 |
SampleRate::RATE_88200 | SampleRate::RATE_96000 |
SampleRate::RATE_16000 | SampleRate::RATE_24000),
.channelMode =
static_cast<ChannelMode>(ChannelMode::MONO | ChannelMode::STEREO),
.bitsPerSample = static_cast<BitsPerSample>(BitsPerSample::BITS_16 |
BitsPerSample::BITS_24 |
BitsPerSample::BITS_32)};
// Default Supported Codecs
// SBC: mSampleRate:(44100), mBitsPerSample:(16), mChannelMode:(MONO|STEREO)
// all blocks | subbands 8 | Loudness
static const SbcParameters kDefaultOffloadSbcCapability = {
.sampleRate = SampleRate::RATE_44100,
.channelMode = static_cast<SbcChannelMode>(SbcChannelMode::MONO |
SbcChannelMode::JOINT_STEREO),
.blockLength = static_cast<SbcBlockLength>(
SbcBlockLength::BLOCKS_4 | SbcBlockLength::BLOCKS_8 |
SbcBlockLength::BLOCKS_12 | SbcBlockLength::BLOCKS_16),
.numSubbands = SbcNumSubbands::SUBBAND_8,
.allocMethod = SbcAllocMethod::ALLOC_MD_L,
.bitsPerSample = BitsPerSample::BITS_16,
.minBitpool = 2,
.maxBitpool = 53};
// AAC: mSampleRate:(44100), mBitsPerSample:(16), mChannelMode:(STEREO)
static const AacParameters kDefaultOffloadAacCapability = {
.objectType = AacObjectType::MPEG2_LC,
.sampleRate = SampleRate::RATE_44100,
.channelMode = ChannelMode::STEREO,
.variableBitRateEnabled = AacVariableBitRate::ENABLED,
.bitsPerSample = BitsPerSample::BITS_16};
// LDAC: mSampleRate:(44100|48000|88200|96000), mBitsPerSample:(16|24|32),
// mChannelMode:(DUAL|STEREO)
static const LdacParameters kDefaultOffloadLdacCapability = {
.sampleRate = static_cast<SampleRate>(
SampleRate::RATE_44100 | SampleRate::RATE_48000 |
SampleRate::RATE_88200 | SampleRate::RATE_96000),
.channelMode = static_cast<LdacChannelMode>(LdacChannelMode::DUAL |
LdacChannelMode::STEREO),
.qualityIndex = LdacQualityIndex::QUALITY_HIGH,
.bitsPerSample = static_cast<BitsPerSample>(BitsPerSample::BITS_16 |
BitsPerSample::BITS_24 |
BitsPerSample::BITS_32)};
// aptX: mSampleRate:(44100|48000), mBitsPerSample:(16), mChannelMode:(STEREO)
static const AptxParameters kDefaultOffloadAptxCapability = {
.sampleRate = static_cast<SampleRate>(SampleRate::RATE_44100 |
SampleRate::RATE_48000),
.channelMode = ChannelMode::STEREO,
.bitsPerSample = BitsPerSample::BITS_16,
};
// aptX HD: mSampleRate:(44100|48000), mBitsPerSample:(24),
// mChannelMode:(STEREO)
static const AptxParameters kDefaultOffloadAptxHdCapability = {
.sampleRate = static_cast<SampleRate>(SampleRate::RATE_44100 |
SampleRate::RATE_48000),
.channelMode = ChannelMode::STEREO,
.bitsPerSample = BitsPerSample::BITS_24,
};
const std::vector<CodecCapabilities> kDefaultOffloadA2dpCodecCapabilities = {
{.codecType = CodecType::SBC, .capabilities = {}},
{.codecType = CodecType::AAC, .capabilities = {}},
{.codecType = CodecType::LDAC, .capabilities = {}},
{.codecType = CodecType::APTX, .capabilities = {}},
{.codecType = CodecType::APTX_HD, .capabilities = {}}};
static bool IsSingleBit(uint32_t bitmasks, uint32_t bitfield) {
bool single = false;
uint32_t test_bit = 0x00000001;
while (test_bit <= bitmasks && test_bit <= bitfield) {
if (bitfield & test_bit && bitmasks & test_bit) {
if (single) return false;
single = true;
}
if (test_bit == 0x80000000) break;
test_bit <<= 1;
}
return single;
}
static bool IsOffloadSbcConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific);
static bool IsOffloadAacConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific);
static bool IsOffloadLdacConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific);
static bool IsOffloadAptxConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific);
static bool IsOffloadAptxHdConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific);
static bool IsOffloadSbcConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific) {
if (codec_specific.getDiscriminator() !=
CodecConfiguration::CodecSpecific::hidl_discriminator::sbcConfig) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
}
const SbcParameters sbc_data = codec_specific.sbcConfig();
if (!IsSingleBit(static_cast<uint32_t>(sbc_data.sampleRate), 0xff) ||
!IsSingleBit(static_cast<uint32_t>(sbc_data.channelMode), 0x0f) ||
!IsSingleBit(static_cast<uint32_t>(sbc_data.blockLength), 0xf0) ||
!IsSingleBit(static_cast<uint32_t>(sbc_data.numSubbands), 0x0c) ||
!IsSingleBit(static_cast<uint32_t>(sbc_data.allocMethod), 0x03) ||
!IsSingleBit(static_cast<uint32_t>(sbc_data.bitsPerSample), 0x07) ||
sbc_data.minBitpool > sbc_data.maxBitpool) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
} else if ((sbc_data.sampleRate & kDefaultOffloadSbcCapability.sampleRate) &&
(sbc_data.channelMode &
kDefaultOffloadSbcCapability.channelMode) &&
(sbc_data.blockLength &
kDefaultOffloadSbcCapability.blockLength) &&
(sbc_data.numSubbands &
kDefaultOffloadSbcCapability.numSubbands) &&
(sbc_data.allocMethod &
kDefaultOffloadSbcCapability.allocMethod) &&
(sbc_data.bitsPerSample &
kDefaultOffloadSbcCapability.bitsPerSample) &&
(kDefaultOffloadSbcCapability.minBitpool <= sbc_data.minBitpool &&
sbc_data.maxBitpool <= kDefaultOffloadSbcCapability.maxBitpool)) {
return true;
}
LOG(WARNING) << __func__
<< ": Unsupported CodecSpecific=" << toString(codec_specific);
return false;
}
static bool IsOffloadAacConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific) {
if (codec_specific.getDiscriminator() !=
CodecConfiguration::CodecSpecific::hidl_discriminator::aacConfig) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
}
const AacParameters aac_data = codec_specific.aacConfig();
if (!IsSingleBit(static_cast<uint32_t>(aac_data.objectType), 0xf0) ||
!IsSingleBit(static_cast<uint32_t>(aac_data.sampleRate), 0xff) ||
!IsSingleBit(static_cast<uint32_t>(aac_data.channelMode), 0x03) ||
!IsSingleBit(static_cast<uint32_t>(aac_data.bitsPerSample), 0x07)) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
} else if ((aac_data.objectType & kDefaultOffloadAacCapability.objectType) &&
(aac_data.sampleRate & kDefaultOffloadAacCapability.sampleRate) &&
(aac_data.channelMode &
kDefaultOffloadAacCapability.channelMode) &&
(aac_data.variableBitRateEnabled == AacVariableBitRate::DISABLED ||
kDefaultOffloadAacCapability.variableBitRateEnabled ==
AacVariableBitRate::ENABLED) &&
(aac_data.bitsPerSample &
kDefaultOffloadAacCapability.bitsPerSample)) {
return true;
}
LOG(WARNING) << __func__
<< ": Unsupported CodecSpecific=" << toString(codec_specific);
return false;
}
static bool IsOffloadLdacConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific) {
if (codec_specific.getDiscriminator() !=
CodecConfiguration::CodecSpecific::hidl_discriminator::ldacConfig) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
}
const LdacParameters ldac_data = codec_specific.ldacConfig();
if (!IsSingleBit(static_cast<uint32_t>(ldac_data.sampleRate), 0xff) ||
!IsSingleBit(static_cast<uint32_t>(ldac_data.channelMode), 0x07) ||
(ldac_data.qualityIndex > LdacQualityIndex::QUALITY_LOW &&
ldac_data.qualityIndex != LdacQualityIndex::QUALITY_ABR) ||
!IsSingleBit(static_cast<uint32_t>(ldac_data.bitsPerSample), 0x07)) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
} else if ((ldac_data.sampleRate &
kDefaultOffloadLdacCapability.sampleRate) &&
(ldac_data.channelMode &
kDefaultOffloadLdacCapability.channelMode) &&
(ldac_data.bitsPerSample &
kDefaultOffloadLdacCapability.bitsPerSample)) {
return true;
}
LOG(WARNING) << __func__
<< ": Unsupported CodecSpecific=" << toString(codec_specific);
return false;
}
static bool IsOffloadAptxConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific) {
if (codec_specific.getDiscriminator() !=
CodecConfiguration::CodecSpecific::hidl_discriminator::aptxConfig) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
}
const AptxParameters aptx_data = codec_specific.aptxConfig();
if (!IsSingleBit(static_cast<uint32_t>(aptx_data.sampleRate), 0xff) ||
!IsSingleBit(static_cast<uint32_t>(aptx_data.channelMode), 0x03) ||
!IsSingleBit(static_cast<uint32_t>(aptx_data.bitsPerSample), 0x07)) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
} else if ((aptx_data.sampleRate &
kDefaultOffloadAptxCapability.sampleRate) &&
(aptx_data.channelMode &
kDefaultOffloadAptxCapability.channelMode) &&
(aptx_data.bitsPerSample &
kDefaultOffloadAptxCapability.bitsPerSample)) {
return true;
}
LOG(WARNING) << __func__
<< ": Unsupported CodecSpecific=" << toString(codec_specific);
return false;
}
static bool IsOffloadAptxHdConfigurationValid(
const CodecConfiguration::CodecSpecific& codec_specific) {
if (codec_specific.getDiscriminator() !=
CodecConfiguration::CodecSpecific::hidl_discriminator::aptxConfig) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
}
const AptxParameters aptx_data = codec_specific.aptxConfig();
if (!IsSingleBit(static_cast<uint32_t>(aptx_data.sampleRate), 0xff) ||
!IsSingleBit(static_cast<uint32_t>(aptx_data.channelMode), 0x03) ||
!IsSingleBit(static_cast<uint32_t>(aptx_data.bitsPerSample), 0x07)) {
LOG(WARNING) << __func__
<< ": Invalid CodecSpecific=" << toString(codec_specific);
return false;
} else if ((aptx_data.sampleRate &
kDefaultOffloadAptxHdCapability.sampleRate) &&
(aptx_data.channelMode &
kDefaultOffloadAptxHdCapability.channelMode) &&
(aptx_data.bitsPerSample &
kDefaultOffloadAptxHdCapability.bitsPerSample)) {
return true;
}
LOG(WARNING) << __func__
<< ": Unsupported CodecSpecific=" << toString(codec_specific);
return false;
}
std::vector<PcmParameters> GetSoftwarePcmCapabilities() {
return std::vector<PcmParameters>(1, kDefaultSoftwarePcmCapabilities);
}
std::vector<CodecCapabilities> GetOffloadCodecCapabilities(
const SessionType& session_type) {
if (session_type != SessionType::A2DP_HARDWARE_OFFLOAD_DATAPATH) {
return std::vector<CodecCapabilities>(0);
}
std::vector<CodecCapabilities> offload_a2dp_codec_capabilities =
kDefaultOffloadA2dpCodecCapabilities;
for (auto& codec_capability : offload_a2dp_codec_capabilities) {
switch (codec_capability.codecType) {
case CodecType::SBC:
codec_capability.capabilities.sbcCapabilities(
kDefaultOffloadSbcCapability);
break;
case CodecType::AAC:
codec_capability.capabilities.aacCapabilities(
kDefaultOffloadAacCapability);
break;
case CodecType::LDAC:
codec_capability.capabilities.ldacCapabilities(
kDefaultOffloadLdacCapability);
break;
case CodecType::APTX:
codec_capability.capabilities.aptxCapabilities(
kDefaultOffloadAptxCapability);
break;
case CodecType::APTX_HD:
codec_capability.capabilities.aptxCapabilities(
kDefaultOffloadAptxHdCapability);
break;
case CodecType::UNKNOWN:
codec_capability = {};
break;
}
}
return offload_a2dp_codec_capabilities;
}
bool IsSoftwarePcmConfigurationValid(const PcmParameters& pcm_config) {
if ((pcm_config.sampleRate != SampleRate::RATE_44100 &&
pcm_config.sampleRate != SampleRate::RATE_48000 &&
pcm_config.sampleRate != SampleRate::RATE_88200 &&
pcm_config.sampleRate != SampleRate::RATE_96000 &&
pcm_config.sampleRate != SampleRate::RATE_16000 &&
pcm_config.sampleRate != SampleRate::RATE_24000) ||
(pcm_config.bitsPerSample != BitsPerSample::BITS_16 &&
pcm_config.bitsPerSample != BitsPerSample::BITS_24 &&
pcm_config.bitsPerSample != BitsPerSample::BITS_32) ||
(pcm_config.channelMode != ChannelMode::MONO &&
pcm_config.channelMode != ChannelMode::STEREO)) {
LOG(WARNING) << __func__
<< ": Invalid PCM Configuration=" << toString(pcm_config);
return false;
} else if (pcm_config.sampleRate &
kDefaultSoftwarePcmCapabilities.sampleRate &&
pcm_config.bitsPerSample &
kDefaultSoftwarePcmCapabilities.bitsPerSample &&
pcm_config.channelMode &
kDefaultSoftwarePcmCapabilities.channelMode) {
return true;
}
LOG(WARNING) << __func__
<< ": Unsupported PCM Configuration=" << toString(pcm_config);
return false;
}
bool IsOffloadCodecConfigurationValid(const SessionType& session_type,
const CodecConfiguration& codec_config) {
if (session_type != SessionType::A2DP_HARDWARE_OFFLOAD_DATAPATH) {
LOG(ERROR) << __func__
<< ": Invalid SessionType=" << toString(session_type);
return false;
} else if (codec_config.encodedAudioBitrate < 0x00000001 ||
0x00ffffff < codec_config.encodedAudioBitrate) {
LOG(ERROR) << __func__ << ": Unsupported Codec Configuration="
<< toString(codec_config);
return false;
}
const CodecConfiguration::CodecSpecific& codec_specific = codec_config.config;
switch (codec_config.codecType) {
case CodecType::SBC:
if (IsOffloadSbcConfigurationValid(codec_specific)) {
return true;
}
return false;
case CodecType::AAC:
if (IsOffloadAacConfigurationValid(codec_specific)) {
return true;
}
return false;
case CodecType::LDAC:
if (IsOffloadLdacConfigurationValid(codec_specific)) {
return true;
}
return false;
case CodecType::APTX:
if (IsOffloadAptxConfigurationValid(codec_specific)) {
return true;
}
return false;
case CodecType::APTX_HD:
if (IsOffloadAptxHdConfigurationValid(codec_specific)) {
return true;
}
return false;
case CodecType::UNKNOWN:
return false;
}
return false;
}
} // namespace audio
} // namespace bluetooth
} // namespace android