/*
* Copyright (C) 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.
*/
#ifndef ANDROID_MICROPHONE_INFO_H
#define ANDROID_MICROPHONE_INFO_H
#include <binder/Parcel.h>
#include <binder/Parcelable.h>
#include <system/audio.h>
#include <utils/String16.h>
#include <utils/Vector.h>
namespace android {
namespace media {
#define RETURN_IF_FAILED(calledOnce) \
{ \
status_t returnStatus = calledOnce; \
if (returnStatus) { \
ALOGE("Failed at %s:%d (%s)", __FILE__, __LINE__, __func__); \
return returnStatus; \
} \
}
class MicrophoneInfo : public Parcelable {
public:
MicrophoneInfo() = default;
MicrophoneInfo(const MicrophoneInfo& microphoneInfo) = default;
MicrophoneInfo(audio_microphone_characteristic_t& characteristic) {
mDeviceId = String16(&characteristic.device_id[0]);
mPortId = characteristic.id;
mType = characteristic.device;
mAddress = String16(&characteristic.address[0]);
mDeviceLocation = characteristic.location;
mDeviceGroup = characteristic.group;
mIndexInTheGroup = characteristic.index_in_the_group;
mGeometricLocation.push_back(characteristic.geometric_location.x);
mGeometricLocation.push_back(characteristic.geometric_location.y);
mGeometricLocation.push_back(characteristic.geometric_location.z);
mOrientation.push_back(characteristic.orientation.x);
mOrientation.push_back(characteristic.orientation.y);
mOrientation.push_back(characteristic.orientation.z);
Vector<float> frequencies;
Vector<float> responses;
for (size_t i = 0; i < characteristic.num_frequency_responses; i++) {
frequencies.push_back(characteristic.frequency_responses[0][i]);
responses.push_back(characteristic.frequency_responses[1][i]);
}
mFrequencyResponses.push_back(frequencies);
mFrequencyResponses.push_back(responses);
for (size_t i = 0; i < AUDIO_CHANNEL_COUNT_MAX; i++) {
mChannelMapping.push_back(characteristic.channel_mapping[i]);
}
mSensitivity = characteristic.sensitivity;
mMaxSpl = characteristic.max_spl;
mMinSpl = characteristic.min_spl;
mDirectionality = characteristic.directionality;
}
virtual ~MicrophoneInfo() = default;
virtual status_t writeToParcel(Parcel* parcel) const {
RETURN_IF_FAILED(parcel->writeString16(mDeviceId));
RETURN_IF_FAILED(parcel->writeInt32(mPortId));
RETURN_IF_FAILED(parcel->writeUint32(mType));
RETURN_IF_FAILED(parcel->writeString16(mAddress));
RETURN_IF_FAILED(parcel->writeInt32(mDeviceLocation));
RETURN_IF_FAILED(parcel->writeInt32(mDeviceGroup));
RETURN_IF_FAILED(parcel->writeInt32(mIndexInTheGroup));
RETURN_IF_FAILED(writeFloatVector(parcel, mGeometricLocation));
RETURN_IF_FAILED(writeFloatVector(parcel, mOrientation));
if (mFrequencyResponses.size() != 2) {
return BAD_VALUE;
}
for (size_t i = 0; i < mFrequencyResponses.size(); i++) {
RETURN_IF_FAILED(parcel->writeInt32(mFrequencyResponses[i].size()));
RETURN_IF_FAILED(writeFloatVector(parcel, mFrequencyResponses[i]));
}
std::vector<int> channelMapping;
for (size_t i = 0; i < mChannelMapping.size(); ++i) {
channelMapping.push_back(mChannelMapping[i]);
}
RETURN_IF_FAILED(parcel->writeInt32Vector(channelMapping));
RETURN_IF_FAILED(parcel->writeFloat(mSensitivity));
RETURN_IF_FAILED(parcel->writeFloat(mMaxSpl));
RETURN_IF_FAILED(parcel->writeFloat(mMinSpl));
RETURN_IF_FAILED(parcel->writeInt32(mDirectionality));
return OK;
}
virtual status_t readFromParcel(const Parcel* parcel) {
RETURN_IF_FAILED(parcel->readString16(&mDeviceId));
RETURN_IF_FAILED(parcel->readInt32(&mPortId));
RETURN_IF_FAILED(parcel->readUint32(&mType));
RETURN_IF_FAILED(parcel->readString16(&mAddress));
RETURN_IF_FAILED(parcel->readInt32(&mDeviceLocation));
RETURN_IF_FAILED(parcel->readInt32(&mDeviceGroup));
RETURN_IF_FAILED(parcel->readInt32(&mIndexInTheGroup));
RETURN_IF_FAILED(readFloatVector(parcel, &mGeometricLocation, 3));
RETURN_IF_FAILED(readFloatVector(parcel, &mOrientation, 3));
int32_t frequenciesNum;
RETURN_IF_FAILED(parcel->readInt32(&frequenciesNum));
Vector<float> frequencies;
RETURN_IF_FAILED(readFloatVector(parcel, &frequencies, frequenciesNum));
int32_t responsesNum;
RETURN_IF_FAILED(parcel->readInt32(&responsesNum));
Vector<float> responses;
RETURN_IF_FAILED(readFloatVector(parcel, &responses, responsesNum));
if (frequencies.size() != responses.size()) {
return BAD_VALUE;
}
mFrequencyResponses.push_back(frequencies);
mFrequencyResponses.push_back(responses);
std::vector<int> channelMapping;
status_t result = parcel->readInt32Vector(&channelMapping);
if (result != OK) {
return result;
}
if (channelMapping.size() != AUDIO_CHANNEL_COUNT_MAX) {
return BAD_VALUE;
}
for (size_t i = 0; i < channelMapping.size(); i++) {
mChannelMapping.push_back(channelMapping[i]);
}
RETURN_IF_FAILED(parcel->readFloat(&mSensitivity));
RETURN_IF_FAILED(parcel->readFloat(&mMaxSpl));
RETURN_IF_FAILED(parcel->readFloat(&mMinSpl));
RETURN_IF_FAILED(parcel->readInt32(&mDirectionality));
return OK;
}
String16 getDeviceId() const {
return mDeviceId;
}
int getPortId() const {
return mPortId;
}
unsigned int getType() const {
return mType;
}
String16 getAddress() const {
return mAddress;
}
int getDeviceLocation() const {
return mDeviceLocation;
}
int getDeviceGroup() const {
return mDeviceGroup;
}
int getIndexInTheGroup() const {
return mIndexInTheGroup;
}
const Vector<float>& getGeometricLocation() const {
return mGeometricLocation;
}
const Vector<float>& getOrientation() const {
return mOrientation;
}
const Vector<Vector<float>>& getFrequencyResponses() const {
return mFrequencyResponses;
}
const Vector<int>& getChannelMapping() const {
return mChannelMapping;
}
float getSensitivity() const {
return mSensitivity;
}
float getMaxSpl() const {
return mMaxSpl;
}
float getMinSpl() const {
return mMinSpl;
}
int getDirectionality() const {
return mDirectionality;
}
private:
status_t readFloatVector(
const Parcel* parcel, Vector<float> *vectorPtr, size_t defaultLength) {
std::unique_ptr<std::vector<float>> v;
status_t result = parcel->readFloatVector(&v);
if (result != OK) return result;
vectorPtr->clear();
if (v.get() != nullptr) {
for (const auto& iter : *v) {
vectorPtr->push_back(iter);
}
} else {
vectorPtr->resize(defaultLength);
}
return OK;
}
status_t writeFloatVector(Parcel* parcel, const Vector<float>& vector) const {
std::vector<float> v;
for (size_t i = 0; i < vector.size(); i++) {
v.push_back(vector[i]);
}
return parcel->writeFloatVector(v);
}
String16 mDeviceId;
int32_t mPortId;
uint32_t mType;
String16 mAddress;
int32_t mDeviceLocation;
int32_t mDeviceGroup;
int32_t mIndexInTheGroup;
Vector<float> mGeometricLocation;
Vector<float> mOrientation;
Vector<Vector<float>> mFrequencyResponses;
Vector<int> mChannelMapping;
float mSensitivity;
float mMaxSpl;
float mMinSpl;
int32_t mDirectionality;
};
} // namespace media
} // namespace android
#endif