Gitiles
Code Review Sign In
gerrit.omnirom.org / android_frameworks_av / d2ea2c040d7c2429f42bf0c740e515949ab02c1c / . / services / camera / virtualcamera / util / MetadataBuilder.cc
blob: 5669e124a8279680bfc6ae0ee4ddc7c329fa2395 [file] [log] [blame]
/*
* Copyright 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.
*/
// #define LOG_NDEBUG 0
#define LOG_TAG "MetadataBuilder"
#include "MetadataBuilder.h"
#include <algorithm>
#include <cstdint>
#include <iterator>
#include <memory>
#include <utility>
#include <variant>
#include <vector>
#include "CameraMetadata.h"
#include "aidl/android/hardware/camera/device/CameraMetadata.h"
#include "log/log.h"
#include "system/camera_metadata.h"
#include "util/Util.h"
#include "utils/Errors.h"
namespace android {
namespace companion {
namespace virtualcamera {
namespace {
using ::android::hardware::camera::common::helper::CameraMetadata;
template <typename To, typename From>
std::vector<To> convertTo(const std::vector<From>& from) {
std::vector<To> to;
to.reserve(from.size());
std::transform(from.begin(), from.end(), std::back_inserter(to),
[](const From& x) { return static_cast<To>(x); });
return to;
}
template <typename To, typename From>
std::vector<To> asVectorOf(const From from) {
return std::vector<To>({static_cast<To>(from)});
}
} // namespace
MetadataBuilder& MetadataBuilder::setSupportedHardwareLevel(
camera_metadata_enum_android_info_supported_hardware_level_t hwLevel) {
mEntryMap[ANDROID_INFO_SUPPORTED_HARDWARE_LEVEL] =
asVectorOf<uint8_t>(hwLevel);
return *this;
}
MetadataBuilder& MetadataBuilder::setFlashAvailable(bool flashAvailable) {
const uint8_t metadataVal = flashAvailable
? ANDROID_FLASH_INFO_AVAILABLE_TRUE
: ANDROID_FLASH_INFO_AVAILABLE_FALSE;
mEntryMap[ANDROID_FLASH_INFO_AVAILABLE] = asVectorOf<uint8_t>(metadataVal);
return *this;
}
MetadataBuilder& MetadataBuilder::setFlashState(
const camera_metadata_enum_android_flash_state_t flashState) {
mEntryMap[ANDROID_FLASH_STATE] = asVectorOf<uint8_t>(flashState);
return *this;
}
MetadataBuilder& MetadataBuilder::setFlashMode(
const camera_metadata_enum_android_flash_mode_t flashMode) {
mEntryMap[ANDROID_FLASH_MODE] = asVectorOf<uint8_t>(flashMode);
return *this;
}
MetadataBuilder& MetadataBuilder::setLensFacing(
camera_metadata_enum_android_lens_facing lensFacing) {
mEntryMap[ANDROID_LENS_FACING] = asVectorOf<uint8_t>(lensFacing);
return *this;
}
MetadataBuilder& MetadataBuilder::setSensorReadoutTimestamp(
const camera_metadata_enum_android_sensor_readout_timestamp_t
sensorReadoutTimestamp) {
mEntryMap[ANDROID_SENSOR_READOUT_TIMESTAMP] =
asVectorOf<uint8_t>(sensorReadoutTimestamp);
return *this;
}
MetadataBuilder& MetadataBuilder::setFocalLength(float focalLength) {
std::vector<float> focalLengths({focalLength});
mEntryMap[ANDROID_LENS_FOCAL_LENGTH] = focalLengths;
mEntryMap[ANDROID_LENS_INFO_AVAILABLE_FOCAL_LENGTHS] = focalLengths;
return *this;
}
MetadataBuilder& MetadataBuilder::setSensorOrientation(int32_t sensorOrientation) {
mEntryMap[ANDROID_SENSOR_ORIENTATION] = asVectorOf<int32_t>(sensorOrientation);
return *this;
}
MetadataBuilder& MetadataBuilder::setSensorTimestampSource(
const camera_metadata_enum_android_sensor_info_timestamp_source_t
timestampSource) {
mEntryMap[ANDROID_SENSOR_INFO_TIMESTAMP_SOURCE] =
asVectorOf<uint8_t>(timestampSource);
return *this;
}
MetadataBuilder& MetadataBuilder::setSensorTimestamp(
std::chrono::nanoseconds timestamp) {
mEntryMap[ANDROID_SENSOR_TIMESTAMP] = asVectorOf<int64_t>(timestamp.count());
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableFaceDetectModes(
const std::vector<camera_metadata_enum_android_statistics_face_detect_mode_t>&
faceDetectModes) {
mEntryMap[ANDROID_STATISTICS_INFO_AVAILABLE_FACE_DETECT_MODES] =
convertTo<uint8_t>(faceDetectModes);
return *this;
}
MetadataBuilder& MetadataBuilder::setFaceDetectMode(
const camera_metadata_enum_android_statistics_face_detect_mode_t
faceDetectMode) {
mEntryMap[ANDROID_STATISTICS_FACE_DETECT_MODE] =
asVectorOf<uint8_t>(faceDetectMode);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAvailableModes(
const std::vector<camera_metadata_enum_android_control_mode_t>&
availableModes) {
mEntryMap[ANDROID_CONTROL_AVAILABLE_MODES] =
convertTo<uint8_t>(availableModes);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlMode(
const camera_metadata_enum_android_control_mode_t mode) {
mEntryMap[ANDROID_CONTROL_MODE] = asVectorOf<uint8_t>(mode);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAvailableSceneModes(
const std::vector<camera_metadata_enum_android_control_scene_mode>&
availableSceneModes) {
mEntryMap[ANDROID_CONTROL_AVAILABLE_SCENE_MODES] =
convertTo<uint8_t>(availableSceneModes);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAvailableEffects(
const std::vector<camera_metadata_enum_android_control_effect_mode>&
availableEffects) {
mEntryMap[ANDROID_CONTROL_AVAILABLE_EFFECTS] =
convertTo<uint8_t>(availableEffects);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAfAvailableModes(
const std::vector<camera_metadata_enum_android_control_af_mode_t>&
availableModes) {
mEntryMap[ANDROID_CONTROL_AF_AVAILABLE_MODES] =
convertTo<uint8_t>(availableModes);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAfMode(
const camera_metadata_enum_android_control_af_mode_t mode) {
mEntryMap[ANDROID_CONTROL_AF_MODE] = asVectorOf<uint8_t>(mode);
return *this;
}
// See ANDROID_CONTROL_AF_TRIGGER_MODE in CameraMetadataTag.aidl.
MetadataBuilder& MetadataBuilder::setControlAfTrigger(
const camera_metadata_enum_android_control_af_trigger_t trigger) {
mEntryMap[ANDROID_CONTROL_AF_TRIGGER] = asVectorOf<uint8_t>(trigger);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeAvailableFpsRanges(
const std::vector<FpsRange>& fpsRanges) {
std::vector<int32_t> ranges;
ranges.resize(2 * fpsRanges.size());
for (const FpsRange fpsRange : fpsRanges) {
ranges.push_back(fpsRange.minFps);
ranges.push_back(fpsRange.maxFps);
}
mEntryMap[ANDROID_CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES] = std::move(ranges);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeTargetFpsRange(
const int32_t minFps, const int32_t maxFps) {
mEntryMap[ANDROID_CONTROL_AE_TARGET_FPS_RANGE] =
std::vector<int32_t>({minFps, maxFps});
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeMode(
camera_metadata_enum_android_control_ae_mode_t mode) {
mEntryMap[ANDROID_CONTROL_AE_MODE] = asVectorOf<uint8_t>(mode);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeAvailableModes(
const std::vector<camera_metadata_enum_android_control_ae_mode_t>& modes) {
mEntryMap[ANDROID_CONTROL_AE_AVAILABLE_MODES] = convertTo<uint8_t>(modes);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAePrecaptureTrigger(
const camera_metadata_enum_android_control_ae_precapture_trigger_t trigger) {
mEntryMap[ANDROID_CONTROL_AE_PRECAPTURE_TRIGGER] =
asVectorOf<uint8_t>(trigger);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlMaxRegions(int32_t maxAeRegions,
int32_t maxAwbRegions,
int32_t maxAfRegions) {
mEntryMap[ANDROID_CONTROL_MAX_REGIONS] =
std::vector<int32_t>({maxAeRegions, maxAwbRegions, maxAfRegions});
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAvailableAwbModes(
const std::vector<camera_metadata_enum_android_control_awb_mode>& awbModes) {
mEntryMap[ANDROID_CONTROL_AWB_AVAILABLE_MODES] = convertTo<uint8_t>(awbModes);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAwbMode(
const camera_metadata_enum_android_control_awb_mode awbMode) {
mEntryMap[ANDROID_CONTROL_AWB_MODE] = asVectorOf<uint8_t>(awbMode);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAwbLockAvailable(
const bool awbLockAvailable) {
const uint8_t lockAvailable = awbLockAvailable
? ANDROID_CONTROL_AWB_LOCK_AVAILABLE_TRUE
: ANDROID_CONTROL_AWB_LOCK_AVAILABLE_FALSE;
mEntryMap[ANDROID_CONTROL_AWB_LOCK_AVAILABLE] =
std::vector<uint8_t>({lockAvailable});
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeAvailableAntibandingModes(
const std::vector<camera_metadata_enum_android_control_ae_antibanding_mode_t>&
antibandingModes) {
mEntryMap[ANDROID_CONTROL_AE_AVAILABLE_ANTIBANDING_MODES] =
convertTo<uint8_t>(antibandingModes);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeAntibandingMode(
const camera_metadata_enum_android_control_ae_antibanding_mode_t
antibandingMode) {
mEntryMap[ANDROID_CONTROL_AE_ANTIBANDING_MODE] =
asVectorOf<uint8_t>(antibandingMode);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeLockAvailable(
const bool aeLockAvailable) {
const uint8_t lockAvailable = aeLockAvailable
? ANDROID_CONTROL_AE_LOCK_AVAILABLE_TRUE
: ANDROID_CONTROL_AE_LOCK_AVAILABLE_FALSE;
mEntryMap[ANDROID_CONTROL_AE_LOCK_AVAILABLE] =
asVectorOf<uint8_t>(lockAvailable);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeRegions(
const std::vector<ControlRegion>& aeRegions) {
std::vector<int32_t> regions;
regions.reserve(5 * aeRegions.size());
for (const ControlRegion& region : aeRegions) {
regions.push_back(region.x0);
regions.push_back(region.y0);
regions.push_back(region.x1);
regions.push_back(region.y1);
regions.push_back(region.weight);
}
mEntryMap[ANDROID_CONTROL_AE_REGIONS] = std::move(regions);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAfRegions(
const std::vector<ControlRegion>& afRegions) {
std::vector<int32_t> regions;
regions.reserve(5 * afRegions.size());
for (const ControlRegion& region : afRegions) {
regions.push_back(region.x0);
regions.push_back(region.y0);
regions.push_back(region.x1);
regions.push_back(region.y1);
regions.push_back(region.weight);
}
mEntryMap[ANDROID_CONTROL_AF_REGIONS] = std::move(regions);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAwbRegions(
const std::vector<ControlRegion>& awbRegions) {
std::vector<int32_t> regions;
regions.reserve(5 * awbRegions.size());
for (const ControlRegion& region : awbRegions) {
regions.push_back(region.x0);
regions.push_back(region.y0);
regions.push_back(region.x1);
regions.push_back(region.y1);
regions.push_back(region.weight);
}
mEntryMap[ANDROID_CONTROL_AWB_REGIONS] = std::move(regions);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlCaptureIntent(
const camera_metadata_enum_android_control_capture_intent_t intent) {
mEntryMap[ANDROID_CONTROL_CAPTURE_INTENT] = asVectorOf<uint8_t>(intent);
return *this;
}
MetadataBuilder& MetadataBuilder::setMaxJpegSize(const int32_t size) {
mEntryMap[ANDROID_JPEG_MAX_SIZE] = asVectorOf<int32_t>(size);
return *this;
}
MetadataBuilder& MetadataBuilder::setJpegAvailableThumbnailSizes(
const std::vector<Resolution>& thumbnailSizes) {
std::vector<int32_t> sizes;
sizes.reserve(thumbnailSizes.size() * 2);
for (const Resolution& resolution : thumbnailSizes) {
sizes.push_back(resolution.width);
sizes.push_back(resolution.height);
}
mEntryMap[ANDROID_JPEG_AVAILABLE_THUMBNAIL_SIZES] = std::move(sizes);
return *this;
}
MetadataBuilder& MetadataBuilder::setMaxNumberOutputStreams(
const int32_t maxRawStreams, const int32_t maxProcessedStreams,
const int32_t maxStallStreams) {
mEntryMap[ANDROID_REQUEST_MAX_NUM_OUTPUT_STREAMS] = std::vector<int32_t>(
{maxRawStreams, maxProcessedStreams, maxStallStreams});
return *this;
}
MetadataBuilder& MetadataBuilder::setSyncMaxLatency(
camera_metadata_enum_android_sync_max_latency latency) {
mEntryMap[ANDROID_SYNC_MAX_LATENCY] = asVectorOf<int32_t>(latency);
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableRequestCapabilities(
const std::vector<camera_metadata_enum_android_request_available_capabilities_t>&
requestCapabilities) {
mEntryMap[ANDROID_REQUEST_AVAILABLE_CAPABILITIES] =
convertTo<uint8_t>(requestCapabilities);
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableOutputStreamConfigurations(
const std::vector<StreamConfiguration>& streamConfigurations) {
std::vector<int32_t> metadataStreamConfigs;
std::vector<int64_t> metadataMinFrameDurations;
std::vector<int64_t> metadataStallDurations;
metadataStreamConfigs.reserve(streamConfigurations.size());
metadataMinFrameDurations.reserve(streamConfigurations.size());
metadataStallDurations.reserve(streamConfigurations.size());
for (const auto& config : streamConfigurations) {
metadataStreamConfigs.push_back(config.format);
metadataStreamConfigs.push_back(config.width);
metadataStreamConfigs.push_back(config.height);
metadataStreamConfigs.push_back(
ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS_OUTPUT);
metadataMinFrameDurations.push_back(config.format);
metadataMinFrameDurations.push_back(config.width);
metadataMinFrameDurations.push_back(config.height);
metadataMinFrameDurations.push_back(config.minFrameDuration.count());
metadataStallDurations.push_back(config.format);
metadataStallDurations.push_back(config.width);
metadataStallDurations.push_back(config.height);
metadataStallDurations.push_back(config.minStallDuration.count());
}
mEntryMap[ANDROID_SCALER_AVAILABLE_STREAM_CONFIGURATIONS] =
std::move(metadataStreamConfigs);
mEntryMap[ANDROID_SCALER_AVAILABLE_MIN_FRAME_DURATIONS] =
std::move(metadataMinFrameDurations);
mEntryMap[ANDROID_SCALER_AVAILABLE_STALL_DURATIONS] =
std::move(metadataStallDurations);
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableMaxDigitalZoom(const float maxZoom) {
mEntryMap[ANDROID_SCALER_AVAILABLE_MAX_DIGITAL_ZOOM] =
asVectorOf<float>(maxZoom);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlZoomRatioRange(const float min,
const float max) {
mEntryMap[ANDROID_CONTROL_ZOOM_RATIO_RANGE] = std::vector<float>({min, max});
return *this;
}
MetadataBuilder& MetadataBuilder::setSensorActiveArraySize(int x0, int y0,
int x1, int y1) {
mEntryMap[ANDROID_SENSOR_INFO_ACTIVE_ARRAY_SIZE] =
std::vector<int32_t>({x0, y0, x1, y1});
return *this;
}
MetadataBuilder& MetadataBuilder::setSensorPixelArraySize(int width,
int height) {
mEntryMap[ANDROID_SENSOR_INFO_PIXEL_ARRAY_SIZE] =
std::vector<int32_t>({width, height});
return *this;
}
MetadataBuilder& MetadataBuilder::setSensorPhysicalSize(float width,
float height) {
mEntryMap[ANDROID_SENSOR_INFO_PHYSICAL_SIZE] =
std::vector<float>({width, height});
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeCompensationRange(int32_t min,
int32_t max) {
mEntryMap[ANDROID_CONTROL_AE_COMPENSATION_RANGE] =
std::vector<int32_t>({min, max});
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeCompensationStep(
const camera_metadata_rational step) {
mEntryMap[ANDROID_CONTROL_AE_COMPENSATION_STEP] =
asVectorOf<camera_metadata_rational>(step);
return *this;
}
MetadataBuilder& MetadataBuilder::setControlAeExposureCompensation(
const int32_t exposureCompensation) {
mEntryMap[ANDROID_CONTROL_AE_EXPOSURE_COMPENSATION] =
asVectorOf<int32_t>(exposureCompensation);
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableRequestKeys(
const std::vector<int32_t>& keys) {
mEntryMap[ANDROID_REQUEST_AVAILABLE_REQUEST_KEYS] = keys;
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableResultKeys(
const std::vector<int32_t>& keys) {
mEntryMap[ANDROID_REQUEST_AVAILABLE_RESULT_KEYS] = keys;
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableCapabilities(
const std::vector<camera_metadata_enum_android_request_available_capabilities_t>&
capabilities) {
mEntryMap[ANDROID_REQUEST_AVAILABLE_CAPABILITIES] =
convertTo<uint8_t>(capabilities);
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableCharacteristicKeys(
const std::vector<camera_metadata_tag_t>& keys) {
mEntryMap[ANDROID_REQUEST_AVAILABLE_CHARACTERISTICS_KEYS] =
convertTo<int32_t>(keys);
return *this;
}
MetadataBuilder& MetadataBuilder::setAvailableCharacteristicKeys() {
mExtendWithAvailableCharacteristicsKeys = true;
return *this;
}
std::unique_ptr<aidl::android::hardware::camera::device::CameraMetadata>
MetadataBuilder::build() {
if (mExtendWithAvailableCharacteristicsKeys) {
std::vector<camera_metadata_tag_t> availableKeys;
availableKeys.reserve(mEntryMap.size());
for (const auto& [key, _] : mEntryMap) {
if (key != ANDROID_REQUEST_AVAILABLE_CHARACTERISTICS_KEYS) {
availableKeys.push_back(key);
}
}
setAvailableCharacteristicKeys(availableKeys);
}
CameraMetadata metadataHelper;
for (const auto& entry : mEntryMap) {
status_t ret = std::visit(
[&](auto&& arg) {
return metadataHelper.update(entry.first, arg.data(), arg.size());
},
entry.second);
if (ret != NO_ERROR) {
ALOGE("Failed to update metadata with key %d - %s: %s", entry.first,
get_camera_metadata_tag_name(entry.first),
::android::statusToString(ret).c_str());
return nullptr;
}
}
const camera_metadata_t* metadata = metadataHelper.getAndLock();
if (metadata == nullptr) {
ALOGE(
"Failure when constructing metadata -> CameraMetadata helper returned "
"nullptr");
return nullptr;
}
auto aidlMetadata =
std::make_unique<aidl::android::hardware::camera::device::CameraMetadata>();
const uint8_t* data_ptr = reinterpret_cast<const uint8_t*>(metadata);
aidlMetadata->metadata.assign(data_ptr,
data_ptr + get_camera_metadata_size(metadata));
metadataHelper.unlock(metadata);
return aidlMetadata;
}
} // namespace virtualcamera
} // namespace companion
} // namespace android