xref: /external/drm_hwcomposer/hwc3/ComposerClient.cpp

/*
 * Copyright (C) 2024 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 "drmhwc"
#define ATRACE_TAG (ATRACE_TAG_GRAPHICS | ATRACE_TAG_HAL)

#include "ComposerClient.h"

#include <cinttypes>
#include <cmath>
#include <memory>
#include <unordered_map>
#include <vector>

#include <aidl/android/hardware/graphics/common/Transform.h>
#include <aidl/android/hardware/graphics/composer3/ClientTarget.h>
#include <aidl/android/hardware/graphics/composer3/Composition.h>
#include <aidl/android/hardware/graphics/composer3/DisplayRequest.h>
#include <aidl/android/hardware/graphics/composer3/IComposerClient.h>
#include <aidl/android/hardware/graphics/composer3/Luts.h>
#include <aidl/android/hardware/graphics/composer3/OutputType.h>
#include <aidl/android/hardware/graphics/composer3/PowerMode.h>
#include <aidl/android/hardware/graphics/composer3/PresentOrValidate.h>
#include <aidl/android/hardware/graphics/composer3/RenderIntent.h>
#include <aidlcommonsupport/NativeHandle.h>
#include <android-base/logging.h>
#include <android/binder_auto_utils.h>
#include <android/binder_ibinder_platform.h>
#include <cutils/native_handle.h>
#include <hardware/hwcomposer2.h>
#include <hardware/hwcomposer_defs.h>
#include <ui/GraphicBufferMapper.h>

#include "bufferinfo/BufferInfo.h"
#include "compositor/DisplayInfo.h"
#include "hwc2_device/HwcDisplay.h"
#include "hwc2_device/HwcDisplayConfigs.h"
#include "hwc2_device/HwcLayer.h"
#include "hwc3/DrmHwcThree.h"
#include "hwc3/Utils.h"

using ::android::DstRectInfo;
using ::android::HwcDisplay;
using ::android::HwcDisplayConfig;
using ::android::HwcDisplayConfigs;
using ::android::HwcLayer;
using ::android::LayerTransform;
using ::android::SrcRectInfo;

#include "utils/log.h"

namespace aidl::android::hardware::graphics::composer3::impl {
namespace {

constexpr int kCtmRows = 4;
constexpr int kCtmColumns = 4;
constexpr int kCtmSize = kCtmRows * kCtmColumns;

// clang-format off
constexpr std::array<float, kCtmSize> kIdentityMatrix = {
    1.0F, 0.0F, 0.0F, 0.0F,
    0.0F, 1.0F, 0.0F, 0.0F,
    0.0F, 0.0F, 1.0F, 0.0F,
    0.0F, 0.0F, 0.0F, 1.0F,
};
// clang-format on

std::optional<BufferBlendMode> AidlToBlendMode(
    const std::optional<ParcelableBlendMode>& aidl_blend_mode) {
  if (!aidl_blend_mode) {
    return std::nullopt;
  }

  switch (aidl_blend_mode->blendMode) {
    case common::BlendMode::NONE:
      return BufferBlendMode::kNone;
    case common::BlendMode::PREMULTIPLIED:
      return BufferBlendMode::kPreMult;
    case common::BlendMode::COVERAGE:
      return BufferBlendMode::kCoverage;
    case common::BlendMode::INVALID:
      ALOGE("Invalid BlendMode");
      return std::nullopt;
  }
}

std::optional<BufferColorSpace> AidlToColorSpace(
    const common::Dataspace& dataspace) {
  int32_t standard = static_cast<int32_t>(dataspace) &
                     static_cast<int32_t>(common::Dataspace::STANDARD_MASK);
  switch (standard) {
    case static_cast<int32_t>(common::Dataspace::STANDARD_BT709):
      return BufferColorSpace::kItuRec709;
    case static_cast<int32_t>(common::Dataspace::STANDARD_BT601_625):
    case static_cast<int32_t>(common::Dataspace::STANDARD_BT601_625_UNADJUSTED):
    case static_cast<int32_t>(common::Dataspace::STANDARD_BT601_525):
    case static_cast<int32_t>(common::Dataspace::STANDARD_BT601_525_UNADJUSTED):
      return BufferColorSpace::kItuRec601;
    case static_cast<int32_t>(common::Dataspace::STANDARD_BT2020):
    case static_cast<int32_t>(
        common::Dataspace::STANDARD_BT2020_CONSTANT_LUMINANCE):
      return BufferColorSpace::kItuRec2020;
    case static_cast<int32_t>(common::Dataspace::UNKNOWN):
      return BufferColorSpace::kUndefined;
    default:
      ALOGE("Unsupported standard: %d", standard);
      return std::nullopt;
  }
}

std::optional<BufferColorSpace> AidlToColorSpace(
    const std::optional<ParcelableDataspace>& dataspace) {
  if (!dataspace) {
    return std::nullopt;
  }
  return AidlToColorSpace(dataspace->dataspace);
}

std::optional<BufferSampleRange> AidlToSampleRange(
    const common::Dataspace& dataspace) {
  int32_t sample_range = static_cast<int32_t>(dataspace) &
                         static_cast<int32_t>(common::Dataspace::RANGE_MASK);
  switch (sample_range) {
    case static_cast<int32_t>(common::Dataspace::RANGE_FULL):
      return BufferSampleRange::kFullRange;
    case static_cast<int32_t>(common::Dataspace::RANGE_LIMITED):
      return BufferSampleRange::kLimitedRange;
    case static_cast<int32_t>(common::Dataspace::UNKNOWN):
      return BufferSampleRange::kUndefined;
    default:
      ALOGE("Unsupported sample range: %d", sample_range);
      return std::nullopt;
  }
}

std::optional<BufferSampleRange> AidlToSampleRange(
    const std::optional<ParcelableDataspace>& dataspace) {
  if (!dataspace) {
    return std::nullopt;
  }
  return AidlToSampleRange(dataspace->dataspace);
}

std::optional<int64_t> AidlToPresentTimeNs(
    const std::optional<ClockMonotonicTimestamp>& expected_present_time) {
  if (!expected_present_time || expected_present_time->timestampNanos == 0) {
    return std::nullopt;
  }
  return expected_present_time->timestampNanos;
}

bool IsSupportedCompositionType(
    const std::optional<ParcelableComposition> composition) {
  if (!composition) {
    return true;
  }
  switch (composition->composition) {
    case Composition::INVALID:
    case Composition::CLIENT:
    case Composition::DEVICE:
    case Composition::SOLID_COLOR:
    case Composition::CURSOR:
      return true;

    // Unsupported composition types. Set an error for the current
    // DisplayCommand and return.
    case Composition::DISPLAY_DECORATION:
    case Composition::SIDEBAND:
#if __ANDROID_API__ >= 34
    case Composition::REFRESH_RATE_INDICATOR:
#endif
      return false;
  }
}

hwc3::Error ValidateColorTransformMatrix(
    const std::optional<std::vector<float>>& color_transform_matrix) {
  if (!color_transform_matrix) {
    return hwc3::Error::kNone;
  }

  if (color_transform_matrix->size() != kCtmSize) {
    ALOGE("Expected color transform matrix of size %d, got size %d.", kCtmSize,
          (int)color_transform_matrix->size());
    return hwc3::Error::kBadParameter;
  }

  return hwc3::Error::kNone;
}

bool ValidateLayerBrightness(const std::optional<LayerBrightness>& brightness) {
  if (!brightness) {
    return true;
  }
  return !(std::signbit(brightness->brightness) ||
           std::isnan(brightness->brightness));
}

std::optional<std::array<float, kCtmSize>> AidlToColorTransformMatrix(
    const std::optional<std::vector<float>>& aidl_color_transform_matrix) {
  if (!aidl_color_transform_matrix ||
      aidl_color_transform_matrix->size() < kCtmSize) {
    return std::nullopt;
  }

  std::array<float, kCtmSize> color_transform_matrix = kIdentityMatrix;
  std::copy(aidl_color_transform_matrix->begin(),
            aidl_color_transform_matrix->end(), color_transform_matrix.begin());
  return color_transform_matrix;
}

std::optional<HWC2::Composition> AidlToCompositionType(
    const std::optional<ParcelableComposition> composition) {
  if (!composition) {
    return std::nullopt;
  }

  switch (composition->composition) {
    case Composition::INVALID:
      return HWC2::Composition::Invalid;
    case Composition::CLIENT:
      return HWC2::Composition::Client;
    case Composition::DEVICE:
      return HWC2::Composition::Device;
    case Composition::SOLID_COLOR:
      return HWC2::Composition::SolidColor;
    case Composition::CURSOR:
      return HWC2::Composition::Cursor;

    // Unsupported composition types.
    case Composition::DISPLAY_DECORATION:
    case Composition::SIDEBAND:
#if __ANDROID_API__ >= 34
    case Composition::REFRESH_RATE_INDICATOR:
#endif
      ALOGE("Unsupported composition type: %s",
            toString(composition->composition).c_str());
      return std::nullopt;
  }
}

#if __ANDROID_API__ < 35

class DisplayConfiguration {
 public:
  class Dpi {
   public:
    float x = 0.000000F;
    float y = 0.000000F;
  };
  // NOLINTNEXTLINE(readability-identifier-naming)
  int32_t configId = 0;
  int32_t width = 0;
  int32_t height = 0;
  std::optional<Dpi> dpi;
  // NOLINTNEXTLINE(readability-identifier-naming)
  int32_t configGroup = 0;
  // NOLINTNEXTLINE(readability-identifier-naming)
  int32_t vsyncPeriod = 0;
};

#endif

DisplayConfiguration HwcDisplayConfigToAidlConfiguration(
    int32_t width, int32_t height, const HwcDisplayConfig& config) {
  DisplayConfiguration aidl_configuration =
      {.configId = static_cast<int32_t>(config.id),
       .width = config.mode.GetRawMode().hdisplay,
       .height = config.mode.GetRawMode().vdisplay,
       .configGroup = static_cast<int32_t>(config.group_id),
       .vsyncPeriod = config.mode.GetVSyncPeriodNs(),
       .hdrOutputType = static_cast<OutputType>(config.output_type)};

  if (width > 0) {
    static const float kMmPerInch = 25.4;
    float dpi_x = float(config.mode.GetRawMode().hdisplay) * kMmPerInch /
                float(width);
    float dpi_y = height <= 0 ? dpi_x :
                  float(config.mode.GetRawMode().vdisplay) * kMmPerInch /
                    float(height);
    aidl_configuration.dpi = {.x = dpi_x, .y = dpi_y};
  }
  // TODO: Populate vrrConfig.
  return aidl_configuration;
}

std::optional<DstRectInfo> AidlToRect(const std::optional<common::Rect>& rect) {
  if (!rect) {
    return std::nullopt;
  }
  DstRectInfo dst_rec;
  dst_rec.i_rect = {.left = rect->left,
                    .top = rect->top,
                    .right = rect->right,
                    .bottom = rect->bottom};
  return dst_rec;
}

std::optional<SrcRectInfo> AidlToFRect(
    const std::optional<common::FRect>& rect) {
  if (!rect) {
    return std::nullopt;
  }
  SrcRectInfo src_rect;
  src_rect.f_rect = {.left = rect->left,
                     .top = rect->top,
                     .right = rect->right,
                     .bottom = rect->bottom};
  return src_rect;
}

std::optional<float> AidlToAlpha(const std::optional<PlaneAlpha>& alpha) {
  if (!alpha) {
    return std::nullopt;
  }
  return alpha->alpha;
}

std::optional<uint32_t> AidlToZOrder(const std::optional<ZOrder>& z_order) {
  if (!z_order) {
    return std::nullopt;
  }
  return z_order->z;
}

std::optional<LayerTransform> AidlToLayerTransform(
    const std::optional<ParcelableTransform>& aidl_transform) {
  if (!aidl_transform) {
    return std::nullopt;
  }

  using aidl::android::hardware::graphics::common::Transform;

  return (LayerTransform){
      .hflip = (int32_t(aidl_transform->transform) &
                int32_t(Transform::FLIP_H)) != 0,
      .vflip = (int32_t(aidl_transform->transform) &
                int32_t(Transform::FLIP_V)) != 0,
      .rotate90 = (int32_t(aidl_transform->transform) &
                   int32_t(Transform::ROT_90)) != 0,
  };
}

}  // namespace

class Hwc3BufferHandle : public PrimeFdsSharedBase {
 public:
  static auto Create(buffer_handle_t handle)
      -> std::shared_ptr<Hwc3BufferHandle> {
    auto hwc3 = std::shared_ptr<Hwc3BufferHandle>(new Hwc3BufferHandle());

    auto result = ::android::GraphicBufferMapper::get()
        .importBufferNoValidate(handle, &hwc3->imported_handle_);

    if (result != ::android::NO_ERROR) {
      ALOGE("Failed to import buffer handle: %d", result);
      return nullptr;
    }

    return hwc3;
  }

  auto GetHandle() const -> buffer_handle_t {
    return imported_handle_;
  }

  ~Hwc3BufferHandle() override {
    ::android::GraphicBufferMapper::get().freeBuffer(imported_handle_);
  }

 private:
  Hwc3BufferHandle() = default;
  buffer_handle_t imported_handle_{};
};

class Hwc3Layer : public ::android::FrontendLayerBase {
 public:
  auto HandleNextBuffer(std::optional<buffer_handle_t> raw_handle,
                        ::android::SharedFd fence_fd, int32_t slot_id)
      -> std::optional<HwcLayer::LayerProperties> {
    HwcLayer::LayerProperties lp;
    if (!raw_handle && slots_.count(slot_id) != 0) {
      lp.active_slot = {
          .slot_id = slot_id,
          .fence = std::move(fence_fd),
      };

      return lp;
    }

    if (!raw_handle) {
      ALOGE("Buffer handle is nullopt but slot was not cached.");
      return std::nullopt;
    }

    auto hwc3 = Hwc3BufferHandle::Create(*raw_handle);
    if (!hwc3) {
      return std::nullopt;
    }

    auto bi = ::android::BufferInfoGetter::GetInstance()->GetBoInfo(
        hwc3->GetHandle());
    if (bi) {
      bi->fds_shared = hwc3;

      lp.slot_buffer = {
          .slot_id = slot_id,
          .bi = bi,
      };
    }

    lp.active_slot = {
        .slot_id = slot_id,
        .fence = std::move(fence_fd),
    };

    slots_[slot_id] = hwc3;

    return lp;
  }

  [[maybe_unused]]
  auto HandleClearSlot(int32_t slot_id)
      -> std::optional<HwcLayer::LayerProperties> {
    if (slots_.count(slot_id) == 0) {
      return std::nullopt;
    }

    slots_.erase(slot_id);

    auto lp = HwcLayer::LayerProperties{};
    lp.slot_buffer = {
        .slot_id = slot_id,
        .bi = std::nullopt,
    };

    return lp;
  }

  void ClearSlots() {
    slots_.clear();
  }

 private:
  std::map<int32_t /*slot*/, std::shared_ptr<Hwc3BufferHandle>> slots_;
};

static auto GetHwc3Layer(HwcLayer& layer) -> std::shared_ptr<Hwc3Layer> {
  auto frontend_private_data = layer.GetFrontendPrivateData();
  if (!frontend_private_data) {
    frontend_private_data = std::make_shared<Hwc3Layer>();
    layer.SetFrontendPrivateData(frontend_private_data);
  }
  return std::static_pointer_cast<Hwc3Layer>(frontend_private_data);
}

ComposerClient::ComposerClient() {
  DEBUG_FUNC();
}

void ComposerClient::Init() {
  DEBUG_FUNC();
  hwc_ = std::make_unique<DrmHwcThree>();
}

ComposerClient::~ComposerClient() {
  DEBUG_FUNC();
  if (hwc_) {
    const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
    hwc_->DeinitDisplays();
    hwc_.reset();
  }
  LOG(DEBUG) << "removed composer client";
}

ndk::ScopedAStatus ComposerClient::createLayer(int64_t display_id,
                                               int32_t /*buffer_slot_count*/,
                                               int64_t* layer_id) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());

  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  auto hwc3display = DrmHwcThree::GetHwc3Display(*display);

  if (!display->CreateLayer(hwc3display->next_layer_id)) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  *layer_id = hwc3display->next_layer_id;

  hwc3display->next_layer_id++;

  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::createVirtualDisplay(
    int32_t width, int32_t height, AidlPixelFormat format_hint,
    int32_t /*output_buffer_slot_count*/, VirtualDisplay* out_display) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());

  hwc2_display_t hwc2_display_id = 0;
  // TODO: Format is currently not used in drm_hwcomposer.
  int32_t hwc2_format = 0;
  auto err = Hwc2toHwc3Error(hwc_->CreateVirtualDisplay(width, height,
                                                        &hwc2_format,
                                                        &hwc2_display_id));
  if (err != hwc3::Error::kNone) {
    return ToBinderStatus(err);
  }

  out_display->display = Hwc2DisplayToHwc3(hwc2_display_id);
  out_display->format = format_hint;
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::destroyLayer(int64_t display_id,
                                                int64_t layer_id) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  if (!display->DestroyLayer(layer_id)) {
    return ToBinderStatus(hwc3::Error::kBadLayer);
  }

  return ToBinderStatus(hwc3::Error::kNone);
}

ndk::ScopedAStatus ComposerClient::destroyVirtualDisplay(int64_t display_id) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  auto err = Hwc2toHwc3Error(hwc_->DestroyVirtualDisplay(display_id));
  return ToBinderStatus(err);
}

::android::HwcDisplay* ComposerClient::GetDisplay(uint64_t display_id) {
  return hwc_->GetDisplay(display_id);
}

void ComposerClient::DispatchLayerCommand(int64_t display_id,
                                          const LayerCommand& command) {
  auto* display = GetDisplay(display_id);
  if (display == nullptr) {
    cmd_result_writer_->AddError(hwc3::Error::kBadDisplay);
    return;
  }

#if __ANDROID_API__ >= 35
  auto batch_command = command.layerLifecycleBatchCommandType;
  if (batch_command == LayerLifecycleBatchCommandType::CREATE) {
    if (!display->CreateLayer(command.layer)) {
      cmd_result_writer_->AddError(hwc3::Error::kBadLayer);
      return;
    }
  }

  if (batch_command == LayerLifecycleBatchCommandType::DESTROY) {
    if (!display->DestroyLayer(command.layer)) {
      cmd_result_writer_->AddError(hwc3::Error::kBadLayer);
    }

    return;
  }
#endif

  auto* layer = display->get_layer(command.layer);
  if (layer == nullptr) {
    cmd_result_writer_->AddError(hwc3::Error::kBadLayer);
    return;
  }

  // If the requested composition type is not supported, the HWC should return
  // an error and not process any further commands.
  if (!IsSupportedCompositionType(command.composition)) {
    cmd_result_writer_->AddError(hwc3::Error::kUnsupported);
    return;
  }

  // For some invalid parameters, the HWC should return an error and not process
  // any further commands.
  if (!ValidateLayerBrightness(command.brightness)) {
    cmd_result_writer_->AddError(hwc3::Error::kBadParameter);
    return;
  }

#if __ANDROID_API__ >= 34
  /* https://source.android.com/docs/core/graphics/reduce-consumption */
  if (command.bufferSlotsToClear) {
    auto hwc3_layer = GetHwc3Layer(*layer);
    for (const auto& slot : *command.bufferSlotsToClear) {
      auto lp = hwc3_layer->HandleClearSlot(slot);
      if (!lp) {
        cmd_result_writer_->AddError(hwc3::Error::kBadLayer);
        return;
      }

      layer->SetLayerProperties(lp.value());
    }
  }
#endif

  HwcLayer::LayerProperties properties;
  if (command.buffer) {
    auto hwc3_layer = GetHwc3Layer(*layer);
    std::optional<buffer_handle_t> buffer_handle = std::nullopt;
    if (command.buffer->handle) {
      buffer_handle = ::android::makeFromAidl(*command.buffer->handle);
    }

    // NOLINTNEXTLINE(cppcoreguidelines-pro-type-const-cast)
    auto fence = const_cast<::ndk::ScopedFileDescriptor&>(command.buffer->fence)
                     .release();

    auto lp = hwc3_layer->HandleNextBuffer(buffer_handle,
                                           ::android::MakeSharedFd(fence),
                                           command.buffer->slot);

    if (!lp) {
      cmd_result_writer_->AddError(hwc3::Error::kBadLayer);
      return;
    }

    properties = lp.value();
  }

  properties.blend_mode = AidlToBlendMode(command.blendMode);
  properties.color_space = AidlToColorSpace(command.dataspace);
  properties.sample_range = AidlToSampleRange(command.dataspace);
  properties.composition_type = AidlToCompositionType(command.composition);
  properties.display_frame = AidlToRect(command.displayFrame);
  properties.alpha = AidlToAlpha(command.planeAlpha);
  properties.source_crop = AidlToFRect(command.sourceCrop);
  properties.transform = AidlToLayerTransform(command.transform);
  properties.z_order = AidlToZOrder(command.z);

  layer->SetLayerProperties(properties);

  // Some unsupported functionality returns kUnsupported, and others
  // are just a no-op.
  // TODO: Audit whether some of these should actually return kUnsupported
  // instead.
  if (command.sidebandStream) {
    cmd_result_writer_->AddError(hwc3::Error::kUnsupported);
  }
  if (command.luts) {
    cmd_result_writer_->AddError(hwc3::Error::kUnsupported);
  }
  // TODO: Blocking region handling missing.
  // TODO: Layer surface damage.
  // TODO: Layer visible region.
  // TODO: Per-frame metadata.
  // TODO: Layer color transform.
  // TODO: Layer cursor position.
  // TODO: Layer color.
}

void ComposerClient::ExecuteDisplayCommand(const DisplayCommand& command) {
  const int64_t display_id = command.display;
  HwcDisplay* display = hwc_->GetDisplay(display_id);
  if (display == nullptr) {
    cmd_result_writer_->AddError(hwc3::Error::kBadDisplay);
    return;
  }

  if (command.brightness) {
    // TODO: Implement support for display brightness.
    cmd_result_writer_->AddError(hwc3::Error::kUnsupported);
    return;
  }

  hwc3::Error error = ValidateColorTransformMatrix(
      command.colorTransformMatrix);
  if (error != hwc3::Error::kNone) {
    ALOGE("Invalid color transform matrix.");
    cmd_result_writer_->AddError(error);
    return;
  }

  for (const auto& layer_cmd : command.layers) {
    DispatchLayerCommand(command.display, layer_cmd);
  }

  if (cmd_result_writer_->HasError()) {
    return;
  }

  if (command.clientTarget) {
    ExecuteSetDisplayClientTarget(command.display, *command.clientTarget);
  }
  if (command.virtualDisplayOutputBuffer) {
    ExecuteSetDisplayOutputBuffer(command.display,
                                  *command.virtualDisplayOutputBuffer);
  }

  std::optional<std::array<float, kCtmSize>> ctm = AidlToColorTransformMatrix(
      command.colorTransformMatrix);
  if (ctm) {
    display->SetColorTransformMatrix(ctm.value());
  }

  bool shall_present_now = false;

  DisplayChanges changes{};
  if (command.validateDisplay || command.presentOrValidateDisplay) {
    std::vector<HwcDisplay::ChangedLayer>
        changed_layers = display->ValidateStagedComposition();
    for (auto [layer_id, composition_type] : changed_layers) {
      changes.AddLayerCompositionChange(command.display, layer_id,
                                        static_cast<Composition>(
                                            composition_type));
    }
    cmd_result_writer_->AddChanges(changes);
    auto hwc3_display = DrmHwcThree::GetHwc3Display(*display);
    hwc3_display->must_validate = false;
    hwc3_display->desired_present_time = AidlToPresentTimeNs(
        command.expectedPresentTime);

    // TODO: DisplayRequests are not implemented.
  }

  if (command.presentOrValidateDisplay) {
    auto result = PresentOrValidate::Result::Validated;
    if (!display->NeedsClientLayerUpdate() && !changes.HasAnyChanges()) {
      ALOGV("Skipping SF roundtrip for display %" PRId64, display_id);
      result = PresentOrValidate::Result::Presented;
      shall_present_now = true;
    }
    cmd_result_writer_->AddPresentOrValidateResult(display_id, result);
  }

  if (command.acceptDisplayChanges) {
    display->AcceptValidatedComposition();
  }

  if (command.presentDisplay || shall_present_now) {
    auto hwc3_display = DrmHwcThree::GetHwc3Display(*display);
    if (hwc3_display->must_validate) {
      cmd_result_writer_->AddError(hwc3::Error::kNotValidated);
      return;
    }

    ::android::SharedFd present_fence;
    std::vector<HwcDisplay::ReleaseFence> release_fences;
    bool ret = display->PresentStagedComposition(hwc3_display
                                                     ->desired_present_time,
                                                 present_fence, release_fences);

    if (!ret) {
      cmd_result_writer_->AddError(hwc3::Error::kBadDisplay);
      return;
    }

    using ::android::base::unique_fd;
    cmd_result_writer_->AddPresentFence(  //
        display_id, unique_fd(::android::DupFd(present_fence)));

    std::unordered_map<int64_t, unique_fd> hal_release_fences;
    for (const auto& [layer_id, release_fence] : release_fences) {
      hal_release_fences[layer_id] = unique_fd(::android::DupFd(release_fence));
    }
    cmd_result_writer_->AddReleaseFence(display_id, hal_release_fences);
  }
}

ndk::ScopedAStatus ComposerClient::executeCommands(
    const std::vector<DisplayCommand>& commands,
    std::vector<CommandResultPayload>* results) {
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  DEBUG_FUNC();
  cmd_result_writer_ = std::make_unique<CommandResultWriter>(results);
  for (const auto& cmd : commands) {
    ExecuteDisplayCommand(cmd);
    cmd_result_writer_->IncrementCommand();
  }
  cmd_result_writer_.reset();

  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getActiveConfig(int64_t display_id,
                                                   int32_t* config_id) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  const HwcDisplayConfig* config = display->GetLastRequestedConfig();
  if (config == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadConfig);
  }

  *config_id = Hwc2ConfigIdToHwc3(config->id);
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getColorModes(
    int64_t display_id, std::vector<ColorMode>* color_modes) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  uint32_t num_modes = 0;
  auto error = Hwc2toHwc3Error(display->GetColorModes(&num_modes, nullptr));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  std::vector<int32_t> hwc2_color_modes(num_modes);
  error = Hwc2toHwc3Error(
      display->GetColorModes(&num_modes, hwc2_color_modes.data()));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  for (const auto& mode : hwc2_color_modes) {
    color_modes->push_back(Hwc2ColorModeToHwc3(mode));
  }

  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDataspaceSaturationMatrix(
    common::Dataspace dataspace, std::vector<float>* matrix) {
  DEBUG_FUNC();
  if (dataspace != common::Dataspace::SRGB_LINEAR) {
    return ToBinderStatus(hwc3::Error::kBadParameter);
  }

  matrix->clear();
  matrix->insert(matrix->begin(), kIdentityMatrix.begin(),
                 kIdentityMatrix.end());

  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDisplayAttribute(
    int64_t display_id, int32_t config_id, DisplayAttribute attribute,
    int32_t* value) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  const HwcDisplayConfigs& configs = display->GetDisplayConfigs();
  auto config = configs.hwc_configs.find(config_id);
  if (config == configs.hwc_configs.end()) {
    return ToBinderStatus(hwc3::Error::kBadConfig);
  }

  const auto bounds = display->GetDisplayBoundsMm();
  DisplayConfiguration aidl_configuration =
      HwcDisplayConfigToAidlConfiguration(/*width =*/ bounds.first,
                                          /*height =*/bounds.second,
                                          config->second);
  // Legacy API for querying DPI uses units of dots per 1000 inches.
  static const int kLegacyDpiUnit = 1000;
  switch (attribute) {
    case DisplayAttribute::WIDTH:
      *value = aidl_configuration.width;
      break;
    case DisplayAttribute::HEIGHT:
      *value = aidl_configuration.height;
      break;
    case DisplayAttribute::VSYNC_PERIOD:
      *value = aidl_configuration.vsyncPeriod;
      break;
    case DisplayAttribute::DPI_X:
      *value = aidl_configuration.dpi
                   ? static_cast<int>(aidl_configuration.dpi->x *
                                      kLegacyDpiUnit)
                   : -1;
      break;
    case DisplayAttribute::DPI_Y:
      *value = aidl_configuration.dpi
                   ? static_cast<int>(aidl_configuration.dpi->y *
                                      kLegacyDpiUnit)
                   : -1;
      break;
    case DisplayAttribute::CONFIG_GROUP:
      *value = aidl_configuration.configGroup;
      break;
    case DisplayAttribute::INVALID:
      return ToBinderStatus(hwc3::Error::kUnsupported);
  }
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDisplayCapabilities(
    int64_t display_id, std::vector<DisplayCapability>* caps) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  uint32_t num_capabilities = 0;
  hwc3::Error error = Hwc2toHwc3Error(
      display->GetDisplayCapabilities(&num_capabilities, nullptr));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  std::vector<uint32_t> out_caps(num_capabilities);
  error = Hwc2toHwc3Error(
      display->GetDisplayCapabilities(&num_capabilities, out_caps.data()));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  caps->reserve(num_capabilities);
  for (const auto cap : out_caps) {
    caps->emplace_back(Hwc2DisplayCapabilityToHwc3(cap));
  }
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDisplayConfigs(
    int64_t display_id, std::vector<int32_t>* out_configs) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  const HwcDisplayConfigs& configs = display->GetDisplayConfigs();
  for (const auto& [id, config] : configs.hwc_configs) {
    out_configs->push_back(static_cast<int32_t>(id));
  }
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDisplayConnectionType(
    int64_t display_id, DisplayConnectionType* type) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  uint32_t out_type = 0;
  const hwc3::Error error = Hwc2toHwc3Error(
      display->GetDisplayConnectionType(&out_type));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  *type = Hwc2DisplayConnectionTypeToHwc3(out_type);
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDisplayIdentificationData(
    int64_t display_id, DisplayIdentification* id) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  uint8_t port = 0;
  uint32_t data_size = 0;
  hwc3::Error error = Hwc2toHwc3Error(
      display->GetDisplayIdentificationData(&port, &data_size, nullptr));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  id->data.resize(data_size);
  error = Hwc2toHwc3Error(
      display->GetDisplayIdentificationData(&port, &data_size,
                                            id->data.data()));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  id->port = static_cast<int8_t>(port);
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDisplayName(int64_t display_id,
                                                  std::string* name) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  uint32_t size = 0;
  auto error = Hwc2toHwc3Error(display->GetDisplayName(&size, nullptr));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  name->resize(size);
  error = Hwc2toHwc3Error(display->GetDisplayName(&size, name->data()));
  return ToBinderStatus(error);
}

ndk::ScopedAStatus ComposerClient::getDisplayVsyncPeriod(
    int64_t display_id, int32_t* vsync_period) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  // getDisplayVsyncPeriod should return the vsync period of the config that
  // is currently committed to the kernel. If a config change is pending due to
  // setActiveConfigWithConstraints, return the pre-change vsync period.
  const HwcDisplayConfig* config = display->GetCurrentConfig();
  if (config == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadConfig);
  }

  *vsync_period = config->mode.GetVSyncPeriodNs();
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDisplayedContentSample(
    int64_t /*display_id*/, int64_t /*max_frames*/, int64_t /*timestamp*/,
    DisplayContentSample* /*samples*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::getDisplayedContentSamplingAttributes(
    int64_t /*display_id*/, DisplayContentSamplingAttributes* /*attrs*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::getDisplayPhysicalOrientation(
    int64_t display_id, common::Transform* orientation) {
  DEBUG_FUNC();

  if (orientation == nullptr) {
    ALOGE("Invalid 'orientation' pointer.");
    return ToBinderStatus(hwc3::Error::kBadParameter);
  }

  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  PanelOrientation
      drm_orientation = display->getDisplayPhysicalOrientation().value_or(
          PanelOrientation::kModePanelOrientationNormal);

  switch (drm_orientation) {
    case PanelOrientation::kModePanelOrientationNormal:
      *orientation = common::Transform::NONE;
      break;
    case PanelOrientation::kModePanelOrientationBottomUp:
      *orientation = common::Transform::ROT_180;
      break;
    case PanelOrientation::kModePanelOrientationLeftUp:
      *orientation = common::Transform::ROT_270;
      break;
    case PanelOrientation::kModePanelOrientationRightUp:
      *orientation = common::Transform::ROT_90;
      break;
    default:
      ALOGE("Unknown panel orientation value: %d", drm_orientation);
      return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getHdrCapabilities(int64_t display_id,
                                                      HdrCapabilities* caps) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  uint32_t num_types = 0;
  hwc3::Error error = Hwc2toHwc3Error(
      display->GetHdrCapabilities(&num_types, nullptr, nullptr, nullptr,
                                  nullptr));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  std::vector<int32_t> out_types(num_types);
  error = Hwc2toHwc3Error(
      display->GetHdrCapabilities(&num_types, out_types.data(),
                                  &caps->maxLuminance,
                                  &caps->maxAverageLuminance,
                                  &caps->minLuminance));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  caps->types.reserve(num_types);
  for (const auto type : out_types)
    caps->types.emplace_back(Hwc2HdrTypeToHwc3(type));

  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getMaxVirtualDisplayCount(int32_t* count) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  *count = static_cast<int32_t>(hwc_->GetMaxVirtualDisplayCount());
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getPerFrameMetadataKeys(
    int64_t /*display_id*/, std::vector<PerFrameMetadataKey>* /*keys*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::getReadbackBufferAttributes(
    int64_t /*display_id*/, ReadbackBufferAttributes* /*attrs*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::getReadbackBufferFence(
    int64_t /*display_id*/, ndk::ScopedFileDescriptor* /*acquireFence*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::getRenderIntents(
    int64_t display_id, ColorMode mode, std::vector<RenderIntent>* intents) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  const int32_t hwc2_color_mode = Hwc3ColorModeToHwc2(mode);
  uint32_t out_num_intents = 0;
  auto error = Hwc2toHwc3Error(
      display->GetRenderIntents(hwc2_color_mode, &out_num_intents, nullptr));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  std::vector<int32_t> out_intents(out_num_intents);
  error = Hwc2toHwc3Error(display->GetRenderIntents(hwc2_color_mode,
                                                    &out_num_intents,
                                                    out_intents.data()));
  if (error != hwc3::Error::kNone) {
    return ToBinderStatus(error);
  }

  intents->reserve(out_num_intents);
  for (const auto intent : out_intents) {
    intents->emplace_back(Hwc2RenderIntentToHwc3(intent));
  }
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getSupportedContentTypes(
    int64_t display_id, std::vector<ContentType>* types) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  // Support for ContentType is not implemented.
  types->clear();
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::getDisplayDecorationSupport(
    int64_t /*display_id*/,
    std::optional<common::DisplayDecorationSupport>* /*support_struct*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::registerCallback(
    const std::shared_ptr<IComposerCallback>& callback) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  // This function is specified to be called exactly once.
  hwc_->Init(callback);
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::setActiveConfig(int64_t display_id,
                                                   int32_t config) {
  DEBUG_FUNC();

  VsyncPeriodChangeTimeline timeline;
  VsyncPeriodChangeConstraints constraints = {
      .desiredTimeNanos = ::android::ResourceManager::GetTimeMonotonicNs(),
      .seamlessRequired = false,
  };
  return setActiveConfigWithConstraints(display_id, config, constraints,
                                        &timeline);
}

ndk::ScopedAStatus ComposerClient::setActiveConfigWithConstraints(
    int64_t display_id, int32_t config,
    const VsyncPeriodChangeConstraints& constraints,
    VsyncPeriodChangeTimeline* timeline) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  if (constraints.seamlessRequired) {
    return ToBinderStatus(hwc3::Error::kSeamlessNotAllowed);
  }

  const bool future_config = constraints.desiredTimeNanos >
                             ::android::ResourceManager::GetTimeMonotonicNs();
  const HwcDisplayConfig* current_config = display->GetCurrentConfig();
  const HwcDisplayConfig* next_config = display->GetConfig(config);
  const bool same_config_group = current_config != nullptr &&
                                 next_config != nullptr &&
                                 current_config->group_id ==
                                     next_config->group_id;
  const bool same_resolution = current_config != nullptr &&
                               next_config != nullptr &&
                               current_config->mode.SameSize(next_config->mode);

  /* Client framebuffer management:
   * https://source.android.com/docs/core/graphics/framebuffer-mgmt
   */
  if (!same_resolution && !future_config) {
    auto& client_layer = display->GetClientLayer();
    auto hwc3_layer = GetHwc3Layer(client_layer);
    hwc3_layer->ClearSlots();
    client_layer.ClearSlots();
  }

  // If the contraints dictate that this is to be applied in the future, it
  // must be queued. If the new config is in the same config group as the
  // current one, then queue it to reduce jank.
  HwcDisplay::ConfigError result{};
  if (future_config || same_config_group) {
    QueuedConfigTiming timing = {};
    result = display->QueueConfig(config, constraints.desiredTimeNanos,
                                  constraints.seamlessRequired, &timing);
    timeline->newVsyncAppliedTimeNanos = timing.new_vsync_time_ns;
    timeline->refreshTimeNanos = timing.refresh_time_ns;
    timeline->refreshRequired = true;
  } else {
    // Fall back to a blocking commit, which may modeset.
    result = display->SetConfig(config);
    timeline->newVsyncAppliedTimeNanos = ::android::ResourceManager::
        GetTimeMonotonicNs();
    timeline->refreshRequired = false;
  }

  switch (result) {
    case HwcDisplay::ConfigError::kBadConfig:
      return ToBinderStatus(hwc3::Error::kBadConfig);
    case HwcDisplay::ConfigError::kSeamlessNotAllowed:
      return ToBinderStatus(hwc3::Error::kSeamlessNotAllowed);
    case HwcDisplay::ConfigError::kSeamlessNotPossible:
      return ToBinderStatus(hwc3::Error::kSeamlessNotPossible);
    case HwcDisplay::ConfigError::kConfigFailed:
      return ToBinderStatus(hwc3::Error::kConfigFailed);
    case HwcDisplay::ConfigError::kNone:
      return ndk::ScopedAStatus::ok();
  }
}

ndk::ScopedAStatus ComposerClient::setBootDisplayConfig(int64_t /*display_id*/,
                                                        int32_t /*config*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::clearBootDisplayConfig(
    int64_t /*display_id*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::getPreferredBootDisplayConfig(
    int64_t /*display_id*/, int32_t* /*config*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::setAutoLowLatencyMode(int64_t display_id,
                                                         bool /*on*/) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::setClientTargetSlotCount(
    int64_t /*display_id*/, int32_t /*count*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kNone);
}

ndk::ScopedAStatus ComposerClient::setColorMode(int64_t display_id,
                                                ColorMode mode,
                                                RenderIntent intent) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  auto error = display->SetColorModeWithIntent(Hwc3ColorModeToHwc2(mode),
                                               Hwc3RenderIntentToHwc2(intent));
  return ToBinderStatus(Hwc2toHwc3Error(error));
}

ndk::ScopedAStatus ComposerClient::setContentType(int64_t display_id,
                                                  ContentType type) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  if (type == ContentType::NONE) {
    return ndk::ScopedAStatus::ok();
  }
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::setDisplayedContentSamplingEnabled(
    int64_t /*display_id*/, bool /*enable*/,
    FormatColorComponent /*componentMask*/, int64_t /*maxFrames*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::setPowerMode(int64_t display_id,
                                                PowerMode mode) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  if (mode == PowerMode::ON_SUSPEND) {
    return ToBinderStatus(hwc3::Error::kUnsupported);
  }

  auto error = display->SetPowerMode(Hwc3PowerModeToHwc2(mode));
  return ToBinderStatus(Hwc2toHwc3Error(error));
}

ndk::ScopedAStatus ComposerClient::setReadbackBuffer(
    int64_t /*display_id*/, const AidlNativeHandle& /*aidlBuffer*/,
    const ndk::ScopedFileDescriptor& /*releaseFence*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::setVsyncEnabled(int64_t display_id,
                                                   bool enabled) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  auto error = display->SetVsyncEnabled(static_cast<int32_t>(enabled));
  return ToBinderStatus(Hwc2toHwc3Error(error));
}

ndk::ScopedAStatus ComposerClient::setIdleTimerEnabled(int64_t /*display_id*/,
                                                       int32_t /*timeout*/) {
  DEBUG_FUNC();
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

#if __ANDROID_API__ >= 34

ndk::ScopedAStatus ComposerClient::getOverlaySupport(
    OverlayProperties* /*out_overlay_properties*/) {
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::getHdrConversionCapabilities(
    std::vector<common::HdrConversionCapability>* /*out_capabilities*/) {
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::setHdrConversionStrategy(
    const common::HdrConversionStrategy& /*conversion_strategy*/,
    common::Hdr* /*out_hdr*/) {
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::setRefreshRateChangedCallbackDebugEnabled(
    int64_t /*display*/, bool /*enabled*/) {
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

#endif

#if __ANDROID_API__ >= 35

ndk::ScopedAStatus ComposerClient::getDisplayConfigurations(
    int64_t display_id, int32_t /*max_frame_interval_ns*/,
    std::vector<DisplayConfiguration>* configurations) {
  DEBUG_FUNC();
  const std::unique_lock lock(hwc_->GetResMan().GetMainLock());
  HwcDisplay* display = GetDisplay(display_id);
  if (display == nullptr) {
    return ToBinderStatus(hwc3::Error::kBadDisplay);
  }

  const HwcDisplayConfigs& configs = display->GetDisplayConfigs();
  const auto bounds = display->GetDisplayBoundsMm();
  for (const auto& [id, config] : configs.hwc_configs) {
    configurations->push_back(
        HwcDisplayConfigToAidlConfiguration(/*width =*/ bounds.first,
                                            /*height =*/ bounds.second,
                                            config));
  }
  return ndk::ScopedAStatus::ok();
}

ndk::ScopedAStatus ComposerClient::notifyExpectedPresent(
    int64_t /*display*/,
    const ClockMonotonicTimestamp& /*expected_present_time*/,
    int32_t /*frame_interval_ns*/) {
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::startHdcpNegotiation(
    int64_t /*display*/, const AidlHdcpLevels& /*levels*/) {
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

#endif

ndk::ScopedAStatus ComposerClient::getMaxLayerPictureProfiles(int64_t, int32_t*) {
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

ndk::ScopedAStatus ComposerClient::getLuts(int64_t, const std::vector<Buffer>&,
    std::vector<Luts>*) {
  return ToBinderStatus(hwc3::Error::kUnsupported);
}

std::string ComposerClient::Dump() {
  uint32_t size = 0;
  hwc_->Dump(&size, nullptr);

  std::string buffer(size, '\0');
  hwc_->Dump(&size, &buffer.front());
  return buffer;
}

::ndk::SpAIBinder ComposerClient::createBinder() {
  auto binder = BnComposerClient::createBinder();
  AIBinder_setInheritRt(binder.get(), true);
  return binder;
}

void ComposerClient::ExecuteSetDisplayClientTarget(
    uint64_t display_id, const ClientTarget& command) {
  auto* display = GetDisplay(display_id);
  if (display == nullptr) {
    cmd_result_writer_->AddError(hwc3::Error::kBadDisplay);
    return;
  }

  auto& client_layer = display->GetClientLayer();
  auto hwc3layer = GetHwc3Layer(client_layer);

  std::optional<buffer_handle_t> raw_buffer = std::nullopt;
  if (command.buffer.handle) {
    raw_buffer = ::android::makeFromAidl(*command.buffer.handle);
  }

  // NOLINTNEXTLINE(cppcoreguidelines-pro-type-const-cast)
  auto fence = const_cast<::ndk::ScopedFileDescriptor&>(command.buffer.fence)
                   .release();

  auto properties = hwc3layer->HandleNextBuffer(raw_buffer,
                                                ::android::MakeSharedFd(fence),
                                                command.buffer.slot);

  if (!properties) {
    ALOGE("Failed to import client target buffer.");
    /* Here, sending an error would be the natural way to do the thing.
     * But VTS checks for no error. Is it the VTS issue?
     * https://cs.android.com/android/platform/superproject/main/+/main:hardware/interfaces/graphics/composer/aidl/vts/VtsHalGraphicsComposer3_TargetTest.cpp;l=1892;drc=2647200f4c535ca6567b452695b7d13f2aaf3f2a
     */
    return;
  }

  properties->color_space = AidlToColorSpace(command.dataspace);
  properties->sample_range = AidlToSampleRange(command.dataspace);

  client_layer.SetLayerProperties(properties.value());
}

void ComposerClient::ExecuteSetDisplayOutputBuffer(uint64_t display_id,
                                                   const Buffer& buffer) {
  auto* display = GetDisplay(display_id);
  if (display == nullptr) {
    cmd_result_writer_->AddError(hwc3::Error::kBadDisplay);
    return;
  }

  auto& writeback_layer = display->GetWritebackLayer();
  if (!writeback_layer) {
    cmd_result_writer_->AddError(hwc3::Error::kBadLayer);
    return;
  }

  auto hwc3layer = GetHwc3Layer(*writeback_layer);

  std::optional<buffer_handle_t> raw_buffer = std::nullopt;
  if (buffer.handle) {
    raw_buffer = ::android::makeFromAidl(*buffer.handle);
  }

  // NOLINTNEXTLINE(cppcoreguidelines-pro-type-const-cast)
  auto fence = const_cast<::ndk::ScopedFileDescriptor&>(buffer.fence).release();

  auto properties = hwc3layer->HandleNextBuffer(raw_buffer,
                                                ::android::MakeSharedFd(fence),
                                                buffer.slot);

  if (!properties) {
    cmd_result_writer_->AddError(hwc3::Error::kBadLayer);
    return;
  }

  writeback_layer->SetLayerProperties(properties.value());
}

}  // namespace aidl::android::hardware::graphics::composer3::impl