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path: root/drmhwctwo.cpp
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/*
 * Copyright (C) 2016 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 ATRACE_TAG ATRACE_TAG_GRAPHICS
#define LOG_TAG "hwc-drm-two"

#include "drmdisplaycomposition.h"
#include "drmhwcomposer.h"
#include "drmhwctwo.h"
#include "platform.h"

#include <inttypes.h>
#include <string>

#include <cutils/log.h>
#include <cutils/properties.h>
#include <hardware/hardware.h>
#include <hardware/hwcomposer2.h>

namespace android {

class VBlankEventHandler : public DrmEventHandler {
  public:
    VBlankEventHandler(hwc2_function_pointer_t func,
                       hwc2_callback_data_t data,
                       hwc2_display_t display) :
                       func_(func),
                       data_(data),
                       display_(display) {

    }

  void HandleEvent(uint64_t timestamp_us) {
    auto func = reinterpret_cast<HWC2_PFN_VSYNC>(func_);
    func(data_, display_, timestamp_us);
  }

  private:
    hwc2_function_pointer_t func_;
    hwc2_callback_data_t data_;
    hwc2_display_t display_;
};

DrmHwcTwo::DrmHwcTwo() {
  common.tag = HARDWARE_DEVICE_TAG;
  common.version = HWC_DEVICE_API_VERSION_2_0;
  common.close = HookDevClose;
  getCapabilities = HookDevGetCapabilities;
  getFunction = HookDevGetFunction;
}

HWC2::Error DrmHwcTwo::Init() {
  int ret = drm_.Init();
  if (ret) {
    ALOGE("Can't initialize drm object %d", ret);
    return HWC2::Error::NoResources;
  }

  importer_.reset(Importer::CreateInstance(&drm_));
  if (!importer_) {
    ALOGE("Failed to create importer instance");
    return HWC2::Error::NoResources;
  }

  ret = hw_get_module(GRALLOC_HARDWARE_MODULE_ID,
                      (const hw_module_t **)&gralloc_);
  if (ret) {
    ALOGE("Failed to open gralloc module %d", ret);
    return HWC2::Error::NoResources;
  }

  displays_.emplace(std::piecewise_construct,
                    std::forward_as_tuple(HWC_DISPLAY_PRIMARY),
                    std::forward_as_tuple(&drm_, importer_, gralloc_,
                                          HWC_DISPLAY_PRIMARY,
                                          HWC2::DisplayType::Physical));

  DrmCrtc *crtc = drm_.GetCrtcForDisplay(static_cast<int>(HWC_DISPLAY_PRIMARY));
  if (!crtc) {
    ALOGE("Failed to get crtc for display %d",
          static_cast<int>(HWC_DISPLAY_PRIMARY));
    return HWC2::Error::BadDisplay;
  }

  std::vector<DrmPlane *> display_planes;
  for (auto &plane : drm_.planes()) {
    if (plane->GetCrtcSupported(*crtc))
      display_planes.push_back(plane.get());
  }
  displays_.at(HWC_DISPLAY_PRIMARY).Init(&display_planes);
  return HWC2::Error::None;
}

template <typename... Args>
static inline HWC2::Error unsupported(char const *func, Args... /*args*/) {
  ALOGV("Unsupported function: %s", func);
  return HWC2::Error::Unsupported;
}

static inline void supported(char const *func) {
  ALOGV("Supported function: %s", func);
}

HWC2::Error DrmHwcTwo::CreateVirtualDisplay(uint32_t width, uint32_t height,
                                            int32_t *format,
                                            hwc2_display_t *display) {
  // TODO: Implement virtual display
  return unsupported(__func__, width, height, format, display);
}

HWC2::Error DrmHwcTwo::DestroyVirtualDisplay(hwc2_display_t display) {
  // TODO: Implement virtual display
  return unsupported(__func__, display);
}

void DrmHwcTwo::Dump(uint32_t *size, char *buffer) {
  // TODO: Implement dump
  unsupported(__func__, size, buffer);
}

uint32_t DrmHwcTwo::GetMaxVirtualDisplayCount() {
  // TODO: Implement virtual display
  unsupported(__func__);
  return 0;
}

HWC2::Error DrmHwcTwo::RegisterCallback(int32_t descriptor,
                                        hwc2_callback_data_t data,
                                        hwc2_function_pointer_t function) {
  supported(__func__);
  auto callback = static_cast<HWC2::Callback>(descriptor);
  callbacks_.emplace(callback, HwcCallback(data, function));

  switch (callback) {
    case HWC2::Callback::Hotplug: {
      auto hotplug = reinterpret_cast<HWC2_PFN_HOTPLUG>(function);
      hotplug(data, HWC_DISPLAY_PRIMARY,
              static_cast<int32_t>(HWC2::Connection::Connected));
      break;
    }
    case HWC2::Callback::Vsync: {
      for (std::pair<const hwc2_display_t, DrmHwcTwo::HwcDisplay> &d :
           displays_)
        d.second.RegisterVsyncCallback(function, data, d.first);
      break;
    }
    default:
      break;
  }
  return HWC2::Error::None;
}

DrmHwcTwo::HwcDisplay::HwcDisplay(DrmResources *drm,
                                  std::shared_ptr<Importer> importer,
                                  const gralloc_module_t *gralloc,
                                  hwc2_display_t handle, HWC2::DisplayType type)
    : drm_(drm),
      importer_(importer),
      gralloc_(gralloc),
      handle_(handle),
      type_(type) {
  supported(__func__);
}

HWC2::Error DrmHwcTwo::HwcDisplay::Init(std::vector<DrmPlane *> *planes) {
  supported(__func__);
  planner_ = Planner::CreateInstance(drm_);
  if (!planner_) {
    ALOGE("Failed to create planner instance for composition");
    return HWC2::Error::NoResources;
  }

  int display = static_cast<int>(handle_);
  int ret = compositor_.Init(drm_, display);
  if (ret) {
    ALOGE("Failed display compositor init for display %d (%d)", display, ret);
    return HWC2::Error::NoResources;
  }

  // Split up the given display planes into primary and overlay to properly
  // interface with the composition
  char use_overlay_planes_prop[PROPERTY_VALUE_MAX];
  property_get("hwc.drm.use_overlay_planes", use_overlay_planes_prop, "1");
  bool use_overlay_planes = atoi(use_overlay_planes_prop);
  for (auto &plane : *planes) {
    if (plane->type() == DRM_PLANE_TYPE_PRIMARY)
      primary_planes_.push_back(plane);
    else if (use_overlay_planes && (plane)->type() == DRM_PLANE_TYPE_OVERLAY)
      overlay_planes_.push_back(plane);
    else if (plane->type() == DRM_PLANE_TYPE_CURSOR)
      cursor_planes_.push_back(plane);
  }

  crtc_ = drm_->GetCrtcForDisplay(display);
  if (!crtc_) {
    ALOGE("Failed to get crtc for display %d", display);
    return HWC2::Error::BadDisplay;
  }

  connector_ = drm_->GetConnectorForDisplay(display);
  if (!connector_) {
    ALOGE("Failed to get connector for display %d", display);
    return HWC2::Error::BadDisplay;
  }

  // Fetch the number of modes from the display
  uint32_t num_configs;
  HWC2::Error err = GetDisplayConfigs(&num_configs, NULL);
  if (err != HWC2::Error::None || !num_configs)
    return err;

  // Grab the first mode, we'll choose this as the active mode
  // TODO: Should choose the preferred mode here
  hwc2_config_t default_config;
  num_configs = 1;
  err = GetDisplayConfigs(&num_configs, &default_config);
  if (err != HWC2::Error::None)
    return err;

  if (ret) {
    ALOGE("Failed to create event worker for d=%d %d\n", display, ret);
    return HWC2::Error::BadDisplay;
  }

  return SetActiveConfig(default_config);
}

HWC2::Error DrmHwcTwo::HwcDisplay::RegisterVsyncCallback(hwc2_function_pointer_t func,
                                                         hwc2_callback_data_t data,
                                                         hwc2_display_t display) {
  supported(__func__);

  auto event_listener = drm_->event_listener();
  if (!event_listener) {
    ALOGE("Event listener not initialized");
    return HWC2::Error::NoResources;
  }

  auto handler = std::make_shared<VBlankEventHandler>(func, data, display);
  event_listener->RegisterVBlankHandler(handler);

  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::AcceptDisplayChanges() {
  supported(__func__);
  uint32_t num_changes = 0;
  for (std::pair<const hwc2_layer_t, DrmHwcTwo::HwcLayer> &l : layers_)
    l.second.accept_type_change();
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::CreateLayer(hwc2_layer_t *layer) {
  supported(__func__);
  layers_.emplace(static_cast<hwc2_layer_t>(layer_idx_), HwcLayer());
  *layer = static_cast<hwc2_layer_t>(layer_idx_);
  ++layer_idx_;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::DestroyLayer(hwc2_layer_t layer) {
  supported(__func__);
  layers_.erase(layer);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetActiveConfig(hwc2_config_t *config) {
  supported(__func__);
  DrmMode const &mode = connector_->active_mode();
  if (mode.id() == 0)
    return HWC2::Error::BadConfig;

  *config = mode.id();
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetChangedCompositionTypes(
    uint32_t *num_elements, hwc2_layer_t *layers, int32_t *types) {
  supported(__func__);
  uint32_t num_changes = 0;
  for (std::pair<const hwc2_layer_t, DrmHwcTwo::HwcLayer> &l : layers_) {
    if (l.second.type_changed()) {
      if (layers && num_changes < *num_elements)
        layers[num_changes] = l.first;
      if (types && num_changes < *num_elements)
        types[num_changes] = static_cast<int32_t>(l.second.validated_type());
      ++num_changes;
    }
  }
  if (!layers && !types)
    *num_elements = num_changes;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetClientTargetSupport(uint32_t width,
                                                          uint32_t height,
                                                          int32_t /*format*/,
                                                          int32_t dataspace) {
  supported(__func__);
  std::pair<uint32_t, uint32_t> min = drm_->min_resolution();
  std::pair<uint32_t, uint32_t> max = drm_->max_resolution();

  if (width < min.first || height < min.second)
    return HWC2::Error::Unsupported;

  if (width > max.first || height > max.second)
    return HWC2::Error::Unsupported;

  if (dataspace != HAL_DATASPACE_UNKNOWN &&
      dataspace != HAL_DATASPACE_STANDARD_UNSPECIFIED)
    return HWC2::Error::Unsupported;

  // TODO: Validate format can be handled by either GL or planes
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetColorModes(uint32_t *num_modes,
                                                 int32_t *modes) {
  supported(__func__);
  if (!modes)
    *num_modes = 1;

  if (modes)
    *modes = HAL_COLOR_MODE_NATIVE;

  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetDisplayAttribute(hwc2_config_t config,
                                                       int32_t attribute_in,
                                                       int32_t *value) {
  supported(__func__);
  auto mode =
      std::find_if(connector_->modes().begin(), connector_->modes().end(),
                   [config](DrmMode const &m) { return m.id() == config; });
  if (mode == connector_->modes().end()) {
    ALOGE("Could not find active mode for %d", config);
    return HWC2::Error::BadConfig;
  }

  static const int32_t kUmPerInch = 25400;
  uint32_t mm_width = connector_->mm_width();
  uint32_t mm_height = connector_->mm_height();
  auto attribute = static_cast<HWC2::Attribute>(attribute_in);
  switch (attribute) {
    case HWC2::Attribute::Width:
      *value = mode->h_display();
      break;
    case HWC2::Attribute::Height:
      *value = mode->v_display();
      break;
    case HWC2::Attribute::VsyncPeriod:
      // in nanoseconds
      *value = 1000 * 1000 * 1000 / mode->v_refresh();
      break;
    case HWC2::Attribute::DpiX:
      // Dots per 1000 inches
      *value = mm_width ? (mode->h_display() * kUmPerInch) / mm_width : -1;
      break;
    case HWC2::Attribute::DpiY:
      // Dots per 1000 inches
      *value = mm_height ? (mode->v_display() * kUmPerInch) / mm_height : -1;
      break;
    default:
      *value = -1;
      return HWC2::Error::BadConfig;
  }
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetDisplayConfigs(uint32_t *num_configs,
                                                     hwc2_config_t *configs) {
  supported(__func__);
  // Since this callback is normally invoked twice (once to get the count, and
  // once to populate configs), we don't really want to read the edid
  // redundantly. Instead, only update the modes on the first invocation. While
  // it's possible this will result in stale modes, it'll all come out in the
  // wash when we try to set the active config later.
  if (!configs) {
    int ret = connector_->UpdateModes();
    if (ret) {
      ALOGE("Failed to update display modes %d", ret);
      return HWC2::Error::BadDisplay;
    }
  }

  auto num_modes = static_cast<uint32_t>(connector_->modes().size());
  if (!configs) {
    *num_configs = num_modes;
    return HWC2::Error::None;
  }

  uint32_t idx = 0;
  for (const DrmMode &mode : connector_->modes()) {
    if (idx >= *num_configs)
      break;
    configs[idx++] = mode.id();
  }
  *num_configs = idx;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetDisplayName(uint32_t *size, char *name) {
  supported(__func__);
  std::ostringstream stream;
  stream << "display-" << connector_->id();
  std::string string = stream.str();
  size_t length = string.length();
  if (!name) {
    *size = length;
    return HWC2::Error::None;
  }

  *size = std::min<uint32_t>(static_cast<uint32_t>(length - 1), *size);
  strncpy(name, string.c_str(), *size);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetDisplayRequests(int32_t *display_requests,
                                                      uint32_t *num_elements,
                                                      hwc2_layer_t *layers,
                                                      int32_t *layer_requests) {
  supported(__func__);
  // TODO: I think virtual display should request
  //      HWC2_DISPLAY_REQUEST_WRITE_CLIENT_TARGET_TO_OUTPUT here
  unsupported(__func__, display_requests, num_elements, layers, layer_requests);
  *num_elements = 0;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetDisplayType(int32_t *type) {
  supported(__func__);
  *type = static_cast<int32_t>(type_);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetDozeSupport(int32_t *support) {
  supported(__func__);
  *support = 0;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetHdrCapabilities(
    uint32_t *num_types, int32_t */*types*/, float */*max_luminance*/,
    float */*max_average_luminance*/, float */*min_luminance*/) {
  supported(__func__);
  *num_types = 0;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::GetReleaseFences(uint32_t *num_elements,
                                                    hwc2_layer_t *layers,
                                                    int32_t *fences) {
  supported(__func__);
  uint32_t num_layers = 0;

  for (std::pair<const hwc2_layer_t, DrmHwcTwo::HwcLayer> &l : layers_) {
    ++num_layers;
    if (layers == NULL || fences == NULL) {
      continue;
    } else if (num_layers > *num_elements) {
      ALOGW("Overflow num_elements %d/%d", num_layers, *num_elements);
      return HWC2::Error::None;
    }

    layers[num_layers - 1] = l.first;
    fences[num_layers - 1] = l.second.take_release_fence();
  }
  *num_elements = num_layers;
  return HWC2::Error::None;
}

void DrmHwcTwo::HwcDisplay::AddFenceToRetireFence(int fd) {
  supported(__func__);
  if (fd < 0)
    return;

  if (next_retire_fence_.get() >= 0) {
    int old_fence = next_retire_fence_.get();
    next_retire_fence_.Set(sync_merge("dc_retire", old_fence, fd));
  } else {
    next_retire_fence_.Set(dup(fd));
  }
}

HWC2::Error DrmHwcTwo::HwcDisplay::PresentDisplay(int32_t *retire_fence) {
  supported(__func__);
  std::vector<DrmCompositionDisplayLayersMap> layers_map;
  layers_map.emplace_back();
  DrmCompositionDisplayLayersMap &map = layers_map.back();

  map.display = static_cast<int>(handle_);
  map.geometry_changed = true;  // TODO: Fix this

  // order the layers by z-order
  bool use_client_layer = false;
  uint32_t client_z_order = 0;
  std::map<uint32_t, DrmHwcTwo::HwcLayer *> z_map;
  for (std::pair<const hwc2_layer_t, DrmHwcTwo::HwcLayer> &l : layers_) {
    switch (l.second.validated_type()) {
      case HWC2::Composition::Device:
        z_map.emplace(std::make_pair(l.second.z_order(), &l.second));
        break;
      case HWC2::Composition::Client:
        // Place it at the z_order of the highest client layer
        use_client_layer = true;
        client_z_order = std::max(client_z_order, l.second.z_order());
        break;
      default:
        continue;
    }
  }
  if (use_client_layer && client_layer_.buffer())
    z_map.emplace(std::make_pair(client_z_order, &client_layer_));

  // now that they're ordered by z, add them to the composition
  for (std::pair<const uint32_t, DrmHwcTwo::HwcLayer *> &l : z_map) {
    DrmHwcLayer layer;
    l.second->PopulateDrmLayer(&layer);
    int ret = layer.ImportBuffer(importer_.get(), gralloc_);
    if (ret) {
      ALOGE("Failed to import layer, ret=%d", ret);
      return HWC2::Error::NoResources;
    }
    map.layers.emplace_back(std::move(layer));
  }
  if (map.layers.empty()) {
    *retire_fence = -1;
    return HWC2::Error::None;
  }

  std::unique_ptr<DrmDisplayComposition> composition =
      compositor_.CreateComposition();
  composition->Init(drm_, crtc_, importer_.get(), planner_.get(), frame_no_);

  // TODO: Don't always assume geometry changed
  int ret = composition->SetLayers(map.layers.data(), map.layers.size(), true);
  if (ret) {
    ALOGE("Failed to set layers in the composition ret=%d", ret);
    return HWC2::Error::BadLayer;
  }

  std::vector<DrmPlane *> primary_planes(primary_planes_);
  std::vector<DrmPlane *> overlay_planes(overlay_planes_);
  std::vector<DrmPlane *> cursor_planes(cursor_planes_);
  ret = composition->Plan(compositor_.squash_state(), &primary_planes,
                         &overlay_planes, &cursor_planes);
  if (ret) {
    ALOGE("Failed to plan the composition ret=%d", ret);
    return HWC2::Error::BadConfig;
  }

  // Disable the planes we're not using
  for (auto i = primary_planes.begin(); i != primary_planes.end();) {
    composition->AddPlaneDisable(*i);
    i = primary_planes.erase(i);
  }
  for (auto i = overlay_planes.begin(); i != overlay_planes.end();) {
    composition->AddPlaneDisable(*i);
    i = overlay_planes.erase(i);
  }
  for (auto i = cursor_planes.begin(); i != cursor_planes.end();) {
    composition->AddPlaneDisable(*i);
    i = cursor_planes.erase(i);
  }

  AddFenceToRetireFence(composition->take_out_fence());

  ret = compositor_.ApplyComposition(std::move(composition));
  if (ret) {
    ALOGE("Failed to apply the frame composition ret=%d", ret);
    return HWC2::Error::BadParameter;
  }

  // The retire fence returned here is for the last frame, so return it and
  // promote the next retire fence
  *retire_fence = retire_fence_.Release();
  retire_fence_ = std::move(next_retire_fence_);

  ++frame_no_;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::SetActiveConfig(hwc2_config_t config) {
  supported(__func__);
  auto mode =
      std::find_if(connector_->modes().begin(), connector_->modes().end(),
                   [config](DrmMode const &m) { return m.id() == config; });
  if (mode == connector_->modes().end()) {
    ALOGE("Could not find active mode for %d", config);
    return HWC2::Error::BadConfig;
  }

  std::unique_ptr<DrmDisplayComposition> composition =
      compositor_.CreateComposition();
  composition->Init(drm_, crtc_, importer_.get(), planner_.get(), frame_no_);
  int ret = composition->SetDisplayMode(*mode);
  ret = compositor_.ApplyComposition(std::move(composition));
  if (ret) {
    ALOGE("Failed to queue dpms composition on %d", ret);
    return HWC2::Error::BadConfig;
  }
  if (connector_->active_mode().id() == 0)
    connector_->set_active_mode(*mode);

  // Setup the client layer's dimensions
  hwc_rect_t display_frame = {.left = 0,
                              .top = 0,
                              .right = static_cast<int>(mode->h_display()),
                              .bottom = static_cast<int>(mode->v_display())};
  client_layer_.SetLayerDisplayFrame(display_frame);
  hwc_frect_t source_crop = {.left = 0.0f,
                             .top = 0.0f,
                             .right = mode->h_display() + 0.0f,
                             .bottom = mode->v_display() + 0.0f};
  client_layer_.SetLayerSourceCrop(source_crop);

  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::SetClientTarget(buffer_handle_t target,
                                                   int32_t acquire_fence,
                                                   int32_t dataspace,
                                                   hwc_region_t damage) {
  supported(__func__);
  UniqueFd uf(acquire_fence);

  client_layer_.set_buffer(target);
  client_layer_.set_acquire_fence(uf.get());
  client_layer_.SetLayerDataspace(dataspace);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::SetColorMode(int32_t mode) {
  supported(__func__);
  color_mode_ = mode;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::SetColorTransform(const float *matrix,
                                                     int32_t hint) {
  supported(__func__);
  // TODO: Force client composition if we get this
  return unsupported(__func__, matrix, hint);
}

HWC2::Error DrmHwcTwo::HwcDisplay::SetOutputBuffer(buffer_handle_t buffer,
                                                   int32_t release_fence) {
  supported(__func__);
  // TODO: Need virtual display support
  return unsupported(__func__, buffer, release_fence);
}

HWC2::Error DrmHwcTwo::HwcDisplay::SetPowerMode(int32_t mode_in) {
  supported(__func__);
  uint64_t dpms_value = 0;
  auto mode = static_cast<HWC2::PowerMode>(mode_in);
  switch (mode) {
    case HWC2::PowerMode::Off:
      dpms_value = DRM_MODE_DPMS_OFF;
      break;
    case HWC2::PowerMode::On:
      dpms_value = DRM_MODE_DPMS_ON;
      break;
    default:
      ALOGI("Power mode %d is unsupported\n", mode);
      return HWC2::Error::Unsupported;
  };

  std::unique_ptr<DrmDisplayComposition> composition =
      compositor_.CreateComposition();
  composition->Init(drm_, crtc_, importer_.get(), planner_.get(), frame_no_);
  composition->SetDpmsMode(dpms_value);
  int ret = compositor_.ApplyComposition(std::move(composition));
  if (ret) {
    ALOGE("Failed to apply the dpms composition ret=%d", ret);
    return HWC2::Error::BadParameter;
  }
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::SetVsyncEnabled(int32_t enabled) {
  supported(__func__);

  auto event_listener = drm_->event_listener();
  if (!event_listener) {
    ALOGE("Event listener not initialized");
    return HWC2::Error::NoResources;
  }

  event_listener->SetVBlankHandlerEnabled(enabled);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcDisplay::ValidateDisplay(uint32_t *num_types,
                                                   uint32_t *num_requests) {
  supported(__func__);
  *num_types = 0;
  *num_requests = 0;
  for (std::pair<const hwc2_layer_t, DrmHwcTwo::HwcLayer> &l : layers_) {
    DrmHwcTwo::HwcLayer &layer = l.second;
    layer.set_validated_type(HWC2::Composition::Client);
    ++*num_types;
  }
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetCursorPosition(int32_t x, int32_t y) {
  supported(__func__);
  cursor_x_ = x;
  cursor_y_ = y;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerBlendMode(int32_t mode) {
  supported(__func__);
  blending_ = static_cast<HWC2::BlendMode>(mode);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerBuffer(buffer_handle_t buffer,
                                                int32_t acquire_fence) {
  supported(__func__);
  UniqueFd uf(acquire_fence);

  // The buffer and acquire_fence are handled elsewhere
  if (sf_type_ == HWC2::Composition::Client ||
      sf_type_ == HWC2::Composition::Sideband ||
      sf_type_ == HWC2::Composition::SolidColor)
    return HWC2::Error::None;

  set_buffer(buffer);
  set_acquire_fence(uf.get());
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerColor(hwc_color_t color) {
  // TODO: Punt to client composition here?
  return unsupported(__func__, color);
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerCompositionType(int32_t type) {
  sf_type_ = static_cast<HWC2::Composition>(type);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerDataspace(int32_t dataspace) {
  supported(__func__);
  dataspace_ = static_cast<android_dataspace_t>(dataspace);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerDisplayFrame(hwc_rect_t frame) {
  supported(__func__);
  display_frame_ = frame;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerPlaneAlpha(float alpha) {
  supported(__func__);
  alpha_ = alpha;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerSidebandStream(
    const native_handle_t *stream) {
  supported(__func__);
  // TODO: We don't support sideband
  return unsupported(__func__, stream);
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerSourceCrop(hwc_frect_t crop) {
  supported(__func__);
  source_crop_ = crop;
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerSurfaceDamage(hwc_region_t damage) {
  supported(__func__);
  // TODO: We don't use surface damage, marking as unsupported
  unsupported(__func__, damage);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerTransform(int32_t transform) {
  supported(__func__);
  transform_ = static_cast<HWC2::Transform>(transform);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerVisibleRegion(hwc_region_t visible) {
  supported(__func__);
  // TODO: We don't use this information, marking as unsupported
  unsupported(__func__, visible);
  return HWC2::Error::None;
}

HWC2::Error DrmHwcTwo::HwcLayer::SetLayerZOrder(uint32_t order) {
  supported(__func__);
  z_order_ = order;
  return HWC2::Error::None;
}

void DrmHwcTwo::HwcLayer::PopulateDrmLayer(DrmHwcLayer *layer) {
  supported(__func__);
  switch (blending_) {
    case HWC2::BlendMode::None:
      layer->blending = DrmHwcBlending::kNone;
      break;
    case HWC2::BlendMode::Premultiplied:
      layer->blending = DrmHwcBlending::kPreMult;
      break;
    case HWC2::BlendMode::Coverage:
      layer->blending = DrmHwcBlending::kCoverage;
      break;
    default:
      ALOGE("Unknown blending mode b=%d", blending_);
      layer->blending = DrmHwcBlending::kNone;
      break;
  }

  OutputFd release_fence = release_fence_output();

  layer->sf_handle = buffer_;
  layer->acquire_fence = acquire_fence_.Release();
  layer->release_fence = std::move(release_fence);
  layer->SetDisplayFrame(display_frame_);
  layer->alpha = static_cast<uint8_t>(255.0f * alpha_ + 0.5f);
  layer->SetSourceCrop(source_crop_);
  layer->SetTransform(static_cast<int32_t>(transform_));
}

// static
int DrmHwcTwo::HookDevClose(hw_device_t * /*dev*/) {
  unsupported(__func__);
  return 0;
}

// static
void DrmHwcTwo::HookDevGetCapabilities(hwc2_device_t * /*dev*/,
                                       uint32_t *out_count,
                                       int32_t * /*out_capabilities*/) {
  supported(__func__);
  *out_count = 0;
}

// static
hwc2_function_pointer_t DrmHwcTwo::HookDevGetFunction(
    struct hwc2_device * /*dev*/, int32_t descriptor) {
  supported(__func__);
  auto func = static_cast<HWC2::FunctionDescriptor>(descriptor);
  switch (func) {
    // Device functions
    case HWC2::FunctionDescriptor::CreateVirtualDisplay:
      return ToHook<HWC2_PFN_CREATE_VIRTUAL_DISPLAY>(
          DeviceHook<int32_t, decltype(&DrmHwcTwo::CreateVirtualDisplay),
                     &DrmHwcTwo::CreateVirtualDisplay, uint32_t, uint32_t,
                     int32_t*, hwc2_display_t *>);
    case HWC2::FunctionDescriptor::DestroyVirtualDisplay:
      return ToHook<HWC2_PFN_DESTROY_VIRTUAL_DISPLAY>(
          DeviceHook<int32_t, decltype(&DrmHwcTwo::DestroyVirtualDisplay),
                     &DrmHwcTwo::DestroyVirtualDisplay, hwc2_display_t>);
    case HWC2::FunctionDescriptor::Dump:
      return ToHook<HWC2_PFN_DUMP>(
          DeviceHook<void, decltype(&DrmHwcTwo::Dump), &DrmHwcTwo::Dump,
                     uint32_t *, char *>);
    case HWC2::FunctionDescriptor::GetMaxVirtualDisplayCount:
      return ToHook<HWC2_PFN_GET_MAX_VIRTUAL_DISPLAY_COUNT>(
          DeviceHook<uint32_t, decltype(&DrmHwcTwo::GetMaxVirtualDisplayCount),
                     &DrmHwcTwo::GetMaxVirtualDisplayCount>);
    case HWC2::FunctionDescriptor::RegisterCallback:
      return ToHook<HWC2_PFN_REGISTER_CALLBACK>(
          DeviceHook<int32_t, decltype(&DrmHwcTwo::RegisterCallback),
                     &DrmHwcTwo::RegisterCallback, int32_t,
                     hwc2_callback_data_t, hwc2_function_pointer_t>);

    // Display functions
    case HWC2::FunctionDescriptor::AcceptDisplayChanges:
      return ToHook<HWC2_PFN_ACCEPT_DISPLAY_CHANGES>(
          DisplayHook<decltype(&HwcDisplay::AcceptDisplayChanges),
                      &HwcDisplay::AcceptDisplayChanges>);
    case HWC2::FunctionDescriptor::CreateLayer:
      return ToHook<HWC2_PFN_CREATE_LAYER>(
          DisplayHook<decltype(&HwcDisplay::CreateLayer),
                      &HwcDisplay::CreateLayer, hwc2_layer_t *>);
    case HWC2::FunctionDescriptor::DestroyLayer:
      return ToHook<HWC2_PFN_DESTROY_LAYER>(
          DisplayHook<decltype(&HwcDisplay::DestroyLayer),
                      &HwcDisplay::DestroyLayer, hwc2_layer_t>);
    case HWC2::FunctionDescriptor::GetActiveConfig:
      return ToHook<HWC2_PFN_GET_ACTIVE_CONFIG>(
          DisplayHook<decltype(&HwcDisplay::GetActiveConfig),
                      &HwcDisplay::GetActiveConfig, hwc2_config_t *>);
    case HWC2::FunctionDescriptor::GetChangedCompositionTypes:
      return ToHook<HWC2_PFN_GET_CHANGED_COMPOSITION_TYPES>(
          DisplayHook<decltype(&HwcDisplay::GetChangedCompositionTypes),
                      &HwcDisplay::GetChangedCompositionTypes, uint32_t *,
                      hwc2_layer_t *, int32_t *>);
    case HWC2::FunctionDescriptor::GetClientTargetSupport:
      return ToHook<HWC2_PFN_GET_CLIENT_TARGET_SUPPORT>(
          DisplayHook<decltype(&HwcDisplay::GetClientTargetSupport),
                      &HwcDisplay::GetClientTargetSupport, uint32_t, uint32_t,
                      int32_t, int32_t>);
    case HWC2::FunctionDescriptor::GetColorModes:
      return ToHook<HWC2_PFN_GET_COLOR_MODES>(
          DisplayHook<decltype(&HwcDisplay::GetColorModes),
                      &HwcDisplay::GetColorModes, uint32_t *, int32_t *>);
    case HWC2::FunctionDescriptor::GetDisplayAttribute:
      return ToHook<HWC2_PFN_GET_DISPLAY_ATTRIBUTE>(DisplayHook<
          decltype(&HwcDisplay::GetDisplayAttribute),
          &HwcDisplay::GetDisplayAttribute, hwc2_config_t, int32_t, int32_t *>);
    case HWC2::FunctionDescriptor::GetDisplayConfigs:
      return ToHook<HWC2_PFN_GET_DISPLAY_CONFIGS>(DisplayHook<
          decltype(&HwcDisplay::GetDisplayConfigs),
          &HwcDisplay::GetDisplayConfigs, uint32_t *, hwc2_config_t *>);
    case HWC2::FunctionDescriptor::GetDisplayName:
      return ToHook<HWC2_PFN_GET_DISPLAY_NAME>(
          DisplayHook<decltype(&HwcDisplay::GetDisplayName),
                      &HwcDisplay::GetDisplayName, uint32_t *, char *>);
    case HWC2::FunctionDescriptor::GetDisplayRequests:
      return ToHook<HWC2_PFN_GET_DISPLAY_REQUESTS>(
          DisplayHook<decltype(&HwcDisplay::GetDisplayRequests),
                      &HwcDisplay::GetDisplayRequests, int32_t *, uint32_t *,
                      hwc2_layer_t *, int32_t *>);
    case HWC2::FunctionDescriptor::GetDisplayType:
      return ToHook<HWC2_PFN_GET_DISPLAY_TYPE>(
          DisplayHook<decltype(&HwcDisplay::GetDisplayType),
                      &HwcDisplay::GetDisplayType, int32_t *>);
    case HWC2::FunctionDescriptor::GetDozeSupport:
      return ToHook<HWC2_PFN_GET_DOZE_SUPPORT>(
          DisplayHook<decltype(&HwcDisplay::GetDozeSupport),
                      &HwcDisplay::GetDozeSupport, int32_t *>);
    case HWC2::FunctionDescriptor::GetHdrCapabilities:
      return ToHook<HWC2_PFN_GET_HDR_CAPABILITIES>(
          DisplayHook<decltype(&HwcDisplay::GetHdrCapabilities),
                      &HwcDisplay::GetHdrCapabilities, uint32_t *, int32_t *,
                      float *, float *, float *>);
    case HWC2::FunctionDescriptor::GetReleaseFences:
      return ToHook<HWC2_PFN_GET_RELEASE_FENCES>(
          DisplayHook<decltype(&HwcDisplay::GetReleaseFences),
                      &HwcDisplay::GetReleaseFences, uint32_t *, hwc2_layer_t *,
                      int32_t *>);
    case HWC2::FunctionDescriptor::PresentDisplay:
      return ToHook<HWC2_PFN_PRESENT_DISPLAY>(
          DisplayHook<decltype(&HwcDisplay::PresentDisplay),
                      &HwcDisplay::PresentDisplay, int32_t *>);
    case HWC2::FunctionDescriptor::SetActiveConfig:
      return ToHook<HWC2_PFN_SET_ACTIVE_CONFIG>(
          DisplayHook<decltype(&HwcDisplay::SetActiveConfig),
                      &HwcDisplay::SetActiveConfig, hwc2_config_t>);
    case HWC2::FunctionDescriptor::SetClientTarget:
      return ToHook<HWC2_PFN_SET_CLIENT_TARGET>(DisplayHook<
          decltype(&HwcDisplay::SetClientTarget), &HwcDisplay::SetClientTarget,
          buffer_handle_t, int32_t, int32_t, hwc_region_t>);
    case HWC2::FunctionDescriptor::SetColorMode:
      return ToHook<HWC2_PFN_SET_COLOR_MODE>(
          DisplayHook<decltype(&HwcDisplay::SetColorMode),
                      &HwcDisplay::SetColorMode, int32_t>);
    case HWC2::FunctionDescriptor::SetColorTransform:
      return ToHook<HWC2_PFN_SET_COLOR_TRANSFORM>(
          DisplayHook<decltype(&HwcDisplay::SetColorTransform),
                      &HwcDisplay::SetColorTransform, const float *, int32_t>);
    case HWC2::FunctionDescriptor::SetOutputBuffer:
      return ToHook<HWC2_PFN_SET_OUTPUT_BUFFER>(
          DisplayHook<decltype(&HwcDisplay::SetOutputBuffer),
                      &HwcDisplay::SetOutputBuffer, buffer_handle_t, int32_t>);
    case HWC2::FunctionDescriptor::SetPowerMode:
      return ToHook<HWC2_PFN_SET_POWER_MODE>(
          DisplayHook<decltype(&HwcDisplay::SetPowerMode),
                      &HwcDisplay::SetPowerMode, int32_t>);
    case HWC2::FunctionDescriptor::SetVsyncEnabled:
      return ToHook<HWC2_PFN_SET_VSYNC_ENABLED>(
          DisplayHook<decltype(&HwcDisplay::SetVsyncEnabled),
                      &HwcDisplay::SetVsyncEnabled, int32_t>);
    case HWC2::FunctionDescriptor::ValidateDisplay:
      return ToHook<HWC2_PFN_VALIDATE_DISPLAY>(
          DisplayHook<decltype(&HwcDisplay::ValidateDisplay),
                      &HwcDisplay::ValidateDisplay, uint32_t *, uint32_t *>);

    // Layer functions
    case HWC2::FunctionDescriptor::SetCursorPosition:
      return ToHook<HWC2_PFN_SET_CURSOR_POSITION>(
          LayerHook<decltype(&HwcLayer::SetCursorPosition),
                    &HwcLayer::SetCursorPosition, int32_t, int32_t>);
    case HWC2::FunctionDescriptor::SetLayerBlendMode:
      return ToHook<HWC2_PFN_SET_LAYER_BLEND_MODE>(
          LayerHook<decltype(&HwcLayer::SetLayerBlendMode),
                    &HwcLayer::SetLayerBlendMode, int32_t>);
    case HWC2::FunctionDescriptor::SetLayerBuffer:
      return ToHook<HWC2_PFN_SET_LAYER_BUFFER>(
          LayerHook<decltype(&HwcLayer::SetLayerBuffer),
                    &HwcLayer::SetLayerBuffer, buffer_handle_t, int32_t>);
    case HWC2::FunctionDescriptor::SetLayerColor:
      return ToHook<HWC2_PFN_SET_LAYER_COLOR>(
          LayerHook<decltype(&HwcLayer::SetLayerColor),
                    &HwcLayer::SetLayerColor, hwc_color_t>);
    case HWC2::FunctionDescriptor::SetLayerCompositionType:
      return ToHook<HWC2_PFN_SET_LAYER_COMPOSITION_TYPE>(
          LayerHook<decltype(&HwcLayer::SetLayerCompositionType),
                    &HwcLayer::SetLayerCompositionType, int32_t>);
    case HWC2::FunctionDescriptor::SetLayerDataspace:
      return ToHook<HWC2_PFN_SET_LAYER_DATASPACE>(
          LayerHook<decltype(&HwcLayer::SetLayerDataspace),
                    &HwcLayer::SetLayerDataspace, int32_t>);
    case HWC2::FunctionDescriptor::SetLayerDisplayFrame:
      return ToHook<HWC2_PFN_SET_LAYER_DISPLAY_FRAME>(
          LayerHook<decltype(&HwcLayer::SetLayerDisplayFrame),
                    &HwcLayer::SetLayerDisplayFrame, hwc_rect_t>);
    case HWC2::FunctionDescriptor::SetLayerPlaneAlpha:
      return ToHook<HWC2_PFN_SET_LAYER_PLANE_ALPHA>(
          LayerHook<decltype(&HwcLayer::SetLayerPlaneAlpha),
                    &HwcLayer::SetLayerPlaneAlpha, float>);
    case HWC2::FunctionDescriptor::SetLayerSidebandStream:
      return ToHook<HWC2_PFN_SET_LAYER_SIDEBAND_STREAM>(LayerHook<
          decltype(&HwcLayer::SetLayerSidebandStream),
          &HwcLayer::SetLayerSidebandStream, const native_handle_t *>);
    case HWC2::FunctionDescriptor::SetLayerSourceCrop:
      return ToHook<HWC2_PFN_SET_LAYER_SOURCE_CROP>(
          LayerHook<decltype(&HwcLayer::SetLayerSourceCrop),
                    &HwcLayer::SetLayerSourceCrop, hwc_frect_t>);
    case HWC2::FunctionDescriptor::SetLayerSurfaceDamage:
      return ToHook<HWC2_PFN_SET_LAYER_SURFACE_DAMAGE>(
          LayerHook<decltype(&HwcLayer::SetLayerSurfaceDamage),
                    &HwcLayer::SetLayerSurfaceDamage, hwc_region_t>);
    case HWC2::FunctionDescriptor::SetLayerTransform:
      return ToHook<HWC2_PFN_SET_LAYER_TRANSFORM>(
          LayerHook<decltype(&HwcLayer::SetLayerTransform),
                    &HwcLayer::SetLayerTransform, int32_t>);
    case HWC2::FunctionDescriptor::SetLayerVisibleRegion:
      return ToHook<HWC2_PFN_SET_LAYER_VISIBLE_REGION>(
          LayerHook<decltype(&HwcLayer::SetLayerVisibleRegion),
                    &HwcLayer::SetLayerVisibleRegion, hwc_region_t>);
    case HWC2::FunctionDescriptor::SetLayerZOrder:
      return ToHook<HWC2_PFN_SET_LAYER_Z_ORDER>(
          LayerHook<decltype(&HwcLayer::SetLayerZOrder),
                    &HwcLayer::SetLayerZOrder, uint32_t>);
    case HWC2::FunctionDescriptor::Invalid:
    default:
      return NULL;
  }
}

// static
int DrmHwcTwo::HookDevOpen(const struct hw_module_t *module, const char *name,
                           struct hw_device_t **dev) {
  supported(__func__);
  if (strcmp(name, HWC_HARDWARE_COMPOSER)) {
    ALOGE("Invalid module name- %s", name);
    return -EINVAL;
  }

  std::unique_ptr<DrmHwcTwo> ctx(new DrmHwcTwo());
  if (!ctx) {
    ALOGE("Failed to allocate DrmHwcTwo");
    return -ENOMEM;
  }

  HWC2::Error err = ctx->Init();
  if (err != HWC2::Error::None) {
    ALOGE("Failed to initialize DrmHwcTwo err=%d\n", err);
    return -EINVAL;
  }

  ctx->common.module = const_cast<hw_module_t *>(module);
  *dev = &ctx->common;
  ctx.release();
  return 0;
}
}

static struct hw_module_methods_t hwc2_module_methods = {
    .open = android::DrmHwcTwo::HookDevOpen,
};

hw_module_t HAL_MODULE_INFO_SYM = {
    .tag = HARDWARE_MODULE_TAG,
    .module_api_version = HARDWARE_MODULE_API_VERSION(2, 0),
    .id = HWC_HARDWARE_MODULE_ID,
    .name = "DrmHwcTwo module",
    .author = "The Android Open Source Project",
    .methods = &hwc2_module_methods,
    .dso = NULL,
    .reserved = {0},
};