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cros_display_config.cc
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// Copyright 2018 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "ash/display/cros_display_config.h"
#include "ash/display/display_configuration_controller.h"
#include "ash/display/display_prefs.h"
#include "ash/display/overscan_calibrator.h"
#include "ash/display/resolution_notification_controller.h"
#include "ash/display/screen_orientation_controller.h"
#include "ash/display/touch_calibrator_controller.h"
#include "ash/display/window_tree_host_manager.h"
#include "ash/shell.h"
#include "ash/touch/ash_touch_transform_controller.h"
#include "ash/wm/tablet_mode/tablet_mode_controller.h"
#include "base/bind.h"
#include "base/optional.h"
#include "base/strings/string_number_conversions.h"
#include "ui/display/display.h"
#include "ui/display/display_layout.h"
#include "ui/display/display_layout_builder.h"
#include "ui/display/manager/display_manager.h"
#include "ui/display/manager/display_util.h"
#include "ui/display/mojom/display_mojom_traits.h"
#include "ui/display/screen.h"
namespace ash {
namespace {
// Maximum allowed bounds origin absolute value.
constexpr int kMaxBoundsOrigin = 200 * 1000;
// This is the default range of display width in logical pixels allowed after
// applying display zoom.
constexpr int kDefaultMaxZoomWidth = 4096;
constexpr int kDefaultMinZoomWidth = 640;
display::DisplayManager* GetDisplayManager() {
return Shell::Get()->display_manager();
}
int64_t GetDisplayId(const std::string& display_id_str) {
int64_t display_id;
if (!base::StringToInt64(display_id_str, &display_id))
display_id = display::kInvalidDisplayId;
return display_id;
}
// Gets the display with the provided string id.
display::Display GetDisplay(const std::string& display_id_str) {
int64_t display_id = GetDisplayId(display_id_str);
if (display_id == display::kInvalidDisplayId)
return display::Display();
display::DisplayManager* display_manager = GetDisplayManager();
if (display_manager->IsInUnifiedMode() &&
display_id != display::kUnifiedDisplayId) {
// In unified desktop mode, the mirroring displays, which constitue the
// combined unified display, are contained in the software mirroring
// displays list in the display manager.
// The active list of displays only contains a single unified display entry
// with id |kUnifiedDisplayId|.
return display_manager->GetMirroringDisplayById(display_id);
}
return display_manager->GetDisplayForId(display_id);
}
mojom::DisplayLayoutPosition GetMojomDisplayLayoutPosition(
display::DisplayPlacement::Position position) {
switch (position) {
case display::DisplayPlacement::TOP:
return mojom::DisplayLayoutPosition::kTop;
case display::DisplayPlacement::RIGHT:
return mojom::DisplayLayoutPosition::kRight;
case display::DisplayPlacement::BOTTOM:
return mojom::DisplayLayoutPosition::kBottom;
case display::DisplayPlacement::LEFT:
return mojom::DisplayLayoutPosition::kLeft;
}
NOTREACHED();
return mojom::DisplayLayoutPosition::kLeft;
}
display::DisplayPlacement::Position GetDisplayPlacementPosition(
mojom::DisplayLayoutPosition position) {
switch (position) {
case mojom::DisplayLayoutPosition::kTop:
return display::DisplayPlacement::TOP;
case mojom::DisplayLayoutPosition::kRight:
return display::DisplayPlacement::RIGHT;
case mojom::DisplayLayoutPosition::kBottom:
return display::DisplayPlacement::BOTTOM;
case mojom::DisplayLayoutPosition::kLeft:
return display::DisplayPlacement::LEFT;
}
NOTREACHED();
return display::DisplayPlacement::LEFT;
}
std::vector<mojom::DisplayLayoutPtr> GetDisplayLayouts() {
auto layouts = std::vector<mojom::DisplayLayoutPtr>();
display::Screen* screen = display::Screen::GetScreen();
const std::vector<display::Display>& displays = screen->GetAllDisplays();
display::DisplayManager* display_manager = GetDisplayManager();
for (const display::Display& display : displays) {
const display::DisplayPlacement placement =
display_manager->GetCurrentResolvedDisplayLayout().FindPlacementById(
display.id());
if (placement.display_id == display::kInvalidDisplayId)
continue;
auto layout = mojom::DisplayLayout::New();
layout->id = base::NumberToString(placement.display_id);
layout->parent_id = base::NumberToString(placement.parent_display_id);
layout->position = GetMojomDisplayLayoutPosition(placement.position);
layout->offset = placement.offset;
layouts.emplace_back(std::move(layout));
}
return layouts;
}
std::vector<mojom::DisplayLayoutPtr> GetDisplayUnifiedLayouts() {
auto layouts = std::vector<mojom::DisplayLayoutPtr>();
display::DisplayManager* display_manager = GetDisplayManager();
const display::UnifiedDesktopLayoutMatrix& matrix =
display_manager->current_unified_desktop_matrix();
for (size_t row_index = 0; row_index < matrix.size(); ++row_index) {
const auto& row = matrix[row_index];
for (size_t column_index = 0; column_index < row.size(); ++column_index) {
if (column_index == 0 && row_index == 0) {
// No placement for the primary display.
continue;
}
auto layout = mojom::DisplayLayout::New();
const int64_t display_id = row[column_index];
// Parent display is either the one in the above row, or the one on the
// left in the same row.
const int64_t parent_id = column_index == 0
? matrix[row_index - 1][column_index]
: row[column_index - 1];
layout->id = base::NumberToString(display_id);
layout->parent_id = base::NumberToString(parent_id);
layout->position = column_index == 0
? mojom::DisplayLayoutPosition::kBottom
: mojom::DisplayLayoutPosition::kRight;
layout->offset = 0;
layouts.emplace_back(std::move(layout));
}
}
return layouts;
}
mojom::DisplayConfigResult SetDisplayLayoutMode(
const mojom::DisplayLayoutInfo& info) {
display::DisplayManager* display_manager = GetDisplayManager();
if (info.layout_mode == mojom::DisplayLayoutMode::kNormal) {
display_manager->SetDefaultMultiDisplayModeForCurrentDisplays(
display::DisplayManager::EXTENDED);
display_manager->SetMirrorMode(display::MirrorMode::kOff, base::nullopt);
return mojom::DisplayConfigResult::kSuccess;
}
if (info.layout_mode == mojom::DisplayLayoutMode::kUnified) {
if (!display_manager->unified_desktop_enabled())
return mojom::DisplayConfigResult::kUnifiedNotEnabledError;
display_manager->SetDefaultMultiDisplayModeForCurrentDisplays(
display::DisplayManager::UNIFIED);
display_manager->SetMirrorMode(display::MirrorMode::kOff, base::nullopt);
return mojom::DisplayConfigResult::kSuccess;
}
DCHECK(info.layout_mode == mojom::DisplayLayoutMode::kMirrored);
// 'Normal' mirror mode.
if (!info.mirror_source_id) {
display_manager->SetMirrorMode(display::MirrorMode::kNormal, base::nullopt);
return mojom::DisplayConfigResult::kSuccess;
}
// 'Mixed' mirror mode.
display::Display source = GetDisplay(*info.mirror_source_id);
if (source.id() == display::kInvalidDisplayId)
return mojom::DisplayConfigResult::kMirrorModeSourceIdError;
display::DisplayIdList destination_ids;
if (info.mirror_destination_ids) {
for (const std::string& id_str : *info.mirror_destination_ids) {
int64_t destination_id = GetDisplayId(id_str);
if (destination_id == display::kInvalidDisplayId)
return mojom::DisplayConfigResult::kMirrorModeDestIdError;
destination_ids.emplace_back(destination_id);
}
} else {
const std::vector<display::Display>& displays =
display::Screen::GetScreen()->GetAllDisplays();
for (const display::Display& display : displays)
destination_ids.emplace_back(display.id());
}
base::Optional<display::MixedMirrorModeParams> mixed_params(
base::in_place, source.id(), destination_ids);
const display::MixedMirrorModeParamsErrors error_type =
display::ValidateParamsForMixedMirrorMode(
display_manager->GetCurrentDisplayIdList(), *mixed_params);
switch (error_type) {
case display::MixedMirrorModeParamsErrors::kErrorSingleDisplay:
return mojom::DisplayConfigResult::kMirrorModeSingleDisplayError;
case display::MixedMirrorModeParamsErrors::kErrorSourceIdNotFound:
return mojom::DisplayConfigResult::kMirrorModeSourceIdError;
case display::MixedMirrorModeParamsErrors::kErrorDestinationIdsEmpty:
case display::MixedMirrorModeParamsErrors::kErrorDestinationIdNotFound:
case display::MixedMirrorModeParamsErrors::kErrorDuplicateId:
return mojom::DisplayConfigResult::kMirrorModeDestIdError;
case display::MixedMirrorModeParamsErrors::kSuccess:
break;
}
display_manager->SetMirrorMode(display::MirrorMode::kMixed, mixed_params);
return mojom::DisplayConfigResult::kSuccess;
}
mojom::DisplayModePtr GetDisplayMode(
const display::ManagedDisplayInfo& display_info,
const display::ManagedDisplayMode& display_mode) {
auto result = mojom::DisplayMode::New();
bool is_internal = display::Display::HasInternalDisplay() &&
display::Display::InternalDisplayId() == display_info.id();
gfx::Size size_dip = display_mode.GetSizeInDIP(is_internal);
result->size = size_dip;
result->size_in_native_pixels = display_mode.size();
result->device_scale_factor = display_mode.device_scale_factor();
result->refresh_rate = display_mode.refresh_rate();
result->is_native = display_mode.native();
result->is_interlaced = display_mode.is_interlaced();
return result;
}
mojom::DisplayUnitInfoPtr GetDisplayUnitInfo(const display::Display& display,
int64_t primary_id) {
display::DisplayManager* display_manager = GetDisplayManager();
const display::ManagedDisplayInfo& display_info =
display_manager->GetDisplayInfo(display.id());
auto info = mojom::DisplayUnitInfo::New();
info->id = base::NumberToString(display.id());
info->name = display_manager->GetDisplayNameForId(display.id());
if (!display_info.manufacturer_id().empty() ||
!display_info.product_id().empty() ||
(display_info.year_of_manufacture() !=
display::kInvalidYearOfManufacture)) {
info->edid = mojom::Edid::New();
info->edid->manufacturer_id = display_info.manufacturer_id();
info->edid->product_id = display_info.product_id();
info->edid->year_of_manufacture = display_info.year_of_manufacture();
}
info->is_primary = display.id() == primary_id;
info->is_internal = display.IsInternal();
info->is_enabled = true;
bool has_accelerometer_support =
display.accelerometer_support() ==
display::Display::AccelerometerSupport::AVAILABLE;
info->is_tablet_mode = has_accelerometer_support &&
Shell::Get()->tablet_mode_controller()->InTabletMode();
info->has_touch_support =
display.touch_support() == display::Display::TouchSupport::AVAILABLE;
info->has_accelerometer_support = has_accelerometer_support;
const float device_dpi = display_info.device_dpi();
info->dpi_x = device_dpi * display.size().width() /
display_info.bounds_in_native().width();
info->dpi_y = device_dpi * display.size().height() /
display_info.bounds_in_native().height();
info->rotation = display.rotation();
info->bounds = display.bounds();
info->overscan = display_manager->GetOverscanInsets(display.id());
info->work_area = display.work_area();
int display_mode_index = 0;
display::ManagedDisplayMode active_mode;
bool has_active_mode = display_manager->GetActiveModeForDisplayId(
display_info.id(), &active_mode);
for (const display::ManagedDisplayMode& display_mode :
display_info.display_modes()) {
info->available_display_modes.emplace_back(
GetDisplayMode(display_info, display_mode));
if (has_active_mode && display_mode.IsEquivalent(active_mode))
info->selected_display_mode_index = display_mode_index;
++display_mode_index;
}
info->display_zoom_factor = display_info.zoom_factor();
if (has_active_mode) {
auto zoom_levels = display::GetDisplayZoomFactors(active_mode);
// Ensure that the current zoom factor is in the list.
display::InsertDsfIntoList(&zoom_levels, display_info.zoom_factor());
info->available_display_zoom_factors.assign(zoom_levels.begin(),
zoom_levels.end());
} else {
info->available_display_zoom_factors.push_back(display_info.zoom_factor());
}
return info;
}
// Validates that DisplayProperties are valid with the current DisplayManager
// configuration. Returns an error on failure.
mojom::DisplayConfigResult ValidateDisplayProperties(
const mojom::DisplayConfigProperties& properties,
const display::Display& display) {
display::DisplayManager* display_manager = GetDisplayManager();
int64_t id = display.id();
if (id == display::kInvalidDisplayId)
return mojom::DisplayConfigResult::kInvalidDisplayIdError;
// Overscan cannot be changed for the internal display, and should be at most
// half of the screen size.
if (properties.overscan) {
if (display.IsInternal())
return mojom::DisplayConfigResult::kNotSupportedOnInternalDisplayError;
if (properties.overscan->left() < 0 || properties.overscan->top() < 0 ||
properties.overscan->right() < 0 || properties.overscan->bottom() < 0) {
DLOG(ERROR) << "Negative overscan";
return mojom::DisplayConfigResult::kPropertyValueOutOfRangeError;
}
const gfx::Insets overscan = display_manager->GetOverscanInsets(id);
int screen_width = display.bounds().width() + overscan.width();
int screen_height = display.bounds().height() + overscan.height();
if ((properties.overscan->left() + properties.overscan->right()) * 2 >
screen_width ||
(properties.overscan->top() + properties.overscan->bottom()) * 2 >
screen_height) {
DLOG(ERROR) << "Overscan: " << properties.overscan->ToString()
<< " exceeds bounds: " << screen_width << "x"
<< screen_height;
return mojom::DisplayConfigResult::kPropertyValueOutOfRangeError;
}
}
// The bounds cannot be changed for the primary display and should be inside
// a reasonable bounds.
if (properties.bounds_origin) {
const display::Display& primary =
display::Screen::GetScreen()->GetPrimaryDisplay();
if (id == primary.id() || properties.set_primary)
return mojom::DisplayConfigResult::kNotSupportedOnInternalDisplayError;
if (properties.bounds_origin->x() > kMaxBoundsOrigin ||
properties.bounds_origin->x() < -kMaxBoundsOrigin ||
properties.bounds_origin->y() > kMaxBoundsOrigin ||
properties.bounds_origin->y() < -kMaxBoundsOrigin) {
DLOG(ERROR) << "Bounds origin out of range";
return mojom::DisplayConfigResult::kPropertyValueOutOfRangeError;
}
}
if (properties.display_zoom_factor > 0) {
display::ManagedDisplayMode current_mode;
if (!display_manager->GetActiveModeForDisplayId(id, ¤t_mode)) {
DLOG(ERROR) << "No active mode for display: " << id;
return mojom::DisplayConfigResult::kInvalidDisplayIdError;
}
// This check is added to limit the range of display zoom that can be
// applied via the system display API. The said range is such that when a
// display zoom is applied, the final logical width in pixels should lie
// within the range of 640 pixels and 4096 pixels.
const int max_allowed_width =
std::max(kDefaultMaxZoomWidth, current_mode.size().width());
const int min_allowed_width =
std::min(kDefaultMinZoomWidth, current_mode.size().width());
int current_width = static_cast<float>(current_mode.size().width()) /
current_mode.device_scale_factor();
if (current_width / properties.display_zoom_factor > max_allowed_width ||
current_width / properties.display_zoom_factor < min_allowed_width) {
DLOG(ERROR) << "Display zoom factor out of range";
return mojom::DisplayConfigResult::kPropertyValueOutOfRangeError;
}
}
return mojom::DisplayConfigResult::kSuccess;
}
// Sets the display layout for the target display in reference to the primary
// display.
void SetDisplayLayoutFromBounds(const gfx::Rect& primary_display_bounds,
int64_t primary_display_id,
const gfx::Rect& target_display_bounds,
int64_t target_display_id) {
display::DisplayPlacement placement(
display::DisplayLayout::CreatePlacementForRectangles(
primary_display_bounds, target_display_bounds));
placement.display_id = target_display_id;
placement.parent_display_id = primary_display_id;
std::unique_ptr<display::DisplayLayout> layout(new display::DisplayLayout);
layout->placement_list.push_back(placement);
layout->primary_id = primary_display_id;
Shell::Get()->display_configuration_controller()->SetDisplayLayout(
std::move(layout));
}
// Attempts to set the display mode for display |id|.
mojom::DisplayConfigResult SetDisplayMode(
int64_t id,
const mojom::DisplayMode& display_mode,
mojom::DisplayConfigSource source) {
display::DisplayManager* display_manager = GetDisplayManager();
display::ManagedDisplayMode current_mode;
if (!display_manager->GetActiveModeForDisplayId(id, ¤t_mode))
return mojom::DisplayConfigResult::kInvalidDisplayIdError;
display::ManagedDisplayMode new_mode(
display_mode.size_in_native_pixels, display_mode.refresh_rate,
display_mode.is_interlaced, display_mode.is_native,
display_mode.device_scale_factor);
if (!new_mode.IsEquivalent(current_mode)) {
// For the internal display, the display mode will be applied directly.
// Otherwise a confirm/revert notification will be prepared first, and the
// display mode will be applied. If the user accepts the mode change by
// dismissing the notification, MaybeStoreDisplayPrefs() will be called back
// to persist the new preferences.
if (!Shell::Get()
->resolution_notification_controller()
->PrepareNotificationAndSetDisplayMode(
id, current_mode, new_mode, source, base::BindOnce([]() {
Shell::Get()->display_prefs()->MaybeStoreDisplayPrefs();
}))) {
return mojom::DisplayConfigResult::kSetDisplayModeError;
}
}
return mojom::DisplayConfigResult::kSuccess;
}
display::TouchCalibrationData::CalibrationPointPair GetCalibrationPair(
const mojom::TouchCalibrationPair& pair) {
return std::make_pair(pair.display_point, pair.touch_point);
}
} // namespace
class CrosDisplayConfig::DisplayObserver : public display::DisplayObserver {
public:
explicit DisplayObserver(CrosDisplayConfig* owner) : owner_(owner) {
display::Screen::GetScreen()->AddObserver(this);
}
~DisplayObserver() override {
display::Screen::GetScreen()->RemoveObserver(this);
}
// display::DisplayObserver:
void OnDisplayAdded(const display::Display& new_display) override {
owner_->NotifyObserversDisplayConfigChanged();
}
void OnDisplayRemoved(const display::Display& old_display) override {
owner_->NotifyObserversDisplayConfigChanged();
}
void OnDisplayMetricsChanged(const display::Display& display,
uint32_t metrics) override {
owner_->NotifyObserversDisplayConfigChanged();
}
private:
CrosDisplayConfig* owner_;
DISALLOW_COPY_AND_ASSIGN(DisplayObserver);
};
CrosDisplayConfig::CrosDisplayConfig()
: display_observer_(std::make_unique<DisplayObserver>(this)) {}
CrosDisplayConfig::~CrosDisplayConfig() {}
void CrosDisplayConfig::BindRequest(
mojom::CrosDisplayConfigControllerRequest request) {
bindings_.AddBinding(this, std::move(request));
}
void CrosDisplayConfig::AddObserver(
mojom::CrosDisplayConfigObserverAssociatedPtrInfo observer) {
mojom::CrosDisplayConfigObserverAssociatedPtr observer_ptr;
observer_ptr.Bind(std::move(observer));
observers_.AddPtr(std::move(observer_ptr));
}
void CrosDisplayConfig::GetDisplayLayoutInfo(
GetDisplayLayoutInfoCallback callback) {
display::DisplayManager* display_manager = GetDisplayManager();
auto info = mojom::DisplayLayoutInfo::New();
if (display_manager->IsInUnifiedMode()) {
info->layout_mode = mojom::DisplayLayoutMode::kUnified;
} else if (display_manager->IsInMirrorMode()) {
info->layout_mode = mojom::DisplayLayoutMode::kMirrored;
info->mirror_source_id =
base::NumberToString(display_manager->mirroring_source_id());
info->mirror_destination_ids = std::vector<std::string>();
for (int64_t id : display_manager->GetMirroringDestinationDisplayIdList())
info->mirror_destination_ids->emplace_back(base::NumberToString(id));
} else {
info->layout_mode = mojom::DisplayLayoutMode::kNormal;
}
if (display_manager->IsInUnifiedMode()) {
info->layouts = GetDisplayUnifiedLayouts();
} else if (display_manager->num_connected_displays() > 1) {
info->layouts = GetDisplayLayouts();
}
std::move(callback).Run(std::move(info));
}
mojom::DisplayConfigResult SetDisplayLayouts(
const std::vector<mojom::DisplayLayoutPtr>& layouts) {
display::DisplayManager* display_manager = GetDisplayManager();
display::DisplayLayoutBuilder builder(
display_manager->GetCurrentResolvedDisplayLayout());
int64_t root_id = display::kInvalidDisplayId;
std::set<int64_t> layout_ids;
builder.ClearPlacements();
for (const mojom::DisplayLayoutPtr& layout_ptr : layouts) {
const mojom::DisplayLayout& layout = *layout_ptr;
display::Display display = GetDisplay(layout.id);
if (display.id() == display::kInvalidDisplayId) {
LOG(ERROR) << "Display layout has invalid id: " << layout.id;
return mojom::DisplayConfigResult::kInvalidDisplayIdError;
}
display::Display parent = GetDisplay(layout.parent_id);
if (parent.id() == display::kInvalidDisplayId) {
if (root_id != display::kInvalidDisplayId) {
LOG(ERROR) << "Display layout has invalid parent: " << layout.parent_id;
return mojom::DisplayConfigResult::kInvalidDisplayLayoutError;
}
root_id = display.id();
continue; // No placement for root (primary) display.
}
layout_ids.insert(display.id());
display::DisplayPlacement::Position position =
GetDisplayPlacementPosition(layout.position);
builder.AddDisplayPlacement(display.id(), parent.id(), position,
layout.offset);
}
const display::DisplayIdList display_ids =
display_manager->GetCurrentDisplayIdList();
std::unique_ptr<display::DisplayLayout> layout = builder.Build();
if (display_manager->IsInUnifiedMode()) {
if (root_id == display::kInvalidDisplayId) {
// Look for a display with no layout info to use as the root.
for (int64_t id : display_ids) {
if (!base::Contains(layout_ids, id)) {
root_id = id;
break;
}
}
if (root_id == display::kInvalidDisplayId) {
LOG(ERROR) << "Invalid unified layout: No root id";
return mojom::DisplayConfigResult::kInvalidDisplayLayoutError;
}
}
layout->primary_id = root_id;
display::UnifiedDesktopLayoutMatrix matrix;
if (!display::BuildUnifiedDesktopMatrix(display_ids, *layout, &matrix)) {
LOG(ERROR) << "Invalid unified layout: No proper conversion to a matrix";
return mojom::DisplayConfigResult::kInvalidDisplayLayoutError;
}
Shell::Get()
->display_configuration_controller()
->SetUnifiedDesktopLayoutMatrix(matrix);
} else {
if (!display::DisplayLayout::Validate(display_ids, *layout)) {
return mojom::DisplayConfigResult::kInvalidDisplayLayoutError;
}
Shell::Get()->display_configuration_controller()->SetDisplayLayout(
std::move(layout));
}
return mojom::DisplayConfigResult::kSuccess;
}
void CrosDisplayConfig::SetDisplayLayoutInfo(
mojom::DisplayLayoutInfoPtr info,
SetDisplayLayoutInfoCallback callback) {
mojom::DisplayConfigResult result = SetDisplayLayoutMode(*info);
if (result != mojom::DisplayConfigResult::kSuccess) {
std::move(callback).Run(result);
return;
}
if (info->layouts) {
result = SetDisplayLayouts(*info->layouts);
if (result != mojom::DisplayConfigResult::kSuccess) {
std::move(callback).Run(result);
return;
}
}
std::move(callback).Run(mojom::DisplayConfigResult::kSuccess);
}
void CrosDisplayConfig::GetDisplayUnitInfoList(
bool single_unified,
GetDisplayUnitInfoListCallback callback) {
std::vector<mojom::DisplayUnitInfoPtr> info_list;
display::DisplayManager* display_manager = GetDisplayManager();
std::vector<display::Display> displays;
int64_t primary_id;
if (!display_manager->IsInUnifiedMode()) {
displays = display::Screen::GetScreen()->GetAllDisplays();
primary_id = display::Screen::GetScreen()->GetPrimaryDisplay().id();
} else if (single_unified) {
for (size_t i = 0; i < display_manager->GetNumDisplays(); ++i)
displays.push_back(display_manager->GetDisplayAt(i));
primary_id = display::Screen::GetScreen()->GetPrimaryDisplay().id();
} else {
displays = display_manager->software_mirroring_display_list();
primary_id = Shell::Get()
->display_configuration_controller()
->GetPrimaryMirroringDisplayForUnifiedDesktop()
.id();
}
for (const display::Display& display : displays)
info_list.emplace_back(GetDisplayUnitInfo(display, primary_id));
std::move(callback).Run(std::move(info_list));
}
void CrosDisplayConfig::SetDisplayProperties(
const std::string& id,
mojom::DisplayConfigPropertiesPtr properties,
mojom::DisplayConfigSource source,
SetDisplayPropertiesCallback callback) {
const display::Display display = GetDisplay(id);
mojom::DisplayConfigResult result =
ValidateDisplayProperties(*properties, display);
if (result != mojom::DisplayConfigResult::kSuccess) {
std::move(callback).Run(result);
return;
}
display::DisplayManager* display_manager = GetDisplayManager();
DisplayConfigurationController* display_configuration_controller =
Shell::Get()->display_configuration_controller();
const display::Display& primary =
display::Screen::GetScreen()->GetPrimaryDisplay();
if (properties->set_primary && display.id() != primary.id()) {
display_configuration_controller->SetPrimaryDisplayId(
display.id(), false /* don't throttle */);
}
if (properties->overscan)
display_manager->SetOverscanInsets(display.id(), *properties->overscan);
if (properties->rotation) {
display::Display::Rotation rotation =
display::Display::Rotation(properties->rotation->rotation);
if (Shell::Get()->tablet_mode_controller()->InTabletMode() &&
display.id() == display::Display::InternalDisplayId()) {
Shell::Get()->screen_orientation_controller()->SetLockToRotation(
rotation);
} else {
display_configuration_controller->SetDisplayRotation(
display.id(), rotation, display::Display::RotationSource::USER);
}
}
if (properties->bounds_origin &&
*properties->bounds_origin != display.bounds().origin()) {
gfx::Rect display_bounds = display.bounds();
display_bounds.Offset(
properties->bounds_origin->x() - display.bounds().x(),
properties->bounds_origin->y() - display.bounds().y());
SetDisplayLayoutFromBounds(primary.bounds(), primary.id(), display_bounds,
display.id());
}
if (properties->display_zoom_factor > 0) {
display_manager->UpdateZoomFactor(display.id(),
properties->display_zoom_factor);
}
// Set the display mode. Note: if this returns an error, other properties
// will have already been applied. TODO(stevenjb): Validate the display mode
// before applying any properties.
if (properties->display_mode) {
result = SetDisplayMode(display.id(), *properties->display_mode, source);
if (result != mojom::DisplayConfigResult::kSuccess) {
std::move(callback).Run(result);
return;
}
}
std::move(callback).Run(mojom::DisplayConfigResult::kSuccess);
}
void CrosDisplayConfig::SetUnifiedDesktopEnabled(bool enabled) {
GetDisplayManager()->SetUnifiedDesktopEnabled(enabled);
}
void CrosDisplayConfig::OverscanCalibration(
const std::string& display_id,
mojom::DisplayConfigOperation op,
const base::Optional<gfx::Insets>& delta,
OverscanCalibrationCallback callback) {
display::Display display = GetDisplay(display_id);
if (display.id() == display::kInvalidDisplayId) {
std::move(callback).Run(mojom::DisplayConfigResult::kInvalidDisplayIdError);
return;
}
OverscanCalibrator* calibrator = GetOverscanCalibrator(display_id);
if (!calibrator && op != mojom::DisplayConfigOperation::kStart) {
LOG(ERROR) << "Calibrator does not exist for op=" << op;
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationNotAvailableError);
return;
}
switch (op) {
case mojom::DisplayConfigOperation::kStart: {
DVLOG(1) << "OverscanCalibrationStart: " << display_id;
gfx::Insets insets =
Shell::Get()->window_tree_host_manager()->GetOverscanInsets(
display.id());
if (calibrator)
DVLOG(1) << "Replacing existing calibrator for id: " << display_id;
overscan_calibrators_[display_id] =
std::make_unique<OverscanCalibrator>(display, insets);
break;
}
case mojom::DisplayConfigOperation::kAdjust:
DVLOG(1) << "OverscanCalibrationAdjust: " << display_id;
if (!delta) {
LOG(ERROR) << "Delta not provided for for adjust: " << display_id;
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationFailedError);
return;
}
calibrator->UpdateInsets(calibrator->insets() + *delta);
break;
case mojom::DisplayConfigOperation::kReset:
DVLOG(1) << "OverscanCalibrationReset: " << display_id;
calibrator->Reset();
break;
case mojom::DisplayConfigOperation::kComplete:
DVLOG(1) << "OverscanCalibrationComplete: " << display_id;
calibrator->Commit();
overscan_calibrators_[display_id].reset();
break;
case mojom::DisplayConfigOperation::kShowNative:
LOG(ERROR) << "Operation not supported: " << op;
std::move(callback).Run(
mojom::DisplayConfigResult::kInvalidOperationError);
return;
return;
}
std::move(callback).Run(mojom::DisplayConfigResult::kSuccess);
}
void CrosDisplayConfig::TouchCalibration(const std::string& display_id,
mojom::DisplayConfigOperation op,
mojom::TouchCalibrationPtr calibration,
TouchCalibrationCallback callback) {
display::Display display = GetDisplay(display_id);
if (display.id() == display::kInvalidDisplayId) {
std::move(callback).Run(mojom::DisplayConfigResult::kInvalidDisplayIdError);
return;
}
if (display.IsInternal()) {
LOG(ERROR) << "Internal display cannot be calibrated for touch: "
<< display_id;
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationNotAvailableError);
return;
}
if (!display::HasExternalTouchscreenDevice()) {
LOG(ERROR)
<< "Touch calibration called with no external touch screen device.";
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationNotAvailableError);
return;
}
if (op == mojom::DisplayConfigOperation::kStart ||
op == mojom::DisplayConfigOperation::kShowNative) {
if (touch_calibrator_ && touch_calibrator_->IsCalibrating()) {
LOG(ERROR) << "Touch calibration already active.";
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationInProgressError);
return;
}
if (!touch_calibrator_)
touch_calibrator_ = std::make_unique<ash::TouchCalibratorController>();
if (op == mojom::DisplayConfigOperation::kShowNative) {
// For native calibration, |callback| is not run until calibration
// completes.
touch_calibrator_->StartCalibration(
display, /*is_custom_calibration=*/false,
base::BindOnce(
[](TouchCalibrationCallback callback, bool result) {
std::move(callback).Run(
result
? mojom::DisplayConfigResult::kSuccess
: mojom::DisplayConfigResult::kCalibrationFailedError);
},
std::move(callback)));
return;
}
// For custom calibration, start calibration and run |callback| now.
touch_calibrator_->StartCalibration(display, /*is_custom_calibration=*/true,
base::OnceCallback<void(bool)>());
std::move(callback).Run(mojom::DisplayConfigResult::kSuccess);
return;
}
if (op == mojom::DisplayConfigOperation::kReset) {
ash::Shell::Get()->display_manager()->ClearTouchCalibrationData(
display.id(), base::nullopt);
std::move(callback).Run(mojom::DisplayConfigResult::kSuccess);
return;
}
if (op != mojom::DisplayConfigOperation::kComplete) {
LOG(ERROR) << "Unknown operation: " << op;
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationNotStartedError);
return;
}
if (!touch_calibrator_) {
LOG(ERROR) << "Touch calibration not active.";
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationNotStartedError);
return;
}
if (!calibration || calibration->pairs.size() != 4) {
LOG(ERROR) << "Touch calibration requires four calibration pairs.";
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationInvalidDataError);
return;
}
ash::Shell::Get()->touch_transformer_controller()->SetForCalibration(false);
display::TouchCalibrationData::CalibrationPointPairQuad calibration_points;
calibration_points[0] = GetCalibrationPair(*calibration->pairs[0]);
calibration_points[1] = GetCalibrationPair(*calibration->pairs[1]);
calibration_points[2] = GetCalibrationPair(*calibration->pairs[2]);
calibration_points[3] = GetCalibrationPair(*calibration->pairs[3]);
gfx::Size bounds = calibration->bounds;
for (size_t row = 0; row < calibration_points.size(); row++) {
// Coordinates for display and touch point cannot be negative.
if (calibration_points[row].first.x() < 0 ||
calibration_points[row].first.y() < 0 ||
calibration_points[row].second.x() < 0 ||
calibration_points[row].second.y() < 0) {
LOG(ERROR)
<< "Display points and touch points cannot have negative coordinates";
touch_calibrator_->StopCalibrationAndResetParams();
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationInvalidDataError);
return;
}
// Coordinates for display points cannot be greater than the screen
// bounds.
if (calibration_points[row].first.x() > bounds.width() ||
calibration_points[row].first.y() > bounds.height()) {
LOG(ERROR) << "Display point coordinates cannot be more than size of the "
"display.";
touch_calibrator_->StopCalibrationAndResetParams();
std::move(callback).Run(
mojom::DisplayConfigResult::kCalibrationInvalidDataError);
return;
}
}
touch_calibrator_->CompleteCalibration(calibration_points, bounds);
std::move(callback).Run(mojom::DisplayConfigResult::kSuccess);
}
void CrosDisplayConfig::NotifyObserversDisplayConfigChanged() {
observers_.ForAllPtrs([](mojom::CrosDisplayConfigObserver* observer) {
observer->OnDisplayConfigChanged();
});
}
OverscanCalibrator* CrosDisplayConfig::GetOverscanCalibrator(
const std::string& id) {
auto iter = overscan_calibrators_.find(id);
return iter == overscan_calibrators_.end() ? nullptr : iter->second.get();
}
} // namespace ash