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chromium / chromium / src / ac6e26e178cc7ec47f245df631d4dc6efd8e301c / . / components / exo / wayland / server.cc
blob: b77e111d15494e5854634744eb965bb6a1db7087 [file] [log] [blame]
// Copyright 2015 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 "components/exo/wayland/server.h"
#include <alpha-compositing-unstable-v1-server-protocol.h>
#include <aura-shell-server-protocol.h>
#include <cursor-shapes-unstable-v1-server-protocol.h>
#include <gaming-input-unstable-v1-server-protocol.h>
#include <gaming-input-unstable-v2-server-protocol.h>
#include <grp.h>
#include <input-timestamps-unstable-v1-server-protocol.h>
#include <keyboard-configuration-unstable-v1-server-protocol.h>
#include <keyboard-extension-unstable-v1-server-protocol.h>
#include <linux/input.h>
#include <notification-shell-unstable-v1-server-protocol.h>
#include <pointer-gestures-unstable-v1-server-protocol.h>
#include <presentation-time-server-protocol.h>
#include <remote-shell-unstable-v1-server-protocol.h>
#include <secure-output-unstable-v1-server-protocol.h>
#include <stddef.h>
#include <stdint.h>
#include <stylus-tools-unstable-v1-server-protocol.h>
#include <stylus-unstable-v2-server-protocol.h>
#include <text-input-unstable-v1-server-protocol.h>
#include <viewporter-server-protocol.h>
#include <vsync-feedback-unstable-v1-server-protocol.h>
#include <wayland-server-core.h>
#include <wayland-server-protocol-core.h>
#include <xdg-shell-unstable-v6-server-protocol.h>
#include <algorithm>
#include <cstdlib>
#include <iterator>
#include <map>
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include "ash/display/screen_orientation_controller.h"
#include "ash/ime/ime_controller.h"
#include "ash/public/cpp/caption_buttons/caption_button_types.h"
#include "ash/public/cpp/shell_window_ids.h"
#include "ash/public/cpp/window_properties.h"
#include "ash/public/interfaces/window_pin_type.mojom.h"
#include "ash/public/interfaces/window_state_type.mojom.h"
#include "ash/session/session_controller.h"
#include "ash/shell.h"
#include "ash/wm/window_resizer.h"
#include "base/atomic_sequence_num.h"
#include "base/bind.h"
#include "base/cancelable_callback.h"
#include "base/command_line.h"
#include "base/files/file_path.h"
#include "base/macros.h"
#include "base/memory/free_deleter.h"
#include "base/memory/ptr_util.h"
#include "base/memory/weak_ptr.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/stringprintf.h"
#include "base/strings/utf_string_conversions.h"
#include "base/threading/thread.h"
#include "base/threading/thread_task_runner_handle.h"
#include "components/exo/buffer.h"
#include "components/exo/client_controlled_shell_surface.h"
#include "components/exo/data_device.h"
#include "components/exo/data_device_delegate.h"
#include "components/exo/data_offer.h"
#include "components/exo/data_offer_delegate.h"
#include "components/exo/data_source.h"
#include "components/exo/data_source_delegate.h"
#include "components/exo/display.h"
#include "components/exo/gamepad_delegate.h"
#include "components/exo/gaming_seat.h"
#include "components/exo/gaming_seat_delegate.h"
#include "components/exo/input_method_surface.h"
#include "components/exo/keyboard.h"
#include "components/exo/keyboard_delegate.h"
#include "components/exo/keyboard_device_configuration_delegate.h"
#include "components/exo/keyboard_observer.h"
#include "components/exo/notification.h"
#include "components/exo/notification_surface.h"
#include "components/exo/notification_surface_manager.h"
#include "components/exo/pointer.h"
#include "components/exo/pointer_delegate.h"
#include "components/exo/pointer_gesture_pinch_delegate.h"
#include "components/exo/shared_memory.h"
#include "components/exo/shell_surface.h"
#include "components/exo/sub_surface.h"
#include "components/exo/surface.h"
#include "components/exo/text_input.h"
#include "components/exo/touch.h"
#include "components/exo/touch_delegate.h"
#include "components/exo/touch_stylus_delegate.h"
#include "components/exo/wayland/server_util.h"
#include "components/exo/wayland/wayland_input_delegate.h"
#include "components/exo/wayland/wayland_keyboard_delegate.h"
#include "components/exo/wayland/wayland_pointer_delegate.h"
#include "components/exo/wayland/wayland_touch_delegate.h"
#include "components/exo/wayland/zcr_keyboard_extension.h"
#include "components/exo/wayland/zcr_notification_shell.h"
#include "components/exo/wayland/zwp_input_timestamps_manager.h"
#include "components/exo/wayland/zwp_text_input_manager.h"
#include "components/exo/wm_helper.h"
#include "components/exo/wm_helper_chromeos.h"
#include "components/exo/xdg_shell_surface.h"
#include "services/viz/public/interfaces/compositing/compositor_frame_sink.mojom.h"
#include "third_party/skia/include/core/SkRegion.h"
#include "ui/base/class_property.h"
#include "ui/base/hit_test.h"
#include "ui/base/ui_features.h"
#include "ui/compositor/compositor_vsync_manager.h"
#include "ui/display/display_switches.h"
#include "ui/display/manager/display_util.h"
#include "ui/display/manager/managed_display_info.h"
#include "ui/display/screen.h"
#include "ui/events/keycodes/dom/keycode_converter.h"
#include "ui/gfx/buffer_format_util.h"
#include "ui/gfx/buffer_types.h"
#include "ui/gfx/presentation_feedback.h"
#include "ui/views/widget/widget.h"
#include "ui/views/widget/widget_observer.h"
#include "ui/wm/core/coordinate_conversion.h"
#include "ui/wm/core/window_animations.h"
#include "ui/wm/public/activation_change_observer.h"
#if defined(USE_OZONE)
#include <drm_fourcc.h>
#include <linux-dmabuf-unstable-v1-server-protocol.h>
#if defined(OS_CHROMEOS)
#include "ui/events/ozone/layout/xkb/xkb_keyboard_layout_engine.h"
#endif
#endif
#if defined(USE_FULLSCREEN_SHELL)
#include <fullscreen-shell-unstable-v1-server-protocol.h>
#include "components/exo/wayland/zwp_fullscreen_shell.h"
#endif
#if BUILDFLAG(USE_XKBCOMMON)
#include <xkbcommon/xkbcommon.h>
#include "ui/events/keycodes/scoped_xkb.h" // nogncheck
#endif
DEFINE_UI_CLASS_PROPERTY_TYPE(wl_resource*);
namespace exo {
namespace wayland {
namespace switches {
// This flag can be used to emulate device scale factor for remote shell.
constexpr char kForceRemoteShellScale[] = "force-remote-shell-scale";
// This flag can be used to override the default wayland socket name. It is
// useful when another wayland server is already running and using the
// default name.
constexpr char kWaylandServerSocket[] = "wayland-server-socket";
}
namespace {
// We don't send configure immediately after tablet mode switch
// because layout can change due to orientation lock state or accelerometer.
const int kConfigureDelayAfterLayoutSwitchMs = 300;
// Default wayland socket name.
const base::FilePath::CharType kSocketName[] = FILE_PATH_LITERAL("wayland-0");
// Group used for wayland socket.
const char kWaylandSocketGroup[] = "wayland";
// Returns the scale factor to be used by remote shell clients.
double GetDefaultDeviceScaleFactor() {
// A flag used by VM to emulate a device scale for a particular board.
base::CommandLine* command_line = base::CommandLine::ForCurrentProcess();
if (command_line->HasSwitch(switches::kForceRemoteShellScale)) {
std::string value =
command_line->GetSwitchValueASCII(switches::kForceRemoteShellScale);
double scale = 1.0;
if (base::StringToDouble(value, &scale))
return std::max(1.0, scale);
}
return WMHelper::GetInstance()->GetDefaultDeviceScaleFactor();
}
uint32_t WaylandDataDeviceManagerDndAction(DndAction action) {
switch (action) {
case DndAction::kNone:
return WL_DATA_DEVICE_MANAGER_DND_ACTION_NONE;
case DndAction::kCopy:
return WL_DATA_DEVICE_MANAGER_DND_ACTION_COPY;
case DndAction::kMove:
return WL_DATA_DEVICE_MANAGER_DND_ACTION_MOVE;
case DndAction::kAsk:
return WL_DATA_DEVICE_MANAGER_DND_ACTION_ASK;
}
NOTREACHED();
}
uint32_t WaylandDataDeviceManagerDndActions(
const base::flat_set<DndAction>& dnd_actions) {
uint32_t actions = 0;
for (DndAction action : dnd_actions)
actions |= WaylandDataDeviceManagerDndAction(action);
return actions;
}
DndAction DataDeviceManagerDndAction(uint32_t value) {
switch (value) {
case WL_DATA_DEVICE_MANAGER_DND_ACTION_NONE:
return DndAction::kNone;
case WL_DATA_DEVICE_MANAGER_DND_ACTION_COPY:
return DndAction::kCopy;
case WL_DATA_DEVICE_MANAGER_DND_ACTION_MOVE:
return DndAction::kMove;
case WL_DATA_DEVICE_MANAGER_DND_ACTION_ASK:
return DndAction::kAsk;
default:
NOTREACHED();
return DndAction::kNone;
}
}
base::flat_set<DndAction> DataDeviceManagerDndActions(uint32_t value) {
base::flat_set<DndAction> actions;
if (value & WL_DATA_DEVICE_MANAGER_DND_ACTION_COPY)
actions.insert(DndAction::kCopy);
if (value & WL_DATA_DEVICE_MANAGER_DND_ACTION_MOVE)
actions.insert(DndAction::kMove);
if (value & WL_DATA_DEVICE_MANAGER_DND_ACTION_ASK)
actions.insert(DndAction::kAsk);
return actions;
}
uint32_t ResizeDirection(int component) {
switch (component) {
case HTCAPTION:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_NONE;
case HTTOP:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_TOP;
case HTTOPRIGHT:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_TOPRIGHT;
case HTRIGHT:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_RIGHT;
case HTBOTTOMRIGHT:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_BOTTOMRIGHT;
case HTBOTTOM:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_BOTTOM;
case HTBOTTOMLEFT:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_BOTTOMLEFT;
case HTLEFT:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_LEFT;
case HTTOPLEFT:
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_TOPLEFT;
default:
LOG(ERROR) << "Unknown component:" << component;
break;
}
NOTREACHED();
return ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_NONE;
}
int Component(uint32_t direction) {
switch (direction) {
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_NONE:
return HTNOWHERE;
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_TOP:
return HTTOP;
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_TOPRIGHT:
return HTTOPRIGHT;
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_RIGHT:
return HTRIGHT;
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_BOTTOMRIGHT:
return HTBOTTOMRIGHT;
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_BOTTOM:
return HTBOTTOM;
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_BOTTOMLEFT:
return HTBOTTOMLEFT;
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_LEFT:
return HTLEFT;
case ZCR_REMOTE_SURFACE_V1_RESIZE_DIRECTION_TOPLEFT:
return HTTOPLEFT;
default:
VLOG(2) << "Unknown direction:" << direction;
break;
}
return HTNOWHERE;
}
uint32_t CaptionButtonMask(uint32_t mask) {
uint32_t caption_button_icon_mask = 0;
if (mask & ZCR_REMOTE_SURFACE_V1_FRAME_BUTTON_TYPE_BACK)
caption_button_icon_mask |= 1 << ash::CAPTION_BUTTON_ICON_BACK;
if (mask & ZCR_REMOTE_SURFACE_V1_FRAME_BUTTON_TYPE_MENU)
caption_button_icon_mask |= 1 << ash::CAPTION_BUTTON_ICON_MENU;
if (mask & ZCR_REMOTE_SURFACE_V1_FRAME_BUTTON_TYPE_MINIMIZE)
caption_button_icon_mask |= 1 << ash::CAPTION_BUTTON_ICON_MINIMIZE;
if (mask & ZCR_REMOTE_SURFACE_V1_FRAME_BUTTON_TYPE_MAXIMIZE_RESTORE)
caption_button_icon_mask |= 1 << ash::CAPTION_BUTTON_ICON_MAXIMIZE_RESTORE;
if (mask & ZCR_REMOTE_SURFACE_V1_FRAME_BUTTON_TYPE_CLOSE)
caption_button_icon_mask |= 1 << ash::CAPTION_BUTTON_ICON_CLOSE;
if (mask & ZCR_REMOTE_SURFACE_V1_FRAME_BUTTON_TYPE_ZOOM)
caption_button_icon_mask |= 1 << ash::CAPTION_BUTTON_ICON_ZOOM;
return caption_button_icon_mask;
}
// A property key containing a boolean set to true if a viewport is associated
// with with surface object.
DEFINE_UI_CLASS_PROPERTY_KEY(bool, kSurfaceHasViewportKey, false);
// A property key containing a boolean set to true if a security object is
// associated with surface object.
DEFINE_UI_CLASS_PROPERTY_KEY(bool, kSurfaceHasSecurityKey, false);
// A property key containing a boolean set to true if a blending object is
// associated with surface object.
DEFINE_UI_CLASS_PROPERTY_KEY(bool, kSurfaceHasBlendingKey, false);
// A property key containing a boolean set to true if the stylus_tool
// object is associated with surface object.
DEFINE_UI_CLASS_PROPERTY_KEY(bool, kSurfaceHasStylusToolKey, false);
// A property key containing a boolean set to true if na aura surface object is
// associated with surface object.
DEFINE_UI_CLASS_PROPERTY_KEY(bool, kSurfaceHasAuraSurfaceKey, false);
////////////////////////////////////////////////////////////////////////////////
// wl_buffer_interface:
void buffer_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct wl_buffer_interface buffer_implementation = {buffer_destroy};
void HandleBufferReleaseCallback(wl_resource* resource) {
wl_buffer_send_release(resource);
wl_client_flush(wl_resource_get_client(resource));
}
////////////////////////////////////////////////////////////////////////////////
// wl_surface_interface:
void surface_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void surface_attach(wl_client* client,
wl_resource* resource,
wl_resource* buffer,
int32_t x,
int32_t y) {
// TODO(reveman): Implement buffer offset support.
DLOG_IF(WARNING, x || y) << "Unsupported buffer offset: "
<< gfx::Point(x, y).ToString();
GetUserDataAs<Surface>(resource)
->Attach(buffer ? GetUserDataAs<Buffer>(buffer) : nullptr);
}
void surface_damage(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
GetUserDataAs<Surface>(resource)->Damage(gfx::Rect(x, y, width, height));
}
void HandleSurfaceFrameCallback(wl_resource* resource,
base::TimeTicks frame_time) {
if (!frame_time.is_null()) {
wl_callback_send_done(resource, TimeTicksToMilliseconds(frame_time));
// TODO(reveman): Remove this potentially blocking flush and instead watch
// the file descriptor to be ready for write without blocking.
wl_client_flush(wl_resource_get_client(resource));
}
wl_resource_destroy(resource);
}
void surface_frame(wl_client* client,
wl_resource* resource,
uint32_t callback) {
wl_resource* callback_resource =
wl_resource_create(client, &wl_callback_interface, 1, callback);
// base::Unretained is safe as the resource owns the callback.
auto cancelable_callback =
std::make_unique<base::CancelableCallback<void(base::TimeTicks)>>(
base::Bind(&HandleSurfaceFrameCallback,
base::Unretained(callback_resource)));
GetUserDataAs<Surface>(resource)
->RequestFrameCallback(cancelable_callback->callback());
SetImplementation(callback_resource, nullptr, std::move(cancelable_callback));
}
void surface_set_opaque_region(wl_client* client,
wl_resource* resource,
wl_resource* region_resource) {
SkRegion region = region_resource ? *GetUserDataAs<SkRegion>(region_resource)
: SkRegion(SkIRect::MakeEmpty());
GetUserDataAs<Surface>(resource)->SetOpaqueRegion(cc::Region(region));
}
void surface_set_input_region(wl_client* client,
wl_resource* resource,
wl_resource* region_resource) {
Surface* surface = GetUserDataAs<Surface>(resource);
if (region_resource) {
surface->SetInputRegion(
cc::Region(*GetUserDataAs<SkRegion>(region_resource)));
} else
surface->ResetInputRegion();
}
void surface_commit(wl_client* client, wl_resource* resource) {
GetUserDataAs<Surface>(resource)->Commit();
}
void surface_set_buffer_transform(wl_client* client,
wl_resource* resource,
int32_t transform) {
Transform buffer_transform;
switch (transform) {
case WL_OUTPUT_TRANSFORM_NORMAL:
buffer_transform = Transform::NORMAL;
break;
case WL_OUTPUT_TRANSFORM_90:
buffer_transform = Transform::ROTATE_90;
break;
case WL_OUTPUT_TRANSFORM_180:
buffer_transform = Transform::ROTATE_180;
break;
case WL_OUTPUT_TRANSFORM_270:
buffer_transform = Transform::ROTATE_270;
break;
case WL_OUTPUT_TRANSFORM_FLIPPED:
case WL_OUTPUT_TRANSFORM_FLIPPED_90:
case WL_OUTPUT_TRANSFORM_FLIPPED_180:
case WL_OUTPUT_TRANSFORM_FLIPPED_270:
NOTIMPLEMENTED();
return;
default:
wl_resource_post_error(resource, WL_SURFACE_ERROR_INVALID_TRANSFORM,
"buffer transform must be one of the values from "
"the wl_output.transform enum ('%d' specified)",
transform);
return;
}
GetUserDataAs<Surface>(resource)->SetBufferTransform(buffer_transform);
}
void surface_set_buffer_scale(wl_client* client,
wl_resource* resource,
int32_t scale) {
if (scale < 1) {
wl_resource_post_error(resource, WL_SURFACE_ERROR_INVALID_SCALE,
"buffer scale must be at least one "
"('%d' specified)",
scale);
return;
}
GetUserDataAs<Surface>(resource)->SetBufferScale(scale);
}
const struct wl_surface_interface surface_implementation = {
surface_destroy,
surface_attach,
surface_damage,
surface_frame,
surface_set_opaque_region,
surface_set_input_region,
surface_commit,
surface_set_buffer_transform,
surface_set_buffer_scale};
////////////////////////////////////////////////////////////////////////////////
// wl_region_interface:
void region_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void region_add(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
GetUserDataAs<SkRegion>(resource)
->op(SkIRect::MakeXYWH(x, y, width, height), SkRegion::kUnion_Op);
}
static void region_subtract(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
GetUserDataAs<SkRegion>(resource)
->op(SkIRect::MakeXYWH(x, y, width, height), SkRegion::kDifference_Op);
}
const struct wl_region_interface region_implementation = {
region_destroy, region_add, region_subtract};
////////////////////////////////////////////////////////////////////////////////
// wl_compositor_interface:
void compositor_create_surface(wl_client* client,
wl_resource* resource,
uint32_t id) {
std::unique_ptr<Surface> surface =
GetUserDataAs<Display>(resource)->CreateSurface();
wl_resource* surface_resource = wl_resource_create(
client, &wl_surface_interface, wl_resource_get_version(resource), id);
// Set the surface resource property for type-checking downcast support.
SetSurfaceResource(surface.get(), surface_resource);
SetImplementation(surface_resource, &surface_implementation,
std::move(surface));
}
void compositor_create_region(wl_client* client,
wl_resource* resource,
uint32_t id) {
wl_resource* region_resource =
wl_resource_create(client, &wl_region_interface, 1, id);
SetImplementation(region_resource, &region_implementation,
base::WrapUnique(new SkRegion));
}
const struct wl_compositor_interface compositor_implementation = {
compositor_create_surface, compositor_create_region};
const uint32_t compositor_version = 3;
void bind_compositor(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &wl_compositor_interface,
std::min(version, compositor_version), id);
wl_resource_set_implementation(resource, &compositor_implementation, data,
nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// wl_shm_pool_interface:
const struct shm_supported_format {
uint32_t shm_format;
gfx::BufferFormat buffer_format;
} shm_supported_formats[] = {
{WL_SHM_FORMAT_XBGR8888, gfx::BufferFormat::RGBX_8888},
{WL_SHM_FORMAT_ABGR8888, gfx::BufferFormat::RGBA_8888},
{WL_SHM_FORMAT_XRGB8888, gfx::BufferFormat::BGRX_8888},
{WL_SHM_FORMAT_ARGB8888, gfx::BufferFormat::BGRA_8888}};
void shm_pool_create_buffer(wl_client* client,
wl_resource* resource,
uint32_t id,
int32_t offset,
int32_t width,
int32_t height,
int32_t stride,
uint32_t format) {
const auto* supported_format =
std::find_if(shm_supported_formats,
shm_supported_formats + arraysize(shm_supported_formats),
[format](const shm_supported_format& supported_format) {
return supported_format.shm_format == format;
});
if (supported_format ==
(shm_supported_formats + arraysize(shm_supported_formats))) {
wl_resource_post_error(resource, WL_SHM_ERROR_INVALID_FORMAT,
"invalid format 0x%x", format);
return;
}
if (offset < 0) {
wl_resource_post_error(resource, WL_SHM_ERROR_INVALID_FORMAT,
"invalid offset %d", offset);
return;
}
std::unique_ptr<Buffer> buffer =
GetUserDataAs<SharedMemory>(resource)->CreateBuffer(
gfx::Size(width, height), supported_format->buffer_format, offset,
stride);
if (!buffer) {
wl_resource_post_no_memory(resource);
return;
}
wl_resource* buffer_resource =
wl_resource_create(client, &wl_buffer_interface, 1, id);
buffer->set_release_callback(base::Bind(&HandleBufferReleaseCallback,
base::Unretained(buffer_resource)));
SetImplementation(buffer_resource, &buffer_implementation, std::move(buffer));
}
void shm_pool_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void shm_pool_resize(wl_client* client, wl_resource* resource, int32_t size) {
// Nothing to do here.
}
const struct wl_shm_pool_interface shm_pool_implementation = {
shm_pool_create_buffer, shm_pool_destroy, shm_pool_resize};
////////////////////////////////////////////////////////////////////////////////
// wl_shm_interface:
void shm_create_pool(wl_client* client,
wl_resource* resource,
uint32_t id,
int fd,
int32_t size) {
static const auto kMode =
base::subtle::PlatformSharedMemoryRegion::Mode::kUnsafe;
auto fd_pair = base::subtle::ScopedFDPair(base::ScopedFD(fd),
base::ScopedFD() /* readonly_fd */);
auto guid = base::UnguessableToken::Create();
auto platform_shared_memory = base::subtle::PlatformSharedMemoryRegion::Take(
std::move(fd_pair), kMode, size, guid);
std::unique_ptr<SharedMemory> shared_memory =
GetUserDataAs<Display>(resource)->CreateSharedMemory(
base::UnsafeSharedMemoryRegion::Deserialize(
std::move(platform_shared_memory)));
if (!shared_memory) {
wl_resource_post_no_memory(resource);
return;
}
wl_resource* shm_pool_resource =
wl_resource_create(client, &wl_shm_pool_interface, 1, id);
SetImplementation(shm_pool_resource, &shm_pool_implementation,
std::move(shared_memory));
}
const struct wl_shm_interface shm_implementation = {shm_create_pool};
void bind_shm(wl_client* client, void* data, uint32_t version, uint32_t id) {
wl_resource* resource = wl_resource_create(client, &wl_shm_interface, 1, id);
wl_resource_set_implementation(resource, &shm_implementation, data, nullptr);
for (const auto& supported_format : shm_supported_formats)
wl_shm_send_format(resource, supported_format.shm_format);
}
#if defined(USE_OZONE)
////////////////////////////////////////////////////////////////////////////////
// linux_buffer_params_interface:
const struct dmabuf_supported_format {
uint32_t dmabuf_format;
gfx::BufferFormat buffer_format;
} dmabuf_supported_formats[] = {
{DRM_FORMAT_RGB565, gfx::BufferFormat::BGR_565},
{DRM_FORMAT_XBGR8888, gfx::BufferFormat::RGBX_8888},
{DRM_FORMAT_ABGR8888, gfx::BufferFormat::RGBA_8888},
{DRM_FORMAT_XRGB8888, gfx::BufferFormat::BGRX_8888},
{DRM_FORMAT_ARGB8888, gfx::BufferFormat::BGRA_8888},
{DRM_FORMAT_NV12, gfx::BufferFormat::YUV_420_BIPLANAR},
{DRM_FORMAT_YVU420, gfx::BufferFormat::YVU_420}};
struct LinuxBufferParams {
struct Plane {
base::ScopedFD fd;
uint32_t stride;
uint32_t offset;
};
explicit LinuxBufferParams(Display* display) : display(display) {}
Display* const display;
std::map<uint32_t, Plane> planes;
};
void linux_buffer_params_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void linux_buffer_params_add(wl_client* client,
wl_resource* resource,
int32_t fd,
uint32_t plane_idx,
uint32_t offset,
uint32_t stride,
uint32_t modifier_hi,
uint32_t modifier_lo) {
LinuxBufferParams* linux_buffer_params =
GetUserDataAs<LinuxBufferParams>(resource);
LinuxBufferParams::Plane plane{base::ScopedFD(fd), stride, offset};
const auto& inserted = linux_buffer_params->planes.insert(
std::pair<uint32_t, LinuxBufferParams::Plane>(plane_idx,
std::move(plane)));
if (!inserted.second) { // The plane was already there.
wl_resource_post_error(resource, ZWP_LINUX_BUFFER_PARAMS_V1_ERROR_PLANE_SET,
"plane already set");
}
}
bool ValidateLinuxBufferParams(wl_resource* resource,
int32_t width,
int32_t height,
gfx::BufferFormat format,
uint32_t flags) {
if (width <= 0 || height <= 0) {
wl_resource_post_error(resource,
ZWP_LINUX_BUFFER_PARAMS_V1_ERROR_INVALID_DIMENSIONS,
"invalid width or height");
return false;
}
if (flags & ZWP_LINUX_BUFFER_PARAMS_V1_FLAGS_INTERLACED) {
wl_resource_post_error(resource,
ZWP_LINUX_BUFFER_PARAMS_V1_ERROR_INCOMPLETE,
"flags not supported");
return false;
}
LinuxBufferParams* linux_buffer_params =
GetUserDataAs<LinuxBufferParams>(resource);
size_t num_planes = gfx::NumberOfPlanesForBufferFormat(format);
for (uint32_t i = 0; i < num_planes; ++i) {
auto plane_it = linux_buffer_params->planes.find(i);
if (plane_it == linux_buffer_params->planes.end()) {
wl_resource_post_error(resource,
ZWP_LINUX_BUFFER_PARAMS_V1_ERROR_INCOMPLETE,
"missing a plane");
return false;
}
}
if (linux_buffer_params->planes.size() != num_planes) {
wl_resource_post_error(resource, ZWP_LINUX_BUFFER_PARAMS_V1_ERROR_PLANE_IDX,
"plane idx out of bounds");
return false;
}
return true;
}
void linux_buffer_params_create(wl_client* client,
wl_resource* resource,
int32_t width,
int32_t height,
uint32_t format,
uint32_t flags) {
const auto* supported_format = std::find_if(
std::begin(dmabuf_supported_formats), std::end(dmabuf_supported_formats),
[format](const dmabuf_supported_format& supported_format) {
return supported_format.dmabuf_format == format;
});
if (supported_format == std::end(dmabuf_supported_formats)) {
wl_resource_post_error(resource,
ZWP_LINUX_BUFFER_PARAMS_V1_ERROR_INVALID_FORMAT,
"format not supported");
return;
}
if (!ValidateLinuxBufferParams(resource, width, height,
supported_format->buffer_format, flags))
return;
LinuxBufferParams* linux_buffer_params =
GetUserDataAs<LinuxBufferParams>(resource);
size_t num_planes =
gfx::NumberOfPlanesForBufferFormat(supported_format->buffer_format);
std::vector<gfx::NativePixmapPlane> planes;
std::vector<base::ScopedFD> fds;
for (uint32_t i = 0; i < num_planes; ++i) {
auto plane_it = linux_buffer_params->planes.find(i);
LinuxBufferParams::Plane& plane = plane_it->second;
planes.emplace_back(plane.stride, plane.offset, 0);
fds.push_back(std::move(plane.fd));
}
bool y_invert = (flags & ZWP_LINUX_BUFFER_PARAMS_V1_FLAGS_Y_INVERT) != 0;
std::unique_ptr<Buffer> buffer =
linux_buffer_params->display->CreateLinuxDMABufBuffer(
gfx::Size(width, height), supported_format->buffer_format, planes,
y_invert, std::move(fds));
if (!buffer) {
zwp_linux_buffer_params_v1_send_failed(resource);
return;
}
wl_resource* buffer_resource =
wl_resource_create(client, &wl_buffer_interface, 1, 0);
buffer->set_release_callback(base::Bind(&HandleBufferReleaseCallback,
base::Unretained(buffer_resource)));
SetImplementation(buffer_resource, &buffer_implementation, std::move(buffer));
zwp_linux_buffer_params_v1_send_created(resource, buffer_resource);
}
void linux_buffer_params_create_immed(wl_client* client,
wl_resource* resource,
uint32_t buffer_id,
int32_t width,
int32_t height,
uint32_t format,
uint32_t flags) {
const auto* supported_format = std::find_if(
std::begin(dmabuf_supported_formats), std::end(dmabuf_supported_formats),
[format](const dmabuf_supported_format& supported_format) {
return supported_format.dmabuf_format == format;
});
if (supported_format == std::end(dmabuf_supported_formats)) {
wl_resource_post_error(resource,
ZWP_LINUX_BUFFER_PARAMS_V1_ERROR_INVALID_FORMAT,
"format not supported");
return;
}
if (!ValidateLinuxBufferParams(resource, width, height,
supported_format->buffer_format, flags))
return;
LinuxBufferParams* linux_buffer_params =
GetUserDataAs<LinuxBufferParams>(resource);
size_t num_planes =
gfx::NumberOfPlanesForBufferFormat(supported_format->buffer_format);
std::vector<gfx::NativePixmapPlane> planes;
std::vector<base::ScopedFD> fds;
for (uint32_t i = 0; i < num_planes; ++i) {
auto plane_it = linux_buffer_params->planes.find(i);
LinuxBufferParams::Plane& plane = plane_it->second;
planes.emplace_back(plane.stride, plane.offset, 0);
fds.push_back(std::move(plane.fd));
}
bool y_invert = flags & ZWP_LINUX_BUFFER_PARAMS_V1_FLAGS_Y_INVERT;
std::unique_ptr<Buffer> buffer =
linux_buffer_params->display->CreateLinuxDMABufBuffer(
gfx::Size(width, height), supported_format->buffer_format, planes,
y_invert, std::move(fds));
if (!buffer) {
// On import failure in case of a create_immed request, the protocol
// allows us to raise a fatal error from zwp_linux_dmabuf_v1 version 2+.
wl_resource_post_error(resource,
ZWP_LINUX_BUFFER_PARAMS_V1_ERROR_INVALID_WL_BUFFER,
"dmabuf import failed");
return;
}
wl_resource* buffer_resource =
wl_resource_create(client, &wl_buffer_interface, 1, buffer_id);
buffer->set_release_callback(base::Bind(&HandleBufferReleaseCallback,
base::Unretained(buffer_resource)));
SetImplementation(buffer_resource, &buffer_implementation, std::move(buffer));
}
const struct zwp_linux_buffer_params_v1_interface
linux_buffer_params_implementation = {
linux_buffer_params_destroy, linux_buffer_params_add,
linux_buffer_params_create, linux_buffer_params_create_immed};
////////////////////////////////////////////////////////////////////////////////
// linux_dmabuf_interface:
void linux_dmabuf_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void linux_dmabuf_create_params(wl_client* client,
wl_resource* resource,
uint32_t id) {
std::unique_ptr<LinuxBufferParams> linux_buffer_params =
std::make_unique<LinuxBufferParams>(GetUserDataAs<Display>(resource));
wl_resource* linux_buffer_params_resource =
wl_resource_create(client, &zwp_linux_buffer_params_v1_interface,
wl_resource_get_version(resource), id);
SetImplementation(linux_buffer_params_resource,
&linux_buffer_params_implementation,
std::move(linux_buffer_params));
}
const struct zwp_linux_dmabuf_v1_interface linux_dmabuf_implementation = {
linux_dmabuf_destroy, linux_dmabuf_create_params};
const uint32_t linux_dmabuf_version = 2;
void bind_linux_dmabuf(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zwp_linux_dmabuf_v1_interface,
std::min(version, linux_dmabuf_version), id);
wl_resource_set_implementation(resource, &linux_dmabuf_implementation, data,
nullptr);
for (const auto& supported_format : dmabuf_supported_formats)
zwp_linux_dmabuf_v1_send_format(resource, supported_format.dmabuf_format);
}
#endif
////////////////////////////////////////////////////////////////////////////////
// wl_subsurface_interface:
void subsurface_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void subsurface_set_position(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y) {
GetUserDataAs<SubSurface>(resource)->SetPosition(gfx::Point(x, y));
}
void subsurface_place_above(wl_client* client,
wl_resource* resource,
wl_resource* reference_resource) {
GetUserDataAs<SubSurface>(resource)
->PlaceAbove(GetUserDataAs<Surface>(reference_resource));
}
void subsurface_place_below(wl_client* client,
wl_resource* resource,
wl_resource* sibling_resource) {
GetUserDataAs<SubSurface>(resource)
->PlaceBelow(GetUserDataAs<Surface>(sibling_resource));
}
void subsurface_set_sync(wl_client* client, wl_resource* resource) {
GetUserDataAs<SubSurface>(resource)->SetCommitBehavior(true);
}
void subsurface_set_desync(wl_client* client, wl_resource* resource) {
GetUserDataAs<SubSurface>(resource)->SetCommitBehavior(false);
}
const struct wl_subsurface_interface subsurface_implementation = {
subsurface_destroy, subsurface_set_position, subsurface_place_above,
subsurface_place_below, subsurface_set_sync, subsurface_set_desync};
////////////////////////////////////////////////////////////////////////////////
// wl_subcompositor_interface:
void subcompositor_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void subcompositor_get_subsurface(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface,
wl_resource* parent) {
std::unique_ptr<SubSurface> subsurface =
GetUserDataAs<Display>(resource)->CreateSubSurface(
GetUserDataAs<Surface>(surface), GetUserDataAs<Surface>(parent));
if (!subsurface) {
wl_resource_post_error(resource, WL_SUBCOMPOSITOR_ERROR_BAD_SURFACE,
"invalid surface");
return;
}
wl_resource* subsurface_resource =
wl_resource_create(client, &wl_subsurface_interface, 1, id);
SetImplementation(subsurface_resource, &subsurface_implementation,
std::move(subsurface));
}
const struct wl_subcompositor_interface subcompositor_implementation = {
subcompositor_destroy, subcompositor_get_subsurface};
void bind_subcompositor(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &wl_subcompositor_interface, 1, id);
wl_resource_set_implementation(resource, &subcompositor_implementation, data,
nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// wl_shell_surface_interface:
void shell_surface_pong(wl_client* client,
wl_resource* resource,
uint32_t serial) {
NOTIMPLEMENTED();
}
void shell_surface_move(wl_client* client,
wl_resource* resource,
wl_resource* seat_resource,
uint32_t serial) {
GetUserDataAs<ShellSurface>(resource)->StartMove();
}
void shell_surface_resize(wl_client* client,
wl_resource* resource,
wl_resource* seat_resource,
uint32_t serial,
uint32_t edges) {
NOTIMPLEMENTED();
}
void shell_surface_set_toplevel(wl_client* client, wl_resource* resource) {
GetUserDataAs<ShellSurface>(resource)->SetEnabled(true);
}
void shell_surface_set_transient(wl_client* client,
wl_resource* resource,
wl_resource* parent_resource,
int x,
int y,
uint32_t flags) {
ShellSurface* shell_surface = GetUserDataAs<ShellSurface>(resource);
if (shell_surface->enabled())
return;
if (flags & WL_SHELL_SURFACE_TRANSIENT_INACTIVE) {
shell_surface->SetContainer(ash::kShellWindowId_SystemModalContainer);
shell_surface->SetActivatable(false);
}
shell_surface->SetEnabled(true);
}
void shell_surface_set_fullscreen(wl_client* client,
wl_resource* resource,
uint32_t method,
uint32_t framerate,
wl_resource* output_resource) {
ShellSurface* shell_surface = GetUserDataAs<ShellSurface>(resource);
if (shell_surface->enabled())
return;
shell_surface->SetEnabled(true);
shell_surface->SetFullscreen(true);
}
void shell_surface_set_popup(wl_client* client,
wl_resource* resource,
wl_resource* seat_resource,
uint32_t serial,
wl_resource* parent_resource,
int32_t x,
int32_t y,
uint32_t flags) {
NOTIMPLEMENTED();
}
void shell_surface_set_maximized(wl_client* client,
wl_resource* resource,
wl_resource* output_resource) {
ShellSurface* shell_surface = GetUserDataAs<ShellSurface>(resource);
if (shell_surface->enabled())
return;
shell_surface->SetEnabled(true);
shell_surface->Maximize();
}
void shell_surface_set_title(wl_client* client,
wl_resource* resource,
const char* title) {
GetUserDataAs<ShellSurface>(resource)
->SetTitle(base::string16(base::UTF8ToUTF16(title)));
}
void shell_surface_set_class(wl_client* client,
wl_resource* resource,
const char* clazz) {
GetUserDataAs<ShellSurface>(resource)->SetApplicationId(clazz);
}
const struct wl_shell_surface_interface shell_surface_implementation = {
shell_surface_pong, shell_surface_move,
shell_surface_resize, shell_surface_set_toplevel,
shell_surface_set_transient, shell_surface_set_fullscreen,
shell_surface_set_popup, shell_surface_set_maximized,
shell_surface_set_title, shell_surface_set_class};
////////////////////////////////////////////////////////////////////////////////
// wl_shell_interface:
uint32_t HandleShellSurfaceConfigureCallback(
wl_resource* resource,
const gfx::Size& size,
ash::mojom::WindowStateType state_type,
bool resizing,
bool activated,
const gfx::Vector2d& origin_offset) {
wl_shell_surface_send_configure(resource, WL_SHELL_SURFACE_RESIZE_NONE,
size.width(), size.height());
wl_client_flush(wl_resource_get_client(resource));
return 0;
}
void shell_get_shell_surface(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface) {
std::unique_ptr<ShellSurface> shell_surface =
GetUserDataAs<Display>(resource)->CreateShellSurface(
GetUserDataAs<Surface>(surface));
if (!shell_surface) {
wl_resource_post_error(resource, WL_SHELL_ERROR_ROLE,
"surface has already been assigned a role");
return;
}
wl_resource* shell_surface_resource =
wl_resource_create(client, &wl_shell_surface_interface, 1, id);
// Shell surfaces are initially disabled and needs to be explicitly mapped
// before they are enabled and can become visible.
shell_surface->SetEnabled(false);
shell_surface->set_configure_callback(
base::Bind(&HandleShellSurfaceConfigureCallback,
base::Unretained(shell_surface_resource)));
shell_surface->set_surface_destroyed_callback(base::BindOnce(
&wl_resource_destroy, base::Unretained(shell_surface_resource)));
SetImplementation(shell_surface_resource, &shell_surface_implementation,
std::move(shell_surface));
}
const struct wl_shell_interface shell_implementation = {
shell_get_shell_surface};
void bind_shell(wl_client* client, void* data, uint32_t version, uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &wl_shell_interface, 1, id);
wl_resource_set_implementation(resource, &shell_implementation, data,
nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// wl_output_interface:
// Returns the transform that a compositor will apply to a surface to
// compensate for the rotation of an output device.
wl_output_transform OutputTransform(display::Display::Rotation rotation) {
// Note: |rotation| describes the counter clockwise rotation that a
// display's output is currently adjusted for, which is the inverse
// of what we need to return.
switch (rotation) {
case display::Display::ROTATE_0:
return WL_OUTPUT_TRANSFORM_NORMAL;
case display::Display::ROTATE_90:
return WL_OUTPUT_TRANSFORM_270;
case display::Display::ROTATE_180:
return WL_OUTPUT_TRANSFORM_180;
case display::Display::ROTATE_270:
return WL_OUTPUT_TRANSFORM_90;
}
NOTREACHED();
return WL_OUTPUT_TRANSFORM_NORMAL;
}
class WaylandDisplayObserver : public display::DisplayObserver {
public:
class ScaleObserver : public base::SupportsWeakPtr<ScaleObserver> {
public:
ScaleObserver() {}
virtual void OnDisplayScalesChanged(const display::Display& display) = 0;
protected:
virtual ~ScaleObserver() {}
};
WaylandDisplayObserver(int64_t id, wl_resource* output_resource)
: id_(id), output_resource_(output_resource) {
display::Screen::GetScreen()->AddObserver(this);
SendDisplayMetrics();
}
~WaylandDisplayObserver() override {
display::Screen::GetScreen()->RemoveObserver(this);
}
void SetScaleObserver(base::WeakPtr<ScaleObserver> scale_observer) {
scale_observer_ = scale_observer;
SendDisplayMetrics();
}
bool HasScaleObserver() const { return !!scale_observer_; }
// Overridden from display::DisplayObserver:
void OnDisplayMetricsChanged(const display::Display& display,
uint32_t changed_metrics) override {
if (id_ != display.id())
return;
// There is no need to check DISPLAY_METRIC_PRIMARY because when primary
// changes, bounds always changes. (new primary should have had non
// 0,0 origin).
// Only exception is when switching to newly connected primary with
// the same bounds. This happens whenyou're in docked mode, suspend,
// unplug the dislpay, then resume to the internal display which has
// the same resolution. Since metrics does not change, there is no need
// to notify clients.
if (changed_metrics &
(DISPLAY_METRIC_BOUNDS | DISPLAY_METRIC_DEVICE_SCALE_FACTOR |
DISPLAY_METRIC_ROTATION)) {
SendDisplayMetrics();
}
}
private:
void SendDisplayMetrics() {
display::Display display;
bool rv =
display::Screen::GetScreen()->GetDisplayWithDisplayId(id_, &display);
DCHECK(rv);
const display::ManagedDisplayInfo& info =
WMHelper::GetInstance()->GetDisplayInfo(display.id());
const float kInchInMm = 25.4f;
const char* kUnknown = "unknown";
const std::string& make = info.manufacturer_id();
const std::string& model = info.product_id();
gfx::Rect bounds = info.bounds_in_native();
wl_output_send_geometry(
output_resource_, bounds.x(), bounds.y(),
static_cast<int>(kInchInMm * bounds.width() / info.device_dpi()),
static_cast<int>(kInchInMm * bounds.height() / info.device_dpi()),
WL_OUTPUT_SUBPIXEL_UNKNOWN, make.empty() ? kUnknown : make.c_str(),
model.empty() ? kUnknown : model.c_str(),
OutputTransform(display.rotation()));
if (wl_resource_get_version(output_resource_) >=
WL_OUTPUT_SCALE_SINCE_VERSION) {
wl_output_send_scale(output_resource_, display.device_scale_factor());
}
// TODO(reveman): Send real list of modes.
wl_output_send_mode(
output_resource_, WL_OUTPUT_MODE_CURRENT | WL_OUTPUT_MODE_PREFERRED,
bounds.width(), bounds.height(), static_cast<int>(60000));
if (HasScaleObserver())
scale_observer_->OnDisplayScalesChanged(display);
if (wl_resource_get_version(output_resource_) >=
WL_OUTPUT_DONE_SINCE_VERSION) {
wl_output_send_done(output_resource_);
}
wl_client_flush(wl_resource_get_client(output_resource_));
}
// The ID of the display being observed.
const int64_t id_;
// The output resource associated with the display.
wl_resource* const output_resource_;
base::WeakPtr<ScaleObserver> scale_observer_;
DISALLOW_COPY_AND_ASSIGN(WaylandDisplayObserver);
};
const uint32_t output_version = 2;
void bind_output(wl_client* client, void* data, uint32_t version, uint32_t id) {
Server::Output* output = static_cast<Server::Output*>(data);
wl_resource* resource = wl_resource_create(
client, &wl_output_interface, std::min(version, output_version), id);
SetImplementation(
resource, nullptr,
std::make_unique<WaylandDisplayObserver>(output->id(), resource));
}
////////////////////////////////////////////////////////////////////////////////
// xdg_positioner_interface:
uint32_t InvertBitfield(uint32_t bitfield, uint32_t mask) {
return (bitfield & ~mask) | ((bitfield & mask) ^ mask);
}
// TODO(oshima): propagate x/y flip state to children.
struct WaylandPositioner {
static constexpr uint32_t kHorizontalAnchors =
ZXDG_POSITIONER_V6_ANCHOR_LEFT | ZXDG_POSITIONER_V6_ANCHOR_RIGHT;
static constexpr uint32_t kVerticalAnchors =
ZXDG_POSITIONER_V6_ANCHOR_TOP | ZXDG_POSITIONER_V6_ANCHOR_BOTTOM;
static constexpr uint32_t kHorizontalGravities =
ZXDG_POSITIONER_V6_GRAVITY_LEFT | ZXDG_POSITIONER_V6_GRAVITY_RIGHT;
static constexpr uint32_t kVerticalGravities =
ZXDG_POSITIONER_V6_GRAVITY_TOP | ZXDG_POSITIONER_V6_GRAVITY_BOTTOM;
static int CalculateX(const gfx::Size& size,
const gfx::Rect& anchor_rect,
uint32_t anchor,
uint32_t gravity,
int offset,
bool flipped) {
if (flipped) {
anchor = InvertBitfield(anchor, kHorizontalAnchors);
gravity = InvertBitfield(gravity, kHorizontalGravities);
offset = -offset;
}
int x = offset;
if (anchor & ZXDG_POSITIONER_V6_ANCHOR_LEFT)
x += anchor_rect.x();
else if (anchor & ZXDG_POSITIONER_V6_ANCHOR_RIGHT)
x += anchor_rect.right();
else
x += anchor_rect.CenterPoint().x();
if (gravity & ZXDG_POSITIONER_V6_GRAVITY_LEFT)
return x - size.width();
if (gravity & ZXDG_POSITIONER_V6_GRAVITY_RIGHT)
return x;
return x - size.width() / 2;
}
static int CalculateY(const gfx::Size& size,
const gfx::Rect& anchor_rect,
uint32_t anchor,
uint32_t gravity,
int offset,
bool flipped) {
if (flipped) {
anchor = InvertBitfield(anchor, kVerticalAnchors);
gravity = InvertBitfield(gravity, kVerticalGravities);
offset = -offset;
}
int y = offset;
if (anchor & ZXDG_POSITIONER_V6_ANCHOR_TOP)
y += anchor_rect.y();
else if (anchor & ZXDG_POSITIONER_V6_ANCHOR_BOTTOM)
y += anchor_rect.bottom();
else
y += anchor_rect.CenterPoint().y();
if (gravity & ZXDG_POSITIONER_V6_GRAVITY_TOP)
return y - size.height();
if (gravity & ZXDG_POSITIONER_V6_GRAVITY_BOTTOM)
return y;
return y - size.height() / 2;
}
// Calculate and return position from current state.
gfx::Point CalculatePosition(const gfx::Rect& work_area) {
// TODO(oshima): The size must be smaller than work area.
gfx::Rect bounds(gfx::Point(CalculateX(size, anchor_rect, anchor, gravity,
offset.x(), x_flipped),
CalculateY(size, anchor_rect, anchor, gravity,
offset.y(), y_flipped)),
size);
// Adjust x position if the bounds are not fully contained by the work area.
if (work_area.x() > bounds.x() || work_area.right() < bounds.right()) {
// Allow sliding horizontally if the surface is attached below
// or above the parent surface.
bool can_slide_x = (anchor & ZXDG_POSITIONER_V6_ANCHOR_BOTTOM &&
gravity & ZXDG_POSITIONER_V6_GRAVITY_BOTTOM) ||
(anchor & ZXDG_POSITIONER_V6_ANCHOR_TOP &&
gravity & ZXDG_POSITIONER_V6_GRAVITY_TOP);
if (adjustment & ZXDG_POSITIONER_V6_CONSTRAINT_ADJUSTMENT_SLIDE_X &&
can_slide_x) {
if (bounds.x() < work_area.x())
bounds.set_x(work_area.x());
else if (bounds.right() > work_area.right())
bounds.set_x(work_area.right() - size.width());
} else if (adjustment & ZXDG_POSITIONER_V6_CONSTRAINT_ADJUSTMENT_FLIP_X) {
x_flipped = !x_flipped;
bounds.set_x(CalculateX(size, anchor_rect, anchor, gravity, offset.x(),
x_flipped));
}
}
// Adjust y position if the bounds are not fully contained by the work area.
if (work_area.y() > bounds.y() || work_area.bottom() < bounds.bottom()) {
// Allow sliding vertically if the surface is attached left or
// right of the parent surface.
bool can_slide_y = (anchor & ZXDG_POSITIONER_V6_ANCHOR_LEFT &&
gravity & ZXDG_POSITIONER_V6_GRAVITY_LEFT) ||
(anchor & ZXDG_POSITIONER_V6_ANCHOR_RIGHT &&
gravity & ZXDG_POSITIONER_V6_GRAVITY_RIGHT);
if (adjustment & ZXDG_POSITIONER_V6_CONSTRAINT_ADJUSTMENT_SLIDE_Y &&
can_slide_y) {
if (bounds.y() < work_area.y())
bounds.set_y(work_area.y());
else if (bounds.bottom() > work_area.bottom())
bounds.set_y(work_area.bottom() - size.height());
} else if (adjustment & ZXDG_POSITIONER_V6_CONSTRAINT_ADJUSTMENT_FLIP_Y) {
y_flipped = !y_flipped;
bounds.set_y(CalculateY(size, anchor_rect, anchor, gravity, offset.y(),
y_flipped));
}
}
return bounds.origin();
}
gfx::Size size;
gfx::Rect anchor_rect;
uint32_t anchor = ZXDG_POSITIONER_V6_ANCHOR_NONE;
uint32_t gravity = ZXDG_POSITIONER_V6_GRAVITY_NONE;
uint32_t adjustment = ZXDG_POSITIONER_V6_CONSTRAINT_ADJUSTMENT_NONE;
gfx::Vector2d offset;
bool y_flipped = false;
bool x_flipped = false;
};
void xdg_positioner_v6_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void xdg_positioner_v6_set_size(wl_client* client,
wl_resource* resource,
int32_t width,
int32_t height) {
if (width < 1 || height < 1) {
wl_resource_post_error(resource, ZXDG_POSITIONER_V6_ERROR_INVALID_INPUT,
"width and height must be positive and non-zero");
return;
}
GetUserDataAs<WaylandPositioner>(resource)->size = gfx::Size(width, height);
}
void xdg_positioner_v6_set_anchor_rect(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
if (width < 1 || height < 1) {
wl_resource_post_error(resource, ZXDG_POSITIONER_V6_ERROR_INVALID_INPUT,
"width and height must be positive and non-zero");
return;
}
GetUserDataAs<WaylandPositioner>(resource)->anchor_rect =
gfx::Rect(x, y, width, height);
}
void xdg_positioner_v6_set_anchor(wl_client* client,
wl_resource* resource,
uint32_t anchor) {
if (((anchor & ZXDG_POSITIONER_V6_ANCHOR_LEFT) &&
(anchor & ZXDG_POSITIONER_V6_ANCHOR_RIGHT)) ||
((anchor & ZXDG_POSITIONER_V6_ANCHOR_TOP) &&
(anchor & ZXDG_POSITIONER_V6_ANCHOR_BOTTOM))) {
wl_resource_post_error(resource, ZXDG_POSITIONER_V6_ERROR_INVALID_INPUT,
"same-axis values are not allowed");
return;
}
GetUserDataAs<WaylandPositioner>(resource)->anchor = anchor;
}
void xdg_positioner_v6_set_gravity(wl_client* client,
wl_resource* resource,
uint32_t gravity) {
if (((gravity & ZXDG_POSITIONER_V6_GRAVITY_LEFT) &&
(gravity & ZXDG_POSITIONER_V6_GRAVITY_RIGHT)) ||
((gravity & ZXDG_POSITIONER_V6_GRAVITY_TOP) &&
(gravity & ZXDG_POSITIONER_V6_GRAVITY_BOTTOM))) {
wl_resource_post_error(resource, ZXDG_POSITIONER_V6_ERROR_INVALID_INPUT,
"same-axis values are not allowed");
return;
}
GetUserDataAs<WaylandPositioner>(resource)->gravity = gravity;
}
void xdg_positioner_v6_set_constraint_adjustment(wl_client* client,
wl_resource* resource,
uint32_t adjustment) {
GetUserDataAs<WaylandPositioner>(resource)->adjustment = adjustment;
}
void xdg_positioner_v6_set_offset(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y) {
GetUserDataAs<WaylandPositioner>(resource)->offset = gfx::Vector2d(x, y);
}
const struct zxdg_positioner_v6_interface xdg_positioner_v6_implementation = {
xdg_positioner_v6_destroy,
xdg_positioner_v6_set_size,
xdg_positioner_v6_set_anchor_rect,
xdg_positioner_v6_set_anchor,
xdg_positioner_v6_set_gravity,
xdg_positioner_v6_set_constraint_adjustment,
xdg_positioner_v6_set_offset};
////////////////////////////////////////////////////////////////////////////////
// xdg_toplevel_interface:
int XdgToplevelV6ResizeComponent(uint32_t edges) {
switch (edges) {
case ZXDG_TOPLEVEL_V6_RESIZE_EDGE_TOP:
return HTTOP;
case ZXDG_TOPLEVEL_V6_RESIZE_EDGE_BOTTOM:
return HTBOTTOM;
case ZXDG_TOPLEVEL_V6_RESIZE_EDGE_LEFT:
return HTLEFT;
case ZXDG_TOPLEVEL_V6_RESIZE_EDGE_TOP_LEFT:
return HTTOPLEFT;
case ZXDG_TOPLEVEL_V6_RESIZE_EDGE_BOTTOM_LEFT:
return HTBOTTOMLEFT;
case ZXDG_TOPLEVEL_V6_RESIZE_EDGE_RIGHT:
return HTRIGHT;
case ZXDG_TOPLEVEL_V6_RESIZE_EDGE_TOP_RIGHT:
return HTTOPRIGHT;
case ZXDG_TOPLEVEL_V6_RESIZE_EDGE_BOTTOM_RIGHT:
return HTBOTTOMRIGHT;
default:
return HTBOTTOMRIGHT;
}
}
using XdgSurfaceConfigureCallback =
base::Callback<void(const gfx::Size& size,
ash::mojom::WindowStateType state_type,
bool resizing,
bool activated)>;
uint32_t HandleXdgSurfaceV6ConfigureCallback(
wl_resource* resource,
const XdgSurfaceConfigureCallback& callback,
const gfx::Size& size,
ash::mojom::WindowStateType state_type,
bool resizing,
bool activated,
const gfx::Vector2d& origin_offset) {
uint32_t serial = wl_display_next_serial(
wl_client_get_display(wl_resource_get_client(resource)));
callback.Run(size, state_type, resizing, activated);
zxdg_surface_v6_send_configure(resource, serial);
wl_client_flush(wl_resource_get_client(resource));
return serial;
}
// Wrapper around shell surface that allows us to handle the case where the
// xdg surface resource is destroyed before the toplevel resource.
class WaylandToplevel : public aura::WindowObserver {
public:
WaylandToplevel(wl_resource* resource, wl_resource* surface_resource)
: resource_(resource),
shell_surface_(GetUserDataAs<XdgShellSurface>(surface_resource)),
weak_ptr_factory_(this) {
shell_surface_->host_window()->AddObserver(this);
shell_surface_->set_close_callback(
base::Bind(&WaylandToplevel::OnClose, weak_ptr_factory_.GetWeakPtr()));
shell_surface_->set_configure_callback(
base::Bind(&HandleXdgSurfaceV6ConfigureCallback, surface_resource,
base::Bind(&WaylandToplevel::OnConfigure,
weak_ptr_factory_.GetWeakPtr())));
}
~WaylandToplevel() override {
if (shell_surface_)
shell_surface_->host_window()->RemoveObserver(this);
}
// Overridden from aura::WindowObserver:
void OnWindowDestroying(aura::Window* window) override {
shell_surface_ = nullptr;
}
void SetParent(WaylandToplevel* parent) {
if (!shell_surface_)
return;
if (!parent) {
shell_surface_->SetParent(nullptr);
return;
}
// This is a no-op if parent is not mapped.
if (parent->shell_surface_ && parent->shell_surface_->GetWidget())
shell_surface_->SetParent(parent->shell_surface_);
}
void SetTitle(const base::string16& title) {
if (shell_surface_)
shell_surface_->SetTitle(title);
}
void SetApplicationId(const char* application_id) {
if (shell_surface_)
shell_surface_->SetApplicationId(application_id);
}
void Move() {
if (shell_surface_)
shell_surface_->StartMove();
}
void Resize(int component) {
if (!shell_surface_)
return;
if (component != HTNOWHERE)
shell_surface_->StartResize(component);
}
void SetMaximumSize(const gfx::Size& size) {
if (shell_surface_)
shell_surface_->SetMaximumSize(size);
}
void SetMinimumSize(const gfx::Size& size) {
if (shell_surface_)
shell_surface_->SetMinimumSize(size);
}
void Maximize() {
if (shell_surface_)
shell_surface_->Maximize();
}
void Restore() {
if (shell_surface_)
shell_surface_->Restore();
}
void SetFullscreen(bool fullscreen) {
if (shell_surface_)
shell_surface_->SetFullscreen(fullscreen);
}
void Minimize() {
if (shell_surface_)
shell_surface_->Minimize();
}
private:
void OnClose() {
zxdg_toplevel_v6_send_close(resource_);
wl_client_flush(wl_resource_get_client(resource_));
}
static void AddState(wl_array* states, zxdg_toplevel_v6_state state) {
zxdg_toplevel_v6_state* value = static_cast<zxdg_toplevel_v6_state*>(
wl_array_add(states, sizeof(zxdg_toplevel_v6_state)));
DCHECK(value);
*value = state;
}
void OnConfigure(const gfx::Size& size,
ash::mojom::WindowStateType state_type,
bool resizing,
bool activated) {
wl_array states;
wl_array_init(&states);
if (state_type == ash::mojom::WindowStateType::MAXIMIZED)
AddState(&states, ZXDG_TOPLEVEL_V6_STATE_MAXIMIZED);
if (state_type == ash::mojom::WindowStateType::FULLSCREEN)
AddState(&states, ZXDG_TOPLEVEL_V6_STATE_FULLSCREEN);
if (resizing)
AddState(&states, ZXDG_TOPLEVEL_V6_STATE_RESIZING);
if (activated)
AddState(&states, ZXDG_TOPLEVEL_V6_STATE_ACTIVATED);
zxdg_toplevel_v6_send_configure(resource_, size.width(), size.height(),
&states);
wl_array_release(&states);
}
wl_resource* const resource_;
XdgShellSurface* shell_surface_;
base::WeakPtrFactory<WaylandToplevel> weak_ptr_factory_;
DISALLOW_COPY_AND_ASSIGN(WaylandToplevel);
};
void xdg_toplevel_v6_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void xdg_toplevel_v6_set_parent(wl_client* client,
wl_resource* resource,
wl_resource* parent) {
WaylandToplevel* parent_surface = nullptr;
if (parent)
parent_surface = GetUserDataAs<WaylandToplevel>(parent);
GetUserDataAs<WaylandToplevel>(resource)->SetParent(parent_surface);
}
void xdg_toplevel_v6_set_title(wl_client* client,
wl_resource* resource,
const char* title) {
GetUserDataAs<WaylandToplevel>(resource)->SetTitle(
base::string16(base::UTF8ToUTF16(title)));
}
void xdg_toplevel_v6_set_app_id(wl_client* client,
wl_resource* resource,
const char* app_id) {
GetUserDataAs<WaylandToplevel>(resource)->SetApplicationId(app_id);
}
void xdg_toplevel_v6_show_window_menu(wl_client* client,
wl_resource* resource,
wl_resource* seat,
uint32_t serial,
int32_t x,
int32_t y) {
NOTIMPLEMENTED();
}
void xdg_toplevel_v6_move(wl_client* client,
wl_resource* resource,
wl_resource* seat,
uint32_t serial) {
GetUserDataAs<WaylandToplevel>(resource)->Move();
}
void xdg_toplevel_v6_resize(wl_client* client,
wl_resource* resource,
wl_resource* seat,
uint32_t serial,
uint32_t edges) {
GetUserDataAs<WaylandToplevel>(resource)->Resize(
XdgToplevelV6ResizeComponent(edges));
}
void xdg_toplevel_v6_set_max_size(wl_client* client,
wl_resource* resource,
int32_t width,
int32_t height) {
GetUserDataAs<WaylandToplevel>(resource)->SetMaximumSize(
gfx::Size(width, height));
}
void xdg_toplevel_v6_set_min_size(wl_client* client,
wl_resource* resource,
int32_t width,
int32_t height) {
GetUserDataAs<WaylandToplevel>(resource)->SetMinimumSize(
gfx::Size(width, height));
}
void xdg_toplevel_v6_set_maximized(wl_client* client, wl_resource* resource) {
GetUserDataAs<WaylandToplevel>(resource)->Maximize();
}
void xdg_toplevel_v6_unset_maximized(wl_client* client, wl_resource* resource) {
GetUserDataAs<WaylandToplevel>(resource)->Restore();
}
void xdg_toplevel_v6_set_fullscreen(wl_client* client,
wl_resource* resource,
wl_resource* output) {
GetUserDataAs<WaylandToplevel>(resource)->SetFullscreen(true);
}
void xdg_toplevel_v6_unset_fullscreen(wl_client* client,
wl_resource* resource) {
GetUserDataAs<WaylandToplevel>(resource)->SetFullscreen(false);
}
void xdg_toplevel_v6_set_minimized(wl_client* client, wl_resource* resource) {
GetUserDataAs<WaylandToplevel>(resource)->Minimize();
}
const struct zxdg_toplevel_v6_interface xdg_toplevel_v6_implementation = {
xdg_toplevel_v6_destroy, xdg_toplevel_v6_set_parent,
xdg_toplevel_v6_set_title, xdg_toplevel_v6_set_app_id,
xdg_toplevel_v6_show_window_menu, xdg_toplevel_v6_move,
xdg_toplevel_v6_resize, xdg_toplevel_v6_set_max_size,
xdg_toplevel_v6_set_min_size, xdg_toplevel_v6_set_maximized,
xdg_toplevel_v6_unset_maximized, xdg_toplevel_v6_set_fullscreen,
xdg_toplevel_v6_unset_fullscreen, xdg_toplevel_v6_set_minimized};
////////////////////////////////////////////////////////////////////////////////
// xdg_popup_interface:
// Wrapper around shell surface that allows us to handle the case where the
// xdg surface resource is destroyed before the popup resource.
class WaylandPopup : aura::WindowObserver {
public:
WaylandPopup(wl_resource* resource, wl_resource* surface_resource)
: resource_(resource),
shell_surface_(GetUserDataAs<ShellSurface>(surface_resource)),
weak_ptr_factory_(this) {
shell_surface_->host_window()->AddObserver(this);
shell_surface_->set_close_callback(
base::Bind(&WaylandPopup::OnClose, weak_ptr_factory_.GetWeakPtr()));
shell_surface_->set_configure_callback(
base::Bind(&HandleXdgSurfaceV6ConfigureCallback, surface_resource,
base::Bind(&WaylandPopup::OnConfigure,
weak_ptr_factory_.GetWeakPtr())));
}
~WaylandPopup() override {
if (shell_surface_)
shell_surface_->host_window()->RemoveObserver(this);
}
void Grab() {
if (!shell_surface_) {
wl_resource_post_error(resource_, ZXDG_POPUP_V6_ERROR_INVALID_GRAB,
"the surface has already been destroyed");
return;
}
if (shell_surface_->GetWidget()) {
wl_resource_post_error(resource_, ZXDG_POPUP_V6_ERROR_INVALID_GRAB,
"grab must be called before construction");
return;
}
shell_surface_->Grab();
}
// Overridden from aura::WindowObserver:
void OnWindowDestroying(aura::Window* window) override {
shell_surface_ = nullptr;
}
private:
void OnClose() {
zxdg_popup_v6_send_popup_done(resource_);
wl_client_flush(wl_resource_get_client(resource_));
}
void OnConfigure(const gfx::Size& size,
ash::mojom::WindowStateType state_type,
bool resizing,
bool activated) {
// Nothing to do here as popups don't have additional configure state.
}
wl_resource* const resource_;
ShellSurface* shell_surface_;
base::WeakPtrFactory<WaylandPopup> weak_ptr_factory_;
DISALLOW_COPY_AND_ASSIGN(WaylandPopup);
};
void xdg_popup_v6_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void xdg_popup_v6_grab(wl_client* client,
wl_resource* resource,
wl_resource* seat,
uint32_t serial) {
GetUserDataAs<WaylandPopup>(resource)->Grab();
}
const struct zxdg_popup_v6_interface xdg_popup_v6_implementation = {
xdg_popup_v6_destroy, xdg_popup_v6_grab};
////////////////////////////////////////////////////////////////////////////////
// xdg_surface_interface:
void xdg_surface_v6_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void xdg_surface_v6_get_toplevel(wl_client* client,
wl_resource* resource,
uint32_t id) {
ShellSurface* shell_surface = GetUserDataAs<ShellSurface>(resource);
if (shell_surface->enabled()) {
wl_resource_post_error(resource, ZXDG_SURFACE_V6_ERROR_ALREADY_CONSTRUCTED,
"surface has already been constructed");
return;
}
shell_surface->SetCanMinimize(true);
shell_surface->SetEnabled(true);
wl_resource* xdg_toplevel_resource =
wl_resource_create(client, &zxdg_toplevel_v6_interface, 1, id);
SetImplementation(
xdg_toplevel_resource, &xdg_toplevel_v6_implementation,
std::make_unique<WaylandToplevel>(xdg_toplevel_resource, resource));
}
void xdg_surface_v6_get_popup(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* parent_resource,
wl_resource* positioner_resource) {
XdgShellSurface* shell_surface = GetUserDataAs<XdgShellSurface>(resource);
if (shell_surface->enabled()) {
wl_resource_post_error(resource, ZXDG_SURFACE_V6_ERROR_ALREADY_CONSTRUCTED,
"surface has already been constructed");
return;
}
XdgShellSurface* parent = GetUserDataAs<XdgShellSurface>(parent_resource);
if (!parent->GetWidget()) {
wl_resource_post_error(resource, ZXDG_SURFACE_V6_ERROR_NOT_CONSTRUCTED,
"popup parent not constructed");
return;
}
if (shell_surface->GetWidget()) {
wl_resource_post_error(resource, ZXDG_SURFACE_V6_ERROR_ALREADY_CONSTRUCTED,
"get_popup is called after constructed");
return;
}
display::Display display =
display::Screen::GetScreen()->GetDisplayNearestWindow(
parent->GetWidget()->GetNativeWindow());
gfx::Rect work_area = display.work_area();
wm::ConvertRectFromScreen(parent->GetWidget()->GetNativeWindow(), &work_area);
WaylandPositioner* positioner =
GetUserDataAs<WaylandPositioner>(positioner_resource);
// Try layout using parent's flip state.
positioner->x_flipped = parent->x_flipped();
positioner->y_flipped = parent->y_flipped();
gfx::Point position = positioner->CalculatePosition(work_area);
// Remember the new flip state for its child popups.
shell_surface->set_x_flipped(positioner->x_flipped);
shell_surface->set_y_flipped(positioner->y_flipped);
// |position| is relative to the parent's contents view origin, and |origin|
// is in screen coordinates.
gfx::Point origin = position;
views::View::ConvertPointToScreen(
parent->GetWidget()->widget_delegate()->GetContentsView(), &origin);
shell_surface->SetOrigin(origin);
shell_surface->SetContainer(ash::kShellWindowId_MenuContainer);
shell_surface->DisableMovement();
shell_surface->SetActivatable(false);
shell_surface->SetCanMinimize(false);
shell_surface->SetParent(parent);
shell_surface->SetPopup();
shell_surface->SetEnabled(true);
wl_resource* xdg_popup_resource =
wl_resource_create(client, &zxdg_popup_v6_interface, 1, id);
SetImplementation(
xdg_popup_resource, &xdg_popup_v6_implementation,
std::make_unique<WaylandPopup>(xdg_popup_resource, resource));
}
void xdg_surface_v6_set_window_geometry(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
GetUserDataAs<ShellSurface>(resource)->SetGeometry(
gfx::Rect(x, y, width, height));
}
void xdg_surface_v6_ack_configure(wl_client* client,
wl_resource* resource,
uint32_t serial) {
GetUserDataAs<ShellSurface>(resource)->AcknowledgeConfigure(serial);
}
const struct zxdg_surface_v6_interface xdg_surface_v6_implementation = {
xdg_surface_v6_destroy, xdg_surface_v6_get_toplevel,
xdg_surface_v6_get_popup, xdg_surface_v6_set_window_geometry,
xdg_surface_v6_ack_configure};
////////////////////////////////////////////////////////////////////////////////
// xdg_shell_interface:
void xdg_shell_v6_destroy(wl_client* client, wl_resource* resource) {
// Nothing to do here.
}
void xdg_shell_v6_create_positioner(wl_client* client,
wl_resource* resource,
uint32_t id) {
wl_resource* positioner_resource =
wl_resource_create(client, &zxdg_positioner_v6_interface, 1, id);
SetImplementation(positioner_resource, &xdg_positioner_v6_implementation,
std::make_unique<WaylandPositioner>());
}
void xdg_shell_v6_get_xdg_surface(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface) {
std::unique_ptr<ShellSurface> shell_surface =
GetUserDataAs<Display>(resource)->CreateXdgShellSurface(
GetUserDataAs<Surface>(surface));
if (!shell_surface) {
wl_resource_post_error(resource, ZXDG_SHELL_V6_ERROR_ROLE,
"surface has already been assigned a role");
return;
}
// Xdg shell v6 surfaces are initially disabled and needs to be explicitly
// mapped before they are enabled and can become visible.
shell_surface->SetEnabled(false);
wl_resource* xdg_surface_resource =
wl_resource_create(client, &zxdg_surface_v6_interface, 1, id);
SetImplementation(xdg_surface_resource, &xdg_surface_v6_implementation,
std::move(shell_surface));
}
void xdg_shell_v6_pong(wl_client* client,
wl_resource* resource,
uint32_t serial) {
NOTIMPLEMENTED();
}
const struct zxdg_shell_v6_interface xdg_shell_v6_implementation = {
xdg_shell_v6_destroy, xdg_shell_v6_create_positioner,
xdg_shell_v6_get_xdg_surface, xdg_shell_v6_pong};
void bind_xdg_shell_v6(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zxdg_shell_v6_interface, 1, id);
wl_resource_set_implementation(resource, &xdg_shell_v6_implementation, data,
nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// remote_surface_interface:
SurfaceFrameType RemoteShellSurfaceFrameType(uint32_t frame_type) {
switch (frame_type) {
case ZCR_REMOTE_SURFACE_V1_FRAME_TYPE_NONE:
return SurfaceFrameType::NONE;
case ZCR_REMOTE_SURFACE_V1_FRAME_TYPE_NORMAL:
return SurfaceFrameType::NORMAL;
case ZCR_REMOTE_SURFACE_V1_FRAME_TYPE_SHADOW:
return SurfaceFrameType::SHADOW;
case ZCR_REMOTE_SURFACE_V1_FRAME_TYPE_AUTOHIDE:
return SurfaceFrameType::AUTOHIDE;
case ZCR_REMOTE_SURFACE_V1_FRAME_TYPE_OVERLAY:
return SurfaceFrameType::OVERLAY;
default:
VLOG(2) << "Unknown remote-shell frame type: " << frame_type;
return SurfaceFrameType::NONE;
}
}
void remote_surface_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void remote_surface_set_app_id(wl_client* client,
wl_resource* resource,
const char* app_id) {
GetUserDataAs<ShellSurfaceBase>(resource)->SetApplicationId(app_id);
}
void remote_surface_set_window_geometry(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
GetUserDataAs<ShellSurfaceBase>(resource)->SetGeometry(
gfx::Rect(x, y, width, height));
}
void remote_surface_set_orientation(wl_client* client,
wl_resource* resource,
int32_t orientation) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetOrientation(
orientation == ZCR_REMOTE_SURFACE_V1_ORIENTATION_PORTRAIT
? Orientation::PORTRAIT
: Orientation::LANDSCAPE);
}
void remote_surface_set_scale(wl_client* client,
wl_resource* resource,
wl_fixed_t scale) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetScale(
wl_fixed_to_double(scale));
}
void remote_surface_set_rectangular_shadow_DEPRECATED(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
NOTIMPLEMENTED();
}
void remote_surface_set_rectangular_shadow_background_opacity_DEPRECATED(
wl_client* client,
wl_resource* resource,
wl_fixed_t opacity) {
NOTIMPLEMENTED();
}
void remote_surface_set_title(wl_client* client,
wl_resource* resource,
const char* title) {
GetUserDataAs<ShellSurfaceBase>(resource)->SetTitle(
base::string16(base::UTF8ToUTF16(title)));
}
void remote_surface_set_top_inset(wl_client* client,
wl_resource* resource,
int32_t height) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetTopInset(height);
}
void remote_surface_activate(wl_client* client,
wl_resource* resource,
uint32_t serial) {
ShellSurfaceBase* shell_surface = GetUserDataAs<ShellSurfaceBase>(resource);
shell_surface->Activate();
}
void remote_surface_maximize(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetMaximized();
}
void remote_surface_minimize(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetMinimized();
}
void remote_surface_restore(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetRestored();
}
void remote_surface_fullscreen(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetFullscreen(true);
}
void remote_surface_unfullscreen(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetFullscreen(false);
}
void remote_surface_pin(wl_client* client,
wl_resource* resource,
int32_t trusted) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetPinned(
trusted ? ash::mojom::WindowPinType::TRUSTED_PINNED
: ash::mojom::WindowPinType::PINNED);
}
void remote_surface_unpin(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetPinned(
ash::mojom::WindowPinType::NONE);
}
void remote_surface_set_system_modal(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetSystemModal(true);
}
void remote_surface_unset_system_modal(wl_client* client,
wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetSystemModal(false);
}
void remote_surface_set_rectangular_surface_shadow(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
ClientControlledShellSurface* shell_surface =
GetUserDataAs<ClientControlledShellSurface>(resource);
shell_surface->SetShadowBounds(gfx::Rect(x, y, width, height));
}
void remote_surface_set_systemui_visibility(wl_client* client,
wl_resource* resource,
uint32_t visibility) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetSystemUiVisibility(
visibility != ZCR_REMOTE_SURFACE_V1_SYSTEMUI_VISIBILITY_STATE_VISIBLE);
}
void remote_surface_set_always_on_top(wl_client* client,
wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetAlwaysOnTop(true);
}
void remote_surface_unset_always_on_top(wl_client* client,
wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetAlwaysOnTop(false);
}
void remote_surface_ack_configure(wl_client* client,
wl_resource* resource,
uint32_t serial) {
// DEPRECATED
}
void remote_surface_move(wl_client* client, wl_resource* resource) {
// DEPRECATED
}
void remote_surface_set_window_type(wl_client* client,
wl_resource* resource,
uint32_t type) {
if (type == ZCR_REMOTE_SURFACE_V1_WINDOW_TYPE_SYSTEM_UI) {
auto* widget = GetUserDataAs<ShellSurfaceBase>(resource)->GetWidget();
if (widget) {
widget->GetNativeWindow()->SetProperty(ash::kHideInOverviewKey, true);
wm::SetWindowVisibilityAnimationType(
widget->GetNativeWindow(), wm::WINDOW_VISIBILITY_ANIMATION_TYPE_FADE);
}
}
}
void remote_surface_resize(wl_client* client, wl_resource* resource) {
// DEPRECATED
}
void remote_surface_set_resize_outset(wl_client* client,
wl_resource* resource,
int32_t outset) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetResizeOutset(
outset);
}
void remote_surface_start_move(wl_client* client,
wl_resource* resource,
int32_t x,
int32_t y) {
GetUserDataAs<ClientControlledShellSurface>(resource)->StartDrag(
HTCAPTION, gfx::Point(x, y));
}
void remote_surface_set_can_maximize(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetCanMaximize(true);
}
void remote_surface_unset_can_maximize(wl_client* client,
wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetCanMaximize(false);
}
void remote_surface_set_min_size(wl_client* client,
wl_resource* resource,
int32_t width,
int32_t height) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetMinimumSize(
gfx::Size(width, height));
}
void remote_surface_set_max_size(wl_client* client,
wl_resource* resource,
int32_t width,
int32_t height) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetMaximumSize(
gfx::Size(width, height));
}
void remote_surface_set_snapped_to_left(wl_client* client,
wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetSnappedToLeft();
}
void remote_surface_set_snapped_to_right(wl_client* client,
wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetSnappedToRight();
}
void remote_surface_start_resize(wl_client* client,
wl_resource* resource,
uint32_t direction,
int32_t x,
int32_t y) {
GetUserDataAs<ClientControlledShellSurface>(resource)->StartDrag(
Component(direction), gfx::Point(x, y));
}
void remote_surface_set_frame(wl_client* client,
wl_resource* resource,
uint32_t type) {
ClientControlledShellSurface* shell_surface =
GetUserDataAs<ClientControlledShellSurface>(resource);
shell_surface->root_surface()->SetFrame(RemoteShellSurfaceFrameType(type));
}
void remote_surface_set_frame_buttons(wl_client* client,
wl_resource* resource,
uint32_t visible_button_mask,
uint32_t enabled_button_mask) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetFrameButtons(
CaptionButtonMask(visible_button_mask),
CaptionButtonMask(enabled_button_mask));
}
void remote_surface_set_extra_title(wl_client* client,
wl_resource* resource,
const char* extra_title) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetExtraTitle(
base::string16(base::UTF8ToUTF16(extra_title)));
}
ash::OrientationLockType OrientationLock(uint32_t orientation_lock) {
switch (orientation_lock) {
case ZCR_REMOTE_SURFACE_V1_ORIENTATION_LOCK_NONE:
return ash::OrientationLockType::kAny;
case ZCR_REMOTE_SURFACE_V1_ORIENTATION_LOCK_CURRENT:
return ash::OrientationLockType::kCurrent;
case ZCR_REMOTE_SURFACE_V1_ORIENTATION_LOCK_PORTRAIT:
return ash::OrientationLockType::kPortrait;
case ZCR_REMOTE_SURFACE_V1_ORIENTATION_LOCK_LANDSCAPE:
return ash::OrientationLockType::kLandscape;
case ZCR_REMOTE_SURFACE_V1_ORIENTATION_LOCK_PORTRAIT_PRIMARY:
return ash::OrientationLockType::kPortraitPrimary;
case ZCR_REMOTE_SURFACE_V1_ORIENTATION_LOCK_PORTRAIT_SECONDARY:
return ash::OrientationLockType::kPortraitSecondary;
case ZCR_REMOTE_SURFACE_V1_ORIENTATION_LOCK_LANDSCAPE_PRIMARY:
return ash::OrientationLockType::kLandscapePrimary;
case ZCR_REMOTE_SURFACE_V1_ORIENTATION_LOCK_LANDSCAPE_SECONDARY:
return ash::OrientationLockType::kLandscapeSecondary;
}
VLOG(2) << "Unexpected value of orientation_lock: " << orientation_lock;
return ash::OrientationLockType::kAny;
}
void remote_surface_set_orientation_lock(wl_client* client,
wl_resource* resource,
uint32_t orientation_lock) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetOrientationLock(
OrientationLock(orientation_lock));
}
void remote_surface_pip(wl_client* client, wl_resource* resource) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetPip();
}
void remote_surface_set_bounds(wl_client* client,
wl_resource* resource,
uint32_t display_id_hi,
uint32_t display_id_lo,
int32_t x,
int32_t y,
int32_t width,
int32_t height) {
GetUserDataAs<ClientControlledShellSurface>(resource)->SetBounds(
static_cast<int64_t>(display_id_hi) << 32 | display_id_lo,
gfx::Rect(x, y, width, height));
}
const struct zcr_remote_surface_v1_interface remote_surface_implementation = {
remote_surface_destroy,
remote_surface_set_app_id,
remote_surface_set_window_geometry,
remote_surface_set_scale,
remote_surface_set_rectangular_shadow_DEPRECATED,
remote_surface_set_rectangular_shadow_background_opacity_DEPRECATED,
remote_surface_set_title,
remote_surface_set_top_inset,
remote_surface_activate,
remote_surface_maximize,
remote_surface_minimize,
remote_surface_restore,
remote_surface_fullscreen,
remote_surface_unfullscreen,
remote_surface_pin,
remote_surface_unpin,
remote_surface_set_system_modal,
remote_surface_unset_system_modal,
remote_surface_set_rectangular_surface_shadow,
remote_surface_set_systemui_visibility,
remote_surface_set_always_on_top,
remote_surface_unset_always_on_top,
remote_surface_ack_configure,
remote_surface_move,
remote_surface_set_orientation,
remote_surface_set_window_type,
remote_surface_resize,
remote_surface_set_resize_outset,
remote_surface_start_move,
remote_surface_set_can_maximize,
remote_surface_unset_can_maximize,
remote_surface_set_min_size,
remote_surface_set_max_size,
remote_surface_set_snapped_to_left,
remote_surface_set_snapped_to_right,
remote_surface_start_resize,
remote_surface_set_frame,
remote_surface_set_frame_buttons,
remote_surface_set_extra_title,
remote_surface_set_orientation_lock,
remote_surface_pip,
remote_surface_set_bounds};
////////////////////////////////////////////////////////////////////////////////
// notification_surface_interface:
void notification_surface_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void notification_surface_set_app_id(wl_client* client,
wl_resource* resource,
const char* app_id) {
GetUserDataAs<NotificationSurface>(resource)->SetApplicationId(app_id);
}
const struct zcr_notification_surface_v1_interface
notification_surface_implementation = {notification_surface_destroy,
notification_surface_set_app_id};
////////////////////////////////////////////////////////////////////////////////
// input_method_surface_interface:
void input_method_surface_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct zcr_input_method_surface_v1_interface
input_method_surface_implementation = {input_method_surface_destroy};
////////////////////////////////////////////////////////////////////////////////
// remote_shell_interface:
// Implements remote shell interface and monitors workspace state needed
// for the remote shell interface.
class WaylandRemoteShell : public ash::TabletModeObserver,
public wm::ActivationChangeObserver,
public display::DisplayObserver {
public:
WaylandRemoteShell(Display* display, wl_resource* remote_shell_resource)
: display_(display),
remote_shell_resource_(remote_shell_resource),
weak_ptr_factory_(this) {
WMHelperChromeOS* helper = WMHelperChromeOS::GetInstance();
helper->AddTabletModeObserver(this);
helper->AddActivationObserver(this);
display::Screen::GetScreen()->AddObserver(this);
layout_mode_ = helper->IsTabletModeWindowManagerEnabled()
? ZCR_REMOTE_SHELL_V1_LAYOUT_MODE_TABLET
: ZCR_REMOTE_SHELL_V1_LAYOUT_MODE_WINDOWED;
if (wl_resource_get_version(remote_shell_resource_) >= 8) {
double scale_factor = GetDefaultDeviceScaleFactor();
// Send using 16.16 fixed point.
const int kDecimalBits = 24;
int32_t fixed_scale =
static_cast<int32_t>(scale_factor * (1 << kDecimalBits));
zcr_remote_shell_v1_send_default_device_scale_factor(
remote_shell_resource_, fixed_scale);
}
SendDisplayMetrics();
SendActivated(helper->GetActiveWindow(), nullptr);
}
~WaylandRemoteShell() override {
WMHelperChromeOS* helper = WMHelperChromeOS::GetInstance();
helper->RemoveTabletModeObserver(this);
helper->RemoveActivationObserver(this);
display::Screen::GetScreen()->RemoveObserver(this);
}
std::unique_ptr<ClientControlledShellSurface> CreateShellSurface(
Surface* surface,
int container,
double default_device_scale_factor) {
return display_->CreateClientControlledShellSurface(
surface, container, default_device_scale_factor);
}
std::unique_ptr<NotificationSurface> CreateNotificationSurface(
Surface* surface,
const std::string& notification_key) {
return display_->CreateNotificationSurface(surface, notification_key);
}
std::unique_ptr<InputMethodSurface> CreateInputMethodSurface(
Surface* surface,
double default_device_scale_factor) {
return display_->CreateInputMethodSurface(surface,
default_device_scale_factor);
}
// Overridden from display::DisplayObserver:
void OnDisplayAdded(const display::Display& new_display) override {
ScheduleSendDisplayMetrics(0);
}
void OnDisplayRemoved(const display::Display& old_display) override {
ScheduleSendDisplayMetrics(0);
}
void OnDisplayMetricsChanged(const display::Display& display,
uint32_t changed_metrics) override {
// No need to update when a primary display has changed without bounds
// change. See WaylandDisplayObserver::OnDisplayMetricsChanged
// for more details.
if (changed_metrics &
(DISPLAY_METRIC_BOUNDS | DISPLAY_METRIC_DEVICE_SCALE_FACTOR |
DISPLAY_METRIC_ROTATION | DISPLAY_METRIC_WORK_AREA)) {
ScheduleSendDisplayMetrics(0);
}
}
// Overridden from ash::TabletModeObserver:
void OnTabletModeStarted() override {
layout_mode_ = ZCR_REMOTE_SHELL_V1_LAYOUT_MODE_TABLET;
ScheduleSendDisplayMetrics(kConfigureDelayAfterLayoutSwitchMs);
}
void OnTabletModeEnding() override {
layout_mode_ = ZCR_REMOTE_SHELL_V1_LAYOUT_MODE_WINDOWED;
ScheduleSendDisplayMetrics(kConfigureDelayAfterLayoutSwitchMs);
}
void OnTabletModeEnded() override {}
// Overridden from wm::ActivationChangeObserver:
void OnWindowActivated(ActivationReason reason,
aura::Window* gained_active,
aura::Window* lost_active) override {
SendActivated(gained_active, lost_active);
}
private:
void ScheduleSendDisplayMetrics(int delay_ms) {
needs_send_display_metrics_ = true;
base::ThreadTaskRunnerHandle::Get()->PostDelayedTask(
FROM_HERE,
base::BindOnce(&WaylandRemoteShell::SendDisplayMetrics,
weak_ptr_factory_.GetWeakPtr()),
base::TimeDelta::FromMilliseconds(delay_ms));
}
// Returns the transform that a display's output is currently adjusted for.
wl_output_transform DisplayTransform(display::Display::Rotation rotation) {
switch (rotation) {
case display::Display::ROTATE_0:
return WL_OUTPUT_TRANSFORM_NORMAL;
case display::Display::ROTATE_90:
return WL_OUTPUT_TRANSFORM_90;
case display::Display::ROTATE_180:
return WL_OUTPUT_TRANSFORM_180;
case display::Display::ROTATE_270:
return WL_OUTPUT_TRANSFORM_270;
}
NOTREACHED();
return WL_OUTPUT_TRANSFORM_NORMAL;
}
void SendDisplayMetrics() {
if (!needs_send_display_metrics_)
return;
needs_send_display_metrics_ = false;
const display::Screen* screen = display::Screen::GetScreen();
for (const auto& display : screen->GetAllDisplays()) {
const gfx::Rect& bounds = display.bounds();
const gfx::Insets& insets = GetAdjustedInsets(display);
double device_scale_factor = display.device_scale_factor();
uint32_t display_id_hi = static_cast<uint32_t>(display.id() >> 32);
uint32_t display_id_lo = static_cast<uint32_t>(display.id());
zcr_remote_shell_v1_send_workspace(
remote_shell_resource_, display_id_hi, display_id_lo, bounds.x(),
bounds.y(), bounds.width(), bounds.height(), insets.left(),
insets.top(), insets.right(), insets.bottom(),
DisplayTransform(display.rotation()),
wl_fixed_from_double(device_scale_factor), display.IsInternal());
if (wl_resource_get_version(remote_shell_resource_) >= 19) {
gfx::Size size_in_pixel = display.GetSizeInPixel();
wl_array data;
wl_array_init(&data);
const auto& bytes =
WMHelper::GetInstance()->GetDisplayIdentificationData(display.id());
for (uint8_t byte : bytes) {
uint8_t* ptr =
static_cast<uint8_t*>(wl_array_add(&data, sizeof(uint8_t)));
DCHECK(ptr);
*ptr = byte;
}
zcr_remote_shell_v1_send_display_info(
remote_shell_resource_, display_id_hi, display_id_lo,
size_in_pixel.width(), size_in_pixel.height(), &data);
wl_array_release(&data);
}
}
zcr_remote_shell_v1_send_configure(remote_shell_resource_, layout_mode_);
wl_client_flush(wl_resource_get_client(remote_shell_resource_));
}
void SendActivated(aura::Window* gained_active, aura::Window* lost_active) {
Surface* gained_active_surface =
gained_active ? ShellSurface::GetMainSurface(gained_active) : nullptr;
Surface* lost_active_surface =
lost_active ? ShellSurface::GetMainSurface(lost_active) : nullptr;
wl_resource* gained_active_surface_resource =
gained_active_surface ? GetSurfaceResource(gained_active_surface)
: nullptr;
wl_resource* lost_active_surface_resource =
lost_active_surface ? GetSurfaceResource(lost_active_surface) : nullptr;
wl_client* client = wl_resource_get_client(remote_shell_resource_);
// If surface that gained active is not owned by remote shell client then
// set it to null.
if (gained_active_surface_resource &&
wl_resource_get_client(gained_active_surface_resource) != client) {
gained_active_surface_resource = nullptr;
}
// If surface that lost active is not owned by remote shell client then
// set it to null.
if (lost_active_surface_resource &&
wl_resource_get_client(lost_active_surface_resource) != client) {
lost_active_surface_resource = nullptr;
}
zcr_remote_shell_v1_send_activated(remote_shell_resource_,
gained_active_surface_resource,
lost_active_surface_resource);
wl_client_flush(client);
}
// The exo display instance. Not owned.
Display* const display_;
// The remote shell resource associated with observer.
wl_resource* const remote_shell_resource_;
bool needs_send_display_metrics_ = true;
int layout_mode_ = ZCR_REMOTE_SHELL_V1_LAYOUT_MODE_WINDOWED;
base::WeakPtrFactory<WaylandRemoteShell> weak_ptr_factory_;
DISALLOW_COPY_AND_ASSIGN(WaylandRemoteShell);
};
void remote_shell_destroy(wl_client* client, wl_resource* resource) {
// Nothing to do here.
}
int RemoteSurfaceContainer(uint32_t container) {
switch (container) {
case ZCR_REMOTE_SHELL_V1_CONTAINER_DEFAULT:
return ash::kShellWindowId_DefaultContainer;
case ZCR_REMOTE_SHELL_V1_CONTAINER_OVERLAY:
return ash::kShellWindowId_SystemModalContainer;
default:
DLOG(WARNING) << "Unsupported container: " << container;
return ash::kShellWindowId_DefaultContainer;
}
}
void HandleRemoteSurfaceCloseCallback(wl_resource* resource) {
zcr_remote_surface_v1_send_close(resource);
wl_client_flush(wl_resource_get_client(resource));
}
void HandleRemoteSurfaceStateChangedCallback(
wl_resource* resource,
ash::mojom::WindowStateType old_state_type,
ash::mojom::WindowStateType new_state_type) {
DCHECK_NE(old_state_type, new_state_type);
uint32_t state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_NORMAL;
switch (new_state_type) {
case ash::mojom::WindowStateType::MINIMIZED:
state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_MINIMIZED;
break;
case ash::mojom::WindowStateType::MAXIMIZED:
state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_MAXIMIZED;
break;
case ash::mojom::WindowStateType::FULLSCREEN:
state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_FULLSCREEN;
break;
case ash::mojom::WindowStateType::PINNED:
state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_PINNED;
break;
case ash::mojom::WindowStateType::TRUSTED_PINNED:
state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_TRUSTED_PINNED;
break;
case ash::mojom::WindowStateType::LEFT_SNAPPED:
state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_LEFT_SNAPPED;
break;
case ash::mojom::WindowStateType::RIGHT_SNAPPED:
state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_RIGHT_SNAPPED;
break;
case ash::mojom::WindowStateType::PIP:
state_type = ZCR_REMOTE_SHELL_V1_STATE_TYPE_PIP;
break;
default:
break;
}
zcr_remote_surface_v1_send_state_type_changed(resource, state_type);
wl_client_flush(wl_resource_get_client(resource));
}
void HandleRemoteSurfaceBoundsChangedCallback(
wl_resource* resource,
ash::mojom::WindowStateType current_state,
ash::mojom::WindowStateType requested_state,
int64_t display_id,
const gfx::Rect& bounds,
bool resize,
int bounds_change) {
zcr_remote_surface_v1_bounds_change_reason reason =
resize ? ZCR_REMOTE_SURFACE_V1_BOUNDS_CHANGE_REASON_RESIZE
: ZCR_REMOTE_SURFACE_V1_BOUNDS_CHANGE_REASON_MOVE;
if (bounds_change & ash::WindowResizer::kBoundsChange_Resizes) {
reason = ZCR_REMOTE_SURFACE_V1_BOUNDS_CHANGE_REASON_DRAG_RESIZE;
} else if (bounds_change & ash::WindowResizer::kBoundsChange_Repositions) {
reason = ZCR_REMOTE_SURFACE_V1_BOUNDS_CHANGE_REASON_DRAG_MOVE;
}
// Override the reason only if the window enters snapped mode. If the window
// resizes by dragging in snapped mode, we need to keep the original reason.
if (requested_state != current_state) {
if (requested_state == ash::mojom::WindowStateType::LEFT_SNAPPED) {
reason = ZCR_REMOTE_SURFACE_V1_BOUNDS_CHANGE_REASON_SNAP_TO_LEFT;
} else if (requested_state == ash::mojom::WindowStateType::RIGHT_SNAPPED) {
reason = ZCR_REMOTE_SURFACE_V1_BOUNDS_CHANGE_REASON_SNAP_TO_RIGHT;
}
}
zcr_remote_surface_v1_send_bounds_changed(
resource, static_cast<uint32_t>(display_id >> 32),
static_cast<uint32_t>(display_id), bounds.x(), bounds.y(), bounds.width(),
bounds.height(), reason);
wl_client_flush(wl_resource_get_client(resource));
}
void HandleRemoteSurfaceDragStartedCallback(wl_resource* resource,
int component) {
zcr_remote_surface_v1_send_drag_started(resource, ResizeDirection(component));
wl_client_flush(wl_resource_get_client(resource));
}
void HandleRemoteSurfaceDragFinishedCallback(wl_resource* resource,
int x,
int y,
bool canceled) {
zcr_remote_surface_v1_send_drag_finished(resource, x, y, canceled ? 1 : 0);
wl_client_flush(wl_resource_get_client(resource));
}
void HandleRemoteSurfaceGeometryChangedCallback(wl_resource* resource,
const gfx::Rect& geometry) {
zcr_remote_surface_v1_send_window_geometry_changed(
resource, geometry.x(), geometry.y(), geometry.width(),
geometry.height());
wl_client_flush(wl_resource_get_client(resource));
}
void remote_shell_get_remote_surface(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface,
uint32_t container) {
WaylandRemoteShell* shell = GetUserDataAs<WaylandRemoteShell>(resource);
double default_scale_factor = wl_resource_get_version(resource) >= 8
? GetDefaultDeviceScaleFactor()
: 1.0;
std::unique_ptr<ClientControlledShellSurface> shell_surface =
shell->CreateShellSurface(GetUserDataAs<Surface>(surface),
RemoteSurfaceContainer(container),
default_scale_factor);
if (!shell_surface) {
wl_resource_post_error(resource, ZCR_REMOTE_SHELL_V1_ERROR_ROLE,
"surface has already been assigned a role");
return;
}
wl_resource* remote_surface_resource =
wl_resource_create(client, &zcr_remote_surface_v1_interface,
wl_resource_get_version(resource), id);
shell_surface->set_close_callback(
base::Bind(&HandleRemoteSurfaceCloseCallback,
base::Unretained(remote_surface_resource)));
shell_surface->set_state_changed_callback(
base::Bind(&HandleRemoteSurfaceStateChangedCallback,
base::Unretained(remote_surface_resource)));
shell_surface->set_geometry_changed_callback(
base::BindRepeating(&HandleRemoteSurfaceGeometryChangedCallback,
base::Unretained(remote_surface_resource)));
if (wl_resource_get_version(remote_surface_resource) >= 10) {
shell_surface->set_client_controlled_move_resize(false);
shell_surface->set_bounds_changed_callback(
base::BindRepeating(&HandleRemoteSurfaceBoundsChangedCallback,
base::Unretained(remote_surface_resource)));
shell_surface->set_drag_started_callback(
base::BindRepeating(&HandleRemoteSurfaceDragStartedCallback,
base::Unretained(remote_surface_resource)));
shell_surface->set_drag_finished_callback(
base::BindRepeating(&HandleRemoteSurfaceDragFinishedCallback,
base::Unretained(remote_surface_resource)));
}
SetImplementation(remote_surface_resource, &remote_surface_implementation,
std::move(shell_surface));
}
void remote_shell_get_notification_surface(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface,
const char* notification_key) {
if (GetUserDataAs<Surface>(surface)->HasSurfaceDelegate()) {
wl_resource_post_error(resource, ZCR_REMOTE_SHELL_V1_ERROR_ROLE,
"surface has already been assigned a role");
return;
}
std::unique_ptr<NotificationSurface> notification_surface =
GetUserDataAs<WaylandRemoteShell>(resource)->CreateNotificationSurface(
GetUserDataAs<Surface>(surface), std::string(notification_key));
if (!notification_surface) {
wl_resource_post_error(resource,
ZCR_REMOTE_SHELL_V1_ERROR_INVALID_NOTIFICATION_KEY,
"invalid notification key");
return;
}
wl_resource* notification_surface_resource =
wl_resource_create(client, &zcr_notification_surface_v1_interface,
wl_resource_get_version(resource), id);
SetImplementation(notification_surface_resource,
&notification_surface_implementation,
std::move(notification_surface));
}
void remote_shell_get_input_method_surface(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface) {
if (GetUserDataAs<Surface>(surface)->HasSurfaceDelegate()) {
wl_resource_post_error(resource, ZCR_REMOTE_SHELL_V1_ERROR_ROLE,
"surface has already been assigned a role");
return;
}
std::unique_ptr<ClientControlledShellSurface> input_method_surface =
GetUserDataAs<WaylandRemoteShell>(resource)->CreateInputMethodSurface(
GetUserDataAs<Surface>(surface), GetDefaultDeviceScaleFactor());
if (!input_method_surface) {
wl_resource_post_error(resource, ZCR_REMOTE_SHELL_V1_ERROR_ROLE,
"Cannot create an IME surface");
return;
}
wl_resource* input_method_surface_resource =
wl_resource_create(client, &zcr_input_method_surface_v1_interface,
wl_resource_get_version(resource), id);
SetImplementation(input_method_surface_resource,
&input_method_surface_implementation,
std::move(input_method_surface));
}
const struct zcr_remote_shell_v1_interface remote_shell_implementation = {
remote_shell_destroy, remote_shell_get_remote_surface,
remote_shell_get_notification_surface,
remote_shell_get_input_method_surface};
const uint32_t remote_shell_version = 19;
void bind_remote_shell(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_remote_shell_v1_interface,
std::min(version, remote_shell_version), id);
SetImplementation(resource, &remote_shell_implementation,
std::make_unique<WaylandRemoteShell>(
static_cast<Display*>(data), resource));
}
////////////////////////////////////////////////////////////////////////////////
// aura_surface_interface:
class AuraSurface : public SurfaceObserver {
public:
explicit AuraSurface(Surface* surface) : surface_(surface) {
surface_->AddSurfaceObserver(this);
surface_->SetProperty(kSurfaceHasAuraSurfaceKey, true);
}
~AuraSurface() override {
if (surface_) {
surface_->RemoveSurfaceObserver(this);
surface_->SetProperty(kSurfaceHasAuraSurfaceKey, false);
}
}
void SetFrame(SurfaceFrameType type) {
if (surface_)
surface_->SetFrame(type);
}
void SetFrameColors(SkColor active_frame_color,
SkColor inactive_frame_color) {
if (surface_)
surface_->SetFrameColors(active_frame_color, inactive_frame_color);
}
void SetParent(AuraSurface* parent, const gfx::Point& position) {
if (surface_)
surface_->SetParent(parent ? parent->surface_ : nullptr, position);
}
void SetStartupId(const char* startup_id) {
if (surface_)
surface_->SetStartupId(startup_id);
}
void SetApplicationId(const char* application_id) {
if (surface_)
surface_->SetApplicationId(application_id);
}
// Overridden from SurfaceObserver:
void OnSurfaceDestroying(Surface* surface) override {
surface->RemoveSurfaceObserver(this);
surface_ = nullptr;
}
private:
Surface* surface_;
DISALLOW_COPY_AND_ASSIGN(AuraSurface);
};
SurfaceFrameType AuraSurfaceFrameType(uint32_t frame_type) {
switch (frame_type) {
case ZAURA_SURFACE_FRAME_TYPE_NONE:
return SurfaceFrameType::NONE;
case ZAURA_SURFACE_FRAME_TYPE_NORMAL:
return SurfaceFrameType::NORMAL;
case ZAURA_SURFACE_FRAME_TYPE_SHADOW:
return SurfaceFrameType::SHADOW;
default:
VLOG(2) << "Unkonwn aura-shell frame type: " << frame_type;
return SurfaceFrameType::NONE;
}
}
void aura_surface_set_frame(wl_client* client, wl_resource* resource,
uint32_t type) {
GetUserDataAs<AuraSurface>(resource)->SetFrame(AuraSurfaceFrameType(type));
}
void aura_surface_set_parent(wl_client* client,
wl_resource* resource,
wl_resource* parent_resource,
int32_t x,
int32_t y) {
GetUserDataAs<AuraSurface>(resource)->SetParent(
parent_resource ? GetUserDataAs<AuraSurface>(parent_resource) : nullptr,
gfx::Point(x, y));
}
void aura_surface_set_frame_colors(wl_client* client,
wl_resource* resource,
uint32_t active_color,
uint32_t inactive_color) {
GetUserDataAs<AuraSurface>(resource)->SetFrameColors(active_color,
inactive_color);
}
void aura_surface_set_startup_id(wl_client* client,
wl_resource* resource,
const char* startup_id) {
GetUserDataAs<AuraSurface>(resource)->SetStartupId(startup_id);
}
void aura_surface_set_application_id(wl_client* client,
wl_resource* resource,
const char* application_id) {
GetUserDataAs<AuraSurface>(resource)->SetApplicationId(application_id);
}
const struct zaura_surface_interface aura_surface_implementation = {
aura_surface_set_frame, aura_surface_set_parent,
aura_surface_set_frame_colors, aura_surface_set_startup_id,
aura_surface_set_application_id};
////////////////////////////////////////////////////////////////////////////////
// aura_output_interface:
class AuraOutput : public WaylandDisplayObserver::ScaleObserver {
public:
explicit AuraOutput(wl_resource* resource) : resource_(resource) {}
// Overridden from WaylandDisplayObserver::ScaleObserver:
void OnDisplayScalesChanged(const display::Display& display) override {
display::DisplayManager* display_manager =
ash::Shell::Get()->display_manager();
const display::ManagedDisplayInfo& display_info =
display_manager->GetDisplayInfo(display.id());
if (wl_resource_get_version(resource_) >=
ZAURA_OUTPUT_SCALE_SINCE_VERSION) {
display::ManagedDisplayMode active_mode;
bool rv = display_manager->GetActiveModeForDisplayId(display.id(),
&active_mode);
DCHECK(rv);
const int32_t current_output_scale =
std::round(display_info.zoom_factor() * 1000.f);
std::vector<float> zoom_factors =
display::GetDisplayZoomFactors(active_mode);
// Ensure that the current zoom factor is a part of the list.
auto it = std::find_if(
zoom_factors.begin(), zoom_factors.end(),
[&display_info](float zoom_factor) -> bool {
return std::abs(display_info.zoom_factor() - zoom_factor) <=
std::numeric_limits<float>::epsilon();
});
if (it == zoom_factors.end())
zoom_factors.push_back(display_info.zoom_factor());
for (float zoom_factor : zoom_factors) {
int32_t output_scale = std::round(zoom_factor * 1000.f);
uint32_t flags = 0;
if (output_scale == 1000)
flags |= ZAURA_OUTPUT_SCALE_PROPERTY_PREFERRED;
if (current_output_scale == output_scale)
flags |= ZAURA_OUTPUT_SCALE_PROPERTY_CURRENT;
// TODO(malaykeshav): This can be removed in the future when client
// has been updated.
if (wl_resource_get_version(resource_) < 6)
output_scale = std::round(1000.f / zoom_factor);
zaura_output_send_scale(resource_, flags, output_scale);
}
}
if (wl_resource_get_version(resource_) >=
ZAURA_OUTPUT_CONNECTION_SINCE_VERSION) {
zaura_output_send_connection(resource_,
display.IsInternal()
? ZAURA_OUTPUT_CONNECTION_TYPE_INTERNAL
: ZAURA_OUTPUT_CONNECTION_TYPE_UNKNOWN);
}
if (wl_resource_get_version(resource_) >=
ZAURA_OUTPUT_DEVICE_SCALE_FACTOR_SINCE_VERSION) {
zaura_output_send_device_scale_factor(resource_,
display_info.device_scale_factor() *
1000);
}
}
private:
wl_resource* const resource_;
DISALLOW_COPY_AND_ASSIGN(AuraOutput);
};
////////////////////////////////////////////////////////////////////////////////
// aura_shell_interface:
void aura_shell_get_aura_surface(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface_resource) {
Surface* surface = GetUserDataAs<Surface>(surface_resource);
if (surface->GetProperty(kSurfaceHasAuraSurfaceKey)) {
wl_resource_post_error(
resource,
ZAURA_SHELL_ERROR_AURA_SURFACE_EXISTS,
"an aura surface object for that surface already exists");
return;
}
wl_resource* aura_surface_resource = wl_resource_create(
client, &zaura_surface_interface, wl_resource_get_version(resource), id);
SetImplementation(aura_surface_resource, &aura_surface_implementation,
std::make_unique<AuraSurface>(surface));
}
void aura_shell_get_aura_output(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* output_resource) {
WaylandDisplayObserver* display_observer =
GetUserDataAs<WaylandDisplayObserver>(output_resource);
if (display_observer->HasScaleObserver()) {
wl_resource_post_error(
resource, ZAURA_SHELL_ERROR_AURA_OUTPUT_EXISTS,
"an aura output object for that output already exists");
return;
}
wl_resource* aura_output_resource = wl_resource_create(
client, &zaura_output_interface, wl_resource_get_version(resource), id);
auto aura_output = std::make_unique<AuraOutput>(aura_output_resource);
display_observer->SetScaleObserver(aura_output->AsWeakPtr());
SetImplementation(aura_output_resource, nullptr, std::move(aura_output));
}
const struct zaura_shell_interface aura_shell_implementation = {
aura_shell_get_aura_surface, aura_shell_get_aura_output};
const uint32_t aura_shell_version = 6;
void bind_aura_shell(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zaura_shell_interface,
std::min(version, aura_shell_version), id);
wl_resource_set_implementation(resource, &aura_shell_implementation,
nullptr, nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// vsync_timing_interface:
// Implements VSync timing interface by monitoring updates to VSync parameters.
class VSyncTiming final : public ui::CompositorVSyncManager::Observer {
public:
~VSyncTiming() override {
WMHelper::GetInstance()->RemoveVSyncObserver(this);
}
static std::unique_ptr<VSyncTiming> Create(wl_resource* timing_resource) {
std::unique_ptr<VSyncTiming> vsync_timing(new VSyncTiming(timing_resource));
// Note: AddObserver() will call OnUpdateVSyncParameters.
WMHelper::GetInstance()->AddVSyncObserver(vsync_timing.get());
return vsync_timing;
}
// Overridden from ui::CompositorVSyncManager::Observer:
void OnUpdateVSyncParameters(base::TimeTicks timebase,
base::TimeDelta interval) override {
uint64_t timebase_us = timebase.ToInternalValue();
uint64_t interval_us = interval.ToInternalValue();
// Ignore updates with interval 0.
if (!interval_us)
return;
uint64_t offset_us = timebase_us % interval_us;
// Avoid sending update events if interval did not change.
if (interval_us == last_interval_us_) {
int64_t offset_delta_us =
static_cast<int64_t>(last_offset_us_ - offset_us);
// Reduce the amount of events by only sending an update if the offset
// changed compared to the last offset sent to the client by this amount.
const int64_t kOffsetDeltaThresholdInMicroseconds = 25;
if (std::abs(offset_delta_us) < kOffsetDeltaThresholdInMicroseconds)
return;
}
zcr_vsync_timing_v1_send_update(timing_resource_, timebase_us & 0xffffffff,
timebase_us >> 32, interval_us & 0xffffffff,
interval_us >> 32);
wl_client_flush(wl_resource_get_client(timing_resource_));
last_interval_us_ = interval_us;
last_offset_us_ = offset_us;
}
private:
explicit VSyncTiming(wl_resource* timing_resource)
: timing_resource_(timing_resource) {}
// The VSync timing resource.
wl_resource* const timing_resource_;
uint64_t last_interval_us_{0};
uint64_t last_offset_us_{0};
DISALLOW_COPY_AND_ASSIGN(VSyncTiming);
};
void vsync_timing_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct zcr_vsync_timing_v1_interface vsync_timing_implementation = {
vsync_timing_destroy};
////////////////////////////////////////////////////////////////////////////////
// vsync_feedback_interface:
void vsync_feedback_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void vsync_feedback_get_vsync_timing(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* output) {
wl_resource* timing_resource =
wl_resource_create(client, &zcr_vsync_timing_v1_interface, 1, id);
SetImplementation(timing_resource, &vsync_timing_implementation,
VSyncTiming::Create(timing_resource));
}
const struct zcr_vsync_feedback_v1_interface vsync_feedback_implementation = {
vsync_feedback_destroy, vsync_feedback_get_vsync_timing};
void bind_vsync_feedback(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_vsync_feedback_v1_interface, 1, id);
wl_resource_set_implementation(resource, &vsync_feedback_implementation,
nullptr, nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// wl_data_source_interface:
class WaylandDataSourceDelegate : public DataSourceDelegate {
public:
explicit WaylandDataSourceDelegate(wl_resource* source)
: data_source_resource_(source) {}
// Overridden from DataSourceDelegate:
void OnDataSourceDestroying(DataSource* device) override { delete this; }
void OnTarget(const std::string& mime_type) override {
wl_data_source_send_target(data_source_resource_, mime_type.c_str());
wl_client_flush(wl_resource_get_client(data_source_resource_));
}
void OnSend(const std::string& mime_type, base::ScopedFD fd) override {
wl_data_source_send_send(data_source_resource_, mime_type.c_str(),
fd.get());
wl_client_flush(wl_resource_get_client(data_source_resource_));
}
void OnCancelled() override {
wl_data_source_send_cancelled(data_source_resource_);
wl_client_flush(wl_resource_get_client(data_source_resource_));
}
void OnDndDropPerformed() override {
if (wl_resource_get_version(data_source_resource_) >=
WL_DATA_SOURCE_DND_DROP_PERFORMED_SINCE_VERSION) {
wl_data_source_send_dnd_drop_performed(data_source_resource_);
wl_client_flush(wl_resource_get_client(data_source_resource_));
}
}
void OnDndFinished() override {
if (wl_resource_get_version(data_source_resource_) >=
WL_DATA_SOURCE_DND_FINISHED_SINCE_VERSION) {
wl_data_source_send_dnd_finished(data_source_resource_);
wl_client_flush(wl_resource_get_client(data_source_resource_));
}
}
void OnAction(DndAction dnd_action) override {
if (wl_resource_get_version(data_source_resource_) >=
WL_DATA_SOURCE_ACTION_SINCE_VERSION) {
wl_data_source_send_action(data_source_resource_,
WaylandDataDeviceManagerDndAction(dnd_action));
wl_client_flush(wl_resource_get_client(data_source_resource_));
}
}
private:
wl_resource* const data_source_resource_;
DISALLOW_COPY_AND_ASSIGN(WaylandDataSourceDelegate);
};
void data_source_offer(wl_client* client,
wl_resource* resource,
const char* mime_type) {
GetUserDataAs<DataSource>(resource)->Offer(mime_type);
}
void data_source_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void data_source_set_actions(wl_client* client,
wl_resource* resource,
uint32_t dnd_actions) {
GetUserDataAs<DataSource>(resource)->SetActions(
DataDeviceManagerDndActions(dnd_actions));
}
const struct wl_data_source_interface data_source_implementation = {
data_source_offer, data_source_destroy, data_source_set_actions};
////////////////////////////////////////////////////////////////////////////////
// wl_data_offer_interface:
class WaylandDataOfferDelegate : public DataOfferDelegate {
public:
explicit WaylandDataOfferDelegate(wl_resource* offer)
: data_offer_resource_(offer) {}
// Overridden from DataOfferDelegate:
void OnDataOfferDestroying(DataOffer* device) override { delete this; }
void OnOffer(const std::string& mime_type) override {
wl_data_offer_send_offer(data_offer_resource_, mime_type.c_str());
wl_client_flush(wl_resource_get_client(data_offer_resource_));
}
void OnSourceActions(
const base::flat_set<DndAction>& source_actions) override {
if (wl_resource_get_version(data_offer_resource_) >=
WL_DATA_OFFER_SOURCE_ACTIONS_SINCE_VERSION) {
wl_data_offer_send_source_actions(
data_offer_resource_,
WaylandDataDeviceManagerDndActions(source_actions));
wl_client_flush(wl_resource_get_client(data_offer_resource_));
}
}
void OnAction(DndAction action) override {
if (wl_resource_get_version(data_offer_resource_) >=
WL_DATA_OFFER_ACTION_SINCE_VERSION) {
wl_data_offer_send_action(data_offer_resource_,
WaylandDataDeviceManagerDndAction(action));
wl_client_flush(wl_resource_get_client(data_offer_resource_));
}
}
private:
wl_resource* const data_offer_resource_;
DISALLOW_COPY_AND_ASSIGN(WaylandDataOfferDelegate);
};
void data_offer_accept(wl_client* client,
wl_resource* resource,
uint32_t serial,
const char* mime_type) {
GetUserDataAs<DataOffer>(resource)->Accept(mime_type);
}
void data_offer_receive(wl_client* client,
wl_resource* resource,
const char* mime_type,
int fd) {
GetUserDataAs<DataOffer>(resource)->Receive(mime_type, base::ScopedFD(fd));
}
void data_offer_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void data_offer_finish(wl_client* client, wl_resource* resource) {
GetUserDataAs<DataOffer>(resource)->Finish();
}
void data_offer_set_actions(wl_client* client,
wl_resource* resource,
uint32_t dnd_actions,
uint32_t preferred_action) {
GetUserDataAs<DataOffer>(resource)->SetActions(
DataDeviceManagerDndActions(dnd_actions),
DataDeviceManagerDndAction(preferred_action));
}
const struct wl_data_offer_interface data_offer_implementation = {
data_offer_accept, data_offer_receive, data_offer_finish,
data_offer_destroy, data_offer_set_actions};
////////////////////////////////////////////////////////////////////////////////
// wl_data_device_interface:
class WaylandDataDeviceDelegate : public DataDeviceDelegate {
public:
WaylandDataDeviceDelegate(wl_client* client, wl_resource* device_resource)
: client_(client), data_device_resource_(device_resource) {}
// Overridden from DataDeviceDelegate:
void OnDataDeviceDestroying(DataDevice* device) override { delete this; }
bool CanAcceptDataEventsForSurface(Surface* surface) override {
return surface &&
wl_resource_get_client(GetSurfaceResource(surface)) == client_;
}
DataOffer* OnDataOffer() override {
wl_resource* data_offer_resource =
wl_resource_create(client_, &wl_data_offer_interface,
wl_resource_get_version(data_device_resource_), 0);
std::unique_ptr<DataOffer> data_offer = std::make_unique<DataOffer>(
new WaylandDataOfferDelegate(data_offer_resource));
SetDataOfferResource(data_offer.get(), data_offer_resource);
SetImplementation(data_offer_resource, &data_offer_implementation,
std::move(data_offer));
wl_data_device_send_data_offer(data_device_resource_, data_offer_resource);
wl_client_flush(client_);
return GetUserDataAs<DataOffer>(data_offer_resource);
}
void OnEnter(Surface* surface,
const gfx::PointF& point,
const DataOffer& data_offer) override {
wl_data_device_send_enter(
data_device_resource_,
wl_display_next_serial(wl_client_get_display(client_)),
GetSurfaceResource(surface), wl_fixed_from_double(point.x()),
wl_fixed_from_double(point.y()), GetDataOfferResource(&data_offer));
wl_client_flush(client_);
}
void OnLeave() override {
wl_data_device_send_leave(data_device_resource_);
wl_client_flush(client_);
}
void OnMotion(base::TimeTicks time_stamp, const gfx::PointF& point) override {
wl_data_device_send_motion(
data_device_resource_, TimeTicksToMilliseconds(time_stamp),
wl_fixed_from_double(point.x()), wl_fixed_from_double(point.y()));
wl_client_flush(client_);
}
void OnDrop() override {
wl_data_device_send_drop(data_device_resource_);
wl_client_flush(client_);
}
void OnSelection(const DataOffer& data_offer) override {
wl_data_device_send_selection(data_device_resource_,
GetDataOfferResource(&data_offer));
wl_client_flush(client_);
}
private:
wl_client* const client_;
wl_resource* const data_device_resource_;
DISALLOW_COPY_AND_ASSIGN(WaylandDataDeviceDelegate);
};
void data_device_start_drag(wl_client* client,
wl_resource* resource,
wl_resource* source_resource,
wl_resource* origin_resource,
wl_resource* icon_resource,
uint32_t serial) {
GetUserDataAs<DataDevice>(resource)->StartDrag(
source_resource ? GetUserDataAs<DataSource>(source_resource) : nullptr,
GetUserDataAs<Surface>(origin_resource),
icon_resource ? GetUserDataAs<Surface>(icon_resource) : nullptr, serial);
}
void data_device_set_selection(wl_client* client,
wl_resource* resource,
wl_resource* data_source,
uint32_t serial) {
GetUserDataAs<DataDevice>(resource)->SetSelection(
data_source ? GetUserDataAs<DataSource>(data_source) : nullptr, serial);
}
void data_device_release(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct wl_data_device_interface data_device_implementation = {
data_device_start_drag, data_device_set_selection, data_device_release};
////////////////////////////////////////////////////////////////////////////////
// wl_data_device_manager_interface:
void data_device_manager_create_data_source(wl_client* client,
wl_resource* resource,
uint32_t id) {
wl_resource* data_source_resource = wl_resource_create(
client, &wl_data_source_interface, wl_resource_get_version(resource), id);
SetImplementation(data_source_resource, &data_source_implementation,
std::make_unique<DataSource>(
new WaylandDataSourceDelegate(data_source_resource)));
}
void data_device_manager_get_data_device(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* seat_resource) {
Display* display = GetUserDataAs<Display>(resource);
wl_resource* data_device_resource = wl_resource_create(
client, &wl_data_device_interface, wl_resource_get_version(resource), id);
SetImplementation(data_device_resource, &data_device_implementation,
display->CreateDataDevice(new WaylandDataDeviceDelegate(
client, data_device_resource)));
}
const struct wl_data_device_manager_interface
data_device_manager_implementation = {
data_device_manager_create_data_source,
data_device_manager_get_data_device};
const uint32_t data_device_manager_version = 3;
void bind_data_device_manager(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &wl_data_device_manager_interface,
std::min(version, data_device_manager_version), id);
wl_resource_set_implementation(resource, &data_device_manager_implementation,
data, nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// wl_pointer_interface:
void pointer_set_cursor(wl_client* client,
wl_resource* resource,
uint32_t serial,
wl_resource* surface_resource,
int32_t hotspot_x,
int32_t hotspot_y) {
GetUserDataAs<Pointer>(resource)->SetCursor(
surface_resource ? GetUserDataAs<Surface>(surface_resource) : nullptr,
gfx::Point(hotspot_x, hotspot_y));
}
void pointer_release(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct wl_pointer_interface pointer_implementation = {pointer_set_cursor,
pointer_release};
////////////////////////////////////////////////////////////////////////////////
// wl_keyboard_interface:
#if BUILDFLAG(USE_XKBCOMMON)
void keyboard_release(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct wl_keyboard_interface keyboard_implementation = {keyboard_release};
#endif
////////////////////////////////////////////////////////////////////////////////
// wl_touch_interface:
void touch_release(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct wl_touch_interface touch_implementation = {touch_release};
////////////////////////////////////////////////////////////////////////////////
// wl_seat_interface:
void seat_get_pointer(wl_client* client, wl_resource* resource, uint32_t id) {
wl_resource* pointer_resource = wl_resource_create(
client, &wl_pointer_interface, wl_resource_get_version(resource), id);
SetImplementation(
pointer_resource, &pointer_implementation,
std::make_unique<Pointer>(new WaylandPointerDelegate(pointer_resource)));
}
void seat_get_keyboard(wl_client* client, wl_resource* resource, uint32_t id) {
#if BUILDFLAG(USE_XKBCOMMON)
uint32_t version = wl_resource_get_version(resource);
wl_resource* keyboard_resource =
wl_resource_create(client, &wl_keyboard_interface, version, id);
WaylandKeyboardDelegate* delegate =
new WaylandKeyboardDelegate(keyboard_resource);
std::unique_ptr<Keyboard> keyboard =
std::make_unique<Keyboard>(delegate, GetUserDataAs<Seat>(resource));
keyboard->AddObserver(delegate);
SetImplementation(keyboard_resource, &keyboard_implementation,
std::move(keyboard));
// TODO(reveman): Keep repeat info synchronized with chromium and the host OS.
if (version >= WL_KEYBOARD_REPEAT_INFO_SINCE_VERSION)
wl_keyboard_send_repeat_info(keyboard_resource, 40, 500);
#else
NOTIMPLEMENTED();
#endif
}
void seat_get_touch(wl_client* client, wl_resource* resource, uint32_t id) {
wl_resource* touch_resource = wl_resource_create(
client, &wl_touch_interface, wl_resource_get_version(resource), id);
SetImplementation(
touch_resource, &touch_implementation,
std::make_unique<Touch>(new WaylandTouchDelegate(touch_resource)));
}
void seat_release(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct wl_seat_interface seat_implementation = {
seat_get_pointer, seat_get_keyboard, seat_get_touch, seat_release};
const uint32_t seat_version = 6;
void bind_seat(wl_client* client, void* data, uint32_t version, uint32_t id) {
wl_resource* resource = wl_resource_create(
client, &wl_seat_interface, std::min(version, seat_version), id);
wl_resource_set_implementation(resource, &seat_implementation, data, nullptr);
if (version >= WL_SEAT_NAME_SINCE_VERSION)
wl_seat_send_name(resource, "default");
uint32_t capabilities = WL_SEAT_CAPABILITY_POINTER | WL_SEAT_CAPABILITY_TOUCH;
#if BUILDFLAG(USE_XKBCOMMON)
capabilities |= WL_SEAT_CAPABILITY_KEYBOARD;
#endif
wl_seat_send_capabilities(resource, capabilities);
}
////////////////////////////////////////////////////////////////////////////////
// wp_viewport_interface:
// Implements the viewport interface to a Surface. The "viewport"-state is set
// to null upon destruction. A window property will be set during the lifetime
// of this class to prevent multiple instances from being created for the same
// Surface.
class Viewport : public SurfaceObserver {
public:
explicit Viewport(Surface* surface) : surface_(surface) {
surface_->AddSurfaceObserver(this);
surface_->SetProperty(kSurfaceHasViewportKey, true);
}
~Viewport() override {
if (surface_) {
surface_->RemoveSurfaceObserver(this);
surface_->SetCrop(gfx::RectF());
surface_->SetViewport(gfx::Size());
surface_->SetProperty(kSurfaceHasViewportKey, false);
}
}
void SetSource(const gfx::RectF& rect) {
if (surface_)
surface_->SetCrop(rect);
}
void SetDestination(const gfx::Size& size) {
if (surface_)
surface_->SetViewport(size);
}
// Overridden from SurfaceObserver:
void OnSurfaceDestroying(Surface* surface) override {
surface->RemoveSurfaceObserver(this);
surface_ = nullptr;
}
private:
Surface* surface_;
DISALLOW_COPY_AND_ASSIGN(Viewport);
};
void viewport_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void viewport_set_source(wl_client* client,
wl_resource* resource,
wl_fixed_t x,
wl_fixed_t y,
wl_fixed_t width,
wl_fixed_t height) {
if (x == wl_fixed_from_int(-1) && y == wl_fixed_from_int(-1) &&
width == wl_fixed_from_int(-1) && height == wl_fixed_from_int(-1)) {
GetUserDataAs<Viewport>(resource)->SetSource(gfx::RectF());
return;
}
if (x < 0 || y < 0 || width <= 0 || height <= 0) {
wl_resource_post_error(resource, WP_VIEWPORT_ERROR_BAD_VALUE,
"source rectangle must be non-empty (%dx%d) and"
"have positive origin (%d,%d)",
width, height, x, y);
return;
}
GetUserDataAs<Viewport>(resource)->SetSource(
gfx::RectF(wl_fixed_to_double(x), wl_fixed_to_double(y),
wl_fixed_to_double(width), wl_fixed_to_double(height)));
}
void viewport_set_destination(wl_client* client,
wl_resource* resource,
int32_t width,
int32_t height) {
if (width == -1 && height == -1) {
GetUserDataAs<Viewport>(resource)->SetDestination(gfx::Size());
return;
}
if (width <= 0 || height <= 0) {
wl_resource_post_error(resource, WP_VIEWPORT_ERROR_BAD_VALUE,
"destination size must be positive (%dx%d)", width,
height);
return;
}
GetUserDataAs<Viewport>(resource)->SetDestination(gfx::Size(width, height));
}
const struct wp_viewport_interface viewport_implementation = {
viewport_destroy, viewport_set_source, viewport_set_destination};
////////////////////////////////////////////////////////////////////////////////
// wp_viewporter_interface:
void viewporter_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void viewporter_get_viewport(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface_resource) {
Surface* surface = GetUserDataAs<Surface>(surface_resource);
if (surface->GetProperty(kSurfaceHasViewportKey)) {
wl_resource_post_error(resource, WP_VIEWPORTER_ERROR_VIEWPORT_EXISTS,
"a viewport for that surface already exists");
return;
}
wl_resource* viewport_resource = wl_resource_create(
client, &wp_viewport_interface, wl_resource_get_version(resource), id);
SetImplementation(viewport_resource, &viewport_implementation,
std::make_unique<Viewport>(surface));
}
const struct wp_viewporter_interface viewporter_implementation = {
viewporter_destroy, viewporter_get_viewport};
void bind_viewporter(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &wp_viewporter_interface, 1, id);
wl_resource_set_implementation(resource, &viewporter_implementation, data,
nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// presentation_interface:
void HandleSurfacePresentationCallback(
wl_resource* resource,
const gfx::PresentationFeedback& feedback) {
if (feedback.timestamp.is_null()) {
wp_presentation_feedback_send_discarded(resource);
} else {
int64_t presentation_time_us = feedback.timestamp.ToInternalValue();
int64_t seconds = presentation_time_us / base::Time::kMicrosecondsPerSecond;
int64_t microseconds =
presentation_time_us % base::Time::kMicrosecondsPerSecond;
static_assert(
static_cast<uint32_t>(gfx::PresentationFeedback::Flags::kVSync) ==
static_cast<uint32_t>(WP_PRESENTATION_FEEDBACK_KIND_VSYNC),
"gfx::PresentationFlags::VSync don't match!");
static_assert(
static_cast<uint32_t>(gfx::PresentationFeedback::Flags::kHWClock) ==
static_cast<uint32_t>(WP_PRESENTATION_FEEDBACK_KIND_HW_CLOCK),
"gfx::PresentationFlags::HWClock don't match!");
static_assert(
static_cast<uint32_t>(
gfx::PresentationFeedback::Flags::kHWCompletion) ==
static_cast<uint32_t>(WP_PRESENTATION_FEEDBACK_KIND_HW_COMPLETION),
"gfx::PresentationFlags::HWCompletion don't match!");
static_assert(
static_cast<uint32_t>(gfx::PresentationFeedback::Flags::kZeroCopy) ==
static_cast<uint32_t>(WP_PRESENTATION_FEEDBACK_KIND_ZERO_COPY),
"gfx::PresentationFlags::ZeroCopy don't match!");
wp_presentation_feedback_send_presented(
resource, seconds >> 32, seconds & 0xffffffff,
microseconds * base::Time::kNanosecondsPerMicrosecond,
feedback.interval.InMicroseconds() *
base::Time::kNanosecondsPerMicrosecond,
0, 0, feedback.flags);
}
wl_client_flush(wl_resource_get_client(resource));
}
void presentation_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void presentation_feedback(wl_client* client,
wl_resource* resource,
wl_resource* surface_resource,
uint32_t id) {
wl_resource* presentation_feedback_resource =
wl_resource_create(client, &wp_presentation_feedback_interface,
wl_resource_get_version(resource), id);
// base::Unretained is safe as the resource owns the callback.
auto cancelable_callback = std::make_unique<
base::CancelableCallback<void(const gfx::PresentationFeedback&)>>(
base::Bind(&HandleSurfacePresentationCallback,
base::Unretained(presentation_feedback_resource)));
GetUserDataAs<Surface>(surface_resource)
->RequestPresentationCallback(cancelable_callback->callback());
SetImplementation(presentation_feedback_resource, nullptr,
std::move(cancelable_callback));
}
const struct wp_presentation_interface presentation_implementation = {
presentation_destroy, presentation_feedback};
void bind_presentation(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &wp_presentation_interface, 1, id);
wl_resource_set_implementation(resource, &presentation_implementation, data,
nullptr);
wp_presentation_send_clock_id(resource, CLOCK_MONOTONIC);
}
////////////////////////////////////////////////////////////////////////////////
// security_interface:
// Implements the security interface to a Surface. The "only visible on secure
// output"-state is set to false upon destruction. A window property will be set
// during the lifetime of this class to prevent multiple instances from being
// created for the same Surface.
class Security : public SurfaceObserver {
public:
explicit Security(Surface* surface) : surface_(surface) {
surface_->AddSurfaceObserver(this);
surface_->SetProperty(kSurfaceHasSecurityKey, true);
}
~Security() override {
if (surface_) {
surface_->RemoveSurfaceObserver(this);
surface_->SetOnlyVisibleOnSecureOutput(false);
surface_->SetProperty(kSurfaceHasSecurityKey, false);
}
}
void OnlyVisibleOnSecureOutput() {
if (surface_)
surface_->SetOnlyVisibleOnSecureOutput(true);
}
// Overridden from SurfaceObserver:
void OnSurfaceDestroying(Surface* surface) override {
surface->RemoveSurfaceObserver(this);
surface_ = nullptr;
}
private:
Surface* surface_;
DISALLOW_COPY_AND_ASSIGN(Security);
};
void security_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void security_only_visible_on_secure_output(wl_client* client,
wl_resource* resource) {
GetUserDataAs<Security>(resource)->OnlyVisibleOnSecureOutput();
}
const struct zcr_security_v1_interface security_implementation = {
security_destroy, security_only_visible_on_secure_output};
////////////////////////////////////////////////////////////////////////////////
// secure_output_interface:
void secure_output_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void secure_output_get_security(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface_resource) {
Surface* surface = GetUserDataAs<Surface>(surface_resource);
if (surface->GetProperty(kSurfaceHasSecurityKey)) {
wl_resource_post_error(resource, ZCR_SECURE_OUTPUT_V1_ERROR_SECURITY_EXISTS,
"a security object for that surface already exists");
return;
}
wl_resource* security_resource =
wl_resource_create(client, &zcr_security_v1_interface, 1, id);
SetImplementation(security_resource, &security_implementation,
std::make_unique<Security>(surface));
}
const struct zcr_secure_output_v1_interface secure_output_implementation = {
secure_output_destroy, secure_output_get_security};
void bind_secure_output(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_secure_output_v1_interface, 1, id);
wl_resource_set_implementation(resource, &secure_output_implementation, data,
nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// blending_interface:
// Implements the blending interface to a Surface. The "blend mode" and
// "alpha"-state is set to SrcOver and 1 upon destruction. A window property
// will be set during the lifetime of this class to prevent multiple instances
// from being created for the same Surface.
class Blending : public SurfaceObserver {
public:
explicit Blending(Surface* surface) : surface_(surface) {
surface_->AddSurfaceObserver(this);
surface_->SetProperty(kSurfaceHasBlendingKey, true);
}
~Blending() override {
if (surface_) {
surface_->RemoveSurfaceObserver(this);
surface_->SetBlendMode(SkBlendMode::kSrcOver);
surface_->SetAlpha(1.0f);
surface_->SetProperty(kSurfaceHasBlendingKey, false);
}
}
void SetBlendMode(SkBlendMode blend_mode) {
if (surface_)
surface_->SetBlendMode(blend_mode);
}
void SetAlpha(float value) {
if (surface_)
surface_->SetAlpha(value);
}
// Overridden from SurfaceObserver:
void OnSurfaceDestroying(Surface* surface) override {
surface->RemoveSurfaceObserver(this);
surface_ = nullptr;
}
private:
Surface* surface_;
DISALLOW_COPY_AND_ASSIGN(Blending);
};
void blending_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void blending_set_blending(wl_client* client,
wl_resource* resource,
uint32_t equation) {
switch (equation) {
case ZCR_BLENDING_V1_BLENDING_EQUATION_NONE:
GetUserDataAs<Blending>(resource)->SetBlendMode(SkBlendMode::kSrc);
break;
case ZCR_BLENDING_V1_BLENDING_EQUATION_PREMULT:
GetUserDataAs<Blending>(resource)->SetBlendMode(SkBlendMode::kSrcOver);
break;
case ZCR_BLENDING_V1_BLENDING_EQUATION_COVERAGE:
NOTIMPLEMENTED();
break;
default:
DLOG(WARNING) << "Unsupported blending equation: " << equation;
break;
}
}
void blending_set_alpha(wl_client* client,
wl_resource* resource,
wl_fixed_t alpha) {
GetUserDataAs<Blending>(resource)->SetAlpha(wl_fixed_to_double(alpha));
}
const struct zcr_blending_v1_interface blending_implementation = {
blending_destroy, blending_set_blending, blending_set_alpha};
////////////////////////////////////////////////////////////////////////////////
// alpha_compositing_interface:
void alpha_compositing_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void alpha_compositing_get_blending(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface_resource) {
Surface* surface = GetUserDataAs<Surface>(surface_resource);
if (surface->GetProperty(kSurfaceHasBlendingKey)) {
wl_resource_post_error(resource,
ZCR_ALPHA_COMPOSITING_V1_ERROR_BLENDING_EXISTS,
"a blending object for that surface already exists");
return;
}
wl_resource* blending_resource =
wl_resource_create(client, &zcr_blending_v1_interface, 1, id);
SetImplementation(blending_resource, &blending_implementation,
std::make_unique<Blending>(surface));
}
const struct zcr_alpha_compositing_v1_interface
alpha_compositing_implementation = {alpha_compositing_destroy,
alpha_compositing_get_blending};
void bind_alpha_compositing(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_alpha_compositing_v1_interface, 1, id);
wl_resource_set_implementation(resource, &alpha_compositing_implementation,
data, nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// gaming_input_interface:
// Gamepad delegate class that forwards gamepad events to the client resource.
class WaylandGamepadDelegate : public GamepadDelegate {
public:
explicit WaylandGamepadDelegate(wl_resource* gamepad_resource)
: gamepad_resource_(gamepad_resource) {}
// If gamepad_resource_ is destroyed first, ResetGamepadResource will
// be called to remove the resource from delegate, and delegate won't
// do anything after that. If delegate is destructed first, it will
// set the data to null in the gamepad_resource_, then the resource
// destroy won't reset the delegate (cause it's gone).
static void ResetGamepadResource(wl_resource* resource) {
WaylandGamepadDelegate* delegate =
GetUserDataAs<WaylandGamepadDelegate>(resource);
if (delegate) {
delegate->gamepad_resource_ = nullptr;
}
}
// Override from GamepadDelegate:
void OnRemoved() override {
if (!gamepad_resource_) {
return;
}
zcr_gamepad_v2_send_removed(gamepad_resource_);
wl_client_flush(client());
// Reset the user data in gamepad_resource.
wl_resource_set_user_data(gamepad_resource_, nullptr);
delete this;
}
void OnAxis(int axis, double value) override {
if (!gamepad_resource_) {
return;
}
zcr_gamepad_v2_send_axis(gamepad_resource_, NowInMilliseconds(), axis,
wl_fixed_from_double(value));
}
void OnButton(int button, bool pressed, double value) override {
if (!gamepad_resource_) {
return;
}
uint32_t state = pressed ? ZCR_GAMEPAD_V2_BUTTON_STATE_PRESSED
: ZCR_GAMEPAD_V2_BUTTON_STATE_RELEASED;
zcr_gamepad_v2_send_button(gamepad_resource_, NowInMilliseconds(), button,
state, wl_fixed_from_double(value));
}
void OnFrame() override {
if (!gamepad_resource_) {
return;
}
zcr_gamepad_v2_send_frame(gamepad_resource_, NowInMilliseconds());
wl_client_flush(client());
}
private:
// The object should be deleted by OnRemoved().
~WaylandGamepadDelegate() override {}
// The client who own this gamepad instance.
wl_client* client() const {
return wl_resource_get_client(gamepad_resource_);
}
// The gamepad resource associated with the gamepad.
wl_resource* gamepad_resource_;
DISALLOW_COPY_AND_ASSIGN(WaylandGamepadDelegate);
};
void gamepad_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct zcr_gamepad_v2_interface gamepad_implementation = {
gamepad_destroy};
// GamingSeat delegate that provide gamepad added.
class WaylandGamingSeatDelegate : public GamingSeatDelegate {
public:
explicit WaylandGamingSeatDelegate(wl_resource* gaming_seat_resource)
: gaming_seat_resource_{gaming_seat_resource} {}
// Override from GamingSeatDelegate:
void OnGamingSeatDestroying(GamingSeat*) override { delete this; }
bool CanAcceptGamepadEventsForSurface(Surface* surface) const override {
wl_resource* surface_resource = GetSurfaceResource(surface);
return surface_resource &&
wl_resource_get_client(surface_resource) ==
wl_resource_get_client(gaming_seat_resource_);
}
GamepadDelegate* GamepadAdded() override {
wl_resource* gamepad_resource =
wl_resource_create(wl_resource_get_client(gaming_seat_resource_),
&zcr_gamepad_v2_interface,
wl_resource_get_version(gaming_seat_resource_), 0);
GamepadDelegate* gamepad_delegate =
new WaylandGamepadDelegate(gamepad_resource);
wl_resource_set_implementation(
gamepad_resource, &gamepad_implementation, gamepad_delegate,
&WaylandGamepadDelegate::ResetGamepadResource);
zcr_gaming_seat_v2_send_gamepad_added(gaming_seat_resource_,
gamepad_resource);
wl_client_flush(wl_resource_get_client(gaming_seat_resource_));
return gamepad_delegate;
}
private:
// The gaming seat resource associated with the gaming seat.
wl_resource* const gaming_seat_resource_;
DISALLOW_COPY_AND_ASSIGN(WaylandGamingSeatDelegate);
};
void gaming_seat_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct zcr_gaming_seat_v2_interface gaming_seat_implementation = {
gaming_seat_destroy};
void gaming_input_get_gaming_seat(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* seat) {
wl_resource* gaming_seat_resource =
wl_resource_create(client, &zcr_gaming_seat_v2_interface,
wl_resource_get_version(resource), id);
SetImplementation(gaming_seat_resource, &gaming_seat_implementation,
std::make_unique<GamingSeat>(
new WaylandGamingSeatDelegate(gaming_seat_resource)));
}
void gaming_input_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct zcr_gaming_input_v2_interface gaming_input_implementation = {
gaming_input_get_gaming_seat, gaming_input_destroy};
void bind_gaming_input(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_gaming_input_v2_interface, version, id);
wl_resource_set_implementation(resource, &gaming_input_implementation,
nullptr, nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// touch_stylus interface:
class WaylandTouchStylusDelegate : public TouchStylusDelegate {
public:
WaylandTouchStylusDelegate(wl_resource* resource, Touch* touch)
: resource_(resource), touch_(touch) {
touch_->SetStylusDelegate(this);
}
~WaylandTouchStylusDelegate() override {
if (touch_ != nullptr)
touch_->SetStylusDelegate(nullptr);
}
void OnTouchDestroying(Touch* touch) override { touch_ = nullptr; }
void OnTouchTool(int touch_id, ui::EventPointerType type) override {
uint wayland_type = ZCR_TOUCH_STYLUS_V2_TOOL_TYPE_TOUCH;
if (type == ui::EventPointerType::POINTER_TYPE_PEN)
wayland_type = ZCR_TOUCH_STYLUS_V2_TOOL_TYPE_PEN;
else if (type == ui::EventPointerType::POINTER_TYPE_ERASER)
wayland_type = ZCR_TOUCH_STYLUS_V2_TOOL_TYPE_ERASER;
zcr_touch_stylus_v2_send_tool(resource_, touch_id, wayland_type);
}
void OnTouchForce(base::TimeTicks time_stamp,
int touch_id,
float force) override {
zcr_touch_stylus_v2_send_force(resource_,
TimeTicksToMilliseconds(time_stamp),
touch_id, wl_fixed_from_double(force));
}
void OnTouchTilt(base::TimeTicks time_stamp,
int touch_id,
const gfx::Vector2dF& tilt) override {
zcr_touch_stylus_v2_send_tilt(
resource_, TimeTicksToMilliseconds(time_stamp), touch_id,
wl_fixed_from_double(tilt.x()), wl_fixed_from_double(tilt.y()));
}
private:
wl_resource* resource_;
Touch* touch_;
DISALLOW_COPY_AND_ASSIGN(WaylandTouchStylusDelegate);
};
void touch_stylus_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct zcr_touch_stylus_v2_interface touch_stylus_implementation = {
touch_stylus_destroy};
////////////////////////////////////////////////////////////////////////////////
// stylus_v2 interface:
void stylus_get_touch_stylus(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* touch_resource) {
Touch* touch = GetUserDataAs<Touch>(touch_resource);
if (touch->HasStylusDelegate()) {
wl_resource_post_error(
resource, ZCR_STYLUS_V2_ERROR_TOUCH_STYLUS_EXISTS,
"touch has already been associated with a stylus object");
return;
}
wl_resource* stylus_resource =
wl_resource_create(client, &zcr_touch_stylus_v2_interface, 1, id);
SetImplementation(
stylus_resource, &touch_stylus_implementation,
std::make_unique<WaylandTouchStylusDelegate>(stylus_resource, touch));
}
const struct zcr_stylus_v2_interface stylus_v2_implementation = {
stylus_get_touch_stylus};
void bind_stylus_v2(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_stylus_v2_interface, version, id);
wl_resource_set_implementation(resource, &stylus_v2_implementation, data,
nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// pointer_gesture_swipe_v1 interface:
void pointer_gestures_get_swipe_gesture(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* pointer_resource) {
NOTIMPLEMENTED();
}
////////////////////////////////////////////////////////////////////////////////
// pointer_gesture_pinch_v1 interface:
class WaylandPointerGesturePinchDelegate : public PointerGesturePinchDelegate {
public:
WaylandPointerGesturePinchDelegate(wl_resource* resource, Pointer* pointer)
: resource_(resource), pointer_(pointer) {
pointer_->SetGesturePinchDelegate(this);
}
~WaylandPointerGesturePinchDelegate() override {
if (pointer_)
pointer_->SetGesturePinchDelegate(nullptr);
}
void OnPointerDestroying(Pointer* pointer) override { pointer_ = nullptr; }
void OnPointerPinchBegin(uint32_t unique_touch_event_id,
base::TimeTicks time_stamp,
Surface* surface) override {
wl_resource* surface_resource = GetSurfaceResource(surface);
DCHECK(surface_resource);
zwp_pointer_gesture_pinch_v1_send_begin(resource_, unique_touch_event_id,
TimeTicksToMilliseconds(time_stamp),
surface_resource, 2);
}
void OnPointerPinchUpdate(base::TimeTicks time_stamp, float scale) override {
zwp_pointer_gesture_pinch_v1_send_update(
resource_, TimeTicksToMilliseconds(time_stamp), 0, 0,
wl_fixed_from_double(scale), 0);
}
void OnPointerPinchEnd(uint32_t unique_touch_event_id,
base::TimeTicks time_stamp) override {
zwp_pointer_gesture_pinch_v1_send_end(resource_, unique_touch_event_id,
TimeTicksToMilliseconds(time_stamp),
0);
}
private:
wl_resource* const resource_;
Pointer* pointer_;
DISALLOW_COPY_AND_ASSIGN(WaylandPointerGesturePinchDelegate);
};
void pointer_gesture_pinch_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct zwp_pointer_gesture_pinch_v1_interface
pointer_gesture_pinch_implementation = {pointer_gesture_pinch_destroy};
void pointer_gestures_get_pinch_gesture(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* pointer_resource) {
Pointer* pointer = GetUserDataAs<Pointer>(pointer_resource);
wl_resource* pointer_gesture_pinch_resource = wl_resource_create(
client, &zwp_pointer_gesture_pinch_v1_interface, 1, id);
SetImplementation(pointer_gesture_pinch_resource,
&pointer_gesture_pinch_implementation,
std::make_unique<WaylandPointerGesturePinchDelegate>(
pointer_gesture_pinch_resource, pointer));
}
////////////////////////////////////////////////////////////////////////////////
// pointer_gestures_v1 interface:
const struct zwp_pointer_gestures_v1_interface pointer_gestures_implementation =
{pointer_gestures_get_swipe_gesture, pointer_gestures_get_pinch_gesture};
void bind_pointer_gestures(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource = wl_resource_create(
client, &zwp_pointer_gestures_v1_interface, version, id);
wl_resource_set_implementation(resource, &pointer_gestures_implementation,
data, nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// keyboard_device_configuration interface:
class WaylandKeyboardDeviceConfigurationDelegate
: public KeyboardDeviceConfigurationDelegate,
public KeyboardObserver {
public:
WaylandKeyboardDeviceConfigurationDelegate(wl_resource* resource,
Keyboard* keyboard)
: resource_(resource), keyboard_(keyboard) {
keyboard_->SetDeviceConfigurationDelegate(this);
keyboard_->AddObserver(this);
}
~WaylandKeyboardDeviceConfigurationDelegate() override {
if (keyboard_) {
keyboard_->SetDeviceConfigurationDelegate(nullptr);
keyboard_->RemoveObserver(this);
}
}
// Overridden from KeyboardObserver:
void OnKeyboardDestroying(Keyboard* keyboard) override {
keyboard_ = nullptr;
}
// Overridden from KeyboardDeviceConfigurationDelegate:
void OnKeyboardTypeChanged(bool is_physical) override {
zcr_keyboard_device_configuration_v1_send_type_change(
resource_,
is_physical
? ZCR_KEYBOARD_DEVICE_CONFIGURATION_V1_KEYBOARD_TYPE_PHYSICAL
: ZCR_KEYBOARD_DEVICE_CONFIGURATION_V1_KEYBOARD_TYPE_VIRTUAL);
}
private:
wl_resource* resource_;
Keyboard* keyboard_;
DISALLOW_COPY_AND_ASSIGN(WaylandKeyboardDeviceConfigurationDelegate);
};
void keyboard_device_configuration_destroy(wl_client* client,
wl_resource* resource) {
wl_resource_destroy(resource);
}
const struct zcr_keyboard_device_configuration_v1_interface
keyboard_device_configuration_implementation = {
keyboard_device_configuration_destroy};
////////////////////////////////////////////////////////////////////////////////
// keyboard_configuration interface:
void keyboard_configuration_get_keyboard_device_configuration(
wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* keyboard_resource) {
Keyboard* keyboard = GetUserDataAs<Keyboard>(keyboard_resource);
if (keyboard->HasDeviceConfigurationDelegate()) {
wl_resource_post_error(
resource,
ZCR_KEYBOARD_CONFIGURATION_V1_ERROR_DEVICE_CONFIGURATION_EXISTS,
"keyboard has already been associated with a device configuration "
"object");
return;
}
wl_resource* keyboard_device_configuration_resource = wl_resource_create(
client, &zcr_keyboard_device_configuration_v1_interface,
wl_resource_get_version(resource), id);
SetImplementation(
keyboard_device_configuration_resource,
&keyboard_device_configuration_implementation,
std::make_unique<WaylandKeyboardDeviceConfigurationDelegate>(
keyboard_device_configuration_resource, keyboard));
}
const struct zcr_keyboard_configuration_v1_interface
keyboard_configuration_implementation = {
keyboard_configuration_get_keyboard_device_configuration};
const uint32_t keyboard_configuration_version = 2;
void bind_keyboard_configuration(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_keyboard_configuration_v1_interface,
std::min(version, keyboard_configuration_version), id);
wl_resource_set_implementation(
resource, &keyboard_configuration_implementation, data, nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// stylus_tool interface:
class StylusTool : public SurfaceObserver {
public:
explicit StylusTool(Surface* surface) : surface_(surface) {
surface_->AddSurfaceObserver(this);
surface_->SetProperty(kSurfaceHasStylusToolKey, true);
}
~StylusTool() override {
if (surface_) {
surface_->RemoveSurfaceObserver(this);
surface_->SetProperty(kSurfaceHasStylusToolKey, false);
}
}
void SetStylusOnly() { surface_->SetStylusOnly(); }
// Overridden from SurfaceObserver:
void OnSurfaceDestroying(Surface* surface) override {
surface->RemoveSurfaceObserver(this);
surface_ = nullptr;
}
private:
Surface* surface_;
DISALLOW_COPY_AND_ASSIGN(StylusTool);
};
void stylus_tool_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void stylus_tool_set_stylus_only(wl_client* client, wl_resource* resource) {
GetUserDataAs<StylusTool>(resource)->SetStylusOnly();
}
const struct zcr_stylus_tool_v1_interface stylus_tool_implementation = {
stylus_tool_destroy, stylus_tool_set_stylus_only};
////////////////////////////////////////////////////////////////////////////////
// stylus_tools interface:
void stylus_tools_destroy(wl_client* client, wl_resource* resource) {
wl_resource_destroy(resource);
}
void stylus_tools_get_stylus_tool(wl_client* client,
wl_resource* resource,
uint32_t id,
wl_resource* surface_resource) {
Surface* surface = GetUserDataAs<Surface>(surface_resource);
if (surface->GetProperty(kSurfaceHasStylusToolKey)) {
wl_resource_post_error(
resource, ZCR_STYLUS_TOOLS_V1_ERROR_STYLUS_TOOL_EXISTS,
"a stylus_tool object for that surface already exists");
return;
}
wl_resource* stylus_tool_resource =
wl_resource_create(client, &zcr_stylus_tool_v1_interface, 1, id);
SetImplementation(stylus_tool_resource, &stylus_tool_implementation,
std::make_unique<StylusTool>(surface));
}
const struct zcr_stylus_tools_v1_interface stylus_tools_implementation = {
stylus_tools_destroy, stylus_tools_get_stylus_tool};
void bind_stylus_tools(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_stylus_tools_v1_interface, 1, id);
wl_resource_set_implementation(resource, &stylus_tools_implementation, data,
nullptr);
}
////////////////////////////////////////////////////////////////////////////////
// cursor_shapes interface:
static ui::CursorType GetCursorType(int32_t cursor_shape) {
switch (cursor_shape) {
#define ADD_CASE(wayland, chrome) \
case ZCR_CURSOR_SHAPES_V1_CURSOR_SHAPE_TYPE_##wayland: \
return ui::CursorType::chrome
ADD_CASE(POINTER, kPointer);
ADD_CASE(CROSS, kCross);
ADD_CASE(HAND, kHand);
ADD_CASE(IBEAM, kIBeam);
ADD_CASE(WAIT, kWait);
ADD_CASE(HELP, kHelp);
ADD_CASE(EAST_RESIZE, kEastResize);
ADD_CASE(NORTH_RESIZE, kNorthResize);
ADD_CASE(NORTH_EAST_RESIZE, kNorthEastResize);
ADD_CASE(NORTH_WEST_RESIZE, kNorthWestResize);
ADD_CASE(SOUTH_RESIZE, kSouthResize);
ADD_CASE(SOUTH_EAST_RESIZE, kSouthEastResize);
ADD_CASE(SOUTH_WEST_RESIZE, kSouthWestResize);
ADD_CASE(WEST_RESIZE, kWestResize);
ADD_CASE(NORTH_SOUTH_RESIZE, kNorthSouthResize);
ADD_CASE(EAST_WEST_RESIZE, kEastWestResize);
ADD_CASE(NORTH_EAST_SOUTH_WEST_RESIZE, kNorthEastSouthWestResize);
ADD_CASE(NORTH_WEST_SOUTH_EAST_RESIZE, kNorthWestSouthEastResize);
ADD_CASE(COLUMN_RESIZE, kColumnResize);
ADD_CASE(ROW_RESIZE, kRowResize);
ADD_CASE(MIDDLE_PANNING, kMiddlePanning);
ADD_CASE(EAST_PANNING, kEastPanning);
ADD_CASE(NORTH_PANNING, kNorthPanning);
ADD_CASE(NORTH_EAST_PANNING, kNorthEastPanning);
ADD_CASE(NORTH_WEST_PANNING, kNorthWestPanning);
ADD_CASE(SOUTH_PANNING, kSouthPanning);
ADD_CASE(SOUTH_EAST_PANNING, kSouthEastPanning);
ADD_CASE(SOUTH_WEST_PANNING, kSouthWestPanning);
ADD_CASE(WEST_PANNING, kWestPanning);
ADD_CASE(MOVE, kMove);
ADD_CASE(VERTICAL_TEXT, kVerticalText);
ADD_CASE(CELL, kCell);
ADD_CASE(CONTEXT_MENU, kContextMenu);
ADD_CASE(ALIAS, kAlias);
ADD_CASE(PROGRESS, kProgress);
ADD_CASE(NO_DROP, kNoDrop);
ADD_CASE(COPY, kCopy);
ADD_CASE(NONE, kNone);
ADD_CASE(NOT_ALLOWED, kNotAllowed);
ADD_CASE(ZOOM_IN, kZoomIn);
ADD_CASE(ZOOM_OUT, kZoomOut);
ADD_CASE(GRAB, kGrab);
ADD_CASE(GRABBING, kGrabbing);
ADD_CASE(DND_NONE, kDndNone);
ADD_CASE(DND_MOVE, kDndMove);
ADD_CASE(DND_COPY, kDndCopy);
ADD_CASE(DND_LINK, kDndLink);
#undef ADD_CASE
default:
return ui::CursorType::kNull;
}
}
void cursor_shapes_set_cursor_shape(wl_client* client,
wl_resource* resource,
wl_resource* pointer_resource,
int32_t shape) {
ui::CursorType cursor_type = GetCursorType(shape);
if (cursor_type == ui::CursorType::kNull) {
wl_resource_post_error(resource, ZCR_CURSOR_SHAPES_V1_ERROR_INVALID_SHAPE,
"Unrecognized shape %d", shape);
return;
}
Pointer* pointer = GetUserDataAs<Pointer>(pointer_resource);
pointer->SetCursorType(cursor_type);
}
const struct zcr_cursor_shapes_v1_interface cursor_shapes_implementation = {
cursor_shapes_set_cursor_shape};
void bind_cursor_shapes(wl_client* client,
void* data,
uint32_t version,
uint32_t id) {
wl_resource* resource =
wl_resource_create(client, &zcr_cursor_shapes_v1_interface, version, id);
wl_resource_set_implementation(resource, &cursor_shapes_implementation, data,
nullptr);
}
} // namespace
////////////////////////////////////////////////////////////////////////////////
// Server::Output, public:
Server::Output::Output(int64_t id) : id_(id) {}
Server::Output::~Output() {
if (global_)
wl_global_destroy(global_);
}
////////////////////////////////////////////////////////////////////////////////
// Server, public:
Server::Server(Display* display)
: display_(display), wl_display_(wl_display_create()) {
wl_global_create(wl_display_.get(), &wl_compositor_interface,
compositor_version, display_, bind_compositor);
wl_global_create(wl_display_.get(), &wl_shm_interface, 1, display_, bind_shm);
#if defined(USE_OZONE)
wl_global_create(wl_display_.get(), &zwp_linux_dmabuf_v1_interface,
linux_dmabuf_version, display_, bind_linux_dmabuf);
#endif
wl_global_create(wl_display_.get(), &wl_subcompositor_interface, 1, display_,
bind_subcompositor);
wl_global_create(wl_display_.get(), &wl_shell_interface, 1, display_,
bind_shell);
display::Screen::GetScreen()->AddObserver(this);
for (const auto& display : display::Screen::GetScreen()->GetAllDisplays())
OnDisplayAdded(display);
wl_global_create(wl_display_.get(), &zxdg_shell_v6_interface, 1, display_,
bind_xdg_shell_v6);
wl_global_create(wl_display_.get(), &zcr_vsync_feedback_v1_interface, 1,
display_, bind_vsync_feedback);
wl_global_create(wl_display_.get(), &wl_data_device_manager_interface,
data_device_manager_version, display_,
bind_data_device_manager);
wl_global_create(wl_display_.get(), &wl_seat_interface, seat_version,
display_->seat(), bind_seat);
wl_global_create(wl_display_.get(), &wp_viewporter_interface, 1, display_,
bind_viewporter);
wl_global_create(wl_display_.get(), &wp_presentation_interface, 1, display_,
bind_presentation);
wl_global_create(wl_display_.get(), &zcr_secure_output_v1_interface, 1,
display_, bind_secure_output);
wl_global_create(wl_display_.get(), &zcr_alpha_compositing_v1_interface, 1,
display_, bind_alpha_compositing);
wl_global_create(wl_display_.get(), &zcr_remote_shell_v1_interface,
remote_shell_version, display_, bind_remote_shell);
wl_global_create(wl_display_.get(), &zaura_shell_interface,
aura_shell_version, display_, bind_aura_shell);
wl_global_create(wl_display_.get(), &zcr_gaming_input_v2_interface, 1,
display_, bind_gaming_input);
wl_global_create(wl_display_.get(), &zcr_stylus_v2_interface, 1, display_,
bind_stylus_v2);
wl_global_create(wl_display_.get(), &zwp_pointer_gestures_v1_interface, 1,
display_, bind_pointer_gestures);
wl_global_create(wl_display_.get(), &zcr_keyboard_configuration_v1_interface,
keyboard_configuration_version, display_,
bind_keyboard_configuration);
wl_global_create(wl_display_.get(), &zcr_stylus_tools_v1_interface, 1,
display_, bind_stylus_tools);
wl_global_create(wl_display_.get(), &zcr_keyboard_extension_v1_interface, 1,
display_, bind_keyboard_extension);
wl_global_create(wl_display_.get(), &zcr_cursor_shapes_v1_interface, 1,
display_, bind_cursor_shapes);
wl_global_create(wl_display_.get(),
&zwp_input_timestamps_manager_v1_interface, 1, display_,
bind_input_timestamps_manager);
wl_global_create(wl_display_.get(), &zwp_text_input_manager_v1_interface, 1,
display_, bind_text_input_manager);
wl_global_create(wl_display_.get(), &zcr_notification_shell_v1_interface, 1,
display_, bind_notification_shell);
#if defined(USE_FULLSCREEN_SHELL)
wl_global_create(wl_display_.get(), &zwp_fullscreen_shell_v1_interface, 1,
display_, bind_fullscreen_shell);
#endif
}
Server::~Server() {
display::Screen::GetScreen()->RemoveObserver(this);
}
// static
std::unique_ptr<Server> Server::Create(Display* display) {
std::unique_ptr<Server> server(new Server(display));
char* runtime_dir = getenv("XDG_RUNTIME_DIR");
if (!runtime_dir) {
LOG(ERROR) << "XDG_RUNTIME_DIR not set in the environment";
return nullptr;
}
std::string socket_name(kSocketName);
base::CommandLine* command_line = base::CommandLine::ForCurrentProcess();
if (command_line->HasSwitch(switches::kWaylandServerSocket)) {
socket_name =
command_line->GetSwitchValueASCII(switches::kWaylandServerSocket);
}
if (!server->AddSocket(socket_name.c_str())) {
LOG(ERROR) << "Failed to add socket: " << socket_name;
return nullptr;
}
base::FilePath socket_path = base::FilePath(runtime_dir).Append(socket_name);
// Change permissions on the socket.
struct group wayland_group;
struct group* wayland_group_res = nullptr;
char buf[10000];
if (HANDLE_EINTR(getgrnam_r(kWaylandSocketGroup, &wayland_group, buf,
sizeof(buf), &wayland_group_res)) < 0) {
PLOG(ERROR) << "getgrnam_r";
return nullptr;
}
if (wayland_group_res) {
if (HANDLE_EINTR(chown(socket_path.MaybeAsASCII().c_str(), -1,
wayland_group.gr_gid)) < 0) {
PLOG(ERROR) << "chown";
return nullptr;
}
} else {
LOG(WARNING) << "Group '" << kWaylandSocketGroup << "' not found";
}
if (!base::SetPosixFilePermissions(socket_path, 0660)) {
PLOG(ERROR) << "Could not set permissions: " << socket_path.value();
return nullptr;
}
return server;
}
bool Server::AddSocket(const std::string name) {
DCHECK(!name.empty());
return !wl_display_add_socket(wl_display_.get(), name.c_str());
}
int Server::GetFileDescriptor() const {
wl_event_loop* event_loop = wl_display_get_event_loop(wl_display_.get());
DCHECK(event_loop);
return wl_event_loop_get_fd(event_loop);
}
void Server::Dispatch(base::TimeDelta timeout) {
wl_event_loop* event_loop = wl_display_get_event_loop(wl_display_.get());
DCHECK(event_loop);
wl_event_loop_dispatch(event_loop, timeout.InMilliseconds());
}
void Server::Flush() {
wl_display_flush_clients(wl_display_.get());
}
void Server::OnDisplayAdded(const display::Display& new_display) {
auto output = std::make_unique<Output>(new_display.id());
output->set_global(wl_global_create(wl_display_.get(), &wl_output_interface,
output_version, output.get(),
bind_output));
DCHECK_EQ(outputs_.count(new_display.id()), 0u);
outputs_.insert(std::make_pair(new_display.id(), std::move(output)));
}
void Server::OnDisplayRemoved(const display::Display& old_display) {
DCHECK_EQ(outputs_.count(old_display.id()), 1u);
outputs_.erase(old_display.id());
}
} // namespace wayland
} // namespace exo