cef/libcef/browser/native/window_x11.cc

438 lines
14 KiB
C++

// Copyright 2014 The Chromium Embedded Framework Authors.
// Portions copyright 2014 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 "libcef/browser/native/window_x11.h"
#include "libcef/browser/alloy/alloy_browser_host_impl.h"
#include "libcef/browser/browser_host_base.h"
#include "libcef/browser/thread_util.h"
#include "ui/base/x/x11_util.h"
#include "ui/events/platform/platform_event_source.h"
#include "ui/events/x/x11_event_translation.h"
#include "ui/events/x/x11_window_event_manager.h"
#include "ui/gfx/x/connection.h"
#include "ui/gfx/x/xproto_util.h"
#include "ui/platform_window/x11/x11_topmost_window_finder.h"
#include "ui/views/widget/desktop_aura/desktop_window_tree_host_linux.h"
namespace {
const char kAtom[] = "ATOM";
const char kNetWMPid[] = "_NET_WM_PID";
const char kNetWMPing[] = "_NET_WM_PING";
const char kNetWMState[] = "_NET_WM_STATE";
const char kNetWMStateKeepAbove[] = "_NET_WM_STATE_KEEP_ABOVE";
const char kWMDeleteWindow[] = "WM_DELETE_WINDOW";
const char kWMProtocols[] = "WM_PROTOCOLS";
const char kXdndProxy[] = "XdndProxy";
x11::Window FindChild(x11::Window window) {
auto query_tree = x11::Connection::Get()->QueryTree({window}).Sync();
if (query_tree && query_tree->children.size() == 1U) {
return query_tree->children[0];
}
return x11::Window::None;
}
x11::Window FindToplevelParent(x11::Window window) {
x11::Window top_level_window = window;
do {
auto query_tree = x11::Connection::Get()->QueryTree({window}).Sync();
if (!query_tree)
break;
top_level_window = window;
if (!ui::PropertyExists(query_tree->parent, kNetWMPid) ||
query_tree->parent == query_tree->root) {
break;
}
window = query_tree->parent;
} while (true);
return top_level_window;
}
} // namespace
CEF_EXPORT XDisplay* cef_get_xdisplay() {
if (!CEF_CURRENTLY_ON(CEF_UIT))
return nullptr;
return x11::Connection::Get()->GetXlibDisplay();
}
CefWindowX11::CefWindowX11(CefRefPtr<CefBrowserHostBase> browser,
x11::Window parent_xwindow,
const gfx::Rect& bounds,
const std::string& title)
: browser_(browser),
connection_(x11::Connection::Get()),
parent_xwindow_(parent_xwindow),
bounds_(bounds),
weak_ptr_factory_(this) {
if (parent_xwindow_ == x11::Window::None)
parent_xwindow_ = ui::GetX11RootWindow();
x11::VisualId visual;
uint8_t depth;
x11::ColorMap colormap;
ui::XVisualManager::GetInstance()->ChooseVisualForWindow(
/*want_argb_visual=*/false, &visual, &depth, &colormap,
/*visual_has_alpha=*/nullptr);
xwindow_ = connection_->GenerateId<x11::Window>();
connection_->CreateWindow({
.depth = depth,
.wid = xwindow_,
.parent = parent_xwindow_,
.x = bounds.x(),
.y = bounds.y(),
.width = bounds.width(),
.height = bounds.height(),
.c_class = x11::WindowClass::InputOutput,
.visual = visual,
.background_pixel = 0,
.border_pixel = 0,
.override_redirect = x11::Bool32(false),
.event_mask = x11::EventMask::FocusChange |
x11::EventMask::StructureNotify |
x11::EventMask::PropertyChange,
.colormap = colormap,
});
connection_->Flush();
DCHECK(ui::X11EventSource::HasInstance());
ui::X11EventSource::GetInstance()->AddXEventDispatcher(this);
std::vector<x11::Atom> protocols = {
gfx::GetAtom(kWMDeleteWindow),
gfx::GetAtom(kNetWMPing),
};
ui::SetArrayProperty(xwindow_, gfx::GetAtom(kWMProtocols), x11::Atom::ATOM,
protocols);
// We need a WM_CLIENT_MACHINE value so we integrate with the desktop
// environment.
ui::SetStringProperty(xwindow_, x11::Atom::WM_CLIENT_MACHINE,
x11::Atom::STRING, net::GetHostName());
// Likewise, the X server needs to know this window's pid so it knows which
// program to kill if the window hangs.
// XChangeProperty() expects "pid" to be long.
static_assert(sizeof(uint32_t) >= sizeof(pid_t),
"pid_t should not be larger than uint32_t");
uint32_t pid = getpid();
ui::SetProperty(xwindow_, gfx::GetAtom(kNetWMPid), x11::Atom::CARDINAL, pid);
// Set the initial window name, if provided.
if (!title.empty()) {
ui::SetStringProperty(xwindow_, x11::Atom::WM_NAME, x11::Atom::STRING,
title);
ui::SetStringProperty(xwindow_, x11::Atom::WM_ICON_NAME, x11::Atom::STRING,
title);
}
}
CefWindowX11::~CefWindowX11() {
DCHECK_EQ(xwindow_, x11::Window::None);
DCHECK(ui::X11EventSource::HasInstance());
ui::X11EventSource::GetInstance()->RemoveXEventDispatcher(this);
}
void CefWindowX11::Close() {
if (xwindow_ == x11::Window::None)
return;
ui::SendClientMessage(
xwindow_, xwindow_, gfx::GetAtom(kWMProtocols),
{static_cast<uint32_t>(gfx::GetAtom(kWMDeleteWindow)),
static_cast<uint32_t>(x11::Time::CurrentTime), 0, 0, 0},
x11::EventMask::NoEvent);
auto host = GetHost();
if (host)
host->Close();
}
void CefWindowX11::Show() {
if (xwindow_ == x11::Window::None)
return;
if (!window_mapped_) {
// Before we map the window, set size hints. Otherwise, some window managers
// will ignore toplevel XMoveWindow commands.
ui::SizeHints size_hints;
memset(&size_hints, 0, sizeof(size_hints));
ui::GetWmNormalHints(xwindow_, &size_hints);
size_hints.flags |= ui::SIZE_HINT_P_POSITION;
size_hints.x = bounds_.x();
size_hints.y = bounds_.y();
ui::SetWmNormalHints(xwindow_, size_hints);
connection_->MapWindow({xwindow_});
// TODO(thomasanderson): Find out why this flush is necessary.
connection_->Flush();
window_mapped_ = true;
// Setup the drag and drop proxy on the top level window of the application
// to be the child of this window.
auto child = FindChild(xwindow_);
auto toplevel_window = FindToplevelParent(xwindow_);
DCHECK_NE(toplevel_window, x11::Window::None);
if (child != x11::Window::None && toplevel_window != x11::Window::None) {
// Configure the drag&drop proxy property for the top-most window so
// that all drag&drop-related messages will be sent to the child
// DesktopWindowTreeHostLinux. The proxy property is referenced by
// DesktopDragDropClientAuraX11::FindWindowFor.
x11::Window window = x11::Window::None;
auto dndproxy_atom = gfx::GetAtom(kXdndProxy);
ui::GetProperty(toplevel_window, dndproxy_atom, &window);
if (window != child) {
// Set the proxy target for the top-most window.
ui::SetProperty(toplevel_window, dndproxy_atom, x11::Atom::WINDOW,
child);
// Do the same for the proxy target per the spec.
ui::SetProperty(child, dndproxy_atom, x11::Atom::WINDOW, child);
}
}
}
}
void CefWindowX11::Hide() {
if (xwindow_ == x11::Window::None)
return;
if (window_mapped_) {
ui::WithdrawWindow(xwindow_);
window_mapped_ = false;
}
}
void CefWindowX11::Focus() {
if (xwindow_ == x11::Window::None || !window_mapped_)
return;
x11::Window focus_target = xwindow_;
if (browser_.get()) {
auto child = FindChild(xwindow_);
if (child != x11::Window::None && ui::IsWindowVisible(child)) {
// Give focus to the child DesktopWindowTreeHostLinux.
focus_target = child;
}
}
// Directly ask the X server to give focus to the window. Note that the call
// would have raised an X error if the window is not mapped.
connection_
->SetInputFocus(
{x11::InputFocus::Parent, focus_target, x11::Time::CurrentTime})
.IgnoreError();
}
void CefWindowX11::SetBounds(const gfx::Rect& bounds) {
if (xwindow_ == x11::Window::None)
return;
x11::ConfigureWindowRequest req{.window = xwindow_};
bool origin_changed = bounds_.origin() != bounds.origin();
bool size_changed = bounds_.size() != bounds.size();
if (size_changed) {
req.width = bounds.width();
req.height = bounds.height();
}
if (origin_changed) {
req.x = bounds.x();
req.y = bounds.y();
}
if (origin_changed || size_changed) {
connection_->ConfigureWindow(req);
}
}
gfx::Rect CefWindowX11::GetBoundsInScreen() {
if (auto coords =
connection_
->TranslateCoordinates({xwindow_, ui::GetX11RootWindow(), 0, 0})
.Sync()) {
return gfx::Rect(gfx::Point(coords->dst_x, coords->dst_y), bounds_.size());
}
return gfx::Rect();
}
views::DesktopWindowTreeHostLinux* CefWindowX11::GetHost() {
if (browser_.get()) {
auto child = FindChild(xwindow_);
if (child != x11::Window::None) {
return static_cast<views::DesktopWindowTreeHostLinux*>(
views::DesktopWindowTreeHostLinux::GetHostForWidget(
static_cast<gfx::AcceleratedWidget>(child)));
}
}
return nullptr;
}
bool CefWindowX11::CanDispatchEvent(const ui::PlatformEvent& event) {
DCHECK_NE(xwindow_, x11::Window::None);
return !!current_xevent_;
}
uint32_t CefWindowX11::DispatchEvent(const ui::PlatformEvent& event) {
DCHECK_NE(xwindow_, x11::Window::None);
DCHECK(event);
DCHECK(current_xevent_);
ProcessXEvent(current_xevent_);
return ui::POST_DISPATCH_STOP_PROPAGATION;
}
// Called by X11EventSourceLibevent to determine whether this XEventDispatcher
// implementation is able to process the next translated event sent by it.
void CefWindowX11::CheckCanDispatchNextPlatformEvent(x11::Event* x11_event) {
current_xevent_ = IsTargetedBy(*x11_event) ? x11_event : nullptr;
}
void CefWindowX11::PlatformEventDispatchFinished() {
current_xevent_ = nullptr;
}
ui::PlatformEventDispatcher* CefWindowX11::GetPlatformEventDispatcher() {
return this;
}
bool CefWindowX11::DispatchXEvent(x11::Event* x11_event) {
if (!IsTargetedBy(*x11_event))
return false;
ProcessXEvent(x11_event);
return true;
}
void CefWindowX11::ContinueFocus() {
if (!focus_pending_)
return;
if (browser_.get())
browser_->SetFocus(true);
focus_pending_ = false;
}
bool CefWindowX11::TopLevelAlwaysOnTop() const {
auto toplevel_window = FindToplevelParent(xwindow_);
if (toplevel_window == x11::Window::None)
return false;
std::vector<x11::Atom> wm_states;
if (ui::GetAtomArrayProperty(toplevel_window, kNetWMState, &wm_states)) {
x11::Atom keep_above_atom = gfx::GetAtom(kNetWMStateKeepAbove);
if (base::Contains(wm_states, keep_above_atom))
return true;
}
return false;
}
bool CefWindowX11::IsTargetedBy(const x11::Event& x11_event) const {
return x11_event.window() == xwindow_;
}
void CefWindowX11::ProcessXEvent(x11::Event* event) {
if (auto* configure = event->As<x11::ConfigureNotifyEvent>()) {
DCHECK_EQ(xwindow_, configure->event);
DCHECK_EQ(xwindow_, configure->window);
// It's possible that the X window may be resized by some other means
// than from within Aura (e.g. the X window manager can change the
// size). Make sure the root window size is maintained properly.
bounds_ = gfx::Rect(configure->x, configure->y, configure->width,
configure->height);
if (browser_.get()) {
auto child = FindChild(xwindow_);
if (child != x11::Window::None) {
// Resize the child DesktopWindowTreeHostLinux to match this window.
x11::ConfigureWindowRequest req{
.window = child,
.width = bounds_.width(),
.height = bounds_.height(),
};
connection_->ConfigureWindow(req);
browser_->NotifyMoveOrResizeStarted();
}
}
} else if (auto* client = event->As<x11::ClientMessageEvent>()) {
if (client->type == gfx::GetAtom(kWMProtocols)) {
x11::Atom protocol = static_cast<x11::Atom>(client->data.data32[0]);
if (protocol == gfx::GetAtom(kWMDeleteWindow)) {
// We have received a close message from the window manager.
if (!browser_ || browser_->TryCloseBrowser()) {
// Allow the close.
connection_->DestroyWindow({xwindow_});
xwindow_ = x11::Window::None;
if (browser_) {
// Force the browser to be destroyed and release the reference
// added in PlatformCreateWindow().
static_cast<AlloyBrowserHostImpl*>(browser_.get())
->WindowDestroyed();
}
delete this;
}
} else if (protocol == gfx::GetAtom(kNetWMPing)) {
x11::ClientMessageEvent reply_event = *client;
reply_event.window = parent_xwindow_;
x11::SendEvent(reply_event, reply_event.window,
x11::EventMask::SubstructureNotify |
x11::EventMask::SubstructureRedirect);
}
}
} else if (auto* focus = event->As<x11::FocusEvent>()) {
if (focus->opcode == x11::FocusEvent::In) {
// This message is received first followed by a "_NET_ACTIVE_WINDOW"
// message sent to the root window. When X11DesktopHandler handles the
// "_NET_ACTIVE_WINDOW" message it will erroneously mark the WebView
// (hosted in a DesktopWindowTreeHostLinux) as unfocused. Use a delayed
// task here to restore the WebView's focus state.
if (!focus_pending_) {
focus_pending_ = true;
CEF_POST_DELAYED_TASK(CEF_UIT,
base::Bind(&CefWindowX11::ContinueFocus,
weak_ptr_factory_.GetWeakPtr()),
100);
}
} else {
// Cancel the pending focus change if some other window has gained focus
// while waiting for the async task to run. Otherwise we can get stuck in
// a focus change loop.
if (focus_pending_)
focus_pending_ = false;
}
} else if (auto* property = event->As<x11::PropertyNotifyEvent>()) {
if (property->atom == gfx::GetAtom(kNetWMState)) {
// State change event like minimize/maximize.
if (browser_.get()) {
auto child = FindChild(xwindow_);
if (child != x11::Window::None) {
// Forward the state change to the child DesktopWindowTreeHostLinux
// window so that resource usage will be reduced while the window is
// minimized. |atom_list| may be empty.
std::vector<x11::Atom> atom_list;
ui::GetAtomArrayProperty(xwindow_, kNetWMState, &atom_list);
ui::SetAtomArrayProperty(child, kNetWMState, kAtom, atom_list);
}
}
}
}
}