// Copyright (c) 2012 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 "base/message_loop/message_pump_aurax11.h" #include #include #include #include #include "base/basictypes.h" #include "base/message_loop/message_loop.h" namespace base { namespace { gboolean XSourcePrepare(GSource* source, gint* timeout_ms) { if (XPending(MessagePumpAuraX11::GetDefaultXDisplay())) *timeout_ms = 0; else *timeout_ms = -1; return FALSE; } gboolean XSourceCheck(GSource* source) { return XPending(MessagePumpAuraX11::GetDefaultXDisplay()); } gboolean XSourceDispatch(GSource* source, GSourceFunc unused_func, gpointer data) { MessagePumpAuraX11* pump = static_cast(data); return pump->DispatchXEvents(); } GSourceFuncs XSourceFuncs = { XSourcePrepare, XSourceCheck, XSourceDispatch, NULL }; // The connection is essentially a global that's accessed through a static // method and destroyed whenever ~MessagePumpAuraX11() is called. We do this // for historical reasons so user code can call // MessagePumpForUI::GetDefaultXDisplay() where MessagePumpForUI is a typedef // to whatever type in the current build. // // TODO(erg): This can be changed to something more sane like // MessagePumpAuraX11::Current()->display() once MessagePumpGtk goes away. Display* g_xdisplay = NULL; int g_xinput_opcode = -1; bool InitializeXInput2Internal() { Display* display = MessagePumpAuraX11::GetDefaultXDisplay(); if (!display) return false; int event, err; int xiopcode; if (!XQueryExtension(display, "XInputExtension", &xiopcode, &event, &err)) { DVLOG(1) << "X Input extension not available."; return false; } g_xinput_opcode = xiopcode; #if defined(USE_XI2_MT) // USE_XI2_MT also defines the required XI2 minor minimum version. int major = 2, minor = USE_XI2_MT; #else int major = 2, minor = 0; #endif if (XIQueryVersion(display, &major, &minor) == BadRequest) { DVLOG(1) << "XInput2 not supported in the server."; return false; } #if defined(USE_XI2_MT) if (major < 2 || (major == 2 && minor < USE_XI2_MT)) { DVLOG(1) << "XI version on server is " << major << "." << minor << ". " << "But 2." << USE_XI2_MT << " is required."; return false; } #endif return true; } Window FindEventTarget(const NativeEvent& xev) { Window target = xev->xany.window; if (xev->type == GenericEvent && static_cast(xev->xcookie.data)->extension == g_xinput_opcode) { target = static_cast(xev->xcookie.data)->event; } return target; } bool InitializeXInput2() { static bool xinput2_supported = InitializeXInput2Internal(); return xinput2_supported; } bool InitializeXkb() { Display* display = MessagePumpAuraX11::GetDefaultXDisplay(); if (!display) return false; int opcode, event, error; int major = XkbMajorVersion; int minor = XkbMinorVersion; if (!XkbQueryExtension(display, &opcode, &event, &error, &major, &minor)) { DVLOG(1) << "Xkb extension not available."; return false; } // Ask the server not to send KeyRelease event when the user holds down a key. // crbug.com/138092 Bool supported_return; if (!XkbSetDetectableAutoRepeat(display, True, &supported_return)) { DVLOG(1) << "XKB not supported in the server."; return false; } return true; } } // namespace MessagePumpAuraX11::MessagePumpAuraX11() : MessagePumpGlib(), x_source_(NULL) { InitializeXInput2(); InitializeXkb(); InitXSource(); // Can't put this in the initializer list because g_xdisplay may not exist // until after InitXSource(). x_root_window_ = DefaultRootWindow(g_xdisplay); } MessagePumpAuraX11::~MessagePumpAuraX11() { g_source_destroy(x_source_); g_source_unref(x_source_); XCloseDisplay(g_xdisplay); g_xdisplay = NULL; } // static Display* MessagePumpAuraX11::GetDefaultXDisplay() { if (!g_xdisplay) g_xdisplay = XOpenDisplay(NULL); return g_xdisplay; } // static bool MessagePumpAuraX11::HasXInput2() { return InitializeXInput2(); } // static MessagePumpAuraX11* MessagePumpAuraX11::Current() { MessageLoopForUI* loop = MessageLoopForUI::current(); return static_cast(loop->pump_ui()); } void MessagePumpAuraX11::AddDispatcherForWindow( MessagePumpDispatcher* dispatcher, unsigned long xid) { dispatchers_.insert(std::make_pair(xid, dispatcher)); } void MessagePumpAuraX11::RemoveDispatcherForWindow(unsigned long xid) { dispatchers_.erase(xid); } void MessagePumpAuraX11::AddDispatcherForRootWindow( MessagePumpDispatcher* dispatcher) { root_window_dispatchers_.AddObserver(dispatcher); } void MessagePumpAuraX11::RemoveDispatcherForRootWindow( MessagePumpDispatcher* dispatcher) { root_window_dispatchers_.RemoveObserver(dispatcher); } bool MessagePumpAuraX11::DispatchXEvents() { Display* display = GetDefaultXDisplay(); DCHECK(display); MessagePumpDispatcher* dispatcher = GetDispatcher() ? GetDispatcher() : this; // In the general case, we want to handle all pending events before running // the tasks. This is what happens in the message_pump_glib case. while (XPending(display)) { XEvent xev; XNextEvent(display, &xev); if (dispatcher && ProcessXEvent(dispatcher, &xev)) return TRUE; } return TRUE; } void MessagePumpAuraX11::BlockUntilWindowMapped(unsigned long xid) { XEvent event; Display* display = GetDefaultXDisplay(); DCHECK(display); MessagePumpDispatcher* dispatcher = GetDispatcher() ? GetDispatcher() : this; do { // Block until there's a message of |event_mask| type on |w|. Then remove // it from the queue and stuff it in |event|. XWindowEvent(display, xid, StructureNotifyMask, &event); ProcessXEvent(dispatcher, &event); } while (event.type != MapNotify); } void MessagePumpAuraX11::InitXSource() { // CHECKs are to help track down crbug.com/113106. CHECK(!x_source_); Display* display = GetDefaultXDisplay(); CHECK(display) << "Unable to get connection to X server"; x_poll_.reset(new GPollFD()); CHECK(x_poll_.get()); x_poll_->fd = ConnectionNumber(display); x_poll_->events = G_IO_IN; x_source_ = g_source_new(&XSourceFuncs, sizeof(GSource)); g_source_add_poll(x_source_, x_poll_.get()); g_source_set_can_recurse(x_source_, TRUE); g_source_set_callback(x_source_, NULL, this, NULL); g_source_attach(x_source_, g_main_context_default()); } bool MessagePumpAuraX11::ProcessXEvent(MessagePumpDispatcher* dispatcher, XEvent* xev) { bool should_quit = false; bool have_cookie = false; if (xev->type == GenericEvent && XGetEventData(xev->xgeneric.display, &xev->xcookie)) { have_cookie = true; } if (!WillProcessXEvent(xev)) { if (!dispatcher->Dispatch(xev)) { should_quit = true; Quit(); } DidProcessXEvent(xev); } if (have_cookie) { XFreeEventData(xev->xgeneric.display, &xev->xcookie); } return should_quit; } bool MessagePumpAuraX11::WillProcessXEvent(XEvent* xevent) { if (!observers().might_have_observers()) return false; ObserverListBase::Iterator it(observers()); MessagePumpObserver* obs; while ((obs = it.GetNext()) != NULL) { if (obs->WillProcessEvent(xevent)) return true; } return false; } void MessagePumpAuraX11::DidProcessXEvent(XEvent* xevent) { FOR_EACH_OBSERVER(MessagePumpObserver, observers(), DidProcessEvent(xevent)); } MessagePumpDispatcher* MessagePumpAuraX11::GetDispatcherForXEvent( const NativeEvent& xev) const { ::Window x_window = FindEventTarget(xev); DispatchersMap::const_iterator it = dispatchers_.find(x_window); return it != dispatchers_.end() ? it->second : NULL; } bool MessagePumpAuraX11::Dispatch(const NativeEvent& xev) { // MappingNotify events (meaning that the keyboard or pointer buttons have // been remapped) aren't associated with a window; send them to all // dispatchers. if (xev->type == MappingNotify) { for (DispatchersMap::const_iterator it = dispatchers_.begin(); it != dispatchers_.end(); ++it) { it->second->Dispatch(xev); } return true; } if (FindEventTarget(xev) == x_root_window_) { FOR_EACH_OBSERVER(MessagePumpDispatcher, root_window_dispatchers_, Dispatch(xev)); return true; } MessagePumpDispatcher* dispatcher = GetDispatcherForXEvent(xev); return dispatcher ? dispatcher->Dispatch(xev) : true; } } // namespace base