/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/DebugOnly.h" #include "mozilla/Logging.h" #include "WinMouseScrollHandler.h" #include "nsWindow.h" #include "nsWindowDefs.h" #include "KeyboardLayout.h" #include "WinUtils.h" #include "nsGkAtoms.h" #include "nsIDOMWindowUtils.h" #include "mozilla/MiscEvents.h" #include "mozilla/MouseEvents.h" #include "mozilla/Preferences.h" #include "mozilla/dom/WheelEventBinding.h" #include "mozilla/StaticPrefs_mousewheel.h" #include namespace mozilla { namespace widget { LazyLogModule gMouseScrollLog("MouseScrollHandlerWidgets"); static const char* GetBoolName(bool aBool) { return aBool ? "TRUE" : "FALSE"; } MouseScrollHandler* MouseScrollHandler::sInstance = nullptr; bool MouseScrollHandler::Device::sFakeScrollableWindowNeeded = false; bool MouseScrollHandler::Device::SynTP::sInitialized = false; int32_t MouseScrollHandler::Device::SynTP::sMajorVersion = 0; int32_t MouseScrollHandler::Device::SynTP::sMinorVersion = -1; bool MouseScrollHandler::Device::Elantech::sUseSwipeHack = false; bool MouseScrollHandler::Device::Elantech::sUsePinchHack = false; DWORD MouseScrollHandler::Device::Elantech::sZoomUntil = 0; bool MouseScrollHandler::Device::Apoint::sInitialized = false; int32_t MouseScrollHandler::Device::Apoint::sMajorVersion = 0; int32_t MouseScrollHandler::Device::Apoint::sMinorVersion = -1; bool MouseScrollHandler::Device::SetPoint::sMightBeUsing = false; // The duration until timeout of events transaction. The value is 1.5 sec, // it's just a magic number, it was suggested by Logitech's engineer, see // bug 605648 comment 90. #define DEFAULT_TIMEOUT_DURATION 1500 /****************************************************************************** * * MouseScrollHandler * ******************************************************************************/ /* static */ POINTS MouseScrollHandler::GetCurrentMessagePos() { if (SynthesizingEvent::IsSynthesizing()) { return sInstance->mSynthesizingEvent->GetCursorPoint(); } DWORD pos = ::GetMessagePos(); return MAKEPOINTS(pos); } // Get rid of the GetMessagePos() API. #define GetMessagePos() /* static */ void MouseScrollHandler::Initialize() { Device::Init(); } /* static */ void MouseScrollHandler::Shutdown() { delete sInstance; sInstance = nullptr; } /* static */ MouseScrollHandler* MouseScrollHandler::GetInstance() { if (!sInstance) { sInstance = new MouseScrollHandler(); } return sInstance; } MouseScrollHandler::MouseScrollHandler() : mIsWaitingInternalMessage(false), mSynthesizingEvent(nullptr) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll: Creating an instance, this=%p, sInstance=%p", this, sInstance)); } MouseScrollHandler::~MouseScrollHandler() { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll: Destroying an instance, this=%p, sInstance=%p", this, sInstance)); delete mSynthesizingEvent; } /* static */ void MouseScrollHandler::MaybeLogKeyState() { if (!MOZ_LOG_TEST(gMouseScrollLog, LogLevel::Debug)) { return; } BYTE keyboardState[256]; if (::GetKeyboardState(keyboardState)) { for (size_t i = 0; i < ArrayLength(keyboardState); i++) { if (keyboardState[i]) { MOZ_LOG(gMouseScrollLog, LogLevel::Debug, (" Current key state: keyboardState[0x%02zX]=0x%02X (%s)", i, keyboardState[i], ((keyboardState[i] & 0x81) == 0x81) ? "Pressed and Toggled" : (keyboardState[i] & 0x80) ? "Pressed" : (keyboardState[i] & 0x01) ? "Toggled" : "Unknown")); } } } else { MOZ_LOG( gMouseScrollLog, LogLevel::Debug, ("MouseScroll::MaybeLogKeyState(): Failed to print current keyboard " "state")); } } /* static */ bool MouseScrollHandler::NeedsMessage(UINT aMsg) { switch (aMsg) { case WM_SETTINGCHANGE: case WM_MOUSEWHEEL: case WM_MOUSEHWHEEL: case WM_HSCROLL: case WM_VSCROLL: case MOZ_WM_MOUSEVWHEEL: case MOZ_WM_MOUSEHWHEEL: case MOZ_WM_HSCROLL: case MOZ_WM_VSCROLL: case WM_KEYDOWN: case WM_KEYUP: return true; } return false; } /* static */ bool MouseScrollHandler::ProcessMessage(nsWindow* aWidget, UINT msg, WPARAM wParam, LPARAM lParam, MSGResult& aResult) { Device::Elantech::UpdateZoomUntil(); switch (msg) { case WM_SETTINGCHANGE: if (!sInstance) { return false; } if (wParam == SPI_SETWHEELSCROLLLINES || wParam == SPI_SETWHEELSCROLLCHARS) { sInstance->mSystemSettings.MarkDirty(); } return false; case WM_MOUSEWHEEL: case WM_MOUSEHWHEEL: GetInstance()->ProcessNativeMouseWheelMessage(aWidget, msg, wParam, lParam); sInstance->mSynthesizingEvent->NotifyNativeMessageHandlingFinished(); // We don't need to call next wndproc for WM_MOUSEWHEEL and // WM_MOUSEHWHEEL. We should consume them always. If the messages // would be handled by our window again, it caused making infinite // message loop. aResult.mConsumed = true; aResult.mResult = (msg != WM_MOUSEHWHEEL); return true; case WM_HSCROLL: case WM_VSCROLL: aResult.mConsumed = GetInstance()->ProcessNativeScrollMessage( aWidget, msg, wParam, lParam); sInstance->mSynthesizingEvent->NotifyNativeMessageHandlingFinished(); aResult.mResult = 0; return true; case MOZ_WM_MOUSEVWHEEL: case MOZ_WM_MOUSEHWHEEL: GetInstance()->HandleMouseWheelMessage(aWidget, msg, wParam, lParam); sInstance->mSynthesizingEvent->NotifyInternalMessageHandlingFinished(); // Doesn't need to call next wndproc for internal wheel message. aResult.mConsumed = true; return true; case MOZ_WM_HSCROLL: case MOZ_WM_VSCROLL: GetInstance()->HandleScrollMessageAsMouseWheelMessage(aWidget, msg, wParam, lParam); sInstance->mSynthesizingEvent->NotifyInternalMessageHandlingFinished(); // Doesn't need to call next wndproc for internal scroll message. aResult.mConsumed = true; return true; case WM_KEYDOWN: case WM_KEYUP: MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessMessage(): aWidget=%p, " "msg=%s(0x%04X), wParam=0x%02zX, ::GetMessageTime()=%ld", aWidget, msg == WM_KEYDOWN ? "WM_KEYDOWN" : msg == WM_KEYUP ? "WM_KEYUP" : "Unknown", msg, wParam, ::GetMessageTime())); MaybeLogKeyState(); if (Device::Elantech::HandleKeyMessage(aWidget, msg, wParam, lParam)) { aResult.mResult = 0; aResult.mConsumed = true; return true; } return false; default: return false; } } /* static */ nsresult MouseScrollHandler::SynthesizeNativeMouseScrollEvent( nsWindow* aWidget, const LayoutDeviceIntPoint& aPoint, uint32_t aNativeMessage, int32_t aDelta, uint32_t aModifierFlags, uint32_t aAdditionalFlags) { bool useFocusedWindow = !( aAdditionalFlags & nsIDOMWindowUtils::MOUSESCROLL_PREFER_WIDGET_AT_POINT); POINT pt; pt.x = aPoint.x; pt.y = aPoint.y; HWND target = useFocusedWindow ? ::WindowFromPoint(pt) : ::GetFocus(); NS_ENSURE_TRUE(target, NS_ERROR_FAILURE); WPARAM wParam = 0; LPARAM lParam = 0; switch (aNativeMessage) { case WM_MOUSEWHEEL: case WM_MOUSEHWHEEL: { lParam = MAKELPARAM(pt.x, pt.y); WORD mod = 0; if (aModifierFlags & (nsIWidget::CTRL_L | nsIWidget::CTRL_R)) { mod |= MK_CONTROL; } if (aModifierFlags & (nsIWidget::SHIFT_L | nsIWidget::SHIFT_R)) { mod |= MK_SHIFT; } wParam = MAKEWPARAM(mod, aDelta); break; } case WM_VSCROLL: case WM_HSCROLL: lParam = (aAdditionalFlags & nsIDOMWindowUtils::MOUSESCROLL_WIN_SCROLL_LPARAM_NOT_NULL) ? reinterpret_cast(target) : 0; wParam = aDelta; break; default: return NS_ERROR_INVALID_ARG; } // Ensure to make the instance. GetInstance(); BYTE kbdState[256]; memset(kbdState, 0, sizeof(kbdState)); AutoTArray keySequence; WinUtils::SetupKeyModifiersSequence(&keySequence, aModifierFlags, aNativeMessage); for (uint32_t i = 0; i < keySequence.Length(); ++i) { uint8_t key = keySequence[i].mGeneral; uint8_t keySpecific = keySequence[i].mSpecific; kbdState[key] = 0x81; // key is down and toggled on if appropriate if (keySpecific) { kbdState[keySpecific] = 0x81; } } if (!sInstance->mSynthesizingEvent) { sInstance->mSynthesizingEvent = new SynthesizingEvent(); } POINTS pts; pts.x = static_cast(pt.x); pts.y = static_cast(pt.y); return sInstance->mSynthesizingEvent->Synthesize(pts, target, aNativeMessage, wParam, lParam, kbdState); } /* static */ void MouseScrollHandler::InitEvent(nsWindow* aWidget, WidgetGUIEvent& aEvent, LPARAM* aPoint) { NS_ENSURE_TRUE_VOID(aWidget); // If a point is provided, use it; otherwise, get current message point or // synthetic point POINTS pointOnScreen; if (aPoint != nullptr) { pointOnScreen = MAKEPOINTS(*aPoint); } else { pointOnScreen = GetCurrentMessagePos(); } // InitEvent expects the point to be in window coordinates, so translate the // point from screen coordinates. POINT pointOnWindow; POINTSTOPOINT(pointOnWindow, pointOnScreen); ::ScreenToClient(aWidget->GetWindowHandle(), &pointOnWindow); LayoutDeviceIntPoint point; point.x = pointOnWindow.x; point.y = pointOnWindow.y; aWidget->InitEvent(aEvent, &point); } /* static */ ModifierKeyState MouseScrollHandler::GetModifierKeyState(UINT aMessage) { ModifierKeyState result; // Assume the Control key is down if the Elantech touchpad has sent the // mis-ordered WM_KEYDOWN/WM_MOUSEWHEEL messages. (See the comment in // MouseScrollHandler::Device::Elantech::HandleKeyMessage().) if ((aMessage == MOZ_WM_MOUSEVWHEEL || aMessage == WM_MOUSEWHEEL) && !result.IsControl() && Device::Elantech::IsZooming()) { // XXX Do we need to unset MODIFIER_SHIFT, MODIFIER_ALT, MODIFIER_OS too? // If one of them are true, the default action becomes not zooming. result.Unset(MODIFIER_ALTGRAPH); result.Set(MODIFIER_CONTROL); } return result; } POINT MouseScrollHandler::ComputeMessagePos(UINT aMessage, WPARAM aWParam, LPARAM aLParam) { POINT point; if (Device::SetPoint::IsGetMessagePosResponseValid(aMessage, aWParam, aLParam)) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ComputeMessagePos: Using ::GetCursorPos()")); ::GetCursorPos(&point); } else { POINTS pts = GetCurrentMessagePos(); point.x = pts.x; point.y = pts.y; } return point; } void MouseScrollHandler::ProcessNativeMouseWheelMessage(nsWindow* aWidget, UINT aMessage, WPARAM aWParam, LPARAM aLParam) { if (SynthesizingEvent::IsSynthesizing()) { mSynthesizingEvent->NativeMessageReceived(aWidget, aMessage, aWParam, aLParam); } POINT point = ComputeMessagePos(aMessage, aWParam, aLParam); MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeMouseWheelMessage: aWidget=%p, " "aMessage=%s, wParam=0x%08zX, lParam=0x%08" PRIXLPTR ", point: { x=%ld, y=%ld }", aWidget, aMessage == WM_MOUSEWHEEL ? "WM_MOUSEWHEEL" : aMessage == WM_MOUSEHWHEEL ? "WM_MOUSEHWHEEL" : aMessage == WM_VSCROLL ? "WM_VSCROLL" : "WM_HSCROLL", aWParam, aLParam, point.x, point.y)); MaybeLogKeyState(); HWND underCursorWnd = ::WindowFromPoint(point); if (!underCursorWnd) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeMouseWheelMessage: " "No window is not found under the cursor")); return; } if (Device::Elantech::IsPinchHackNeeded() && Device::Elantech::IsHelperWindow(underCursorWnd)) { // The Elantech driver places a window right underneath the cursor // when sending a WM_MOUSEWHEEL event to us as part of a pinch-to-zoom // gesture. We detect that here, and search for our window that would // be beneath the cursor if that window wasn't there. underCursorWnd = WinUtils::FindOurWindowAtPoint(point); if (!underCursorWnd) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeMouseWheelMessage: " "Our window is not found under the Elantech helper window")); return; } } // Handle most cases first. If the window under mouse cursor is our window // except plugin window (MozillaWindowClass), we should handle the message // on the window. if (WinUtils::IsOurProcessWindow(underCursorWnd)) { nsWindow* destWindow = WinUtils::GetNSWindowPtr(underCursorWnd); if (!destWindow) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeMouseWheelMessage: " "Found window under the cursor isn't managed by nsWindow...")); HWND wnd = ::GetParent(underCursorWnd); for (; wnd; wnd = ::GetParent(wnd)) { destWindow = WinUtils::GetNSWindowPtr(wnd); if (destWindow) { break; } } if (!wnd) { MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeMouseWheelMessage: Our window which is " "managed by nsWindow is not found under the cursor")); return; } } MOZ_ASSERT(destWindow, "destWindow must not be NULL"); // Some odd touchpad utils sets focus to window under the mouse cursor. // this emulates the odd behavior for debug. if (mUserPrefs.ShouldEmulateToMakeWindowUnderCursorForeground() && (aMessage == WM_MOUSEWHEEL || aMessage == WM_MOUSEHWHEEL) && ::GetForegroundWindow() != destWindow->GetWindowHandle()) { ::SetForegroundWindow(destWindow->GetWindowHandle()); } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeMouseWheelMessage: Succeeded, " "Posting internal message to an nsWindow (%p)...", destWindow)); mIsWaitingInternalMessage = true; UINT internalMessage = WinUtils::GetInternalMessage(aMessage); ::PostMessage(destWindow->GetWindowHandle(), internalMessage, aWParam, aLParam); return; } // If the window under cursor is not in our process, it means: // 1. The window may be a plugin window (GeckoPluginWindow or its descendant). // 2. The window may be another application's window. HWND pluginWnd = WinUtils::FindOurProcessWindow(underCursorWnd); if (!pluginWnd) { // If there is no plugin window in ancestors of the window under cursor, // the window is for another applications (case 2). // We don't need to handle this message. MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeMouseWheelMessage: " "Our window is not found under the cursor")); return; } // If the window is a part of plugin, we should post the message to it. MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeMouseWheelMessage: Succeeded, " "Redirecting the message to a window which is a plugin child window")); ::PostMessage(underCursorWnd, aMessage, aWParam, aLParam); } bool MouseScrollHandler::ProcessNativeScrollMessage(nsWindow* aWidget, UINT aMessage, WPARAM aWParam, LPARAM aLParam) { if (aLParam || mUserPrefs.IsScrollMessageHandledAsWheelMessage()) { // Scroll message generated by Thinkpad Trackpoint Driver or similar // Treat as a mousewheel message and scroll appropriately ProcessNativeMouseWheelMessage(aWidget, aMessage, aWParam, aLParam); // Always consume the scroll message if we try to emulate mouse wheel // action. return true; } if (SynthesizingEvent::IsSynthesizing()) { mSynthesizingEvent->NativeMessageReceived(aWidget, aMessage, aWParam, aLParam); } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::ProcessNativeScrollMessage: aWidget=%p, " "aMessage=%s, wParam=0x%08zX, lParam=0x%08" PRIXLPTR, aWidget, aMessage == WM_VSCROLL ? "WM_VSCROLL" : "WM_HSCROLL", aWParam, aLParam)); // Scroll message generated by external application WidgetContentCommandEvent commandEvent(true, eContentCommandScroll, aWidget); commandEvent.mScroll.mIsHorizontal = (aMessage == WM_HSCROLL); switch (LOWORD(aWParam)) { case SB_LINEUP: // SB_LINELEFT commandEvent.mScroll.mUnit = WidgetContentCommandEvent::eCmdScrollUnit_Line; commandEvent.mScroll.mAmount = -1; break; case SB_LINEDOWN: // SB_LINERIGHT commandEvent.mScroll.mUnit = WidgetContentCommandEvent::eCmdScrollUnit_Line; commandEvent.mScroll.mAmount = 1; break; case SB_PAGEUP: // SB_PAGELEFT commandEvent.mScroll.mUnit = WidgetContentCommandEvent::eCmdScrollUnit_Page; commandEvent.mScroll.mAmount = -1; break; case SB_PAGEDOWN: // SB_PAGERIGHT commandEvent.mScroll.mUnit = WidgetContentCommandEvent::eCmdScrollUnit_Page; commandEvent.mScroll.mAmount = 1; break; case SB_TOP: // SB_LEFT commandEvent.mScroll.mUnit = WidgetContentCommandEvent::eCmdScrollUnit_Whole; commandEvent.mScroll.mAmount = -1; break; case SB_BOTTOM: // SB_RIGHT commandEvent.mScroll.mUnit = WidgetContentCommandEvent::eCmdScrollUnit_Whole; commandEvent.mScroll.mAmount = 1; break; default: return false; } // XXX If this is a plugin window, we should dispatch the event from // parent window. aWidget->DispatchContentCommandEvent(&commandEvent); return true; } void MouseScrollHandler::HandleMouseWheelMessage(nsWindow* aWidget, UINT aMessage, WPARAM aWParam, LPARAM aLParam) { MOZ_ASSERT((aMessage == MOZ_WM_MOUSEVWHEEL || aMessage == MOZ_WM_MOUSEHWHEEL), "HandleMouseWheelMessage must be called with " "MOZ_WM_MOUSEVWHEEL or MOZ_WM_MOUSEHWHEEL"); MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScroll::HandleMouseWheelMessage: aWidget=%p, " "aMessage=MOZ_WM_MOUSE%sWHEEL, aWParam=0x%08zX, aLParam=0x%08" PRIXLPTR, aWidget, aMessage == MOZ_WM_MOUSEVWHEEL ? "V" : "H", aWParam, aLParam)); mIsWaitingInternalMessage = false; // If it's not allowed to cache system settings, we need to reset the cache // before handling the mouse wheel message. mSystemSettings.TrustedScrollSettingsDriver(); EventInfo eventInfo(aWidget, WinUtils::GetNativeMessage(aMessage), aWParam, aLParam); if (!eventInfo.CanDispatchWheelEvent()) { MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScroll::HandleMouseWheelMessage: Cannot dispatch the events")); mLastEventInfo.ResetTransaction(); return; } // Discard the remaining delta if current wheel message and last one are // received by different window or to scroll different direction or // different unit scroll. Furthermore, if the last event was too old. if (!mLastEventInfo.CanContinueTransaction(eventInfo)) { mLastEventInfo.ResetTransaction(); } mLastEventInfo.RecordEvent(eventInfo); ModifierKeyState modKeyState = GetModifierKeyState(aMessage); // Grab the widget, it might be destroyed by a DOM event handler. RefPtr kungFuDethGrip(aWidget); WidgetWheelEvent wheelEvent(true, eWheel, aWidget); if (mLastEventInfo.InitWheelEvent(aWidget, wheelEvent, modKeyState, aLParam)) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::HandleMouseWheelMessage: dispatching " "eWheel event")); aWidget->DispatchWheelEvent(&wheelEvent); if (aWidget->Destroyed()) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::HandleMouseWheelMessage: The window was destroyed " "by eWheel event")); mLastEventInfo.ResetTransaction(); return; } } else { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::HandleMouseWheelMessage: eWheel event is not " "dispatched")); } } void MouseScrollHandler::HandleScrollMessageAsMouseWheelMessage( nsWindow* aWidget, UINT aMessage, WPARAM aWParam, LPARAM aLParam) { MOZ_ASSERT((aMessage == MOZ_WM_VSCROLL || aMessage == MOZ_WM_HSCROLL), "HandleScrollMessageAsMouseWheelMessage must be called with " "MOZ_WM_VSCROLL or MOZ_WM_HSCROLL"); mIsWaitingInternalMessage = false; ModifierKeyState modKeyState = GetModifierKeyState(aMessage); WidgetWheelEvent wheelEvent(true, eWheel, aWidget); double& delta = (aMessage == MOZ_WM_VSCROLL) ? wheelEvent.mDeltaY : wheelEvent.mDeltaX; int32_t& lineOrPageDelta = (aMessage == MOZ_WM_VSCROLL) ? wheelEvent.mLineOrPageDeltaY : wheelEvent.mLineOrPageDeltaX; delta = 1.0; lineOrPageDelta = 1; switch (LOWORD(aWParam)) { case SB_PAGEUP: delta = -1.0; lineOrPageDelta = -1; [[fallthrough]]; case SB_PAGEDOWN: wheelEvent.mDeltaMode = dom::WheelEvent_Binding::DOM_DELTA_PAGE; break; case SB_LINEUP: delta = -1.0; lineOrPageDelta = -1; [[fallthrough]]; case SB_LINEDOWN: wheelEvent.mDeltaMode = dom::WheelEvent_Binding::DOM_DELTA_LINE; break; default: return; } modKeyState.InitInputEvent(wheelEvent); // Current mouse position may not be same as when the original message // is received. However, this data is not available with the original // message, which is why nullptr is passed in. We need to know the actual // mouse cursor position when the original message was received. InitEvent(aWidget, wheelEvent, nullptr); MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScroll::HandleScrollMessageAsMouseWheelMessage: aWidget=%p, " "aMessage=MOZ_WM_%sSCROLL, aWParam=0x%08zX, aLParam=0x%08" PRIXLPTR ", " "wheelEvent { mRefPoint: { x: %d, y: %d }, mDeltaX: %f, mDeltaY: %f, " "mLineOrPageDeltaX: %d, mLineOrPageDeltaY: %d, " "isShift: %s, isControl: %s, isAlt: %s, isMeta: %s }", aWidget, (aMessage == MOZ_WM_VSCROLL) ? "V" : "H", aWParam, aLParam, wheelEvent.mRefPoint.x.value, wheelEvent.mRefPoint.y.value, wheelEvent.mDeltaX, wheelEvent.mDeltaY, wheelEvent.mLineOrPageDeltaX, wheelEvent.mLineOrPageDeltaY, GetBoolName(wheelEvent.IsShift()), GetBoolName(wheelEvent.IsControl()), GetBoolName(wheelEvent.IsAlt()), GetBoolName(wheelEvent.IsMeta()))); aWidget->DispatchWheelEvent(&wheelEvent); } /****************************************************************************** * * EventInfo * ******************************************************************************/ MouseScrollHandler::EventInfo::EventInfo(nsWindow* aWidget, UINT aMessage, WPARAM aWParam, LPARAM aLParam) { MOZ_ASSERT( aMessage == WM_MOUSEWHEEL || aMessage == WM_MOUSEHWHEEL, "EventInfo must be initialized with WM_MOUSEWHEEL or WM_MOUSEHWHEEL"); MouseScrollHandler::GetInstance()->mSystemSettings.Init(); mIsVertical = (aMessage == WM_MOUSEWHEEL); mIsPage = MouseScrollHandler::sInstance->mSystemSettings.IsPageScroll(mIsVertical); mDelta = (short)HIWORD(aWParam); mWnd = aWidget->GetWindowHandle(); mTimeStamp = TimeStamp::Now(); } bool MouseScrollHandler::EventInfo::CanDispatchWheelEvent() const { if (!GetScrollAmount()) { // XXX I think that we should dispatch mouse wheel events even if the // operation will not scroll because the wheel operation really happened // and web application may want to handle the event for non-scroll action. return false; } return (mDelta != 0); } int32_t MouseScrollHandler::EventInfo::GetScrollAmount() const { if (mIsPage) { return 1; } return MouseScrollHandler::sInstance->mSystemSettings.GetScrollAmount( mIsVertical); } /****************************************************************************** * * LastEventInfo * ******************************************************************************/ bool MouseScrollHandler::LastEventInfo::CanContinueTransaction( const EventInfo& aNewEvent) { int32_t timeout = MouseScrollHandler::sInstance->mUserPrefs .GetMouseScrollTransactionTimeout(); return !mWnd || (mWnd == aNewEvent.GetWindowHandle() && IsPositive() == aNewEvent.IsPositive() && mIsVertical == aNewEvent.IsVertical() && mIsPage == aNewEvent.IsPage() && (timeout < 0 || TimeStamp::Now() - mTimeStamp <= TimeDuration::FromMilliseconds(timeout))); } void MouseScrollHandler::LastEventInfo::ResetTransaction() { if (!mWnd) { return; } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::LastEventInfo::ResetTransaction()")); mWnd = nullptr; mAccumulatedDelta = 0; } void MouseScrollHandler::LastEventInfo::RecordEvent(const EventInfo& aEvent) { mWnd = aEvent.GetWindowHandle(); mDelta = aEvent.GetNativeDelta(); mIsVertical = aEvent.IsVertical(); mIsPage = aEvent.IsPage(); mTimeStamp = TimeStamp::Now(); } /* static */ int32_t MouseScrollHandler::LastEventInfo::RoundDelta(double aDelta) { return (aDelta >= 0) ? (int32_t)floor(aDelta) : (int32_t)ceil(aDelta); } bool MouseScrollHandler::LastEventInfo::InitWheelEvent( nsWindow* aWidget, WidgetWheelEvent& aWheelEvent, const ModifierKeyState& aModKeyState, LPARAM aLParam) { MOZ_ASSERT(aWheelEvent.mMessage == eWheel); if (StaticPrefs::mousewheel_ignore_cursor_position_in_lparam()) { InitEvent(aWidget, aWheelEvent, nullptr); } else { InitEvent(aWidget, aWheelEvent, &aLParam); } aModKeyState.InitInputEvent(aWheelEvent); // Our positive delta value means to bottom or right. // But positive native delta value means to top or right. // Use orienter for computing our delta value with native delta value. int32_t orienter = mIsVertical ? -1 : 1; aWheelEvent.mDeltaMode = mIsPage ? dom::WheelEvent_Binding::DOM_DELTA_PAGE : dom::WheelEvent_Binding::DOM_DELTA_LINE; double ticks = double(mDelta) * orienter / double(WHEEL_DELTA); if (mIsVertical) { aWheelEvent.mWheelTicksY = ticks; } else { aWheelEvent.mWheelTicksX = ticks; } double& delta = mIsVertical ? aWheelEvent.mDeltaY : aWheelEvent.mDeltaX; int32_t& lineOrPageDelta = mIsVertical ? aWheelEvent.mLineOrPageDeltaY : aWheelEvent.mLineOrPageDeltaX; double nativeDeltaPerUnit = mIsPage ? double(WHEEL_DELTA) : double(WHEEL_DELTA) / GetScrollAmount(); delta = double(mDelta) * orienter / nativeDeltaPerUnit; mAccumulatedDelta += mDelta; lineOrPageDelta = mAccumulatedDelta * orienter / RoundDelta(nativeDeltaPerUnit); mAccumulatedDelta -= lineOrPageDelta * orienter * RoundDelta(nativeDeltaPerUnit); if (aWheelEvent.mDeltaMode != dom::WheelEvent_Binding::DOM_DELTA_LINE) { // If the scroll delta mode isn't per line scroll, we shouldn't allow to // override the system scroll speed setting. aWheelEvent.mAllowToOverrideSystemScrollSpeed = false; } else if (!MouseScrollHandler::sInstance->mSystemSettings .IsOverridingSystemScrollSpeedAllowed()) { // If the system settings are customized by either the user or // the mouse utility, we shouldn't allow to override the system scroll // speed setting. aWheelEvent.mAllowToOverrideSystemScrollSpeed = false; } else { // For suppressing too fast scroll, we should ensure that the maximum // overridden delta value should be less than overridden scroll speed // with default scroll amount. double defaultScrollAmount = mIsVertical ? SystemSettings::DefaultScrollLines() : SystemSettings::DefaultScrollChars(); double maxDelta = WidgetWheelEvent::ComputeOverriddenDelta( defaultScrollAmount, mIsVertical); if (maxDelta != defaultScrollAmount) { double overriddenDelta = WidgetWheelEvent::ComputeOverriddenDelta(Abs(delta), mIsVertical); if (overriddenDelta > maxDelta) { // Suppress to fast scroll since overriding system scroll speed with // current delta value causes too big delta value. aWheelEvent.mAllowToOverrideSystemScrollSpeed = false; } } } MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScroll::LastEventInfo::InitWheelEvent: aWidget=%p, " "aWheelEvent { mRefPoint: { x: %d, y: %d }, mDeltaX: %f, mDeltaY: %f, " "mLineOrPageDeltaX: %d, mLineOrPageDeltaY: %d, " "isShift: %s, isControl: %s, isAlt: %s, isMeta: %s, " "mAllowToOverrideSystemScrollSpeed: %s }, " "mAccumulatedDelta: %d", aWidget, aWheelEvent.mRefPoint.x.value, aWheelEvent.mRefPoint.y.value, aWheelEvent.mDeltaX, aWheelEvent.mDeltaY, aWheelEvent.mLineOrPageDeltaX, aWheelEvent.mLineOrPageDeltaY, GetBoolName(aWheelEvent.IsShift()), GetBoolName(aWheelEvent.IsControl()), GetBoolName(aWheelEvent.IsAlt()), GetBoolName(aWheelEvent.IsMeta()), GetBoolName(aWheelEvent.mAllowToOverrideSystemScrollSpeed), mAccumulatedDelta)); return (delta != 0); } /****************************************************************************** * * SystemSettings * ******************************************************************************/ void MouseScrollHandler::SystemSettings::Init() { if (mInitialized) { return; } InitScrollLines(); InitScrollChars(); mInitialized = true; MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::SystemSettings::Init(): initialized, " "mScrollLines=%d, mScrollChars=%d", mScrollLines, mScrollChars)); } bool MouseScrollHandler::SystemSettings::InitScrollLines() { int32_t oldValue = mInitialized ? mScrollLines : 0; mIsReliableScrollLines = false; mScrollLines = MouseScrollHandler::sInstance->mUserPrefs .GetOverriddenVerticalScrollAmout(); if (mScrollLines >= 0) { // overridden by the pref. mIsReliableScrollLines = true; MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::SystemSettings::InitScrollLines(): mScrollLines is " "overridden by the pref: %d", mScrollLines)); } else if (!::SystemParametersInfo(SPI_GETWHEELSCROLLLINES, 0, &mScrollLines, 0)) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::SystemSettings::InitScrollLines(): " "::SystemParametersInfo(" "SPI_GETWHEELSCROLLLINES) failed")); mScrollLines = DefaultScrollLines(); } if (mScrollLines > WHEEL_DELTA) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::SystemSettings::InitScrollLines(): the result of " "::SystemParametersInfo(SPI_GETWHEELSCROLLLINES) is too large: %d", mScrollLines)); // sScrollLines usually equals 3 or 0 (for no scrolling) // However, if sScrollLines > WHEEL_DELTA, we assume that // the mouse driver wants a page scroll. The docs state that // sScrollLines should explicitly equal WHEEL_PAGESCROLL, but // since some mouse drivers use an arbitrary large number instead, // we have to handle that as well. mScrollLines = WHEEL_PAGESCROLL; } return oldValue != mScrollLines; } bool MouseScrollHandler::SystemSettings::InitScrollChars() { int32_t oldValue = mInitialized ? mScrollChars : 0; mIsReliableScrollChars = false; mScrollChars = MouseScrollHandler::sInstance->mUserPrefs .GetOverriddenHorizontalScrollAmout(); if (mScrollChars >= 0) { // overridden by the pref. mIsReliableScrollChars = true; MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::SystemSettings::InitScrollChars(): mScrollChars is " "overridden by the pref: %d", mScrollChars)); } else if (!::SystemParametersInfo(SPI_GETWHEELSCROLLCHARS, 0, &mScrollChars, 0)) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::SystemSettings::InitScrollChars(): " "::SystemParametersInfo(" "SPI_GETWHEELSCROLLCHARS) failed, this is unexpected on Vista or " "later")); // XXX Should we use DefaultScrollChars()? mScrollChars = 1; } if (mScrollChars > WHEEL_DELTA) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::SystemSettings::InitScrollChars(): the result of " "::SystemParametersInfo(SPI_GETWHEELSCROLLCHARS) is too large: %d", mScrollChars)); // See the comments for the case mScrollLines > WHEEL_DELTA. mScrollChars = WHEEL_PAGESCROLL; } return oldValue != mScrollChars; } void MouseScrollHandler::SystemSettings::MarkDirty() { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScrollHandler::SystemSettings::MarkDirty(): " "Marking SystemSettings dirty")); mInitialized = false; // When system settings are changed, we should reset current transaction. MOZ_ASSERT(sInstance, "Must not be called at initializing MouseScrollHandler"); MouseScrollHandler::sInstance->mLastEventInfo.ResetTransaction(); } void MouseScrollHandler::SystemSettings::RefreshCache() { bool isChanged = InitScrollLines(); isChanged = InitScrollChars() || isChanged; if (!isChanged) { return; } // If the scroll amount is changed, we should reset current transaction. MOZ_ASSERT(sInstance, "Must not be called at initializing MouseScrollHandler"); MouseScrollHandler::sInstance->mLastEventInfo.ResetTransaction(); } void MouseScrollHandler::SystemSettings::TrustedScrollSettingsDriver() { if (!mInitialized) { return; } // if the cache is initialized with prefs, we don't need to refresh it. if (mIsReliableScrollLines && mIsReliableScrollChars) { return; } MouseScrollHandler::UserPrefs& userPrefs = MouseScrollHandler::sInstance->mUserPrefs; // If system settings cache is disabled, we should always refresh them. if (!userPrefs.IsSystemSettingCacheEnabled()) { RefreshCache(); return; } // If pref is set to as "always trust the cache", we shouldn't refresh them // in any environments. if (userPrefs.IsSystemSettingCacheForciblyEnabled()) { return; } // If SynTP of Synaptics or Apoint of Alps is installed, it may hook // ::SystemParametersInfo() and returns different value from system settings. if (Device::SynTP::IsDriverInstalled() || Device::Apoint::IsDriverInstalled()) { RefreshCache(); return; } // XXX We're not sure about other touchpad drivers... } bool MouseScrollHandler::SystemSettings:: IsOverridingSystemScrollSpeedAllowed() { return mScrollLines == DefaultScrollLines() && mScrollChars == DefaultScrollChars(); } /****************************************************************************** * * UserPrefs * ******************************************************************************/ MouseScrollHandler::UserPrefs::UserPrefs() : mInitialized(false) { // We need to reset mouse wheel transaction when all of mousewheel related // prefs are changed. DebugOnly rv = Preferences::RegisterPrefixCallback(OnChange, "mousewheel.", this); MOZ_ASSERT(NS_SUCCEEDED(rv), "Failed to register callback for mousewheel."); } MouseScrollHandler::UserPrefs::~UserPrefs() { DebugOnly rv = Preferences::UnregisterPrefixCallback(OnChange, "mousewheel.", this); MOZ_ASSERT(NS_SUCCEEDED(rv), "Failed to unregister callback for mousewheel."); } void MouseScrollHandler::UserPrefs::Init() { if (mInitialized) { return; } mInitialized = true; mScrollMessageHandledAsWheelMessage = Preferences::GetBool("mousewheel.emulate_at_wm_scroll", false); mEnableSystemSettingCache = Preferences::GetBool("mousewheel.system_settings_cache.enabled", true); mForceEnableSystemSettingCache = Preferences::GetBool( "mousewheel.system_settings_cache.force_enabled", false); mEmulateToMakeWindowUnderCursorForeground = Preferences::GetBool( "mousewheel.debug.make_window_under_cursor_foreground", false); mOverriddenVerticalScrollAmount = Preferences::GetInt("mousewheel.windows.vertical_amount_override", -1); mOverriddenHorizontalScrollAmount = Preferences::GetInt("mousewheel.windows.horizontal_amount_override", -1); mMouseScrollTransactionTimeout = Preferences::GetInt( "mousewheel.windows.transaction.timeout", DEFAULT_TIMEOUT_DURATION); MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::UserPrefs::Init(): initialized, " "mScrollMessageHandledAsWheelMessage=%s, " "mEnableSystemSettingCache=%s, " "mForceEnableSystemSettingCache=%s, " "mEmulateToMakeWindowUnderCursorForeground=%s, " "mOverriddenVerticalScrollAmount=%d, " "mOverriddenHorizontalScrollAmount=%d, " "mMouseScrollTransactionTimeout=%d", GetBoolName(mScrollMessageHandledAsWheelMessage), GetBoolName(mEnableSystemSettingCache), GetBoolName(mForceEnableSystemSettingCache), GetBoolName(mEmulateToMakeWindowUnderCursorForeground), mOverriddenVerticalScrollAmount, mOverriddenHorizontalScrollAmount, mMouseScrollTransactionTimeout)); } void MouseScrollHandler::UserPrefs::MarkDirty() { MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScrollHandler::UserPrefs::MarkDirty(): Marking UserPrefs dirty")); mInitialized = false; // Some prefs might override system settings, so, we should mark them dirty. MouseScrollHandler::sInstance->mSystemSettings.MarkDirty(); // When user prefs for mousewheel are changed, we should reset current // transaction. MOZ_ASSERT(sInstance, "Must not be called at initializing MouseScrollHandler"); MouseScrollHandler::sInstance->mLastEventInfo.ResetTransaction(); } /****************************************************************************** * * Device * ******************************************************************************/ /* static */ bool MouseScrollHandler::Device::GetWorkaroundPref(const char* aPrefName, bool aValueIfAutomatic) { if (!aPrefName) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::GetWorkaroundPref(): Failed, aPrefName is " "NULL")); return aValueIfAutomatic; } int32_t lHackValue = 0; if (NS_FAILED(Preferences::GetInt(aPrefName, &lHackValue))) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::GetWorkaroundPref(): Preferences::GetInt() " "failed," " aPrefName=\"%s\", aValueIfAutomatic=%s", aPrefName, GetBoolName(aValueIfAutomatic))); return aValueIfAutomatic; } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::GetWorkaroundPref(): Succeeded, " "aPrefName=\"%s\", aValueIfAutomatic=%s, lHackValue=%d", aPrefName, GetBoolName(aValueIfAutomatic), lHackValue)); switch (lHackValue) { case 0: // disabled return false; case 1: // enabled return true; default: // -1: autodetect return aValueIfAutomatic; } } /* static */ void MouseScrollHandler::Device::Init() { // FYI: Thinkpad's TrackPoint is Apoint of Alps and UltraNav is SynTP of // Synaptics. So, those drivers' information should be initialized // before calling methods of TrackPoint and UltraNav. SynTP::Init(); Elantech::Init(); Apoint::Init(); sFakeScrollableWindowNeeded = GetWorkaroundPref( "ui.trackpoint_hack.enabled", (TrackPoint::IsDriverInstalled() || UltraNav::IsObsoleteDriverInstalled())); MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::Init(): sFakeScrollableWindowNeeded=%s", GetBoolName(sFakeScrollableWindowNeeded))); } /****************************************************************************** * * Device::SynTP * ******************************************************************************/ /* static */ void MouseScrollHandler::Device::SynTP::Init() { if (sInitialized) { return; } sInitialized = true; sMajorVersion = 0; sMinorVersion = -1; wchar_t buf[40]; bool foundKey = WinUtils::GetRegistryKey( HKEY_LOCAL_MACHINE, L"Software\\Synaptics\\SynTP\\Install", L"DriverVersion", buf, sizeof buf); if (!foundKey) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::SynTP::Init(): " "SynTP driver is not found")); return; } sMajorVersion = wcstol(buf, nullptr, 10); sMinorVersion = 0; wchar_t* p = wcschr(buf, L'.'); if (p) { sMinorVersion = wcstol(p + 1, nullptr, 10); } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::SynTP::Init(): " "found driver version = %d.%d", sMajorVersion, sMinorVersion)); } /****************************************************************************** * * Device::Elantech * ******************************************************************************/ /* static */ void MouseScrollHandler::Device::Elantech::Init() { int32_t version = GetDriverMajorVersion(); bool needsHack = Device::GetWorkaroundPref( "ui.elantech_gesture_hacks.enabled", version != 0); sUseSwipeHack = needsHack && version <= 7; sUsePinchHack = needsHack && version <= 8; MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::Elantech::Init(): version=%d, sUseSwipeHack=%s, " "sUsePinchHack=%s", version, GetBoolName(sUseSwipeHack), GetBoolName(sUsePinchHack))); } /* static */ int32_t MouseScrollHandler::Device::Elantech::GetDriverMajorVersion() { wchar_t buf[40]; // The driver version is found in one of these two registry keys. bool foundKey = WinUtils::GetRegistryKey(HKEY_CURRENT_USER, L"Software\\Elantech\\MainOption", L"DriverVersion", buf, sizeof buf); if (!foundKey) { foundKey = WinUtils::GetRegistryKey(HKEY_CURRENT_USER, L"Software\\Elantech", L"DriverVersion", buf, sizeof buf); } if (!foundKey) { return 0; } // Assume that the major version number can be found just after a space // or at the start of the string. for (wchar_t* p = buf; *p; p++) { if (*p >= L'0' && *p <= L'9' && (p == buf || *(p - 1) == L' ')) { return wcstol(p, nullptr, 10); } } return 0; } /* static */ bool MouseScrollHandler::Device::Elantech::IsHelperWindow(HWND aWnd) { // The helper window cannot be distinguished based on its window class, so we // need to check if it is owned by the helper process, ETDCtrl.exe. const wchar_t* filenameSuffix = L"\\etdctrl.exe"; const int filenameSuffixLength = 12; DWORD pid; ::GetWindowThreadProcessId(aWnd, &pid); HANDLE hProcess = ::OpenProcess(PROCESS_QUERY_INFORMATION, FALSE, pid); if (!hProcess) { return false; } bool result = false; wchar_t path[256] = {L'\0'}; if (::GetProcessImageFileNameW(hProcess, path, ArrayLength(path))) { int pathLength = lstrlenW(path); if (pathLength >= filenameSuffixLength) { if (lstrcmpiW(path + pathLength - filenameSuffixLength, filenameSuffix) == 0) { result = true; } } } ::CloseHandle(hProcess); return result; } /* static */ bool MouseScrollHandler::Device::Elantech::HandleKeyMessage(nsWindow* aWidget, UINT aMsg, WPARAM aWParam, LPARAM aLParam) { // The Elantech touchpad driver understands three-finger swipe left and // right gestures, and translates them into Page Up and Page Down key // events for most applications. For Firefox 3.6, it instead sends // Alt+Left and Alt+Right to trigger browser back/forward actions. As // with the Thinkpad Driver hack in nsWindow::Create, the change in // HWND structure makes Firefox not trigger the driver's heuristics // any longer. // // The Elantech driver actually sends these messages for a three-finger // swipe right: // // WM_KEYDOWN virtual_key = 0xCC or 0xFF ScanCode = 00 // WM_KEYDOWN virtual_key = VK_NEXT ScanCode = 00 // WM_KEYUP virtual_key = VK_NEXT ScanCode = 00 // WM_KEYUP virtual_key = 0xCC or 0xFF ScanCode = 00 // // Whether 0xCC or 0xFF is sent is suspected to depend on the driver // version. 7.0.4.12_14Jul09_WHQL, 7.0.5.10, and 7.0.6.0 generate 0xCC. // 7.0.4.3 from Asus on EeePC generates 0xFF. // // On some hardware, IS_VK_DOWN(0xFF) returns true even when Elantech // messages are not involved, meaning that alone is not enough to // distinguish the gesture from a regular Page Up or Page Down key press. // The ScanCode is therefore also tested to detect the gesture. // We then pretend that we should dispatch "Go Forward" command. Similarly // for VK_PRIOR and "Go Back" command. if (sUseSwipeHack && (aWParam == VK_NEXT || aWParam == VK_PRIOR) && WinUtils::GetScanCode(aLParam) == 0 && (IS_VK_DOWN(0xFF) || IS_VK_DOWN(0xCC))) { if (aMsg == WM_KEYDOWN) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::Elantech::HandleKeyMessage(): Dispatching " "%s command event", aWParam == VK_NEXT ? "Forward" : "Back")); WidgetCommandEvent appCommandEvent( true, (aWParam == VK_NEXT) ? nsGkAtoms::Forward : nsGkAtoms::Back, aWidget); // In this scenario, the coordinate of the event isn't supplied, so pass // nullptr as an argument to indicate using the coordinate from the last // available window message. InitEvent(aWidget, appCommandEvent, nullptr); aWidget->DispatchWindowEvent(appCommandEvent); } else { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::Elantech::HandleKeyMessage(): Consumed")); } return true; // consume the message (doesn't need to dispatch key events) } // Version 8 of the Elantech touchpad driver sends these messages for // zoom gestures: // // WM_KEYDOWN virtual_key = 0xCC time = 10 // WM_KEYDOWN virtual_key = VK_CONTROL time = 10 // WM_MOUSEWHEEL time = ::GetTickCount() // WM_KEYUP virtual_key = VK_CONTROL time = 10 // WM_KEYUP virtual_key = 0xCC time = 10 // // The result of this is that we process all of the WM_KEYDOWN/WM_KEYUP // messages first because their timestamps make them appear to have // been sent before the WM_MOUSEWHEEL message. To work around this, // we store the current time when we process the WM_KEYUP message and // assume that any WM_MOUSEWHEEL message with a timestamp before that // time is one that should be processed as if the Control key was down. if (sUsePinchHack && aMsg == WM_KEYUP && aWParam == VK_CONTROL && ::GetMessageTime() == 10) { // We look only at the bottom 31 bits of the system tick count since // GetMessageTime returns a LONG, which is signed, so we want values // that are more easily comparable. sZoomUntil = ::GetTickCount() & 0x7FFFFFFF; MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::Elantech::HandleKeyMessage(): sZoomUntil=%lu", sZoomUntil)); } return false; } /* static */ void MouseScrollHandler::Device::Elantech::UpdateZoomUntil() { if (!sZoomUntil) { return; } // For the Elantech Touchpad Zoom Gesture Hack, we should check that the // system time (32-bit milliseconds) hasn't wrapped around. Otherwise we // might get into the situation where wheel events for the next 50 days of // system uptime are assumed to be Ctrl+Wheel events. (It is unlikely that // we would get into that state, because the system would already need to be // up for 50 days and the Control key message would need to be processed just // before the system time overflow and the wheel message just after.) // // We also take the chance to reset sZoomUntil if we simply have passed that // time. LONG msgTime = ::GetMessageTime(); if ((sZoomUntil >= 0x3fffffffu && DWORD(msgTime) < 0x40000000u) || (sZoomUntil < DWORD(msgTime))) { sZoomUntil = 0; MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::Elantech::UpdateZoomUntil(): " "sZoomUntil was reset")); } } /* static */ bool MouseScrollHandler::Device::Elantech::IsZooming() { // Assume the Control key is down if the Elantech touchpad has sent the // mis-ordered WM_KEYDOWN/WM_MOUSEWHEEL messages. (See the comment in // OnKeyUp.) return (sZoomUntil && static_cast(::GetMessageTime()) < sZoomUntil); } /****************************************************************************** * * Device::Apoint * ******************************************************************************/ /* static */ void MouseScrollHandler::Device::Apoint::Init() { if (sInitialized) { return; } sInitialized = true; sMajorVersion = 0; sMinorVersion = -1; wchar_t buf[40]; bool foundKey = WinUtils::GetRegistryKey(HKEY_LOCAL_MACHINE, L"Software\\Alps\\Apoint", L"ProductVer", buf, sizeof buf); if (!foundKey) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::Apoint::Init(): " "Apoint driver is not found")); return; } sMajorVersion = wcstol(buf, nullptr, 10); sMinorVersion = 0; wchar_t* p = wcschr(buf, L'.'); if (p) { sMinorVersion = wcstol(p + 1, nullptr, 10); } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::Apoint::Init(): " "found driver version = %d.%d", sMajorVersion, sMinorVersion)); } /****************************************************************************** * * Device::TrackPoint * ******************************************************************************/ /* static */ bool MouseScrollHandler::Device::TrackPoint::IsDriverInstalled() { if (WinUtils::HasRegistryKey(HKEY_CURRENT_USER, L"Software\\Lenovo\\TrackPoint")) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::TrackPoint::IsDriverInstalled(): " "Lenovo's TrackPoint driver is found")); return true; } if (WinUtils::HasRegistryKey(HKEY_CURRENT_USER, L"Software\\Alps\\Apoint\\TrackPoint")) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::TrackPoint::IsDriverInstalled(): " "Alps's TrackPoint driver is found")); } return false; } /****************************************************************************** * * Device::UltraNav * ******************************************************************************/ /* static */ bool MouseScrollHandler::Device::UltraNav::IsObsoleteDriverInstalled() { if (WinUtils::HasRegistryKey(HKEY_CURRENT_USER, L"Software\\Lenovo\\UltraNav")) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::UltraNav::IsObsoleteDriverInstalled(): " "Lenovo's UltraNav driver is found")); return true; } bool installed = false; if (WinUtils::HasRegistryKey(HKEY_CURRENT_USER, L"Software\\Synaptics\\SynTPEnh\\UltraNavUSB")) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::UltraNav::IsObsoleteDriverInstalled(): " "Synaptics's UltraNav (USB) driver is found")); installed = true; } else if (WinUtils::HasRegistryKey( HKEY_CURRENT_USER, L"Software\\Synaptics\\SynTPEnh\\UltraNavPS2")) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::UltraNav::IsObsoleteDriverInstalled(): " "Synaptics's UltraNav (PS/2) driver is found")); installed = true; } if (!installed) { return false; } int32_t majorVersion = Device::SynTP::GetDriverMajorVersion(); if (!majorVersion) { MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::UltraNav::IsObsoleteDriverInstalled(): " "Failed to get UltraNav driver version")); return false; } int32_t minorVersion = Device::SynTP::GetDriverMinorVersion(); return majorVersion < 15 || (majorVersion == 15 && minorVersion == 0); } /****************************************************************************** * * Device::SetPoint * ******************************************************************************/ /* static */ bool MouseScrollHandler::Device::SetPoint::IsGetMessagePosResponseValid( UINT aMessage, WPARAM aWParam, LPARAM aLParam) { if (aMessage != WM_MOUSEHWHEEL) { return false; } POINTS pts = MouseScrollHandler::GetCurrentMessagePos(); LPARAM messagePos = MAKELPARAM(pts.x, pts.y); // XXX We should check whether SetPoint is installed or not by registry. // SetPoint, Logitech (Logicool) mouse driver, (confirmed with 4.82.11 and // MX-1100) always sets 0 to the lParam of WM_MOUSEHWHEEL. The driver SENDs // one message at first time, this time, ::GetMessagePos() works fine. // Then, we will return 0 (0 means we process it) to the message. Then, the // driver will POST the same messages continuously during the wheel tilted. // But ::GetMessagePos() API always returns (0, 0) for them, even if the // actual mouse cursor isn't 0,0. Therefore, we cannot trust the result of // ::GetMessagePos API if the sender is SetPoint. if (!sMightBeUsing && !aLParam && aLParam != messagePos && ::InSendMessage()) { sMightBeUsing = true; MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::SetPoint::IsGetMessagePosResponseValid(): " "Might using SetPoint")); } else if (sMightBeUsing && aLParam != 0 && ::InSendMessage()) { // The user has changed the mouse from Logitech's to another one (e.g., // the user has changed to the touchpad of the notebook. sMightBeUsing = false; MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScroll::Device::SetPoint::IsGetMessagePosResponseValid(): " "Might stop using SetPoint")); } return (sMightBeUsing && !aLParam && !messagePos); } /****************************************************************************** * * SynthesizingEvent * ******************************************************************************/ /* static */ bool MouseScrollHandler::SynthesizingEvent::IsSynthesizing() { return MouseScrollHandler::sInstance && MouseScrollHandler::sInstance->mSynthesizingEvent && MouseScrollHandler::sInstance->mSynthesizingEvent->mStatus != NOT_SYNTHESIZING; } nsresult MouseScrollHandler::SynthesizingEvent::Synthesize( const POINTS& aCursorPoint, HWND aWnd, UINT aMessage, WPARAM aWParam, LPARAM aLParam, const BYTE (&aKeyStates)[256]) { MOZ_LOG( gMouseScrollLog, LogLevel::Info, ("MouseScrollHandler::SynthesizingEvent::Synthesize(): aCursorPoint: { " "x: %d, y: %d }, aWnd=0x%p, aMessage=0x%04X, aWParam=0x%08zX, " "aLParam=0x%08" PRIXLPTR ", IsSynthesized()=%s, mStatus=%s", aCursorPoint.x, aCursorPoint.y, aWnd, aMessage, aWParam, aLParam, GetBoolName(IsSynthesizing()), GetStatusName())); if (IsSynthesizing()) { return NS_ERROR_NOT_AVAILABLE; } ::GetKeyboardState(mOriginalKeyState); // Note that we cannot use ::SetCursorPos() because it works asynchronously. // We should SEND the message for reducing the possibility of receiving // unexpected message which were not sent from here. mCursorPoint = aCursorPoint; mWnd = aWnd; mMessage = aMessage; mWParam = aWParam; mLParam = aLParam; memcpy(mKeyState, aKeyStates, sizeof(mKeyState)); ::SetKeyboardState(mKeyState); mStatus = SENDING_MESSAGE; // Don't assume that aWnd is always managed by nsWindow. It might be // a plugin window. ::SendMessage(aWnd, aMessage, aWParam, aLParam); return NS_OK; } void MouseScrollHandler::SynthesizingEvent::NativeMessageReceived( nsWindow* aWidget, UINT aMessage, WPARAM aWParam, LPARAM aLParam) { if (mStatus == SENDING_MESSAGE && mMessage == aMessage && mWParam == aWParam && mLParam == aLParam) { mStatus = NATIVE_MESSAGE_RECEIVED; if (aWidget && aWidget->GetWindowHandle() == mWnd) { return; } // Otherwise, the message may not be sent by us. } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScrollHandler::SynthesizingEvent::NativeMessageReceived(): " "aWidget=%p, aWidget->GetWindowHandle()=0x%p, mWnd=0x%p, " "aMessage=0x%04X, aWParam=0x%08zX, aLParam=0x%08" PRIXLPTR ", mStatus=%s", aWidget, aWidget ? aWidget->GetWindowHandle() : nullptr, mWnd, aMessage, aWParam, aLParam, GetStatusName())); // We failed to receive our sent message, we failed to do the job. Finish(); return; } void MouseScrollHandler::SynthesizingEvent:: NotifyNativeMessageHandlingFinished() { if (!IsSynthesizing()) { return; } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScrollHandler::SynthesizingEvent::" "NotifyNativeMessageHandlingFinished(): IsWaitingInternalMessage=%s", GetBoolName(MouseScrollHandler::IsWaitingInternalMessage()))); if (MouseScrollHandler::IsWaitingInternalMessage()) { mStatus = INTERNAL_MESSAGE_POSTED; return; } // If the native message handler didn't post our internal message, // we our job is finished. // TODO: When we post the message to plugin window, there is remaning job. Finish(); } void MouseScrollHandler::SynthesizingEvent:: NotifyInternalMessageHandlingFinished() { if (!IsSynthesizing()) { return; } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScrollHandler::SynthesizingEvent::" "NotifyInternalMessageHandlingFinished()")); Finish(); } void MouseScrollHandler::SynthesizingEvent::Finish() { if (!IsSynthesizing()) { return; } MOZ_LOG(gMouseScrollLog, LogLevel::Info, ("MouseScrollHandler::SynthesizingEvent::Finish()")); // Restore the original key state. ::SetKeyboardState(mOriginalKeyState); mStatus = NOT_SYNTHESIZING; } } // namespace widget } // namespace mozilla