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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* 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/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <com/sun/star/datatransfer/dnd/DNDConstants.hpp>
#include <com/sun/star/datatransfer/XTransferable.hpp>
#include <cppuhelper/supportsservice.hxx>
#include <o3tl/any.hxx>
#include <stdio.h>
#include "target.hxx"
#include "idroptarget.hxx"
#include "globals.hxx"
#include "targetdropcontext.hxx"
#include "targetdragcontext.hxx"
#include <rtl/ustring.h>
#include <osl/thread.h>
#include "../dtobj/DOTransferable.hxx"
using namespace cppu;
using namespace osl;
using namespace com::sun::star::datatransfer;
using namespace com::sun::star::datatransfer::dnd;
using namespace com::sun::star::datatransfer::dnd::DNDConstants;
#define WM_REGISTERDRAGDROP WM_USER + 1
#define WM_REVOKEDRAGDROP WM_USER + 2
DWORD WINAPI DndTargetOleSTAFunc(LPVOID pParams);
DropTarget::DropTarget( const Reference<XComponentContext>& rxContext):
WeakComponentImplHelper<XInitialization,XDropTarget, XServiceInfo>(m_mutex),
m_hWnd( nullptr),
m_threadIdWindow(0),
m_threadIdTarget(0),
m_hOleThread(nullptr),
m_oleThreadId( 0),
m_pDropTarget( nullptr),
m_xContext( rxContext ),
m_bActive(true),
m_nDefaultActions(ACTION_COPY|ACTION_MOVE|ACTION_LINK|ACTION_DEFAULT),
m_nCurrentDropAction( ACTION_NONE),
m_nLastDropAction(0),
m_bDropComplete(false)
{
}
DropTarget::~DropTarget()
{
}
// called from WeakComponentImplHelperX::dispose
// WeakComponentImplHelper calls disposing before it destroys
// itself.
// NOTE: RevokeDragDrop decrements the ref count on the IDropTarget
// interface. (m_pDropTarget)
// If the HWND is invalid then it doesn't decrement and
// the IDropTarget object will live on. MEMORY LEAK
void SAL_CALL DropTarget::disposing()
{
if( m_threadIdTarget)
{
// Call RevokeDragDrop and wait for the OLE thread to die;
PostThreadMessageW( m_threadIdTarget, WM_REVOKEDRAGDROP, reinterpret_cast<WPARAM>(this), 0);
WaitForSingleObject( m_hOleThread, INFINITE);
CloseHandle( m_hOleThread);
//OSL_ENSURE( SUCCEEDED( hr), "HWND not valid!" );
}
else
{
RevokeDragDrop( m_hWnd);
m_hWnd= nullptr;
}
if( m_pDropTarget)
{
CoLockObjectExternal( m_pDropTarget, FALSE, TRUE);
m_pDropTarget->Release();
m_pDropTarget = nullptr;
}
if( m_oleThreadId)
{
if( m_oleThreadId == CoGetCurrentProcess() )
OleUninitialize();
}
}
void SAL_CALL DropTarget::initialize( const Sequence< Any >& aArguments )
{
// The window must be registered for Dnd by RegisterDragDrop. We must ensure
// that RegisterDragDrop is called from an STA ( OleInitialize) thread.
// As long as the window is registered we need to receive OLE messages in
// an OLE thread. That is to say, if DropTarget::initialize was called from an
// MTA thread then we create an OLE thread in which the window is registered.
// The thread will stay alive until aver RevokeDragDrop has been called.
// Additionally even if RegisterDragDrop is called from an STA thread we have
// to ensure that it is called from the same thread that created the Window
// otherwise messages sent during DND won't reach the windows message queue.
// Calling AttachThreadInput first would resolve this problem but would block
// the message queue of the calling thread. So if the current thread
// (even if it's an STA thread) and the thread that created the window are not
// identical we need to create a new thread as we do when the calling thread is
// an MTA thread.
if( aArguments.getLength() > 0)
{
// Get the window handle from aArgument. It is needed for RegisterDragDrop.
m_hWnd= reinterpret_cast<HWND>(static_cast<sal_uIntPtr>(*o3tl::doAccess<sal_uInt64>(aArguments[0])));
OSL_ASSERT( IsWindow( m_hWnd) );
// Obtain the id of the thread that created the window
m_threadIdWindow= GetWindowThreadProcessId( m_hWnd, nullptr);
HRESULT hr= OleInitialize( nullptr);
// Current thread is MTA or Current thread and Window thread are not identical
if( hr == RPC_E_CHANGED_MODE || GetCurrentThreadId() != m_threadIdWindow )
{
OSL_ENSURE( ! m_threadIdTarget,"initialize was called twice");
// create the IDropTargetImplementation
m_pDropTarget= new IDropTargetImpl( *this );
m_pDropTarget->AddRef();
// Obtain the id of the thread that created the window
m_threadIdWindow= GetWindowThreadProcessId( m_hWnd, nullptr);
// The event is set by the thread that we will create momentarily.
// It indicates that the thread is ready to receive messages.
HANDLE m_evtThreadReady= CreateEventW( nullptr, FALSE, FALSE, nullptr);
m_hOleThread= CreateThread( nullptr, 0, DndTargetOleSTAFunc,
&m_evtThreadReady, 0, &m_threadIdTarget);
WaitForSingleObject( m_evtThreadReady, INFINITE);
CloseHandle( m_evtThreadReady);
PostThreadMessageW( m_threadIdTarget, WM_REGISTERDRAGDROP, reinterpret_cast<WPARAM>(this), 0);
}
else if( hr == S_OK || hr == S_FALSE)
{
// current thread is STA
// If OleInitialize has been called by the caller then we must not call
// OleUninitialize
if( hr == S_OK)
{
// caller did not call OleInitialize, so we call OleUninitialize
// remember the thread that will call OleUninitialize
m_oleThreadId= CoGetCurrentProcess(); // get a unique thread id
}
// Get the window handle from aArgument. It is needed for RegisterDragDrop.
// create the IDropTargetImplementation
m_pDropTarget= new IDropTargetImpl( *this );
m_pDropTarget->AddRef();
// CoLockObjectExternal is prescribed by the protocol. It bumps up the ref count
if( SUCCEEDED( CoLockObjectExternal( m_pDropTarget, TRUE, FALSE)))
{
if( FAILED( RegisterDragDrop( m_hWnd, m_pDropTarget) ) )
{
// do clean up if drag and drop is not possible
CoLockObjectExternal( m_pDropTarget, FALSE, FALSE);
m_pDropTarget->Release();
m_pDropTarget = nullptr;
m_hWnd= nullptr;
}
}
}
else
throw Exception("OleInitialize failed with " + OUString::number(hr), nullptr);
}
}
// This function is called as extra thread from DragSource::startDrag.
// The function carries out a drag and drop operation by calling
// DoDragDrop. The thread also notifies all XSourceListener.
DWORD WINAPI DndTargetOleSTAFunc(LPVOID pParams)
{
osl_setThreadName("DropTarget DndTargetOleSTAFunc");
HRESULT hr= OleInitialize( nullptr);
if( SUCCEEDED( hr) )
{
MSG msg;
// force the creation of a message queue
PeekMessageW( &msg, nullptr, 0, 0, PM_NOREMOVE);
// Signal the creator ( DropTarget::initialize) that the thread is
// ready to receive messages.
SetEvent( *static_cast<HANDLE*>(pParams));
// Thread id is needed for attaching this message queue to the one of the
// thread where the window was created.
DWORD threadId= GetCurrentThreadId();
// We force the creation of a thread message queue. This is necessary
// for a later call to AttachThreadInput
while( GetMessageW(&msg, nullptr, 0, 0) )
{
if( msg.message == WM_REGISTERDRAGDROP)
{
DropTarget *pTarget= reinterpret_cast<DropTarget*>(msg.wParam);
// This thread is attached to the thread that created the window. Hence
// this thread also receives all mouse and keyboard messages which are
// needed
AttachThreadInput( threadId , pTarget->m_threadIdWindow, TRUE );
if( SUCCEEDED( CoLockObjectExternal(pTarget-> m_pDropTarget, TRUE, FALSE)))
{
if( FAILED( RegisterDragDrop( pTarget-> m_hWnd, pTarget-> m_pDropTarget) ) )
{
// do clean up if drag and drop is not possible
CoLockObjectExternal( pTarget->m_pDropTarget, FALSE, FALSE);
pTarget->m_pDropTarget->Release();
pTarget->m_pDropTarget = nullptr;
pTarget->m_hWnd= nullptr;
}
}
}
else if( msg.message == WM_REVOKEDRAGDROP)
{
DropTarget *pTarget= reinterpret_cast<DropTarget*>(msg.wParam);
RevokeDragDrop( pTarget-> m_hWnd);
// Detach this thread from the window thread
AttachThreadInput( threadId, pTarget->m_threadIdWindow, FALSE);
pTarget->m_hWnd= nullptr;
break;
}
TranslateMessage( &msg);
DispatchMessageW( &msg);
}
OleUninitialize();
}
return 0;
}
// XServiceInfo
OUString SAL_CALL DropTarget::getImplementationName( )
{
return DNDTARGET_IMPL_NAME;
}
// XServiceInfo
sal_Bool SAL_CALL DropTarget::supportsService( const OUString& ServiceName )
{
return cppu::supportsService(this, ServiceName);
}
Sequence< OUString > SAL_CALL DropTarget::getSupportedServiceNames( )
{
return { DNDTARGET_SERVICE_NAME };
}
// XDropTarget
void SAL_CALL DropTarget::addDropTargetListener( const Reference< XDropTargetListener >& dtl )
{
rBHelper.addListener( cppu::UnoType<decltype(dtl)>::get(), dtl );
}
void SAL_CALL DropTarget::removeDropTargetListener( const Reference< XDropTargetListener >& dtl )
{
rBHelper.removeListener( cppu::UnoType<decltype(dtl)>::get(), dtl );
}
sal_Bool SAL_CALL DropTarget::isActive( )
{
return m_bActive; //m_bDropTargetRegistered;
}
void SAL_CALL DropTarget::setActive( sal_Bool _b )
{
MutexGuard g(m_mutex);
m_bActive= _b;
}
sal_Int8 SAL_CALL DropTarget::getDefaultActions( )
{
return m_nDefaultActions;
}
void SAL_CALL DropTarget::setDefaultActions( sal_Int8 actions )
{
OSL_ENSURE( actions < 8, "No valid default actions");
m_nDefaultActions= actions;
}
HRESULT DropTarget::DragEnter( IDataObject *pDataObj,
DWORD grfKeyState,
POINTL pt,
DWORD *pdwEffect)
{
#if defined DBG_CONSOLE_OUT
printf("\nDropTarget::DragEnter state: %x effect %d", grfKeyState, *pdwEffect);
#endif
if( m_bActive )
{
// Intersection of pdwEffect and the allowed actions ( setDefaultActions)
m_nCurrentDropAction= getFilteredActions( grfKeyState, *pdwEffect);
// m_nLastDropAction has to be set by a listener. If no listener calls
//XDropTargetDragContext::acceptDrag and specifies an action then pdwEffect
// will be DROPEFFECT_NONE throughout
m_nLastDropAction= ACTION_DEFAULT | ACTION_MOVE;
m_currentDragContext = new TargetDragContext(this);
//--> TRA
// shortcut
if ( g_XTransferable.is( ) )
m_currentData = g_XTransferable;
else
{
// Convert the IDataObject to a XTransferable
m_currentData= CDOTransferable::create(
m_xContext, IDataObjectPtr(pDataObj));
}
//<-- TRA
if( m_nCurrentDropAction != ACTION_NONE)
{
DropTargetDragEnterEvent e;
e.SupportedDataFlavors= m_currentData->getTransferDataFlavors();
e.DropAction= m_nCurrentDropAction;
e.Source.set( static_cast<XDropTarget*>(this),UNO_QUERY);
e.Context= m_currentDragContext;
POINT point={ pt.x, pt.y};
ScreenToClient( m_hWnd, &point);
e.LocationX= point.x;
e.LocationY= point.y;
e.SourceActions= dndOleDropEffectsToActions( *pdwEffect);
fire_dragEnter( e);
// Check if the action derived from grfKeyState (m_nCurrentDropAction) or the action set
// by the listener (m_nCurrentDropAction) is allowed by the source. Only an allowed action is set
// in pdwEffect. The listener notification is asynchron, that is we cannot expect that the listener
// has already reacted to the notification.
// If there is more than one valid action which is the case when ALT or RIGHT MOUSE BUTTON is pressed
// then getDropEffect returns DROPEFFECT_MOVE which is the default value if no other modifier is pressed.
// On drop the target should present the user a dialog from which the user may change the action.
sal_Int8 allowedActions= dndOleDropEffectsToActions( *pdwEffect);
*pdwEffect= dndActionsToSingleDropEffect( m_nLastDropAction & allowedActions);
}
else
{
*pdwEffect= DROPEFFECT_NONE;
}
}
return S_OK;
}
HRESULT DropTarget::DragOver( DWORD grfKeyState,
POINTL pt,
DWORD *pdwEffect)
{
if( m_bActive)
{
m_nCurrentDropAction= getFilteredActions( grfKeyState, *pdwEffect);
if( m_nCurrentDropAction)
{
DropTargetDragEvent e;
e.DropAction= m_nCurrentDropAction;
e.Source.set(static_cast<XDropTarget*>(this),UNO_QUERY);
e.Context= m_currentDragContext;
POINT point={ pt.x, pt.y};
ScreenToClient( m_hWnd, &point);
e.LocationX= point.x;
e.LocationY= point.y;
e.SourceActions= dndOleDropEffectsToActions( *pdwEffect);
// if grfKeyState has changed since the last DragOver then fire events.
// A listener might change m_nCurrentDropAction by calling the
// XDropTargetDragContext::acceptDrag function. But this is not important
// because in the afterwards fired dragOver event the action reflects
// grgKeyState again.
if( m_nLastDropAction != m_nCurrentDropAction)
fire_dropActionChanged( e);
// The Event contains a XDropTargetDragContext implementation.
fire_dragOver( e);
// Check if the action derived from grfKeyState (m_nCurrentDropAction) or the action set
// by the listener (m_nCurrentDropAction) is allowed by the source. Only an allowed action is set
// in pdwEffect. The listener notification is asynchron, that is we cannot expect that the listener
// has already reacted to the notification.
// If there is more than one valid action which is the case when ALT or RIGHT MOUSE BUTTON is pressed
// then getDropEffect returns DROPEFFECT_MOVE which is the default value if no other modifier is pressed.
// On drop the target should present the user a dialog from which the user may change the action.
sal_Int8 allowedActions= dndOleDropEffectsToActions( *pdwEffect);
// set the last action to the current if listener has not changed the value yet
*pdwEffect= dndActionsToSingleDropEffect( m_nLastDropAction & allowedActions);
}
else
{
*pdwEffect= DROPEFFECT_NONE;
}
}
#if defined DBG_CONSOLE_OUT
printf("\nDropTarget::DragOver %d", *pdwEffect );
#endif
return S_OK;
}
HRESULT DropTarget::DragLeave()
{
#if defined DBG_CONSOLE_OUT
printf("\nDropTarget::DragLeave");
#endif
if( m_bActive)
{
m_currentData=nullptr;
m_currentDragContext= nullptr;
m_currentDropContext= nullptr;
m_nLastDropAction= 0;
if( m_nDefaultActions != ACTION_NONE)
{
DropTargetEvent e;
e.Source= static_cast<XDropTarget*>(this);
fire_dragExit( e);
}
}
return S_OK;
}
HRESULT DropTarget::Drop( IDataObject * /*pDataObj*/,
DWORD grfKeyState,
POINTL pt,
DWORD *pdwEffect)
{
#if defined DBG_CONSOLE_OUT
printf("\nDropTarget::Drop");
#endif
if( m_bActive)
{
m_bDropComplete= false;
m_nCurrentDropAction= getFilteredActions( grfKeyState, *pdwEffect);
m_currentDropContext = new TargetDropContext(this);
if( m_nCurrentDropAction)
{
DropTargetDropEvent e;
e.DropAction= m_nCurrentDropAction;
e.Source.set( static_cast<XDropTarget*>(this), UNO_QUERY);
e.Context= m_currentDropContext;
POINT point={ pt.x, pt.y};
ScreenToClient( m_hWnd, &point);
e.LocationX= point.x;
e.LocationY= point.y;
e.SourceActions= dndOleDropEffectsToActions( *pdwEffect);
e.Transferable= m_currentData;
fire_drop( e);
//if fire_drop returns than a listener might have modified m_nCurrentDropAction
if( m_bDropComplete )
{
sal_Int8 allowedActions= dndOleDropEffectsToActions( *pdwEffect);
*pdwEffect= dndActionsToSingleDropEffect( m_nCurrentDropAction & allowedActions);
}
else
*pdwEffect= DROPEFFECT_NONE;
}
else
*pdwEffect= DROPEFFECT_NONE;
m_currentData= nullptr;
m_currentDragContext= nullptr;
m_currentDropContext= nullptr;
m_nLastDropAction= 0;
}
return S_OK;
}
void DropTarget::fire_drop( const DropTargetDropEvent& dte)
{
OInterfaceContainerHelper* pContainer= rBHelper.getContainer( cppu::UnoType<XDropTargetListener>::get());
if( pContainer)
{
OInterfaceIteratorHelper iter( *pContainer);
while( iter.hasMoreElements())
{
Reference<XDropTargetListener> listener( static_cast<XDropTargetListener*>( iter.next()));
listener->drop( dte);
}
}
}
void DropTarget::fire_dragEnter( const DropTargetDragEnterEvent& e )
{
OInterfaceContainerHelper* pContainer= rBHelper.getContainer( cppu::UnoType<XDropTargetListener>::get());
if( pContainer)
{
OInterfaceIteratorHelper iter( *pContainer);
while( iter.hasMoreElements())
{
Reference<XDropTargetListener> listener( static_cast<XDropTargetListener*>( iter.next()));
listener->dragEnter( e);
}
}
}
void DropTarget::fire_dragExit( const DropTargetEvent& dte )
{
OInterfaceContainerHelper* pContainer= rBHelper.getContainer( cppu::UnoType<XDropTargetListener>::get());
if( pContainer)
{
OInterfaceIteratorHelper iter( *pContainer);
while( iter.hasMoreElements())
{
Reference<XDropTargetListener> listener( static_cast<XDropTargetListener*>( iter.next()));
listener->dragExit( dte);
}
}
}
void DropTarget::fire_dragOver( const DropTargetDragEvent& dtde )
{
OInterfaceContainerHelper* pContainer= rBHelper.getContainer( cppu::UnoType<XDropTargetListener>::get());
if( pContainer)
{
OInterfaceIteratorHelper iter( *pContainer );
while( iter.hasMoreElements())
{
Reference<XDropTargetListener> listener( static_cast<XDropTargetListener*>( iter.next()));
listener->dragOver( dtde);
}
}
}
void DropTarget::fire_dropActionChanged( const DropTargetDragEvent& dtde )
{
OInterfaceContainerHelper* pContainer= rBHelper.getContainer( cppu::UnoType<XDropTargetListener>::get());
if( pContainer)
{
OInterfaceIteratorHelper iter( *pContainer);
while( iter.hasMoreElements())
{
Reference<XDropTargetListener> listener( static_cast<XDropTargetListener*>( iter.next()));
listener->dropActionChanged( dtde);
}
}
}
// Non - interface functions
// DropTarget fires events to XDropTargetListeners. The event object contains an
// XDropTargetDropContext implementation. When the listener calls on that interface
// then the calls are delegated from DropContext (XDropTargetDropContext) to these
// functions.
// Only one listener which visible area is affected is allowed to call on
// XDropTargetDropContext
// Returning sal_False would cause the XDropTargetDropContext or ..DragContext implementation
// to throw an InvalidDNDOperationException, meaning that a Drag is not currently performed.
// return sal_False results in throwing an InvalidDNDOperationException in the caller.
void DropTarget::_acceptDrop(sal_Int8 dropOperation, const Reference<XDropTargetDropContext>& context)
{
if( context == m_currentDropContext)
{
m_nCurrentDropAction= dropOperation;
}
}
void DropTarget::_rejectDrop( const Reference<XDropTargetDropContext>& context)
{
if( context == m_currentDropContext)
{
m_nCurrentDropAction= ACTION_NONE;
}
}
void DropTarget::_dropComplete(bool success, const Reference<XDropTargetDropContext>& context)
{
if(context == m_currentDropContext)
{
m_bDropComplete= success;
}
}
// DropTarget fires events to XDropTargetListeners. The event object can contains an
// XDropTargetDragContext implementation. When the listener calls on that interface
// then the calls are delegated from DragContext (XDropTargetDragContext) to these
// functions.
// Only one listener which visible area is affected is allowed to call on
// XDropTargetDragContext
void DropTarget::_acceptDrag( sal_Int8 dragOperation, const Reference<XDropTargetDragContext>& context)
{
if( context == m_currentDragContext)
{
m_nLastDropAction= dragOperation;
}
}
void DropTarget::_rejectDrag( const Reference<XDropTargetDragContext>& context)
{
if(context == m_currentDragContext)
{
m_nLastDropAction= ACTION_NONE;
}
}
// This function determines the action dependent on the pressed
// key modifiers ( CTRL, SHIFT, ALT, Right Mouse Button). The result
// is then checked against the allowed actions which can be set through
// XDropTarget::setDefaultActions. Only those values which are also
// default actions are returned. If setDefaultActions has not been called
// beforehand the default actions comprise all possible actions.
// params: grfKeyState - the modifier keys and mouse buttons currently pressed
inline sal_Int8 DropTarget::getFilteredActions( DWORD grfKeyState, DWORD dwEffect)
{
sal_Int8 actions= dndOleKeysToAction( grfKeyState, dndOleDropEffectsToActions( dwEffect));
return actions & m_nDefaultActions;
}
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