Source code of Windows XP (NT5)
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//+-------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1997.
//
// File: Invoke.cpp
//
// Contents: Handles invocation cases, ENS, Schedule, etc.
//
// Classes: CSynchronizeInvoke
//
// Notes:
//
// History: 05-Nov-97 rogerg Created.
//
//--------------------------------------------------------------------------
#include "precomp.h"
// Review - Need to figure out logon logic. This just prevents ConnectionMade
// events from being handled while we are in logon. If IsNetworkAlive becomse async
// or someone calls IsNetworkAlive before us we will sync the same items twice.
BOOL g_InAutoSync = FALSE;
extern OSVERSIONINFOA g_OSVersionInfo; // osVersionInfo, setup by WinMain.
extern HINSTANCE g_hInst; // current instance
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::CSynchronizeInvoke, public
//
// Synopsis: Constructor
// Increments the applications lifetime
//
// Arguments:
//
// Returns:
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
CSynchronizeInvoke::CSynchronizeInvoke()
{
m_cRef = 1;
m_pUnkOuter = &m_Unknown; // only support our unknown for know.
m_pITypeInfoLogon = NULL;
m_pITypeInfoNetwork = NULL;
m_Unknown.SetParent(this);
#ifdef _SENS
m_PrivSensNetwork.SetParent(this);
m_PrivSensLogon.SetParent(this);
#endif // _SENS
AddRefOneStopLifetime(TRUE /*External*/);
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::~CSynchronizeInvoke, public
//
// Synopsis: Destructor
// Decrements the applications lifetime
//
// Arguments:
//
// Returns:
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
CSynchronizeInvoke::~CSynchronizeInvoke()
{
if (m_pITypeInfoLogon)
{
m_pITypeInfoLogon->Release();
m_pITypeInfoLogon = NULL;
}
if (m_pITypeInfoNetwork)
{
m_pITypeInfoNetwork->Release();
m_pITypeInfoNetwork = NULL;
}
ReleaseOneStopLifetime(TRUE /*External*/);
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::QueryInterface, public
//
// Synopsis: Standard QueryInterface
//
// Arguments: [iid] - Interface ID
// [ppvObj] - Object return
//
// Returns: Appropriate status code
//
// Modifies: [ppvObj]
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::QueryInterface(REFIID riid, LPVOID FAR *ppv)
{
return m_pUnkOuter->QueryInterface(riid,ppv);
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::AddRef, public
//
// Synopsis: Add reference
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CSynchronizeInvoke::AddRef()
{
return m_pUnkOuter->AddRef();
}
//+---------------------------------------------------------------------------
//
// Member: CSychrononizeInvoke::Release, public
//
// Synopsis: Release reference
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CSynchronizeInvoke::Release()
{
return m_pUnkOuter->Release();
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::UpdateItems, public
//
// Synopsis: Handles a programmatic UpdateItems call.
//
// !!Warning - Liveness relies on a dialog being created
// before return or we could go away when the
// caler releases our interface.
//
// Arguments: [dwInvokeFlags] - InvokeFlags
// [rclsid] - clsid of handler to load
// [cbCookie] - Size of cookie data
// [lpCookie] - Ptr to cookie data.
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::UpdateItems(DWORD dwInvokeFlags,REFCLSID rclsid,
DWORD cbCookie,const BYTE*lpCookie)
{
HRESULT hr = E_OUTOFMEMORY;
CHndlrQueue * pHndlrQueue = NULL;
HANDLERINFO *pHandlerID;
JOBINFO *pJobInfo = NULL;
BOOL fReg;
DWORD dwRegistrationFlags;
int nCmdShow = (dwInvokeFlags & SYNCMGRINVOKE_MINIMIZED) ? SW_SHOWMINIMIZED : SW_SHOWNORMAL;
// when a new UpdateItems come through do the following
// 1 - If should display choices see if existing choice dialog or create a new one
// and then add the new items to the choice queue
// 2 - If shouldn't display choices see if existing progress or create a new one
// and then add the items to the progress queue.
// behavior - If already an Update All choice dialog just pull it to the Front
// If Already an UpdateAll progress bar bring it to the front
// If Progress Bar but doesn't already contain an updateAll create the choice dialog.
#if _ZAWTRACK
LogZawTrack(dwInvokeFlags); // Track any invokes.
#endif _ZAWTRACK
pHndlrQueue = new CHndlrQueue(QUEUETYPE_CHOICE,NULL); // we don't use stored preferences on invoke so doesn't matter what pass in as the connection
if (NULL == pHndlrQueue)
{
hr = E_OUTOFMEMORY;
return hr;
}
// attempt to initialize the queue
hr = pHndlrQueue->AddQueueJobInfo(
SYNCMGRFLAG_INVOKE | SYNCMGRFLAG_MAYBOTHERUSER,
0,NULL,NULL,FALSE,&pJobInfo);
fReg = RegGetHandlerRegistrationInfo(rclsid,&dwRegistrationFlags);
Assert(fReg || (0 == dwRegistrationFlags));
if ((NOERROR == hr) && NOERROR == pHndlrQueue->AddHandler(&pHandlerID,pJobInfo,dwRegistrationFlags))
{
hr = pHndlrQueue->CreateServer(pHandlerID,&rclsid);
if (NOERROR == hr)
{
hr = pHndlrQueue->Initialize(pHandlerID,0,SYNCMGRFLAG_INVOKE | SYNCMGRFLAG_MAYBOTHERUSER,
cbCookie,lpCookie);
}
}
// can release our reference on the job info
if (pJobInfo)
{
pHndlrQueue->ReleaseJobInfoExt(pJobInfo);
pJobInfo = NULL;
}
if (NOERROR == hr)
{
DWORD cbNumItemsAdded;
hr = pHndlrQueue->AddHandlerItemsToQueue(pHandlerID,&cbNumItemsAdded);
if (SYNCMGRINVOKE_STARTSYNC & dwInvokeFlags)
{
// if start invoke need to add the handlers items to the queue before
// transferring
if (NOERROR == hr && pHndlrQueue->AreAnyItemsSelectedInQueue())
{
CProgressDlg *pProgressDlg;
hr = FindProgressDialog(GUID_NULL,TRUE,nCmdShow,&pProgressDlg);
if (NOERROR == hr)
{
hr = pProgressDlg->TransferQueueData(pHndlrQueue);
ReleaseProgressDialog(GUID_NULL,pProgressDlg,FALSE);
}
}
pHndlrQueue->FreeAllHandlers(); // done with our queue.
pHndlrQueue->Release();
pHndlrQueue = NULL;
}
else
{
CChoiceDlg *pChoiceDlg;
// Bring up the Choice dialog, Let choice dialog actually addes the hanlder items
// if there are any so in the future we can async fill in the choices
hr = FindChoiceDialog(rclsid,TRUE,nCmdShow,&pChoiceDlg);
if (S_OK == hr)
{
if (FALSE == pChoiceDlg->SetQueueData(rclsid,pHndlrQueue) ) {
pHndlrQueue->FreeAllHandlers();
pHndlrQueue->Release();
pHndlrQueue = NULL;
hr = E_UNEXPECTED;
}
ReleaseChoiceDialog(rclsid,pChoiceDlg);
}
}
}
else
{
// if initialize failed and have a queue release it now.
if (pHndlrQueue)
{
pHndlrQueue->FreeAllHandlers();
pHndlrQueue->Release();
pHndlrQueue = NULL;
}
}
// if we successfully added a jobinfo to the queue release our reference.
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::UpdateAll, public
//
// Synopsis: Handles a programmatic UpdateAll call.
//
// Arguments:
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::UpdateAll(void)
{
SCODE sc = S_OK;
TCHAR pConnectName[RAS_MaxEntryName + 1];
TCHAR *pConnectionNameArray;
if (!LoadString(g_hInst, IDS_LAN_CONNECTION, pConnectName, ARRAY_SIZE(pConnectName)))
{
sc = GetLastError();
return sc;
}
pConnectionNameArray = pConnectName;
// Review - Do we Need proper connection or do we always just
// use the last items selected in a manual sync regardless
// of the current connection
return PrivUpdateAll(0,SYNCMGRFLAG_MANUAL | SYNCMGRFLAG_MAYBOTHERUSER,0,NULL,
1,&pConnectionNameArray,NULL,FALSE,NULL,0,0,FALSE);
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::Logon, public
//
// Synopsis: Handles a Logon notification
//
// Arguments:
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::Logon()
{
HRESULT hr = E_UNEXPECTED;
RegSetUserDefaults(); // Make Sure the UserDefaults are up to date
// if on Win9x just call IsNetworkAlive and rely on ConnectionMade
// events coming through. Can't just do this yet on NT 5.0 because
// not garanteed to get connectionMades on each logon.
if (VER_PLATFORM_WIN32_NT != g_OSVersionInfo.dwPlatformId)
{
LPNETAPI pNetApi;
DWORD dwFlags;
pNetApi = gSingleNetApiObj.GetNetApiObj();
if (pNetApi)
{
pNetApi->IsNetworkAlive(&dwFlags);
pNetApi->Release();
}
}
else
{
hr = PrivHandleAutoSync(SYNCMGRFLAG_CONNECT | SYNCMGRFLAG_MAYBOTHERUSER);
}
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::Logoff, public
//
// Synopsis: Handles a Logoff notification
//
// Arguments:
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::Logoff()
{
HRESULT hr = E_UNEXPECTED;
RegSetUserDefaults(); // Make Sure the UserDefaults are up to date
hr = PrivHandleAutoSync(SYNCMGRFLAG_PENDINGDISCONNECT | SYNCMGRFLAG_MAYBOTHERUSER);
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::Schedule, public
//
// Synopsis: Handles a shceduled notification
//
// Arguments:
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
const TCHAR c_szTrayWindow[] = TEXT("Shell_TrayWnd");
STDMETHODIMP CSynchronizeInvoke::Schedule(WCHAR *pszTaskName)
{
HRESULT hr = E_UNEXPECTED;
TCHAR szConnectionName[RAS_MaxEntryName + 1];
TCHAR *pszConnectionName = szConnectionName;
CONNECTIONSETTINGS ConnectionSettings;
if (!pszTaskName)
{
Assert(pszTaskName);
return E_INVALIDARG;
}
// on Win9x Task Scheduler is on a per Machine basis and can fire before
// a user has logged on or Cancels the logon dialog. Check for if
// really logged on by seeing if the Shell Tray Window is present.
if (VER_PLATFORM_WIN32_WINDOWS == g_OSVersionInfo.dwPlatformId)
{
if (NULL == FindWindow(c_szTrayWindow, NULL))
{
return E_UNEXPECTED;
}
}
// validate this is a valid schedule and if no registry data for
// it then delete the .job file.
// Get the UserName key from the TaskName itself since on NT schedules
// can fire if User provided as Password as a different user thant the
// current user.
int OffsetToUserName = lstrlen(WSZGUID_IDLESCHEDULE)
+ 1; // +1 for _ char between guid and user name.
WCHAR *pszDomainAndUser = pszTaskName + OffsetToUserName;
HKEY hkeySchedSync,hkeyDomainUser,hkeySchedName;
LONG lRegResult;
hkeySchedSync = hkeyDomainUser = hkeySchedName = NULL;
// open up keys ourselves so
lRegResult = RegOpenKeyEx (HKEY_LOCAL_MACHINE,SCHEDSYNC_REGKEY,0,KEY_READ, &hkeySchedSync);
if (ERROR_SUCCESS == lRegResult)
{
lRegResult = RegOpenKeyEx (hkeySchedSync,pszDomainAndUser,0,KEY_READ, &hkeyDomainUser);
}
if (ERROR_SUCCESS == lRegResult)
{
lRegResult = RegOpenKeyEx (hkeyDomainUser,pszTaskName,0,KEY_READ, &hkeySchedName);
}
// close up the keys
if (hkeySchedName) RegCloseKey(hkeySchedName);
if (hkeyDomainUser) RegCloseKey(hkeyDomainUser);
if (hkeySchedSync) RegCloseKey(hkeySchedSync);
// if any of the keys are bad then nix the TS file and return;
if ( ERROR_FILE_NOT_FOUND == lRegResult)
{
// TODO: Call function to delete this .job file when
// it is implemented for now just let it fire each time.
return E_UNEXPECTED;
}
// assert is just so it fires if a new Error code occurs
// so we make sure we handle it properly
Assert(ERROR_SUCCESS == lRegResult);
// Now see if on Win9x schedule applies to the current User and if not just
// bail.
if (VER_PLATFORM_WIN32_NT != g_OSVersionInfo.dwPlatformId)
{
TCHAR szDomainUserName[MAX_DOMANDANDMACHINENAMESIZE];
GetDefaultDomainAndUserName(szDomainUserName,TEXT("_"), MAX_DOMANDANDMACHINENAMESIZE);
// !!!using strnicmp just since it is not case sensitive. Can switch
// to add verify that the lstrcmpi funciton works but I don't want
// to risk this for IE ship (rogerg)
if (0 != strnicmp(szDomainUserName,pszDomainAndUser,lstrlen(szDomainUserName)) )
{
return NOERROR;
}
}
// check to see if this is really and idle and if so foward on to Idle
// method
WCHAR *pszSchedCookieIdle = WSZGUID_IDLESCHEDULE;
int comparelength = (sizeof(WSZGUID_IDLESCHEDULE)/sizeof(WCHAR)) -1; // don't compare null
// set the Idle flag instead
// Note: the strnicmp function is a method on this class not the runtime call.
if (0 == strnicmp(pszSchedCookieIdle,pszTaskName,comparelength))
{
return Idle();
}
// finally made it past verification if you can get a Connection
// you can run the schedule.
if (RegGetSchedConnectionName(pszTaskName,pszConnectionName,ARRAY_SIZE(szConnectionName)))
{
BOOL fCanMakeConnection = FALSE;
DWORD cbCookie = (lstrlen(pszTaskName) + 1)*(sizeof(WCHAR)/sizeof(BYTE));
// if this is a valid schedule then go ahead and read in the settings
// by default don't let the connection be made.
lstrcpy(ConnectionSettings.pszConnectionName,pszConnectionName);
if (RegGetSchedSyncSettings(&ConnectionSettings,pszTaskName))
{
fCanMakeConnection = ConnectionSettings.dwMakeConnection;
}
// if this schedule can't make the connectione then
// check to see if the conneciton is available and if
// it isn't bail here.
BOOL fConnectionAvailable = FALSE;
if (!fCanMakeConnection)
{
if (S_OK == ConnectObj_IsConnectionAvailable(pszConnectionName))
{
fConnectionAvailable = TRUE;
}
}
// add to the queue and let the main progress determine if
// can handle the schedule.
if (fCanMakeConnection || fConnectionAvailable)
{
// on a schedule we pass in the schedule name for the cookie data.
hr = PrivUpdateAll(SYNCMGRINVOKE_STARTSYNC | SYNCMGRINVOKE_MINIMIZED,SYNCMGRFLAG_SCHEDULED,
cbCookie,(BYTE *) pszTaskName,1,&pszConnectionName,pszTaskName,fCanMakeConnection,NULL,0,0,FALSE);
}
else
{
hr = S_FALSE;
}
}
else
{
AssertSz(0,"Schedule has no Connection");
}
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::Idle, public
//
// Synopsis: Handles an Idle Notifications
//
// Arguments:
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 20-Feb-98 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::Idle()
{
HRESULT hr = E_UNEXPECTED;
// request the idle Lock, If someone already has it then just return.
if (NOERROR == (hr = RequestIdleLock()))
{
hr = RunIdle();
// if an error occured setting things up or nothing to do
// then release our idle lock.
if (NOERROR != hr)
{
ReleaseIdleLock();
}
}
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::RunIdle, public
//
// Synopsis: Runs an Idle.
//
// Arguments:
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 20-Feb-98 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::RunIdle()
{
// for not just run the Idle as a Connect
return PrivHandleAutoSync(SYNCMGRFLAG_IDLE);
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::RasPendingDisconnect, private
//
// Synopsis: Handles a programmatic Ras Pending Disconnect calls.
//
//
// Arguments:
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::RasPendingDisconnect(DWORD cbConnectionName,
const BYTE *lpConnectionName)
{
HRESULT hr = E_OUTOFMEMORY;
CONNECTIONOBJ *pConnectionObj;
// Thread with class factory is FreeThreaded so can block the return
// until update is complete.
// find connection object for this item so know its liveness.
hr = ConnectObj_FindConnectionObj( (TCHAR*) lpConnectionName,TRUE,&pConnectionObj);
if (NOERROR == hr)
{
HANDLE hRasPendingEvent;
if (NOERROR == (hr = ConnectObj_GetConnectionObjCompletionEvent(pConnectionObj,&hRasPendingEvent)))
{
hr = PrivAutoSyncOnConnection(SYNCMGRFLAG_PENDINGDISCONNECT | SYNCMGRFLAG_MAYBOTHERUSER,
1,(TCHAR **) &lpConnectionName,hRasPendingEvent);
// if successfully invoked the connection then wait for the event
// object to get set,
if (NOERROR == hr && hRasPendingEvent)
{
WaitForSingleObject(hRasPendingEvent,INFINITE); // review if can determine a timeout
}
else
{
// !!!!on failure call close the Connection to make sure
// the object gets cleaned up in case the progress queue didn't get kicked off.
// If someone is currently using a connection they will be closed which is
// the same as if autosync wasn't selected and the User chose to
// close while a sync was in progress.
ConnectObj_CloseConnection(pConnectionObj);
}
// Release our hold on the Connection.
ConnectObj_ReleaseConnectionObj(pConnectionObj);
if (hRasPendingEvent)
{
CloseHandle(hRasPendingEvent);
}
}
}
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: QueryLoadHandlerOnEvent, private
//
// Synopsis: Determines if Handle needs to be loaded for the specified
// Event and Connection.
//
//
// Arguments: [pszClsid] - clsid of handler
// [dwSyncFlags] - SyncFlags to pass onto initialize
// [cbNumConnectionNames] - Number of ConnectionNames in array
// [ppConnectionNames] - array of connection names.
//
// Returns: TRUE - handler needs to be loaded
// FALSE - handler doesn't need to be loaded.
//
// Modifies:
//
// History: 24-Aug-98 rogerg Created.
//
//----------------------------------------------------------------------------
BOOL QueryLoadHandlerOnEvent(TCHAR *pszClsid,DWORD dwSyncFlags,DWORD dwRegistrationFlags,
DWORD cbNumConnectionNames,TCHAR **ppConnectionNames)
{
BOOL fLoadHandler = TRUE;
DWORD dwSyncEvent = dwSyncFlags & SYNCMGRFLAG_EVENTMASK;
// see if handler is registered for the event
// if it is then we always load it. If its not the User had to have checked an item
if (
( (dwSyncEvent == SYNCMGRFLAG_IDLE) && !(dwRegistrationFlags & SYNCMGRREGISTERFLAG_IDLE) )
|| ( (dwSyncEvent == SYNCMGRFLAG_CONNECT) && !(dwRegistrationFlags & SYNCMGRREGISTERFLAG_CONNECT) )
|| ( (dwSyncEvent == SYNCMGRFLAG_PENDINGDISCONNECT) && !(dwRegistrationFlags & SYNCMGRREGISTERFLAG_PENDINGDISCONNECT) )
)
{
DWORD cbCurConnectionName;
fLoadHandler = FALSE;
for (cbCurConnectionName = 0 ; cbCurConnectionName < cbNumConnectionNames;cbCurConnectionName++)
{
fLoadHandler |= RegQueryLoadHandlerOnEvent(pszClsid,dwSyncFlags,ppConnectionNames[cbCurConnectionName]);
}
}
return fLoadHandler;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::PrivUpdateAll, private
//
// Synopsis: Handles a programmatic UpdateAll call.
//
// !!Warning - Liveness relies on a dialog being created
// before return or we could go away when the
// caler releases our interface.
//
// Arguments: [dwInvokeFlags] - InvokeFlags
// [dwSyncFlags] - SyncFlags to pass onto initialize
// [pszConnectionName] - array of connection names.
// [pszScheduleName] - Name of schedule that was fired if a scheduled event.
//
// Returns: S_OK/NOERROR - If handled result
// S_FALSE - if nothing to do (such as no items selected on Idle).
// error codes - if errors occured
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::PrivUpdateAll(DWORD dwInvokeFlags,DWORD dwSyncFlags,
DWORD cbCookie,const BYTE *lpCooke,
DWORD cbNumConnectionNames,TCHAR **ppConnectionNames,
TCHAR *pszScheduleName,BOOL fCanMakeConnection,HANDLE hRasPendingDisconnect,
ULONG ulIdleRetryMinutes,ULONG ulDelayIdleShutDownTime,BOOL fRetryEnabled)
{
HRESULT hr = E_OUTOFMEMORY;
CHndlrQueue * pHndlrQueue = NULL;
CLSID clsidChoice = GUID_NULL;
CChoiceDlg *pChoiceDlg = NULL;
JOBINFO *pJobInfo = NULL;
int nCmdShow = (dwInvokeFlags & SYNCMGRINVOKE_MINIMIZED) ? SW_SHOWMINIMIZED : SW_SHOWNORMAL;
DWORD dwSyncEvent = (dwSyncFlags & SYNCMGRFLAG_EVENTMASK);
// On an UpdateAll
// 1 - see if there is an existing UpdateAll choice, If so bring to foreground
// 2 - Bring up update All choice dialog.
// behavior - If already an Update All choice dialog just pull it to the Front
// If Already an UpdateAll progress bar bring it to the front
// If Progress Bar but doesn't already contain an updateAll create the choice dialog.
#if _ZAWTRACK
LogZawTrack(dwSyncFlags); // Track any invokes.
#endif _ZAWTRACK
Assert(NULL != ppConnectionNames && cbNumConnectionNames >= 1);
Assert(NULL == pszScheduleName || (SYNCMGRFLAG_SCHEDULED == dwSyncEvent)
|| (SYNCMGRFLAG_IDLE == dwSyncEvent) ); // review, temporary for idle.
pHndlrQueue = new CHndlrQueue(QUEUETYPE_CHOICE,NULL);
if (NULL == pHndlrQueue)
return E_OUTOFMEMORY;
hr = pHndlrQueue->AddQueueJobInfo(dwSyncFlags,cbNumConnectionNames,
ppConnectionNames,pszScheduleName,fCanMakeConnection
,&pJobInfo);
// loop through the reg getting the handlers and trying to
// create them.
if (NOERROR == hr)
{
TCHAR lpName[256];
DWORD cbName = 256;
HKEY hkOneStop;
CLSID clsid;
HANDLERINFO *pHandlerID;
BOOL fItemsInQueue = FALSE;
hkOneStop = RegGetHandlerTopLevelKey(KEY_READ);
if (hkOneStop)
{
DWORD dwIndex = 0;
while ( ERROR_SUCCESS == RegEnumKey(hkOneStop,dwIndex,
lpName,cbName) )
{
if (NOERROR == CLSIDFromString(lpName,&clsid) )
{
BOOL fReg;
DWORD dwRegistrationFlags;
BOOL fLoadHandler = TRUE;
fReg = RegGetHandlerRegistrationInfo(clsid,&dwRegistrationFlags);
Assert(fReg || (0 == dwRegistrationFlags));
//For scheduled, see if there are any items on this handler,
if ((SYNCMGRINVOKE_STARTSYNC & dwInvokeFlags) &&
(SYNCMGRFLAG_SCHEDULED == dwSyncEvent))
{
fLoadHandler = RegSchedHandlerItemsChecked(lpName, ppConnectionNames[0],pszScheduleName);
}
else if (SYNCMGRINVOKE_STARTSYNC & dwInvokeFlags)
{
fLoadHandler = QueryLoadHandlerOnEvent(lpName,dwSyncFlags,dwRegistrationFlags,
cbNumConnectionNames,ppConnectionNames);
}
if (fLoadHandler)
{
if (NOERROR == pHndlrQueue->AddHandler(&pHandlerID,pJobInfo,dwRegistrationFlags))
{
pHndlrQueue->CreateServer(pHandlerID,&clsid);
}
}
}
dwIndex++;
}
RegCloseKey(hkOneStop);
}
// Initialize the items.
CLSID pHandlerClsid;
while (NOERROR == pHndlrQueue->FindFirstHandlerInState(HANDLERSTATE_INITIALIZE,GUID_NULL,&pHandlerID,&pHandlerClsid))
{
pHndlrQueue->Initialize(pHandlerID,0,dwSyncFlags,
cbCookie,lpCooke);
}
// can release jobinfo since handlers need to hold their own addref.
if (pJobInfo)
{
pHndlrQueue->ReleaseJobInfoExt(pJobInfo);
pJobInfo = NULL;
}
// if start invoke need to add the handlers items to the queue before
// transferring
while (NOERROR == pHndlrQueue->FindFirstHandlerInState(HANDLERSTATE_ADDHANDLERTEMS,GUID_NULL,&pHandlerID,&pHandlerClsid))
{
DWORD cbNumItemsAdded;
hr = pHndlrQueue->AddHandlerItemsToQueue(pHandlerID,&cbNumItemsAdded);
// if an item was added, then there are items in the queue
if (cbNumItemsAdded)
{
fItemsInQueue = TRUE;
}
}
//
// Move handlers that won't establish connections to end
// of handler list.
//
pHndlrQueue->SortHandlersByConnection();
if (SYNCMGRINVOKE_STARTSYNC & dwInvokeFlags)
{
CProgressDlg *pProgressDlg;
CLSID clsid_Progress = GUID_NULL;
// For Idle we want to use the idle progress dialog
// currently progress dialog relies on some globals so
// need to change that first before checking this in
if (SYNCMGRFLAG_IDLE == dwSyncEvent)
{
clsid_Progress = GUID_PROGRESSDLGIDLE;
}
// if not items are selected, just free the queue.
// Review - it would be better to always call Progress and progress
// itself not show until there are items to synchronize
if (pHndlrQueue->AreAnyItemsSelectedInQueue())
{
hr = FindProgressDialog(clsid_Progress,TRUE,nCmdShow,&pProgressDlg);
if (NOERROR == hr)
{
// for an Idle we now request the defaults for retryIdle
// and delay shutdown, and change the queue order
// based on the last item
if (SYNCMGRFLAG_IDLE == dwSyncEvent)
{
CLSID clsidLastHandler;
pProgressDlg->SetIdleParams(ulIdleRetryMinutes,
ulDelayIdleShutDownTime,fRetryEnabled);
if (NOERROR == GetLastIdleHandler(&clsidLastHandler))
{
pHndlrQueue->ScrambleIdleHandlers(clsidLastHandler);
}
}
hr = pProgressDlg->TransferQueueData(pHndlrQueue);
ReleaseProgressDialog(clsid_Progress,pProgressDlg,FALSE);
}
}
else
{
hr = S_FALSE; // return S_FALSE IF NOTHING TO DO.
}
pHndlrQueue->FreeAllHandlers(); // done with our queue.
pHndlrQueue->Release();
pHndlrQueue = NULL;
}
else
{
CChoiceDlg *pChoiceDlg;
BOOL fDontShowIfNoItems = (
(SYNCMGRFLAG_CONNECT == dwSyncEvent)
|| (SYNCMGRFLAG_PENDINGDISCONNECT == dwSyncEvent ) );
// if the choice has been requested by a logon/logoff event and
// there aren't any items in the queue for the User to choose then
// if you want to turn on the code to now display anything
// turn on this If statement. For now we always show the choice.
if (1 /* !fDontShowIfNoItems || fItemsInQueue */)
{
// Bring up the Choice dialog, Let choice dialog actually addes the hanlder items
// if there are any so in the future we can async fill in the choices
hr = FindChoiceDialog(clsidChoice,TRUE,nCmdShow,&pChoiceDlg);
if (S_OK == hr)
{
if (FALSE == pChoiceDlg->SetQueueData(clsidChoice,pHndlrQueue) )
{
hr = E_UNEXPECTED;
}
else
{
pHndlrQueue = NULL; // set queue to NULL since Choice dialog owns it now.
}
ReleaseChoiceDialog(clsidChoice,pChoiceDlg);
}
}
// release our queue if still have it otherwise choice owns it.
if (pHndlrQueue)
{
pHndlrQueue->FreeAllHandlers();
pHndlrQueue->Release();
}
}
}
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::PrivHandleAutoSync, private
//
// Synopsis: Handles an AutoSync Update. Figures out what connections
// if any are active and invoke an AutoSync on each one.
//
// Arguments: [dwSyncFlags] - SyncFlags to pass onto initialize
//
// Returns: S_OK - sync was started
// S_FALSE - nothing to do
// appropriate error codes.
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::PrivHandleAutoSync(DWORD dwSyncFlags)
{
HRESULT hr = E_UNEXPECTED;
DWORD dwFlags = 0;
BOOL fAlive = FALSE;
LPNETAPI pNetApi = NULL;
DWORD cbNumWanConnections = 0;
LPRASCONN pRasConn = NULL;
pNetApi = gSingleNetApiObj.GetNetApiObj();
if (NULL == pNetApi)
return S_FALSE;
g_InAutoSync = TRUE;
if (fAlive = pNetApi->IsNetworkAlive(&dwFlags))
{
TCHAR **pConnections; // array of connection names. End with NULL;
ULONG ulConnectionCount = 0;
if (NETWORK_ALIVE_LAN & dwFlags)
{
// We curently don't care about these error results.
// PrivAutoSyncOnConnection(dwSyncFlags,LANCONNECTIONNAME,NULL);
// Review what we want this to do.
ulConnectionCount += 1;
}
// loop through Ras Connections.
if ( NETWORK_ALIVE_WAN & dwFlags)
{
if (NOERROR == pNetApi->GetWanConnections(&cbNumWanConnections,&pRasConn)
&& (NULL != pRasConn) )
{
ulConnectionCount += cbNumWanConnections;
}
else
{
cbNumWanConnections = 0;
pRasConn = NULL;
}
}
// allocate array buffer for connections + 1 more for NULL
if (ulConnectionCount
&& (pConnections = (TCHAR **) ALLOC(sizeof(TCHAR *)*(ulConnectionCount + 1))))
{
TCHAR **pCurConnection = pConnections;
TCHAR *pLanConnection = NULL;
// initialize the array.
if (NETWORK_ALIVE_LAN & dwFlags)
{
pLanConnection = (TCHAR *) ALLOC(sizeof(TCHAR )*(MAX_PATH + 1));
if (pLanConnection)
{
if (LoadString(g_hInst, IDS_LAN_CONNECTION, pLanConnection, MAX_PATH))
{
*pCurConnection = pLanConnection;
++pCurConnection;
}
}
}
while (cbNumWanConnections)
{
cbNumWanConnections--;
*pCurConnection = pRasConn[cbNumWanConnections].szEntryName;
++pCurConnection;
}
*pCurConnection = NULL; // set the last connection to NULL;
// now autosync these puppies
hr = PrivAutoSyncOnConnection(dwSyncFlags,ulConnectionCount,pConnections,NULL);
if (pLanConnection)
{
FREE(pLanConnection);
}
if (pRasConn)
{
pNetApi->FreeWanConnections(pRasConn);
}
if (pConnections)
{
FREE(pConnections);
}
}
}
g_InAutoSync = FALSE;
if ( pNetApi != NULL )
pNetApi->Release();
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::PrivAutoSyncOnConnection, private
//
// Synopsis: Handles an AutoSync Update. Given the SyncFlags and Connection
// determines if anything should be done on this connection
// and if so invokes it.
//
// Arguments: [dwSyncFlags] - SyncFlags to pass onto initialize
// [ppConnectionNames] - array of connectnames that apply to this request
//
// Returns: Appropriate error codes
//
// Modifies:
//
// History: 08-Dec-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::PrivAutoSyncOnConnection(DWORD dwSyncFlags,DWORD cbNumConnectionNames,
TCHAR **ppConnectionNames,HANDLE hRasPendingEvent)
{
CONNECTIONSETTINGS ConnectSettings;
DWORD dwSyncEvent;
TCHAR **ppWorkerConnectionNames = NULL;
DWORD cbNumWorkerConnections = 0;
DWORD cbIndexCheck;
DWORD dwPromptMeFirst = 0;
ULONG ulIdleRetryMinutes;
ULONG ulDelayIdleShutDownTime;
BOOL fRetryEnabled = FALSE;
HRESULT hr = S_FALSE;
// assert there is at least one connection in the request
Assert(NULL != ppConnectionNames && cbNumConnectionNames >= 1);
if (NULL == ppConnectionNames || 0 == cbNumConnectionNames )
return S_FALSE;
if (NULL ==
(ppWorkerConnectionNames = (TCHAR **) ALLOC(sizeof(TCHAR**) * cbNumConnectionNames)))
{
return E_OUTOFMEMORY;
}
dwSyncEvent = (dwSyncFlags & SYNCMGRFLAG_EVENTMASK);
// loop through all the connections and move any of the ones that
// are valid into our ppWorkerConnections name array.
TCHAR **ppCurWorkerConnectionNamesIndex = ppWorkerConnectionNames;
TCHAR **ppConnectionsNameIndex = ppConnectionNames;
for (cbIndexCheck = 0; cbIndexCheck < cbNumConnectionNames; cbIndexCheck++)
{
lstrcpy(ConnectSettings.pszConnectionName,*ppConnectionsNameIndex);
// See if should do anything on this connection.
if (RegGetSyncSettings(SYNCMGRFLAG_IDLE == dwSyncEvent
? SYNCTYPE_IDLE : SYNCTYPE_AUTOSYNC,&ConnectSettings))
{
if ( (((SYNCMGRFLAG_CONNECT == dwSyncEvent) && ConnectSettings.dwLogon))
||(((SYNCMGRFLAG_PENDINGDISCONNECT == dwSyncEvent) && ConnectSettings.dwLogoff))
||(((SYNCMGRFLAG_IDLE == dwSyncEvent) && ConnectSettings.dwIdleEnabled))
)
{
*ppCurWorkerConnectionNamesIndex = *ppConnectionsNameIndex;
++ppCurWorkerConnectionNamesIndex;
++cbNumWorkerConnections;
// update the variables for connection, for autosync if dwPromptMeFirst
// is set on any match connection
switch (dwSyncEvent)
{
case SYNCMGRFLAG_IDLE:
// minimum retry idle values win.
if (1 == cbNumWorkerConnections ||
ConnectSettings.ulIdleRetryMinutes < ulIdleRetryMinutes)
{
ulIdleRetryMinutes = ConnectSettings.ulIdleRetryMinutes;
}
// maximum wait for shutdown wins.
if (1 == cbNumWorkerConnections ||
ConnectSettings.ulDelayIdleShutDownTime > ulDelayIdleShutDownTime)
{
ulDelayIdleShutDownTime = ConnectSettings.ulDelayIdleShutDownTime;
}
// if any connection has retry after xxx minutes set to bool then retry
if (ConnectSettings.dwRepeatSynchronization)
{
fRetryEnabled = TRUE;
}
break;
case SYNCMGRFLAG_PENDINGDISCONNECT:
case SYNCMGRFLAG_CONNECT:
// if any connection is set to prompt then prompt.
if (ConnectSettings.dwPromptMeFirst)
{
dwPromptMeFirst = ConnectSettings.dwPromptMeFirst;
}
break;
}
}
}
++ppConnectionsNameIndex;
}
// if we found any connections to actually do work on start the sync off.
if (cbNumWorkerConnections > 0)
{
DWORD dwInvokeFlag = 0;
switch (dwSyncEvent)
{
case SYNCMGRFLAG_IDLE:
dwInvokeFlag |= SYNCMGRINVOKE_MINIMIZED | SYNCMGRINVOKE_STARTSYNC;
break;
case SYNCMGRFLAG_PENDINGDISCONNECT:
case SYNCMGRFLAG_CONNECT:
if (!dwPromptMeFirst)
{
dwInvokeFlag |= SYNCMGRINVOKE_STARTSYNC;
}
break;
default:
AssertSz(0,"Unknown SyncEvent");
break;
}
// perform the Update
hr = PrivUpdateAll(dwInvokeFlag,dwSyncFlags,0,NULL,
cbNumWorkerConnections,
ppWorkerConnectionNames,NULL,FALSE,hRasPendingEvent,
ulIdleRetryMinutes,
ulDelayIdleShutDownTime,fRetryEnabled);
}
if (ppWorkerConnectionNames)
{
FREE(ppWorkerConnectionNames);
}
return hr;
}
// default Unknown implementation
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::CPrivUnknown::QueryInterface, public
//
// Synopsis: Standard QueryInterface
//
// Arguments: [iid] - Interface ID
// [ppvObj] - Object return
//
// Returns: Appropriate status code
//
// Modifies: [ppvObj]
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::CPrivUnknown::QueryInterface(REFIID riid, LPVOID FAR *ppv)
{
*ppv = NULL;
if (IsEqualIID(riid, IID_IUnknown))
{
*ppv = this;
}
else if (IsEqualIID(riid, IID_IPrivSyncMgrSynchronizeInvoke))
{
*ppv = (IPrivSyncMgrSynchronizeInvoke *) m_pSynchInvoke;
}
#ifdef _SENS
else if (IsEqualIID(riid, IID_ISensNetwork))
{
*ppv = (ISensNetwork *) &(m_pSynchInvoke->m_PrivSensNetwork);
}
else if (IsEqualIID(riid, IID_ISensLogon))
{
*ppv = (ISensLogon *) &(m_pSynchInvoke->m_PrivSensLogon);
}
// in final this shouldn't return anything until LCE change, change
// depending on which interface we want to test.
else if (IsEqualIID(riid, IID_IDispatch))
{
*ppv = &(m_pSynchInvoke->m_PrivSensLogon);
}
#endif // _SENS
if (*ppv)
{
m_pSynchInvoke->m_pUnkOuter->AddRef();
return NOERROR;
}
return E_NOINTERFACE;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::CPrivUnknown::AddRef, public
//
// Synopsis: Add reference
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CSynchronizeInvoke::CPrivUnknown::AddRef()
{
ULONG cRefs;
cRefs = InterlockedIncrement((LONG *)& m_pSynchInvoke->m_cRef);
return cRefs;
}
//+---------------------------------------------------------------------------
//
// Member: CSychrononizeInvoke::CPrivUnknown::Release, public
//
// Synopsis: Release reference
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CSynchronizeInvoke::CPrivUnknown::Release()
{
ULONG cRefs;
cRefs = InterlockedDecrement( (LONG *) &m_pSynchInvoke->m_cRef);
if (0 == cRefs)
{
delete m_pSynchInvoke;
}
return cRefs;
}
#ifdef _SENS
// SENS Network connect Interfaces
STDMETHODIMP CSynchronizeInvoke::CPrivSensNetwork::QueryInterface(REFIID riid, LPVOID FAR *ppv)
{
return m_pSynchInvoke->m_pUnkOuter->QueryInterface(riid,ppv);
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::AddRef, public
//
// Synopsis: Add reference
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CSynchronizeInvoke::CPrivSensNetwork::AddRef()
{
return m_pSynchInvoke->m_pUnkOuter->AddRef();
}
//+---------------------------------------------------------------------------
//
// Member: CSychrononizeInvoke::Release, public
//
// Synopsis: Release reference
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CSynchronizeInvoke::CPrivSensNetwork::Release()
{
return m_pSynchInvoke->m_pUnkOuter->Release();
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::GetTypeInfoCount(
UINT *pCountITypeInfo
)
{
*pCountITypeInfo = 1;
return NOERROR;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::GetTypeInfo(
UINT iTypeInfo,
LCID lcid,
ITypeInfo **ppITypeInfo
)
{
HRESULT hr;
if (iTypeInfo != 0)
{
return DISP_E_BADINDEX;
}
if (NOERROR == (hr = m_pSynchInvoke->GetNetworkTypeInfo()))
{
// if got a typelib addref it and hand it out.
m_pSynchInvoke->m_pITypeInfoNetwork->AddRef();
*ppITypeInfo = m_pSynchInvoke->m_pITypeInfoNetwork;
}
return hr;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::GetIDsOfNames(
REFIID riid,
LPOLESTR *arrNames,
UINT cNames,
LCID lcid,
DISPID *arrDispIDs)
{
HRESULT hr;
if (NOERROR == (hr = m_pSynchInvoke->GetNetworkTypeInfo()))
{
hr = m_pSynchInvoke->m_pITypeInfoNetwork->GetIDsOfNames(
arrNames,
cNames,
arrDispIDs
);
}
return hr;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::Invoke(
DISPID dispID,
REFIID riid,
LCID lcid,
WORD wFlags,
DISPPARAMS *pDispParams,
VARIANT *pvarResult,
EXCEPINFO *pExecpInfo,
UINT *puArgErr
)
{
HRESULT hr;
if (NOERROR == (hr = m_pSynchInvoke->GetNetworkTypeInfo()))
{
hr = m_pSynchInvoke->m_pITypeInfoNetwork->Invoke(
(IDispatch*) this,
dispID,
wFlags,
pDispParams,
pvarResult,
pExecpInfo,
puArgErr);
}
return hr;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::ConnectionMade(
BSTR bstrConnection,
ULONG ulType,
LPSENS_QOCINFO pQOCInfo
)
{
HRESULT hr = E_UNEXPECTED;
TCHAR pszConnectionName[RAS_MaxEntryName + 1];
TCHAR *pConnectionNameArray;
#ifndef _UNICODE
BOOL fUsedDefaultChar;
#endif // _UNICODE
if (g_InAutoSync) // Review logic, for now if in logon just return.
{
return NOERROR;
}
RegSetUserDefaults(); // Make Sure the UserDefaults are up to date
// if Lan connection use our hardcoded value, else use the
// connection name given to use.
if (ulType & NETWORK_ALIVE_LAN)
{
LoadString(g_hInst, IDS_LAN_CONNECTION, pszConnectionName,ARRAY_SIZE(pszConnectionName));
}
else
{
#ifdef _UNICODE
lstrcpy(pszConnectionName , bstrConnection);
#else
WideCharToMultiByte(CP_ACP ,0,bstrConnection,-1,
pszConnectionName,ARRAY_SIZE(pszConnectionName),NULL,&fUsedDefaultChar);
#endif // _UNICODE
}
pConnectionNameArray = pszConnectionName;
if (pszConnectionName)
{
hr = m_pSynchInvoke->PrivAutoSyncOnConnection(SYNCMGRFLAG_CONNECT | SYNCMGRFLAG_MAYBOTHERUSER,1,
&pConnectionNameArray,
NULL);
}
return hr;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::ConnectionMadeNoQOCInfo(
BSTR bstrConnection,
ULONG ulType
)
{
TCHAR *pszConnectionName;
#ifndef _UNICODE
TCHAR szwConnection[RAS_MaxEntryName + 1];
BOOL fUsedDefaultChar;
#endif // _UNICODE
AssertSz(0,"ConnectionMadeNoQOCInfo called");
#ifdef _UNICODE
pszConnectionName = bstrConnection;
#else
WideCharToMultiByte(CP_ACP ,0,bstrConnection,-1,
szwConnection,ARRAY_SIZE(szwConnection),NULL,&fUsedDefaultChar);
pszConnectionName = szwConnection;
#endif // _UNICODE
// m_pSynchInvoke->PrivAutoSyncOnConnection(SYNCMGRFLAG_CONNECT,pszConnectionName,
// NULL);
return NOERROR;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::ConnectionLost(
BSTR bstrConnection,
ULONG ulType
)
{
return NOERROR;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::BeforeDisconnect(
BSTR bstrConnection,
ULONG ulType
)
{
return NOERROR;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::DestinationReachable(
BSTR bstrDestination,
BSTR bstrConnection,
ULONG ulType,
LPSENS_QOCINFO pQOCInfo
)
{
return NOERROR;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensNetwork::DestinationReachableNoQOCInfo(
BSTR bstrDestination,
BSTR bstrConnection,
ULONG ulType
)
{
return NOERROR;
}
// ISensLogon/Logoff Events
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::QueryInterface(REFIID riid, LPVOID FAR *ppv)
{
return m_pSynchInvoke->m_pUnkOuter->QueryInterface(riid,ppv);
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::AddRef, public
//
// Synopsis: Add reference
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CSynchronizeInvoke::CPrivSensLogon::AddRef()
{
return m_pSynchInvoke->m_pUnkOuter->AddRef();
}
//+---------------------------------------------------------------------------
//
// Member: CSychrononizeInvoke::Release, public
//
// Synopsis: Release reference
//
// History: 05-Nov-97 rogerg Created.
//
//----------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CSynchronizeInvoke::CPrivSensLogon::Release()
{
return m_pSynchInvoke->m_pUnkOuter->Release();
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensLogon::GetTypeInfoCount(
UINT *pCountITypeInfo
)
{
*pCountITypeInfo = 1;
return NOERROR;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensLogon::GetTypeInfo(
UINT iTypeInfo,
LCID lcid,
ITypeInfo **ppITypeInfo
)
{
HRESULT hr;
if (iTypeInfo != 0)
{
return DISP_E_BADINDEX;
}
if (NOERROR == (hr = m_pSynchInvoke->GetLogonTypeInfo()))
{
// if got a typelib addref it and hand it out.
m_pSynchInvoke->m_pITypeInfoLogon->AddRef();
*ppITypeInfo = m_pSynchInvoke->m_pITypeInfoLogon;
}
return hr;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensLogon::GetIDsOfNames(
REFIID riid,
LPOLESTR *arrNames,
UINT cNames,
LCID lcid,
DISPID *arrDispIDs)
{
HRESULT hr;
if (NOERROR == (hr = m_pSynchInvoke->GetLogonTypeInfo()))
{
hr = m_pSynchInvoke->m_pITypeInfoLogon->GetIDsOfNames(
arrNames,
cNames,
arrDispIDs
);
}
return hr;
}
STDMETHODIMP
CSynchronizeInvoke::CPrivSensLogon::Invoke(
DISPID dispID,
REFIID riid,
LCID lcid,
WORD wFlags,
DISPPARAMS *pDispParams,
VARIANT *pvarResult,
EXCEPINFO *pExecpInfo,
UINT *puArgErr
)
{
HRESULT hr;
if (NOERROR == (hr = m_pSynchInvoke->GetLogonTypeInfo()))
{
hr = m_pSynchInvoke->m_pITypeInfoLogon->Invoke(
(IDispatch*) this,
dispID,
wFlags,
pDispParams,
pvarResult,
pExecpInfo,
puArgErr);
}
return hr;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::Logon(BSTR bstrUserName)
{
m_pSynchInvoke->Logon();
return NOERROR;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::Logoff(BSTR bstrUserName)
{
m_pSynchInvoke->Logoff();
return NOERROR;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::Startup(BSTR bstrUserName)
{
return NOERROR;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::StartShell(BSTR bstrUserName)
{
return NOERROR;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::Shutdown(BSTR bstrUserName)
{
return NOERROR;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::DisplayLock(BSTR bstrUserName)
{
return NOERROR;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::DisplayUnlock(BSTR bstrUserName)
{
return NOERROR;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::StartScreenSaver(BSTR bstrUserName)
{
return NOERROR;
}
STDMETHODIMP CSynchronizeInvoke::CPrivSensLogon::StopScreenSaver(BSTR bstrUserName)
{
return NOERROR;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::GetLogonTypeInfo, private
//
// Synopsis: Loads the TypeInfo object for the Sens
// Logon Information.
//
// Arguments:
//
// Returns: NOERROR if successfully loaded the TypeInfo.
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//+---------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::GetLogonTypeInfo()
{
HRESULT hr;
ITypeLib *pITypeLib;
if (m_pITypeInfoLogon)
return NOERROR;
hr = LoadRegTypeLib(
LIBID_SensEvents,
1 /* MAJOR_VER */ ,
0 /* MINOR_VER */ ,
0 /* DEFAULT_LCID */,
&pITypeLib
);
if (NOERROR == hr)
{
hr = pITypeLib->GetTypeInfoOfGuid(
IID_ISensLogon,
&m_pITypeInfoLogon
);
pITypeLib->Release();
}
if (NOERROR != hr)
{
m_pITypeInfoLogon = NULL; // don't rely on call not to leave this alone.
}
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: CSynchronizeInvoke::GetNetworkTypeInfo, private
//
// Synopsis: Loads the TypeInfo object for the Sens
// Network Information.
//
// Arguments:
//
// Returns: NOERROR if successfully loaded the TypeInfo.
//
// Modifies:
//
// History: 05-Nov-97 rogerg Created.
//
//+---------------------------------------------------------------------------
STDMETHODIMP CSynchronizeInvoke::GetNetworkTypeInfo()
{
HRESULT hr;
ITypeLib *pITypeLib;
if (m_pITypeInfoNetwork)
return NOERROR;
hr = LoadRegTypeLib(
LIBID_SensEvents,
1 /* MAJOR_VER */ ,
0 /* MINOR_VER */ ,
0 /* DEFAULT_LCID */,
&pITypeLib
);
if (NOERROR == hr)
{
hr = pITypeLib->GetTypeInfoOfGuid(
IID_ISensNetwork,
&m_pITypeInfoNetwork
);
pITypeLib->Release();
}
if (NOERROR != hr)
{
m_pITypeInfoNetwork = NULL; // don't rely on call not to leave this alone.
}
return hr;
}
#endif // _SENS