Leaked source code of windows server 2003
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26 KiB

#include "pch.cxx"
#pragma hdrstop
#define TRKDATA_ALLOCATE
#include "trkwks.hxx"
const TCHAR *g_tszDefaultName = TEXT("TimerTestDefault");
const TCHAR *g_tszContinueName = TEXT("TimerTestContinue");
DWORD g_Debug = TRKDBG_ERROR | TRKDBG_TIMER;
ULONG g_ulDefaultPeriod = 4; // Seconds
ULONG g_ulMinRetry = g_ulDefaultPeriod * 3 / 2;
ULONG g_ulMaxRetry = g_ulMinRetry * 4;
ULONG g_ulTimerContext = 0;
CFILETIME g_cftDeltaMargin = 10*1000*1000; // 1 second
#include "ttimer.hxx"
void
CTimerTest::Initialize( PTimerCallback *pTimerCallback,
const TCHAR *ptszName,
ULONG ulTimerContext,
ULONG ulPeriodInSeconds,
CNewTimer::TimerRetryType retrytype,
ULONG ulLowerRetryTime,
ULONG ulUpperRetryTime,
ULONG ulMaxLifetime )
{
_ptszName = ptszName;
_fInitialized = TRUE;
_timer.Initialize(pTimerCallback, ptszName,
ulTimerContext, ulPeriodInSeconds, retrytype,
ulLowerRetryTime, ulUpperRetryTime, ulMaxLifetime );
_hEvent = CreateEvent( NULL, FALSE, FALSE, TEXT("TTimer Test") );
if( INVALID_HANDLE_VALUE == _hEvent )
TrkRaiseLastError( );
}
void
CTimerTest::SetTimerRegistryValue( const TCHAR *ptszName,
const CFILETIME &cftSet, const CFILETIME cftDue,
ULONG ulRetry )
{
HKEY hkey;
LONG lRet;
if( ERROR_SUCCESS != RegOpenKeyEx( HKEY_LOCAL_MACHINE, s_tszKeyNameLinkTrack,
0, KEY_ALL_ACCESS, &hkey ))
{
TrkLog((TRKDBG_ERROR, TEXT("Couldn't open persistent registry key") ));
TrkRaiseLastError( );
}
CNewTimer::PersistentState TimerPersistence;
TimerPersistence.cftDue = cftDue;
TimerPersistence.cftSet = cftSet;
TimerPersistence.ulCurrentRetryTime = ulRetry;
RegDeleteValue( hkey, ptszName );
lRet = RegSetValueEx( hkey,
ptszName,
0,
REG_BINARY,
(CONST BYTE *)&TimerPersistence,
sizeof(TimerPersistence) );
if( ERROR_SUCCESS != lRet )
{
TrkLog((TRKDBG_ERROR, TEXT("Couldn't write to registry") ));
TrkRaiseWin32Error( lRet );
}
RegCloseKey( hkey );
}
void
CTimerTest::VerifyRegistryDataCorrect()
{
LONG lRet = ERROR_SUCCESS;
CFILETIME cftDelta(0), cftNow;
CNewTimer::PersistentState persist;
DWORD dwType = 0, cbData = sizeof(persist);
HKEY hkey;
lRet = RegOpenKeyEx( HKEY_LOCAL_MACHINE, s_tszKeyNameLinkTrack,
0, KEY_ALL_ACCESS, &hkey );
if( ERROR_SUCCESS != lRet )
{
TrkLog((TRKDBG_ERROR, TEXT("Couldn't open primary registry key")));
TrkRaiseWin32Error( lRet );
}
lRet = RegQueryValueEx( hkey,
_ptszName,
NULL,
&dwType,
(BYTE *)&persist,
&cbData );
RegCloseKey( hkey );
cftDelta = _cftExpected - persist.cftDue;
if( lRet != ERROR_SUCCESS
||
dwType != REG_BINARY
||
cbData != sizeof(persist)
||
persist.cftDue > _cftExpected
||
cftDelta > g_cftDeltaMargin )
{
TrkLog(( TRKDBG_ERROR, TEXT("Registry data isn't correct (%d, %d, %d,\n %s,\n %s"),
lRet, dwType, cbData, CDebugString(persist.cftDue)._tsz, CDebugString(_cftExpected)._tsz ));
TrkRaiseWin32Error( E_FAIL );
}
}
void
CTimerTest::VerifyRegistryDataRemoved()
{
LONG lRet = ERROR_SUCCESS;
CNewTimer::PersistentState persist;
DWORD dwType = 0, cbData = sizeof(persist);
HKEY hkey;
lRet = RegOpenKeyEx( HKEY_LOCAL_MACHINE, s_tszKeyNameLinkTrack,
0, KEY_ALL_ACCESS, &hkey );
if( ERROR_SUCCESS != lRet )
{
TrkLog((TRKDBG_ERROR, TEXT("Couldn't open primary registry key")));
TrkRaiseWin32Error( lRet );
}
lRet = RegQueryValueEx( hkey, g_tszDefaultName, NULL, &dwType, (BYTE*)&persist, &cbData );
RegCloseKey( hkey );
if( ERROR_FILE_NOT_FOUND != lRet )
{
TrkLog(( TRKDBG_ERROR, TEXT("Registry data wasn't removed") ));
TrkRaiseWin32Error( E_FAIL );
return;
}
return;
}
PTimerCallback::TimerContinuation
CTimerTest0::Timer( ULONG ulTimerContext)
{
CFILETIME cftDelta(0);
if( ulTimerContext != 0 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that we got called at approximately the right time.
cftDelta = abs( static_cast<int>(CFILETIME() - _cftExpected) );
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too late in phase 0")));
TrkRaiseWin32Error( E_FAIL );
}
// Release the main test controller
MarkTestCompleted();
return( CONTINUE_TIMER );
}
PTimerCallback::TimerContinuation
CTimerTest1::Timer( ULONG ulTimerContext)
{
TimerContinuation continuation = BREAK_TIMER;
CFILETIME cftDelta(0), cftNow;
CNewTimer::PersistentState persist;
DWORD dwType = 0, cbData = sizeof(persist);
HKEY hkey;
LONG lRet = ERROR_SUCCESS;
ULONG ulRetryPeriod;
static CFILETIME cftBeforeRetries(0);
if( ulTimerContext != 1 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// We shouldn't be called in the final sub-phase.
if( FINAL == _SubPhase )
{
TrkLog(( TRKDBG_ERROR, TEXT("Called after the timer was stopped\n")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that we got called at approximately the right time.
cftDelta = abs(static_cast<int>(cftNow - _cftExpected));
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too late in phase 1")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that this time was stored in the Registry
lRet = RegOpenKeyEx( HKEY_LOCAL_MACHINE, s_tszKeyNameLinkTrack,
0, KEY_ALL_ACCESS, &hkey );
if( ERROR_SUCCESS != lRet )
{
TrkLog((TRKDBG_ERROR, TEXT("Couldn't open primary registry key") ));
TrkRaiseWin32Error( lRet );
}
lRet = RegQueryValueEx( hkey,
_ptszName,
NULL,
&dwType,
(BYTE *)&persist,
&cbData );
RegCloseKey( hkey );
if( lRet != ERROR_SUCCESS
||
dwType != REG_BINARY
||
cbData != sizeof(persist)
||
cftNow - persist.cftDue > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Value in registry wasn't correct") ));
TrkRaiseWin32Error( E_FAIL );
}
// -----------------------------
// Move on to the next sub-phase
// -----------------------------
ulRetryPeriod = g_ulMinRetry;
// Switch on the sub-phase which just completed.
switch( _SubPhase )
{
case INITIAL:
_tprintf( TEXT(" Letting recur\n") );
continuation = CONTINUE_TIMER;
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( g_ulDefaultPeriod );
break;
case THIRD_RETRY:
case SECOND_RETRY:
ulRetryPeriod *= 2;
case FIRST_RETRY:
ulRetryPeriod *= 2;
case FIRST_RECURRENCE:
_tprintf( TEXT(" Retrying timer (%ds)\n"), ulRetryPeriod );
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( ulRetryPeriod );
continuation = RETRY_TIMER;
break;
case FOURTH_RETRY:
_tprintf( TEXT(" Letting timer recur\n") );
continuation = CONTINUE_TIMER;
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( g_ulDefaultPeriod );
break;
case SECOND_RECURRENCE:
VerifyRegistryDataCorrect();
_tprintf( TEXT(" Retrying one more time (%ds)\n"), g_ulMinRetry );
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( g_ulMinRetry );
continuation = RETRY_TIMER;
break;
case LAST_RETRY:
_tprintf( TEXT(" Stopping timer\n") );
continuation = BREAK_TIMER;
MarkTestCompleted();
break;
default:
TrkLog((TRKDBG_ERROR, TEXT("Invalid sub-phase in phase 1 (%d)"), _SubPhase ));
TrkRaiseWin32Error( E_FAIL );
break;
} // switch
_SubPhase++;
return( continuation );
}
PTimerCallback::TimerContinuation
CTimerTest2::Timer( ULONG ulTimerContext)
{
TimerContinuation continuation = BREAK_TIMER;
CFILETIME cftDelta(0), cftNow;
CNewTimer::PersistentState persist;
DWORD dwType = 0, cbData = sizeof(persist);
HKEY hkey;
LONG lRet = ERROR_SUCCESS;
ULONG ulRetryPeriod;
static CFILETIME cftBeforeRetries(0);
if( ulTimerContext != 2 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// We shouldn't be called in the final sub-phase.
if( FINAL == _SubPhase )
{
TrkLog(( TRKDBG_ERROR, TEXT("Called after the timer was stopped\n")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that we got called at approximately the right time.
cftDelta = abs(static_cast<int>(cftNow - _cftExpected));
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too late in phase 1")));
TrkRaiseWin32Error( E_FAIL );
}
// -----------------------------
// Move on to the next sub-phase
// -----------------------------
switch( _SubPhase )
{
case INITIAL:
// Verify that the registry was set correctly
VerifyRegistryDataCorrect();
// Restart the timer to a new time
_tprintf( TEXT(" Restarting timer (%ds), still recurring and non-retrying\n"),
g_ulDefaultPeriod * 2 );
_timer.ReInitialize( g_ulDefaultPeriod * 2 );
continuation = CONTINUE_TIMER;
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( g_ulDefaultPeriod * 2 );
break;
case RESET:
// Verify that the registry was set correctly
VerifyRegistryDataCorrect();
// Release the main test controller
MarkTestCompleted();
break;
default:
TrkLog((TRKDBG_ERROR, TEXT("Invalid sub-phase in phase 2 (%d)"), _SubPhase ));
TrkRaiseWin32Error( E_FAIL );
break;
} // switch( (SUB_PHASE2_ENUM) g_SubPhase )
_SubPhase++;
return( continuation );
}
PTimerCallback::TimerContinuation
CTimerTest3::Timer( ULONG ulTimerContext)
{
TimerContinuation continuation = BREAK_TIMER;
CFILETIME cftDelta(0), cftNow;
if( ulTimerContext != 3 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that we got called at approximately the right time.
cftDelta = abs(static_cast<int>(cftNow - _cftExpected));
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too late in phase 3")));
TrkRaiseWin32Error( E_FAIL );
}
// Switch on the sub-phase which *just completed* to determine what to
// do next.
switch( _SubPhase )
{
case INITIAL:
VerifyRegistryDataCorrect();
// We're done
continuation = BREAK_TIMER;
// Release the main test controller
MarkTestCompleted();
break;
default:
TrkLog((TRKDBG_ERROR, TEXT("Invalid sub-phase in phase 3 (%d)"), _SubPhase ));
TrkRaiseWin32Error( E_FAIL );
break;
} // switch( _SubPhase )
_SubPhase++;
return( continuation );
}
PTimerCallback::TimerContinuation
CTimerTest4::Timer( ULONG ulTimerContext)
{
TimerContinuation continuation = BREAK_TIMER;
CFILETIME cftDelta(0), cftNow;
if( ulTimerContext != 4 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that we got called at approximately the right time.
cftDelta = abs(static_cast<int>(cftNow - _cftExpected));
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too late in phase 1")));
TrkRaiseWin32Error( E_FAIL );
}
// Switch on the sub-phase which *just completed* to determine what to
// do next.
switch( _SubPhase )
{
case INITIAL:
_tprintf( TEXT(" Retrying (%ds)\n"), g_ulDefaultPeriod/2 );
VerifyRegistryDataRemoved();
continuation = RETRY_TIMER;
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( g_ulDefaultPeriod / 2 );
break;
case SECOND:
_tprintf( TEXT(" Retrying (%ds)\n"), g_ulDefaultPeriod );
continuation = RETRY_TIMER;
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( g_ulDefaultPeriod );
break;
case THIRD:
_tprintf( TEXT(" Retrying (%ds)\n"), g_ulDefaultPeriod*2 );
continuation = RETRY_TIMER;
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( g_ulDefaultPeriod * 2 );
break;
case FOURTH:
_tprintf( TEXT(" Retrying (%ds)\n"), g_ulDefaultPeriod/4 );
continuation = RETRY_TIMER;
_cftExpected.SetToUTC();
_cftExpected.IncrementSeconds( g_ulDefaultPeriod / 4 );
break;
case FINAL:
continuation = BREAK_TIMER;
MarkTestCompleted();
break;
default:
TrkLog((TRKDBG_ERROR, TEXT("Unexpected sub-phase in phase 4"), _SubPhase ));
TrkRaiseWin32Error( E_FAIL );
break;
} // switch( _SubPhase )
_SubPhase++;
return( continuation );
}
PTimerCallback::TimerContinuation
CTimerTest5::Timer( ULONG ulTimerContext)
{
TimerContinuation continuation = BREAK_TIMER;
CFILETIME cftDelta(0), cftNow;
if( ulTimerContext != 5 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that we got called at approximately the right time.
cftDelta = abs(static_cast<int>(cftNow - _cftExpected));
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too late in phase 1")));
TrkRaiseWin32Error( E_FAIL );
}
// Switch on the sub-phase which *just completed* to determine what to
// do next.
switch( _SubPhase )
{
case INITIAL:
continuation = BREAK_TIMER;
VerifyRegistryDataRemoved(); // Since this is a non-persistent timer
MarkTestCompleted();
break;
default:
TrkLog((TRKDBG_ERROR, TEXT("Unexpected sub-phase in phase 5"), _SubPhase ));
TrkRaiseWin32Error( E_FAIL );
break;
} // switch( _SubPhase )
_SubPhase++;
return( continuation );
}
PTimerCallback::TimerContinuation
CTimerTest6::Timer( ULONG ulTimerContext )
{
CFILETIME cftDelta(0), cftNow;
PTimerCallback::TimerContinuation continuation = BREAK_TIMER;
if( ulTimerContext != 6 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// Validate the fire time
if( _SubPhase == INITIAL )
{
cftDelta = abs(static_cast<int>(cftNow - _cftExpected));
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too soon/late in phase 4") ));
TrkRaiseWin32Error( E_FAIL );
}
}
else
{
if( cftNow < _cftLower - g_cftDeltaMargin
||
cftNow > _cftUpper + g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too soon/late in phase 6") ));
TrkRaiseWin32Error( E_FAIL );
}
}
// Switch on the sub-phase which *just completed* to determine what to
// do next.
switch( _SubPhase )
{
case INITIAL:
_tprintf( TEXT(" Letting recur\n") );
continuation = CONTINUE_TIMER;
// Set the due time
_cftLastSet = _cftLower = cftNow;
_cftLower.IncrementSeconds( g_ulDefaultPeriod );
_cftUpper = _cftLower;
break;
case FIRST_RECURRENCE:
_tprintf( TEXT(" Retrying ") );
continuation = RETRY_TIMER;
_cftLastSet = _cftLower = _cftUpper = cftNow;
_cftLower.IncrementSeconds( g_ulMinRetry );
_cftUpper.IncrementSeconds( g_ulMaxRetry );
break;
case FIRST_RETRY:
case SECOND_RETRY:
case THIRD_RETRY:
// Show how long the retry was
_tprintf( TEXT("(%2ds)\n"), static_cast<LONG>(cftNow-_cftLastSet)/10000000 );
_tprintf( TEXT(" Retrying ") );
continuation = RETRY_TIMER;
_cftLastSet = _cftLower = _cftUpper = cftNow;
_cftLower.IncrementSeconds( g_ulMinRetry );
_cftUpper.IncrementSeconds( g_ulMaxRetry );
break;
case FOURTH_RETRY:
// Show how long the retry was
_tprintf( TEXT("(%2ds)\n"), static_cast<LONG>(cftNow-_cftLastSet)/10000000 );
_tprintf( TEXT(" Recurring one last time (%ds)\n"), g_ulDefaultPeriod );
continuation = CONTINUE_TIMER;
_cftLastSet = _cftLower = cftNow;
_cftLower.IncrementSeconds( g_ulDefaultPeriod );
_cftUpper = _cftLower;
break;
case FINAL:
continuation = BREAK_TIMER;
MarkTestCompleted();
break;
default:
TrkLog((TRKDBG_ERROR, TEXT("Unexpected sub-phase %d in test 6"), _SubPhase ));
TrkRaiseWin32Error( E_FAIL );
break;
} // switch( (SUB_PHASE4_ENUM) g_SubPhase )
_SubPhase++;
return( continuation );
}
PTimerCallback::TimerContinuation
CTimerTest7::Timer( ULONG ulTimerContext )
{
CFILETIME cftDelta(0), cftNow;
PTimerCallback::TimerContinuation continuation = BREAK_TIMER;
if( ulTimerContext != 7 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that we got called at approximately the right time.
cftDelta = abs(static_cast<int>(cftNow - _cftExpected));
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too late in phase 1")));
TrkRaiseWin32Error( E_FAIL );
}
// Switch on the sub-phase which *just completed* to determine what to
// do next.
switch( _SubPhase )
{
case INITIAL:
_tprintf( TEXT(" Starting again from the callback, while returning retry_timer\n") );
_tprintf( TEXT(" Ensure the timer doesn't fire while we're in the callback\n") );
Set();
Sleep( _ulPeriod * 2 );
_timer.Cancel();
Set();
continuation = RETRY_TIMER;
break;
case FINAL:
continuation = BREAK_TIMER;
MarkTestCompleted();
break;
default:
TrkLog((TRKDBG_ERROR, TEXT("Unexpected sub-phase %d in test 7"), _SubPhase ));
TrkRaiseWin32Error( E_FAIL );
break;
} // switch( g_SubPhase )
_SubPhase++;
return( continuation );
}
PTimerCallback::TimerContinuation
CTimerTest8::Timer( ULONG ulTimerContext)
{
TimerContinuation continuation = BREAK_TIMER;
CFILETIME cftDelta(0), cftNow;
if( ulTimerContext != 8 )
{
TrkLog((TRKDBG_ERROR, TEXT("Incorrect context from timer")));
TrkRaiseWin32Error( E_FAIL );
}
// Verify that we got called at approximately the right time.
cftDelta = abs(static_cast<int>(cftNow - _cftExpected));
if( cftDelta > g_cftDeltaMargin )
{
TrkLog((TRKDBG_ERROR, TEXT("Timer expired too late in phase 8 (%s - %s)"),
CDebugString(cftNow)._tsz, CDebugString(_cftExpected)._tsz ));
TrkRaiseWin32Error( E_FAIL );
}
// Switch on the sub-phase which *just completed* to determine what to
// do next.
switch( _SubPhase )
{
case INITIAL:
continuation = RETRY_TIMER;
_cftExpected = CFILETIME();
_cftExpected.IncrementSeconds( _ulPeriod*4 ); // The second retry
break;
case FIRST_RETRY:
continuation = RETRY_TIMER;
_cftExpected = CFILETIME();
_cftExpected.IncrementSeconds( _ulPeriod ); // Up to max lifetime
break;
case FINAL:
continuation = BREAK_TIMER;
MarkTestCompleted();
break;
default:
TrkLog((TRKDBG_ERROR, TEXT("Unexpected sub-phase in phase 8"), _SubPhase ));
TrkRaiseWin32Error( E_FAIL );
break;
} // switch( _SubPhase )
_SubPhase++;
return( continuation );
}
BOOL
IsRegistryEntryExtant()
{
LONG lRet = ERROR_SUCCESS;
CNewTimer::PersistentState persist;
DWORD dwType = 0, cbData = sizeof(persist);
HKEY hkey;
lRet = RegOpenKeyEx( HKEY_LOCAL_MACHINE, s_tszKeyNameLinkTrack,
0, KEY_ALL_ACCESS, &hkey );
if( ERROR_SUCCESS != lRet )
{
TrkLog((TRKDBG_ERROR, TEXT("Couldn't open primary registry key")));
TrkRaiseWin32Error( lRet );
}
lRet = RegQueryValueEx( hkey, g_tszDefaultName, NULL, &dwType, (BYTE*)&persist, &cbData );
RegCloseKey( hkey );
if( ERROR_FILE_NOT_FOUND == lRet )
return FALSE;
else
return TRUE;
}
BOOL
IsRegistryEntryCorrect( const CFILETIME &cftExpected )
{
LONG lRet = ERROR_SUCCESS;
CFILETIME cftDelta(0), cftNow;
CNewTimer::PersistentState persist;
DWORD dwType = 0, cbData = sizeof(persist);
HKEY hkey;
lRet = RegOpenKeyEx( HKEY_LOCAL_MACHINE, s_tszKeyNameLinkTrack,
0, KEY_ALL_ACCESS, &hkey );
if( ERROR_SUCCESS != lRet )
{
TrkLog((TRKDBG_ERROR, TEXT("Couldn't open primary registry key")));
TrkRaiseWin32Error( lRet );
}
lRet = RegQueryValueEx( hkey,
g_tszDefaultName,
NULL,
&dwType,
(BYTE *)&persist,
&cbData );
RegCloseKey( hkey );
cftDelta = cftExpected - persist.cftDue;
if( lRet != ERROR_SUCCESS
||
dwType != REG_BINARY
||
cbData != sizeof(persist)
||
persist.cftDue > cftExpected
||
cftDelta > g_cftDeltaMargin )
{
return FALSE;
}
else
{
return TRUE;
}
}
EXTERN_C void __cdecl _tmain( int argc, TCHAR **argv )
{
HRESULT hr = S_OK;
CNewTimer::PersistentState TimerPersistence;
__try
{
LONG lRet = ERROR_SUCCESS;
ULONG ulMaxLifetime;
CFILETIME cftTimer0(0);
TrkDebugCreate( TRK_DBG_FLAGS_WRITE_TO_DBG | TRK_DBG_FLAGS_WRITE_TO_STDOUT, "TTimer" );
RegDeleteValue( HKEY_LOCAL_MACHINE, s_tszKeyNameLinkTrack );
CTimerTest0 cTimer0;
CTimerTest1 cTimer1;
CTimerTest2 cTimer2;
CTimerTest3 cTimer3;
CTimerTest4 cTimer4;
CTimerTest5 cTimer5;
CTimerTest6 cTimer6;
CTimerTest7 cTimer7;
CTimerTest8 cTimer8;
//goto phase8;
// -------
// Phase 0
// -------
cTimer0.Initialize( );
cTimer0.Set();
cTimer0.WaitForTestToComplete();
cTimer0.EnsureTimerIsStopped( );
// -------
// Phase 1
// -------
phase1:
cTimer1.Initialize( );
cTimer1.Set();
cTimer1.WaitForTestToComplete();
cTimer1.EnsureTimerIsStopped( );
// -------
// Phase 2
// -------
cTimer2.Initialize( );
cTimer2.Set();
cTimer2.WaitForTestToComplete();
cTimer2.EnsureTimerIsStopped( );
// -------
// Phase 3
// -------
phase3:
cTimer3.Initialize();
cTimer3.Set();
cTimer3.WaitForTestToComplete();
cTimer3.EnsureTimerIsStopped();
// Pause to ensure that the timer clears itself
Sleep( 1000 );
// -------
// Phase 4
// -------
cTimer4.Initialize();
cTimer4.Set();
cTimer4.WaitForTestToComplete();
cTimer3.EnsureTimerIsStopped();
// -------
// Phase 5
// -------
phase5:
cTimer5.Initialize();
cTimer5.Set();
cTimer5.WaitForTestToComplete();
cTimer5.EnsureTimerIsStopped();
// -------
// Phase 6
// -------
phase6:
cTimer6.Initialize( );
cTimer6.Set();
cTimer6.WaitForTestToComplete();
cTimer6.EnsureTimerIsStopped( );
phase7:
cTimer7.Initialize();
cTimer7.Set();
cTimer7.WaitForTestToComplete();
cTimer7.EnsureTimerIsStopped();
phase8:
cTimer8.Initialize();
cTimer8.Set();
cTimer8.WaitForTestToComplete();
cTimer8.EnsureTimerIsStopped();
}
__except( BreakOnDebuggableException() )
{
hr = GetExceptionCode();
}
if( FAILED(hr) )
_tprintf( TEXT("\nFailed: hr = %#08x\n"), hr );
else
_tprintf( TEXT("\nPassed\n") );
}