Пример поставщика времени
В следующем примере показано, как структурировать поставщик времени. В этом примере библиотека DLL поддерживает два поставщика времени оборудования.
#include <windows.h>
#include "timeprov.h"
// Global variables.
TimeProvSysCallbacks sc;
WCHAR ProviderName1[] = L"MyCompanyMyAppProvider1";
WCHAR ProviderName2[] = L"MyCompanyMyAppProvider2";
const TimeProvHandle htp1 = (TimeProvHandle)1;
const TimeProvHandle htp2 = (TimeProvHandle)2;
// Stores the current set of best samples.
TpcGetSamplesArgs Samples;
// Stores the polling interval the system requires to maintain clock
// stability. The provider need not poll more often.
DWORD dwPollInterval;
HRESULT CALLBACK TimeProvOpen(
WCHAR *wszName,
TimeProvSysCallbacks *pSysCallback,
TimeProvHandle *phTimeProv)
{
// Spawn a thread to read configuration information from the
// registry.
;
// Copy the system callback pointers to a buffer.
CopyMemory(&sc, (PVOID)pSysCallback, sizeof(TimeProvSysCallbacks));
// Return the handle to the appropriate time provider.
if ( lstrcmp(wszName, ProviderName1) == 0 )
*phTimeProv = htp1;
else *phTimeProv = htp2;
return S_OK;
}
HRESULT CALLBACK TimeProvCommand(
TimeProvHandle hTimeProv,
TimeProvCmd eCmd,
PVOID pvArgs)
{
switch( eCmd )
{
case TPC_GetSamples:
// Return the Samples structure in pvArgs.
CopyMemory(pvArgs, &Samples, sizeof(TpcGetSamplesArgs));
break;
case TPC_PollIntervalChanged:
// Retrieve the new value.
sc.pfnGetTimeSysInfo( TSI_PollInterval, &dwPollInterval );
break;
case TPC_TimeJumped:
// Discard samples saved in the Samples structure.
ZeroMemory(&Samples, sizeof(TpcGetSamplesArgs));
break;
case TPC_UpdateConfig:
// Read the configuration information from the registry.
break;
}
return S_OK;
}
HRESULT CALLBACK TimeProvClose(
TimeProvHandle hTimeProv)
{
if( hTimeProv == htp1 )
{
// Terminate MyCompanyMyAppProvider1, performing any cleanup.
;
}
else
{
// Terminate MyCompanyMyAppProvider2, performing any cleanup.
;
}
return S_OK;
}