Настройка простого SHA
Примечание
Платформа защиты доступа к сети недоступна, начиная с Windows 10
В следующем примере настраивается простой агент работоспособности системы (SHA) и показаны два необязательных действия: уведомление об изменении инструкции о работоспособности (SoH) и очистка кэша SoH. Обратите внимание, что обработка ошибок не включена в функцию main() для простоты этого примера.
Примечание
Пакет SDK nap также содержит полный набор примеров кода, который можно найти в ...\Samples\NetDS\NAP... каталог установки пакета SDK. Этот набор примеров включает sha, средство проверки работоспособности системы (SHV) и клиент принудительного применения (EC). Он имеет полные рабочие сценарии защиты доступа к сети, которые настраивают обмен данными между SHA-SHV и SHA-EC.
#include <windows.h>
#include <stdio.h>
#include "Callback.h"
#include <NapTypes.h>
#include <NapClientManagement.h>
#include "Strsafe.h"
static const UINT32 NapSystemHealthId = 0x000137F0;
// Set GUID infoClsid equal to {08B8B292-7033-46f3-AB97-D62B6FCDC0DE}
static const GUID infoClsid = { 0x8b8b292, 0x7033, 0x46f3, { 0xab, 0x97, 0xd6, 0x2b, 0x6f, 0xcd, 0xc0, 0xde } };
static const wchar_t SHA_FRIENDLY_NAME[] = L"SHA SDK Sample";
static const wchar_t SHA_DESCRIPTION[] = L"Microsoft SHA SDK Sample";
static const wchar_t SHA_VERSION[] = L"1.0.0.1";
static const wchar_t SHA_VENDOR_NAME[] = L"Microsoft";
// Helper Function for FillShaComponentRegistrationInfo.
HRESULT ConstructCountedString(const WCHAR* src, UINT16 len,
CountedString* dest)
{
HRESULT hr = S_OK;
DWORD retCode = ERROR_SUCCESS;
hr = AllocateMemory(dest->string, ((len+1)*sizeof(WCHAR)));
dest->length = len;
retCode = StringCchCopy(dest->string, len+1, src);
return hr;
}
HRESULT FillShaComponentRegistrationInfo(NapComponentRegistrationInfo *agentInfo)
{
HRESULT hr = S_OK;
agentInfo->id = NapSystemHealthId;
agentInfo->infoClsid = infoClsid;
hr = ConstructCountedString(SHA_FRIENDLY_NAME, sizeof(SHA_FRIENDLY_NAME), &(agentInfo->friendlyName));
hr = ConstructCountedString(SHA_DESCRIPTION, sizeof(SHA_DESCRIPTION), &(agentInfo->description));
hr = ConstructCountedString(SHA_VERSION, sizeof(SHA_VERSION), &(agentInfo->version));
hr = ConstructCountedString(SHA_VENDOR_NAME, sizeof(SHA_VENDOR_NAME), &(agentInfo->vendorName));
return hr;
}
// Helper Function for releasing ShaComponentRegistrationInfo members
void FreeComponentRegistration(NapComponentRegistrationInfo *agentInfo)
{
FreeMemory(agentInfo->friendlyName.string);
FreeMemory(agentInfo->description.string);
FreeMemory(agentInfo->version.string);
FreeMemory(agentInfo->vendorName.string);
}
// Registers the SHA with the NAP Server.
HRESULT CsdkShaModule::RegisterSha()
{
HRESULT hr = S_OK;
// Pointer to the INapServerManagement interface
CComPtr<INapClientManagement> m_pNAPClientMgmt = NULL;
// Registration Information
NapComponentRegistrationInfo m_shaInfo;
ZeroMemory (&m_shaInfo, sizeof(m_shaInfo));
hr = m_pNAPClientMgmt.CoCreateInstance(CLSID_NapClientManagement, NULL, CLSCTX_INPROC_SERVER);
if (FAILED(hr))
{
DebugPrintfW(L"RegisterSdkSha: CoCreateInstance Failed with %#x",hr);
goto Cleanup;
}
hr = FillShaComponentRegistrationInfo(&m_shaInfo);
if(FAILED(hr))
{
DebugPrintfW(L"RegisterSdkSha:: FillShaComponentRegistrationInfo Failed with %#x",hr);
goto Cleanup;
}
hr = m_pNAPClientMgmt->RegisterSystemHealthAgent(&m_shaInfo);
if (FAILED(hr))
{
DebugPrintfW(L"RegisterSdkSha:: RegisterSystemHealthAgent failed %#x", hr);
goto Cleanup;
}
Cleanup:
FreeComponentRegistration(&m_shaInfo);
return hr;
}
// Unregisters the SHA with the NAP Server.
HRESULT CSdkShaModule::UnRegisterSha()
{
HRESULT hr = S_OK;
// Pointer to the INapServerManagement interface
CComPtr<INapClientManagement> m_pNAPClientMgmt = NULL;
hr = m_pNAPClientMgmt.CoCreateInstance(CLSID_NapClientManagement, NULL, CLSCTX_INPROC_SERVER);
if (FAILED(hr))
{
DebugPrintfW(L"UnregisterSdkSha: CoCreateInstance Failed with %#x",hr);
goto Cleanup;
}
hr = m_pNAPClientMgmt->UnregisterSystemHealthAgent(QuarSampleSystemHealthId);
if (FAILED(hr))
{
DebugPrintfW(L"UnregisterSdkSha: UnregisterSystemHealthAgent Failed with %#x",hr);
goto Cleanup;
}
Cleanup:
return hr;
}
// Main function
DWORD __cdecl wmain(DWORD argc, WCHAR * pArgv[]) throw()
{
HRESULT hr = S_OK;
// 1. Register Sha
hr = RegisterSha();
// 2. Start up COM and ATL.
hr = CoInitializeEx(NULL, COINIT_MULTITHREADED );
// 3. Create Binding instance
// pointer to the binding interface
CComPtr<INapSystemHealthAgentBinding> binding = NULL;
hr = binding.CoCreateInstance(CLSID_NapSystemHealthAgentBinding, NULL, CLSCTX_INPROC_SERVER);
// 4. Create Callback
// Create Callback (The code for this interface is separate)
IShaCallbackPtr callback = NULL;
callback = ShaCallback::CreateInstance(binding);
// 5. Call Initialize on the binding interface
hr = binding->Initialize(QuarSampleSystemHealthId,callback);
// 6. Send Notify SoH Change OR Flush Cache
hr = binding->NotifySoHChange();
// hr = binding->FlushCache();
// 7. Stopping the SHA
hr = binding->Uninitialize();
hr = UnRegisterSha();
return 0;
}
// SHA Callback
STDMETHODIMP ShaCallback::GetFixupInfo(FixupInfo** ppStatus)
{
wprintf(L"\nQA called ShaCallback::GetFixupInfo()\n");
HRESULT hr = S_OK;
assert(ppStatus != NULL);
// The caller should free this memory using CoTaskMemFree
hr = AllocFixupInfo(ppStatus, NUMBER_OF_HRESULTS);
if (FAILED(hr))
{
goto Cleanup;
}
//
// SDK Note:
//
// ppStatus should be filled according to the current Fix-up status. This
// is just a simple example
if (g_setHealthySoh)
{
(*ppStatus)->fixupMsgId = SDK_SAMPLE_GENERIC_FIXUP_SUCCESS_MSG_ID;
(*ppStatus)->percentage = 100;
(*ppStatus)->state = fixupStateSuccess;
}
else
{
(*ppStatus)->fixupMsgId = SDK_SAMPLE_GENERIC_FIXUP_INPROGRESS_MSG_ID;
(*ppStatus)->percentage = 50;
(*ppStatus)->state = fixupStateInProgress;
}
(*ppStatus)->resultCodes.count = NUMBER_OF_HRESULTS; // 1 HRESULT
*((*ppStatus)->resultCodes.results) = S_OK;
Cleanup:
return hr;
}