/* IisRsta.cxx Command line utility for access to IIisServiceControl FILE HISTORY: Phillich 06-Oct-1998 Created */ #define INITGUID #include #include #include #include #include #include "iisrsta.h" #include "iisrstam.h" typedef BOOL (*PFNQUERYSERVICECONFIG2)(SC_HANDLE,DWORD,LPBYTE,DWORD,LPDWORD) ; typedef BOOL (*PFNCHANGESERVICECONFIG2)(SC_HANDLE,DWORD,LPVOID); // // HRESULTTOWIN32() maps an HRESULT to a Win32 error. If the facility code // of the HRESULT is FACILITY_WIN32, then the code portion (i.e. the // original Win32 error) is returned. Otherwise, the original HRESULT is // returned unchagned. // #define HRESULTTOWIN32(hres) \ ((HRESULT_FACILITY(hres) == FACILITY_WIN32) \ ? HRESULT_CODE(hres) \ : (hres)) // // RETURNCODETOHRESULT() maps a return code to an HRESULT. If the return // code is a Win32 error (identified by a zero high word) then it is mapped // using the standard HRESULT_FROM_WIN32() macro. Otherwise, the return // code is assumed to already be an HRESULT and is returned unchanged. // #define RETURNCODETOHRESULT(rc) \ (((rc) < 0x10000) \ ? HRESULT_FROM_WIN32(rc) \ : (rc)) // // Helper functions // VOID DisplayErrorMessage( DWORD dwErr ) /*++ DisplayErrorMessage Display error message associated with error code Arguments: dwErr - Win32 error code Returns: Nothing --*/ { LPTSTR pErr; if ( FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM, NULL, dwErr, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPTSTR)&pErr, 0, NULL ) ) { LPTSTR p; if ( p = _tcschr( pErr, TEXT('\r') ) ) { *p = TEXT('\0'); } _fputts( pErr, stdout ); LocalFree( pErr ); } } VOID PrintMessage( DWORD dwId, DWORD dwParams, LPVOID* pParams ) /*++ PrintMessage Print message ( from message file ) with optional parameters Arguments: dwId - message ID dwParams - # of params in pParams pParams - ptr to array of parameters Returns: Nothing --*/ { LPTSTR pBuf; if ( FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER|FORMAT_MESSAGE_FROM_HMODULE|FORMAT_MESSAGE_ARGUMENT_ARRAY, (LPCVOID)NULL, //GetModuleHandle(NULL), dwId, 0, (LPTSTR)&pBuf, dwParams, (va_list *)pParams ) ) { _fputts( pBuf, stdout ); LocalFree( pBuf ); } } VOID CmdError( DWORD dwId, HRESULT hRes ) /*++ CmdError Display message followed by error description ( error message + numerical code ) Arguments: dwId - message ID hRes - error code Returns: Nothing --*/ { TCHAR achBuf[128]; PrintMessage( dwId, 0, NULL ); if ( hRes == RETURNCODETOHRESULT( ERROR_RESOURCE_DISABLED ) ) { PrintMessage( IRSTASTR_REMOTE_DISABLED, 0, NULL ); } else if ( hRes == RETURNCODETOHRESULT( ERROR_ACCESS_DENIED ) ) { PrintMessage( IRSTASTR_ACCESS_DENIED, 0, NULL ); } else if ( hRes == RETURNCODETOHRESULT( ERROR_SERVICE_NOT_ACTIVE ) ) { PrintMessage( IRSTASTR_IISADMIN_DISABLED, 0, NULL ); } else { DisplayErrorMessage( HRESULTTOWIN32( hRes ) ); wsprintf( achBuf, _T(" (%u, %x)\n"), (DWORD)hRes, (DWORD)hRes ); _fputts( achBuf, stdout ); } } LPTSTR GetString( DWORD dwId ) /*++ GetString Retrieve message content Arguments: dwId - message ID Returns: Ptr to message. Must be freed using LocalFree() --*/ { #if 0 TCHAR aBuf[32]; aBuf[0] = TEXT('#'); _ultot( dwId, aBuf + 1, 10 ); return (LPTSTR)LoadResource( NULL, FindResourceEx( NULL, RT_MESSAGETABLE, aBuf, MAKELANGID(LANG_NEUTRAL,SUBLANG_NEUTRAL) ) ); #else LPTSTR pBuf; if ( FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER|FORMAT_MESSAGE_FROM_HMODULE, (LPCVOID)NULL, dwId, 0, (LPTSTR)&pBuf, 0, NULL ) ) { LPTSTR p; if ( p = _tcschr( pBuf, TEXT('\r') ) ) { *p = TEXT('\0'); } return pBuf; } return NULL; #endif } HRESULT DeserializeEnumServiceBuffer( LPBYTE pbInBuffer, DWORD dwNumServices, LPBYTE pbBuffer, DWORD dwBufferSize, LPDWORD pdwMDRequiredBufferSize ) /*++ DeserializeEnumServiceBuffer Deserialize array of SERIALIZED_ENUM_SERVICE_STATUS to buffer, replacing offset in buffer by ptr Arguments: pbInBuffer - buffer containing serialized status as array of SERIALIZED_ENUM_SERVICE_STATUS dwNumServices - # of entries in pbInBuffer pbBuffer - buffer filled with deserialized status as array of ENUM_SERVICE_STATUS dwBufferSize - maximum size of pbBuffer pdwMDRequiredBufferSize - updated with required size if dwBufferSize too small Returns: ERROR_INSUFFICIENT_BUFFER if dwBufferSize too small otherwise COM status --*/ { HRESULT hresReturn = S_OK; DWORD dwMinSize = 0; UINT i; SERIALIZED_ENUM_SERVICE_STATUS* pessDependentServices = (SERIALIZED_ENUM_SERVICE_STATUS*)pbInBuffer; if ( !pbBuffer ) { dwBufferSize = 0; } dwMinSize = sizeof(ENUM_SERVICE_STATUS) * dwNumServices; for ( i = 0 ; i < dwNumServices ; ++i ) { UINT cServiceName = _tcslen( (TCHAR*)(pbInBuffer + pessDependentServices[i].iServiceName) ) + 1; UINT cDisplayName = _tcslen( (TCHAR*)(pbInBuffer + pessDependentServices[i].iDisplayName) ) + 1; if ( dwBufferSize >= dwMinSize + ( cServiceName + cDisplayName ) * sizeof(TCHAR) ) { ((LPENUM_SERVICE_STATUS)pbBuffer)[i].ServiceStatus = pessDependentServices[i].ServiceStatus; memcpy( pbBuffer + dwMinSize, pbInBuffer + pessDependentServices[i].iServiceName, cServiceName * sizeof(TCHAR) ); ((LPENUM_SERVICE_STATUS)pbBuffer)[i].lpServiceName = (TCHAR*)(pbBuffer + dwMinSize); memcpy( pbBuffer + dwMinSize + cServiceName * sizeof(TCHAR), pbInBuffer + pessDependentServices[i].iDisplayName, cDisplayName * sizeof(TCHAR) ); ((LPENUM_SERVICE_STATUS)pbBuffer)[i].lpDisplayName = (TCHAR*)(pbBuffer + dwMinSize) + cServiceName; } dwMinSize += ( cServiceName + cDisplayName ) * sizeof(TCHAR); } if ( dwBufferSize < dwMinSize ) { *pdwMDRequiredBufferSize = dwMinSize; hresReturn = RETURNCODETOHRESULT( ERROR_INSUFFICIENT_BUFFER ); } return hresReturn; } HRESULT SetEnableRemote( DWORD dwValue ) /*++ SetEnableRemote set restart I/F enabled flag in registry ( HKLM\SOFTWARE\Microsoft\INetStp::EnableRestart::REG_DWORD ) Arguments: dwValue - 0 to disable I/F, !0 to enable Returns: status --*/ { DWORD dwSt = NO_ERROR; HKEY hKey; // // Check admin privilege by accessing IISADMIN key for write // if ( ( dwSt = RegOpenKeyEx( HKEY_LOCAL_MACHINE, TEXT("SYSTEM\\CurrentControlSet\\Services\\IISADMIN"), 0, KEY_WRITE, &hKey ) ) == ERROR_SUCCESS ) { RegCloseKey( hKey ); // // Set IISCTL interface access flag in registry // if ( ( dwSt = RegOpenKeyEx( HKEY_LOCAL_MACHINE, TEXT("SOFTWARE\\Microsoft\\INetStp"), 0, KEY_WRITE, &hKey ) ) == ERROR_SUCCESS ) { if ( ( dwSt = RegSetValueEx( hKey, TEXT("EnableRestart"), 0, REG_DWORD, (const BYTE*)&dwValue, sizeof(DWORD) ) ) == ERROR_SUCCESS ) { } RegCloseKey( hKey ); } } return RETURNCODETOHRESULT( dwSt ); } BOOL GetNumeric( LPSTR pszNumArg, LPDWORD pdwVal ) { if ( !isdigit( (UCHAR)(*pszNumArg) ) ) { return FALSE; } *pdwVal = atoi( pszNumArg ); return TRUE; } BOOL IsIIS6orGreater( ) /*++ IsIIS6orGreater According to Aaron we are guaranteed to have the appropriate keys in the registry by the time iisreset /scm is called. Arguments: None Returns: TRUE = IIS 6 or greater; FALSE = anything below IIS 6; --*/ { // Assume it is not IIS 6. BOOL IsIIS6 = FALSE; HKEY hKey; DWORD dwValue; DWORD dwType; DWORD dwSize; // Check the registry of the major version setup number. // If it is not there we assume it is not a 6.0 machine, // since it's better to setup a 6.0 machine in 5.0 state // instead of a 5.0 machine in 6.0 state. if ( RegOpenKeyEx( HKEY_LOCAL_MACHINE, TEXT("System\\CurrentControlSet\\Services\\W3SVC\\Parameters"), 0, KEY_READ, &hKey ) == ERROR_SUCCESS ) { if ( RegQueryValueEx( hKey, TEXT("MajorVersion"), 0, &dwType, (LPBYTE)&dwValue, &dwSize ) == ERROR_SUCCESS ) { if ( dwType == REG_DWORD ) { if ( dwValue >= 6 ) { // were are running on a system that does not // have atleast IIS 6 on it IsIIS6 = TRUE; } } } RegCloseKey( hKey ); } return IsIIS6; } HRESULT SetSCM( LPCTSTR pszCmdline, BOOL fEnable ) /*++ SetSCM set SCM Recovery configuration for IISADMIN service. Does nothing on pre Windows 2000 systems. Arguments: pszCmdline - command line to invoke on service failure ( for IISAdmin ), can be NULL to invoke current EXE ( i.e. IISRESET ) fEnable - TRUE to enable IISRESET invocation on service failure, FALSE to disable Returns: status --*/ { PFNQUERYSERVICECONFIG2 pfnQueryServiceConfig2 = NULL; PFNCHANGESERVICECONFIG2 pfnChangeServiceConfig2 = NULL; SERVICE_FAILURE_ACTIONS sfaAction; SC_ACTION saCmdline[3]; SC_HANDLE schSCM; SC_HANDLE schSrv; HRESULT hres = S_OK; TCHAR achModuleName[MAX_PATH]; TCHAR achFailureCommand[MAX_PATH+32]; HINSTANCE hAdvapi; if ( hAdvapi = LoadLibrary(_T("ADVAPI32.DLL")) ) { pfnQueryServiceConfig2 = (PFNQUERYSERVICECONFIG2)GetProcAddress( hAdvapi, "QueryServiceConfig2W" ); pfnChangeServiceConfig2 = (PFNCHANGESERVICECONFIG2)GetProcAddress( hAdvapi, "ChangeServiceConfig2W" ); } if ( pfnQueryServiceConfig2 && pfnChangeServiceConfig2 ) { if ( pszCmdline == NULL ) { if ( !GetModuleFileName( NULL, achModuleName, sizeof(achModuleName)/sizeof(TCHAR) ) ) { hres = RETURNCODETOHRESULT( GetLastError() ); } else { pszCmdline = achModuleName; } } if ( SUCCEEDED( hres ) ) { schSCM = OpenSCManager(NULL, NULL, SC_MANAGER_ALL_ACCESS); if ( schSCM == NULL ) { hres = RETURNCODETOHRESULT( GetLastError() ); } else { // We need to determine what IIS version we are running on // in order to know the correct way to setup the server. BOOL fIIS6orGreater = IsIIS6orGreater(); // // In IIS 5.1 we want to use the default /restart // setting of iisreset. In IIS 6 or greater we // want to use the /start option. A customer // can configure it to use the /restart option, but // that is not the default for the scm. // if ( fIIS6orGreater ) { wsprintf( achFailureCommand, _T("\"%s\" /start /fail=%%1%%"), pszCmdline ); } else { wsprintf( achFailureCommand, _T("\"%s\" /fail=%%1%%"), pszCmdline ); } sfaAction.lpCommand = achFailureCommand; sfaAction.lpRebootMsg = _T(""); sfaAction.dwResetPeriod = 24 * 60 * 60; if ( fEnable ) { sfaAction.cActions = 3; sfaAction.lpsaActions = saCmdline; saCmdline[0].Type = SC_ACTION_RUN_COMMAND; saCmdline[0].Delay = 1; saCmdline[1].Type = SC_ACTION_RUN_COMMAND; saCmdline[1].Delay = 1; saCmdline[2].Type = SC_ACTION_RUN_COMMAND; saCmdline[2].Delay = 1; } else { sfaAction.cActions = 3; sfaAction.lpsaActions = saCmdline; saCmdline[0].Type = SC_ACTION_NONE; saCmdline[0].Delay = 0; saCmdline[1].Type = SC_ACTION_NONE; saCmdline[1].Delay = 0; saCmdline[2].Type = SC_ACTION_NONE; saCmdline[2].Delay = 0; } schSrv = OpenService( schSCM, _T("IISADMIN"), SERVICE_ALL_ACCESS); if ( schSrv ) { if ( !pfnChangeServiceConfig2( schSrv, SERVICE_CONFIG_FAILURE_ACTIONS, &sfaAction ) ) { hres = RETURNCODETOHRESULT( GetLastError() ); } CloseServiceHandle( schSrv ); } else { hres = RETURNCODETOHRESULT( GetLastError() ); } // // Now that we have configured IISAdmin correctly, we also need to // configure W3SVC. // if ( fIIS6orGreater ) { sfaAction.lpCommand = NULL; sfaAction.lpRebootMsg = _T(""); sfaAction.dwResetPeriod = 24 * 60 * 60; if ( fEnable ) { sfaAction.cActions = 3; sfaAction.lpsaActions = saCmdline; saCmdline[0].Type = SC_ACTION_RESTART; saCmdline[0].Delay = 1; saCmdline[1].Type = SC_ACTION_RESTART; saCmdline[1].Delay = 1; saCmdline[2].Type = SC_ACTION_RESTART; saCmdline[2].Delay = 1; } else { sfaAction.cActions = 3; sfaAction.lpsaActions = saCmdline; saCmdline[0].Type = SC_ACTION_NONE; saCmdline[0].Delay = 0; saCmdline[1].Type = SC_ACTION_NONE; saCmdline[1].Delay = 0; saCmdline[2].Type = SC_ACTION_NONE; saCmdline[2].Delay = 0; } schSrv = OpenService( schSCM, _T("W3SVC"), SERVICE_ALL_ACCESS); if ( schSrv ) { if ( !pfnChangeServiceConfig2( schSrv, SERVICE_CONFIG_FAILURE_ACTIONS, &sfaAction ) ) { hres = RETURNCODETOHRESULT( GetLastError() ); } CloseServiceHandle( schSrv ); } else { hres = RETURNCODETOHRESULT( GetLastError() ); } } // end of setting up restart on w3svc. CloseServiceHandle( schSCM ); } } } if ( hAdvapi ) { FreeLibrary( hAdvapi ); } return hres; } enum CMDS { CMD_NONE, CMD_START, CMD_STOP, CMD_REBOOT, CMD_RESTART, CMD_KILL }; int __cdecl main( int argc, char*argv[] ) /*++ main main function Arguments: argc argv Returns: 0 if no error, otherwise error code --*/ { IIisServiceControl* pIf; int iA; int Status = 0; HRESULT hRes; CMDS iCmd = CMD_NONE; DWORD dwStopTimeout = 60 * 1000; DWORD dwRestartTimeout = 20 * 1000; DWORD dwStartTimeout = 60 * 1000; LPBYTE pbBuffer; BYTE abBuffer[4096]; LPBYTE pbOutBuffer; BYTE abOutBuffer[4096]; DWORD dwRequired; DWORD dwNumServices; LPVOID apvParams[8]; UINT i; BOOL fNoCmd = FALSE; BOOL fRebootOnError = FALSE; BOOL fKillOnError = TRUE; BOOL fForce = TRUE; BOOL fRebootRestart = FALSE; BOOL fStatus = FALSE; COSERVERINFO csiMachineName; MULTI_QI rgmq; WCHAR awchComputer[64]; LPSTR pszMachineName = NULL; BOOL fErrDisplayed = FALSE; DWORD dwFailCount; // // Make sure international versions display text ok - RonaldM // _tsetlocale( LC_ALL, _T(".OCP") ); _fputts( _T("\n"), stdout ); // // scan command line // for ( iA = 1 ; iA < argc ; ++iA ) { if ( argv[iA][0] == '-' || argv[iA][0] == '/' ) { if ( !lstrcmpiA( argv[iA]+1, "ENABLE" ) ) { hRes = SetEnableRemote( 1 ); if ( FAILED( hRes ) ) { if ( hRes == RETURNCODETOHRESULT( ERROR_ACCESS_DENIED ) ) { PrintMessage( IRSTASTR_ACCESS_DENIED, 0, NULL ); } else { DisplayErrorMessage( HRESULTTOWIN32( hRes ) ); } Status = HRESULTTOWIN32( hRes ); } else { PrintMessage( IRSTASTR_ENABLED, 0, NULL ); } fNoCmd = TRUE; } else if ( !lstrcmpiA( argv[iA]+1, "DISABLE" ) ) { hRes = SetEnableRemote( 0 ); if ( FAILED( hRes ) ) { if ( hRes == RETURNCODETOHRESULT( ERROR_ACCESS_DENIED ) ) { PrintMessage( IRSTASTR_ACCESS_DENIED, 0, NULL ); } else { DisplayErrorMessage( HRESULTTOWIN32( hRes ) ); } Status = HRESULTTOWIN32( hRes ); } else { PrintMessage( IRSTASTR_DISABLED, 0, NULL ); } fNoCmd = TRUE; } else if ( !_strnicmp( argv[iA]+1, "SCM", sizeof("SCM")-1 ) ) { if ( FAILED( hRes = SetSCM( NULL, TRUE ) ) ) { DisplayErrorMessage( HRESULTTOWIN32( hRes ) ); Status = HRESULTTOWIN32( hRes ); } goto Exit; } else if ( !_strnicmp( argv[iA]+1, "NOSCM", sizeof("NOSCM")-1 ) ) { if ( FAILED( hRes = SetSCM( NULL, FALSE ) ) ) { DisplayErrorMessage( HRESULTTOWIN32( hRes ) ); Status = HRESULTTOWIN32( hRes ); } goto Exit; } else if ( !_strnicmp( argv[iA]+1, "STOPTIMEOUT:", sizeof("STOPTIMEOUT:")-1 ) ) { if ( !GetNumeric( argv[iA]+ 1 + sizeof("STOPTIMEOUT:") - 1, &dwStopTimeout ) ) { goto invalid_param; } dwStopTimeout *= 1000; } else if ( !_strnicmp( argv[iA]+1, "TIMEOUT:", sizeof("TIMEOUT:")-1 ) ) { if ( !GetNumeric( argv[iA]+ 1 + sizeof("TIMEOUT:") - 1, &dwStopTimeout ) ) { goto invalid_param; } dwStopTimeout *= 1000; dwRestartTimeout = dwStopTimeout; } else if ( !_strnicmp( argv[iA]+1, "STARTTIMEOUT:", sizeof("STARTTIMEOUT:")-1 ) ) { if ( !GetNumeric( argv[iA]+ 1 + sizeof("STARTTIMEOUT:") - 1, &dwStartTimeout ) ) { goto invalid_param; } dwStartTimeout *= 1000; } else if ( !_strnicmp( argv[iA]+1, "RESTARTTIMEOUT:", sizeof("RESTARTTIMEOUT:")-1 ) ) { if ( !GetNumeric( argv[iA]+ 1 + sizeof("RESTARTTIMEOUT:") - 1, &dwRestartTimeout ) ) { goto invalid_param; } dwRestartTimeout *= 1000; } else if ( !_strnicmp( argv[iA]+1, "fail=", sizeof("fail=")-1 ) ) { // // SCM flag to control restart threshold. We restart only // 50 times per SCM restart period. // // ... The SCM UI already has a way to address this: they add // a "/fail=N" parameter to the command line // of the restarter app for each time they fail within the time // period and leave it up to the restarter app to interpret // this parameter and throttle restarts approprately. // So...(here's the change request) we need to capture this // value, and if "N" is greater than our limit for 1 day of // restarting (hardcoded to 50), we should just exit the // command line app with a success code without doing anything, // i.e. "IISRESET.EXE /fail=50" should restart IIS, // but "IISRESET.EXE /fail=51" should be a no-op. // For simplicity, we should hardcode this value of 50 in // our app-- if a user wants a different value, he can write // a batch file wrapper to do it! You can see // the SCM recovery tab for more info. // dwFailCount = atoi( argv[iA]+ 1 + sizeof("fail=") - 1 ); if ( dwFailCount > 50 ) { return 0; } } else if ( !lstrcmpiA( argv[iA]+1, "START" ) ) { if ( fRebootRestart ) { } else if ( iCmd == CMD_STOP ) { iCmd = CMD_RESTART; } else { iCmd = CMD_START; } } else if ( !lstrcmpiA( argv[iA]+1, "STOP" ) ) { if ( fRebootRestart ) { } if ( iCmd == CMD_START ) { iCmd = CMD_RESTART; } else { iCmd = CMD_STOP; } } else if ( !lstrcmpiA( argv[iA]+1, "REBOOT" ) ) { iCmd = CMD_REBOOT; fRebootRestart = TRUE; } else if ( !lstrcmpiA( argv[iA]+1, "KILL" ) ) { iCmd = CMD_KILL; fRebootRestart = TRUE; } else if ( !lstrcmpiA( argv[iA]+1, "RESTART" ) ) { iCmd = CMD_RESTART; fRebootRestart = TRUE; } else if ( !lstrcmpiA( argv[iA]+1, "STATUS" ) ) { fStatus = TRUE; } else if ( !lstrcmpiA( argv[iA]+1, "REBOOTONERROR" ) ) { fRebootOnError = TRUE; fKillOnError = FALSE; } else if ( !lstrcmpiA( argv[iA]+1, "NOFORCE" ) ) { fKillOnError = FALSE; fForce = FALSE; } else if ( !lstrcmpiA( argv[iA]+1, "HELP" ) ) { PrintMessage( IRSTASTR_USAGE, 0, NULL ); return 0; } else { invalid_param: PrintMessage( IRSTASTR_USAGE, 0, NULL ); return ERROR_INVALID_PARAMETER; } } else { pszMachineName = argv[iA]; } } if ( iCmd == CMD_NONE && !fNoCmd && !fStatus ) { iCmd = CMD_RESTART; } // //fill the structure for CoCreateInstanceEx // ZeroMemory( &csiMachineName, sizeof(csiMachineName) ); if ( pszMachineName ) { if ( !MultiByteToWideChar( CP_ACP, MB_PRECOMPOSED, pszMachineName, -1, awchComputer, sizeof(awchComputer) / sizeof(WCHAR)) ) { return GetLastError(); } csiMachineName.pwszName = awchComputer; } else { csiMachineName.pwszName = NULL; } if ( fNoCmd ) { iCmd = CMD_NONE; fStatus = FALSE; } if ( iCmd != CMD_NONE || fStatus ) { BOOL fCoInitialized = true; // // call method // rgmq.pIID = &IID_IIisServiceControl; rgmq.pItf = NULL; rgmq.hr = 0; if (FAILED(hRes = CoInitializeEx( NULL, COINIT_MULTITHREADED ))) { fCoInitialized = false; } else if ( SUCCEEDED( hRes = CoCreateInstanceEx( CLSID_IisServiceControl, NULL, CLSCTX_SERVER, &csiMachineName, 1, &rgmq ) ) && SUCCEEDED( hRes = rgmq.hr ) ) { pIf = (IIisServiceControl*)rgmq.pItf; switch ( iCmd ) { case CMD_START: PrintMessage( IRSTASTR_START_ATTEMPT, 0, NULL ); hRes = pIf->Start( dwStartTimeout ); if ( SUCCEEDED( hRes ) ) { PrintMessage( IRSTASTR_START_SUCCESS, 0, NULL ); } else { CmdError( IRSTASTR_START_FAILED, hRes ); fErrDisplayed = TRUE; } break; case CMD_STOP: PrintMessage( IRSTASTR_STOP_ATTEMPT, 0, NULL ); hRes = pIf->Stop( dwStopTimeout, fKillOnError ); if ( SUCCEEDED( hRes ) ) { PrintMessage( IRSTASTR_STOP_SUCCESS, 0, NULL ); } else { CmdError( IRSTASTR_STOP_FAILED, hRes ); fErrDisplayed = TRUE; } break; case CMD_REBOOT: PrintMessage( IRSTASTR_REBOOT_ATTEMPT, 0, NULL ); hRes = pIf->Reboot( dwRestartTimeout, fForce ); if ( SUCCEEDED( hRes ) ) { PrintMessage( IRSTASTR_REBOOT_SUCCESS, 0, NULL ); } else { CmdError( IRSTASTR_REBOOT_FAILED, hRes ); fErrDisplayed = TRUE; } break; case CMD_KILL: PrintMessage( IRSTASTR_KILL_ON_ERROR, 0, NULL ); hRes = pIf->Kill(); if ( SUCCEEDED( hRes ) ) { PrintMessage( IRSTASTR_KILL_SUCCESS, 0, NULL ); } else { CmdError( IRSTASTR_KILL_FAILED, hRes ); fErrDisplayed = TRUE; } break; case CMD_RESTART: PrintMessage( IRSTASTR_STOP_ATTEMPT, 0, NULL ); hRes = pIf->Stop( dwRestartTimeout, fKillOnError ); if ( SUCCEEDED( hRes ) ) { PrintMessage( IRSTASTR_STOP_SUCCESS, 0, NULL ); PrintMessage( IRSTASTR_START_ATTEMPT, 0, NULL ); hRes = pIf->Start( dwStartTimeout ); if ( SUCCEEDED( hRes ) ) { PrintMessage( IRSTASTR_RESTART_SUCCESS, 0, NULL ); } } if ( FAILED( hRes ) ) { CmdError( IRSTASTR_RESTART_FAILED, hRes ); fErrDisplayed = TRUE; } break; } if ( fStatus ) { pbBuffer = NULL; fErrDisplayed = FALSE; if ( FAILED( hRes = pIf->Status( sizeof(abBuffer), abBuffer, &dwRequired, &dwNumServices ) ) ) { if ( RETURNCODETOHRESULT( ERROR_INSUFFICIENT_BUFFER ) == hRes ) { if ( (pbBuffer = (LPBYTE)LocalAlloc( LMEM_FIXED, dwRequired )) == NULL ) { hRes = RETURNCODETOHRESULT( ERROR_NOT_ENOUGH_MEMORY ); } else { hRes = pIf->Status( dwRequired, pbBuffer, &dwRequired, &dwNumServices ); } } } else { pbBuffer = abBuffer; } if ( SUCCEEDED( hRes ) ) { pbOutBuffer = NULL; if ( FAILED( hRes = DeserializeEnumServiceBuffer( pbBuffer, dwNumServices, abOutBuffer, sizeof(abOutBuffer), &dwRequired ) ) ) { if ( RETURNCODETOHRESULT( ERROR_INSUFFICIENT_BUFFER ) == hRes ) { if ( (pbOutBuffer = (LPBYTE)LocalAlloc( LMEM_FIXED, dwRequired )) == NULL ) { hRes = RETURNCODETOHRESULT( ERROR_NOT_ENOUGH_MEMORY ); } else { hRes = DeserializeEnumServiceBuffer( pbBuffer, dwNumServices, pbOutBuffer, dwRequired, &dwRequired ); } } } else { pbOutBuffer = abOutBuffer; } } if ( SUCCEEDED( hRes ) ) { for ( i = 0 ; i < dwNumServices ; ++i ) { apvParams[0] = ((LPENUM_SERVICE_STATUS)pbOutBuffer)[i].lpDisplayName; apvParams[1] = ((LPENUM_SERVICE_STATUS)pbOutBuffer)[i].lpServiceName; switch ( ((LPENUM_SERVICE_STATUS)pbOutBuffer)[i].ServiceStatus.dwCurrentState ) { case SERVICE_STOPPED: apvParams[2] = GetString(IRSTASTR_SERVICE_STOPPED); break; case SERVICE_START_PENDING: apvParams[2] = GetString(IRSTASTR_SERVICE_START_PENDING); break; case SERVICE_STOP_PENDING: apvParams[2] = GetString(IRSTASTR_SERVICE_STOP_PENDING); break; case SERVICE_RUNNING: apvParams[2] = GetString(IRSTASTR_SERVICE_RUNNING); break; case SERVICE_CONTINUE_PENDING: apvParams[2] = GetString(IRSTASTR_SERVICE_CONTINUE_PENDING); break; case SERVICE_PAUSE_PENDING: apvParams[2] = GetString(IRSTASTR_SERVICE_PAUSE_PENDING); break; case SERVICE_PAUSED: apvParams[2] = GetString(IRSTASTR_SERVICE_PAUSED); break; default: apvParams[2] = GetString(IRSTASTR_SERVICE_DEFAULT); break; } PrintMessage( IRSTASTR_STATUS_ITEM, 3, apvParams ); } } if ( pbBuffer != NULL && pbBuffer != abBuffer ) { LocalFree( pbBuffer ); } if ( pbOutBuffer != NULL && pbOutBuffer != abOutBuffer ) { LocalFree( pbOutBuffer ); } } if ( FAILED( hRes ) && fRebootOnError && ( iCmd == CMD_STOP || iCmd == CMD_RESTART ) ) { fErrDisplayed = FALSE; PrintMessage( IRSTASTR_REBOOT_ON_ERROR, 0, NULL ); hRes = pIf->Reboot( 0, fForce ); if ( SUCCEEDED( hRes ) ) { PrintMessage( IRSTASTR_REBOOT_SUCCESS, 0, NULL ); } } #if 0 if ( FAILED( hRes ) && fKillOnError && ( iCmd == CMD_STOP || iCmd == CMD_RESTART ) ) { fErrDisplayed = FALSE; PrintMessage( IRSTASTR_KILL_ON_ERROR, 0, NULL ); hRes = pIf->Kill(); if ( SUCCEEDED( hRes ) ) { PrintMessage( IRSTASTR_KILL_SUCCESS, 0, NULL ); } } #endif pIf->Release(); if ( FAILED( hRes ) ) { if ( !fErrDisplayed ) { if ( hRes == RETURNCODETOHRESULT( ERROR_RESOURCE_DISABLED ) ) { PrintMessage( IRSTASTR_REMOTE_DISABLED, 0, NULL ); } else if ( hRes == RETURNCODETOHRESULT( ERROR_ACCESS_DENIED ) ) { PrintMessage( IRSTASTR_ACCESS_DENIED, 0, NULL ); } else { DisplayErrorMessage( HRESULTTOWIN32( hRes ) ); } } Status = HRESULTTOWIN32( hRes ); } } else { if ( hRes == RETURNCODETOHRESULT( ERROR_ACCESS_DENIED ) ) { PrintMessage( IRSTASTR_ACCESS_DENIED, 0, NULL ); } else { DisplayErrorMessage( HRESULTTOWIN32( hRes ) ); } Status = HRESULTTOWIN32( hRes ); } if (fCoInitialized) { CoUninitialize(); } } Exit: return Status; }