windows-nt/Source/XPSP1/NT/termsrv/apisub/apisub.c
2020-09-26 16:20:57 +08:00

1884 lines
57 KiB
C

/*******************************************************************************
*
* apisub.c
*
* RegApi helpers and convertion routines
*
* Copyright Microsoft Corporation, 1998
*
*
*******************************************************************************/
/*
* Includes
*/
#include <windows.h>
#include <stdio.h>
#include <winstaw.h>
#include <regapi.h>
/*
* General purpose UNICODE <==> ANSI functions
*/
VOID UnicodeToAnsi( CHAR *, ULONG, WCHAR * );
VOID AnsiToUnicode( WCHAR *, ULONG, CHAR * );
/*
* Reg Create helpers
*/
LONG SetNumValue( BOOLEAN, HKEY, LPWSTR, DWORD );
LONG SetNumValueEx( BOOLEAN, HKEY, LPWSTR, DWORD, DWORD );
LONG SetStringValue( BOOLEAN, HKEY, LPWSTR, LPWSTR );
LONG SetStringValueEx( BOOLEAN, HKEY, LPWSTR, DWORD, LPWSTR );
/*
* Reg Query helpers
*/
DWORD GetNumValue( HKEY, LPWSTR, DWORD );
DWORD GetNumValueEx( HKEY, LPWSTR, DWORD, DWORD );
LONG GetStringValue( HKEY, LPWSTR, LPWSTR, LPWSTR, DWORD );
LONG GetStringValueEx( HKEY, LPWSTR, DWORD, LPWSTR, LPWSTR, DWORD );
/*
* Pd conversion helpers.
*/
VOID PdConfigU2A( PPDCONFIGA, PPDCONFIGW );
VOID PdConfigA2U( PPDCONFIGW, PPDCONFIGA );
VOID PdConfig2U2A( PPDCONFIG2A, PPDCONFIG2W );
VOID PdConfig2A2U( PPDCONFIG2W, PPDCONFIG2A );
VOID PdConfig3U2A( PPDCONFIG3A, PPDCONFIG3W );
VOID PdConfig3A2U( PPDCONFIG3W, PPDCONFIG3A );
VOID PdParamsU2A( PPDPARAMSA, PPDPARAMSW );
VOID PdParamsA2U( PPDPARAMSW, PPDPARAMSA );
VOID AsyncConfigU2A ( PASYNCCONFIGA, PASYNCCONFIGW );
VOID AsyncConfigA2U ( PASYNCCONFIGW, PASYNCCONFIGA );
VOID NetworkConfigU2A ( PNETWORKCONFIGA, PNETWORKCONFIGW );
VOID NetworkConfigA2U ( PNETWORKCONFIGW, PNETWORKCONFIGA );
VOID NasiConfigU2A ( PNASICONFIGA, PNASICONFIGW );
VOID NasiConfigA2U ( PNASICONFIGW, PNASICONFIGA );
VOID OemTdConfigU2A ( POEMTDCONFIGA, POEMTDCONFIGW );
VOID OemTdConfigA2U ( POEMTDCONFIGW, POEMTDCONFIGA );
/*
* WinStation conversion helpers (regapi).
*/
VOID WinStationCreateU2A( PWINSTATIONCREATEA, PWINSTATIONCREATEW );
VOID WinStationCreateA2U( PWINSTATIONCREATEW, PWINSTATIONCREATEA );
VOID WinStationConfigU2A( PWINSTATIONCONFIGA, PWINSTATIONCONFIGW );
VOID WinStationConfigA2U( PWINSTATIONCONFIGW, PWINSTATIONCONFIGA );
VOID UserConfigU2A( PUSERCONFIGA, PUSERCONFIGW );
VOID UserConfigA2U( PUSERCONFIGW, PUSERCONFIGA );
/*
* WinStation conversion helpers (winstapi).
*/
VOID WinStationPrinterU2A( PWINSTATIONPRINTERA, PWINSTATIONPRINTERW );
VOID WinStationPrinterA2U( PWINSTATIONPRINTERW, PWINSTATIONPRINTERA );
VOID WinStationInformationU2A( PWINSTATIONINFORMATIONA,
PWINSTATIONINFORMATIONW );
VOID WinStationInformationA2U( PWINSTATIONINFORMATIONW,
PWINSTATIONINFORMATIONA );
VOID WinStationClientU2A( PWINSTATIONCLIENTA, PWINSTATIONCLIENTW );
VOID WinStationProductIdU2A( PWINSTATIONPRODIDA, PWINSTATIONPRODIDW );
/*
* Wd conversion helpers.
*/
VOID WdConfigU2A( PWDCONFIGA, PWDCONFIGW );
VOID WdConfigA2U( PWDCONFIGW, PWDCONFIGA );
/*
* Cd conversion helpers.
*/
VOID CdConfigU2A( PCDCONFIGA, PCDCONFIGW );
VOID CdConfigA2U( PCDCONFIGW, PCDCONFIGA );
/*
* procedures used (not defined here)
*/
VOID RtlUnicodeToMultiByteN( LPSTR, ULONG, PULONG, LPWSTR, ULONG );
VOID RtlMultiByteToUnicodeN( LPWSTR, ULONG, PULONG, LPSTR, ULONG );
/*******************************************************************************
*
* UnicodeToAnsi
*
* convert a UNICODE (WCHAR) string into an ANSI (CHAR) string
*
* ENTRY:
*
* pAnsiString (output)
* buffer to place ANSI string into
* lAnsiMax (input)
* maximum number of BYTES to write into pAnsiString (sizeof the
* pAnsiString buffer)
* pUnicodeString (input)
* UNICODE string to convert
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
UnicodeToAnsi( CHAR * pAnsiString,
ULONG lAnsiMax,
WCHAR * pUnicodeString )
{
ULONG ByteCount;
RtlUnicodeToMultiByteN( pAnsiString, lAnsiMax, &ByteCount,
pUnicodeString,
((wcslen(pUnicodeString) + 1) << 1) );
}
/*******************************************************************************
*
* AnsiToUnicode
*
* convert an ANSI (CHAR) string into a UNICODE (WCHAR) string
*
* ENTRY:
*
* pUnicodeString (output)
* buffer to place UNICODE string into
* lUnicodeMax (input)
* maximum number of BYTES to write into pUnicodeString (sizeof the
* pUnicodeString buffer).
* pAnsiString (input)
* ANSI string to convert
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
AnsiToUnicode( WCHAR * pUnicodeString,
ULONG lUnicodeMax,
CHAR * pAnsiString )
{
ULONG ByteCount;
RtlMultiByteToUnicodeN( pUnicodeString, lUnicodeMax, &ByteCount,
pAnsiString, (strlen(pAnsiString) + 1) );
}
/*******************************************************************************
*
* SetNumValue
*
* Set numeric (DWORD) value in registry
*
* ENTRY:
*
* bSetValue (input)
* TRUE to set value; FALSE to delete from registry
* Handle (input)
* registry handle
* ValueName (input)
* name of registry value to set
* ValueData (input)
* data (DWORD) for registry value to set
*
* EXIT:
* status from RegDeleteValue or RegSetValueEx
*
******************************************************************************/
LONG
SetNumValue( BOOLEAN bSetValue,
HKEY Handle,
LPWSTR ValueName,
DWORD ValueData )
{
if ( bSetValue )
return( RegSetValueEx( Handle, ValueName, 0, REG_DWORD,
(BYTE *)&ValueData, sizeof(DWORD) ) );
else
return( RegDeleteValue( Handle, ValueName ) );
}
/*******************************************************************************
*
* SetNumValueEx
*
* Set numeric (DWORD) value in registry (for use with arrays)
*
* ENTRY:
*
* bSetValue (input)
* TRUE to set value; FALSE to delete from registry
* Handle (input)
* registry handle
* ValueName (input)
* name of registry value to set
* Index (input)
* Index of value (array index)
* ValueData (input)
* data (DWORD) for registry value to set
*
* EXIT:
* status from SetNumValue
*
******************************************************************************/
LONG
SetNumValueEx( BOOLEAN bSetValue,
HKEY Handle,
LPWSTR ValueName,
DWORD Index,
DWORD ValueData )
{
WCHAR Name[MAX_REGKEYWORD];
if ( Index > 0 )
swprintf( Name, L"%s%u", ValueName, Index );
else
wcscpy( Name, ValueName );
return( SetNumValue( bSetValue, Handle, Name, ValueData ) );
}
/*******************************************************************************
*
* SetStringValue
*
* Set string value in registry
*
* ENTRY:
*
* bSetValue (input)
* TRUE to set value; FALSE to delete from registry
* Handle (input)
* registry handle
* ValueName (input)
* name of registry value to set
* pValueData (input)
* data (string) for registry value to set
*
* EXIT:
* status from RegDeleteValue or RegSetValueEx
*
******************************************************************************/
LONG
SetStringValue( BOOLEAN bSetValue,
HKEY Handle,
LPWSTR ValueName,
LPWSTR pValueData )
{
if ( bSetValue )
return( RegSetValueEx( Handle, ValueName, 0, REG_SZ,
(BYTE *)pValueData, (wcslen(pValueData)+1)<<1 ) );
else
return( RegDeleteValue( Handle, ValueName ) );
}
/*******************************************************************************
*
* SetStringValueEx
*
* Set string value in registry (for use with arrays)
*
* ENTRY:
*
* bSetValue (input)
* TRUE to set value; FALSE to delete from registry
* Handle (input)
* registry handle
* ValueName (input)
* name of registry value to set
* Index (input)
* Index of value (array index)
* pValueData (input)
* data (string) for registry value to set
*
* EXIT:
* status from SetStringValue
*
******************************************************************************/
LONG
SetStringValueEx( BOOLEAN bSetValue,
HKEY Handle,
LPWSTR ValueName,
DWORD Index,
LPWSTR pValueData )
{
WCHAR Name[MAX_REGKEYWORD];
if ( Index > 0 )
swprintf( Name, L"%s%u", ValueName, Index );
else
wcscpy( Name, ValueName );
return( SetStringValue( bSetValue, Handle, Name, pValueData ) );
}
/*******************************************************************************
*
* GetNumValue
*
* get numeric (DWORD) value from registry
*
* ENTRY:
*
* Handle (input)
* registry handle
* ValueName (input)
* name of registry value to query
* DefaultData (input)
* default value to return if registry value name does not exist
*
* EXIT:
* registry value (DWORD)
*
******************************************************************************/
DWORD
GetNumValue( HKEY Handle,
LPWSTR ValueName,
DWORD DefaultData )
{
LONG Status;
DWORD ValueType;
DWORD ValueData;
DWORD ValueSize = sizeof(DWORD);
Status = RegQueryValueEx( Handle, ValueName, NULL, &ValueType,
(LPBYTE) &ValueData, &ValueSize );
if ( Status != ERROR_SUCCESS )
ValueData = DefaultData;
return( ValueData );
}
/*******************************************************************************
*
* GetNumValueEx
*
* get numeric (DWORD) value from registry (for use with arrays)
*
* ENTRY:
*
* Handle (input)
* registry handle
* ValueName (input)
* name of registry value to query
* Index (input)
* Index of value (array index)
* DefaultData (input)
* default value to return if registry value name does not exist
*
* EXIT:
* registry value (DWORD)
*
******************************************************************************/
DWORD
GetNumValueEx( HKEY Handle,
LPWSTR ValueName,
DWORD Index,
DWORD DefaultData )
{
WCHAR Name[MAX_REGKEYWORD];
if ( Index > 0 )
swprintf( Name, L"%s%u", ValueName, Index );
else
wcscpy( Name, ValueName );
return( GetNumValue( Handle, Name, DefaultData ) );
}
/*******************************************************************************
*
* GetStringValue
*
* get string value from registry
*
* ENTRY:
*
* Handle (input)
* registry handle
* ValueName (input)
* name of registry value to query
* DefaultData (input)
* default value to return if registry value name does not exist
* pValueData (output)
* pointer to buffer to store returned string
* MaxValueSize (input)
* max length of pValueData buffer
*
* EXIT:
* nothing
*
******************************************************************************/
LONG
GetStringValue( HKEY Handle,
LPWSTR ValueName,
LPWSTR DefaultData,
LPWSTR pValueData,
DWORD MaxValueSize )
{
LONG Status;
DWORD ValueType;
DWORD ValueSize = MaxValueSize << 1;
Status = RegQueryValueEx( Handle, ValueName, NULL, &ValueType,
(LPBYTE) pValueData, &ValueSize );
if ( Status != ERROR_SUCCESS || ValueSize == sizeof(UNICODE_NULL) ) {
if ( DefaultData )
wcscpy( pValueData, DefaultData );
else
pValueData[0] = 0;
} else {
if ( ValueType != REG_SZ ) {
pValueData[0] = 0;
return( ERROR_INVALID_DATATYPE );
}
}
return( ERROR_SUCCESS );
}
/*******************************************************************************
*
* GetStringValueEx
*
* get string value from registry (for use with arrays)
*
* ENTRY:
*
* Handle (input)
* registry handle
* ValueName (input)
* name of registry value to query
* Index (input)
* Index of value (array index)
* DefaultData (input)
* default value to return if registry value name does not exist
* pValueData (output)
* pointer to buffer to store returned string
* MaxValueSize (input)
* max length of pValueData buffer
*
* EXIT:
* nothing
*
******************************************************************************/
LONG
GetStringValueEx( HKEY Handle,
LPWSTR ValueName,
DWORD Index,
LPWSTR DefaultData,
LPWSTR pValueData,
DWORD MaxValueSize )
{
WCHAR Name[MAX_REGKEYWORD];
if ( Index > 0 )
swprintf( Name, L"%s%u", ValueName, Index );
else
wcscpy( Name, ValueName );
return( GetStringValue( Handle, Name, DefaultData, pValueData, MaxValueSize ) );
}
/*******************************************************************************
*
* PdConfigU2A (UNICODE to ANSI)
*
* copies PDCONFIGW elements to PDCONFIGA elements
*
* ENTRY:
* pPdConfigA (output)
* points to PDCONFIGA structure to copy to
*
* pPdConfigW (input)
* points to PDCONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
PdConfigU2A( PPDCONFIGA pPdConfigA,
PPDCONFIGW pPdConfigW )
{
PdConfig2U2A( &(pPdConfigA->Create), &(pPdConfigW->Create) );
PdParamsU2A( &(pPdConfigA->Params), &(pPdConfigW->Params) );
}
/*******************************************************************************
*
* PdConfigA2U (ANSI to UNICODE)
*
* copies PDCONFIGA elements to PDCONFIGW elements
*
* ENTRY:
* pPdConfigW (output)
* points to PDCONFIGW structure to copy to
*
* pPdConfigA (input)
* points to PDCONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
PdConfigA2U( PPDCONFIGW pPdConfigW,
PPDCONFIGA pPdConfigA )
{
PdConfig2A2U( &(pPdConfigW->Create), &(pPdConfigA->Create) );
PdParamsA2U( &(pPdConfigW->Params), &(pPdConfigA->Params) );
}
/*******************************************************************************
*
* PdConfig2U2A (UNICODE to ANSI)
*
* copies PDCONFIG2W elements to PDCONFIG2A elements
*
* ENTRY:
* pPdConfig2A (output)
* points to PDCONFIG2A structure to copy to
*
* pPdConfig2W (input)
* points to PDCONFIG2W structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
PdConfig2U2A( PPDCONFIG2A pPdConfig2A,
PPDCONFIG2W pPdConfig2W )
{
UnicodeToAnsi( pPdConfig2A->PdName,
sizeof(pPdConfig2A->PdName),
pPdConfig2W->PdName );
pPdConfig2A->SdClass = pPdConfig2W->SdClass;
UnicodeToAnsi( pPdConfig2A->PdDLL,
sizeof(pPdConfig2A->PdDLL),
pPdConfig2W->PdDLL );
pPdConfig2A->PdFlag = pPdConfig2W->PdFlag;
pPdConfig2A->OutBufLength = pPdConfig2W->OutBufLength;
pPdConfig2A->OutBufCount = pPdConfig2W->OutBufCount;
pPdConfig2A->OutBufDelay = pPdConfig2W->OutBufDelay;
pPdConfig2A->InteractiveDelay = pPdConfig2W->InteractiveDelay;
pPdConfig2A->PortNumber = pPdConfig2W->PortNumber;
pPdConfig2A->KeepAliveTimeout = pPdConfig2W->KeepAliveTimeout;
}
/*******************************************************************************
*
* PdConfig2A2U (ANSI to UNICODE)
*
* copies PDCONFIG2A elements to PDCONFIG2W elements
*
* ENTRY:
* pPdConfig2W (output)
* points to PDCONFIG2W structure to copy to
*
* pPdConfig2A (input)
* points to PDCONFIG2A structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
PdConfig2A2U( PPDCONFIG2W pPdConfig2W,
PPDCONFIG2A pPdConfig2A )
{
AnsiToUnicode( pPdConfig2W->PdName,
sizeof(pPdConfig2W->PdName),
pPdConfig2A->PdName );
pPdConfig2W->SdClass = pPdConfig2A->SdClass;
AnsiToUnicode( pPdConfig2W->PdDLL,
sizeof(pPdConfig2W->PdDLL),
pPdConfig2A->PdDLL );
pPdConfig2W->PdFlag = pPdConfig2A->PdFlag;
pPdConfig2W->OutBufLength = pPdConfig2A->OutBufLength;
pPdConfig2W->OutBufCount = pPdConfig2A->OutBufCount;
pPdConfig2W->OutBufDelay = pPdConfig2A->OutBufDelay;
pPdConfig2W->InteractiveDelay = pPdConfig2A->InteractiveDelay;
pPdConfig2W->PortNumber = pPdConfig2A->PortNumber;
pPdConfig2W->KeepAliveTimeout = pPdConfig2A->KeepAliveTimeout;
}
/*******************************************************************************
*
* PdConfig3U2A (UNICODE to ANSI)
*
* copies PDCONFIG3W elements to PDCONFIG3A elements
*
* ENTRY:
* pPdConfig3A (output)
* points to PDCONFIG3A structure to copy to
*
* pPdConfig3W (input)
* points to PDCONFIG3W structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
PdConfig3U2A( PPDCONFIG3A pPdConfig3A,
PPDCONFIG3W pPdConfig3W )
{
PdConfig2U2A( &(pPdConfig3A->Data), &(pPdConfig3W->Data) );
UnicodeToAnsi( pPdConfig3A->ServiceName,
sizeof(pPdConfig3A->ServiceName),
pPdConfig3W->ServiceName );
UnicodeToAnsi( pPdConfig3A->ConfigDLL,
sizeof(pPdConfig3A->ConfigDLL),
pPdConfig3W->ConfigDLL );
}
/*******************************************************************************
*
* PdConfig3A2U (ANSI to UNICODE)
*
* copies PDCONFIG3A elements to PDCONFIG3W elements
*
* ENTRY:
* pPdConfig3W (output)
* points to PDCONFIG3W structure to copy to
*
* pPdConfig3A (input)
* points to PDCONFIG3A structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
PdConfig3A2U( PPDCONFIG3W pPdConfig3W,
PPDCONFIG3A pPdConfig3A )
{
PdConfig2A2U( &(pPdConfig3W->Data), &(pPdConfig3A->Data) );
AnsiToUnicode( pPdConfig3W->ServiceName,
sizeof(pPdConfig3W->ServiceName),
pPdConfig3A->ServiceName );
AnsiToUnicode( pPdConfig3W->ConfigDLL,
sizeof(pPdConfig3W->ConfigDLL),
pPdConfig3A->ConfigDLL );
}
/*******************************************************************************
*
* PdParamsU2A (UNICODE to ANSI)
*
* copies PDPARAMSW elements to PDPARAMSA elements
*
* ENTRY:
* pPdParamsA (output)
* points to PDPARAMSA structure to copy to
*
* pPdParamsW (input)
* points to PDPARAMSW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
PdParamsU2A( PPDPARAMSA pPdParamsA,
PPDPARAMSW pPdParamsW )
{
pPdParamsA->SdClass = pPdParamsW->SdClass;
switch ( pPdParamsW->SdClass ) {
case SdNetwork:
NetworkConfigU2A( &(pPdParamsA->Network), &(pPdParamsW->Network) );
break;
case SdNasi:
NasiConfigU2A( &(pPdParamsA->Nasi), &(pPdParamsW->Nasi) );
break;
case SdAsync:
AsyncConfigU2A( &(pPdParamsA->Async), &(pPdParamsW->Async) );
break;
case SdOemTransport:
OemTdConfigU2A( &(pPdParamsA->OemTd), &(pPdParamsW->OemTd) );
break;
}
}
/*******************************************************************************
*
* PdParamsA2U (ANSI to UNICODE)
*
* copies PDPARAMSA elements to PDPARAMSW elements
*
* ENTRY:
* pPdParamsW (output)
* points to PDPARAMSW structure to copy to
*
* pPdParamsA (input)
* points to PDPARAMSA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
PdParamsA2U( PPDPARAMSW pPdParamsW,
PPDPARAMSA pPdParamsA )
{
pPdParamsW->SdClass = pPdParamsA->SdClass;
switch ( pPdParamsA->SdClass ) {
case SdNetwork:
NetworkConfigA2U( &(pPdParamsW->Network), &(pPdParamsA->Network) );
break;
case SdNasi:
NasiConfigA2U( &(pPdParamsW->Nasi), &(pPdParamsA->Nasi) );
break;
case SdAsync:
AsyncConfigA2U( &(pPdParamsW->Async), &(pPdParamsA->Async) );
break;
case SdOemTransport:
OemTdConfigA2U( &(pPdParamsW->OemTd), &(pPdParamsA->OemTd) );
break;
}
}
/*******************************************************************************
*
* NetworkConfigU2A (UNICODE to ANSI)
*
* copies NETWORKCONFIGW elements to NETWORKCONFIGA elements
*
* ENTRY:
* pNetworkConfigA (output)
* points to NETWORKCONFIGA structure to copy to
*
* pNetworkConfigW (input)
* points to NETWORKCONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
NetworkConfigU2A( PNETWORKCONFIGA pNetworkConfigA,
PNETWORKCONFIGW pNetworkConfigW )
{
pNetworkConfigA->LanAdapter = pNetworkConfigW->LanAdapter;
UnicodeToAnsi( pNetworkConfigA->NetworkName,
sizeof(pNetworkConfigA->NetworkName),
pNetworkConfigW->NetworkName );
pNetworkConfigA->Flags = pNetworkConfigW->Flags;
}
/*******************************************************************************
*
* NetworkConfigA2U (ANSI to UNICODE)
*
* copies NETWORKCONFIGA elements to NETWORKCONFIGW elements
*
* ENTRY:
* pNetworkConfigW (output)
* points to NETWORKCONFIGW structure to copy to
*
* pNetworkConfigW (input)
* points to NETWORKCONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
NetworkConfigA2U( PNETWORKCONFIGW pNetworkConfigW,
PNETWORKCONFIGA pNetworkConfigA )
{
pNetworkConfigW->LanAdapter = pNetworkConfigA->LanAdapter;
AnsiToUnicode( pNetworkConfigW->NetworkName,
sizeof(pNetworkConfigW->NetworkName),
pNetworkConfigA->NetworkName );
pNetworkConfigW->Flags = pNetworkConfigA->Flags;
}
/*******************************************************************************
*
* AsyncConfigU2A (UNICODE to ANSI)
*
* copies ASYNCCONFIGW elements to ASYNCCONFIGA elements
*
* ENTRY:
* pAsyncConfigA (output)
* points to ASYNCCONFIGA structure to copy to
*
* pAsyncConfigW (input)
* points to ASYNCCONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
AsyncConfigU2A( PASYNCCONFIGA pAsyncConfigA,
PASYNCCONFIGW pAsyncConfigW )
{
UnicodeToAnsi( pAsyncConfigA->DeviceName,
sizeof(pAsyncConfigA->DeviceName),
pAsyncConfigW->DeviceName );
UnicodeToAnsi( pAsyncConfigA->ModemName,
sizeof(pAsyncConfigA->ModemName),
pAsyncConfigW->ModemName );
pAsyncConfigA->BaudRate = pAsyncConfigW->BaudRate;
pAsyncConfigA->Parity = pAsyncConfigW->Parity;
pAsyncConfigA->StopBits = pAsyncConfigW->StopBits;
pAsyncConfigA->ByteSize = pAsyncConfigW->ByteSize;
pAsyncConfigA->fEnableDsrSensitivity = pAsyncConfigW->fEnableDsrSensitivity;
pAsyncConfigA->fConnectionDriver = pAsyncConfigW->fConnectionDriver;
pAsyncConfigA->FlowControl = pAsyncConfigW->FlowControl;
pAsyncConfigA->Connect = pAsyncConfigW->Connect;
}
/*******************************************************************************
*
* AsyncConfigA2U (ANSI to UNICODE)
*
* copies ASYNCCONFIGA elements to ASYNCCONFIGW elements
*
* ENTRY:
* pAsyncConfigW (output)
* points to ASYNCCONFIGW structure to copy to
*
* pAsyncConfigA (input)
* points to ASYNCCONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
AsyncConfigA2U( PASYNCCONFIGW pAsyncConfigW,
PASYNCCONFIGA pAsyncConfigA )
{
AnsiToUnicode( pAsyncConfigW->DeviceName,
sizeof(pAsyncConfigW->DeviceName),
pAsyncConfigA->DeviceName );
AnsiToUnicode( pAsyncConfigW->ModemName,
sizeof(pAsyncConfigW->ModemName),
pAsyncConfigA->ModemName );
pAsyncConfigW->BaudRate = pAsyncConfigA->BaudRate;
pAsyncConfigW->Parity = pAsyncConfigA->Parity;
pAsyncConfigW->StopBits = pAsyncConfigA->StopBits;
pAsyncConfigW->ByteSize = pAsyncConfigA->ByteSize;
pAsyncConfigW->fEnableDsrSensitivity = pAsyncConfigA->fEnableDsrSensitivity;
pAsyncConfigW->FlowControl = pAsyncConfigA->FlowControl;
pAsyncConfigW->Connect = pAsyncConfigA->Connect;
}
/*******************************************************************************
*
* NasiConfigU2A (UNICODE to ANSI)
*
* copies NASICONFIGW elements to NASICONFIGA elements
*
* ENTRY:
* pNasiConfigA (output)
* points to NASICONFIGA structure to copy to
*
* pNasiConfigW (input)
* points to NASICONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
NasiConfigU2A( PNASICONFIGA pNasiConfigA,
PNASICONFIGW pNasiConfigW )
{
UnicodeToAnsi( pNasiConfigA->SpecificName,
sizeof(pNasiConfigA->SpecificName),
pNasiConfigW->SpecificName );
UnicodeToAnsi( pNasiConfigA->UserName,
sizeof(pNasiConfigA->UserName),
pNasiConfigW->UserName );
UnicodeToAnsi( pNasiConfigA->PassWord,
sizeof(pNasiConfigA->PassWord),
pNasiConfigW->PassWord );
UnicodeToAnsi( pNasiConfigA->SessionName,
sizeof(pNasiConfigA->SessionName),
pNasiConfigW->SessionName );
UnicodeToAnsi( pNasiConfigA->FileServer,
sizeof(pNasiConfigA->FileServer),
pNasiConfigW->FileServer );
pNasiConfigA->GlobalSession = pNasiConfigW->GlobalSession;
}
/*******************************************************************************
*
* NasiConfigA2U (ANSI to UNICODE)
*
* copies NASICONFIGA elements to NASICONFIGW elements
*
* ENTRY:
* pNasiConfigW (output)
* points to NASICONFIGW structure to copy to
*
* pNasiConfigA (input)
* points to NASICONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
NasiConfigA2U( PNASICONFIGW pNasiConfigW,
PNASICONFIGA pNasiConfigA )
{
AnsiToUnicode( pNasiConfigW->SpecificName,
sizeof(pNasiConfigW->SpecificName),
pNasiConfigA->SpecificName );
AnsiToUnicode( pNasiConfigW->UserName,
sizeof(pNasiConfigW->UserName),
pNasiConfigA->UserName );
AnsiToUnicode( pNasiConfigW->PassWord,
sizeof(pNasiConfigW->PassWord),
pNasiConfigA->PassWord );
AnsiToUnicode( pNasiConfigW->SessionName,
sizeof(pNasiConfigW->SessionName),
pNasiConfigA->SessionName );
AnsiToUnicode( pNasiConfigW->FileServer,
sizeof(pNasiConfigW->FileServer),
pNasiConfigA->FileServer );
pNasiConfigW->GlobalSession = pNasiConfigA->GlobalSession;
}
/*******************************************************************************
*
* OemTdConfigU2A (UNICODE to ANSI)
*
* copies OEMTDCONFIGW elements to OEMTDCONFIGA elements
*
* ENTRY:
* pOemTdConfigA (output)
* points to OEMTDCONFIGA structure to copy to
*
* pOemTdConfigW (input)
* points to OEMTDCONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
OemTdConfigU2A( POEMTDCONFIGA pOemTdConfigA,
POEMTDCONFIGW pOemTdConfigW )
{
pOemTdConfigA->Adapter = pOemTdConfigW->Adapter;
UnicodeToAnsi( pOemTdConfigA->DeviceName,
sizeof(pOemTdConfigA->DeviceName),
pOemTdConfigW->DeviceName );
pOemTdConfigA->Flags = pOemTdConfigW->Flags;
}
/*******************************************************************************
*
* OemTdConfigA2U (ANSI to Unicode)
*
* copies OEMTDCONFIGA elements to OEMTDCONFIGW elements
*
* ENTRY:
* pOemTdConfigW (output)
* points to OEMTDCONFIGW structure to copy to
*
* pOemTdConfigA (input)
* points to OEMTDCONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
OemTdConfigA2U( POEMTDCONFIGW pOemTdConfigW,
POEMTDCONFIGA pOemTdConfigA )
{
pOemTdConfigW->Adapter = pOemTdConfigA->Adapter;
AnsiToUnicode( pOemTdConfigW->DeviceName,
sizeof(pOemTdConfigW->DeviceName),
pOemTdConfigA->DeviceName );
pOemTdConfigW->Flags = pOemTdConfigA->Flags;
}
/*******************************************************************************
*
* WdConfigU2A (UNICODE to ANSI)
*
* copies WDCONFIGW elements to WDCONFIGA elements
*
* ENTRY:
* pWdConfigA (output)
* points to WDCONFIGA structure to copy to
*
* pWdConfigW (input)
* points to WDCONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WdConfigU2A( PWDCONFIGA pWdConfigA,
PWDCONFIGW pWdConfigW )
{
UnicodeToAnsi( pWdConfigA->WdName,
sizeof(pWdConfigA->WdName),
pWdConfigW->WdName );
UnicodeToAnsi( pWdConfigA->WdDLL,
sizeof(pWdConfigA->WdDLL),
pWdConfigW->WdDLL );
UnicodeToAnsi( pWdConfigA->WsxDLL,
sizeof(pWdConfigA->WsxDLL),
pWdConfigW->WsxDLL );
pWdConfigA->WdFlag = pWdConfigW->WdFlag;
pWdConfigA->WdInputBufferLength = pWdConfigW->WdInputBufferLength;
UnicodeToAnsi( pWdConfigA->CfgDLL,
sizeof(pWdConfigA->CfgDLL),
pWdConfigW->CfgDLL );
UnicodeToAnsi( pWdConfigA->WdPrefix,
sizeof(pWdConfigA->WdPrefix),
pWdConfigW->WdPrefix );
}
/*******************************************************************************
*
* WdConfigA2U (ANSI to UNICODE)
*
* copies WDCONFIGA elements to WDCONFIGW elements
*
* ENTRY:
* pWdConfigW (output)
* points to WDCONFIGW structure to copy to
*
* pWdConfigA (input)
* points to WDCONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WdConfigA2U( PWDCONFIGW pWdConfigW,
PWDCONFIGA pWdConfigA )
{
AnsiToUnicode( pWdConfigW->WdName,
sizeof(pWdConfigW->WdName),
pWdConfigA->WdName );
AnsiToUnicode( pWdConfigW->WdDLL,
sizeof(pWdConfigW->WdDLL),
pWdConfigA->WdDLL );
AnsiToUnicode( pWdConfigW->WsxDLL,
sizeof(pWdConfigW->WsxDLL),
pWdConfigA->WsxDLL );
pWdConfigW->WdFlag = pWdConfigA->WdFlag;
pWdConfigW->WdInputBufferLength = pWdConfigA->WdInputBufferLength;
AnsiToUnicode( pWdConfigW->CfgDLL,
sizeof(pWdConfigW->CfgDLL),
pWdConfigA->CfgDLL );
AnsiToUnicode( pWdConfigW->WdPrefix,
sizeof(pWdConfigW->WdPrefix),
pWdConfigA->WdPrefix );
}
/*******************************************************************************
*
* CdConfigU2A (UNICODE to ANSI)
*
* copies CDCONFIGW elements to CDCONFIGA elements
*
* ENTRY:
* pCdConfigA (output)
* points to CDCONFIGA structure to copy to
*
* pCdConfigW (input)
* points to CDCONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
CdConfigU2A( PCDCONFIGA pCdConfigA,
PCDCONFIGW pCdConfigW )
{
pCdConfigA->CdClass = pCdConfigW->CdClass;
UnicodeToAnsi( pCdConfigA->CdName,
sizeof(pCdConfigA->CdName),
pCdConfigW->CdName );
UnicodeToAnsi( pCdConfigA->CdDLL,
sizeof(pCdConfigA->CdDLL),
pCdConfigW->CdDLL );
pCdConfigA->CdFlag = pCdConfigW->CdFlag;
}
/*******************************************************************************
*
* CdConfigA2U (ANSI to UNICODE)
*
* copies CDCONFIGA elements to CDCONFIGW elements
*
* ENTRY:
* pCdConfigW (output)
* points to CDCONFIGW structure to copy to
*
* pCdConfigA (input)
* points to CDCONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
CdConfigA2U( PCDCONFIGW pCdConfigW,
PCDCONFIGA pCdConfigA )
{
pCdConfigW->CdClass = pCdConfigA->CdClass;
AnsiToUnicode( pCdConfigW->CdName,
sizeof(pCdConfigW->CdName),
pCdConfigA->CdName );
AnsiToUnicode( pCdConfigW->CdDLL,
sizeof(pCdConfigW->CdDLL),
pCdConfigA->CdDLL );
pCdConfigW->CdFlag = pCdConfigA->CdFlag;
}
/*******************************************************************************
*
* WinStationCreateU2A (UNICODE to ANSI)
*
* copies WINSTATIONCREATEW elements to WINSTATIONCREATEA elements
*
* ENTRY:
* pWinStationCreateA (output)
* points to WINSTATIONCREATEA structure to copy to
*
* pWinStationCreateW (input)
* points to WINSTATIONCREATEW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationCreateU2A( PWINSTATIONCREATEA pWinStationCreateA,
PWINSTATIONCREATEW pWinStationCreateW )
{
pWinStationCreateA->fEnableWinStation = pWinStationCreateW->fEnableWinStation;
pWinStationCreateA->MaxInstanceCount = pWinStationCreateW->MaxInstanceCount;
}
/*******************************************************************************
*
* WinStationCreateA2U (ANSI to UNICODE)
*
* copies WINSTATIONCREATEA elements to WINSTATIONCREATEW elements
*
* ENTRY:
* pWinStationCreateW (output)
* points to WINSTATIONCREATEW structure to copy to
*
* pWinStationCreateA (input)
* points to WINSTATIONCREATEA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationCreateA2U( PWINSTATIONCREATEW pWinStationCreateW,
PWINSTATIONCREATEA pWinStationCreateA )
{
pWinStationCreateW->fEnableWinStation = pWinStationCreateA->fEnableWinStation;
pWinStationCreateW->MaxInstanceCount = pWinStationCreateA->MaxInstanceCount;
}
/*******************************************************************************
*
* WinStationConfigU2A (UNICODE to ANSI)
*
* copies WINSTATIONCONFIGW elements to WINSTATIONCONFIGA elements
*
* ENTRY:
* pWinStationConfigA (output)
* points to WINSTATIONCONFIGA structure to copy to
*
* pWinStationConfigW (input)
* points to WINSTATIONCONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationConfigU2A( PWINSTATIONCONFIGA pWinStationConfigA,
PWINSTATIONCONFIGW pWinStationConfigW )
{
UnicodeToAnsi( pWinStationConfigA->Comment,
sizeof(pWinStationConfigA->Comment),
pWinStationConfigW->Comment );
UserConfigU2A( &(pWinStationConfigA->User),
&(pWinStationConfigW->User) );
RtlCopyMemory( pWinStationConfigA->OEMId,
pWinStationConfigW->OEMId,
sizeof(pWinStationConfigW->OEMId) );
}
/*******************************************************************************
*
* WinStationConfigA2U (ANSI to UNICODE)
*
* copies WINSTATIONCONFIGA elements to WINSTATIONCONFIGW elements
*
* ENTRY:
* pWinStationConfigW (output)
* points to WINSTATIONCONFIGW structure to copy to
*
* pWinStationConfigA (input)
* points to WINSTATIONCONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationConfigA2U( PWINSTATIONCONFIGW pWinStationConfigW,
PWINSTATIONCONFIGA pWinStationConfigA )
{
AnsiToUnicode( pWinStationConfigW->Comment,
sizeof(pWinStationConfigW->Comment),
pWinStationConfigA->Comment );
UserConfigA2U( &(pWinStationConfigW->User),
&(pWinStationConfigA->User) );
RtlCopyMemory( pWinStationConfigW->OEMId,
pWinStationConfigA->OEMId,
sizeof(pWinStationConfigA->OEMId) );
}
/*******************************************************************************
*
* UserConfigU2A (UNICODE to ANSI)
*
* copies USERCONFIGW elements to USERCONFIGA elements
*
* ENTRY:
* pUserConfigA (output)
* points to USERCONFIGA structure to copy to
*
* pUserConfigW (input)
* points to USERCONFIGW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
UserConfigU2A( PUSERCONFIGA pUserConfigA,
PUSERCONFIGW pUserConfigW )
{
pUserConfigA->fInheritAutoLogon = pUserConfigW->fInheritAutoLogon;
pUserConfigA->fInheritResetBroken = pUserConfigW->fInheritResetBroken;
pUserConfigA->fInheritReconnectSame = pUserConfigW->fInheritReconnectSame;
pUserConfigA->fInheritInitialProgram = pUserConfigW->fInheritInitialProgram;
pUserConfigA->fInheritCallback = pUserConfigW->fInheritCallback;
pUserConfigA->fInheritCallbackNumber = pUserConfigW->fInheritCallbackNumber;
pUserConfigA->fInheritShadow = pUserConfigW->fInheritShadow;
pUserConfigA->fInheritMaxSessionTime = pUserConfigW->fInheritMaxSessionTime;
pUserConfigA->fInheritMaxDisconnectionTime = pUserConfigW->fInheritMaxDisconnectionTime;
pUserConfigA->fInheritMaxIdleTime = pUserConfigW->fInheritMaxIdleTime;
pUserConfigA->fInheritAutoClient = pUserConfigW->fInheritAutoClient;
pUserConfigA->fInheritSecurity = pUserConfigW->fInheritSecurity;
pUserConfigA->fPromptForPassword = pUserConfigW->fPromptForPassword;
pUserConfigA->fResetBroken = pUserConfigW->fResetBroken;
pUserConfigA->fReconnectSame = pUserConfigW->fReconnectSame;
pUserConfigA->fLogonDisabled = pUserConfigW->fLogonDisabled;
pUserConfigA->fWallPaperDisabled = pUserConfigW->fWallPaperDisabled;
pUserConfigA->fAutoClientDrives = pUserConfigW->fAutoClientDrives;
pUserConfigA->fAutoClientLpts = pUserConfigW->fAutoClientLpts;
pUserConfigA->fForceClientLptDef = pUserConfigW->fForceClientLptDef;
pUserConfigA->fDisableEncryption = pUserConfigW->fDisableEncryption;
pUserConfigA->fHomeDirectoryMapRoot = pUserConfigW->fHomeDirectoryMapRoot;
pUserConfigA->fUseDefaultGina = pUserConfigW->fUseDefaultGina;
pUserConfigA->fDisableCpm = pUserConfigW->fDisableCpm;
pUserConfigA->fDisableCdm = pUserConfigW->fDisableCdm;
pUserConfigA->fDisableCcm = pUserConfigW->fDisableCcm;
pUserConfigA->fDisableLPT = pUserConfigW->fDisableLPT;
pUserConfigA->fDisableClip = pUserConfigW->fDisableClip;
pUserConfigA->fDisableExe = pUserConfigW->fDisableExe;
pUserConfigA->fDisableCam = pUserConfigW->fDisableCam;
UnicodeToAnsi( pUserConfigA->UserName,
sizeof(pUserConfigA->UserName),
pUserConfigW->UserName );
UnicodeToAnsi( pUserConfigA->Domain,
sizeof(pUserConfigA->Domain),
pUserConfigW->Domain );
UnicodeToAnsi( pUserConfigA->Password,
sizeof(pUserConfigA->Password),
pUserConfigW->Password );
UnicodeToAnsi( pUserConfigA->WorkDirectory,
sizeof(pUserConfigA->WorkDirectory),
pUserConfigW->WorkDirectory );
UnicodeToAnsi( pUserConfigA->InitialProgram,
sizeof(pUserConfigA->InitialProgram),
pUserConfigW->InitialProgram );
UnicodeToAnsi( pUserConfigA->CallbackNumber,
sizeof(pUserConfigA->CallbackNumber),
pUserConfigW->CallbackNumber );
pUserConfigA->Callback = pUserConfigW->Callback;
pUserConfigA->Shadow = pUserConfigW->Shadow;
pUserConfigA->MaxConnectionTime = pUserConfigW->MaxConnectionTime;
pUserConfigA->MaxDisconnectionTime = pUserConfigW->MaxDisconnectionTime;
pUserConfigA->MaxIdleTime = pUserConfigW->MaxIdleTime;
pUserConfigA->KeyboardLayout = pUserConfigW->KeyboardLayout;
pUserConfigA->MinEncryptionLevel = pUserConfigW->MinEncryptionLevel;
UnicodeToAnsi( pUserConfigA->WFProfilePath,
sizeof(pUserConfigA->WFProfilePath),
pUserConfigW->WFProfilePath );
UnicodeToAnsi( pUserConfigA->WFHomeDir,
sizeof(pUserConfigA->WFHomeDir),
pUserConfigW->WFHomeDir );
UnicodeToAnsi( pUserConfigA->WFHomeDirDrive,
sizeof(pUserConfigA->WFHomeDirDrive),
pUserConfigW->WFHomeDirDrive );
}
/*******************************************************************************
*
* UserConfigA2U (ANSI to UNICODE)
*
* copies USERCONFIGA elements to USERCONFIGW elements
*
* ENTRY:
* pUserConfigW (output)
* points to USERCONFIGW structure to copy to
*
* pUserConfigA (input)
* points to USERCONFIGA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
UserConfigA2U( PUSERCONFIGW pUserConfigW,
PUSERCONFIGA pUserConfigA )
{
pUserConfigW->fInheritAutoLogon = pUserConfigA->fInheritAutoLogon;
pUserConfigW->fInheritResetBroken = pUserConfigA->fInheritResetBroken;
pUserConfigW->fInheritReconnectSame = pUserConfigA->fInheritReconnectSame;
pUserConfigW->fInheritInitialProgram = pUserConfigA->fInheritInitialProgram;
pUserConfigW->fInheritCallback = pUserConfigA->fInheritCallback;
pUserConfigW->fInheritCallbackNumber = pUserConfigA->fInheritCallbackNumber;
pUserConfigW->fInheritShadow = pUserConfigA->fInheritShadow;
pUserConfigW->fInheritMaxSessionTime = pUserConfigA->fInheritMaxSessionTime;
pUserConfigW->fInheritMaxDisconnectionTime = pUserConfigA->fInheritMaxDisconnectionTime;
pUserConfigW->fInheritMaxIdleTime = pUserConfigA->fInheritMaxIdleTime;
pUserConfigW->fInheritAutoClient = pUserConfigA->fInheritAutoClient;
pUserConfigW->fInheritSecurity = pUserConfigA->fInheritSecurity;
pUserConfigW->fPromptForPassword = pUserConfigA->fPromptForPassword;
pUserConfigW->fResetBroken = pUserConfigA->fResetBroken;
pUserConfigW->fReconnectSame = pUserConfigA->fReconnectSame;
pUserConfigW->fLogonDisabled = pUserConfigA->fLogonDisabled;
pUserConfigW->fWallPaperDisabled = pUserConfigA->fWallPaperDisabled;
pUserConfigW->fAutoClientDrives = pUserConfigA->fAutoClientDrives;
pUserConfigW->fAutoClientLpts = pUserConfigA->fAutoClientLpts;
pUserConfigW->fForceClientLptDef = pUserConfigA->fForceClientLptDef;
pUserConfigW->fDisableEncryption = pUserConfigA->fDisableEncryption;
pUserConfigW->fHomeDirectoryMapRoot = pUserConfigA->fHomeDirectoryMapRoot;
pUserConfigW->fUseDefaultGina = pUserConfigA->fUseDefaultGina;
pUserConfigW->fDisableCpm = pUserConfigA->fDisableCpm;
pUserConfigW->fDisableCdm = pUserConfigA->fDisableCdm;
pUserConfigW->fDisableCcm = pUserConfigA->fDisableCcm;
pUserConfigW->fDisableLPT = pUserConfigA->fDisableLPT;
pUserConfigW->fDisableClip = pUserConfigA->fDisableClip;
pUserConfigW->fDisableExe = pUserConfigA->fDisableExe;
pUserConfigW->fDisableCam = pUserConfigA->fDisableCam;
AnsiToUnicode( pUserConfigW->UserName,
sizeof(pUserConfigW->UserName),
pUserConfigA->UserName );
AnsiToUnicode( pUserConfigW->Domain,
sizeof(pUserConfigW->Domain),
pUserConfigA->Domain );
AnsiToUnicode( pUserConfigW->Password,
sizeof(pUserConfigW->Password),
pUserConfigA->Password );
AnsiToUnicode( pUserConfigW->WorkDirectory,
sizeof(pUserConfigW->WorkDirectory),
pUserConfigA->WorkDirectory );
AnsiToUnicode( pUserConfigW->InitialProgram,
sizeof(pUserConfigW->InitialProgram),
pUserConfigA->InitialProgram );
AnsiToUnicode( pUserConfigW->CallbackNumber,
sizeof(pUserConfigW->CallbackNumber),
pUserConfigA->CallbackNumber );
pUserConfigW->Callback = pUserConfigA->Callback;
pUserConfigW->Shadow = pUserConfigA->Shadow;
pUserConfigW->MaxConnectionTime = pUserConfigA->MaxConnectionTime;
pUserConfigW->MaxDisconnectionTime = pUserConfigA->MaxDisconnectionTime;
pUserConfigW->MaxIdleTime = pUserConfigA->MaxIdleTime;
pUserConfigW->KeyboardLayout = pUserConfigA->KeyboardLayout;
pUserConfigW->MinEncryptionLevel = pUserConfigA->MinEncryptionLevel;
AnsiToUnicode( pUserConfigW->WFProfilePath,
sizeof(pUserConfigW->WFProfilePath),
pUserConfigA->WFProfilePath );
AnsiToUnicode( pUserConfigW->WFHomeDir,
sizeof(pUserConfigW->WFHomeDir),
pUserConfigA->WFHomeDir );
AnsiToUnicode( pUserConfigW->WFHomeDirDrive,
sizeof(pUserConfigW->WFHomeDirDrive),
pUserConfigA->WFHomeDirDrive );
}
/*******************************************************************************
*
* WinStationPrinterU2A (UNICODE to ANSI)
*
* copies WINSTATIONPRINTERW elements to WINSTATIONPRINTERA elements
*
* ENTRY:
* pWinStationPrinterA (output)
* points to WINSTATIONPRINTERA structure to copy to
*
* pWinStationPrinterW (input)
* points to WINSTATIONPRINTERW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationPrinterU2A( PWINSTATIONPRINTERA pWinStationPrinterA,
PWINSTATIONPRINTERW pWinStationPrinterW )
{
UnicodeToAnsi( pWinStationPrinterA->Lpt1,
sizeof(pWinStationPrinterA->Lpt1),
pWinStationPrinterW->Lpt1 );
UnicodeToAnsi( pWinStationPrinterA->Lpt2,
sizeof(pWinStationPrinterA->Lpt2),
pWinStationPrinterW->Lpt2 );
UnicodeToAnsi( pWinStationPrinterA->Lpt3,
sizeof(pWinStationPrinterA->Lpt3),
pWinStationPrinterW->Lpt3 );
UnicodeToAnsi( pWinStationPrinterA->Lpt4,
sizeof(pWinStationPrinterA->Lpt4),
pWinStationPrinterW->Lpt4 );
}
/*******************************************************************************
*
* WinStationPrinterA2U (ANSI to UNICODE)
*
* copies WINSTATIONPRINTERA elements to WINSTATIONPRINTERW elements
*
* ENTRY:
* pWinStationPrinterW (output)
* points to WINSTATIONPRINTERW structure to copy to
*
* pWinStationPrinterA (input)
* points to WINSTATIONPRINTERA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationPrinterA2U( PWINSTATIONPRINTERW pWinStationPrinterW,
PWINSTATIONPRINTERA pWinStationPrinterA )
{
AnsiToUnicode( pWinStationPrinterW->Lpt1,
sizeof(pWinStationPrinterW->Lpt1),
pWinStationPrinterA->Lpt1 );
AnsiToUnicode( pWinStationPrinterW->Lpt2,
sizeof(pWinStationPrinterW->Lpt2),
pWinStationPrinterA->Lpt2 );
AnsiToUnicode( pWinStationPrinterW->Lpt3,
sizeof(pWinStationPrinterW->Lpt3),
pWinStationPrinterA->Lpt3 );
AnsiToUnicode( pWinStationPrinterW->Lpt4,
sizeof(pWinStationPrinterW->Lpt4),
pWinStationPrinterA->Lpt4 );
}
/*******************************************************************************
*
* WinStationInformationU2A (UNICODE to ANSI)
*
* copies WINSTATIONINFORMATIONW elements to WINSTATIONINFORMATIONA elements
*
* ENTRY:
* pWinStationInformationA (output)
* points to WINSTATIONINFORMATIONA structure to copy to
*
* pWinStationInformationW (input)
* points to WINSTATIONINFORMATIONW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationInformationU2A( PWINSTATIONINFORMATIONA pWinStationInformationA,
PWINSTATIONINFORMATIONW pWinStationInformationW )
{
pWinStationInformationA->ConnectState = pWinStationInformationW->ConnectState;
UnicodeToAnsi( pWinStationInformationA->WinStationName,
sizeof(pWinStationInformationA->WinStationName),
pWinStationInformationW->WinStationName );
pWinStationInformationA->LogonId = pWinStationInformationW->LogonId;
pWinStationInformationA->ConnectTime = pWinStationInformationW->ConnectTime;
pWinStationInformationA->DisconnectTime = pWinStationInformationW->DisconnectTime;
pWinStationInformationA->LastInputTime = pWinStationInformationW->LastInputTime;
pWinStationInformationA->LogonTime = pWinStationInformationW->LogonTime;
pWinStationInformationA->Status = pWinStationInformationW->Status;
UnicodeToAnsi( pWinStationInformationA->Domain,
sizeof(pWinStationInformationA->Domain),
pWinStationInformationW->Domain );
UnicodeToAnsi( pWinStationInformationA->UserName,
sizeof(pWinStationInformationA->UserName),
pWinStationInformationW->UserName );
}
/*******************************************************************************
*
* WinStationInformationA2U (ANSI to UNICODE)
*
* copies WINSTATIONINFORMATIONA elements to WINSTATIONINFORMATIONW elements
*
* ENTRY:
* pWinStationInformationW (output)
* points to WINSTATIONINFORMATIONW structure to copy to
*
* pWinStationInformationA (input)
* points to WINSTATIONINFORMATIONA structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationInformationA2U( PWINSTATIONINFORMATIONW pWinStationInformationW,
PWINSTATIONINFORMATIONA pWinStationInformationA )
{
pWinStationInformationW->ConnectState = pWinStationInformationA->ConnectState;
AnsiToUnicode( pWinStationInformationW->WinStationName,
sizeof(pWinStationInformationW->WinStationName),
pWinStationInformationA->WinStationName );
pWinStationInformationW->LogonId = pWinStationInformationA->LogonId;
pWinStationInformationW->ConnectTime = pWinStationInformationA->ConnectTime;
pWinStationInformationW->DisconnectTime = pWinStationInformationA->DisconnectTime;
pWinStationInformationW->LastInputTime = pWinStationInformationA->LastInputTime;
pWinStationInformationW->LogonTime = pWinStationInformationA->LogonTime;
pWinStationInformationW->Status = pWinStationInformationA->Status;
AnsiToUnicode( pWinStationInformationW->Domain,
sizeof(pWinStationInformationW->Domain),
pWinStationInformationA->Domain );
AnsiToUnicode( pWinStationInformationW->UserName,
sizeof(pWinStationInformationW->UserName),
pWinStationInformationA->UserName );
}
/*******************************************************************************
*
* WinStationClientU2A (UNICODE to ANSI)
*
* copies WINSTATIONCLIENTW elements to WINSTATIONCLIENTA elements
*
* ENTRY:
* pWinStationClientA (output)
* points to WINSTATIONCLIENTA structure to copy to
*
* pWinStationClientW (input)
* points to WINSTATIONCLIENTW structure to copy from
*
* EXIT:
* nothing (VOID)
*
******************************************************************************/
VOID
WinStationClientU2A( PWINSTATIONCLIENTA pWinStationClientA,
PWINSTATIONCLIENTW pWinStationClientW )
{
pWinStationClientA->fTextOnly = pWinStationClientW->fTextOnly;
pWinStationClientA->fDisableCtrlAltDel = pWinStationClientW->fDisableCtrlAltDel;
UnicodeToAnsi( pWinStationClientA->ClientName,
sizeof(pWinStationClientA->ClientName),
pWinStationClientW->ClientName );
UnicodeToAnsi( pWinStationClientA->Domain,
sizeof(pWinStationClientA->Domain),
pWinStationClientW->Domain );
UnicodeToAnsi( pWinStationClientA->UserName,
sizeof(pWinStationClientA->UserName),
pWinStationClientW->UserName );
UnicodeToAnsi( pWinStationClientA->Password,
sizeof(pWinStationClientA->Password),
pWinStationClientW->Password );
UnicodeToAnsi( pWinStationClientA->WorkDirectory,
sizeof(pWinStationClientA->WorkDirectory),
pWinStationClientW->WorkDirectory );
UnicodeToAnsi( pWinStationClientA->InitialProgram,
sizeof(pWinStationClientA->InitialProgram),
pWinStationClientW->InitialProgram );
UnicodeToAnsi( pWinStationClientA->clientDigProductId,
sizeof( pWinStationClientA->clientDigProductId),
pWinStationClientW->clientDigProductId );
pWinStationClientA->SerialNumber = pWinStationClientW->SerialNumber;
pWinStationClientA->EncryptionLevel = pWinStationClientW->EncryptionLevel;
UnicodeToAnsi( pWinStationClientA->ClientAddress,
sizeof(pWinStationClientA->ClientAddress),
pWinStationClientW->ClientAddress);
pWinStationClientA->HRes = pWinStationClientW->HRes;
pWinStationClientA->VRes = pWinStationClientW->VRes;
pWinStationClientA->ColorDepth = pWinStationClientW->ColorDepth;
pWinStationClientA->ProtocolType = pWinStationClientW->ProtocolType;
pWinStationClientA->KeyboardLayout = pWinStationClientW->KeyboardLayout;
UnicodeToAnsi( pWinStationClientA->ClientDirectory,
sizeof(pWinStationClientA->ClientDirectory),
pWinStationClientW->ClientDirectory);
UnicodeToAnsi( pWinStationClientA->ClientLicense,
sizeof(pWinStationClientA->ClientLicense),
pWinStationClientW->ClientLicense);
UnicodeToAnsi( pWinStationClientA->ClientModem,
sizeof(pWinStationClientA->ClientModem),
pWinStationClientW->ClientModem);
pWinStationClientA->ClientBuildNumber = pWinStationClientW->ClientBuildNumber;
pWinStationClientA->ClientHardwareId = pWinStationClientW->ClientHardwareId;
pWinStationClientA->ClientProductId = pWinStationClientW->ClientProductId;
pWinStationClientA->OutBufCountHost = pWinStationClientW->OutBufCountHost;
pWinStationClientA->OutBufCountClient = pWinStationClientW->OutBufCountClient;
pWinStationClientA->OutBufLength = pWinStationClientW->OutBufLength;
}
VOID WinStationProductIdU2A( PWINSTATIONPRODIDA pWinStationProdIdA, PWINSTATIONPRODIDW pWinStationProdIdW)
{
UnicodeToAnsi( pWinStationProdIdA->DigProductId,
sizeof(pWinStationProdIdA->DigProductId),
pWinStationProdIdW->DigProductId);
UnicodeToAnsi( pWinStationProdIdA->ClientDigProductId,
sizeof(pWinStationProdIdA->ClientDigProductId),
pWinStationProdIdW->ClientDigProductId);
UnicodeToAnsi( pWinStationProdIdA->OuterMostDigProductId,
sizeof(pWinStationProdIdA->OuterMostDigProductId),
pWinStationProdIdW->OuterMostDigProductId);
pWinStationProdIdA->curentSessionId = pWinStationProdIdW->curentSessionId;
pWinStationProdIdA->ClientSessionId = pWinStationProdIdW->ClientSessionId;
pWinStationProdIdA->OuterMostSessionId = pWinStationProdIdW->OuterMostSessionId;
}