Leaked source code of windows server 2003
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#include "nds.hxx"
#pragma hdrstop
FILTERS Filters[] = {
{L"user", NDS_USER_ID},
{L"group", NDS_GROUP_ID},
{L"queue", NDS_PRINTER_ID},
{L"domain", NDS_DOMAIN_ID},
{L"computer", NDS_COMPUTER_ID},
{L"service", NDS_SERVICE_ID},
{L"fileservice", NDS_FILESERVICE_ID},
{L"fileshare", NDS_FILESHARE_ID},
{L"class", NDS_CLASS_ID},
{L"functionalset", NDS_FUNCTIONALSET_ID},
{L"syntax", NDS_SYNTAX_ID},
{L"property", NDS_PROPERTY_ID},
{L"tree", NDS_TREE_ID},
{L"Organizational Unit", NDS_OU_ID},
{L"Organization", NDS_O_ID},
{L"Locality", NDS_LOCALITY_ID}
};
#define MAX_FILTERS (sizeof(Filters)/sizeof(FILTERS))
PFILTERS gpFilters = Filters;
DWORD gdwMaxFilters = MAX_FILTERS;
extern WCHAR * szProviderName;
//+------------------------------------------------------------------------
//
// Class: Common
//
// Purpose: Contains Winnt routines and properties that are common to
// all Winnt objects. Winnt objects get the routines and
// properties through C++ inheritance.
//
//-------------------------------------------------------------------------
HRESULT
BuildADsPath(
BSTR Parent,
BSTR Name,
BSTR *pADsPath
)
{
LPWSTR lpADsPath = NULL;
WCHAR ProviderName[MAX_PATH];
HRESULT hr = S_OK;
DWORD dwLen = 0;
LPWSTR pszDisplayName = NULL;
//
// We will assert if bad parameters are passed to us.
// This is because this should never be the case. This
// is an internal call
//
ADsAssert(Parent && Name);
ADsAssert(pADsPath);
if ((!Name) || (!Parent) || (!pADsPath)) {
BAIL_ON_FAILURE(hr = E_INVALIDARG);
}
//
// Get the display name for the name; The display name will have the proper
// escaping for characters that have special meaning in an ADsPath like
// '/' etc.
//
hr = GetDisplayName(
Name,
&pszDisplayName
);
BAIL_ON_FAILURE(hr);
//
// Special case the Namespace object; if
// the parent is L"ADs:", then Name = ADsPath
//
if (!_wcsicmp(Parent, L"ADs:")) {
hr = ADsAllocString( pszDisplayName, pADsPath);
BAIL_ON_FAILURE(hr);
goto cleanup;
}
//
// Allocate the right side buffer
// 2 for // + a buffer of MAX_PATH
//
dwLen = wcslen(Parent) + wcslen(pszDisplayName) + 2 + MAX_PATH;
lpADsPath = (LPWSTR)AllocADsMem(dwLen*sizeof(WCHAR));
if (!lpADsPath) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
//
// The rest of the cases we expect valid data,
// Path, Parent and Name are read-only, the end-user
// cannot modify this data
//
//
// For the first object, the domain object we do not add
// the first backslash; so we examine that the parent is
// L"WinNT:" and skip the slash otherwise we start with
// the slash
//
wsprintf(ProviderName, L"%s:", szProviderName);
wcscpy(lpADsPath, Parent);
if (_wcsicmp(lpADsPath, ProviderName)) {
wcscat(lpADsPath, L"/");
}else {
wcscat(lpADsPath, L"//");
}
wcscat(lpADsPath, pszDisplayName);
hr = ADsAllocString( lpADsPath, pADsPath);
cleanup:
error:
if (lpADsPath) {
FreeADsMem(lpADsPath);
}
if (pszDisplayName) {
FreeADsMem(pszDisplayName);
}
RRETURN(hr);
}
HRESULT
BuildSchemaPath(
BSTR bstrADsPath,
BSTR bstrClass,
BSTR *pSchemaPath
)
{
WCHAR ADsSchema[MAX_PATH];
OBJECTINFO ObjectInfo;
POBJECTINFO pObjectInfo = &ObjectInfo;
CLexer Lexer(bstrADsPath);
HRESULT hr = S_OK;
memset(pObjectInfo, 0, sizeof(OBJECTINFO));
wcscpy(ADsSchema, L"");
memset(pObjectInfo, 0, sizeof(OBJECTINFO));
if (bstrClass && *bstrClass) {
hr = ADsObject(&Lexer, pObjectInfo);
BAIL_ON_FAILURE(hr);
if (pObjectInfo->TreeName) {
wsprintf(ADsSchema,L"%s://",pObjectInfo->ProviderName);
wcscat(ADsSchema, pObjectInfo->TreeName);
wcscat(ADsSchema,L"/schema/");
wcscat(ADsSchema, bstrClass);
}
}
hr = ADsAllocString( ADsSchema, pSchemaPath);
error:
if (pObjectInfo) {
FreeObjectInfo( pObjectInfo );
}
RRETURN(hr);
}
HRESULT
BuildADsGuid(
REFCLSID clsid,
BSTR *pADsClass
)
{
WCHAR ADsClass[MAX_PATH];
if (!StringFromGUID2(clsid, ADsClass, MAX_PATH)) {
//
// MAX_PATH should be more than enough for the GUID.
//
ADsAssert(!"GUID too big !!!");
RRETURN(E_FAIL);
}
RRETURN(ADsAllocString( ADsClass, pADsClass));
}
HRESULT
MakeUncName(
LPWSTR szSrcBuffer,
LPWSTR szTargBuffer
)
{
ADsAssert(szSrcBuffer && *szSrcBuffer);
wcscpy(szTargBuffer, L"\\\\");
wcscat(szTargBuffer, szSrcBuffer);
RRETURN(S_OK);
}
HRESULT
ValidateOutParameter(
BSTR * retval
)
{
if (!retval) {
RRETURN(E_ADS_BAD_PARAMETER);
}
RRETURN(S_OK);
}
PKEYDATA
CreateTokenList(
LPWSTR pKeyData,
WCHAR ch
)
{
DWORD cTokens;
DWORD cb;
PKEYDATA pResult;
LPWSTR pDest;
LPWSTR psz = pKeyData;
LPWSTR *ppToken;
WCHAR szTokenList[MAX_PATH];
if (!psz || !*psz)
return NULL;
wsprintf(szTokenList, L"%c", ch);
cTokens=1;
// Scan through the string looking for commas,
// ensuring that each is followed by a non-NULL character:
while ((psz = wcschr(psz, ch)) && psz[1]) {
cTokens++;
psz++;
}
cb = sizeof(KEYDATA) + (cTokens-1) * sizeof(LPWSTR) +
wcslen(pKeyData)*sizeof(WCHAR) + sizeof(WCHAR);
if (!(pResult = (PKEYDATA)AllocADsMem(cb)))
return NULL;
// Initialise pDest to point beyond the token pointers:
pDest = (LPWSTR)((LPBYTE)pResult + sizeof(KEYDATA) +
(cTokens-1) * sizeof(LPWSTR));
// Then copy the key data buffer there:
wcscpy(pDest, pKeyData);
ppToken = pResult->pTokens;
// Remember, wcstok has the side effect of replacing the delimiter
// by NULL, which is precisely what we want:
psz = wcstok (pDest, szTokenList);
while (psz) {
*ppToken++ = psz;
psz = wcstok (NULL, szTokenList);
}
pResult->cTokens = cTokens;
return( pResult );
}
DWORD
ADsNwNdsOpenObject(
IN LPWSTR ObjectDN,
IN CCredentials& Credentials,
OUT HANDLE * lphObject,
OUT LPWSTR lpObjectFullName OPTIONAL,
OUT LPWSTR lpObjectClassName OPTIONAL,
OUT LPDWORD lpdwModificationTime,
OUT LPDWORD lpdwSubordinateCount OPTIONAL
)
{
HRESULT hr = S_OK;
DWORD dwStatus;
LPWSTR pszUserName = NULL;
LPWSTR pszPassword = NULL;
hr = Credentials.GetUserName(&pszUserName);
hr = Credentials.GetPassword(&pszPassword);
dwStatus = NwNdsOpenObject(
ObjectDN,
pszUserName,
pszPassword,
lphObject,
NULL, // szObjectName optional parameter
lpObjectFullName,
lpObjectClassName,
lpdwModificationTime,
lpdwSubordinateCount
);
if (pszUserName) {
FreeADsStr(pszUserName);
}
if (pszPassword) {
SecureZeroMemory(pszPassword, wcslen(pszPassword)*sizeof(WCHAR));
FreeADsStr(pszPassword);
}
return(dwStatus);
}
HRESULT
CheckAndSetExtendedError(
DWORD dwRetval
)
{
DWORD dwLastError;
WCHAR pszErrorString[MAX_PATH];
WCHAR pszProviderName[MAX_PATH];
INT numChars;
HRESULT hr =S_OK;
wcscpy(pszErrorString, L"");
wcscpy(pszProviderName, L"");
if (dwRetval == NDS_ERR_SUCCESS){
hr = S_OK;
} else {
dwLastError = GetLastError();
hr = HRESULT_FROM_WIN32(dwLastError);
if (dwLastError == ERROR_EXTENDED_ERROR){
numChars = LoadString( g_hInst,
dwRetval,
pszErrorString,
MAX_PATH-1);
numChars = LoadString( g_hInst,
NDS_PROVIDER_ID,
pszProviderName,
MAX_PATH -1);
ADsSetLastError( dwRetval,
pszErrorString,
pszProviderName );
}
}
RRETURN(hr);
}
HRESULT
CopyObject(
IN LPWSTR pszSrcADsPath,
IN LPWSTR pszDestContainer,
IN LPWSTR pszCommonName, //optional
IN CCredentials Credentials,
OUT VOID ** ppObject
)
{
//
// this function is a wrapper for the copy functionality which is used
// by both IADsContainer::CopyHere and IADsContainer::MoveHere
//
HRESULT hr = S_OK;
DWORD dwStatus = 0L;
LPWSTR pszNDSSrcName = NULL;
LPWSTR pszNDSParentName = NULL;
HANDLE hSrcOperationData = NULL;
HANDLE hSrcObject = NULL;
HANDLE hDestOperationData = NULL;
HANDLE hDestObject = NULL;
HANDLE hAttrOperationData = NULL;
DWORD dwNumEntries = 0L;
LPNDS_ATTR_INFO lpEntries = NULL;
LPWSTR pszObjectFullName= NULL;
LPWSTR pszObjectClassName= NULL;
LPWSTR pszParent= NULL;
LPWSTR pszRelativeName = NULL;
LPWSTR pszCN = NULL;
DWORD i = 0;
DWORD dwInfoType;
LPNDS_ATTR_DEF lpAttrDef = NULL;
IADs *pADs = NULL;
//
// allocate all variables that are needed
//
pszObjectFullName = (LPWSTR)AllocADsMem(MAX_PATH* sizeof(WCHAR));
if (!pszObjectFullName){
hr = E_OUTOFMEMORY;
goto error;
}
pszObjectClassName = (LPWSTR)AllocADsMem(MAX_PATH* sizeof(WCHAR));
if (!pszObjectClassName){
hr = E_OUTOFMEMORY;
goto error;
}
pszParent = (LPWSTR)AllocADsMem(MAX_PATH* sizeof(WCHAR));
if (!pszParent){
hr = E_OUTOFMEMORY;
goto error;
}
pszCN = (LPWSTR)AllocADsMem(MAX_PATH* sizeof(WCHAR));
if (!pszCN){
hr = E_OUTOFMEMORY;
goto error;
}
hr = BuildNDSPathFromADsPath(
pszSrcADsPath,
&pszNDSSrcName
);
BAIL_ON_FAILURE(hr);
hr = BuildADsParentPath(
pszSrcADsPath,
pszParent,
pszCN
);
BAIL_ON_FAILURE(hr);
dwStatus = ADsNwNdsOpenObject(
pszNDSSrcName,
Credentials,
&hSrcObject,
pszObjectFullName,
pszObjectClassName,
NULL,
NULL
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
dwStatus = NwNdsReadObject(
hSrcObject,
NDS_INFO_ATTR_NAMES_VALUES,
&hSrcOperationData
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
dwStatus = NwNdsGetAttrListFromBuffer(
hSrcOperationData,
&dwNumEntries,
&lpEntries
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
//
// we have now extracted all the information we need from the source
// object, we need to add this information to the destination object
// as attributes and values
//
//
// create the destination object
//
hr = BuildNDSPathFromADsPath(
pszDestContainer,
&pszNDSParentName
);
BAIL_ON_FAILURE(hr);
dwStatus = ADsNwNdsOpenObject(
pszNDSParentName,
Credentials,
&hDestObject,
NULL,
NULL,
NULL,
NULL
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
//
// use the name given by the user if given at all
// otherwise use the name of the source
//
if ( pszCommonName != NULL) {
pszRelativeName = pszCommonName;
} else {
pszRelativeName = pszCN;
}
dwStatus = NwNdsCreateBuffer(
NDS_OBJECT_ADD,
&hDestOperationData
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
//
// take each of these entries and get back their schema
// attribute definitions. the same handle to the DestObject
// can be used to open the schema
//
dwStatus = NwNdsCreateBuffer(
NDS_SCHEMA_READ_ATTR_DEF,
&hAttrOperationData
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
for(i=0; i< dwNumEntries; i++){
dwStatus = NwNdsPutInBuffer(
lpEntries[i].szAttributeName,
0,
NULL,
0,
0,
hAttrOperationData
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
}
dwStatus = NwNdsReadAttrDef(
hDestObject,
NDS_INFO_NAMES_DEFS,
& hAttrOperationData
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
dwStatus = NwNdsGetAttrDefListFromBuffer(
hAttrOperationData,
& dwNumEntries,
& dwInfoType,
(void **)& lpAttrDef
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
for (i=0; i< dwNumEntries; i++){
if(wcscmp(lpEntries[i].szAttributeName, ACL_name) == 0){
//
// skip this attribute. Let it default
//
continue;
}
if(wcscmp(lpEntries[i].szAttributeName, OBJECT_CLASS_name) == 0){
dwStatus = NwNdsPutInBuffer(
lpEntries[i].szAttributeName,
lpEntries[i].dwSyntaxId,
lpEntries[i].lpValue,
1, // only the first value is relevant
NDS_ATTR_ADD,
hDestOperationData
);
} else if ( (lpAttrDef[i].dwFlags & NDS_READ_ONLY_ATTR)
|| (lpAttrDef[i].dwFlags & NDS_HIDDEN_ATTR) ){
//
// skip this value
//
continue;
} else {
dwStatus = NwNdsPutInBuffer(
lpEntries[i].szAttributeName,
lpEntries[i].dwSyntaxId,
lpEntries[i].lpValue,
lpEntries[i].dwNumberOfValues,
NDS_ATTR_ADD,
hDestOperationData
);
}
}
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
dwStatus = NwNdsAddObject(
hDestObject,
pszRelativeName,
hDestOperationData
);
CHECK_AND_SET_EXTENDED_ERROR(dwStatus, hr);
hr = CNDSGenObject::CreateGenericObject(
pszDestContainer,
pszRelativeName,
pszObjectClassName,
Credentials,
ADS_OBJECT_BOUND,
IID_IADs,
(void **)&pADs
);
BAIL_ON_FAILURE(hr);
//
// InstantiateDerivedObject should add-ref this pointer for us.
//
hr = InstantiateDerivedObject(
pADs,
Credentials,
IID_IUnknown,
ppObject
);
if (FAILED(hr)) {
hr = pADs->QueryInterface(
IID_IUnknown,
ppObject
);
BAIL_ON_FAILURE(hr);
}
error:
if (pszObjectFullName){
FreeADsMem(pszObjectFullName);
}
if (pszObjectClassName){
FreeADsMem(pszObjectClassName);
}
if (pszParent){
FreeADsMem(pszParent);
}
if (pszCN){
FreeADsMem(pszCN);
}
if (pszNDSSrcName) {
FreeADsStr(pszNDSSrcName);
}
if (pszNDSParentName) {
FreeADsStr(pszNDSParentName);
}
if(hSrcOperationData){
dwStatus = NwNdsFreeBuffer(hSrcOperationData);
}
if(hSrcObject){
dwStatus = NwNdsCloseObject(hSrcObject);
}
if(hDestOperationData){
dwStatus = NwNdsFreeBuffer(hDestOperationData);
}
if(hDestObject){
dwStatus = NwNdsCloseObject(hDestObject);
}
if(hAttrOperationData){
dwStatus = NwNdsFreeBuffer(hAttrOperationData);
}
if (pADs){
pADs->Release();
}
RRETURN(hr);
}
HRESULT
ConvertDWORDtoSYSTEMTIME(
DWORD dwDate,
LPSYSTEMTIME pSystemTime
)
{
FILETIME fileTime;
LARGE_INTEGER tmpTime;
HRESULT hr = S_OK;
::RtlSecondsSince1970ToTime(dwDate, &tmpTime );
fileTime.dwLowDateTime = tmpTime.LowPart;
fileTime.dwHighDateTime = tmpTime.HighPart;
if (!FileTimeToSystemTime( &fileTime, pSystemTime)){
hr = HRESULT_FROM_WIN32(GetLastError());
}
RRETURN(hr);
}
HRESULT
ConvertSYSTEMTIMEtoDWORD(
CONST SYSTEMTIME *pSystemTime,
DWORD *pdwDate
)
{
FILETIME fileTime;
LARGE_INTEGER tmpTime;
HRESULT hr = S_OK;
if (!SystemTimeToFileTime(pSystemTime,&fileTime)) {
hr = HRESULT_FROM_WIN32(GetLastError());
BAIL_ON_FAILURE(hr);
}
tmpTime.LowPart = fileTime.dwLowDateTime;
tmpTime.HighPart = fileTime.dwHighDateTime;
::RtlTimeToSecondsSince1970(&tmpTime, (ULONG *)pdwDate);
error:
RRETURN(hr);
}