Leaked source code of windows server 2003
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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 2000.
//
// File: ldap2umi.cxx
//
// Contents: File containing the implemenation of the conversion routines
// that conver the cached ldap values to UMI data types.
// LdapTypeToUMITypeCopyConstruct.
//
// History: 02-14-00 AjayR Created.
//
//----------------------------------------------------------------------------
#include "ldap.hxx"
//+---------------------------------------------------------------------------
// Function: ConvertLdapSyntaxIdToUmiType.
//
// Synopsis: Converts the ldapsyntaxId to the corresponding Umi type.
//
//
// Arguments: dwLdapSyntax - Input ldapSyntaxId to convert.
// uUmiType - Reference to return value.
//
// Returns: HRESULT - S_OK or any failure code.
//
// Modifies: uUmiType.
//
//----------------------------------------------------------------------------
HRESULT
ConvertLdapSyntaxIdToUmiType(
DWORD dwLdapSyntaxId,
ULONG &uUmiType
)
{
HRESULT hr = S_OK;
switch (dwLdapSyntaxId) {
case LDAPTYPE_BITSTRING:
case LDAPTYPE_PRINTABLESTRING:
case LDAPTYPE_DIRECTORYSTRING:
case LDAPTYPE_COUNTRYSTRING:
case LDAPTYPE_DN:
case LDAPTYPE_NUMERICSTRING:
case LDAPTYPE_IA5STRING:
case LDAPTYPE_CASEIGNORESTRING:
case LDAPTYPE_CASEEXACTSTRING:
// case LDAPTYPE_CASEIGNOREIA5STRING:
case LDAPTYPE_OID:
case LDAPTYPE_TELEPHONENUMBER:
case LDAPTYPE_ATTRIBUTETYPEDESCRIPTION:
case LDAPTYPE_OBJECTCLASSDESCRIPTION:
case LDAPTYPE_DELIVERYMETHOD:
case LDAPTYPE_ENHANCEDGUIDE:
case LDAPTYPE_FACSIMILETELEPHONENUMBER:
case LDAPTYPE_GUIDE:
case LDAPTYPE_NAMEANDOPTIONALUID:
case LDAPTYPE_POSTALADDRESS:
case LDAPTYPE_PRESENTATIONADDRESS:
case LDAPTYPE_TELEXNUMBER:
case LDAPTYPE_DSAQUALITYSYNTAX:
case LDAPTYPE_DATAQUALITYSYNTAX:
case LDAPTYPE_MAILPREFERENCE:
case LDAPTYPE_OTHERMAILBOX:
case LDAPTYPE_ACCESSPOINTDN:
case LDAPTYPE_ORNAME:
case LDAPTYPE_ORADDRESS:
uUmiType = UMI_TYPE_LPWSTR;
break;
case LDAPTYPE_BOOLEAN:
uUmiType = UMI_TYPE_BOOL;
break;
case LDAPTYPE_INTEGER:
uUmiType = UMI_TYPE_I4;
break;
case LDAPTYPE_OCTETSTRING:
case LDAPTYPE_CERTIFICATE:
case LDAPTYPE_CERTIFICATELIST:
case LDAPTYPE_CERTIFICATEPAIR:
case LDAPTYPE_PASSWORD:
case LDAPTYPE_TELETEXTERMINALIDENTIFIER:
case LDAPTYPE_AUDIO:
case LDAPTYPE_JPEG:
case LDAPTYPE_FAX:
uUmiType = UMI_TYPE_OCTETSTRING;
break;
case LDAPTYPE_GENERALIZEDTIME:
uUmiType = UMI_TYPE_SYSTEMTIME;
break;
case LDAPTYPE_UTCTIME:
uUmiType = UMI_TYPE_SYSTEMTIME;
break;
case LDAPTYPE_SECURITY_DESCRIPTOR:
uUmiType = UMI_TYPE_IUNKNOWN;
break;
case LDAPTYPE_INTEGER8:
uUmiType = UMI_TYPE_I8;
break;
case LDAPTYPE_DNWITHBINARY:
uUmiType = UMI_TYPE_IUNKNOWN;
break;
case LDAPTYPE_DNWITHSTRING:
uUmiType = UMI_TYPE_IUNKNOWN;
break;
default:
//
// LDAPTYPE_UNKNOWN (schemaless server property) will be
// not be converted.
//
hr = E_ADS_CANT_CONVERT_DATATYPE;
break;
} // end of switch.
RRETURN(hr);
}
//
// Note about functions in this file and the difference between the functions
// in Ldap2var.cxx. In that file, we allocate everything into variants
// and then we put all the variants in a safe array.
// The functions in this file are also different from those in
// ldapc\ldap2ods.cxx in that each of the actual conversion routines deals
// with a native data type rather than the UMI_VALUE as a whole (or ADSVALUE
// in the case of ldap2ods.cxx). This is because in UMI_VALUE's each UMI_VALUE
// struct can contain an array in itself, so you do not need multiple
// UMI_VALUE's to represent all values of an attribute.
//
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeLPWSTR
//
// Synopsis: Converts an ldap string value to a LPWSTR. Note that the
// output is not a UMI_VALUE but a string.
//
// Arguments: Self explanatory
//
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pszUmiString to point to the string being copied.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeLPWSTR(
PLDAPOBJECT pLdapSrcObject,
LPWSTR *pszUmiString
)
{
HRESULT hr = S_OK;
ADsAssert(pszUmiString);
//
// We should not have NULL values but it is a good idea to check.
//
if (LDAPOBJECT_STRING(pLdapSrcObject)) {
*pszUmiString = AllocADsStr(LDAPOBJECT_STRING(pLdapSrcObject));
if (!pszUmiString) {
hr = E_OUTOFMEMORY;
}
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeCopyStrings
//
// Synopsis: Converts the ldap source objects into an array of strings
// and assigns the array to the values in the UMI_VALUE *.
//
// Arguments: pLdapSrcObjects - array of ldap values.
// pUmiProp - ptr to UMI_Property we modify the pValue.
// uCount& - used to return the number of values.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiProp->pValue points to the string array.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeCopyStrings(
LDAPOBJECTARRAY pLdapSrcObjects,
PUMI_PROPERTY pUmiProp
)
{
HRESULT hr = S_OK;
DWORD dwCount = pLdapSrcObjects.dwCount, dwCtr = 0;
LPWSTR *pszStrArray = NULL;
LPWSTR pszTmpString = NULL;
//
// Allocate string array to hold all the entries.
//
pszStrArray = (LPWSTR *) AllocADsMem(sizeof(LPWSTR) * dwCount);
if (!pszStrArray) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
for (dwCtr = 0; (dwCtr < dwCount && SUCCEEDED(hr)); dwCtr++) {
//
// Go through and convert each of the elements in the ldap array
//
hr = LdapTypeToUmiTypeLPWSTR(
pLdapSrcObjects.pLdapObjects + dwCtr,
&pszTmpString
);
if (SUCCEEDED(hr)) {
pszStrArray[dwCtr] = pszTmpString;
pszTmpString = NULL;
}
}
BAIL_ON_FAILURE(hr);
//
// Have the valid string array, need to set the data into UMI_VALUE.
//
pUmiProp->pUmiValue = (UMI_VALUE *)(void *)pszStrArray;
pUmiProp->uCount = dwCount;
RRETURN(hr);
error:
//
// Do not think this is really necessary but cannot hurt.
//
if (pszTmpString) {
FreeADsStr(pszTmpString);
}
if (pszStrArray) {
if (dwCtr) {
//
// Need to go through the array and free the other strings
//
for (; dwCtr > 0; dwCtr --) {
if (pszStrArray[dwCtr-1]) {
FreeADsStr(pszStrArray[dwCtr-1]);
}
}
} // if (dwCtr)
//
// Still need to free the array itself.
//
FreeADsMem((void*) pszStrArray);
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeBool
//
// Synopsis: Converts an ldap boolean value to a BOOL value
//
// Arguments: Self explanatory
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pfBool points to the returned value.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeBool(
PLDAPOBJECT pLdapSrcObject,
PBOOL pfBool
)
{
HRESULT hr = S_OK;
LPTSTR pszSrc = LDAPOBJECT_STRING(pLdapSrcObject);
ADsAssert(pfBool);
if ( _tcsicmp( pszSrc, TEXT("TRUE")) == 0 ) {
*pfBool = TRUE;
}
else if ( _tcsicmp( pszSrc, TEXT("FALSE")) == 0 ) {
*pfBool = FALSE;
}
else
{
hr = E_ADS_CANT_CONVERT_DATATYPE;
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeCopyBooleans
//
// Synopsis: Converts the ldap source objects into an array of booleans
// and assigns the array to the values in the UMI_PROPERTY *.
//
// Arguments: pLdapSrcObjects - array of ldap values.
// pUmiProp - ptr to UMI_Property we modify the pValue.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiProp->pValue points to the newly created array of bools.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeCopyBooleans(
LDAPOBJECTARRAY pLdapSrcObjects,
PUMI_PROPERTY pUmiProp
)
{
HRESULT hr = S_OK;
DWORD dwCount = pLdapSrcObjects.dwCount, dwCtr = 0;
BOOL *pfBoolArray = NULL;
BOOL fTempVal;
//
// Allocate array of boolean values to hold all the entries.
//
pfBoolArray = (BOOL *) AllocADsMem(sizeof(BOOL) * dwCount);
if (!pfBoolArray) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
for (dwCtr = 0; (dwCtr < dwCount && SUCCEEDED(hr)); dwCtr++) {
//
// Go through and convert each of the elements in the ldap array
//
hr = LdapTypeToUmiTypeBool(
pLdapSrcObjects.pLdapObjects + dwCtr,
&fTempVal
);
if (SUCCEEDED(hr)) {
pfBoolArray[dwCtr] = fTempVal;
}
}
BAIL_ON_FAILURE(hr);
//
// Have the valid string array, need to set the data into UMI_VALUE.
//
pUmiProp->pUmiValue = (UMI_VALUE *)(void *)pfBoolArray;
pUmiProp->uCount = dwCount;
RRETURN(hr);
error:
if (pfBoolArray) {
FreeADsMem( (void *) pfBoolArray);
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeInteger
//
// Synopsis: Converts an ldap boolean value to a BOOL value. It appears
// that if _ttol fails, there is no real way to tell cause 0 is
// returned in that case. There is no way to distinguish a value
// 0 coming back from ldap and 0 because the conversion failed.
//
// Arguments: Self explanatory
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pLong points to the returned value.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeInteger(
PLDAPOBJECT pLdapSrcObject,
LONG *pLong
)
{
HRESULT hr = S_OK;
ADsAssert(pLong);
*pLong = _ttol(LDAPOBJECT_STRING(pLdapSrcObject));
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeCopyIntegers
//
// Synopsis: Converts the ldap source objects into an array of integers
// and assigns the array to the values in the UMI_PROPERTY *.
//
// Arguments: pLdapSrcObjects - array of ldap values.
// pUmiProp - ptr to UMI_Property we modify the pValue.
// uCount& - used to return the number of values.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiProp->pValue points to the newly created array of integers.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeCopyIntegers(
LDAPOBJECTARRAY pLdapSrcObjects,
PUMI_PROPERTY pUmiProp
)
{
HRESULT hr = S_OK;
DWORD dwCount = pLdapSrcObjects.dwCount, dwCtr = 0;
LONG *pLongArray = NULL;
LONG lTempVal;
//
// Allocate array of boolean values to hold all the entries.
//
pLongArray = (LONG *) AllocADsMem(sizeof(LONG) * dwCount);
if (!pLongArray) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
for (dwCtr = 0; (dwCtr < dwCount && SUCCEEDED(hr)); dwCtr++) {
//
// Go through and convert each of the elements in the ldap array
//
hr = LdapTypeToUmiTypeInteger(
pLdapSrcObjects.pLdapObjects + dwCtr,
&lTempVal
);
if (SUCCEEDED(hr)) {
pLongArray[dwCtr] = lTempVal;
}
}
BAIL_ON_FAILURE(hr);
//
// Have the valid string array, need to set the data into UMI_VALUE.
//
pUmiProp->pUmiValue = (UMI_VALUE *)(void *)pLongArray;
pUmiProp->uCount = dwCount;
RRETURN(hr);
error:
if (pLongArray) {
FreeADsMem( (void *) pLongArray);
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeOctetString
//
// Synopsis: Converts an ldap security ber value to an octet string.
//
// Arguments: Self explanatory
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pOctetStr points to the returned binary blob value.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeOctetString(
PLDAPOBJECT pLdapSrcObject,
PUMI_OCTET_STRING pUmiOctetString
)
{
DWORD dwLength;
dwLength = LDAPOBJECT_BERVAL_LEN(pLdapSrcObject);
pUmiOctetString->lpValue = (byte*)AllocADsMem(dwLength);
pUmiOctetString->uLength = dwLength;
if (!pUmiOctetString->lpValue) {
RRETURN(E_OUTOFMEMORY);
}
memcpy(
pUmiOctetString->lpValue,
LDAPOBJECT_BERVAL_VAL(pLdapSrcObject),
dwLength
);
RRETURN(S_OK);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeCopyOctetStrings
//
// Synopsis: Converts the ldap source objects into an array of octet strings
// and assigns the array to the values in the UMI_VALUE *.
//
// Arguments: pLdapSrcObjects - array of ldap values.
// pUmiProp - ptr to UMI_Property we modify the pValue.
// uCount& - used to return the number of values.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiProp->pValue points to the octet string array.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeCopyOctetStrings(
LDAPOBJECTARRAY pLdapSrcObjects,
PUMI_PROPERTY pUmiProp
)
{
HRESULT hr = S_OK;
DWORD dwCount = pLdapSrcObjects.dwCount, dwCtr = 0;
PUMI_OCTET_STRING pOctetArray = NULL;
//
// Allocate string array to hold all the entries.
//
pOctetArray = (PUMI_OCTET_STRING)
AllocADsMem(sizeof(UMI_OCTET_STRING) * dwCount);
if (!pOctetArray) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
for (dwCtr = 0; (dwCtr < dwCount && SUCCEEDED(hr)); dwCtr++) {
//
// Go through and convert each of the elements in the ldap array
//
hr = LdapTypeToUmiTypeOctetString(
pLdapSrcObjects.pLdapObjects + dwCtr,
&pOctetArray[dwCtr]
);
}
BAIL_ON_FAILURE(hr);
//
// Have the valid string array, need to set the data into UMI_VALUE.
//
pUmiProp->pUmiValue = (UMI_VALUE *)(void *)pOctetArray;
pUmiProp->uCount = dwCount;
RRETURN(hr);
error:
if (pOctetArray) {
if (dwCtr) {
//
// Need to go through the array and free the other strings
//
for (; dwCtr > 0; dwCtr --) {
if (pOctetArray[dwCtr-1].lpValue) {
FreeADsMem(pOctetArray[dwCtr-1].lpValue);
}
}
} // if (dwCtr)
//
// Still need to free the array itself.
//
FreeADsMem((void*) pOctetArray);
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeDNWithBinary
//
// Synopsis: Converts ldap DNWithBinary data to a UMI_COM_OBJECT with
// the interface IADsDNWithBinary.
//
// Arguments: pLdapSrcObject - Binary security descriptor to convert.
// pUmiComObject - Return value.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiComObject has valid data if successful.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeDNWithBinary(
PLDAPOBJECT pLdapSrcObject,
PUMI_COM_OBJECT pUmiComObject
)
{
HRESULT hr = S_OK;
VARIANT vVar;
IADsDNWithBinary *pDNBin = NULL;
VariantInit(&vVar);
hr = LdapTypeToVarTypeDNWithBinary(
pLdapSrcObject,
&vVar
);
if (vVar.vt != VT_DISPATCH) {
BAIL_ON_FAILURE(hr = E_FAIL);
}
//
// Now we need to QI for IID_IADsSecurityDescriptor.
//
hr = vVar.pdispVal->QueryInterface(
IID_IADsDNWithBinary,
(void **) &pDNBin
);
BAIL_ON_FAILURE(hr);
//
// We need to fill in the details in the com object.
//
pUmiComObject->priid = (IID*) AllocADsMem(sizeof(IID));
if (!pUmiComObject->priid) {
//
// Need to free the secdesc as this is a failure case.
//
pDNBin->Release();
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
memcpy(pUmiComObject->priid, &(IID_IADsDNWithBinary), sizeof(IID));
pUmiComObject->pInterface = (void *) pDNBin;
error:
//
// Need to clear even in success case.
//
VariantClear(&vVar);
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeDNWithString
//
// Synopsis: Converts ldap DNWithString data to a UMI_COM_OBJECT with
// the interface IADsDNWithString.
//
// Arguments: pLdapSrcObject - Binary security descriptor to convert.
// pUmiComObject - Return value.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiComObject has valid data if successful.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeDNWithString(
PLDAPOBJECT pLdapSrcObject,
PUMI_COM_OBJECT pUmiComObject
)
{
HRESULT hr = S_OK;
VARIANT vVar;
IADsDNWithString *pDNStr = NULL;
VariantInit(&vVar);
hr = LdapTypeToVarTypeDNWithString(
pLdapSrcObject,
&vVar
);
if (vVar.vt != VT_DISPATCH) {
BAIL_ON_FAILURE(hr = E_FAIL);
}
//
// Now we need to QI for IID_IADsSecurityDescriptor.
//
hr = vVar.pdispVal->QueryInterface(
IID_IADsDNWithString,
(void **) &pDNStr
);
BAIL_ON_FAILURE(hr);
//
// We need to fill in the details in the com object.
//
pUmiComObject->priid = (IID*) AllocADsMem(sizeof(IID));
if (!pUmiComObject->priid) {
//
// Need to free the secdesc as this is a failure case.
//
pDNStr->Release();
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
memcpy(pUmiComObject->priid, &(IID_IADsDNWithString), sizeof(IID));
pUmiComObject->pInterface = (void *) pDNStr;
error:
//
// Need to clear even in success case.
//
VariantClear(&vVar);
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeSecurityDescriptor
//
// Synopsis: Converts an ldap security descriptor to an
// IADsSecurityDescriptor Com object. Note that this routine assumes
// that we are dealing only with NT style SD's and that specifically
// we do not have the old SS type SD's.
//
// Arguments: pLdapSrcObject - Binary security descriptor to convert.
// pCreds - Pointer to credentials (for conversion).
// pszServerName - Name of server we got this blob from.
// pUmiComObject - Return value.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiComObject has valid data if succesful.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeSecurityDescriptor(
PLDAPOBJECT pLdapSrcObject,
CCredentials *pCreds,
LPWSTR pszServerName,
PUMI_COM_OBJECT pUmiComObject
)
{
HRESULT hr = S_OK;
CCredentials creds;
VARIANT vVar;
IADsSecurityDescriptor *pSecDesc = NULL;
VariantInit(&vVar);
//
// Update the credentials object with value passed in if applicable.
//
if (pCreds) {
creds = *pCreds;
}
hr = ConvertSecDescriptorToVariant(
pszServerName,
creds,
LDAPOBJECT_BERVAL_VAL(pLdapSrcObject),
&vVar,
TRUE // fNTDS type flag
);
BAIL_ON_FAILURE(hr);
if (vVar.vt != VT_DISPATCH) {
BAIL_ON_FAILURE(hr = E_FAIL);
}
//
// Now we need to QI for IID_IADsSecurityDescriptor.
//
hr = vVar.pdispVal->QueryInterface(
IID_IADsSecurityDescriptor,
(void **) &pSecDesc
);
BAIL_ON_FAILURE(hr);
//
// We need to fill in the details in the com object.
//
pUmiComObject->priid = (IID*) AllocADsMem(sizeof(IID));
if (!pUmiComObject->priid) {
//
// Need to free the secdesc as this is a failure case.
//
pSecDesc->Release();
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
memcpy(pUmiComObject->priid, &(IID_IADsSecurityDescriptor), sizeof(IID));
pUmiComObject->pInterface = (void *) pSecDesc;
error:
//
// Need to clear even in success case.
//
VariantClear(&vVar);
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeComObjects
//
// Synopsis: Converts the ldap data to the corresponding com objects.
// This routine calls the individual conversion routines,
// converting one object at a time and packages the result into
// the output values.
//
// Arguments: pLdapSrcObjects - raw ldap data that needs to be converted.
// pCreds - Credentials used for SD's can be NULL.
// pszServerName - Server Name again only for SD's NULL legal.
// requiredIID - Tells us what type of COM_OBJECT to return.
// pUmiProp - Return value.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiProp->pValue points to the COM_OBJECT array.
//
//----------------------------------------------------------------------------
LdapTypeToUmiTypeCopyComObjects(
LDAPOBJECTARRAY pLdapSrcObjects,
CCredentials *pCreds,
LPWSTR pszServerName,
IID requiredIID,
PUMI_PROPERTY pUmiProp
)
{
HRESULT hr = S_OK;
DWORD dwCount = pLdapSrcObjects.dwCount, dwCtr = 0;
PUMI_COM_OBJECT pComObjectArray = NULL;
//
// Allocate string array to hold all the entries.
//
pComObjectArray = (PUMI_COM_OBJECT)
AllocADsMem(sizeof(UMI_COM_OBJECT) * dwCount);
if (!pComObjectArray) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
for (dwCtr = 0; (dwCtr < dwCount && SUCCEEDED(hr)); dwCtr++) {
//
// Call the appropriate conversion routine based on the
// IID that we need to return.
//
if (requiredIID == IID_IADsSecurityDescriptor) {
//
// Copy over security descriptor.
//
hr = LdapTypeToUmiTypeSecurityDescriptor(
pLdapSrcObjects.pLdapObjects + dwCtr,
pCreds,
pszServerName,
&pComObjectArray[dwCtr]
);
}
else if (requiredIID == IID_IADsDNWithBinary) {
//
// Copy over the Dn With Binary object.
//
hr = LdapTypeToUmiTypeDNWithBinary(
pLdapSrcObjects.pLdapObjects + dwCtr,
&pComObjectArray[dwCtr]
);
}
else if (requiredIID == IID_IADsDNWithString) {
//
// Copy over the Dn With String object.
//
hr = LdapTypeToUmiTypeDNWithString(
pLdapSrcObjects.pLdapObjects + dwCtr,
&pComObjectArray[dwCtr]
);
}
else {
//
// Got to be bad data.
//
BAIL_ON_FAILURE(hr = E_ADS_CANT_CONVERT_DATATYPE)
}
}
BAIL_ON_FAILURE(hr);
//
// Have the valid string array, need to set the data into UMI_VALUE.
//
pUmiProp->pUmiValue = (UMI_VALUE *)(void *)pComObjectArray;
pUmiProp->uCount = dwCount;
RRETURN(hr);
error:
if (pComObjectArray) {
if (dwCtr) {
//
// Need to go through the array and free the other strings
//
for (; dwCtr > 0; dwCtr --) {
if (pComObjectArray[dwCtr-1].pInterface) {
//
// Releasing the object will delete it if appropriate.
//
((IUnknown*)
pComObjectArray[dwCtr-1].pInterface)->Release();
}
if (pComObjectArray[dwCtr-1].priid) {
FreeADsMem((void *)pComObjectArray[dwCtr-1].priid);
}
}
} // if (dwCtr)
//
// Still need to free the array itself.
//
FreeADsMem((void*) pComObjectArray);
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeI8
//
// Synopsis: Converts an ldap security large integer to an I8.
//
// Arguments: Self explanatory
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pInt8 points to the returned large integer value.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeI8(
PLDAPOBJECT pLdapSrcObject,
__int64 *pInt64
)
{
ADsAssert(pInt64);
*pInt64 = _ttoi64(LDAPOBJECT_STRING(pLdapSrcObject));
RRETURN(S_OK);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeCopyLargeIntegers
//
// Synopsis: Converts the ldap source objects into an array of int64's
// and assigns the array to the values in the UMI_PROPERTY *.
//
// Arguments: pLdapSrcObjects - array of ldap values.
// pUmiProp - ptr to UMI_Property we modify the pValue.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiProp->pValue points to the newly created array of int64's.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeCopyLargeIntegers(
LDAPOBJECTARRAY pLdapSrcObjects,
PUMI_PROPERTY pUmiProp
)
{
HRESULT hr = S_OK;
DWORD dwCount = pLdapSrcObjects.dwCount, dwCtr = 0;
__int64 *pInt64Array = NULL;
__int64 int64Val;
//
// Allocate array of boolean values to hold all the entries.
//
pInt64Array = (__int64 *) AllocADsMem(sizeof(__int64) * dwCount);
if (!pInt64Array) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
for (dwCtr = 0; (dwCtr < dwCount && SUCCEEDED(hr)); dwCtr++) {
//
// Go through and convert each of the elements in the ldap array
//
hr = LdapTypeToUmiTypeI8(
pLdapSrcObjects.pLdapObjects + dwCtr,
&int64Val
);
if (SUCCEEDED(hr)) {
pInt64Array[dwCtr] = int64Val;
}
}
BAIL_ON_FAILURE(hr);
//
// Have the valid string array, need to set the data into UMI_VALUE.
//
pUmiProp->pUmiValue = (UMI_VALUE *)(void *)pInt64Array;
pUmiProp->uCount = dwCount;
RRETURN(hr);
error:
if (pInt64Array) {
FreeADsMem( (void *) pInt64Array);
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeTime
//
// Synopsis: Converts an ldap time value to a SystemTime value.
//
// Arguments: Self explanatory
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pSysTime points to the returned time value.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeUTCTimeToUmiTypeTime(
PLDAPOBJECT pLdapSrcObject,
SYSTEMTIME *pSystemTime
)
{
HRESULT hr = S_OK;
ADSVALUE AdsValue;
ADsAssert(pSystemTime);
//
// This converts to a SYSTEMTIME.
//
hr = LdapTypeToAdsTypeUTCTime(
pLdapSrcObject,
&AdsValue
);
BAIL_ON_FAILURE(hr);
*pSystemTime = AdsValue.UTCTime;
error:
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeGeneralizedTimeToUmiTypeTime
//
// Synopsis: Converts an ldap time value to a SystemTime value.
//
// Arguments: Self explanatory
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pSysTime points to the returned time value.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeGeneralizedTimeToUmiTypeTime(
PLDAPOBJECT pLdapSrcObject,
SYSTEMTIME *pSystemTime
)
{
HRESULT hr = S_OK;
ADSVALUE AdsValue;
//
// This converts to a SYSTEMTIME.
//
hr = LdapTypeToAdsTypeGeneralizedTime(
pLdapSrcObject,
&AdsValue
);
BAIL_ON_FAILURE(hr);
*pSystemTime = AdsValue.UTCTime;
error:
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeTimeObjects
//
// Synopsis: Converts the ldap source objects into an array of systemtimes
// and assigns the array to the values in the UMI_PROPERTY *.
//
// Arguments: pLdapSrcObjects - array of ldap values.
// pUmiProp - ptr to UMI_Property we modify the pValue.
// dwSyntaxId - tells us what type of time this is (rather
// write the same code again for UTC and Gen).
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pUmiProp->pValue points to the new array of systimes.
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeCopyTimeObjects(
LDAPOBJECTARRAY pLdapSrcObjects,
PUMI_PROPERTY pUmiProp,
DWORD dwSyntaxId
)
{
HRESULT hr = S_OK;
DWORD dwCount = pLdapSrcObjects.dwCount, dwCtr = 0;
SYSTEMTIME *pSysTimeArray = NULL;
SYSTEMTIME sysTimeVal;
//
// Allocate array of boolean values to hold all the entries.
//
pSysTimeArray = (SYSTEMTIME *) AllocADsMem(sizeof(SYSTEMTIME) * dwCount);
if (!pSysTimeArray) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
for (dwCtr = 0; (dwCtr < dwCount && SUCCEEDED(hr)); dwCtr++) {
//
// Go through and convert each element appropriately.
//
switch (dwSyntaxId) {
case LDAPTYPE_UTCTIME :
hr = LdapTypeGeneralizedTimeToUmiTypeTime(
pLdapSrcObjects.pLdapObjects + dwCtr,
&sysTimeVal
);
break;
case LDAPTYPE_GENERALIZEDTIME :
hr = LdapTypeGeneralizedTimeToUmiTypeTime(
pLdapSrcObjects.pLdapObjects + dwCtr,
&sysTimeVal
);
break;
default:
hr = E_ADS_CANT_CONVERT_DATATYPE;
}
BAIL_ON_FAILURE(hr);
if (SUCCEEDED(hr)) {
pSysTimeArray[dwCtr] = sysTimeVal;
}
}
BAIL_ON_FAILURE(hr);
//
// Have the valid string array, need to set the data into UMI_VALUE.
//
pUmiProp->pUmiValue = (UMI_VALUE *)(void *)pSysTimeArray;
pUmiProp->uCount = dwCount;
RRETURN(hr);
error:
if (pSysTimeArray) {
FreeADsMem( (void *) pSysTimeArray);
}
RRETURN(hr);
}
//+---------------------------------------------------------------------------
// Function: LdapTypeToUmiTypeCopy.
//
// Synopsis: Helper routine to convert ldap values to the required UMI
// data type.
//
// Arguments: pLdapSrcObjects - The source objects to convert.
// pProp - Return value.
// dwStatus - Indicates status of property in cache.
// dwLdapSyntaxId - Ldap syntax of the data.
// pCreds - Ptr to credentials to use for conversion.
// pszServerName - Name of the server to use for conversion.
// uUmiFlags - UMI flag corresponding to dwStatus.
//
// Returns: HRESULT - S_OK or any failure error code.
//
// Modifies: pProp and dwLdapSyntaxId
//
//----------------------------------------------------------------------------
HRESULT
LdapTypeToUmiTypeCopy(
LDAPOBJECTARRAY pLdapSrcObjects,
UMI_PROPERTY_VALUES **pProp,
DWORD dwStatus,
DWORD dwLdapSyntaxId,
CCredentials *pCreds, // needed for sd's
LPWSTR pszServerName, // needed for sd's
ULONG uUmiFlags
)
{
HRESULT hr = S_OK;
DWORD dwCount = pLdapSrcObjects.dwCount, dwCtr;
UMI_PROPERTY *pProperty = NULL;
LPVOID lpVoid = NULL;
//
// Allocate the UMI_PROPERTY_VALUES needed, only one element for now.
//
*pProp = (UMI_PROPERTY_VALUES*)AllocADsMem(sizeof(UMI_PROPERTY_VALUES));
if (!*pProp) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
//
// We are only going to have one value.
//
(*pProp)->uCount = 1;
//
// Now allocate the actual property object.
//
pProperty = (UMI_PROPERTY*) AllocADsMem(sizeof(UMI_PROPERTY));
if (!pProperty) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
(*pProp)->pPropArray = pProperty;
//
// If the operation is clear/delete, then we do not have anything
// to return. There is one Umi object with no values in it and
// possibly no datatype.
//
if (dwStatus == PROPERTY_DELETE) {
pProperty->pUmiValue = NULL;
pProperty->uType = 0;
}
else {
switch (dwLdapSyntaxId) {
case LDAPTYPE_BITSTRING:
case LDAPTYPE_PRINTABLESTRING:
case LDAPTYPE_DIRECTORYSTRING:
case LDAPTYPE_COUNTRYSTRING:
case LDAPTYPE_DN:
case LDAPTYPE_NUMERICSTRING:
case LDAPTYPE_IA5STRING:
case LDAPTYPE_CASEIGNORESTRING:
case LDAPTYPE_CASEEXACTSTRING:
// case LDAPTYPE_CASEIGNOREIA5STRING:
case LDAPTYPE_OID:
case LDAPTYPE_TELEPHONENUMBER:
case LDAPTYPE_ATTRIBUTETYPEDESCRIPTION:
case LDAPTYPE_OBJECTCLASSDESCRIPTION:
case LDAPTYPE_DELIVERYMETHOD:
case LDAPTYPE_ENHANCEDGUIDE:
case LDAPTYPE_FACSIMILETELEPHONENUMBER:
case LDAPTYPE_GUIDE:
case LDAPTYPE_NAMEANDOPTIONALUID:
case LDAPTYPE_POSTALADDRESS:
case LDAPTYPE_PRESENTATIONADDRESS:
case LDAPTYPE_TELEXNUMBER:
case LDAPTYPE_DSAQUALITYSYNTAX:
case LDAPTYPE_DATAQUALITYSYNTAX:
case LDAPTYPE_MAILPREFERENCE:
case LDAPTYPE_OTHERMAILBOX:
case LDAPTYPE_ACCESSPOINTDN:
case LDAPTYPE_ORNAME:
case LDAPTYPE_ORADDRESS:
hr = LdapTypeToUmiTypeCopyStrings(
pLdapSrcObjects,
pProperty
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_LPWSTR;
pProperty->pszPropertyName = NULL;
break;
case LDAPTYPE_BOOLEAN:
hr = LdapTypeToUmiTypeCopyBooleans(
pLdapSrcObjects,
pProperty
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_BOOL;
pProperty->pszPropertyName = NULL;
break;
case LDAPTYPE_INTEGER:
hr = LdapTypeToUmiTypeCopyIntegers(
pLdapSrcObjects,
pProperty
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_I4;
pProperty->pszPropertyName = NULL;
break;
case LDAPTYPE_OCTETSTRING:
case LDAPTYPE_CERTIFICATE:
case LDAPTYPE_CERTIFICATELIST:
case LDAPTYPE_CERTIFICATEPAIR:
case LDAPTYPE_PASSWORD:
case LDAPTYPE_TELETEXTERMINALIDENTIFIER:
case LDAPTYPE_AUDIO:
case LDAPTYPE_JPEG:
case LDAPTYPE_FAX:
hr = LdapTypeToUmiTypeCopyOctetStrings(
pLdapSrcObjects,
pProperty
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_OCTETSTRING;
pProperty->pszPropertyName = NULL;
break;
case LDAPTYPE_GENERALIZEDTIME:
hr = LdapTypeToUmiTypeCopyTimeObjects(
pLdapSrcObjects,
pProperty,
LDAPTYPE_GENERALIZEDTIME
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_SYSTEMTIME;
pProperty->pszPropertyName = NULL;
break;
case LDAPTYPE_UTCTIME:
hr = LdapTypeToUmiTypeCopyTimeObjects(
pLdapSrcObjects,
pProperty,
LDAPTYPE_UTCTIME
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_SYSTEMTIME;
pProperty->pszPropertyName = NULL;
break;
case LDAPTYPE_SECURITY_DESCRIPTOR:
hr = LdapTypeToUmiTypeCopyComObjects(
pLdapSrcObjects,
pCreds,
pszServerName,
IID_IADsSecurityDescriptor,
pProperty
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_IUNKNOWN;
pProperty->pszPropertyName = NULL;
break;
case LDAPTYPE_INTEGER8:
hr = LdapTypeToUmiTypeCopyLargeIntegers(
pLdapSrcObjects,
pProperty
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_I8;
pProperty->pszPropertyName = NULL;
break;
/*
#if 0
case LDAPTYPE_CASEEXACTLIST:
case LDAPTYPE_CASEIGNORELIST:
#endif
*/
case LDAPTYPE_DNWITHBINARY:
hr = LdapTypeToUmiTypeCopyComObjects(
pLdapSrcObjects,
pCreds,
pszServerName,
IID_IADsDNWithBinary,
pProperty
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_IUNKNOWN;
pProperty->pszPropertyName = NULL;
break;
case LDAPTYPE_DNWITHSTRING:
hr = LdapTypeToUmiTypeCopyComObjects(
pLdapSrcObjects,
pCreds,
pszServerName,
IID_IADsDNWithString,
pProperty
);
BAIL_ON_FAILURE(hr);
pProperty->uType = UMI_TYPE_IUNKNOWN;
pProperty->pszPropertyName = NULL;
break;
default:
//
// LDAPTYPE_UNKNOWN (schemaless server property) will be
// not be converted.
//
hr = E_ADS_CANT_CONVERT_DATATYPE;
break;
} // end of case.
} // end of if property != DELETE.
//
// Need to set the property type on the operation if we get here.
//
pProperty->uOperationType = uUmiFlags;
RRETURN(hr);
error:
//
// Free the Property array as needed.
//
// FreeUmiPropertyArray();
// DO NOT FREE pProperty it will be handled byt FreeUmiPropertyArray
// Write code to free lpVoid as it will have valid data in failure cases.
RRETURN(hr);
}