Source code of Windows XP (NT5)
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

3067 lines
74 KiB

//+-----------------------------------------------------------------------
//
// Microsoft Windows
//
// Copyright (c) Microsoft Corporation 1992 - 1996
//
// File: ctxtmgr.cxx
//
// Contents: Code for managing contexts list for the Kerberos package
//
//
// History: 17-April-1996 Created MikeSw
// 26-Sep-1998 ChandanS
// Added more debugging support etc.
//
//------------------------------------------------------------------------
#include <kerb.hxx>
#define CTXTMGR_ALLOCATE
#include <kerbp.h>
#include "userapi.h"
#ifdef RETAIL_LOG_SUPPORT
static TCHAR THIS_FILE[]=TEXT(__FILE__);
#endif
ULONG
HandleToListIndex(
ULONG_PTR ContextHandle
);
//+-------------------------------------------------------------------------
//
// Function: KerbInitContextList
//
// Synopsis: Initializes the contexts list
//
// Effects: allocates a resources
//
// Arguments: none
//
// Requires:
//
// Returns: STATUS_SUCCESS on success, other error codes
// on failure
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbInitContextList(
VOID
)
{
NTSTATUS Status = STATUS_SUCCESS;
ULONG Index = 0;
__try {
RtlInitializeResource( &KerbContextResource );
} __except(EXCEPTION_EXECUTE_HANDLER)
{
return STATUS_INSUFFICIENT_RESOURCES;
}
for(Index = 0 ; Index < KERB_USERLIST_COUNT ; Index++)
{
Status = KerbInitializeList( &KerbContextList[Index] );
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
}
KerberosContextsInitialized = TRUE;
Cleanup:
if (!NT_SUCCESS(Status))
{
ULONG i;
RtlDeleteResource( &KerbContextResource );
for( i = 0 ; i < Index ; i++ )
{
KerbFreeList( &KerbContextList[i] );
}
}
return Status;
}
//+-------------------------------------------------------------------------
//
// Function: KerbFreeContextList
//
// Synopsis: Frees the contexts list
//
// Effects:
//
// Arguments: none
//
// Requires:
//
// Returns: none
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
KerbFreeContextList(
VOID
)
{
PKERB_CONTEXT Context;
#if 0
if (KerberosContextsInitialized)
{
KerbLockList(&KerbContextList);
//
// Go through the list of logon sessions and dereferences them all
//
while (!IsListEmpty(&KerbContextList.List))
{
Context = CONTAINING_RECORD(
KerbContextList.List.Flink,
KERB_CONTEXT,
ListEntry.Next
);
KerbReferenceListEntry(
&KerbContextList,
&Context->ListEntry,
TRUE
);
KerbDereferenceContext(Context);
}
KerbFreeList(&KerbContextList);
}
#endif
}
//+-------------------------------------------------------------------------
//
// Function: KerbAllocateContext
//
// Synopsis: Allocates a Context structure
//
// Effects: Allocates a Context, but does not add it to the
// list of Contexts
//
// Arguments: NewContext - receives a new Context allocated
// with KerbAllocate
//
// Requires:
//
// Returns: STATUS_SUCCESS on success
// STATUS_INSUFFICIENT_RESOURCES if the allocation fails
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbAllocateContext(
OUT PKERB_CONTEXT * NewContext,
IN BOOLEAN UserMode
)
{
PKERB_CONTEXT Context;
SECPKG_CALL_INFO CallInfo = {0};
//
// Get the client process ID if we are running in the LSA
//
if (!UserMode)
{
if (!LsaFunctions->GetCallInfo(&CallInfo))
{
D_DebugLog((DEB_ERROR,"Failed to get call info\n. %ws, line %d\n",
THIS_FILE, __LINE__));
DsysAssert(FALSE);
return(STATUS_INSUFFICIENT_RESOURCES);
}
}
Context = (PKERB_CONTEXT) KerbAllocate(
sizeof(KERB_CONTEXT) );
if (Context == NULL)
{
return(STATUS_INSUFFICIENT_RESOURCES);
}
Context->ClientProcess = CallInfo.ProcessId;
Context->ContextState = IdleState;
//
// Set the references to 1 since we are returning a pointer to the
// logon session
//
KerbInitializeListEntry(
&Context->ListEntry
);
*NewContext = Context;
return(STATUS_SUCCESS);
}
//+-------------------------------------------------------------------------
//
// Function: KerbInsertContext
//
// Synopsis: Inserts a logon session into the list of logon sessions
//
// Effects: bumps reference count on logon session
//
// Arguments: Context - Context to insert
//
// Requires:
//
// Returns: STATUS_SUCCESS always
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbInsertContext(
IN PKERB_CONTEXT Context
)
{
ULONG ListIndex;
ListIndex = HandleToListIndex( Context->LsaContextHandle );
Context->ContextTag = KERB_CONTEXT_TAG_ACTIVE;
KerbInsertListEntry(
&Context->ListEntry,
&KerbContextList[ListIndex]
);
return(STATUS_SUCCESS);
}
//+-------------------------------------------------------------------------
//
// Function: KerbReferenceContext
//
// Synopsis: Locates a context context handleand references it
//
// Effects: Increments reference count and possible unlinks it from list
//
// Arguments: ContextHandle - Handle of context to reference.
// RemoveFromList - If TRUE, context will be delinked.
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
SECURITY_STATUS
KerbReferenceContext(
IN LSA_SEC_HANDLE ContextHandle,
IN BOOLEAN RemoveFromList,
OUT PKERB_CONTEXT * FoundContext
)
{
PKERB_CONTEXT Context = NULL;
BOOLEAN Found = FALSE;
SECPKG_CLIENT_INFO ClientInfo;
NTSTATUS Status = STATUS_SUCCESS;
ULONG ListIndex = 0;
BOOLEAN ListLocked = FALSE;
if (KerberosState == KerberosLsaMode)
{
Status = LsaFunctions->GetClientInfo(&ClientInfo);
if (!NT_SUCCESS(Status))
{
SECPKG_CALL_INFO CallInfo;
//
// Check to see if the call is terminating. If so, give it
// TCB privilege because it is really the LSA doing this.
//
if (LsaFunctions->GetCallInfo(&CallInfo))
{
if ((CallInfo.Attributes & SECPKG_CALL_CLEANUP) != 0)
{
Status = STATUS_SUCCESS;
RtlZeroMemory(
&ClientInfo,
sizeof(SECPKG_CLIENT_INFO)
);
ClientInfo.HasTcbPrivilege = TRUE;
}
}
if (!NT_SUCCESS(Status))
{
D_DebugLog((DEB_ERROR,"Failed to get client info: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
*FoundContext = NULL ;
return(Status);
}
}
}
else
{
ClientInfo.HasTcbPrivilege = FALSE ;
ClientInfo.ProcessID = GetCurrentProcessId();
}
//
// Go through the list of logon sessions looking for the correct
// context
//
__try {
Context = (PKERB_CONTEXT)ContextHandle;
while ( Context->ContextTag == KERB_CONTEXT_TAG_ACTIVE )
{
ListIndex = HandleToListIndex( Context->LsaContextHandle );
KerbLockList(&KerbContextList[ListIndex]);
ListLocked = TRUE;
//
// Make sure that if we aren't trying to remove it we are
// from the correct process.
//
if (!ClientInfo.HasTcbPrivilege &&
(Context->ClientProcess != ClientInfo.ProcessID) &&
(KerberosState == KerberosLsaMode))
{
D_DebugLog((DEB_ERROR,"Trying to reference a context from another process! %ws, line %d\n", THIS_FILE, __LINE__));
Found = FALSE;
break;
}
//
// If the context is expired, don't allow it to be referenced.
//
if (KerbGlobalEnforceTime && !RemoveFromList)
{
TimeStamp CurrentTime;
TimeStamp ContextExpires;
GetSystemTimeAsFileTime((PFILETIME) &CurrentTime);
ContextExpires = Context->Lifetime;
if (KerbGetTime(ContextExpires) < KerbGetTime(CurrentTime))
{
D_DebugLog((DEB_WARN, "Trying to reference expired context\n"));
Found = FALSE;
Status = SEC_E_CONTEXT_EXPIRED;
break;
}
}
KerbReferenceListEntry(
&KerbContextList[ ListIndex ],
&Context->ListEntry,
RemoveFromList
);
Found = TRUE;
break;
}
} __except( EXCEPTION_EXECUTE_HANDLER )
{
D_DebugLog((DEB_ERROR,"Trying to reference invalid context %ws, line %d\n", THIS_FILE, __LINE__));
Found = FALSE;
}
if( ListLocked )
{
KerbUnlockList(&KerbContextList[ListIndex]);
}
if (!Found)
{
Context = NULL;
}
*FoundContext = Context ;
if ( Context )
{
return Status;
}
else if (NT_SUCCESS(Status))
{
return SEC_E_INVALID_HANDLE ;
}
else
{
return Status;
}
}
//+-------------------------------------------------------------------------
//
// Function: KerbReferenceContextByLsaHandle
//
// Synopsis: Locates a context by lsa context handle and references it
//
// Effects: Increments reference count and possible unlinks it from list
//
// Arguments: ContextHandle - Lsa Handle of context to reference.
// RemoveFromList - If TRUE, context will be delinked.
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
SECURITY_STATUS
KerbReferenceContextByLsaHandle(
IN LSA_SEC_HANDLE ContextHandle,
IN BOOLEAN RemoveFromList,
OUT PKERB_CONTEXT *FoundContext
)
{
PLIST_ENTRY ListEntry;
PKERB_CONTEXT Context = NULL;
BOOLEAN Found = FALSE;
NTSTATUS Status = STATUS_SUCCESS;
ULONG ListIndex;
ListIndex = HandleToListIndex( ContextHandle );
KerbLockList(&KerbContextList[ListIndex]);
//
// Go through the list of logon sessions looking for the correct
// context
//
for (ListEntry = KerbContextList[ListIndex].List.Flink ;
ListEntry != &KerbContextList[ListIndex].List ;
ListEntry = ListEntry->Flink )
{
Context = CONTAINING_RECORD(ListEntry, KERB_CONTEXT, ListEntry.Next);
if (ContextHandle == Context->LsaContextHandle)
{
//
// Make sure that if we aren't trying to remove it we are
// from the correct process.
//
//
// If the context is expired, don't allow it to be referenced.
//
if (KerbGlobalEnforceTime && !RemoveFromList )
{
TimeStamp CurrentTime;
TimeStamp ContextExpires;
GetSystemTimeAsFileTime((PFILETIME) &CurrentTime );
ContextExpires = Context->Lifetime;
if (KerbGetTime(ContextExpires) < KerbGetTime(CurrentTime))
{
D_DebugLog((DEB_WARN, "Trying to reference expired context\n"));
Found = FALSE;
Status = SEC_E_CONTEXT_EXPIRED;
break;
}
}
KerbReferenceListEntry(
&KerbContextList[ListIndex],
&Context->ListEntry,
RemoveFromList
);
Found = TRUE;
break;
}
}
KerbUnlockList(&KerbContextList[ListIndex]);
if (!Found)
{
Context = NULL;
}
*FoundContext = Context ;
if ( Context )
{
return Status;
}
else if (NT_SUCCESS(Status))
{
return SEC_E_INVALID_HANDLE ;
}
else
{
return Status;
}
}
//+-------------------------------------------------------------------------
//
// Function: KerbReferenceContextByPointer
//
// Synopsis: References a context by the context pointer itself.
//
// Effects: Increments reference count and possible unlinks it from list
//
// Arguments: Context - The context to reference.
// RemoveFromList - If TRUE, context will be delinked
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
KerbReferenceContextByPointer(
IN PKERB_CONTEXT Context,
IN BOOLEAN RemoveFromList
)
{
ULONG ListIndex;
ListIndex = HandleToListIndex( Context->LsaContextHandle );
KerbLockList(&KerbContextList[ListIndex]);
KerbReferenceListEntry(
&KerbContextList[ListIndex],
&Context->ListEntry,
RemoveFromList
);
KerbUnlockList(&KerbContextList[ListIndex]);
}
//+-------------------------------------------------------------------------
//
// Function: KerbFreeContext
//
// Synopsis: Frees a context that is unlinked
//
// Effects: frees all storage associated with the context
//
// Arguments: Context - context to free
//
// Requires:
//
// Returns: none
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
KerbFreeContext(
IN PKERB_CONTEXT Context
)
{
#ifndef WIN32_CHICAGO
if (Context->TokenHandle != NULL)
{
NtClose(Context->TokenHandle);
}
#endif // WIN32_CHICAGO
Context->ContextTag = KERB_CONTEXT_TAG_DELETE;
KerbFreeKey(&Context->SessionKey);
KerbFreeKey(&Context->TicketKey);
if (Context->TicketCacheEntry != NULL)
{
KerbDereferenceTicketCacheEntry(Context->TicketCacheEntry);
}
if (Context->UserSid != NULL)
{
KerbFree(Context->UserSid);
}
KerbFreeString(&Context->ClientName);
KerbFreeString(&Context->ClientRealm);
KerbFreeString(&Context->ClientPrincipalName);
KerbFreeString(&Context->ServerPrincipalName);
if( Context->pbMarshalledTargetInfo )
{
LocalFree( Context->pbMarshalledTargetInfo );
}
KerbFree(Context);
}
//+-------------------------------------------------------------------------
//
// Function: KerbDereferenceContext
//
// Synopsis: Dereferences a logon session - if reference count goes
// to zero it frees the logon session
//
// Effects: decrements reference count
//
// Arguments: Context - Logon session to dereference
//
// Requires:
//
// Returns: none
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
KerbDereferenceContext(
IN PKERB_CONTEXT Context
)
{
ULONG ListIndex;
ListIndex = HandleToListIndex( Context->LsaContextHandle );
if (KerbDereferenceListEntry(
&Context->ListEntry,
&KerbContextList[ListIndex]
) )
{
KerbFreeContext(Context);
}
}
//+-------------------------------------------------------------------------
//
// Function: KerbCreateEmptyContext
//
// Synopsis: Creates a context for the server of a datagram authentication
// session. Since there is no input message, all the fields
// are initialized to zero.
//
// Effects: Allocates and links a context.
//
// Arguments: Credential - Credential to hang this context off of
// ContextFlags - Flags for the context
// LogonId = LogonId of the creating logon session
// NewContext - receives referenced context pointer,
// ContextLifetime - Lifetime for the context.
//
// Requires:
//
// Returns: NTSTATUS code
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbCreateEmptyContext(
IN PKERB_CREDENTIAL Credential,
IN ULONG ContextFlags,
IN ULONG ContextAttributes,
IN PLUID LogonId,
OUT PKERB_CONTEXT * NewContext,
OUT PTimeStamp ContextLifetime
)
{
NTSTATUS Status;
PKERB_CONTEXT Context = NULL;
Status = KerbAllocateContext( &Context, FALSE );
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
Context->CredentialHandle = KerbGetCredentialHandle(Credential);
Context->ContextFlags = ContextFlags;
Context->ContextAttributes = ContextAttributes;
Context->Lifetime = KerbGlobalWillNeverTime;
Context->CredManCredentials = NULL;
GetSystemTimeAsFileTime((PFILETIME)
&(Context->StartTime)
);
Context->LogonId = *LogonId;
*ContextLifetime = Context->Lifetime;
Status = KerbInsertContext(
Context
);
if (!NT_SUCCESS(Status))
{
D_DebugLog((DEB_ERROR,"Failed to insert context: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
goto Cleanup;
}
*NewContext = Context;
Cleanup:
if (!NT_SUCCESS(Status))
{
if (Context != NULL)
{
KerbFreeContext(Context);
}
}
return(Status);
}
//+-------------------------------------------------------------------------
//
// Function: KerbCreateClientContext
//
// Synopsis: Creates a context for the client of an authentication
// session.
//
// Effects: Allocates and links a context.
//
// Arguments: LogonSession - Logon session to lock when accessing the credential
// Credential - Credential to hang this context off of
// TicketCacheEntry - Ticket around which to build this context
// TargetName - target name supplied by client.
// Nonce - Nonce used in AP request
// SubSessionKey - subsession key to use, if present
// ContextFlags - Flags passed in by client for authentication
// options.
// NewContext - receives referenced context pointer,
// ContextLifetime - Lifetime for the context.
//
// Requires:
//
// Returns: NTSTATUS code
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbCreateClientContext(
IN PKERB_LOGON_SESSION LogonSession,
IN PKERB_CREDENTIAL Credential,
IN OPTIONAL PKERB_CREDMAN_CRED CredManCredentials,
IN OPTIONAL PKERB_TICKET_CACHE_ENTRY TicketCacheEntry,
IN OPTIONAL PUNICODE_STRING TargetName,
IN ULONG Nonce,
IN ULONG ContextFlags,
IN ULONG ContextAttributes,
IN OPTIONAL PKERB_ENCRYPTION_KEY SubSessionKey,
OUT PKERB_CONTEXT * NewContext,
OUT PTimeStamp ContextLifetime
)
{
NTSTATUS Status;
PKERB_CONTEXT Context = NULL;
Status = KerbAllocateContext( &Context, FALSE );
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
if (ARGUMENT_PRESENT(TicketCacheEntry))
{
//
// If we are doing datagram, reference the cache entry and
// store a pointer to it in the context. The ticket cache cannot be
// read locked at this point because the call to acquire a write
// lock will block.
//
if ((ContextFlags & ISC_RET_DATAGRAM) != 0)
{
KerbReferenceTicketCacheEntry(TicketCacheEntry);
Context->TicketCacheEntry = TicketCacheEntry;
}
KerbReadLockTicketCache();
//
// Duplicate the session key into the context
//
if (ARGUMENT_PRESENT(SubSessionKey) && (SubSessionKey->keyvalue.value != NULL))
{
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->SessionKey,
SubSessionKey
)))
{
KerbUnlockTicketCache();
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
}
else
{
//
// For datagram, create a key
//
if ((ContextFlags & ISC_RET_DATAGRAM) != 0)
{
KERBERR KerbErr;
SECPKG_CALL_INFO CallInfo;
if (!LsaFunctions->GetCallInfo(&CallInfo))
{
D_DebugLog((DEB_ERROR,"Failed to get client info: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
Status = STATUS_INSUFFICIENT_RESOURCES;
KerbUnlockTicketCache();
goto Cleanup;
}
//
// If we are configured for strong encryption & we have said to
// use it for datagram or this is an inprocess caller, then create
// a strong key.
//
D_DebugLog((DEB_TRACE_CTXT,"Making exportable key for datagram client context\n"));
if ((KerbGlobalStrongEncryptionPermitted &&
KerbGlobalUseStrongEncryptionForDatagram) ||
(CallInfo.Attributes & SECPKG_CALL_IN_PROC))
{
KerbErr = KerbMakeKey(
TicketCacheEntry->SessionKey.keytype,
&Context->SessionKey
);
}
else
{
KerbErr = KerbMakeExportableKey(
TicketCacheEntry->SessionKey.keytype,
&Context->SessionKey
);
}
if (!KERB_SUCCESS(KerbErr))
{
Status = KerbMapKerbError(KerbErr);
KerbUnlockTicketCache();
goto Cleanup;
}
}
else
{
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->SessionKey,
&TicketCacheEntry->SessionKey
)))
{
KerbUnlockTicketCache();
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
}
}
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->TicketKey,
&TicketCacheEntry->SessionKey
)))
{
KerbUnlockTicketCache();
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
//
// Get the client's realm
//
Status = KerbDuplicateString(
&Context->ClientRealm,
&TicketCacheEntry->DomainName);
if (!NT_SUCCESS(Status))
{
KerbUnlockTicketCache();
goto Cleanup;
}
//
// Get the client's name.
//
if (!KERB_SUCCESS(KerbConvertKdcNameToString(
&Context->ClientName,
TicketCacheEntry->ClientName,
NULL)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
KerbUnlockTicketCache();
goto Cleanup;
}
Context->Lifetime = TicketCacheEntry->EndTime;
Context->StartTime = TicketCacheEntry->StartTime;
Context->RenewTime = TicketCacheEntry->RenewUntil;
Context->EncryptionType = TicketCacheEntry->Ticket.encrypted_part.encryption_type;
KerbUnlockTicketCache();
}
else
{
Context->Lifetime = KerbGlobalWillNeverTime;
Context->RenewTime = KerbGlobalWillNeverTime;
GetSystemTimeAsFileTime((PFILETIME)
&(Context->StartTime)
);
Context->EncryptionType = KERB_ETYPE_NULL;
}
Context->Nonce = Nonce;
//
// For now, until the server sends us a separate nonce, use the one
// we generated for receiving data
//
Context->ReceiveNonce = Nonce;
Context->CredentialHandle = KerbGetCredentialHandle(Credential);
//KerbReadLockLogonSessions(LogonSession); // FESTER: Needed??
if (ARGUMENT_PRESENT(CredManCredentials))
{
Context->ContextAttributes |= KERB_CONTEXT_USING_CREDMAN;
Context->CredManCredentials = CredManCredentials; // don't ref, as we don't use it..
}
else if ((Credential->SuppliedCredentials != NULL))
{
Context->ContextAttributes |= KERB_CONTEXT_USED_SUPPLIED_CREDS;
}
//KerbUnlockLogonSessions(LogonSession);
Context->ContextFlags = ContextFlags;
Context->ContextAttributes = KERB_CONTEXT_OUTBOUND | ContextAttributes;
//
// if the caller supplied a target name, stash it in the context
//
if (ARGUMENT_PRESENT(TargetName))
{
Status = KerbDuplicateString(
&Context->ServerPrincipalName,
TargetName
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
}
*ContextLifetime = Context->Lifetime;
Status = KerbInsertContext(
Context
);
if (!NT_SUCCESS(Status))
{
D_DebugLog((DEB_ERROR,"Failed to insert context: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
goto Cleanup;
}
*NewContext = Context;
Cleanup:
if (!NT_SUCCESS(Status))
{
if (Context != NULL)
{
KerbFreeContext(Context);
}
}
return(Status);
}
//+-------------------------------------------------------------------------
//
// Function: KerbCreateSKeyEntry
//
// Synopsis: Create a session key entry
//
// Effects:
//
// Arguments: pSessionKey - session key that is used, mostly SubKey
// pExpireTime - time that the session key expires
//
// Requires: Memory allocator must zero out memory because KerbFreeSKeyEntry
// relies on that behavior
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbCreateSKeyEntry(
IN KERB_ENCRYPTION_KEY* pSessionKey,
IN FILETIME* pExpireTime
)
{
NTSTATUS NtStatus = STATUS_UNSUCCESSFUL;
KERB_SESSION_KEY_ENTRY* pSessionKeyEntry = NULL;
if (!pSessionKey || !pExpireTime)
{
return STATUS_INVALID_PARAMETER;
}
pSessionKeyEntry = (KERB_SESSION_KEY_ENTRY*) KerbAllocate(sizeof(KERB_SESSION_KEY_ENTRY));
if (!pSessionKeyEntry)
{
return STATUS_NO_MEMORY;
}
InitializeListHead(&pSessionKeyEntry->ListEntry); // so that un-linking always works
NtStatus = KerbMapKerbError(KerbDuplicateKey(&pSessionKeyEntry->SessionKey, pSessionKey));
if (NT_SUCCESS(NtStatus))
{
pSessionKeyEntry->ExpireTime = *pExpireTime;
NtStatus = KerbInsertSKey(pSessionKeyEntry);
}
if (!NT_SUCCESS(NtStatus))
{
KerbFreeSKeyEntry(pSessionKeyEntry);
}
return NtStatus;
}
//+-------------------------------------------------------------------------
//
// Function: KerbDoesSKeyExist
//
// Synopsis: check whether a session key entry exists the session key list
//
// Effects:
//
// Arguments: pKey - key to be located
// pbExist - whether session key entry exists
//
// Requires:
//
// Returns: If an entry is found, ppSKeyEntry points to the entry
// that contains pKey hence should be non null
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbDoesSKeyExist(
IN KERB_ENCRYPTION_KEY* pKey,
OUT BOOLEAN* pbExist
)
{
FILETIME CurrentTime = {0};
NTSTATUS NtStatus = STATUS_UNSUCCESSFUL;
if (!pKey || !pbExist)
{
return STATUS_INVALID_PARAMETER;
}
*pbExist = FALSE;
GetSystemTimeAsFileTime(&CurrentTime);
DebugLog((DEB_TRACE_LOOPBACK, "KerbDoesSKeyExist, curtime %#x:%#x\n", CurrentTime.dwHighDateTime, CurrentTime.dwLowDateTime));
if (RtlAcquireResourceShared(&KerbNetworkServiceSKeyLock, TRUE))
{
NtStatus = STATUS_SUCCESS;
for (LIST_ENTRY* pListEntry = KerbNetworkServiceSKeyList.Flink;
NT_SUCCESS(NtStatus) && pListEntry != &KerbNetworkServiceSKeyList;
pListEntry = pListEntry->Flink)
{
KERB_SESSION_KEY_ENTRY* pSKeyEntry = CONTAINING_RECORD(pListEntry, KERB_SESSION_KEY_ENTRY, ListEntry);
//
// only keys that have not expired are checked
//
if (KerbGetTime(* (TimeStamp*)&pSKeyEntry->ExpireTime) > KerbGetTime(* (TimeStamp*)&CurrentTime))
{
BOOLEAN bEqual = FALSE;
NtStatus = KerbEqualKey(&pSKeyEntry->SessionKey, pKey, &bEqual);
if (NT_SUCCESS(NtStatus) && bEqual)
{
//
// found it
//
DebugLog((DEB_TRACE_LOOPBACK, "KerbDoesSKeyExist, keyexpire %#x:%#x found\n", pSKeyEntry->ExpireTime.dwHighDateTime, pSKeyEntry->ExpireTime.dwLowDateTime));
*pbExist = TRUE;
break;
}
}
}
RtlReleaseResource(&KerbNetworkServiceSKeyLock);
}
return NtStatus;
}
//+-----------------------------------------------------------------------
//
// Function: KerbEqualKey
//
// Synopsis: Compare two keys
//
// Effects:
//
// Arguments: pKeyFoo - one key
// pKeyBar - the other key
//
// Returns: NTSTATUS
//
// History:
//
//------------------------------------------------------------------------
NTSTATUS
KerbEqualKey(
IN KERB_ENCRYPTION_KEY* pKeyFoo,
IN KERB_ENCRYPTION_KEY* pKeyBar,
OUT BOOLEAN* pbEqual
)
{
if (!pKeyFoo || !pKeyBar || !pbEqual)
{
return STATUS_INVALID_PARAMETER;
}
*pbEqual = (pKeyFoo->keytype == pKeyBar->keytype) &&
(pKeyFoo->keyvalue.length == pKeyBar->keyvalue.length) &&
(pKeyFoo->keyvalue.length == RtlCompareMemory(pKeyFoo->keyvalue.value, pKeyBar->keyvalue.value, pKeyFoo->keyvalue.length));
return STATUS_SUCCESS;
}
//+-------------------------------------------------------------------------
//
// Function: KerbInsertSessionKey
//
// Synopsis: Insert an session key entry to KerbNetWorkSessionKeyList
//
// Effects:
//
// Arguments: pSKeyEntry - entry to be inserted
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbInsertSKey(
IN KERB_SESSION_KEY_ENTRY* pSKeyEntry
)
{
NTSTATUS NtStatus = STATUS_UNSUCCESSFUL;
if (!pSKeyEntry)
{
return STATUS_INVALID_PARAMETER;
}
if (RtlAcquireResourceExclusive(&KerbNetworkServiceSKeyLock, TRUE))
{
NtStatus = STATUS_SUCCESS;
InsertHeadList(&KerbNetworkServiceSKeyList, &pSKeyEntry->ListEntry);
RtlReleaseResource(&KerbNetworkServiceSKeyLock);
}
#if DBG
ULONG cSKeyEntries = 0;
if (NT_SUCCESS(NtStatus))
{
cSKeyEntries = InterlockedIncrement(&KerbcSKeyEntries);
}
DebugLog((DEB_TRACE_LOOPBACK, "KerbInsertSKey, status 0x%x, keyexpire %#x:%#x, total %d keys\n", NtStatus, pSKeyEntry->ExpireTime.dwHighDateTime, pSKeyEntry->ExpireTime.dwLowDateTime, cSKeyEntries));
#endif
return NtStatus;
}
//+-------------------------------------------------------------------------
//
// Function: KerbTrimSKeyList
//
// Synopsis: Release session key entries that have expired
//
// Effects:
//
// Arguments:
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
KerbTrimSKeyList(
VOID
)
{
FILETIME CurrentTime = {0};
BOOLEAN bCleanUpNeeded = FALSE;
GetSystemTimeAsFileTime(&CurrentTime);
DebugLog((DEB_TRACE_LOOPBACK, "KerbTrimSKeyList, curtime %#x:%#x\n", CurrentTime.dwHighDateTime, CurrentTime.dwLowDateTime));
if (RtlAcquireResourceShared(&KerbNetworkServiceSKeyLock, TRUE))
{
for (LIST_ENTRY* pListEntry = KerbNetworkServiceSKeyList.Flink;
pListEntry != &KerbNetworkServiceSKeyList;
pListEntry = pListEntry->Flink)
{
KERB_SESSION_KEY_ENTRY* pSKeyEntry = CONTAINING_RECORD(pListEntry, KERB_SESSION_KEY_ENTRY, ListEntry);
if (KerbGetTime(* (TimeStamp*)&pSKeyEntry->ExpireTime) <= KerbGetTime(* (TimeStamp*)&CurrentTime))
{
bCleanUpNeeded = TRUE;
break;
}
}
if (bCleanUpNeeded)
{
RtlConvertSharedToExclusive(&KerbNetworkServiceSKeyLock);
for (LIST_ENTRY* pListEntry = KerbNetworkServiceSKeyList.Flink;
pListEntry != &KerbNetworkServiceSKeyList;
/* updating pListEntry inside the loop */)
{
KERB_SESSION_KEY_ENTRY* pSKeyEntry = CONTAINING_RECORD(pListEntry, KERB_SESSION_KEY_ENTRY, ListEntry);
//
// Update next link before pListEntry is deleted
//
pListEntry = pListEntry->Flink;
//
// only delete keys that expired
//
if (KerbGetTime(* (TimeStamp*)&pSKeyEntry->ExpireTime) <= KerbGetTime(* (TimeStamp*)&CurrentTime))
{
KerbFreeSKeyEntry(pSKeyEntry);
}
}
}
RtlReleaseResource(&KerbNetworkServiceSKeyLock);
}
}
//+-------------------------------------------------------------------------
//
// Function: KerbNetworkServiceSKeyListCleanupCallback
//
// Synopsis: Clean up network service session key list
//
// Effects:
//
// Arguments: pContext - the context parameter, see RtlCreateTimer
// bTimeOut - whether a timeout has occurred
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
KerbNetworkServiceSKeyListCleanupCallback(
IN VOID* pContext,
IN BOOLEAN bTimeOut
)
{
DebugLog((DEB_TRACE_LOOPBACK, "KerbNetworkServiceSKeyListCleanupCallback is called\n"));
KerbTrimSKeyList();
}
//+-------------------------------------------------------------------------
//
// Function: KerbFreeSKeyEntry
//
// Synopsis: Free a session key entry
//
// Effects:
//
// Arguments: pSKeyEntry - session key entry to free
//
// Requires: pSKeyEntry->ListEntry must have been initialized properly
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
KerbFreeSKeyEntry(
IN KERB_SESSION_KEY_ENTRY* pSKeyEntry
)
{
if (pSKeyEntry)
{
RemoveEntryList(&pSKeyEntry->ListEntry);
#if DBG
LONG cSKeyEntries = 0;
cSKeyEntries = InterlockedDecrement(&KerbcSKeyEntries);
DebugLog((DEB_TRACE_LOOPBACK, "KerbFreeSKeyEntry, keyexpire %#x:%#x, %d keys left\n", pSKeyEntry->ExpireTime.dwHighDateTime, pSKeyEntry->ExpireTime.dwLowDateTime, cSKeyEntries));
#endif
KerbFreeKey(&pSKeyEntry->SessionKey);
KerbFree(pSKeyEntry);
}
}
//+-------------------------------------------------------------------------
//
// Function: KerbCreateSKeyTimer
//
// Synopsis: Create a timer and set the callback to clean up the session
// key list
//
// Effects:
//
// Arguments:
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbCreateSKeyTimer(
VOID
)
{
NTSTATUS NtStatus;
HANDLE hTimer = NULL;
KerbhSKeyTimerQueue = NULL;
NtStatus = RtlCreateTimerQueue(&KerbhSKeyTimerQueue);
if (NT_SUCCESS(NtStatus))
{
NtStatus = RtlCreateTimer(
KerbhSKeyTimerQueue,
&hTimer,
KerbNetworkServiceSKeyListCleanupCallback,
NULL, // no context
KERB_DEFAULT_SKEWTIME * 60 * 1000, // 5 min
KERB_DEFAULT_SKEWTIME * KERB_SKLIST_CALLBACK_FEQ * 60 * 1000, // 50 min
0
);
}
return NtStatus;
}
//+-------------------------------------------------------------------------
//
// Function: KerbFreeSKeyTimer
//
// Synopsis: Free network service key list timer queue
//
// Effects:
//
// Arguments:
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
VOID
KerbFreeSKeyTimer(
VOID
)
{
if (KerbhSKeyTimerQueue)
{
RtlDeleteTimerQueue(KerbhSKeyTimerQueue);
KerbhSKeyTimerQueue = NULL;
}
}
//+-------------------------------------------------------------------------
//
// Function: KerbUpdateServerContext
//
// Synopsis: Creates a context for the server of an authentication
// session.
//
// Effects: Allocates and links a context.
//
// Arguments: Context - Context to update
// InternalTicket - Ticket used to create this context.
// SessionKey - Session key from the ticket.
// LogonId - Logon ID of the context
// UserSid - User's sid, held onto by context
// ContextFlags - SSPI Flags for this context
// ContextAttributes - Internal attributes of context
// TokenHandle - Handle the token for this context
// ContextLifetime - Lifetime for the context.
//
// Requires:
//
// Returns: NTSTATUS code
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbUpdateServerContext(
IN PKERB_CONTEXT Context,
IN PKERB_ENCRYPTED_TICKET InternalTicket,
IN PKERB_AP_REQUEST ApRequest,
IN PKERB_ENCRYPTION_KEY SessionKey,
IN PLUID LogonId,
IN PSID * UserSid,
IN ULONG ContextFlags,
IN ULONG ContextAttributes,
IN ULONG Nonce,
IN ULONG ReceiveNonce,
IN OUT PHANDLE TokenHandle,
IN PUNICODE_STRING ClientName,
IN PUNICODE_STRING ClientDomain,
OUT PTimeStamp ContextLifetime
)
{
NTSTATUS Status = STATUS_SUCCESS;
KerbWriteLockContexts();
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->SessionKey,
SessionKey
)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
//
// If this was not a null session and there is a ticket available,
// pull interesting information out of the ticket
//
if (ARGUMENT_PRESENT(InternalTicket))
{
KerbConvertGeneralizedTimeToLargeInt(
&Context->Lifetime,
&InternalTicket->endtime,
0
);
if (InternalTicket->bit_mask & KERB_ENCRYPTED_TICKET_renew_until_present)
{
KerbConvertGeneralizedTimeToLargeInt(
&Context->RenewTime,
&InternalTicket->KERB_ENCRYPTED_TICKET_renew_until,
0
);
}
//
// Stick the client name in the context
//
Context->ClientName = *ClientName;
RtlInitUnicodeString(
ClientName,
NULL
);
Context->ClientRealm = *ClientDomain;
RtlInitUnicodeString(
ClientDomain,
NULL
);
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->TicketKey,
&InternalTicket->key)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
//
// Copy the principal names from the ticket
//
if (!KERB_SUCCESS(KerbConvertPrincipalNameToFullServiceString(
&Context->ClientPrincipalName,
&InternalTicket->client_name,
InternalTicket->client_realm
)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
if (!KERB_SUCCESS(KerbConvertPrincipalNameToFullServiceString(
&Context->ServerPrincipalName,
&ApRequest->ticket.server_name,
ApRequest->ticket.realm
)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
}
else
{
Context->Lifetime = KerbGlobalWillNeverTime;
Context->RenewTime = KerbGlobalWillNeverTime;
Context->EncryptionType = KERB_ETYPE_NULL;
}
//
// If we generated a nonce to send to the client, use it. Otherwise use
// the receive nonce from the AP req.
//
if (Nonce != 0)
{
Context->Nonce = Nonce;
}
else
{
Context->Nonce = ReceiveNonce;
}
Context->ReceiveNonce = ReceiveNonce;
Context->LogonId = *LogonId;
Context->ContextFlags |= ContextFlags;
Context->TokenHandle = *TokenHandle;
Context->UserSid = *UserSid;
Context->ContextAttributes = KERB_CONTEXT_INBOUND;
Context->ContextAttributes |= ContextAttributes;
*ContextLifetime = Context->Lifetime;
//
// Null the token handle so the caller does not free it
//
*TokenHandle = NULL;
*UserSid = NULL;
Cleanup:
KerbUnlockContexts();
return(Status);
}
//+-------------------------------------------------------------------------
//
// Function: KerbCreateServerContext
//
// Synopsis: Creates a context for the server of an authentication
// session.
//
// Effects: Allocates and links a context.
//
// Arguments: LogonSession - Logon session to lock when accessing the credential
// Credential - Credential to hang this context off of
// InternalTicket - Ticket used to create this context.
// SessionKey - Session key from the ticket.
// LogonId - Logon ID of the context
// UserSid - User's SID, held on to in context.
// ContextFlags - SSPI Flags for this context
// ContextAttributes - Internal attributes of context
// TokenHandle - Handle the token for this context
// NewContext - receives referenced context pointer
// ContextLifetime - Lifetime for the context.
//
// Requires:
//
// Returns: NTSTATUS code
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbCreateServerContext(
IN PKERB_LOGON_SESSION LogonSession,
IN PKERB_CREDENTIAL Credential,
IN OPTIONAL PKERB_ENCRYPTED_TICKET InternalTicket,
IN PKERB_AP_REQUEST ApRequest,
IN PKERB_ENCRYPTION_KEY SessionKey,
IN PLUID LogonId,
IN PSID * UserSid,
IN ULONG ContextFlags,
IN ULONG ContextAttributes,
IN ULONG Nonce,
IN ULONG ReceiveNonce,
IN OUT PHANDLE TokenHandle,
IN PUNICODE_STRING ClientName,
IN PUNICODE_STRING ClientDomain,
OUT PKERB_CONTEXT * NewContext,
OUT PTimeStamp ContextLifetime
)
{
NTSTATUS Status;
PKERB_CONTEXT Context = NULL;
Status = KerbAllocateContext( &Context, FALSE );
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->SessionKey,
SessionKey
)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
//
// If this wasn't a null session, stick the info from the ticket into
// the context.
//
if (ARGUMENT_PRESENT(InternalTicket))
{
KerbConvertGeneralizedTimeToLargeInt(
&Context->Lifetime,
&InternalTicket->endtime,
0
);
if (InternalTicket->bit_mask & KERB_ENCRYPTED_TICKET_renew_until_present)
{
KerbConvertGeneralizedTimeToLargeInt(
&Context->RenewTime,
&InternalTicket->KERB_ENCRYPTED_TICKET_renew_until,
0
);
}
if (InternalTicket->bit_mask & KERB_ENCRYPTED_TICKET_starttime_present)
{
KerbConvertGeneralizedTimeToLargeInt(
&Context->StartTime,
&InternalTicket->starttime,
0
);
}
else // use current time
{
GetSystemTimeAsFileTime((PFILETIME)
&(Context->StartTime)
);
}
Context->ClientName = *ClientName;
RtlInitUnicodeString(
ClientName,
NULL
);
Context->ClientRealm = *ClientDomain;
RtlInitUnicodeString(
ClientDomain,
NULL
);
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->TicketKey,
&InternalTicket->key)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
//
// Copy the principal names from the ticket
//
if (!KERB_SUCCESS(KerbConvertPrincipalNameToFullServiceString(
&Context->ClientPrincipalName,
&InternalTicket->client_name,
InternalTicket->client_realm
)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
if (!KERB_SUCCESS(KerbConvertPrincipalNameToFullServiceString(
&Context->ServerPrincipalName,
&ApRequest->ticket.server_name,
ApRequest->ticket.realm
)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
}
else
{
Context->Lifetime = KerbGlobalWillNeverTime;
Context->RenewTime = KerbGlobalWillNeverTime;
GetSystemTimeAsFileTime((PFILETIME)
&(Context->StartTime)
);
Context->EncryptionType = KERB_ETYPE_NULL;
}
//
// If we generated a nonce to send to the client, use it. Otherwise use
// the receive nonce from the AP req.
//
// if (Nonce != 0)
// {
Context->Nonce = Nonce;
// }
// else
// {
// Context->Nonce = ReceiveNonce;
// }
Context->ReceiveNonce = ReceiveNonce;
Context->CredentialHandle = KerbGetCredentialHandle(Credential);
Context->LogonId = *LogonId;
Context->ContextFlags = ContextFlags;
Context->TokenHandle = *TokenHandle;
Context->UserSid = *UserSid;
//
// Null the token handle so the caller does not free it
//
*TokenHandle = NULL;
*UserSid = NULL;
Context->ContextAttributes = KERB_CONTEXT_INBOUND;
Context->ContextAttributes |= ContextAttributes;
KerbReadLockLogonSessions(LogonSession);
if (Credential->SuppliedCredentials != NULL)
{
Context->ContextAttributes |= KERB_CONTEXT_USED_SUPPLIED_CREDS;
}
KerbUnlockLogonSessions(LogonSession);
*ContextLifetime = Context->Lifetime;
Status = KerbInsertContext(
Context
);
if (!NT_SUCCESS(Status))
{
D_DebugLog((DEB_ERROR,"Failed to insert context: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
goto Cleanup;
}
*NewContext = Context;
Cleanup:
if (!NT_SUCCESS(Status))
{
if (Context != NULL)
{
KerbFreeContext(Context);
}
}
return(Status);
}
//+-------------------------------------------------------------------------
//
// Function: KerbMapContext
//
// Synopsis: Maps a context to the caller's address space
//
// Effects:
//
// Arguments: Context - The context to map
// CopyToken - If TRUE, duplicate token to client
// MappedContext - Set to TRUE on success
// ContextData - Receives a buffer in the LSA's address space
// with the mapped context.
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbMapContext(
IN PKERB_CONTEXT Context,
OUT PBOOLEAN MappedContext,
OUT PSecBuffer ContextData
)
{
NTSTATUS Status ;
PKERB_PACKED_CONTEXT PackedContext = NULL ;
ULONG ContextSize ;
PUCHAR CopyTo ;
ULONG CurrentOffset ;
KerbWriteLockContexts();
//
// If we already mapped the context don't try to do it again. We may
// be able to map user-mode contexts multiple times, though.
//
if (KerberosState == KerberosLsaMode)
{
if ((Context->ContextAttributes & KERB_CONTEXT_MAPPED) != 0)
{
KerbUnlockContexts();
Status = STATUS_SUCCESS;
goto Cleanup;
}
Context->ContextAttributes |= KERB_CONTEXT_MAPPED;
}
ContextSize = sizeof(KERB_PACKED_CONTEXT) +
Context->ClientName.Length +
Context->ClientRealm.Length +
Context->SessionKey.keyvalue.length +
Context->cbMarshalledTargetInfo ;
PackedContext = (PKERB_PACKED_CONTEXT) KerbAllocate( ContextSize );
if (PackedContext == NULL)
{
Context->ContextAttributes &= ~(KERB_CONTEXT_MAPPED);
KerbUnlockContexts();
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
CurrentOffset = sizeof( KERB_PACKED_CONTEXT );
CopyTo = (PUCHAR) ( PackedContext + 1 );
PackedContext->ContextType = KERB_PACKED_CONTEXT_MAP ;
PackedContext->Pad = 0 ;
PackedContext->Lifetime = Context->Lifetime ;
PackedContext->RenewTime = Context->RenewTime ;
PackedContext->StartTime = Context->StartTime;
PackedContext->ClientName.Length = Context->ClientName.Length ;
PackedContext->ClientName.MaximumLength = Context->ClientName.Length ;
PackedContext->ClientName.Buffer = CurrentOffset ;
RtlCopyMemory(
CopyTo,
Context->ClientName.Buffer,
Context->ClientName.Length );
CurrentOffset += Context->ClientName.Length ;
CopyTo += Context->ClientName.Length ;
PackedContext->ClientRealm.Length = Context->ClientRealm.Length ;
PackedContext->ClientRealm.MaximumLength = Context->ClientRealm.Length ;
PackedContext->ClientRealm.Buffer = CurrentOffset ;
RtlCopyMemory(
CopyTo,
Context->ClientRealm.Buffer,
Context->ClientRealm.Length );
CurrentOffset += Context->ClientRealm.Length ;
CopyTo += Context->ClientRealm.Length ;
PackedContext->LsaContextHandle = (ULONG) Context->LsaContextHandle ;
PackedContext->LogonId = Context->LogonId ;
PackedContext->CredentialHandle = 0 ;
PackedContext->SessionKeyType = Context->SessionKey.keytype ;
PackedContext->SessionKeyOffset = CurrentOffset ;
PackedContext->SessionKeyLength = Context->SessionKey.keyvalue.length ;
RtlCopyMemory(
CopyTo,
Context->SessionKey.keyvalue.value,
Context->SessionKey.keyvalue.length );
CurrentOffset += PackedContext->SessionKeyLength ;
CopyTo += PackedContext->SessionKeyLength;
if( Context->pbMarshalledTargetInfo )
{
PackedContext->MarshalledTargetInfo = CurrentOffset;
PackedContext->MarshalledTargetInfoLength = Context->cbMarshalledTargetInfo;
RtlCopyMemory(
CopyTo,
Context->pbMarshalledTargetInfo,
Context->cbMarshalledTargetInfo );
CurrentOffset += PackedContext->MarshalledTargetInfoLength;
CopyTo += PackedContext->MarshalledTargetInfoLength;
}
PackedContext->Nonce = Context->Nonce ;
PackedContext->ReceiveNonce = Context->ReceiveNonce ;
PackedContext->ContextFlags = Context->ContextFlags ;
PackedContext->ContextAttributes = Context->ContextAttributes ;
PackedContext->EncryptionType = Context->EncryptionType ;
KerbUnlockContexts();
//
// If there is a token in the context, copy it also
//
#ifndef WIN32_CHICAGO
if ((KerberosState == KerberosLsaMode) && (Context->TokenHandle != NULL))
{
HANDLE duplicateHandle;
Status = LsaFunctions->DuplicateHandle(
Context->TokenHandle,
&duplicateHandle
);
if (!NT_SUCCESS(Status))
{
D_DebugLog((DEB_ERROR,"Failed to duplicate handle: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
goto Cleanup;
}
PackedContext->TokenHandle = HandleToUlong(duplicateHandle);
NtClose(Context->TokenHandle);
Context->TokenHandle = NULL;
}
else
{
PackedContext->TokenHandle = NULL;
}
#endif // WIN32_CHICAGO
ContextData->pvBuffer = PackedContext;
ContextData->cbBuffer = ContextSize;
*MappedContext = TRUE;
Status = STATUS_SUCCESS;
Cleanup:
if (!NT_SUCCESS(Status))
{
if (PackedContext != NULL)
{
KerbFree(PackedContext);
}
}
return(Status);
}
#if 0
NTSTATUS
KerbMapContext(
IN PKERB_CONTEXT Context,
OUT PBOOLEAN MappedContext,
OUT PSecBuffer ContextData
)
{
NTSTATUS Status;
PKERB_CONTEXT PackedContext = NULL;
ULONG ContextSize;
KerbWriteLockContexts();
//
// If we already mapped the context don't try to do it again. We may
// be able to map user-mode contexts multiple times, though.
//
if (KerberosState == KerberosLsaMode)
{
if ((Context->ContextAttributes & KERB_CONTEXT_MAPPED) != 0)
{
KerbUnlockContexts();
Status = STATUS_SUCCESS;
goto Cleanup;
}
Context->ContextAttributes |= KERB_CONTEXT_MAPPED;
}
ContextSize = sizeof(KERB_CONTEXT) +
Context->ClientName.Length +
Context->ClientRealm.Length +
Context->SessionKey.keyvalue.length;
PackedContext = (PKERB_CONTEXT) KerbAllocate(ContextSize);
if (PackedContext == NULL)
{
KerbUnlockContexts();
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
RtlCopyMemory(
PackedContext,
Context,
sizeof(KERB_CONTEXT)
);
PackedContext->ClientName.Buffer = (LPWSTR) sizeof(KERB_CONTEXT);
RtlCopyMemory(
PackedContext+1,
Context->ClientName.Buffer,
Context->ClientName.Length
);
PackedContext->ClientName.MaximumLength = PackedContext->ClientName.Length;
PackedContext->ClientRealm.Buffer = (LPWSTR) (sizeof(KERB_CONTEXT) + PackedContext->ClientName.Length);
RtlCopyMemory(
(PUCHAR) PackedContext + (UINT_PTR) PackedContext->ClientRealm.Buffer,
Context->ClientRealm.Buffer,
Context->ClientRealm.Length
);
PackedContext->ClientRealm.MaximumLength = PackedContext->ClientRealm.Length;
RtlZeroMemory(
&PackedContext->TicketKey,
sizeof(KERB_ENCRYPTION_KEY)
);
RtlZeroMemory(
&PackedContext->ClientPrincipalName,
sizeof(UNICODE_STRING)
);
RtlZeroMemory(
&PackedContext->ServerPrincipalName,
sizeof(UNICODE_STRING)
);
//
// Pack in the session key
//
PackedContext->SessionKey.keyvalue.value = (PUCHAR) PackedContext->ClientRealm.Buffer + PackedContext->ClientRealm.MaximumLength;
RtlCopyMemory(
PackedContext->SessionKey.keyvalue.value + (UINT_PTR) PackedContext,
Context->SessionKey.keyvalue.value,
Context->SessionKey.keyvalue.length
);
KerbUnlockContexts();
//
// If there is a token in the context, copy it also
//
#ifndef WIN32_CHICAGO
if ((KerberosState == KerberosLsaMode) && (Context->TokenHandle != NULL))
{
Status = LsaFunctions->DuplicateHandle(
Context->TokenHandle,
&PackedContext->TokenHandle
);
if (!NT_SUCCESS(Status))
{
D_DebugLog((DEB_ERROR,"Failed to duplicate handle: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
goto Cleanup;
}
NtClose(Context->TokenHandle);
Context->TokenHandle = NULL;
}
else
{
PackedContext->TokenHandle = NULL;
}
#endif // WIN32_CHICAGO
ContextData->pvBuffer = PackedContext;
ContextData->cbBuffer = ContextSize;
*MappedContext = TRUE;
Status = STATUS_SUCCESS;
Cleanup:
if (!NT_SUCCESS(Status))
{
if (PackedContext != NULL)
{
KerbFree(PackedContext);
}
}
return(Status);
}
#endif
#ifndef WIN32_CHICAGO
//+-------------------------------------------------------------------------
//
// Function: KerbGetTokenUser
//
// Synopsis: Returns user field from a token
//
// Effects: allocates memory with LocalAlloc
//
// Arguments:
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbGetTokenUser(
HANDLE Token,
PTOKEN_USER * pTokenUser
)
{
PTOKEN_USER LocalTokenUser = NULL;
NTSTATUS Status;
ULONG TokenUserSize = 0;
//
// Query the token user. First pass in NULL to get back the
// required size.
//
Status = NtQueryInformationToken(
Token,
TokenUser,
NULL,
0,
&TokenUserSize
);
if (Status != STATUS_BUFFER_TOO_SMALL)
{
DsysAssert(Status != STATUS_SUCCESS);
return(Status);
}
//
// Now allocate the required ammount of memory and try again.
//
LocalTokenUser = (PTOKEN_USER) LocalAlloc(0,TokenUserSize);
if (LocalTokenUser == NULL)
{
return(STATUS_INSUFFICIENT_RESOURCES);
}
Status = NtQueryInformationToken(
Token,
TokenUser,
LocalTokenUser,
TokenUserSize,
&TokenUserSize
);
if (NT_SUCCESS(Status))
{
*pTokenUser = LocalTokenUser;
}
else
{
LocalFree(LocalTokenUser);
}
return(Status);
}
#endif // WIN32_CHICAGO
#ifndef WIN32_CHICAGO
//+-------------------------------------------------------------------------
//
// Function: KerbCreateTokenDacl
//
// Synopsis: Modifies DACL on the context token to grant access to the
// the caller.
//
// Effects:
//
// Arguments: Token - Token to modify
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbCreateTokenDacl(
HANDLE Token
)
{
NTSTATUS Status;
PTOKEN_USER ProcessTokenUser = NULL;
PTOKEN_USER ThreadTokenUser = NULL;
PTOKEN_USER ImpersonationTokenUser = NULL;
HANDLE ProcessToken = NULL;
HANDLE ImpersonationToken = NULL;
BOOL fInsertImpersonatingUser = FALSE;
ULONG AclLength;
PACL NewDacl = NULL;
SECURITY_DESCRIPTOR SecurityDescriptor;
//
// it's possible that the current thread is impersonating a user.
// if that's the case, get it's token user, and revert to insure we
// can open the process token.
//
Status = NtOpenThreadToken(
NtCurrentThread(),
TOKEN_QUERY | TOKEN_IMPERSONATE,
TRUE,
&ImpersonationToken
);
if( NT_SUCCESS(Status) )
{
//
// stop impersonating.
//
RevertToSelf();
//
// get the token user for the impersonating user.
//
Status = KerbGetTokenUser(
ImpersonationToken,
&ImpersonationTokenUser
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
}
//
// Open the process token to find out the user sid
//
Status = NtOpenProcessToken(
NtCurrentProcess(),
TOKEN_QUERY,
&ProcessToken
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
Status = KerbGetTokenUser(
ProcessToken,
&ProcessTokenUser
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
//
// Now get the token user for the thread.
//
Status = KerbGetTokenUser(
Token,
&ThreadTokenUser
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
AclLength = 4 * sizeof( ACCESS_ALLOWED_ACE ) - 4 * sizeof( ULONG ) +
RtlLengthSid( ProcessTokenUser->User.Sid ) +
RtlLengthSid( ThreadTokenUser->User.Sid ) +
RtlLengthSid( KerbGlobalLocalSystemSid ) +
RtlLengthSid( KerbGlobalAliasAdminsSid ) +
sizeof( ACL );
//
// determine if we need to add impersonation token sid onto the token Dacl.
//
if( ImpersonationTokenUser &&
!RtlEqualSid( ImpersonationTokenUser->User.Sid, ProcessTokenUser->User.Sid ) &&
!RtlEqualSid( ImpersonationTokenUser->User.Sid, ThreadTokenUser->User.Sid )
)
{
AclLength += (sizeof(ACCESS_ALLOWED_ACE) - sizeof( ULONG )) +
RtlLengthSid( ImpersonationTokenUser->User.Sid );
fInsertImpersonatingUser = TRUE;
}
NewDacl = (PACL) LocalAlloc(0, AclLength );
if (NewDacl == NULL) {
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
Status = RtlCreateAcl( NewDacl, AclLength, ACL_REVISION2 );
DsysAssert(NT_SUCCESS( Status ));
Status = RtlAddAccessAllowedAce (
NewDacl,
ACL_REVISION2,
TOKEN_ALL_ACCESS,
ProcessTokenUser->User.Sid
);
DsysAssert( NT_SUCCESS( Status ));
Status = RtlAddAccessAllowedAce (
NewDacl,
ACL_REVISION2,
TOKEN_ALL_ACCESS,
ThreadTokenUser->User.Sid
);
DsysAssert( NT_SUCCESS( Status ));
if( fInsertImpersonatingUser )
{
Status = RtlAddAccessAllowedAce (
NewDacl,
ACL_REVISION2,
TOKEN_ALL_ACCESS,
ImpersonationTokenUser->User.Sid
);
DsysAssert( NT_SUCCESS( Status ));
}
Status = RtlAddAccessAllowedAce (
NewDacl,
ACL_REVISION2,
TOKEN_ALL_ACCESS,
KerbGlobalAliasAdminsSid
);
DsysAssert( NT_SUCCESS( Status ));
Status = RtlAddAccessAllowedAce (
NewDacl,
ACL_REVISION2,
TOKEN_ALL_ACCESS,
KerbGlobalLocalSystemSid
);
DsysAssert( NT_SUCCESS( Status ));
Status = RtlCreateSecurityDescriptor (
&SecurityDescriptor,
SECURITY_DESCRIPTOR_REVISION
);
DsysAssert( NT_SUCCESS( Status ));
Status = RtlSetDaclSecurityDescriptor(
&SecurityDescriptor,
TRUE,
NewDacl,
FALSE
);
DsysAssert( NT_SUCCESS( Status ));
Status = NtSetSecurityObject(
Token,
DACL_SECURITY_INFORMATION,
&SecurityDescriptor
);
DsysAssert( NT_SUCCESS( Status ));
Cleanup:
if( ImpersonationToken != NULL ) {
//
// put the thread token back if we were impersonating.
//
SetThreadToken( NULL, ImpersonationToken );
NtClose( ImpersonationToken );
}
if (ThreadTokenUser != NULL) {
LocalFree( ThreadTokenUser );
}
if (ProcessTokenUser != NULL) {
LocalFree( ProcessTokenUser );
}
if (ImpersonationTokenUser != NULL) {
LocalFree( ImpersonationTokenUser );
}
if (NewDacl != NULL) {
LocalFree( NewDacl );
}
if (ProcessToken != NULL)
{
NtClose(ProcessToken);
}
return( Status );
}
#endif // WIN32_CHICAGO
//+-------------------------------------------------------------------------
//
// Function: KerbCreateUserModeContext
//
// Synopsis: Creates a user-mode context to support impersonation and
// message integrity and privacy
//
// Effects:
//
// Arguments:
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbCreateUserModeContext(
IN LSA_SEC_HANDLE ContextHandle,
IN PSecBuffer MarshalledContext,
OUT PKERB_CONTEXT * NewContext
)
{
NTSTATUS Status;
PKERB_CONTEXT Context = NULL;
PKERB_PACKED_CONTEXT PackedContext ;
UNICODE_STRING String ;
KERB_ENCRYPTION_KEY Key ;
if (MarshalledContext->cbBuffer < sizeof(KERB_PACKED_CONTEXT))
{
D_DebugLog((DEB_ERROR,"Invalid buffer size for marshalled context: was 0x%x, needed 0x%x. %ws, line %d\n",
MarshalledContext->cbBuffer, sizeof(KERB_CONTEXT), THIS_FILE, __LINE__));
return(STATUS_INVALID_PARAMETER);
}
PackedContext = (PKERB_PACKED_CONTEXT) MarshalledContext->pvBuffer;
Status = KerbAllocateContext( &Context, TRUE );
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
Context->Lifetime = PackedContext->Lifetime ;
Context->RenewTime = PackedContext->RenewTime ;
Context->StartTime = PackedContext->StartTime;
String.Length = PackedContext->ClientName.Length ;
String.MaximumLength = PackedContext->ClientName.MaximumLength ;
String.Buffer = (PWSTR)((PUCHAR) PackedContext + PackedContext->ClientName.Buffer );
Status = KerbDuplicateString(
&Context->ClientName,
&String );
if ( !NT_SUCCESS( Status ) )
{
goto Cleanup ;
}
String.Length = PackedContext->ClientRealm.Length ;
String.MaximumLength = PackedContext->ClientRealm.MaximumLength ;
String.Buffer = (PWSTR)((PUCHAR) PackedContext + PackedContext->ClientRealm.Buffer );
Status = KerbDuplicateString(
&Context->ClientRealm,
&String );
if ( !NT_SUCCESS( Status ) )
{
goto Cleanup ;
}
Context->LogonId = PackedContext->LogonId ;
Context->TokenHandle = (HANDLE) ULongToPtr(PackedContext->TokenHandle);
Context->CredentialHandle = NULL ;
Context->Nonce = PackedContext->Nonce ;
Context->ReceiveNonce = PackedContext->ReceiveNonce ;
Context->ContextFlags = PackedContext->ContextFlags ;
Context->ContextAttributes = PackedContext->ContextAttributes ;
Context->EncryptionType = PackedContext->EncryptionType ;
Key.keytype = PackedContext->SessionKeyType ;
Key.keyvalue.value = (PUCHAR) ((PUCHAR) PackedContext + PackedContext->SessionKeyOffset );
Key.keyvalue.length = PackedContext->SessionKeyLength ;
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->SessionKey,
&Key)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
//
// Null out string buffers that aren't meant to be copied.
//
Context->ClientPrincipalName.Buffer = NULL;
Context->ServerPrincipalName.Buffer = NULL;
Context->TicketKey.keyvalue.value = NULL;
Context->UserSid = NULL;
Context->TicketCacheEntry = NULL;
//
// Modify the DACL on the token to grant access to the caller
//
#ifndef WIN32_CHICAGO
if (Context->TokenHandle != NULL)
{
Status = KerbCreateTokenDacl(
Context->TokenHandle
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
}
#endif // WIN32_CHICAGO
//
// We didn't copy the ticket here, so don't store the entry
//
Context->TicketCacheEntry = NULL;
KerbInitializeListEntry(
&Context->ListEntry
);
if( ContextHandle != 0 )
{
Context->LsaContextHandle = ContextHandle;
} else {
Context->LsaContextHandle = (ULONG_PTR)Context;
}
Status = KerbInsertContext(
Context
);
if (!NT_SUCCESS(Status))
{
D_DebugLog((DEB_ERROR,"Failed to insert context: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
goto Cleanup;
}
*NewContext = Context;
Cleanup:
if (!NT_SUCCESS(Status))
{
if (Context != NULL)
{
KerbFreeContext(Context);
}
}
return(Status);
}
#if 0
NTSTATUS
KerbCreateUserModeContext(
IN LSA_SEC_HANDLE ContextHandle,
IN PSecBuffer MarshalledContext,
OUT PKERB_CONTEXT * NewContext
)
{
NTSTATUS Status;
PKERB_CONTEXT Context = NULL;
PKERB_CONTEXT LsaContext;
if (MarshalledContext->cbBuffer < sizeof(KERB_CONTEXT))
{
D_DebugLog((DEB_ERROR,"Invalid buffer size for marshalled context: was 0x%x, needed 0x%x. %ws, line %d\n",
MarshalledContext->cbBuffer, sizeof(KERB_CONTEXT), THIS_FILE, __LINE__));
return(STATUS_INVALID_PARAMETER);
}
LsaContext = (PKERB_CONTEXT) MarshalledContext->pvBuffer;
//
// Normalize the client name.
//
LsaContext->ClientName.Buffer = (LPWSTR) ((PUCHAR) LsaContext->ClientName.Buffer + (UINT_PTR) LsaContext);
LsaContext->ClientRealm.Buffer = (LPWSTR) ((PUCHAR) LsaContext->ClientRealm.Buffer + (UINT_PTR) LsaContext);
LsaContext->SessionKey.keyvalue.value = (PUCHAR) LsaContext->SessionKey.keyvalue.value + (UINT_PTR) LsaContext;
Status = KerbAllocateContext( &Context, TRUE );
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
*Context = *LsaContext;
//
// Null out string buffers that aren't meant to be copied.
//
Context->ClientName.Buffer = NULL;
Context->ClientRealm.Buffer = NULL;
Context->SessionKey.keyvalue.value = NULL;
Context->UserSid = NULL;
Context->TicketCacheEntry = NULL;
//
// Modify the DACL on the token to grant access to the caller
//
#ifndef WIN32_CHICAGO
if (Context->TokenHandle != NULL)
{
Status = KerbCreateTokenDacl(
Context->TokenHandle
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
}
#endif // WIN32_CHICAGO
//
// We didn't copy the ticket here, so don't store the entry
//
Context->TicketCacheEntry = NULL;
KerbInitializeListEntry(
&Context->ListEntry
);
Context->LsaContextHandle = ContextHandle;
Status = KerbDuplicateString(
&Context->ClientName,
&LsaContext->ClientName
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
Status = KerbDuplicateString(
&Context->ClientRealm,
&LsaContext->ClientRealm
);
if (!NT_SUCCESS(Status))
{
goto Cleanup;
}
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->SessionKey,
&LsaContext->SessionKey)))
{
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
Status = KerbInsertContext(
Context
);
if (!NT_SUCCESS(Status))
{
D_DebugLog((DEB_ERROR,"Failed to insert context: 0x%x. %ws, line %d\n",Status, THIS_FILE, __LINE__));
goto Cleanup;
}
*NewContext = Context;
Cleanup:
if (!NT_SUCCESS(Status))
{
if (Context != NULL)
{
KerbFreeContext(Context);
}
}
return(Status);
}
#endif
//+-------------------------------------------------------------------------
//
// Function: KerbUpdateClientContext
//
// Synopsis: updates context with latest info
//
// Effects:
//
// Arguments:
//
// Requires:
//
// Returns:
//
// Notes:
//
//
//--------------------------------------------------------------------------
NTSTATUS
KerbUpdateClientContext(
IN PKERB_CONTEXT Context,
IN OPTIONAL PKERB_TICKET_CACHE_ENTRY TicketCacheEntry,
IN ULONG Nonce,
IN ULONG ReceiveNonce,
IN ULONG ContextFlags,
IN ULONG ContextAttributes,
IN OPTIONAL PKERB_ENCRYPTION_KEY SubSessionKey,
OUT PTimeStamp ContextLifetime
)
{
NTSTATUS Status = STATUS_SUCCESS;
KerbWriteLockContexts();
if (ARGUMENT_PRESENT(TicketCacheEntry))
{
KerbReadLockTicketCache();
//
// Duplicate the session key into the context
//
KerbFreeKey(
&Context->SessionKey
);
if (ARGUMENT_PRESENT(SubSessionKey) && (SubSessionKey->keyvalue.value != NULL))
{
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->SessionKey,
SubSessionKey
)))
{
KerbUnlockTicketCache();
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
}
else
{
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->SessionKey,
&TicketCacheEntry->SessionKey
)))
{
KerbUnlockTicketCache();
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
}
KerbFreeKey(
&Context->TicketKey
);
if (!KERB_SUCCESS(KerbDuplicateKey(
&Context->TicketKey,
&TicketCacheEntry->SessionKey
)))
{
KerbUnlockTicketCache();
Status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
Context->Lifetime = TicketCacheEntry->EndTime;
Context->RenewTime = TicketCacheEntry->RenewUntil;
Context->EncryptionType = TicketCacheEntry->Ticket.encrypted_part.encryption_type;
KerbUnlockTicketCache();
}
else
{
Context->Lifetime = KerbGlobalWillNeverTime;
Context->RenewTime = KerbGlobalWillNeverTime;
Context->EncryptionType = KERB_ETYPE_NULL;
}
Context->Nonce = Nonce;
//
// If the server sent us a nonce for receiving data, use it. Otherwise use
// the nonce we generated.
//
// if (ReceiveNonce != 0)
// {
Context->ReceiveNonce = ReceiveNonce;
// }
// else
// {
// Context->ReceiveNonce = Nonce;
// }
//
// delegation flags are not additive, turn it off before updating it
//
Context->ContextFlags &= ~(ISC_RET_DELEGATE_IF_SAFE | ISC_RET_DELEGATE);
Context->ContextFlags |= ContextFlags;
Context->ContextAttributes |= KERB_CONTEXT_OUTBOUND | ContextAttributes;
*ContextLifetime = Context->Lifetime;
Cleanup:
KerbUnlockContexts();
return(Status);
}
ULONG
HandleToListIndex(
ULONG_PTR ContextHandle
)
{
ASSERT( (KERB_USERLIST_COUNT != 0) );
ASSERT( (KERB_USERLIST_COUNT & 1) == 0 );
ULONG Number ;
ULONG Hash;
ULONG HashFinal;
Number = (ULONG)ContextHandle;
Hash = Number;
Hash += Number >> 8;
Hash += Number >> 16;
Hash += Number >> 24;
HashFinal = Hash;
HashFinal += Hash >> 4;
//
// insure power of two if not one.
//
return ( HashFinal & (KERB_USERLIST_COUNT-1) ) ;
}