Source code of Windows XP (NT5)
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//+-------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1996 - 1996.
//
// File: MARTAEXP.HXX
//
// Contents: Function definitions for exported helper functions
//
// History: 06-Sep-96 MacM Created
//
//--------------------------------------------------------------------
#ifndef __MARTAEXP_HXX__
#define __MARTAEXP_HXX__
extern "C"
{
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
}
typedef enum _MARTA_KERNEL_TYPE
{
MARTA_UNKNOWN = 0,
MARTA_EVENT,
MARTA_EVENT_PAIR,
MARTA_MUTANT,
MARTA_PROCESS,
MARTA_SECTION,
MARTA_SEMAPHORE,
MARTA_SYMBOLIC_LINK,
MARTA_THREAD,
MARTA_TIMER,
MARTA_JOB,
MARTA_WMI_GUID
} MARTA_KERNEL_TYPE, *PMARTA_KERNEL_TYPE;
//
// Determines whether a bit flag is turned on or not
//
#define FLAG_ON(flags,bit) ((flags) & (bit))
//
// This macro will return the size, in bytes, of a buffer needed to hold
// the given string
//
#define SIZE_PWSTR(wsz) (wsz == NULL ? 0 : (wcslen(wsz) + 1) * sizeof(WCHAR))
//
// This macro will copy the specified string to the new destination, after
// allocating a buffer of sufficient size
//
#define ACC_ALLOC_AND_COPY_STRINGW(OldString, NewString, err) \
NewString = (PWSTR)AccAlloc(SIZE_PWSTR(OldString)); \
if(NewString == NULL) \
{ \
err = ERROR_NOT_ENOUGH_MEMORY; \
} \
else \
{ \
wcscpy((PWSTR)NewString, \
OldString); \
}
//
// Flags to pass in to AccConvertAccessToSD
//
#define ACCCONVERT_SELF_RELATIVE 0x00000001
#define ACCCONVERT_DS_FORMAT 0x00000002
//+-------------------------------------------------------------------------
// helper.cxx
//+-------------------------------------------------------------------------
ULONG
TrusteeAllocationSize(IN PTRUSTEE_W pTrustee);
ULONG
TrusteeAllocationSizeWToA(IN PTRUSTEE_W pTrustee);
ULONG
TrusteeAllocationSizeAToW(IN PTRUSTEE_A pTrustee);
VOID
SpecialCopyTrustee(VOID **pStuffPtr, PTRUSTEE pToTrustee, PTRUSTEE pFromTrustee);
DWORD
CopyTrusteeAToTrusteeW( IN OUT VOID ** ppStuffPtr,
IN PTRUSTEE_A pFromTrusteeA,
OUT PTRUSTEE_W pToTrusteeW );
DWORD
CopyTrusteeWToTrusteeA( IN OUT VOID ** ppStuffPtr,
IN PTRUSTEE_W pFromTrusteeW,
OUT PTRUSTEE_A pToTrusteeA );
DWORD
ExplicitAccessAToExplicitAccessW( IN ULONG cCountAccesses,
IN PEXPLICIT_ACCESS_A paAccess,
OUT PEXPLICIT_ACCESS_W * ppwAccess );
DWORD
ExplicitAccessWToExplicitAccessA( IN ULONG cCountAccesses,
IN PEXPLICIT_ACCESS_W pwAccess,
OUT PEXPLICIT_ACCESS_A * ppaAccess );
DWORD
DoTrusteesMatch(PWSTR pwszServer,
PTRUSTEE pTrustee1,
PTRUSTEE pTrustee2,
PBOOL pfMatch);
//+-------------------------------------------------------------------------
// aclutil.cxx
//+-------------------------------------------------------------------------
extern "C"
{
DWORD
AccGetSidFromToken(PWSTR pwszServer,
HANDLE hToken,
TOKEN_INFORMATION_CLASS TIC,
PSID *ppSidFromToken);
DWORD
AccLookupAccountSid(IN PWSTR pwszServer,
IN PTRUSTEE pName,
OUT PSID *ppsid,
OUT SID_NAME_USE *pSidType);
DWORD
AccLookupAccountTrustee(IN PWSTR pwszServer,
IN PSID psid,
OUT PTRUSTEE *ppTrustee);
DWORD
AccLookupAccountName(IN PWSTR pwszServer,
IN PSID pSid,
OUT LPWSTR *ppwszName,
OUT LPWSTR *ppwszDomain,
OUT SID_NAME_USE *pSidType);
DWORD
AccSetEntriesInAList(IN ULONG cEntries,
IN PACTRL_ACCESS_ENTRYW pAccessEntryList,
IN ACCESS_MODE AccessMode,
IN SECURITY_INFORMATION SeInfo,
IN LPCWSTR lpProperty,
IN BOOL fDoOldStyleMerge,
IN PACTRL_AUDITW pOldList,
OUT PACTRL_AUDITW *ppNewList);
DWORD
AccConvertAccessToSecurityDescriptor(IN PACTRL_ACCESSW pAccessList,
IN PACTRL_AUDITW pAuditList,
IN LPCWSTR lpOwner,
IN LPCWSTR lpGroup,
OUT PSECURITY_DESCRIPTOR *ppSecDescriptor);
DWORD
AccConvertSDToAccess(IN SE_OBJECT_TYPE ObjectType,
IN PSECURITY_DESCRIPTOR pSecDescriptor,
OUT PACTRL_ACCESSW *ppAccessList,
OUT PACTRL_AUDITW *ppAuditList,
OUT LPWSTR *lppOwner,
OUT LPWSTR *lppGroup);
DWORD
AccConvertAccessToSD(IN SE_OBJECT_TYPE ObjectType,
IN SECURITY_INFORMATION SeInfo,
IN PACTRL_ACCESSW pAccessList,
IN PACTRL_AUDITW pAuditList,
IN LPWSTR lpOwner,
IN LPWSTR lpGroup,
IN ULONG fOpts,
OUT PSECURITY_DESCRIPTOR *ppSD,
OUT PULONG pcSDSize);
DWORD
AccGetAccessForTrustee(IN PTRUSTEE pTrustee,
IN PACL pAcl,
IN SECURITY_INFORMATION SeInfo,
IN PWSTR pwszProperty,
OUT PACCESS_RIGHTS pAllowed,
OUT PACCESS_RIGHTS pDenied);
DWORD
AccConvertAclToAccess(IN SE_OBJECT_TYPE ObjectType,
IN PACL pAcl,
OUT PACTRL_ACCESSW *ppAccessList);
DWORD
AccGetExplicitEntries(IN PTRUSTEE pTrustee,
IN SE_OBJECT_TYPE ObjectType,
IN PACL pAcl,
IN PWSTR pwszProperty,
OUT PULONG pcEntries,
OUT PACTRL_ACCESS_ENTRYW *ppAEList);
VOID
AccConvertAccessMaskToActrlAccess(IN ACCESS_MASK Access,
IN SE_OBJECT_TYPE ObjType,
IN MARTA_KERNEL_TYPE KernelObjectType,
IN PACTRL_ACCESS_ENTRY pAE);
}
typedef struct _CSLIST_NODE
{
PVOID pvData;
struct _CSLIST_NODE *pNext;
} CSLIST_NODE, *PCSLIST_NODE;
#define LIST_INLINE
#ifdef LIST_INLINE
#define LINLINE inline
#else
#define LINLINE
#endif
//
// Free function callback typedef. This function will delete the memory saved
// as the data in a list node on list destruction
//
typedef VOID (*FreeFunc)(PVOID);
//
// This function returns TRUE if the two items are the same, or FALSE if they
// are not
//
typedef BOOL (*CompFunc)(PVOID, PVOID);
//+---------------------------------------------------------------------------
//
// Class: CSList
//
// Synopsis: Singly linked list class, single threaded
//
// Methods: Insert
// InsertIfUnique
// Find
// Reset
// NextData
// Remove
// QueryCount
//
//----------------------------------------------------------------------------
class CSList
{
public:
CSList(FreeFunc pfnFree = NULL) : _pfnFree (pfnFree),
_pCurrent (NULL),
_cItems (0)
{
_pHead = NULL;
_pTail = NULL;
};
LINLINE ~CSList();
DWORD QueryCount(void) { return(_cItems);};
VOID Init(FreeFunc pfnFree = NULL)
{
if(_pHead == NULL)
{
_pfnFree = pfnFree;
_pCurrent = NULL;
_cItems = 0;
}
};
LINLINE DWORD Insert(PVOID pvData);
LINLINE DWORD InsertIfUnique(PVOID pvData,
CompFunc pfnComp);
LINLINE PVOID Find(PVOID pvData,
CompFunc pfnComp);
LINLINE PVOID NextData();
VOID Reset() {_pCurrent = _pHead;};
LINLINE DWORD Remove(PVOID pData);
LINLINE VOID FreeList(FreeFunc pfnFree);
protected:
PCSLIST_NODE _pHead;
PCSLIST_NODE _pCurrent;
PCSLIST_NODE _pTail;
DWORD _cItems;
FreeFunc _pfnFree;
LINLINE PCSLIST_NODE FindNode(PVOID pvData,
CompFunc pfnComp);
};
//+------------------------------------------------------------------
//
// Member: CSList::~CSList
//
// Synopsis: Destructor for the CSList class
//
// Arguments: None
//
// Returns: void
//
//+------------------------------------------------------------------
CSList::~CSList()
{
while(_pHead != NULL)
{
PCSLIST_NODE pNext = _pHead->pNext;
if(_pfnFree != NULL)
{
(*_pfnFree)(_pHead->pvData);
}
LocalFree(_pHead);
_pHead = pNext;
}
}
//+------------------------------------------------------------------
//
// Member: CSList::Insert
//
// Synopsis: Creates a new node at the begining of the list and
// inserts it into the list
//
//
// Arguments: [IN pvData] -- Data to insert
//
// Returns: ERROR_SUCCESS -- Everything worked
// ERROR_NOT_ENOUGH_MEMORY A memory allocation failed
//
//+------------------------------------------------------------------
DWORD CSList::Insert(PVOID pvData)
{
DWORD dwErr = ERROR_SUCCESS;
PCSLIST_NODE pNew = (PCSLIST_NODE)LocalAlloc(LMEM_FIXED, sizeof(CSLIST_NODE));
if(pNew == NULL)
{
dwErr = ERROR_NOT_ENOUGH_MEMORY;
}
else
{
pNew->pvData = pvData;
pNew->pNext = NULL;
if ( _pHead == NULL ) {
_pHead = _pTail = pNew;
} else {
_pTail->pNext = pNew;
_pTail = pNew;
}
_cItems++;
}
return(dwErr);
}
//+------------------------------------------------------------------
//
// Member: CSList::InsertIfUnique
//
// Synopsis: Creates a new node at the begining of the list and
// inserts it into the list if the data does not already
// exist in the list. If the data does exist, nothing
// is done, but SUCCESS is returned
//
//
// Arguments: [IN pvData] -- Data to insert
//
// Returns: ERROR_SUCCESS -- Everything worked
// ERROR_NOT_ENOUGH_MEMORY A memory allocation failed
//
//+------------------------------------------------------------------
DWORD CSList::InsertIfUnique(PVOID pvData,
CompFunc pfnComp)
{
DWORD dwErr = ERROR_SUCCESS;
if(FindNode(pvData, pfnComp) == NULL)
{
dwErr = Insert(pvData);
}
return(dwErr);
}
//+------------------------------------------------------------------
//
// Member: CSList::FindNode
//
// Synopsis: Locates the node for the given data in the list, if it exists
//
// Arguments: [IN pvData] -- Data to find
// [IN pfnComp] -- Pointer to a comparrison function
//
// Returns: ERROR_SUCCESS -- Everything worked
// ERROR_NOT_ENOUGH_MEMORY A memory allocation failed
//
//+------------------------------------------------------------------
PCSLIST_NODE CSList::FindNode(PVOID pvData,
CompFunc pfnComp)
{
PCSLIST_NODE pRet = _pHead;
// for(ULONG i = 0; i < _cItems; i++)
while (pRet != NULL)
{
if((pfnComp)(pvData, pRet->pvData) == TRUE)
{
break;
}
pRet = pRet->pNext;
}
return(pRet);
}
//+------------------------------------------------------------------
//
// Member: CSList::Find
//
// Synopsis: Locates the given data in the list, if it exists
//
// Arguments: [IN pvData] -- Data to insert
//
// Returns: ERROR_SUCCESS -- Everything worked
// ERROR_NOT_ENOUGH_MEMORY A memory allocation failed
//
//+------------------------------------------------------------------
PVOID CSList::Find(PVOID pvData,
CompFunc pfnComp)
{
PCSLIST_NODE pNode = FindNode(pvData, pfnComp);
return(pNode == NULL ? NULL : pNode->pvData);
}
//+------------------------------------------------------------------
//
// Member: CSList::NextData
//
// Synopsis: Returns the next data in the list
//
//
// Arguments: None
//
// Returns: NULL -- No more items
// Pointer to next data in list on success
//
//+------------------------------------------------------------------
PVOID CSList::NextData()
{
PVOID pvRet = NULL;
if(_pCurrent != NULL)
{
pvRet = _pCurrent->pvData;
_pCurrent = _pCurrent->pNext;
}
return(pvRet);
}
//+------------------------------------------------------------------
//
// Member: CSList::Remove
//
// Synopsis: Removes the node that references the indicated data
//
// Arguments: pData -- The data in the node to remove
//
// Returns: ERROR_SUCCESS -- Success
// ERROR_INVALID_PARAMETER Node not found
//
//+------------------------------------------------------------------
DWORD CSList::Remove(PVOID pData)
{
DWORD dwErr = ERROR_INVALID_PARAMETER;
PCSLIST_NODE pNode = _pHead, pPrev = NULL;
for(ULONG i = 0; i < _cItems; i++)
{
if(pNode->pvData == pData)
{
//
// We've got a match...
//
if(pPrev == NULL)
{
_pHead = _pHead->pNext;
}
else
{
pPrev->pNext = pNode->pNext;
}
if (NULL == pNode->pNext)
{
_pTail = pPrev;
}
LocalFree(pNode);
_cItems--;
break;
}
pPrev = pNode;
pNode = pNode->pNext;
}
return(dwErr);
}
//+------------------------------------------------------------------
//
// Member: CSList::FreeList
//
// Synopsis: Frees the list
//
// Arguments: pfnFree -- Optional deletion routine to use for freeing
// any allocated memory
//
// Returns: void
//
//+------------------------------------------------------------------
VOID CSList::FreeList(FreeFunc pfnFree)
{
while(_pHead != NULL)
{
PCSLIST_NODE pNext = _pHead->pNext;
if(pfnFree != NULL)
{
(*pfnFree)(_pHead->pvData);
}
LocalFree(_pHead);
_pHead = pNext;
}
}
//
// Exported functions pointer definitions
//
typedef DWORD (*pfNTMartaLookupTrustee) (PWSTR pwszServer,
PSID pSid,
PTRUSTEE *ppTrustee);
typedef DWORD (*pfNTMartaLookupName) (PWSTR pwszServer,
PSID pSid,
LPWSTR *ppwszName,
LPWSTR *ppwszDomain,
SID_NAME_USE *pSidType);
typedef DWORD (*pfNTMartaLookupSid) (PWSTR pwszServer,
PTRUSTEE pName,
PSID *ppsid,
SID_NAME_USE *pSidType);
typedef DWORD (*pfNTMartaSetAList) (ULONG cEntries,
PACTRL_ACCESS_ENTRYW pAccessEntryList,
ACCESS_MODE AccessMode,
SECURITY_INFORMATION SeInfo,
LPCWSTR lpProperty,
BOOL fDoOldStyleMerge,
PACTRL_AUDITW pOldList,
PACTRL_AUDITW *ppNewList);
typedef DWORD (*pfNTMartaAToSD) (PACTRL_ACCESSW pAccessList,
PACTRL_AUDITW pAuditList,
LPCWSTR lpOwner,
LPCWSTR lpGroup,
PSECURITY_DESCRIPTOR *ppSecDescriptor);
typedef DWORD (*pfNTMartaSDToA) (SE_OBJECT_TYPE ObjectType,
PSECURITY_DESCRIPTOR pSecDescriptor,
PACTRL_ACCESSW *ppAccessList,
PACTRL_AUDITW *ppAuditList,
LPWSTR *lppOwner,
LPWSTR *lppGroup);
typedef DWORD (*pfNTMartaAclToA)(SE_OBJECT_TYPE ObjectType,
PACL pAcl,
PACTRL_ACCESSW *ppAccessList);
typedef DWORD (*pfNTMartaGetAccess) (PTRUSTEE pTrustee,
PACL pAcl,
SECURITY_INFORMATION SeInfo,
PWSTR pwszProperty,
PACCESS_RIGHTS pAllowed,
PACCESS_RIGHTS pDenied);
typedef DWORD (*pfNTMartaGetExplicit)(PTRUSTEE pTrustee,
SE_OBJECT_TYPE ObjectType,
PACL pAcl,
PWSTR pwszProperty,
PULONG pcEntries,
PACTRL_ACCESS_ENTRYW *ppAEList);
typedef VOID (*FN_PROGRESS) (
IN LPWSTR pObjectName, // name of object just processed
IN DWORD Status, // status of operation on object
IN OUT PPROG_INVOKE_SETTING pInvokeSetting, // Never, always,
IN PVOID Args, // Caller specific data
IN BOOL SecuritySet // Whether security was set
);
typedef DWORD (*pfNTMartaTreeResetNamedSecurityInfo) (
IN LPWSTR pObjectName,
IN SE_OBJECT_TYPE ObjectType,
IN SECURITY_INFORMATION SecurityInfo,
IN PSID pOwner,
IN PSID pGroup,
IN PACL pDacl,
IN PACL pSacl,
IN BOOL KeepExplicit,
IN FN_PROGRESS fnProgress,
IN PROG_INVOKE_SETTING ProgressInvokeSetting,
IN PVOID Args
);
// typedef PVOID PFN_OBJECT_MGR_FUNCTS;
typedef DWORD (*pfNTMartaGetInheritanceSource) (
IN LPWSTR pObjectName,
IN SE_OBJECT_TYPE ObjectType,
IN SECURITY_INFORMATION SecurityInfo,
IN BOOL Container,
IN GUID ** pObjectClassGuids OPTIONAL,
IN DWORD GuidCount,
IN PACL pAcl,
IN PGENERIC_MAPPING pGenericMapping,
IN PFN_OBJECT_MGR_FUNCTS pfnArray OPTIONAL,
OUT PINHERITED_FROMW pInheritArray
);
typedef DWORD (*PFN_FREE) (IN PVOID Mem);
typedef DWORD (*pfNTMartaFreeIndexArray) (
IN OUT PINHERITED_FROMW pInheritArray,
IN USHORT AceCnt,
IN PFN_FREE pfnFree OPTIONAL
);
typedef DWORD (*pfNTMartaGetNamedRights) (
IN LPWSTR pObjectName,
IN SE_OBJECT_TYPE ObjectType,
IN SECURITY_INFORMATION SecurityInfo,
OUT PSID * ppSidOwner,
OUT PSID * ppSidGroup,
OUT PACL * ppDacl,
OUT PACL * ppSacl,
OUT PSECURITY_DESCRIPTOR * ppSecurityDescriptor);
typedef DWORD (*pfNTMartaSetNamedRights) (
IN LPWSTR pObjectName,
IN SE_OBJECT_TYPE ObjectType,
IN SECURITY_INFORMATION SecurityInfo,
IN PSECURITY_DESCRIPTOR pSecurityDescriptor,
IN BOOL bSkipInheritanceComputation
);
typedef DWORD (*pfNTMartaGetHandleRights) (
IN HANDLE Handle,
IN SE_OBJECT_TYPE ObjectType,
IN SECURITY_INFORMATION SecurityInfo,
OUT PSID * ppSidOwner,
OUT PSID * ppSidGroup,
OUT PACL * ppDacl,
OUT PACL * ppSacl,
OUT PSECURITY_DESCRIPTOR * ppSecurityDescriptor);
typedef DWORD (*pfNTMartaSetHandleRights) (
IN HANDLE Handle,
IN SE_OBJECT_TYPE ObjectType,
IN SECURITY_INFORMATION SecurityInfo,
IN PSECURITY_DESCRIPTOR pSecurityDescriptor
);
typedef DWORD (*pfNTMartaSetEntriesInAcl) (
IN ULONG cCountOfExplicitEntries,
IN PEXPLICIT_ACCESS_W pListOfExplicitEntries,
IN PACL OldAcl,
OUT PACL * pNewAcl
);
typedef DWORD (*pfNTMartaGetExplicitEntriesFromAcl) (
IN PACL pacl,
OUT PULONG pcCountOfExplicitEntries,
OUT PEXPLICIT_ACCESS_W * pListOfExplicitEntries
);
#endif // ifdef __MARTAEXP_HXX__