Leaked source code of windows server 2003
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/*++
Copyright (c) 1991-2000, Microsoft Corporation All rights reserved.
Module Name:
section.c
Abstract:
This file contains functions that deal with creating, opening, or
mapping a section for data table files for the NLS API.
External Routines found in this file:
CreateNlsObjectDirectory
CreateRegKey
OpenRegKey
QueryRegValue
SetRegValue
CreateSectionFromReg
CreateSectionOneValue
CreateSectionTemp
OpenSection
MapSection
UnMapSection
GetNlsSectionName
GetCodePageDLLPathName
Revision History:
05-31-91 JulieB Created.
--*/
//
// Include Files.
//
#include "nls.h"
#include "nlssafe.h"
//
// Forward Declarations.
//
ULONG
OpenDataFile(
HANDLE *phFile,
LPWSTR pFile);
ULONG
GetNTFileName(
LPWSTR pFile,
PUNICODE_STRING pFileName);
ULONG
CreateNlsSecurityDescriptor(
PSECURITY_DESCRIPTOR pSecurityDescriptor,
UINT SecurityDescriptorSize,
ACCESS_MASK AccessMask);
ULONG
AppendAccessAllowedACE(
PSECURITY_DESCRIPTOR pSecurityDescriptor,
ACCESS_MASK AccessMask);
//-------------------------------------------------------------------------//
// INTERNAL MACROS //
//-------------------------------------------------------------------------//
////////////////////////////////////////////////////////////////////////////
//
// NLS_REG_BUFFER_ALLOC
//
// Allocates the buffer used by the registry enumeration and query calls
// and sets the pKeyValueFull variable to point at the newly created buffer.
//
// NOTE: This macro may return if an error is encountered.
//
// DEFINED AS A MACRO.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
#define NLS_REG_BUFFER_ALLOC( pKeyValueFull, \
BufSize, \
pBuffer, \
CritSect ) \
{ \
if ((pBuffer = (PVOID)NLS_ALLOC_MEM(BufSize)) == NULL) \
{ \
KdPrint(("NLSAPI: Could NOT Allocate Memory.\n")); \
if (CritSect) \
{ \
RtlLeaveCriticalSection(&gcsTblPtrs); \
} \
return ((ULONG)STATUS_NO_MEMORY); \
} \
\
pKeyValueFull = (PKEY_VALUE_FULL_INFORMATION)pBuffer; \
}
////////////////////////////////////////////////////////////////////////////
//
// NLS_REG_BUFFER_FREE
//
// Frees the buffer used by the registry enumeration and query calls.
//
// DEFINED AS A MACRO.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
#define NLS_REG_BUFFER_FREE(pBuffer) (NLS_FREE_MEM(pBuffer))
//-------------------------------------------------------------------------//
// EXTERNAL ROUTINES //
//-------------------------------------------------------------------------//
////////////////////////////////////////////////////////////////////////////
//
// CreateNlsObjectDirectory
//
// This routine creates the object directory for the NLS memory mapped
// sections.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG CreateNlsObjectDirectory()
{
BYTE pSecurityDescriptor[MAX_SECURITY_BUF_LEN]; // security descriptor buffer (currently we use like 60 bytes or so of this)
UNICODE_STRING ObDirName; // directory name
OBJECT_ATTRIBUTES ObjA; // object attributes structure
HANDLE hDirHandle; // directory handle
ULONG rc = 0L; // return code
//
// Create the security descriptor with READ access to the world.
//
rc = CreateNlsSecurityDescriptor( pSecurityDescriptor,
MAX_SECURITY_BUF_LEN,
DIRECTORY_QUERY | DIRECTORY_TRAVERSE );
if (!NT_SUCCESS(rc))
{
return (rc);
}
//
// Add Admin Access for Query.
//
rc = AppendAccessAllowedACE( pSecurityDescriptor,
DIRECTORY_QUERY |
DIRECTORY_TRAVERSE |
DIRECTORY_CREATE_OBJECT );
if (!NT_SUCCESS(rc))
{
return (rc);
}
//
// Create the object directory.
//
RtlInitUnicodeString(&ObDirName, NLS_OBJECT_DIRECTORY_NAME);
InitializeObjectAttributes( &ObjA,
&ObDirName,
OBJ_PERMANENT | OBJ_CASE_INSENSITIVE,
NULL,
pSecurityDescriptor );
rc = NtCreateDirectoryObject( &hDirHandle,
DIRECTORY_TRAVERSE | DIRECTORY_CREATE_OBJECT,
&ObjA );
//
// Close the directory handle.
//
NtClose(hDirHandle);
//
// Check for error from NtCreateDirectoryObject.
//
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Create Object Directory %wZ - %lx.\n",
&ObDirName, rc));
return (rc);
}
//
// Return success.
//
return (NO_ERROR);
}
////////////////////////////////////////////////////////////////////////////
//
// CreateRegKey
//
// This routine creates a key in the registry.
//
// 12-17-97 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG CreateRegKey(
PHANDLE phKeyHandle,
LPWSTR pBaseName,
LPWSTR pKey,
ULONG fAccess)
{
WCHAR pwszKeyName[MAX_PATH_LEN]; // ptr to the full key name
HANDLE UserKeyHandle; // HKEY_CURRENT_USER equivalent
OBJECT_ATTRIBUTES ObjA; // object attributes structure
UNICODE_STRING ObKeyName; // key name
ULONG rc = 0L; // return code
//
// Get the full key name.
//
if (pBaseName == NULL)
{
//
// Get current user's key handle.
//
rc = RtlOpenCurrentUser(MAXIMUM_ALLOWED, &UserKeyHandle);
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Open HKEY_CURRENT_USER - %lx.\n", rc));
return (rc);
}
pwszKeyName[0] = UNICODE_NULL;
}
else
{
//
// Base name exists, so not current user.
//
UserKeyHandle = NULL;
if(FAILED(StringCchCopyW(pwszKeyName, ARRAYSIZE(pwszKeyName), pBaseName)))
{
return(STATUS_UNSUCCESSFUL);
}
}
if(FAILED(StringCchCatW(pwszKeyName, ARRAYSIZE(pwszKeyName), pKey)))
{
if (UserKeyHandle != NULL)
{
NtClose(UserKeyHandle);
}
return(STATUS_UNSUCCESSFUL);
}
//
// Create the registry key.
//
RtlInitUnicodeString(&ObKeyName, pwszKeyName);
InitializeObjectAttributes( &ObjA,
&ObKeyName,
OBJ_CASE_INSENSITIVE,
UserKeyHandle,
NULL );
rc = NtCreateKey( phKeyHandle,
fAccess,
&ObjA,
0,
NULL,
REG_OPTION_NON_VOLATILE,
NULL );
//
// Close the current user handle, if necessary.
//
if (UserKeyHandle != NULL)
{
NtClose(UserKeyHandle);
}
//
// Check for error from NtCreateKey.
//
if (!NT_SUCCESS(rc))
{
*phKeyHandle = NULL;
}
//
// Return the status from NtCreateKey.
//
return (rc);
}
////////////////////////////////////////////////////////////////////////////
//
// OpenRegKey
//
// This routine opens a key in the registry.
//
// 08-02-93 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG OpenRegKey(
PHANDLE phKeyHandle,
LPWSTR pBaseName,
LPWSTR pKey,
ULONG fAccess)
{
WCHAR pwszKeyName[MAX_PATH_LEN]; // ptr to the full key name
HANDLE UserKeyHandle; // HKEY_CURRENT_USER equivalent
OBJECT_ATTRIBUTES ObjA; // object attributes structure
UNICODE_STRING ObKeyName; // key name
ULONG rc = 0L; // return code
//
// Get the full key name.
//
if (pBaseName == NULL)
{
//
// Get current user's key handle.
//
rc = RtlOpenCurrentUser(MAXIMUM_ALLOWED, &UserKeyHandle);
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Open HKEY_CURRENT_USER - %lx.\n", rc));
return (rc);
}
pwszKeyName[0] = UNICODE_NULL;
}
else
{
//
// Base name exists, so not current user.
//
UserKeyHandle = NULL;
if(FAILED(StringCchCopyW(pwszKeyName, ARRAYSIZE(pwszKeyName), pBaseName)))
{
return(STATUS_UNSUCCESSFUL);
}
}
if (pKey)
{
if(FAILED(StringCchCatW(pwszKeyName, ARRAYSIZE(pwszKeyName), pKey)))
{
if (UserKeyHandle != NULL)
{
NtClose(UserKeyHandle);
}
return(STATUS_UNSUCCESSFUL);
}
}
//
// Open the registry key.
//
RtlInitUnicodeString(&ObKeyName, pwszKeyName);
InitializeObjectAttributes( &ObjA,
&ObKeyName,
OBJ_CASE_INSENSITIVE,
UserKeyHandle,
NULL );
rc = NtOpenKey( phKeyHandle,
fAccess,
&ObjA );
//
// Close the current user handle, if necessary.
//
if (UserKeyHandle != NULL)
{
NtClose(UserKeyHandle);
}
//
// Check for error from NtOpenKey.
//
if (!NT_SUCCESS(rc))
{
*phKeyHandle = NULL;
}
//
// Return the status from NtOpenKey.
//
return (rc);
}
////////////////////////////////////////////////////////////////////////////
//
// QueryRegValue
//
// This routine queries the given value from the registry.
//
// NOTE: If pIfAlloc is NULL, then no buffer will be allocated.
// If this routine is successful, the CALLER must free the
// ppKeyValueFull information buffer if *pIfAlloc is TRUE.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG QueryRegValue(
HANDLE hKeyHandle,
LPWSTR pValue,
PKEY_VALUE_FULL_INFORMATION *ppKeyValueFull,
ULONG Length,
LPBOOL pIfAlloc)
{
UNICODE_STRING ObValueName; // value name
PVOID pBuffer; // ptr to buffer for enum
ULONG ResultLength; // # bytes written
ULONG rc = 0L; // return code
//
// Set contents of pIfAlloc to FALSE to show that we did NOT do a
// memory allocation (yet).
//
if (pIfAlloc)
{
*pIfAlloc = FALSE;
}
//
// Query the value from the registry.
//
RtlInitUnicodeString(&ObValueName, pValue);
RtlZeroMemory(*ppKeyValueFull, Length);
rc = NtQueryValueKey( hKeyHandle,
&ObValueName,
KeyValueFullInformation,
*ppKeyValueFull,
Length,
&ResultLength );
//
// Check the error code. If the buffer is too small, allocate
// a new one and try the query again.
//
if ((rc == STATUS_BUFFER_OVERFLOW) && (pIfAlloc))
{
//
// Buffer is too small, so allocate a new one.
//
NLS_REG_BUFFER_ALLOC(*ppKeyValueFull, ResultLength, pBuffer, FALSE);
RtlZeroMemory(*ppKeyValueFull, ResultLength);
rc = NtQueryValueKey( hKeyHandle,
&ObValueName,
KeyValueFullInformation,
*ppKeyValueFull,
ResultLength,
&ResultLength );
//
// Set contents of pIfAlloc to TRUE to show that we DID do
// a memory allocation.
//
*pIfAlloc = TRUE;
}
//
// If there is an error at this point, then the query failed.
//
if (rc != NO_ERROR)
{
if ((pIfAlloc) && (*pIfAlloc))
{
NLS_REG_BUFFER_FREE(pBuffer);
}
return (rc);
}
//
// Return success.
//
return (NO_ERROR);
}
////////////////////////////////////////////////////////////////////////////
//
// SetRegValue
//
// This routine sets the given value in the registry.
//
// 12-17-97 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG SetRegValue(
HANDLE hKeyHandle,
LPCWSTR pValue,
LPCWSTR pData,
ULONG DataLength)
{
UNICODE_STRING ObValueName; // value name
//
// Set the value in the registry.
//
RtlInitUnicodeString(&ObValueName, pValue);
return (NtSetValueKey( hKeyHandle,
&ObValueName,
0,
REG_SZ,
(PVOID)pData,
DataLength ));
}
////////////////////////////////////////////////////////////////////////////
//
// CreateSectionTemp
//
// This routine creates a temporary memory mapped section for the given file
// name and returns the handle to the section.
//
// 09-01-93 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG CreateSectionTemp(
HANDLE *phSec,
LPWSTR pwszFileName)
{
HANDLE hFile = (HANDLE)0; // file handle
OBJECT_ATTRIBUTES ObjA; // object attributes structure
ULONG rc = 0L; // return code
//
// Make sure we're in the critical section when entering this call.
//
ASSERT(NtCurrentTeb()->ClientId.UniqueThread == gcsTblPtrs.OwningThread);
//
// Open the data file.
//
if (rc = OpenDataFile( &hFile,
pwszFileName ))
{
return (rc);
}
//
// Create the section.
//
InitializeObjectAttributes( &ObjA,
NULL,
0,
NULL,
NULL );
rc = NtCreateSection( phSec,
SECTION_MAP_READ,
&ObjA,
NULL,
PAGE_READONLY,
SEC_COMMIT,
hFile );
//
// Close the file.
//
NtClose(hFile);
//
// Check for error from NtCreateSection.
//
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Create Temp Section for %ws - %lx.\n",
pwszFileName, rc));
}
//
// Return success.
//
return (rc);
}
////////////////////////////////////////////////////////////////////////////
//
// OpenSection
//
// This routine opens the named memory mapped section for the given section
// name and returns the handle to the section.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG OpenSection(
HANDLE *phSec,
PUNICODE_STRING pObSectionName,
PVOID *ppBaseAddr,
ULONG AccessMask,
BOOL bCloseHandle)
{
OBJECT_ATTRIBUTES ObjA; // object attributes structure
ULONG rc = 0L; // return code
//
// Make sure we're in the critical section when entering this call.
//
ASSERT(NtCurrentTeb()->ClientId.UniqueThread == gcsTblPtrs.OwningThread);
//
// Open the Section.
//
InitializeObjectAttributes( &ObjA,
pObSectionName,
OBJ_CASE_INSENSITIVE,
NULL,
NULL );
rc = NtOpenSection( phSec,
AccessMask,
&ObjA );
//
// Check for error from NtOpenSection.
//
if (!NT_SUCCESS(rc))
{
return (rc);
}
//
// Map a View of the Section.
//
if (rc = MapSection( *phSec,
ppBaseAddr,
PAGE_READONLY,
FALSE ))
{
NtClose(*phSec);
return (rc);
}
//
// Close the handle to the section. Once the section has been mapped,
// the pointer to the base address will remain valid until the section
// is unmapped. It is not necessary to leave the handle to the section
// around.
//
if (bCloseHandle)
{
NtClose(*phSec);
}
//
// Return success.
//
return (NO_ERROR);
}
////////////////////////////////////////////////////////////////////////////
//
// MapSection
//
// This routine maps a view of the section to the current process and adds
// the appropriate information to the hash table.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG MapSection(
HANDLE hSec,
PVOID *ppBaseAddr,
ULONG PageProtection,
BOOL bCloseHandle)
{
SIZE_T ViewSize; // view size of mapped section
ULONG rc = 0L; // return code
//
// Make sure we're in the critical section when entering this call.
//
ASSERT(NtCurrentTeb()->ClientId.UniqueThread == gcsTblPtrs.OwningThread);
//
// Map a View of the Section.
//
*ppBaseAddr = (PVOID)NULL;
ViewSize = 0L;
rc = NtMapViewOfSection( hSec,
NtCurrentProcess(),
ppBaseAddr,
0L,
0L,
NULL,
&ViewSize,
ViewUnmap,
0L,
PageProtection );
//
// Close the handle to the section. Once the section has been mapped,
// the pointer to the base address will remain valid until the section
// is unmapped. It is not necessary to leave the handle to the section
// around.
//
if (bCloseHandle)
{
NtClose(hSec);
}
//
// Check for error from NtMapViewOfSection.
//
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Map View of Section - %lx.\n", rc));
return (rc);
}
//
// Return success.
//
return (NO_ERROR);
}
////////////////////////////////////////////////////////////////////////////
//
// UnMapSection
//
// This routine unmaps a view of the given section to the current process.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG UnMapSection(
PVOID pBaseAddr)
{
ULONG rc = 0L; // return code
//
// Make sure we're in the critical section when entering this call.
//
ASSERT(NtCurrentTeb()->ClientId.UniqueThread == gcsTblPtrs.OwningThread);
//
// UnMap a View of the Section.
//
rc = NtUnmapViewOfSection( NtCurrentProcess(),
pBaseAddr );
//
// Check for error from NtUnmapViewOfSection.
//
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Unmap View of Section - %lx.\n", rc));
return (rc);
}
//
// Return success.
//
return (NO_ERROR);
}
////////////////////////////////////////////////////////////////////////////
//
// GetNlsSectionName
//
// This routine returns a section name by concatenating the given
// section prefix and the given integer value converted to a string.
//
// 05-31-1991 JulieB Created.
// 06-04-2002 ShawnSte Added more security
////////////////////////////////////////////////////////////////////////////
ULONG GetNlsSectionName(
UINT Value,
UINT Base,
UINT Padding,
LPWSTR pwszPrefix,
LPWSTR pwszSecName,
UINT cchSecName)
{
size_t cchUsed;
// Copy the string, then count how many we copied over.
if(FAILED(StringCchCopyW(pwszSecName, cchSecName, pwszPrefix)) ||
FAILED(StringCchLengthW(pwszSecName, cchSecName, &cchUsed )))
{
return(STATUS_UNSUCCESSFUL);
}
return ( NlsConvertIntegerToString( Value,
Base,
Padding,
pwszSecName + NlsStrLenW(pwszSecName),
cchSecName - cchUsed )); // Some characters are already used
}
////////////////////////////////////////////////////////////////////////////
//
// GetCodePageDLLPathName
//
// This routine returns the full path name for the DLL file found in
// the CodePage section of the registry for the given code page value.
//
// 10-23-96 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG GetCodePageDLLPathName(
UINT CodePage,
LPWSTR pDllName,
USHORT cchLen)
{
WCHAR pTmpBuf[MAX_SMALL_BUF_LEN]; // temp buffer
PKEY_VALUE_FULL_INFORMATION pKeyValueFull; // ptr to query info
BYTE pStatic[MAX_KEY_VALUE_FULLINFO]; // ptr to static buffer
BOOL IfAlloc = FALSE; // if buffer was allocated
ULONG rc = 0L; // return code
//
// Open the CodePage registry key.
//
OPEN_CODEPAGE_KEY(ERROR_BADDB);
//
// Convert the code page value to a unicode string.
//
if (rc = NlsConvertIntegerToString( CodePage,
10,
0,
pTmpBuf,
MAX_SMALL_BUF_LEN ))
{
return (rc);
}
//
// Query the registry for the code page value.
//
pKeyValueFull = (PKEY_VALUE_FULL_INFORMATION)pStatic;
if (rc = QueryRegValue( hCodePageKey,
pTmpBuf,
&pKeyValueFull,
MAX_KEY_VALUE_FULLINFO,
&IfAlloc ))
{
return (rc);
}
//
// Make sure there is data with this value.
//
if (pKeyValueFull->DataLength > 2)
{
//
// Get the full path name for the DLL file.
//
if((0 == GetSystemDirectoryW(pDllName, cchLen / 2)) ||
FAILED(StringCchCatW(pDllName, cchLen, L"\\")) ||
FAILED(StringCchCatW(pDllName, cchLen, GET_VALUE_DATA_PTR(pKeyValueFull))))
{
rc = ERROR_INSUFFICIENT_BUFFER;
}
}
else
{
rc = ERROR_INVALID_PARAMETER;
}
//
// Free the buffer used for the query.
//
if (IfAlloc)
{
NLS_FREE_MEM(pKeyValueFull);
}
//
// Return.
//
return (rc);
}
//-------------------------------------------------------------------------//
// INTERNAL ROUTINES //
//-------------------------------------------------------------------------//
////////////////////////////////////////////////////////////////////////////
//
// OpenDataFile
//
// This routine opens the data file for the specified file name and
// returns the handle to the file.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG OpenDataFile(
HANDLE *phFile,
LPWSTR pFile)
{
UNICODE_STRING ObFileName; // file name
OBJECT_ATTRIBUTES ObjA; // object attributes structure
IO_STATUS_BLOCK iosb; // IO status block
ULONG rc = 0L; // return code
//
// Get the NT file name.
//
if (rc = GetNTFileName( pFile,
&ObFileName ))
{
return (rc);
}
//
// Open the file.
//
InitializeObjectAttributes( &ObjA,
&ObFileName,
OBJ_CASE_INSENSITIVE,
NULL,
NULL );
rc = NtOpenFile( phFile,
FILE_READ_DATA | SYNCHRONIZE,
&ObjA,
&iosb,
FILE_SHARE_READ,
FILE_SYNCHRONOUS_IO_NONALERT );
//
// Check for error from NtOpenFile.
//
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Open File %wZ - %lx.\n", &ObFileName, rc));
RtlFreeHeap(RtlProcessHeap(), 0, ObFileName.Buffer);
return (rc);
}
if (!NT_SUCCESS(iosb.Status))
{
KdPrint(("NLSAPI: Could NOT Open File %wZ - Status = %lx.\n",
&ObFileName, iosb.Status));
RtlFreeHeap(RtlProcessHeap(), 0, ObFileName.Buffer);
return ((ULONG)iosb.Status);
}
//
// Return success.
//
RtlFreeHeap(RtlProcessHeap(), 0, ObFileName.Buffer);
return (NO_ERROR);
}
////////////////////////////////////////////////////////////////////////////
//
// GetNTFileName
//
// This routine returns the full path name for the data file found in
// the given registry information buffer.
//
// NOTE: The pFileName parameter will contain a newly allocated buffer
// that must be freed by the caller (pFileName->buffer).
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG GetNTFileName(
LPWSTR pFile,
PUNICODE_STRING pFileName)
{
WCHAR pwszFilePath[MAX_PATH_LEN]; // ptr to file path string
UNICODE_STRING ObFileName; // file name
ULONG rc = 0L; // return code
//
// Get the full path name for the file.
//
if((0 == GetSystemDirectoryW(pwszFilePath, ARRAYSIZE(pwszFilePath))) ||
FAILED(StringCchCatW(pwszFilePath, ARRAYSIZE(pwszFilePath), L"\\")) ||
FAILED(StringCchCatW(pwszFilePath, ARRAYSIZE(pwszFilePath), pFile)))
{
rc = ERROR_INSUFFICIENT_BUFFER;
}
//
// Make the file name an NT path name.
//
RtlInitUnicodeString(&ObFileName, pwszFilePath);
if (!RtlDosPathNameToNtPathName_U( ObFileName.Buffer,
pFileName,
NULL,
NULL ))
{
KdPrint(("NLSAPI: Could NOT convert %wZ to NT path name - %lx.\n",
&ObFileName, rc));
return (ERROR_FILE_NOT_FOUND);
}
//
// Return success.
//
return (NO_ERROR);
}
////////////////////////////////////////////////////////////////////////////
//
// CreateNlsSecurityDescriptor
//
// This routine creates the security descriptor needed to create the
// memory mapped section for a data file and returns the world SID.
//
// 05-31-91 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG CreateNlsSecurityDescriptor(
PSECURITY_DESCRIPTOR pSecurityDescriptor,
UINT SecurityDescriptorSize,
ACCESS_MASK AccessMask)
{
ULONG rc = STATUS_SUCCESS; // return code (positive thinking)
PACL pAclBuffer; // ptr to ACL buffer
PSID pWorldSid = NULL; // ptr to world SID
SID_IDENTIFIER_AUTHORITY SidAuth = SECURITY_WORLD_SID_AUTHORITY;
//
// Create World SID.
//
rc = RtlAllocateAndInitializeSid( &SidAuth,
1,
SECURITY_WORLD_RID,
0, 0, 0, 0, 0, 0, 0,
&pWorldSid );
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Create SID - %lx.\n", rc));
goto CSD_Exit;
}
//
// Initialize Security Descriptor.
//
rc = RtlCreateSecurityDescriptor( pSecurityDescriptor,
SECURITY_DESCRIPTOR_REVISION );
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Create Security Descriptor - %lx.\n", rc));
goto CSD_Exit;
}
//
// Initialize ACL.
//
pAclBuffer = (PACL)((PBYTE)pSecurityDescriptor + SECURITY_DESCRIPTOR_MIN_LENGTH);
rc = RtlCreateAcl( (PACL)pAclBuffer,
SecurityDescriptorSize - SECURITY_DESCRIPTOR_MIN_LENGTH,
ACL_REVISION2 );
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Create ACL - %lx.\n", rc));
goto CSD_Exit;
}
//
// Add an ACE to the ACL that allows World GENERIC_READ to the
// section object.
//
rc = RtlAddAccessAllowedAce( (PACL)pAclBuffer,
ACL_REVISION2,
AccessMask,
pWorldSid );
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Add Access Allowed ACE - %lx.\n", rc));
goto CSD_Exit;
}
//
// Assign the DACL to the security descriptor.
//
rc = RtlSetDaclSecurityDescriptor( (PSECURITY_DESCRIPTOR)pSecurityDescriptor,
(BOOLEAN)TRUE,
(PACL)pAclBuffer,
(BOOLEAN)FALSE );
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Set DACL Security Descriptor - %lx.\n", rc));
goto CSD_Exit;
}
CSD_Exit:
//
// Free the Sid.
//
if (pWorldSid) RtlFreeHeap(RtlProcessHeap(), 0, pWorldSid);
//
// Return the result.
//
return (rc);
}
////////////////////////////////////////////////////////////////////////////
//
// AppendAccessAllowedACE
//
// This routine adds an ACE to the ACL for administrators.
//
// 03-08-93 JulieB Created.
////////////////////////////////////////////////////////////////////////////
ULONG AppendAccessAllowedACE(
PSECURITY_DESCRIPTOR pSecurityDescriptor,
ACCESS_MASK AccessMask)
{
ULONG rc = STATUS_SUCCESS; // return code (positive thinking)
PACL pDaclBuffer; // ptr to DACL buffer
ULONG SidLength; // length of SID - 2 sub authorities
PSID pLocalSystemSid = NULL; // ptr to local system SID
SID_IDENTIFIER_AUTHORITY SidAuth = SECURITY_NT_AUTHORITY;
BOOLEAN DaclPresent;
BOOLEAN DaclDefaulted;
//
// Create Local System Account SID.
//
rc = RtlAllocateAndInitializeSid( &SidAuth,
1,
SECURITY_LOCAL_SYSTEM_RID,
0, 0, 0, 0, 0, 0, 0,
&pLocalSystemSid );
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Create SID - %lx.\n", rc));
goto AAA_EXIT;
}
//
// Get DACL.
//
rc = RtlGetDaclSecurityDescriptor( pSecurityDescriptor,
&DaclPresent,
&pDaclBuffer,
&DaclDefaulted );
if (!NT_SUCCESS(rc) || !pDaclBuffer || !DaclPresent)
{
KdPrint(("NLSAPI: Could NOT Get DACL Security Descriptor - %lx.\n", rc));
goto AAA_EXIT;
}
//
// Add an ACE to the ACL that allows Admin query access to the
// section object.
//
rc = RtlAddAccessAllowedAce( (PACL)pDaclBuffer,
ACL_REVISION2,
AccessMask,
pLocalSystemSid );
if (!NT_SUCCESS(rc))
{
KdPrint(("NLSAPI: Could NOT Add Access Allowed ACE - %lx.\n", rc));
goto AAA_EXIT;
}
AAA_EXIT:
//
// Free SID.
//
if (pLocalSystemSid) RtlFreeHeap(RtlProcessHeap(), 0, pLocalSystemSid);
//
// Return condition.
//
return rc;
}