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git-svn-id: svn://kolibrios.org@6725 a494cfbc-eb01-0410-851d-a64ba20cac60
555 lines
16 KiB
C
555 lines
16 KiB
C
/*
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Copyright (c) 1990-2007 Info-ZIP. All rights reserved.
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See the accompanying file LICENSE, version 2000-Apr-09 or later
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(the contents of which are also included in unzip.h) for terms of use.
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If, for some reason, all these files are missing, the Info-ZIP license
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also may be found at: ftp://ftp.info-zip.org/pub/infozip/license.html
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*/
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/*
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Copyright (c) 1996 Scott Field (dedicated to Info-Zip group)
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Module Name:
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nt.c
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Abstract:
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This module implements WinNT security descriptor operations for the
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Win32 Info-ZIP project. Operation such as setting file security,
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using/querying local and remote privileges, and queuing of operations
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is performed here. The contents of this module are only relevant
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when the code is running on Windows NT, and the target volume supports
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persistent Acl storage.
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User privileges that allow accessing certain privileged aspects of the
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security descriptor (such as the Sacl) are only used if the user specified
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to do so.
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Author:
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Scott Field (sfield@microsoft.com)
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Last revised: 18 Jan 97
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*/
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#define WIN32_LEAN_AND_MEAN
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#define UNZIP_INTERNAL
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#include "../unzip.h"
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#include <windows.h>
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#ifdef __RSXNT__
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# include "../win32/rsxntwin.h"
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#endif
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#include "../win32/nt.h"
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#ifdef NTSD_EAS /* This file is only needed for NTSD handling */
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/* Borland C++ does not define FILE_SHARE_DELETE. Others also? */
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#ifndef FILE_SHARE_DELETE
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# define FILE_SHARE_DELETE 0x00000004
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#endif
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/* This macro definition is missing in old versions of MS' winbase.h. */
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#ifndef InterlockedExchangePointer
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# define InterlockedExchangePointer(Target, Value) \
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(PVOID)InterlockedExchange((PLONG)(Target), (LONG)(Value))
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#endif
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/* private prototypes */
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static BOOL Initialize(VOID);
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static VOID GetRemotePrivilegesSet(CHAR *FileName, PDWORD dwRemotePrivileges);
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static VOID InitLocalPrivileges(VOID);
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volatile BOOL bInitialized = FALSE; /* module level stuff initialized? */
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HANDLE hInitMutex = NULL; /* prevent multiple initialization */
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BOOL g_bRestorePrivilege = FALSE; /* for local set file security override */
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BOOL g_bSaclPrivilege = FALSE; /* for local set sacl operations, only when
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restore privilege not present */
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/* our single cached volume capabilities structure that describes the last
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volume root we encountered. A single entry like this works well in the
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zip/unzip scenario for a number of reasons:
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1. typically one extraction path during unzip.
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2. typically process one volume at a time during zip, and then move
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on to the next.
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3. no cleanup code required and no memory leaks.
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4. simple code.
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This approach should be reworked to a linked list approach if we expect to
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be called by many threads which are processing a variety of input/output
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volumes, since lock contention and stale data may become a bottleneck. */
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VOLUMECAPS g_VolumeCaps;
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CRITICAL_SECTION VolumeCapsLock;
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static BOOL Initialize(VOID)
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{
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HANDLE hMutex;
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HANDLE hOldMutex;
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if (bInitialized) return TRUE;
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hMutex = CreateMutex(NULL, TRUE, NULL);
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if(hMutex == NULL) return FALSE;
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hOldMutex = (HANDLE)InterlockedExchangePointer((void *)&hInitMutex,
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hMutex);
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if (hOldMutex != NULL) {
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/* somebody setup the mutex already */
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InterlockedExchangePointer((void *)&hInitMutex,
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hOldMutex);
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CloseHandle(hMutex); /* close new, un-needed mutex */
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/* wait for initialization to complete and return status */
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WaitForSingleObject(hOldMutex, INFINITE);
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ReleaseMutex(hOldMutex);
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return bInitialized;
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}
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if (!bInitialized) {
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/* initialize module level resources */
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InitializeCriticalSection( &VolumeCapsLock );
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memset(&g_VolumeCaps, 0, sizeof(VOLUMECAPS));
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InitLocalPrivileges();
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bInitialized = TRUE;
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}
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InterlockedExchangePointer((void *)&hInitMutex,
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NULL);
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ReleaseMutex(hMutex); /* release correct mutex */
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CloseHandle(hMutex); /* free the no longer needed handle resource */
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return TRUE;
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}
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BOOL ValidateSecurity(uch *securitydata)
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{
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PSECURITY_DESCRIPTOR sd = (PSECURITY_DESCRIPTOR)securitydata;
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PACL pAcl;
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PSID pSid;
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BOOL bAclPresent;
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BOOL bDefaulted;
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if(!IsWinNT()) return TRUE; /* don't do anything if not on WinNT */
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if(!IsValidSecurityDescriptor(sd)) return FALSE;
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/* verify Dacl integrity */
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if(!GetSecurityDescriptorDacl(sd, &bAclPresent, &pAcl, &bDefaulted))
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return FALSE;
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if(bAclPresent && pAcl!=NULL) {
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if(!IsValidAcl(pAcl)) return FALSE;
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}
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/* verify Sacl integrity */
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if(!GetSecurityDescriptorSacl(sd, &bAclPresent, &pAcl, &bDefaulted))
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return FALSE;
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if(bAclPresent && pAcl!=NULL) {
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if(!IsValidAcl(pAcl)) return FALSE;
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}
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/* verify owner integrity */
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if(!GetSecurityDescriptorOwner(sd, &pSid, &bDefaulted))
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return FALSE;
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if(pSid != NULL) {
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if(!IsValidSid(pSid)) return FALSE;
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}
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/* verify group integrity */
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if(!GetSecurityDescriptorGroup(sd, &pSid, &bDefaulted))
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return FALSE;
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if(pSid != NULL) {
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if(!IsValidSid(pSid)) return FALSE;
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}
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return TRUE;
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}
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static VOID GetRemotePrivilegesSet(char *FileName, PDWORD dwRemotePrivileges)
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{
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HANDLE hFile;
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*dwRemotePrivileges = 0;
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/* see if we have the SeRestorePrivilege */
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hFile = CreateFileA(
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FileName,
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ACCESS_SYSTEM_SECURITY | WRITE_DAC | WRITE_OWNER | READ_CONTROL,
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FILE_SHARE_READ | FILE_SHARE_DELETE, /* no sd updating allowed here */
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NULL,
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OPEN_EXISTING,
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FILE_FLAG_BACKUP_SEMANTICS,
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NULL
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);
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if(hFile != INVALID_HANDLE_VALUE) {
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/* no remote way to determine SeRestorePrivilege -- just try a
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read/write to simulate it */
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SECURITY_INFORMATION si = DACL_SECURITY_INFORMATION |
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SACL_SECURITY_INFORMATION | OWNER_SECURITY_INFORMATION |
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GROUP_SECURITY_INFORMATION;
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PSECURITY_DESCRIPTOR sd;
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DWORD cbBuf = 0;
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GetKernelObjectSecurity(hFile, si, NULL, cbBuf, &cbBuf);
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if(ERROR_INSUFFICIENT_BUFFER == GetLastError()) {
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if((sd = HeapAlloc(GetProcessHeap(), 0, cbBuf)) != NULL) {
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if(GetKernelObjectSecurity(hFile, si, sd, cbBuf, &cbBuf)) {
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if(SetKernelObjectSecurity(hFile, si, sd))
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*dwRemotePrivileges |= OVERRIDE_RESTORE;
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}
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HeapFree(GetProcessHeap(), 0, sd);
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}
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}
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CloseHandle(hFile);
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} else {
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/* see if we have the SeSecurityPrivilege */
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/* note we don't need this if we have SeRestorePrivilege */
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hFile = CreateFileA(
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FileName,
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ACCESS_SYSTEM_SECURITY,
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FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, /* max */
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NULL,
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OPEN_EXISTING,
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0,
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NULL
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);
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if(hFile != INVALID_HANDLE_VALUE) {
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CloseHandle(hFile);
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*dwRemotePrivileges |= OVERRIDE_SACL;
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}
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}
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}
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BOOL GetVolumeCaps(
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char *rootpath, /* filepath, or NULL */
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char *name, /* filename associated with rootpath */
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PVOLUMECAPS VolumeCaps /* result structure describing capabilities */
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)
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{
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char TempRootPath[MAX_PATH + 1];
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DWORD cchTempRootPath = 0;
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BOOL bSuccess = TRUE; /* assume success until told otherwise */
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if(!bInitialized) if(!Initialize()) return FALSE;
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/* process the input path to produce a consistent path suitable for
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compare operations and also suitable for certain picky Win32 API
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that don't like forward slashes */
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if(rootpath != NULL && rootpath[0] != '\0') {
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DWORD i;
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cchTempRootPath = lstrlenA(rootpath);
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if(cchTempRootPath > MAX_PATH) return FALSE;
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/* copy input, converting forward slashes to back slashes as we go */
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for(i = 0 ; i <= cchTempRootPath ; i++) {
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if(rootpath[i] == '/') TempRootPath[i] = '\\';
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else TempRootPath[i] = rootpath[i];
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}
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/* check for UNC and Null terminate or append trailing \ as
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appropriate */
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/* possible valid UNCs we are passed follow:
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\\machine\foo\bar (path is \\machine\foo\)
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\\machine\foo (path is \\machine\foo\)
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\\machine\foo\
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\\.\c$\ (FIXFIX: Win32API doesn't like this - GetComputerName())
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LATERLATER: handling mounted DFS drives in the future will require
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slightly different logic which isn't available today.
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This is required because directories can point at
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different servers which have differing capabilities.
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*/
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if(TempRootPath[0] == '\\' && TempRootPath[1] == '\\') {
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DWORD slash = 0;
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for(i = 2 ; i < cchTempRootPath ; i++) {
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if(TempRootPath[i] == '\\') {
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slash++;
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if(slash == 2) {
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i++;
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TempRootPath[i] = '\0';
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cchTempRootPath = i;
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break;
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}
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}
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}
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/* if there was only one slash found, just tack another onto the
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end */
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if(slash == 1 && TempRootPath[cchTempRootPath] != '\\') {
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TempRootPath[cchTempRootPath] = TempRootPath[0]; /* '\\' */
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TempRootPath[cchTempRootPath+1] = '\0';
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cchTempRootPath++;
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}
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} else {
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if(TempRootPath[1] == ':') {
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/* drive letter specified, truncate to root */
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TempRootPath[2] = '\\';
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TempRootPath[3] = '\0';
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cchTempRootPath = 3;
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} else {
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/* must be file on current drive */
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TempRootPath[0] = '\0';
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cchTempRootPath = 0;
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}
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}
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} /* if path != NULL */
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/* grab lock protecting cached entry */
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EnterCriticalSection( &VolumeCapsLock );
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if(!g_VolumeCaps.bValid ||
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lstrcmpiA(g_VolumeCaps.RootPath, TempRootPath) != 0)
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{
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/* no match found, build up new entry */
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DWORD dwFileSystemFlags;
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DWORD dwRemotePrivileges = 0;
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BOOL bRemote = FALSE;
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/* release lock during expensive operations */
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LeaveCriticalSection( &VolumeCapsLock );
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bSuccess = GetVolumeInformationA(
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(TempRootPath[0] == '\0') ? NULL : TempRootPath,
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NULL, 0,
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NULL, NULL,
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&dwFileSystemFlags,
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NULL, 0);
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/* only if target volume supports Acls, and we were told to use
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privileges do we need to go out and test for the remote case */
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if(bSuccess && (dwFileSystemFlags & FS_PERSISTENT_ACLS) &&
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VolumeCaps->bUsePrivileges)
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{
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if(GetDriveTypeA( (TempRootPath[0] == '\0') ? NULL : TempRootPath )
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== DRIVE_REMOTE)
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{
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bRemote = TRUE;
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/* make a determination about our remote capabilities */
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GetRemotePrivilegesSet(name, &dwRemotePrivileges);
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}
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}
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/* always take the lock again, since we release it below */
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EnterCriticalSection( &VolumeCapsLock );
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/* replace the existing data if successful */
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if(bSuccess) {
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lstrcpynA(g_VolumeCaps.RootPath, TempRootPath, cchTempRootPath+1);
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g_VolumeCaps.dwFileSystemFlags = dwFileSystemFlags;
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g_VolumeCaps.bRemote = bRemote;
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g_VolumeCaps.dwRemotePrivileges = dwRemotePrivileges;
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g_VolumeCaps.bValid = TRUE;
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}
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}
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if(bSuccess) {
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/* copy input elements */
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g_VolumeCaps.bUsePrivileges = VolumeCaps->bUsePrivileges;
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g_VolumeCaps.dwFileAttributes = VolumeCaps->dwFileAttributes;
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/* give caller results */
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memcpy(VolumeCaps, &g_VolumeCaps, sizeof(VOLUMECAPS));
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} else {
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g_VolumeCaps.bValid = FALSE;
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}
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LeaveCriticalSection( &VolumeCapsLock ); /* release lock */
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return bSuccess;
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}
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BOOL SecuritySet(char *resource, PVOLUMECAPS VolumeCaps, uch *securitydata)
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{
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HANDLE hFile;
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DWORD dwDesiredAccess = 0;
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DWORD dwFlags = 0;
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PSECURITY_DESCRIPTOR sd = (PSECURITY_DESCRIPTOR)securitydata;
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SECURITY_DESCRIPTOR_CONTROL sdc;
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SECURITY_INFORMATION RequestedInfo = 0;
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DWORD dwRev;
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BOOL bRestorePrivilege = FALSE;
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BOOL bSaclPrivilege = FALSE;
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BOOL bSuccess;
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if(!bInitialized) if(!Initialize()) return FALSE;
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/* defer directory processing */
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if(VolumeCaps->dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
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/* opening a directory requires FILE_FLAG_BACKUP_SEMANTICS */
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dwFlags |= FILE_FLAG_BACKUP_SEMANTICS;
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}
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/* evaluate the input security descriptor and act accordingly */
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if(!IsValidSecurityDescriptor(sd))
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return FALSE;
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if(!GetSecurityDescriptorControl(sd, &sdc, &dwRev))
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return FALSE;
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/* setup privilege usage based on if told we can use privileges, and if so,
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what privileges we have */
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if(VolumeCaps->bUsePrivileges) {
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if(VolumeCaps->bRemote) {
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/* use remotely determined privileges */
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if(VolumeCaps->dwRemotePrivileges & OVERRIDE_RESTORE)
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bRestorePrivilege = TRUE;
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if(VolumeCaps->dwRemotePrivileges & OVERRIDE_SACL)
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bSaclPrivilege = TRUE;
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} else {
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/* use local privileges */
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bRestorePrivilege = g_bRestorePrivilege;
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bSaclPrivilege = g_bSaclPrivilege;
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}
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}
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/* if a Dacl is present write Dacl out */
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/* if we have SeRestorePrivilege, write owner and group info out */
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if(sdc & SE_DACL_PRESENT) {
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dwDesiredAccess |= WRITE_DAC;
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RequestedInfo |= DACL_SECURITY_INFORMATION;
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if(bRestorePrivilege) {
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dwDesiredAccess |= WRITE_OWNER;
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RequestedInfo |= (OWNER_SECURITY_INFORMATION |
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GROUP_SECURITY_INFORMATION);
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}
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}
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/* if a Sacl is present and we have either SeRestorePrivilege or
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SeSystemSecurityPrivilege try to write Sacl out */
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if((sdc & SE_SACL_PRESENT) && (bRestorePrivilege || bSaclPrivilege)) {
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dwDesiredAccess |= ACCESS_SYSTEM_SECURITY;
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RequestedInfo |= SACL_SECURITY_INFORMATION;
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}
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if(RequestedInfo == 0) /* nothing to do */
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return FALSE;
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if(bRestorePrivilege)
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dwFlags |= FILE_FLAG_BACKUP_SEMANTICS;
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hFile = CreateFileA(
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resource,
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dwDesiredAccess,
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FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,/* max sharing */
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NULL,
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OPEN_EXISTING,
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dwFlags,
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NULL
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);
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if(hFile == INVALID_HANDLE_VALUE)
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return FALSE;
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bSuccess = SetKernelObjectSecurity(hFile, RequestedInfo, sd);
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CloseHandle(hFile);
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return bSuccess;
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}
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static VOID InitLocalPrivileges(VOID)
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{
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HANDLE hToken;
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TOKEN_PRIVILEGES tp;
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/* try to enable some interesting privileges that give us the ability
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to get some security information that we normally cannot.
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note that enabling privileges is only relevant on the local machine;
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when accessing files that are on a remote machine, any privileges
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that are present on the remote machine get enabled by default. */
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if(!OpenProcessToken(GetCurrentProcess(),
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TOKEN_QUERY | TOKEN_ADJUST_PRIVILEGES, &hToken))
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return;
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tp.PrivilegeCount = 1;
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tp.Privileges[0].Attributes = SE_PRIVILEGE_ENABLED;
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if(LookupPrivilegeValue(NULL, SE_RESTORE_NAME, &tp.Privileges[0].Luid)) {
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/* try to enable SeRestorePrivilege; if this succeeds, we can write
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all aspects of the security descriptor */
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if(AdjustTokenPrivileges(hToken, FALSE, &tp, 0, NULL, NULL) &&
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GetLastError() == ERROR_SUCCESS) g_bRestorePrivilege = TRUE;
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}
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/* try to enable SeSystemSecurityPrivilege, if SeRestorePrivilege not
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present; if this succeeds, we can write the Sacl */
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if(!g_bRestorePrivilege &&
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LookupPrivilegeValue(NULL, SE_SECURITY_NAME, &tp.Privileges[0].Luid)) {
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if(AdjustTokenPrivileges(hToken, FALSE, &tp, 0, NULL, NULL) &&
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GetLastError() == ERROR_SUCCESS) g_bSaclPrivilege = TRUE;
|
|
}
|
|
|
|
CloseHandle(hToken);
|
|
}
|
|
#endif /* NTSD_EAS */
|