windows-nt/Source/XPSP1/NT/ds/netapi/rpcxlate/rxapi/audcpvar.c

389 lines
15 KiB
C
Raw Normal View History

2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 1991-1992 Microsoft Corporation
Module Name:
AudCpVar.c
Abstract:
This file contains RxpConvertAuditEntryVariableData.
Author:
John Rogers (JohnRo) 07-Nov-1991
Environment:
Portable to any flat, 32-bit environment. (Uses Win32 typedefs.)
Requires ANSI C extensions: slash-slash comments, long external names.
Notes:
This code depends on the numeric values which are assigned to the
AE_ equates in <lmaudit.h>.
Revision History:
07-Nov-1991 JohnRo
Created.
18-Nov-1991 JohnRo
Fixed bug setting StringLocation for RapConvertSingleEntry.
Fixed bug computing OutputStringOffset in macro.
Added assertion checking.
Made changes suggested by PC-LINT.
27-Jan-1992 JohnRo
Fixed bug where *OutputVariableSizePtr was often not set.
Use <winerror.h> and NO_ERROR where possible.
04-Feb-1992 JohnRo
Oops, output variable size should include string sizes!
14-Jun-1992 JohnRo
RAID 12410: NetAuditRead may trash memory.
Fixed a bug where AE_NETLOGON records were being truncated.
07-Jul-1992 JohnRo
RAID 9933: ALIGN_WORST should be 8 for x86 builds.
27-Oct-1992 JohnRo
RAID 10218: Added AE_LOCKOUT support. Fixed AE_SRVSTATUS and
AE_GENERIC.
--*/
// These must be included first:
#include <windef.h> // IN, DWORD, etc.
#include <lmcons.h> // DEVLEN, NET_API_STATUS, etc.
#include <lmaudit.h> // Needed by rxaudit.h; AE_ equates.
// These may be included in any order:
#include <align.h> // ALIGN_ and related equates.
#include <netdebug.h> // DBGSTATIC.
#include <rap.h> // RapConvertSingleEntry(), etc.
#include <remdef.h> // REM16_, REM32_ descriptors.
#include <rxaudit.h> // My prototype.
#include <smbgtpt.h> // SmbGet macros.
#include <string.h> // strlen().
#include <tstring.h> // MEMCPY(), NetpCopyStrToTStr().
#include <winerror.h> // NO_ERROR.
typedef struct {
LPDESC Desc16;
LPDESC Desc32;
} AUDIT_CONV_DATA, *LPAUDIT_CONV_DATA;
//
// Conversion array, indexed by AE_ value (in ae_type field in fixed portion):
//
DBGSTATIC AUDIT_CONV_DATA DescriptorTable[] = {
{ REM16_audit_entry_srvstatus, REM32_audit_entry_srvstatus }, // 0
{ REM16_audit_entry_sesslogon, REM32_audit_entry_sesslogon }, // 1
{ REM16_audit_entry_sesslogoff, REM32_audit_entry_sesslogoff }, // 2
{ REM16_audit_entry_sesspwerr, REM32_audit_entry_sesspwerr }, // 3
{ REM16_audit_entry_connstart, REM32_audit_entry_connstart }, // 4
{ REM16_audit_entry_connstop, REM32_audit_entry_connstop }, // 5
{ REM16_audit_entry_connrej, REM32_audit_entry_connrej }, // 6
// Note: 16-bit ae_resaccess and ae_resaccess2 both get converted to
// the same structure (32-bit ae_resaccess).
{ REM16_audit_entry_resaccess, REM32_audit_entry_resaccess }, // 7
{ REM16_audit_entry_resaccessrej, REM32_audit_entry_resaccessrej }, // 8
{ REM16_audit_entry_closefile, REM32_audit_entry_closefile }, // 9
{ NULL, NULL }, // 10 reserved
{ REM16_audit_entry_servicestat, REM32_audit_entry_servicestat }, // 11
{ REM16_audit_entry_aclmod, REM32_audit_entry_aclmod }, // 12
{ REM16_audit_entry_uasmod, REM32_audit_entry_uasmod }, // 13
{ REM16_audit_entry_netlogon, REM32_audit_entry_netlogon }, // 14
{ REM16_audit_entry_netlogoff, REM32_audit_entry_netlogoff }, // 15
{ NULL, NULL }, // 16 AE_NETLOGDENIED not supported in LanMan 2.0
{ REM16_audit_entry_acclim, REM32_audit_entry_acclim }, // 17
// Note: 16-bit ae_resaccess and ae_resaccess2 both get converted to
// 32-bit ae_resaccess.
{ REM16_audit_entry_resaccess2, REM32_audit_entry_resaccess }, // 18
{ REM16_audit_entry_aclmod, REM32_audit_entry_aclmod }, // 19
{ REM16_audit_entry_lockout, REM32_audit_entry_lockout }, // 20
{ NULL, NULL } // 21 AE_GENERIC_TYPE
// Add new entries here. Indexes must match AE_ equates in <lmaudit.h>.
// Change AE_MAX_KNOWN below at same time.
};
// Max table entry:
#define AE_MAX_KNOWN 21
VOID
RxpConvertAuditEntryVariableData(
IN DWORD EntryType,
IN LPVOID InputVariablePtr,
OUT LPVOID OutputVariablePtr,
IN DWORD InputVariableSize,
OUT LPDWORD OutputVariableSizePtr
)
{
BOOL DoByteCopy;
NetpAssert( InputVariablePtr != NULL );
NetpAssert( OutputVariablePtr != NULL );
NetpAssert( POINTER_IS_ALIGNED( OutputVariablePtr, ALIGN_WORST ) );
NetpAssert( InputVariablePtr != NULL );
if (InputVariableSize == 0) {
DoByteCopy = FALSE;
*OutputVariableSizePtr = 0;
} else if (EntryType > AE_MAX_KNOWN) {
// Can't convert if there isn't even a table entry.
DoByteCopy = TRUE;
} else {
LPAUDIT_CONV_DATA TableEntryPtr;
TableEntryPtr = & DescriptorTable[EntryType];
NetpAssert( TableEntryPtr != NULL );
if (TableEntryPtr->Desc16 == NULL) {
NetpAssert( TableEntryPtr->Desc32 == NULL );
DoByteCopy = TRUE; // Table entry but no descriptors.
} else {
DWORD NonStringSize;
DWORD OutputVariableSize; // (updated by CopyAndFixupString())
LPTSTR StringLocation; // string in output entry (ditto)
NET_API_STATUS Status;
NetpAssert( TableEntryPtr->Desc32 != NULL );
// No bytes yet (RapConvertSingleEntry will update).
NonStringSize = 0;
DoByteCopy = FALSE; // Assume intelligent conversion.
// RapConvertSingleEntry should not do any strings, but expects
// a "valid" StringLocation.
StringLocation = (LPTSTR) ( ( (LPBYTE) OutputVariablePtr )
+ RapStructureSize(
TableEntryPtr->Desc32,
Both, // transmission mode
TRUE) ); // want native size.
//
// Use RapConvertSingleEntry() to convert the DWORDS, etc.
// These structures have 16-bit offsets to strings, which
// we'll have to handle ourselves.
//
Status = RapConvertSingleEntry(
InputVariablePtr, // in struct
TableEntryPtr->Desc16, // in struct desc
FALSE, // no meaningless input ptrs
OutputVariablePtr, // out struct start
OutputVariablePtr, // out struct
TableEntryPtr->Desc32, // out struc desc
FALSE, // we want ptrs, not offsets.
(LPBYTE *) (LPVOID *) & StringLocation, // str area
& NonStringSize, // bytes required (will be updated)
Both, // transmission mode
RapToNative); // conversion mode
NetpAssert( Status == NO_ERROR );
NetpAssert( NonStringSize > 0 );
//
// Set up for doing our own string copying.
//
StringLocation =
(LPTSTR) ( (LPBYTE) OutputVariablePtr + NonStringSize );
//
// Macro to copy, convert, and update size to reflect a string.
// OutputVariableSize must be set to the size of the fixed portion *BEFORE*
// calling this macro.
//
#define CopyAndFixupString( OldFieldOffset, StructPtrType, NewFieldName ) \
{ \
LPWORD InputFieldPtr = (LPWORD) \
(((LPBYTE) InputVariablePtr) + (OldFieldOffset)); \
DWORD InputStringOffset = (WORD) SmbGetUshort( InputFieldPtr ); \
StructPtrType NewStruct = (LPVOID) OutputVariablePtr; \
if (InputStringOffset != 0) { \
LPSTR OldStringPtr \
= ((LPSTR) InputVariablePtr) + InputStringOffset; \
DWORD OldStringLen = (DWORD) strlen( OldStringPtr ); \
DWORD OutputStringOffset; \
DWORD OutputStringSize = (OldStringLen+1) * sizeof(TCHAR); \
NetpCopyStrToTStr( \
StringLocation, /* dest */ \
OldStringPtr); /* src */ \
OutputStringOffset = (DWORD) (((LPBYTE) StringLocation) \
- (LPBYTE) OutputVariablePtr ); \
NetpAssert( !RapValueWouldBeTruncated( OutputStringOffset ) ); \
NewStruct->NewFieldName = OutputStringOffset; \
OutputVariableSize += OutputStringSize; \
StringLocation = (LPVOID) \
( ((LPBYTE)StringLocation) + OutputStringSize ); \
} else { \
NewStruct->NewFieldName = 0; \
} \
}
switch (EntryType) {
case AE_SRVSTATUS :
OutputVariableSize = sizeof(struct _AE_SRVSTATUS);
break;
case AE_SESSLOGON :
OutputVariableSize = sizeof(struct _AE_SESSLOGON);
CopyAndFixupString( 0, LPAE_SESSLOGON, ae_so_compname );
CopyAndFixupString( 2, LPAE_SESSLOGON, ae_so_username );
break;
case AE_SESSLOGOFF :
OutputVariableSize = sizeof(struct _AE_SESSLOGOFF);
CopyAndFixupString( 0, LPAE_SESSLOGOFF, ae_sf_compname );
CopyAndFixupString( 2, LPAE_SESSLOGOFF, ae_sf_username );
break;
case AE_SESSPWERR :
OutputVariableSize = sizeof(struct _AE_SESSPWERR);
CopyAndFixupString( 0, LPAE_SESSPWERR, ae_sp_compname );
CopyAndFixupString( 2, LPAE_SESSPWERR, ae_sp_username );
break;
case AE_CONNSTART :
OutputVariableSize = sizeof(struct _AE_CONNSTART);
CopyAndFixupString( 0, LPAE_CONNSTART, ae_ct_compname );
CopyAndFixupString( 2, LPAE_CONNSTART, ae_ct_username );
CopyAndFixupString( 4, LPAE_CONNSTART, ae_ct_netname );
break;
case AE_CONNSTOP :
OutputVariableSize = sizeof(struct _AE_CONNSTOP);
CopyAndFixupString( 0, LPAE_CONNSTOP, ae_cp_compname );
CopyAndFixupString( 2, LPAE_CONNSTOP, ae_cp_username );
CopyAndFixupString( 4, LPAE_CONNSTOP, ae_cp_netname );
break;
case AE_CONNREJ :
OutputVariableSize = sizeof(struct _AE_CONNREJ);
CopyAndFixupString( 0, LPAE_CONNREJ, ae_cr_compname );
CopyAndFixupString( 2, LPAE_CONNREJ, ae_cr_username );
CopyAndFixupString( 4, LPAE_CONNREJ, ae_cr_netname );
break;
case AE_RESACCESS : /* FALLTHROUGH */
case AE_RESACCESS2 : // AE_RESACCESS is subset of AE_RESACCESS2
// Note: 16-bit ae_resaccess and ae_resaccess2 both get
// converted to the same 32-bit ae_resaccess structure.
OutputVariableSize = sizeof(struct _AE_RESACCESS);
CopyAndFixupString( 0, LPAE_RESACCESS, ae_ra_compname );
CopyAndFixupString( 2, LPAE_RESACCESS, ae_ra_username );
CopyAndFixupString( 4, LPAE_RESACCESS, ae_ra_resname );
break;
case AE_RESACCESSREJ :
OutputVariableSize = sizeof(struct _AE_RESACCESSREJ);
CopyAndFixupString( 0, LPAE_RESACCESSREJ, ae_rr_compname );
CopyAndFixupString( 2, LPAE_RESACCESSREJ, ae_rr_username );
CopyAndFixupString( 4, LPAE_RESACCESSREJ, ae_rr_resname );
break;
case AE_CLOSEFILE :
OutputVariableSize = sizeof(struct _AE_CLOSEFILE);
CopyAndFixupString( 0, LPAE_CLOSEFILE, ae_cf_compname );
CopyAndFixupString( 2, LPAE_CLOSEFILE, ae_cf_username );
CopyAndFixupString( 4, LPAE_CLOSEFILE, ae_cf_resname );
break;
case AE_SERVICESTAT :
OutputVariableSize = sizeof(struct _AE_SERVICESTAT);
CopyAndFixupString( 0, LPAE_SERVICESTAT, ae_ss_compname );
CopyAndFixupString( 2, LPAE_SERVICESTAT, ae_ss_username );
CopyAndFixupString( 4, LPAE_SERVICESTAT, ae_ss_svcname );
CopyAndFixupString( 12, LPAE_SERVICESTAT, ae_ss_text );
break;
case AE_ACLMOD : /*FALLTHROUGH*/
case AE_ACLMODFAIL :
OutputVariableSize = sizeof(struct _AE_ACLMOD);
CopyAndFixupString( 0, LPAE_ACLMOD, ae_am_compname );
CopyAndFixupString( 2, LPAE_ACLMOD, ae_am_username );
CopyAndFixupString( 4, LPAE_ACLMOD, ae_am_resname );
break;
case AE_UASMOD :
OutputVariableSize = sizeof(struct _AE_UASMOD);
CopyAndFixupString( 0, LPAE_UASMOD, ae_um_compname );
CopyAndFixupString( 2, LPAE_UASMOD, ae_um_username );
CopyAndFixupString( 4, LPAE_UASMOD, ae_um_resname );
break;
case AE_NETLOGON :
OutputVariableSize = sizeof(struct _AE_NETLOGON);
CopyAndFixupString( 0, LPAE_NETLOGON, ae_no_compname );
CopyAndFixupString( 2, LPAE_NETLOGON, ae_no_username );
break;
case AE_NETLOGOFF :
OutputVariableSize = sizeof(struct _AE_NETLOGOFF);
CopyAndFixupString( 0, LPAE_NETLOGOFF, ae_nf_compname );
CopyAndFixupString( 2, LPAE_NETLOGOFF, ae_nf_username );
break;
case AE_ACCLIMITEXCD :
OutputVariableSize = sizeof(struct _AE_ACCLIM);
CopyAndFixupString( 0, LPAE_ACCLIM, ae_al_compname );
CopyAndFixupString( 2, LPAE_ACCLIM, ae_al_username );
CopyAndFixupString( 4, LPAE_ACCLIM, ae_al_resname );
break;
case AE_LOCKOUT :
OutputVariableSize = sizeof(struct _AE_LOCKOUT);
CopyAndFixupString( 0, LPAE_LOCKOUT, ae_lk_compname );
CopyAndFixupString( 2, LPAE_LOCKOUT, ae_lk_username );
break;
case AE_GENERIC_TYPE :
OutputVariableSize = sizeof(struct _AE_GENERIC);
break;
default :
// We don't know about this type.
// AE_NETLOGDENIED (16) falls into this category.
DoByteCopy = TRUE;
OutputVariableSize = InputVariableSize;
break;
}
*OutputVariableSizePtr = OutputVariableSize;
}
}
if (DoByteCopy == TRUE) {
(void) MEMCPY(
OutputVariablePtr, // dest
InputVariablePtr, // src
InputVariableSize ); // byte count
*OutputVariableSizePtr = InputVariableSize;
}
}