Leaked source code of windows server 2003
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/*++
Copyright (c) 1991-1992 Microsoft Corporation
Module Name:
ErrConv.c
Abstract:
This file contains RxpConvertErrorLogArray.
Author:
John Rogers (JohnRo) 12-Nov-1991
Environment:
Portable to any flat, 32-bit environment. (Uses Win32 typedefs.)
Requires ANSI C extensions: slash-slash comments, long external names.
Notes:
The logic in this routine is based on the logic in AudArray.c.
Make sure that you check both files if you find a bug in either.
Revision History:
12-Nov-1991 JohnRo
Created.
05-Feb-1992 JohnRo
Fix bug where zero bytes of data was mishandled.
14-Jun-1992 JohnRo
RAID 10311: NetAuditRead and NetErrorLogRead pointer arithmetic wrong.
Use PREFIX_ equates.
07-Jul-1992 JohnRo
RAID 9933: ALIGN_WORST should be 8 for x86 builds.
Made changes suggested by PC-LINT.
17-Aug-1992 JohnRo
RAID 2920: Support UTC timezone in net code.
10-Sep-1992 JohnRo
RAID 5174: event viewer _access violates after NetErrorRead.
23-Sep-1992 JohnRo
Handle many more varieties of error log corruption.
01-Oct-1992 JohnRo
RAID 3556: Added NetpSystemTimeToGmtTime() for DosPrint APIs.
--*/
// These must be included first:
#include <windows.h> // IN, LPTSTR, etc.
#include <lmcons.h> // LM20_SNLEN, NET_API_STATUS, etc.
#include <lmerrlog.h> // Needed by rxerrlog.h
// These may be included in any order:
#include <align.h> // ALIGN_ and related equates.
#include <lmapibuf.h> // NetApiBufferAllocate(), NetApiBufferFree().
#include <lmerr.h> // NERR_, ERROR_, and NO_ERROR equates.
#include <netdebug.h> // NetpKdPrint(()), FORMAT_ equates.
#include <prefix.h> // PREFIX_ equates.
#include <rxerrlog.h> // My prototype.
#include <rxp.h> // RxpEstimateLogSize().
#include <rxpdebug.h> // IF_DEBUG().
#include <smbgtpt.h> // Smb{Get,Put} macros.
#include <string.h> // memcpy(), strlen().
#include <timelib.h> // NetpLocalTimeToGmtTime().
#include <tstring.h> // NetpCopyStrToTStr(), STRLEN().
#define DOWNLEVEL_FIXED_ENTRY_SIZE \
( 2 /* el_len */ \
+ 2 /* el_reserved */ \
+ 4 /* el_time */ \
+ 2 /* el_error */ \
+ LM20_SNLEN+1 /* el_name (in ASCII) */ \
+ 2 /* el_data_offset */ \
+ 2 ) /* el_nstrings */
#define MIN_DOWNLEVEL_ENTRY_SIZE \
( DOWNLEVEL_FIXED_ENTRY_SIZE \
+ 2 ) /* el_len2 */
NET_API_STATUS
RxpConvertErrorLogArray(
IN LPVOID InputArray,
IN DWORD InputByteCount,
OUT LPBYTE * OutputArrayPtr, // will be alloc'ed (free w/ NetApiBufferFree).
OUT LPDWORD OutputByteCountPtr
)
{
#ifdef REVISED_ERROR_LOG_STRUCT
DWORD ErrorCode;
const LPBYTE InputArrayEndPtr
= (LPVOID) ( ((LPBYTE)InputArray) + InputByteCount );
LPBYTE InputBytePtr;
DWORD InputTextOffset; // start of text array (from el_data_offset)
DWORD InputTotalEntrySize;
LPBYTE InputFixedPtr;
LPVOID OutputArray;
DWORD OutputBytesUsed = 0;
DWORD OutputEntrySizeSoFar;
LPERROR_LOG OutputFixedPtr;
LPTSTR OutputNamePtr;
NET_API_STATUS Status;
DWORD StringCount;
//
// Error check caller's parameters.
// Set output parameters to make error handling easier below.
// (Also check for memory faults while we're at it.)
//
if (OutputArrayPtr != NULL) {
*OutputArrayPtr = NULL;
}
if (OutputByteCountPtr != NULL) {
*OutputByteCountPtr = 0;
}
if ( (OutputArrayPtr == NULL) || (OutputByteCountPtr == NULL) ) {
return (ERROR_INVALID_PARAMETER); // (output variables already set.)
}
if ( (InputArray == NULL) || (InputByteCount == 0) ) {
return (ERROR_INVALID_PARAMETER); // (output variables already set.)
}
//
// Estimate size needed for output array (due to expansion and alignment).
//
Status = RxpEstimateLogSize(
DOWNLEVEL_FIXED_ENTRY_SIZE,
InputByteCount, // input (downlevel) array size in bytes.
TRUE, // yes, these are error log entries.
OutputByteCountPtr);// set total number of bytes needed.
if (Status != NO_ERROR) {
return (Status); // (output variables already set.)
}
NetpAssert( *OutputByteCountPtr > 0 );
//
// Allocate oversize area for output; we'll realloc it to shrink it.
//
Status = NetApiBufferAllocate(
*OutputByteCountPtr,
(LPVOID *) & OutputArray );
if (Status != NO_ERROR) {
return (Status); // (output variables already set.)
}
NetpAssert( POINTER_IS_ALIGNED( OutputArray, ALIGN_WORST ) );
//
// Loop for each entry in the input area.
//
OutputFixedPtr = OutputArray;
for (InputBytePtr = InputArray; InputBytePtr < InputArrayEndPtr; ) {
InputFixedPtr = InputBytePtr;
// Code at end of loop makes sure that next entry will be aligned.
// Double check that here.
NetpAssert( POINTER_IS_ALIGNED(OutputFixedPtr, ALIGN_WORST) );
IF_DEBUG(ERRLOG) {
NetpKdPrint(( PREFIX_NETAPI
"RxpConvertErrorLogArray: doing input entry at "
FORMAT_LPVOID ", out entry at " FORMAT_LPVOID ".\n",
(LPVOID) InputFixedPtr, (LPVOID) OutputFixedPtr ));
}
//
// Process each field in input fixed entry. We'll do the name
// here as well. (The name is in the input fixed entry, although it
// was moved to the variable part for the new structure layout.)
//
OutputEntrySizeSoFar = sizeof(ERROR_LOG);
InputTotalEntrySize = (DWORD) SmbGetUshort( (LPWORD) InputBytePtr );
if (InputTotalEntrySize < MIN_DOWNLEVEL_ENTRY_SIZE) {
goto FileCorrupt;
}
{
LPBYTE EndPos = InputBytePtr + InputTotalEntrySize;
if (EndPos > InputArrayEndPtr) {
goto FileCorrupt;
}
EndPos -= sizeof(WORD); // the last el_len2
if (SmbGetUshort( (LPWORD) EndPos ) != InputTotalEntrySize) {
goto FileCorrupt;
}
}
InputBytePtr += sizeof(WORD); // skip el_len.
{
WORD Reserved = SmbGetUshort( (LPWORD) InputBytePtr );
WORD InvertedSize = ~ (WORD) InputTotalEntrySize;
if (Reserved != InvertedSize) {
goto FileCorrupt;
}
OutputFixedPtr->el_reserved = Reserved;
}
InputBytePtr += sizeof(WORD); // skip el_reserved.
{
DWORD LocalTime = (DWORD) SmbGetUlong( (LPDWORD) InputBytePtr );
DWORD GmtTime;
NetpLocalTimeToGmtTime( LocalTime, & GmtTime );
OutputFixedPtr->el_time = GmtTime;
InputBytePtr += sizeof(DWORD);
}
ErrorCode = (DWORD) SmbGetUshort( (LPWORD) InputBytePtr );
NetpAssert( ErrorCode != 0 );
OutputFixedPtr->el_error = ErrorCode;
InputBytePtr += sizeof(WORD);
OutputNamePtr = (LPTSTR)
( ((LPBYTE)OutputFixedPtr) + sizeof(ERROR_LOG) );
OutputNamePtr = ROUND_UP_POINTER( OutputNamePtr, ALIGN_TCHAR );
OutputEntrySizeSoFar
= ROUND_UP_COUNT( OutputEntrySizeSoFar, ALIGN_TCHAR );
NetpCopyStrToTStr(
OutputNamePtr, // dest
(LPVOID) InputBytePtr); // src
OutputEntrySizeSoFar += STRSIZE(OutputNamePtr); // string and null chr
OutputFixedPtr->el_name = OutputNamePtr;
InputBytePtr += LM20_SNLEN+1;
InputTextOffset = (DWORD) SmbGetUshort( (LPWORD) InputBytePtr );
NetpAssert( InputTextOffset >= DOWNLEVEL_FIXED_ENTRY_SIZE );
InputBytePtr += sizeof(WORD);
StringCount = (DWORD) SmbGetUshort( (LPWORD) InputBytePtr );
OutputFixedPtr->el_nstrings = StringCount;
InputBytePtr += sizeof(WORD);
//
// Process text portion (if any).
//
{
LPTSTR NextOutputString;
// Start text strings after (aligned) name string.
NextOutputString = (LPVOID)
( ((LPBYTE) OutputFixedPtr) + OutputEntrySizeSoFar );
// Make sure we've processed entire input fixed entry.
NetpAssert(
InputBytePtr == (InputFixedPtr + DOWNLEVEL_FIXED_ENTRY_SIZE));
// Use offset of text area (was misnamed el_data_offset).
// InputBytePtr = InputFixedPtr + InputTextOffset;
NetpAssert(
InputBytePtr >= (InputFixedPtr + DOWNLEVEL_FIXED_ENTRY_SIZE));
if (StringCount > 0) {
OutputFixedPtr->el_text = NextOutputString;
while (StringCount > 0) {
DWORD InputStringSize = strlen( (LPVOID) InputBytePtr) + 1;
DWORD OutputStringSize = InputStringSize * sizeof(TCHAR);
NetpCopyStrToTStr(
NextOutputString, // dest
(LPSTR) InputBytePtr); // src
InputBytePtr += InputStringSize;
NextOutputString += InputStringSize;
OutputEntrySizeSoFar += OutputStringSize;
--StringCount;
}
} else {
OutputFixedPtr->el_text = NULL;
}
}
NetpAssert( COUNT_IS_ALIGNED(OutputEntrySizeSoFar, ALIGN_TCHAR) );
//
// Process "data" (byte array) portion (if any).
//
{
DWORD InputDataSize; // byte count for el_data only.
NetpAssert( InputBytePtr > InputFixedPtr );
// Use offset of data area.
InputBytePtr = InputFixedPtr + InputTextOffset;
InputDataSize = (DWORD)
( (InputTotalEntrySize - sizeof(WORD))
- (InputBytePtr - InputFixedPtr) );
if ( InputDataSize > 0 ) {
LPBYTE OutputDataPtr
= ((LPBYTE) OutputFixedPtr + OutputEntrySizeSoFar);
NetpAssert( ALIGN_BYTE == 1 ); // align here if not.
(void) memcpy(
OutputDataPtr, // dest
InputBytePtr, // src
InputDataSize); // byte count
InputBytePtr += InputDataSize;
OutputEntrySizeSoFar += InputDataSize;
OutputFixedPtr->el_data = OutputDataPtr;
// Store correct byte count (before padding).
OutputFixedPtr->el_data_size = InputDataSize;
} else {
OutputFixedPtr->el_data = NULL;
OutputFixedPtr->el_data_size = 0;
}
}
//
// The final thing (even after alignment padding) is el_len2.
//
OutputEntrySizeSoFar += sizeof(DWORD);
// Round size up so next entry (if any) is worst-case aligned.
OutputEntrySizeSoFar =
ROUND_UP_COUNT( OutputEntrySizeSoFar, ALIGN_WORST );
#define OutputEntrySize OutputEntrySizeSoFar
//
// That's all. Now go back and set both lengths for this entry.
//
OutputFixedPtr->el_len = OutputEntrySize;
{
LPDWORD EndSizePtr = (LPVOID)
( ((LPBYTE)OutputFixedPtr)
+ OutputEntrySize - sizeof(DWORD) );
*EndSizePtr = OutputEntrySize; // set el_len2.
}
//
// Update for next loop iteration.
//
InputBytePtr = (LPVOID)
( ((LPBYTE) InputFixedPtr) + InputTotalEntrySize);
OutputFixedPtr = (LPVOID)
( ((LPBYTE) OutputFixedPtr) + OutputEntrySize );
OutputBytesUsed += OutputEntrySize;
}
NetpAssert(OutputBytesUsed > 0);
*OutputArrayPtr = OutputArray;
*OutputByteCountPtr = OutputBytesUsed;
return (NO_ERROR);
FileCorrupt:
NetpKdPrint(( PREFIX_NETAPI
"RxpConvertErrorLogArray: corrupt error log!\n" ));
if (OutputArray != NULL) {
(VOID) NetApiBufferFree( OutputArray );
}
if (OutputArrayPtr != NULL) {
*OutputArrayPtr = NULL;
}
if (OutputByteCountPtr != NULL) {
*OutputByteCountPtr = 0;
}
return (NERR_LogFileCorrupt);
#else // not REVISED_ERROR_LOG_STRUCT
return (ERROR_NOT_SUPPORTED);
#endif
}