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314 lines
8.8 KiB
314 lines
8.8 KiB
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/*++
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Copyright (c) 1993 Microsoft Corporation
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Module Name:
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encrypt.c
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Abstract:
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This module implements the routines for the NetWare
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redirector to mangle an objectid, challenge key and
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password such that a NetWare server will accept the
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password as valid.
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This program uses information published in Byte Magazine.
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Author:
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Colin Watson [ColinW] 15-Mar-1993
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Andy Herron [AndyHe]
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Revision History:
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--*/
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#include <nt.h>
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#include <ntrtl.h>
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#include <nturtl.h>
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#include <windows.h>
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#include <nwsutil.h>
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#include <fpnwcomm.h>
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#include <usrprop.h>
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#include <crypt.h>
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UCHAR Table[] =
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{0x7,0x8,0x0,0x8,0x6,0x4,0xE,0x4,0x5,0xC,0x1,0x7,0xB,0xF,0xA,0x8,
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0xF,0x8,0xC,0xC,0x9,0x4,0x1,0xE,0x4,0x6,0x2,0x4,0x0,0xA,0xB,0x9,
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0x2,0xF,0xB,0x1,0xD,0x2,0x1,0x9,0x5,0xE,0x7,0x0,0x0,0x2,0x6,0x6,
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0x0,0x7,0x3,0x8,0x2,0x9,0x3,0xF,0x7,0xF,0xC,0xF,0x6,0x4,0xA,0x0,
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0x2,0x3,0xA,0xB,0xD,0x8,0x3,0xA,0x1,0x7,0xC,0xF,0x1,0x8,0x9,0xD,
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0x9,0x1,0x9,0x4,0xE,0x4,0xC,0x5,0x5,0xC,0x8,0xB,0x2,0x3,0x9,0xE,
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0x7,0x7,0x6,0x9,0xE,0xF,0xC,0x8,0xD,0x1,0xA,0x6,0xE,0xD,0x0,0x7,
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0x7,0xA,0x0,0x1,0xF,0x5,0x4,0xB,0x7,0xB,0xE,0xC,0x9,0x5,0xD,0x1,
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0xB,0xD,0x1,0x3,0x5,0xD,0xE,0x6,0x3,0x0,0xB,0xB,0xF,0x3,0x6,0x4,
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0x9,0xD,0xA,0x3,0x1,0x4,0x9,0x4,0x8,0x3,0xB,0xE,0x5,0x0,0x5,0x2,
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0xC,0xB,0xD,0x5,0xD,0x5,0xD,0x2,0xD,0x9,0xA,0xC,0xA,0x0,0xB,0x3,
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0x5,0x3,0x6,0x9,0x5,0x1,0xE,0xE,0x0,0xE,0x8,0x2,0xD,0x2,0x2,0x0,
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0x4,0xF,0x8,0x5,0x9,0x6,0x8,0x6,0xB,0xA,0xB,0xF,0x0,0x7,0x2,0x8,
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0xC,0x7,0x3,0xA,0x1,0x4,0x2,0x5,0xF,0x7,0xA,0xC,0xE,0x5,0x9,0x3,
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0xE,0x7,0x1,0x2,0xE,0x1,0xF,0x4,0xA,0x6,0xC,0x6,0xF,0x4,0x3,0x0,
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0xC,0x0,0x3,0x6,0xF,0x8,0x7,0xB,0x2,0xD,0xC,0x6,0xA,0xA,0x8,0xD};
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UCHAR Keys[32] =
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{0x48,0x93,0x46,0x67,0x98,0x3D,0xE6,0x8D,
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0xB7,0x10,0x7A,0x26,0x5A,0xB9,0xB1,0x35,
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0x6B,0x0F,0xD5,0x70,0xAE,0xFB,0xAD,0x11,
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0xF4,0x47,0xDC,0xA7,0xEC,0xCF,0x50,0xC0};
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#define XorArray( DEST, SRC ) { \
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PULONG D = (PULONG)DEST; \
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PULONG S = (PULONG)SRC; \
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int i; \
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for ( i = 0; i <= 7 ; i++ ) { \
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D[i] ^= S[i]; \
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} \
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}
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int
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Scramble(
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int iSeed,
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UCHAR achBuffer[32]
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);
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VOID
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Shuffle(
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UCHAR *achObjectId,
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UCHAR *szUpperPassword,
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int iPasswordLen,
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UCHAR *achOutputBuffer
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)
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/*++
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Routine Description:
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This routine shuffles around the object ID with the password
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Arguments:
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IN achObjectId - Supplies the 4 byte user's bindery object id
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IN szUpperPassword - Supplies the user's uppercased password on the
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first call to process the password. On the second and third calls
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this parameter contains the OutputBuffer from the first call
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IN iPasswordLen - length of uppercased password
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OUT achOutputBuffer - Returns the 8 byte sub-calculation
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Return Value:
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none.
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--*/
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{
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int iTempIndex;
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int iOutputIndex;
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UCHAR achTemp[32];
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//
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// Truncate all trailing zeros from the password.
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//
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while (iPasswordLen > 0 && szUpperPassword[iPasswordLen-1] == 0 ) {
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iPasswordLen--;
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}
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//
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// Initialize the achTemp buffer. Initialization consists of taking
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// the password and dividing it up into chunks of 32. Any bytes left
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// over are the remainder and do not go into the initialization.
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//
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// achTemp[0] = szUpperPassword[0] ^ szUpperPassword[32] ^ szUpper...
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// achTemp[1] = szUpperPassword[1] ^ szUpperPassword[33] ^ szUpper...
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// etc.
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//
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if ( iPasswordLen > 32) {
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// At least one chunk of 32. Set the buffer to the first chunk.
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RtlCopyMemory( achTemp, szUpperPassword, 32 );
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szUpperPassword +=32; // Remove the first chunk
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iPasswordLen -=32;
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while ( iPasswordLen >= 32 ) {
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//
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// Xor this chunk with the characters already loaded into
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// achTemp.
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//
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XorArray( achTemp, szUpperPassword);
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szUpperPassword +=32; // Remove this chunk
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iPasswordLen -=32;
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}
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} else {
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// No chunks of 32 so set the buffer to zero's
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RtlZeroMemory( achTemp, sizeof(achTemp));
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}
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//
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// achTemp is now initialized. Load the remainder into achTemp.
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// The remainder is repeated to fill achTemp.
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//
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// The corresponding character from Keys is taken to seperate
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// each repitition.
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//
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// As an example, take the remainder "ABCDEFG". The remainder is expanded
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// to "ABCDEFGwABCDEFGxABCDEFGyABCDEFGz" where w is Keys[7],
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// x is Keys[15], y is Keys[23] and z is Keys[31].
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//
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//
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if (iPasswordLen > 0) {
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int iPasswordOffset = 0;
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for (iTempIndex = 0; iTempIndex < 32; iTempIndex++) {
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if (iPasswordLen == iPasswordOffset) {
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iPasswordOffset = 0;
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achTemp[iTempIndex] ^= Keys[iTempIndex];
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} else {
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achTemp[iTempIndex] ^= szUpperPassword[iPasswordOffset++];
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}
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}
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}
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//
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// achTemp has been loaded with the users password packed into 32
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// bytes. Now take the objectid that came from the server and use
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// that to munge every byte in achTemp.
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//
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for (iTempIndex = 0; iTempIndex < 32; iTempIndex++)
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achTemp[iTempIndex] ^= achObjectId[ iTempIndex & 3];
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Scramble( Scramble( 0, achTemp ), achTemp );
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//
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// Finally take pairs of bytes in achTemp and return the two
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// nibbles obtained from Table. The pairs of bytes used
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// are achTemp[n] and achTemp[n+16].
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//
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for (iOutputIndex = 0; iOutputIndex < 16; iOutputIndex++) {
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achOutputBuffer[iOutputIndex] =
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Table[achTemp[iOutputIndex << 1]] |
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(Table[achTemp[(iOutputIndex << 1) + 1]] << 4);
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}
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return;
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}
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int
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Scramble(
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int iSeed,
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UCHAR achBuffer[32]
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)
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/*++
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Routine Description:
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This routine scrambles around the contents of the buffer. Each buffer
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position is updated to include the contents of at least two character
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positions plus an EncryptKey value. The buffer is processed left to right
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and so if a character position chooses to merge with a buffer position
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to its left then this buffer position will include bits derived from at
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least 3 bytes of the original buffer contents.
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Arguments:
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IN iSeed
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IN OUT achBuffer[32]
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Return Value:
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none.
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--*/
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{
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int iBufferIndex;
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for (iBufferIndex = 0; iBufferIndex < 32; iBufferIndex++) {
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achBuffer[iBufferIndex] =
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(UCHAR)(
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((UCHAR)(achBuffer[iBufferIndex] + iSeed)) ^
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((UCHAR)( achBuffer[(iBufferIndex+iSeed) & 31] -
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Keys[iBufferIndex] )));
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iSeed += achBuffer[iBufferIndex];
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}
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return iSeed;
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}
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NTSTATUS
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ReturnNetwareForm(
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const char * pszSecretValue,
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DWORD dwUserId,
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const WCHAR * pchNWPassword,
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UCHAR * pchEncryptedNWPassword
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)
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/*++
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Routine Description:
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This routine takes the ObjectId and encrypts it with the user
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supplied password to develop a credential for the intermediate form.
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Arguments:
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DWORD dwUserId - Supplies the 4 byte user's object id
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const WCHAR * pchNWPassword - Supplies the user's password
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UCHAR * pchEncryptedNWPassword - 16 characters where the result goes.
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Return Value:
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none.
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--*/
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{
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DWORD dwStatus;
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DWORD chObjectId = SWAP_OBJECT_ID (dwUserId);
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UNICODE_STRING uniNWPassword;
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OEM_STRING oemNWPassword;
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//
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// shuffle actually uses 32 bytes, not just 16. It only returns 16 though.
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//
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UCHAR pszShuffledNWPassword[NT_OWF_PASSWORD_LENGTH * 2];
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uniNWPassword.Buffer = (WCHAR *) pchNWPassword;
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uniNWPassword.Length = (USHORT)(lstrlenW (pchNWPassword)*sizeof(WCHAR));
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uniNWPassword.MaximumLength = uniNWPassword.Length;
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if ((dwStatus = RtlUpcaseUnicodeStringToOemString (&oemNWPassword,
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&uniNWPassword,
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TRUE)) == STATUS_SUCCESS)
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{
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Shuffle((UCHAR *) &chObjectId, oemNWPassword.Buffer, oemNWPassword.Length, pszShuffledNWPassword);
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// Encrypt with LSA secret.
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dwStatus = RtlEncryptNtOwfPwdWithUserKey(
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(PNT_OWF_PASSWORD) pszShuffledNWPassword,
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(PUSER_SESSION_KEY) pszSecretValue,
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(PENCRYPTED_NT_OWF_PASSWORD) pchEncryptedNWPassword);
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}
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return (dwStatus);
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}
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