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203 lines
4.3 KiB
203 lines
4.3 KiB
// Circular hash code.
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//
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// This code implements a circular hash algorithm, intended as a variable
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// length hash function that is fast to update. (The hash function will be
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// called many times.) This is done by SHA-1'ing each of the inputs, then
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// circularly XORing this value into a buffer.
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#ifndef KMODE_RNG
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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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#else
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#include <ntifs.h>
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#include <windef.h>
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#endif // KMODE_RNG
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#include <sha.h>
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#include <md4.h>
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#include "circhash.h"
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#ifdef KMODE_RNG
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text(PAGE, InitCircularHash)
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#pragma alloc_text(PAGE, DestroyCircularHash)
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#pragma alloc_text(PAGE, GetCircularHashValue)
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#pragma alloc_text(PAGE, UpdateCircularHash)
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#endif // ALLOC_PRAGMA
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#endif // KMODE_RNG
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//
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// internal state flags
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//
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#define CH_INVALID_HASH_CTXT 0
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#define CH_VALID_HASH_CTXT 0x1423
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BOOL
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InitCircularHash(
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IN CircularHash *NewHash,
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IN DWORD dwUpdateInc,
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IN DWORD dwAlgId,
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IN DWORD dwMode
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)
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{
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#ifdef KMODE_RNG
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PAGED_CODE();
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#endif // KMODE_RNG
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if (NULL == NewHash)
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return FALSE;
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NewHash->dwCircHashVer = CH_VALID_HASH_CTXT;
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NewHash->dwCircSize = sizeof(NewHash->CircBuf);
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NewHash->dwMode = dwMode;
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NewHash->dwCircInc = dwUpdateInc;
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NewHash->dwCurCircPos = 0;
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NewHash->dwAlgId = dwAlgId;
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return TRUE;
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}
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VOID
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DestroyCircularHash(
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IN CircularHash *OldHash
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)
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{
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#ifdef KMODE_RNG
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PAGED_CODE();
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#endif // KMODE_RNG
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if ((NULL == OldHash) || (CH_VALID_HASH_CTXT != OldHash->dwCircHashVer))
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return;
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RtlZeroMemory( OldHash, sizeof( *OldHash ) );
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}
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BOOL
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GetCircularHashValue(
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IN CircularHash *CurrentHash,
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OUT BYTE **ppbHashValue,
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OUT DWORD *pcbHashValue
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)
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{
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#ifdef KMODE_RNG
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PAGED_CODE();
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#endif // KMODE_RNG
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if ((NULL == CurrentHash) || (CH_VALID_HASH_CTXT != CurrentHash->dwCircHashVer))
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return FALSE;
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*ppbHashValue = CurrentHash->CircBuf;
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*pcbHashValue = CurrentHash->dwCircSize;
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return TRUE;
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}
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BOOL
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UpdateCircularHash(
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IN CircularHash *CurrentHash,
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IN VOID *pvData,
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IN DWORD cbData
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)
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{
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A_SHA_CTX shaCtx;
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MD4_CTX md4Ctx;
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BYTE LocalResBuf[A_SHA_DIGEST_LEN];
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PBYTE pHash;
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DWORD dwHashSize;
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DWORD i, j;
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PBYTE pbCircularBuffer;
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DWORD cbCircularBuffer;
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DWORD cbCircularPosition;
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#ifdef KMODE_RNG
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PAGED_CODE();
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#endif // KMODE_RNG
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if ((NULL == CurrentHash) || (CH_VALID_HASH_CTXT != CurrentHash->dwCircHashVer))
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return FALSE;
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pbCircularBuffer = CurrentHash->CircBuf;
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cbCircularBuffer = CurrentHash->dwCircSize;
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cbCircularPosition = CurrentHash->dwCurCircPos;
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//
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// First, hash in the result
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//
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if( CurrentHash->dwAlgId == CH_ALG_MD4 ) {
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dwHashSize = MD4DIGESTLEN;
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MD4Init(&md4Ctx);
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MD4Update(&md4Ctx, (unsigned char*)pvData, cbData);
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if (CurrentHash->dwMode & CH_MODE_FEEDBACK)
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{
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MD4Update(&md4Ctx, pbCircularBuffer, cbCircularBuffer);
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}
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MD4Final(&md4Ctx);
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pHash = md4Ctx.digest;
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} else {
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dwHashSize = A_SHA_DIGEST_LEN;
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A_SHAInit(&shaCtx);
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A_SHAUpdateNS(&shaCtx, (unsigned char*)pvData, cbData);
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if (CurrentHash->dwMode & CH_MODE_FEEDBACK)
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{
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A_SHAUpdateNS(&shaCtx, pbCircularBuffer, cbCircularBuffer);
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}
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A_SHAFinalNS(&shaCtx, LocalResBuf);
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pHash = LocalResBuf;
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}
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//
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// Now, XOR this into the circular buffer
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//
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//
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// this is a slow way of doing this (byte at time, versus DWORD/DWORD64),
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// but it'll work for now...
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// In most cases, we can assume we'll wrap once, but let's keep it general for now.
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//
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j = cbCircularPosition;
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for( i = 0 ; i < dwHashSize ; i++ )
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{
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if (j >= cbCircularBuffer)
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j = 0;
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pbCircularBuffer[j] ^= pHash[i];
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j++;
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}
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//
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// Update. Since dwCircInc should be relatively prime to dwCircSize, this
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// should result in the pointer continually cycling through dwCircSize values.
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//
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CurrentHash->dwCurCircPos = (cbCircularPosition + CurrentHash->dwCircInc)
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% cbCircularBuffer;
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return TRUE;
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}
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