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pcompress/crypto/skein/skein_debug.c
Moinak Ghosh f8f23e5200 Major License text cleanup.
2013-03-07 20:26:48 +05:30

272 lines
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/*
* This file is a part of Pcompress, a chunked parallel multi-
* algorithm lossless compression and decompression program.
*
* Copyright (C) 2012-2013 Moinak Ghosh. All rights reserved.
* Use is subject to license terms.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 3 of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this program.
* If not, see <http://www.gnu.org/licenses/>.
*
* moinakg@belenix.org, http://moinakg.wordpress.com/
*
*/
/***********************************************************************
**
** Debug output functions for Skein hashing.
**
** Source code author: Doug Whiting, 2008.
**
** This algorithm and source code is released to the public domain.
**
************************************************************************/
#include <stdio.h>
#ifdef SKEIN_DEBUG /* only instantiate this code if SKEIN_DEBUG is on */
#include "skein.h"
static const char INDENT[] = " "; /* how much to indent on new line */
uint_t skein_DebugFlag = 0; /* off by default. Must be set externally */
static void Show64_step(size_t cnt,const u64b_t *X,size_t step)
{
size_t i,j;
for (i=j=0;i < cnt;i++,j+=step)
{
if (i % 4 == 0) printf(INDENT);
printf(" %08X.%08X ",(uint_32t)(X[j] >> 32),(uint_32t)X[j]);
if (i % 4 == 3 || i==cnt-1) printf("\n");
fflush(stdout);
}
}
#define Show64(cnt,X) Show64_step(cnt,X,1)
static void Show64_flag(size_t cnt,const u64b_t *X)
{
size_t xptr = (size_t) X;
size_t step = (xptr & 1) ? 2 : 1;
if (step != 1)
{
X = (const u64b_t *) (xptr & ~1);
}
Show64_step(cnt,X,step);
}
static void Show08(size_t cnt,const u08b_t *b)
{
size_t i;
for (i=0;i < cnt;i++)
{
if (i %16 == 0) printf(INDENT);
else if (i % 4 == 0) printf(" ");
printf(" %02X",b[i]);
if (i %16 == 15 || i==cnt-1) printf("\n");
fflush(stdout);
}
}
static const char *AlgoHeader(uint_t bits)
{
if (skein_DebugFlag & SKEIN_DEBUG_THREEFISH)
switch (bits)
{
case 256: return ":Threefish-256: ";
case 512: return ":Threefish-512: ";
case 1024: return ":Threefish-1024:";
}
else
switch (bits)
{
case 256: return ":Skein-256: ";
case 512: return ":Skein-512: ";
case 1024: return ":Skein-1024:";
}
return NULL;
}
void Skein_Show_Final(uint_t bits,const Skein_Ctxt_Hdr_t *h,size_t cnt,const u08b_t *outPtr)
{
if (skein_DebugFlag & SKEIN_DEBUG_CONFIG || ((h->T[1] & SKEIN_T1_BLK_TYPE_MASK) != SKEIN_T1_BLK_TYPE_CFG))
if (skein_DebugFlag & SKEIN_DEBUG_FINAL)
{
printf("\n%s Final output=\n",AlgoHeader(bits));
Show08(cnt,outPtr);
printf(" ++++++++++\n");
fflush(stdout);
}
}
/* show state after a round (or "pseudo-round") */
void Skein_Show_Round(uint_t bits,const Skein_Ctxt_Hdr_t *h,size_t r,const u64b_t *X)
{
static uint_t injectNum=0; /* not multi-thread safe! */
if (skein_DebugFlag & SKEIN_DEBUG_CONFIG || ((h->T[1] & SKEIN_T1_BLK_TYPE_MASK) != SKEIN_T1_BLK_TYPE_CFG))
if (skein_DebugFlag)
{
if (r >= SKEIN_RND_SPECIAL)
{ /* a key injection (or feedforward) point */
injectNum = (r == SKEIN_RND_KEY_INITIAL) ? 0 : injectNum+1;
if ( skein_DebugFlag & SKEIN_DEBUG_INJECT ||
((skein_DebugFlag & SKEIN_DEBUG_FINAL) && r == SKEIN_RND_FEED_FWD))
{
printf("\n%s",AlgoHeader(bits));
switch (r)
{
case SKEIN_RND_KEY_INITIAL:
printf(" [state after initial key injection]");
break;
case SKEIN_RND_KEY_INJECT:
printf(" [state after key injection #%02d]",injectNum);
break;
case SKEIN_RND_FEED_FWD:
printf(" [state after plaintext feedforward]");
injectNum = 0;
break;
}
printf("=\n");
Show64(bits/64,X);
if (r== SKEIN_RND_FEED_FWD)
printf(" ----------\n");
}
}
else if (skein_DebugFlag & SKEIN_DEBUG_ROUNDS)
{
uint_t j;
u64b_t p[SKEIN_MAX_STATE_WORDS];
const u08b_t *perm;
const static u08b_t PERM_256 [4][ 4] = { { 0,1,2,3 }, { 0,3,2,1 }, { 0,1,2,3 }, { 0,3,2,1 } };
const static u08b_t PERM_512 [4][ 8] = { { 0,1,2,3,4,5,6,7 },
{ 2,1,4,7,6,5,0,3 },
{ 4,1,6,3,0,5,2,7 },
{ 6,1,0,7,2,5,4,3 }
};
const static u08b_t PERM_1024[4][16] = { { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15 },
{ 0, 9, 2,13, 6,11, 4,15,10, 7,12, 3,14, 5, 8, 1 },
{ 0, 7, 2, 5, 4, 3, 6, 1,12,15,14,13, 8,11,10, 9 },
{ 0,15, 2,11, 6,13, 4, 9,14, 1, 8, 5,10, 3,12, 7 }
};
if ((skein_DebugFlag & SKEIN_DEBUG_PERMUTE) && (r & 3))
{
printf("\n%s [state after round %2d (permuted)]=\n",AlgoHeader(bits),(int)r);
switch (bits)
{
case 256: perm = PERM_256 [r&3]; break;
case 512: perm = PERM_512 [r&3]; break;
default: perm = PERM_1024[r&3]; break;
}
for (j=0;j<bits/64;j++)
p[j] = X[perm[j]];
Show64(bits/64,p);
}
else
{
printf("\n%s [state after round %2d]=\n",AlgoHeader(bits),(int)r);
Show64(bits/64,X);
}
}
}
}
/* show state after a round (or "pseudo-round"), given a list of pointers */
void Skein_Show_R_Ptr(uint_t bits,const Skein_Ctxt_Hdr_t *h,size_t r,const u64b_t *X_ptr[])
{
uint_t i;
u64b_t X[SKEIN_MAX_STATE_WORDS];
for (i=0;i<bits/64;i++) /* copy over the words */
X[i] = X_ptr[i][0];
Skein_Show_Round(bits,h,r,X);
}
/* show the state at the start of a block */
void Skein_Show_Block(uint_t bits,const Skein_Ctxt_Hdr_t *h,const u64b_t *X,const u08b_t *blkPtr,
const u64b_t *wPtr, const u64b_t *ksPtr, const u64b_t *tsPtr)
{
uint_t n;
if (skein_DebugFlag & SKEIN_DEBUG_CONFIG || ((h->T[1] & SKEIN_T1_BLK_TYPE_MASK) != SKEIN_T1_BLK_TYPE_CFG))
if (skein_DebugFlag)
{
if (skein_DebugFlag & SKEIN_DEBUG_HDR)
{
printf("\n%s Block: outBits=%4d. T0=%06X.",AlgoHeader(bits),(uint_t) h->hashBitLen,(uint_t)h->T[0]);
printf(" Type=");
n = (uint_t) ((h->T[1] & SKEIN_T1_BLK_TYPE_MASK) >> SKEIN_T1_POS_BLK_TYPE);
switch (n)
{
case SKEIN_BLK_TYPE_KEY: printf("KEY. "); break;
case SKEIN_BLK_TYPE_CFG: printf("CFG. "); break;
case SKEIN_BLK_TYPE_PERS: printf("PERS."); break;
case SKEIN_BLK_TYPE_PK : printf("PK. "); break;
case SKEIN_BLK_TYPE_KDF: printf("KDF. "); break;
case SKEIN_BLK_TYPE_MSG: printf("MSG. "); break;
case SKEIN_BLK_TYPE_OUT: printf("OUT. "); break;
default: printf("0x%02X.",n); break;
}
printf(" Flags=");
printf((h->T[1] & SKEIN_T1_FLAG_FIRST) ? " First":" ");
printf((h->T[1] & SKEIN_T1_FLAG_FINAL) ? " Final":" ");
printf((h->T[1] & SKEIN_T1_FLAG_BIT_PAD) ? " Pad" :" ");
n = (uint_t) ((h->T[1] & SKEIN_T1_TREE_LVL_MASK) >> SKEIN_T1_POS_TREE_LVL);
if (n)
printf(" TreeLevel = %02X",n);
printf("\n");
fflush(stdout);
}
if (skein_DebugFlag & SKEIN_DEBUG_TWEAK)
{
printf(" Tweak:\n");
Show64(2,h->T);
}
if (skein_DebugFlag & SKEIN_DEBUG_STATE)
{
printf(" %s words:\n",(skein_DebugFlag & SKEIN_DEBUG_THREEFISH)?"Key":"State");
Show64(bits/64,X);
}
if (skein_DebugFlag & SKEIN_DEBUG_KEYSCHED)
{
printf(" Tweak schedule:\n");
Show64_flag(3,tsPtr);
printf(" Key schedule:\n");
Show64_flag((bits/64)+1,ksPtr);
}
if (skein_DebugFlag & SKEIN_DEBUG_INPUT_64)
{
printf(" Input block (words):\n");
Show64(bits/64,wPtr);
}
if (skein_DebugFlag & SKEIN_DEBUG_INPUT_08)
{
printf(" Input block (bytes):\n");
Show08(bits/8,blkPtr);
}
}
}
void Skein_Show_Key(uint_t bits,const Skein_Ctxt_Hdr_t *h,const u08b_t *key,size_t keyBytes)
{
if (keyBytes)
if (skein_DebugFlag & SKEIN_DEBUG_CONFIG || ((h->T[1] & SKEIN_T1_BLK_TYPE_MASK) != SKEIN_T1_BLK_TYPE_CFG))
if (skein_DebugFlag & SKEIN_DEBUG_KEY)
{
printf("\n%s MAC key = %4u bytes\n",AlgoHeader(bits),(unsigned) keyBytes);
Show08(keyBytes,key);
}
}
#endif
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