Exemple #1
0
AES_RETURN aes_decrypt_key256(const unsigned char *key, aes_decrypt_ctx cx[1])
{   uint_32t    ss[9];
#if defined( d_vars )
        d_vars;
#endif
    cx->ks[v(56,(0))] = ss[0] = word_in(key, 0);
    cx->ks[v(56,(1))] = ss[1] = word_in(key, 1);
    cx->ks[v(56,(2))] = ss[2] = word_in(key, 2);
    cx->ks[v(56,(3))] = ss[3] = word_in(key, 3);

#ifdef DEC_KS_UNROLL
    ss[4] = word_in(key, 4);
    cx->ks[v(56,(4))] = ff(ss[4]);
    ss[4] = word_in(key, 5);
    cx->ks[v(56,(5))] = ff(ss[5]);
    ss[4] = word_in(key, 6);
    cx->ks[v(56,(6))] = ff(ss[6]);
    ss[4] = word_in(key, 7);
    cx->ks[v(56,(7))] = ff(ss[7]);
    kdf8(cx->ks, 0); kd8(cx->ks, 1);
    kd8(cx->ks, 2);  kd8(cx->ks, 3);
    kd8(cx->ks, 4);  kd8(cx->ks, 5);
    kdl8(cx->ks, 6);
#else
    cx->ks[v(56,(4))] = ss[4] = word_in(key, 4);
    cx->ks[v(56,(5))] = ss[5] = word_in(key, 5);
    cx->ks[v(56,(6))] = ss[6] = word_in(key, 6);
    cx->ks[v(56,(7))] = ss[7] = word_in(key, 7);
    {   uint_32t i;

        for(i = 0; i < 6; ++i)
            k8e(cx->ks,  i);
        k8ef(cx->ks,  6);
#if !(DEC_ROUND == NO_TABLES)
        for(i = N_COLS; i < 14 * N_COLS; ++i)
            cx->ks[i] = inv_mcol(cx->ks[i]);
#endif
    }
#endif
    cx->inf.l = 0;
    cx->inf.b[0] = 14 * 16;

#ifdef USE_VIA_ACE_IF_PRESENT
    if(VIA_ACE_AVAILABLE)
        cx->inf.b[1] = 0xff;
#endif
    return EXIT_SUCCESS;
}
Exemple #2
0
aes_rval aes_decrypt_key256(const unsigned char *key, aes_decrypt_ctx cx[1])
{   aes_32t    ss[8];
#if defined( d_vars )
        d_vars;
#endif
    cx->ks[0] = ss[0] = word_in(key, 0);
    cx->ks[1] = ss[1] = word_in(key, 1);
    cx->ks[2] = ss[2] = word_in(key, 2);
    cx->ks[3] = ss[3] = word_in(key, 3);

#if DEC_UNROLL == NONE
    cx->ks[4] = ss[4] = word_in(key, 4);
    cx->ks[5] = ss[5] = word_in(key, 5);
    cx->ks[6] = ss[6] = word_in(key, 6);
    cx->ks[7] = ss[7] = word_in(key, 7);
    {   aes_32t i;

        for(i = 0; i < (15 * N_COLS - 9) / 8; ++i)
            ke8(cx->ks,  i);
        kel8(cx->ks,  i);
#if !(DEC_ROUND == NO_TABLES)
        for(i = N_COLS; i < 14 * N_COLS; ++i)
            cx->ks[i] = inv_mcol(cx->ks[i]);

#endif
    }
#else
    cx->ks[4] = ff(ss[4] = word_in(key, 4));
    cx->ks[5] = ff(ss[5] = word_in(key, 5));
    cx->ks[6] = ff(ss[6] = word_in(key, 6));
    cx->ks[7] = ff(ss[7] = word_in(key, 7));
    kdf8(cx->ks, 0); kd8(cx->ks, 1);
    kd8(cx->ks, 2);  kd8(cx->ks, 3);
    kd8(cx->ks, 4);  kd8(cx->ks, 5);
    kdl8(cx->ks, 6);
#endif
    cx->rn = 14;
	#if CC_AES_USE_HARDWARE
	bcopy(key, cx->keyBytes, 32);
	cx->keyLength = 32;
	#endif
#if defined( AES_ERR_CHK )
    return aes_good;
#endif
}
Exemple #3
0
static void
aes_decrypt_key256(const unsigned char *key, uint32_t rk[])
{
	uint32_t	ss[9];
#if defined(d_vars)
	d_vars;
#endif
	rk[v(56, (0))] = ss[0] = word_in(key, 0);
	rk[v(56, (1))] = ss[1] = word_in(key, 1);
	rk[v(56, (2))] = ss[2] = word_in(key, 2);
	rk[v(56, (3))] = ss[3] = word_in(key, 3);

#ifdef DEC_KS_UNROLL
	ss[4] = word_in(key, 4);
	rk[v(56, (4))] = ff(ss[4]);
	ss[5] = word_in(key, 5);
	rk[v(56, (5))] = ff(ss[5]);
	ss[6] = word_in(key, 6);
	rk[v(56, (6))] = ff(ss[6]);
	ss[7] = word_in(key, 7);
	rk[v(56, (7))] = ff(ss[7]);
	kdf8(rk, 0); kd8(rk, 1);
	kd8(rk, 2);  kd8(rk, 3);
	kd8(rk, 4);  kd8(rk, 5);
	kdl8(rk, 6);
#else
	rk[v(56, (4))] = ss[4] = word_in(key, 4);
	rk[v(56, (5))] = ss[5] = word_in(key, 5);
	rk[v(56, (6))] = ss[6] = word_in(key, 6);
	rk[v(56, (7))] = ss[7] = word_in(key, 7);
	{
		uint32_t	i;

		for (i = 0; i < 6; ++i)
			k8e(rk,  i);
		k8ef(rk,  6);
#if !(DEC_ROUND == NO_TABLES)
		for (i = MAX_AES_NB; i < 14 * MAX_AES_NB; ++i)
			rk[i] = inv_mcol(rk[i]);
#endif
	}
#endif	/* DEC_KS_UNROLL */
}
aes_rval aes_decrypt_key256(const void *in_key, aes_decrypt_ctx cx[1])
{   aes_32t    ss[8];
#ifdef  d_vars
        d_vars;
#endif
    cx->ks[0] = ss[0] = word_in(in_key, 0);
    cx->ks[1] = ss[1] = word_in(in_key, 1);
    cx->ks[2] = ss[2] = word_in(in_key, 2);
    cx->ks[3] = ss[3] = word_in(in_key, 3);

#if DEC_UNROLL == NONE
    cx->ks[4] = ss[4] = word_in(in_key, 4);
    cx->ks[5] = ss[5] = word_in(in_key, 5);
    cx->ks[6] = ss[6] = word_in(in_key, 6);
    cx->ks[7] = ss[7] = word_in(in_key, 7);
    {   aes_32t i;

        for(i = 0; i < (15 * N_COLS - 1) / 8; ++i)
            ke8(cx->ks,  i);
#if !(DEC_ROUND == NO_TABLES)
        for(i = N_COLS; i < 14 * N_COLS; ++i)
            cx->ks[i] = inv_mcol(cx->ks[i]);
#endif
    }
#else
    cx->ks[4] = ff(ss[4] = word_in(in_key, 4));
    cx->ks[5] = ff(ss[5] = word_in(in_key, 5));
    cx->ks[6] = ff(ss[6] = word_in(in_key, 6));
    cx->ks[7] = ff(ss[7] = word_in(in_key, 7));
    kdf8(cx->ks, 0); kd8(cx->ks, 1);
    kd8(cx->ks, 2);  kd8(cx->ks, 3);
    kd8(cx->ks, 4);  kd8(cx->ks, 5);
    kdl8(cx->ks, 6);
#endif
#ifdef AES_ERR_CHK
    return aes_good;
#endif
}
Exemple #5
0
aes_rval ccaes_gladman_decrypt_key256(const unsigned char *key, ccaes_gladman_decrypt_ctx cx[1])
{   aes_32t    ss[8];
#if defined( d_vars )
        d_vars;
#endif
    cx->ks[0] = ss[0] = word_in(key, 0);
    cx->ks[1] = ss[1] = word_in(key, 1);
    cx->ks[2] = ss[2] = word_in(key, 2);
    cx->ks[3] = ss[3] = word_in(key, 3);

#if DEC_UNROLL == NONE
    cx->ks[4] = ss[4] = word_in(key, 4);
    cx->ks[5] = ss[5] = word_in(key, 5);
    cx->ks[6] = ss[6] = word_in(key, 6);
    cx->ks[7] = ss[7] = word_in(key, 7);
    {   aes_32t i;

        for(i = 0; i < (15 * N_COLS - 9) / 8; ++i)
            ke8(cx->ks,  i);
        kel8(cx->ks,  i);
#if !(DEC_ROUND == NO_TABLES)
        for(i = N_COLS; i < 14 * N_COLS; ++i)
            cx->ks[i] = inv_mcol(cx->ks[i]);

#endif
    }
#else
    cx->ks[4] = ff(ss[4] = word_in(key, 4));
    cx->ks[5] = ff(ss[5] = word_in(key, 5));
    cx->ks[6] = ff(ss[6] = word_in(key, 6));
    cx->ks[7] = ff(ss[7] = word_in(key, 7));
    kdf8(cx->ks, 0); kd8(cx->ks, 1);
    kd8(cx->ks, 2);  kd8(cx->ks, 3);
    kd8(cx->ks, 4);  kd8(cx->ks, 5);
    kdl8(cx->ks, 6);
#endif
    cx->rn = 14;
}
Exemple #6
0
aes_rval aes_set_decrypt_key(const unsigned char in_key[], unsigned int klen, aes_ctx cx[1])
{   aes_32t    ss[8];
    d_vars

#if !defined(FIXED_TABLES)
#ifdef GLOBALS
    if(!t_use(in,it)) gen_tabs();
#else
    if(!cx->t_ptr || !t_use(in,it)) gen_tabs(cx);
#endif
#endif

#if !defined(BLOCK_SIZE)
    if(!cx->n_blk) cx->n_blk = 16;
#else
    cx->n_blk = BLOCK_SIZE;
#endif

    if(((klen & 7) || klen < 16 || klen > 32) && ((klen & 63) || klen < 128 || klen > 256))
    {
        cx->n_rnd = 0; return aes_bad;
    }

    klen >>= (klen < 128 ? 2 : 5);
    cx->n_blk = (cx->n_blk & ~3) | 2;

    cx->k_sch[0] = ss[0] = word_in(in_key     );
    cx->k_sch[1] = ss[1] = word_in(in_key +  4);
    cx->k_sch[2] = ss[2] = word_in(in_key +  8);
    cx->k_sch[3] = ss[3] = word_in(in_key + 12);

#if (BLOCK_SIZE == 16) && (DEC_UNROLL != NONE)

    switch(klen)
    {
    case 4:
        kdf4(cx->k_sch, 0); kd4(cx->k_sch, 1);
        kd4(cx->k_sch, 2); kd4(cx->k_sch, 3);
        kd4(cx->k_sch, 4); kd4(cx->k_sch, 5);
        kd4(cx->k_sch, 6); kd4(cx->k_sch, 7);
        kd4(cx->k_sch, 8); kdl4(cx->k_sch, 9);
        cx->n_rnd = 10; break;
    case 6:
        cx->k_sch[4] = ff(ss[4] = word_in(in_key + 16));
        cx->k_sch[5] = ff(ss[5] = word_in(in_key + 20));
        kdf6(cx->k_sch, 0); kd6(cx->k_sch, 1);
        kd6(cx->k_sch, 2); kd6(cx->k_sch, 3);
        kd6(cx->k_sch, 4); kd6(cx->k_sch, 5);
        kd6(cx->k_sch, 6); kdl6(cx->k_sch, 7);
        cx->n_rnd = 12; break;
    case 8:
        cx->k_sch[4] = ff(ss[4] = word_in(in_key + 16));
        cx->k_sch[5] = ff(ss[5] = word_in(in_key + 20));
        cx->k_sch[6] = ff(ss[6] = word_in(in_key + 24));
        cx->k_sch[7] = ff(ss[7] = word_in(in_key + 28));
        kdf8(cx->k_sch, 0); kd8(cx->k_sch, 1);
        kd8(cx->k_sch, 2); kd8(cx->k_sch, 3);
        kd8(cx->k_sch, 4); kd8(cx->k_sch, 5);
        kdl8(cx->k_sch, 6);
        cx->n_rnd = 14; break;
    default:
        ;
    }
#else
    cx->n_rnd = (klen > nc ? klen : nc) + 6;
    {   aes_32t i, l;
        l = (nc * cx->n_rnd + nc - 1) / klen;

        switch(klen)
        {
        case 4:
            for(i = 0; i < l; ++i)
                ke4(cx->k_sch, i);
            break;
        case 6:
            cx->k_sch[4] = ss[4] = word_in(in_key + 16);
            cx->k_sch[5] = ss[5] = word_in(in_key + 20);
            for(i = 0; i < l; ++i)
                ke6(cx->k_sch, i);
            break;
        case 8:
            cx->k_sch[4] = ss[4] = word_in(in_key + 16);
            cx->k_sch[5] = ss[5] = word_in(in_key + 20);
            cx->k_sch[6] = ss[6] = word_in(in_key + 24);
            cx->k_sch[7] = ss[7] = word_in(in_key + 28);
            for(i = 0; i < l; ++i)
                ke8(cx->k_sch,  i);
            break;
        default:
            ;
        }
#if (DEC_ROUND != NO_TABLES)
        for(i = nc; i < nc * cx->n_rnd; ++i)
            cx->k_sch[i] = inv_mcol(cx->k_sch[i]);
#endif
    }
#endif

    return aes_good;
}