org.bouncycastle.pqc.crypto.cmce.BENES13 Maven / Gradle / Ivy
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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.4. Note: this package includes the NTRU encryption algorithms.
package org.bouncycastle.pqc.crypto.cmce;
class BENES13
extends BENES
{
public BENES13(int n, int t, int m)
{
super(n, t, m);
}
/* middle layers of the benes network */
static void layer_in(long[] data, long[] bits, int lgs)
{
int i, j, s;
int bit_ptr = 0;
long d;
s = 1 << lgs;
for (i = 0; i < 64; i += s * 2)
{
for (j = i; j < i + s; j++)
{
d = (data[j + 0] ^ data[j + s]);
d &= bits[bit_ptr++];
data[j + 0] ^= d;
data[j + s] ^= d;
d = (data[64 + j + 0] ^ data[64 + j + s]);
d &= bits[bit_ptr++];
data[64 + j + 0] ^= d;
data[64 + j + s] ^= d;
}
}
}
/* first and last layers of the benes network */
static void layer_ex(long[] data, long[] bits, int lgs)
{
int i, j, s;
int bit_ptr = 0;
long d;
s = 1 << lgs;
for (i = 0; i < 128; i += s * 2)
{
for (j = i; j < i + s; j++)
{
d = (data[j + 0] ^ data[j + s]);
d &= bits[bit_ptr++];
data[j + 0] ^= d;
data[j + s] ^= d;
}
}
}
/* input: r, sequence of bits to be permuted */
/* bits, condition bits of the Benes network */
/* rev, 0 for normal application; !0 for inverse */
/* output: r, permuted bits */
void apply_benes(byte[] r, byte[] bits, int rev)
{
int i, iter, inc;
int r_ptr = 0;
int bits_ptr = 0;
// long[] r_int_v_0 = new long[64];
// long[] r_int_v_1 = new long[64];
// long[] r_int_h_0 = new long[64];
// long[] r_int_h_1 = new long[64];
long[] r_int_v = new long[128];
long[] r_int_h = new long[128];
long[] b_int_v = new long[64];
long[] b_int_h = new long[64];
//
if (rev == 0)
{
bits_ptr = SYS_T * 2 + 40;
inc = 0;
}
else
{
bits_ptr = SYS_T * 2 + 40 + 12288;
inc = -1024;
}
for (i = 0; i < 64; i++)//TODO use load8
{
r_int_v[i + 0] = Utils.load8(r, r_ptr + i * 16 + 0);
r_int_v[i + 64] = Utils.load8(r, r_ptr + i * 16 + 8);
}
transpose_64x64(r_int_h, r_int_v, 0);
transpose_64x64(r_int_h, r_int_v, 64);
for (iter = 0; iter <= 6; iter++)
{
for (i = 0; i < 64; i++)//TODO use load8
{
b_int_v[i] = Utils.load8(bits, bits_ptr);
bits_ptr += 8;
}
bits_ptr += inc;
transpose_64x64(b_int_h, b_int_v);
layer_ex(r_int_h, b_int_h, iter);
}
transpose_64x64(r_int_v, r_int_h, 0);
transpose_64x64(r_int_v, r_int_h, 64);
for (iter = 0; iter <= 5; iter++)
{
for (i = 0; i < 64; i++)//TODO use load8
{
b_int_v[i] = Utils.load8(bits, bits_ptr);
bits_ptr += 8;
}
bits_ptr += inc;
layer_in(r_int_v, b_int_v, iter);
}
for (iter = 4; iter >= 0; iter--)
{
for (i = 0; i < 64; i++)//TODO use load8
{
b_int_v[i] = Utils.load8(bits, bits_ptr);
bits_ptr += 8;
}
bits_ptr += inc;
layer_in(r_int_v, b_int_v, iter);
}
transpose_64x64(r_int_h, r_int_v, 0);
transpose_64x64(r_int_h, r_int_v, 64);
for (iter = 6; iter >= 0; iter--)
{
for (i = 0; i < 64; i++)//TODO use load8
{
b_int_v[i] = Utils.load8(bits, bits_ptr);
bits_ptr += 8;
}
bits_ptr += inc;
transpose_64x64(b_int_h, b_int_v);
layer_ex(r_int_h, b_int_h, iter);
}
transpose_64x64(r_int_v, r_int_h, 0);
transpose_64x64(r_int_v, r_int_h, 64);
for (i = 0; i < 64; i++)//TODO use store8
{
Utils.store8(r, r_ptr + i * 16 + 0, r_int_v[0 + i]);
Utils.store8(r, r_ptr + i * 16 + 8, r_int_v[64 + i]);
}
}
/* input: condition bits c */
/* output: support s */
public void support_gen(short[] s, byte[] c)
{
short a;
int i, j;
byte[][] L = new byte[GFBITS][(1 << GFBITS) / 8];
for (i = 0; i < GFBITS; i++)
{
for (j = 0; j < (1 << GFBITS) / 8; j++)
{
L[i][j] = 0;
}
}
for (i = 0; i < (1 << GFBITS); i++)
{
a = Utils.bitrev((short)i, GFBITS);
for (j = 0; j < GFBITS; j++)
{
L[j][i / 8] |= ((a >> j) & 1) << (i % 8);
}
}
for (j = 0; j < GFBITS; j++)
{
apply_benes(L[j], c, 0);
}
for (i = 0; i < SYS_N; i++)
{
s[i] = 0;
for (j = GFBITS - 1; j >= 0; j--)
{
s[i] <<= 1;
s[i] |= (L[j][i / 8] >> (i % 8)) & 1;
}
}
}
}