Subversion Repositories tiny_aes

/*

 * Copyright 2012, Homer Hsing <homer.hsing@gmail.com>

 *

 * Licensed under the Apache License, Version 2.0 (the "License");

 * you may not use this file except in compliance with the License.

 * You may obtain a copy of the License at

 *

 * http://www.apache.org/licenses/LICENSE-2.0

 *

 * Unless required by applicable law or agreed to in writing, software

 * distributed under the License is distributed on an "AS IS" BASIS,

 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

 * See the License for the specific language governing permissions and

 * limitations under the License.

 */

#include "sbox.h"

#ifndef LOCAL

#define LOCAL

#endif

#define byte unsigned char

typedef unsigned int word;

#define sub_byte(w) {       \

    byte *b = (byte *)&w;   \

    b[0] = table_0[b[0]*4]; \

    b[1] = table_0[b[1]*4]; \

    b[2] = table_0[b[2]*4]; \

    b[3] = table_0[b[3]*4]; \

}

#define rot_up_8(x)   x = (x << 8) | (x >> 24)

#define rot_16(x)     x = (x << 16) | (x >> 16)

#define rot_down_8(x) x = (x >> 8) | (x << 24)

#define table_lookup { \

    p0 = t0[b[0]];     \

    p1 = t0[b[1]];     \

    p2 = t0[b[2]];     \

    p3 = t0[b[3]];     \

}

#define final_mask if(is_final_round) { \

    p0 &= 0xFF;  \

    p1 &= 0xFF00; \

    rot_16(p2);   \

    p2 &= 0xFF0000; \

    rot_down_8(p3); \

    p3 &= 0xFF000000; \

} else { \

    rot_up_8(p0);      \

    rot_16(p1);        \

    rot_down_8(p2);    \

}

#define rot {       \

    rot_up_8(p0);   \

    rot_16(p1);     \

    rot_down_8(p2); \

}

void encrypt_128_key_expand_inline(word state[], word key[]) {

    int nr = 10;

    int i;

    word k0 = key[0], k1 = key[1], k2 = key[2], k3 = key[3];

    state[0] ^= k0;

    state[1] ^= k1;

    state[2] ^= k2;

    state[3] ^= k3;

    word *t0 = (word *)table_0;

    word y, p0, p1, p2, p3;

    byte *b = (byte *)&y;

    byte rcon = 1;

    for(i=1; i<=nr; i++) {

        word temp = k3;

        rot_down_8(temp);

        sub_byte(temp);

        temp ^= rcon;

        int j = (char)rcon;

        j <<= 1;

        j ^= (j >> 8) & 0x1B; // if (rcon&0x80 != 0) then (j ^= 0x1B)

        rcon = (byte)j;

        k0 ^= temp;

        k1 ^= k0;

        k2 ^= k1;

        k3 ^= k2;

        word z0 = k0, z1 = k1, z2 = k2, z3 = k3;

        int is_final_round = i == nr;

        y = state[0];

        table_lookup;

        final_mask;

        z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

        y = state[1];

        table_lookup;

        final_mask;

        z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

        y = state[2];

        table_lookup;

        final_mask;

        z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

        y = state[3];

        table_lookup;

        final_mask;

        state[0] = z0 ^ p3;

        state[1] = z1 ^ p2;

        state[2] = z2 ^ p1;

        state[3] = z3 ^ p0;

    }

}

void encrypt_128_key_expand_inline_no_branch(word state[], word key[]) {

    int nr = 10;

    int i;

    word k0 = key[0], k1 = key[1], k2 = key[2], k3 = key[3];

    state[0] ^= k0;

    state[1] ^= k1;

    state[2] ^= k2;

    state[3] ^= k3;

    word *t0 = (word *)table_0;

    word p0, p1, p2, p3;

    byte *b;

    byte rcon = 1;

    for(i=1; i<nr; i++) {

        word temp = k3;

        rot_down_8(temp);

        sub_byte(temp);

        temp ^= rcon;

        int j = (char)rcon;

        j <<= 1;

        j ^= (j >> 8) & 0x1B; // if (rcon&0x80 != 0) then (j ^= 0x1B)

        rcon = (byte)j;

        k0 ^= temp;

        k1 ^= k0;

        k2 ^= k1;

        k3 ^= k2;

        word z0 = k0, z1 = k1, z2 = k2, z3 = k3;

        b = (byte *)state; table_lookup; rot;

        z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

        b += 4; table_lookup; rot;

        z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

        b += 4; table_lookup; rot;

        z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

        b += 4; table_lookup; rot;

        state[0] = z0 ^ p3;

        state[1] = z1 ^ p2;

        state[2] = z2 ^ p1;

        state[3] = z3 ^ p0;

    }

    word temp = k3;

    rot_down_8(temp);

    sub_byte(temp);

    temp ^= rcon;

    k0 ^= temp;

    k1 ^= k0;

    k2 ^= k1;

    k3 ^= k2;

    byte *a = (byte *)state, *t = table_0;

    b = (byte *)&k0;

    b[0] ^= t[a[0]*4], b[1] ^= t[a[5]*4], b[2] ^= t[a[10]*4], b[3] ^= t[a[15]*4];

    b = (byte *)&k1;

    b[0] ^= t[a[4]*4], b[1] ^= t[a[9]*4], b[2] ^= t[a[14]*4], b[3] ^= t[a[3]*4];

    b = (byte *)&k2;

    b[0] ^= t[a[8]*4], b[1] ^= t[a[13]*4], b[2] ^= t[a[2]*4], b[3] ^= t[a[7]*4];

    b = (byte *)&k3;

    b[0] ^= t[a[12]*4], b[1] ^= t[a[1]*4], b[2] ^= t[a[6]*4], b[3] ^= t[a[11]*4];

    state[0] = k0;

    state[1] = k1;

    state[2] = k2;

    state[3] = k3;

}

void encrypt_192_key_expand_inline_no_branch(word state[], word key[]) {

    int i = 1, j;

    word *t0 = (word *)table_0;

    word k0 = key[0], k1 = key[1], k2 = key[2], k3 = key[3], k4 = key[4], k5 = key[5];

    word p0, p1, p2, p3, z0, z1, z2, z3, temp;

    byte *a = (byte *)state, *b, *t = table_0;

    byte rcon = 1;

    state[0] ^= k0; state[1] ^= k1; state[2] ^= k2; state[3] ^= k3;

    goto a;

    for(; i<=3; i++) { // round 1 ~ round 9

        k4 ^= k3; k5 ^= k4;

a:      temp = k5;

        rot_down_8(temp);

        sub_byte(temp);

        temp ^= rcon;

        j = (int)((char)rcon) << 1;

        rcon = (byte) (((j >> 8) & 0x1B) ^ j); // if (rcon&0x80 != 0) then (j ^= 0x1B)

        k0 ^= temp; k1 ^= k0;

        z0 = k4, z1 = k5, z2 = k0, z3 = k1;

        b = (byte *)state; table_lookup; rot;

        z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

        b += 4; table_lookup; rot;

        z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

        b += 4; table_lookup; rot;

        z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

        b += 4; table_lookup; rot;

        state[0] = z0 ^ p3;

        state[1] = z1 ^ p2;

        state[2] = z2 ^ p1;

        state[3] = z3 ^ p0;

        k2 ^= k1; k3 ^= k2; k4 ^= k3; k5 ^= k4;

        z0 = k2, z1 = k3, z2 = k4, z3 = k5;

        b = (byte *)state; table_lookup; rot;

        z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

        b += 4; table_lookup; rot;

        z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

        b += 4; table_lookup; rot;

        z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

        b += 4; table_lookup; rot;

        state[0] = z0 ^ p3;

        state[1] = z1 ^ p2;

        state[2] = z2 ^ p1;

        state[3] = z3 ^ p0;

        temp = k5;

        rot_down_8(temp);

        sub_byte(temp);

        temp ^= rcon;

        j = (int)((char)rcon) << 1;

        rcon = (byte) (((j >> 8) & 0x1B) ^ j); // if (rcon&0x80 != 0) then (j ^= 0x1B)

        k0 ^= temp; k1 ^= k0; k2 ^= k1; k3 ^= k2;

        z0 = k0, z1 = k1, z2 = k2, z3 = k3;

        b = (byte *)state; table_lookup; rot;

        z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

        b += 4; table_lookup; rot;

        z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

        b += 4; table_lookup; rot;

        z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

        b += 4; table_lookup; rot;

        state[0] = z0 ^ p3;

        state[1] = z1 ^ p2;

        state[2] = z2 ^ p1;

        state[3] = z3 ^ p0;

    }

    // round 10 ~ 12

    k4 ^= k3; k5 ^= k4;

    temp = k5;

    rot_down_8(temp);

    sub_byte(temp);

    temp ^= rcon;

    j = (int)((char)rcon) << 1;

    rcon = (byte) (((j >> 8) & 0x1B) ^ j); // if (rcon&0x80 != 0) then (j ^= 0x1B)

    k0 ^= temp; k1 ^= k0;

    z0 = k4, z1 = k5, z2 = k0, z3 = k1;

    b = (byte *)state; table_lookup; rot;

    z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

    b += 4; table_lookup; rot;

    z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

    b += 4; table_lookup; rot;

    z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

    b += 4; table_lookup; rot;

    state[0] = z0 ^ p3;

    state[1] = z1 ^ p2;

    state[2] = z2 ^ p1;

    state[3] = z3 ^ p0;

    k2 ^= k1; k3 ^= k2; k4 ^= k3; k5 ^= k4;

    z0 = k2, z1 = k3, z2 = k4, z3 = k5;

    b = (byte *)state; table_lookup; rot;

    z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

    b += 4; table_lookup; rot;

    z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

    b += 4; table_lookup; rot;

    z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

    b += 4; table_lookup; rot;

    state[0] = z0 ^ p3;

    state[1] = z1 ^ p2;

    state[2] = z2 ^ p1;

    state[3] = z3 ^ p0;

    temp = k5;

    rot_down_8(temp);

    sub_byte(temp);

    temp ^= rcon;

    k0 ^= temp; k1 ^= k0; k2 ^= k1; k3 ^= k2;

    b = (byte *)&k0; b[0] ^= t[a[0]*4], b[1] ^= t[a[5]*4], b[2] ^= t[a[10]*4], b[3] ^= t[a[15]*4];

    b = (byte *)&k1; b[0] ^= t[a[4]*4], b[1] ^= t[a[9]*4], b[2] ^= t[a[14]*4], b[3] ^= t[a[3]*4];

    b = (byte *)&k2; b[0] ^= t[a[8]*4], b[1] ^= t[a[13]*4], b[2] ^= t[a[2]*4], b[3] ^= t[a[7]*4];

    b = (byte *)&k3; b[0] ^= t[a[12]*4], b[1] ^= t[a[1]*4], b[2] ^= t[a[6]*4], b[3] ^= t[a[11]*4];

    state[0] = k0;

    state[1] = k1;

    state[2] = k2;

    state[3] = k3;

}

void encrypt_256_key_expand_inline_no_branch(word state[], word key[]) {

    int i=1, j;

    word *t0 = (word *)table_0;

    word k0 = key[0], k1 = key[1], k2 = key[2], k3 = key[3],

         k4 = key[4], k5 = key[5], k6 = key[6], k7 = key[7];

    word p0, p1, p2, p3, z0, z1, z2, z3, temp;

    byte *a = (byte *)state, *b, *t = table_0;

    byte rcon = 1;

    state[0] ^= k0; state[1] ^= k1; state[2] ^= k2; state[3] ^= k3;

    goto a;

    for(; i<=6; i++) { // round 1 ~ round 12

        temp = k3; sub_byte(temp); k4 ^= temp;

        k5 ^= k4; k6 ^= k5; k7 ^= k6;

a:      z0 = k4, z1 = k5, z2 = k6, z3 = k7;

        b = (byte *)state; table_lookup; rot;

        z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

        b += 4; table_lookup; rot;

        z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

        b += 4; table_lookup; rot;

        z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

        b += 4; table_lookup; rot;

        state[0] = z0 ^ p3;

        state[1] = z1 ^ p2;

        state[2] = z2 ^ p1;

        state[3] = z3 ^ p0;

        temp = k7;

        rot_down_8(temp);

        sub_byte(temp);

        temp ^= rcon;

        j = (int)((char)rcon) << 1;

        rcon = (byte) (((j >> 8) & 0x1B) ^ j); // if (rcon&0x80 != 0) then (j ^= 0x1B)

        k0 ^= temp; k1 ^= k0; k2 ^= k1; k3 ^= k2;

        z0 = k0, z1 = k1, z2 = k2, z3 = k3;

        b = (byte *)state; table_lookup; rot;

        z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

        b += 4; table_lookup; rot;

        z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

        b += 4; table_lookup; rot;

        z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

        b += 4; table_lookup; rot;

        state[0] = z0 ^ p3;

        state[1] = z1 ^ p2;

        state[2] = z2 ^ p1;

        state[3] = z3 ^ p0;

    }

    // round 13 ~ 14

    temp = k3; sub_byte(temp); k4 ^= temp;

    k5 ^= k4; k6 ^= k5; k7 ^= k6;

    z0 = k4, z1 = k5, z2 = k6, z3 = k7;

    b = (byte *)state; table_lookup; rot;

    z0 ^= p0, z3 ^= p1, z2 ^= p2, z1 ^= p3;

    b += 4; table_lookup; rot;

    z1 ^= p0, z0 ^= p1, z3 ^= p2, z2 ^= p3;

    b += 4; table_lookup; rot;

    z2 ^= p0, z1 ^= p1, z0 ^= p2, z3 ^= p3;

    b += 4; table_lookup; rot;

    state[0] = z0 ^ p3;

    state[1] = z1 ^ p2;

    state[2] = z2 ^ p1;

    state[3] = z3 ^ p0;

    temp = k7;

    rot_down_8(temp);

    sub_byte(temp);

    temp ^= rcon;

    k0 ^= temp; k1 ^= k0; k2 ^= k1; k3 ^= k2;

    b = (byte *)&k0; b[0] ^= t[a[0]*4], b[1] ^= t[a[5]*4], b[2] ^= t[a[10]*4], b[3] ^= t[a[15]*4];

    b = (byte *)&k1; b[0] ^= t[a[4]*4], b[1] ^= t[a[9]*4], b[2] ^= t[a[14]*4], b[3] ^= t[a[3]*4];

    b = (byte *)&k2; b[0] ^= t[a[8]*4], b[1] ^= t[a[13]*4], b[2] ^= t[a[2]*4], b[3] ^= t[a[7]*4];

    b = (byte *)&k3; b[0] ^= t[a[12]*4], b[1] ^= t[a[1]*4], b[2] ^= t[a[6]*4], b[3] ^= t[a[11]*4];

    state[0] = k0;

    state[1] = k1;

    state[2] = k2;

    state[3] = k3;

}