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/*
* Copyright 2004-2023 H2 Group. Multiple-Licensed under the MPL 2.0,
* and the EPL 1.0 (https://h2database.com/html/license.html).
* Initial Developer: H2 Group
*/
package org.h2.security;
import org.h2.util.Bits;
/**
* An implementation of the AES block cipher algorithm,
* also known as Rijndael. Only AES-128 is supported by this class.
*/
public class AES implements BlockCipher {
private static final int[] RCON = new int[10];
private static final int[] FS = new int[256];
private static final int[] FT0 = new int[256];
private static final int[] FT1 = new int[256];
private static final int[] FT2 = new int[256];
private static final int[] FT3 = new int[256];
private static final int[] RS = new int[256];
private static final int[] RT0 = new int[256];
private static final int[] RT1 = new int[256];
private static final int[] RT2 = new int[256];
private static final int[] RT3 = new int[256];
private final int[] encKey = new int[44];
private final int[] decKey = new int[44];
private static int rot8(int x) {
return (x >>> 8) | (x << 24);
}
private static int xtime(int x) {
return ((x << 1) ^ (((x & 0x80) != 0) ? 0x1b : 0)) & 255;
}
private static int mul(int[] pow, int[] log, int x, int y) {
return (x != 0 && y != 0) ? pow[(log[x] + log[y]) % 255] : 0;
}
static {
int[] pow = new int[256];
int[] log = new int[256];
for (int i = 0, x = 1; i < 256; i++, x ^= xtime(x)) {
pow[i] = x;
log[x] = i;
}
for (int i = 0, x = 1; i < 10; i++, x = xtime(x)) {
RCON[i] = x << 24;
}
FS[0x00] = 0x63;
RS[0x63] = 0x00;
for (int i = 1; i < 256; i++) {
int x = pow[255 - log[i]], y = x;
y = ((y << 1) | (y >> 7)) & 255;
x ^= y;
y = ((y << 1) | (y >> 7)) & 255;
x ^= y;
y = ((y << 1) | (y >> 7)) & 255;
x ^= y;
y = ((y << 1) | (y >> 7)) & 255;
x ^= y ^ 0x63;
FS[i] = x & 255;
RS[x] = i & 255;
}
for (int i = 0; i < 256; i++) {
int x = FS[i], y = xtime(x);
FT0[i] = (x ^ y) ^ (x << 8) ^ (x << 16) ^ (y << 24);
FT1[i] = rot8(FT0[i]);
FT2[i] = rot8(FT1[i]);
FT3[i] = rot8(FT2[i]);
y = RS[i];
RT0[i] = mul(pow, log, 0x0b, y) ^ (mul(pow, log, 0x0d, y) << 8)
^ (mul(pow, log, 0x09, y) << 16) ^ (mul(pow, log, 0x0e, y) << 24);
RT1[i] = rot8(RT0[i]);
RT2[i] = rot8(RT1[i]);
RT3[i] = rot8(RT2[i]);
}
}
private static int getDec(int t) {
return RT0[FS[(t >> 24) & 255]] ^ RT1[FS[(t >> 16) & 255]]
^ RT2[FS[(t >> 8) & 255]] ^ RT3[FS[t & 255]];
}
@Override
public void setKey(byte[] key) {
for (int i = 0, j = 0; i < 4; i++) {
encKey[i] = decKey[i] = ((key[j++] & 255) << 24)
| ((key[j++] & 255) << 16) | ((key[j++] & 255) << 8)
| (key[j++] & 255);
}
int e = 0;
for (int i = 0; i < 10; i++, e += 4) {
encKey[e + 4] = encKey[e] ^ RCON[i]
^ (FS[(encKey[e + 3] >> 16) & 255] << 24)
^ (FS[(encKey[e + 3] >> 8) & 255] << 16)
^ (FS[encKey[e + 3] & 255] << 8)
^ FS[(encKey[e + 3] >> 24) & 255];
encKey[e + 5] = encKey[e + 1] ^ encKey[e + 4];
encKey[e + 6] = encKey[e + 2] ^ encKey[e + 5];
encKey[e + 7] = encKey[e + 3] ^ encKey[e + 6];
}
int d = 0;
decKey[d++] = encKey[e++];
decKey[d++] = encKey[e++];
decKey[d++] = encKey[e++];
decKey[d++] = encKey[e++];
for (int i = 1; i < 10; i++) {
e -= 8;
decKey[d++] = getDec(encKey[e++]);
decKey[d++] = getDec(encKey[e++]);
decKey[d++] = getDec(encKey[e++]);
decKey[d++] = getDec(encKey[e++]);
}
e -= 8;
decKey[d++] = encKey[e++];
decKey[d++] = encKey[e++];
decKey[d++] = encKey[e++];
decKey[d] = encKey[e];
}
@Override
public void encrypt(byte[] bytes, int off, int len) {
for (int i = off; i < off + len; i += 16) {
encryptBlock(bytes, bytes, i);
}
}
@Override
public void decrypt(byte[] bytes, int off, int len) {
for (int i = off; i < off + len; i += 16) {
decryptBlock(bytes, bytes, i);
}
}
private void encryptBlock(byte[] in, byte[] out, int off) {
int[] k = encKey;
int x0 = Bits.readInt(in, off) ^ k[0];
int x1 = Bits.readInt(in, off + 4) ^ k[1];
int x2 = Bits.readInt(in, off + 8) ^ k[2];
int x3 = Bits.readInt(in, off + 12) ^ k[3];
int y0 = FT0[(x0 >> 24) & 255] ^ FT1[(x1 >> 16) & 255]
^ FT2[(x2 >> 8) & 255] ^ FT3[x3 & 255] ^ k[4];
int y1 = FT0[(x1 >> 24) & 255] ^ FT1[(x2 >> 16) & 255]
^ FT2[(x3 >> 8) & 255] ^ FT3[x0 & 255] ^ k[5];
int y2 = FT0[(x2 >> 24) & 255] ^ FT1[(x3 >> 16) & 255]
^ FT2[(x0 >> 8) & 255] ^ FT3[x1 & 255] ^ k[6];
int y3 = FT0[(x3 >> 24) & 255] ^ FT1[(x0 >> 16) & 255]
^ FT2[(x1 >> 8) & 255] ^ FT3[x2 & 255] ^ k[7];
x0 = FT0[(y0 >> 24) & 255] ^ FT1[(y1 >> 16) & 255]
^ FT2[(y2 >> 8) & 255] ^ FT3[y3 & 255] ^ k[8];
x1 = FT0[(y1 >> 24) & 255] ^ FT1[(y2 >> 16) & 255]
^ FT2[(y3 >> 8) & 255] ^ FT3[y0 & 255] ^ k[9];
x2 = FT0[(y2 >> 24) & 255] ^ FT1[(y3 >> 16) & 255]
^ FT2[(y0 >> 8) & 255] ^ FT3[y1 & 255] ^ k[10];
x3 = FT0[(y3 >> 24) & 255] ^ FT1[(y0 >> 16) & 255]
^ FT2[(y1 >> 8) & 255] ^ FT3[y2 & 255] ^ k[11];
y0 = FT0[(x0 >> 24) & 255] ^ FT1[(x1 >> 16) & 255]
^ FT2[(x2 >> 8) & 255] ^ FT3[x3 & 255] ^ k[12];
y1 = FT0[(x1 >> 24) & 255] ^ FT1[(x2 >> 16) & 255]
^ FT2[(x3 >> 8) & 255] ^ FT3[x0 & 255] ^ k[13];
y2 = FT0[(x2 >> 24) & 255] ^ FT1[(x3 >> 16) & 255]
^ FT2[(x0 >> 8) & 255] ^ FT3[x1 & 255] ^ k[14];
y3 = FT0[(x3 >> 24) & 255] ^ FT1[(x0 >> 16) & 255]
^ FT2[(x1 >> 8) & 255] ^ FT3[x2 & 255] ^ k[15];
x0 = FT0[(y0 >> 24) & 255] ^ FT1[(y1 >> 16) & 255]
^ FT2[(y2 >> 8) & 255] ^ FT3[y3 & 255] ^ k[16];
x1 = FT0[(y1 >> 24) & 255] ^ FT1[(y2 >> 16) & 255]
^ FT2[(y3 >> 8) & 255] ^ FT3[y0 & 255] ^ k[17];
x2 = FT0[(y2 >> 24) & 255] ^ FT1[(y3 >> 16) & 255]
^ FT2[(y0 >> 8) & 255] ^ FT3[y1 & 255] ^ k[18];
x3 = FT0[(y3 >> 24) & 255] ^ FT1[(y0 >> 16) & 255]
^ FT2[(y1 >> 8) & 255] ^ FT3[y2 & 255] ^ k[19];
y0 = FT0[(x0 >> 24) & 255] ^ FT1[(x1 >> 16) & 255]
^ FT2[(x2 >> 8) & 255] ^ FT3[x3 & 255] ^ k[20];
y1 = FT0[(x1 >> 24) & 255] ^ FT1[(x2 >> 16) & 255]
^ FT2[(x3 >> 8) & 255] ^ FT3[x0 & 255] ^ k[21];
y2 = FT0[(x2 >> 24) & 255] ^ FT1[(x3 >> 16) & 255]
^ FT2[(x0 >> 8) & 255] ^ FT3[x1 & 255] ^ k[22];
y3 = FT0[(x3 >> 24) & 255] ^ FT1[(x0 >> 16) & 255]
^ FT2[(x1 >> 8) & 255] ^ FT3[x2 & 255] ^ k[23];
x0 = FT0[(y0 >> 24) & 255] ^ FT1[(y1 >> 16) & 255]
^ FT2[(y2 >> 8) & 255] ^ FT3[y3 & 255] ^ k[24];
x1 = FT0[(y1 >> 24) & 255] ^ FT1[(y2 >> 16) & 255]
^ FT2[(y3 >> 8) & 255] ^ FT3[y0 & 255] ^ k[25];
x2 = FT0[(y2 >> 24) & 255] ^ FT1[(y3 >> 16) & 255]
^ FT2[(y0 >> 8) & 255] ^ FT3[y1 & 255] ^ k[26];
x3 = FT0[(y3 >> 24) & 255] ^ FT1[(y0 >> 16) & 255]
^ FT2[(y1 >> 8) & 255] ^ FT3[y2 & 255] ^ k[27];
y0 = FT0[(x0 >> 24) & 255] ^ FT1[(x1 >> 16) & 255]
^ FT2[(x2 >> 8) & 255] ^ FT3[x3 & 255] ^ k[28];
y1 = FT0[(x1 >> 24) & 255] ^ FT1[(x2 >> 16) & 255]
^ FT2[(x3 >> 8) & 255] ^ FT3[x0 & 255] ^ k[29];
y2 = FT0[(x2 >> 24) & 255] ^ FT1[(x3 >> 16) & 255]
^ FT2[(x0 >> 8) & 255] ^ FT3[x1 & 255] ^ k[30];
y3 = FT0[(x3 >> 24) & 255] ^ FT1[(x0 >> 16) & 255]
^ FT2[(x1 >> 8) & 255] ^ FT3[x2 & 255] ^ k[31];
x0 = FT0[(y0 >> 24) & 255] ^ FT1[(y1 >> 16) & 255]
^ FT2[(y2 >> 8) & 255] ^ FT3[y3 & 255] ^ k[32];
x1 = FT0[(y1 >> 24) & 255] ^ FT1[(y2 >> 16) & 255]
^ FT2[(y3 >> 8) & 255] ^ FT3[y0 & 255] ^ k[33];
x2 = FT0[(y2 >> 24) & 255] ^ FT1[(y3 >> 16) & 255]
^ FT2[(y0 >> 8) & 255] ^ FT3[y1 & 255] ^ k[34];
x3 = FT0[(y3 >> 24) & 255] ^ FT1[(y0 >> 16) & 255]
^ FT2[(y1 >> 8) & 255] ^ FT3[y2 & 255] ^ k[35];
y0 = FT0[(x0 >> 24) & 255] ^ FT1[(x1 >> 16) & 255]
^ FT2[(x2 >> 8) & 255] ^ FT3[x3 & 255] ^ k[36];
y1 = FT0[(x1 >> 24) & 255] ^ FT1[(x2 >> 16) & 255]
^ FT2[(x3 >> 8) & 255] ^ FT3[x0 & 255] ^ k[37];
y2 = FT0[(x2 >> 24) & 255] ^ FT1[(x3 >> 16) & 255]
^ FT2[(x0 >> 8) & 255] ^ FT3[x1 & 255] ^ k[38];
y3 = FT0[(x3 >> 24) & 255] ^ FT1[(x0 >> 16) & 255]
^ FT2[(x1 >> 8) & 255] ^ FT3[x2 & 255] ^ k[39];
x0 = ((FS[(y0 >> 24) & 255] << 24) | (FS[(y1 >> 16) & 255] << 16)
| (FS[(y2 >> 8) & 255] << 8) | FS[y3 & 255]) ^ k[40];
x1 = ((FS[(y1 >> 24) & 255] << 24) | (FS[(y2 >> 16) & 255] << 16)
| (FS[(y3 >> 8) & 255] << 8) | FS[y0 & 255]) ^ k[41];
x2 = ((FS[(y2 >> 24) & 255] << 24) | (FS[(y3 >> 16) & 255] << 16)
| (FS[(y0 >> 8) & 255] << 8) | FS[y1 & 255]) ^ k[42];
x3 = ((FS[(y3 >> 24) & 255] << 24) | (FS[(y0 >> 16) & 255] << 16)
| (FS[(y1 >> 8) & 255] << 8) | FS[y2 & 255]) ^ k[43];
Bits.writeInt(out, off, x0);
Bits.writeInt(out, off + 4, x1);
Bits.writeInt(out, off + 8, x2);
Bits.writeInt(out, off + 12, x3);
}
private void decryptBlock(byte[] in, byte[] out, int off) {
int[] k = decKey;
int x0 = Bits.readInt(in, off) ^ k[0];
int x1 = Bits.readInt(in, off + 4) ^ k[1];
int x2 = Bits.readInt(in, off + 8) ^ k[2];
int x3 = Bits.readInt(in, off + 12) ^ k[3];
int y0 = RT0[(x0 >> 24) & 255] ^ RT1[(x3 >> 16) & 255]
^ RT2[(x2 >> 8) & 255] ^ RT3[x1 & 255] ^ k[4];
int y1 = RT0[(x1 >> 24) & 255] ^ RT1[(x0 >> 16) & 255]
^ RT2[(x3 >> 8) & 255] ^ RT3[x2 & 255] ^ k[5];
int y2 = RT0[(x2 >> 24) & 255] ^ RT1[(x1 >> 16) & 255]
^ RT2[(x0 >> 8) & 255] ^ RT3[x3 & 255] ^ k[6];
int y3 = RT0[(x3 >> 24) & 255] ^ RT1[(x2 >> 16) & 255]
^ RT2[(x1 >> 8) & 255] ^ RT3[x0 & 255] ^ k[7];
x0 = RT0[(y0 >> 24) & 255] ^ RT1[(y3 >> 16) & 255]
^ RT2[(y2 >> 8) & 255] ^ RT3[y1 & 255] ^ k[8];
x1 = RT0[(y1 >> 24) & 255] ^ RT1[(y0 >> 16) & 255]
^ RT2[(y3 >> 8) & 255] ^ RT3[y2 & 255] ^ k[9];
x2 = RT0[(y2 >> 24) & 255] ^ RT1[(y1 >> 16) & 255]
^ RT2[(y0 >> 8) & 255] ^ RT3[y3 & 255] ^ k[10];
x3 = RT0[(y3 >> 24) & 255] ^ RT1[(y2 >> 16) & 255]
^ RT2[(y1 >> 8) & 255] ^ RT3[y0 & 255] ^ k[11];
y0 = RT0[(x0 >> 24) & 255] ^ RT1[(x3 >> 16) & 255]
^ RT2[(x2 >> 8) & 255] ^ RT3[x1 & 255] ^ k[12];
y1 = RT0[(x1 >> 24) & 255] ^ RT1[(x0 >> 16) & 255]
^ RT2[(x3 >> 8) & 255] ^ RT3[x2 & 255] ^ k[13];
y2 = RT0[(x2 >> 24) & 255] ^ RT1[(x1 >> 16) & 255]
^ RT2[(x0 >> 8) & 255] ^ RT3[x3 & 255] ^ k[14];
y3 = RT0[(x3 >> 24) & 255] ^ RT1[(x2 >> 16) & 255]
^ RT2[(x1 >> 8) & 255] ^ RT3[x0 & 255] ^ k[15];
x0 = RT0[(y0 >> 24) & 255] ^ RT1[(y3 >> 16) & 255]
^ RT2[(y2 >> 8) & 255] ^ RT3[y1 & 255] ^ k[16];
x1 = RT0[(y1 >> 24) & 255] ^ RT1[(y0 >> 16) & 255]
^ RT2[(y3 >> 8) & 255] ^ RT3[y2 & 255] ^ k[17];
x2 = RT0[(y2 >> 24) & 255] ^ RT1[(y1 >> 16) & 255]
^ RT2[(y0 >> 8) & 255] ^ RT3[y3 & 255] ^ k[18];
x3 = RT0[(y3 >> 24) & 255] ^ RT1[(y2 >> 16) & 255]
^ RT2[(y1 >> 8) & 255] ^ RT3[y0 & 255] ^ k[19];
y0 = RT0[(x0 >> 24) & 255] ^ RT1[(x3 >> 16) & 255]
^ RT2[(x2 >> 8) & 255] ^ RT3[x1 & 255] ^ k[20];
y1 = RT0[(x1 >> 24) & 255] ^ RT1[(x0 >> 16) & 255]
^ RT2[(x3 >> 8) & 255] ^ RT3[x2 & 255] ^ k[21];
y2 = RT0[(x2 >> 24) & 255] ^ RT1[(x1 >> 16) & 255]
^ RT2[(x0 >> 8) & 255] ^ RT3[x3 & 255] ^ k[22];
y3 = RT0[(x3 >> 24) & 255] ^ RT1[(x2 >> 16) & 255]
^ RT2[(x1 >> 8) & 255] ^ RT3[x0 & 255] ^ k[23];
x0 = RT0[(y0 >> 24) & 255] ^ RT1[(y3 >> 16) & 255]
^ RT2[(y2 >> 8) & 255] ^ RT3[y1 & 255] ^ k[24];
x1 = RT0[(y1 >> 24) & 255] ^ RT1[(y0 >> 16) & 255]
^ RT2[(y3 >> 8) & 255] ^ RT3[y2 & 255] ^ k[25];
x2 = RT0[(y2 >> 24) & 255] ^ RT1[(y1 >> 16) & 255]
^ RT2[(y0 >> 8) & 255] ^ RT3[y3 & 255] ^ k[26];
x3 = RT0[(y3 >> 24) & 255] ^ RT1[(y2 >> 16) & 255]
^ RT2[(y1 >> 8) & 255] ^ RT3[y0 & 255] ^ k[27];
y0 = RT0[(x0 >> 24) & 255] ^ RT1[(x3 >> 16) & 255]
^ RT2[(x2 >> 8) & 255] ^ RT3[x1 & 255] ^ k[28];
y1 = RT0[(x1 >> 24) & 255] ^ RT1[(x0 >> 16) & 255]
^ RT2[(x3 >> 8) & 255] ^ RT3[x2 & 255] ^ k[29];
y2 = RT0[(x2 >> 24) & 255] ^ RT1[(x1 >> 16) & 255]
^ RT2[(x0 >> 8) & 255] ^ RT3[x3 & 255] ^ k[30];
y3 = RT0[(x3 >> 24) & 255] ^ RT1[(x2 >> 16) & 255]
^ RT2[(x1 >> 8) & 255] ^ RT3[x0 & 255] ^ k[31];
x0 = RT0[(y0 >> 24) & 255] ^ RT1[(y3 >> 16) & 255]
^ RT2[(y2 >> 8) & 255] ^ RT3[y1 & 255] ^ k[32];
x1 = RT0[(y1 >> 24) & 255] ^ RT1[(y0 >> 16) & 255]
^ RT2[(y3 >> 8) & 255] ^ RT3[y2 & 255] ^ k[33];
x2 = RT0[(y2 >> 24) & 255] ^ RT1[(y1 >> 16) & 255]
^ RT2[(y0 >> 8) & 255] ^ RT3[y3 & 255] ^ k[34];
x3 = RT0[(y3 >> 24) & 255] ^ RT1[(y2 >> 16) & 255]
^ RT2[(y1 >> 8) & 255] ^ RT3[y0 & 255] ^ k[35];
y0 = RT0[(x0 >> 24) & 255] ^ RT1[(x3 >> 16) & 255]
^ RT2[(x2 >> 8) & 255] ^ RT3[x1 & 255] ^ k[36];
y1 = RT0[(x1 >> 24) & 255] ^ RT1[(x0 >> 16) & 255]
^ RT2[(x3 >> 8) & 255] ^ RT3[x2 & 255] ^ k[37];
y2 = RT0[(x2 >> 24) & 255] ^ RT1[(x1 >> 16) & 255]
^ RT2[(x0 >> 8) & 255] ^ RT3[x3 & 255] ^ k[38];
y3 = RT0[(x3 >> 24) & 255] ^ RT1[(x2 >> 16) & 255]
^ RT2[(x1 >> 8) & 255] ^ RT3[x0 & 255] ^ k[39];
x0 = ((RS[(y0 >> 24) & 255] << 24) | (RS[(y3 >> 16) & 255] << 16)
| (RS[(y2 >> 8) & 255] << 8) | RS[y1 & 255]) ^ k[40];
x1 = ((RS[(y1 >> 24) & 255] << 24) | (RS[(y0 >> 16) & 255] << 16)
| (RS[(y3 >> 8) & 255] << 8) | RS[y2 & 255]) ^ k[41];
x2 = ((RS[(y2 >> 24) & 255] << 24) | (RS[(y1 >> 16) & 255] << 16)
| (RS[(y0 >> 8) & 255] << 8) | RS[y3 & 255]) ^ k[42];
x3 = ((RS[(y3 >> 24) & 255] << 24) | (RS[(y2 >> 16) & 255] << 16)
| (RS[(y1 >> 8) & 255] << 8) | RS[y0 & 255]) ^ k[43];
Bits.writeInt(out, off, x0);
Bits.writeInt(out, off + 4, x1);
Bits.writeInt(out, off + 8, x2);
Bits.writeInt(out, off + 12, x3);
}
@Override
public int getKeyLength() {
return 16;
}
}