shrub/jets/e/aes_ecb.c

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2016-05-24 19:02:06 +03:00
/* j/5/aes_ecb.c
**
*/
#include "all.h"
#include <openssl/aes.h>
/* functions
*/
u3_noun
u3qea_ecba_en(u3_atom key,
u3_atom blk)
{
c3_y key_y[16];
c3_y blk_y[16];
AES_KEY key_u;
c3_assert(u3r_met(3, key) <= 16);
c3_assert(u3r_met(3, blk) <= 16);
{
int i = 15;
do {
key_y[i] = u3r_byte(15-i, key);
i--;
} while (i >= 0);
}
{
int i = 15;
do {
blk_y[i] = u3r_byte(15-i, blk);
i--;
} while (i >= 0);
}
if ( 0 != AES_set_encrypt_key(key_y, 128, &key_u) ) {
return u3m_bail(c3__exit);
}
else {
AES_ecb_encrypt(blk_y, blk_y, &key_u, AES_ENCRYPT);
}
/* array reverse - we can write backwards u3i_bytes *
* in the unlikely event that this becomes a problem */
{
int i = 15;
int j = 0;
c3_y tmp;
do {
tmp = blk_y[i];
blk_y[i] = blk_y[j];
blk_y[j] = tmp;
i--; j++;
} while (i > j);
}
return u3i_bytes(16, blk_y);
}
u3_noun
u3wea_ecba_en(u3_noun cor)
{
u3_noun a, b;
if ( c3n == u3r_mean(cor, u3x_sam, &b, u3x_con_sam, &a, 0) ||
c3n == u3ud(a) ||
c3n == u3ud(b) ) {
return u3m_bail(c3__exit);
} else {
return u3qea_ecba_en(a, b);
}
}
u3_noun
u3qea_ecba_de(u3_atom key,
u3_atom blk)
{
c3_y key_y[16];
c3_y blk_y[16];
AES_KEY key_u;
c3_assert(u3r_met(3, key) <= 16);
c3_assert(u3r_met(3, blk) <= 16);
{
int i = 15;
do {
key_y[i] = u3r_byte(15-i, key);
i--;
} while (i >= 0);
}
{
int i = 15;
do {
blk_y[i] = u3r_byte(15-i, blk);
i--;
} while (i >= 0);
}
if ( 0 != AES_set_decrypt_key(key_y, 128, &key_u) ) {
return u3m_bail(c3__exit);
}
else {
AES_ecb_encrypt(blk_y, blk_y, &key_u, AES_DECRYPT);
}
/* array reverse - we can write backwards u3i_bytes *
* in the unlikely event that this becomes a problem */
{
int i = 15;
int j = 0;
c3_y tmp;
do {
tmp = blk_y[i];
blk_y[i] = blk_y[j];
blk_y[j] = tmp;
i--; j++;
} while (i > j);
}
return u3i_bytes(16, blk_y);
}
u3_noun
u3wea_ecba_de(u3_noun cor)
{
u3_noun a, b;
if ( c3n == u3r_mean(cor, u3x_sam, &b, u3x_con_sam, &a, 0) ||
c3n == u3ud(a) ||
c3n == u3ud(b) ) {
return u3m_bail(c3__exit);
} else {
return u3qea_ecba_de(a, b);
}
}
u3_noun
u3qea_ecbb_en(u3_atom key,
u3_atom blk)
{
c3_y key_y[24];
c3_y blk_y[16];
AES_KEY key_u;
c3_assert(u3r_met(3, key) <= 24);
c3_assert(u3r_met(3, blk) <= 16);
{
int i = 23;
do {
key_y[i] = u3r_byte(23-i, key);
i--;
} while (i >= 0);
}
{
int i = 15;
do {
blk_y[i] = u3r_byte(15-i, blk);
i--;
} while (i >= 0);
}
if ( 0 != AES_set_encrypt_key(key_y, 192, &key_u) ) {
return u3m_bail(c3__exit);
}
else {
AES_ecb_encrypt(blk_y, blk_y, &key_u, AES_ENCRYPT);
}
/* array reverse - we can write backwards u3i_bytes *
* in the unlikely event that this becomes a problem */
{
int i = 15;
int j = 0;
c3_y tmp;
do {
tmp = blk_y[i];
blk_y[i] = blk_y[j];
blk_y[j] = tmp;
i--; j++;
} while (i > j);
}
return u3i_bytes(16, blk_y);
}
u3_noun
u3wea_ecbb_en(u3_noun cor)
{
u3_noun a, b;
if ( c3n == u3r_mean(cor, u3x_sam, &b, u3x_con_sam, &a, 0) ||
c3n == u3ud(a) ||
c3n == u3ud(b) ) {
return u3m_bail(c3__exit);
} else {
return u3qea_ecbb_en(a, b);
}
}
u3_noun
u3qea_ecbb_de(u3_atom key,
u3_atom blk)
{
c3_y key_y[24];
c3_y blk_y[16];
AES_KEY key_u;
c3_assert(u3r_met(3, key) <= 24);
c3_assert(u3r_met(3, blk) <= 16);
{
int i = 23;
do {
key_y[i] = u3r_byte(23-i, key);
i--;
} while (i >= 0);
}
{
int i = 15;
do {
blk_y[i] = u3r_byte(15-i, blk);
i--;
} while (i >= 0);
}
if ( 0 != AES_set_decrypt_key(key_y, 192, &key_u) ) {
return u3m_bail(c3__exit);
}
else {
AES_ecb_encrypt(blk_y, blk_y, &key_u, AES_DECRYPT);
}
/* array reverse - we can write backwards u3i_bytes *
* in the unlikely event that this becomes a problem */
{
int i = 15;
int j = 0;
c3_y tmp;
do {
tmp = blk_y[i];
blk_y[i] = blk_y[j];
blk_y[j] = tmp;
i--; j++;
} while (i > j);
}
return u3i_bytes(16, blk_y);
}
u3_noun
u3wea_ecbb_de(u3_noun cor)
{
u3_noun a, b;
if ( c3n == u3r_mean(cor, u3x_sam, &b, u3x_con_sam, &a, 0) ||
c3n == u3ud(a) ||
c3n == u3ud(b) ) {
return u3m_bail(c3__exit);
} else {
return u3qea_ecbb_de(a, b);
}
}
u3_noun
u3qea_ecbc_en(u3_atom key,
u3_atom blk)
{
c3_y key_y[32];
c3_y blk_y[16];
AES_KEY key_u;
c3_assert(u3r_met(3, key) <= 32);
c3_assert(u3r_met(3, blk) <= 16);
{
int i = 31;
do {
key_y[i] = u3r_byte(31-i, key);
i--;
} while (i >= 0);
}
{
int i = 15;
do {
blk_y[i] = u3r_byte(15-i, blk);
i--;
} while (i >= 0);
}
if ( 0 != AES_set_encrypt_key(key_y, 256, &key_u) ) {
return u3m_bail(c3__exit);
}
else {
AES_ecb_encrypt(blk_y, blk_y, &key_u, AES_ENCRYPT);
}
/* array reverse - we can write backwards u3i_bytes *
* in the unlikely event that this becomes a problem */
{
int i = 15;
int j = 0;
c3_y tmp;
do {
tmp = blk_y[i];
blk_y[i] = blk_y[j];
blk_y[j] = tmp;
i--; j++;
} while (i > j);
}
return u3i_bytes(16, blk_y);
}
u3_noun
u3wea_ecbc_en(u3_noun cor)
{
u3_noun a, b;
if ( c3n == u3r_mean(cor, u3x_sam, &b, u3x_con_sam, &a, 0) ||
c3n == u3ud(a) ||
c3n == u3ud(b) ) {
return u3m_bail(c3__exit);
} else {
return u3qea_ecbc_en(a, b);
}
}
u3_noun
u3qea_ecbc_de(u3_atom key,
u3_atom blk)
{
c3_y key_y[32];
c3_y blk_y[16];
AES_KEY key_u;
c3_assert(u3r_met(3, key) <= 32);
c3_assert(u3r_met(3, blk) <= 16);
{
int i = 31;
do {
key_y[i] = u3r_byte(31-i, key);
i--;
} while (i >= 0);
}
{
int i = 15;
do {
blk_y[i] = u3r_byte(15-i, blk);
i--;
} while (i >= 0);
}
if ( 0 != AES_set_decrypt_key(key_y, 256, &key_u) ) {
return u3m_bail(c3__exit);
}
else {
AES_ecb_encrypt(blk_y, blk_y, &key_u, AES_DECRYPT);
}
/* array reverse - we can write backwards u3i_bytes *
* in the unlikely event that this becomes a problem */
{
int i = 15;
int j = 0;
c3_y tmp;
do {
tmp = blk_y[i];
blk_y[i] = blk_y[j];
blk_y[j] = tmp;
i--; j++;
} while (i > j);
}
return u3i_bytes(16, blk_y);
}
u3_noun
u3wea_ecbc_de(u3_noun cor)
{
u3_noun a, b;
if ( c3n == u3r_mean(cor, u3x_sam, &b, u3x_con_sam, &a, 0) ||
c3n == u3ud(a) ||
c3n == u3ud(b) ) {
return u3m_bail(c3__exit);
} else {
return u3qea_ecbc_de(a, b);
}
}