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gnupg/cipher/cipher.c

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1998-04-07 20:16:10 +02:00
/* cipher.c - cipher dispatcher
* Copyright (C) 1998 Free Software Foundation, Inc.
*
* This file is part of GnuPG.
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*
* GnuPG is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* GnuPG is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <assert.h>
#include "util.h"
#include "errors.h"
#include "cipher.h"
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#include "des.h"
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#include "blowfish.h"
#include "cast5.h"
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#include "dynload.h"
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#define MAX_BLOCKSIZE 16
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#define TABLE_SIZE 10
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struct cipher_table_s {
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const char *name;
int algo;
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size_t blocksize;
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size_t keylen;
size_t contextsize; /* allocate this amount of context */
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int (*setkey)( void *c, byte *key, unsigned keylen );
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void (*encrypt)( void *c, byte *outbuf, byte *inbuf );
void (*decrypt)( void *c, byte *outbuf, byte *inbuf );
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};
static struct cipher_table_s cipher_table[TABLE_SIZE];
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struct cipher_handle_s {
int algo;
int mode;
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size_t blocksize;
byte iv[MAX_BLOCKSIZE]; /* (this should be ulong aligned) */
byte lastiv[MAX_BLOCKSIZE];
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int unused; /* in IV */
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int (*setkey)( void *c, byte *key, unsigned keylen );
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void (*encrypt)( void *c, byte *outbuf, byte *inbuf );
void (*decrypt)( void *c, byte *outbuf, byte *inbuf );
PROPERLY_ALIGNED_TYPE context;
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};
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static int
dummy_setkey( void *c, byte *key, unsigned keylen ) { return 0; }
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static void
dummy_encrypt_block( void *c, byte *outbuf, byte *inbuf ) { BUG(); }
static void
dummy_decrypt_block( void *c, byte *outbuf, byte *inbuf ) { BUG(); }
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/****************
* Put the static entries into the table.
*/
static void
setup_cipher_table(void)
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{
int i;
i = 0;
if( getenv("GNUPG_ENABLE_TWOFISH") ) {
cipher_table[i].algo = CIPHER_ALGO_TWOFISH;
cipher_table[i].name = twofish_get_info( cipher_table[i].algo,
&cipher_table[i].keylen,
&cipher_table[i].blocksize,
&cipher_table[i].contextsize,
&cipher_table[i].setkey,
&cipher_table[i].encrypt,
&cipher_table[i].decrypt );
if( !cipher_table[i].name )
BUG();
i++;
}
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cipher_table[i].algo = CIPHER_ALGO_BLOWFISH;
cipher_table[i].name = blowfish_get_info( cipher_table[i].algo,
&cipher_table[i].keylen,
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&cipher_table[i].blocksize,
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&cipher_table[i].contextsize,
&cipher_table[i].setkey,
&cipher_table[i].encrypt,
&cipher_table[i].decrypt );
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if( !cipher_table[i].name )
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BUG();
i++;
cipher_table[i].algo = CIPHER_ALGO_CAST5;
cipher_table[i].name = cast5_get_info( cipher_table[i].algo,
&cipher_table[i].keylen,
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&cipher_table[i].blocksize,
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&cipher_table[i].contextsize,
&cipher_table[i].setkey,
&cipher_table[i].encrypt,
&cipher_table[i].decrypt );
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if( !cipher_table[i].name )
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BUG();
i++;
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cipher_table[i].algo = CIPHER_ALGO_3DES;
cipher_table[i].name = des_get_info( cipher_table[i].algo,
&cipher_table[i].keylen,
&cipher_table[i].blocksize,
&cipher_table[i].contextsize,
&cipher_table[i].setkey,
&cipher_table[i].encrypt,
&cipher_table[i].decrypt );
if( !cipher_table[i].name )
BUG();
i++;
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cipher_table[i].algo = CIPHER_ALGO_DUMMY;
cipher_table[i].name = "DUMMY";
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cipher_table[i].blocksize = 8;
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cipher_table[i].keylen = 128;
cipher_table[i].contextsize = 0;
cipher_table[i].setkey = dummy_setkey;
cipher_table[i].encrypt = dummy_encrypt_block;
cipher_table[i].decrypt = dummy_decrypt_block;
i++;
for( ; i < TABLE_SIZE; i++ )
cipher_table[i].name = NULL;
}
/****************
* Try to load all modules and return true if new modules are available
*/
static int
load_cipher_modules(void)
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{
static int done = 0;
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static int initialized = 0;
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void *context = NULL;
struct cipher_table_s *ct;
int ct_idx;
int i;
const char *name;
int any = 0;
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if( !initialized ) {
cipher_modules_constructor();
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setup_cipher_table(); /* load static modules on the first call */
initialized = 1;
return 1;
}
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if( done )
return 0;
done = 1;
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for(ct_idx=0, ct = cipher_table; ct_idx < TABLE_SIZE; ct_idx++,ct++ ) {
if( !ct->name )
break;
}
if( ct_idx >= TABLE_SIZE-1 )
BUG(); /* table already full */
/* now load all extensions */
while( (name = enum_gnupgext_ciphers( &context, &ct->algo,
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&ct->keylen, &ct->blocksize, &ct->contextsize,
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&ct->setkey, &ct->encrypt, &ct->decrypt)) ) {
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if( ct->blocksize != 8 && ct->blocksize != 16 ) {
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log_info("skipping cipher %d: unsupported blocksize\n", ct->algo);
continue;
}
for(i=0; cipher_table[i].name; i++ )
if( cipher_table[i].algo == ct->algo )
break;
if( cipher_table[i].name ) {
log_info("skipping cipher %d: already loaded\n", ct->algo );
continue;
}
/* put it into the table */
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if( g10_opt_verbose > 1 )
log_info("loaded cipher %d (%s)\n", ct->algo, name);
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ct->name = name;
ct_idx++;
ct++;
any = 1;
/* check whether there are more available table slots */
if( ct_idx >= TABLE_SIZE-1 ) {
log_info("cipher table full; ignoring other extensions\n");
break;
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}
}
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enum_gnupgext_ciphers( &context, NULL, NULL, NULL, NULL,
NULL, NULL, NULL );
return any;
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}
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/****************
* Map a string to the cipher algo
*/
int
string_to_cipher_algo( const char *string )
{
int i;
const char *s;
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do {
for(i=0; (s=cipher_table[i].name); i++ )
if( !stricmp( s, string ) )
return cipher_table[i].algo;
} while( load_cipher_modules() );
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return 0;
}
/****************
* Map a cipher algo to a string
*/
const char *
cipher_algo_to_string( int algo )
{
int i;
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do {
for(i=0; cipher_table[i].name; i++ )
if( cipher_table[i].algo == algo )
return cipher_table[i].name;
} while( load_cipher_modules() );
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return NULL;
}
/****************
* Return 0 if the cipher algo is available
*/
int
check_cipher_algo( int algo )
{
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int i;
do {
for(i=0; cipher_table[i].name; i++ )
if( cipher_table[i].algo == algo )
return 0; /* okay */
} while( load_cipher_modules() );
return G10ERR_CIPHER_ALGO;
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}
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unsigned
cipher_get_keylen( int algo )
{
int i;
unsigned len = 0;
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do {
for(i=0; cipher_table[i].name; i++ ) {
if( cipher_table[i].algo == algo ) {
len = cipher_table[i].keylen;
if( !len )
log_bug("cipher %d w/o key length\n", algo );
return len;
}
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}
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} while( load_cipher_modules() );
log_bug("cipher %d not found\n", algo );
return 0;
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}
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unsigned
cipher_get_blocksize( int algo )
{
int i;
unsigned len = 0;
do {
for(i=0; cipher_table[i].name; i++ ) {
if( cipher_table[i].algo == algo ) {
len = cipher_table[i].blocksize;
if( !len )
log_bug("cipher %d w/o blocksize\n", algo );
return len;
}
}
} while( load_cipher_modules() );
log_bug("cipher %d not found\n", algo );
return 0;
}
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/****************
* Open a cipher handle for use with algorithm ALGO, in mode MODE
* and put it into secure memory if SECURE is true.
*/
CIPHER_HANDLE
cipher_open( int algo, int mode, int secure )
{
CIPHER_HANDLE hd;
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int i;
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fast_random_poll();
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do {
for(i=0; cipher_table[i].name; i++ )
if( cipher_table[i].algo == algo )
break;
} while( !cipher_table[i].name && load_cipher_modules() );
if( !cipher_table[i].name ) {
log_fatal("cipher_open: algorithm %d not available\n", algo );
return NULL;
}
/* ? perform selftest here and mark this with a flag in cipher_table ? */
hd = secure ? m_alloc_secure_clear( sizeof *hd
+ cipher_table[i].contextsize
- sizeof(PROPERLY_ALIGNED_TYPE) )
: m_alloc_clear( sizeof *hd + cipher_table[i].contextsize
- sizeof(PROPERLY_ALIGNED_TYPE) );
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hd->algo = algo;
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hd->blocksize = cipher_table[i].blocksize;
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hd->setkey = cipher_table[i].setkey;
hd->encrypt = cipher_table[i].encrypt;
hd->decrypt = cipher_table[i].decrypt;
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if( algo == CIPHER_ALGO_DUMMY )
hd->mode = CIPHER_MODE_DUMMY;
else if( mode == CIPHER_MODE_AUTO_CFB ) {
if( algo >= 100 )
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hd->mode = CIPHER_MODE_CFB;
else
hd->mode = CIPHER_MODE_PHILS_CFB;
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}
else
hd->mode = mode;
return hd;
}
void
cipher_close( CIPHER_HANDLE c )
{
m_free(c);
}
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int
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cipher_setkey( CIPHER_HANDLE c, byte *key, unsigned keylen )
{
return (*c->setkey)( &c->context.c, key, keylen );
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}
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void
cipher_setiv( CIPHER_HANDLE c, const byte *iv, unsigned ivlen )
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{
memset( c->iv, 0, c->blocksize );
if( iv ) {
if( ivlen != c->blocksize )
log_info("WARNING: cipher_setiv: ivlen=%u blklen=%u\n",
ivlen, c->blocksize );
if( ivlen > c->blocksize )
ivlen = c->blocksize;
memcpy( c->iv, iv, ivlen );
}
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c->unused = 0;
}
static void
do_ecb_encrypt( CIPHER_HANDLE c, byte *outbuf, byte *inbuf, unsigned nblocks )
{
unsigned n;
for(n=0; n < nblocks; n++ ) {
(*c->encrypt)( &c->context.c, outbuf, inbuf );
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inbuf += c->blocksize;
outbuf += c->blocksize;
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}
}
static void
do_ecb_decrypt( CIPHER_HANDLE c, byte *outbuf, byte *inbuf, unsigned nblocks )
{
unsigned n;
for(n=0; n < nblocks; n++ ) {
(*c->decrypt)( &c->context.c, outbuf, inbuf );
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inbuf += c->blocksize;
outbuf += c->blocksize;
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}
}
static void
do_cfb_encrypt( CIPHER_HANDLE c, byte *outbuf, byte *inbuf, unsigned nbytes )
{
byte *ivp;
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size_t blocksize = c->blocksize;
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if( nbytes <= c->unused ) {
/* short enough to be encoded by the remaining XOR mask */
/* XOR the input with the IV and store input into IV */
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for(ivp=c->iv+c->blocksize - c->unused; nbytes; nbytes--, c->unused-- )
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*outbuf++ = (*ivp++ ^= *inbuf++);
return;
}
if( c->unused ) {
/* XOR the input with the IV and store input into IV */
nbytes -= c->unused;
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for(ivp=c->iv+blocksize - c->unused; c->unused; c->unused-- )
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*outbuf++ = (*ivp++ ^= *inbuf++);
}
/* now we can process complete blocks */
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while( nbytes >= blocksize ) {
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int i;
/* encrypt the IV (and save the current one) */
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memcpy( c->lastiv, c->iv, blocksize );
(*c->encrypt)( &c->context.c, c->iv, c->iv );
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/* XOR the input with the IV and store input into IV */
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for(ivp=c->iv,i=0; i < blocksize; i++ )
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*outbuf++ = (*ivp++ ^= *inbuf++);
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nbytes -= blocksize;
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}
if( nbytes ) { /* process the remaining bytes */
/* encrypt the IV (and save the current one) */
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memcpy( c->lastiv, c->iv, blocksize );
(*c->encrypt)( &c->context.c, c->iv, c->iv );
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c->unused = blocksize;
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/* and apply the xor */
c->unused -= nbytes;
for(ivp=c->iv; nbytes; nbytes-- )
*outbuf++ = (*ivp++ ^= *inbuf++);
}
}
static void
do_cfb_decrypt( CIPHER_HANDLE c, byte *outbuf, byte *inbuf, unsigned nbytes )
{
byte *ivp;
ulong temp;
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size_t blocksize = c->blocksize;
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if( nbytes <= c->unused ) {
/* short enough to be encoded by the remaining XOR mask */
/* XOR the input with the IV and store input into IV */
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for(ivp=c->iv+blocksize - c->unused; nbytes; nbytes--,c->unused--){
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temp = *inbuf++;
*outbuf++ = *ivp ^ temp;
*ivp++ = temp;
}
return;
}
if( c->unused ) {
/* XOR the input with the IV and store input into IV */
nbytes -= c->unused;
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for(ivp=c->iv+blocksize - c->unused; c->unused; c->unused-- ) {
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temp = *inbuf++;
*outbuf++ = *ivp ^ temp;
*ivp++ = temp;
}
}
/* now we can process complete blocks */
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while( nbytes >= blocksize ) {
int i;
/* encrypt the IV (and save the current one) */
memcpy( c->lastiv, c->iv, blocksize );
(*c->encrypt)( &c->context.c, c->iv, c->iv );
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/* XOR the input with the IV and store input into IV */
for(ivp=c->iv,i=0; i < blocksize; i++ ) {
temp = *inbuf++;
*outbuf++ = *ivp ^ temp;
*ivp++ = temp;
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}
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nbytes -= blocksize;
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}
if( nbytes ) { /* process the remaining bytes */
/* encrypt the IV (and save the current one) */
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memcpy( c->lastiv, c->iv, blocksize );
(*c->encrypt)( &c->context.c, c->iv, c->iv );
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c->unused = blocksize;
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/* and apply the xor */
c->unused -= nbytes;
for(ivp=c->iv; nbytes; nbytes-- ) {
temp = *inbuf++;
*outbuf++ = *ivp ^ temp;
*ivp++ = temp;
}
}
}
/****************
* Encrypt INBUF to OUTBUF with the mode selected at open.
* inbuf and outbuf may overlap or be the same.
* Depending on the mode some some contraints apply to NBYTES.
*/
void
cipher_encrypt( CIPHER_HANDLE c, byte *outbuf, byte *inbuf, unsigned nbytes )
{
switch( c->mode ) {
case CIPHER_MODE_ECB:
assert(!(nbytes%8));
do_ecb_encrypt(c, outbuf, inbuf, nbytes/8 );
break;
case CIPHER_MODE_CFB:
case CIPHER_MODE_PHILS_CFB:
do_cfb_encrypt(c, outbuf, inbuf, nbytes );
break;
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case CIPHER_MODE_DUMMY:
if( inbuf != outbuf )
memmove( outbuf, inbuf, nbytes );
break;
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default: log_fatal("cipher_encrypt: invalid mode %d\n", c->mode );
}
}
/****************
* Decrypt INBUF to OUTBUF with the mode selected at open.
* inbuf and outbuf may overlap or be the same.
* Depending on the mode some some contraints apply to NBYTES.
*/
void
cipher_decrypt( CIPHER_HANDLE c, byte *outbuf, byte *inbuf, unsigned nbytes )
{
switch( c->mode ) {
case CIPHER_MODE_ECB:
assert(!(nbytes%8));
do_ecb_decrypt(c, outbuf, inbuf, nbytes/8 );
break;
case CIPHER_MODE_CFB:
case CIPHER_MODE_PHILS_CFB:
do_cfb_decrypt(c, outbuf, inbuf, nbytes );
break;
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case CIPHER_MODE_DUMMY:
if( inbuf != outbuf )
memmove( outbuf, inbuf, nbytes );
break;
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default: log_fatal("cipher_decrypt: invalid mode %d\n", c->mode );
}
}
/****************
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* Used for PGP's somewhat strange CFB mode. Only works if
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* the handle is in PHILS_CFB mode
*/
void
cipher_sync( CIPHER_HANDLE c )
{
if( c->mode == CIPHER_MODE_PHILS_CFB && c->unused ) {
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memmove(c->iv + c->unused, c->iv, c->blocksize - c->unused );
memcpy(c->iv, c->lastiv + c->blocksize - c->unused, c->unused);
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c->unused = 0;
}
}