This source file includes following definitions.
- _init_mcrypt
- _mcrypt_set_state
- _mcrypt_get_state
- _end_mcrypt
- _mcrypt
- _mdecrypt
- gf_crypt_register_cfb
#include <gpac/internal/crypt_dev.h>
#if !defined(GPAC_CRYPT_ISMA_ONLY) && !defined(GPAC_DISABLE_MCRYPT)
typedef struct cfb_buf {
u8* s_register;
u8* enc_s_register;
int blocksize;
} CFB_BUFFER;
static GF_Err _init_mcrypt( CFB_BUFFER* buf, void *key, int lenofkey, void *IV, int size)
{
buf->s_register = buf->enc_s_register = NULL;
buf->blocksize = size;
buf->s_register=gf_malloc( size);
if (buf->s_register==NULL) goto freeall;
buf->enc_s_register=gf_malloc( size);
if (buf->enc_s_register==NULL) goto freeall;
if (IV!=NULL) {
memcpy(buf->s_register, IV, size);
} else {
memset(buf->s_register, 0, size);
}
return GF_OK;
freeall:
if (buf->s_register) gf_free(buf->s_register);
if (buf->enc_s_register) gf_free(buf->enc_s_register);
return GF_OUT_OF_MEM;
}
static GF_Err _mcrypt_set_state( CFB_BUFFER* buf, void *IV, int size)
{
memcpy(buf->enc_s_register, IV, size);
memcpy(buf->s_register, IV, size);
return GF_OK;
}
static GF_Err _mcrypt_get_state( CFB_BUFFER* buf, u8 *IV, int *size)
{
if (*size < buf->blocksize) {
*size = buf->blocksize;
return GF_BAD_PARAM;
}
*size = buf->blocksize;
memcpy( IV, buf->s_register, buf->blocksize);
return GF_OK;
}
static void _end_mcrypt( CFB_BUFFER* buf) {
gf_free(buf->s_register);
gf_free(buf->enc_s_register);
}
static GF_Err _mcrypt( CFB_BUFFER* buf, void *plaintext, int len, int blocksize, void* akey, void (*func)(void*,void*), void (*func2)(void*,void*))
{
char *plain = plaintext;
int i, j;
void (*_mcrypt_block_encrypt) (void *, void *);
_mcrypt_block_encrypt = func;
for (j = 0; j < len; j++) {
memcpy(buf->enc_s_register, buf->s_register, blocksize);
_mcrypt_block_encrypt(akey, buf->enc_s_register);
plain[j] ^= buf->enc_s_register[0];
for (i = 0; i < (blocksize - 1); i++)
buf->s_register[i] = buf->s_register[i + 1];
buf->s_register[blocksize - 1] = plain[j];
}
return GF_OK;
}
static GF_Err _mdecrypt( CFB_BUFFER* buf, void *plaintext, int len, int blocksize, void* akey, void (*func)(void*,void*), void (*func2)(void*,void*))
{
char *plain = plaintext;
int i, j;
void (*_mcrypt_block_encrypt) (void *, void *);
_mcrypt_block_encrypt = func;
for (j = 0; j < len; j++) {
memcpy(buf->enc_s_register, buf->s_register, blocksize);
_mcrypt_block_encrypt(akey, buf->enc_s_register);
for (i = 0; i < (blocksize - 1); i++)
buf->s_register[i] = buf->s_register[i + 1];
buf->s_register[blocksize - 1] = plain[j];
plain[j] ^= buf->enc_s_register[0];
}
return GF_OK;
}
void gf_crypt_register_cfb(GF_Crypt *td)
{
td->mode_name = "CFB";
td->_init_mcrypt = _init_mcrypt;
td->_end_mcrypt = _end_mcrypt;
td->_mcrypt = _mcrypt;
td->_mdecrypt = _mdecrypt;
td->_mcrypt_get_state = _mcrypt_get_state;
td->_mcrypt_set_state = _mcrypt_set_state;
td->has_IV = 1;
td->is_block_mode = 0;
td->is_block_algo_mode = 1;
td->mode_size = sizeof(CFB_BUFFER);
td->mode_version = 20020310;
}
#endif