Commit 0fad49e1 authored by Fernando Fernandez Mancera's avatar Fernando Fernandez Mancera
Browse files

Move crypto_pk_obsolete_* functions into RSA module.



We moved the crypto_pk_obselete_* functions into crypto_rsa.[ch] because they fit
better with the RSA module.

Follows #24658.

Signed-off-by: default avatarFernando Fernandez Mancera <ffmancera@riseup.net>
parent 541b6b24
......@@ -398,150 +398,6 @@ crypto_cipher_free_(crypto_cipher_t *env)
aes_cipher_free(env);
}
/* public key crypto */
/** Perform a hybrid (public/secret) encryption on <b>fromlen</b>
* bytes of data from <b>from</b>, with padding type 'padding',
* storing the results on <b>to</b>.
*
* Returns the number of bytes written on success, -1 on failure.
*
* The encrypted data consists of:
* - The source data, padded and encrypted with the public key, if the
* padded source data is no longer than the public key, and <b>force</b>
* is false, OR
* - The beginning of the source data prefixed with a 16-byte symmetric key,
* padded and encrypted with the public key; followed by the rest of
* the source data encrypted in AES-CTR mode with the symmetric key.
*
* NOTE that this format does not authenticate the symmetrically encrypted
* part of the data, and SHOULD NOT BE USED for new protocols.
*/
int
crypto_pk_obsolete_public_hybrid_encrypt(crypto_pk_t *env,
char *to, size_t tolen,
const char *from,
size_t fromlen,
int padding, int force)
{
int overhead, outlen, r;
size_t pkeylen, symlen;
crypto_cipher_t *cipher = NULL;
char *buf = NULL;
tor_assert(env);
tor_assert(from);
tor_assert(to);
tor_assert(fromlen < SIZE_T_CEILING);
overhead = crypto_get_rsa_padding_overhead(crypto_get_rsa_padding(padding));
pkeylen = crypto_pk_keysize(env);
if (!force && fromlen+overhead <= pkeylen) {
/* It all fits in a single encrypt. */
return crypto_pk_public_encrypt(env,to,
tolen,
from,fromlen,padding);
}
tor_assert(tolen >= fromlen + overhead + CIPHER_KEY_LEN);
tor_assert(tolen >= pkeylen);
char key[CIPHER_KEY_LEN];
crypto_rand(key, sizeof(key)); /* generate a new key. */
cipher = crypto_cipher_new(key);
buf = tor_malloc(pkeylen+1);
memcpy(buf, key, CIPHER_KEY_LEN);
memcpy(buf+CIPHER_KEY_LEN, from, pkeylen-overhead-CIPHER_KEY_LEN);
/* Length of symmetrically encrypted data. */
symlen = fromlen-(pkeylen-overhead-CIPHER_KEY_LEN);
outlen = crypto_pk_public_encrypt(env,to,tolen,buf,pkeylen-overhead,padding);
if (outlen!=(int)pkeylen) {
goto err;
}
r = crypto_cipher_encrypt(cipher, to+outlen,
from+pkeylen-overhead-CIPHER_KEY_LEN, symlen);
if (r<0) goto err;
memwipe(buf, 0, pkeylen);
memwipe(key, 0, sizeof(key));
tor_free(buf);
crypto_cipher_free(cipher);
tor_assert(outlen+symlen < INT_MAX);
return (int)(outlen + symlen);
err:
memwipe(buf, 0, pkeylen);
memwipe(key, 0, sizeof(key));
tor_free(buf);
crypto_cipher_free(cipher);
return -1;
}
/** Invert crypto_pk_obsolete_public_hybrid_encrypt. Returns the number of
* bytes written on success, -1 on failure.
*
* NOTE that this format does not authenticate the symmetrically encrypted
* part of the data, and SHOULD NOT BE USED for new protocols.
*/
int
crypto_pk_obsolete_private_hybrid_decrypt(crypto_pk_t *env,
char *to,
size_t tolen,
const char *from,
size_t fromlen,
int padding, int warnOnFailure)
{
int outlen, r;
size_t pkeylen;
crypto_cipher_t *cipher = NULL;
char *buf = NULL;
tor_assert(fromlen < SIZE_T_CEILING);
pkeylen = crypto_pk_keysize(env);
if (fromlen <= pkeylen) {
return crypto_pk_private_decrypt(env,to,tolen,from,fromlen,padding,
warnOnFailure);
}
buf = tor_malloc(pkeylen);
outlen = crypto_pk_private_decrypt(env,buf,pkeylen,from,pkeylen,padding,
warnOnFailure);
if (outlen<0) {
log_fn(warnOnFailure?LOG_WARN:LOG_DEBUG, LD_CRYPTO,
"Error decrypting public-key data");
goto err;
}
if (outlen < CIPHER_KEY_LEN) {
log_fn(warnOnFailure?LOG_WARN:LOG_INFO, LD_CRYPTO,
"No room for a symmetric key");
goto err;
}
cipher = crypto_cipher_new(buf);
if (!cipher) {
goto err;
}
memcpy(to,buf+CIPHER_KEY_LEN,outlen-CIPHER_KEY_LEN);
outlen -= CIPHER_KEY_LEN;
tor_assert(tolen - outlen >= fromlen - pkeylen);
r = crypto_cipher_decrypt(cipher, to+outlen, from+pkeylen, fromlen-pkeylen);
if (r<0)
goto err;
memwipe(buf,0,pkeylen);
tor_free(buf);
crypto_cipher_free(cipher);
tor_assert(outlen + fromlen < INT_MAX);
return (int)(outlen + (fromlen-pkeylen));
err:
memwipe(buf,0,pkeylen);
tor_free(buf);
crypto_cipher_free(cipher);
return -1;
}
/** Copy <b>in</b> to the <b>outlen</b>-byte buffer <b>out</b>, adding spaces
* every four characters. */
void
......
......@@ -64,16 +64,6 @@ void crypto_cipher_free_(crypto_cipher_t *env);
#define crypto_cipher_free(c) \
FREE_AND_NULL(crypto_cipher_t, crypto_cipher_free_, (c))
/* public key crypto */
int crypto_pk_obsolete_public_hybrid_encrypt(crypto_pk_t *env, char *to,
size_t tolen,
const char *from, size_t fromlen,
int padding, int force);
int crypto_pk_obsolete_private_hybrid_decrypt(crypto_pk_t *env, char *to,
size_t tolen,
const char *from, size_t fromlen,
int padding, int warnOnFailure);
/* symmetric crypto */
const char *crypto_cipher_get_key(crypto_cipher_t *env);
......
......@@ -627,6 +627,148 @@ crypto_pk_copy_full(crypto_pk_t *env)
return crypto_new_pk_from_rsa_(new_key);
}
/** Perform a hybrid (public/secret) encryption on <b>fromlen</b>
* bytes of data from <b>from</b>, with padding type 'padding',
* storing the results on <b>to</b>.
*
* Returns the number of bytes written on success, -1 on failure.
*
* The encrypted data consists of:
* - The source data, padded and encrypted with the public key, if the
* padded source data is no longer than the public key, and <b>force</b>
* is false, OR
* - The beginning of the source data prefixed with a 16-byte symmetric key,
* padded and encrypted with the public key; followed by the rest of
* the source data encrypted in AES-CTR mode with the symmetric key.
*
* NOTE that this format does not authenticate the symmetrically encrypted
* part of the data, and SHOULD NOT BE USED for new protocols.
*/
int
crypto_pk_obsolete_public_hybrid_encrypt(crypto_pk_t *env,
char *to, size_t tolen,
const char *from,
size_t fromlen,
int padding, int force)
{
int overhead, outlen, r;
size_t pkeylen, symlen;
crypto_cipher_t *cipher = NULL;
char *buf = NULL;
tor_assert(env);
tor_assert(from);
tor_assert(to);
tor_assert(fromlen < SIZE_T_CEILING);
overhead = crypto_get_rsa_padding_overhead(crypto_get_rsa_padding(padding));
pkeylen = crypto_pk_keysize(env);
if (!force && fromlen+overhead <= pkeylen) {
/* It all fits in a single encrypt. */
return crypto_pk_public_encrypt(env,to,
tolen,
from,fromlen,padding);
}
tor_assert(tolen >= fromlen + overhead + CIPHER_KEY_LEN);
tor_assert(tolen >= pkeylen);
char key[CIPHER_KEY_LEN];
crypto_rand(key, sizeof(key)); /* generate a new key. */
cipher = crypto_cipher_new(key);
buf = tor_malloc(pkeylen+1);
memcpy(buf, key, CIPHER_KEY_LEN);
memcpy(buf+CIPHER_KEY_LEN, from, pkeylen-overhead-CIPHER_KEY_LEN);
/* Length of symmetrically encrypted data. */
symlen = fromlen-(pkeylen-overhead-CIPHER_KEY_LEN);
outlen = crypto_pk_public_encrypt(env,to,tolen,buf,pkeylen-overhead,padding);
if (outlen!=(int)pkeylen) {
goto err;
}
r = crypto_cipher_encrypt(cipher, to+outlen,
from+pkeylen-overhead-CIPHER_KEY_LEN, symlen);
if (r<0) goto err;
memwipe(buf, 0, pkeylen);
memwipe(key, 0, sizeof(key));
tor_free(buf);
crypto_cipher_free(cipher);
tor_assert(outlen+symlen < INT_MAX);
return (int)(outlen + symlen);
err:
memwipe(buf, 0, pkeylen);
memwipe(key, 0, sizeof(key));
tor_free(buf);
crypto_cipher_free(cipher);
return -1;
}
/** Invert crypto_pk_obsolete_public_hybrid_encrypt. Returns the number of
* bytes written on success, -1 on failure.
*
* NOTE that this format does not authenticate the symmetrically encrypted
* part of the data, and SHOULD NOT BE USED for new protocols.
*/
int
crypto_pk_obsolete_private_hybrid_decrypt(crypto_pk_t *env,
char *to,
size_t tolen,
const char *from,
size_t fromlen,
int padding, int warnOnFailure)
{
int outlen, r;
size_t pkeylen;
crypto_cipher_t *cipher = NULL;
char *buf = NULL;
tor_assert(fromlen < SIZE_T_CEILING);
pkeylen = crypto_pk_keysize(env);
if (fromlen <= pkeylen) {
return crypto_pk_private_decrypt(env,to,tolen,from,fromlen,padding,
warnOnFailure);
}
buf = tor_malloc(pkeylen);
outlen = crypto_pk_private_decrypt(env,buf,pkeylen,from,pkeylen,padding,
warnOnFailure);
if (outlen<0) {
log_fn(warnOnFailure?LOG_WARN:LOG_DEBUG, LD_CRYPTO,
"Error decrypting public-key data");
goto err;
}
if (outlen < CIPHER_KEY_LEN) {
log_fn(warnOnFailure?LOG_WARN:LOG_INFO, LD_CRYPTO,
"No room for a symmetric key");
goto err;
}
cipher = crypto_cipher_new(buf);
if (!cipher) {
goto err;
}
memcpy(to,buf+CIPHER_KEY_LEN,outlen-CIPHER_KEY_LEN);
outlen -= CIPHER_KEY_LEN;
tor_assert(tolen - outlen >= fromlen - pkeylen);
r = crypto_cipher_decrypt(cipher, to+outlen, from+pkeylen, fromlen-pkeylen);
if (r<0)
goto err;
memwipe(buf,0,pkeylen);
tor_free(buf);
crypto_cipher_free(cipher);
tor_assert(outlen + fromlen < INT_MAX);
return (int)(outlen + (fromlen-pkeylen));
err:
memwipe(buf,0,pkeylen);
tor_free(buf);
crypto_cipher_free(cipher);
return -1;
}
/** Encrypt <b>fromlen</b> bytes from <b>from</b> with the public key
* in <b>env</b>, using the padding method <b>padding</b>. On success,
* write the result to <b>to</b>, and return the number of bytes
......
......@@ -69,6 +69,14 @@ crypto_pk_t *crypto_pk_dup_key(crypto_pk_t *orig);
crypto_pk_t *crypto_pk_copy_full(crypto_pk_t *orig);
int crypto_pk_key_is_private(const crypto_pk_t *key);
int crypto_pk_public_exponent_ok(crypto_pk_t *env);
int crypto_pk_obsolete_public_hybrid_encrypt(crypto_pk_t *env, char *to,
size_t tolen,
const char *from, size_t fromlen,
int padding, int force);
int crypto_pk_obsolete_private_hybrid_decrypt(crypto_pk_t *env, char *to,
size_t tolen,
const char *from, size_t fromlen,
int padding, int warnOnFailure);
int crypto_pk_public_encrypt(crypto_pk_t *env, char *to, size_t tolen,
const char *from, size_t fromlen, int padding);
int crypto_pk_private_decrypt(crypto_pk_t *env, char *to, size_t tolen,
......
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