Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 1997 - 2005 Pekka Riikonen
+ Copyright (C) 1997 - 2007 Pekka Riikonen
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
Fixed double free in public key setting. Use a bit larger e as
starting point in key generation.
-
*/
-#include "silcincludes.h"
-#include "rsa_internal.h"
+#include "silc.h"
#include "rsa.h"
-/*
- * SILC PKCS API for RSA
- */
-
-/* Generates RSA key pair. */
-
-SILC_PKCS_API_INIT(rsa)
-{
- SilcUInt32 prime_bits = keylen / 2;
- SilcMPInt p, q;
- bool found = FALSE;
-
- if (keylen < 768 || keylen > 16384)
- return FALSE;
-
- printf("Generating RSA Public and Private keys, might take a while...\n");
-
- silc_mp_init(&p);
- silc_mp_init(&q);
-
- /* Find p and q */
- while (!found) {
- printf("Finding p: ");
- silc_math_gen_prime(&p, prime_bits, TRUE, rng);
-
- printf("\nFinding q: ");
- silc_math_gen_prime(&q, prime_bits, TRUE, rng);
-
- if ((silc_mp_cmp(&p, &q)) == 0)
- printf("\nFound equal primes, not good, retrying...\n");
- else
- found = TRUE;
- }
-
- /* If p is smaller than q, switch them */
- if ((silc_mp_cmp(&p, &q)) > 0) {
- SilcMPInt hlp;
- silc_mp_init(&hlp);
-
- silc_mp_set(&hlp, &p);
- silc_mp_set(&p, &q);
- silc_mp_set(&q, &hlp);
-
- silc_mp_uninit(&hlp);
- }
-
- /* Generate the actual keys */
- rsa_generate_keys((RsaKey *)context, keylen, &p, &q);
-
- silc_mp_uninit(&p);
- silc_mp_uninit(&q);
-
- printf("\nKeys generated successfully.\n");
-
- return TRUE;
-}
-
-SILC_PKCS_API_CLEAR_KEYS(rsa)
-{
- rsa_clear_keys((RsaKey *)context);
-}
-
-/* Returns SILC style encoded RSA public key. */
-
-SILC_PKCS_API_GET_PUBLIC_KEY(rsa)
-{
- RsaKey *key = (RsaKey *)context;
- unsigned char *e, *n, *ret;
- SilcUInt32 e_len, n_len;
- unsigned char tmp[4];
-
- e = silc_mp_mp2bin(&key->e, 0, &e_len);
- n = silc_mp_mp2bin(&key->n, (key->bits + 7) / 8, &n_len);
-
- *ret_len = e_len + 4 + n_len + 4;
- ret = silc_calloc(*ret_len, sizeof(unsigned char));
-
- /* Put the length of the e. */
- SILC_PUT32_MSB(e_len, tmp);
- memcpy(ret, tmp, 4);
-
- /* Put the e. */
- memcpy(ret + 4, e, e_len);
-
- /* Put the length of the n. */
- SILC_PUT32_MSB(n_len, tmp);
- memcpy(ret + 4 + e_len, tmp, 4);
-
- /* Put the n. */
- memcpy(ret + 4 + e_len + 4, n, n_len);
-
- memset(e, 0, e_len);
- memset(n, 0, n_len);
- silc_free(e);
- silc_free(n);
-
- return ret;
-}
-
-/* Returns SILC style encoded RSA private key. Public key is always
- returned in private key as well. Public keys are often derived
- directly from private key. */
-
-SILC_PKCS_API_GET_PRIVATE_KEY(rsa)
-{
- RsaKey *key = (RsaKey *)context;
- SilcBuffer buf;
- unsigned char *e, *n, *d, *ret, *dp = NULL, *dq = NULL;
- unsigned char *pq = NULL, *qp = NULL, *p = NULL, *q = NULL;
- SilcUInt32 e_len, n_len, d_len, dp_len, dq_len, pq_len, qp_len, p_len, q_len;
- SilcUInt32 len = 0;
-
- e = silc_mp_mp2bin(&key->e, 0, &e_len);
- n = silc_mp_mp2bin(&key->n, (key->bits + 7) / 8, &n_len);
- d = silc_mp_mp2bin(&key->d, 0, &d_len);
- if (key->crt) {
- dp = silc_mp_mp2bin(&key->dP, 0, &dp_len);
- dq = silc_mp_mp2bin(&key->dQ, 0, &dq_len);
- pq = silc_mp_mp2bin(&key->pQ, 0, &pq_len);
- qp = silc_mp_mp2bin(&key->qP, 0, &qp_len);
- p = silc_mp_mp2bin(&key->p, 0, &p_len);
- q = silc_mp_mp2bin(&key->q, 0, &q_len);
- len = dp_len + 4 + dq_len + 4 + pq_len + 4 + qp_len + 4 + p_len + 4 +
- q_len + 4;
- }
-
- buf = silc_buffer_alloc_size(e_len + 4 + n_len + 4 + d_len + 4 + len);
- len = silc_buffer_format(buf,
- SILC_STR_UI_INT(e_len),
- SILC_STR_UI_XNSTRING(e, e_len),
- SILC_STR_UI_INT(n_len),
- SILC_STR_UI_XNSTRING(n, n_len),
- SILC_STR_UI_INT(d_len),
- SILC_STR_UI_XNSTRING(d, d_len),
- SILC_STR_END);
-
- if (key->crt) {
- silc_buffer_pull(buf, len);
- silc_buffer_format(buf,
- SILC_STR_UI_INT(dp_len),
- SILC_STR_UI_XNSTRING(dp, dp_len),
- SILC_STR_UI_INT(dq_len),
- SILC_STR_UI_XNSTRING(dq, dq_len),
- SILC_STR_UI_INT(pq_len),
- SILC_STR_UI_XNSTRING(pq, pq_len),
- SILC_STR_UI_INT(qp_len),
- SILC_STR_UI_XNSTRING(qp, qp_len),
- SILC_STR_UI_INT(p_len),
- SILC_STR_UI_XNSTRING(p, p_len),
- SILC_STR_UI_INT(q_len),
- SILC_STR_UI_XNSTRING(q, q_len),
- SILC_STR_END);
- silc_buffer_push(buf, len);
-
- memset(dp, 0, dp_len);
- memset(dq, 0, dq_len);
- memset(pq, 0, pq_len);
- memset(qp, 0, qp_len);
- memset(p, 0, p_len);
- memset(q, 0, q_len);
- silc_free(dp);
- silc_free(dq);
- silc_free(pq);
- silc_free(qp);
- silc_free(p);
- silc_free(q);
- }
-
- memset(d, 0, d_len);
- silc_free(e);
- silc_free(n);
- silc_free(d);
-
- ret = silc_buffer_steal(buf, ret_len);
- silc_buffer_free(buf);
- return ret;
-}
-
-/* Set public key */
-
-SILC_PKCS_API_SET_PUBLIC_KEY(rsa)
-{
- RsaKey *key = (RsaKey *)context;
- unsigned char tmp[4];
- SilcUInt32 e_len, n_len;
-
- if (key->pub_set) {
- silc_mp_uninit(&key->e);
- silc_mp_uninit(&key->n);
- key->pub_set = FALSE;
- }
-
- if (key_len < 4)
- return 0;
-
- silc_mp_init(&key->e);
- silc_mp_init(&key->n);
-
- memcpy(tmp, key_data, 4);
- SILC_GET32_MSB(e_len, tmp);
- if (!e_len || e_len + 4 > key_len) {
- silc_mp_uninit(&key->e);
- silc_mp_uninit(&key->n);
- return 0;
- }
-
- silc_mp_bin2mp(key_data + 4, e_len, &key->e);
-
- if (key_len < 4 + e_len + 4) {
- silc_mp_uninit(&key->e);
- silc_mp_uninit(&key->n);
- return 0;
- }
-
- memcpy(tmp, key_data + 4 + e_len, 4);
- SILC_GET32_MSB(n_len, tmp);
- if (!n_len || e_len + 4 + n_len + 4 > key_len) {
- silc_mp_uninit(&key->e);
- silc_mp_uninit(&key->n);
- return 0;
- }
-
- silc_mp_bin2mp(key_data + 4 + e_len + 4, n_len, &key->n);
-
- key->bits = silc_mp_sizeinbase(&key->n, 2);
- key->pub_set = TRUE;
-
- return key->bits;
-}
-
-/* Set private key. This derives the public key from the private
- key and sets the public key as well. Public key should not be set
- already and should not be set after setting private key. */
-
-SILC_PKCS_API_SET_PRIVATE_KEY(rsa)
-{
- RsaKey *key = (RsaKey *)context;
- SilcBufferStruct k;
- unsigned char *tmp;
- SilcUInt32 len;
-
- if (key->prv_set) {
- silc_mp_uninit(&key->d);
- key->prv_set = FALSE;
- }
-
- if (key->pub_set) {
- silc_mp_uninit(&key->e);
- silc_mp_uninit(&key->n);
- key->pub_set = FALSE;
- }
-
- if (key_len < 4)
- return FALSE;
-
- silc_buffer_set(&k, key_data, key_len);
-
- silc_mp_init(&key->e);
- silc_mp_init(&key->n);
- silc_mp_init(&key->d);
- key->prv_set = TRUE;
- key->pub_set = TRUE;
-
- /* Get e */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->e);
- silc_buffer_pull(&k, len);
-
- /* Get n */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->n);
- silc_buffer_pull(&k, len);
-
- /* Get d */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->d);
- silc_buffer_pull(&k, len);
-
- /* Get optimized d for CRT, if present. */
- if (silc_buffer_len(&k) > 4) {
- key->crt = TRUE;
- silc_mp_init(&key->dP);
- silc_mp_init(&key->dQ);
- silc_mp_init(&key->pQ);
- silc_mp_init(&key->qP);
- silc_mp_init(&key->p);
- silc_mp_init(&key->q);
-
- /* Get dP */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->dP);
- silc_buffer_pull(&k, len);
-
- /* Get dQ */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->dQ);
- silc_buffer_pull(&k, len);
-
- /* Get pQ */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->pQ);
- silc_buffer_pull(&k, len);
-
- /* Get qP */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->qP);
- silc_buffer_pull(&k, len);
-
- /* Get p */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->p);
- silc_buffer_pull(&k, len);
-
- /* Get q */
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_INT(&len),
- SILC_STR_END) < 0)
- goto err;
- silc_buffer_pull(&k, 4);
- if (silc_buffer_unformat(&k,
- SILC_STR_UI_XNSTRING(&tmp, len),
- SILC_STR_END) < 0)
- goto err;
- silc_mp_bin2mp(tmp, len, &key->q);
- silc_buffer_pull(&k, len);
- }
-
- key->bits = silc_mp_sizeinbase(&key->n, 2);
- return key->bits;
-
- err:
- rsa_clear_keys(key);
- return FALSE;
-}
-
-SILC_PKCS_API_CONTEXT_LEN(rsa)
-{
- return sizeof(RsaKey);
-}
-
-/* Raw RSA routines */
-
-SILC_PKCS_API_ENCRYPT(rsa)
-{
- RsaKey *key = (RsaKey *)context;
- int tmplen;
- SilcMPInt mp_tmp;
- SilcMPInt mp_dst;
-
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
-
- /* Format the data into MP int */
- silc_mp_bin2mp(src, src_len, &mp_tmp);
-
- /* Encrypt */
- rsa_public_operation(key, &mp_tmp, &mp_dst);
-
- tmplen = (key->bits + 7) / 8;
-
- /* Format the MP int back into data */
- silc_mp_mp2bin_noalloc(&mp_dst, dst, tmplen);
- *dst_len = tmplen;
-
- silc_mp_uninit(&mp_tmp);
- silc_mp_uninit(&mp_dst);
-
- return TRUE;
-}
-
-SILC_PKCS_API_DECRYPT(rsa)
-{
- RsaKey *key = (RsaKey *)context;
- int tmplen;
- SilcMPInt mp_tmp;
- SilcMPInt mp_dst;
-
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
-
- /* Format the data into MP int */
- silc_mp_bin2mp(src, src_len, &mp_tmp);
-
- /* Decrypt */
- rsa_private_operation(key, &mp_tmp, &mp_dst);
-
- tmplen = (key->bits + 7) / 8;
-
- /* Format the MP int back into data */
- silc_mp_mp2bin_noalloc(&mp_dst, dst, tmplen);
- *dst_len = tmplen;
-
- silc_mp_uninit(&mp_tmp);
- silc_mp_uninit(&mp_dst);
-
- return TRUE;
-}
-
-SILC_PKCS_API_SIGN(rsa)
-{
- RsaKey *key = (RsaKey *)context;
- int tmplen;
- SilcMPInt mp_tmp;
- SilcMPInt mp_dst;
-
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
-
- /* Format the data into MP int */
- silc_mp_bin2mp(src, src_len, &mp_tmp);
-
- /* Sign */
- rsa_private_operation(key, &mp_tmp, &mp_dst);
-
- tmplen = (key->bits + 7) / 8;
-
- /* Format the MP int back into data */
- silc_mp_mp2bin_noalloc(&mp_dst, dst, tmplen);
- *dst_len = tmplen;
-
- silc_mp_uninit(&mp_tmp);
- silc_mp_uninit(&mp_dst);
-
- return TRUE;
-}
-
-SILC_PKCS_API_VERIFY(rsa)
-{
- RsaKey *key = (RsaKey *)context;
- int ret;
- SilcMPInt mp_tmp, mp_tmp2;
- SilcMPInt mp_dst;
-
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_tmp2);
- silc_mp_init(&mp_dst);
-
- /* Format the signature into MP int */
- silc_mp_bin2mp(signature, signature_len, &mp_tmp2);
-
- /* Verify */
- rsa_public_operation(key, &mp_tmp2, &mp_dst);
-
- /* Format the data into MP int */
- silc_mp_bin2mp(data, data_len, &mp_tmp);
-
- ret = TRUE;
-
- /* Compare */
- if ((silc_mp_cmp(&mp_tmp, &mp_dst)) != 0)
- ret = FALSE;
-
- silc_mp_uninit(&mp_tmp);
- silc_mp_uninit(&mp_tmp2);
- silc_mp_uninit(&mp_dst);
-
- return ret;
-}
-
-
-/* PKCS#1 RSA routines */
-
-SILC_PKCS_API_ENCRYPT(pkcs1)
-{
- RsaKey *key = (RsaKey *)context;
- SilcMPInt mp_tmp;
- SilcMPInt mp_dst;
- unsigned char padded[2048 + 1];
- SilcUInt32 len = (key->bits + 7) / 8;
-
- if (sizeof(padded) < len)
- return FALSE;
-
- /* Pad data */
- if (!silc_pkcs1_encode(SILC_PKCS1_BT_PUB, src, src_len,
- padded, len, NULL))
- return FALSE;
-
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
-
- /* Data to MP */
- silc_mp_bin2mp(padded, len, &mp_tmp);
-
- /* Encrypt */
- rsa_public_operation(key, &mp_tmp, &mp_dst);
-
- /* MP to data */
- silc_mp_mp2bin_noalloc(&mp_dst, dst, len);
- *dst_len = len;
-
- memset(padded, 0, sizeof(padded));
- silc_mp_uninit(&mp_tmp);
- silc_mp_uninit(&mp_dst);
-
- return TRUE;
-}
-
-SILC_PKCS_API_DECRYPT(pkcs1)
-{
- RsaKey *key = (RsaKey *)context;
- SilcMPInt mp_tmp;
- SilcMPInt mp_dst;
- unsigned char *padded, unpadded[2048 + 1];
- SilcUInt32 padded_len;
-
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
-
- /* Data to MP */
- silc_mp_bin2mp(src, src_len, &mp_tmp);
-
- /* Decrypt */
- rsa_private_operation(key, &mp_tmp, &mp_dst);
-
- /* MP to data */
- padded = silc_mp_mp2bin(&mp_dst, (key->bits + 7) / 8, &padded_len);
-
- /* Unpad data */
- if (!silc_pkcs1_decode(SILC_PKCS1_BT_PUB, padded, padded_len,
- unpadded, sizeof(unpadded), dst_len)) {
- memset(padded, 0, padded_len);
- silc_free(padded);
- silc_mp_uninit(&mp_tmp);
- silc_mp_uninit(&mp_dst);
- return FALSE;
- }
-
- /* Copy to destination */
- memcpy(dst, unpadded, *dst_len);
-
- memset(padded, 0, padded_len);
- memset(unpadded, 0, sizeof(unpadded));
- silc_free(padded);
- silc_mp_uninit(&mp_tmp);
- silc_mp_uninit(&mp_dst);
-
- return TRUE;
-}
-
-SILC_PKCS_API_SIGN(pkcs1)
-{
- RsaKey *key = (RsaKey *)context;
- SilcMPInt mp_tmp;
- SilcMPInt mp_dst;
- unsigned char padded[2048 + 1];
- SilcUInt32 len = (key->bits + 7) / 8;
-
- if (sizeof(padded) < len)
- return FALSE;
-
- /* Pad data */
- if (!silc_pkcs1_encode(SILC_PKCS1_BT_PRV1, src, src_len,
- padded, len, NULL))
- return FALSE;
-
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
-
- /* Data to MP */
- silc_mp_bin2mp(padded, len, &mp_tmp);
-
- /* Sign */
- rsa_private_operation(key, &mp_tmp, &mp_dst);
-
- /* MP to data */
- silc_mp_mp2bin_noalloc(&mp_dst, dst, len);
- *dst_len = len;
-
- memset(padded, 0, sizeof(padded));
- silc_mp_uninit(&mp_tmp);
- silc_mp_uninit(&mp_dst);
-
- return TRUE;
-}
-
-SILC_PKCS_API_VERIFY(pkcs1)
-{
- RsaKey *key = (RsaKey *)context;
- int ret = TRUE;
- SilcMPInt mp_tmp2;
- SilcMPInt mp_dst;
- unsigned char *verify, unpadded[2048 + 1];
- SilcUInt32 verify_len, len = (key->bits + 7) / 8;
-
- silc_mp_init(&mp_tmp2);
- silc_mp_init(&mp_dst);
-
- /* Format the signature into MP int */
- silc_mp_bin2mp(signature, signature_len, &mp_tmp2);
-
- /* Verify */
- rsa_public_operation(key, &mp_tmp2, &mp_dst);
-
- /* MP to data */
- verify = silc_mp_mp2bin(&mp_dst, len, &verify_len);
-
- /* Unpad data */
- if (!silc_pkcs1_decode(SILC_PKCS1_BT_PRV1, verify, verify_len,
- unpadded, sizeof(unpadded), &len)) {
- memset(verify, 0, verify_len);
- silc_free(verify);
- silc_mp_uninit(&mp_tmp2);
- silc_mp_uninit(&mp_dst);
- return FALSE;
- }
-
- /* Compare */
- if (memcmp(data, unpadded, len))
- ret = FALSE;
-
- memset(verify, 0, verify_len);
- memset(unpadded, 0, sizeof(unpadded));
- silc_free(verify);
- silc_mp_uninit(&mp_tmp2);
- silc_mp_uninit(&mp_dst);
-
- return ret;
-}
-
/* Generates RSA public and private keys. Primes p and q that are used
to compute the modulus n has to be generated before calling this. They
are then sent as argument for the function. */
-bool rsa_generate_keys(RsaKey *key, SilcUInt32 bits,
- SilcMPInt *p, SilcMPInt *q)
+SilcBool silc_rsa_generate_keys(SilcUInt32 bits, SilcMPInt *p, SilcMPInt *q,
+ void **ret_public_key, void **ret_private_key)
{
+ RsaPublicKey *pubkey;
+ RsaPrivateKey *privkey;
SilcMPInt phi, hlp;
SilcMPInt div, lcm;
SilcMPInt pm1, qm1;
+ *ret_public_key = pubkey = silc_calloc(1, sizeof(*pubkey));
+ if (!pubkey)
+ return FALSE;
+
+ *ret_private_key = privkey = silc_calloc(1, sizeof(*privkey));
+ if (!privkey)
+ return FALSE;
+
/* Initialize variables */
- silc_mp_init(&key->n);
- silc_mp_init(&key->e);
- silc_mp_init(&key->d);
- silc_mp_init(&key->dP);
- silc_mp_init(&key->dQ);
- silc_mp_init(&key->pQ);
- silc_mp_init(&key->qP);
+ silc_mp_init(&privkey->n);
+ silc_mp_init(&privkey->e);
+ silc_mp_init(&privkey->d);
+ silc_mp_init(&privkey->dP);
+ silc_mp_init(&privkey->dQ);
+ silc_mp_init(&privkey->qP);
silc_mp_init(&phi);
silc_mp_init(&hlp);
silc_mp_init(&div);
silc_mp_init(&qm1);
/* Set modulus length */
- key->bits = bits;
+ privkey->bits = bits;
/* Compute modulus, n = p * q */
- silc_mp_mul(&key->n, p, q);
+ silc_mp_mul(&privkey->n, p, q);
/* phi = (p - 1) * (q - 1) */
silc_mp_sub_ui(&pm1, p, 1);
/* Set e, the public exponent. We try to use same public exponent
for all keys. Also, to make encryption faster we use small
number. */
- silc_mp_set_ui(&key->e, 65533);
+ silc_mp_set_ui(&privkey->e, 65533);
retry_e:
/* See if e is relatively prime to phi. gcd == greates common divisor,
if gcd equals 1 they are relatively prime. */
- silc_mp_gcd(&hlp, &key->e, &phi);
+ silc_mp_gcd(&hlp, &privkey->e, &phi);
if ((silc_mp_cmp_ui(&hlp, 1)) > 0) {
- silc_mp_add_ui(&key->e, &key->e, 2);
+ silc_mp_add_ui(&privkey->e, &privkey->e, 2);
goto retry_e;
}
/* Find d, the private exponent, e ^ -1 mod lcm(phi). */
silc_mp_gcd(&div, &pm1, &qm1);
silc_mp_div(&lcm, &phi, &div);
- silc_mp_modinv(&key->d, &key->e, &lcm);
-
- /* Optimize d with CRT. We precompute as much as possible. */
- silc_mp_mod(&key->dP, &key->d, &pm1);
- silc_mp_mod(&key->dQ, &key->d, &qm1);
- silc_mp_modinv(&key->pQ, p, q);
- silc_mp_mul(&key->pQ, p, &key->pQ);
- silc_mp_mod(&key->pQ, &key->pQ, &key->n);
- silc_mp_modinv(&key->qP, q, p);
- silc_mp_mul(&key->qP, q, &key->qP);
- silc_mp_mod(&key->qP, &key->qP, &key->n);
- silc_mp_set(&key->p, p);
- silc_mp_set(&key->q, q);
- key->crt = TRUE;
+ silc_mp_modinv(&privkey->d, &privkey->e, &lcm);
+
+ /* Optimize d with CRT. */
+ silc_mp_mod(&privkey->dP, &privkey->d, &pm1);
+ silc_mp_mod(&privkey->dQ, &privkey->d, &qm1);
+ silc_mp_modinv(&privkey->qP, q, p);
+ silc_mp_set(&privkey->p, p);
+ silc_mp_set(&privkey->q, q);
silc_mp_uninit(&phi);
silc_mp_uninit(&hlp);
silc_mp_uninit(&pm1);
silc_mp_uninit(&qm1);
- return TRUE;
-}
+ /* Set public key */
+ silc_mp_init(&pubkey->n);
+ silc_mp_init(&pubkey->e);
+ pubkey->bits = privkey->bits;
+ silc_mp_set(&pubkey->n, &privkey->n);
+ silc_mp_set(&pubkey->e, &privkey->e);
-/* Clears whole key structure. */
-
-bool rsa_clear_keys(RsaKey *key)
-{
- key->bits = 0;
- if (key->pub_set) {
- silc_mp_uninit(&key->n);
- silc_mp_uninit(&key->e);
- }
- if (key->prv_set)
- silc_mp_uninit(&key->d);
- if (key->prv_set && key->crt) {
- silc_mp_uninit(&key->dP);
- silc_mp_uninit(&key->dQ);
- silc_mp_uninit(&key->pQ);
- silc_mp_uninit(&key->qP);
- silc_mp_uninit(&key->p);
- silc_mp_uninit(&key->q);
- }
return TRUE;
}
/* RSA public key operation */
-bool rsa_public_operation(RsaKey *key, SilcMPInt *src, SilcMPInt *dst)
+SilcBool silc_rsa_public_operation(RsaPublicKey *key, SilcMPInt *src,
+ SilcMPInt *dst)
{
/* dst = src ^ e mod n */
silc_mp_pow_mod(dst, src, &key->e, &key->n);
/* RSA private key operation */
-bool rsa_private_operation(RsaKey *key, SilcMPInt *src, SilcMPInt *dst)
+SilcBool silc_rsa_private_operation(RsaPrivateKey *key, SilcMPInt *src,
+ SilcMPInt *dst)
{
- if (!key->crt) {
- /* dst = src ^ d mod n */
- silc_mp_pow_mod(dst, src, &key->d, &key->n);
- } else {
- /* CRT */
- SilcMPInt tmp;
-
- silc_mp_init(&tmp);
-
- /* dst = ((src ^ dP mod p) * qP) + ((src ^ dQ mod q) * pQ) mod n */
- silc_mp_pow_mod(dst, src, &key->dP, &key->p);
- silc_mp_mul(dst, dst, &key->qP);
- silc_mp_pow_mod(&tmp, src, &key->dQ, &key->q);
- silc_mp_mul(&tmp, &tmp, &key->pQ);
- silc_mp_add(dst, dst, &tmp);
- silc_mp_mod(dst, dst, &key->n);
-
- silc_mp_uninit(&tmp);
- }
+ SilcMPInt tmp;
+
+ silc_mp_init(&tmp);
+
+ /* dst = (src ^ dP mod p) */
+ silc_mp_pow_mod(dst, src, &key->dP, &key->p);
+
+ /* tmp = (src ^ dQ mod q) */
+ silc_mp_pow_mod(&tmp, src, &key->dQ, &key->q);
+
+ /* dst = (dst - tmp) * qP mod p */
+ silc_mp_sub(dst, dst, &tmp);
+ silc_mp_mul(dst, dst, &key->qP);
+ silc_mp_mod(dst, dst, &key->p);
+
+ /* dst = (q * dst) + tmp */
+ silc_mp_mul(dst, dst, &key->q);
+ silc_mp_add(dst, dst, &tmp);
+
+ silc_mp_uninit(&tmp);
return TRUE;
}