Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 2003 - 2006 Pekka Riikonen
+ Copyright (C) 2003 - 2008 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
GNU General Public License for more details.
*/
-/* $Id$ */
-#include "silc.h"
+#include "silccrypto.h"
#include "rsa.h"
+#include "silcpkcs1_i.h"
/************************** PKCS #1 message format ***************************/
case SILC_PKCS1_BT_PUB:
/* Encryption */
+ if (!rng) {
+ SILC_LOG_ERROR(("Cannot encrypt: random number generator not provided"));
+ return FALSE;
+ }
/* It is guaranteed this routine does not return zero byte. */
- if (rng)
- for (i = 2; i < padlen; i++)
- dest_data[i] = silc_rng_get_byte_fast(rng);
- else
- for (i = 2; i < padlen; i++)
- dest_data[i] = silc_rng_global_get_byte_fast();
+ for (i = 2; i < padlen; i++)
+ dest_data[i] = silc_rng_get_byte_fast(rng);
+
break;
}
SilcUInt32 dest_data_size,
SilcUInt32 *dest_len)
{
- int i = 0;
+ SilcUInt32 i = 0;
SILC_LOG_DEBUG(("PKCS#1 decoding, bt %d", bt));
}
/* Sanity checks */
+ if (i >= data_len) {
+ SILC_LOG_DEBUG(("Malformed block, too short message"));
+ return FALSE;
+ }
+ if (i < SILC_PKCS1_MIN_PADDING) {
+ SILC_LOG_DEBUG(("Malformed block, too short padding"));
+ return FALSE;
+ }
if (data[i++] != 0x00) {
SILC_LOG_DEBUG(("Malformed block"));
return FALSE;
}
- if (i - 1 < SILC_PKCS1_MIN_PADDING) {
- SILC_LOG_DEBUG(("Malformed block"));
+ if (i >= data_len) {
+ SILC_LOG_DEBUG(("Malformed block, too short message"));
return FALSE;
}
if (dest_data_size < data_len - i) {
/* Generates RSA key pair. */
-SilcBool silc_pkcs1_generate_key(SilcUInt32 keylen,
- SilcRng rng,
- void **ret_public_key,
- void **ret_private_key)
+SILC_PKCS_ALG_GENERATE_KEY(silc_pkcs1_generate_key)
{
SilcUInt32 prime_bits = keylen / 2;
SilcMPInt p, q;
}
/* Generate the actual keys */
- if (!rsa_generate_keys(keylen, &p, &q, ret_public_key, ret_private_key))
+ if (!silc_rsa_generate_keys(keylen, &p, &q, ret_public_key, ret_private_key))
return FALSE;
silc_mp_uninit(&p);
/* Import PKCS #1 compliant public key */
-SilcBool silc_pkcs1_import_public_key(unsigned char *key,
- SilcUInt32 key_len,
- void **ret_public_key)
+SILC_PKCS_ALG_IMPORT_PUBLIC_KEY(silc_pkcs1_import_public_key)
{
SilcAsn1 asn1 = NULL;
SilcBufferStruct alg_key;
RsaPublicKey *pubkey;
if (!ret_public_key)
- return FALSE;
+ return 0;
- asn1 = silc_asn1_alloc();
+ asn1 = silc_asn1_alloc(NULL);
if (!asn1)
- return FALSE;
+ return 0;
/* Allocate RSA public key */
*ret_public_key = pubkey = silc_calloc(1, sizeof(*pubkey));
if (!silc_asn1_decode(asn1, &alg_key,
SILC_ASN1_OPTS(SILC_ASN1_ALLOC),
SILC_ASN1_SEQUENCE,
- SILC_ASN1_INT(&pubkey->n),
- SILC_ASN1_INT(&pubkey->e),
+ SILC_ASN1_INT(&pubkey->n),
+ SILC_ASN1_INT(&pubkey->e),
SILC_ASN1_END, SILC_ASN1_END))
goto err;
/* Set key length */
- pubkey->bits = silc_mp_sizeinbase(&pubkey->n, 2);
+ pubkey->bits = ((silc_mp_sizeinbase(&pubkey->n, 2) + 7) / 8) * 8;
silc_asn1_free(asn1);
- return TRUE;
+ return key_len;
err:
+ silc_free(pubkey);
silc_asn1_free(asn1);
- return FALSE;
+ return 0;
}
/* Export PKCS #1 compliant public key */
-unsigned char *silc_pkcs1_export_public_key(void *public_key,
- SilcUInt32 *ret_len)
+SILC_PKCS_ALG_EXPORT_PUBLIC_KEY(silc_pkcs1_export_public_key)
{
RsaPublicKey *key = public_key;
SilcAsn1 asn1 = NULL;
SilcBufferStruct alg_key;
unsigned char *ret;
- asn1 = silc_asn1_alloc();
+ asn1 = silc_asn1_alloc(stack);
if (!asn1)
goto err;
if (!silc_asn1_encode(asn1, &alg_key,
SILC_ASN1_OPTS(SILC_ASN1_ALLOC),
SILC_ASN1_SEQUENCE,
- SILC_ASN1_INT(&key->n),
- SILC_ASN1_INT(&key->e),
+ SILC_ASN1_INT(&key->n),
+ SILC_ASN1_INT(&key->e),
SILC_ASN1_END, SILC_ASN1_END))
goto err;
/* Returns key length */
-SilcUInt32 silc_pkcs1_public_key_bitlen(void *public_key)
+SILC_PKCS_ALG_PUBLIC_KEY_BITLEN(silc_pkcs1_public_key_bitlen)
{
RsaPublicKey *key = public_key;
return key->bits;
/* Copy public key */
-void *silc_pkcs1_public_key_copy(void *public_key)
+SILC_PKCS_ALG_PUBLIC_KEY_COPY(silc_pkcs1_public_key_copy)
{
RsaPublicKey *key = public_key, *new_key;
/* Compare public keys */
-SilcBool silc_pkcs1_public_key_compare(void *key1, void *key2)
+SILC_PKCS_ALG_PUBLIC_KEY_COMPARE(silc_pkcs1_public_key_compare)
{
RsaPublicKey *k1 = key1, *k2 = key2;
/* Frees public key */
-void silc_pkcs1_public_key_free(void *public_key)
+SILC_PKCS_ALG_PUBLIC_KEY_FREE(silc_pkcs1_public_key_free)
{
RsaPublicKey *key = public_key;
silc_mp_uninit(&key->n);
silc_mp_uninit(&key->e);
+ silc_hash_free(key->hash);
silc_free(key);
}
/* Import PKCS #1 compliant private key */
-SilcBool silc_pkcs1_import_private_key(unsigned char *key,
- SilcUInt32 key_len,
- void **ret_private_key)
+SILC_PKCS_ALG_IMPORT_PRIVATE_KEY(silc_pkcs1_import_private_key)
{
SilcAsn1 asn1;
SilcBufferStruct alg_key;
RsaPrivateKey *privkey;
+ SilcUInt32 ver;
if (!ret_private_key)
- return FALSE;
+ return 0;
- asn1 = silc_asn1_alloc();
+ asn1 = silc_asn1_alloc(NULL);
if (!asn1)
- return FALSE;
+ return 0;
/* Allocate RSA private key */
*ret_private_key = privkey = silc_calloc(1, sizeof(*privkey));
if (!silc_asn1_decode(asn1, &alg_key,
SILC_ASN1_OPTS(SILC_ASN1_ALLOC),
SILC_ASN1_SEQUENCE,
- SILC_ASN1_INT(NULL),
- SILC_ASN1_INT(&privkey->n),
- SILC_ASN1_INT(&privkey->e),
- SILC_ASN1_INT(&privkey->d),
- SILC_ASN1_INT(&privkey->p),
- SILC_ASN1_INT(&privkey->q),
- SILC_ASN1_INT(&privkey->dP),
- SILC_ASN1_INT(&privkey->dQ),
- SILC_ASN1_INT(&privkey->qP),
+ SILC_ASN1_SHORT_INT(&ver),
+ SILC_ASN1_INT(&privkey->n),
+ SILC_ASN1_INT(&privkey->e),
+ SILC_ASN1_INT(&privkey->d),
+ SILC_ASN1_INT(&privkey->p),
+ SILC_ASN1_INT(&privkey->q),
+ SILC_ASN1_INT(&privkey->dP),
+ SILC_ASN1_INT(&privkey->dQ),
+ SILC_ASN1_INT(&privkey->qP),
SILC_ASN1_END, SILC_ASN1_END))
goto err;
+ if (ver != 0)
+ goto err;
+
/* Set key length */
- privkey->bits = silc_mp_sizeinbase(&privkey->n, 2);
+ privkey->bits = ((silc_mp_sizeinbase(&privkey->n, 2) + 7) / 8) * 8;
silc_asn1_free(asn1);
- return TRUE;
+ return key_len;
err:
+ silc_free(privkey);
silc_asn1_free(asn1);
- return FALSE;
+ return 0;
}
/* Export PKCS #1 compliant private key */
-unsigned char *silc_pkcs1_export_private_key(void *private_key,
- SilcUInt32 *ret_len)
+SILC_PKCS_ALG_EXPORT_PRIVATE_KEY(silc_pkcs1_export_private_key)
{
RsaPrivateKey *key = private_key;
SilcAsn1 asn1;
SilcBufferStruct alg_key;
- SilcMPInt version;
unsigned char *ret;
- asn1 = silc_asn1_alloc();
+ asn1 = silc_asn1_alloc(stack);
if (!asn1)
return FALSE;
/* Encode to PKCS #1 private key */
- silc_mp_init(&version);
- silc_mp_set_ui(&version, 0);
memset(&alg_key, 0, sizeof(alg_key));
if (!silc_asn1_encode(asn1, &alg_key,
SILC_ASN1_OPTS(SILC_ASN1_ALLOC),
SILC_ASN1_SEQUENCE,
- SILC_ASN1_INT(&version),
- SILC_ASN1_INT(&key->n),
- SILC_ASN1_INT(&key->e),
- SILC_ASN1_INT(&key->d),
- SILC_ASN1_INT(&key->p),
- SILC_ASN1_INT(&key->q),
- SILC_ASN1_INT(&key->dP),
- SILC_ASN1_INT(&key->dQ),
- SILC_ASN1_INT(&key->qP),
+ SILC_ASN1_SHORT_INT(0),
+ SILC_ASN1_INT(&key->n),
+ SILC_ASN1_INT(&key->e),
+ SILC_ASN1_INT(&key->d),
+ SILC_ASN1_INT(&key->p),
+ SILC_ASN1_INT(&key->q),
+ SILC_ASN1_INT(&key->dP),
+ SILC_ASN1_INT(&key->dQ),
+ SILC_ASN1_INT(&key->qP),
SILC_ASN1_END, SILC_ASN1_END))
goto err;
- silc_mp_uninit(&version);
ret = silc_buffer_steal(&alg_key, ret_len);
silc_asn1_free(asn1);
/* Returns key length */
-SilcUInt32 silc_pkcs1_private_key_bitlen(void *private_key)
+SILC_PKCS_ALG_PRIVATE_KEY_BITLEN(silc_pkcs1_private_key_bitlen)
{
RsaPrivateKey *key = private_key;
return key->bits;
/* Frees private key */
-void silc_pkcs1_private_key_free(void *private_key)
+SILC_PKCS_ALG_PRIVATE_KEY_FREE(silc_pkcs1_private_key_free)
{
RsaPrivateKey *key = private_key;
silc_mp_uninit(&key->qP);
silc_mp_uninit(&key->p);
silc_mp_uninit(&key->q);
+ silc_hash_free(key->hash);
silc_free(key);
}
/* PKCS #1 RSA routines */
-SilcBool silc_pkcs1_encrypt(void *public_key,
- unsigned char *src,
- SilcUInt32 src_len,
- unsigned char *dst,
- SilcUInt32 dst_size,
- SilcUInt32 *ret_dst_len)
+SILC_PKCS_ALG_ENCRYPT(silc_pkcs1_encrypt)
{
RsaPublicKey *key = public_key;
SilcMPInt mp_tmp;
SilcMPInt mp_dst;
unsigned char padded[2048 + 1];
SilcUInt32 len = (key->bits + 7) / 8;
+ SilcStack stack;
- if (sizeof(padded) < len)
- return FALSE;
- if (dst_size < len)
- return FALSE;
+ if (sizeof(padded) < len) {
+ encrypt_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
/* Pad data */
if (!silc_pkcs1_encode(SILC_PKCS1_BT_PUB, src, src_len,
- padded, len, NULL))
- return FALSE;
+ padded, len, rng)) {
+ encrypt_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
+ stack = silc_stack_alloc(2048, silc_crypto_stack());
+
+ silc_mp_sinit(stack, &mp_tmp);
+ silc_mp_sinit(stack, &mp_dst);
/* Data to MP */
silc_mp_bin2mp(padded, len, &mp_tmp);
/* Encrypt */
- rsa_public_operation(key, &mp_tmp, &mp_dst);
+ silc_rsa_public_operation(key, &mp_tmp, &mp_dst);
/* MP to data */
- silc_mp_mp2bin_noalloc(&mp_dst, dst, len);
- *ret_dst_len = len;
+ silc_mp_mp2bin_noalloc(&mp_dst, padded, len);
+
+ /* Deliver result */
+ encrypt_cb(TRUE, padded, len, context);
memset(padded, 0, sizeof(padded));
silc_mp_uninit(&mp_tmp);
silc_mp_uninit(&mp_dst);
+ silc_stack_free(stack);
- return TRUE;
+ return NULL;
}
-SilcBool silc_pkcs1_decrypt(void *private_key,
- unsigned char *src,
- SilcUInt32 src_len,
- unsigned char *dst,
- SilcUInt32 dst_size,
- SilcUInt32 *ret_dst_len)
+SILC_PKCS_ALG_DECRYPT(silc_pkcs1_decrypt)
{
RsaPrivateKey *key = private_key;
SilcMPInt mp_tmp;
SilcMPInt mp_dst;
unsigned char *padded, unpadded[2048 + 1];
- SilcUInt32 padded_len;
+ SilcUInt32 padded_len, dst_len;
+ SilcStack stack;
- if (dst_size < (key->bits + 7) / 8)
- return FALSE;
+ if (sizeof(unpadded) < (key->bits + 7) / 8) {
+ decrypt_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
+
+ stack = silc_stack_alloc(2048, silc_crypto_stack());
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
+ silc_mp_sinit(stack, &mp_tmp);
+ silc_mp_sinit(stack, &mp_dst);
/* Data to MP */
silc_mp_bin2mp(src, src_len, &mp_tmp);
/* Decrypt */
- rsa_private_operation(key, &mp_tmp, &mp_dst);
+ silc_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), ret_dst_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;
+ decrypt_cb(FALSE, NULL, 0, context);
+ return NULL;
}
- /* Copy to destination */
- memcpy(dst, unpadded, *ret_dst_len);
+ /* Deliver result */
+ decrypt_cb(TRUE, unpadded, dst_len, context);
memset(padded, 0, padded_len);
memset(unpadded, 0, sizeof(unpadded));
silc_free(padded);
silc_mp_uninit(&mp_tmp);
silc_mp_uninit(&mp_dst);
+ silc_stack_free(stack);
- return TRUE;
+ return NULL;
}
-SilcBool silc_pkcs1_sign(void *private_key,
- unsigned char *src,
- SilcUInt32 src_len,
- unsigned char *signature,
- SilcUInt32 signature_size,
- SilcUInt32 *ret_signature_len,
- SilcHash hash)
+/* PKCS #1 sign with appendix, hash OID included in the signature */
+
+SILC_PKCS_ALG_SIGN(silc_pkcs1_sign)
{
- return FALSE;
+ RsaPrivateKey *key = private_key;
+ unsigned char padded[2048 + 1], hashr[SILC_HASH_MAXLEN];
+ SilcMPInt mp_tmp;
+ SilcMPInt mp_dst;
+ SilcBufferStruct di;
+ SilcUInt32 len = (key->bits + 7) / 8;
+ const char *oid;
+ SilcStack stack;
+ SilcAsn1 asn1;
+
+ SILC_LOG_DEBUG(("Sign"));
+
+ if (sizeof(padded) < len) {
+ sign_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
+
+ oid = silc_hash_get_oid(hash);
+ if (!oid) {
+ sign_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
+
+ stack = silc_stack_alloc(2048, silc_crypto_stack());
+
+ asn1 = silc_asn1_alloc(stack);
+ if (!asn1) {
+ silc_stack_free(stack);
+ sign_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
+
+ /* Compute hash */
+ if (compute_hash) {
+ if (!hash)
+ hash = key->hash;
+ silc_hash_make(hash, src, src_len, hashr);
+ src = hashr;
+ src_len = silc_hash_len(hash);
+ }
+
+ /* Encode digest info */
+ memset(&di, 0, sizeof(di));
+ if (!silc_asn1_encode(asn1, &di,
+ SILC_ASN1_SEQUENCE,
+ SILC_ASN1_SEQUENCE,
+ SILC_ASN1_OID(oid),
+ SILC_ASN1_NULL(TRUE),
+ SILC_ASN1_END,
+ SILC_ASN1_OCTET_STRING(src, src_len),
+ SILC_ASN1_END, SILC_ASN1_END)) {
+ silc_asn1_free(asn1);
+ silc_stack_free(stack);
+ sign_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
+ SILC_LOG_HEXDUMP(("DigestInfo"), silc_buffer_data(&di),
+ silc_buffer_len(&di));
+
+ /* Pad data */
+ if (!silc_pkcs1_encode(SILC_PKCS1_BT_PRV1, silc_buffer_data(&di),
+ silc_buffer_len(&di), padded, len, NULL)) {
+ silc_asn1_free(asn1);
+ silc_stack_free(stack);
+ sign_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
+
+ silc_mp_sinit(stack, &mp_tmp);
+ silc_mp_sinit(stack, &mp_dst);
+
+ /* Data to MP */
+ silc_mp_bin2mp(padded, len, &mp_tmp);
+
+ /* Sign */
+ silc_rsa_private_operation(key, &mp_tmp, &mp_dst);
+
+ /* MP to data */
+ silc_mp_mp2bin_noalloc(&mp_dst, padded, len);
+
+ /* Deliver result */
+ sign_cb(TRUE, padded, len, context);
+
+ memset(padded, 0, sizeof(padded));
+ if (compute_hash)
+ memset(hashr, 0, sizeof(hashr));
+ silc_mp_uninit(&mp_tmp);
+ silc_mp_uninit(&mp_dst);
+ silc_asn1_free(asn1);
+ silc_stack_free(stack);
+
+ return NULL;
}
-SilcBool silc_pkcs1_verify(void *public_key,
- unsigned char *signature,
- SilcUInt32 signature_len,
- unsigned char *data,
- SilcUInt32 data_len,
- SilcHash hash)
+/* PKCS #1 verification with appendix. */
+
+SILC_PKCS_ALG_VERIFY(silc_pkcs1_verify)
{
- return FALSE;
+ RsaPublicKey *key = public_key;
+ SilcBool ret = FALSE;
+ SilcMPInt mp_tmp2;
+ SilcMPInt mp_dst;
+ unsigned char *verify, unpadded[2048 + 1], hashr[SILC_HASH_MAXLEN];
+ SilcUInt32 verify_len, len = (key->bits + 7) / 8;
+ SilcBufferStruct di, ldi;
+ SilcBool has_null = TRUE;
+ SilcHash ihash = NULL;
+ SilcStack stack;
+ SilcAsn1 asn1;
+ char *oid;
+
+ SILC_LOG_DEBUG(("Verify signature"));
+
+ stack = silc_stack_alloc(2048, silc_crypto_stack());
+
+ asn1 = silc_asn1_alloc(stack);
+ if (!asn1) {
+ verify_cb(FALSE, context);
+ return NULL;
+ }
+
+ silc_mp_sinit(stack, &mp_tmp2);
+ silc_mp_sinit(stack, &mp_dst);
+
+ /* Format the signature into MP int */
+ silc_mp_bin2mp(signature, signature_len, &mp_tmp2);
+
+ /* Verify */
+ silc_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))
+ goto err;
+ silc_buffer_set(&di, unpadded, len);
+
+ /* If hash isn't given, allocate the one given in digest info */
+ if (compute_hash) {
+ if (!hash) {
+ has_null = FALSE;
+
+ /* Decode digest info */
+ if (!silc_asn1_decode(asn1, &di,
+ SILC_ASN1_OPTS(SILC_ASN1_ACCUMUL),
+ SILC_ASN1_SEQUENCE,
+ SILC_ASN1_SEQUENCE,
+ SILC_ASN1_OID(&oid),
+ SILC_ASN1_NULL_T(SILC_ASN1_OPTIONAL,
+ SILC_ASN1_TAG_NULL, &has_null),
+ SILC_ASN1_END,
+ SILC_ASN1_END, SILC_ASN1_END))
+ goto err;
+
+ if (!silc_hash_alloc_by_oid(oid, &ihash)) {
+ SILC_LOG_DEBUG(("Unknown OID %s", oid));
+ goto err;
+ }
+ hash = ihash;
+ }
+
+ /* Hash the data */
+ silc_hash_make(hash, data, data_len, hashr);
+ data = hashr;
+ data_len = silc_hash_len(hash);
+ oid = (char *)silc_hash_get_oid(hash);
+ }
+
+ /* Encode digest info for comparison */
+ memset(&ldi, 0, sizeof(ldi));
+ if (!silc_asn1_encode(asn1, &ldi,
+ SILC_ASN1_OPTS(SILC_ASN1_ACCUMUL),
+ SILC_ASN1_SEQUENCE,
+ SILC_ASN1_SEQUENCE,
+ SILC_ASN1_OID(oid),
+ SILC_ASN1_NULL(has_null),
+ SILC_ASN1_END,
+ SILC_ASN1_OCTET_STRING(data, data_len),
+ SILC_ASN1_END, SILC_ASN1_END))
+ goto err;
+
+ SILC_LOG_HEXDUMP(("DigestInfo remote"), silc_buffer_data(&di),
+ silc_buffer_len(&di));
+ SILC_LOG_HEXDUMP(("DigestInfo local"), silc_buffer_data(&ldi),
+ silc_buffer_len(&ldi));
+
+ /* Compare */
+ if (silc_buffer_len(&di) == silc_buffer_len(&ldi) &&
+ !memcmp(silc_buffer_data(&di), silc_buffer_data(&ldi),
+ silc_buffer_len(&ldi)))
+ ret = TRUE;
+
+ /* Deliver result */
+ verify_cb(ret, context);
+
+ memset(verify, 0, verify_len);
+ memset(unpadded, 0, sizeof(unpadded));
+ silc_free(verify);
+ silc_mp_uninit(&mp_tmp2);
+ silc_mp_uninit(&mp_dst);
+ if (compute_hash)
+ memset(hashr, 0, sizeof(hashr));
+ if (ihash)
+ silc_hash_free(ihash);
+ silc_asn1_free(asn1);
+ silc_stack_free(stack);
+
+ return NULL;
+
+ err:
+ memset(verify, 0, verify_len);
+ silc_free(verify);
+ silc_mp_uninit(&mp_tmp2);
+ silc_mp_uninit(&mp_dst);
+ if (ihash)
+ silc_hash_free(ihash);
+ silc_asn1_free(asn1);
+ silc_stack_free(stack);
+
+ verify_cb(FALSE, context);
+ return NULL;
}
/* PKCS #1 sign without hash oid */
-SilcBool silc_pkcs1_sign_no_oid(void *private_key,
- unsigned char *src,
- SilcUInt32 src_len,
- unsigned char *signature,
- SilcUInt32 signature_size,
- SilcUInt32 *ret_signature_len,
- SilcHash hash)
+SILC_PKCS_ALG_SIGN(silc_pkcs1_sign_no_oid)
{
RsaPrivateKey *key = private_key;
SilcMPInt mp_tmp;
SilcMPInt mp_dst;
unsigned char padded[2048 + 1], hashr[SILC_HASH_MAXLEN];
SilcUInt32 len = (key->bits + 7) / 8;
+ SilcStack stack;
- if (sizeof(padded) < len)
- return FALSE;
- if (signature_size < len)
- return FALSE;
+ SILC_LOG_DEBUG(("Sign"));
+
+ if (sizeof(padded) < len) {
+ sign_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
/* Compute hash if requested */
- if (hash) {
+ if (compute_hash) {
+ if (!hash)
+ hash = key->hash;
silc_hash_make(hash, src, src_len, hashr);
src = hashr;
src_len = silc_hash_len(hash);
/* Pad data */
if (!silc_pkcs1_encode(SILC_PKCS1_BT_PRV1, src, src_len,
- padded, len, NULL))
- return FALSE;
+ padded, len, NULL)) {
+ sign_cb(FALSE, NULL, 0, context);
+ return NULL;
+ }
- silc_mp_init(&mp_tmp);
- silc_mp_init(&mp_dst);
+ stack = silc_stack_alloc(2048, silc_crypto_stack());
+
+ silc_mp_sinit(stack, &mp_tmp);
+ silc_mp_sinit(stack, &mp_dst);
/* Data to MP */
silc_mp_bin2mp(padded, len, &mp_tmp);
/* Sign */
- rsa_private_operation(key, &mp_tmp, &mp_dst);
+ silc_rsa_private_operation(key, &mp_tmp, &mp_dst);
/* MP to data */
- silc_mp_mp2bin_noalloc(&mp_dst, signature, len);
- *ret_signature_len = len;
+ silc_mp_mp2bin_noalloc(&mp_dst, padded, len);
+
+ /* Deliver result */
+ sign_cb(TRUE, padded, len, context);
memset(padded, 0, sizeof(padded));
+ if (compute_hash)
+ memset(hashr, 0, sizeof(hashr));
silc_mp_uninit(&mp_tmp);
silc_mp_uninit(&mp_dst);
- if (hash)
- memset(hashr, 0, sizeof(hashr));
+ silc_stack_free(stack);
- return TRUE;
+ return NULL;
}
/* PKCS #1 verify without hash oid */
-SilcBool silc_pkcs1_verify_no_oid(void *public_key,
- unsigned char *signature,
- SilcUInt32 signature_len,
- unsigned char *data,
- SilcUInt32 data_len,
- SilcHash hash)
+SILC_PKCS_ALG_VERIFY(silc_pkcs1_verify_no_oid)
{
RsaPublicKey *key = public_key;
- int ret = TRUE;
+ SilcBool ret = FALSE;
SilcMPInt mp_tmp2;
SilcMPInt mp_dst;
unsigned char *verify, unpadded[2048 + 1], hashr[SILC_HASH_MAXLEN];
SilcUInt32 verify_len, len = (key->bits + 7) / 8;
+ SilcStack stack;
+
+ SILC_LOG_DEBUG(("Verify signature"));
+
+ stack = silc_stack_alloc(2048, silc_crypto_stack());
- silc_mp_init(&mp_tmp2);
- silc_mp_init(&mp_dst);
+ silc_mp_sinit(stack, &mp_tmp2);
+ silc_mp_sinit(stack, &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);
+ silc_rsa_public_operation(key, &mp_tmp2, &mp_dst);
/* MP to data */
verify = silc_mp_mp2bin(&mp_dst, len, &verify_len);
silc_free(verify);
silc_mp_uninit(&mp_tmp2);
silc_mp_uninit(&mp_dst);
- return FALSE;
+ silc_stack_free(stack);
+ verify_cb(FALSE, context);
+ return NULL;
}
/* Hash data if requested */
- if (hash) {
+ if (compute_hash) {
+ if (!hash)
+ hash = key->hash;
silc_hash_make(hash, data, data_len, hashr);
data = hashr;
+ data_len = silc_hash_len(hash);
}
/* Compare */
- if (memcmp(data, unpadded, len))
- ret = FALSE;
+ if (len == data_len && !memcmp(data, unpadded, len))
+ ret = TRUE;
+
+ /* Deliver result */
+ verify_cb(ret, context);
memset(verify, 0, verify_len);
memset(unpadded, 0, sizeof(unpadded));
+ if (compute_hash)
+ memset(hashr, 0, sizeof(hashr));
silc_free(verify);
silc_mp_uninit(&mp_tmp2);
silc_mp_uninit(&mp_dst);
- if (hash)
- memset(hashr, 0, sizeof(hashr));
+ silc_stack_free(stack);
- return ret;
+ return NULL;
}