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asn.c
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asn.c
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/* -*- c-basic-offset: 8 -*-
rdesktop: A Remote Desktop Protocol client.
ASN.1 utility functions
Copyright 2012-2017 Henrik Andersson <[email protected]> for Cendio AB
Copyright 2017 Alexander Zakharov <[email protected]>
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
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
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, see <http://www.gnu.org/licenses/>.
*/
#include <gnutls/gnutls.h>
#include <libtasn1.h>
#include <stdlib.h>
#include "rdesktop.h"
#include "asn.h"
// Generated by asn1Parser
#include "pkix_asn1_tab.c"
static asn1_node *asn_defs = NULL;
#define MAX_ERROR_DESCRIPTION_SIZE 1024
char errstr[MAX_ERROR_DESCRIPTION_SIZE];
/* Parse an ASN.1 BER header */
RD_BOOL
ber_parse_header(STREAM s, int tagval, uint32 *length)
{
int tag, len;
if (tagval > 0xff)
{
if (!s_check_rem(s, 2)) {
return False;
}
in_uint16_be(s, tag);
}
else
{
if (!s_check_rem(s, 1)) {
return False;
}
in_uint8(s, tag);
}
if (tag != tagval)
{
logger(Core, Error, "ber_parse_header(), expected tag %d, got %d", tagval, tag);
return False;
}
if (!s_check_rem(s, 1)) {
return False;
}
in_uint8(s, len);
if (len & 0x80)
{
len &= ~0x80;
if (!s_check_rem(s, len)) {
return False;
}
*length = 0;
while (len--)
next_be(s, *length);
}
else
*length = len;
return True;
}
void
ber_out_sequence(STREAM out, STREAM content)
{
size_t length;
length = (content ? s_length(content) : 0);
ber_out_header(out, BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED, length);
if (content)
out_stream(out, content);
}
/* Output an ASN.1 BER header */
void
ber_out_header(STREAM s, int tagval, int length)
{
if (tagval > 0xff)
{
out_uint16_be(s, tagval);
}
else
{
out_uint8(s, tagval);
}
if (length >= 0x80)
{
out_uint8(s, 0x82);
out_uint16_be(s, length);
}
else
out_uint8(s, length);
}
/* Output an ASN.1 BER integer */
void
ber_out_integer(STREAM s, int value)
{
ber_out_header(s, BER_TAG_INTEGER, 2);
out_uint16_be(s, value);
}
RD_BOOL
ber_in_header(STREAM s, int *tagval, int *decoded_len)
{
in_uint8(s, *tagval);
in_uint8(s, *decoded_len);
if (*decoded_len < 0x80)
return True;
else if (*decoded_len == 0x81)
{
in_uint8(s, *decoded_len);
return True;
}
else if (*decoded_len == 0x82)
{
in_uint16_be(s, *decoded_len);
return True;
}
return False;
}
int init_asn1_lib(void)
{
int asn1_rv;
if (asn_defs) {
return 0;
}
asn_defs = malloc(sizeof(*asn_defs));
if (!asn_defs) {
logger(Core, Error, "%s:%s:%d Failed to allocate memory for ASN.1 parser\n",
__FILE__, __func__, __LINE__);
return 1;
}
*asn_defs = NULL;
if (ASN1_SUCCESS != (asn1_rv = asn1_array2tree(pkix_asn1_tab, asn_defs, errstr))) {
logger(Core, Error, "%s:%s:%d Failed to init ASN.1 parser. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
return 0;
}
/* Encode RSA public key into DER PKCS#1 */
/* Returns; 0 - success, 1 - fatal error, 2 - insufficient space in buffer */
int write_pkcs1_der_pubkey(const gnutls_datum_t *m, const gnutls_datum_t *e, uint8_t *out, int *out_len)
{
int asn1_rv;
asn1_node asn_cert;
if (!asn_defs) {
if (init_asn1_lib() != 0) {
return 1;
}
}
if (ASN1_SUCCESS != (asn1_rv = asn1_create_element(*asn_defs, "PKIX1Implicit88.RSAPublicKey", &asn_cert))) {
logger(Core, Error, "%s:%s:%d Failed to create ASN.1 parser element for RSAPublicKey. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
if (ASN1_SUCCESS != (asn1_rv = asn1_write_value(asn_cert, "modulus", m->data, m->size))) {
logger(Core, Error, "%s:%s:%d Failed to write modulus. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
if (ASN1_SUCCESS != (asn1_rv = asn1_write_value(asn_cert, "publicExponent", e->data, e->size))) {
logger(Core, Error, "%s:%s:%d Failed to write publicExponent. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
if (ASN1_SUCCESS != (asn1_rv = asn1_der_coding(asn_cert, "", out, out_len, errstr))) {
logger(Core, Error, "%s:%s:%d Failed to encode PKIX1Implicit88.RSAPublicKey. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
if (asn1_rv == ASN1_MEM_ERROR) {
return 2;
}
return 1;
}
return 0;
}
int libtasn_read_cert_pk_oid(uint8_t *data, size_t len, char *oid, size_t *oid_size)
{
int asn1_rv;
asn1_node asn_cert;
/* Parse DER encoded x.509 certificate */
if (!asn_defs) {
if (init_asn1_lib() != 0) {
return 1;
}
}
if (ASN1_SUCCESS != (asn1_rv = asn1_create_element(*asn_defs, "PKIX1Implicit88.Certificate", &asn_cert))) {
logger(Core, Error, "%s:%s:%d Failed to create ASN.1 parser element. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
if (ASN1_SUCCESS != (asn1_rv = asn1_der_decoding(&asn_cert, data, len, errstr))) {
logger(Core, Error, "%s:%s:%d Failed to decode certificate object. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
if (ASN1_SUCCESS != (asn1_rv = asn1_read_value(asn_cert, "tbsCertificate.subjectPublicKeyInfo.algorithm.algorithm",
oid, (int *)oid_size)))
{
logger(Core, Error, "%s:%s:%d Failed to get cert's public key algorithm. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
return 0;
}
int libtasn_read_cert_pk_parameters(uint8_t *data, size_t len, gnutls_datum_t *m, gnutls_datum_t *e)
{
int asn1_rv;
asn1_node asn_cert;
int buflen;
uint8_t buf[16384];
asn1_node asn_key;
int nblen;
uint8_t newbuf[16384];
/* Parse DER encoded x.509 certificate */
init_asn1_lib();
if (ASN1_SUCCESS != (asn1_rv = asn1_create_element(*asn_defs, "PKIX1Implicit88.Certificate", &asn_cert))) {
logger(Core, Error, "%s:%s:%d Failed to create ASN.1 parser element. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
if (ASN1_SUCCESS != (asn1_rv = asn1_der_decoding(&asn_cert, data, len, errstr))) {
logger(Core, Error, "%s:%s:%d Failed to decode certificate object. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
buflen = sizeof(buf) - 1;
if (ASN1_SUCCESS != (asn1_rv = asn1_read_value(asn_cert, "tbsCertificate.subjectPublicKeyInfo.subjectPublicKey", buf, &buflen))) {
logger(Core, Error, "%s:%s:%d Failed to get cert's public key. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
if (ASN1_SUCCESS != (asn1_rv = asn1_create_element(*asn_defs, "PKIX1Implicit88.RSAPublicKey", &asn_key))) {
logger(Core, Error, "%s:%s:%d Failed to create ASN.1 parser element. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
// As it' a BIT STRING the len constitutes the number of BITS, not BYTES
if (ASN1_SUCCESS != (asn1_rv = asn1_der_decoding(&asn_key, buf, buflen / 8, errstr))) {
logger(Core, Error, "%s:%s:%d Failed to decode public key object. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
/* Get RSA public key's modulus and exponent */
nblen = sizeof(newbuf);
if (ASN1_SUCCESS != (asn1_rv = asn1_read_value(asn_key, "modulus", newbuf, &nblen))) {
logger(Core, Error, "%s:%s:%d Failed to get RSA public key's modulus. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
m->size = nblen;
if (!(m->data = malloc(m->size))) {
logger(Core, Error, "%s:%s:%d Failed to allocate memory for modulus.\n", __FILE__, __func__, __LINE__);
return 1;
}
memcpy((void *)m->data, newbuf, m->size);
nblen = sizeof(newbuf);
if (ASN1_SUCCESS != (asn1_rv = asn1_read_value(asn_key, "publicExponent", newbuf, &nblen))) {
logger(Core, Error, "%s:%s:%d Failed to get RSA public key's exponent. Error = 0x%x (%s)\n",
__FILE__, __func__, __LINE__, asn1_rv, asn1_strerror(asn1_rv));
return 1;
}
e->size = nblen;
if (!(e->data = malloc(e->size))) {
logger(Core, Error, "%s:%s:%d Failed to allocate memory for exponent.\n", __FILE__, __func__, __LINE__);
if (m->data) {
free(m->data);
}
return 1;
}
memcpy((void *)e->data, newbuf, e->size);
return 0;
}