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/* Copyright (C) 2024 CZ.NIC, z.s.p.o. <knot-dns@labs.nic.cz>
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 <https://www.gnu.org/licenses/>.
*/
#include <string.h>
#include "contrib/ctype.h"
#include "contrib/strtonum.h"
#include "libdnssec/binary.h"
#include "libdnssec/error.h"
#include "libdnssec/pem.h"
#include "libdnssec/shared/shared.h"
#include "utils/keymgr/bind_privkey.h"
/* -- private key params conversion ---------------------------------------- */
/*!
* Private key attribute conversion.
*/
typedef struct param_t {
char *name;
size_t offset;
int (*parse_cb)(char *string, void *data);
void (*free_cb)(void *data);
} param_t;
static int parse_algorithm(char *string, void *_algorithm);
static int parse_binary(char *string, void *_binary);
static int parse_time(char *string, void *_time);
static void binary_free(void *_binary)
{
dnssec_binary_t *binary = _binary;
dnssec_binary_free(binary);
}
/*!
* Know attributes in private key file.
*/
const param_t PRIVKEY_CONVERSION_TABLE[] = {
#define o(field) offsetof(bind_privkey_t, field)
{ "Algorithm", o(algorithm), parse_algorithm, NULL },
{ "Modulus", o(modulus), parse_binary, binary_free },
{ "PublicExponent", o(public_exponent), parse_binary, binary_free },
{ "PrivateExponent", o(private_exponent), parse_binary, binary_free },
{ "Prime1", o(prime_one), parse_binary, binary_free },
{ "Prime2", o(prime_two), parse_binary, binary_free },
{ "Exponent1", o(exponent_one), parse_binary, binary_free },
{ "Exponent2", o(exponent_two), parse_binary, binary_free },
{ "Coefficient", o(coefficient), parse_binary, binary_free },
{ "PrivateKey", o(private_key), parse_binary, binary_free },
{ "Created", o(time_created), parse_time, NULL },
{ "Publish", o(time_publish), parse_time, NULL },
{ "Activate", o(time_activate), parse_time, NULL },
{ "Revoke", o(time_revoke), parse_time, NULL },
{ "Inactive", o(time_inactive), parse_time, NULL },
{ "Delete", o(time_delete), parse_time, NULL },
{ NULL }
#undef o
};
/* -- attribute parsing ---------------------------------------------------- */
/*!
* Parse key algorithm field.
*
* Example: 7 (NSEC3RSASHA1)
*
* Only the numeric value is decoded, the rest of the value is ignored.
*/
static int parse_algorithm(char *string, void *_algorithm)
{
char *end = string;
while (*end != '\0' && !is_space(*end)) {
end += 1;
}
*end = '\0';
uint8_t *algorithm = _algorithm;
int r = str_to_u8(string, algorithm);
return (r == KNOT_EOK ? DNSSEC_EOK : DNSSEC_INVALID_KEY_ALGORITHM);
}
/*!
* Parse binary data encoded in Base64.
*
* Example: AQAB
*/
static int parse_binary(char *string, void *_binary)
{
dnssec_binary_t base64 = {
.data = (uint8_t *)string,
.size = strlen(string)
};
dnssec_binary_t *binary = _binary;
return dnssec_binary_from_base64(&base64, binary);
}
#define LEGACY_DATE_FORMAT "%Y%m%d%H%M%S"
/*!
* Parse timestamp in a format in \ref LEGACY_DATE_FORMAT.
*
* Example: 20140415151855
*/
static int parse_time(char *string, void *_time)
{
struct tm tm = { 0 };
char *end = strptime(string, LEGACY_DATE_FORMAT, &tm);
if (end == NULL || *end != '\0') {
return DNSSEC_MALFORMED_DATA;
}
time_t *time = _time;
*time = timegm(&tm);
return DNSSEC_EOK;
}
/* -- key parsing ---------------------------------------------------------- */
/*!
* Strip string value of left and right whitespaces.
*
* \param[in,out] value Start of the string.
* \param[in,out] length Length of the string.
*
*/
static void strip(char **value, size_t *length)
{
// strip from left
while (*length > 0 && is_space(**value)) {
*value += 1;
*length -= 1;
}
// strip from right
while (*length > 0 && is_space((*value)[*length - 1])) {
*length -= 1;
}
}
/*!
* Parse one line of the private key file.
*/
static int parse_line(bind_privkey_t *params, char *line, size_t length)
{
assert(params);
assert(line);
strip(&line, &length);
if (length == 0) {
return KNOT_EOK; // blank line
}
char *separator = memchr(line, ':', length);
if (!separator) {
return DNSSEC_MALFORMED_DATA;
}
char *key = line;
size_t key_length = separator - key;
strip(&key, &key_length);
char *value = separator + 1;
size_t value_length = (line + length) - value;
strip(&value, &value_length);
if (key_length == 0 || value_length == 0) {
return DNSSEC_MALFORMED_DATA;
}
key[key_length] = '\0';
value[value_length] = '\0';
for (const param_t *p = PRIVKEY_CONVERSION_TABLE; p->name != NULL; p++) {
size_t name_length = strlen(p->name);
if (name_length != key_length) {
continue;
}
if (strcasecmp(p->name, key) != 0) {
continue;
}
return p->parse_cb(value, (void *)params + p->offset);
}
// ignore unknown attributes
return DNSSEC_EOK;
}
int bind_privkey_parse(const char *filename, bind_privkey_t *params_ptr)
{
_cleanup_fclose_ FILE *file = fopen(filename, "r");
if (!file) {
return DNSSEC_NOT_FOUND;
}
bind_privkey_t params = *params_ptr;
_cleanup_free_ char *line = NULL;
size_t size = 0;
ssize_t read = 0;
while ((read = getline(&line, &size, file)) != -1) {
int r = parse_line(¶ms, line, read);
if (r != DNSSEC_EOK) {
bind_privkey_free(¶ms);
return r;
}
}
*params_ptr = params;
return DNSSEC_EOK;
}
/* -- freeing -------------------------------------------------------------- */
/*!
* Free private key parameters.
*/
void bind_privkey_free(bind_privkey_t *params)
{
if (!params) {
return;
}
for (const param_t *p = PRIVKEY_CONVERSION_TABLE; p->name != NULL; p++) {
if (p->free_cb) {
p->free_cb((void *)params + p->offset);
}
}
clear_struct(params);
}
/* -- export to PEM -------------------------------------------------------- */
static int rsa_params_to_pem(const bind_privkey_t *params, dnssec_binary_t *pem)
{
_cleanup_x509_privkey_ gnutls_x509_privkey_t key = NULL;
int result = gnutls_x509_privkey_init(&key);
if (result != GNUTLS_E_SUCCESS) {
return DNSSEC_ENOMEM;
}
gnutls_datum_t m = binary_to_datum(¶ms->modulus);
gnutls_datum_t e = binary_to_datum(¶ms->public_exponent);
gnutls_datum_t d = binary_to_datum(¶ms->private_exponent);
gnutls_datum_t p = binary_to_datum(¶ms->prime_one);
gnutls_datum_t q = binary_to_datum(¶ms->prime_two);
gnutls_datum_t u = binary_to_datum(¶ms->coefficient);
result = gnutls_x509_privkey_import_rsa_raw(key, &m, &e, &d, &p, &q, &u);
if (result != GNUTLS_E_SUCCESS) {
return DNSSEC_KEY_IMPORT_ERROR;
}
return dnssec_pem_from_x509(key, pem);
}
/*!
* \see lib/key/convert.h
*/
static gnutls_ecc_curve_t choose_ecdsa_curve(size_t pubkey_size)
{
switch (pubkey_size) {
case 32: return GNUTLS_ECC_CURVE_ED25519;
#ifdef HAVE_ED448
case 57: return GNUTLS_ECC_CURVE_ED448;
#endif
case 64: return GNUTLS_ECC_CURVE_SECP256R1;
case 96: return GNUTLS_ECC_CURVE_SECP384R1;
default: return GNUTLS_ECC_CURVE_INVALID;
}
}
static void ecdsa_extract_public_params(dnssec_key_t *key, gnutls_ecc_curve_t *curve,
gnutls_datum_t *x, gnutls_datum_t *y)
{
dnssec_binary_t pubkey = { 0 };
dnssec_key_get_pubkey(key, &pubkey);
*curve = choose_ecdsa_curve(pubkey.size);
size_t param_size = pubkey.size / 2;
x->data = pubkey.data;
x->size = param_size;
y->data = pubkey.data + param_size;
y->size = param_size;
}
static int ecdsa_params_to_pem(dnssec_key_t *dnskey, const bind_privkey_t *params,
dnssec_binary_t *pem)
{
_cleanup_x509_privkey_ gnutls_x509_privkey_t key = NULL;
int result = gnutls_x509_privkey_init(&key);
if (result != GNUTLS_E_SUCCESS) {
return DNSSEC_ENOMEM;
}
gnutls_ecc_curve_t curve = 0;
gnutls_datum_t x = { 0 };
gnutls_datum_t y = { 0 };
ecdsa_extract_public_params(dnskey, &curve, &x, &y);
gnutls_datum_t k = binary_to_datum(¶ms->private_key);
result = gnutls_x509_privkey_import_ecc_raw(key, curve, &x, &y, &k);
if (result != DNSSEC_EOK) {
return DNSSEC_KEY_IMPORT_ERROR;
}
gnutls_x509_privkey_fix(key);
return dnssec_pem_from_x509(key, pem);
}
static void eddsa_extract_public_params(dnssec_key_t *key, gnutls_ecc_curve_t *curve,
gnutls_datum_t *x)
{
dnssec_binary_t pubkey = { 0 };
dnssec_key_get_pubkey(key, &pubkey);
*curve = choose_ecdsa_curve(pubkey.size);
x->data = pubkey.data;
x->size = pubkey.size;
}
static int eddsa_params_to_pem(dnssec_key_t *dnskey, const bind_privkey_t *params,
dnssec_binary_t *pem)
{
_cleanup_x509_privkey_ gnutls_x509_privkey_t key = NULL;
int result = gnutls_x509_privkey_init(&key);
if (result != GNUTLS_E_SUCCESS) {
return DNSSEC_ENOMEM;
}
gnutls_ecc_curve_t curve = 0;
gnutls_datum_t x = { 0 };
eddsa_extract_public_params(dnskey, &curve, &x);
gnutls_datum_t k = binary_to_datum(¶ms->private_key);
result = gnutls_x509_privkey_import_ecc_raw(key, curve, &x, NULL, &k);
if (result != DNSSEC_EOK) {
return DNSSEC_KEY_IMPORT_ERROR;
}
gnutls_x509_privkey_fix(key);
return dnssec_pem_from_x509(key, pem);
}
int bind_privkey_to_pem(dnssec_key_t *key, bind_privkey_t *params, dnssec_binary_t *pem)
{
dnssec_key_algorithm_t algorithm = dnssec_key_get_algorithm(key);
switch (algorithm) {
case DNSSEC_KEY_ALGORITHM_RSA_SHA1:
case DNSSEC_KEY_ALGORITHM_RSA_SHA1_NSEC3:
case DNSSEC_KEY_ALGORITHM_RSA_SHA256:
case DNSSEC_KEY_ALGORITHM_RSA_SHA512:
return rsa_params_to_pem(params, pem);
case DNSSEC_KEY_ALGORITHM_ECDSA_P256_SHA256:
case DNSSEC_KEY_ALGORITHM_ECDSA_P384_SHA384:
return ecdsa_params_to_pem(key, params, pem);
case DNSSEC_KEY_ALGORITHM_ED25519:
#ifdef HAVE_ED448
case DNSSEC_KEY_ALGORITHM_ED448:
#endif
return eddsa_params_to_pem(key, params, pem);
default:
return DNSSEC_INVALID_KEY_ALGORITHM;
}
}
void bind_privkey_to_timing(bind_privkey_t *params, knot_kasp_key_timing_t *timing)
{
timing->created = (knot_time_t)params->time_created;
timing->publish = (knot_time_t)params->time_publish;
timing->ready = 0;
timing->active = (knot_time_t)params->time_activate;
timing->retire = (knot_time_t)params->time_inactive;
timing->revoke = (knot_time_t)params->time_revoke;
timing->remove = (knot_time_t)params->time_delete;
}
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