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|
/*
* Copyright (C) 2003-2012 Free Software Foundation, Inc.
* Copyright (C) 2012 Nikos Mavrogiannopoulos
* Copyright (C) 2017 Red Hat, Inc.
*
* Author: Nikos Mavrogiannopoulos
*
* This file is part of GnuTLS.
*
* The GnuTLS is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 2.1 of
* the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>
*
*/
/* Functions that relate on PKCS12 packet parsing.
*/
#include "gnutls_int.h"
#include <libtasn1.h>
#include <datum.h>
#include <global.h>
#include "errors.h"
#include <num.h>
#include <common.h>
#include <x509_b64.h>
#include "x509_int.h"
#include "pkcs7_int.h"
#include <random.h>
#include "intprops.h"
/* Decodes the PKCS #12 auth_safe, and returns the allocated raw data,
* which holds them. Returns an asn1_node of authenticatedSafe.
*/
static int
_decode_pkcs12_auth_safe(asn1_node pkcs12, asn1_node * authen_safe,
gnutls_datum_t * raw)
{
char oid[MAX_OID_SIZE];
asn1_node c2 = NULL;
gnutls_datum_t auth_safe = { NULL, 0 };
int len, result;
char error_str[ASN1_MAX_ERROR_DESCRIPTION_SIZE];
len = sizeof(oid) - 1;
result =
asn1_read_value(pkcs12, "authSafe.contentType", oid, &len);
if (result != ASN1_SUCCESS) {
gnutls_assert();
return _gnutls_asn2err(result);
}
if (strcmp(oid, DATA_OID) != 0) {
gnutls_assert();
_gnutls_debug_log("Unknown PKCS12 Content OID '%s'\n",
oid);
return GNUTLS_E_UNKNOWN_PKCS_CONTENT_TYPE;
}
/* Step 1. Read the content data
*/
result =
_gnutls_x509_read_string(pkcs12, "authSafe.content",
&auth_safe, ASN1_ETYPE_OCTET_STRING, 1);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
/* Step 2. Extract the authenticatedSafe.
*/
if ((result = asn1_create_element
(_gnutls_get_pkix(), "PKIX1.pkcs-12-AuthenticatedSafe",
&c2)) != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
result =
asn1_der_decoding(&c2, auth_safe.data, auth_safe.size,
error_str);
if (result != ASN1_SUCCESS) {
gnutls_assert();
_gnutls_debug_log("DER error: %s\n", error_str);
result = _gnutls_asn2err(result);
goto cleanup;
}
if (raw == NULL) {
_gnutls_free_datum(&auth_safe);
} else {
raw->data = auth_safe.data;
raw->size = auth_safe.size;
}
if (authen_safe)
*authen_safe = c2;
else
asn1_delete_structure(&c2);
return 0;
cleanup:
if (c2)
asn1_delete_structure(&c2);
_gnutls_free_datum(&auth_safe);
return result;
}
static int pkcs12_reinit(gnutls_pkcs12_t pkcs12)
{
int result;
if (pkcs12->pkcs12)
asn1_delete_structure(&pkcs12->pkcs12);
result = asn1_create_element(_gnutls_get_pkix(),
"PKIX1.pkcs-12-PFX",
&pkcs12->pkcs12);
if (result != ASN1_SUCCESS) {
gnutls_assert();
return _gnutls_asn2err(result);
}
return 0;
}
/**
* gnutls_pkcs12_init:
* @pkcs12: A pointer to the type to be initialized
*
* This function will initialize a PKCS12 type. PKCS12 structures
* usually contain lists of X.509 Certificates and X.509 Certificate
* revocation lists.
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, otherwise a
* negative error value.
**/
int gnutls_pkcs12_init(gnutls_pkcs12_t * pkcs12)
{
*pkcs12 = gnutls_calloc(1, sizeof(gnutls_pkcs12_int));
if (*pkcs12) {
int result = pkcs12_reinit(*pkcs12);
if (result < 0) {
gnutls_assert();
gnutls_free(*pkcs12);
return result;
}
return 0; /* success */
}
return GNUTLS_E_MEMORY_ERROR;
}
/**
* gnutls_pkcs12_deinit:
* @pkcs12: The type to be initialized
*
* This function will deinitialize a PKCS12 type.
**/
void gnutls_pkcs12_deinit(gnutls_pkcs12_t pkcs12)
{
if (!pkcs12)
return;
if (pkcs12->pkcs12)
asn1_delete_structure(&pkcs12->pkcs12);
gnutls_free(pkcs12);
}
/**
* gnutls_pkcs12_import:
* @pkcs12: The data to store the parsed PKCS12.
* @data: The DER or PEM encoded PKCS12.
* @format: One of DER or PEM
* @flags: an ORed sequence of gnutls_privkey_pkcs8_flags
*
* This function will convert the given DER or PEM encoded PKCS12
* to the native gnutls_pkcs12_t format. The output will be stored in 'pkcs12'.
*
* If the PKCS12 is PEM encoded it should have a header of "PKCS12".
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, otherwise a
* negative error value.
**/
int
gnutls_pkcs12_import(gnutls_pkcs12_t pkcs12,
const gnutls_datum_t * data,
gnutls_x509_crt_fmt_t format, unsigned int flags)
{
int result = 0, need_free = 0;
gnutls_datum_t _data;
char error_str[ASN1_MAX_ERROR_DESCRIPTION_SIZE];
_data.data = data->data;
_data.size = data->size;
if (pkcs12 == NULL) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
/* If the PKCS12 is in PEM format then decode it
*/
if (format == GNUTLS_X509_FMT_PEM) {
result =
_gnutls_fbase64_decode(PEM_PKCS12, data->data,
data->size, &_data);
if (result < 0) {
gnutls_assert();
return result;
}
need_free = 1;
}
if (pkcs12->expanded) {
result = pkcs12_reinit(pkcs12);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
}
pkcs12->expanded = 1;
result =
asn1_der_decoding(&pkcs12->pkcs12, _data.data, _data.size,
error_str);
if (result != ASN1_SUCCESS) {
result = _gnutls_asn2err(result);
_gnutls_debug_log("DER error: %s\n", error_str);
gnutls_assert();
goto cleanup;
}
if (need_free)
_gnutls_free_datum(&_data);
return 0;
cleanup:
if (need_free)
_gnutls_free_datum(&_data);
return result;
}
/**
* gnutls_pkcs12_export:
* @pkcs12: A pkcs12 type
* @format: the format of output params. One of PEM or DER.
* @output_data: will contain a structure PEM or DER encoded
* @output_data_size: holds the size of output_data (and will be
* replaced by the actual size of parameters)
*
* This function will export the pkcs12 structure to DER or PEM format.
*
* If the buffer provided is not long enough to hold the output, then
* *output_data_size will be updated and GNUTLS_E_SHORT_MEMORY_BUFFER
* will be returned.
*
* If the structure is PEM encoded, it will have a header
* of "BEGIN PKCS12".
*
* Returns: In case of failure a negative error code will be
* returned, and 0 on success.
**/
int
gnutls_pkcs12_export(gnutls_pkcs12_t pkcs12,
gnutls_x509_crt_fmt_t format, void *output_data,
size_t * output_data_size)
{
if (pkcs12 == NULL) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
return _gnutls_x509_export_int(pkcs12->pkcs12, format, PEM_PKCS12,
output_data, output_data_size);
}
/**
* gnutls_pkcs12_export2:
* @pkcs12: A pkcs12 type
* @format: the format of output params. One of PEM or DER.
* @out: will contain a structure PEM or DER encoded
*
* This function will export the pkcs12 structure to DER or PEM format.
*
* The output buffer is allocated using gnutls_malloc().
*
* If the structure is PEM encoded, it will have a header
* of "BEGIN PKCS12".
*
* Returns: In case of failure a negative error code will be
* returned, and 0 on success.
*
* Since: 3.1.3
**/
int
gnutls_pkcs12_export2(gnutls_pkcs12_t pkcs12,
gnutls_x509_crt_fmt_t format, gnutls_datum_t * out)
{
if (pkcs12 == NULL) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
return _gnutls_x509_export_int2(pkcs12->pkcs12, format, PEM_PKCS12,
out);
}
static int oid2bag(const char *oid)
{
if (strcmp(oid, BAG_PKCS8_KEY) == 0)
return GNUTLS_BAG_PKCS8_KEY;
if (strcmp(oid, BAG_PKCS8_ENCRYPTED_KEY) == 0)
return GNUTLS_BAG_PKCS8_ENCRYPTED_KEY;
if (strcmp(oid, BAG_CERTIFICATE) == 0)
return GNUTLS_BAG_CERTIFICATE;
if (strcmp(oid, BAG_CRL) == 0)
return GNUTLS_BAG_CRL;
if (strcmp(oid, BAG_SECRET) == 0)
return GNUTLS_BAG_SECRET;
return GNUTLS_BAG_UNKNOWN;
}
static const char *bag_to_oid(int bag)
{
switch (bag) {
case GNUTLS_BAG_PKCS8_KEY:
return BAG_PKCS8_KEY;
case GNUTLS_BAG_PKCS8_ENCRYPTED_KEY:
return BAG_PKCS8_ENCRYPTED_KEY;
case GNUTLS_BAG_CERTIFICATE:
return BAG_CERTIFICATE;
case GNUTLS_BAG_CRL:
return BAG_CRL;
case GNUTLS_BAG_SECRET:
return BAG_SECRET;
}
return NULL;
}
/* Decodes the SafeContents, and puts the output in
* the given bag.
*/
int
_pkcs12_decode_safe_contents(const gnutls_datum_t * content,
gnutls_pkcs12_bag_t bag)
{
char oid[MAX_OID_SIZE], root[MAX_NAME_SIZE];
asn1_node c2 = NULL;
int len, result;
int bag_type;
gnutls_datum_t attr_val;
gnutls_datum_t t;
int count = 0, attributes, j;
unsigned i;
/* Step 1. Extract the SEQUENCE.
*/
if ((result = asn1_create_element
(_gnutls_get_pkix(), "PKIX1.pkcs-12-SafeContents",
&c2)) != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
result =
asn1_der_decoding(&c2, content->data, content->size, NULL);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
/* Count the number of bags
*/
result = asn1_number_of_elements(c2, "", &count);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
bag->bag_elements = MIN(MAX_BAG_ELEMENTS, count);
for (i = 0; i < bag->bag_elements; i++) {
snprintf(root, sizeof(root), "?%u.bagId", i + 1);
len = sizeof(oid);
result = asn1_read_value(c2, root, oid, &len);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
/* Read the Bag type
*/
bag_type = oid2bag(oid);
if (bag_type < 0) {
gnutls_assert();
goto cleanup;
}
/* Read the Bag Value
*/
snprintf(root, sizeof(root), "?%u.bagValue", i + 1);
result =
_gnutls_x509_read_value(c2, root,
&bag->element[i].data);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
if (bag_type == GNUTLS_BAG_CERTIFICATE
|| bag_type == GNUTLS_BAG_CRL
|| bag_type == GNUTLS_BAG_SECRET) {
gnutls_datum_t tmp = bag->element[i].data;
bag->element[i].data.data = NULL;
bag->element[i].data.size = 0;
result =
_pkcs12_decode_crt_bag(bag_type, &tmp,
&bag->element[i].data);
_gnutls_free_datum(&tmp);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
}
/* read the bag attributes
*/
snprintf(root, sizeof(root), "?%u.bagAttributes", i + 1);
result = asn1_number_of_elements(c2, root, &attributes);
if (result != ASN1_SUCCESS
&& result != ASN1_ELEMENT_NOT_FOUND) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
if (attributes < 0)
attributes = 1;
if (result != ASN1_ELEMENT_NOT_FOUND)
for (j = 0; j < attributes; j++) {
snprintf(root, sizeof(root),
"?%u.bagAttributes.?%u", i + 1,
j + 1);
result =
_gnutls_x509_decode_and_read_attribute
(c2, root, oid, sizeof(oid), &attr_val,
1, 0);
if (result < 0) {
gnutls_assert();
continue; /* continue in case we find some known attributes */
}
if (strcmp(oid, KEY_ID_OID) == 0) {
result =
_gnutls_x509_decode_string
(ASN1_ETYPE_OCTET_STRING,
attr_val.data, attr_val.size,
&t, 1);
_gnutls_free_datum(&attr_val);
if (result < 0) {
gnutls_assert();
_gnutls_debug_log
("Error decoding PKCS12 Bag Attribute OID '%s'\n",
oid);
continue;
}
_gnutls_free_datum(&bag->element[i].local_key_id);
bag->element[i].local_key_id.data = t.data;
bag->element[i].local_key_id.size = t.size;
} else if (strcmp(oid, FRIENDLY_NAME_OID) == 0 && bag->element[i].friendly_name == NULL) {
result =
_gnutls_x509_decode_string
(ASN1_ETYPE_BMP_STRING,
attr_val.data, attr_val.size,
&t, 1);
_gnutls_free_datum(&attr_val);
if (result < 0) {
gnutls_assert();
_gnutls_debug_log
("Error decoding PKCS12 Bag Attribute OID '%s'\n",
oid);
continue;
}
gnutls_free(bag->element[i].friendly_name);
bag->element[i].friendly_name = (char *) t.data;
} else {
_gnutls_free_datum(&attr_val);
_gnutls_debug_log
("Unknown PKCS12 Bag Attribute OID '%s'\n",
oid);
}
}
bag->element[i].type = bag_type;
}
result = 0;
cleanup:
if (c2)
asn1_delete_structure(&c2);
return result;
}
static int
_parse_safe_contents(asn1_node sc, const char *sc_name,
gnutls_pkcs12_bag_t bag)
{
gnutls_datum_t content = { NULL, 0 };
int result;
/* Step 1. Extract the content.
*/
result =
_gnutls_x509_read_string(sc, sc_name, &content,
ASN1_ETYPE_OCTET_STRING, 1);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
result = _pkcs12_decode_safe_contents(&content, bag);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
_gnutls_free_datum(&content);
return 0;
cleanup:
_gnutls_free_datum(&content);
return result;
}
/**
* gnutls_pkcs12_get_bag:
* @pkcs12: A pkcs12 type
* @indx: contains the index of the bag to extract
* @bag: An initialized bag, where the contents of the bag will be copied
*
* This function will return a Bag from the PKCS12 structure.
*
* After the last Bag has been read
* %GNUTLS_E_REQUESTED_DATA_NOT_AVAILABLE will be returned.
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, otherwise a
* negative error value.
**/
int
gnutls_pkcs12_get_bag(gnutls_pkcs12_t pkcs12,
int indx, gnutls_pkcs12_bag_t bag)
{
asn1_node c2 = NULL;
int result, len;
char root2[MAX_NAME_SIZE];
char oid[MAX_OID_SIZE];
if (pkcs12 == NULL) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
/* Step 1. decode the data.
*/
result = _decode_pkcs12_auth_safe(pkcs12->pkcs12, &c2, NULL);
if (result < 0) {
gnutls_assert();
return result;
}
/* Step 2. Parse the AuthenticatedSafe
*/
snprintf(root2, sizeof(root2), "?%u.contentType", indx + 1);
len = sizeof(oid) - 1;
result = asn1_read_value(c2, root2, oid, &len);
if (result == ASN1_ELEMENT_NOT_FOUND) {
result = GNUTLS_E_REQUESTED_DATA_NOT_AVAILABLE;
goto cleanup;
}
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
/* Not encrypted Bag
*/
snprintf(root2, sizeof(root2), "?%u.content", indx + 1);
if (strcmp(oid, DATA_OID) == 0) {
result = _parse_safe_contents(c2, root2, bag);
goto cleanup;
}
/* ENC_DATA_OID needs decryption */
result = _gnutls_x509_read_value(c2, root2, &bag->element[0].data);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
bag->element[0].type = GNUTLS_BAG_ENCRYPTED;
bag->bag_elements = 1;
result = 0;
cleanup:
if (c2)
asn1_delete_structure(&c2);
return result;
}
/* Creates an empty PFX structure for the PKCS12 structure.
*/
static int create_empty_pfx(asn1_node pkcs12)
{
uint8_t three = 3;
int result;
asn1_node c2 = NULL;
/* Use version 3
*/
result = asn1_write_value(pkcs12, "version", &three, 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
/* Write the content type of the data
*/
result =
asn1_write_value(pkcs12, "authSafe.contentType", DATA_OID, 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
/* Check if the authenticatedSafe content is empty, and encode a
* null one in that case.
*/
if ((result = asn1_create_element
(_gnutls_get_pkix(), "PKIX1.pkcs-12-AuthenticatedSafe",
&c2)) != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
result =
_gnutls_x509_der_encode_and_copy(c2, "", pkcs12,
"authSafe.content", 1);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
asn1_delete_structure(&c2);
return 0;
cleanup:
asn1_delete_structure(&c2);
return result;
}
/**
* gnutls_pkcs12_set_bag:
* @pkcs12: should contain a gnutls_pkcs12_t type
* @bag: An initialized bag
*
* This function will insert a Bag into the PKCS12 structure.
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, otherwise a
* negative error value.
**/
int gnutls_pkcs12_set_bag(gnutls_pkcs12_t pkcs12, gnutls_pkcs12_bag_t bag)
{
asn1_node c2 = NULL;
asn1_node safe_cont = NULL;
int result;
int enc = 0, dum = 1;
char null;
if (pkcs12 == NULL) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
/* Step 1. Check if the pkcs12 structure is empty. In that
* case generate an empty PFX.
*/
result =
asn1_read_value(pkcs12->pkcs12, "authSafe.content", &null,
&dum);
if (result == ASN1_VALUE_NOT_FOUND) {
result = create_empty_pfx(pkcs12->pkcs12);
if (result < 0) {
gnutls_assert();
return result;
}
}
/* Step 2. decode the authenticatedSafe.
*/
result = _decode_pkcs12_auth_safe(pkcs12->pkcs12, &c2, NULL);
if (result < 0) {
gnutls_assert();
return result;
}
/* Step 3. Encode the bag elements into a SafeContents
* structure.
*/
result = _pkcs12_encode_safe_contents(bag, &safe_cont, &enc);
if (result < 0) {
gnutls_assert();
return result;
}
/* Step 4. Insert the encoded SafeContents into the AuthenticatedSafe
* structure.
*/
result = asn1_write_value(c2, "", "NEW", 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
if (enc)
result =
asn1_write_value(c2, "?LAST.contentType", ENC_DATA_OID,
1);
else
result =
asn1_write_value(c2, "?LAST.contentType", DATA_OID, 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
if (enc) {
/* Encrypted packets are written directly.
*/
result =
asn1_write_value(c2, "?LAST.content",
bag->element[0].data.data,
bag->element[0].data.size);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
} else {
result =
_gnutls_x509_der_encode_and_copy(safe_cont, "", c2,
"?LAST.content", 1);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
}
asn1_delete_structure(&safe_cont);
/* Step 5. Re-encode and copy the AuthenticatedSafe into the pkcs12
* structure.
*/
result =
_gnutls_x509_der_encode_and_copy(c2, "", pkcs12->pkcs12,
"authSafe.content", 1);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
asn1_delete_structure(&c2);
return 0;
cleanup:
asn1_delete_structure(&c2);
asn1_delete_structure(&safe_cont);
return result;
}
#if ENABLE_GOST
/*
* Russian differs from PKCS#12 here. It described proprietary way
* to obtain MAC key instead of using standard mechanism.
*
* See https://wwwold.tc26.ru/standard/rs/%D0%A0%2050.1.112-2016.pdf
* section 5.
*/
static int
_gnutls_pkcs12_gost_string_to_key(gnutls_mac_algorithm_t algo,
const uint8_t * salt,
unsigned int salt_size, unsigned int iter,
const char *pass, unsigned int req_keylen,
uint8_t * keybuf)
{
uint8_t temp[96];
size_t temp_len = sizeof(temp);
gnutls_datum_t key;
gnutls_datum_t _salt;
int ret;
if (iter == 0)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
key.data = (void *)pass;
key.size = pass ? strlen(pass) : 0;
_salt.data = (void *)salt;
_salt.size = salt_size;
ret = gnutls_pbkdf2(algo, &key, &_salt, iter, temp, temp_len);
if (ret < 0)
return gnutls_assert_val(ret);
memcpy(keybuf, temp + temp_len - req_keylen, req_keylen);
return 0;
}
#endif
/**
* gnutls_pkcs12_generate_mac2:
* @pkcs12: A pkcs12 type
* @mac: the MAC algorithm to use
* @pass: The password for the MAC
*
* This function will generate a MAC for the PKCS12 structure.
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, otherwise a
* negative error value.
**/
int gnutls_pkcs12_generate_mac2(gnutls_pkcs12_t pkcs12, gnutls_mac_algorithm_t mac, const char *pass)
{
uint8_t salt[8], key[MAX_HASH_SIZE];
int result;
const int iter = 10*1024;
mac_hd_st td1;
gnutls_datum_t tmp = { NULL, 0 };
unsigned mac_size, key_len;
uint8_t mac_out[MAX_HASH_SIZE];
const mac_entry_st *me = mac_to_entry(mac);
if (pkcs12 == NULL || me == NULL)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
if (me->oid == NULL)
return gnutls_assert_val(GNUTLS_E_UNIMPLEMENTED_FEATURE);
mac_size = _gnutls_mac_get_algo_len(me);
key_len = mac_size;
/* Generate the salt.
*/
result = gnutls_rnd(GNUTLS_RND_NONCE, salt, sizeof(salt));
if (result < 0) {
gnutls_assert();
return result;
}
/* Write the salt into the structure.
*/
result =
asn1_write_value(pkcs12->pkcs12, "macData.macSalt", salt,
sizeof(salt));
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
/* write the iterations
*/
if (iter > 1) {
result =
_gnutls_x509_write_uint32(pkcs12->pkcs12,
"macData.iterations", iter);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
}
/* Generate the key.
*/
#if ENABLE_GOST
if (me->id == GNUTLS_MAC_GOSTR_94 ||
me->id == GNUTLS_MAC_STREEBOG_256 ||
me->id == GNUTLS_MAC_STREEBOG_512) {
key_len = 32;
result = _gnutls_pkcs12_gost_string_to_key(me->id,
salt,
sizeof(salt),
iter,
pass,
key_len,
key);
} else
#endif
result = _gnutls_pkcs12_string_to_key(me, 3 /*MAC*/,
salt, sizeof(salt),
iter, pass,
mac_size, key);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
/* Get the data to be MACed
*/
result = _decode_pkcs12_auth_safe(pkcs12->pkcs12, NULL, &tmp);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
/* MAC the data
*/
result = _gnutls_mac_init(&td1, me,
key, key_len);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
_gnutls_mac(&td1, tmp.data, tmp.size);
_gnutls_free_datum(&tmp);
_gnutls_mac_deinit(&td1, mac_out);
result =
asn1_write_value(pkcs12->pkcs12, "macData.mac.digest", mac_out,
mac_size);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
result =
asn1_write_value(pkcs12->pkcs12,
"macData.mac.digestAlgorithm.parameters",
NULL, 0);
if (result != ASN1_SUCCESS && result != ASN1_ELEMENT_NOT_FOUND) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
result =
asn1_write_value(pkcs12->pkcs12,
"macData.mac.digestAlgorithm.algorithm",
me->oid, 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
return 0;
cleanup:
_gnutls_free_datum(&tmp);
return result;
}
/**
* gnutls_pkcs12_generate_mac:
* @pkcs12: A pkcs12 type
* @pass: The password for the MAC
*
* This function will generate a MAC for the PKCS12 structure.
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, otherwise a
* negative error value.
**/
int gnutls_pkcs12_generate_mac(gnutls_pkcs12_t pkcs12, const char *pass)
{
return gnutls_pkcs12_generate_mac2(pkcs12, GNUTLS_MAC_SHA1, pass);
}
/**
* gnutls_pkcs12_verify_mac:
* @pkcs12: should contain a gnutls_pkcs12_t type
* @pass: The password for the MAC
*
* This function will verify the MAC for the PKCS12 structure.
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, otherwise a
* negative error value.
**/
int gnutls_pkcs12_verify_mac(gnutls_pkcs12_t pkcs12, const char *pass)
{
uint8_t key[MAX_HASH_SIZE];
char oid[MAX_OID_SIZE];
int result;
unsigned int iter;
int len;
mac_hd_st td1;
gnutls_datum_t tmp = { NULL, 0 }, salt = {
NULL, 0};
uint8_t mac_output[MAX_HASH_SIZE];
uint8_t mac_output_orig[MAX_HASH_SIZE];
gnutls_mac_algorithm_t algo;
unsigned mac_len, key_len;
const mac_entry_st *entry;
#if ENABLE_GOST
int gost_retry = 0;
#endif
if (pkcs12 == NULL) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
/* read the iterations
*/
result =
_gnutls_x509_read_uint(pkcs12->pkcs12, "macData.iterations",
&iter);
if (result < 0) {
iter = 1; /* the default */
}
len = sizeof(oid);
result =
asn1_read_value(pkcs12->pkcs12, "macData.mac.digestAlgorithm.algorithm",
oid, &len);
if (result != ASN1_SUCCESS) {
gnutls_assert();
return _gnutls_asn2err(result);
}
algo = DIG_TO_MAC(gnutls_oid_to_digest(oid));
if (algo == GNUTLS_MAC_UNKNOWN) {
unknown_mac:
gnutls_assert();
return GNUTLS_E_UNKNOWN_HASH_ALGORITHM;
}
entry = mac_to_entry(algo);
if (entry == NULL)
goto unknown_mac;
mac_len = _gnutls_mac_get_algo_len(entry);
key_len = mac_len;
/* Read the salt from the structure.
*/
result =
_gnutls_x509_read_null_value(pkcs12->pkcs12, "macData.macSalt",
&salt);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
/* Generate the key.
*/
result = _gnutls_pkcs12_string_to_key(entry, 3 /*MAC*/,
salt.data, salt.size,
iter, pass,
key_len, key);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
/* Get the data to be MACed
*/
result = _decode_pkcs12_auth_safe(pkcs12->pkcs12, NULL, &tmp);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
#if ENABLE_GOST
/* GOST PKCS#12 files use either PKCS#12 scheme or proprietary
* HMAC-based scheme to generate MAC key. */
pkcs12_try_gost:
#endif
/* MAC the data
*/
result = _gnutls_mac_init(&td1, entry, key, key_len);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
_gnutls_mac(&td1, tmp.data, tmp.size);
_gnutls_mac_deinit(&td1, mac_output);
len = sizeof(mac_output_orig);
result =
asn1_read_value(pkcs12->pkcs12, "macData.mac.digest",
mac_output_orig, &len);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
if ((unsigned)len != mac_len ||
memcmp(mac_output_orig, mac_output, len) != 0) {
#if ENABLE_GOST
/* It is possible that GOST files use proprietary
* key generation scheme */
if (!gost_retry &&
(algo == GNUTLS_MAC_GOSTR_94 ||
algo == GNUTLS_MAC_STREEBOG_256 ||
algo == GNUTLS_MAC_STREEBOG_512)) {
gost_retry = 1;
key_len = 32;
result = _gnutls_pkcs12_gost_string_to_key(algo,
salt.data,
salt.size,
iter,
pass,
key_len,
key);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
goto pkcs12_try_gost;
}
#endif
gnutls_assert();
result = GNUTLS_E_MAC_VERIFY_FAILED;
goto cleanup;
}
result = 0;
cleanup:
_gnutls_free_datum(&tmp);
_gnutls_free_datum(&salt);
return result;
}
static int
write_attributes(gnutls_pkcs12_bag_t bag, int elem,
asn1_node c2, const char *where)
{
int result;
char root[128];
/* If the bag attributes are empty, then write
* nothing to the attribute field.
*/
if (bag->element[elem].friendly_name == NULL &&
bag->element[elem].local_key_id.data == NULL) {
/* no attributes
*/
result = asn1_write_value(c2, where, NULL, 0);
if (result != ASN1_SUCCESS) {
gnutls_assert();
return _gnutls_asn2err(result);
}
return 0;
}
if (bag->element[elem].local_key_id.data != NULL) {
/* Add a new Attribute
*/
result = asn1_write_value(c2, where, "NEW", 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
return _gnutls_asn2err(result);
}
_gnutls_str_cpy(root, sizeof(root), where);
_gnutls_str_cat(root, sizeof(root), ".?LAST");
result =
_gnutls_x509_encode_and_write_attribute(KEY_ID_OID, c2,
root,
bag->element
[elem].
local_key_id.data,
bag->element
[elem].
local_key_id.size,
1);
if (result < 0) {
gnutls_assert();
return result;
}
}
if (bag->element[elem].friendly_name != NULL) {
uint8_t *name;
int size, i;
const char *p;
/* Add a new Attribute
*/
result = asn1_write_value(c2, where, "NEW", 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
return _gnutls_asn2err(result);
}
/* convert name to BMPString
*/
size = strlen(bag->element[elem].friendly_name) * 2;
name = gnutls_malloc(size);
if (name == NULL) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
p = bag->element[elem].friendly_name;
for (i = 0; i < size; i += 2) {
name[i] = 0;
name[i + 1] = *p;
p++;
}
_gnutls_str_cpy(root, sizeof(root), where);
_gnutls_str_cat(root, sizeof(root), ".?LAST");
result =
_gnutls_x509_encode_and_write_attribute
(FRIENDLY_NAME_OID, c2, root, name, size, 1);
gnutls_free(name);
if (result < 0) {
gnutls_assert();
return result;
}
}
return 0;
}
/* Encodes the bag into a SafeContents structure, and puts the output in
* the given datum. Enc is set to non-zero if the data are encrypted;
*/
int
_pkcs12_encode_safe_contents(gnutls_pkcs12_bag_t bag, asn1_node * contents,
int *enc)
{
asn1_node c2 = NULL;
int result;
unsigned i;
const char *oid;
if (bag->element[0].type == GNUTLS_BAG_ENCRYPTED && enc) {
*enc = 1;
return 0; /* ENCRYPTED BAG, do nothing. */
} else if (enc)
*enc = 0;
/* Step 1. Create the SEQUENCE.
*/
if ((result = asn1_create_element
(_gnutls_get_pkix(), "PKIX1.pkcs-12-SafeContents",
&c2)) != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
for (i = 0; i < bag->bag_elements; i++) {
oid = bag_to_oid(bag->element[i].type);
if (oid == NULL) {
gnutls_assert();
continue;
}
result = asn1_write_value(c2, "", "NEW", 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
/* Copy the bag type.
*/
result = asn1_write_value(c2, "?LAST.bagId", oid, 1);
if (result != ASN1_SUCCESS) {
gnutls_assert();
result = _gnutls_asn2err(result);
goto cleanup;
}
/* Set empty attributes
*/
result =
write_attributes(bag, i, c2, "?LAST.bagAttributes");
if (result < 0) {
gnutls_assert();
goto cleanup;
}
/* Copy the Bag Value
*/
if (bag->element[i].type == GNUTLS_BAG_CERTIFICATE ||
bag->element[i].type == GNUTLS_BAG_SECRET ||
bag->element[i].type == GNUTLS_BAG_CRL) {
gnutls_datum_t tmp;
/* in that case encode it to a CertBag or
* a CrlBag.
*/
result =
_pkcs12_encode_crt_bag(bag->element[i].type,
&bag->element[i].data,
&tmp);
if (result < 0) {
gnutls_assert();
goto cleanup;
}
result =
_gnutls_x509_write_value(c2, "?LAST.bagValue",
&tmp);
_gnutls_free_datum(&tmp);
} else {
result =
_gnutls_x509_write_value(c2, "?LAST.bagValue",
&bag->element[i].
data);
}
if (result < 0) {
gnutls_assert();
goto cleanup;
}
}
/* Encode the data and copy them into the datum
*/
*contents = c2;
return 0;
cleanup:
if (c2)
asn1_delete_structure(&c2);
return result;
}
/* Checks if the extra_certs contain certificates that may form a chain
* with the first certificate in chain (it is expected that chain_len==1)
* and appends those in the chain.
*/
static int make_chain(gnutls_x509_crt_t ** chain, unsigned int *chain_len,
gnutls_x509_crt_t ** extra_certs,
unsigned int *extra_certs_len, unsigned int flags)
{
unsigned int i;
if (*chain_len != 1)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
i = 0;
while (i < *extra_certs_len) {
/* if it is an issuer but not a self-signed one */
if (gnutls_x509_crt_check_issuer
((*chain)[*chain_len - 1], (*extra_certs)[i]) != 0) {
if (!(flags & GNUTLS_PKCS12_SP_INCLUDE_SELF_SIGNED)
&&
gnutls_x509_crt_check_issuer((*extra_certs)[i],
(*extra_certs)[i])
!= 0)
goto skip;
if (unlikely(INT_ADD_OVERFLOW(*chain_len, 1))) {
return gnutls_assert_val(GNUTLS_E_MEMORY_ERROR);
}
*chain = _gnutls_reallocarray_fast(*chain,
++(*chain_len),
sizeof((*chain)[0]));
if (*chain == NULL) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
(*chain)[*chain_len - 1] = (*extra_certs)[i];
(*extra_certs)[i] =
(*extra_certs)[*extra_certs_len - 1];
(*extra_certs_len)--;
i = 0;
continue;
}
skip:
i++;
}
return 0;
}
/**
* gnutls_pkcs12_simple_parse:
* @p12: A pkcs12 type
* @password: optional password used to decrypt the structure, bags and keys.
* @key: a structure to store the parsed private key.
* @chain: the corresponding to key certificate chain (may be %NULL)
* @chain_len: will be updated with the number of additional (may be %NULL)
* @extra_certs: optional pointer to receive an array of additional
* certificates found in the PKCS12 structure (may be %NULL).
* @extra_certs_len: will be updated with the number of additional
* certs (may be %NULL).
* @crl: an optional structure to store the parsed CRL (may be %NULL).
* @flags: should be zero or one of GNUTLS_PKCS12_SP_*
*
* This function parses a PKCS12 structure in @pkcs12 and extracts the
* private key, the corresponding certificate chain, any additional
* certificates and a CRL. The structures in @key, @chain @crl, and @extra_certs
* must not be initialized.
*
* The @extra_certs and @extra_certs_len parameters are optional
* and both may be set to %NULL. If either is non-%NULL, then both must
* be set. The value for @extra_certs is allocated
* using gnutls_malloc().
*
* Encrypted PKCS12 bags and PKCS8 private keys are supported, but
* only with password based security and the same password for all
* operations.
*
* Note that a PKCS12 structure may contain many keys and/or certificates,
* and there is no way to identify which key/certificate pair you want.
* For this reason this function is useful for PKCS12 files that contain
* only one key/certificate pair and/or one CRL.
*
* If the provided structure has encrypted fields but no password
* is provided then this function returns %GNUTLS_E_DECRYPTION_FAILED.
*
* Note that normally the chain constructed does not include self signed
* certificates, to comply with TLS' requirements. If, however, the flag
* %GNUTLS_PKCS12_SP_INCLUDE_SELF_SIGNED is specified then
* self signed certificates will be included in the chain.
*
* Prior to using this function the PKCS #12 structure integrity must
* be verified using gnutls_pkcs12_verify_mac().
*
* Returns: On success, %GNUTLS_E_SUCCESS (0) is returned, otherwise a
* negative error value.
*
* Since: 3.1.0
**/
int
gnutls_pkcs12_simple_parse(gnutls_pkcs12_t p12,
const char *password,
gnutls_x509_privkey_t * key,
gnutls_x509_crt_t ** chain,
unsigned int *chain_len,
gnutls_x509_crt_t ** extra_certs,
unsigned int *extra_certs_len,
gnutls_x509_crl_t * crl, unsigned int flags)
{
gnutls_pkcs12_bag_t bag = NULL;
gnutls_x509_crt_t *_extra_certs = NULL;
unsigned int _extra_certs_len = 0;
gnutls_x509_crt_t *_chain = NULL;
unsigned int _chain_len = 0;
int idx = 0;
int ret;
size_t cert_id_size = 0;
size_t key_id_size = 0;
uint8_t cert_id[20];
uint8_t key_id[20];
int privkey_ok = 0;
unsigned int i;
int elements_in_bag;
*key = NULL;
if (crl)
*crl = NULL;
/* find the first private key */
for (;;) {
ret = gnutls_pkcs12_bag_init(&bag);
if (ret < 0) {
bag = NULL;
gnutls_assert();
goto done;
}
ret = gnutls_pkcs12_get_bag(p12, idx, bag);
if (ret == GNUTLS_E_REQUESTED_DATA_NOT_AVAILABLE) {
gnutls_pkcs12_bag_deinit(bag);
bag = NULL;
break;
}
if (ret < 0) {
gnutls_assert();
goto done;
}
ret = gnutls_pkcs12_bag_get_type(bag, 0);
if (ret < 0) {
gnutls_assert();
goto done;
}
if (ret == GNUTLS_BAG_ENCRYPTED) {
if (password == NULL) {
ret =
gnutls_assert_val
(GNUTLS_E_DECRYPTION_FAILED);
goto done;
}
ret = gnutls_pkcs12_bag_decrypt(bag, password);
if (ret < 0) {
gnutls_assert();
goto done;
}
}
elements_in_bag = gnutls_pkcs12_bag_get_count(bag);
if (elements_in_bag < 0) {
gnutls_assert();
goto done;
}
for (i = 0; i < (unsigned)elements_in_bag; i++) {
int type;
gnutls_datum_t data;
type = gnutls_pkcs12_bag_get_type(bag, i);
if (type < 0) {
gnutls_assert();
goto done;
}
ret = gnutls_pkcs12_bag_get_data(bag, i, &data);
if (ret < 0) {
gnutls_assert();
goto done;
}
switch (type) {
case GNUTLS_BAG_PKCS8_ENCRYPTED_KEY:
if (password == NULL) {
ret =
gnutls_assert_val
(GNUTLS_E_DECRYPTION_FAILED);
goto done;
}
FALLTHROUGH;
case GNUTLS_BAG_PKCS8_KEY:
if (*key != NULL) { /* too simple to continue */
gnutls_assert();
break;
}
ret = gnutls_x509_privkey_init(key);
if (ret < 0) {
gnutls_assert();
goto done;
}
ret = gnutls_x509_privkey_import_pkcs8
(*key, &data, GNUTLS_X509_FMT_DER,
password,
type ==
GNUTLS_BAG_PKCS8_KEY ?
GNUTLS_PKCS_PLAIN : 0);
if (ret < 0) {
gnutls_assert();
goto done;
}
key_id_size = sizeof(key_id);
ret =
gnutls_x509_privkey_get_key_id(*key, 0,
key_id,
&key_id_size);
if (ret < 0) {
gnutls_assert();
goto done;
}
privkey_ok = 1; /* break */
break;
default:
break;
}
}
idx++;
gnutls_pkcs12_bag_deinit(bag);
bag = NULL;
if (privkey_ok != 0) /* private key was found */
break;
}
if (privkey_ok == 0) { /* no private key */
gnutls_assert();
return GNUTLS_E_REQUESTED_DATA_NOT_AVAILABLE;
}
/* now find the corresponding certificate
*/
idx = 0;
bag = NULL;
for (;;) {
ret = gnutls_pkcs12_bag_init(&bag);
if (ret < 0) {
bag = NULL;
gnutls_assert();
goto done;
}
ret = gnutls_pkcs12_get_bag(p12, idx, bag);
if (ret == GNUTLS_E_REQUESTED_DATA_NOT_AVAILABLE) {
gnutls_pkcs12_bag_deinit(bag);
bag = NULL;
break;
}
if (ret < 0) {
gnutls_assert();
goto done;
}
ret = gnutls_pkcs12_bag_get_type(bag, 0);
if (ret < 0) {
gnutls_assert();
goto done;
}
if (ret == GNUTLS_BAG_ENCRYPTED) {
ret = gnutls_pkcs12_bag_decrypt(bag, password);
if (ret < 0) {
gnutls_assert();
goto done;
}
}
elements_in_bag = gnutls_pkcs12_bag_get_count(bag);
if (elements_in_bag < 0) {
gnutls_assert();
goto done;
}
for (i = 0; i < (unsigned)elements_in_bag; i++) {
int type;
gnutls_datum_t data;
gnutls_x509_crt_t this_cert;
type = gnutls_pkcs12_bag_get_type(bag, i);
if (type < 0) {
gnutls_assert();
goto done;
}
ret = gnutls_pkcs12_bag_get_data(bag, i, &data);
if (ret < 0) {
gnutls_assert();
goto done;
}
switch (type) {
case GNUTLS_BAG_CERTIFICATE:
ret = gnutls_x509_crt_init(&this_cert);
if (ret < 0) {
gnutls_assert();
goto done;
}
ret =
gnutls_x509_crt_import(this_cert,
&data,
GNUTLS_X509_FMT_DER);
if (ret < 0) {
gnutls_assert();
gnutls_x509_crt_deinit(this_cert);
this_cert = NULL;
goto done;
}
/* check if the key id match */
cert_id_size = sizeof(cert_id);
ret =
gnutls_x509_crt_get_key_id(this_cert,
0, cert_id,
&cert_id_size);
if (ret < 0) {
gnutls_assert();
gnutls_x509_crt_deinit(this_cert);
this_cert = NULL;
goto done;
}
if (memcmp(cert_id, key_id, cert_id_size) != 0) { /* they don't match - skip the certificate */
if (unlikely(INT_ADD_OVERFLOW(_extra_certs_len, 1))) {
ret = gnutls_assert_val(GNUTLS_E_MEMORY_ERROR);
goto done;
}
_extra_certs =
_gnutls_reallocarray_fast(_extra_certs,
++_extra_certs_len,
sizeof(_extra_certs[0]));
if (!_extra_certs) {
gnutls_assert();
ret =
GNUTLS_E_MEMORY_ERROR;
goto done;
}
_extra_certs
[_extra_certs_len -
1] = this_cert;
this_cert = NULL;
} else {
if (chain && _chain_len == 0) {
_chain =
gnutls_malloc(sizeof
(_chain
[0]) *
(++_chain_len));
if (!_chain) {
gnutls_assert();
ret =
GNUTLS_E_MEMORY_ERROR;
goto done;
}
_chain[_chain_len - 1] =
this_cert;
this_cert = NULL;
} else {
gnutls_x509_crt_deinit
(this_cert);
this_cert = NULL;
}
}
break;
case GNUTLS_BAG_CRL:
if (crl == NULL || *crl != NULL) {
gnutls_assert();
break;
}
ret = gnutls_x509_crl_init(crl);
if (ret < 0) {
gnutls_assert();
goto done;
}
ret =
gnutls_x509_crl_import(*crl, &data,
GNUTLS_X509_FMT_DER);
if (ret < 0) {
gnutls_assert();
gnutls_x509_crl_deinit(*crl);
*crl = NULL;
goto done;
}
break;
case GNUTLS_BAG_ENCRYPTED:
/* XXX Bother to recurse one level down? Unlikely to
use the same password anyway. */
case GNUTLS_BAG_EMPTY:
default:
break;
}
}
idx++;
gnutls_pkcs12_bag_deinit(bag);
bag = NULL;
}
if (chain != NULL) {
if (_chain_len != 1) {
ret = GNUTLS_E_REQUESTED_DATA_NOT_AVAILABLE;
goto done;
}
ret =
make_chain(&_chain, &_chain_len, &_extra_certs,
&_extra_certs_len, flags);
if (ret < 0) {
gnutls_assert();
goto done;
}
}
ret = 0;
done:
if (bag)
gnutls_pkcs12_bag_deinit(bag);
if (ret < 0) {
if (*key) {
gnutls_x509_privkey_deinit(*key);
*key = NULL;
}
if (crl != NULL && *crl != NULL) {
gnutls_x509_crl_deinit(*crl);
*crl = NULL;
}
if (_extra_certs_len && _extra_certs != NULL) {
for (i = 0; i < _extra_certs_len; i++)
gnutls_x509_crt_deinit(_extra_certs[i]);
gnutls_free(_extra_certs);
}
if (_chain_len && _chain != NULL) {
for (i = 0; i < _chain_len; i++)
gnutls_x509_crt_deinit(_chain[i]);
gnutls_free(_chain);
}
return ret;
}
if (extra_certs && _extra_certs_len > 0) {
*extra_certs = _extra_certs;
*extra_certs_len = _extra_certs_len;
} else {
if (extra_certs) {
*extra_certs = NULL;
*extra_certs_len = 0;
}
for (i = 0; i < _extra_certs_len; i++)
gnutls_x509_crt_deinit(_extra_certs[i]);
gnutls_free(_extra_certs);
}
if (chain != NULL) {
*chain = _chain;
*chain_len = _chain_len;
}
return ret;
}
/**
* gnutls_pkcs12_mac_info:
* @pkcs12: A pkcs12 type
* @mac: the MAC algorithm used as %gnutls_mac_algorithm_t
* @salt: the salt used for string to key (if non-NULL then @salt_size initially holds its size)
* @salt_size: string to key salt size
* @iter_count: string to key iteration count
* @oid: if non-NULL it will contain an allocated null-terminated variable with the OID
*
* This function will provide information on the MAC algorithm used
* in a PKCS #12 structure. If the structure algorithms
* are unknown the code %GNUTLS_E_UNKNOWN_HASH_ALGORITHM will be returned,
* and only @oid, will be set. That is, @oid will be set on structures
* with a MAC whether supported or not. It must be deinitialized using gnutls_free().
* The other variables are only set on supported structures.
*
* Returns: %GNUTLS_E_INVALID_REQUEST if the provided structure doesn't contain a MAC,
* %GNUTLS_E_UNKNOWN_HASH_ALGORITHM if the structure's MAC isn't supported, or
* another negative error code in case of a failure. Zero on success.
**/
int
gnutls_pkcs12_mac_info(gnutls_pkcs12_t pkcs12, unsigned int *mac,
void *salt, unsigned int *salt_size, unsigned int *iter_count, char **oid)
{
int ret;
gnutls_datum_t tmp = { NULL, 0 }, dsalt = {
NULL, 0};
gnutls_mac_algorithm_t algo;
if (oid)
*oid = NULL;
if (pkcs12 == NULL) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
ret =
_gnutls_x509_read_value(pkcs12->pkcs12, "macData.mac.digestAlgorithm.algorithm",
&tmp);
if (ret < 0) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
if (oid) {
*oid = (char*)tmp.data;
}
algo = DIG_TO_MAC(gnutls_oid_to_digest((char*)tmp.data));
if (algo == GNUTLS_MAC_UNKNOWN || mac_to_entry(algo) == NULL) {
gnutls_assert();
return GNUTLS_E_UNKNOWN_HASH_ALGORITHM;
}
if (oid) {
tmp.data = NULL;
}
if (mac) {
*mac = algo;
}
if (iter_count) {
ret =
_gnutls_x509_read_uint(pkcs12->pkcs12, "macData.iterations",
iter_count);
if (ret < 0) {
*iter_count = 1; /* the default */
}
}
if (salt) {
/* Read the salt from the structure.
*/
ret =
_gnutls_x509_read_null_value(pkcs12->pkcs12, "macData.macSalt",
&dsalt);
if (ret < 0) {
gnutls_assert();
goto cleanup;
}
if (*salt_size >= (unsigned)dsalt.size) {
*salt_size = dsalt.size;
if (dsalt.size > 0)
memcpy(salt, dsalt.data, dsalt.size);
} else {
*salt_size = dsalt.size;
ret = gnutls_assert_val(GNUTLS_E_SHORT_MEMORY_BUFFER);
goto cleanup;
}
}
ret = 0;
cleanup:
_gnutls_free_datum(&tmp);
_gnutls_free_datum(&dsalt);
return ret;
}
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