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iwd/src/eap-aka.c

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C
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/*
*
* Wireless daemon for Linux
*
* Copyright (C) 2017 Intel Corporation. All rights reserved.
*
* This library 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 library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <ctype.h>
#include <stdio.h>
#include <errno.h>
#include <ell/ell.h>
#include "crypto.h"
#include "simutil.h"
#include "simauth.h"
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/*
* EAP-AKA specific values
*/
#define EAP_AKA_AUTN_LEN 16
#define EAP_AKA_AUTS_LEN 14
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#define EAP_AKA_RES_LEN 8
#define EAP_AKA_K_RE_LEN 32
#define EAP_AKA_KDF_DEFAULT 0x0001
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#define EAP_AKA_ST_CHALLENGE 0x01
#define EAP_AKA_ST_AUTH_REJECT 0x02
#define EAP_AKA_ST_SYNC_FAILURE 0x04
#define EAP_AKA_ST_IDENTITY 0x05
#define EAP_AKA_ST_NOTIFICATION 0x0c
#define EAP_AKA_ST_CLIENT_ERROR 0x0e
/*
* Internal client state, tracked to ensure that we are receiving the right
* messages at the right time.
*/
enum eap_aka_state {
EAP_AKA_STATE_UNCONNECTED = 0,
EAP_AKA_STATE_IDENTITY,
EAP_AKA_STATE_CHALLENGE,
EAP_AKA_STATE_SUCCESS,
EAP_AKA_STATE_ERROR
};
struct eap_aka_handle {
enum eap_aka_state state;
enum eap_type type;
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/* Identity from SIM */
char *identity;
/* Derived master key */
uint8_t mk[EAP_SIM_MK_LEN];
/* Derived K_encr key from PRNG */
uint8_t k_encr[EAP_SIM_K_ENCR_LEN];
/* Derived K_aut key from PRNG, extended for AKA' */
uint8_t k_aut[EAP_AKA_PRIME_K_AUT_LEN];
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/* Derived MSK from PRNG */
uint8_t msk[EAP_SIM_MSK_LEN];
/* Derived EMSK from PRNG */
uint8_t emsk[EAP_SIM_EMSK_LEN];
/* Flag set if AT_ANY_ID_REQ was present */
bool any_id_req : 1;
/* Flag to indicate protected status indications */
bool protected : 1;
/* Authentication value from AuC */
uint8_t autn[EAP_AKA_AUTN_LEN];
/* re-auth key */
uint8_t k_re[EAP_AKA_K_RE_LEN];
char *kdf_in;
uint8_t *chal_pkt;
uint32_t pkt_len;
struct iwd_sim_auth *auth;
unsigned int auth_watch;
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};
static void eap_aka_free(struct eap_state *eap)
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{
struct eap_aka_handle *aka = eap_get_data(eap);
if (aka->auth)
sim_auth_unregistered_watch_remove(aka->auth, aka->auth_watch);
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l_free(aka->identity);
l_free(aka->kdf_in);
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l_free(aka);
eap_set_data(eap, NULL);
}
static bool derive_aka_mk(const char *identity, const uint8_t *ik,
const uint8_t *ck, uint8_t *mk)
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{
int ret;
struct iovec iov[5];
struct l_checksum *checksum = l_checksum_new(L_CHECKSUM_SHA1);
if (!checksum) {
l_error("could not create SHA1 checksum");
return false;
}
iov[0].iov_base = (void *)identity;
iov[0].iov_len = strlen(identity);
iov[1].iov_base = (void *)ik;
iov[1].iov_len = EAP_AKA_IK_LEN;
iov[2].iov_base = (void *)ck;
iov[2].iov_len = EAP_AKA_CK_LEN;
if (!l_checksum_updatev(checksum, iov, 3))
goto mk_error;
ret = l_checksum_get_digest(checksum, mk, EAP_SIM_MK_LEN);
l_checksum_free(checksum);
return (ret == EAP_SIM_MK_LEN);
mk_error:
l_checksum_free(checksum);
l_error("error deriving master key");
return false;
}
static void check_milenage_cb(const uint8_t *res, const uint8_t *ck,
const uint8_t *ik, const uint8_t *auts, void *data)
{
struct eap_state *eap = data;
struct eap_aka_handle *aka = eap_get_data(eap);
uint8_t prng_buf[160];
size_t resp_len = aka->protected ? 44 : 40;
uint8_t response[resp_len + 4];
uint8_t *pos = response;
uint8_t ik_p[EAP_AKA_IK_LEN];
uint8_t ck_p[EAP_AKA_CK_LEN];
if (auts) {
/*
* If AUTS is non NULL then the SQN was not correct, send AUTS
* to server which will update the SQN and send another
* challenge packet.
*/
l_free(aka->chal_pkt);
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aka->chal_pkt = NULL;
pos += eap_sim_build_header(eap, aka->type,
EAP_AKA_ST_SYNC_FAILURE, pos, 24);
pos += eap_sim_add_attribute(pos, EAP_SIM_AT_AUTS,
EAP_SIM_PAD_NONE, auts, EAP_AKA_AUTS_LEN);
eap_send_response(eap, aka->type, response, 24);
return;
}
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if (!res || !ck || !ik)
goto chal_error;
if (aka->type == EAP_TYPE_AKA_PRIME) {
if (!eap_aka_derive_primes(ck, ik, aka->autn,
(uint8_t *)aka->kdf_in, strlen(aka->kdf_in),
ck_p, ik_p)) {
l_error("could not derive primes");
goto chal_fatal;
}
if (!eap_aka_prf_prime(ik_p, ck_p, aka->identity, aka->k_encr,
aka->k_aut, aka->k_re, aka->msk, aka->emsk)) {
l_error("could not derive encryption keys");
goto chal_fatal;
}
} else {
if (!derive_aka_mk(aka->identity, ik, ck, aka->mk)) {
l_error("error deriving MK");
goto chal_fatal;
}
eap_sim_fips_prf(aka->mk, 20, prng_buf, 160);
if (!eap_sim_get_encryption_keys(prng_buf, aka->k_encr,
aka->k_aut, aka->msk, aka->emsk)) {
l_error("could not derive encryption keys");
goto chal_fatal;
}
}
if (!eap_sim_verify_mac(eap, aka->type, aka->chal_pkt, aka->pkt_len,
aka->k_aut, NULL, 0)) {
l_error("MAC was not valid");
goto chal_error;
}
aka->state = EAP_AKA_STATE_CHALLENGE;
pos += eap_sim_build_header(eap, aka->type, EAP_AKA_ST_CHALLENGE,
pos, resp_len);
pos += eap_sim_add_attribute(pos, EAP_SIM_AT_RES,
EAP_SIM_PAD_LENGTH_BITS, res, EAP_AKA_RES_LEN);
if (aka->protected)
pos += eap_sim_add_attribute(pos, EAP_SIM_AT_RESULT_IND,
EAP_SIM_PAD_NONE, NULL, 2);
pos += eap_sim_add_attribute(pos, EAP_SIM_AT_MAC, EAP_SIM_PAD_NONE,
NULL, EAP_SIM_MAC_LEN);
if (!eap_sim_derive_mac(aka->type, response, resp_len, aka->k_aut,
pos - EAP_SIM_MAC_LEN)) {
l_error("error deriving MAC");
goto chal_fatal;
}
l_free(aka->chal_pkt);
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aka->chal_pkt = NULL;
eap_send_response(eap, aka->type, response, resp_len);
if (!aka->protected) {
eap_method_success(eap);
eap_set_key_material(eap, aka->msk, 32, NULL, 0, NULL, 0);
aka->state = EAP_AKA_STATE_SUCCESS;
}
return;
chal_fatal:
eap_method_error(eap);
aka->state = EAP_AKA_STATE_ERROR;
return;
chal_error:
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l_free(aka->chal_pkt);
aka->chal_pkt = NULL;
eap_sim_client_error(eap, aka->type, EAP_SIM_ERROR_PROCESS);
}
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/*
* Handles EAP-AKA Challenge subtype
*/
static void handle_challenge(struct eap_state *eap, const uint8_t *pkt,
size_t len)
{
struct eap_aka_handle *aka = eap_get_data(eap);
struct eap_sim_tlv_iter iter;
const uint8_t *rand = NULL;
const uint8_t *autn = NULL;
bool kdf_func = false;
uint16_t kdf_in_len = 0;
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if (len < 3) {
l_error("packet is too small");
goto chal_error;
}
if (aka->state != EAP_AKA_STATE_IDENTITY) {
l_error("invalid packet for EAP-AKA state");
goto chal_error;
}
eap_sim_tlv_iter_init(&iter, pkt + 3, len - 3);
while (eap_sim_tlv_iter_next(&iter)) {
const uint8_t *contents = eap_sim_tlv_iter_get_data(&iter);
uint16_t length = eap_sim_tlv_iter_get_length(&iter);
switch (eap_sim_tlv_iter_get_type(&iter)) {
case EAP_SIM_AT_AUTN:
if (length < EAP_AKA_AUTN_LEN + 2) {
l_error("malformed AT_AUTN");
goto chal_error;
}
autn = contents + 2;
break;
case EAP_SIM_AT_RAND:
if (length < EAP_SIM_RAND_LEN + 2) {
l_error("malformed AT_RAND");
goto chal_error;
}
rand = contents + 2;
break;
case EAP_SIM_AT_RESULT_IND:
if (length < 2) {
l_error("malformed AT_RESULT_IND");
goto chal_error;
}
aka->protected = 1;
break;
case EAP_SIM_AT_KDF:
if (aka->type != EAP_TYPE_AKA_PRIME) {
l_error("invalid attribute found for EAP-AKA");
goto chal_error;
}
if (length < 2) {
l_error("malformed AT_KDF");
goto chal_error;
}
if (l_get_be16(contents) != EAP_AKA_KDF_DEFAULT) {
l_error("KDF requested is not supported");
goto chal_error;
}
kdf_func = true;
break;
case EAP_SIM_AT_KDF_INPUT:
if (aka->type != EAP_TYPE_AKA_PRIME) {
l_error("invalid attribute found for EAP-AKA");
goto chal_error;
}
if (length < 3) {
l_error("malformed AT_KDF_INPUT");
goto chal_error;
}
kdf_in_len = l_get_be16(contents);
if (length < kdf_in_len + 2) {
l_error("malformed AT_KDF_INPUT");
goto chal_error;
}
aka->kdf_in = strndup((const char *)(contents + 2),
kdf_in_len);
break;
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case EAP_SIM_AT_NEXT_PSEUDONYM:
case EAP_SIM_AT_NEXT_REAUTH_ID:
case EAP_SIM_AT_IV:
case EAP_SIM_AT_ENCR_DATA:
case EAP_SIM_AT_PADDING:
case EAP_SIM_AT_CHECKCODE:
case EAP_SIM_AT_MAC:
/*
* AT_BIDDING is defined in RFC 5448 (AKA'). It is used to
* communicate support for AKA', if supported.
*/
case EAP_SIM_AT_BIDDING:
/* RFC 4187, Section 10.1 */
break;
default:
l_error("attribute %u was found in Challenge",
eap_sim_tlv_iter_get_type(&iter));
goto chal_error;
}
}
/* check that the right attributes were found */
if (!rand || !autn) {
l_error("AT_RAND or AT_AUTN were not found");
goto chal_error;
}
if (aka->type == EAP_TYPE_AKA_PRIME && (!aka->kdf_in || !kdf_func)) {
l_error("AT_KDF or AT_KDF_INPUT were not found");
goto chal_error;
}
aka->chal_pkt = l_memdup(pkt, len);
aka->pkt_len = len;
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/* AKA' needs AUTN for prime derivation */
memcpy(aka->autn, autn, EAP_AKA_AUTN_LEN);
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if (sim_auth_check_milenage(aka->auth, rand, autn, check_milenage_cb,
eap) < 0) {
l_free(aka->chal_pkt);
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aka->chal_pkt = NULL;
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goto chal_error;
}
return;
chal_error:
eap_sim_client_error(eap, aka->type, EAP_SIM_ERROR_PROCESS);
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}
/*
* Handles Notification subtype
*/
static void handle_notification(struct eap_state *eap, const uint8_t *pkt,
size_t len)
{
struct eap_aka_handle *aka = eap_get_data(eap);
struct eap_sim_tlv_iter iter;
int32_t value = -1;
if (len < 3) {
l_error("packet is too small");
goto notif_error;
}
eap_sim_tlv_iter_init(&iter, pkt + 3, len - 3);
while (eap_sim_tlv_iter_next(&iter)) {
const uint8_t *contents = eap_sim_tlv_iter_get_data(&iter);
uint16_t length = eap_sim_tlv_iter_get_length(&iter);
switch (eap_sim_tlv_iter_get_type(&iter)) {
case EAP_SIM_AT_NOTIFICATION:
if (length < 2) {
l_error("malformed AT_NOTIFICATION");
goto notif_error;
}
value = l_get_be16(contents);
break;
case EAP_SIM_AT_IV:
case EAP_SIM_AT_ENCR_DATA:
case EAP_SIM_AT_PADDING:
case EAP_SIM_AT_MAC:
/* RFC 4186, Section 10.1 */
break;
default:
l_error("attribute type %u not allowed in Notification",
eap_sim_tlv_iter_get_type(&iter));
goto notif_error;
}
}
if (value == EAP_SIM_SUCCESS && aka->protected &&
aka->state == EAP_AKA_STATE_CHALLENGE) {
/* header + MAC + MAC header */
uint8_t response[8 + EAP_SIM_MAC_LEN + 4];
uint8_t *pos = response;
/*
* Server sent successful result indication
*/
eap_method_success(eap);
eap_set_key_material(eap, aka->msk, 32, NULL, 0, NULL, 0);
/*
* Build response packet
*/
pos += eap_sim_build_header(eap, aka->type,
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EAP_AKA_ST_NOTIFICATION, pos, 20);
pos += eap_sim_add_attribute(pos, EAP_SIM_AT_MAC,
EAP_SIM_PAD_NONE, NULL, EAP_SIM_MAC_LEN);
if (!eap_sim_derive_mac(aka->type, response, pos - response,
aka->k_aut, response + 12)) {
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l_error("could not derive MAC");
eap_method_error(eap);
aka->state = EAP_AKA_STATE_ERROR;
return;
}
eap_send_response(eap, aka->type, response, pos - response);
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aka->state = EAP_AKA_STATE_SUCCESS;
return;
} else if (value == EAP_SIM_SUCCESS) {
/*
* Unexpected success notification, what should
* be done here?
*/
l_error("Unexpected success notification");
} else {
/*
* All other values are error conditions.
* Nothing unique can be done for any error so
* print the code and signal EAP failure.
*/
l_error("Error authenticating: code=%u", value);
}
notif_error:
eap_sim_client_error(eap, aka->type, EAP_SIM_ERROR_PROCESS);
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}
static void handle_identity(struct eap_state *eap, const uint8_t *pkt,
size_t len)
{
struct eap_aka_handle *aka = eap_get_data(eap);
uint8_t response[8 + strlen(aka->identity) + 4];
uint8_t *pos = response;
if (aka->state != EAP_AKA_STATE_UNCONNECTED) {
l_error("invalid packet for EAP-AKA state");
eap_sim_client_error(eap, aka->type, EAP_SIM_ERROR_PROCESS);
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return;
}
aka->state = EAP_AKA_STATE_IDENTITY;
/*
* Build response packet
*/
pos += eap_sim_build_header(eap, aka->type, EAP_AKA_ST_IDENTITY, pos,
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20);
pos += eap_sim_add_attribute(pos, EAP_SIM_AT_IDENTITY,
EAP_SIM_PAD_LENGTH, (uint8_t *)aka->identity,
strlen(aka->identity));
eap_send_response(eap, aka->type, response, pos - response);
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}
static void eap_aka_handle_request(struct eap_state *eap,
const uint8_t *pkt, size_t len)
{
struct eap_aka_handle *aka = eap_get_data(eap);
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if (len < 1) {
l_error("packet is too small");
goto req_error;
}
switch (pkt[0]) {
case EAP_AKA_ST_IDENTITY:
handle_identity(eap, pkt, len);
break;
case EAP_AKA_ST_CHALLENGE:
handle_challenge(eap, pkt, len);
break;
case EAP_AKA_ST_NOTIFICATION:
handle_notification(eap, pkt, len);
break;
default:
l_error("unknown EAP-SIM subtype: %u", pkt[0]);
goto req_error;
}
return;
req_error:
eap_sim_client_error(eap, aka->type, EAP_SIM_ERROR_PROCESS);
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}
static const char *eap_aka_get_identity(struct eap_state *eap)
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{
struct eap_aka_handle *aka = eap_get_data(eap);
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return aka->identity;
}
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static void auth_destroyed(void *data)
{
struct eap_state *eap = data;
struct eap_aka_handle *aka = eap_get_data(eap);
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/*
* If AKA was already successful we can return. Also if the state
* has been set to ERROR, then eap_method_error has already been called,
* so we can return.
*/
if (aka->state == EAP_AKA_STATE_SUCCESS ||
aka->state == EAP_AKA_STATE_ERROR)
return;
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l_error("auth provider destroyed before AKA could finish");
aka->state = EAP_AKA_STATE_ERROR;
eap_method_error(eap);
}
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static int eap_aka_check_settings(struct l_settings *settings,
struct l_queue *secrets,
const char *prefix,
struct l_queue **out_missing)
{
struct iwd_sim_auth *auth;
auth = iwd_sim_auth_find(false, true);
if (!auth) {
l_debug("No SIM driver available for EAP-AKA");
return -EUNATCH;
}
if (!iwd_sim_auth_get_nai(auth)) {
l_error("SIM driver didn't provide NAI");
return -ENOENT;
}
return 0;
}
static bool eap_aka_common_load_settings(struct eap_state *eap,
struct l_settings *settings,
const char *prefix)
{
struct eap_aka_handle *aka = eap_get_data(eap);
/*
* RFC 4187 Section 4.1.1.6
* For AKA, the permanent username prefix is '0'
*
* RFC 5448 Section 3
* For AKA', the permanent username prefix is '6'
*/
char id_prefix = (aka->type == EAP_TYPE_AKA) ? '0' : '6';
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/*
* No specific settings for EAP-SIM, the auth provider will have all
* required data.
*/
aka->auth = iwd_sim_auth_find(false, true);
if (!aka->auth)
return false;
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aka->auth_watch = sim_auth_unregistered_watch_add(aka->auth,
auth_destroyed, eap);
aka->identity = l_strdup_printf("%c%s", id_prefix,
iwd_sim_auth_get_nai(aka->auth));
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return true;
}
static bool eap_aka_load_settings(struct eap_state *eap,
struct l_settings *settings,
const char *prefix)
{
struct eap_aka_handle *aka = l_new(struct eap_aka_handle, 1);
aka->type = EAP_TYPE_AKA;
eap_set_data(eap, aka);
return eap_aka_common_load_settings(eap, settings, prefix);
}
static bool eap_aka_prime_load_settings(struct eap_state *eap,
struct l_settings *settings,
const char *prefix)
{
struct eap_aka_handle *aka = l_new(struct eap_aka_handle, 1);
aka->type = EAP_TYPE_AKA_PRIME;
eap_set_data(eap, aka);
return eap_aka_common_load_settings(eap, settings, prefix);
}
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static bool eap_aka_reset_state(struct eap_state *eap)
{
struct eap_aka_handle *aka = eap_get_data(eap);
aka->state = EAP_AKA_STATE_UNCONNECTED;
l_free(aka->kdf_in);
aka->kdf_in = NULL;
l_free(aka->chal_pkt);
aka->chal_pkt = NULL;
memset(aka->mk, 0, sizeof(aka->mk));
memset(aka->k_encr, 0, sizeof(aka->k_encr));
memset(aka->k_aut, 0, sizeof(aka->k_aut));
memset(aka->msk, 0, sizeof(aka->msk));
memset(aka->emsk, 0, sizeof(aka->emsk));
memset(aka->k_re, 0, sizeof(aka->k_re));
memset(aka->autn, 0, sizeof(aka->autn));
return true;
}
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static struct eap_method eap_aka = {
.request_type = EAP_TYPE_AKA,
.exports_msk = true,
.name = "AKA",
.free = eap_aka_free,
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.handle_request = eap_aka_handle_request,
.check_settings = eap_aka_check_settings,
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.load_settings = eap_aka_load_settings,
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.get_identity = eap_aka_get_identity,
.reset_state = eap_aka_reset_state
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};
static struct eap_method eap_aka_prime = {
.request_type = EAP_TYPE_AKA_PRIME,
.exports_msk = true,
.name = "AKA'",
.free = eap_aka_free,
.handle_request = eap_aka_handle_request,
.check_settings = eap_aka_check_settings,
.load_settings = eap_aka_prime_load_settings,
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.get_identity = eap_aka_get_identity,
.reset_state = eap_aka_reset_state
};
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static int eap_aka_init(void)
{
l_debug("");
return eap_register_method(&eap_aka);
}
static void eap_aka_exit(void)
{
l_debug("");
eap_unregister_method(&eap_aka);
}
static int eap_aka_prime_init(void)
{
l_debug("");
return eap_register_method(&eap_aka_prime);
}
static void eap_aka_prime_exit(void)
{
l_debug("");
eap_unregister_method(&eap_aka_prime);
}
EAP_METHOD_BUILTIN(eap_aka, eap_aka_init, eap_aka_exit);
EAP_METHOD_BUILTIN(eap_aka_prime, eap_aka_prime_init, eap_aka_prime_exit);