e49b78c0d5
Add new configuration parameters macsec_replay_protect and macsec_replay_window to allow user to set up MACsec replay protection feature. Note that according to IEEE Std 802.1X-2010 replay protection and delay protection are different features: replay protection is related only to SecY and does not appear on MKA level while delay protection is something that KaY can use to manage SecY state. Signed-off-by: Andrey Kartashev <andrey.kartashev@afconsult.com>
441 lines
9.9 KiB
C
441 lines
9.9 KiB
C
/*
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* IEEE 802.1X-2010 KaY Interface
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* Copyright (c) 2013-2014, Qualcomm Atheros, Inc.
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*
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* This software may be distributed under the terms of the BSD license.
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* See README for more details.
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*/
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#include "utils/includes.h"
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#include "utils/common.h"
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#include "eap_peer/eap.h"
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#include "eap_peer/eap_i.h"
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#include "eapol_supp/eapol_supp_sm.h"
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#include "pae/ieee802_1x_key.h"
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#include "pae/ieee802_1x_kay.h"
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#include "wpa_supplicant_i.h"
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#include "config.h"
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#include "config_ssid.h"
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#include "driver_i.h"
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#include "wpas_kay.h"
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#define DEFAULT_KEY_LEN 16
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/* secure Connectivity Association Key Name (CKN) */
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#define DEFAULT_CKN_LEN 16
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static int wpas_macsec_init(void *priv, struct macsec_init_params *params)
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{
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return wpa_drv_macsec_init(priv, params);
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}
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static int wpas_macsec_deinit(void *priv)
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{
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return wpa_drv_macsec_deinit(priv);
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}
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static int wpas_macsec_get_capability(void *priv, enum macsec_cap *cap)
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{
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return wpa_drv_macsec_get_capability(priv, cap);
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}
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static int wpas_enable_protect_frames(void *wpa_s, Boolean enabled)
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{
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return wpa_drv_enable_protect_frames(wpa_s, enabled);
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}
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static int wpas_enable_encrypt(void *wpa_s, Boolean enabled)
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{
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return wpa_drv_enable_encrypt(wpa_s, enabled);
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}
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static int wpas_set_replay_protect(void *wpa_s, Boolean enabled, u32 window)
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{
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return wpa_drv_set_replay_protect(wpa_s, enabled, window);
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}
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static int wpas_set_current_cipher_suite(void *wpa_s, u64 cs)
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{
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return wpa_drv_set_current_cipher_suite(wpa_s, cs);
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}
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static int wpas_enable_controlled_port(void *wpa_s, Boolean enabled)
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{
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return wpa_drv_enable_controlled_port(wpa_s, enabled);
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}
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static int wpas_get_receive_lowest_pn(void *wpa_s, struct receive_sa *sa)
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{
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return wpa_drv_get_receive_lowest_pn(wpa_s, sa);
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}
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static int wpas_get_transmit_next_pn(void *wpa_s, struct transmit_sa *sa)
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{
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return wpa_drv_get_transmit_next_pn(wpa_s, sa);
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}
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static int wpas_set_transmit_next_pn(void *wpa_s, struct transmit_sa *sa)
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{
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return wpa_drv_set_transmit_next_pn(wpa_s, sa);
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}
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static int wpas_set_receive_lowest_pn(void *wpa_s, struct receive_sa *sa)
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{
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return wpa_drv_set_receive_lowest_pn(wpa_s, sa);
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}
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static unsigned int conf_offset_val(enum confidentiality_offset co)
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{
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switch (co) {
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case CONFIDENTIALITY_OFFSET_30:
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return 30;
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break;
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case CONFIDENTIALITY_OFFSET_50:
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return 50;
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default:
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return 0;
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}
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}
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static int wpas_create_receive_sc(void *wpa_s, struct receive_sc *sc,
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enum validate_frames vf,
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enum confidentiality_offset co)
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{
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return wpa_drv_create_receive_sc(wpa_s, sc, conf_offset_val(co), vf);
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}
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static int wpas_delete_receive_sc(void *wpa_s, struct receive_sc *sc)
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{
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return wpa_drv_delete_receive_sc(wpa_s, sc);
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}
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static int wpas_create_receive_sa(void *wpa_s, struct receive_sa *sa)
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{
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return wpa_drv_create_receive_sa(wpa_s, sa);
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}
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static int wpas_delete_receive_sa(void *wpa_s, struct receive_sa *sa)
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{
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return wpa_drv_delete_receive_sa(wpa_s, sa);
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}
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static int wpas_enable_receive_sa(void *wpa_s, struct receive_sa *sa)
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{
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return wpa_drv_enable_receive_sa(wpa_s, sa);
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}
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static int wpas_disable_receive_sa(void *wpa_s, struct receive_sa *sa)
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{
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return wpa_drv_disable_receive_sa(wpa_s, sa);
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}
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static int
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wpas_create_transmit_sc(void *wpa_s, struct transmit_sc *sc,
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enum confidentiality_offset co)
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{
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return wpa_drv_create_transmit_sc(wpa_s, sc, conf_offset_val(co));
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}
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static int wpas_delete_transmit_sc(void *wpa_s, struct transmit_sc *sc)
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{
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return wpa_drv_delete_transmit_sc(wpa_s, sc);
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}
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static int wpas_create_transmit_sa(void *wpa_s, struct transmit_sa *sa)
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{
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return wpa_drv_create_transmit_sa(wpa_s, sa);
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}
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static int wpas_delete_transmit_sa(void *wpa_s, struct transmit_sa *sa)
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{
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return wpa_drv_delete_transmit_sa(wpa_s, sa);
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}
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static int wpas_enable_transmit_sa(void *wpa_s, struct transmit_sa *sa)
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{
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return wpa_drv_enable_transmit_sa(wpa_s, sa);
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}
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static int wpas_disable_transmit_sa(void *wpa_s, struct transmit_sa *sa)
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{
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return wpa_drv_disable_transmit_sa(wpa_s, sa);
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}
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int ieee802_1x_alloc_kay_sm(struct wpa_supplicant *wpa_s, struct wpa_ssid *ssid)
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{
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struct ieee802_1x_kay_ctx *kay_ctx;
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struct ieee802_1x_kay *res = NULL;
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enum macsec_policy policy;
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ieee802_1x_dealloc_kay_sm(wpa_s);
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if (!ssid || ssid->macsec_policy == 0)
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return 0;
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if (ssid->macsec_policy == 1) {
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if (ssid->macsec_integ_only == 1)
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policy = SHOULD_SECURE;
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else
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policy = SHOULD_ENCRYPT;
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} else {
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policy = DO_NOT_SECURE;
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}
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kay_ctx = os_zalloc(sizeof(*kay_ctx));
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if (!kay_ctx)
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return -1;
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kay_ctx->ctx = wpa_s;
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kay_ctx->macsec_init = wpas_macsec_init;
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kay_ctx->macsec_deinit = wpas_macsec_deinit;
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kay_ctx->macsec_get_capability = wpas_macsec_get_capability;
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kay_ctx->enable_protect_frames = wpas_enable_protect_frames;
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kay_ctx->enable_encrypt = wpas_enable_encrypt;
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kay_ctx->set_replay_protect = wpas_set_replay_protect;
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kay_ctx->set_current_cipher_suite = wpas_set_current_cipher_suite;
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kay_ctx->enable_controlled_port = wpas_enable_controlled_port;
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kay_ctx->get_receive_lowest_pn = wpas_get_receive_lowest_pn;
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kay_ctx->get_transmit_next_pn = wpas_get_transmit_next_pn;
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kay_ctx->set_transmit_next_pn = wpas_set_transmit_next_pn;
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kay_ctx->set_receive_lowest_pn = wpas_set_receive_lowest_pn;
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kay_ctx->create_receive_sc = wpas_create_receive_sc;
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kay_ctx->delete_receive_sc = wpas_delete_receive_sc;
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kay_ctx->create_receive_sa = wpas_create_receive_sa;
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kay_ctx->delete_receive_sa = wpas_delete_receive_sa;
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kay_ctx->enable_receive_sa = wpas_enable_receive_sa;
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kay_ctx->disable_receive_sa = wpas_disable_receive_sa;
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kay_ctx->create_transmit_sc = wpas_create_transmit_sc;
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kay_ctx->delete_transmit_sc = wpas_delete_transmit_sc;
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kay_ctx->create_transmit_sa = wpas_create_transmit_sa;
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kay_ctx->delete_transmit_sa = wpas_delete_transmit_sa;
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kay_ctx->enable_transmit_sa = wpas_enable_transmit_sa;
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kay_ctx->disable_transmit_sa = wpas_disable_transmit_sa;
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res = ieee802_1x_kay_init(kay_ctx, policy, ssid->macsec_replay_protect,
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ssid->macsec_replay_window, ssid->macsec_port,
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ssid->mka_priority, wpa_s->ifname,
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wpa_s->own_addr);
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/* ieee802_1x_kay_init() frees kay_ctx on failure */
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if (res == NULL)
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return -1;
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wpa_s->kay = res;
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return 0;
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}
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void ieee802_1x_dealloc_kay_sm(struct wpa_supplicant *wpa_s)
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{
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if (!wpa_s->kay)
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return;
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ieee802_1x_kay_deinit(wpa_s->kay);
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wpa_s->kay = NULL;
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}
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static int ieee802_1x_auth_get_session_id(struct wpa_supplicant *wpa_s,
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const u8 *addr, u8 *sid, size_t *len)
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{
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const u8 *session_id;
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size_t id_len, need_len;
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session_id = eapol_sm_get_session_id(wpa_s->eapol, &id_len);
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if (session_id == NULL) {
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wpa_printf(MSG_DEBUG,
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"Failed to get SessionID from EAPOL state machines");
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return -1;
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}
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need_len = 1 + 2 * 32 /* random size */;
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if (need_len > id_len) {
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wpa_printf(MSG_DEBUG, "EAP Session-Id not long enough");
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return -1;
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}
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os_memcpy(sid, session_id, need_len);
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*len = need_len;
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return 0;
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}
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static int ieee802_1x_auth_get_msk(struct wpa_supplicant *wpa_s, const u8 *addr,
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u8 *msk, size_t *len)
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{
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u8 key[EAP_MSK_LEN];
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size_t keylen;
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struct eapol_sm *sm;
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int res;
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sm = wpa_s->eapol;
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if (sm == NULL)
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return -1;
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keylen = EAP_MSK_LEN;
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res = eapol_sm_get_key(sm, key, keylen);
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if (res) {
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wpa_printf(MSG_DEBUG,
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"Failed to get MSK from EAPOL state machines");
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return -1;
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}
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if (keylen > *len)
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keylen = *len;
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os_memcpy(msk, key, keylen);
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*len = keylen;
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return 0;
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}
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void * ieee802_1x_notify_create_actor(struct wpa_supplicant *wpa_s,
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const u8 *peer_addr)
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{
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u8 *sid;
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size_t sid_len = 128;
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struct mka_key_name *ckn;
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struct mka_key *cak;
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struct mka_key *msk;
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void *res = NULL;
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if (!wpa_s->kay || wpa_s->kay->policy == DO_NOT_SECURE)
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return NULL;
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wpa_printf(MSG_DEBUG,
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"IEEE 802.1X: External notification - Create MKA for "
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MACSTR, MAC2STR(peer_addr));
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msk = os_zalloc(sizeof(*msk));
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sid = os_zalloc(sid_len);
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ckn = os_zalloc(sizeof(*ckn));
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cak = os_zalloc(sizeof(*cak));
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if (!msk || !sid || !ckn || !cak)
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goto fail;
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msk->len = DEFAULT_KEY_LEN;
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if (ieee802_1x_auth_get_msk(wpa_s, wpa_s->bssid, msk->key, &msk->len)) {
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wpa_printf(MSG_ERROR, "IEEE 802.1X: Could not get MSK");
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goto fail;
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}
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if (ieee802_1x_auth_get_session_id(wpa_s, wpa_s->bssid, sid, &sid_len))
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{
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wpa_printf(MSG_ERROR,
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"IEEE 802.1X: Could not get EAP Session Id");
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goto fail;
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}
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/* Derive CAK from MSK */
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cak->len = DEFAULT_KEY_LEN;
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if (ieee802_1x_cak_128bits_aes_cmac(msk->key, wpa_s->own_addr,
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peer_addr, cak->key)) {
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wpa_printf(MSG_ERROR,
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"IEEE 802.1X: Deriving CAK failed");
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goto fail;
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}
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wpa_hexdump_key(MSG_DEBUG, "Derived CAK", cak->key, cak->len);
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/* Derive CKN from MSK */
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ckn->len = DEFAULT_CKN_LEN;
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if (ieee802_1x_ckn_128bits_aes_cmac(msk->key, wpa_s->own_addr,
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peer_addr, sid, sid_len,
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ckn->name)) {
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wpa_printf(MSG_ERROR,
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"IEEE 802.1X: Deriving CKN failed");
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goto fail;
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}
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wpa_hexdump(MSG_DEBUG, "Derived CKN", ckn->name, ckn->len);
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res = ieee802_1x_kay_create_mka(wpa_s->kay, ckn, cak, 0,
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EAP_EXCHANGE, FALSE);
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fail:
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if (msk) {
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os_memset(msk, 0, sizeof(*msk));
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os_free(msk);
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}
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os_free(sid);
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os_free(ckn);
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if (cak) {
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os_memset(cak, 0, sizeof(*cak));
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os_free(cak);
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}
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return res;
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}
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void * ieee802_1x_create_preshared_mka(struct wpa_supplicant *wpa_s,
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struct wpa_ssid *ssid)
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{
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struct mka_key *cak;
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struct mka_key_name *ckn;
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void *res = NULL;
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if ((ssid->mka_psk_set & MKA_PSK_SET) != MKA_PSK_SET)
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goto end;
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ckn = os_zalloc(sizeof(*ckn));
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if (!ckn)
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goto end;
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cak = os_zalloc(sizeof(*cak));
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if (!cak)
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goto free_ckn;
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if (ieee802_1x_alloc_kay_sm(wpa_s, ssid) < 0 || !wpa_s->kay)
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goto free_cak;
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if (wpa_s->kay->policy == DO_NOT_SECURE)
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goto dealloc;
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cak->len = MACSEC_CAK_LEN;
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os_memcpy(cak->key, ssid->mka_cak, cak->len);
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ckn->len = ssid->mka_ckn_len;
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os_memcpy(ckn->name, ssid->mka_ckn, ckn->len);
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res = ieee802_1x_kay_create_mka(wpa_s->kay, ckn, cak, 0, PSK, FALSE);
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if (res)
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goto free_cak;
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dealloc:
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/* Failed to create MKA */
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ieee802_1x_dealloc_kay_sm(wpa_s);
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free_cak:
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os_free(cak);
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free_ckn:
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os_free(ckn);
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end:
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return res;
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}
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