ce256b4a49
This is now annotated as be16, so use it as such in all cases instead of first storing host byte order value and then swapping that to big endian in other instances of the same structure. This gets rid of number of sparse warnings. Signed-off-by: Jouni Malinen <j@w1.fi>
380 lines
8.8 KiB
C
380 lines
8.8 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 <openssl/ssl.h>
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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_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_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, const u8 *cs,
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size_t cs_len)
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{
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return wpa_drv_set_current_cipher_suite(wpa_s, cs, cs_len);
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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, u32 channel,
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u8 an, u32 *lowest_pn)
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{
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return wpa_drv_get_receive_lowest_pn(wpa_s, channel, an, lowest_pn);
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}
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static int wpas_get_transmit_next_pn(void *wpa_s, u32 channel,
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u8 an, u32 *next_pn)
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{
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return wpa_drv_get_transmit_next_pn(wpa_s, channel, an, next_pn);
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}
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static int wpas_set_transmit_next_pn(void *wpa_s, u32 channel,
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u8 an, u32 next_pn)
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{
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return wpa_drv_set_transmit_next_pn(wpa_s, channel, an, next_pn);
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}
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static int wpas_get_available_receive_sc(void *wpa_s, u32 *channel)
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{
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return wpa_drv_get_available_receive_sc(wpa_s, channel);
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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, u32 channel,
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struct ieee802_1x_mka_sci *sci,
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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, channel, sci->addr,
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be_to_host16(sci->port),
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conf_offset_val(co), vf);
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}
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static int wpas_delete_receive_sc(void *wpa_s, u32 channel)
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{
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return wpa_drv_delete_receive_sc(wpa_s, channel);
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}
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static int wpas_create_receive_sa(void *wpa_s, u32 channel, u8 an,
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u32 lowest_pn, const u8 *sak)
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{
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return wpa_drv_create_receive_sa(wpa_s, channel, an, lowest_pn, sak);
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}
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static int wpas_enable_receive_sa(void *wpa_s, u32 channel, u8 an)
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{
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return wpa_drv_enable_receive_sa(wpa_s, channel, an);
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}
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static int wpas_disable_receive_sa(void *wpa_s, u32 channel, u8 an)
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{
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return wpa_drv_disable_receive_sa(wpa_s, channel, an);
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}
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static int wpas_get_available_transmit_sc(void *wpa_s, u32 *channel)
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{
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return wpa_drv_get_available_transmit_sc(wpa_s, channel);
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}
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static int
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wpas_create_transmit_sc(void *wpa_s, u32 channel,
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const struct ieee802_1x_mka_sci *sci,
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enum confidentiality_offset co)
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{
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return wpa_drv_create_transmit_sc(wpa_s, channel, sci->addr,
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be_to_host16(sci->port),
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conf_offset_val(co));
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}
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static int wpas_delete_transmit_sc(void *wpa_s, u32 channel)
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{
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return wpa_drv_delete_transmit_sc(wpa_s, channel);
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}
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static int wpas_create_transmit_sa(void *wpa_s, u32 channel, u8 an,
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u32 next_pn, Boolean confidentiality,
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const u8 *sak)
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{
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return wpa_drv_create_transmit_sa(wpa_s, channel, an, next_pn,
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confidentiality, sak);
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}
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static int wpas_enable_transmit_sa(void *wpa_s, u32 channel, u8 an)
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{
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return wpa_drv_enable_transmit_sa(wpa_s, channel, an);
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}
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static int wpas_disable_transmit_sa(void *wpa_s, u32 channel, u8 an)
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{
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return wpa_drv_disable_transmit_sa(wpa_s, channel, an);
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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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policy = ssid->macsec_policy == 1 ? SHOULD_SECURE : DO_NOT_SECURE;
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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->enable_protect_frames = wpas_enable_protect_frames;
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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->get_available_receive_sc = wpas_get_available_receive_sc;
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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->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->get_available_transmit_sc = wpas_get_available_transmit_sc;
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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->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, wpa_s->ifname,
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wpa_s->own_addr);
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if (res == NULL) {
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os_free(kay_ctx);
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return -1;
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}
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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 * SSL3_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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