hostap/src/pae/ieee802_1x_kay.c

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/*
* IEEE 802.1X-2010 Key Agree Protocol of PAE state machine
* Copyright (c) 2013, Qualcomm Atheros, Inc.
*
* This software may be distributed under the terms of the BSD license.
* See README for more details.
*/
#include <time.h>
#include "includes.h"
#include "common.h"
#include "list.h"
#include "eloop.h"
#include "wpabuf.h"
#include "state_machine.h"
#include "l2_packet/l2_packet.h"
#include "common/eapol_common.h"
#include "crypto/aes_wrap.h"
#include "ieee802_1x_cp.h"
#include "ieee802_1x_key.h"
#include "ieee802_1x_kay.h"
#include "ieee802_1x_kay_i.h"
#include "ieee802_1x_secy_ops.h"
#define DEFAULT_SA_KEY_LEN 16
#define DEFAULT_ICV_LEN 16
#define MAX_ICV_LEN 32 /* 32 bytes, 256 bits */
#define PENDING_PN_EXHAUSTION 0xC0000000
#define MKA_ALIGN_LENGTH(len) (((len) + 0x3) & ~0x3)
/* IEEE Std 802.1X-2010, Table 9-1 - MKA Algorithm Agility */
#define MKA_ALGO_AGILITY_2009 { 0x00, 0x80, 0xC2, 0x01 }
static u8 mka_algo_agility[4] = MKA_ALGO_AGILITY_2009;
/* IEEE802.1AE-2006 Table 14-1 MACsec Cipher Suites */
static struct macsec_ciphersuite cipher_suite_tbl[] = {
/* GCM-AES-128 */
{
.id = CS_ID_GCM_AES_128,
.name = CS_NAME_GCM_AES_128,
.capable = MACSEC_CAP_INTEG_AND_CONF_0_30_50,
.sak_len = DEFAULT_SA_KEY_LEN,
.index = 0,
},
};
#define CS_TABLE_SIZE (ARRAY_SIZE(cipher_suite_tbl))
#define DEFAULT_CS_INDEX 0
static struct mka_alg mka_alg_tbl[] = {
{
.parameter = MKA_ALGO_AGILITY_2009,
/* 128-bit CAK, KEK, ICK, ICV */
.cak_len = DEFAULT_ICV_LEN,
.kek_len = DEFAULT_ICV_LEN,
.ick_len = DEFAULT_ICV_LEN,
.icv_len = DEFAULT_ICV_LEN,
.cak_trfm = ieee802_1x_cak_128bits_aes_cmac,
.ckn_trfm = ieee802_1x_ckn_128bits_aes_cmac,
.kek_trfm = ieee802_1x_kek_128bits_aes_cmac,
.ick_trfm = ieee802_1x_ick_128bits_aes_cmac,
.icv_hash = ieee802_1x_icv_128bits_aes_cmac,
.index = 1,
},
};
#define MKA_ALG_TABLE_SIZE (ARRAY_SIZE(mka_alg_tbl))
static int is_ki_equal(struct ieee802_1x_mka_ki *ki1,
struct ieee802_1x_mka_ki *ki2)
{
return os_memcmp(ki1->mi, ki2->mi, MI_LEN) == 0 &&
ki1->kn == ki2->kn;
}
static void set_mka_param_body_len(void *body, unsigned int len)
{
struct ieee802_1x_mka_hdr *hdr = body;
hdr->length = (len >> 8) & 0x0f;
hdr->length1 = len & 0xff;
}
static unsigned int get_mka_param_body_len(const void *body)
{
const struct ieee802_1x_mka_hdr *hdr = body;
return (hdr->length << 8) | hdr->length1;
}
static u8 get_mka_param_body_type(const void *body)
{
const struct ieee802_1x_mka_hdr *hdr = body;
return hdr->type;
}
/**
* ieee802_1x_mka_dump_basic_body -
*/
static void
ieee802_1x_mka_dump_basic_body(struct ieee802_1x_mka_basic_body *body)
{
size_t body_len;
if (!body)
return;
body_len = get_mka_param_body_len(body);
wpa_printf(MSG_DEBUG, "*** MKA Basic Parameter set ***");
wpa_printf(MSG_DEBUG, "\tVersion.......: %d", body->version);
wpa_printf(MSG_DEBUG, "\tPriority......: %d", body->priority);
wpa_printf(MSG_DEBUG, "\tKeySvr........: %d", body->key_server);
wpa_printf(MSG_DEBUG, "\tMACSecDesired.: %d", body->macsec_desired);
wpa_printf(MSG_DEBUG, "\tMACSecCapable.: %d", body->macsec_capability);
wpa_printf(MSG_DEBUG, "\tBody Length...: %zu", body_len);
wpa_printf(MSG_DEBUG, "\tSCI MAC.......: " MACSTR,
MAC2STR(body->actor_sci.addr));
wpa_printf(MSG_DEBUG, "\tSCI Port .....: %d",
be_to_host16(body->actor_sci.port));
wpa_hexdump(MSG_DEBUG, "\tMember Id.....:",
body->actor_mi, sizeof(body->actor_mi));
wpa_printf(MSG_DEBUG, "\tMessage Number: %d",
be_to_host32(body->actor_mn));
wpa_hexdump(MSG_DEBUG, "\tAlgo Agility..:",
body->algo_agility, sizeof(body->algo_agility));
wpa_hexdump_ascii(MSG_DEBUG, "\tCAK Name......:", body->ckn,
body_len + MKA_HDR_LEN - sizeof(*body));
}
/**
* ieee802_1x_mka_dump_peer_body -
*/
static void
ieee802_1x_mka_dump_peer_body(struct ieee802_1x_mka_peer_body *body)
{
size_t body_len;
size_t i;
u8 *mi;
be32 mn;
if (body == NULL)
return;
body_len = get_mka_param_body_len(body);
if (body->type == MKA_LIVE_PEER_LIST) {
wpa_printf(MSG_DEBUG, "*** Live Peer List ***");
wpa_printf(MSG_DEBUG, "\tBody Length...: %zu", body_len);
} else if (body->type == MKA_POTENTIAL_PEER_LIST) {
wpa_printf(MSG_DEBUG, "*** Potential Live Peer List ***");
wpa_printf(MSG_DEBUG, "\tBody Length...: %zu", body_len);
}
for (i = 0; i < body_len; i += MI_LEN + sizeof(mn)) {
mi = body->peer + i;
os_memcpy(&mn, mi + MI_LEN, sizeof(mn));
wpa_hexdump_ascii(MSG_DEBUG, "\tMember Id.....:", mi, MI_LEN);
wpa_printf(MSG_DEBUG, "\tMessage Number: %d", be_to_host32(mn));
}
}
/**
* ieee802_1x_mka_dump_dist_sak_body -
*/
static void
ieee802_1x_mka_dump_dist_sak_body(struct ieee802_1x_mka_dist_sak_body *body)
{
size_t body_len;
if (body == NULL)
return;
body_len = get_mka_param_body_len(body);
wpa_printf(MSG_INFO, "*** Distributed SAK ***");
wpa_printf(MSG_INFO, "\tDistributed AN........: %d", body->dan);
wpa_printf(MSG_INFO, "\tConfidentiality Offset: %d",
body->confid_offset);
wpa_printf(MSG_INFO, "\tBody Length...........: %zu", body_len);
if (!body_len)
return;
wpa_printf(MSG_INFO, "\tKey Number............: %d",
be_to_host32(body->kn));
wpa_hexdump(MSG_INFO, "\tAES Key Wrap of SAK...:", body->sak, 24);
}
static const char * yes_no(int val)
{
return val ? "Yes" : "No";
}
/**
* ieee802_1x_mka_dump_sak_use_body -
*/
static void
ieee802_1x_mka_dump_sak_use_body(struct ieee802_1x_mka_sak_use_body *body)
{
int body_len;
if (body == NULL)
return;
body_len = get_mka_param_body_len(body);
wpa_printf(MSG_DEBUG, "*** MACsec SAK Use ***");
wpa_printf(MSG_DEBUG, "\tLatest Key AN....: %d", body->lan);
wpa_printf(MSG_DEBUG, "\tLatest Key Tx....: %s", yes_no(body->ltx));
wpa_printf(MSG_DEBUG, "\tLatest Key Rx....: %s", yes_no(body->lrx));
wpa_printf(MSG_DEBUG, "\tOld Key AN....: %d", body->oan);
wpa_printf(MSG_DEBUG, "\tOld Key Tx....: %s", yes_no(body->otx));
wpa_printf(MSG_DEBUG, "\tOld Key Rx....: %s", yes_no(body->orx));
wpa_printf(MSG_DEBUG, "\tPlain Key Tx....: %s", yes_no(body->ptx));
wpa_printf(MSG_DEBUG, "\tPlain Key Rx....: %s", yes_no(body->prx));
wpa_printf(MSG_DEBUG, "\tDelay Protect....: %s",
yes_no(body->delay_protect));
wpa_printf(MSG_DEBUG, "\tBody Length......: %d", body_len);
if (!body_len)
return;
wpa_hexdump(MSG_DEBUG, "\tKey Server MI....:",
body->lsrv_mi, sizeof(body->lsrv_mi));
wpa_printf(MSG_DEBUG, "\tKey Number.......: %u",
be_to_host32(body->lkn));
wpa_printf(MSG_DEBUG, "\tLowest PN........: %u",
be_to_host32(body->llpn));
wpa_hexdump_ascii(MSG_DEBUG, "\tOld Key Server MI....:",
body->osrv_mi, sizeof(body->osrv_mi));
wpa_printf(MSG_DEBUG, "\tOld Key Number.......: %u",
be_to_host32(body->okn));
wpa_printf(MSG_DEBUG, "\tOld Lowest PN........: %u",
be_to_host32(body->olpn));
}
/**
* ieee802_1x_kay_get_participant -
*/
static struct ieee802_1x_mka_participant *
ieee802_1x_kay_get_participant(struct ieee802_1x_kay *kay, const u8 *ckn)
{
struct ieee802_1x_mka_participant *participant;
dl_list_for_each(participant, &kay->participant_list,
struct ieee802_1x_mka_participant, list) {
if (os_memcmp(participant->ckn.name, ckn,
participant->ckn.len) == 0)
return participant;
}
wpa_printf(MSG_DEBUG, "KaY: participant is not found");
return NULL;
}
/**
* ieee802_1x_kay_get_principal_participant -
*/
static struct ieee802_1x_mka_participant *
ieee802_1x_kay_get_principal_participant(struct ieee802_1x_kay *kay)
{
struct ieee802_1x_mka_participant *participant;
dl_list_for_each(participant, &kay->participant_list,
struct ieee802_1x_mka_participant, list) {
if (participant->principal)
return participant;
}
wpa_printf(MSG_DEBUG, "KaY: principal participant is not found");
return NULL;
}
static struct ieee802_1x_kay_peer * get_peer_mi(struct dl_list *peers,
const u8 *mi)
{
struct ieee802_1x_kay_peer *peer;
dl_list_for_each(peer, peers, struct ieee802_1x_kay_peer, list) {
if (os_memcmp(peer->mi, mi, MI_LEN) == 0)
return peer;
}
return NULL;
}
/**
* ieee802_1x_kay_get_potential_peer
*/
static struct ieee802_1x_kay_peer *
ieee802_1x_kay_get_potential_peer(
struct ieee802_1x_mka_participant *participant, const u8 *mi)
{
return get_peer_mi(&participant->potential_peers, mi);
}
/**
* ieee802_1x_kay_get_live_peer
*/
static struct ieee802_1x_kay_peer *
ieee802_1x_kay_get_live_peer(struct ieee802_1x_mka_participant *participant,
const u8 *mi)
{
return get_peer_mi(&participant->live_peers, mi);
}
/**
* ieee802_1x_kay_is_in_potential_peer
*/
static Boolean
ieee802_1x_kay_is_in_potential_peer(
struct ieee802_1x_mka_participant *participant, const u8 *mi)
{
return ieee802_1x_kay_get_potential_peer(participant, mi) != NULL;
}
/**
* ieee802_1x_kay_is_in_live_peer
*/
static Boolean
ieee802_1x_kay_is_in_live_peer(
struct ieee802_1x_mka_participant *participant, const u8 *mi)
{
return ieee802_1x_kay_get_live_peer(participant, mi) != NULL;
}
/**
* ieee802_1x_kay_get_peer
*/
static struct ieee802_1x_kay_peer *
ieee802_1x_kay_get_peer(struct ieee802_1x_mka_participant *participant,
const u8 *mi)
{
struct ieee802_1x_kay_peer *peer;
peer = ieee802_1x_kay_get_live_peer(participant, mi);
if (peer)
return peer;
return ieee802_1x_kay_get_potential_peer(participant, mi);
}
/**
* ieee802_1x_kay_get_cipher_suite
*/
static struct macsec_ciphersuite *
ieee802_1x_kay_get_cipher_suite(struct ieee802_1x_mka_participant *participant,
const u8 *cs_id)
{
unsigned int i;
u64 cs;
be64 _cs;
os_memcpy(&_cs, cs_id, CS_ID_LEN);
cs = be_to_host64(_cs);
for (i = 0; i < CS_TABLE_SIZE; i++) {
if (cipher_suite_tbl[i].id == cs)
return &cipher_suite_tbl[i];
}
return NULL;
}
u64 mka_sci_u64(struct ieee802_1x_mka_sci *sci)
{
struct ieee802_1x_mka_sci tmp;
os_memcpy(tmp.addr, sci->addr, ETH_ALEN);
tmp.port = sci->port;
return *((u64 *) &tmp);
}
static Boolean sci_equal(const struct ieee802_1x_mka_sci *a,
const struct ieee802_1x_mka_sci *b)
{
return os_memcmp(a, b, sizeof(struct ieee802_1x_mka_sci)) == 0;
}
/**
* ieee802_1x_kay_get_peer_sci
*/
static struct ieee802_1x_kay_peer *
ieee802_1x_kay_get_peer_sci(struct ieee802_1x_mka_participant *participant,
const struct ieee802_1x_mka_sci *sci)
{
struct ieee802_1x_kay_peer *peer;
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list) {
if (sci_equal(&peer->sci, sci))
return peer;
}
dl_list_for_each(peer, &participant->potential_peers,
struct ieee802_1x_kay_peer, list) {
if (sci_equal(&peer->sci, sci))
return peer;
}
return NULL;
}
static void ieee802_1x_kay_use_data_key(struct data_key *pkey);
/**
* ieee802_1x_kay_init_receive_sa -
*/
static struct receive_sa *
ieee802_1x_kay_init_receive_sa(struct receive_sc *psc, u8 an, u32 lowest_pn,
struct data_key *key)
{
struct receive_sa *psa;
if (!psc || !key)
return NULL;
psa = os_zalloc(sizeof(*psa));
if (!psa) {
wpa_printf(MSG_ERROR, "%s: out of memory", __func__);
return NULL;
}
ieee802_1x_kay_use_data_key(key);
psa->pkey = key;
psa->lowest_pn = lowest_pn;
psa->next_pn = lowest_pn;
psa->an = an;
psa->sc = psc;
os_get_time(&psa->created_time);
psa->in_use = FALSE;
dl_list_add(&psc->sa_list, &psa->list);
wpa_printf(MSG_DEBUG,
"KaY: Create receive SA(AN: %hhu lowest_pn: %u of SC",
an, lowest_pn);
return psa;
}
static void ieee802_1x_kay_deinit_data_key(struct data_key *pkey);
/**
* ieee802_1x_kay_deinit_receive_sa -
*/
static void ieee802_1x_kay_deinit_receive_sa(struct receive_sa *psa)
{
ieee802_1x_kay_deinit_data_key(psa->pkey);
psa->pkey = NULL;
wpa_printf(MSG_DEBUG,
"KaY: Delete receive SA(an: %hhu) of SC",
psa->an);
dl_list_del(&psa->list);
os_free(psa);
}
/**
* ieee802_1x_kay_init_receive_sc -
*/
static struct receive_sc *
ieee802_1x_kay_init_receive_sc(const struct ieee802_1x_mka_sci *psci)
{
struct receive_sc *psc;
if (!psci)
return NULL;
psc = os_zalloc(sizeof(*psc));
if (!psc) {
wpa_printf(MSG_ERROR, "%s: out of memory", __func__);
return NULL;
}
os_memcpy(&psc->sci, psci, sizeof(psc->sci));
os_get_time(&psc->created_time);
psc->receiving = FALSE;
dl_list_init(&psc->sa_list);
wpa_printf(MSG_DEBUG, "KaY: Create receive SC");
wpa_hexdump(MSG_DEBUG, "SCI: ", (u8 *)psci, sizeof(*psci));
return psc;
}
static void ieee802_1x_delete_receive_sa(struct ieee802_1x_kay *kay,
struct receive_sa *sa)
{
secy_disable_receive_sa(kay, sa);
secy_delete_receive_sa(kay, sa);
ieee802_1x_kay_deinit_receive_sa(sa);
}
/**
* ieee802_1x_kay_deinit_receive_sc -
**/
static void
ieee802_1x_kay_deinit_receive_sc(
struct ieee802_1x_mka_participant *participant, struct receive_sc *psc)
{
struct receive_sa *psa, *pre_sa;
wpa_printf(MSG_DEBUG, "KaY: Delete receive SC");
dl_list_for_each_safe(psa, pre_sa, &psc->sa_list, struct receive_sa,
list)
ieee802_1x_delete_receive_sa(participant->kay, psa);
dl_list_del(&psc->list);
secy_delete_receive_sc(participant->kay, psc);
os_free(psc);
}
static void ieee802_1x_kay_dump_peer(struct ieee802_1x_kay_peer *peer)
{
wpa_hexdump(MSG_DEBUG, "\tMI: ", peer->mi, sizeof(peer->mi));
wpa_printf(MSG_DEBUG, "\tMN: %d", peer->mn);
wpa_hexdump(MSG_DEBUG, "\tSCI Addr: ", peer->sci.addr, ETH_ALEN);
wpa_printf(MSG_DEBUG, "\tPort: %d", peer->sci.port);
}
static struct ieee802_1x_kay_peer *
ieee802_1x_kay_create_peer(const u8 *mi, u32 mn)
{
struct ieee802_1x_kay_peer *peer;
peer = os_zalloc(sizeof(*peer));
if (!peer) {
wpa_printf(MSG_ERROR, "KaY-%s: out of memory", __func__);
return NULL;
}
os_memcpy(peer->mi, mi, MI_LEN);
peer->mn = mn;
peer->expire = time(NULL) + MKA_LIFE_TIME / 1000;
peer->sak_used = FALSE;
return peer;
}
/**
* ieee802_1x_kay_create_live_peer
*/
static struct ieee802_1x_kay_peer *
ieee802_1x_kay_create_live_peer(struct ieee802_1x_mka_participant *participant,
const u8 *mi, u32 mn)
{
struct ieee802_1x_kay_peer *peer;
struct receive_sc *rxsc;
peer = ieee802_1x_kay_create_peer(mi, mn);
if (!peer)
return NULL;
os_memcpy(&peer->sci, &participant->current_peer_sci,
sizeof(peer->sci));
rxsc = ieee802_1x_kay_init_receive_sc(&peer->sci);
if (!rxsc) {
os_free(peer);
return NULL;
}
dl_list_add(&participant->live_peers, &peer->list);
dl_list_add(&participant->rxsc_list, &rxsc->list);
secy_create_receive_sc(participant->kay, rxsc);
wpa_printf(MSG_DEBUG, "KaY: Live peer created");
ieee802_1x_kay_dump_peer(peer);
return peer;
}
/**
* ieee802_1x_kay_create_potential_peer
*/
static struct ieee802_1x_kay_peer *
ieee802_1x_kay_create_potential_peer(
struct ieee802_1x_mka_participant *participant, const u8 *mi, u32 mn)
{
struct ieee802_1x_kay_peer *peer;
peer = ieee802_1x_kay_create_peer(mi, mn);
if (!peer)
return NULL;
dl_list_add(&participant->potential_peers, &peer->list);
wpa_printf(MSG_DEBUG, "KaY: potential peer created");
ieee802_1x_kay_dump_peer(peer);
return peer;
}
/**
* ieee802_1x_kay_move_live_peer
*/
static struct ieee802_1x_kay_peer *
ieee802_1x_kay_move_live_peer(struct ieee802_1x_mka_participant *participant,
u8 *mi, u32 mn)
{
struct ieee802_1x_kay_peer *peer;
struct receive_sc *rxsc;
peer = ieee802_1x_kay_get_potential_peer(participant, mi);
if (!peer)
return NULL;
rxsc = ieee802_1x_kay_init_receive_sc(&participant->current_peer_sci);
if (!rxsc)
return NULL;
os_memcpy(&peer->sci, &participant->current_peer_sci,
sizeof(peer->sci));
peer->mn = mn;
peer->expire = time(NULL) + MKA_LIFE_TIME / 1000;
wpa_printf(MSG_DEBUG, "KaY: move potential peer to live peer");
ieee802_1x_kay_dump_peer(peer);
dl_list_del(&peer->list);
dl_list_add_tail(&participant->live_peers, &peer->list);
dl_list_add(&participant->rxsc_list, &rxsc->list);
secy_create_receive_sc(participant->kay, rxsc);
return peer;
}
/**
* ieee802_1x_mka_basic_body_present -
*/
static Boolean
ieee802_1x_mka_basic_body_present(
struct ieee802_1x_mka_participant *participant)
{
return TRUE;
}
/**
* ieee802_1x_mka_basic_body_length -
*/
static int
ieee802_1x_mka_basic_body_length(struct ieee802_1x_mka_participant *participant)
{
int length;
length = sizeof(struct ieee802_1x_mka_basic_body);
length += participant->ckn.len;
return MKA_ALIGN_LENGTH(length);
}
/**
* ieee802_1x_mka_encode_basic_body
*/
static int
ieee802_1x_mka_encode_basic_body(
struct ieee802_1x_mka_participant *participant,
struct wpabuf *buf)
{
struct ieee802_1x_mka_basic_body *body;
struct ieee802_1x_kay *kay = participant->kay;
unsigned int length = ieee802_1x_mka_basic_body_length(participant);
body = wpabuf_put(buf, length);
body->version = kay->mka_version;
body->priority = kay->actor_priority;
if (participant->is_elected)
body->key_server = participant->is_key_server;
else
body->key_server = participant->can_be_key_server;
body->macsec_desired = kay->macsec_desired;
body->macsec_capability = kay->macsec_capable;
set_mka_param_body_len(body, length - MKA_HDR_LEN);
os_memcpy(body->actor_sci.addr, kay->actor_sci.addr,
sizeof(kay->actor_sci.addr));
body->actor_sci.port = kay->actor_sci.port;
os_memcpy(body->actor_mi, participant->mi, sizeof(body->actor_mi));
participant->mn = participant->mn + 1;
body->actor_mn = host_to_be32(participant->mn);
os_memcpy(body->algo_agility, kay->algo_agility,
sizeof(body->algo_agility));
os_memcpy(body->ckn, participant->ckn.name, participant->ckn.len);
ieee802_1x_mka_dump_basic_body(body);
return 0;
}
static Boolean
reset_participant_mi(struct ieee802_1x_mka_participant *participant)
{
if (os_get_random(participant->mi, sizeof(participant->mi)) < 0)
return FALSE;
participant->mn = 0;
return TRUE;
}
/**
* ieee802_1x_mka_decode_basic_body -
*/
static struct ieee802_1x_mka_participant *
ieee802_1x_mka_decode_basic_body(struct ieee802_1x_kay *kay, const u8 *mka_msg,
size_t msg_len)
{
struct ieee802_1x_mka_participant *participant;
const struct ieee802_1x_mka_basic_body *body;
struct ieee802_1x_kay_peer *peer;
body = (const struct ieee802_1x_mka_basic_body *) mka_msg;
if (body->version > MKA_VERSION_ID) {
wpa_printf(MSG_DEBUG,
"KaY: peer's version(%d) greater than mka current version(%d)",
body->version, MKA_VERSION_ID);
}
if (kay->is_obliged_key_server && body->key_server) {
wpa_printf(MSG_DEBUG, "I must be as key server");
return NULL;
}
participant = ieee802_1x_kay_get_participant(kay, body->ckn);
if (!participant) {
wpa_printf(MSG_DEBUG, "Peer is not included in my CA");
return NULL;
}
/* If the peer's MI is my MI, I will choose new MI */
if (os_memcmp(body->actor_mi, participant->mi, MI_LEN) == 0) {
if (!reset_participant_mi(participant))
return NULL;
}
os_memcpy(participant->current_peer_id.mi, body->actor_mi, MI_LEN);
participant->current_peer_id.mn = body->actor_mn;
os_memcpy(participant->current_peer_sci.addr, body->actor_sci.addr,
sizeof(participant->current_peer_sci.addr));
participant->current_peer_sci.port = body->actor_sci.port;
/* handler peer */
peer = ieee802_1x_kay_get_peer(participant, body->actor_mi);
if (!peer) {
/* Check duplicated SCI */
/* TODO: What policy should be applied to detect duplicated SCI
* is active attacker or a valid peer whose MI is be changed?
*/
peer = ieee802_1x_kay_get_peer_sci(participant,
&body->actor_sci);
if (peer) {
wpa_printf(MSG_WARNING,
"KaY: duplicated SCI detected, Maybe active attacker");
dl_list_del(&peer->list);
os_free(peer);
}
peer = ieee802_1x_kay_create_potential_peer(
participant, body->actor_mi,
be_to_host32(body->actor_mn));
if (!peer)
return NULL;
peer->macsec_desired = body->macsec_desired;
peer->macsec_capability = body->macsec_capability;
peer->is_key_server = (Boolean) body->key_server;
peer->key_server_priority = body->priority;
} else if (peer->mn < be_to_host32(body->actor_mn)) {
peer->mn = be_to_host32(body->actor_mn);
peer->expire = time(NULL) + MKA_LIFE_TIME / 1000;
peer->macsec_desired = body->macsec_desired;
peer->macsec_capability = body->macsec_capability;
peer->is_key_server = (Boolean) body->key_server;
peer->key_server_priority = body->priority;
} else {
wpa_printf(MSG_WARNING, "KaY: The peer MN have received");
return NULL;
}
return participant;
}
/**
* ieee802_1x_mka_live_peer_body_present
*/
static Boolean
ieee802_1x_mka_live_peer_body_present(
struct ieee802_1x_mka_participant *participant)
{
return !dl_list_empty(&participant->live_peers);
}
/**
* ieee802_1x_kay_get_live_peer_length
*/
static int
ieee802_1x_mka_get_live_peer_length(
struct ieee802_1x_mka_participant *participant)
{
int len = MKA_HDR_LEN;
struct ieee802_1x_kay_peer *peer;
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list)
len += sizeof(struct ieee802_1x_mka_peer_id);
return MKA_ALIGN_LENGTH(len);
}
/**
* ieee802_1x_mka_encode_live_peer_body -
*/
static int
ieee802_1x_mka_encode_live_peer_body(
struct ieee802_1x_mka_participant *participant,
struct wpabuf *buf)
{
struct ieee802_1x_mka_peer_body *body;
struct ieee802_1x_kay_peer *peer;
unsigned int length;
struct ieee802_1x_mka_peer_id *body_peer;
length = ieee802_1x_mka_get_live_peer_length(participant);
body = wpabuf_put(buf, sizeof(struct ieee802_1x_mka_peer_body));
body->type = MKA_LIVE_PEER_LIST;
set_mka_param_body_len(body, length - MKA_HDR_LEN);
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list) {
body_peer = wpabuf_put(buf,
sizeof(struct ieee802_1x_mka_peer_id));
os_memcpy(body_peer->mi, peer->mi, MI_LEN);
body_peer->mn = host_to_be32(peer->mn);
}
ieee802_1x_mka_dump_peer_body(body);
return 0;
}
/**
* ieee802_1x_mka_potential_peer_body_present
*/
static Boolean
ieee802_1x_mka_potential_peer_body_present(
struct ieee802_1x_mka_participant *participant)
{
return !dl_list_empty(&participant->potential_peers);
}
/**
* ieee802_1x_kay_get_potential_peer_length
*/
static int
ieee802_1x_mka_get_potential_peer_length(
struct ieee802_1x_mka_participant *participant)
{
int len = MKA_HDR_LEN;
struct ieee802_1x_kay_peer *peer;
dl_list_for_each(peer, &participant->potential_peers,
struct ieee802_1x_kay_peer, list)
len += sizeof(struct ieee802_1x_mka_peer_id);
return MKA_ALIGN_LENGTH(len);
}
/**
* ieee802_1x_mka_encode_potential_peer_body -
*/
static int
ieee802_1x_mka_encode_potential_peer_body(
struct ieee802_1x_mka_participant *participant,
struct wpabuf *buf)
{
struct ieee802_1x_mka_peer_body *body;
struct ieee802_1x_kay_peer *peer;
unsigned int length;
struct ieee802_1x_mka_peer_id *body_peer;
length = ieee802_1x_mka_get_potential_peer_length(participant);
body = wpabuf_put(buf, sizeof(struct ieee802_1x_mka_peer_body));
body->type = MKA_POTENTIAL_PEER_LIST;
set_mka_param_body_len(body, length - MKA_HDR_LEN);
dl_list_for_each(peer, &participant->potential_peers,
struct ieee802_1x_kay_peer, list) {
body_peer = wpabuf_put(buf,
sizeof(struct ieee802_1x_mka_peer_id));
os_memcpy(body_peer->mi, peer->mi, MI_LEN);
body_peer->mn = host_to_be32(peer->mn);
}
ieee802_1x_mka_dump_peer_body(body);
return 0;
}
/**
* ieee802_1x_mka_i_in_peerlist -
*/
static Boolean
ieee802_1x_mka_i_in_peerlist(struct ieee802_1x_mka_participant *participant,
const u8 *mka_msg, size_t msg_len)
{
struct ieee802_1x_mka_hdr *hdr;
size_t body_len;
size_t left_len;
u8 body_type;
const u8 *pos;
size_t i;
for (pos = mka_msg, left_len = msg_len;
left_len > MKA_HDR_LEN + DEFAULT_ICV_LEN;
left_len -= body_len + MKA_HDR_LEN,
pos += body_len + MKA_HDR_LEN) {
hdr = (struct ieee802_1x_mka_hdr *) pos;
body_len = get_mka_param_body_len(hdr);
body_type = get_mka_param_body_type(hdr);
if (body_type != MKA_LIVE_PEER_LIST &&
body_type != MKA_POTENTIAL_PEER_LIST)
continue;
ieee802_1x_mka_dump_peer_body(
(struct ieee802_1x_mka_peer_body *)pos);
if (left_len < (MKA_HDR_LEN + body_len + DEFAULT_ICV_LEN)) {
wpa_printf(MSG_ERROR,
"KaY: MKA Peer Packet Body Length (%zu bytes) is less than the Parameter Set Header Length (%zu bytes) + the Parameter Set Body Length (%zu bytes) + %d bytes of ICV",
left_len, MKA_HDR_LEN,
body_len, DEFAULT_ICV_LEN);
continue;
}
if ((body_len % 16) != 0) {
wpa_printf(MSG_ERROR,
"KaY: MKA Peer Packet Body Length (%zu bytes) should be a multiple of 16 octets",
body_len);
continue;
}
for (i = 0; i < body_len;
i += sizeof(struct ieee802_1x_mka_peer_id)) {
const struct ieee802_1x_mka_peer_id *peer_mi;
peer_mi = (const struct ieee802_1x_mka_peer_id *)
(pos + MKA_HDR_LEN + i);
if (os_memcmp(peer_mi->mi, participant->mi,
MI_LEN) == 0 &&
be_to_host32(peer_mi->mn) == participant->mn)
return TRUE;
}
}
return FALSE;
}
/**
* ieee802_1x_mka_decode_live_peer_body -
*/
static int ieee802_1x_mka_decode_live_peer_body(
struct ieee802_1x_mka_participant *participant,
const u8 *peer_msg, size_t msg_len)
{
const struct ieee802_1x_mka_hdr *hdr;
struct ieee802_1x_kay_peer *peer;
size_t body_len;
size_t i;
Boolean is_included;
is_included = ieee802_1x_kay_is_in_live_peer(
participant, participant->current_peer_id.mi);
hdr = (const struct ieee802_1x_mka_hdr *) peer_msg;
body_len = get_mka_param_body_len(hdr);
if (body_len % 16 != 0) {
wpa_printf(MSG_ERROR,
"KaY: MKA Peer Packet Body Length (%zu bytes) should be a multiple of 16 octets",
body_len);
return -1;
}
for (i = 0; i < body_len; i += sizeof(struct ieee802_1x_mka_peer_id)) {
const struct ieee802_1x_mka_peer_id *peer_mi;
u32 peer_mn;
peer_mi = (const struct ieee802_1x_mka_peer_id *)
(peer_msg + MKA_HDR_LEN + i);
peer_mn = be_to_host32(peer_mi->mn);
/* it is myself */
if (os_memcmp(peer_mi, participant->mi, MI_LEN) == 0) {
/* My message id is used by other participant */
if (peer_mn > participant->mn &&
!reset_participant_mi(participant))
wpa_printf(MSG_DEBUG, "KaY: Could not update mi");
continue;
}
if (!is_included)
continue;
peer = ieee802_1x_kay_get_peer(participant, peer_mi->mi);
if (peer) {
peer->mn = peer_mn;
peer->expire = time(NULL) + MKA_LIFE_TIME / 1000;
} else if (!ieee802_1x_kay_create_potential_peer(
participant, peer_mi->mi, peer_mn)) {
return -1;
}
}
return 0;
}
/**
* ieee802_1x_mka_decode_potential_peer_body -
*/
static int
ieee802_1x_mka_decode_potential_peer_body(
struct ieee802_1x_mka_participant *participant,
const u8 *peer_msg, size_t msg_len)
{
const struct ieee802_1x_mka_hdr *hdr;
size_t body_len;
size_t i;
hdr = (const struct ieee802_1x_mka_hdr *) peer_msg;
body_len = get_mka_param_body_len(hdr);
if (body_len % 16 != 0) {
wpa_printf(MSG_ERROR,
"KaY: MKA Peer Packet Body Length (%zu bytes) should be a multiple of 16 octets",
body_len);
return -1;
}
for (i = 0; i < body_len; i += sizeof(struct ieee802_1x_mka_peer_id)) {
const struct ieee802_1x_mka_peer_id *peer_mi;
u32 peer_mn;
peer_mi = (struct ieee802_1x_mka_peer_id *)
(peer_msg + MKA_HDR_LEN + i);
peer_mn = be_to_host32(peer_mi->mn);
/* it is myself */
if (os_memcmp(peer_mi, participant->mi, MI_LEN) == 0) {
/* My message id is used by other participant */
if (peer_mn > participant->mn &&
!reset_participant_mi(participant))
wpa_printf(MSG_DEBUG, "KaY: Could not update mi");
continue;
}
}
return 0;
}
/**
* ieee802_1x_mka_sak_use_body_present
*/
static Boolean
ieee802_1x_mka_sak_use_body_present(
struct ieee802_1x_mka_participant *participant)
{
return participant->to_use_sak;
}
/**
* ieee802_1x_mka_get_sak_use_length
*/
static int
ieee802_1x_mka_get_sak_use_length(
struct ieee802_1x_mka_participant *participant)
{
int length = MKA_HDR_LEN;
if (participant->kay->macsec_desired && participant->advised_desired)
length = sizeof(struct ieee802_1x_mka_sak_use_body);
return MKA_ALIGN_LENGTH(length);
}
/**
*
*/
static u32
ieee802_1x_mka_get_lpn(struct ieee802_1x_mka_participant *principal,
struct ieee802_1x_mka_ki *ki)
{
struct receive_sa *rxsa;
struct receive_sc *rxsc;
u32 lpn = 0;
dl_list_for_each(rxsc, &principal->rxsc_list, struct receive_sc, list) {
dl_list_for_each(rxsa, &rxsc->sa_list, struct receive_sa, list)
{
if (is_ki_equal(&rxsa->pkey->key_identifier, ki)) {
secy_get_receive_lowest_pn(principal->kay,
rxsa);
lpn = lpn > rxsa->lowest_pn ?
lpn : rxsa->lowest_pn;
break;
}
}
}
if (lpn == 0)
lpn = 1;
return lpn;
}
/**
* ieee802_1x_mka_encode_sak_use_body -
*/
static int
ieee802_1x_mka_encode_sak_use_body(
struct ieee802_1x_mka_participant *participant,
struct wpabuf *buf)
{
struct ieee802_1x_mka_sak_use_body *body;
struct ieee802_1x_kay *kay = participant->kay;
unsigned int length;
u32 pn = 1;
length = ieee802_1x_mka_get_sak_use_length(participant);
body = wpabuf_put(buf, length);
body->type = MKA_SAK_USE;
set_mka_param_body_len(body, length - MKA_HDR_LEN);
if (length == MKA_HDR_LEN) {
body->ptx = TRUE;
body->prx = TRUE;
body->lan = 0;
body->lrx = FALSE;
body->ltx = FALSE;
body->delay_protect = FALSE;
return 0;
}
/* data protect, lowest accept packet number */
body->delay_protect = kay->macsec_replay_protect;
pn = ieee802_1x_mka_get_lpn(participant, &participant->lki);
if (pn > kay->pn_exhaustion) {
wpa_printf(MSG_WARNING, "KaY: My LPN exhaustion");
if (participant->is_key_server)
participant->new_sak = TRUE;
}
body->llpn = host_to_be32(pn);
pn = ieee802_1x_mka_get_lpn(participant, &participant->oki);
body->olpn = host_to_be32(pn);
/* plain tx, plain rx */
body->ptx = !kay->macsec_protect;
body->prx = kay->macsec_validate != Strict;
/* latest key: rx, tx, key server member identifier key number */
body->lan = participant->lan;
os_memcpy(body->lsrv_mi, participant->lki.mi, sizeof(body->lsrv_mi));
body->lkn = host_to_be32(participant->lki.kn);
body->lrx = participant->lrx;
body->ltx = participant->ltx;
/* old key: rx, tx, key server member identifier key number */
body->oan = participant->oan;
if (participant->oki.kn != participant->lki.kn &&
participant->oki.kn != 0) {
body->otx = TRUE;
body->orx = TRUE;
os_memcpy(body->osrv_mi, participant->oki.mi,
sizeof(body->osrv_mi));
body->okn = host_to_be32(participant->oki.kn);
} else {
body->otx = FALSE;
body->orx = FALSE;
}
/* set CP's variable */
if (body->ltx) {
kay->tx_enable = TRUE;
kay->port_enable = TRUE;
}
if (body->lrx)
kay->rx_enable = TRUE;
ieee802_1x_mka_dump_sak_use_body(body);
return 0;
}
/**
* ieee802_1x_mka_decode_sak_use_body -
*/
static int
ieee802_1x_mka_decode_sak_use_body(
struct ieee802_1x_mka_participant *participant,
const u8 *mka_msg, size_t msg_len)
{
struct ieee802_1x_mka_hdr *hdr;
struct ieee802_1x_mka_sak_use_body *body;
struct ieee802_1x_kay_peer *peer;
struct transmit_sa *txsa;
struct data_key *sa_key = NULL;
size_t body_len;
struct ieee802_1x_mka_ki ki;
u32 lpn;
Boolean all_receiving;
Boolean found;
struct ieee802_1x_kay *kay = participant->kay;
if (!participant->principal) {
wpa_printf(MSG_WARNING, "KaY: Participant is not principal");
return -1;
}
peer = ieee802_1x_kay_get_live_peer(participant,
participant->current_peer_id.mi);
if (!peer) {
wpa_printf(MSG_WARNING, "KaY: the peer is not my live peer");
return -1;
}
hdr = (struct ieee802_1x_mka_hdr *) mka_msg;
body_len = get_mka_param_body_len(hdr);
body = (struct ieee802_1x_mka_sak_use_body *) mka_msg;
ieee802_1x_mka_dump_sak_use_body(body);
if ((body_len != 0) && (body_len < 40)) {
wpa_printf(MSG_ERROR,
"KaY: MKA Use SAK Packet Body Length (%zu bytes) should be 0, 40, or more octets",
body_len);
return -1;
}
/* TODO: what action should I take when peer does not support MACsec */
if (body_len == 0) {
wpa_printf(MSG_WARNING, "KaY: Peer does not support MACsec");
return 0;
}
/* TODO: when the plain tx or rx of peer is true, should I change
* the attribute of controlled port
*/
if (body->prx)
wpa_printf(MSG_WARNING, "KaY: peer's plain rx are TRUE");
if (body->ptx)
wpa_printf(MSG_WARNING, "KaY: peer's plain tx are TRUE");
/* check latest key is valid */
if (body->ltx || body->lrx) {
found = FALSE;
os_memcpy(ki.mi, body->lsrv_mi, sizeof(ki.mi));
ki.kn = be_to_host32(body->lkn);
dl_list_for_each(sa_key, &participant->sak_list,
struct data_key, list) {
if (is_ki_equal(&sa_key->key_identifier, &ki)) {
found = TRUE;
break;
}
}
if (!found) {
wpa_printf(MSG_WARNING, "KaY: Latest key is invalid");
return -1;
}
if (os_memcmp(participant->lki.mi, body->lsrv_mi,
sizeof(participant->lki.mi)) == 0 &&
be_to_host32(body->lkn) == participant->lki.kn &&
body->lan == participant->lan) {
peer->sak_used = TRUE;
}
if (body->ltx && peer->is_key_server) {
ieee802_1x_cp_set_servertransmitting(kay->cp, TRUE);
ieee802_1x_cp_sm_step(kay->cp);
}
}
/* check old key is valid */
if (body->otx || body->orx) {
if (os_memcmp(participant->oki.mi, body->osrv_mi,
sizeof(participant->oki.mi)) != 0 ||
be_to_host32(body->okn) != participant->oki.kn ||
body->oan != participant->oan) {
wpa_printf(MSG_WARNING, "KaY: Old key is invalid");
return -1;
}
}
/* TODO: how to set the MACsec hardware when delay_protect is true */
if (body->delay_protect &&
(!be_to_host32(body->llpn) || !be_to_host32(body->olpn))) {
wpa_printf(MSG_WARNING,
"KaY: Lowest packet number should greater than 0 when delay_protect is TRUE");
return -1;
}
/* check all live peer have used the sak for receiving sa */
all_receiving = TRUE;
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list) {
if (!peer->sak_used) {
all_receiving = FALSE;
break;
}
}
if (all_receiving) {
participant->to_dist_sak = FALSE;
ieee802_1x_cp_set_allreceiving(kay->cp, TRUE);
ieee802_1x_cp_sm_step(kay->cp);
}
/* if i'm key server, and detects peer member pn exhaustion, rekey.*/
lpn = be_to_host32(body->llpn);
if (lpn > kay->pn_exhaustion) {
if (participant->is_key_server) {
participant->new_sak = TRUE;
wpa_printf(MSG_WARNING, "KaY: Peer LPN exhaustion");
}
}
found = FALSE;
dl_list_for_each(txsa, &participant->txsc->sa_list,
struct transmit_sa, list) {
if (sa_key != NULL && txsa->pkey == sa_key) {
found = TRUE;
break;
}
}
if (!found) {
wpa_printf(MSG_WARNING, "KaY: Can't find txsa");
return -1;
}
/* FIXME: Secy creates txsa with default npn. If MKA detected Latest Key
* npn is larger than txsa's npn, set it to txsa.
*/
secy_get_transmit_next_pn(kay, txsa);
if (lpn > txsa->next_pn) {
secy_set_transmit_next_pn(kay, txsa);
wpa_printf(MSG_INFO, "KaY: update lpn =0x%x", lpn);
}
return 0;
}
/**
* ieee802_1x_mka_dist_sak_body_present
*/
static Boolean
ieee802_1x_mka_dist_sak_body_present(
struct ieee802_1x_mka_participant *participant)
{
return participant->to_dist_sak && participant->new_key;
}
/**
* ieee802_1x_kay_get_dist_sak_length
*/
static int
ieee802_1x_mka_get_dist_sak_length(
struct ieee802_1x_mka_participant *participant)
{
int length = MKA_HDR_LEN;
unsigned int cs_index = participant->kay->macsec_csindex;
if (participant->advised_desired && cs_index < CS_TABLE_SIZE) {
length = sizeof(struct ieee802_1x_mka_dist_sak_body);
if (cs_index != DEFAULT_CS_INDEX)
length += CS_ID_LEN;
length += cipher_suite_tbl[cs_index].sak_len + 8;
}
return MKA_ALIGN_LENGTH(length);
}
/**
* ieee802_1x_mka_encode_dist_sak_body -
*/
static int
ieee802_1x_mka_encode_dist_sak_body(
struct ieee802_1x_mka_participant *participant,
struct wpabuf *buf)
{
struct ieee802_1x_mka_dist_sak_body *body;
struct data_key *sak;
unsigned int length;
unsigned int cs_index;
int sak_pos;
length = ieee802_1x_mka_get_dist_sak_length(participant);
body = wpabuf_put(buf, length);
body->type = MKA_DISTRIBUTED_SAK;
set_mka_param_body_len(body, length - MKA_HDR_LEN);
if (length == MKA_HDR_LEN) {
body->confid_offset = 0;
body->dan = 0;
return 0;
}
sak = participant->new_key;
body->confid_offset = sak->confidentiality_offset;
body->dan = sak->an;
body->kn = host_to_be32(sak->key_identifier.kn);
cs_index = participant->kay->macsec_csindex;
sak_pos = 0;
if (cs_index >= CS_TABLE_SIZE)
return -1;
if (cs_index != DEFAULT_CS_INDEX) {
be64 cs;
cs = host_to_be64(cipher_suite_tbl[cs_index].id);
os_memcpy(body->sak, &cs, CS_ID_LEN);
sak_pos = CS_ID_LEN;
}
if (aes_wrap(participant->kek.key, 16,
cipher_suite_tbl[cs_index].sak_len / 8,
sak->key, body->sak + sak_pos)) {
wpa_printf(MSG_ERROR, "KaY: AES wrap failed");
return -1;
}
ieee802_1x_mka_dump_dist_sak_body(body);
return 0;
}
/**
* ieee802_1x_kay_init_data_key -
*/
static void ieee802_1x_kay_init_data_key(struct data_key *pkey)
{
pkey->transmits = TRUE;
pkey->receives = TRUE;
os_get_time(&pkey->created_time);
pkey->user = 1;
}
/**
* ieee802_1x_kay_decode_dist_sak_body -
*/
static int
ieee802_1x_mka_decode_dist_sak_body(
struct ieee802_1x_mka_participant *participant,
const u8 *mka_msg, size_t msg_len)
{
struct ieee802_1x_mka_hdr *hdr;
struct ieee802_1x_mka_dist_sak_body *body;
struct ieee802_1x_kay_peer *peer;
struct macsec_ciphersuite *cs;
size_t body_len;
struct data_key *sa_key = NULL;
int sak_len;
u8 *wrap_sak;
u8 *unwrap_sak;
struct ieee802_1x_kay *kay = participant->kay;
hdr = (struct ieee802_1x_mka_hdr *) mka_msg;
body_len = get_mka_param_body_len(hdr);
if ((body_len != 0) && (body_len != 28) && (body_len < 36)) {
wpa_printf(MSG_ERROR,
"KaY: MKA Use SAK Packet Body Length (%zu bytes) should be 0, 28, 36, or more octets",
body_len);
return -1;
}
if (!participant->principal) {
wpa_printf(MSG_ERROR,
"KaY: I can't accept the distributed SAK as I am not principal");
return -1;
}
if (participant->is_key_server) {
wpa_printf(MSG_ERROR,
"KaY: I can't accept the distributed SAK as myself is key server ");
return -1;
}
if (!kay->macsec_desired ||
kay->macsec_capable == MACSEC_CAP_NOT_IMPLEMENTED) {
wpa_printf(MSG_ERROR,
"KaY: I am not MACsec-desired or without MACsec capable");
return -1;
}
peer = ieee802_1x_kay_get_live_peer(participant,
participant->current_peer_id.mi);
if (!peer) {
wpa_printf(MSG_ERROR,
"KaY: The key server is not in my live peers list");
return -1;
}
if (!sci_equal(&kay->key_server_sci, &peer->sci)) {
wpa_printf(MSG_ERROR, "KaY: The key server is not elected");
return -1;
}
if (body_len == 0) {
kay->authenticated = TRUE;
kay->secured = FALSE;
kay->failed = FALSE;
participant->advised_desired = FALSE;
ieee802_1x_cp_connect_authenticated(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
wpa_printf(MSG_WARNING, "KaY:The Key server advise no MACsec");
participant->to_use_sak = FALSE;
return 0;
}
participant->advised_desired = TRUE;
kay->authenticated = FALSE;
kay->secured = TRUE;
kay->failed = FALSE;
ieee802_1x_cp_connect_secure(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
body = (struct ieee802_1x_mka_dist_sak_body *)mka_msg;
ieee802_1x_mka_dump_dist_sak_body(body);
dl_list_for_each(sa_key, &participant->sak_list, struct data_key, list)
{
if (os_memcmp(sa_key->key_identifier.mi,
participant->current_peer_id.mi, MI_LEN) == 0 &&
sa_key->key_identifier.kn == be_to_host32(body->kn)) {
wpa_printf(MSG_WARNING, "KaY:The Key has installed");
return 0;
}
}
if (body_len == 28) {
sak_len = DEFAULT_SA_KEY_LEN;
wrap_sak = body->sak;
kay->macsec_csindex = DEFAULT_CS_INDEX;
cs = &cipher_suite_tbl[kay->macsec_csindex];
} else {
cs = ieee802_1x_kay_get_cipher_suite(participant, body->sak);
if (!cs) {
wpa_printf(MSG_ERROR,
"KaY: I can't support the Cipher Suite advised by key server");
return -1;
}
sak_len = cs->sak_len;
wrap_sak = body->sak + CS_ID_LEN;
kay->macsec_csindex = cs->index;
}
unwrap_sak = os_zalloc(sak_len);
if (!unwrap_sak) {
wpa_printf(MSG_ERROR, "KaY-%s: Out of memory", __func__);
return -1;
}
if (aes_unwrap(participant->kek.key, 16, sak_len >> 3, wrap_sak,
unwrap_sak)) {
wpa_printf(MSG_ERROR, "KaY: AES unwrap failed");
os_free(unwrap_sak);
return -1;
}
wpa_hexdump(MSG_DEBUG, "\tAES Key Unwrap of SAK:", unwrap_sak, sak_len);
sa_key = os_zalloc(sizeof(*sa_key));
if (!sa_key) {
os_free(unwrap_sak);
return -1;
}
os_memcpy(&sa_key->key_identifier.mi, &participant->current_peer_id.mi,
MI_LEN);
sa_key->key_identifier.kn = be_to_host32(body->kn);
sa_key->key = unwrap_sak;
sa_key->key_len = sak_len;
sa_key->confidentiality_offset = body->confid_offset;
sa_key->an = body->dan;
ieee802_1x_kay_init_data_key(sa_key);
ieee802_1x_kay_use_data_key(sa_key);
dl_list_add(&participant->sak_list, &sa_key->list);
ieee802_1x_cp_set_ciphersuite(kay->cp, cs->id);
ieee802_1x_cp_sm_step(kay->cp);
ieee802_1x_cp_set_offset(kay->cp, body->confid_offset);
ieee802_1x_cp_sm_step(kay->cp);
ieee802_1x_cp_set_distributedki(kay->cp, &sa_key->key_identifier);
ieee802_1x_cp_set_distributedan(kay->cp, body->dan);
ieee802_1x_cp_signal_newsak(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
kay->rcvd_keys++;
participant->to_use_sak = TRUE;
return 0;
}
/**
* ieee802_1x_mka_icv_body_present
*/
static Boolean
ieee802_1x_mka_icv_body_present(struct ieee802_1x_mka_participant *participant)
{
return TRUE;
}
/**
* ieee802_1x_kay_get_icv_length
*/
static int
ieee802_1x_mka_get_icv_length(struct ieee802_1x_mka_participant *participant)
{
int length;
length = sizeof(struct ieee802_1x_mka_icv_body);
length += mka_alg_tbl[participant->kay->mka_algindex].icv_len;
return MKA_ALIGN_LENGTH(length);
}
/**
* ieee802_1x_mka_encode_icv_body -
*/
static int
ieee802_1x_mka_encode_icv_body(struct ieee802_1x_mka_participant *participant,
struct wpabuf *buf)
{
struct ieee802_1x_mka_icv_body *body;
unsigned int length;
u8 cmac[MAX_ICV_LEN];
length = ieee802_1x_mka_get_icv_length(participant);
if (length != DEFAULT_ICV_LEN) {
body = wpabuf_put(buf, MKA_HDR_LEN);
body->type = MKA_ICV_INDICATOR;
set_mka_param_body_len(body, length - MKA_HDR_LEN);
}
if (mka_alg_tbl[participant->kay->mka_algindex].icv_hash(
participant->ick.key, wpabuf_head(buf), buf->used, cmac)) {
wpa_printf(MSG_ERROR, "KaY, omac1_aes_128 failed");
return -1;
}
if (length != DEFAULT_ICV_LEN)
length -= MKA_HDR_LEN;
os_memcpy(wpabuf_put(buf, length), cmac, length);
return 0;
}
/**
* ieee802_1x_mka_decode_icv_body -
*/
static u8 *
ieee802_1x_mka_decode_icv_body(struct ieee802_1x_mka_participant *participant,
const u8 *mka_msg, size_t msg_len)
{
struct ieee802_1x_mka_hdr *hdr;
struct ieee802_1x_mka_icv_body *body;
size_t body_len;
size_t left_len;
u8 body_type;
const u8 *pos;
pos = mka_msg;
left_len = msg_len;
while (left_len > (MKA_HDR_LEN + DEFAULT_ICV_LEN)) {
hdr = (struct ieee802_1x_mka_hdr *) pos;
body_len = get_mka_param_body_len(hdr);
body_type = get_mka_param_body_type(hdr);
if (left_len < (body_len + MKA_HDR_LEN))
break;
if (body_type != MKA_ICV_INDICATOR) {
left_len -= MKA_HDR_LEN + body_len;
pos += MKA_HDR_LEN + body_len;
continue;
}
body = (struct ieee802_1x_mka_icv_body *)pos;
if (body_len
< mka_alg_tbl[participant->kay->mka_algindex].icv_len) {
return NULL;
}
return body->icv;
}
return (u8 *) (mka_msg + msg_len - DEFAULT_ICV_LEN);
}
/**
* ieee802_1x_mka_decode_dist_cak_body-
*/
static int
ieee802_1x_mka_decode_dist_cak_body(
struct ieee802_1x_mka_participant *participant,
const u8 *mka_msg, size_t msg_len)
{
struct ieee802_1x_mka_hdr *hdr;
size_t body_len;
hdr = (struct ieee802_1x_mka_hdr *) mka_msg;
body_len = get_mka_param_body_len(hdr);
if (body_len < 28) {
wpa_printf(MSG_ERROR,
"KaY: MKA Use SAK Packet Body Length (%zu bytes) should be 28 or more octets",
body_len);
return -1;
}
return 0;
}
/**
* ieee802_1x_mka_decode_kmd_body -
*/
static int
ieee802_1x_mka_decode_kmd_body(
struct ieee802_1x_mka_participant *participant,
const u8 *mka_msg, size_t msg_len)
{
struct ieee802_1x_mka_hdr *hdr;
size_t body_len;
hdr = (struct ieee802_1x_mka_hdr *) mka_msg;
body_len = get_mka_param_body_len(hdr);
if (body_len < 5) {
wpa_printf(MSG_ERROR,
"KaY: MKA Use SAK Packet Body Length (%zu bytes) should be 5 or more octets",
body_len);
return -1;
}
return 0;
}
/**
* ieee802_1x_mka_decode_announce_body -
*/
static int ieee802_1x_mka_decode_announce_body(
struct ieee802_1x_mka_participant *participant,
const u8 *mka_msg, size_t msg_len)
{
return 0;
}
struct mka_param_body_handler {
int (*body_tx)(struct ieee802_1x_mka_participant *participant,
struct wpabuf *buf);
int (*body_rx)(struct ieee802_1x_mka_participant *participant,
const u8 *mka_msg, size_t msg_len);
int (*body_length)(struct ieee802_1x_mka_participant *participant);
Boolean (*body_present)(struct ieee802_1x_mka_participant *participant);
};
static struct mka_param_body_handler mka_body_handler[] = {
/* basic parameter set */
{
.body_tx = ieee802_1x_mka_encode_basic_body,
.body_rx = NULL,
.body_length = ieee802_1x_mka_basic_body_length,
.body_present = ieee802_1x_mka_basic_body_present
},
/* live peer list parameter set */
{
.body_tx = ieee802_1x_mka_encode_live_peer_body,
.body_rx = ieee802_1x_mka_decode_live_peer_body,
.body_length = ieee802_1x_mka_get_live_peer_length,
.body_present = ieee802_1x_mka_live_peer_body_present
},
/* potential peer list parameter set */
{
.body_tx = ieee802_1x_mka_encode_potential_peer_body,
.body_rx = ieee802_1x_mka_decode_potential_peer_body,
.body_length = ieee802_1x_mka_get_potential_peer_length,
.body_present = ieee802_1x_mka_potential_peer_body_present
},
/* sak use parameter set */
{
.body_tx = ieee802_1x_mka_encode_sak_use_body,
.body_rx = ieee802_1x_mka_decode_sak_use_body,
.body_length = ieee802_1x_mka_get_sak_use_length,
.body_present = ieee802_1x_mka_sak_use_body_present
},
/* distribute sak parameter set */
{
.body_tx = ieee802_1x_mka_encode_dist_sak_body,
.body_rx = ieee802_1x_mka_decode_dist_sak_body,
.body_length = ieee802_1x_mka_get_dist_sak_length,
.body_present = ieee802_1x_mka_dist_sak_body_present
},
/* distribute cak parameter set */
{
.body_tx = NULL,
.body_rx = ieee802_1x_mka_decode_dist_cak_body,
.body_length = NULL,
.body_present = NULL
},
/* kmd parameter set */
{
.body_tx = NULL,
.body_rx = ieee802_1x_mka_decode_kmd_body,
.body_length = NULL,
.body_present = NULL
},
/* announce parameter set */
{
.body_tx = NULL,
.body_rx = ieee802_1x_mka_decode_announce_body,
.body_length = NULL,
.body_present = NULL
},
/* icv parameter set */
{
.body_tx = ieee802_1x_mka_encode_icv_body,
.body_rx = NULL,
.body_length = ieee802_1x_mka_get_icv_length,
.body_present = ieee802_1x_mka_icv_body_present
},
};
/**
* ieee802_1x_kay_use_data_key - Take reference on a key
*/
static void ieee802_1x_kay_use_data_key(struct data_key *pkey)
{
pkey->user++;
}
/**
* ieee802_1x_kay_deinit_data_key - Release reference on a key and
* free if there are no remaining users
*/
static void ieee802_1x_kay_deinit_data_key(struct data_key *pkey)
{
if (!pkey)
return;
pkey->user--;
if (pkey->user > 1)
return;
os_free(pkey->key);
os_free(pkey);
}
/**
* ieee802_1x_kay_generate_new_sak -
*/
static int
ieee802_1x_kay_generate_new_sak(struct ieee802_1x_mka_participant *participant)
{
struct data_key *sa_key = NULL;
struct ieee802_1x_kay_peer *peer;
struct ieee802_1x_kay *kay = participant->kay;
int ctx_len, ctx_offset;
u8 *context;
unsigned int key_len;
u8 *key;
struct macsec_ciphersuite *cs;
/* check condition for generating a fresh SAK:
* must have one live peer
* and MKA life time elapse since last distribution
* or potential peer is empty
*/
if (dl_list_empty(&participant->live_peers)) {
wpa_printf(MSG_ERROR,
"KaY: Live peers list must not empty when generating fresh SAK");
return -1;
}
/* FIXME: A fresh SAK not generated until
* the live peer list contains at least one peer and
* MKA life time has elapsed since the prior SAK was first distributed,
* or the Key server's potential peer is empty
* but I can't understand the second item, so
* here only check first item and ingore
* && (!dl_list_empty(&participant->potential_peers))) {
*/
if ((time(NULL) - kay->dist_time) < MKA_LIFE_TIME / 1000) {
wpa_printf(MSG_ERROR,
"KaY: Life time have not elapsed since prior SAK distributed");
return -1;
}
cs = &cipher_suite_tbl[kay->macsec_csindex];
key_len = cs->sak_len;
key = os_zalloc(key_len);
if (!key) {
wpa_printf(MSG_ERROR, "KaY-%s: Out of memory", __func__);
return -1;
}
ctx_len = key_len + sizeof(kay->dist_kn);
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list)
ctx_len += sizeof(peer->mi);
ctx_len += sizeof(participant->mi);
context = os_zalloc(ctx_len);
if (!context)
goto fail;
ctx_offset = 0;
if (os_get_random(context + ctx_offset, key_len) < 0)
goto fail;
ctx_offset += key_len;
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list) {
os_memcpy(context + ctx_offset, peer->mi, sizeof(peer->mi));
ctx_offset += sizeof(peer->mi);
}
os_memcpy(context + ctx_offset, participant->mi,
sizeof(participant->mi));
ctx_offset += sizeof(participant->mi);
os_memcpy(context + ctx_offset, &kay->dist_kn, sizeof(kay->dist_kn));
if (key_len == 16) {
ieee802_1x_sak_128bits_aes_cmac(participant->cak.key,
context, ctx_len, key);
} else if (key_len == 32) {
ieee802_1x_sak_128bits_aes_cmac(participant->cak.key,
context, ctx_len, key);
} else {
wpa_printf(MSG_ERROR, "KaY: SAK Length not support");
goto fail;
}
wpa_hexdump(MSG_DEBUG, "KaY: generated new SAK", key, key_len);
os_free(context);
context = NULL;
sa_key = os_zalloc(sizeof(*sa_key));
if (!sa_key) {
wpa_printf(MSG_ERROR, "KaY-%s: Out of memory", __func__);
goto fail;
}
sa_key->key = key;
sa_key->key_len = key_len;
os_memcpy(sa_key->key_identifier.mi, participant->mi, MI_LEN);
sa_key->key_identifier.kn = kay->dist_kn;
sa_key->confidentiality_offset = kay->macsec_confidentiality;
sa_key->an = kay->dist_an;
ieee802_1x_kay_init_data_key(sa_key);
participant->new_key = sa_key;
ieee802_1x_kay_use_data_key(sa_key);
dl_list_add(&participant->sak_list, &sa_key->list);
ieee802_1x_cp_set_ciphersuite(kay->cp, cs->id);
ieee802_1x_cp_sm_step(kay->cp);
ieee802_1x_cp_set_offset(kay->cp, kay->macsec_confidentiality);
ieee802_1x_cp_sm_step(kay->cp);
ieee802_1x_cp_set_distributedki(kay->cp, &sa_key->key_identifier);
ieee802_1x_cp_set_distributedan(kay->cp, sa_key->an);
ieee802_1x_cp_signal_newsak(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list)
peer->sak_used = FALSE;
kay->dist_kn++;
kay->dist_an++;
if (kay->dist_an > 3)
kay->dist_an = 0;
kay->dist_time = time(NULL);
return 0;
fail:
os_free(key);
os_free(context);
return -1;
}
static int compare_priorities(const struct ieee802_1x_kay_peer *peer,
const struct ieee802_1x_kay_peer *other)
{
if (peer->key_server_priority < other->key_server_priority)
return -1;
if (other->key_server_priority < peer->key_server_priority)
return 1;
return os_memcmp(peer->sci.addr, other->sci.addr, ETH_ALEN);
}
/**
* ieee802_1x_kay_elect_key_server - elect the key server
* when to elect: whenever the live peers list changes
*/
static int
ieee802_1x_kay_elect_key_server(struct ieee802_1x_mka_participant *participant)
{
struct ieee802_1x_kay_peer *peer;
struct ieee802_1x_kay_peer *key_server = NULL;
struct ieee802_1x_kay *kay = participant->kay;
Boolean i_is_key_server;
if (participant->is_obliged_key_server) {
participant->new_sak = TRUE;
participant->to_dist_sak = FALSE;
ieee802_1x_cp_set_electedself(kay->cp, TRUE);
return 0;
}
/* elect the key server among the peers */
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list) {
if (!peer->is_key_server)
continue;
if (!key_server) {
key_server = peer;
continue;
}
if (compare_priorities(peer, key_server) < 0)
key_server = peer;
}
/* elect the key server between me and the above elected peer */
i_is_key_server = FALSE;
if (key_server && participant->can_be_key_server) {
struct ieee802_1x_kay_peer tmp;
tmp.key_server_priority = kay->actor_priority;
os_memcpy(&tmp.sci, &kay->actor_sci, sizeof(tmp.sci));
if (compare_priorities(&tmp, key_server) < 0)
i_is_key_server = TRUE;
} else if (participant->can_be_key_server) {
i_is_key_server = TRUE;
}
if (i_is_key_server) {
ieee802_1x_cp_set_electedself(kay->cp, TRUE);
if (!sci_equal(&kay->key_server_sci, &kay->actor_sci)) {
ieee802_1x_cp_signal_chgdserver(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
}
participant->is_key_server = TRUE;
participant->principal = TRUE;
participant->new_sak = TRUE;
wpa_printf(MSG_DEBUG, "KaY: I is elected as key server");
participant->to_dist_sak = FALSE;
participant->is_elected = TRUE;
os_memcpy(&kay->key_server_sci, &kay->actor_sci,
sizeof(kay->key_server_sci));
kay->key_server_priority = kay->actor_priority;
} else if (key_server) {
ieee802_1x_cp_set_electedself(kay->cp, FALSE);
if (!sci_equal(&kay->key_server_sci, &key_server->sci)) {
ieee802_1x_cp_signal_chgdserver(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
}
participant->is_key_server = FALSE;
participant->principal = TRUE;
participant->is_elected = TRUE;
os_memcpy(&kay->key_server_sci, &key_server->sci,
sizeof(kay->key_server_sci));
kay->key_server_priority = key_server->key_server_priority;
} else {
participant->principal = FALSE;
participant->is_key_server = FALSE;
participant->is_elected = FALSE;
}
return 0;
}
/**
* ieee802_1x_kay_decide_macsec_use - the key server determinate
* how to use MACsec: whether use MACsec and its capability
* protectFrames will be advised if the key server and one of its live peers are
* MACsec capable and one of those request MACsec protection
*/
static int
ieee802_1x_kay_decide_macsec_use(
struct ieee802_1x_mka_participant *participant)
{
struct ieee802_1x_kay *kay = participant->kay;
struct ieee802_1x_kay_peer *peer;
enum macsec_cap less_capability;
Boolean has_peer;
if (!participant->is_key_server)
return -1;
/* key server self is MACsec-desired and requesting MACsec */
if (!kay->macsec_desired) {
participant->advised_desired = FALSE;
return -1;
}
if (kay->macsec_capable == MACSEC_CAP_NOT_IMPLEMENTED) {
participant->advised_desired = FALSE;
return -1;
}
less_capability = kay->macsec_capable;
/* at least one of peers is MACsec-desired and requesting MACsec */
has_peer = FALSE;
dl_list_for_each(peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list) {
if (!peer->macsec_desired)
continue;
if (peer->macsec_capability == MACSEC_CAP_NOT_IMPLEMENTED)
continue;
less_capability = (less_capability < peer->macsec_capability) ?
less_capability : peer->macsec_capability;
has_peer = TRUE;
}
if (has_peer) {
participant->advised_desired = TRUE;
participant->advised_capability = less_capability;
kay->authenticated = FALSE;
kay->secured = TRUE;
kay->failed = FALSE;
ieee802_1x_cp_connect_secure(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
} else {
participant->advised_desired = FALSE;
participant->advised_capability = MACSEC_CAP_NOT_IMPLEMENTED;
participant->to_use_sak = FALSE;
kay->authenticated = TRUE;
kay->secured = FALSE;
kay->failed = FALSE;
kay->ltx_kn = 0;
kay->ltx_an = 0;
kay->lrx_kn = 0;
kay->lrx_an = 0;
kay->otx_kn = 0;
kay->otx_an = 0;
kay->orx_kn = 0;
kay->orx_an = 0;
ieee802_1x_cp_connect_authenticated(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
}
return 0;
}
static const u8 pae_group_addr[ETH_ALEN] = {
0x01, 0x80, 0xc2, 0x00, 0x00, 0x03
};
/**
* ieee802_1x_kay_encode_mkpdu -
*/
static int
ieee802_1x_kay_encode_mkpdu(struct ieee802_1x_mka_participant *participant,
struct wpabuf *pbuf)
{
unsigned int i;
struct ieee8023_hdr *ether_hdr;
struct ieee802_1x_hdr *eapol_hdr;
ether_hdr = wpabuf_put(pbuf, sizeof(*ether_hdr));
os_memcpy(ether_hdr->dest, pae_group_addr, sizeof(ether_hdr->dest));
os_memcpy(ether_hdr->src, participant->kay->actor_sci.addr,
sizeof(ether_hdr->dest));
ether_hdr->ethertype = host_to_be16(ETH_P_EAPOL);
eapol_hdr = wpabuf_put(pbuf, sizeof(*eapol_hdr));
eapol_hdr->version = EAPOL_VERSION;
eapol_hdr->type = IEEE802_1X_TYPE_EAPOL_MKA;
eapol_hdr->length = host_to_be16(pbuf->size - pbuf->used);
for (i = 0; i < ARRAY_SIZE(mka_body_handler); i++) {
if (mka_body_handler[i].body_present &&
mka_body_handler[i].body_present(participant)) {
if (mka_body_handler[i].body_tx(participant, pbuf))
return -1;
}
}
return 0;
}
/**
* ieee802_1x_participant_send_mkpdu -
*/
static int
ieee802_1x_participant_send_mkpdu(
struct ieee802_1x_mka_participant *participant)
{
struct wpabuf *buf;
struct ieee802_1x_kay *kay = participant->kay;
size_t length = 0;
unsigned int i;
wpa_printf(MSG_DEBUG, "KaY: to enpacket and send the MKPDU");
length += sizeof(struct ieee802_1x_hdr) + sizeof(struct ieee8023_hdr);
for (i = 0; i < ARRAY_SIZE(mka_body_handler); i++) {
if (mka_body_handler[i].body_present &&
mka_body_handler[i].body_present(participant))
length += mka_body_handler[i].body_length(participant);
}
buf = wpabuf_alloc(length);
if (!buf) {
wpa_printf(MSG_ERROR, "KaY: out of memory");
return -1;
}
if (ieee802_1x_kay_encode_mkpdu(participant, buf)) {
wpa_printf(MSG_ERROR, "KaY: encode mkpdu fail!");
return -1;
}
l2_packet_send(kay->l2_mka, NULL, 0, wpabuf_head(buf), wpabuf_len(buf));
wpabuf_free(buf);
kay->active = TRUE;
participant->active = TRUE;
return 0;
}
static void ieee802_1x_kay_deinit_transmit_sa(struct transmit_sa *psa);
static void ieee802_1x_delete_transmit_sa(struct ieee802_1x_kay *kay,
struct transmit_sa *sa)
{
secy_disable_transmit_sa(kay, sa);
secy_delete_transmit_sa(kay, sa);
ieee802_1x_kay_deinit_transmit_sa(sa);
}
/**
* ieee802_1x_participant_timer -
*/
static void ieee802_1x_participant_timer(void *eloop_ctx, void *timeout_ctx)
{
struct ieee802_1x_mka_participant *participant;
struct ieee802_1x_kay *kay;
struct ieee802_1x_kay_peer *peer, *pre_peer;
time_t now = time(NULL);
Boolean lp_changed;
struct receive_sc *rxsc, *pre_rxsc;
struct transmit_sa *txsa, *pre_txsa;
participant = (struct ieee802_1x_mka_participant *)eloop_ctx;
kay = participant->kay;
if (participant->cak_life) {
if (now > participant->cak_life)
goto delete_mka;
}
/* should delete MKA instance if there are not live peers
* when the MKA life elapsed since its creating */
if (participant->mka_life) {
if (dl_list_empty(&participant->live_peers)) {
if (now > participant->mka_life)
goto delete_mka;
} else {
participant->mka_life = 0;
}
}
lp_changed = FALSE;
dl_list_for_each_safe(peer, pre_peer, &participant->live_peers,
struct ieee802_1x_kay_peer, list) {
if (now > peer->expire) {
wpa_printf(MSG_DEBUG, "KaY: Live peer removed");
wpa_hexdump(MSG_DEBUG, "\tMI: ", peer->mi,
sizeof(peer->mi));
wpa_printf(MSG_DEBUG, "\tMN: %d", peer->mn);
dl_list_for_each_safe(rxsc, pre_rxsc,
&participant->rxsc_list,
struct receive_sc, list) {
if (sci_equal(&rxsc->sci, &peer->sci)) {
ieee802_1x_kay_deinit_receive_sc(
participant, rxsc);
}
}
dl_list_del(&peer->list);
os_free(peer);
lp_changed = TRUE;
}
}
if (lp_changed) {
if (dl_list_empty(&participant->live_peers)) {
participant->advised_desired = FALSE;
participant->advised_capability =
MACSEC_CAP_NOT_IMPLEMENTED;
participant->to_use_sak = FALSE;
participant->ltx = FALSE;
participant->lrx = FALSE;
participant->otx = FALSE;
participant->orx = FALSE;
participant->is_key_server = FALSE;
participant->is_elected = FALSE;
kay->authenticated = TRUE;
kay->secured = FALSE;
kay->failed = FALSE;
kay->ltx_kn = 0;
kay->ltx_an = 0;
kay->lrx_kn = 0;
kay->lrx_an = 0;
kay->otx_kn = 0;
kay->otx_an = 0;
kay->orx_kn = 0;
kay->orx_an = 0;
dl_list_for_each_safe(txsa, pre_txsa,
&participant->txsc->sa_list,
struct transmit_sa, list) {
ieee802_1x_delete_transmit_sa(kay, txsa);
}
ieee802_1x_cp_connect_authenticated(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
} else {
ieee802_1x_kay_elect_key_server(participant);
ieee802_1x_kay_decide_macsec_use(participant);
}
}
dl_list_for_each_safe(peer, pre_peer, &participant->potential_peers,
struct ieee802_1x_kay_peer, list) {
if (now > peer->expire) {
wpa_printf(MSG_DEBUG, "KaY: Potential peer removed");
wpa_hexdump(MSG_DEBUG, "\tMI: ", peer->mi,
sizeof(peer->mi));
wpa_printf(MSG_DEBUG, "\tMN: %d", peer->mn);
dl_list_del(&peer->list);
os_free(peer);
}
}
if (participant->new_sak) {
if (!ieee802_1x_kay_generate_new_sak(participant))
participant->to_dist_sak = TRUE;
participant->new_sak = FALSE;
}
if (participant->retry_count < MAX_RETRY_CNT ||
participant->mode == PSK) {
ieee802_1x_participant_send_mkpdu(participant);
participant->retry_count++;
}
eloop_register_timeout(MKA_HELLO_TIME / 1000, 0,
ieee802_1x_participant_timer,
participant, NULL);
return;
delete_mka:
kay->authenticated = FALSE;
kay->secured = FALSE;
kay->failed = TRUE;
ieee802_1x_kay_delete_mka(kay, &participant->ckn);
}
/**
* ieee802_1x_kay_init_transmit_sa -
*/
static struct transmit_sa *
ieee802_1x_kay_init_transmit_sa(struct transmit_sc *psc, u8 an, u32 next_PN,
struct data_key *key)
{
struct transmit_sa *psa;
key->tx_latest = TRUE;
key->rx_latest = TRUE;
psa = os_zalloc(sizeof(*psa));
if (!psa) {
wpa_printf(MSG_ERROR, "%s: out of memory", __func__);
return NULL;
}
if (key->confidentiality_offset >= CONFIDENTIALITY_OFFSET_0 &&
key->confidentiality_offset <= CONFIDENTIALITY_OFFSET_50)
psa->confidentiality = TRUE;
else
psa->confidentiality = FALSE;
psa->an = an;
ieee802_1x_kay_use_data_key(key);
psa->pkey = key;
psa->next_pn = next_PN;
psa->sc = psc;
os_get_time(&psa->created_time);
psa->in_use = FALSE;
dl_list_add(&psc->sa_list, &psa->list);
wpa_printf(MSG_DEBUG,
"KaY: Create transmit SA(an: %hhu, next_PN: %u) of SC",
an, next_PN);
return psa;
}
/**
* ieee802_1x_kay_deinit_transmit_sa -
*/
static void ieee802_1x_kay_deinit_transmit_sa(struct transmit_sa *psa)
{
ieee802_1x_kay_deinit_data_key(psa->pkey);
psa->pkey = NULL;
wpa_printf(MSG_DEBUG,
"KaY: Delete transmit SA(an: %hhu) of SC",
psa->an);
dl_list_del(&psa->list);
os_free(psa);
}
/**
* init_transmit_sc -
*/
static struct transmit_sc *
ieee802_1x_kay_init_transmit_sc(const struct ieee802_1x_mka_sci *sci)
{
struct transmit_sc *psc;
psc = os_zalloc(sizeof(*psc));
if (!psc) {
wpa_printf(MSG_ERROR, "%s: out of memory", __func__);
return NULL;
}
os_memcpy(&psc->sci, sci, sizeof(psc->sci));
os_get_time(&psc->created_time);
psc->transmitting = FALSE;
psc->encoding_sa = FALSE;
psc->enciphering_sa = FALSE;
dl_list_init(&psc->sa_list);
wpa_printf(MSG_DEBUG, "KaY: Create transmit SC");
wpa_hexdump(MSG_DEBUG, "SCI: ", (u8 *)sci , sizeof(*sci));
return psc;
}
/**
* ieee802_1x_kay_deinit_transmit_sc -
*/
static void
ieee802_1x_kay_deinit_transmit_sc(
struct ieee802_1x_mka_participant *participant, struct transmit_sc *psc)
{
struct transmit_sa *psa, *tmp;
wpa_printf(MSG_DEBUG, "KaY: Delete transmit SC");
dl_list_for_each_safe(psa, tmp, &psc->sa_list, struct transmit_sa, list)
ieee802_1x_delete_transmit_sa(participant->kay, psa);
secy_delete_transmit_sc(participant->kay, psc);
os_free(psc);
}
/****************** Interface between CP and KAY *********************/
/**
* ieee802_1x_kay_set_latest_sa_attr -
*/
int ieee802_1x_kay_set_latest_sa_attr(struct ieee802_1x_kay *kay,
struct ieee802_1x_mka_ki *lki, u8 lan,
Boolean ltx, Boolean lrx)
{
struct ieee802_1x_mka_participant *principal;
principal = ieee802_1x_kay_get_principal_participant(kay);
if (!principal)
return -1;
if (!lki)
os_memset(&principal->lki, 0, sizeof(principal->lki));
else
os_memcpy(&principal->lki, lki, sizeof(principal->lki));
principal->lan = lan;
principal->ltx = ltx;
principal->lrx = lrx;
if (!lki) {
kay->ltx_kn = 0;
kay->lrx_kn = 0;
} else {
kay->ltx_kn = lki->kn;
kay->lrx_kn = lki->kn;
}
kay->ltx_an = lan;
kay->lrx_an = lan;
return 0;
}
/**
* ieee802_1x_kay_set_old_sa_attr -
*/
int ieee802_1x_kay_set_old_sa_attr(struct ieee802_1x_kay *kay,
struct ieee802_1x_mka_ki *oki,
u8 oan, Boolean otx, Boolean orx)
{
struct ieee802_1x_mka_participant *principal;
principal = ieee802_1x_kay_get_principal_participant(kay);
if (!principal)
return -1;
if (!oki)
os_memset(&principal->oki, 0, sizeof(principal->oki));
else
os_memcpy(&principal->oki, oki, sizeof(principal->oki));
principal->oan = oan;
principal->otx = otx;
principal->orx = orx;
if (!oki) {
kay->otx_kn = 0;
kay->orx_kn = 0;
} else {
kay->otx_kn = oki->kn;
kay->orx_kn = oki->kn;
}
kay->otx_an = oan;
kay->orx_an = oan;
return 0;
}
static struct transmit_sa * lookup_txsa_by_an(struct transmit_sc *txsc, u8 an)
{
struct transmit_sa *txsa;
dl_list_for_each(txsa, &txsc->sa_list, struct transmit_sa, list) {
if (txsa->an == an)
return txsa;
}
return NULL;
}
static struct receive_sa * lookup_rxsa_by_an(struct receive_sc *rxsc, u8 an)
{
struct receive_sa *rxsa;
dl_list_for_each(rxsa, &rxsc->sa_list, struct receive_sa, list) {
if (rxsa->an == an)
return rxsa;
}
return NULL;
}
/**
* ieee802_1x_kay_create_sas -
*/
int ieee802_1x_kay_create_sas(struct ieee802_1x_kay *kay,
struct ieee802_1x_mka_ki *lki)
{
struct data_key *sa_key, *latest_sak;
struct ieee802_1x_mka_participant *principal;
struct receive_sc *rxsc;
struct receive_sa *rxsa;
struct transmit_sa *txsa;
principal = ieee802_1x_kay_get_principal_participant(kay);
if (!principal)
return -1;
latest_sak = NULL;
dl_list_for_each(sa_key, &principal->sak_list, struct data_key, list) {
if (is_ki_equal(&sa_key->key_identifier, lki)) {
sa_key->rx_latest = TRUE;
sa_key->tx_latest = TRUE;
latest_sak = sa_key;
principal->to_use_sak = TRUE;
} else {
sa_key->rx_latest = FALSE;
sa_key->tx_latest = FALSE;
}
}
if (!latest_sak) {
wpa_printf(MSG_ERROR, "lki related sak not found");
return -1;
}
dl_list_for_each(rxsc, &principal->rxsc_list, struct receive_sc, list) {
while ((rxsa = lookup_rxsa_by_an(rxsc, latest_sak->an)) != NULL)
ieee802_1x_delete_receive_sa(kay, rxsa);
rxsa = ieee802_1x_kay_init_receive_sa(rxsc, latest_sak->an, 1,
latest_sak);
if (!rxsa)
return -1;
secy_create_receive_sa(kay, rxsa);
}
while ((txsa = lookup_txsa_by_an(principal->txsc, latest_sak->an)) !=
NULL)
ieee802_1x_delete_transmit_sa(kay, txsa);
txsa = ieee802_1x_kay_init_transmit_sa(principal->txsc, latest_sak->an,
1, latest_sak);
if (!txsa)
return -1;
secy_create_transmit_sa(kay, txsa);
return 0;
}
/**
* ieee802_1x_kay_delete_sas -
*/
int ieee802_1x_kay_delete_sas(struct ieee802_1x_kay *kay,
struct ieee802_1x_mka_ki *ki)
{
struct data_key *sa_key, *pre_key;
struct transmit_sa *txsa, *pre_txsa;
struct receive_sa *rxsa, *pre_rxsa;
struct receive_sc *rxsc;
struct ieee802_1x_mka_participant *principal;
wpa_printf(MSG_DEBUG, "KaY: Entry into %s", __func__);
principal = ieee802_1x_kay_get_principal_participant(kay);
if (!principal)
return -1;
/* remove the transmit sa */
dl_list_for_each_safe(txsa, pre_txsa, &principal->txsc->sa_list,
struct transmit_sa, list) {
if (is_ki_equal(&txsa->pkey->key_identifier, ki))
ieee802_1x_delete_transmit_sa(kay, txsa);
}
/* remove the receive sa */
dl_list_for_each(rxsc, &principal->rxsc_list, struct receive_sc, list) {
dl_list_for_each_safe(rxsa, pre_rxsa, &rxsc->sa_list,
struct receive_sa, list) {
if (is_ki_equal(&rxsa->pkey->key_identifier, ki))
ieee802_1x_delete_receive_sa(kay, rxsa);
}
}
/* remove the sak */
dl_list_for_each_safe(sa_key, pre_key, &principal->sak_list,
struct data_key, list) {
if (is_ki_equal(&sa_key->key_identifier, ki)) {
dl_list_del(&sa_key->list);
ieee802_1x_kay_deinit_data_key(sa_key);
break;
}
if (principal->new_key == sa_key)
principal->new_key = NULL;
}
return 0;
}
/**
* ieee802_1x_kay_enable_tx_sas -
*/
int ieee802_1x_kay_enable_tx_sas(struct ieee802_1x_kay *kay,
struct ieee802_1x_mka_ki *lki)
{
struct ieee802_1x_mka_participant *principal;
struct transmit_sa *txsa;
principal = ieee802_1x_kay_get_principal_participant(kay);
if (!principal)
return -1;
dl_list_for_each(txsa, &principal->txsc->sa_list, struct transmit_sa,
list) {
if (is_ki_equal(&txsa->pkey->key_identifier, lki)) {
txsa->in_use = TRUE;
secy_enable_transmit_sa(kay, txsa);
ieee802_1x_cp_set_usingtransmitas(
principal->kay->cp, TRUE);
ieee802_1x_cp_sm_step(principal->kay->cp);
}
}
return 0;
}
/**
* ieee802_1x_kay_enable_rx_sas -
*/
int ieee802_1x_kay_enable_rx_sas(struct ieee802_1x_kay *kay,
struct ieee802_1x_mka_ki *lki)
{
struct ieee802_1x_mka_participant *principal;
struct receive_sa *rxsa;
struct receive_sc *rxsc;
principal = ieee802_1x_kay_get_principal_participant(kay);
if (!principal)
return -1;
dl_list_for_each(rxsc, &principal->rxsc_list, struct receive_sc, list) {
dl_list_for_each(rxsa, &rxsc->sa_list, struct receive_sa, list)
{
if (is_ki_equal(&rxsa->pkey->key_identifier, lki)) {
rxsa->in_use = TRUE;
secy_enable_receive_sa(kay, rxsa);
ieee802_1x_cp_set_usingreceivesas(
principal->kay->cp, TRUE);
ieee802_1x_cp_sm_step(principal->kay->cp);
}
}
}
return 0;
}
/**
* ieee802_1x_kay_enable_new_info -
*/
int ieee802_1x_kay_enable_new_info(struct ieee802_1x_kay *kay)
{
struct ieee802_1x_mka_participant *principal;
principal = ieee802_1x_kay_get_principal_participant(kay);
if (!principal)
return -1;
if (principal->retry_count < MAX_RETRY_CNT || principal->mode == PSK) {
ieee802_1x_participant_send_mkpdu(principal);
principal->retry_count++;
}
return 0;
}
/**
* ieee802_1x_kay_mkpdu_sanity_check -
* sanity check specified in clause 11.11.2 of IEEE802.1X-2010
*/
static int ieee802_1x_kay_mkpdu_sanity_check(struct ieee802_1x_kay *kay,
const u8 *buf, size_t len)
{
struct ieee8023_hdr *eth_hdr;
struct ieee802_1x_hdr *eapol_hdr;
struct ieee802_1x_mka_hdr *mka_hdr;
struct ieee802_1x_mka_basic_body *body;
size_t mka_msg_len;
struct ieee802_1x_mka_participant *participant;
size_t body_len;
u8 icv[MAX_ICV_LEN];
u8 *msg_icv;
eth_hdr = (struct ieee8023_hdr *) buf;
eapol_hdr = (struct ieee802_1x_hdr *) (eth_hdr + 1);
mka_hdr = (struct ieee802_1x_mka_hdr *) (eapol_hdr + 1);
/* destination address should be not individual address */
if (os_memcmp(eth_hdr->dest, pae_group_addr, ETH_ALEN) != 0) {
wpa_printf(MSG_MSGDUMP,
"KaY: ethernet destination address is not PAE group address");
return -1;
}
/* MKPDU should not be less than 32 octets */
mka_msg_len = be_to_host16(eapol_hdr->length);
if (mka_msg_len < 32) {
wpa_printf(MSG_MSGDUMP, "KaY: MKPDU is less than 32 octets");
return -1;
}
/* MKPDU should be a multiple of 4 octets */
if ((mka_msg_len % 4) != 0) {
wpa_printf(MSG_MSGDUMP,
"KaY: MKPDU is not multiple of 4 octets");
return -1;
}
body = (struct ieee802_1x_mka_basic_body *) mka_hdr;
ieee802_1x_mka_dump_basic_body(body);
body_len = get_mka_param_body_len(body);
/* EAPOL-MKA body should comprise basic parameter set and ICV */
if (mka_msg_len < MKA_HDR_LEN + body_len + DEFAULT_ICV_LEN) {
wpa_printf(MSG_ERROR,
"KaY: Received EAPOL-MKA Packet Body Length (%zu bytes) is less than the Basic Parameter Set Header Length (%zu bytes) + the Basic Parameter Set Body Length (%zu bytes) + %d bytes of ICV",
mka_msg_len, MKA_HDR_LEN,
body_len, DEFAULT_ICV_LEN);
return -1;
}
/* CKN should be owned by I */
participant = ieee802_1x_kay_get_participant(kay, body->ckn);
if (!participant) {
wpa_printf(MSG_DEBUG, "CKN is not included in my CA");
return -1;
}
/* algorithm agility check */
if (os_memcmp(body->algo_agility, mka_algo_agility,
sizeof(body->algo_agility)) != 0) {
wpa_printf(MSG_ERROR,
"KaY: peer's algorithm agility not supported for me");
return -1;
}
/* ICV check */
/*
* The ICV will comprise the final octets of the packet body, whatever
* its size, not the fixed length 16 octets, indicated by the EAPOL
* packet body length.
*/
if (mka_alg_tbl[kay->mka_algindex].icv_hash(
participant->ick.key,
buf, len - mka_alg_tbl[kay->mka_algindex].icv_len, icv)) {
wpa_printf(MSG_ERROR, "KaY: omac1_aes_128 failed");
return -1;
}
msg_icv = ieee802_1x_mka_decode_icv_body(participant, (u8 *) mka_hdr,
mka_msg_len);
if (!msg_icv) {
wpa_printf(MSG_ERROR, "KaY: No ICV");
return -1;
}
if (os_memcmp_const(msg_icv, icv,
mka_alg_tbl[kay->mka_algindex].icv_len) != 0) {
wpa_printf(MSG_ERROR,
"KaY: Computed ICV is not equal to Received ICV");
return -1;
}
return 0;
}
/**
* ieee802_1x_kay_decode_mkpdu -
*/
static int ieee802_1x_kay_decode_mkpdu(struct ieee802_1x_kay *kay,
const u8 *buf, size_t len)
{
struct ieee802_1x_mka_participant *participant;
struct ieee802_1x_mka_hdr *hdr;
size_t body_len;
size_t left_len;
u8 body_type;
int i;
const u8 *pos;
Boolean handled[256];
if (ieee802_1x_kay_mkpdu_sanity_check(kay, buf, len))
return -1;
/* handle basic parameter set */
pos = buf + sizeof(struct ieee8023_hdr) + sizeof(struct ieee802_1x_hdr);
left_len = len - sizeof(struct ieee8023_hdr) -
sizeof(struct ieee802_1x_hdr);
participant = ieee802_1x_mka_decode_basic_body(kay, pos, left_len);
if (!participant)
return -1;
/* to skip basic parameter set */
hdr = (struct ieee802_1x_mka_hdr *) pos;
body_len = get_mka_param_body_len(hdr);
pos += body_len + MKA_HDR_LEN;
left_len -= body_len + MKA_HDR_LEN;
/* check i am in the peer's peer list */
if (ieee802_1x_mka_i_in_peerlist(participant, pos, left_len) &&
!ieee802_1x_kay_is_in_live_peer(participant,
participant->current_peer_id.mi)) {
/* accept the peer as live peer */
if (ieee802_1x_kay_is_in_potential_peer(
participant, participant->current_peer_id.mi)) {
if (!ieee802_1x_kay_move_live_peer(
participant,
participant->current_peer_id.mi,
be_to_host32(participant->
current_peer_id.mn)))
return -1;
} else if (!ieee802_1x_kay_create_live_peer(
participant, participant->current_peer_id.mi,
be_to_host32(participant->
current_peer_id.mn))) {
return -1;
}
ieee802_1x_kay_elect_key_server(participant);
ieee802_1x_kay_decide_macsec_use(participant);
}
/*
* Handle other parameter set than basic parameter set.
* Each parameter set should be present only once.
*/
for (i = 0; i < 256; i++)
handled[i] = FALSE;
handled[0] = TRUE;
for (; left_len > MKA_HDR_LEN + DEFAULT_ICV_LEN;
pos += body_len + MKA_HDR_LEN,
left_len -= body_len + MKA_HDR_LEN) {
hdr = (struct ieee802_1x_mka_hdr *) pos;
body_len = get_mka_param_body_len(hdr);
body_type = get_mka_param_body_type(hdr);
if (body_type == MKA_ICV_INDICATOR)
return 0;
if (left_len < (MKA_HDR_LEN + body_len + DEFAULT_ICV_LEN)) {
wpa_printf(MSG_ERROR,
"KaY: MKA Peer Packet Body Length (%zu bytes) is less than the Parameter Set Header Length (%zu bytes) + the Parameter Set Body Length (%zu bytes) + %d bytes of ICV",
left_len, MKA_HDR_LEN,
body_len, DEFAULT_ICV_LEN);
continue;
}
if (handled[body_type])
continue;
handled[body_type] = TRUE;
if (body_type < ARRAY_SIZE(mka_body_handler) &&
mka_body_handler[body_type].body_rx) {
mka_body_handler[body_type].body_rx
(participant, pos, left_len);
} else {
wpa_printf(MSG_ERROR,
"The type %d is not supported in this MKA version %d",
body_type, MKA_VERSION_ID);
}
}
kay->active = TRUE;
participant->retry_count = 0;
participant->active = TRUE;
return 0;
}
static void kay_l2_receive(void *ctx, const u8 *src_addr, const u8 *buf,
size_t len)
{
struct ieee802_1x_kay *kay = ctx;
struct ieee8023_hdr *eth_hdr;
struct ieee802_1x_hdr *eapol_hdr;
/* must contain at least ieee8023_hdr + ieee802_1x_hdr */
if (len < sizeof(*eth_hdr) + sizeof(*eapol_hdr)) {
wpa_printf(MSG_MSGDUMP, "KaY: EAPOL frame too short (%lu)",
(unsigned long) len);
return;
}
eth_hdr = (struct ieee8023_hdr *) buf;
eapol_hdr = (struct ieee802_1x_hdr *) (eth_hdr + 1);
if (len != sizeof(*eth_hdr) + sizeof(*eapol_hdr) +
be_to_host16(eapol_hdr->length)) {
wpa_printf(MSG_MSGDUMP, "KAY: EAPOL MPDU is invalid: (%lu-%lu)",
(unsigned long) len,
(unsigned long) be_to_host16(eapol_hdr->length));
return;
}
if (eapol_hdr->version < EAPOL_VERSION) {
wpa_printf(MSG_MSGDUMP, "KaY: version %d does not support MKA",
eapol_hdr->version);
return;
}
if (be_to_host16(eth_hdr->ethertype) != ETH_P_PAE ||
eapol_hdr->type != IEEE802_1X_TYPE_EAPOL_MKA)
return;
wpa_hexdump(MSG_DEBUG, "RX EAPOL-MKA: ", buf, len);
if (dl_list_empty(&kay->participant_list)) {
wpa_printf(MSG_ERROR, "KaY: no MKA participant instance");
return;
}
ieee802_1x_kay_decode_mkpdu(kay, buf, len);
}
/**
* ieee802_1x_kay_init -
*/
struct ieee802_1x_kay *
ieee802_1x_kay_init(struct ieee802_1x_kay_ctx *ctx, enum macsec_policy policy,
u16 port, u8 priority, const char *ifname, const u8 *addr)
{
struct ieee802_1x_kay *kay;
kay = os_zalloc(sizeof(*kay));
if (!kay) {
wpa_printf(MSG_ERROR, "KaY-%s: out of memory", __func__);
return NULL;
}
kay->ctx = ctx;
kay->enable = TRUE;
kay->active = FALSE;
kay->authenticated = FALSE;
kay->secured = FALSE;
kay->failed = FALSE;
kay->policy = policy;
os_strlcpy(kay->if_name, ifname, IFNAMSIZ);
os_memcpy(kay->actor_sci.addr, addr, ETH_ALEN);
kay->actor_sci.port = host_to_be16(port ? port : 0x0001);
kay->actor_priority = priority;
/* While actor acts as a key server, shall distribute sakey */
kay->dist_kn = 1;
kay->dist_an = 0;
kay->dist_time = 0;
kay->pn_exhaustion = PENDING_PN_EXHAUSTION;
kay->macsec_csindex = DEFAULT_CS_INDEX;
kay->mka_algindex = DEFAULT_MKA_ALG_INDEX;
kay->mka_version = MKA_VERSION_ID;
os_memcpy(kay->algo_agility, mka_algo_agility,
sizeof(kay->algo_agility));
dl_list_init(&kay->participant_list);
if (policy != DO_NOT_SECURE &&
secy_get_capability(kay, &kay->macsec_capable) < 0) {
os_free(kay);
return NULL;
}
if (policy == DO_NOT_SECURE ||
kay->macsec_capable == MACSEC_CAP_NOT_IMPLEMENTED) {
kay->macsec_capable = MACSEC_CAP_NOT_IMPLEMENTED;
kay->macsec_desired = FALSE;
kay->macsec_protect = FALSE;
kay->macsec_validate = Disabled;
kay->macsec_replay_protect = FALSE;
kay->macsec_replay_window = 0;
kay->macsec_confidentiality = CONFIDENTIALITY_NONE;
} else {
kay->macsec_desired = TRUE;
kay->macsec_protect = TRUE;
kay->macsec_encrypt = policy == SHOULD_ENCRYPT;
kay->macsec_validate = Strict;
kay->macsec_replay_protect = FALSE;
kay->macsec_replay_window = 0;
if (kay->macsec_capable >= MACSEC_CAP_INTEG_AND_CONF)
kay->macsec_confidentiality = CONFIDENTIALITY_OFFSET_0;
else
kay->macsec_confidentiality = CONFIDENTIALITY_NONE;
}
wpa_printf(MSG_DEBUG, "KaY: state machine created");
/* Initialize the SecY must be prio to CP, as CP will control SecY */
secy_init_macsec(kay);
wpa_printf(MSG_DEBUG, "KaY: secy init macsec done");
/* init CP */
kay->cp = ieee802_1x_cp_sm_init(kay);
if (kay->cp == NULL) {
ieee802_1x_kay_deinit(kay);
return NULL;
}
if (policy == DO_NOT_SECURE) {
ieee802_1x_cp_connect_authenticated(kay->cp);
ieee802_1x_cp_sm_step(kay->cp);
} else {
kay->l2_mka = l2_packet_init(kay->if_name, NULL, ETH_P_PAE,
kay_l2_receive, kay, 1);
if (kay->l2_mka == NULL) {
wpa_printf(MSG_WARNING,
"KaY: Failed to initialize L2 packet processing for MKA packet");
ieee802_1x_kay_deinit(kay);
return NULL;
}
}
return kay;
}
/**
* ieee802_1x_kay_deinit -
*/
void
ieee802_1x_kay_deinit(struct ieee802_1x_kay *kay)
{
struct ieee802_1x_mka_participant *participant;
if (!kay)
return;
wpa_printf(MSG_DEBUG, "KaY: state machine removed");
while (!dl_list_empty(&kay->participant_list)) {
participant = dl_list_entry(kay->participant_list.next,
struct ieee802_1x_mka_participant,
list);
ieee802_1x_kay_delete_mka(kay, &participant->ckn);
}
ieee802_1x_cp_sm_deinit(kay->cp);
secy_deinit_macsec(kay);
if (kay->l2_mka) {
l2_packet_deinit(kay->l2_mka);
kay->l2_mka = NULL;
}
os_free(kay->ctx);
os_free(kay);
}
/**
* ieee802_1x_kay_create_mka -
*/
struct ieee802_1x_mka_participant *
ieee802_1x_kay_create_mka(struct ieee802_1x_kay *kay, struct mka_key_name *ckn,
struct mka_key *cak, u32 life,
enum mka_created_mode mode, Boolean is_authenticator)
{
struct ieee802_1x_mka_participant *participant;
unsigned int usecs;
if (!kay || !ckn || !cak) {
wpa_printf(MSG_ERROR, "KaY: ckn or cak is null");
return NULL;
}
if (cak->len != mka_alg_tbl[kay->mka_algindex].cak_len) {
wpa_printf(MSG_ERROR, "KaY: CAK length not follow key schema");
return NULL;
}
if (ckn->len > MAX_CKN_LEN) {
wpa_printf(MSG_ERROR, "KaY: CKN is out of range(<=32 bytes)");
return NULL;
}
if (!kay->enable) {
wpa_printf(MSG_ERROR, "KaY: Now is at disable state");
return NULL;
}
participant = os_zalloc(sizeof(*participant));
if (!participant) {
wpa_printf(MSG_ERROR, "KaY-%s: out of memory", __func__);
return NULL;
}
participant->ckn.len = ckn->len;
os_memcpy(participant->ckn.name, ckn->name, ckn->len);
participant->cak.len = cak->len;
os_memcpy(participant->cak.key, cak->key, cak->len);
if (life)
participant->cak_life = life + time(NULL);
switch (mode) {
case EAP_EXCHANGE:
if (is_authenticator) {
participant->is_obliged_key_server = TRUE;
participant->can_be_key_server = TRUE;
participant->is_key_server = TRUE;
participant->principal = TRUE;
os_memcpy(&kay->key_server_sci, &kay->actor_sci,
sizeof(kay->key_server_sci));
kay->key_server_priority = kay->actor_priority;
participant->is_elected = TRUE;
} else {
participant->is_obliged_key_server = FALSE;
participant->can_be_key_server = FALSE;
participant->is_key_server = FALSE;
participant->is_elected = TRUE;
}
break;
default:
participant->is_obliged_key_server = FALSE;
participant->can_be_key_server = TRUE;
participant->is_key_server = TRUE;
participant->is_elected = FALSE;
break;
}
participant->cached = FALSE;
participant->active = FALSE;
participant->participant = FALSE;
participant->retain = FALSE;
participant->activate = DEFAULT;
if (participant->is_key_server)
participant->principal = TRUE;
dl_list_init(&participant->live_peers);
dl_list_init(&participant->potential_peers);
participant->retry_count = 0;
participant->kay = kay;
if (!reset_participant_mi(participant))
goto fail;
participant->lrx = FALSE;
participant->ltx = FALSE;
participant->orx = FALSE;
participant->otx = FALSE;
participant->to_dist_sak = FALSE;
participant->to_use_sak = FALSE;
participant->new_sak = FALSE;
dl_list_init(&participant->sak_list);
participant->new_key = NULL;
dl_list_init(&participant->rxsc_list);
participant->txsc = ieee802_1x_kay_init_transmit_sc(&kay->actor_sci);
secy_cp_control_protect_frames(kay, kay->macsec_protect);
secy_cp_control_replay(kay, kay->macsec_replay_protect,
kay->macsec_replay_window);
secy_create_transmit_sc(kay, participant->txsc);
/* to derive KEK from CAK and CKN */
participant->kek.len = mka_alg_tbl[kay->mka_algindex].kek_len;
if (mka_alg_tbl[kay->mka_algindex].kek_trfm(participant->cak.key,
participant->ckn.name,
participant->ckn.len,
participant->kek.key)) {
wpa_printf(MSG_ERROR, "KaY: Derived KEK failed");
goto fail;
}
wpa_hexdump_key(MSG_DEBUG, "KaY: Derived KEK",
participant->kek.key, participant->kek.len);
/* to derive ICK from CAK and CKN */
participant->ick.len = mka_alg_tbl[kay->mka_algindex].ick_len;
if (mka_alg_tbl[kay->mka_algindex].ick_trfm(participant->cak.key,
participant->ckn.name,
participant->ckn.len,
participant->ick.key)) {
wpa_printf(MSG_ERROR, "KaY: Derived ICK failed");
goto fail;
}
wpa_hexdump_key(MSG_DEBUG, "KaY: Derived ICK",
participant->ick.key, participant->ick.len);
dl_list_add(&kay->participant_list, &participant->list);
wpa_hexdump(MSG_DEBUG, "KaY: Participant created:",
ckn->name, ckn->len);
usecs = os_random() % (MKA_HELLO_TIME * 1000);
eloop_register_timeout(0, usecs, ieee802_1x_participant_timer,
participant, NULL);
/* Disable MKA lifetime for PSK mode.
* The peer(s) can take a long time to come up, because we
* create a "standby" MKA, and we need it to remain live until
* some peer appears.
*/
if (mode != PSK) {
participant->mka_life = MKA_LIFE_TIME / 1000 + time(NULL) +
usecs / 1000000;
}
participant->mode = mode;
return participant;
fail:
os_free(participant);
return NULL;
}
/**
* ieee802_1x_kay_delete_mka -
*/
void
ieee802_1x_kay_delete_mka(struct ieee802_1x_kay *kay, struct mka_key_name *ckn)
{
struct ieee802_1x_mka_participant *participant;
struct ieee802_1x_kay_peer *peer;
struct data_key *sak;
struct receive_sc *rxsc;
if (!kay || !ckn)
return;
wpa_printf(MSG_DEBUG, "KaY: participant removed");
/* get the participant */
participant = ieee802_1x_kay_get_participant(kay, ckn->name);
if (!participant) {
wpa_hexdump(MSG_DEBUG, "KaY: participant is not found",
ckn->name, ckn->len);
return;
}
eloop_cancel_timeout(ieee802_1x_participant_timer, participant, NULL);
dl_list_del(&participant->list);
/* remove live peer */
while (!dl_list_empty(&participant->live_peers)) {
peer = dl_list_entry(participant->live_peers.next,
struct ieee802_1x_kay_peer, list);
dl_list_del(&peer->list);
os_free(peer);
}
/* remove potential peer */
while (!dl_list_empty(&participant->potential_peers)) {
peer = dl_list_entry(participant->potential_peers.next,
struct ieee802_1x_kay_peer, list);
dl_list_del(&peer->list);
os_free(peer);
}
/* remove sak */
while (!dl_list_empty(&participant->sak_list)) {
sak = dl_list_entry(participant->sak_list.next,
struct data_key, list);
dl_list_del(&sak->list);
ieee802_1x_kay_deinit_data_key(sak);
}
while (!dl_list_empty(&participant->rxsc_list)) {
rxsc = dl_list_entry(participant->rxsc_list.next,
struct receive_sc, list);
ieee802_1x_kay_deinit_receive_sc(participant, rxsc);
}
ieee802_1x_kay_deinit_transmit_sc(participant, participant->txsc);
os_memset(&participant->cak, 0, sizeof(participant->cak));
os_memset(&participant->kek, 0, sizeof(participant->kek));
os_memset(&participant->ick, 0, sizeof(participant->ick));
os_free(participant);
}
/**
* ieee802_1x_kay_mka_participate -
*/
void ieee802_1x_kay_mka_participate(struct ieee802_1x_kay *kay,
struct mka_key_name *ckn,
Boolean status)
{
struct ieee802_1x_mka_participant *participant;
if (!kay || !ckn)
return;
participant = ieee802_1x_kay_get_participant(kay, ckn->name);
if (!participant)
return;
participant->active = status;
}
/**
* ieee802_1x_kay_new_sak -
*/
int
ieee802_1x_kay_new_sak(struct ieee802_1x_kay *kay)
{
struct ieee802_1x_mka_participant *participant;
if (!kay)
return -1;
participant = ieee802_1x_kay_get_principal_participant(kay);
if (!participant)
return -1;
participant->new_sak = TRUE;
wpa_printf(MSG_DEBUG, "KaY: new SAK signal");
return 0;
}
/**
* ieee802_1x_kay_change_cipher_suite -
*/
int
ieee802_1x_kay_change_cipher_suite(struct ieee802_1x_kay *kay,
unsigned int cs_index)
{
struct ieee802_1x_mka_participant *participant;
enum macsec_cap secy_cap;
if (!kay)
return -1;
if (cs_index >= CS_TABLE_SIZE) {
wpa_printf(MSG_ERROR,
"KaY: Configured cipher suite index is out of range");
return -1;
}
if (kay->macsec_csindex == cs_index)
return -2;
if (cs_index == 0)
kay->macsec_desired = FALSE;
kay->macsec_csindex = cs_index;
kay->macsec_capable = cipher_suite_tbl[kay->macsec_csindex].capable;
if (secy_get_capability(kay, &secy_cap) < 0)
return -3;
if (kay->macsec_capable > secy_cap)
kay->macsec_capable = secy_cap;
participant = ieee802_1x_kay_get_principal_participant(kay);
if (participant) {
wpa_printf(MSG_INFO, "KaY: Cipher Suite changed");
participant->new_sak = TRUE;
}
return 0;
}
#ifdef CONFIG_CTRL_IFACE
/**
* ieee802_1x_kay_get_status - Get IEEE 802.1X KaY status details
* @sm: Pointer to KaY allocated with ieee802_1x_kay_init()
* @buf: Buffer for status information
* @buflen: Maximum buffer length
* @verbose: Whether to include verbose status information
* Returns: Number of bytes written to buf.
*
* Query KAY status information. This function fills in a text area with current
* status information. If the buffer (buf) is not large enough, status
* information will be truncated to fit the buffer.
*/
int ieee802_1x_kay_get_status(struct ieee802_1x_kay *kay, char *buf,
size_t buflen)
{
int len;
if (!kay)
return 0;
len = os_snprintf(buf, buflen,
"PAE KaY status=%s\n"
"Authenticated=%s\n"
"Secured=%s\n"
"Failed=%s\n"
"Actor Priority=%u\n"
"Key Server Priority=%u\n"
"Is Key Server=%s\n"
"Number of Keys Distributed=%u\n"
"Number of Keys Received=%u\n",
kay->active ? "Active" : "Not-Active",
kay->authenticated ? "Yes" : "No",
kay->secured ? "Yes" : "No",
kay->failed ? "Yes" : "No",
kay->actor_priority,
kay->key_server_priority,
kay->is_key_server ? "Yes" : "No",
kay->dist_kn - 1,
kay->rcvd_keys);
if (os_snprintf_error(buflen, len))
return 0;
return len;
}
#endif /* CONFIG_CTRL_IFACE */