hostap/src/ap/wpa_auth_i.h

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/*
* hostapd - IEEE 802.11i-2004 / WPA Authenticator: Internal definitions
* Copyright (c) 2004-2015, Jouni Malinen <j@w1.fi>
*
* This software may be distributed under the terms of the BSD license.
* See README for more details.
*/
#ifndef WPA_AUTH_I_H
#define WPA_AUTH_I_H
/* max(dot11RSNAConfigGroupUpdateCount,dot11RSNAConfigPairwiseUpdateCount) */
#define RSNA_MAX_EAPOL_RETRIES 4
struct wpa_group;
struct wpa_stsl_negotiation {
struct wpa_stsl_negotiation *next;
u8 initiator[ETH_ALEN];
u8 peer[ETH_ALEN];
};
struct wpa_state_machine {
struct wpa_authenticator *wpa_auth;
struct wpa_group *group;
u8 addr[ETH_ALEN];
u8 p2p_dev_addr[ETH_ALEN];
enum {
WPA_PTK_INITIALIZE, WPA_PTK_DISCONNECT, WPA_PTK_DISCONNECTED,
WPA_PTK_AUTHENTICATION, WPA_PTK_AUTHENTICATION2,
WPA_PTK_INITPMK, WPA_PTK_INITPSK, WPA_PTK_PTKSTART,
WPA_PTK_PTKCALCNEGOTIATING, WPA_PTK_PTKCALCNEGOTIATING2,
WPA_PTK_PTKINITNEGOTIATING, WPA_PTK_PTKINITDONE
} wpa_ptk_state;
enum {
WPA_PTK_GROUP_IDLE = 0,
WPA_PTK_GROUP_REKEYNEGOTIATING,
WPA_PTK_GROUP_REKEYESTABLISHED,
WPA_PTK_GROUP_KEYERROR
} wpa_ptk_group_state;
Boolean Init;
Boolean DeauthenticationRequest;
Boolean AuthenticationRequest;
Boolean ReAuthenticationRequest;
Boolean Disconnect;
int TimeoutCtr;
int GTimeoutCtr;
Boolean TimeoutEvt;
Boolean EAPOLKeyReceived;
Boolean EAPOLKeyPairwise;
Boolean EAPOLKeyRequest;
Boolean MICVerified;
Boolean GUpdateStationKeys;
u8 ANonce[WPA_NONCE_LEN];
u8 SNonce[WPA_NONCE_LEN];
AP: Extend EAPOL-Key msg 1/4 retry workaround for changing SNonce If the 4-way handshake ends up having to retransmit the EAPOL-Key message 1/4 due to a timeout on waiting for the response, it is possible for the Supplicant to change SNonce between the first and second EAPOL-Key message 2/4. This is not really desirable due to extra complexities it causes on the Authenticator side, but some deployed stations are doing this. This message sequence looks like this: AP->STA: EAPOL-Key 1/4 (replay counter 1, ANonce) AP->STA: EAPOL-Key 1/4 (replay counter 2, ANonce) STA->AP: EAPOL-Key 2/4 (replay counter 1, SNonce 1) AP->STA: EAPOL-Key 3/4 (replay counter 3, ANonce) STA->AP: EAPOL-Key 2/4 (replay counter 2, SNonce 2) followed by either: STA->AP: EAPOL-Key 4/4 (replay counter 3 using PTK from SNonce 1) or: AP->STA: EAPOL-Key 3/4 (replay counter 4, ANonce) STA->AP: EAPOL-Key 4/4 (replay counter 4, using PTK from SNonce 2) Previously, Authenticator implementation was able to handle the cases where SNonce 1 and SNonce 2 were identifical (i.e., Supplicant did not update SNonce which is the wpa_supplicant behavior) and where PTK derived using SNonce 2 was used in EAPOL-Key 4/4. However, the case of using PTK from SNonce 1 was rejected ("WPA: received EAPOL-Key 4/4 Pairwise with unexpected replay counter" since EAPOL-Key 3/4 TX and following second EAPOL-Key 2/4 invalidated the Replay Counter that was used previously with the first SNonce). This commit extends the AP/Authenticator workaround to keep both SNonce values in memory if two EAPOL-Key 2/4 messages are received with different SNonce values. The following EAPOL-Key 4/4 message is then accepted whether the MIC has been calculated with the latest SNonce (the previously existing behavior) or with the earlier SNonce (the new extension). This makes 4-way handshake more robust with stations that update SNonce for each transmitted EAPOL-Key 2/4 message in cases where EAPOL-Key message 1/4 needs to be retransmitted. Signed-off-by: Jouni Malinen <jouni@qca.qualcomm.com>
2014-11-21 16:02:00 +01:00
u8 alt_SNonce[WPA_NONCE_LEN];
u8 alt_replay_counter[WPA_REPLAY_COUNTER_LEN];
u8 PMK[PMK_LEN_MAX];
unsigned int pmk_len;
struct wpa_ptk PTK;
Boolean PTK_valid;
Boolean pairwise_set;
int keycount;
Boolean Pair;
struct wpa_key_replay_counter {
u8 counter[WPA_REPLAY_COUNTER_LEN];
Boolean valid;
} key_replay[RSNA_MAX_EAPOL_RETRIES],
prev_key_replay[RSNA_MAX_EAPOL_RETRIES];
Boolean PInitAKeys; /* WPA only, not in IEEE 802.11i */
Boolean PTKRequest; /* not in IEEE 802.11i state machine */
Boolean has_GTK;
Boolean PtkGroupInit; /* init request for PTK Group state machine */
u8 *last_rx_eapol_key; /* starting from IEEE 802.1X header */
size_t last_rx_eapol_key_len;
unsigned int changed:1;
unsigned int in_step_loop:1;
unsigned int pending_deinit:1;
unsigned int started:1;
unsigned int mgmt_frame_prot:1;
unsigned int rx_eapol_key_secure:1;
unsigned int update_snonce:1;
AP: Extend EAPOL-Key msg 1/4 retry workaround for changing SNonce If the 4-way handshake ends up having to retransmit the EAPOL-Key message 1/4 due to a timeout on waiting for the response, it is possible for the Supplicant to change SNonce between the first and second EAPOL-Key message 2/4. This is not really desirable due to extra complexities it causes on the Authenticator side, but some deployed stations are doing this. This message sequence looks like this: AP->STA: EAPOL-Key 1/4 (replay counter 1, ANonce) AP->STA: EAPOL-Key 1/4 (replay counter 2, ANonce) STA->AP: EAPOL-Key 2/4 (replay counter 1, SNonce 1) AP->STA: EAPOL-Key 3/4 (replay counter 3, ANonce) STA->AP: EAPOL-Key 2/4 (replay counter 2, SNonce 2) followed by either: STA->AP: EAPOL-Key 4/4 (replay counter 3 using PTK from SNonce 1) or: AP->STA: EAPOL-Key 3/4 (replay counter 4, ANonce) STA->AP: EAPOL-Key 4/4 (replay counter 4, using PTK from SNonce 2) Previously, Authenticator implementation was able to handle the cases where SNonce 1 and SNonce 2 were identifical (i.e., Supplicant did not update SNonce which is the wpa_supplicant behavior) and where PTK derived using SNonce 2 was used in EAPOL-Key 4/4. However, the case of using PTK from SNonce 1 was rejected ("WPA: received EAPOL-Key 4/4 Pairwise with unexpected replay counter" since EAPOL-Key 3/4 TX and following second EAPOL-Key 2/4 invalidated the Replay Counter that was used previously with the first SNonce). This commit extends the AP/Authenticator workaround to keep both SNonce values in memory if two EAPOL-Key 2/4 messages are received with different SNonce values. The following EAPOL-Key 4/4 message is then accepted whether the MIC has been calculated with the latest SNonce (the previously existing behavior) or with the earlier SNonce (the new extension). This makes 4-way handshake more robust with stations that update SNonce for each transmitted EAPOL-Key 2/4 message in cases where EAPOL-Key message 1/4 needs to be retransmitted. Signed-off-by: Jouni Malinen <jouni@qca.qualcomm.com>
2014-11-21 16:02:00 +01:00
unsigned int alt_snonce_valid:1;
#ifdef CONFIG_IEEE80211R
unsigned int ft_completed:1;
unsigned int pmk_r1_name_valid:1;
#endif /* CONFIG_IEEE80211R */
unsigned int is_wnmsleep:1;
u8 req_replay_counter[WPA_REPLAY_COUNTER_LEN];
int req_replay_counter_used;
u8 *wpa_ie;
size_t wpa_ie_len;
enum {
WPA_VERSION_NO_WPA = 0 /* WPA not used */,
WPA_VERSION_WPA = 1 /* WPA / IEEE 802.11i/D3.0 */,
WPA_VERSION_WPA2 = 2 /* WPA2 / IEEE 802.11i */
} wpa;
int pairwise; /* Pairwise cipher suite, WPA_CIPHER_* */
int wpa_key_mgmt; /* the selected WPA_KEY_MGMT_* */
struct rsn_pmksa_cache_entry *pmksa;
u32 dot11RSNAStatsTKIPLocalMICFailures;
u32 dot11RSNAStatsTKIPRemoteMICFailures;
#ifdef CONFIG_IEEE80211R
u8 xxkey[PMK_LEN]; /* PSK or the second 256 bits of MSK */
size_t xxkey_len;
u8 pmk_r1_name[WPA_PMK_NAME_LEN]; /* PMKR1Name derived from FT Auth
* Request */
u8 r0kh_id[FT_R0KH_ID_MAX_LEN]; /* R0KH-ID from FT Auth Request */
size_t r0kh_id_len;
u8 sup_pmk_r1_name[WPA_PMK_NAME_LEN]; /* PMKR1Name from EAPOL-Key
* message 2/4 */
u8 *assoc_resp_ftie;
void (*ft_pending_cb)(void *ctx, const u8 *dst, const u8 *bssid,
u16 auth_transaction, u16 status,
const u8 *ies, size_t ies_len);
void *ft_pending_cb_ctx;
struct wpabuf *ft_pending_req_ies;
u8 ft_pending_pull_nonce[FT_R0KH_R1KH_PULL_NONCE_LEN];
u8 ft_pending_auth_transaction;
u8 ft_pending_current_ap[ETH_ALEN];
#endif /* CONFIG_IEEE80211R */
int pending_1_of_4_timeout;
#ifdef CONFIG_P2P
u8 ip_addr[4];
#endif /* CONFIG_P2P */
};
/* per group key state machine data */
struct wpa_group {
struct wpa_group *next;
int vlan_id;
Boolean GInit;
int GKeyDoneStations;
Boolean GTKReKey;
int GTK_len;
int GN, GM;
Boolean GTKAuthenticator;
u8 Counter[WPA_NONCE_LEN];
enum {
WPA_GROUP_GTK_INIT = 0,
WPA_GROUP_SETKEYS, WPA_GROUP_SETKEYSDONE,
WPA_GROUP_FATAL_FAILURE
} wpa_group_state;
u8 GMK[WPA_GMK_LEN];
u8 GTK[2][WPA_GTK_MAX_LEN];
u8 GNonce[WPA_NONCE_LEN];
Boolean changed;
Boolean first_sta_seen;
Boolean reject_4way_hs_for_entropy;
#ifdef CONFIG_IEEE80211W
u8 IGTK[2][WPA_IGTK_MAX_LEN];
int GN_igtk, GM_igtk;
#endif /* CONFIG_IEEE80211W */
/* Number of references except those in struct wpa_group->next */
unsigned int references;
unsigned int num_setup_iface;
};
struct wpa_ft_pmk_cache;
/* per authenticator data */
struct wpa_authenticator {
struct wpa_group *group;
unsigned int dot11RSNAStatsTKIPRemoteMICFailures;
u32 dot11RSNAAuthenticationSuiteSelected;
u32 dot11RSNAPairwiseCipherSelected;
u32 dot11RSNAGroupCipherSelected;
u8 dot11RSNAPMKIDUsed[PMKID_LEN];
u32 dot11RSNAAuthenticationSuiteRequested; /* FIX: update */
u32 dot11RSNAPairwiseCipherRequested; /* FIX: update */
u32 dot11RSNAGroupCipherRequested; /* FIX: update */
unsigned int dot11RSNATKIPCounterMeasuresInvoked;
unsigned int dot11RSNA4WayHandshakeFailures;
struct wpa_stsl_negotiation *stsl_negotiations;
struct wpa_auth_config conf;
struct wpa_auth_callbacks cb;
u8 *wpa_ie;
size_t wpa_ie_len;
u8 addr[ETH_ALEN];
struct rsn_pmksa_cache *pmksa;
struct wpa_ft_pmk_cache *ft_pmk_cache;
#ifdef CONFIG_P2P
struct bitfield *ip_pool;
#endif /* CONFIG_P2P */
};
int wpa_write_rsn_ie(struct wpa_auth_config *conf, u8 *buf, size_t len,
const u8 *pmkid);
void wpa_auth_logger(struct wpa_authenticator *wpa_auth, const u8 *addr,
logger_level level, const char *txt);
void wpa_auth_vlogger(struct wpa_authenticator *wpa_auth, const u8 *addr,
logger_level level, const char *fmt, ...);
void __wpa_send_eapol(struct wpa_authenticator *wpa_auth,
struct wpa_state_machine *sm, int key_info,
const u8 *key_rsc, const u8 *nonce,
const u8 *kde, size_t kde_len,
int keyidx, int encr, int force_version);
int wpa_auth_for_each_sta(struct wpa_authenticator *wpa_auth,
int (*cb)(struct wpa_state_machine *sm, void *ctx),
void *cb_ctx);
int wpa_auth_for_each_auth(struct wpa_authenticator *wpa_auth,
int (*cb)(struct wpa_authenticator *a, void *ctx),
void *cb_ctx);
#ifdef CONFIG_PEERKEY
int wpa_stsl_remove(struct wpa_authenticator *wpa_auth,
struct wpa_stsl_negotiation *neg);
void wpa_smk_error(struct wpa_authenticator *wpa_auth,
struct wpa_state_machine *sm,
const u8 *key_data, size_t key_data_len);
void wpa_smk_m1(struct wpa_authenticator *wpa_auth,
struct wpa_state_machine *sm, struct wpa_eapol_key *key,
const u8 *key_data, size_t key_data_len);
void wpa_smk_m3(struct wpa_authenticator *wpa_auth,
struct wpa_state_machine *sm, struct wpa_eapol_key *key,
const u8 *key_data, size_t key_data_len);
#endif /* CONFIG_PEERKEY */
#ifdef CONFIG_IEEE80211R
int wpa_write_mdie(struct wpa_auth_config *conf, u8 *buf, size_t len);
int wpa_write_ftie(struct wpa_auth_config *conf, const u8 *r0kh_id,
size_t r0kh_id_len,
const u8 *anonce, const u8 *snonce,
u8 *buf, size_t len, const u8 *subelem,
size_t subelem_len);
int wpa_auth_derive_ptk_ft(struct wpa_state_machine *sm, const u8 *pmk,
struct wpa_ptk *ptk);
struct wpa_ft_pmk_cache * wpa_ft_pmk_cache_init(void);
void wpa_ft_pmk_cache_deinit(struct wpa_ft_pmk_cache *cache);
void wpa_ft_install_ptk(struct wpa_state_machine *sm);
#endif /* CONFIG_IEEE80211R */
#endif /* WPA_AUTH_I_H */