89d79150ac
These are not allowed in ISO C++ (and well, not really in ISO C either, but that does not result in compiler warning without pedantic compilation). Since ieee802_11_common.h may end up getting pulled into C++ code for some external interfaces, it is more convenient to keep it free of these cases. Pull in ieee802_11_defs.h to get enum phy_type defined and move enum chan_width to common/defs.h (which was already pulled in into src/drivers/driver.h and src/common/ieee802_11_common.h). Signed-off-by: Jouni Malinen <jouni@codeaurora.org>
422 lines
11 KiB
C
422 lines
11 KiB
C
/*
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* WPA Supplicant - Common definitions
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* Copyright (c) 2004-2018, Jouni Malinen <j@w1.fi>
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*
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* This software may be distributed under the terms of the BSD license.
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* See README for more details.
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*/
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#ifndef DEFS_H
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#define DEFS_H
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#ifdef FALSE
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#undef FALSE
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#endif
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#ifdef TRUE
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#undef TRUE
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#endif
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typedef enum { FALSE = 0, TRUE = 1 } Boolean;
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#define WPA_CIPHER_NONE BIT(0)
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#define WPA_CIPHER_WEP40 BIT(1)
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#define WPA_CIPHER_WEP104 BIT(2)
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#define WPA_CIPHER_TKIP BIT(3)
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#define WPA_CIPHER_CCMP BIT(4)
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#define WPA_CIPHER_AES_128_CMAC BIT(5)
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#define WPA_CIPHER_GCMP BIT(6)
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#define WPA_CIPHER_SMS4 BIT(7)
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#define WPA_CIPHER_GCMP_256 BIT(8)
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#define WPA_CIPHER_CCMP_256 BIT(9)
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#define WPA_CIPHER_BIP_GMAC_128 BIT(11)
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#define WPA_CIPHER_BIP_GMAC_256 BIT(12)
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#define WPA_CIPHER_BIP_CMAC_256 BIT(13)
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#define WPA_CIPHER_GTK_NOT_USED BIT(14)
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#define WPA_KEY_MGMT_IEEE8021X BIT(0)
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#define WPA_KEY_MGMT_PSK BIT(1)
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#define WPA_KEY_MGMT_NONE BIT(2)
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#define WPA_KEY_MGMT_IEEE8021X_NO_WPA BIT(3)
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#define WPA_KEY_MGMT_WPA_NONE BIT(4)
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#define WPA_KEY_MGMT_FT_IEEE8021X BIT(5)
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#define WPA_KEY_MGMT_FT_PSK BIT(6)
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#define WPA_KEY_MGMT_IEEE8021X_SHA256 BIT(7)
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#define WPA_KEY_MGMT_PSK_SHA256 BIT(8)
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#define WPA_KEY_MGMT_WPS BIT(9)
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#define WPA_KEY_MGMT_SAE BIT(10)
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#define WPA_KEY_MGMT_FT_SAE BIT(11)
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#define WPA_KEY_MGMT_WAPI_PSK BIT(12)
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#define WPA_KEY_MGMT_WAPI_CERT BIT(13)
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#define WPA_KEY_MGMT_CCKM BIT(14)
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#define WPA_KEY_MGMT_OSEN BIT(15)
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#define WPA_KEY_MGMT_IEEE8021X_SUITE_B BIT(16)
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#define WPA_KEY_MGMT_IEEE8021X_SUITE_B_192 BIT(17)
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#define WPA_KEY_MGMT_FILS_SHA256 BIT(18)
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#define WPA_KEY_MGMT_FILS_SHA384 BIT(19)
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#define WPA_KEY_MGMT_FT_FILS_SHA256 BIT(20)
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#define WPA_KEY_MGMT_FT_FILS_SHA384 BIT(21)
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#define WPA_KEY_MGMT_OWE BIT(22)
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#define WPA_KEY_MGMT_DPP BIT(23)
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#define WPA_KEY_MGMT_FT_IEEE8021X_SHA384 BIT(24)
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#define WPA_KEY_MGMT_FT (WPA_KEY_MGMT_FT_PSK | \
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WPA_KEY_MGMT_FT_IEEE8021X | \
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WPA_KEY_MGMT_FT_IEEE8021X_SHA384 | \
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WPA_KEY_MGMT_FT_SAE | \
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WPA_KEY_MGMT_FT_FILS_SHA256 | \
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WPA_KEY_MGMT_FT_FILS_SHA384)
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static inline int wpa_key_mgmt_wpa_ieee8021x(int akm)
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{
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return !!(akm & (WPA_KEY_MGMT_IEEE8021X |
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WPA_KEY_MGMT_FT_IEEE8021X |
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WPA_KEY_MGMT_FT_IEEE8021X_SHA384 |
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WPA_KEY_MGMT_CCKM |
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WPA_KEY_MGMT_OSEN |
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WPA_KEY_MGMT_IEEE8021X_SHA256 |
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WPA_KEY_MGMT_IEEE8021X_SUITE_B |
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WPA_KEY_MGMT_IEEE8021X_SUITE_B_192 |
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WPA_KEY_MGMT_FILS_SHA256 |
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WPA_KEY_MGMT_FILS_SHA384 |
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WPA_KEY_MGMT_FT_FILS_SHA256 |
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WPA_KEY_MGMT_FT_FILS_SHA384));
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}
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static inline int wpa_key_mgmt_wpa_psk(int akm)
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{
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return !!(akm & (WPA_KEY_MGMT_PSK |
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WPA_KEY_MGMT_FT_PSK |
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WPA_KEY_MGMT_PSK_SHA256 |
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WPA_KEY_MGMT_SAE |
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WPA_KEY_MGMT_FT_SAE));
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}
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static inline int wpa_key_mgmt_ft(int akm)
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{
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return !!(akm & WPA_KEY_MGMT_FT);
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}
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static inline int wpa_key_mgmt_only_ft(int akm)
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{
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int ft = wpa_key_mgmt_ft(akm);
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akm &= ~WPA_KEY_MGMT_FT;
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return ft && !akm;
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}
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static inline int wpa_key_mgmt_ft_psk(int akm)
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{
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return !!(akm & WPA_KEY_MGMT_FT_PSK);
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}
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static inline int wpa_key_mgmt_sae(int akm)
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{
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return !!(akm & (WPA_KEY_MGMT_SAE |
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WPA_KEY_MGMT_FT_SAE));
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}
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static inline int wpa_key_mgmt_fils(int akm)
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{
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return !!(akm & (WPA_KEY_MGMT_FILS_SHA256 |
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WPA_KEY_MGMT_FILS_SHA384 |
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WPA_KEY_MGMT_FT_FILS_SHA256 |
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WPA_KEY_MGMT_FT_FILS_SHA384));
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}
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static inline int wpa_key_mgmt_sha256(int akm)
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{
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return !!(akm & (WPA_KEY_MGMT_PSK_SHA256 |
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WPA_KEY_MGMT_IEEE8021X_SHA256 |
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WPA_KEY_MGMT_SAE |
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WPA_KEY_MGMT_FT_SAE |
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WPA_KEY_MGMT_OSEN |
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WPA_KEY_MGMT_IEEE8021X_SUITE_B |
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WPA_KEY_MGMT_FILS_SHA256 |
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WPA_KEY_MGMT_FT_FILS_SHA256));
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}
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static inline int wpa_key_mgmt_sha384(int akm)
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{
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return !!(akm & (WPA_KEY_MGMT_IEEE8021X_SUITE_B_192 |
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WPA_KEY_MGMT_FT_IEEE8021X_SHA384 |
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WPA_KEY_MGMT_FILS_SHA384 |
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WPA_KEY_MGMT_FT_FILS_SHA384));
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}
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static inline int wpa_key_mgmt_suite_b(int akm)
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{
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return !!(akm & (WPA_KEY_MGMT_IEEE8021X_SUITE_B |
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WPA_KEY_MGMT_IEEE8021X_SUITE_B_192));
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}
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static inline int wpa_key_mgmt_wpa(int akm)
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{
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return wpa_key_mgmt_wpa_ieee8021x(akm) ||
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wpa_key_mgmt_wpa_psk(akm) ||
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wpa_key_mgmt_fils(akm) ||
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wpa_key_mgmt_sae(akm) ||
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akm == WPA_KEY_MGMT_OWE ||
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akm == WPA_KEY_MGMT_DPP;
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}
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static inline int wpa_key_mgmt_wpa_any(int akm)
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{
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return wpa_key_mgmt_wpa(akm) || (akm & WPA_KEY_MGMT_WPA_NONE);
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}
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static inline int wpa_key_mgmt_cckm(int akm)
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{
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return akm == WPA_KEY_MGMT_CCKM;
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}
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#define WPA_PROTO_WPA BIT(0)
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#define WPA_PROTO_RSN BIT(1)
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#define WPA_PROTO_WAPI BIT(2)
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#define WPA_PROTO_OSEN BIT(3)
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#define WPA_AUTH_ALG_OPEN BIT(0)
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#define WPA_AUTH_ALG_SHARED BIT(1)
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#define WPA_AUTH_ALG_LEAP BIT(2)
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#define WPA_AUTH_ALG_FT BIT(3)
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#define WPA_AUTH_ALG_SAE BIT(4)
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#define WPA_AUTH_ALG_FILS BIT(5)
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#define WPA_AUTH_ALG_FILS_SK_PFS BIT(6)
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static inline int wpa_auth_alg_fils(int alg)
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{
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return !!(alg & (WPA_AUTH_ALG_FILS | WPA_AUTH_ALG_FILS_SK_PFS));
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}
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enum wpa_alg {
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WPA_ALG_NONE,
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WPA_ALG_WEP,
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WPA_ALG_TKIP,
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WPA_ALG_CCMP,
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WPA_ALG_IGTK,
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WPA_ALG_PMK,
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WPA_ALG_GCMP,
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WPA_ALG_SMS4,
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WPA_ALG_KRK,
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WPA_ALG_GCMP_256,
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WPA_ALG_CCMP_256,
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WPA_ALG_BIP_GMAC_128,
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WPA_ALG_BIP_GMAC_256,
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WPA_ALG_BIP_CMAC_256
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};
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/**
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* enum wpa_states - wpa_supplicant state
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*
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* These enumeration values are used to indicate the current wpa_supplicant
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* state (wpa_s->wpa_state). The current state can be retrieved with
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* wpa_supplicant_get_state() function and the state can be changed by calling
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* wpa_supplicant_set_state(). In WPA state machine (wpa.c and preauth.c), the
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* wrapper functions wpa_sm_get_state() and wpa_sm_set_state() should be used
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* to access the state variable.
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*/
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enum wpa_states {
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/**
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* WPA_DISCONNECTED - Disconnected state
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*
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* This state indicates that client is not associated, but is likely to
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* start looking for an access point. This state is entered when a
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* connection is lost.
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*/
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WPA_DISCONNECTED,
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/**
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* WPA_INTERFACE_DISABLED - Interface disabled
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*
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* This state is entered if the network interface is disabled, e.g.,
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* due to rfkill. wpa_supplicant refuses any new operations that would
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* use the radio until the interface has been enabled.
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*/
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WPA_INTERFACE_DISABLED,
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/**
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* WPA_INACTIVE - Inactive state (wpa_supplicant disabled)
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*
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* This state is entered if there are no enabled networks in the
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* configuration. wpa_supplicant is not trying to associate with a new
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* network and external interaction (e.g., ctrl_iface call to add or
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* enable a network) is needed to start association.
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*/
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WPA_INACTIVE,
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/**
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* WPA_SCANNING - Scanning for a network
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*
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* This state is entered when wpa_supplicant starts scanning for a
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* network.
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*/
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WPA_SCANNING,
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/**
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* WPA_AUTHENTICATING - Trying to authenticate with a BSS/SSID
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*
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* This state is entered when wpa_supplicant has found a suitable BSS
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* to authenticate with and the driver is configured to try to
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* authenticate with this BSS. This state is used only with drivers
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* that use wpa_supplicant as the SME.
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*/
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WPA_AUTHENTICATING,
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/**
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* WPA_ASSOCIATING - Trying to associate with a BSS/SSID
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*
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* This state is entered when wpa_supplicant has found a suitable BSS
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* to associate with and the driver is configured to try to associate
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* with this BSS in ap_scan=1 mode. When using ap_scan=2 mode, this
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* state is entered when the driver is configured to try to associate
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* with a network using the configured SSID and security policy.
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*/
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WPA_ASSOCIATING,
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/**
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* WPA_ASSOCIATED - Association completed
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*
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* This state is entered when the driver reports that association has
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* been successfully completed with an AP. If IEEE 802.1X is used
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* (with or without WPA/WPA2), wpa_supplicant remains in this state
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* until the IEEE 802.1X/EAPOL authentication has been completed.
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*/
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WPA_ASSOCIATED,
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/**
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* WPA_4WAY_HANDSHAKE - WPA 4-Way Key Handshake in progress
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*
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* This state is entered when WPA/WPA2 4-Way Handshake is started. In
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* case of WPA-PSK, this happens when receiving the first EAPOL-Key
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* frame after association. In case of WPA-EAP, this state is entered
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* when the IEEE 802.1X/EAPOL authentication has been completed.
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*/
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WPA_4WAY_HANDSHAKE,
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/**
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* WPA_GROUP_HANDSHAKE - WPA Group Key Handshake in progress
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*
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* This state is entered when 4-Way Key Handshake has been completed
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* (i.e., when the supplicant sends out message 4/4) and when Group
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* Key rekeying is started by the AP (i.e., when supplicant receives
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* message 1/2).
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*/
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WPA_GROUP_HANDSHAKE,
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/**
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* WPA_COMPLETED - All authentication completed
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*
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* This state is entered when the full authentication process is
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* completed. In case of WPA2, this happens when the 4-Way Handshake is
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* successfully completed. With WPA, this state is entered after the
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* Group Key Handshake; with IEEE 802.1X (non-WPA) connection is
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* completed after dynamic keys are received (or if not used, after
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* the EAP authentication has been completed). With static WEP keys and
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* plaintext connections, this state is entered when an association
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* has been completed.
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*
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* This state indicates that the supplicant has completed its
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* processing for the association phase and that data connection is
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* fully configured.
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*/
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WPA_COMPLETED
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};
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#define MLME_SETPROTECTION_PROTECT_TYPE_NONE 0
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#define MLME_SETPROTECTION_PROTECT_TYPE_RX 1
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#define MLME_SETPROTECTION_PROTECT_TYPE_TX 2
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#define MLME_SETPROTECTION_PROTECT_TYPE_RX_TX 3
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#define MLME_SETPROTECTION_KEY_TYPE_GROUP 0
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#define MLME_SETPROTECTION_KEY_TYPE_PAIRWISE 1
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/**
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* enum mfp_options - Management frame protection (IEEE 802.11w) options
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*/
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enum mfp_options {
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NO_MGMT_FRAME_PROTECTION = 0,
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MGMT_FRAME_PROTECTION_OPTIONAL = 1,
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MGMT_FRAME_PROTECTION_REQUIRED = 2,
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};
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#define MGMT_FRAME_PROTECTION_DEFAULT 3
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/**
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* enum hostapd_hw_mode - Hardware mode
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*/
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enum hostapd_hw_mode {
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HOSTAPD_MODE_IEEE80211B,
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HOSTAPD_MODE_IEEE80211G,
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HOSTAPD_MODE_IEEE80211A,
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HOSTAPD_MODE_IEEE80211AD,
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HOSTAPD_MODE_IEEE80211ANY,
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NUM_HOSTAPD_MODES
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};
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/**
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* enum wpa_ctrl_req_type - Control interface request types
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*/
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enum wpa_ctrl_req_type {
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WPA_CTRL_REQ_UNKNOWN,
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WPA_CTRL_REQ_EAP_IDENTITY,
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WPA_CTRL_REQ_EAP_PASSWORD,
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WPA_CTRL_REQ_EAP_NEW_PASSWORD,
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WPA_CTRL_REQ_EAP_PIN,
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WPA_CTRL_REQ_EAP_OTP,
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WPA_CTRL_REQ_EAP_PASSPHRASE,
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WPA_CTRL_REQ_SIM,
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WPA_CTRL_REQ_PSK_PASSPHRASE,
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WPA_CTRL_REQ_EXT_CERT_CHECK,
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NUM_WPA_CTRL_REQS
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};
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/* Maximum number of EAP methods to store for EAP server user information */
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#define EAP_MAX_METHODS 8
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enum mesh_plink_state {
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PLINK_IDLE = 1,
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PLINK_OPN_SNT,
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PLINK_OPN_RCVD,
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PLINK_CNF_RCVD,
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PLINK_ESTAB,
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PLINK_HOLDING,
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PLINK_BLOCKED, /* not defined in the IEEE 802.11 standard */
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};
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enum set_band {
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WPA_SETBAND_AUTO,
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WPA_SETBAND_5G,
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WPA_SETBAND_2G
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};
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enum wpa_radio_work_band {
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BAND_2_4_GHZ = BIT(0),
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BAND_5_GHZ = BIT(1),
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BAND_60_GHZ = BIT(2),
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};
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enum beacon_rate_type {
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BEACON_RATE_LEGACY,
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BEACON_RATE_HT,
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BEACON_RATE_VHT
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};
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enum eap_proxy_sim_state {
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SIM_STATE_ERROR,
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};
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#define OCE_STA BIT(0)
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#define OCE_STA_CFON BIT(1)
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#define OCE_AP BIT(2)
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/* enum chan_width - Channel width definitions */
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enum chan_width {
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CHAN_WIDTH_20_NOHT,
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CHAN_WIDTH_20,
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CHAN_WIDTH_40,
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CHAN_WIDTH_80,
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CHAN_WIDTH_80P80,
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CHAN_WIDTH_160,
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CHAN_WIDTH_UNKNOWN
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};
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#endif /* DEFS_H */
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