/*++ Copyright (c) Microsoft Corporation. All rights reserved. Module Name: windot11.h Abstract: Definitions for native 802.11 miniport driver specifications. --*/ #ifndef __WINDOT11_H__ #define __WINDOT11_H__ #pragma once #include #pragma region Desktop Family #if WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP) #if _MSC_VER >= 1200 #pragma warning(push) #pragma warning(disable:4820) // padding added after data member #endif // // Disable C4201: nonstandard extension used : nameless struct/union // #pragma warning(disable:4201) // // Disable C4214: nonstandard extension used : bit field types other than int // #pragma warning(disable:4214) #ifndef _NTDDNDIS_ #include #endif #include // These are needed for wlanapi.h for pre-vista targets #ifdef __midl typedef struct _DOT11_MAC_ADDRESS { UCHAR ucDot11MacAddress[6]; } DOT11_MAC_ADDRESS, * PDOT11_MAC_ADDRESS; #else typedef UCHAR DOT11_MAC_ADDRESS[6]; typedef DOT11_MAC_ADDRESS * PDOT11_MAC_ADDRESS; #endif // A list of DOT11_MAC_ADDRESS typedef struct DOT11_BSSID_LIST { #define DOT11_BSSID_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; #ifdef __midl [unique, size_is(uTotalNumOfEntries)] DOT11_MAC_ADDRESS BSSIDs[*]; #else DOT11_MAC_ADDRESS BSSIDs[1]; #endif } DOT11_BSSID_LIST, * PDOT11_BSSID_LIST; #define DOT11_HESSID_LENGTH 6 typedef UCHAR DOT11_HESSID[DOT11_HESSID_LENGTH]; typedef DOT11_HESSID* PDOT11_HESSID; #ifdef __midl // use 4-byte enum typedef [v1_enum] enum _DOT11_PHY_TYPE { #else typedef enum _DOT11_PHY_TYPE { #endif dot11_phy_type_unknown = 0, dot11_phy_type_any = dot11_phy_type_unknown, dot11_phy_type_fhss = 1, dot11_phy_type_dsss = 2, dot11_phy_type_irbaseband = 3, dot11_phy_type_ofdm = 4, // 11a dot11_phy_type_hrdsss = 5, // 11b dot11_phy_type_erp = 6, // 11g dot11_phy_type_ht = 7, // 11n dot11_phy_type_vht = 8, // 11ac dot11_phy_type_dmg = 9, // 11ad dot11_phy_type_he = 10, // 11ax dot11_phy_type_eht = 11, // 11be dot11_phy_type_IHV_start = 0x80000000, dot11_phy_type_IHV_end = 0xffffffff } DOT11_PHY_TYPE, * PDOT11_PHY_TYPE; // The AKMs are defined in the IEEE 802.11 spec in Table 9-188-AKM suite selectors // The mappings are defined in Table 12-11-Integrity and key wrap algorithms // The KCK length for SAE is defined in the IEEE 802.11 spec in Table 12-1-Hash algorithm based on length of prime #define AKM_FROM_TYPE(_prefix, _akm) (_prefix + (_akm << 24)) #define RSNA_OUI_PREFIX 0xac0f00 typedef enum { rsna_akm_none = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 0), rsna_akm_1x = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 1), // 1X + PRF-128 rsna_akm_psk = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 2), // PSK + PRF-128 rsna_akm_ft_1x_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 3), // FT_1X + SHA-256 rsna_akm_ft_psk_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 4), // FT_PSK + SHA-256 rsna_akm_1x_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 5), // 1X + SHA-256 rsna_akm_psk_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 6), // PSK + SHA-256 rsna_akm_tdls_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 7), // TPK + SHA-256 rsna_akm_sae_pmk256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 8), // SAE + [PMK = 256] rsna_akm_ft_sae_pmk256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 9), // FT_SAE + [PMK = 256] rsna_akm_peerkey_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 10), rsna_akm_1x_suite_b_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 11), // 1X_Suite_B + SHA-256 rsna_akm_1x_suite_b_sha384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 12), // 1X_Suite_B/CSNA + SHA-384 rsna_akm_ft_1x_sha384_cmp_256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 13), // FT_1X + SHA-384 + CCMP-256/GCMP-256 rsna_akm_fils_1x_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 14), rsna_akm_fils_1x_sha384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 15), rsna_akm_ft_fils_1x_sha256 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 16), rsna_akm_ft_fils_sha384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 17), rsna_akm_owe = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 18), // Reserved rsna_akm_ft_psk_sha384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 19), // FT_PSK + SHA-384 rsna_akm_psk_sha384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 20), // PSK + SHA-384 // 21 is not defined rsna_akm_ft_1x_sha384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 22), // FT_1X + SHA-384 rsna_akm_1x_sha384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 23), // 1X + SHA-384 rsna_akm_sae_pmk384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 24), // SAE + [PMK = 384] rsna_akm_ft_sae_pmk384 = AKM_FROM_TYPE(RSNA_OUI_PREFIX, 25), // FT_SAE + [PMK = 384] rsna_akm_max = rsna_akm_ft_sae_pmk384, } RSNA_AKM_SUITE; #define WPA_OUI_PREFIX 0xf25000 typedef enum { wpa_akm_none = AKM_FROM_TYPE(WPA_OUI_PREFIX, 0), wpa_akm_1x = AKM_FROM_TYPE(WPA_OUI_PREFIX, 1), // 1X + PRF-128 wpa_akm_psk = AKM_FROM_TYPE(WPA_OUI_PREFIX, 2), // PSK + PRF-128 wpa_akm_max = wpa_akm_psk, } WPA_AKM_SUITE; // The ciphers are defined in the IEEE 802.11 spec in Table 9-186-Cipher suite selectors #define CIPHER_FROM_TYPE(_prefix, _cipher) (_prefix + (_cipher << 24)) typedef enum { rsna_cipher_group = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 0), rsna_cipher_wep40 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 1), rsna_cipher_tkip = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 2), rsna_cipher_reserved = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 3), rsna_cipher_ccmp_128 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 4), rsna_cipher_wep104 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 5), rsna_cipher_bip_cmac_128 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 6), rsna_cipher_no_group_traffic = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 7), rsna_cipher_gcmp_128 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 8), rsna_cipher_gcmp_256 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 9), rsna_cipher_ccmp_256 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 10), rsna_cipher_bip_gmac_128 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 11), rsna_cipher_bip_gmac_256 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 12), rsna_cipher_bip_cmac_256 = CIPHER_FROM_TYPE(RSNA_OUI_PREFIX, 13), rsna_cipher_max = rsna_cipher_bip_cmac_256, } RSNA_CIPHER_SUITE; typedef enum { wpa_cipher_none = CIPHER_FROM_TYPE(WPA_OUI_PREFIX, 0), wpa_cipher_wep40 = CIPHER_FROM_TYPE(WPA_OUI_PREFIX, 1), wpa_cipher_tkip = CIPHER_FROM_TYPE(WPA_OUI_PREFIX, 2), wpa_cipher_ccmp_128 = CIPHER_FROM_TYPE(WPA_OUI_PREFIX, 4), wpa_cipher_wep104 = CIPHER_FROM_TYPE(WPA_OUI_PREFIX, 5), wpa_cipher_bip_cmac_128 = CIPHER_FROM_TYPE(WPA_OUI_PREFIX, 6), wpa_cipher_max = wpa_cipher_bip_cmac_128, } WPA_CIPHER_SUITE; typedef struct { RSNA_AKM_SUITE akm; RSNA_CIPHER_SUITE cipher; } RSNA_AKM_CIPHER_PAIR; #define DOT11_RATE_SET_MAX_LENGTH 126 // 126 bytes typedef struct _DOT11_RATE_SET { _Field_range_(<=, DOT11_RATE_SET_MAX_LENGTH) ULONG uRateSetLength; _Field_size_part_(DOT11_RATE_SET_MAX_LENGTH, uRateSetLength) UCHAR ucRateSet[DOT11_RATE_SET_MAX_LENGTH]; } DOT11_RATE_SET, * PDOT11_RATE_SET; typedef struct { RSNA_AKM_SUITE akm; RSNA_CIPHER_SUITE cipher; } DOT11_AKM_CIPHER_PAIR; typedef UCHAR DOT11_COUNTRY_OR_REGION_STRING[3]; typedef DOT11_COUNTRY_OR_REGION_STRING * PDOT11_COUNTRY_OR_REGION_STRING; typedef UCHAR DOT11_DIALOG_TOKEN; typedef UCHAR DOT11_WFD_STATUS_CODE; typedef UCHAR DOT11_WFD_MINOR_REASON_CODE; typedef UCHAR DOT11_WFD_SERVICE_HASH[6]; #define DOT11_WFD_SERVICE_NAME_MAX_LENGTH 255 #define DOT11_WFD_APS2_SERVICE_TYPE_MAX_LENGTH 21 #define DOT11_WFD_ASP2_INSTANCE_NAME_MAX_LENGTH 63 #define DOT11_WFD_SERVICE_INFORMATION_MAX_LENGTH 65535 #define DOT11_MAX_REQUESTED_SERVICE_INFORMATION_LENGTH 255 #define DOT11_WFD_SESSION_INFO_MAX_LENGTH 144 typedef struct _DOT11_WFD_SESSION_INFO { _Field_range_(<= , DOT11_WFD_SESSION_INFO_MAX_LENGTH) USHORT uSessionInfoLength; _Field_size_part_(DOT11_WFD_SESSION_INFO_MAX_LENGTH, uSessionInfoLength) UCHAR ucSessionInfo[DOT11_WFD_SESSION_INFO_MAX_LENGTH]; } DOT11_WFD_SESSION_INFO, *PDOT11_WFD_SESSION_INFO; #if (NTDDI_VERSION >= NTDDI_WIN8 || NDIS_SUPPORT_NDIS630) #define NWF_WFD_SUPPORTED #define NWF_POWER_SAVE_SUPPORTED #endif // (NTDDI_VERSION >= NTDDI_WIN8 || NDIS_SUPPORT_NDIS630) #if (NTDDI_VERSION >= NTDDI_WIN7 || NDIS_SUPPORT_NDIS620) #define NWF_EXTAP_SUPPORTED #define NWF_VWIFI_SUPPORTED #endif // (NTDDI_VERSION >= NTDDI_WIN7 || NDIS_SUPPORT_NDIS620) #if (NTDDI_VERSION >= NTDDI_VISTA) // ntddndis.h: new Flags for OID_GEN_CURRENT_PACKET_FILTER #define NDIS_PACKET_TYPE_MEDIA_SPECIFIC_MASK (0x0fff0000U) // Mask for media specific packet filters #define NDIS_PACKET_TYPE_802_11_DIRECTED_DATA NDIS_PACKET_TYPE_DIRECTED #define NDIS_PACKET_TYPE_802_11_BROADCAST_DATA NDIS_PACKET_TYPE_BROADCAST #define NDIS_PACKET_TYPE_802_11_MULTICAST_DATA NDIS_PACKET_TYPE_MULTICAST #define NDIS_PACKET_TYPE_802_11_ALL_MULTICAST_DATA NDIS_PACKET_TYPE_ALL_MULTICAST #define NDIS_PACKET_TYPE_802_11_PROMISCUOUS_DATA NDIS_PACKET_TYPE_PROMISCUOUS #define NDIS_PACKET_TYPE_802_11_RAW_DATA (0x00010000U) // Raw 802.11 data packets (MPDU) #define NDIS_PACKET_TYPE_802_11_DIRECTED_MGMT (0x00020000U) // Directed management packet #define NDIS_PACKET_TYPE_802_11_BROADCAST_MGMT (0x00040000U) // Broadcast management packet #define NDIS_PACKET_TYPE_802_11_MULTICAST_MGMT (0x00080000U) // Multicast management packet #define NDIS_PACKET_TYPE_802_11_ALL_MULTICAST_MGMT (0x00100000U) // All-multicast management packet #define NDIS_PACKET_TYPE_802_11_PROMISCUOUS_MGMT (0x00200000U) // Promiscuous management packet #define NDIS_PACKET_TYPE_802_11_RAW_MGMT (0x00400000U) // Raw management packet #define NDIS_PACKET_TYPE_802_11_DIRECTED_CTRL (0x00800000U) // Directed CTRL packet #define NDIS_PACKET_TYPE_802_11_BROADCAST_CTRL (0x01000000U) // Broadcast CTRL packet #define NDIS_PACKET_TYPE_802_11_PROMISCUOUS_CTRL (0x02000000U) // Promiscuous CTRL packet #define NDIS_PACKET_TYPE_ALL_802_11_FILTERS \ (NDIS_PACKET_TYPE_DIRECTED | \ NDIS_PACKET_TYPE_MULTICAST | \ NDIS_PACKET_TYPE_ALL_MULTICAST | \ NDIS_PACKET_TYPE_BROADCAST | \ NDIS_PACKET_TYPE_PROMISCUOUS | \ NDIS_PACKET_TYPE_802_11_RAW_DATA | \ NDIS_PACKET_TYPE_802_11_DIRECTED_MGMT | \ NDIS_PACKET_TYPE_802_11_BROADCAST_MGMT | \ NDIS_PACKET_TYPE_802_11_MULTICAST_MGMT | \ NDIS_PACKET_TYPE_802_11_ALL_MULTICAST_MGMT | \ NDIS_PACKET_TYPE_802_11_PROMISCUOUS_MGMT | \ NDIS_PACKET_TYPE_802_11_RAW_MGMT | \ NDIS_PACKET_TYPE_802_11_DIRECTED_CTRL | \ NDIS_PACKET_TYPE_802_11_BROADCAST_CTRL | \ NDIS_PACKET_TYPE_802_11_PROMISCUOUS_CTRL) // // Max size of an 802.11 PDU, including the MAC header, frame body and FCS. // #define DOT11_MAX_PDU_SIZE 2346 // // Min size of an 802.11 PDU, including the MAC header, frame body and FCS. // #define DOT11_MIN_PDU_SIZE (256) #define DOT11_MAX_NUM_DEFAULT_KEY 4 #if (NTDDI_VERSION >= NTDDI_WIN8 || NDIS_SUPPORT_NDIS630) #define DOT11_MAX_NUM_DEFAULT_KEY_MFP DOT11_MAX_NUM_DEFAULT_KEY + 2 #endif // (NTDDI_VERSION >= NTDDI_WIN8 || NDIS_SUPPORT_NDIS630) // Macros for defining native 802.11 OIDs #define OID_DOT11_NDIS_START 0x0D010300 #define NWF_MANDATORY_OID (0x01U) #define NWF_OPTIONAL_OID (0x02U) #define NWF_OPERATIONAL_OID (0x01U) #define NWF_STATISTICS_OID (0x02U) #define NWF_DEFINE_OID(Seq,o,m) ((0x0E000000U) | ((o) << 16) | ((m) << 8) | (Seq)) // // Offload Capability OIDs // #define OID_DOT11_OFFLOAD_CAPABILITY (OID_DOT11_NDIS_START + 0) // Capability flags #define DOT11_HW_WEP_SUPPORTED_TX 0x00000001 #define DOT11_HW_WEP_SUPPORTED_RX 0x00000002 #define DOT11_HW_FRAGMENTATION_SUPPORTED 0x00000004 #define DOT11_HW_DEFRAGMENTATION_SUPPORTED 0x00000008 #define DOT11_HW_MSDU_AUTH_SUPPORTED_TX 0x00000010 #define DOT11_HW_MSDU_AUTH_SUPPORTED_RX 0x00000020 // WEP Algorithm flags #define DOT11_CONF_ALGO_WEP_RC4 0x00000001 // WEP RC4 #define DOT11_CONF_ALGO_TKIP 0x00000002 // Integrity Algorithm flags #define DOT11_AUTH_ALGO_MICHAEL 0x00000001 // Michael typedef struct _DOT11_OFFLOAD_CAPABILITY { ULONG uReserved; ULONG uFlags; ULONG uSupportedWEPAlgorithms; ULONG uNumOfReplayWindows; ULONG uMaxWEPKeyMappingLength; ULONG uSupportedAuthAlgorithms; ULONG uMaxAuthKeyMappingLength; } DOT11_OFFLOAD_CAPABILITY, * PDOT11_OFFLOAD_CAPABILITY; #define OID_DOT11_CURRENT_OFFLOAD_CAPABILITY (OID_DOT11_NDIS_START + 1) typedef struct _DOT11_CURRENT_OFFLOAD_CAPABILITY { ULONG uReserved; ULONG uFlags; } DOT11_CURRENT_OFFLOAD_CAPABILITY, * PDOT11_CURRENT_OFFLOAD_CAPABILITY; // // WEP Offload // #define OID_DOT11_WEP_OFFLOAD (OID_DOT11_NDIS_START + 2) typedef enum _DOT11_OFFLOAD_TYPE { dot11_offload_type_wep = 1, dot11_offload_type_auth = 2 } DOT11_OFFLOAD_TYPE, * PDOT11_OFFLOAD_TYPE; typedef struct _DOT11_IV48_COUNTER { ULONG uIV32Counter; USHORT usIV16Counter; } DOT11_IV48_COUNTER, * PDOT11_IV48_COUNTER; typedef struct _DOT11_WEP_OFFLOAD { ULONG uReserved; HANDLE hOffloadContext; HANDLE hOffload; DOT11_OFFLOAD_TYPE dot11OffloadType; ULONG dwAlgorithm; BOOLEAN bRowIsOutbound; BOOLEAN bUseDefault; ULONG uFlags; UCHAR ucMacAddress[6]; ULONG uNumOfRWsOnPeer; ULONG uNumOfRWsOnMe; DOT11_IV48_COUNTER dot11IV48Counters[16]; USHORT usDot11RWBitMaps[16]; USHORT usKeyLength; UCHAR ucKey[1]; // Must be the last field. } DOT11_WEP_OFFLOAD, * PDOT11_WEP_OFFLOAD; #define OID_DOT11_WEP_UPLOAD (OID_DOT11_NDIS_START + 3) typedef struct _DOT11_WEP_UPLOAD { ULONG uReserved; DOT11_OFFLOAD_TYPE dot11OffloadType; HANDLE hOffload; ULONG uNumOfRWsUsed; DOT11_IV48_COUNTER dot11IV48Counters[16]; USHORT usDot11RWBitMaps[16]; } DOT11_WEP_UPLOAD, * PDOT11_WEP_UPLOAD; #define OID_DOT11_DEFAULT_WEP_OFFLOAD (OID_DOT11_NDIS_START + 4) typedef enum _DOT11_KEY_DIRECTION { dot11_key_direction_both = 1, dot11_key_direction_inbound = 2, dot11_key_direction_outbound = 3 } DOT11_KEY_DIRECTION, * PDOT11_KEY_DIRECTION; typedef struct _DOT11_DEFAULT_WEP_OFFLOAD { ULONG uReserved; HANDLE hOffloadContext; HANDLE hOffload; ULONG dwIndex; DOT11_OFFLOAD_TYPE dot11OffloadType; ULONG dwAlgorithm; ULONG uFlags; DOT11_KEY_DIRECTION dot11KeyDirection; UCHAR ucMacAddress[6]; ULONG uNumOfRWsOnMe; DOT11_IV48_COUNTER dot11IV48Counters[16]; USHORT usDot11RWBitMaps[16]; USHORT usKeyLength; UCHAR ucKey[1]; // Must be the last field. } DOT11_DEFAULT_WEP_OFFLOAD, * PDOT11_DEFAULT_WEP_OFFLOAD; #define OID_DOT11_DEFAULT_WEP_UPLOAD (OID_DOT11_NDIS_START + 5) typedef struct _DOT11_DEFAULT_WEP_UPLOAD { ULONG uReserved; DOT11_OFFLOAD_TYPE dot11OffloadType; HANDLE hOffload; ULONG uNumOfRWsUsed; DOT11_IV48_COUNTER dot11IV48Counters[16]; USHORT usDot11RWBitMaps[16]; } DOT11_DEFAULT_WEP_UPLOAD, * PDOT11_DEFAULT_WEP_UPLOAD; // // Fragmentation/Defragmentation Offload // #define OID_DOT11_MPDU_MAX_LENGTH (OID_DOT11_NDIS_START + 6) // ULONG (in bytes) // // 802.11 Configuration OIDs // // // OIDs for Mandatory Functions // #define OID_DOT11_OPERATION_MODE_CAPABILITY (OID_DOT11_NDIS_START + 7) #define DOT11_OPERATION_MODE_UNKNOWN 0x00000000 #define DOT11_OPERATION_MODE_STATION 0x00000001 #define DOT11_OPERATION_MODE_AP 0x00000002 #define DOT11_OPERATION_MODE_EXTENSIBLE_STATION 0x00000004 #define DOT11_OPERATION_MODE_EXTENSIBLE_AP 0x00000008 #define DOT11_OPERATION_MODE_WFD_DEVICE 0x00000010 #define DOT11_OPERATION_MODE_WFD_GROUP_OWNER 0x00000020 #define DOT11_OPERATION_MODE_WFD_CLIENT 0x00000040 #define DOT11_OPERATION_MODE_MANUFACTURING 0x40000000 #define DOT11_OPERATION_MODE_NETWORK_MONITOR 0x80000000 typedef struct _DOT11_OPERATION_MODE_CAPABILITY { ULONG uReserved; ULONG uMajorVersion; ULONG uMinorVersion; ULONG uNumOfTXBuffers; ULONG uNumOfRXBuffers; ULONG uOpModeCapability; } DOT11_OPERATION_MODE_CAPABILITY, * PDOT11_OPERATION_MODE_CAPABILITY; #define OID_DOT11_CURRENT_OPERATION_MODE (OID_DOT11_NDIS_START + 8) typedef struct _DOT11_CURRENT_OPERATION_MODE { ULONG uReserved; ULONG uCurrentOpMode; } DOT11_CURRENT_OPERATION_MODE, * PDOT11_CURRENT_OPERATION_MODE; #define OID_DOT11_CURRENT_PACKET_FILTER (OID_DOT11_NDIS_START + 9) #define DOT11_PACKET_TYPE_DIRECTED_CTRL 0x00000001 // Indicate all 802.11 unicast control packets. #define DOT11_PACKET_TYPE_DIRECTED_MGMT 0x00000002 // Indicate all 802.11 unicast management packets. #define DOT11_PACKET_TYPE_DIRECTED_DATA 0x00000004 // Indicate all 802.11 unicast data packets. #define DOT11_PACKET_TYPE_MULTICAST_CTRL 0x00000008 // Indicate all 802.11 multicast control packets. #define DOT11_PACKET_TYPE_MULTICAST_MGMT 0x00000010 // Indicate all 802.11 multicast management packets. #define DOT11_PACKET_TYPE_MULTICAST_DATA 0x00000020 // Indicate all 802.11 multicast data packets. #define DOT11_PACKET_TYPE_BROADCAST_CTRL 0x00000040 // Indicate all 802.11 broadcast control packets. #define DOT11_PACKET_TYPE_BROADCAST_MGMT 0x00000080 // Indicate all 802.11 broadcast management packets. #define DOT11_PACKET_TYPE_BROADCAST_DATA 0x00000100 // Indicate all 802.11 broadcast data packets. #define DOT11_PACKET_TYPE_PROMISCUOUS_CTRL 0x00000200 // Move into promiscuous mode and indicate all 802.11 control packets. #define DOT11_PACKET_TYPE_PROMISCUOUS_MGMT 0x00000400 // Move into promiscuous mode and indicate all 802.11 control packets. #define DOT11_PACKET_TYPE_PROMISCUOUS_DATA 0x00000800 // Move into promiscuous mode and indicate all 802.11 control packets. #define DOT11_PACKET_TYPE_ALL_MULTICAST_CTRL 0x00001000 // Indicate all 802.11 multicast control packets. #define DOT11_PACKET_TYPE_ALL_MULTICAST_MGMT 0x00002000 // Indicate all 802.11 multicast management packets. #define DOT11_PACKET_TYPE_ALL_MULTICAST_DATA 0x00004000 // Indicate all 802.11 multicast data packets. #define DOT11_PACKET_TYPE_RESERVED (~( \ DOT11_PACKET_TYPE_DIRECTED_CTRL | \ DOT11_PACKET_TYPE_DIRECTED_MGMT | \ DOT11_PACKET_TYPE_DIRECTED_DATA | \ DOT11_PACKET_TYPE_MULTICAST_CTRL | \ DOT11_PACKET_TYPE_MULTICAST_MGMT | \ DOT11_PACKET_TYPE_MULTICAST_DATA | \ DOT11_PACKET_TYPE_BROADCAST_CTRL | \ DOT11_PACKET_TYPE_BROADCAST_MGMT | \ DOT11_PACKET_TYPE_BROADCAST_DATA | \ DOT11_PACKET_TYPE_PROMISCUOUS_CTRL | \ DOT11_PACKET_TYPE_PROMISCUOUS_MGMT | \ DOT11_PACKET_TYPE_PROMISCUOUS_DATA | \ DOT11_PACKET_TYPE_ALL_MULTICAST_CTRL | \ DOT11_PACKET_TYPE_ALL_MULTICAST_MGMT | \ DOT11_PACKET_TYPE_ALL_MULTICAST_DATA | \ 0 \ )) // All the reserved bits #define OID_DOT11_ATIM_WINDOW (OID_DOT11_NDIS_START + 10) // ULONG (in TUs) #define OID_DOT11_SCAN_REQUEST (OID_DOT11_NDIS_START + 11) typedef enum _DOT11_SCAN_TYPE { dot11_scan_type_active = 1, dot11_scan_type_passive = 2, dot11_scan_type_auto = 3, dot11_scan_type_forced = 0x80000000 } DOT11_SCAN_TYPE, * PDOT11_SCAN_TYPE; typedef struct _DOT11_SCAN_REQUEST { DOT11_BSS_TYPE dot11BSSType; DOT11_MAC_ADDRESS dot11BSSID; DOT11_SSID dot11SSID; DOT11_SCAN_TYPE dot11ScanType; BOOLEAN bRestrictedScan; BOOLEAN bUseRequestIE; ULONG uRequestIDsOffset; ULONG uNumOfRequestIDs; ULONG uPhyTypesOffset; ULONG uNumOfPhyTypes; ULONG uIEsOffset; ULONG uIEsLength; UCHAR ucBuffer[1]; } DOT11_SCAN_REQUEST, * PDOT11_SCAN_REQUEST; // V2 SCAN REQUEST typedef enum _CH_DESCRIPTION_TYPE { ch_description_type_logical = 1, ch_description_type_center_frequency = 2, ch_description_type_phy_specific } CH_DESCRIPTION_TYPE, * PCH_DESCRIPTION_TYPE; typedef struct _DOT11_PHY_TYPE_INFO { DOT11_PHY_TYPE dot11PhyType; BOOLEAN bUseParameters; ULONG uProbeDelay; ULONG uMinChannelTime; ULONG uMaxChannelTime; CH_DESCRIPTION_TYPE ChDescriptionType; ULONG uChannelListSize; UCHAR ucChannelListBuffer[1]; } DOT11_PHY_TYPE_INFO, * PDOT11_PHY_TYPE_INFO; typedef struct _DOT11_SCAN_REQUEST_V2 { DOT11_BSS_TYPE dot11BSSType; DOT11_MAC_ADDRESS dot11BSSID; DOT11_SCAN_TYPE dot11ScanType; BOOLEAN bRestrictedScan; ULONG udot11SSIDsOffset; ULONG uNumOfdot11SSIDs; BOOLEAN bUseRequestIE; ULONG uRequestIDsOffset; ULONG uNumOfRequestIDs; ULONG uPhyTypeInfosOffset; ULONG uNumOfPhyTypeInfos; ULONG uIEsOffset; ULONG uIEsLength; UCHAR ucBuffer[1]; } DOT11_SCAN_REQUEST_V2, * PDOT11_SCAN_REQUEST_V2; #define OID_DOT11_CURRENT_PHY_TYPE (OID_DOT11_NDIS_START + 12) typedef struct DOT11_PHY_TYPE_LIST { #define DOT11_PHY_TYPE_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_PHY_TYPE dot11PhyType[1]; } DOT11_PHY_TYPE_LIST, * PDOT11_PHY_TYPE_LIST; #define OID_DOT11_JOIN_REQUEST (OID_DOT11_NDIS_START + 13) // Capability Information Flags - Exactly maps to the bit positions // in the Capability Information field of the beacon and probe response frames. #define DOT11_CAPABILITY_INFO_ESS 0x0001 #define DOT11_CAPABILITY_INFO_IBSS 0x0002 #define DOT11_CAPABILITY_INFO_CF_POLLABLE 0x0004 #define DOT11_CAPABILITY_INFO_CF_POLL_REQ 0x0008 #define DOT11_CAPABILITY_INFO_PRIVACY 0x0010 #define DOT11_CAPABILITY_SHORT_PREAMBLE 0x0020 #define DOT11_CAPABILITY_PBCC 0x0040 #define DOT11_CAPABILITY_CHANNEL_AGILITY 0x0080 #define DOT11_CAPABILITY_SHORT_SLOT_TIME 0x0400 #define DOT11_CAPABILITY_DSSSOFDM 0x2000 typedef struct _DOT11_BSS_DESCRIPTION { ULONG uReserved; // Passed-in as 0 and must be ignored for now. DOT11_MAC_ADDRESS dot11BSSID; DOT11_BSS_TYPE dot11BSSType; USHORT usBeaconPeriod; ULONGLONG ullTimestamp; USHORT usCapabilityInformation; ULONG uBufferLength; #ifdef __midl [unique, size_is(uBufferLength)] UCHAR ucBuffer[*]; #else UCHAR ucBuffer[1]; // Must be the last field. #endif } DOT11_BSS_DESCRIPTION, * PDOT11_BSS_DESCRIPTION; typedef struct _DOT11_JOIN_REQUEST { ULONG uJoinFailureTimeout; DOT11_RATE_SET OperationalRateSet; ULONG uChCenterFrequency; DOT11_BSS_DESCRIPTION dot11BSSDescription; // Must be the last field. } DOT11_JOIN_REQUEST, * PDOT11_JOIN_REQUEST; #define OID_DOT11_START_REQUEST (OID_DOT11_NDIS_START + 14) typedef struct _DOT11_START_REQUEST { ULONG uStartFailureTimeout; DOT11_RATE_SET OperationalRateSet; ULONG uChCenterFrequency; DOT11_BSS_DESCRIPTION dot11BSSDescription; // Must be the last field. } DOT11_START_REQUEST, * PDOT11_START_REQUEST; #define OID_DOT11_UPDATE_IE (OID_DOT11_NDIS_START + 15) typedef enum _DOT11_UPDATE_IE_OP { dot11_update_ie_op_create_replace = 1, dot11_update_ie_op_delete = 2, } DOT11_UPDATE_IE_OP, * PDOT11_UPDATE_IE_OP; typedef struct _DOT11_UPDATE_IE { DOT11_UPDATE_IE_OP dot11UpdateIEOp; ULONG uBufferLength; UCHAR ucBuffer[1]; // Must be the last field. } DOT11_UPDATE_IE, * PDOT11_UPDATE_IE; #define OID_DOT11_RESET_REQUEST (OID_DOT11_NDIS_START + 16) typedef enum _DOT11_RESET_TYPE { dot11_reset_type_phy = 1, dot11_reset_type_mac = 2, dot11_reset_type_phy_and_mac = 3 } DOT11_RESET_TYPE, * PDOT11_RESET_TYPE; typedef struct _DOT11_RESET_REQUEST { DOT11_RESET_TYPE dot11ResetType; DOT11_MAC_ADDRESS dot11MacAddress; BOOLEAN bSetDefaultMIB; } DOT11_RESET_REQUEST, * PDOT11_RESET_REQUEST; #define OID_DOT11_NIC_POWER_STATE (OID_DOT11_NDIS_START + 17) // BOOL // // OIDs for Optional Functions // #define OID_DOT11_OPTIONAL_CAPABILITY (OID_DOT11_NDIS_START + 18) typedef struct _DOT11_OPTIONAL_CAPABILITY { ULONG uReserved; BOOLEAN bDot11PCF; BOOLEAN bDot11PCFMPDUTransferToPC; BOOLEAN bStrictlyOrderedServiceClass; } DOT11_OPTIONAL_CAPABILITY, * PDOT11_OPTIONAL_CAPABILITY; #define OID_DOT11_CURRENT_OPTIONAL_CAPABILITY (OID_DOT11_NDIS_START + 19) typedef struct _DOT11_CURRENT_OPTIONAL_CAPABILITY { ULONG uReserved; BOOLEAN bDot11CFPollable; BOOLEAN bDot11PCF; BOOLEAN bDot11PCFMPDUTransferToPC; BOOLEAN bStrictlyOrderedServiceClass; } DOT11_CURRENT_OPTIONAL_CAPABILITY, * PDOT11_CURRENT_OPTIONAL_CAPABILITY; // // 802.11 MIB OIDs // // // OIDs for dot11StationConfigEntry // #define OID_DOT11_STATION_ID (OID_DOT11_NDIS_START + 20) // DOT11_MAC_ADDRESS #define OID_DOT11_MEDIUM_OCCUPANCY_LIMIT (OID_DOT11_NDIS_START + 21) // ULONG (in TUs) #define OID_DOT11_CF_POLLABLE (OID_DOT11_NDIS_START + 22) // BOOL #define OID_DOT11_CFP_PERIOD (OID_DOT11_NDIS_START + 23) // ULONG (in DTIM intervals) #define OID_DOT11_CFP_MAX_DURATION (OID_DOT11_NDIS_START + 24) // ULONG (in TUs) #define OID_DOT11_POWER_MGMT_MODE (OID_DOT11_NDIS_START + 25) typedef enum _DOT11_POWER_MODE { dot11_power_mode_unknown = 0, dot11_power_mode_active = 1, dot11_power_mode_powersave = 2 } DOT11_POWER_MODE, * PDOT11_POWER_MODE; #define DOT11_POWER_SAVE_LEVEL_MAX_PSP 1 // Maximum power save polling. #define DOT11_POWER_SAVE_LEVEL_FAST_PSP 2 // Fast power save polling. typedef struct _DOT11_POWER_MGMT_MODE { DOT11_POWER_MODE dot11PowerMode; ULONG uPowerSaveLevel; USHORT usListenInterval; USHORT usAID; BOOLEAN bReceiveDTIMs; } DOT11_POWER_MGMT_MODE, * PDOT11_POWER_MGMT_MODE; #define OID_DOT11_OPERATIONAL_RATE_SET (OID_DOT11_NDIS_START + 26) // DOT11_RATE_SET #define OID_DOT11_BEACON_PERIOD (OID_DOT11_NDIS_START + 27) // ULONG (in TUs) #define OID_DOT11_DTIM_PERIOD (OID_DOT11_NDIS_START + 28) // ULONG (in beacon intervals) // // OIDs for Dot11PrivacyEntry // #define OID_DOT11_WEP_ICV_ERROR_COUNT (OID_DOT11_NDIS_START + 29) // ULONG // // OIDs for dot11OperationEntry // #define OID_DOT11_MAC_ADDRESS (OID_DOT11_NDIS_START + 30) // DOT11_MAC_ADDRESS #define OID_DOT11_RTS_THRESHOLD (OID_DOT11_NDIS_START + 31) // ULONG (in number of octets) #define OID_DOT11_SHORT_RETRY_LIMIT (OID_DOT11_NDIS_START + 32) // ULONG #define OID_DOT11_LONG_RETRY_LIMIT (OID_DOT11_NDIS_START + 33) // ULONG #define OID_DOT11_FRAGMENTATION_THRESHOLD (OID_DOT11_NDIS_START + 34) // ULONG (in number of octets) #define OID_DOT11_MAX_TRANSMIT_MSDU_LIFETIME (OID_DOT11_NDIS_START + 35) // ULONG (in TUs) #define OID_DOT11_MAX_RECEIVE_LIFETIME (OID_DOT11_NDIS_START + 36) // ULONG (in TUs) // // OIDs for dot11CountersEntry // #define OID_DOT11_COUNTERS_ENTRY (OID_DOT11_NDIS_START + 37) typedef struct _DOT11_COUNTERS_ENTRY { ULONG uTransmittedFragmentCount; ULONG uMulticastTransmittedFrameCount; ULONG uFailedCount; ULONG uRetryCount; ULONG uMultipleRetryCount; ULONG uFrameDuplicateCount; ULONG uRTSSuccessCount; ULONG uRTSFailureCount; ULONG uACKFailureCount; ULONG uReceivedFragmentCount; ULONG uMulticastReceivedFrameCount; ULONG uFCSErrorCount; ULONG uTransmittedFrameCount; } DOT11_COUNTERS_ENTRY, * PDOT11_COUNTERS_ENTRY; // // OIDs for dot11PhyOperationEntry // #define OID_DOT11_SUPPORTED_PHY_TYPES (OID_DOT11_NDIS_START + 38) typedef struct _DOT11_SUPPORTED_PHY_TYPES { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_PHY_TYPE dot11PHYType[1]; } DOT11_SUPPORTED_PHY_TYPES, * PDOT11_SUPPORTED_PHY_TYPES; #define OID_DOT11_CURRENT_REG_DOMAIN (OID_DOT11_NDIS_START + 39) #define DOT11_REG_DOMAIN_OTHER 0x00000000 #define DOT11_REG_DOMAIN_FCC 0x00000010 #define DOT11_REG_DOMAIN_DOC 0x00000020 #define DOT11_REG_DOMAIN_ETSI 0x00000030 #define DOT11_REG_DOMAIN_SPAIN 0x00000031 #define DOT11_REG_DOMAIN_FRANCE 0x00000032 #define DOT11_REG_DOMAIN_MKK 0x00000040 // ULONG #define OID_DOT11_TEMP_TYPE (OID_DOT11_NDIS_START + 40) typedef enum _DOT11_TEMP_TYPE { dot11_temp_type_unknown = 0, dot11_temp_type_1 = 1, dot11_temp_type_2 = 2 } DOT11_TEMP_TYPE, * PDOT11_TEMP_TYPE; // // OIDs for dot11PhyAntennaEntry // #define OID_DOT11_CURRENT_TX_ANTENNA (OID_DOT11_NDIS_START + 41) // ULONG #define OID_DOT11_DIVERSITY_SUPPORT (OID_DOT11_NDIS_START + 42) typedef enum _DOT11_DIVERSITY_SUPPORT { dot11_diversity_support_unknown = 0, dot11_diversity_support_fixedlist = 1, dot11_diversity_support_notsupported = 2, dot11_diversity_support_dynamic = 3 } DOT11_DIVERSITY_SUPPORT, * PDOT11_DIVERSITY_SUPPORT; #define OID_DOT11_CURRENT_RX_ANTENNA (OID_DOT11_NDIS_START + 43) // ULONG // // OIDs for dot11PhyTxPowerEntry // #define OID_DOT11_SUPPORTED_POWER_LEVELS (OID_DOT11_NDIS_START + 44) typedef struct _DOT11_SUPPORTED_POWER_LEVELS { ULONG uNumOfSupportedPowerLevels; _Field_size_part_(8, uNumOfSupportedPowerLevels) ULONG uTxPowerLevelValues[8]; } DOT11_SUPPORTED_POWER_LEVELS, * PDOT11_SUPPORTED_POWER_LEVELS; #define OID_DOT11_CURRENT_TX_POWER_LEVEL (OID_DOT11_NDIS_START + 45) // ULONG // // OIDs for dot11PhyFHSSEntry // #define OID_DOT11_HOP_TIME (OID_DOT11_NDIS_START + 46) // ULONG (in microseconds) #define OID_DOT11_CURRENT_CHANNEL_NUMBER (OID_DOT11_NDIS_START + 47) // ULONG #define OID_DOT11_MAX_DWELL_TIME (OID_DOT11_NDIS_START + 48) // ULONG (in TUs) #define OID_DOT11_CURRENT_DWELL_TIME (OID_DOT11_NDIS_START + 49) // ULONG (in TUs) #define OID_DOT11_CURRENT_SET (OID_DOT11_NDIS_START + 50) // ULONG #define OID_DOT11_CURRENT_PATTERN (OID_DOT11_NDIS_START + 51) // ULONG #define OID_DOT11_CURRENT_INDEX (OID_DOT11_NDIS_START + 52) // ULONG // // OIDs for dot11PhyDSSSEntry // #define OID_DOT11_CURRENT_CHANNEL (OID_DOT11_NDIS_START + 53) // ULONG #define OID_DOT11_CCA_MODE_SUPPORTED (OID_DOT11_NDIS_START + 54) #define DOT11_CCA_MODE_ED_ONLY 0x00000001 #define DOT11_CCA_MODE_CS_ONLY 0x00000002 #define DOT11_CCA_MODE_ED_and_CS 0x00000004 #define DOT11_CCA_MODE_CS_WITH_TIMER 0x00000008 #define DOT11_CCA_MODE_HRCS_AND_ED 0x00000010 // ULONG #define OID_DOT11_CURRENT_CCA_MODE (OID_DOT11_NDIS_START + 55) // ULONG #define OID_DOT11_ED_THRESHOLD (OID_DOT11_NDIS_START + 56) // LONG (in "dBm"s) // // OIDs for dot11PhyIREntry // #define OID_DOT11_CCA_WATCHDOG_TIMER_MAX (OID_DOT11_NDIS_START + 57) // ULONG (in nanoseconds) #define OID_DOT11_CCA_WATCHDOG_COUNT_MAX (OID_DOT11_NDIS_START + 58) // ULONG #define OID_DOT11_CCA_WATCHDOG_TIMER_MIN (OID_DOT11_NDIS_START + 59) // ULONG (in nanoseconds) #define OID_DOT11_CCA_WATCHDOG_COUNT_MIN (OID_DOT11_NDIS_START + 60) // ULONG // // OIDs for dot11RegDomainsSupportEntry // #define OID_DOT11_REG_DOMAINS_SUPPORT_VALUE (OID_DOT11_NDIS_START + 61) typedef struct _DOT11_REG_DOMAIN_VALUE { ULONG uRegDomainsSupportIndex; ULONG uRegDomainsSupportValue; } DOT11_REG_DOMAIN_VALUE, * PDOT11_REG_DOMAIN_VALUE; typedef struct _DOT11_REG_DOMAINS_SUPPORT_VALUE { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_REG_DOMAIN_VALUE dot11RegDomainValue[1]; } DOT11_REG_DOMAINS_SUPPORT_VALUE, * PDOT11_REG_DOMAINS_SUPPORT_VALUE; // // OIDs for dot11AntennaListEntry // #define OID_DOT11_SUPPORTED_TX_ANTENNA (OID_DOT11_NDIS_START + 62) typedef struct _DOT11_SUPPORTED_ANTENNA { ULONG uAntennaListIndex; // Between 1 and 255. BOOLEAN bSupportedAntenna; } DOT11_SUPPORTED_ANTENNA, * PDOT11_SUPPORTED_ANTENNA; typedef struct _DOT11_SUPPORTED_ANTENNA_LIST { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_SUPPORTED_ANTENNA dot11SupportedAntenna[1]; } DOT11_SUPPORTED_ANTENNA_LIST, * PDOT11_SUPPORTED_ANTENNA_LIST; #define OID_DOT11_SUPPORTED_RX_ANTENNA (OID_DOT11_NDIS_START + 63) // DOT11_SUPPORTED_ANTENNA_LIST #define OID_DOT11_DIVERSITY_SELECTION_RX (OID_DOT11_NDIS_START + 64) typedef struct _DOT11_DIVERSITY_SELECTION_RX { ULONG uAntennaListIndex; // Between 1 and 255. BOOLEAN bDiversitySelectionRX; } DOT11_DIVERSITY_SELECTION_RX, * PDOT11_DIVERSITY_SELECTION_RX; typedef struct _DOT11_DIVERSITY_SELECTION_RX_LIST { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_DIVERSITY_SELECTION_RX dot11DiversitySelectionRx[1]; } DOT11_DIVERSITY_SELECTION_RX_LIST, * PDOT11_DIVERSITY_SELECTION_RX_LIST; // // OIDs for dot11SupportedDataRatesTxEntry and dot11SupportedDataRatesRxEntry // #define OID_DOT11_SUPPORTED_DATA_RATES_VALUE (OID_DOT11_NDIS_START + 65) #define MAX_NUM_SUPPORTED_RATES 8 // 8 data rates #define MAX_NUM_SUPPORTED_RATES_V2 255 // 255 data rates typedef struct _DOT11_SUPPORTED_DATA_RATES_VALUE { UCHAR ucSupportedTxDataRatesValue[MAX_NUM_SUPPORTED_RATES]; UCHAR ucSupportedRxDataRatesValue[MAX_NUM_SUPPORTED_RATES]; } DOT11_SUPPORTED_DATA_RATES_VALUE, * PDOT11_SUPPORTED_DATA_RATES_VALUE; typedef struct _DOT11_SUPPORTED_DATA_RATES_VALUE_V2 { UCHAR ucSupportedTxDataRatesValue[MAX_NUM_SUPPORTED_RATES_V2]; UCHAR ucSupportedRxDataRatesValue[MAX_NUM_SUPPORTED_RATES_V2]; } DOT11_SUPPORTED_DATA_RATES_VALUE_V2, * PDOT11_SUPPORTED_DATA_RATES_VALUE_V2; // keep the incorrect struct name to avoid build break typedef DOT11_SUPPORTED_DATA_RATES_VALUE_V2 DOT11_SUPPORTED_DATA_RATES_VALUE_V1, * PDOT11_SUPPORTED_DATA_RATES_VALUE_V1; // // OIDs for dot11PhyOFDMEntry // #define OID_DOT11_CURRENT_FREQUENCY (OID_DOT11_NDIS_START + 66) // ULONG #define OID_DOT11_TI_THRESHOLD (OID_DOT11_NDIS_START + 67) // LONG #define OID_DOT11_FREQUENCY_BANDS_SUPPORTED (OID_DOT11_NDIS_START + 68) #define DOT11_FREQUENCY_BANDS_LOWER 0x00000001 #define DOT11_FREQUENCY_BANDS_MIDDLE 0x00000002 #define DOT11_FREQUENCY_BANDS_UPPER 0x00000004 // ULONG // // OIDs for dot11PhyHRDSSSEntry // #define OID_DOT11_SHORT_PREAMBLE_OPTION_IMPLEMENTED (OID_DOT11_NDIS_START + 69) // BOOL #define OID_DOT11_PBCC_OPTION_IMPLEMENTED (OID_DOT11_NDIS_START + 70) // BOOL #define OID_DOT11_CHANNEL_AGILITY_PRESENT (OID_DOT11_NDIS_START + 71) // BOOL #define OID_DOT11_CHANNEL_AGILITY_ENABLED (OID_DOT11_NDIS_START + 72) // BOOL #define OID_DOT11_HR_CCA_MODE_SUPPORTED (OID_DOT11_NDIS_START + 73) // HR-CCA mode bits #define DOT11_HR_CCA_MODE_ED_ONLY 0x00000001 #define DOT11_HR_CCA_MODE_CS_ONLY 0x00000002 #define DOT11_HR_CCA_MODE_CS_AND_ED 0x00000004 #define DOT11_HR_CCA_MODE_CS_WITH_TIMER 0x00000008 #define DOT11_HR_CCA_MODE_HRCS_AND_ED 0x00000010 // ULONG // // OIDs for dot11StationConfigEntry (Cont) // #define OID_DOT11_MULTI_DOMAIN_CAPABILITY_IMPLEMENTED (OID_DOT11_NDIS_START + 74) // BOOL #define OID_DOT11_MULTI_DOMAIN_CAPABILITY_ENABLED (OID_DOT11_NDIS_START + 75) // BOOL #define OID_DOT11_COUNTRY_STRING (OID_DOT11_NDIS_START + 76) // UCHAR[3] // // OIDs for dot11MultiDomainCapabilityEntry // typedef struct _DOT11_MULTI_DOMAIN_CAPABILITY_ENTRY { ULONG uMultiDomainCapabilityIndex; ULONG uFirstChannelNumber; ULONG uNumberOfChannels; LONG lMaximumTransmitPowerLevel; } DOT11_MULTI_DOMAIN_CAPABILITY_ENTRY, *PDOT11_MULTI_DOMAIN_CAPABILITY_ENTRY; typedef struct _DOT11_MD_CAPABILITY_ENTRY_LIST { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_MULTI_DOMAIN_CAPABILITY_ENTRY dot11MDCapabilityEntry[1]; } DOT11_MD_CAPABILITY_ENTRY_LIST, *PDOT11_MD_CAPABILITY_ENTRY_LIST; #define OID_DOT11_MULTI_DOMAIN_CAPABILITY (OID_DOT11_NDIS_START + 77) // DOT11_MD_CAPABILITY_ENTRY_LIST // // OIDs for dot11PhyFHSSEntry // #define OID_DOT11_EHCC_PRIME_RADIX (OID_DOT11_NDIS_START + 78) // ULONG #define OID_DOT11_EHCC_NUMBER_OF_CHANNELS_FAMILY_INDEX (OID_DOT11_NDIS_START + 79) // ULONG #define OID_DOT11_EHCC_CAPABILITY_IMPLEMENTED (OID_DOT11_NDIS_START + 80) // BOOL #define OID_DOT11_EHCC_CAPABILITY_ENABLED (OID_DOT11_NDIS_START + 81) // BOOL #define OID_DOT11_HOP_ALGORITHM_ADOPTED (OID_DOT11_NDIS_START + 82) typedef enum _DOT11_HOP_ALGO_ADOPTED { dot11_hop_algo_current = 0, dot11_hop_algo_hop_index = 1, dot11_hop_algo_hcc = 2 } DOT11_HOP_ALGO_ADOPTED, * PDOT11_HOP_ALGO_ADOPTED; #define OID_DOT11_RANDOM_TABLE_FLAG (OID_DOT11_NDIS_START + 83) // BOOL #define OID_DOT11_NUMBER_OF_HOPPING_SETS (OID_DOT11_NDIS_START + 84) // ULONG #define OID_DOT11_HOP_MODULUS (OID_DOT11_NDIS_START + 85) // ULONG #define OID_DOT11_HOP_OFFSET (OID_DOT11_NDIS_START + 86) // ULONG // // OIDs for dot11HoppingPatternEntry // #define OID_DOT11_HOPPING_PATTERN (OID_DOT11_NDIS_START + 87) typedef struct _DOT11_HOPPING_PATTERN_ENTRY { ULONG uHoppingPatternIndex; ULONG uRandomTableFieldNumber; } DOT11_HOPPING_PATTERN_ENTRY, *PDOT11_HOPPING_PATTERN_ENTRY; typedef struct _DOT11_HOPPING_PATTERN_ENTRY_LIST { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_HOPPING_PATTERN_ENTRY dot11HoppingPatternEntry[1]; } DOT11_HOPPING_PATTERN_ENTRY_LIST, *PDOT11_HOPPING_PATTERN_ENTRY_LIST; #define OID_DOT11_RANDOM_TABLE_FIELD_NUMBER (OID_DOT11_NDIS_START + 88) // ULONG // // WPA Extensions // #define OID_DOT11_WPA_TSC (OID_DOT11_NDIS_START + 89) typedef struct _DOT11_WPA_TSC { ULONG uReserved; DOT11_OFFLOAD_TYPE dot11OffloadType; HANDLE hOffload; DOT11_IV48_COUNTER dot11IV48Counter; } DOT11_WPA_TSC, * PDOT11_WPA_TSC; // // dot11. // #define OID_DOT11_RSSI_RANGE (OID_DOT11_NDIS_START + 90) typedef struct _DOT11_RSSI_RANGE { DOT11_PHY_TYPE dot11PhyType; ULONG uRSSIMin; // Minimum caliberation value of RSSI in the NIC. ULONG uRSSIMax; // Maximum caliberation value of RSSI in the NIC. } DOT11_RSSI_RANGE, * PDOT11_RSSI_RANGE; #define OID_DOT11_RF_USAGE (OID_DOT11_NDIS_START + 91) //ULONG #define OID_DOT11_NIC_SPECIFIC_EXTENSION (OID_DOT11_NDIS_START + 92) typedef struct _DOT11_NIC_SPECIFIC_EXTENSION { ULONG uBufferLength; ULONG uTotalBufferLength; UCHAR ucBuffer[1]; } DOT11_NIC_SPECIFIC_EXTENSION, * PDOT11_NIC_SPECIFIC_EXTENSION; // // AP join request // #define OID_DOT11_AP_JOIN_REQUEST (OID_DOT11_NDIS_START + 93) typedef struct _DOT11_AP_JOIN_REQUEST { ULONG uJoinFailureTimeout; DOT11_RATE_SET OperationalRateSet; ULONG uChCenterFrequency; DOT11_BSS_DESCRIPTION dot11BSSDescription; // Must be the last field. } DOT11_AP_JOIN_REQUEST, * PDOT11_AP_JOIN_REQUEST; // // dot11PhyERPEntry // #define OID_DOT11_ERP_PBCC_OPTION_IMPLEMENTED (OID_DOT11_NDIS_START + 94) // BOOL #define OID_DOT11_ERP_PBCC_OPTION_ENABLED (OID_DOT11_NDIS_START + 95) // BOOL #define OID_DOT11_DSSS_OFDM_OPTION_IMPLEMENTED (OID_DOT11_NDIS_START + 96) // BOOL #define OID_DOT11_DSSS_OFDM_OPTION_ENABLED (OID_DOT11_NDIS_START + 97) // BOOL #define OID_DOT11_SHORT_SLOT_TIME_OPTION_IMPLEMENTED (OID_DOT11_NDIS_START + 98) // BOOL #define OID_DOT11_SHORT_SLOT_TIME_OPTION_ENABLED (OID_DOT11_NDIS_START + 99) // BOOL #define OID_DOT11_MAX_MAC_ADDRESS_STATES (OID_DOT11_NDIS_START + 100) // ULONG #define OID_DOT11_RECV_SENSITIVITY_LIST (OID_DOT11_NDIS_START + 101) // DOT11_RECV_SENSITIVITY_LIST typedef struct _DOT11_RECV_SENSITIVITY { UCHAR ucDataRate; LONG lRSSIMin; LONG lRSSIMax; } DOT11_RECV_SENSITIVITY, * PDOT11_RECV_SENSITIVITY; typedef struct _DOT11_RECV_SENSITIVITY_LIST { union { DOT11_PHY_TYPE dot11PhyType; ULONG uPhyId; }; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_RECV_SENSITIVITY dot11RecvSensitivity[1]; } DOT11_RECV_SENSITIVITY_LIST, * PDOT11_RECV_SENSITIVITY_LIST; // // WME // #define OID_DOT11_WME_IMPLEMENTED (OID_DOT11_NDIS_START + 102) // BOOL #define OID_DOT11_WME_ENABLED (OID_DOT11_NDIS_START + 103) // BOOL #define OID_DOT11_WME_AC_PARAMETERS (OID_DOT11_NDIS_START + 104) typedef enum _DOT11_AC_PARAM { dot11_AC_param_BE = 0, // Best Effort dot11_AC_param_BK = 1, // Background dot11_AC_param_VI = 2, // Video dot11_AC_param_VO = 3, // Voice dot11_AC_param_max } DOT11_AC_PARAM, * PDOT11_AC_PARAM; typedef struct _DOT11_WME_AC_PARAMETERS { UCHAR ucAccessCategoryIndex; UCHAR ucAIFSN; UCHAR ucECWmin; UCHAR ucECWmax; USHORT usTXOPLimit; } DOT11_WME_AC_PARAMETERS, * PDOT11_WME_AC_PARAMETERS; typedef struct _DOT11_WME_AC_PARAMTERS_LIST { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_WME_AC_PARAMETERS dot11WMEACParameters[1]; } DOT11_WME_AC_PARAMETERS_LIST, * PDOT11_WME_AC_PARAMETERS_LIST; #define OID_DOT11_WME_UPDATE_IE (OID_DOT11_NDIS_START + 105) typedef struct _DOT11_WME_UPDATE_IE { ULONG uParamElemMinBeaconIntervals; ULONG uWMEInfoElemOffset; ULONG uWMEInfoElemLength; ULONG uWMEParamElemOffset; ULONG uWMEParamElemLength; UCHAR ucBuffer[1]; // Must be the last field. } DOT11_WME_UPDATE_IE, * PDOT11_WME_UPDATE_IE; // // QoS // #define OID_DOT11_QOS_TX_QUEUES_SUPPORTED (OID_DOT11_NDIS_START + 106) // ULONG #define OID_DOT11_QOS_TX_DURATION (OID_DOT11_NDIS_START + 107) typedef struct _DOT11_QOS_TX_DURATION { ULONG uNominalMSDUSize; ULONG uMinPHYRate; ULONG uDuration; } DOT11_QOS_TX_DURATION, * PDOT11_QOS_TX_DURATION; #define OID_DOT11_QOS_TX_MEDIUM_TIME (OID_DOT11_NDIS_START + 108) typedef struct _DOT11_QOS_TX_MEDIUM_TIME { DOT11_MAC_ADDRESS dot11PeerAddress; UCHAR ucQoSPriority; ULONG uMediumTimeAdmited; } DOT11_QOS_TX_MEDIUM_TIME, * PDOT11_QOS_TX_MEDIUM_TIME; // // NIC supported channel/center frequency list // #define OID_DOT11_SUPPORTED_OFDM_FREQUENCY_LIST (OID_DOT11_NDIS_START + 109) typedef struct _DOT11_SUPPORTED_OFDM_FREQUENCY { ULONG uCenterFrequency; } DOT11_SUPPORTED_OFDM_FREQUENCY, * PDOT11_SUPPORTED_OFDM_FREQUENCY; typedef struct _DOT11_SUPPORTED_OFDM_FREQUENCY_LIST { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_SUPPORTED_OFDM_FREQUENCY dot11SupportedOFDMFrequency[1]; } DOT11_SUPPORTED_OFDM_FREQUENCY_LIST, * PDOT11_SUPPORTED_OFDM_FREQUENCY_LIST; #define OID_DOT11_SUPPORTED_DSSS_CHANNEL_LIST (OID_DOT11_NDIS_START + 110) typedef struct _DOT11_SUPPORTED_DSSS_CHANNEL { ULONG uChannel; } DOT11_SUPPORTED_DSSS_CHANNEL, * PDOT11_SUPPORTED_DSSS_CHANNEL; typedef struct _DOT11_SUPPORTED_DSSS_CHANNEL_LIST { ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_SUPPORTED_DSSS_CHANNEL dot11SupportedDSSSChannel[1]; } DOT11_SUPPORTED_DSSS_CHANNEL_LIST, * PDOT11_SUPPORTED_DSSS_CHANNEL_LIST; // // Extensible STA // typedef struct DOT11_BYTE_ARRAY { NDIS_OBJECT_HEADER Header; ULONG uNumOfBytes; ULONG uTotalNumOfBytes; UCHAR ucBuffer[1]; } DOT11_BYTE_ARRAY, * PDOT11_BYTE_ARRAY; #define OID_DOT11_AUTO_CONFIG_ENABLED NWF_DEFINE_OID(0x78, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // ULONG #define DOT11_PHY_AUTO_CONFIG_ENABLED_FLAG 0x00000001U #define DOT11_MAC_AUTO_CONFIG_ENABLED_FLAG 0x00000002U #define OID_DOT11_ENUM_BSS_LIST NWF_DEFINE_OID(0x79, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_BYTE_ARRAY with DOT11_BSS_ENTRY #define DOT11_BSS_ENTRY_BYTE_ARRAY_REVISION_1 1 // This structure is not supposed to be midl compliant because of // DOT11_BSS_ENTRY_PHY_SPECIFIC_INFO. The selection of union is // *indirectly* determined from uPhyId. MIDL will not work here. #ifndef __midl typedef union DOT11_BSS_ENTRY_PHY_SPECIFIC_INFO { ULONG uChCenterFrequency; struct { ULONG uHopPattern; ULONG uHopSet; ULONG uDwellTime; } FHSS; } DOT11_BSS_ENTRY_PHY_SPECIFIC_INFO, * PDOT11_BSS_ENTRY_PHY_SPECIFIC_INFO; typedef struct DOT11_BSS_ENTRY { ULONG uPhyId; DOT11_BSS_ENTRY_PHY_SPECIFIC_INFO PhySpecificInfo; DOT11_MAC_ADDRESS dot11BSSID; DOT11_BSS_TYPE dot11BSSType; LONG lRSSI; ULONG uLinkQuality; BOOLEAN bInRegDomain; USHORT usBeaconPeriod; ULONGLONG ullTimestamp; ULONGLONG ullHostTimestamp; USHORT usCapabilityInformation; ULONG uBufferLength; UCHAR ucBuffer[1]; // Must be the last field. } DOT11_BSS_ENTRY, * PDOT11_BSS_ENTRY; #endif #define OID_DOT11_FLUSH_BSS_LIST NWF_DEFINE_OID(0x7A, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // VOID #define OID_DOT11_POWER_MGMT_REQUEST NWF_DEFINE_OID(0x7B, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // ULONG #define DOT11_POWER_SAVING_NO_POWER_SAVING 0 #define DOT11_POWER_SAVING_FAST_PSP 8 #define DOT11_POWER_SAVING_MAX_PSP 16 #define DOT11_POWER_SAVING_MAXIMUM_LEVEL 24 #define OID_DOT11_DESIRED_SSID_LIST NWF_DEFINE_OID(0x7C, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // A list of DOT11_SSID typedef struct DOT11_SSID_LIST { #define DOT11_SSID_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; #ifdef __midl [unique, size_is(uTotalNumOfEntries)] DOT11_SSID SSIDs[*]; #else DOT11_SSID SSIDs[1]; #endif } DOT11_SSID_LIST, * PDOT11_SSID_LIST; #define OID_DOT11_EXCLUDED_MAC_ADDRESS_LIST NWF_DEFINE_OID(0x7D, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // A list of DOT11_MAC_ADDRESS typedef struct DOT11_MAC_ADDRESS_LIST { #define DOT11_MAC_ADDRESS_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_MAC_ADDRESS MacAddrs[1]; } DOT11_MAC_ADDRESS_LIST, * PDOT11_MAC_ADDRESS_LIST; #define OID_DOT11_DESIRED_BSSID_LIST NWF_DEFINE_OID(0x7E, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) #define OID_DOT11_DESIRED_BSS_TYPE NWF_DEFINE_OID(0x7F, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_BSS_TYPE #define OID_DOT11_PMKID_LIST NWF_DEFINE_OID(0x80, NWF_OPERATIONAL_OID, NWF_OPTIONAL_OID) // A list of DOT11_PMKID_ENTRY typedef UCHAR DOT11_PMKID_VALUE[16]; typedef struct DOT11_PMKID_ENTRY { DOT11_MAC_ADDRESS BSSID; DOT11_PMKID_VALUE PMKID; ULONG uFlags; } DOT11_PMKID_ENTRY, *PDOT11_PMKID_ENTRY; typedef struct DOT11_PMKID_LIST { #define DOT11_PMKID_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_PMKID_ENTRY PMKIDs[1]; } DOT11_PMKID_LIST, * PDOT11_PMKID_LIST; #define OID_DOT11_CONNECT_REQUEST NWF_DEFINE_OID(0x81, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // no data type #define OID_DOT11_EXCLUDE_UNENCRYPTED NWF_DEFINE_OID(0x82, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // BOOLEAN #define OID_DOT11_STATISTICS NWF_DEFINE_OID(0x83, NWF_STATISTICS_OID, NWF_MANDATORY_OID) // DOT11_STATISTICS structure #define DOT11_STATISTICS_UNKNOWN (ULONGLONG)(-1LL) typedef struct DOT11_PHY_FRAME_STATISTICS { // TX counters (MSDU/MMPDU) ULONGLONG ullTransmittedFrameCount; ULONGLONG ullMulticastTransmittedFrameCount; ULONGLONG ullFailedCount; ULONGLONG ullRetryCount; ULONGLONG ullMultipleRetryCount; ULONGLONG ullMaxTXLifetimeExceededCount; // TX counters (MPDU) ULONGLONG ullTransmittedFragmentCount; ULONGLONG ullRTSSuccessCount; ULONGLONG ullRTSFailureCount; ULONGLONG ullACKFailureCount; // RX counters (MSDU/MMPDU) ULONGLONG ullReceivedFrameCount; ULONGLONG ullMulticastReceivedFrameCount; ULONGLONG ullPromiscuousReceivedFrameCount; ULONGLONG ullMaxRXLifetimeExceededCount; // RX counters (MPDU) ULONGLONG ullFrameDuplicateCount; ULONGLONG ullReceivedFragmentCount; ULONGLONG ullPromiscuousReceivedFragmentCount; ULONGLONG ullFCSErrorCount; } DOT11_PHY_FRAME_STATISTICS, * PDOT11_PHY_FRAME_STATISTICS; typedef struct DOT11_MAC_FRAME_STATISTICS { ULONGLONG ullTransmittedFrameCount; ULONGLONG ullReceivedFrameCount; ULONGLONG ullTransmittedFailureFrameCount; ULONGLONG ullReceivedFailureFrameCount; ULONGLONG ullWEPExcludedCount; ULONGLONG ullTKIPLocalMICFailures; ULONGLONG ullTKIPReplays; ULONGLONG ullTKIPICVErrorCount; ULONGLONG ullCCMPReplays; ULONGLONG ullCCMPDecryptErrors; ULONGLONG ullWEPUndecryptableCount; ULONGLONG ullWEPICVErrorCount; ULONGLONG ullDecryptSuccessCount; ULONGLONG ullDecryptFailureCount; } DOT11_MAC_FRAME_STATISTICS, * PDOT11_MAC_FRAME_STATISTICS; typedef struct DOT11_STATISTICS { #define DOT11_STATISTICS_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONGLONG ullFourWayHandshakeFailures; ULONGLONG ullTKIPCounterMeasuresInvoked; ULONGLONG ullReserved; DOT11_MAC_FRAME_STATISTICS MacUcastCounters; DOT11_MAC_FRAME_STATISTICS MacMcastCounters; DOT11_PHY_FRAME_STATISTICS PhyCounters[1]; } DOT11_STATISTICS, * PDOT11_STATISTICS; #define OID_DOT11_PRIVACY_EXEMPTION_LIST NWF_DEFINE_OID(0x84, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // A list of DOT11_PRIVACY_EXEMPTION typedef struct DOT11_PRIVACY_EXEMPTION { USHORT usEtherType; #define DOT11_EXEMPT_NO_EXEMPTION 0 // used only in DOT11_EXTSTA_SEND_CONTEXT #define DOT11_EXEMPT_ALWAYS 1 #define DOT11_EXEMPT_ON_KEY_MAPPING_KEY_UNAVAILABLE 2 USHORT usExemptionActionType; #define DOT11_EXEMPT_UNICAST 1 #define DOT11_EXEMPT_MULTICAST 2 #define DOT11_EXEMPT_BOTH 3 USHORT usExemptionPacketType; } DOT11_PRIVACY_EXEMPTION, *PDOT11_PRIVACY_EXEMPTION; typedef struct DOT11_PRIVACY_EXEMPTION_LIST { #define DOT11_PRIVACY_EXEMPTION_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; #ifdef __midl [unique, size_is(uTotalNumOfEntries)] DOT11_PRIVACY_EXEMPTION PrivacyExemptionEntries[*]; #else DOT11_PRIVACY_EXEMPTION PrivacyExemptionEntries[1]; #endif } DOT11_PRIVACY_EXEMPTION_LIST, * PDOT11_PRIVACY_EXEMPTION_LIST; #define OID_DOT11_ENABLED_AUTHENTICATION_ALGORITHM NWF_DEFINE_OID(0x85, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) typedef struct DOT11_AUTH_ALGORITHM_LIST { #define DOT11_AUTH_ALGORITHM_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_AUTH_ALGORITHM AlgorithmIds[1]; } DOT11_AUTH_ALGORITHM_LIST, * PDOT11_AUTH_ALGORITHM_LIST; #define OID_DOT11_SUPPORTED_UNICAST_ALGORITHM_PAIR NWF_DEFINE_OID(0x86, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) typedef struct DOT11_AUTH_CIPHER_PAIR_LIST { #define DOT11_AUTH_CIPHER_PAIR_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; _Field_size_(uNumOfEntries) DOT11_AUTH_CIPHER_PAIR AuthCipherPairs[1]; } DOT11_AUTH_CIPHER_PAIR_LIST, * PDOT11_AUTH_CIPHER_PAIR_LIST; #define OID_DOT11_ENABLED_UNICAST_CIPHER_ALGORITHM NWF_DEFINE_OID(0x87, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_CIPHER_ALGO_LIST typedef struct DOT11_CIPHER_ALGORITHM_LIST { #define DOT11_CIPHER_ALGORITHM_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_CIPHER_ALGORITHM AlgorithmIds[1]; } DOT11_CIPHER_ALGORITHM_LIST, * PDOT11_CIPHER_ALGORITHM_LIST; #define OID_DOT11_SUPPORTED_MULTICAST_ALGORITHM_PAIR NWF_DEFINE_OID(0x88, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) #define OID_DOT11_ENABLED_MULTICAST_CIPHER_ALGORITHM NWF_DEFINE_OID(0x89, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_CIPHER_ALGORITHM_LIST #define OID_DOT11_CIPHER_DEFAULT_KEY_ID NWF_DEFINE_OID(0x8A, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // ULONG #define OID_DOT11_CIPHER_DEFAULT_KEY NWF_DEFINE_OID(0x8B, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) typedef struct DOT11_CIPHER_DEFAULT_KEY_VALUE { #define DOT11_CIPHER_DEFAULT_KEY_VALUE_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uKeyIndex; DOT11_CIPHER_ALGORITHM AlgorithmId; DOT11_MAC_ADDRESS MacAddr; BOOLEAN bDelete; BOOLEAN bStatic; USHORT usKeyLength; #ifdef __midl [unique, size_is(usKeyLength)] UCHAR ucKey[*]; #else UCHAR ucKey[1]; // Must be the last field #endif } DOT11_CIPHER_DEFAULT_KEY_VALUE, * PDOT11_CIPHER_DEFAULT_KEY_VALUE; typedef struct DOT11_KEY_ALGO_TKIP_MIC { UCHAR ucIV48Counter[6]; ULONG ulTKIPKeyLength; ULONG ulMICKeyLength; UCHAR ucTKIPMICKeys[1]; // Must be the last field. } DOT11_KEY_ALGO_TKIP_MIC, * PDOT11_KEY_ALGO_TKIP_MIC; typedef struct DOT11_KEY_ALGO_CCMP { UCHAR ucIV48Counter[6]; ULONG ulCCMPKeyLength; UCHAR ucCCMPKey[1]; } DOT11_KEY_ALGO_CCMP, * PDOT11_KEY_ALGO_CCMP; typedef struct DOT11_KEY_ALGO_GCMP { UCHAR ucIV48Counter[6]; ULONG ulGCMPKeyLength; UCHAR ucGCMPKey[1]; } DOT11_KEY_ALGO_GCMP, * PDOT11_KEY_ALGO_GCMP; typedef struct DOT11_KEY_ALGO_GCMP_256 { UCHAR ucIV48Counter[6]; ULONG ulGCMP256KeyLength; UCHAR ucGCMP256Key[1]; } DOT11_KEY_ALGO_GCMP_256, * PDOT11_KEY_ALGO_GCMP_256; typedef struct DOT11_KEY_ALGO_BIP { UCHAR ucIPN[6]; ULONG ulBIPKeyLength; UCHAR ucBIPKey[1]; } DOT11_KEY_ALGO_BIP, * PDOT11_KEY_ALGO_BIP; typedef struct DOT11_KEY_ALGO_BIP_GMAC_256 { UCHAR ucIPN[6]; ULONG ulBIPGmac256KeyLength; UCHAR ucBIPGmac256Key[1]; } DOT11_KEY_ALGO_BIP_GMAC_256, * PDOT11_KEY_ALGO_BIP_GMAC_256; #define OID_DOT11_CIPHER_KEY_MAPPING_KEY NWF_DEFINE_OID(0x8C, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_BYTE_ARRAY typedef enum DOT11_DIRECTION { DOT11_DIR_INBOUND = 1, DOT11_DIR_OUTBOUND, DOT11_DIR_BOTH } DOT11_DIRECTION, * PDOT11_DIRECTION; #define DOT11_CIPHER_KEY_MAPPING_KEY_VALUE_BYTE_ARRAY_REVISION_1 1 typedef struct DOT11_CIPHER_KEY_MAPPING_KEY_VALUE { DOT11_MAC_ADDRESS PeerMacAddr; DOT11_CIPHER_ALGORITHM AlgorithmId; DOT11_DIRECTION Direction; BOOLEAN bDelete; BOOLEAN bStatic; USHORT usKeyLength; #ifdef __midl [unique, size_is(usKeyLength)] UCHAR ucKey[*]; #else UCHAR ucKey[1]; // Must be the last field #endif } DOT11_CIPHER_KEY_MAPPING_KEY_VALUE, * PDOT11_CIPHER_KEY_MAPPING_KEY_VALUE; #define OID_DOT11_ENUM_ASSOCIATION_INFO NWF_DEFINE_OID(0x8D, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // a list of DOT11_ASSOCIATION_INFO typedef enum _DOT11_ASSOCIATION_STATE { dot11_assoc_state_zero = 0, dot11_assoc_state_unauth_unassoc = 1, dot11_assoc_state_auth_unassoc = 2, dot11_assoc_state_auth_assoc = 3 } DOT11_ASSOCIATION_STATE, * PDOT11_ASSOCIATION_STATE; typedef struct _DOT11_ASSOCIATION_INFO_EX { DOT11_MAC_ADDRESS PeerMacAddress; DOT11_MAC_ADDRESS BSSID; USHORT usCapabilityInformation; USHORT usListenInterval; UCHAR ucPeerSupportedRates[MAX_NUM_SUPPORTED_RATES_V2]; USHORT usAssociationID; DOT11_ASSOCIATION_STATE dot11AssociationState; DOT11_POWER_MODE dot11PowerMode; LARGE_INTEGER liAssociationUpTime; ULONGLONG ullNumOfTxPacketSuccesses; ULONGLONG ullNumOfTxPacketFailures; ULONGLONG ullNumOfRxPacketSuccesses; ULONGLONG ullNumOfRxPacketFailures; } DOT11_ASSOCIATION_INFO_EX, * PDOT11_ASSOCIATION_INFO_EX; typedef struct DOT11_ASSOCIATION_INFO_LIST { #define DOT11_ASSOCIATION_INFO_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_ASSOCIATION_INFO_EX dot11AssocInfo[1]; } DOT11_ASSOCIATION_INFO_LIST, * PDOT11_ASSOCIATION_INFO_LIST; #define OID_DOT11_DISCONNECT_REQUEST NWF_DEFINE_OID(0x8E, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) #define OID_DOT11_UNICAST_USE_GROUP_ENABLED NWF_DEFINE_OID(0x8F, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // BOOLEAN #define OID_DOT11_HARDWARE_PHY_STATE NWF_DEFINE_OID(0x90, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // BOOLEAN #define OID_DOT11_DESIRED_PHY_LIST NWF_DEFINE_OID(0x91, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_PHY_ID_LIST typedef struct DOT11_PHY_ID_LIST { #define DOT11_PHY_ID_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; ULONG dot11PhyId[1]; } DOT11_PHY_ID_LIST, * PDOT11_PHY_ID_LIST; #define DOT11_PHY_ID_ANY (0xffffffffU) #define OID_DOT11_CURRENT_PHY_ID NWF_DEFINE_OID(0x92, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // ULONG #define OID_DOT11_MEDIA_STREAMING_ENABLED NWF_DEFINE_OID(0x93, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // BOOLEAN #define OID_DOT11_UNREACHABLE_DETECTION_THRESHOLD NWF_DEFINE_OID(0x94, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // ULONG #define OID_DOT11_ACTIVE_PHY_LIST NWF_DEFINE_OID(0x95, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_PHY_ID_LIST #define OID_DOT11_EXTSTA_CAPABILITY NWF_DEFINE_OID(0x96, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_EXTSTA_CAPABILITY typedef struct DOT11_EXTSTA_CAPABILITY { #define DOT11_EXTSTA_CAPABILITY_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uScanSSIDListSize; ULONG uDesiredBSSIDListSize; ULONG uDesiredSSIDListSize; ULONG uExcludedMacAddressListSize; ULONG uPrivacyExemptionListSize; ULONG uKeyMappingTableSize; ULONG uDefaultKeyTableSize; ULONG uWEPKeyValueMaxLength; ULONG uPMKIDCacheSize; ULONG uMaxNumPerSTADefaultKeyTables; } DOT11_EXTSTA_CAPABILITY, * PDOT11_EXTSTA_CAPABILITY; #define OID_DOT11_DATA_RATE_MAPPING_TABLE NWF_DEFINE_OID(0x97, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_DATA_RATE_MAPPING_ENTRY typedef struct DOT11_DATA_RATE_MAPPING_ENTRY { UCHAR ucDataRateIndex; UCHAR ucDataRateFlag; USHORT usDataRateValue; } DOT11_DATA_RATE_MAPPING_ENTRY, * PDOT11_DATA_RATE_MAPPING_ENTRY; typedef struct _DOT11_DATA_RATE_MAPPING_TABLE { #define DOT11_DATA_RATE_MAPPING_TABLE_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uDataRateMappingLength; _Field_size_part_(DOT11_RATE_SET_MAX_LENGTH, uDataRateMappingLength) DOT11_DATA_RATE_MAPPING_ENTRY DataRateMappingEntries[DOT11_RATE_SET_MAX_LENGTH]; } DOT11_DATA_RATE_MAPPING_TABLE, * PDOT11_DATA_RATE_MAPPING_TABLE; #define DOT11_DATA_RATE_NON_STANDARD 0x01U #define DOT11_DATA_RATE_INDEX_MASK 0x7fU #define OID_DOT11_SUPPORTED_COUNTRY_OR_REGION_STRING NWF_DEFINE_OID(0x98, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) typedef struct DOT11_COUNTRY_OR_REGION_STRING_LIST { #define DOT11_COUNTRY_OR_REGION_STRING_LIST_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_COUNTRY_OR_REGION_STRING CountryOrRegionStrings[1]; } DOT11_COUNTRY_OR_REGION_STRING_LIST, * PDOT11_COUNTRY_OR_REGION_STRING_LIST; #define OID_DOT11_DESIRED_COUNTRY_OR_REGION_STRING NWF_DEFINE_OID(0x99, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_COUNTRY_OR_REGION_STRING #define OID_DOT11_PORT_STATE_NOTIFICATION NWF_DEFINE_OID(0x9A, NWF_OPERATIONAL_OID, NWF_OPTIONAL_OID) // DOT11_PORT_STATE_NOTIFICATION typedef struct DOT11_PORT_STATE_NOTIFICATION { #define DOT11_PORT_STATE_NOTIFICATION_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerMac; BOOLEAN bOpen; } DOT11_PORT_STATE_NOTIFICATION, * PDOT11_PORT_STATE_NOTIFICATION; #define OID_DOT11_IBSS_PARAMS NWF_DEFINE_OID(0x9B, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_IBSS_PARAMS typedef struct DOT11_IBSS_PARAMS { #define DOT11_IBSS_PARAMS_REVISION_1 1 NDIS_OBJECT_HEADER Header; BOOLEAN bJoinOnly; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_IBSS_PARAMS, * PDOT11_IBSS_PARAMS; #define OID_DOT11_QOS_PARAMS NWF_DEFINE_OID(0x9C, NWF_OPERATIONAL_OID, NWF_OPTIONAL_OID) typedef struct DOT11_QOS_PARAMS { #define DOT11_QOS_PARAMS_REVISION_1 1 NDIS_OBJECT_HEADER Header; #define DOT11_QOS_PROTOCOL_FLAG_WMM (0x01U) // WMM QoS protocol #define DOT11_QOS_PROTOCOL_FLAG_11E (0x02U) // 802.11e QoS protocol // Flags of the enabled QoS protocols. // It is either 0 or combination of DOT11_QOS_PROTOCOL_FLAG_WMM // and/or DOT11_QOS_PROTOCOL_FLAG_11E UCHAR ucEnabledQoSProtocolFlags; } DOT11_QOS_PARAMS, * PDOT11_QOS_PARAMS; #define OID_DOT11_SAFE_MODE_ENABLED NWF_DEFINE_OID(0x9D, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // BOOLEAN #define OID_DOT11_HIDDEN_NETWORK_ENABLED NWF_DEFINE_OID(0x9E, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // BOOLEAN #define OID_DOT11_ASSOCIATION_PARAMS NWF_DEFINE_OID(0x9F, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // DOT11_ASSOCIATION_PARAMS typedef struct DOT11_ASSOCIATION_PARAMS { #define DOT11_ASSOCIATION_PARAMS_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS BSSID; ULONG uAssocRequestIEsOffset; ULONG uAssocRequestIEsLength; } DOT11_ASSOCIATION_PARAMS, *PDOT11_ASSOCIATION_PARAMS; #define OID_DOT11_SAFE_MODE_HT_ENABLED NWF_DEFINE_OID(0xA0, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // BOOLEAN // // 802.11 Extensions to Standard NDIS Functions // // // Miniport Send Path Extension // // Only 4 bits are present in the 802.11 header to track fragments. #define DOT11_MAX_NUM_OF_FRAGMENTS 16 // Priority Classes. #define DOT11_PRIORITY_CONTENTION 0 #define DOT11_PRIORITY_CONTENTION_FREE 1 // Service Classes. #define DOT11_SERVICE_CLASS_REORDERABLE_MULTICAST 0 #define DOT11_SERVICE_CLASS_STRICTLY_ORDERED 1 // Flags. #define DOT11_FLAGS_80211B_SHORT_PREAMBLE 0x00000001 #define DOT11_FLAGS_80211B_PBCC 0x00000002 #define DOT11_FLAGS_80211B_CHANNEL_AGILITY 0x00000004 #define DOT11_FLAGS_PS_ON 0x00000008 #define DOT11_FLAGS_80211G_DSSS_OFDM 0x00000010 #define DOT11_FLAGS_80211G_USE_PROTECTION 0x00000020 #define DOT11_FLAGS_80211G_NON_ERP_PRESENT 0x00000040 #define DOT11_FLAGS_80211G_BARKER_PREAMBLE_MODE 0x00000080 #define DOT11_WME_PACKET 0x00000100 typedef struct _DOT11_FRAGMENT_DESCRIPTOR { ULONG uOffset; ULONG uLength; } DOT11_FRAGMENT_DESCRIPTOR, * PDOT11_FRAGMENT_DESCRIPTOR; typedef struct _DOT11_PER_MSDU_COUNTERS { ULONG uTransmittedFragmentCount; ULONG uRetryCount; ULONG uRTSSuccessCount; ULONG uRTSFailureCount; ULONG uACKFailureCount; } DOT11_PER_MSDU_COUNTERS, * PDOT11_PER_MSDU_COUNTERS; typedef struct DOT11_PHY_ATTRIBUTES DOT11_PHY_ATTRIBUTES, * PDOT11_PHY_ATTRIBUTES; typedef struct DOT11_HRDSSS_PHY_ATTRIBUTES { BOOLEAN bShortPreambleOptionImplemented; BOOLEAN bPBCCOptionImplemented; BOOLEAN bChannelAgilityPresent; ULONG uHRCCAModeSupported; } DOT11_HRDSSS_PHY_ATTRIBUTES, * PDOT11_HRDSSS_PHY_ATTRIBUTES; typedef struct DOT11_OFDM_PHY_ATTRIBUTES { ULONG uFrequencyBandsSupported; } DOT11_OFDM_PHY_ATTRIBUTES, * PDOT11_OFDM_PHY_ATTRIBUTES; typedef struct DOT11_ERP_PHY_ATTRIBUTES { #ifdef __cplusplus DOT11_HRDSSS_PHY_ATTRIBUTES HRDSSSAttributes; #else DOT11_HRDSSS_PHY_ATTRIBUTES; #endif BOOLEAN bERPPBCCOptionImplemented; BOOLEAN bDSSSOFDMOptionImplemented; BOOLEAN bShortSlotTimeOptionImplemented; } DOT11_ERP_PHY_ATTRIBUTES, * PDOT11_ERP_PHY_ATTRIBUTES; struct DOT11_PHY_ATTRIBUTES { #define DOT11_PHY_ATTRIBUTES_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_PHY_TYPE PhyType; BOOLEAN bHardwarePhyState; BOOLEAN bSoftwarePhyState; BOOLEAN bCFPollable; ULONG uMPDUMaxLength; DOT11_TEMP_TYPE TempType; DOT11_DIVERSITY_SUPPORT DiversitySupport; #ifdef __midl [switch_is(PhyType)] #endif union { #ifdef __midl [case(dot11_phy_type_hrdsss)] #endif DOT11_HRDSSS_PHY_ATTRIBUTES HRDSSSAttributes; #ifdef __midl [case(dot11_phy_type_ofdm)] #endif DOT11_OFDM_PHY_ATTRIBUTES OFDMAttributes; #ifdef __midl [case(dot11_phy_type_erp)] #endif DOT11_ERP_PHY_ATTRIBUTES ERPAttributes; #ifdef __midl [case(dot11_phy_type_ht)] ; #endif #ifdef __midl [default] ; #endif #ifdef __cplusplus } PhySpecificAttributes; #else }; #endif ULONG uNumberSupportedPowerLevels; ULONG TxPowerLevels[8]; ULONG uNumDataRateMappingEntries; DOT11_DATA_RATE_MAPPING_ENTRY DataRateMappingEntries[DOT11_RATE_SET_MAX_LENGTH]; DOT11_SUPPORTED_DATA_RATES_VALUE_V2 SupportedDataRatesValue; }; #define DOT11_EXTSTA_ATTRIBUTES_SAFEMODE_OID_SUPPORTED 0x1 #define DOT11_EXTSTA_ATTRIBUTES_SAFEMODE_CERTIFIED 0x2 #define DOT11_EXTSTA_ATTRIBUTES_SAFEMODE_RESERVED 0xC typedef struct DOT11_EXTSTA_ATTRIBUTES DOT11_EXTSTA_ATTRIBUTES, * PDOT11_EXTSTA_ATTRIBUTES; struct DOT11_EXTSTA_ATTRIBUTES { #define DOT11_EXTSTA_ATTRIBUTES_REVISION_1 1 #define DOT11_EXTSTA_ATTRIBUTES_REVISION_2 2 #define DOT11_EXTSTA_ATTRIBUTES_REVISION_3 3 #define DOT11_EXTSTA_ATTRIBUTES_REVISION_4 4 NDIS_OBJECT_HEADER Header; ULONG uScanSSIDListSize; ULONG uDesiredBSSIDListSize; ULONG uDesiredSSIDListSize; ULONG uExcludedMacAddressListSize; ULONG uPrivacyExemptionListSize; ULONG uKeyMappingTableSize; ULONG uDefaultKeyTableSize; ULONG uWEPKeyValueMaxLength; ULONG uPMKIDCacheSize; ULONG uMaxNumPerSTADefaultKeyTables; BOOLEAN bStrictlyOrderedServiceClassImplemented; // Flags of the supported QoS protocols. // It is either 0 or combination of DOT11_QOS_PROTOCOL_FLAG_WMM // and/or DOT11_QOS_PROTOCOL_FLAG_11E UCHAR ucSupportedQoSProtocolFlags; BOOLEAN bSafeModeImplemented; // Supported Country Strings ULONG uNumSupportedCountryOrRegionStrings; #ifdef __midl [size_is(uNumSupportedCountryOrRegionStrings)] #endif PDOT11_COUNTRY_OR_REGION_STRING pSupportedCountryOrRegionStrings; // Infra Capabilities ULONG uInfraNumSupportedUcastAlgoPairs; #ifdef __midl [size_is(uInfraNumSupportedUcastAlgoPairs)] #endif PDOT11_AUTH_CIPHER_PAIR pInfraSupportedUcastAlgoPairs; ULONG uInfraNumSupportedMcastAlgoPairs; #ifdef __midl [size_is(uInfraNumSupportedMcastAlgoPairs)] #endif PDOT11_AUTH_CIPHER_PAIR pInfraSupportedMcastAlgoPairs; // Ad hoc Capabilities ULONG uAdhocNumSupportedUcastAlgoPairs; #ifdef __midl [size_is(uAdhocNumSupportedUcastAlgoPairs)] #endif PDOT11_AUTH_CIPHER_PAIR pAdhocSupportedUcastAlgoPairs; ULONG uAdhocNumSupportedMcastAlgoPairs; #ifdef __midl [size_is(uAdhocNumSupportedMcastAlgoPairs)] #endif PDOT11_AUTH_CIPHER_PAIR pAdhocSupportedMcastAlgoPairs; BOOLEAN bAutoPowerSaveMode; // revision 3 and above ULONG uMaxNetworkOffloadListSize; // revision 3 and above //802.11w Capabilities BOOLEAN bMFPCapable; ULONG uInfraNumSupportedMcastMgmtAlgoPairs; #ifdef __midl [size_is(uInfraNumSupportedMcastMgmtAlgoPairs)] #endif PDOT11_AUTH_CIPHER_PAIR pInfraSupportedMcastMgmtAlgoPairs; //802.11k Capabilities BOOLEAN bNeighborReportSupported; BOOLEAN bAPChannelReportSupported; //802.11u Capabilities BOOLEAN bActionFramesSupported; BOOLEAN bANQPQueryOffloadSupported; BOOLEAN bHESSIDConnectionSupported; }; #if (defined(_NDIS_) || defined(NDIS_WRAPPER)) // To avoid build break since NDIS_PACKET isn't defined for user mode app. // Send path extension for NativeWiFi NDIS 6.0 miniport driver typedef struct _DOT11_SEND_CONTEXT { #define DOT11_SEND_CONTEXT_REVISION_1 1 NDIS_OBJECT_HEADER Header; PVOID pvReserved; ULONG uFlags; ULONG uPSLifetime; ULONG uDelayedSleepValue; UCHAR ucTXDataRates[8]; BOOLEAN bIndicateAssociatedACKs; BOOLEAN bIndicateTXStatus; UCHAR ucPriority; BOOLEAN bDontFragment; ULONG dwExtendedStatus; HANDLE hIntegrityOffload; HANDLE hWEPOffload; UCHAR ucWPAMSDUPriority; UCHAR ucNumOfRWsOnPeer; USHORT usAID; PDOT11_PER_MSDU_COUNTERS pDot11PerMSDUCounters; } DOT11_SEND_CONTEXT, * PDOT11_SEND_CONTEXT; #define DOT11_SEND_CONTEXT_SIZE \ ((sizeof(DOT11_SEND_CONTEXT) + \ MEMORY_ALLOCATION_ALIGNMENT - 1) & \ ~(MEMORY_ALLOCATION_ALIGNMENT-1)) // Send path extension for NativeWiFi NDIS 5.1 miniport driver typedef struct _DOT11_SEND_EXTENSION_INFO { ULONG uVersion; NDIS_OBJECT_HEADER Header; PVOID pvReserved; ULONG uFlags; ULONG uPSLifetime; ULONG uDelayedSleepValue; UCHAR ucTXDataRates[8]; BOOLEAN bIndicateAssociatedACKs; BOOLEAN bIndicateTXStatus; UCHAR ucPriority; BOOLEAN bDontFragment; ULONG dwExtendedStatus; HANDLE hIntegrityOffload; HANDLE hWEPOffload; UCHAR ucWPAMSDUPriority; UCHAR ucNumOfRWsOnPeer; USHORT usAID; PDOT11_PER_MSDU_COUNTERS pDot11PerMSDUCounters; USHORT usNumberOfFragments; DOT11_FRAGMENT_DESCRIPTOR Dot11FragmentDescriptors[1]; } DOT11_SEND_EXTENSION_INFO, * PDOT11_SEND_EXTENSION_INFO; typedef enum _DOT11_ACK_POLICY { dot11_ack_policy_none = 0, dot11_ack_policy_acknowledge = 1, dot11_ack_policy_do_not_acknowledge = 2, } DOT11_ACK_POLICY, * PDOT11_ACK_POLICY; // Send path extension for NativeWiFi NDIS 5.1 miniport driver typedef struct _DOT11_SEND_EXTENSION_INFO_V2 { UCHAR ucQoSPriority:4; UCHAR ucAckPolicy:4; USHORT usExtendedTXDataRatesOffset; UCHAR ucNumOfExtendedTXDataRates; UCHAR ucBuffer[1]; } DOT11_SEND_EXTENSION_INFO_V2, * PDOT11_SEND_EXTENSION_INFO_V2; // // Miniport Receive Path Extension // // Recv path extension for NativeWiFi NDIS 6.0 miniport driver typedef struct _DOT11_RECV_CONTEXT { #define DOT11_RECV_CONTEXT_REVISION_1 1 NDIS_OBJECT_HEADER Header; PVOID pvReserved; DOT11_PHY_TYPE dot11PhyType; ULONG uChCenterFrequency; LONG lRSSI; ULONG uRSSI; UCHAR ucPriority; UCHAR ucDataRate; UCHAR ucPeerMacAddress[6]; ULONG dwExtendedStatus; HANDLE hWEPOffloadContext; HANDLE hAuthOffloadContext; USHORT usWEPAppliedMask; USHORT usWPAMSDUPriority; DOT11_IV48_COUNTER dot11LowestIV48Counter; USHORT usDot11LeftRWBitMap; DOT11_IV48_COUNTER dot11HighestIV48Counter; USHORT usDot11RightRWBitMap; USHORT usNumberOfMPDUsReceived; } DOT11_RECV_CONTEXT, * PDOT11_RECV_CONTEXT; #define DOT11_RECV_CONTEXT_SIZE \ ((sizeof(DOT11_RECV_CONTEXT) + \ MEMORY_ALLOCATION_ALIGNMENT - 1) & \ ~(MEMORY_ALLOCATION_ALIGNMENT-1)) #else // Recv path extension for NativeWiFi NDIS 5.1 miniport driver typedef struct _DOT11_RECV_EXTENSION_INFO { ULONG uVersion; PVOID pvReserved; DOT11_PHY_TYPE dot11PhyType; ULONG uChCenterFrequency; LONG lRSSI; LONG lRSSIMin; LONG lRSSIMax; ULONG uRSSI; UCHAR ucPriority; UCHAR ucDataRate; UCHAR ucPeerMacAddress[6]; ULONG dwExtendedStatus; HANDLE hWEPOffloadContext; HANDLE hAuthOffloadContext; USHORT usWEPAppliedMask; USHORT usWPAMSDUPriority; DOT11_IV48_COUNTER dot11LowestIV48Counter; USHORT usDot11LeftRWBitMap; DOT11_IV48_COUNTER dot11HighestIV48Counter; USHORT usDot11RightRWBitMap; USHORT usNumberOfMPDUsReceived; USHORT usNumberOfFragments; // PNDIS_PACKET pNdisPackets[1]; // Must be the last field. PVOID pNdisPackets[1]; // Must be the last field. } DOT11_RECV_EXTENSION_INFO, * PDOT11_RECV_EXTENSION_INFO; typedef struct _DOT11_RECV_EXTENSION_INFO_V2 { ULONG uVersion; PVOID pvReserved; DOT11_PHY_TYPE dot11PhyType; ULONG uChCenterFrequency; LONG lRSSI; ULONG uRSSI; UCHAR ucPriority; UCHAR ucDataRate; UCHAR ucPeerMacAddress[6]; ULONG dwExtendedStatus; HANDLE hWEPOffloadContext; HANDLE hAuthOffloadContext; USHORT usWEPAppliedMask; USHORT usWPAMSDUPriority; DOT11_IV48_COUNTER dot11LowestIV48Counter; USHORT usDot11LeftRWBitMap; DOT11_IV48_COUNTER dot11HighestIV48Counter; USHORT usDot11RightRWBitMap; USHORT usNumberOfMPDUsReceived; USHORT usNumberOfFragments; // PNDIS_PACKET pNdisPackets[1]; // Must be the last field. PVOID pNdisPackets[1]; // Must be the last field. } DOT11_RECV_EXTENSION_INFO_V2, * PDOT11_RECV_EXTENSION_INFO_V2; #endif // NDIS_MINIPORT_DRIVER // // 802.11 Status Codes // #define DOT11_STATUS_SUCCESS 0x00000001 #define DOT11_STATUS_RETRY_LIMIT_EXCEEDED 0x00000002 #define DOT11_STATUS_UNSUPPORTED_PRIORITY 0x00000004 #define DOT11_STATUS_UNSUPPORTED_SERVICE_CLASS 0x00000008 #define DOT11_STATUS_UNAVAILABLE_PRIORITY 0x00000010 #define DOT11_STATUS_UNAVAILABLE_SERVICE_CLASS 0x00000020 #define DOT11_STATUS_XMIT_MSDU_TIMER_EXPIRED 0x00000040 #define DOT11_STATUS_UNAVAILABLE_BSS 0x00000080 #define DOT11_STATUS_EXCESSIVE_DATA_LENGTH 0x00000100 #define DOT11_STATUS_ENCRYPTION_FAILED 0x00000200 #define DOT11_STATUS_WEP_KEY_UNAVAILABLE 0x00000400 #define DOT11_STATUS_ICV_VERIFIED 0x00000800 #define DOT11_STATUS_PACKET_REASSEMBLED 0x00001000 #define DOT11_STATUS_PACKET_NOT_REASSEMBLED 0x00002000 #define DOT11_STATUS_GENERATE_AUTH_FAILED 0x00004000 #define DOT11_STATUS_AUTH_NOT_VERIFIED 0x00008000 #define DOT11_STATUS_AUTH_VERIFIED 0x00010000 #define DOT11_STATUS_AUTH_FAILED 0x00020000 #define DOT11_STATUS_PS_LIFETIME_EXPIRED 0x00040000 // // Flags for NDIS_STATUS_MEDIA_SPECIFIC_INDICATION // typedef struct _DOT11_STATUS_INDICATION { ULONG uStatusType; NDIS_STATUS ndisStatus; } DOT11_STATUS_INDICATION, * PDOT11_STATUS_INDICATION; #define DOT11_STATUS_RESET_CONFIRM 4 #define DOT11_STATUS_SCAN_CONFIRM 1 #define DOT11_STATUS_JOIN_CONFIRM 2 #define DOT11_STATUS_START_CONFIRM 3 #define DOT11_STATUS_AP_JOIN_CONFIRM 5 #define DOT11_STATUS_MPDU_MAX_LENGTH_CHANGED 6 typedef struct DOT11_MPDU_MAX_LENGTH_INDICATION { #define DOT11_MPDU_MAX_LENGTH_INDICATION_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uPhyId; ULONG uMPDUMaxLength; } DOT11_MPDU_MAX_LENGTH_INDICATION, * PDOT11_MPDU_MAX_LENGTH_INDICATION; typedef struct DOT11_ASSOCIATION_START_PARAMETERS { #define DOT11_ASSOCIATION_START_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS MacAddr; DOT11_SSID SSID; ULONG uIHVDataOffset, uIHVDataSize; } DOT11_ASSOCIATION_START_PARAMETERS, * PDOT11_ASSOCIATION_START_PARAMETERS; #define DOT11_ENCAP_RFC_1042 1 #define DOT11_ENCAP_802_1H 2 typedef struct DOT11_ENCAP_ENTRY { USHORT usEtherType; USHORT usEncapType; // either DOT11_ENCAP_RFC_1042 or DOT11_ENCAP_802_1H } DOT11_ENCAP_ENTRY, * PDOT11_ENCAP_ENTRY; typedef enum DOT11_DS_INFO { DOT11_DS_CHANGED, DOT11_DS_UNCHANGED, DOT11_DS_UNKNOWN } DOT11_DS_INFO, * PDOT11_DS_INFO; ///////////////////////////////////////////// // Definitions of association status codes // typedef ULONG DOT11_ASSOC_STATUS; // The association is successful #define DOT11_ASSOC_STATUS_SUCCESS 0 // Generic association failure #define DOT11_ASSOC_STATUS_FAILURE 0x00000001U // The association fails because the peer is not responding. // Scenarios: // 1. the peer doesn't respond to 802.11 authentication frames or // 802.11 association request frames or probe request frames. // 2. the NIC hasn't received beacon from the peer for substantial // amount of time. The timeout value here is NIC specific. // 3. any other cases in which NIC determines that the peer is not // responsive. #define DOT11_ASSOC_STATUS_UNREACHABLE 0x00000002U // The association fails because the radio is turned off #define DOT11_ASSOC_STATUS_RADIO_OFF 0x00000003U // The association fails because the PHY is disabled. Here the PHY // entity becomes unavailable to the OS. But the radio itself is not // necessarily turned off. #define DOT11_ASSOC_STATUS_PHY_DISABLED 0x00000004U // The association is cancelled (for example, the NIC is reset) #define DOT11_ASSOC_STATUS_CANCELLED 0x00000005U // The connection fails because all the candidate AP has been tried // and none of the attempts succeeds. #define DOT11_ASSOC_STATUS_CANDIDATE_LIST_EXHAUSTED 0x00000006U // The current association is disassociated as requested by the OS // (through either a OID_DOT11_RESET_REQUEST or OID_DOT11_DISCONNECT request) #define DOT11_ASSOC_STATUS_DISASSOCIATED_BY_OS 0x00000007U // The current association is disassociated because the NIC roams // to new AP. // This error code is used for indicating the implicit dissassociation // done by the nwifi.sys. Miniport driver usually doesn't generate // this error code (since the disassociation is automatically done // by the nwifi.sys). #define DOT11_ASSOC_STATUS_DISASSOCIATED_BY_ROAMING 0x00000008U // The current association is disassocated because the NIC is reset #define DOT11_ASSOC_STATUS_DISASSOCIATED_BY_RESET 0x00000009U // The current association is disassocated because the NIC is reset #define DOT11_ASSOC_STATUS_SYSTEM_ERROR 0x0000000aU // Roaming reason: find a better AP #define DOT11_ASSOC_STATUS_ROAMING_BETTER_AP_FOUND 0x0000000bU // Roaming reason: the association to the current BSS is lost #define DOT11_ASSOC_STATUS_ROAMING_ASSOCIATION_LOST 0x0000000cU // Roaming reason: adhoc roaming (network Coalescing) #define DOT11_ASSOC_STATUS_ROAMING_ADHOC 0x0000000dU // The new association fails or the current association is disassocated // because the NIC receives an 802.11 de-authentication frame from the // peer. The lowest 16-bits are the reason code (2-byte) copied from // the 802.11 DeAuthentication frame. #define DOT11_ASSOC_STATUS_PEER_DEAUTHENTICATED 0x00010000U #define DOT11_ASSOC_STATUS_PEER_DEAUTHENTICATED_START DOT11_ASSOC_STATUS_PEER_DEAUTHENTICATED #define DOT11_ASSOC_STATUS_PEER_DEAUTHENTICATED_END 0x0001ffffU // The new association fails or the current association is disassocated // because the NIC receives an 802.11 disassociation frame from the // peer. The lowest 16-bits are the reason code (2-byte) copied from // the 802.11 DisAssociation frame. #define DOT11_ASSOC_STATUS_PEER_DISASSOCIATED 0x00020000U #define DOT11_ASSOC_STATUS_PEER_DISASSOCIATED_START DOT11_ASSOC_STATUS_PEER_DISASSOCIATED #define DOT11_ASSOC_STATUS_PEER_DISASSOCIATED_END 0x0002ffffU #define DOT11_ASSOC_STATUS_ASSOCIATION_RESPONSE 0x00030000U #define DOT11_ASSOC_STATUS_ASSOCIATION_RESPONSE_START DOT11_ASSOC_STATUS_ASSOCIATION_RESPONSE #define DOT11_ASSOC_STATUS_ASSOCIATION_RESPONSE_END 0x0003ffffU // The mask for extracting 802.11 deauthentication and disassociation // reason code. #define DOT11_ASSOC_STATUS_REASON_CODE_MASK 0xffffU // Define the range of IHV specific association status codes #define DOT11_ASSOC_STATUS_IHV_START 0x80000000U #define DOT11_ASSOC_STATUS_IHV_END 0xffffffffU typedef struct DOT11_ASSOCIATION_COMPLETION_PARAMETERS { #define DOT11_ASSOCIATION_COMPLETION_PARAMETERS_REVISION_1 1 #define DOT11_ASSOCIATION_COMPLETION_PARAMETERS_REVISION_2 2 NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS MacAddr; DOT11_ASSOC_STATUS uStatus; BOOLEAN bReAssocReq; BOOLEAN bReAssocResp; ULONG uAssocReqOffset, uAssocReqSize; ULONG uAssocRespOffset, uAssocRespSize; ULONG uBeaconOffset, uBeaconSize; ULONG uIHVDataOffset, uIHVDataSize; // The following fields are applicable for successful association. // For association failure, they must be zero-ed out. DOT11_AUTH_ALGORITHM AuthAlgo; DOT11_CIPHER_ALGORITHM UnicastCipher; DOT11_CIPHER_ALGORITHM MulticastCipher; ULONG uActivePhyListOffset, uActivePhyListSize; BOOLEAN bFourAddressSupported; BOOLEAN bPortAuthorized; // The QoS protocol which is used in this association. // It is zero or combination of DOT11_QOS_PROTOCOL_FLAG_WMM and/or DOT11_QOS_PROTOCOL_FLAG_11E UCHAR ucActiveQoSProtocol; DOT11_DS_INFO DSInfo; ULONG uEncapTableOffset, uEncapTableSize; #if (NTDDI_VERSION >= NTDDI_WIN8) //802.11w parameters DOT11_CIPHER_ALGORITHM MulticastMgmtCipher; ULONG uAssocComebackTime; #endif } DOT11_ASSOCIATION_COMPLETION_PARAMETERS, * PDOT11_ASSOCIATION_COMPLETION_PARAMETERS; typedef struct DOT11_CONNECTION_START_PARAMETERS { #define DOT11_CONNECTION_START_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_BSS_TYPE BSSType; DOT11_MAC_ADDRESS AdhocBSSID; // applicable to adhoc mode only DOT11_SSID AdhocSSID; // applicable to adhoc mode only } DOT11_CONNECTION_START_PARAMETERS, * PDOT11_CONNECTION_START_PARAMETERS; // For uStatus in DOT11_CONNECTION_COMPLETION_PARAMETERS and DOT11_ROAMING_COMPLETION_PARAMETERS #define DOT11_CONNECTION_STATUS_SUCCESS DOT11_ASSOC_STATUS_SUCCESS #define DOT11_CONNECTION_STATUS_FAILURE DOT11_ASSOC_STATUS_FAILURE #define DOT11_CONNECTION_STATUS_CANDIDATE_LIST_EXHAUSTED DOT11_ASSOC_STATUS_CANDIDATE_LIST_EXHAUSTED #define DOT11_CONNECTION_STATUS_PHY_POWER_DOWN DOT11_ASSOC_STATUS_RADIO_OFF #define DOT11_CONNECTION_STATUS_CANCELLED DOT11_ASSOC_STATUS_CANCELLED #define DOT11_CONNECTION_STATUS_IHV_START DOT11_ASSOC_STATUS_IHV_START #define DOT11_CONNECTION_STATUS_IHV_END DOT11_ASSOC_STATUS_IHV_END typedef struct DOT11_CONNECTION_COMPLETION_PARAMETERS { #define DOT11_CONNECTION_COMPLETION_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_ASSOC_STATUS uStatus; // DOT11_CONNECTION_STATUS_XXXX } DOT11_CONNECTION_COMPLETION_PARAMETERS, * PDOT11_CONNECTION_COMPLETION_PARAMETERS; #define DOT11_ROAMING_REASON_BETTER_AP_FOUND DOT11_ASSOC_STATUS_ROAMING_BETTER_AP_FOUND #define DOT11_ROAMING_REASON_ASSOCIATION_LOST DOT11_ASSOC_STATUS_ROAMING_ASSOCIATION_LOST #define DOT11_ROAMING_REASON_ADHOC DOT11_ASSOC_STATUS_ROAMING_ADHOC #define DOT11_ROAMING_REASON_IHV_START DOT11_ASSOC_STATUS_IHV_START #define DOT11_ROAMING_REASON_IHV_END DOT11_ASSOC_STATUS_IHV_END typedef struct DOT11_ROAMING_START_PARAMETERS { #define DOT11_ROAMING_START_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS AdhocBSSID; // applicable to adhoc mode only DOT11_SSID AdhocSSID; // applicable to adhoc mode only DOT11_ASSOC_STATUS uRoamingReason; } DOT11_ROAMING_START_PARAMETERS, * PDOT11_ROAMING_START_PARAMETERS; typedef struct DOT11_ROAMING_COMPLETION_PARAMETERS { #define DOT11_ROAMING_COMPLETION_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_ASSOC_STATUS uStatus; // DOT11_CONNECTION_STATUS_XXXX } DOT11_ROAMING_COMPLETION_PARAMETERS, * PDOT11_ROAMING_COMPLETION_PARAMETERS; // Disassociation Reason Code #define DOT11_DISASSOC_REASON_OS DOT11_ASSOC_STATUS_DISASSOCIATED_BY_OS #define DOT11_DISASSOC_REASON_PEER_UNREACHABLE DOT11_ASSOC_STATUS_UNREACHABLE // Current association is disassocated because the NIC receives an // 802.11 de-authentication frame from the peer. The lowest 16-bits // are the reason code (2-byte) copied from the 802.11 DeAuthentication frame. #define DOT11_DISASSOC_REASON_PEER_DEAUTHENTICATED DOT11_ASSOC_STATUS_PEER_DEAUTHENTICATED // Current association is disassocated because the NIC receives an // 802.11 disassociation frame from the peer. The lowest 16-bits // are the reason code (2-byte) copied from the 802.11 disassociation frame. #define DOT11_DISASSOC_REASON_PEER_DISASSOCIATED DOT11_ASSOC_STATUS_PEER_DISASSOCIATED #define DOT11_DISASSOC_REASON_RADIO_OFF DOT11_ASSOC_STATUS_RADIO_OFF #define DOT11_DISASSOC_REASON_PHY_DISABLED DOT11_ASSOC_STATUS_PHY_DISABLED #define DOT11_DISASSOC_REASON_IHV_START DOT11_ASSOC_STATUS_IHV_START #define DOT11_DISASSOC_REASON_IHV_END DOT11_ASSOC_STATUS_IHV_END typedef struct DOT11_DISASSOCIATION_PARAMETERS { #define DOT11_DISASSOCIATION_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS MacAddr; DOT11_ASSOC_STATUS uReason; ULONG uIHVDataOffset, uIHVDataSize; } DOT11_DISASSOCIATION_PARAMETERS, * PDOT11_DISASSOCIATION_PARAMETERS; typedef struct DOT11_TKIPMIC_FAILURE_PARAMETERS { #define DOT11_TKIPMIC_FAILURE_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; BOOLEAN bDefaultKeyFailure; ULONG uKeyIndex; DOT11_MAC_ADDRESS PeerMac; } DOT11_TKIPMIC_FAILURE_PARAMETERS, * PDOT11_TKIPMIC_FAILURE_PARAMETERS; typedef struct DOT11_PMKID_CANDIDATE_LIST_PARAMETERS { #define DOT11_PMKID_CANDIDATE_LIST_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uCandidateListSize; ULONG uCandidateListOffset; } DOT11_PMKID_CANDIDATE_LIST_PARAMETERS, * PDOT11_PMKID_CANDIDATE_LIST_PARAMETERS; typedef struct DOT11_BSSID_CANDIDATE { DOT11_MAC_ADDRESS BSSID; #define DOT11_PMKID_CANDIDATE_PREAUTH_ENABLED 0x00000001U ULONG uFlags; } DOT11_BSSID_CANDIDATE, *PDOT11_BSSID_CANDIDATE; typedef struct DOT11_PHY_STATE_PARAMETERS { #define DOT11_PHY_STATE_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uPhyId; BOOLEAN bHardwarePhyState; BOOLEAN bSoftwarePhyState; } DOT11_PHY_STATE_PARAMETERS, * PDOT11_PHY_STATE_PARAMETERS; typedef struct DOT11_LINK_QUALITY_ENTRY { DOT11_MAC_ADDRESS PeerMacAddr; UCHAR ucLinkQuality; } DOT11_LINK_QUALITY_ENTRY, *PDOT11_LINK_QUALITY_ENTRY; typedef struct DOT11_LINK_QUALITY_PARAMETERS { #define DOT11_LINK_QUALITY_PARAMETERS_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uLinkQualityListSize; ULONG uLinkQualityListOffset; } DOT11_LINK_QUALITY_PARAMETERS, * PDOT11_LINK_QUALITY_PARAMETERS; // Send OOB data for ExtSTA mode typedef struct DOT11_EXTSTA_SEND_CONTEXT { #define DOT11_EXTSTA_SEND_CONTEXT_REVISION_1 1 NDIS_OBJECT_HEADER Header; USHORT usExemptionActionType; ULONG uPhyId; ULONG uDelayedSleepValue; #ifdef __midl // For nwifi test, which pass this structure using midl ULONG_PTR pvMediaSpecificInfo; #else PVOID pvMediaSpecificInfo; #endif ULONG uSendFlags; // reserved field for safe mode wireless } DOT11_EXTSTA_SEND_CONTEXT, * PDOT11_EXTSTA_SEND_CONTEXT; // Recv OOB data for ExtSTA mode #define DOT11_RECV_FLAG_RAW_PACKET 0x00000001U #define DOT11_RECV_FLAG_RAW_PACKET_FCS_FAILURE 0x00000002U #define DOT11_RECV_FLAG_RAW_PACKET_TIMESTAMP 0x00000004U typedef struct DOT11_EXTSTA_RECV_CONTEXT { #define DOT11_EXTSTA_RECV_CONTEXT_REVISION_1 1 NDIS_OBJECT_HEADER Header; ULONG uReceiveFlags; ULONG uPhyId; ULONG uChCenterFrequency; USHORT usNumberOfMPDUsReceived; LONG lRSSI; UCHAR ucDataRate; ULONG uSizeMediaSpecificInfo; #ifdef __midl // For nwifi test, which pass this structure using midl ULONG_PTR pvMediaSpecificInfo; #else PVOID pvMediaSpecificInfo; #endif ULONGLONG ullTimestamp; } DOT11_EXTSTA_RECV_CONTEXT, * PDOT11_EXTSTA_RECV_CONTEXT; // // Private 802.11 OIDs: this should be the last section // // We reserve 1024 entries for real DOT11 OIDs // #define OID_DOT11_PRIVATE_OIDS_START (OID_DOT11_NDIS_START + 1024) #define OID_DOT11_CURRENT_ADDRESS (OID_DOT11_PRIVATE_OIDS_START + 2) // DOT11_MAC_ADDRESS #define OID_DOT11_PERMANENT_ADDRESS (OID_DOT11_PRIVATE_OIDS_START + 3) // DOT11_MAC_ADDRESS #define OID_DOT11_MULTICAST_LIST (OID_DOT11_PRIVATE_OIDS_START + 4) // OID_802_3_MULTICAST_LIST #define OID_DOT11_MAXIMUM_LIST_SIZE (OID_DOT11_PRIVATE_OIDS_START + 5) // GUIDs for WMI #define DEFINE_NWF_GUID(name,ord) \ DEFINE_GUID(name, 0x6cb9a43e + (ord), 0xc45f, 0x4039, 0x9f, 0xe6, 0xd0, 0x8c, 0xb0, 0x57, 0x18, 0x4c) DEFINE_NWF_GUID(GUID_NWF_OFFLOAD_CAPABILITY,0); DEFINE_NWF_GUID(GUID_NWF_CURRENT_OFFLOAD_CAPABILITY,1); DEFINE_NWF_GUID(GUID_NWF_WEP_OFFLOAD,2); DEFINE_NWF_GUID(GUID_NWF_WEP_UPLOAD,3); DEFINE_NWF_GUID(GUID_NWF_DEFAULT_WEP_OFFLOAD,4); DEFINE_NWF_GUID(GUID_NWF_DEFAULT_WEP_UPLOAD,5); DEFINE_NWF_GUID(GUID_NWF_MPDU_MAX_LENGTH,6); DEFINE_NWF_GUID(GUID_NWF_OPERATION_MODE_CAPABILITY,7); DEFINE_NWF_GUID(GUID_NWF_CURRENT_OPERATION_MODE,8); DEFINE_NWF_GUID(GUID_NWF_CURRENT_PACKET_FILTER,9); DEFINE_NWF_GUID(GUID_NWF_ATIM_WINDOW,10); DEFINE_NWF_GUID(GUID_NWF_SCAN_REQUEST,11); DEFINE_NWF_GUID(GUID_NWF_CURRENT_PHY_TYPE,12); DEFINE_NWF_GUID(GUID_NWF_JOIN_REQUEST,13); DEFINE_NWF_GUID(GUID_NWF_START_REQUEST,14); DEFINE_NWF_GUID(GUID_NWF_UPDATE_IE,15); DEFINE_NWF_GUID(GUID_NWF_RESET_REQUEST,16); DEFINE_NWF_GUID(GUID_NWF_NIC_POWER_STATE,17); DEFINE_NWF_GUID(GUID_NWF_OPTIONAL_CAPABILITY,18); DEFINE_NWF_GUID(GUID_NWF_CURRENT_OPTIONAL_CAPABILITY,19); DEFINE_NWF_GUID(GUID_NWF_STATION_ID,20); DEFINE_NWF_GUID(GUID_NWF_MEDIUM_OCCUPANCY_LIMIT,21); DEFINE_NWF_GUID(GUID_NWF_CF_POLLABLE,22); DEFINE_NWF_GUID(GUID_NWF_CFP_PERIOD,23); DEFINE_NWF_GUID(GUID_NWF_CFP_MAX_DURATION,24); DEFINE_NWF_GUID(GUID_NWF_POWER_MGMT_MODE,25); DEFINE_NWF_GUID(GUID_NWF_OPERATIONAL_RATE_SET,26); DEFINE_NWF_GUID(GUID_NWF_BEACON_PERIOD,27); DEFINE_NWF_GUID(GUID_NWF_DTIM_PERIOD,28); DEFINE_NWF_GUID(GUID_NWF_WEP_ICV_ERROR_COUNT,29); DEFINE_NWF_GUID(GUID_NWF_MAC_ADDRESS,30); DEFINE_NWF_GUID(GUID_NWF_RTS_THRESHOLD,31); DEFINE_NWF_GUID(GUID_NWF_SHORT_RETRY_LIMIT,32); DEFINE_NWF_GUID(GUID_NWF_LONG_RETRY_LIMIT,33); DEFINE_NWF_GUID(GUID_NWF_FRAGMENTATION_THRESHOLD,34); DEFINE_NWF_GUID(GUID_NWF_MAX_TRANSMIT_MSDU_LIFETIME,35); DEFINE_NWF_GUID(GUID_NWF_MAX_RECEIVE_LIFETIME,36); DEFINE_NWF_GUID(GUID_NWF_COUNTERS_ENTRY,37); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_PHY_TYPES,38); DEFINE_NWF_GUID(GUID_NWF_CURRENT_REG_DOMAIN,39); DEFINE_NWF_GUID(GUID_NWF_TEMP_TYPE,40); DEFINE_NWF_GUID(GUID_NWF_CURRENT_TX_ANTENNA,41); DEFINE_NWF_GUID(GUID_NWF_DIVERSITY_SUPPORT,42); DEFINE_NWF_GUID(GUID_NWF_CURRENT_RX_ANTENNA,43); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_POWER_LEVELS,44); DEFINE_NWF_GUID(GUID_NWF_CURRENT_TX_POWER_LEVEL,45); DEFINE_NWF_GUID(GUID_NWF_HOP_TIME,46); DEFINE_NWF_GUID(GUID_NWF_CURRENT_CHANNEL_NUMBER,47); DEFINE_NWF_GUID(GUID_NWF_MAX_DWELL_TIME,48); DEFINE_NWF_GUID(GUID_NWF_CURRENT_DWELL_TIME,49); DEFINE_NWF_GUID(GUID_NWF_CURRENT_SET,50); DEFINE_NWF_GUID(GUID_NWF_CURRENT_PATTERN,51); DEFINE_NWF_GUID(GUID_NWF_CURRENT_INDEX,52); DEFINE_NWF_GUID(GUID_NWF_CURRENT_CHANNEL,53); DEFINE_NWF_GUID(GUID_NWF_CCA_MODE_SUPPORTED,54); DEFINE_NWF_GUID(GUID_NWF_CURRENT_CCA_MODE,55); DEFINE_NWF_GUID(GUID_NWF_ED_THRESHOLD,56); DEFINE_NWF_GUID(GUID_NWF_CCA_WATCHDOG_TIMER_MAX,57); DEFINE_NWF_GUID(GUID_NWF_CCA_WATCHDOG_COUNT_MAX,58); DEFINE_NWF_GUID(GUID_NWF_CCA_WATCHDOG_TIMER_MIN,59); DEFINE_NWF_GUID(GUID_NWF_CCA_WATCHDOG_COUNT_MIN,60); DEFINE_NWF_GUID(GUID_NWF_REG_DOMAINS_SUPPORT_VALUE,61); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_TX_ANTENNA,62); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_RX_ANTENNA,63); DEFINE_NWF_GUID(GUID_NWF_DIVERSITY_SELECTION_RX,64); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_DATA_RATES_VALUE,65); DEFINE_NWF_GUID(GUID_NWF_CURRENT_FREQUENCY,66); DEFINE_NWF_GUID(GUID_NWF_TI_THRESHOLD,67); DEFINE_NWF_GUID(GUID_NWF_FREQUENCY_BANDS_SUPPORTED,68); DEFINE_NWF_GUID(GUID_NWF_SHORT_PREAMBLE_OPTION_IMPLEMENTED,69); DEFINE_NWF_GUID(GUID_NWF_PBCC_OPTION_IMPLEMENTED,70); DEFINE_NWF_GUID(GUID_NWF_CHANNEL_AGILITY_PRESENT,71); DEFINE_NWF_GUID(GUID_NWF_CHANNEL_AGILITY_ENABLED,72); DEFINE_NWF_GUID(GUID_NWF_HR_CCA_MODE_SUPPORTED,73); DEFINE_NWF_GUID(GUID_NWF_MULTI_DOMAIN_CAPABILITY_IMPLEMENTED,74); DEFINE_NWF_GUID(GUID_NWF_MULTI_DOMAIN_CAPABILITY_ENABLED,75); DEFINE_NWF_GUID(GUID_NWF_COUNTRY_STRING,76); DEFINE_NWF_GUID(GUID_NWF_MULTI_DOMAIN_CAPABILITY,77); DEFINE_NWF_GUID(GUID_NWF_EHCC_PRIME_RADIX,78); DEFINE_NWF_GUID(GUID_NWF_EHCC_NUMBER_OF_CHANNELS_FAMILY_INDEX,79); DEFINE_NWF_GUID(GUID_NWF_EHCC_CAPABILITY_IMPLEMENTED,80); DEFINE_NWF_GUID(GUID_NWF_EHCC_CAPABILITY_ENABLED,81); DEFINE_NWF_GUID(GUID_NWF_HOP_ALGORITHM_ADOPTED,82); DEFINE_NWF_GUID(GUID_NWF_RANDOM_TABLE_FLAG,83); DEFINE_NWF_GUID(GUID_NWF_NUMBER_OF_HOPPING_SETS,84); DEFINE_NWF_GUID(GUID_NWF_HOP_MODULUS,85); DEFINE_NWF_GUID(GUID_NWF_HOP_OFFSET,86); DEFINE_NWF_GUID(GUID_NWF_HOPPING_PATTERN,87); DEFINE_NWF_GUID(GUID_NWF_RANDOM_TABLE_FIELD_NUMBER,88); DEFINE_NWF_GUID(GUID_NWF_WPA_TSC,89); DEFINE_NWF_GUID(GUID_NWF_RSSI_RANGE,90); DEFINE_NWF_GUID(GUID_NWF_RF_USAGE,91); DEFINE_NWF_GUID(GUID_NWF_NIC_SPECIFIC_EXTENSION,92); DEFINE_NWF_GUID(GUID_NWF_AP_JOIN_REQUEST,93); DEFINE_NWF_GUID(GUID_NWF_ERP_PBCC_OPTION_IMPLEMENTED,94); DEFINE_NWF_GUID(GUID_NWF_ERP_PBCC_OPTION_ENABLED,95); DEFINE_NWF_GUID(GUID_NWF_DSSS_OFDM_OPTION_IMPLEMENTED,96); DEFINE_NWF_GUID(GUID_NWF_DSSS_OFDM_OPTION_ENABLED,97); DEFINE_NWF_GUID(GUID_NWF_SHORT_SLOT_TIME_OPTION_IMPLEMENTED,98); DEFINE_NWF_GUID(GUID_NWF_SHORT_SLOT_TIME_OPTION_ENABLED,99); DEFINE_NWF_GUID(GUID_NWF_MAX_MAC_ADDRESS_STATES,100); DEFINE_NWF_GUID(GUID_NWF_RECV_SENSITIVITY_LIST,101); DEFINE_NWF_GUID(GUID_NWF_WME_IMPLEMENTED,102); DEFINE_NWF_GUID(GUID_NWF_WME_ENABLED,103); DEFINE_NWF_GUID(GUID_NWF_WME_AC_PARAMETERS,104); DEFINE_NWF_GUID(GUID_NWF_WME_UPDATE_IE,105); DEFINE_NWF_GUID(GUID_NWF_QOS_TX_QUEUES_SUPPORTED,106); DEFINE_NWF_GUID(GUID_NWF_QOS_TX_DURATION,107); DEFINE_NWF_GUID(GUID_NWF_QOS_TX_MEDIUM_TIME,108); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_OFDM_FREQUENCY_LIST,109); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_DSSS_CHANNEL_LIST,110); DEFINE_NWF_GUID(GUID_NWF_AUTO_CONFIG_ENABLED,120); DEFINE_NWF_GUID(GUID_NWF_ENUM_BSS_LIST,121); DEFINE_NWF_GUID(GUID_NWF_FLUSH_BSS_LIST,122); DEFINE_NWF_GUID(GUID_NWF_POWER_MGMT_REQUEST,123); DEFINE_NWF_GUID(GUID_NWF_DESIRED_SSID_LIST,124); DEFINE_NWF_GUID(GUID_NWF_EXCLUDED_MAC_ADDRESS_LIST,125); DEFINE_NWF_GUID(GUID_NWF_DESIRED_BSSID_LIST,126); DEFINE_NWF_GUID(GUID_NWF_DESIRED_BSS_TYPE,127); DEFINE_NWF_GUID(GUID_NWF_PMKID_LIST,128); DEFINE_NWF_GUID(GUID_NWF_CONNECT_REQUEST,129); DEFINE_NWF_GUID(GUID_NWF_EXCLUDE_UNENCRYPTED,130); DEFINE_NWF_GUID(GUID_NWF_STATISTICS,131); DEFINE_NWF_GUID(GUID_NWF_PRIVACY_EXEMPTION_LIST,132); DEFINE_NWF_GUID(GUID_NWF_ENABLED_AUTHENTICATION_ALGORITHM,133); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_UNICAST_ALGORITHM_PAIR,134); DEFINE_NWF_GUID(GUID_NWF_ENABLED_UNICAST_CIPHER_ALGORITHM,135); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_MULTICAST_ALGORITHM_PAIR,136); DEFINE_NWF_GUID(GUID_NWF_ENABLED_MULTICAST_CIPHER_ALGORITHM,137); DEFINE_NWF_GUID(GUID_NWF_CIPHER_DEFAULT_KEY_ID,138); DEFINE_NWF_GUID(GUID_NWF_CIPHER_DEFAULT_KEY,139); DEFINE_NWF_GUID(GUID_NWF_CIPHER_KEY_MAPPING_KEY,140); DEFINE_NWF_GUID(GUID_NWF_ENUM_ASSOCIATION_INFO,141); DEFINE_NWF_GUID(GUID_NWF_DISCONNECT_REQUEST,142); DEFINE_NWF_GUID(GUID_NWF_UNICAST_USE_GROUP_ENABLED,143); DEFINE_NWF_GUID(GUID_NWF_PHY_STATE,144); DEFINE_NWF_GUID(GUID_NWF_DESIRED_PHY_LIST,145); DEFINE_NWF_GUID(GUID_NWF_CURRENT_PHY_ID,146); DEFINE_NWF_GUID(GUID_NWF_MEDIA_STREAMING_ENABLED,147); DEFINE_NWF_GUID(GUID_NWF_UNREACHABLE_DETECTION_THRESHOLD,148); DEFINE_NWF_GUID(GUID_NWF_ACTIVE_PHY_LIST,149); DEFINE_NWF_GUID(GUID_NWF_EXTSTA_CAPABILITY,150); DEFINE_NWF_GUID(GUID_NWF_DATA_RATE_MAPPING_TABLE,151); DEFINE_NWF_GUID(GUID_NWF_SUPPORTED_COUNTRY_OR_REGION_STRING,152); DEFINE_NWF_GUID(GUID_NWF_DESIRED_COUNTRY_OR_REGION_STRING,153); DEFINE_NWF_GUID(GUID_NWF_PORT_STATE_NOTIFICATION,154); DEFINE_NWF_GUID(GUID_NWF_IBSS_PARAMS,155); DEFINE_NWF_GUID(GUID_NWF_QOS_PARAMS,156); DEFINE_NWF_GUID(GUID_NWF_SAFE_MODE_ENABLED,157); DEFINE_NWF_GUID(GUID_NWF_HIDDEN_NETWORK_ENABLED,158); DEFINE_NWF_GUID(GUID_NWF_ASSOCIATION_PARAMS,159); DEFINE_NWF_GUID(GUID_NWF_CURRENT_ADDRESS,1024+2); DEFINE_NWF_GUID(GUID_NWF_PERMANENT_ADDRESS,1024+3); DEFINE_NWF_GUID(GUID_NWF_MULTICAST_LIST,1024+4); DEFINE_NWF_GUID(GUID_NWF_MAXIMUM_LIST_SIZE,1024+5); #endif // (NTDDI_VERSION > NTDDI_VISTA) #ifdef NWF_EXTAP_SUPPORTED #define DOT11_EXTAP_ATTRIBUTES_REVISION_1 1 typedef struct _DOT11_EXTAP_ATTRIBUTES { NDIS_OBJECT_HEADER Header; ULONG uScanSSIDListSize; ULONG uDesiredSSIDListSize; ULONG uPrivacyExemptionListSize; ULONG uAssociationTableSize; ULONG uDefaultKeyTableSize; ULONG uWEPKeyValueMaxLength; BOOLEAN bStrictlyOrderedServiceClassImplemented; // Supported Country Strings ULONG uNumSupportedCountryOrRegionStrings; #ifdef __midl [size_is(uNumSupportedCountryOrRegionStrings)] #endif PDOT11_COUNTRY_OR_REGION_STRING pSupportedCountryOrRegionStrings; // Unicast algorithm capabilities ULONG uInfraNumSupportedUcastAlgoPairs; #ifdef __midl [size_is(uInfraNumSupportedUcastAlgoPairs)] #endif PDOT11_AUTH_CIPHER_PAIR pInfraSupportedUcastAlgoPairs; // Multicast algorithm capabilities ULONG uInfraNumSupportedMcastAlgoPairs; #ifdef __midl [size_is(uInfraNumSupportedMcastAlgoPairs)] #endif PDOT11_AUTH_CIPHER_PAIR pInfraSupportedMcastAlgoPairs; } DOT11_EXTAP_ATTRIBUTES, *PDOT11_EXTAP_ATTRIBUTES; #define NDIS_SIZEOF_DOT11_EXTAP_ATTRIBUTES_REVISION_1 sizeof(DOT11_EXTAP_ATTRIBUTES) // NDIS indications for Ext AP mode. // Data type for NDIS_STATUS_DOT11_INCOMING_ASSOC_STARTED #define DOT11_INCOMING_ASSOC_STARTED_PARAMETERS_REVISION_1 1 typedef struct _DOT11_INCOMING_ASSOC_STARTED_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerMacAddr; } DOT11_INCOMING_ASSOC_STARTED_PARAMETERS, *PDOT11_INCOMING_ASSOC_STARTED_PARAMETERS; // Data type for NDIS_STATUS_DOT11_INCOMING_ASSOC_REQUEST_RECEIVED #define DOT11_INCOMING_ASSOC_REQUEST_RECEIVED_PARAMETERS_REVISION_1 1 typedef struct _DOT11_INCOMING_ASSOC_REQUEST_RECEIVED_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerMacAddr; BOOLEAN bReAssocReq; ULONG uAssocReqOffset; ULONG uAssocReqSize; } DOT11_INCOMING_ASSOC_REQUEST_RECEIVED_PARAMETERS, *PDOT11_INCOMING_ASSOC_REQUEST_RECEIVED_PARAMETERS; // Data type for NDIS_STATUS_DOT11_INCOMING_ASSOC_COMPLETION #define DOT11_ASSOC_ERROR_SOURCE_OS 0x0 #define DOT11_ASSOC_ERROR_SOURCE_REMOTE 0x01 #define DOT11_ASSOC_ERROR_SOURCE_OTHER 0xFF #define DOT11_INCOMING_ASSOC_COMPLETION_PARAMETERS_REVISION_1 1 typedef struct _DOT11_INCOMING_ASSOC_COMPLETION_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerMacAddr; ULONG uStatus; UCHAR ucErrorSource; BOOLEAN bReAssocReq; BOOLEAN bReAssocResp; ULONG uAssocReqOffset; ULONG uAssocReqSize; ULONG uAssocRespOffset; ULONG uAssocRespSize; // The following fields are applicable for successful association. // For association failure, they must be zero-ed out. DOT11_AUTH_ALGORITHM AuthAlgo; DOT11_CIPHER_ALGORITHM UnicastCipher; DOT11_CIPHER_ALGORITHM MulticastCipher; ULONG uActivePhyListOffset; ULONG uActivePhyListSize; ULONG uBeaconOffset; ULONG uBeaconSize; } DOT11_INCOMING_ASSOC_COMPLETION_PARAMETERS, *PDOT11_INCOMING_ASSOC_COMPLETION_PARAMETERS; // Data type for NDIS_STATUS_DOT11_STOP_AP #define DOT11_STOP_AP_PARAMETERS_REVISION_1 1 typedef struct _DOT11_STOP_AP_PARAMETERS { NDIS_OBJECT_HEADER Header; ULONG ulReason; } DOT11_STOP_AP_PARAMETERS, *PDOT11_STOP_AP_PARAMETERS; #define DOT11_STOP_AP_REASON_FREQUENCY_NOT_AVAILABLE 0x1 #define DOT11_STOP_AP_REASON_CHANNEL_NOT_AVAILABLE 0x2 #define DOT11_STOP_AP_REASON_AP_ACTIVE 0x3 #define DOT11_STOP_AP_REASON_IHV_START 0xFF000000 #define DOT11_STOP_AP_REASON_IHV_END 0xFFFFFFFF // Data type for NDIS_STATUS_DOT11_PHY_FREQUENCY_ADOPTED #define DOT11_PHY_FREQUENCY_ADOPTED_PARAMETERS_REVISION_1 1 typedef struct _DOT11_PHY_FREQUENCY_ADOPTED_PARAMETERS { NDIS_OBJECT_HEADER Header; ULONG ulPhyId; union { ULONG ulChannel; ULONG ulFrequency; }; } DOT11_PHY_FREQUENCY_ADOPTED_PARAMETERS, *PDOT11_PHY_FREQUENCY_ADOPTED_PARAMETERS; // Data type for NDIS_STATUS_DOT11_CAN_SUSTAIN_AP #define DOT11_CAN_SUSTAIN_AP_PARAMETERS_REVISION_1 1 typedef struct _DOT11_CAN_SUSTAIN_AP_PARAMETERS { NDIS_OBJECT_HEADER Header; ULONG ulReason; } DOT11_CAN_SUSTAIN_AP_PARAMETERS, *PDOT11_CAN_SUSTAIN_AP_PARAMETERS; #define DOT11_CAN_SUSTAIN_AP_REASON_IHV_START 0xFF000000 #define DOT11_CAN_SUSTAIN_AP_REASON_IHV_END 0xFFFFFFFF // TAG for Ext AP specific OIDs. #define NWF_EXTAP_OID (0x03U) #define OID_DOT11_WPS_ENABLED NWF_DEFINE_OID(0x01, NWF_EXTAP_OID, NWF_MANDATORY_OID) // BOOLEAN #define OID_DOT11_START_AP_REQUEST NWF_DEFINE_OID(0x02, NWF_EXTAP_OID, NWF_MANDATORY_OID) // VOID #define OID_DOT11_AVAILABLE_CHANNEL_LIST NWF_DEFINE_OID(0x03, NWF_EXTAP_OID, NWF_MANDATORY_OID) // DOT11_AVAILABLE_CHANNEL_LIST #define DOT11_AVAILABLE_CHANNEL_LIST_REVISION_1 1 typedef struct _DOT11_AVAILABLE_CHANNEL_LIST { NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; ULONG uChannelNumber[1]; } DOT11_AVAILABLE_CHANNEL_LIST, *PDOT11_AVAILABLE_CHANNEL_LIST; #define OID_DOT11_AVAILABLE_FREQUENCY_LIST NWF_DEFINE_OID(0x04, NWF_EXTAP_OID, NWF_MANDATORY_OID) // DOT11_AVAILABLE_FREQUENCY_LIST #define DOT11_AVAILABLE_FREQUENCY_LIST_REVISION_1 1 typedef struct _DOT11_AVAILABLE_FREQUENCY_LIST { NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; ULONG uFrequencyValue[1]; } DOT11_AVAILABLE_FREQUENCY_LIST, *PDOT11_AVAILABLE_FREQUENCY_LIST; #define OID_DOT11_DISASSOCIATE_PEER_REQUEST NWF_DEFINE_OID(0x05, NWF_EXTAP_OID, NWF_MANDATORY_OID) // DOT11_DISASSOCIATE_PEER_REQUEST #define DOT11_DISASSOCIATE_PEER_REQUEST_REVISION_1 1 typedef struct _DOT11_DISASSOCIATE_PEER_REQUEST { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerMacAddr; USHORT usReason; } DOT11_DISASSOCIATE_PEER_REQUEST, *PDOT11_DISASSOCIATE_PEER_REQUEST; #define OID_DOT11_INCOMING_ASSOCIATION_DECISION NWF_DEFINE_OID(0x06, NWF_EXTAP_OID, NWF_MANDATORY_OID) // DOT11_INCOMING_ASSOC_DECISION #define DOT11_INCOMING_ASSOC_DECISION_REVISION_1 1 typedef struct _DOT11_INCOMING_ASSOC_DECISION { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerMacAddr; BOOLEAN bAccept; USHORT usReasonCode; ULONG uAssocResponseIEsOffset; ULONG uAssocResponseIEsLength; } DOT11_INCOMING_ASSOC_DECISION, *PDOT11_INCOMING_ASSOC_DECISION; #define DOT11_SIZEOF_INCOMING_ASSOC_DECISION_REVISION_1 sizeof(DOT11_INCOMING_ASSOC_DECISION) #ifdef NWF_WFD_SUPPORTED #define DOT11_INCOMING_ASSOC_DECISION_REVISION_2 2 typedef struct _DOT11_INCOMING_ASSOC_DECISION_V2 { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerMacAddr; BOOLEAN bAccept; USHORT usReasonCode; ULONG uAssocResponseIEsOffset; ULONG uAssocResponseIEsLength; DOT11_WFD_STATUS_CODE WFDStatus; } DOT11_INCOMING_ASSOC_DECISION_V2, *PDOT11_INCOMING_ASSOC_DECISION_V2; #define DOT11_SIZEOF_INCOMING_ASSOC_DECISION_REVISION_2 sizeof(DOT11_INCOMING_ASSOC_DECISION_V2) #endif #define OID_DOT11_ADDITIONAL_IE NWF_DEFINE_OID(0x07, NWF_EXTAP_OID, NWF_MANDATORY_OID) // DOT11_ADDITIONAL_IE #define DOT11_ADDITIONAL_IE_REVISION_1 1 typedef struct _DOT11_ADDITIONAL_IE { NDIS_OBJECT_HEADER Header; ULONG uBeaconIEsOffset; ULONG uBeaconIEsLength; ULONG uResponseIEsOffset; ULONG uResponseIEsLength; } DOT11_ADDITIONAL_IE, *PDOT11_ADDITIONAL_IE; // // Ext AP Send context // #define DOT11_EXTAP_SEND_CONTEXT_REVISION_1 1 typedef struct DOT11_EXTSTA_SEND_CONTEXT DOT11_EXTAP_SEND_CONTEXT, *PDOT11_EXTAP_SEND_CONTEXT; // // Ext AP Receive context // #define DOT11_EXTAP_RECV_CONTEXT_REVISION_1 1 typedef struct DOT11_EXTSTA_RECV_CONTEXT DOT11_EXTAP_RECV_CONTEXT, *PDOT11_EXTAP_RECV_CONTEXT; #define OID_DOT11_ENUM_PEER_INFO NWF_DEFINE_OID(0x08, NWF_EXTAP_OID, NWF_MANDATORY_OID) // DOT11_PEER_INFO_LIST typedef struct _DOT11_PEER_STATISTICS { ULONGLONG ullDecryptSuccessCount; ULONGLONG ullDecryptFailureCount; ULONGLONG ullTxPacketSuccessCount; ULONGLONG ullTxPacketFailureCount; ULONGLONG ullRxPacketSuccessCount; ULONGLONG ullRxPacketFailureCount; } DOT11_PEER_STATISTICS, *PDOT11_PEER_STATISTICS; typedef struct _DOT11_PEER_INFO { DOT11_MAC_ADDRESS MacAddress; USHORT usCapabilityInformation; DOT11_AUTH_ALGORITHM AuthAlgo; DOT11_CIPHER_ALGORITHM UnicastCipherAlgo; DOT11_CIPHER_ALGORITHM MulticastCipherAlgo; BOOLEAN bWpsEnabled; USHORT usListenInterval; UCHAR ucSupportedRates[MAX_NUM_SUPPORTED_RATES_V2]; USHORT usAssociationID; DOT11_ASSOCIATION_STATE AssociationState; DOT11_POWER_MODE PowerMode; LARGE_INTEGER liAssociationUpTime; DOT11_PEER_STATISTICS Statistics; } DOT11_PEER_INFO, *PDOT11_PEER_INFO; #define DOT11_PEER_INFO_LIST_REVISION_1 1 typedef struct _DOT11_PEER_INFO_LIST { NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_PEER_INFO PeerInfo[1]; } DOT11_PEER_INFO_LIST, *PDOT11_PEER_INFO_LIST; #endif // NWF_EXTAP_SUPPORTED #ifdef NWF_VWIFI_SUPPORTED #define DOT11_VWIFI_COMBINATION_REVISION_1 1 typedef struct _DOT11_VWIFI_COMBINATION { NDIS_OBJECT_HEADER Header; ULONG uNumInfrastructure; ULONG uNumAdhoc; ULONG uNumSoftAP; } DOT11_VWIFI_COMBINATION, * PDOT11_VWIFI_COMBINATION; #define DOT11_SIZEOF_VWIFI_COMBINATION_REVISION_1 sizeof(DOT11_VWIFI_COMBINATION) #define DOT11_VWIFI_COMBINATION_REVISION_2 2 typedef struct _DOT11_VWIFI_COMBINATION_V2 { NDIS_OBJECT_HEADER Header; ULONG uNumInfrastructure; ULONG uNumAdhoc; ULONG uNumSoftAP; ULONG uNumVirtualStation; } DOT11_VWIFI_COMBINATION_V2, * PDOT11_VWIFI_COMBINATION_V2; #define DOT11_SIZEOF_VWIFI_COMBINATION_REVISION_2 sizeof(DOT11_VWIFI_COMBINATION_V2) #ifdef NWF_WFD_SUPPORTED #define DOT11_VWIFI_COMBINATION_REVISION_3 3 typedef struct _DOT11_VWIFI_COMBINATION_V3 { NDIS_OBJECT_HEADER Header; ULONG uNumInfrastructure; ULONG uNumAdhoc; ULONG uNumSoftAP; ULONG uNumVirtualStation; ULONG uNumWFDGroup; } DOT11_VWIFI_COMBINATION_V3, * PDOT11_VWIFI_COMBINATION_V3; #define DOT11_SIZEOF_VWIFI_COMBINATION_REVISION_3 sizeof(DOT11_VWIFI_COMBINATION_V3) #endif // NWF_WFD_SUPPORTED #define DOT11_VWIFI_ATTRIBUTES_REVISION_1 1 typedef struct DOT11_VWIFI_ATTRIBUTES { NDIS_OBJECT_HEADER Header; ULONG uTotalNumOfEntries; #ifdef __midl [unique, size_is(uTotalNumOfEntries)] DOT11_VWIFI_COMBINATION Combinations[*]; #else DOT11_VWIFI_COMBINATION Combinations[1]; #endif } DOT11_VWIFI_ATTRIBUTES, * PDOT11_VWIFI_ATTRIBUTES; // TAG for Virtual WiFi specific OIDs. #define NWF_VWIFI_OID (0x04U) #define OID_DOT11_CREATE_MAC NWF_DEFINE_OID(0x01, NWF_VWIFI_OID, NWF_MANDATORY_OID) #define DOT11_MAC_PARAMETERS_REVISION_1 1 typedef struct _DOT11_MAC_PARAMETERS{ NDIS_OBJECT_HEADER Header; ULONG uOpmodeMask; } DOT11_MAC_PARAMETERS, *PDOT11_MAC_PARAMETERS; #define DOT11_SIZEOF_MAC_PARAMETERS_REVISION_1 sizeof(DOT11_MAC_PARAMETERS) typedef struct DOT11_MAC_INFO { ULONG uReserved; ULONG uNdisPortNumber; DOT11_MAC_ADDRESS MacAddr; } DOT11_MAC_INFO, * PDOT11_MAC_INFO; #define OID_DOT11_DELETE_MAC NWF_DEFINE_OID(0x02, NWF_VWIFI_OID, NWF_MANDATORY_OID) #define OID_DOT11_PREFERRED_MAC NWF_DEFINE_OID(0x03, NWF_VWIFI_OID, NWF_MANDATORY_OID) #define OID_DOT11_VIRTUAL_STATION_CAPABILITY NWF_DEFINE_OID(0x04, NWF_VWIFI_OID, NWF_OPTIONAL_OID) #endif // NWF_VWIFI_SUPPORTED #ifdef NWF_WFD_SUPPORTED #define DOT11_WFD_ATTRIBUTES_REVISION_1 1 typedef struct _DOT11_WFD_ATTRIBUTES { NDIS_OBJECT_HEADER Header; ULONG uNumConcurrentGORole; ULONG uNumConcurrentClientRole; ULONG WPSVersionsSupported; // Device Capabilities BOOLEAN bServiceDiscoverySupported; BOOLEAN bClientDiscoverabilitySupported; BOOLEAN bInfrastructureManagementSupported; ULONG uMaxSecondaryDeviceTypeListSize; DOT11_MAC_ADDRESS DeviceAddress; ULONG uInterfaceAddressListCount; PDOT11_MAC_ADDRESS pInterfaceAddressList; ULONG uNumSupportedCountryOrRegionStrings; #ifdef __midl [size_is(uNumSupportedCountryOrRegionStrings)] #endif PDOT11_COUNTRY_OR_REGION_STRING pSupportedCountryOrRegionStrings; // Device Functionality ULONG uDiscoveryFilterListSize; // GO Capabilities ULONG uGORoleClientTableSize; // Client Capabilities }DOT11_WFD_ATTRIBUTES, *PDOT11_WFD_ATTRIBUTES; #define DOT11_SIZEOF_WFD_ATTRIBUTES_REVISION_1 sizeof(DOT11_WFD_ATTRIBUTES) // Common WFD data types typedef UCHAR DOT11_WFD_GROUP_CAPABILITY; // WFD Status Code #define DOT11_WFD_STATUS_SUCCESS 0 #define DOT11_WFD_STATUS_FAILED_INFORMATION_IS_UNAVAILABLE 1 #define DOT11_WFD_STATUS_FAILED_INCOMPATIBLE_PARAMETERS 2 #define DOT11_WFD_STATUS_FAILED_LIMIT_REACHED 3 #define DOT11_WFD_STATUS_FAILED_INVALID_PARAMETERS 4 #define DOT11_WFD_STATUS_FAILED_UNABLE_TO_ACCOMODATE_REQUEST 5 #define DOT11_WFD_STATUS_FAILED_PREVIOUS_PROTOCOL_ERROR 6 #define DOT11_WFD_STATUS_FAILED_NO_COMMON_CHANNELS 7 #define DOT11_WFD_STATUS_FAILED_UNKNOWN_WFD_GROUP 8 #define DOT11_WFD_STATUS_FAILED_MATCHING_MAX_INTENT 9 #define DOT11_WFD_STATUS_FAILED_INCOMPATIBLE_PROVISIONING_METHOD 10 #define DOT11_WFD_STATUS_FAILED_REJECTED_BY_USER 11 #define DOT11_WFD_STATUS_SUCCESS_ACCEPTED_BY_USER 12 #define WFD_STATUS_SUCCEEDED(status) (((DOT11_WFD_STATUS_CODE)(status)) == DOT11_WFD_STATUS_SUCCESS || \ ((DOT11_WFD_STATUS_CODE)(status)) == DOT11_WFD_STATUS_SUCCESS_ACCEPTED_BY_USER) #define WFD_STATUS_FAILED(status) (((DOT11_WFD_STATUS_CODE)(status)) != DOT11_WFD_STATUS_SUCCESS && \ ((DOT11_WFD_STATUS_CODE)(status)) != DOT11_WFD_STATUS_SUCCESS_ACCEPTED_BY_USER) // WFD Minor Reason Code #define DOT11_WFD_MINOR_REASON_SUCCESS 0 #define DOT11_WFD_MINOR_REASON_DISASSOCIATED_FROM_WLAN_CROSS_CONNECTION_POLICY 1 #define DOT11_WFD_MINOR_REASON_DISASSOCIATED_NOT_MANAGED_INFRASTRUCTURE_CAPABLE 2 #define DOT11_WFD_MINOR_REASON_DISASSOCIATED_WFD_COEXISTENCE_POLICY 3 #define DOT11_WFD_MINOR_REASON_DISASSOCIATED_INFRASTRUCTURE_MANAGED_POLICY 4 // WPS Version Information #define DOT11_WPS_VERSION_1_0 0x01 #define DOT11_WPS_VERSION_2_0 0x02 // WFD Device Capability Bits #define DOT11_WFD_DEVICE_CAPABILITY_SERVICE_DISCOVERY 0x01 #define DOT11_WFD_DEVICE_CAPABILITY_P2P_CLIENT_DISCOVERABILITY 0x02 #define DOT11_WFD_DEVICE_CAPABILITY_CONCURRENT_OPERATION 0x04 #define DOT11_WFD_DEVICE_CAPABILITY_P2P_INFRASTRUCTURE_MANAGED 0x08 #define DOT11_WFD_DEVICE_CAPABILITY_P2P_DEVICE_LIMIT 0x10 #define DOT11_WFD_DEVICE_CAPABILITY_P2P_INVITATION_PROCEDURE 0x20 #define DOT11_WFD_DEVICE_CAPABILITY_RESERVED_6 0x40 #define DOT11_WFD_DEVICE_CAPABILITY_RESERVED_7 0x80 // WFD Group Capability Bits #define DOT11_WFD_GROUP_CAPABILITY_NONE 0x00 #define DOT11_WFD_GROUP_CAPABILITY_GROUP_OWNER 0x01 #define DOT11_WFD_GROUP_CAPABILITY_PERSISTENT_GROUP 0x02 #define DOT11_WFD_GROUP_CAPABILITY_GROUP_LIMIT_REACHED 0x04 #define DOT11_WFD_GROUP_CAPABILITY_INTRABSS_DISTRIBUTION_SUPPORTED 0x08 #define DOT11_WFD_GROUP_CAPABILITY_CROSS_CONNECTION_SUPPORTED 0x10 #define DOT11_WFD_GROUP_CAPABILITY_PERSISTENT_RECONNECT_SUPPORTED 0x20 #define DOT11_WFD_GROUP_CAPABILITY_IN_GROUP_FORMATION 0x40 #define DOT11_WFD_GROUP_CAPABILITY_RESERVED_7 0x80 #define DOT11_WFD_GROUP_CAPABILITY_EAPOL_KEY_IP_ADDRESS_ALLOCATION_SUPPORTED 0x80 #define DOT11_WPS_DEVICE_NAME_MAX_LENGTH 32 // 32 bytes #define DOT11_WPS_MAX_PASSKEY_LENGTH 8 // 8 bytes #define DOT11_WPS_MAX_MODEL_NAME_LENGTH 32 // 32 bytes #define DOT11_WPS_MAX_MODEL_NUMBER_LENGTH 32 // 32 bytes // Device Type typedef struct _DOT11_WFD_DEVICE_TYPE { USHORT CategoryID; USHORT SubCategoryID; UCHAR OUI[4]; } DOT11_WFD_DEVICE_TYPE, * PDOT11_WFD_DEVICE_TYPE; // WPS Device Name typedef struct _DOT11_WPS_DEVICE_NAME { #ifndef __midl _Field_range_(0,32) #endif ULONG uDeviceNameLength; UCHAR ucDeviceName[DOT11_WPS_DEVICE_NAME_MAX_LENGTH]; } DOT11_WPS_DEVICE_NAME, * PDOT11_WPS_DEVICE_NAME; // WFD Configuration Timeout typedef struct _DOT11_WFD_CONFIGURATION_TIMEOUT { UCHAR GOTimeout; UCHAR ClientTimeout; } DOT11_WFD_CONFIGURATION_TIMEOUT, * PDOT11_WFD_CONFIGURATION_TIMEOUT; // WFD Group ID typedef struct _DOT11_WFD_GROUP_ID { DOT11_MAC_ADDRESS DeviceAddress; DOT11_SSID SSID; } DOT11_WFD_GROUP_ID, * PDOT11_WFD_GROUP_ID; // WFD Group Owner Intent typedef struct _DOT11_WFD_GO_INTENT { UCHAR TieBreaker:1; UCHAR Intent:7; } DOT11_WFD_GO_INTENT, * PDOT11_WFD_GO_INTENT; // WFD Channel typedef struct _DOT11_WFD_CHANNEL { DOT11_COUNTRY_OR_REGION_STRING CountryRegionString; UCHAR OperatingClass; UCHAR ChannelNumber; } DOT11_WFD_CHANNEL, * PDOT11_WFD_CHANNEL; // WPS Config Method typedef enum _DOT11_WPS_CONFIG_METHOD { DOT11_WPS_CONFIG_METHOD_NULL = 0, DOT11_WPS_CONFIG_METHOD_DISPLAY = 0x0008, DOT11_WPS_CONFIG_METHOD_NFC_TAG = 0x0020, DOT11_WPS_CONFIG_METHOD_NFC_INTERFACE = 0x0040, DOT11_WPS_CONFIG_METHOD_PUSHBUTTON = 0x0080, DOT11_WPS_CONFIG_METHOD_KEYPAD = 0x0100, DOT11_WPS_CONFIG_METHOD_WFDS_DEFAULT = 0x1000 } DOT11_WPS_CONFIG_METHOD, *PDOT11_WPS_CONFIG_METHOD; // WPS Device Password ID typedef enum _DOT11_WPS_DEVICE_PASSWORD_ID { DOT11_WPS_PASSWORD_ID_DEFAULT = 0x0000, DOT11_WPS_PASSWORD_ID_USER_SPECIFIED = 0x0001, DOT11_WPS_PASSWORD_ID_MACHINE_SPECIFIED = 0x0002, DOT11_WPS_PASSWORD_ID_REKEY = 0x0003, DOT11_WPS_PASSWORD_ID_PUSHBUTTON = 0x0004, DOT11_WPS_PASSWORD_ID_REGISTRAR_SPECIFIED = 0x0005, // 0x0006 Reserved(for IBSS with Wi-Fi Protected Setup Specification) DOT11_WPS_PASSWORD_ID_NFC_CONNECTION_HANDOVER = 0x0007, DOT11_WPS_PASSWORD_ID_WFD_SERVICES = 0x0008, // 0x0009 - 0x000F = Reserved DOT11_WPS_PASSWORD_ID_OOB_RANGE_MIN = 0x0010, DOT11_WPS_PASSWORD_ID_OOB_RANGE_MAX = 0xFFFF, } DOT11_WPS_DEVICE_PASSWORD_ID, *PDOT11_WPS_DEVICE_PASSWORD_ID; // WFD Services typedef struct _WFDSVC_CONNECTION_CAPABILITY { BOOLEAN bNew; BOOLEAN bClient; BOOLEAN bGO; } WFDSVC_CONNECTION_CAPABILITY, *PWFDSVC_CONNECTION_CAPABILITY; #define WFDSVC_CONNECTION_CAPABILITY_NEW 0x01 #define WFDSVC_CONNECTION_CAPABILITY_CLIENT 0x02 #define WFDSVC_CONNECTION_CAPABILITY_GO 0x04 // WFD Service Hash List typedef struct _DOT11_WFD_SERVICE_HASH_LIST { USHORT ServiceHashCount; #ifdef __midl [size_is(ServiceHashCount)] DOT11_WFD_SERVICE_HASH ServiceHash[*]; #else DOT11_WFD_SERVICE_HASH ServiceHash[1]; #endif } DOT11_WFD_SERVICE_HASH_LIST, *PDOT11_WFD_SERVICE_HASH_LIST; // WFD Service Advertisement ID typedef struct _DOT11_WFD_ADVERTISEMENT_ID { ULONG AdvertisementID; DOT11_MAC_ADDRESS ServiceAddress; } DOT11_WFD_ADVERTISEMENT_ID, *PDOT11_WFD_ADVERTISEMENT_ID; // WFD Service Session ID typedef struct _DOT11_WFD_SESSION_ID { ULONG SessionID; DOT11_MAC_ADDRESS SessionAddress; } DOT11_WFD_SESSION_ID, *PDOT11_WFD_SESSION_ID; // WFD Services Advertised Service Info typedef struct _DOT11_WFD_ADVERTISED_SERVICE_DESCRIPTOR { ULONG AdvertisementID; USHORT ConfigMethods; #ifndef __midl _Field_range_(0, DOT11_WFD_SERVICE_NAME_MAX_LENGTH) #endif UCHAR ServiceNameLength; UCHAR ServiceName[DOT11_WFD_SERVICE_NAME_MAX_LENGTH]; } DOT11_WFD_ADVERTISED_SERVICE_DESCRIPTOR, *PDOT11_WFD_ADVERTISED_SERVICE_DESCRIPTOR; typedef struct _DOT11_WFD_ADVERTISED_SERVICE_LIST { USHORT ServiceCount; #ifdef __midl [size_is(ServiceCount)] DOT11_WFD_ADVERTISED_SERVICE_DESCRIPTOR AdvertisedService[*]; #else DOT11_WFD_ADVERTISED_SERVICE_DESCRIPTOR AdvertisedService[1]; #endif } DOT11_WFD_ADVERTISED_SERVICE_LIST, *PDOT11_WFD_ADVERTISED_SERVICE_LIST; // NDIS indications for WFD mode. // Data Type for NDIS_STATUS_DOT11_WFD_DISCOVER_COMPLETE #define DOT11_WFD_DISCOVER_COMPLETE_PARAMETERS_REVISION_1 1 #define DOT11_WFD_DISCOVER_COMPLETE_MAX_LIST_SIZE 128 typedef struct _DOT11_WFD_DISCOVER_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; NDIS_STATUS Status; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; ULONG uListOffset; ULONG uListLength; } DOT11_WFD_DISCOVER_COMPLETE_PARAMETERS, * PDOT11_WFD_DISCOVER_COMPLETE_PARAMETERS; #define DOT11_SIZEOF_WFD_DISCOVER_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_WFD_DISCOVER_COMPLETE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_GO_NEGOTIATION_REQUEST_SEND_COMPLETE #define DOT11_GO_NEGOTIATION_REQUEST_SEND_COMPLETE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_GO_NEGOTIATION_REQUEST_SEND_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; NDIS_STATUS Status; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_GO_NEGOTIATION_REQUEST_SEND_COMPLETE_PARAMETERS, * PDOT11_GO_NEGOTIATION_REQUEST_SEND_COMPLETE_PARAMETERS; #define DOT11_SIZEOF_GO_NEGOTIATION_REQUEST_SEND_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_GO_NEGOTIATION_REQUEST_SEND_COMPLETE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_RECEIVED_GO_NEGOTIATION_REQUEST #define DOT11_RECEIVED_GO_NEGOTIATION_REQUEST_PARAMETERS_REVISION_1 1 typedef struct _DOT11_RECEIVED_GO_NEGOTIATION_REQUEST_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; PVOID RequestContext; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_RECEIVED_GO_NEGOTIATION_REQUEST_PARAMETERS, * PDOT11_RECEIVED_GO_NEGOTIATION_REQUEST_PARAMETERS; #define DOT11_SIZEOF_RECEIVED_GO_NEGOTIATION_REQUEST_PARAMETERS_REVISION_1 sizeof(DOT11_RECEIVED_GO_NEGOTIATION_REQUEST_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_GO_NEGOTIATION_RESPONSE_SEND_COMPLETE #define DOT11_GO_NEGOTIATION_RESPONSE_SEND_COMPLETE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_GO_NEGOTIATION_RESPONSE_SEND_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; NDIS_STATUS Status; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_GO_NEGOTIATION_RESPONSE_SEND_COMPLETE_PARAMETERS, * PDOT11_GO_NEGOTIATION_RESPONSE_SEND_COMPLETE_PARAMETERS; #define DOT11_SIZEOF_GO_NEGOTIATION_RESPONSE_SEND_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_GO_NEGOTIATION_RESPONSE_SEND_COMPLETE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_RECEIVED_GO_NEGOTIATION_RESPONSE #define DOT11_RECEIVED_GO_NEGOTIATION_RESPONSE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_RECEIVED_GO_NEGOTIATION_RESPONSE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; PVOID ResponseContext; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_RECEIVED_GO_NEGOTIATION_RESPONSE_PARAMETERS, * PDOT11_RECEIVED_GO_NEGOTIATION_RESPONSE_PARAMETERS; #define DOT11_SIZEOF_RECEIVED_GO_NEGOTIATION_RESPONSE_PARAMETERS_REVISION_1 sizeof(DOT11_RECEIVED_GO_NEGOTIATION_RESPONSE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_GO_NEGOTIATION_CONFIRMATION_SEND_COMPLETE #define DOT11_GO_NEGOTIATION_CONFIRMATION_SEND_COMPLETE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_GO_NEGOTIATION_CONFIRMATION_SEND_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; NDIS_STATUS Status; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_GO_NEGOTIATION_CONFIRMATION_SEND_COMPLETE_PARAMETERS, * PDOT11_GO_NEGOTIATION_CONFIRMATION_SEND_COMPLETE_PARAMETERS; #define DOT11_SIZEOF_GO_NEGOTIATION_CONFIRMATION_SEND_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_GO_NEGOTIATION_CONFIRMATION_SEND_COMPLETE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_RECEIVED_GO_NEGOTIATION_CONFIRMATION #define DOT11_RECEIVED_GO_NEGOTIATION_CONFIRMATION_PARAMETERS_REVISION_1 1 typedef struct _DOT11_RECEIVED_GO_NEGOTIATION_CONFIRMATION_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_RECEIVED_GO_NEGOTIATION_CONFIRMATION_PARAMETERS, * PDOT11_RECEIVED_GO_NEGOTIATION_CONFIRMATION_PARAMETERS; #define DOT11_SIZEOF_RECEIVED_GO_NEGOTIATION_CONFIRMATION_PARAMETERS_REVISION_1 sizeof(DOT11_RECEIVED_GO_NEGOTIATION_CONFIRMATION_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_INVITATION_REQUEST_SEND_COMPLETE #define DOT11_INVITATION_REQUEST_SEND_COMPLETE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_INVITATION_REQUEST_SEND_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_MAC_ADDRESS ReceiverAddress; DOT11_DIALOG_TOKEN DialogToken; NDIS_STATUS Status; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_INVITATION_REQUEST_SEND_COMPLETE_PARAMETERS, * PDOT11_INVITATION_REQUEST_SEND_COMPLETE_PARAMETERS; #define DOT11_SIZEOF_INVITATION_REQUEST_SEND_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_INVITATION_REQUEST_SEND_COMPLETE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_RECEIVED_INVITATION_REQUEST #define DOT11_RECEIVED_INVITATION_REQUEST_PARAMETERS_REVISION_1 1 typedef struct _DOT11_RECEIVED_INVITATION_REQUEST_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS TransmitterDeviceAddress; DOT11_MAC_ADDRESS BSSID; DOT11_DIALOG_TOKEN DialogToken; PVOID RequestContext; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_RECEIVED_INVITATION_REQUEST_PARAMETERS, * PDOT11_RECEIVED_INVITATION_REQUEST_PARAMETERS; #define DOT11_SIZEOF_RECEIVED_INVITATION_REQUEST_PARAMETERS_REVISION_1 sizeof(DOT11_RECEIVED_INVITATION_REQUEST_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_INVITATION_RESPONSE_SEND_COMPLETE #define DOT11_INVITATION_RESPONSE_SEND_COMPLETE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_INVITATION_RESPONSE_SEND_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS ReceiverDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; NDIS_STATUS Status; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_INVITATION_RESPONSE_SEND_COMPLETE_PARAMETERS, * PDOT11_INVITATION_RESPONSE_SEND_COMPLETE_PARAMETERS; #define DOT11_SIZEOF_INVITATION_RESPONSE_SEND_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_INVITATION_RESPONSE_SEND_COMPLETE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_RECEIVED_INVITATION_RESPONSE #define DOT11_RECEIVED_INVITATION_RESPONSE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_RECEIVED_INVITATION_RESPONSE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS TransmitterDeviceAddress; DOT11_MAC_ADDRESS BSSID; DOT11_DIALOG_TOKEN DialogToken; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_RECEIVED_INVITATION_RESPONSE_PARAMETERS, * PDOT11_RECEIVED_INVITATION_RESPONSE_PARAMETERS; #define DOT11_SIZEOF_RECEIVED_INVITATION_RESPONSE_PARAMETERS_REVISION_1 sizeof(DOT11_RECEIVED_INVITATION_RESPONSE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_PROVISION_DISCOVERY_REQUEST_SEND_COMPLETE #define DOT11_PROVISION_DISCOVERY_REQUEST_SEND_COMPLETE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_PROVISION_DISCOVERY_REQUEST_SEND_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_MAC_ADDRESS ReceiverAddress; DOT11_DIALOG_TOKEN DialogToken; NDIS_STATUS Status; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_PROVISION_DISCOVERY_REQUEST_SEND_COMPLETE_PARAMETERS, * PDOT11_PROVISION_DISCOVERY_REQUEST_SEND_COMPLETE_PARAMETERS; #define DOT11_SIZEOF_PROVISION_DISCOVERY_REQUEST_SEND_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_PROVISION_DISCOVERY_REQUEST_SEND_COMPLETE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_RECEIVED_PROVISION_DISCOVERY_REQUEST #define DOT11_RECEIVED_PROVISION_DISCOVERY_REQUEST_PARAMETERS_REVISION_1 1 typedef struct _DOT11_RECEIVED_PROVISION_DISCOVERY_REQUEST_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS TransmitterDeviceAddress; DOT11_MAC_ADDRESS BSSID; DOT11_DIALOG_TOKEN DialogToken; PVOID RequestContext; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_RECEIVED_PROVISION_DISCOVERY_REQUEST_PARAMETERS, * PDOT11_RECEIVED_PROVISION_DISCOVERY_REQUEST_PARAMETERS; #define DOT11_SIZEOF_RECEIVED_PROVISION_DISCOVERY_REQUEST_PARAMETERS_REVISION_1 sizeof(DOT11_RECEIVED_PROVISION_DISCOVERY_REQUEST_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_PROVISION_DISCOVERY_RESPONSE_SEND_COMPLETE #define DOT11_PROVISION_DISCOVERY_RESPONSE_SEND_COMPLETE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_PROVISION_DISCOVERY_RESPONSE_SEND_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS ReceiverDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; NDIS_STATUS Status; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_PROVISION_DISCOVERY_RESPONSE_SEND_COMPLETE_PARAMETERS, * PDOT11_PROVISION_DISCOVERY_RESPONSE_SEND_COMPLETE_PARAMETERS; #define DOT11_SIZEOF_PROVISION_DISCOVERY_RESPONSE_SEND_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_PROVISION_DISCOVERY_RESPONSE_SEND_COMPLETE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_WFD_RECEIVED_PROVISION_DISCOVERY_RESPONSE #define DOT11_RECEIVED_PROVISION_DISCOVERY_RESPONSE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_RECEIVED_PROVISION_DISCOVERY_RESPONSE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS TransmitterDeviceAddress; DOT11_MAC_ADDRESS BSSID; DOT11_DIALOG_TOKEN DialogToken; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_RECEIVED_PROVISION_DISCOVERY_RESPONSE_PARAMETERS, * PDOT11_RECEIVED_PROVISION_DISCOVERY_RESPONSE_PARAMETERS; #define DOT11_SIZEOF_RECEIVED_PROVISION_DISCOVERY_RESPONSE_PARAMETERS_REVISION_1 sizeof(DOT11_RECEIVED_PROVISION_DISCOVERY_RESPONSE_PARAMETERS) // Data Type for NDIS_STATUS_DOT11_ANQP_QUERY_COMPLETE #define DOT11_ANQP_QUERY_COMPLETE_PARAMETERS_REVISION_1 1 #define DOT11_SIZEOF_ANQP_QUERY_COMPLETE_PARAMETERS_REVISION_1 sizeof(DOT11_ANQP_QUERY_COMPLETE_PARAMETERS) // // Following must match WIFI_ANQP_QUERY_STATUS // typedef enum _DOT11_ANQP_QUERY_RESULT { dot11_ANQP_query_result_success = 0, dot11_ANQP_query_result_failure = 1, dot11_ANQP_query_result_timed_out = 2, dot11_ANQP_query_result_resources = 3, dot11_ANQP_query_result_advertisement_protocol_not_supported_on_remote = 4, dot11_ANQP_query_result_gas_protocol_failure = 5, dot11_ANQP_query_result_advertisement_server_not_responding = 6, dot11_ANQP_query_result_access_issues = 7 } DOT11_ANQP_QUERY_RESULT, *PDOT11_ANQP_QUERY_RESULT; typedef struct _DOT11_ANQP_QUERY_COMPLETE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_ANQP_QUERY_RESULT Status; HANDLE hContext; ULONG uResponseLength; } DOT11_ANQP_QUERY_COMPLETE_PARAMETERS, * PDOT11_ANQP_QUERY_COMPLETE_PARAMETERS; // TAG for WFD device specific OIDs. #define NWF_WFD_DEVICE_OID (0x05U) // TAG for WFD role (GO/Client) specific OIDs. #define NWF_WFD_ROLE_OID (0x06U) // OID_DOT11_WFD_DEVICE_CAPABILITY #define OID_DOT11_WFD_DEVICE_CAPABILITY NWF_DEFINE_OID(0x01, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_WFD_DEVICE_CAPABILITY_CONFIG_REVISION_1 1 typedef struct _DOT11_WFD_DEVICE_CAPABILITY_CONFIG { NDIS_OBJECT_HEADER Header; BOOLEAN bServiceDiscoveryEnabled; BOOLEAN bClientDiscoverabilityEnabled; BOOLEAN bConcurrentOperationSupported; BOOLEAN bInfrastructureManagementEnabled; BOOLEAN bDeviceLimitReached; BOOLEAN bInvitationProcedureEnabled; ULONG WPSVersionsEnabled; } DOT11_WFD_DEVICE_CAPABILITY_CONFIG, * PDOT11_WFD_DEVICE_CAPABILITY_CONFIG; #define DOT11_SIZEOF_WFD_DEVICE_CAPABILITY_CONFIG_1 sizeof(DOT11_WFD_DEVICE_CAPABILITY_CONFIG) // OID_DOT11_WFD_GROUP_OWNER_CAPABILITY #define OID_DOT11_WFD_GROUP_OWNER_CAPABILITY NWF_DEFINE_OID(0x02, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG_REVISION_1 1 typedef struct _DOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG { NDIS_OBJECT_HEADER Header; BOOLEAN bPersistentGroupEnabled; BOOLEAN bIntraBSSDistributionSupported; BOOLEAN bCrossConnectionSupported; BOOLEAN bPersistentReconnectSupported; BOOLEAN bGroupFormationEnabled; ULONG uMaximumGroupLimit; } DOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG, *PDOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG; #define DOT11_SIZEOF_WFD_GROUP_CAPABILITY_CONFIG_1 sizeof(DOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG) #define DOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG_REVISION_2 2 typedef struct _DOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG_V2 { NDIS_OBJECT_HEADER Header; BOOLEAN bPersistentGroupEnabled; BOOLEAN bIntraBSSDistributionSupported; BOOLEAN bCrossConnectionSupported; BOOLEAN bPersistentReconnectSupported; BOOLEAN bGroupFormationEnabled; ULONG uMaximumGroupLimit; BOOLEAN bEapolKeyIpAddressAllocationSupported; } DOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG_V2, *PDOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG_V2; #define DOT11_SIZEOF_WFD_GROUP_CAPABILITY_CONFIG_2 sizeof(DOT11_WFD_GROUP_OWNER_CAPABILITY_CONFIG_V2) // OID_DOT11_WFD_DEVICE_INFO #define OID_DOT11_WFD_DEVICE_INFO NWF_DEFINE_OID(0x03, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_WFD_DEVICE_INFO_REVISION_1 1 typedef struct _DOT11_WFD_DEVICE_INFO { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS DeviceAddress; USHORT ConfigMethods; DOT11_WFD_DEVICE_TYPE PrimaryDeviceType; DOT11_WPS_DEVICE_NAME DeviceName; } DOT11_WFD_DEVICE_INFO, *PDOT11_WFD_DEVICE_INFO; #define DOT11_SIZEOF_WFD_DEVICE_INFO_REVISION_1 sizeof(DOT11_WFD_DEVICE_INFO) // OID_DOT11_WFD_SECONDARY_DEVICE_TYPE_LIST #define OID_DOT11_WFD_SECONDARY_DEVICE_TYPE_LIST NWF_DEFINE_OID(0x04, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_WFD_SECONDARY_DEVICE_TYPE_LIST_REVISION_1 1 typedef struct _DOT11_WFD_SECONDARY_DEVICE_TYPE_LIST { NDIS_OBJECT_HEADER Header; ULONG uNumOfEntries; ULONG uTotalNumOfEntries; DOT11_WFD_DEVICE_TYPE SecondaryDeviceTypes[1]; } DOT11_WFD_SECONDARY_DEVICE_TYPE_LIST, * PDOT11_WFD_SECONDARY_DEVICE_TYPE_LIST; #define DOT11_SIZEOF_WFD_SECONDARY_DEVICE_TYPE_LIST_REVISION_1 FIELD_OFFSET(DOT11_WFD_SECONDARY_DEVICE_TYPE_LIST, SecondaryDeviceTypes) // OID_DOT11_WFD_DISCOVER_REQUEST #define OID_DOT11_WFD_DISCOVER_REQUEST NWF_DEFINE_OID(0x05, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) typedef enum _DOT11_WFD_DISCOVER_TYPE { dot11_wfd_discover_type_scan_only = 1, dot11_wfd_discover_type_find_only = 2, dot11_wfd_discover_type_auto = 3, dot11_wfd_discover_type_scan_social_channels = 4, dot11_wfd_discover_type_forced = 0x80000000 } DOT11_WFD_DISCOVER_TYPE, *PDOT11_WFD_DISCOVER_TYPE; typedef enum _DOT11_WFD_SCAN_TYPE { dot11_wfd_scan_type_active = 1, dot11_wfd_scan_type_passive = 2, dot11_wfd_scan_type_auto = 3 } DOT11_WFD_SCAN_TYPE, *PDOT11_WFD_SCAN_TYPE; #define DOT11_WFD_DISCOVER_DEVICE_FILTER_REVISION_1 #define DOT11_SIZEOF_WFD_DISCOVER_DEVICE_FILTER_REVISION_1 #define DISCOVERY_FILTER_BITMASK_DEVICE 0x1 #define DISCOVERY_FILTER_BITMASK_GO 0x2 #define DISCOVERY_FILTER_BITMASK_ANY 0xF typedef struct _DOT11_WFD_DISCOVER_DEVICE_FILTER { DOT11_MAC_ADDRESS DeviceID; UCHAR ucBitmask; DOT11_SSID GroupSSID; } DOT11_WFD_DISCOVER_DEVICE_FILTER, *PDOT11_WFD_DISCOVER_DEVICE_FILTER; #define DOT11_WFD_DISCOVER_REQUEST_REVISION_1 1 typedef struct _DOT11_WFD_DISCOVER_REQUEST { NDIS_OBJECT_HEADER Header; DOT11_WFD_DISCOVER_TYPE DiscoverType; DOT11_WFD_SCAN_TYPE ScanType; ULONG uDiscoverTimeout; ULONG uDeviceFilterListOffset; ULONG uNumDeviceFilters; ULONG uIEsOffset; ULONG uIEsLength; BOOLEAN bForceScanLegacyNetworks; } DOT11_WFD_DISCOVER_REQUEST, *PDOT11_WFD_DISCOVER_REQUEST; #define DOT11_SIZEOF_WFD_DISCOVER_REQUEST_REVISION_1 sizeof(DOT11_WFD_DISCOVER_REQUEST) // OID_DOT11_WFD_ENUM_DEVICE_LIST #define OID_DOT11_WFD_ENUM_DEVICE_LIST NWF_DEFINE_OID(0x06, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) //See comment about DOT11_BSS_ENTRY_PHY_SPECIFIC_INFO above #ifndef __midl #define DOT11_DEVICE_ENTRY_BYTE_ARRAY_REVISION_1 1 typedef struct _DOT11_WFD_DEVICE_ENTRY { ULONG uPhyId; DOT11_BSS_ENTRY_PHY_SPECIFIC_INFO PhySpecificInfo; DOT11_MAC_ADDRESS dot11BSSID; DOT11_BSS_TYPE dot11BSSType; DOT11_MAC_ADDRESS TransmitterAddress; LONG lRSSI; ULONG uLinkQuality; USHORT usBeaconPeriod; ULONGLONG ullTimestamp; ULONGLONG ullBeaconHostTimestamp; ULONGLONG ullProbeResponseHostTimestamp; USHORT usCapabilityInformation; ULONG uBeaconIEsOffset; ULONG uBeaconIEsLength; // Can be 0 ULONG uProbeResponseIEsOffset; ULONG uProbeResponseIEsLength; // Can be 0 } DOT11_WFD_DEVICE_ENTRY, *PDOT11_WFD_DEVICE_ENTRY; #endif #define DOT11_WFD_DEVICE_ENTRY_GET_DEVICE_SIZE(_device_) \ (sizeof(DOT11_WFD_DEVICE_ENTRY) + (_device_)->uBeaconIEsLength + (_device_)-> uProbeResponseIEsLength) // OID_DOT11_WFD_LISTEN_STATE_DISCOVERABILITY #define OID_DOT11_WFD_LISTEN_STATE_DISCOVERABILITY NWF_DEFINE_OID(0x07, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) // ULONG #define DOT11_WFD_DEVICE_NOT_DISCOVERABLE 0 #define DOT11_WFD_DEVICE_AUTO_AVAILABILITY 16 #define DOT11_WFD_DEVICE_HIGH_AVAILABILITY 24 // OID_DOT11_WFD_ADDITIONAL_IE #define OID_DOT11_WFD_ADDITIONAL_IE NWF_DEFINE_OID(0x08, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_WFD_ADDITIONAL_IE_REVISION_1 1 typedef struct _DOT11_WFD_ADDITIONAL_IE { NDIS_OBJECT_HEADER Header; ULONG uBeaconIEsOffset; ULONG uBeaconIEsLength; ULONG uProbeResponseIEsOffset; ULONG uProbeResponseIEsLength; ULONG uDefaultRequestIEsOffset; ULONG uDefaultRequestIEsLength; } DOT11_WFD_ADDITIONAL_IE, *PDOT11_WFD_ADDITIONAL_IE; #define DOT11_SIZEOF_WFD_ADDITIONAL_IE_REVISION_1 sizeof(DOT11_WFD_ADDITIONAL_IE) #define DOT11_WFD_ADDITIONAL_IE_GET_HEADER_SIZE(_addie_) \ (sizeof(DOT11_WFD_ADDITIONAL_IE)) #define DOT11_WFD_ADDITIONAL_IE_GET_HEADER_END(_addie_) \ (((PCHAR)(_addie_))+sizeof(DOT11_WFD_ADDITIONAL_IE)) #define DOT11_WFD_ADDITIONAL_IE_GET_BEACON_IE(_addie_) \ (((PCHAR)(_addie_))+(_addie_)->uBeaconIEsOffset) #define DOT11_WFD_ADDITIONAL_IE_SET_BEACON_IE(_addie_, _beacon_) \ (_addie_)->uBeaconIEsOffset = (DWORD)(((SIZE_T)(_beacon_))-((SIZE_T)(_addie_))) #define DOT11_WFD_ADDITIONAL_IE_GET_BEACON_IE_SIZE(_addie_) \ ((_addie_)->uBeaconIEsLength) #define DOT11_WFD_ADDITIONAL_IE_SET_BEACON_IE_SIZE(_addie_, _size_) \ (_addie_)->uBeaconIEsLength = (DWORD)(_size_) #define DOT11_WFD_ADDITIONAL_IE_GET_BEACON_IE_END(_addie_) \ (((PCHAR)(_addie_))+(_addie_)->uBeaconIEsOffset+DOT11_WFD_ADDITIONAL_IE_GET_BEACON_IE_SIZE(_addie_)) #define DOT11_WFD_ADDITIONAL_IE_GET_PROBE_RESPONSE_IE(_addie_) \ (((PCHAR)(_addie_))+(_addie_)->uProbeResponseIEsOffset) #define DOT11_WFD_ADDITIONAL_IE_SET_PROBE_RESPONSE_IE(_addie_, _response_) \ (_addie_)->uProbeResponseIEsOffset = (DWORD)(((SIZE_T)(_response_))-((SIZE_T)(_addie_))) #define DOT11_WFD_ADDITIONAL_IE_GET_PROBE_RESPONSE_IE_SIZE(_addie_) \ ((_addie_)->uProbeResponseIEsLength) #define DOT11_WFD_ADDITIONAL_IE_SET_PROBE_RESPONSE_IE_SIZE(_addie_, _size_) \ (_addie_)->uProbeResponseIEsLength = (DWORD)(_size_) #define DOT11_WFD_ADDITIONAL_IE_GET_PROBE_RESPONSE_IE_END(_addie_) \ (((PCHAR)(_addie_))+(_addie_)->uProbeResponseIEsOffset+DOT11_WFD_ADDITIONAL_IE_GET_PROBE_RESPONSE_IE_SIZE(_addie_)) #define DOT11_WFD_ADDITIONAL_IE_GET_PROBE_REQUEST_IE(_addie_) \ (((PCHAR)(_addie_))+(_addie_)->uDefaultRequestIEsOffset) #define DOT11_WFD_ADDITIONAL_IE_SET_PROBE_REQUEST_IE(_addie_, _request_) \ (_addie_)->uDefaultRequestIEsOffset = (DWORD)(((SIZE_T)(_request_))-((SIZE_T)(_addie_))) #define DOT11_WFD_ADDITIONAL_IE_GET_PROBE_REQUEST_IE_SIZE(_addie_) \ ((_addie_)->uDefaultRequestIEsLength) #define DOT11_WFD_ADDITIONAL_IE_SET_PROBE_REQUEST_IE_SIZE(_addie_, _size_) \ (_addie_)->uDefaultRequestIEsLength = (DWORD)(_size_) #define DOT11_WFD_ADDITIONAL_IE_GET_ALL_IE_SIZE(_addie_) \ ((_addie_)->uBeaconIEsLength + \ (_addie_)->uProbeResponseIEsLength + \ (_addie_)->uDefaultRequestIEsLength) #define DOT11_WFD_ADDITIONAL_IE_GET_TOTAL_SIZE(_addie_) \ (DOT11_WFD_ADDITIONAL_IE_GET_HEADER_SIZE(_addie_) + \ DOT11_WFD_ADDITIONAL_IE_GET_ALL_IE_SIZE(_addie_)) // OID_DOT11_WFD_FLUSH_DEVICE_LIST #define OID_DOT11_WFD_FLUSH_DEVICE_LIST NWF_DEFINE_OID(0x09, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) // No data // OID_DOT11_WFD_SEND_GO_NEGOTIATION_REQUEST #define OID_DOT11_WFD_SEND_GO_NEGOTIATION_REQUEST NWF_DEFINE_OID(0x0A, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_SEND_GO_NEGOTIATION_REQUEST_PARAMETERS_REVISION_1 1 typedef struct _DOT11_SEND_GO_NEGOTIATION_REQUEST_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; ULONG uSendTimeout; DOT11_WFD_GO_INTENT GroupOwnerIntent; DOT11_WFD_CONFIGURATION_TIMEOUT MinimumConfigTimeout; DOT11_MAC_ADDRESS IntendedInterfaceAddress; DOT11_WFD_GROUP_CAPABILITY GroupCapability; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_SEND_GO_NEGOTIATION_REQUEST_PARAMETERS, * PDOT11_SEND_GO_NEGOTIATION_REQUEST_PARAMETERS; #define DOT11_SIZEOF_SEND_GO_NEGOTIATION_REQUEST_PARAMETERS_REVISION_1 sizeof(DOT11_SEND_GO_NEGOTIATION_REQUEST_PARAMETERS) // OID_DOT11_WFD_SEND_GO_NEGOTIATION_RESPONSE #define OID_DOT11_WFD_SEND_GO_NEGOTIATION_RESPONSE NWF_DEFINE_OID(0x0B, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_SEND_GO_NEGOTIATION_RESPONSE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_SEND_GO_NEGOTIATION_RESPONSE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; PVOID RequestContext; ULONG uSendTimeout; DOT11_WFD_STATUS_CODE Status; DOT11_WFD_GO_INTENT GroupOwnerIntent; DOT11_WFD_CONFIGURATION_TIMEOUT MinimumConfigTimeout; DOT11_MAC_ADDRESS IntendedInterfaceAddress; DOT11_WFD_GROUP_CAPABILITY GroupCapability; DOT11_WFD_GROUP_ID GroupID; BOOLEAN bUseGroupID; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_SEND_GO_NEGOTIATION_RESPONSE_PARAMETERS, * PDOT11_SEND_GO_NEGOTIATION_RESPONSE_PARAMETERS; #define DOT11_SIZEOF_SEND_GO_NEGOTIATION_RESPONSE_PARAMETERS_REVISION_1 sizeof(DOT11_SEND_GO_NEGOTIATION_RESPONSE_PARAMETERS) // OID_DOT11_WFD_SEND_GO_NEGOTIATION_CONFIRMATION #define OID_DOT11_WFD_SEND_GO_NEGOTIATION_CONFIRMATION NWF_DEFINE_OID(0x0C, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_SEND_GO_NEGOTIATION_CONFIRMATION_PARAMETERS_REVISION_1 1 typedef struct _DOT11_SEND_GO_NEGOTIATION_CONFIRMATION_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS PeerDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; PVOID ResponseContext; ULONG uSendTimeout; DOT11_WFD_STATUS_CODE Status; DOT11_WFD_GROUP_CAPABILITY GroupCapability; DOT11_WFD_GROUP_ID GroupID; BOOLEAN bUseGroupID; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_SEND_GO_NEGOTIATION_CONFIRMATION_PARAMETERS, * PDOT11_SEND_GO_NEGOTIATION_CONFIRMATION_PARAMETERS; #define DOT11_SIZEOF_SEND_GO_NEGOTIATION_CONFIRMATION_PARAMETERS_REVISION_1 sizeof(DOT11_SEND_GO_NEGOTIATION_CONFIRMATION_PARAMETERS) // OID_DOT11_WFD_SEND_INVITATION_REQUEST #define OID_DOT11_WFD_SEND_INVITATION_REQUEST NWF_DEFINE_OID(0x0D, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) typedef struct _DOT11_WFD_INVITATION_FLAGS { UCHAR InvitationType:1; // 0 = Join active group, 1 = Reinvoke UCHAR Reserved:7; } DOT11_WFD_INVITATION_FLAGS, * PDOT11_WFD_INVITATION_FLAGS; #define DOT11_SEND_INVITATION_REQUEST_PARAMETERS_REVISION_1 1 typedef struct _DOT11_SEND_INVITATION_REQUEST_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_DIALOG_TOKEN DialogToken; DOT11_MAC_ADDRESS PeerDeviceAddress; ULONG uSendTimeout; DOT11_WFD_CONFIGURATION_TIMEOUT MinimumConfigTimeout; DOT11_WFD_INVITATION_FLAGS InvitationFlags; DOT11_MAC_ADDRESS GroupBSSID; // Optional BOOLEAN bUseGroupBSSID; DOT11_WFD_CHANNEL OperatingChannel; BOOLEAN bUseSpecifiedOperatingChannel; DOT11_WFD_GROUP_ID GroupID; BOOLEAN bLocalGO; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_SEND_INVITATION_REQUEST_PARAMETERS, * PDOT11_SEND_INVITATION_REQUEST_PARAMETERS; #define DOT11_SIZEOF_SEND_INVITATION_REQUEST_PARAMETERS_REVISION_1 sizeof(DOT11_SEND_INVITATION_REQUEST_PARAMETERS) // OID_DOT11_WFD_SEND_INVITATION_RESPONSE #define OID_DOT11_WFD_SEND_INVITATION_RESPONSE NWF_DEFINE_OID(0x0E, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_SEND_INVITATION_RESPONSE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_SEND_INVITATION_RESPONSE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS ReceiverDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; PVOID RequestContext; ULONG uSendTimeout; DOT11_WFD_STATUS_CODE Status; DOT11_WFD_CONFIGURATION_TIMEOUT MinimumConfigTimeout; DOT11_MAC_ADDRESS GroupBSSID; // Optional BOOLEAN bUseGroupBSSID; DOT11_WFD_CHANNEL OperatingChannel; BOOLEAN bUseSpecifiedOperatingChannel; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_SEND_INVITATION_RESPONSE_PARAMETERS, * PDOT11_SEND_INVITATION_RESPONSE_PARAMETERS; #define DOT11_SIZEOF_SEND_INVITATION_RESPONSE_PARAMETERS_REVISION_1 sizeof(DOT11_SEND_INVITATION_RESPONSE_PARAMETERS) // OID_DOT11_WFD_SEND_PROVISION_DISCOVERY_REQUEST #define OID_DOT11_WFD_SEND_PROVISION_DISCOVERY_REQUEST NWF_DEFINE_OID(0x0F, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_SEND_PROVISION_DISCOVERY_REQUEST_PARAMETERS_REVISION_1 1 typedef struct _DOT11_SEND_PROVISION_DISCOVERY_REQUEST_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_DIALOG_TOKEN DialogToken; DOT11_MAC_ADDRESS PeerDeviceAddress; ULONG uSendTimeout; DOT11_WFD_GROUP_CAPABILITY GroupCapability; DOT11_WFD_GROUP_ID GroupID; BOOLEAN bUseGroupID; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_SEND_PROVISION_DISCOVERY_REQUEST_PARAMETERS, * PDOT11_SEND_PROVISION_DISCOVERY_REQUEST_PARAMETERS; #define DOT11_SIZEOF_SEND_PROVISION_DISCOVERY_REQUEST_PARAMETERS_REVISION_1 sizeof(DOT11_SEND_PROVISION_DISCOVERY_REQUEST_PARAMETERS) // OID_DOT11_WFD_SEND_PROVISION_DISCOVERY_RESPONSE #define OID_DOT11_WFD_SEND_PROVISION_DISCOVERY_RESPONSE NWF_DEFINE_OID(0x10, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_SEND_PROVISION_DISCOVERY_RESPONSE_PARAMETERS_REVISION_1 1 typedef struct _DOT11_SEND_PROVISION_DISCOVERY_RESPONSE_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_MAC_ADDRESS ReceiverDeviceAddress; DOT11_DIALOG_TOKEN DialogToken; PVOID RequestContext; ULONG uSendTimeout; ULONG uIEsOffset; ULONG uIEsLength; } DOT11_SEND_PROVISION_DISCOVERY_RESPONSE_PARAMETERS, * PDOT11_SEND_PROVISION_DISCOVERY_RESPONSE_PARAMETERS; #define DOT11_SIZEOF_SEND_PROVISION_DISCOVERY_RESPONSE_PARAMETERS_REVISION_1 sizeof(DOT11_SEND_PROVISION_DISCOVERY_RESPONSE_PARAMETERS) // OID_DOT11_WFD_GET_DIALOG_TOKEN #define OID_DOT11_WFD_GET_DIALOG_TOKEN NWF_DEFINE_OID(0x11, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) // DOT11_DIALOG_TOKEN // OID_DOT11_WFD_STOP_DISCOVERY #define OID_DOT11_WFD_STOP_DISCOVERY NWF_DEFINE_OID(0x12, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) // OID_DOT11_WFD_ENABLE_HRDSSS_DEVICES #define OID_DOT11_WFD_ENABLE_HRDSSS_DEVICES NWF_DEFINE_OID(0x13, NWF_WFD_DEVICE_OID, NWF_OPTIONAL_OID) // OID_DOT11_WFD_DEVICE_LISTEN_CHANNEL #define OID_DOT11_WFD_DEVICE_LISTEN_CHANNEL NWF_DEFINE_OID(0x14, NWF_WFD_DEVICE_OID, NWF_MANDATORY_OID) #define DOT11_WFD_DEVICE_LISTEN_CHANNEL_REVISION_1 1 #define DOT11_SIZEOF_WFD_DEVICE_LISTEN_CHANNEL_REVISION_1 sizeof(DOT11_WFD_DEVICE_LISTEN_CHANNEL) typedef struct _DOT11_WFD_DEVICE_LISTEN_CHANNEL { NDIS_OBJECT_HEADER Header; UCHAR ChannelNumber; } DOT11_WFD_DEVICE_LISTEN_CHANNEL, *PDOT11_WFD_DEVICE_LISTEN_CHANNEL; // OID_DOT11_WFD_DESIRED_GROUP_ID #define OID_DOT11_WFD_DESIRED_GROUP_ID NWF_DEFINE_OID(0x01, NWF_WFD_ROLE_OID, NWF_MANDATORY_OID) // DOT11_WFD_GROUP_ID // OID_DOT11_WFD_START_GO_REQUEST #define OID_DOT11_WFD_START_GO_REQUEST NWF_DEFINE_OID(0x02, NWF_WFD_ROLE_OID, NWF_MANDATORY_OID) // No data // OID_DOT11_WFD_GROUP_START_PARAMETERS #define OID_DOT11_WFD_GROUP_START_PARAMETERS NWF_DEFINE_OID(0x03, NWF_WFD_ROLE_OID, NWF_MANDATORY_OID) #define DOT11_WFD_GROUP_START_PARAMETERS_REVISION_1 1 typedef struct _DOT11_WFD_GROUP_START_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_WFD_CHANNEL AdvertisedOperatingChannel; } DOT11_WFD_GROUP_START_PARAMETERS, * PDOT11_WFD_GROUP_START_PARAMETERS; #define DOT11_SIZEOF_WFD_GROUP_START_PARAMETERS_REVISION_1 sizeof(DOT11_WFD_GROUP_START_PARAMETERS) // OID_DOT11_WFD_CONNECT_TO_GROUP_REQUEST #define OID_DOT11_WFD_CONNECT_TO_GROUP_REQUEST NWF_DEFINE_OID(0x04, NWF_WFD_ROLE_OID, NWF_MANDATORY_OID) // No data // OID_DOT11_WFD_DISCONNECT_FROM_GROUP_REQUEST #define OID_DOT11_WFD_DISCONNECT_FROM_GROUP_REQUEST NWF_DEFINE_OID(0x05, NWF_WFD_ROLE_OID, NWF_MANDATORY_OID) // No data // OID_DOT11_WFD_GROUP_JOIN_PARAMETERS #define OID_DOT11_WFD_GROUP_JOIN_PARAMETERS NWF_DEFINE_OID(0x06, NWF_WFD_ROLE_OID, NWF_MANDATORY_OID) #define DOT11_WFD_GROUP_JOIN_PARAMETERS_REVISION_1 1 typedef struct _DOT11_WFD_GROUP_JOIN_PARAMETERS { NDIS_OBJECT_HEADER Header; DOT11_WFD_CHANNEL GOOperatingChannel; ULONG GOConfigTime; BOOLEAN bInGroupFormation; BOOLEAN bWaitForWPSReady; } DOT11_WFD_GROUP_JOIN_PARAMETERS, * PDOT11_WFD_GROUP_JOIN_PARAMETERS; #define DOT11_SIZEOF_WFD_GROUP_JOIN_PARAMETERS_REVISION_1 sizeof(DOT11_WFD_GROUP_JOIN_PARAMETERS) #endif // NWF_WFD_SUPPORTED #ifdef NWF_POWER_SAVE_SUPPORTED #define NWF_POWER_SAVE_OID (0x07U) // OID_DOT11_POWER_MGMT_MODE_AUTO_ENABLED #define OID_DOT11_POWER_MGMT_MODE_AUTO_ENABLED NWF_DEFINE_OID(0x01, NWF_POWER_SAVE_OID, NWF_MANDATORY_OID) #define DOT11_POWER_MGMT_AUTO_MODE_ENABLED_REVISION_1 1 #define DOT11_SIZEOF_POWER_MGMT_AUTO_MODE_ENABLE_INFO_REVISION_1 sizeof(DOT11_POWER_MGMT_AUTO_MODE_ENABLED_INFO) typedef struct _DOT11_POWER_MGMT_AUTO_MODE_ENABLED_INFO { NDIS_OBJECT_HEADER Header; BOOLEAN bEnabled; } DOT11_POWER_MGMT_AUTO_MODE_ENABLED_INFO, * PDOT11_POWER_MGMT_AUTO_MODE_ENABLED_INFO; // OID_DOT11_POWER_MGMT_MODE_STATUS #define OID_DOT11_POWER_MGMT_MODE_STATUS NWF_DEFINE_OID(0x02, NWF_POWER_SAVE_OID, NWF_MANDATORY_OID) typedef enum _DOT11_POWER_MODE_REASON { dot11_power_mode_reason_no_change =0, // initially in this state, has not changed since dot11_power_mode_reason_noncompliant_AP =1, // AP is not compliant. As to be in CAM dot11_power_mode_reason_legacy_WFD_device =2, // WFD device is legacy dot11_power_mode_reason_compliant_AP =3, // AP connected does PSM correctly, PSM can works dot11_power_mode_reason_compliant_WFD_device=4, // All connected WFD device can do PSM dot11_power_mode_reason_others =5 } DOT11_POWER_MODE_REASON; #define DOT11_POWER_MGMT_MODE_STATUS_INFO_REVISION_1 1 #define DOT11_SIZEOF_POWER_MGMT_MODE_STATUS_INFO_REVISION_1 sizeof(DOT11_POWER_MGMT_MODE_STATUS_INFO) typedef struct _DOT11_POWER_MGMT_MODE_STATUS_INFO { NDIS_OBJECT_HEADER Header; DOT11_POWER_MODE PowerSaveMode; ULONG uPowerSaveLevel; DOT11_POWER_MODE_REASON Reason; } DOT11_POWER_MGMT_MODE_STATUS_INFO, * PDOT11_POWER_MGMT_MODE_STATUSINFO; //OID_DOT11_OFFLOAD_NETWORK_LIST #define OID_DOT11_OFFLOAD_NETWORK_LIST NWF_DEFINE_OID(0x03, NWF_POWER_SAVE_OID, NWF_MANDATORY_OID) #define DOT11_MAX_CHANNEL_HINTS 4 #define DOT11_INVALID_CHANNEL_NUMBER 0 typedef struct DOT11_CHANNEL_HINT { DOT11_PHY_TYPE Dot11PhyType; ULONG uChannelNumber; } DOT11_CHANNEL_HINT, * PDOT11_CHANNEL_HINT; typedef struct DOT11_OFFLOAD_NETWORK { DOT11_SSID Ssid; DOT11_CIPHER_ALGORITHM UnicastCipher; DOT11_AUTH_ALGORITHM AuthAlgo; DOT11_CHANNEL_HINT Dot11ChannelHints[DOT11_MAX_CHANNEL_HINTS]; } DOT11_OFFLOAD_NETWORK, * PDOT11_OFFLOAD_NETWORK; #define DOT11_NLO_FLAG_STOP_NLO_INDICATION 0x00000001 // stop NLO scan and NLO discovery indications #define DOT11_NLO_FLAG_SCAN_ON_AOAC_PLATFORM 0x00000002 // typically used on AOAC platform in connected standby #define DOT11_NLO_FLAG_SCAN_AT_SYSTEM_RESUME 0x00000004 // used at system resume once for instant connect #define DOT11_OFFLOAD_NETWORK_LIST_REVISION_1 1 #define DOT11_SIZEOF_OFFLOAD_NETWORK_LIST_INFO_REVISION_1(_uNumOfEntry) \ (FIELD_OFFSET(DOT11_OFFLOAD_NETWORK_LIST_INFO, offloadNetworkList)+ \ sizeof(DOT11_OFFLOAD_NETWORK)*(_uNumOfEntry)) // // when NLO has 0 entry, the minimum size is this. Drivers can safely access fields except entries. // #define DOT11_MIN_SIZEOF_OFFLOAD_NETWORK_LIST_INFO_REVISION_1 \ (FIELD_OFFSET(DOT11_OFFLOAD_NETWORK_LIST_INFO, offloadNetworkList)) typedef struct _DOT11_OFFLOAD_NETWORK_LIST_INFO { NDIS_OBJECT_HEADER Header; ULONG ulFlags; // DOT11_NLO_FLAG_* ULONG FastScanPeriod; ULONG FastScanIterations; ULONG SlowScanPeriod; ULONG uNumOfEntries; DOT11_OFFLOAD_NETWORK offloadNetworkList[1]; } DOT11_OFFLOAD_NETWORK_LIST_INFO, * PDOT11_OFFLOAD_NETWORK_LIST_INFO; #endif // NWF_POWER_SAVE_SUPPORTED // NDIS_STATUS_DOT11_OFFLOAD_NETWORK_STATUS_CHANGED #define DOT11_OFFLOAD_NETWORK_STATUS_PARAMETERS_REVISION_1 1 typedef struct _DOT11_OFFLOAD_NETWORK_STATUS_PARAMETERS { NDIS_OBJECT_HEADER Header; NDIS_STATUS Status; } DOT11_OFFLOAD_NETWORK_STATUS_PARAMETERS, * PDOT11_OFFLOAD_NETWORK_STATUS_PARAMETERS; #define DOT11_SIZEOF_OFFLOAD_NETWORK_STATUS_PARAMETERS_REVISION_1 sizeof(DOT11_OFFLOAD_NETWORK_STATUS_PARAMETERS) #define NWF_MANUFACTURING_OID (0x08U) #define OID_DOT11_MANUFACTURING_TEST NWF_DEFINE_OID(0x01, NWF_MANUFACTURING_OID, NWF_OPTIONAL_OID) #define DOT11_MANUFACTURING_TEST_REVISION_1 1 typedef enum _DOT11_MANUFACTURING_TEST_TYPE { dot11_manufacturing_test_unknown = 0, dot11_manufacturing_test_self_start = 1, dot11_manufacturing_test_self_query_result = 2, dot11_manufacturing_test_rx = 3, dot11_manufacturing_test_tx = 4, dot11_manufacturing_test_query_adc = 5, dot11_manufacturing_test_set_data = 6, dot11_manufacturing_test_query_data = 7, dot11_manufacturing_test_sleep = 8, dot11_manufacturing_test_awake = 9, dot11_manufacturing_test_IHV_start = 0x80000000, dot11_manufacturing_test_IHV_end = 0xffffffff } DOT11_MANUFACTURING_TEST_TYPE, * PDOT11_MANUFACTURING_TEST_TYPE; typedef struct _DOT11_MANUFACTURING_TEST { DOT11_MANUFACTURING_TEST_TYPE dot11ManufacturingTestType; ULONG uBufferLength; UCHAR ucBuffer[1]; } DOT11_MANUFACTURING_TEST, * PDOT11_MANUFACTURING_TEST; // dot11_manufacturing_test_self typedef enum DOT11_MANUFACTURING_SELF_TEST_TYPE { DOT11_MANUFACTURING_SELF_TEST_TYPE_INTERFACE = 1, DOT11_MANUFACTURING_SELF_TEST_TYPE_RF_INTERFACE, DOT11_MANUFACTURING_SELF_TEST_TYPE_BT_COEXISTENCE } DOT11_MANUFACTURING_SELF_TEST_TYPE, * PDOT11_MANUFACTURING_SELF_TEST_TYPE; typedef struct _DOT11_MANUFACTURING_SELF_TEST_SET_PARAMS { DOT11_MANUFACTURING_SELF_TEST_TYPE SelfTestType; ULONG uTestID; ULONG uPinBitMask; PVOID pvContext; ULONG uBufferLength; UCHAR ucBufferIn[1]; // Additional input for self-test (optional) } DOT11_MANUFACTURING_SELF_TEST_SET_PARAMS, *PDOT11_MANUFACTURING_SELF_TEST_SET_PARAMS; typedef struct _DOT11_MANUFACTURING_SELF_TEST_QUERY_RESULTS { DOT11_MANUFACTURING_SELF_TEST_TYPE SelfTestType; ULONG uTestID; BOOLEAN bResult; // PASS/FAIL ULONG uPinFailedBitMask; // Detected PIN faults PVOID pvContext; ULONG uBytesWrittenOut; UCHAR ucBufferOut[1]; // Additional output from self-test (optional) } DOT11_MANUFACTURING_SELF_TEST_QUERY_RESULTS, *PDOT11_MANUFACTURING_SELF_TEST_QUERY_RESULTS; // Band typedef enum DOT11_BAND { dot11_band_2p4g = 1, dot11_band_4p9g, dot11_band_5g } DOT11_BAND, * PDOT11_BAND; // dot11_manufacturing_test_rx typedef struct _DOT11_MANUFACTURING_FUNCTIONAL_TEST_RX { BOOLEAN bEnabled; DOT11_BAND Dot11Band; ULONG uChannel; LONG PowerLevel; } DOT11_MANUFACTURING_FUNCTIONAL_TEST_RX, * PDOT11_MANUFACTURING_FUNCTIONAL_TEST_RX; // dot11_manufacturing_test_tx typedef struct _DOT11_MANUFACTURING_FUNCTIONAL_TEST_TX { BOOLEAN bEnable; BOOLEAN bOpenLoop; DOT11_BAND Dot11Band; ULONG uChannel; ULONG uSetPowerLevel; LONG ADCPowerLevel; } DOT11_MANUFACTURING_FUNCTIONAL_TEST_TX, * PDOT11_MANUFACTURING_FUNCTIONAL_TEST_TX; // dot11_manufacturing_test_query_adc typedef struct _DOT11_MANUFACTURING_FUNCTIONAL_TEST_QUERY_ADC { DOT11_BAND Dot11Band; ULONG uChannel; LONG ADCPowerLevel; } DOT11_MANUFACTURING_FUNCTIONAL_TEST_QUERY_ADC, * PDOT11_MANUFACTURING_FUNCTIONAL_TEST_QUERY_ADC; // dot11_manufacturing_test_set_data typedef struct _DOT11_MANUFACTURING_TEST_SET_DATA { ULONG uKey; ULONG uOffset; ULONG uBufferLength; UCHAR ucBufferIn[1]; } DOT11_MANUFACTURING_TEST_SET_DATA, * PDOT11_MANUFACTURING_TEST_SET_DATA; // dot11_manufacturing_test_query_data typedef struct _DOT11_MANUFACTURING_TEST_QUERY_DATA { ULONG uKey; ULONG uOffset; ULONG uBufferLength; ULONG uBytesRead; UCHAR ucBufferOut[1]; } DOT11_MANUFACTURING_TEST_QUERY_DATA, * PDOT11_MANUFACTURING_TEST_QUERY_DATA; // dot11_manufacturing_test_sleep typedef struct _DOT11_MANUFACTURING_TEST_SLEEP { ULONG uSleepTime; PVOID pvContext; } DOT11_MANUFACTURING_TEST_SLEEP, * PDOT11_MANUFACTURING_TEST_SLEEP; // dot11_manufacturing_test_awake // There is no data associated with this call. // Manufacturing notifications typedef enum _DOT11_MANUFACTURING_CALLBACK_TYPE { dot11_manufacturing_callback_unknown = 0, dot11_manufacturing_callback_self_test_complete = 1, dot11_manufacturing_callback_sleep_complete = 2, dot11_manufacturing_callback_IHV_start = 0x80000000, dot11_manufacturing_callback_IHV_end = 0xffffffff } DOT11_MANUFACTURING_CALLBACK_TYPE, * PDOT11_MANUFACTURING_CALLBACK_TYPE; typedef struct DOT11_MANUFACTURING_CALLBACK_PARAMETERS { #define DOT11_MANUFACTURING_CALLBACK_REVISION_1 1 NDIS_OBJECT_HEADER Header; DOT11_MANUFACTURING_CALLBACK_TYPE dot11ManufacturingCallbackType; ULONG uStatus; PVOID pvContext; } DOT11_MANUFACTURING_CALLBACK_PARAMETERS, * PDOT11_MANUFACTURING_CALLBACK_PARAMETERS; // // OID_DOT11_SET_FT_REASSOCIATION_PARAMETERS is a new Oid for WDI. It is defined here // because it is a Direct Oid that needs to be visible to Ndis // #define OID_DOT11_SET_FT_REASSOCIATION_PARAMETERS NWF_DEFINE_OID(0x68, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // // OID_DOT11_SET_SAE_AUTH_PARAMS is a new Oid for WDI. It is defined here // because it is a Direct Oid that needs to be visible to Ndis // #define OID_DOT11_SET_SAE_AUTH_PARAMS NWF_DEFINE_OID(0x72, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) // // OID_DOT11_SET_NWF_PMKID_LIST is used for returning PmkIds computed by nwifi. // It is defined here because it is a Direct Oid that needs to be visible to Ndis // #define OID_DOT11_SET_NWF_PMKID_LIST NWF_DEFINE_OID(0x75, NWF_OPERATIONAL_OID, NWF_MANDATORY_OID) #if _MSC_VER >= 1200 #pragma warning(pop) #endif #endif /* WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP) */ #pragma endregion #endif // __WINDOT11_H__