blob: 7963f14404901147d9062253d197a8e9030b2722 [file] [log] [blame]
/******************************************************************************
*
* This file is provided under a dual license. When you use or
* distribute this software, you may choose to be licensed under
* version 2 of the GNU General Public License ("GPLv2 License")
* or BSD License.
*
* GPLv2 License
*
* Copyright(C) 2016 MediaTek Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See http://www.gnu.org/licenses/gpl-2.0.html for more details.
*
* BSD LICENSE
*
* Copyright(C) 2016 MediaTek Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*****************************************************************************/
/*
** Id: //Department/DaVinci/BRANCHES/MT6620_WIFI_DRIVER_V2_3/include/nic_cmd_event.h#1
*/
/*! \file "nic_cmd_event.h"
* \brief This file contains the declairation file of the WLAN OID processing routines
* of Windows driver for MediaTek Inc. 802.11 Wireless LAN Adapters.
*/
#ifndef _NIC_CMD_EVENT_H
#define _NIC_CMD_EVENT_H
/*******************************************************************************
* C O M P I L E R F L A G S
********************************************************************************
*/
/*******************************************************************************
* E X T E R N A L R E F E R E N C E S
********************************************************************************
*/
/*******************************************************************************
* C O N S T A N T S
********************************************************************************
*/
#define CMD_PQ_ID (0x8000)
#define CMD_PACKET_TYPE_ID (0xA0)
#define PKT_FT_CMD 0x2
#define CMD_STATUS_SUCCESS 0
#define CMD_STATUS_REJECTED 1
#define CMD_STATUS_UNKNOWN 2
#define EVENT_HDR_WITHOUT_RXD_SIZE (OFFSET_OF(WIFI_EVENT_T, aucBuffer[0]) - OFFSET_OF(WIFI_EVENT_T, u2PacketLength))
#define MAX_IE_LENGTH (600)
#define MAX_WSC_IE_LENGTH (400)
/* Action field in structure CMD_CH_PRIVILEGE_T */
#define CMD_CH_ACTION_REQ 0
#define CMD_CH_ACTION_ABORT 1
/* Status field in structure EVENT_CH_PRIVILEGE_T */
#define EVENT_CH_STATUS_GRANT 0
/*CMD_POWER_OFFSET_T , follow 5G sub-band*/
/* #define MAX_SUBBAND_NUM 8 */
/* */
/* */
/* */
/* */
#define S2D_INDEX_CMD_H2N 0x0
#define S2D_INDEX_CMD_C2N 0x1
#define S2D_INDEX_CMD_H2C 0x2
#define S2D_INDEX_CMD_H2N_H2C 0x3
#define S2D_INDEX_EVENT_N2H 0x0
#define S2D_INDEX_EVENT_N2C 0x1
#define S2D_INDEX_EVENT_C2H 0x2
#define S2D_INDEX_EVENT_N2H_N2C 0x3
#define RDD_EVENT_HDR_SIZE 20
#define RDD_ONEPLUSE_SIZE 8 /* size of one pulse is 8 bytes */
#define RDD_PULSE_OFFSET0 0
#define RDD_PULSE_OFFSET1 1
#define RDD_PULSE_OFFSET2 2
#define RDD_PULSE_OFFSET3 3
#define RDD_PULSE_OFFSET4 4
#define RDD_PULSE_OFFSET5 5
#define RDD_PULSE_OFFSET6 6
#define RDD_PULSE_OFFSET7 7
#if (CFG_SUPPORT_DFS_MASTER == 1)
#define RDD_IN_SEL_0 0
#define RDD_IN_SEL_1 1
#endif
#if CFG_SUPPORT_QA_TOOL
#define IQ_FILE_LINE_OFFSET 18
#define IQ_FILE_IQ_STR_LEN 8
#define RTN_IQ_DATA_LEN 1024 /* return 1k per packet */
#define MCAST_WCID_TO_REMOVE 0
/* Network type */
#define NETWORK_INFRA BIT(16)
#define NETWORK_P2P BIT(17)
#define NETWORK_IBSS BIT(18)
#define NETWORK_MESH BIT(19)
#define NETWORK_BOW BIT(20)
#define NETWORK_WDS BIT(21)
/* Station role */
#define STA_TYPE_STA BIT(0)
#define STA_TYPE_AP BIT(1)
#define STA_TYPE_ADHOC BIT(2)
#define STA_TYPE_TDLS BIT(3)
#define STA_TYPE_WDS BIT(4)
/* Connection type */
#define CONNECTION_INFRA_STA (STA_TYPE_STA|NETWORK_INFRA)
#define CONNECTION_INFRA_AP (STA_TYPE_AP|NETWORK_INFRA)
#define CONNECTION_P2P_GC (STA_TYPE_STA|NETWORK_P2P)
#define CONNECTION_P2P_GO (STA_TYPE_AP|NETWORK_P2P)
#define CONNECTION_MESH_STA (STA_TYPE_STA|NETWORK_MESH)
#define CONNECTION_MESH_AP (STA_TYPE_AP|NETWORK_MESH)
#define CONNECTION_IBSS_ADHOC (STA_TYPE_ADHOC|NETWORK_IBSS)
#define CONNECTION_TDLS (STA_TYPE_STA|NETWORK_INFRA|STA_TYPE_TDLS)
#define CONNECTION_WDS (STA_TYPE_WDS|NETWORK_WDS)
#define ICAP_CONTENT_ADC 0x10000006
#define ICAP_CONTENT_TOAE 0x7
#define ICAP_CONTENT_SPECTRUM 0xB
#define ICAP_CONTENT_RBIST 0x10
#define ICAP_CONTENT_DCOC 0x20
#define ICAP_CONTENT_FIIQ 0x48
#define ICAP_CONTENT_FDIQ 0x49
#if CFG_SUPPORT_BUFFER_MODE
typedef struct _CMD_EFUSE_BUFFER_MODE_T {
UINT_8 ucSourceMode;
UINT_8 ucCount;
UINT_8 ucCmdType; /* 0:6632, 1: 7668 */
UINT_8 ucReserved;
UINT_8 aBinContent[MAX_EEPROM_BUFFER_SIZE];
} CMD_EFUSE_BUFFER_MODE_T, *P_CMD_EFUSE_BUFFER_MODE_T;
/*#if (CFG_EEPROM_PAGE_ACCESS == 1)*/
typedef struct _CMD_ACCESS_EFUSE_T {
UINT_32 u4Address;
UINT_32 u4Valid;
UINT_8 aucData[16];
} CMD_ACCESS_EFUSE_T, *P_CMD_ACCESS_EFUSE_T;
typedef struct _CMD_EFUSE_FREE_BLOCK_T {
UINT_8 ucGetFreeBlock;
UINT_8 aucReserved[3];
} CMD_EFUSE_FREE_BLOCK_T, *P_CMD_EFUSE_FREE_BLOCK_T;
typedef struct _CMD_GET_TX_POWER_T {
UINT_8 ucTxPwrType;
UINT_8 ucCenterChannel;
UINT_8 ucDbdcIdx; /* 0:Band 0, 1: Band1 */
UINT_8 ucBand; /* 0:G-band 1: A-band*/
UINT_8 ucReserved[4];
} CMD_GET_TX_POWER_T, *P_CMD_GET_TX_POWER_T;
/*#endif*/
#endif /* CFG_SUPPORT_BUFFER_MODE */
typedef struct _CMD_SET_TX_TARGET_POWER_T {
INT_8 cTxPwr2G4Cck; /* signed, in unit of 0.5dBm */
INT_8 cTxPwr2G4Dsss; /* signed, in unit of 0.5dBm */
UINT_8 ucTxTargetPwr; /* Tx target power base for all*/
UINT_8 ucReserved;
INT_8 cTxPwr2G4OFDM_BPSK;
INT_8 cTxPwr2G4OFDM_QPSK;
INT_8 cTxPwr2G4OFDM_16QAM;
INT_8 cTxPwr2G4OFDM_Reserved;
INT_8 cTxPwr2G4OFDM_48Mbps;
INT_8 cTxPwr2G4OFDM_54Mbps;
INT_8 cTxPwr2G4HT20_BPSK;
INT_8 cTxPwr2G4HT20_QPSK;
INT_8 cTxPwr2G4HT20_16QAM;
INT_8 cTxPwr2G4HT20_MCS5;
INT_8 cTxPwr2G4HT20_MCS6;
INT_8 cTxPwr2G4HT20_MCS7;
INT_8 cTxPwr2G4HT40_BPSK;
INT_8 cTxPwr2G4HT40_QPSK;
INT_8 cTxPwr2G4HT40_16QAM;
INT_8 cTxPwr2G4HT40_MCS5;
INT_8 cTxPwr2G4HT40_MCS6;
INT_8 cTxPwr2G4HT40_MCS7;
INT_8 cTxPwr5GOFDM_BPSK;
INT_8 cTxPwr5GOFDM_QPSK;
INT_8 cTxPwr5GOFDM_16QAM;
INT_8 cTxPwr5GOFDM_Reserved;
INT_8 cTxPwr5GOFDM_48Mbps;
INT_8 cTxPwr5GOFDM_54Mbps;
INT_8 cTxPwr5GHT20_BPSK;
INT_8 cTxPwr5GHT20_QPSK;
INT_8 cTxPwr5GHT20_16QAM;
INT_8 cTxPwr5GHT20_MCS5;
INT_8 cTxPwr5GHT20_MCS6;
INT_8 cTxPwr5GHT20_MCS7;
INT_8 cTxPwr5GHT40_BPSK;
INT_8 cTxPwr5GHT40_QPSK;
INT_8 cTxPwr5GHT40_16QAM;
INT_8 cTxPwr5GHT40_MCS5;
INT_8 cTxPwr5GHT40_MCS6;
INT_8 cTxPwr5GHT40_MCS7;
} CMD_SET_TX_TARGET_POWER_T, *P_CMD_SET_TX_TARGET_POWER_T;
/*
* Definitions for extension CMD_ID
*/
typedef enum _ENUM_EXT_CMD_ID_T {
EXT_CMD_ID_EFUSE_ACCESS = 0x01,
EXT_CMD_ID_RF_REG_ACCESS = 0x02,
EXT_CMD_ID_EEPROM_ACCESS = 0x03,
EXT_CMD_ID_RF_TEST = 0x04,
EXT_CMD_ID_RADIO_ON_OFF_CTRL = 0x05,
EXT_CMD_ID_WIFI_RX_DISABLE = 0x06,
EXT_CMD_ID_PM_STATE_CTRL = 0x07,
EXT_CMD_ID_CHANNEL_SWITCH = 0x08,
EXT_CMD_ID_NIC_CAPABILITY = 0x09,
EXT_CMD_ID_AP_PWR_SAVING_CLEAR = 0x0A,
EXT_CMD_ID_SET_WTBL2_RATETABLE = 0x0B,
EXT_CMD_ID_GET_WTBL_INFORMATION = 0x0C,
EXT_CMD_ID_ASIC_INIT_UNINIT_CTRL = 0x0D,
EXT_CMD_ID_MULTIPLE_REG_ACCESS = 0x0E,
EXT_CMD_ID_AP_PWR_SAVING_CAPABILITY = 0x0F,
EXT_CMD_ID_SECURITY_ADDREMOVE_KEY = 0x10,
EXT_CMD_ID_SET_TX_POWER_CONTROL = 0x11,
EXT_CMD_ID_SET_THERMO_CALIBRATION = 0x12,
EXT_CMD_ID_FW_LOG_2_HOST = 0x13,
EXT_CMD_ID_AP_PWR_SAVING_START = 0x14,
EXT_CMD_ID_MCC_OFFLOAD_START = 0x15,
EXT_CMD_ID_MCC_OFFLOAD_STOP = 0x16,
EXT_CMD_ID_LED = 0x17,
EXT_CMD_ID_PACKET_FILTER = 0x18,
EXT_CMD_ID_COEXISTENCE = 0x19,
EXT_CMD_ID_PWR_MGT_BIT_WIFI = 0x1B,
EXT_CMD_ID_GET_TX_POWER = 0x1C,
EXT_CMD_ID_BF_ACTION = 0x1E,
EXT_CMD_ID_WMT_CMD_OVER_WIFI = 0x20,
EXT_CMD_ID_EFUSE_BUFFER_MODE = 0x21,
EXT_CMD_ID_OFFLOAD_CTRL = 0x22,
EXT_CMD_ID_THERMAL_PROTECT = 0x23,
EXT_CMD_ID_CLOCK_SWITCH_DISABLE = 0x24,
EXT_CMD_ID_STAREC_UPDATE = 0x25,
EXT_CMD_ID_BSSINFO_UPDATE = 0x26,
EXT_CMD_ID_EDCA_SET = 0x27,
EXT_CMD_ID_SLOT_TIME_SET = 0x28,
EXT_CMD_ID_DEVINFO_UPDATE = 0x2A,
EXT_CMD_ID_NOA_OFFLOAD_CTRL = 0x2B,
EXT_CMD_ID_GET_SENSOR_RESULT = 0x2C,
EXT_CMD_ID_TMR_CAL = 0x2D,
EXT_CMD_ID_WAKEUP_OPTION = 0x2E,
EXT_CMD_ID_OBTW = 0x2F,
EXT_CMD_ID_GET_TX_STATISTICS = 0x30,
EXT_CMD_ID_AC_QUEUE_CONTROL = 0x31,
EXT_CMD_ID_WTBL_UPDATE = 0x32,
EXT_CMD_ID_BCN_UPDATE = 0x33,
EXT_CMD_ID_DRR_CTRL = 0x36,
EXT_CMD_ID_BSSGROUP_CTRL = 0x37,
EXT_CMD_ID_VOW_FEATURE_CTRL = 0x38,
EXT_CMD_ID_PKT_PROCESSOR_CTRL = 0x39,
EXT_CMD_ID_PALLADIUM = 0x3A,
#if CFG_SUPPORT_MU_MIMO
EXT_CMD_ID_MU_CTRL = 0x40,
#endif /* CFG_SUPPORT_MU_MIMO */
EXT_CMD_ID_EFUSE_FREE_BLOCK = 0x4F
} ENUM_EXT_CMD_ID_T, *P_ENUM_EXT_CMD_ID_T;
typedef enum _NDIS_802_11_WEP_STATUS {
Ndis802_11WEPEnabled,
Ndis802_11Encryption1Enabled = Ndis802_11WEPEnabled,
Ndis802_11WEPDisabled,
Ndis802_11EncryptionDisabled = Ndis802_11WEPDisabled,
Ndis802_11WEPKeyAbsent,
Ndis802_11Encryption1KeyAbsent = Ndis802_11WEPKeyAbsent,
Ndis802_11WEPNotSupported,
Ndis802_11EncryptionNotSupported = Ndis802_11WEPNotSupported,
Ndis802_11TKIPEnable,
Ndis802_11Encryption2Enabled = Ndis802_11TKIPEnable,
Ndis802_11Encryption2KeyAbsent,
Ndis802_11AESEnable,
Ndis802_11Encryption3Enabled = Ndis802_11AESEnable,
Ndis802_11CCMP256Enable,
Ndis802_11GCMP128Enable,
Ndis802_11GCMP256Enable,
Ndis802_11Encryption3KeyAbsent,
Ndis802_11TKIPAESMix,
Ndis802_11Encryption4Enabled = Ndis802_11TKIPAESMix, /* TKIP or AES mix */
Ndis802_11Encryption4KeyAbsent,
Ndis802_11GroupWEP40Enabled,
Ndis802_11GroupWEP104Enabled,
#ifdef WAPI_SUPPORT
Ndis802_11EncryptionSMS4Enabled, /* WPI SMS4 support */
#endif /* WAPI_SUPPORT */
} NDIS_802_11_WEP_STATUS, *PNDIS_802_11_WEP_STATUS, NDIS_802_11_ENCRYPTION_STATUS, *PNDIS_802_11_ENCRYPTION_STATUS;
#if CFG_SUPPORT_MU_MIMO
enum {
/* debug commands */
MU_SET_ENABLE = 0,
MU_GET_ENABLE,
MU_SET_MUPROFILE_ENTRY,
MU_GET_MUPROFILE_ENTRY,
MU_SET_GROUP_TBL_ENTRY,
MU_GET_GROUP_TBL_ENTRY,
MU_SET_CLUSTER_TBL_ENTRY,
MU_GET_CLUSTER_TBL_ENTRY,
MU_SET_GROUP_USER_THRESHOLD,
MU_GET_GROUP_USER_THRESHOLD,
MU_SET_GROUP_NSS_THRESHOLD,
MU_GET_GROUP_NSS_THRESHOLD,
MU_SET_TXREQ_MIN_TIME,
MU_GET_TXREQ_MIN_TIME,
MU_SET_SU_NSS_CHECK,
MU_GET_SU_NSS_CHECK,
MU_SET_CALC_INIT_MCS,
MU_GET_CALC_INIT_MCS,
MU_SET_TXOP_DEFAULT,
MU_GET_TXOP_DEFAULT,
MU_SET_SU_LOSS_THRESHOLD,
MU_GET_SU_LOSS_THRESHOLD,
MU_SET_MU_GAIN_THRESHOLD,
MU_GET_MU_GAIN_THRESHOLD,
MU_SET_SECONDARY_AC_POLICY,
MU_GET_SECONDARY_AC_POLICY,
MU_SET_GROUP_TBL_DMCS_MASK,
MU_GET_GROUP_TBL_DMCS_MASK,
MU_SET_MAX_GROUP_SEARCH_CNT,
MU_GET_MAX_GROUP_SEARCH_CNT,
MU_GET_MU_PROFILE_TX_STATUS_CNT,
MU_SET_TRIGGER_MU_TX,
/* F/W flow test commands */
MU_SET_TRIGGER_GID_MGMT_FRAME,
/* HQA commands */
MU_HQA_SET_STA_PARAM,
MU_HQA_SET_ENABLE,
MU_HQA_SET_SNR_OFFSET,
MU_HQA_SET_ZERO_NSS,
MU_HQA_SET_SPEED_UP_LQ,
MU_HQA_SET_GROUP,
MU_HQA_SET_MU_TABLE,
MU_HQA_SET_CALC_LQ,
MU_HQA_GET_CALC_LQ,
MU_HQA_SET_CALC_INIT_MCS,
MU_HQA_GET_CALC_INIT_MCS,
MU_HQA_GET_QD,
};
#endif /* CFG_SUPPORT_MU_MIMO */
#endif /* CFG_SUPPORT_QA_TOOL */
typedef enum _ENUM_CMD_ID_T {
CMD_ID_DUMMY_RSV = 0x00, /* 0x00 (Set) */
CMD_ID_TEST_CTRL = 0x01, /* 0x01 (Set) */
CMD_ID_BASIC_CONFIG, /* 0x02 (Set) */
CMD_ID_SCAN_REQ_V2, /* 0x03 (Set) */
CMD_ID_NIC_POWER_CTRL, /* 0x04 (Set) */
CMD_ID_POWER_SAVE_MODE, /* 0x05 (Set) */
CMD_ID_LINK_ATTRIB, /* 0x06 (Set) */
CMD_ID_ADD_REMOVE_KEY, /* 0x07 (Set) */
CMD_ID_DEFAULT_KEY_ID, /* 0x08 (Set) */
CMD_ID_INFRASTRUCTURE, /* 0x09 (Set) */
CMD_ID_SET_RX_FILTER, /* 0x0a (Set) */
CMD_ID_DOWNLOAD_BUF, /* 0x0b (Set) */
CMD_ID_WIFI_START, /* 0x0c (Set) */
CMD_ID_CMD_BT_OVER_WIFI, /* 0x0d (Set) */
CMD_ID_SET_MEDIA_CHANGE_DELAY_TIME, /* 0x0e (Set) */
CMD_ID_SET_DOMAIN_INFO, /* 0x0f (Set) */
CMD_ID_SET_IP_ADDRESS, /* 0x10 (Set) */
CMD_ID_BSS_ACTIVATE_CTRL, /* 0x11 (Set) */
CMD_ID_SET_BSS_INFO, /* 0x12 (Set) */
CMD_ID_UPDATE_STA_RECORD, /* 0x13 (Set) */
CMD_ID_REMOVE_STA_RECORD, /* 0x14 (Set) */
CMD_ID_INDICATE_PM_BSS_CREATED, /* 0x15 (Set) */
CMD_ID_INDICATE_PM_BSS_CONNECTED, /* 0x16 (Set) */
CMD_ID_INDICATE_PM_BSS_ABORT, /* 0x17 (Set) */
CMD_ID_UPDATE_BEACON_CONTENT, /* 0x18 (Set) */
CMD_ID_SET_BSS_RLM_PARAM, /* 0x19 (Set) */
CMD_ID_SCAN_REQ, /* 0x1a (Set) */
CMD_ID_SCAN_CANCEL, /* 0x1b (Set) */
CMD_ID_CH_PRIVILEGE, /* 0x1c (Set) */
CMD_ID_UPDATE_WMM_PARMS, /* 0x1d (Set) */
CMD_ID_SET_WMM_PS_TEST_PARMS, /* 0x1e (Set) */
CMD_ID_TX_AMPDU, /* 0x1f (Set) */
CMD_ID_ADDBA_REJECT, /* 0x20 (Set) */
CMD_ID_SET_PS_PROFILE_ADV, /* 0x21 (Set) */
CMD_ID_SET_RAW_PATTERN, /* 0x22 (Set) */
CMD_ID_CONFIG_PATTERN_FUNC, /* 0x23 (Set) */
CMD_ID_SET_TX_PWR, /* 0x24 (Set) */
CMD_ID_SET_PWR_PARAM, /* 0x25 (Set) */
CMD_ID_P2P_ABORT, /* 0x26 (Set) */
CMD_ID_SET_DBDC_PARMS = 0x28, /* 0x28 (Set) */
/* SLT commands */
CMD_ID_RANDOM_RX_RESET_EN = 0x2C, /* 0x2C (Set ) */
CMD_ID_RANDOM_RX_RESET_DE = 0x2D, /* 0x2D (Set ) */
CMD_ID_SAPP_EN = 0x2E, /* 0x2E (Set ) */
CMD_ID_SAPP_DE = 0x2F, /* 0x2F (Set ) */
CMD_ID_ROAMING_TRANSIT = 0x30, /* 0x30 (Set) */
CMD_ID_SET_PHY_PARAM, /* 0x31 (Set) */
CMD_ID_SET_NOA_PARAM, /* 0x32 (Set) */
CMD_ID_SET_OPPPS_PARAM, /* 0x33 (Set) */
CMD_ID_SET_UAPSD_PARAM, /* 0x34 (Set) */
CMD_ID_SET_SIGMA_STA_SLEEP, /* 0x35 (Set) */
CMD_ID_SET_EDGE_TXPWR_LIMIT, /* 0x36 (Set) */
CMD_ID_SET_DEVICE_MODE, /* 0x37 (Set) */
CMD_ID_SET_TXPWR_CTRL, /* 0x38 (Set) */
CMD_ID_SET_AUTOPWR_CTRL, /* 0x39 (Set) */
CMD_ID_SET_WFD_CTRL, /* 0x3a (Set) */
CMD_ID_SET_NLO_REQ, /* 0x3b (Set) */
CMD_ID_SET_NLO_CANCEL, /* 0x3c (Set) */
CMD_ID_SET_GTK_REKEY_DATA, /* 0x3d (Set) */
CMD_ID_ROAMING_CONTROL, /* 0x3e (Set) */
/* CFG_M0VE_BA_TO_DRIVER */
CMD_ID_RESET_BA_SCOREBOARD = 0x3f, /* 0x3f (Set) */
CMD_ID_SET_EDGE_TXPWR_LIMIT_5G = 0x40, /* 0x40 (Set) */
CMD_ID_SET_CHANNEL_PWR_OFFSET, /* 0x41 (Set) */
CMD_ID_SET_80211AC_TX_PWR, /* 0x42 (Set) */
CMD_ID_SET_PATH_COMPASATION, /* 0x43 (Set) */
CMD_ID_SET_BATCH_REQ = 0x47, /* 0x47 (Set) */
CMD_ID_SET_NVRAM_SETTINGS, /* 0x48 (Set) */
CMD_ID_SET_COUNTRY_POWER_LIMIT, /* 0x49 (Set) */
#if CFG_WOW_SUPPORT
CMD_ID_SET_WOWLAN, /* 0x4a (Set) */
#endif
#if CFG_SUPPORT_WIFI_HOST_OFFLOAD
CMD_ID_SET_AM_FILTER = 0x55, /* 0x55 (Set) */
CMD_ID_SET_AM_HEARTBEAT, /* 0x56 (Set) */
CMD_ID_SET_AM_TCP, /* 0x57 (Set) */
#endif
CMD_ID_SET_SUSPEND_MODE = 0x58, /* 0x58 (Set) */
#if CFG_WOW_SUPPORT
CMD_ID_SET_PF_CAPABILITY = 0x59, /* 0x59 (Set) */
#endif
#if CFG_SUPPORT_ROAMING_SKIP_ONE_AP
CMD_ID_SET_ROAMING_SKIP = 0x6D, /* 0x6D (Set) used to setting roaming skip*/
#endif
CMD_ID_GET_SET_CUSTOMER_CFG = 0x70, /* 0x70(Set) */
CMD_ID_GET_NIC_CAPABILITY = 0x80, /* 0x80 (Query) */
CMD_ID_GET_LINK_QUALITY, /* 0x81 (Query) */
CMD_ID_GET_STATISTICS, /* 0x82 (Query) */
CMD_ID_GET_CONNECTION_STATUS, /* 0x83 (Query) */
CMD_ID_GET_STA_STATISTICS = 0x85, /* 0x85 (Query) */
CMD_ID_GET_LTE_CHN = 0x87, /* 0x87 (Query) */
CMD_ID_GET_CHN_LOADING = 0x88, /* 0x88 (Query) */
CMD_ID_GET_BUG_REPORT = 0x89, /* 0x89 (Query) */
CMD_ID_GET_NIC_CAPABILITY_V2 = 0x8A,/* 0x8A (Query) */
#if (CFG_SUPPORT_DFS_MASTER == 1)
CMD_ID_RDD_ON_OFF_CTRL = 0x8F, /* 0x8F(Set) */
#endif
#if CFG_SUPPORT_CAL_RESULT_BACKUP_TO_HOST
CMD_ID_CAL_BACKUP_IN_HOST_V2 = 0xAE, /* 0xAE (Set / Query) */
#endif
CMD_ID_ACCESS_REG = 0xc0, /* 0xc0 (Set / Query) */
CMD_ID_MAC_MCAST_ADDR, /* 0xc1 (Set / Query) */
CMD_ID_802_11_PMKID, /* 0xc2 (Set / Query) */
CMD_ID_ACCESS_EEPROM, /* 0xc3 (Set / Query) */
CMD_ID_SW_DBG_CTRL, /* 0xc4 (Set / Query) */
CMD_ID_FW_LOG_2_HOST, /* 0xc5 (Set) */
CMD_ID_DUMP_MEM, /* 0xc6 (Query) */
CMD_ID_RESOURCE_CONFIG, /* 0xc7 (Set / Query) */
#if CFG_SUPPORT_QA_TOOL
CMD_ID_ACCESS_RX_STAT, /* 0xc8 (Query) */
#endif /* CFG_SUPPORT_QA_TOOL */
CMD_ID_CHIP_CONFIG = 0xCA, /* 0xca (Set / Query) */
CMD_ID_STATS_LOG = 0xCB, /* 0xcb (Set) */
CMD_ID_WLAN_INFO = 0xCD, /* 0xcd (Query) */
CMD_ID_MIB_INFO = 0xCE, /* 0xce (Query) */
CMD_ID_SET_RDD_CH = 0xE1,
#if CFG_SUPPORT_QA_TOOL
CMD_ID_LAYER_0_EXT_MAGIC_NUM = 0xED, /* magic number for Extending MT6630 original CMD header */
#endif /* CFG_SUPPORT_QA_TOOL */
CMD_ID_SET_BWCS = 0xF1,
CMD_ID_SET_OSC = 0xF2,
CMD_ID_HIF_CTRL = 0xF6, /* 0xF6 (Set) */
CMD_ID_GET_BUILD_DATE_CODE = 0xF8, /* 0xf8 (Query) */
CMD_ID_GET_BSS_INFO = 0xF9, /* 0xF9 (Query) */
CMD_ID_SET_HOTSPOT_OPTIMIZATION = 0xFA, /* 0xFA (Set) */
CMD_ID_SET_TDLS_CH_SW = 0xFB,
CMD_ID_SET_MONITOR = 0xFC, /* 0xFC (Set) */
#if CFG_SUPPORT_ADVANCE_CONTROL
CMD_ID_ADV_CONTROL = 0xFE, /* 0xFE (Set / Query) */
#endif
CMD_ID_END
} ENUM_CMD_ID_T, *P_ENUM_CMD_ID_T;
typedef enum _ENUM_EVENT_ID_T {
EVENT_ID_NIC_CAPABILITY = 0x01, /* 0x01 (Query) */
EVENT_ID_LINK_QUALITY, /* 0x02 (Query / Unsolicited) */
EVENT_ID_STATISTICS, /* 0x03 (Query) */
EVENT_ID_MIC_ERR_INFO, /* 0x04 (Unsolicited) */
EVENT_ID_ACCESS_REG, /* 0x05 (Query - CMD_ID_ACCESS_REG) */
EVENT_ID_ACCESS_EEPROM, /* 0x06 (Query - CMD_ID_ACCESS_EEPROM) */
EVENT_ID_SLEEPY_INFO, /* 0x07 (Unsolicited) */
EVENT_ID_BT_OVER_WIFI, /* 0x08 (Unsolicited) */
EVENT_ID_TEST_STATUS, /* 0x09 (Query - CMD_ID_TEST_CTRL) */
EVENT_ID_RX_ADDBA, /* 0x0a (Unsolicited) */
EVENT_ID_RX_DELBA, /* 0x0b (Unsolicited) */
EVENT_ID_ACTIVATE_STA_REC, /* 0x0c (Response) */
EVENT_ID_SCAN_DONE, /* 0x0d (Unsoiicited) */
EVENT_ID_RX_FLUSH, /* 0x0e (Unsolicited) */
EVENT_ID_TX_DONE, /* 0x0f (Unsolicited) */
EVENT_ID_CH_PRIVILEGE, /* 0x10 (Unsolicited) */
EVENT_ID_BSS_ABSENCE_PRESENCE, /* 0x11 (Unsolicited) */
EVENT_ID_STA_CHANGE_PS_MODE, /* 0x12 (Unsolicited) */
EVENT_ID_BSS_BEACON_TIMEOUT, /* 0x13 (Unsolicited) */
EVENT_ID_UPDATE_NOA_PARAMS, /* 0x14 (Unsolicited) */
EVENT_ID_AP_OBSS_STATUS, /* 0x15 (Unsolicited) */
EVENT_ID_STA_UPDATE_FREE_QUOTA, /* 0x16 (Unsolicited) */
EVENT_ID_SW_DBG_CTRL, /* 0x17 (Query - CMD_ID_SW_DBG_CTRL) */
EVENT_ID_ROAMING_STATUS, /* 0x18 (Unsolicited) */
EVENT_ID_STA_AGING_TIMEOUT, /* 0x19 (Unsolicited) */
EVENT_ID_SEC_CHECK_RSP, /* 0x1a (Query - CMD_ID_SEC_CHECK) */
EVENT_ID_SEND_DEAUTH, /* 0x1b (Unsolicited) */
EVENT_ID_UPDATE_RDD_STATUS, /* 0x1c (Unsolicited) */
EVENT_ID_UPDATE_BWCS_STATUS, /* 0x1d (Unsolicited) */
EVENT_ID_UPDATE_BCM_DEBUG, /* 0x1e (Unsolicited) */
EVENT_ID_RX_ERR, /* 0x1f (Unsolicited) */
EVENT_ID_DUMP_MEM = 0x20, /* 0x20 (Query - CMD_ID_DUMP_MEM) */
EVENT_ID_STA_STATISTICS, /* 0x21 (Query ) */
EVENT_ID_STA_STATISTICS_UPDATE, /* 0x22 (Unsolicited) */
EVENT_ID_NLO_DONE, /* 0x23 (Unsoiicited) */
EVENT_ID_ADD_PKEY_DONE, /* 0x24 (Unsoiicited) */
EVENT_ID_ICAP_DONE, /* 0x25 (Unsoiicited) */
EVENT_ID_RESOURCE_CONFIG = 0x26, /* 0x26 (Query - CMD_ID_RESOURCE_CONFIG) */
EVENT_ID_DEBUG_MSG = 0x27, /* 0x27 (Unsoiicited) */
EVENT_ID_RTT_CALIBR_DONE = 0x28, /* 0x28 (Unsoiicited) */
EVENT_ID_RTT_UPDATE_RANGE = 0x29, /* 0x29 (Unsoiicited) */
EVENT_ID_CHECK_REORDER_BUBBLE = 0x2a, /* 0x2a (Unsoiicited) */
EVENT_ID_BATCH_RESULT = 0x2b, /* 0x2b (Query) */
EVENT_ID_UART_ACK = 0x40, /* 0x40 (Unsolicited) */
EVENT_ID_UART_NAK, /* 0x41 (Unsolicited) */
EVENT_ID_GET_CHIPID, /* 0x42 (Query - CMD_ID_GET_CHIPID) */
EVENT_ID_SLT_STATUS, /* 0x43 (Query - CMD_ID_SET_SLTINFO) */
EVENT_ID_CHIP_CONFIG, /* 0x44 (Query - CMD_ID_CHIP_CONFIG) */
#if CFG_SUPPORT_QA_TOOL
EVENT_ID_ACCESS_RX_STAT, /* 0x45 (Query - CMD_ID_ACCESS_RX_STAT) */
#endif /* CFG_SUPPORT_QA_TOOL */
EVENT_ID_RDD_SEND_PULSE = 0x50,
#if CFG_SUPPORT_TX_BF
EVENT_ID_PFMU_TAG_READ = 0x51,
EVENT_ID_PFMU_DATA_READ = 0x52,
#endif
#if CFG_SUPPORT_MU_MIMO
EVENT_ID_MU_GET_QD = 0x53,
EVENT_ID_MU_GET_LQ = 0x54,
#endif
#if (CFG_SUPPORT_DFS_MASTER == 1)
EVENT_ID_RDD_REPORT = 0x60,
EVENT_ID_CSA_DONE = 0x61,
#endif
EVENT_ID_TDLS = 0x80, /* TDLS event_id */
EVENT_ID_UPDATE_COEX_PHYRATE = 0x90, /* 0x90 (Unsolicited) */
#if CFG_SUPPORT_CAL_RESULT_BACKUP_TO_HOST
EVENT_ID_CAL_BACKUP_IN_HOST_V2 = 0xAE, /* 0xAE (Query - CMD_ID_CAL_BACKUP) */
EVENT_ID_CAL_ALL_DONE = 0xAF, /* 0xAF (FW Cal All Done Event) */
#endif
EVENT_ID_WLAN_INFO = 0xCD,
EVENT_ID_MIB_INFO = 0xCE,
EVENT_ID_NIC_CAPABILITY_V2 = 0xEC, /* 0xEC (Query - CMD_ID_GET_NIC_CAPABILITY_V2) */
/*#if (CFG_EFUSE_BUFFER_MODE_DELAY_CAL == 1)*/
EVENT_ID_LAYER_0_EXT_MAGIC_NUM = 0xED, /* magic number for Extending MT6630 original EVENT header */
/*#endif*/
#if CFG_ASSERT_DUMP
EVENT_ID_ASSERT_DUMP = 0xF0,
#endif
EVENT_ID_HIF_CTRL = 0xF6,
EVENT_ID_BUILD_DATE_CODE = 0xF8,
EVENT_ID_GET_AIS_BSS_INFO = 0xF9,
EVENT_ID_DEBUG_CODE = 0xFB,
EVENT_ID_RFTEST_READY = 0xFC, /* 0xFC */
#if CFG_SUPPORT_ADVANCE_CONTROL
EVENT_ID_ADV_CONTROL = 0xFE,
#endif
EVENT_ID_END
} ENUM_EVENT_ID_T, *P_ENUM_EVENT_ID_T;
#if CFG_WOW_SUPPORT
/* Filter Flag */
#define WOWLAN_FF_DROP_ALL BIT(0)
#define WOWLAN_FF_SEND_MAGIC_TO_HOST BIT(1)
#define WOWLAN_FF_ALLOW_ARP BIT(2)
#define WOWLAN_FF_ALLOW_BMC BIT(3)
#define WOWLAN_FF_ALLOW_UC BIT(4)
#define WOWLAN_FF_ALLOW_1X BIT(5)
#define WOWLAN_FF_ALLOW_ARP_REQ2ME BIT(6)
/* wow detect type */
#define WOWLAN_DETECT_TYPE_MAGIC BIT(0)
#define WOWLAN_DETECT_TYPE_ALLOW_NORMAL BIT(1)
#define WOWLAN_DETECT_TYPE_ONLY_PHONE_SUSPEND BIT(2)
#define WOWLAN_DETECT_TYPE_DISASSOCIATION BIT(3)
#define WOWLAN_DETECT_TYPE_BCN_LOST BIT(4)
/* Wakeup command bit define */
#define PF_WAKEUP_CMD_BIT0_OUTPUT_MODE_EN BIT(0)
#define PF_WAKEUP_CMD_BIT1_OUTPUT_DATA BIT(1)
#define PF_WAKEUP_CMD_BIT2_WAKEUP_LEVEL BIT(2)
#define PM_WOWLAN_REQ_START 0x1
#define PM_WOWLAN_REQ_STOP 0x2
typedef struct _CMD_WAKE_HIF_T {
UINT_8 ucWakeupHif; /* use in-band signal to wakeup system, ENUM_HIF_TYPE */
UINT_8 ucGpioPin; /* GPIO Pin */
UINT_8 ucTriggerLvl; /* GPIO Pin */
UINT_8 aucResv1[1];
UINT_32 u4GpioInterval;/* 0: low to high, 1: high to low */
UINT_8 aucResv2[4];
} CMD_WAKE_HIF_T, *P_CMD_WAKE_HIF_T;
typedef struct _CMD_WOWLAN_PARAM_T {
UINT_8 ucCmd;
UINT_8 ucDetectType;
UINT_16 u2FilterFlag; /* ARP/MC/DropExceptMagic/SendMagicToHost */
UINT_8 ucScenarioID; /* WOW/WOBLE/Proximity */
UINT_8 ucBlockCount;
UINT_8 ucDbdcBand;
UINT_8 aucReserved1[1];
CMD_WAKE_HIF_T astWakeHif[2];
WOW_PORT_T stWowPort;
UINT_8 aucReserved2[32];
} CMD_WOWLAN_PARAM_T, *P_CMD_WOWLAN_PARAM_T;
typedef struct _EVENT_WOWLAN_NOTIFY_T {
UINT_8 ucNetTypeIndex;
UINT_8 aucReserved[3];
} EVENT_WOWLAN_NOTIFY_T, *P_EVENT_WOWLAN_NOTIFY_T;
/* PACKETFILTER CAPABILITY TYPE */
#define PACKETF_CAP_TYPE_ARP BIT(1)
#define PACKETF_CAP_TYPE_MAGIC BIT(2)
#define PACKETF_CAP_TYPE_BITMAP BIT(3)
#define PACKETF_CAP_TYPE_EAPOL BIT(4)
#define PACKETF_CAP_TYPE_TDLS BIT(5)
#define PACKETF_CAP_TYPE_CF BIT(6)
#define PACKETF_CAP_TYPE_HEARTBEAT BIT(7)
#define PACKETF_CAP_TYPE_TCP_SYN BIT(8)
#define PACKETF_CAP_TYPE_UDP_SYN BIT(9)
#define PACKETF_CAP_TYPE_BCAST_SYN BIT(10)
#define PACKETF_CAP_TYPE_MCAST_SYN BIT(11)
#define PACKETF_CAP_TYPE_V6 BIT(12)
#define PACKETF_CAP_TYPE_TDIM BIT(13)
typedef enum _ENUM_FUNCTION_SELECT {
FUNCTION_PF = 1,
FUNCTION_BITMAP = 2,
FUNCTION_EAPOL = 3,
FUNCTION_TDLS = 4,
FUNCTION_ARPNS = 5,
FUNCTION_CF = 6,
FUNCTION_MODE = 7,
FUNCTION_BSSID = 8,
FUNCTION_MGMT = 9,
FUNCTION_BMC_DROP = 10,
FUNCTION_UC_DROP = 11,
FUNCTION_ALL_TOMCU = 12,
} _ENUM_FUNCTION_SELECT, *P_ENUM_FUNCTION_SELECT;
typedef enum _ENUM_PF_OPCODE_T {
PF_OPCODE_ADD = 0,
PF_OPCODE_DEL,
PF_OPCODE_ENABLE,
PF_OPCODE_DISABLE,
PF_OPCODE_NUM
} ENUM_PF_OPCODE_T;
typedef struct _CMD_PACKET_FILTER_CAP_T {
UINT_8 ucCmd;
UINT_16 packet_cap_type;
UINT_8 aucReserved1[1];
/* GLOBAL */
UINT_32 PFType;
UINT_32 FunctionSelect;
UINT_32 Enable;
/* MAGIC */
UINT_8 ucBssid;
UINT_16 usEnableBits;
UINT_8 aucReserved5[1];
/* DTIM */
UINT_8 DtimEnable;
UINT_8 DtimValue;
UINT_8 aucReserved2[2];
/* BITMAP_PATTERN_T */
UINT_32 Index;
UINT_32 Offset;
UINT_32 FeatureBits;
UINT_32 Resv;
UINT_32 PatternLength;
UINT_32 Mask[4];
UINT_32 Pattern[32];
/* COALESCE */
UINT_32 FilterID;
UINT_32 PacketType;
UINT_32 CoalesceOP;
UINT_8 FieldLength;
UINT_8 CompareOP;
UINT_8 FieldID;
UINT_8 aucReserved3[1];
UINT_32 Pattern3[4];
/* TCPSYN */
UINT_32 AddressType;
UINT_32 TCPSrcPort;
UINT_32 TCPDstPort;
UINT_32 SourceIP[4];
UINT_32 DstIP[4];
UINT_8 aucReserved4[64];
} CMD_PACKET_FILTER_CAP_T, *P_CMD_PACKET_FILTER_CAP_T;
#endif /*CFG_WOW_SUPPORT*/
#if CFG_SUPPORT_WIFI_HOST_OFFLOAD
typedef struct _CMD_TCP_GENERATOR {
ENUM_PF_OPCODE_T eOpcode;
UINT_32 u4ReplyId;
UINT_32 u4Period;
UINT_32 u4Timeout;
UINT_32 u4IpId;
UINT_32 u4DestPort;
UINT_32 u4SrcPort;
UINT_32 u4Seq;
UINT_8 aucDestIp[4];
UINT_8 aucSrcIp[4];
UINT_8 aucDestMac[6];
UINT_8 ucBssId;
UINT_8 aucReserved1[1];
UINT_8 aucReserved2[64];
} CMD_TCP_GENERATOR, *P_CMD_TCP_GENERATOR;
typedef struct _CMD_PATTERN_GENERATOR {
ENUM_PF_OPCODE_T eOpcode;
UINT_32 u4ReplyId;
UINT_32 u4EthernetLength;
UINT_32 u4Period;
UINT_8 aucEthernetFrame[128];
UINT_8 ucBssId;
UINT_8 aucReserved1[3];
UINT_8 aucReserved2[64];
} CMD_PATTERN_GENERATOR, *P_CMD_PATTERN_GENERATOR;
typedef struct _CMD_BITMAP_FILTER {
ENUM_PF_OPCODE_T eOpcode;
UINT_32 u4ReplyId;
UINT_32 u4Offset;
UINT_32 u4Length;
UINT_8 aucPattern[64];
UINT_8 aucBitMask[64];
BOOLEAN fgIsEqual;
BOOLEAN fgIsAccept;
UINT_8 ucBssId;
UINT_8 aucReserved1[1];
UINT_8 aucReserved2[64];
} CMD_BITMAP_FILTER, *P_CMD_BITMAP_FILTER;
#endif /*CFG_SUPPORT_WIFI_HOST_OFFLOAD*/
typedef struct _CMD_RX_PACKET_FILTER {
UINT_32 u4RxPacketFilter;
UINT_8 aucReserved[64];
} CMD_RX_PACKET_FILTER, *P_CMD_RX_PACKET_FILTER;
#if defined(MT6632)
#define S2D_INDEX_CMD_H2N 0x0
#define S2D_INDEX_CMD_C2N 0x1
#define S2D_INDEX_CMD_H2C 0x2
#define S2D_INDEX_CMD_H2N_H2C 0x3
#define S2D_INDEX_EVENT_N2H 0x0
#define S2D_INDEX_EVENT_N2C 0x1
#define S2D_INDEX_EVENT_C2H 0x2
#define S2D_INDEX_EVENT_N2H_N2C 0x3
#endif
#define EXT_EVENT_ID_CMD_RESULT 0x00
/*#if (CFG_EEPROM_PAGE_ACCESS == 1)*/
#define EXT_EVENT_ID_CMD_EFUSE_ACCESS 0x1
#define EXT_EVENT_ID_EFUSE_FREE_BLOCK 0x4D
#define EXT_EVENT_ID_GET_TX_POWER 0x1C
#define EXT_EVENT_TARGET_TX_POWER 0x1
/*#endif*/
/*******************************************************************************
* D A T A T Y P E S
********************************************************************************
*/
#ifndef LINUX
typedef UINT_8 CMD_STATUS;
#endif
/* for Event Packet (via HIF-RX) */
typedef struct _PSE_CMD_HDR_T {
/* DW0 */
UINT_16 u2TxByteCount;
UINT_16 u2Reserved1:10;
UINT_16 u2Qidx:5;
UINT_16 u2Pidx:1;
/* DW1 */
UINT_16 u2Reserved2:13;
UINT_16 u2Hf:2;
UINT_16 u2Ft:1;
UINT_16 u2Reserved3:8;
UINT_16 u2PktFt:2;
UINT_16 u2Reserved4:6;
/* DW2~7 */
UINT_32 au4Reserved[6];
} PSE_CMD_HDR_T, *P_PSE_CMD_HDR_T;
typedef struct _WIFI_CMD_T {
UINT_16 u2TxByteCount; /* Max value is over 2048 */
UINT_16 u2PQ_ID; /* Must be 0x8000 (Port1, Queue 0) */
#if 1
UINT_8 ucWlanIdx;
UINT_8 ucHeaderFormat;
UINT_8 ucHeaderPadding;
UINT_8 ucPktFt:2;
UINT_8 ucOwnMAC:6;
UINT_32 au4Reserved1[6];
UINT_16 u2Length;
UINT_16 u2PqId;
#endif
UINT_8 ucCID;
UINT_8 ucPktTypeID; /* Must be 0x20 (CMD Packet) */
UINT_8 ucSetQuery;
UINT_8 ucSeqNum;
#if 1
UINT_8 ucD2B0Rev; /* padding fields, hw may auto modify this field */
UINT_8 ucExtenCID; /* Extend CID */
UINT_8 ucS2DIndex; /* Index for Src to Dst in CMD usage */
UINT_8 ucExtCmdOption; /* Extend CID option */
UINT_8 ucCmdVersion;
UINT_8 ucReserved2[3];
UINT_32 au4Reserved3[4]; /* padding fields */
#endif
UINT_8 aucBuffer[0];
} WIFI_CMD_T, *P_WIFI_CMD_T;
/* for Command Packet (via HIF-TX) */
/* following CM's documentation v0.7 */
typedef struct _WIFI_EVENT_T {
#if 1
UINT_32 au4HwMacRxDesc[4];
#endif
UINT_16 u2PacketLength;
UINT_16 u2PacketType; /* Must be filled with 0xE000 (EVENT Packet) */
UINT_8 ucEID;
UINT_8 ucSeqNum;
UINT_8 ucEventVersion;
UINT_8 aucReserved[1];
UINT_8 ucExtenEID;
UINT_8 aucReserved2[2];
UINT_8 ucS2DIndex;
UINT_8 aucBuffer[0];
} WIFI_EVENT_T, *P_WIFI_EVENT_T;
/* CMD_ID_TEST_CTRL */
typedef struct _CMD_TEST_CTRL_T {
UINT_8 ucAction;
UINT_8 aucReserved[3];
union {
UINT_32 u4OpMode;
UINT_32 u4ChannelFreq;
PARAM_MTK_WIFI_TEST_STRUCT_T rRfATInfo;
} u;
} CMD_TEST_CTRL_T, *P_CMD_TEST_CTRL_T;
/* EVENT_TEST_STATUS */
typedef struct _PARAM_CUSTOM_RFTEST_TX_STATUS_STRUCT_T {
UINT_32 u4PktSentStatus;
UINT_32 u4PktSentCount;
UINT_16 u2AvgAlc;
UINT_8 ucCckGainControl;
UINT_8 ucOfdmGainControl;
} PARAM_CUSTOM_RFTEST_TX_STATUS_STRUCT_T, *P_PARAM_CUSTOM_RFTEST_TX_STATUS_STRUCT_T;
typedef struct _PARAM_CUSTOM_RFTEST_RX_STATUS_STRUCT_T {
UINT_32 u4IntRxOk; /*!< number of packets that Rx ok from interrupt */
UINT_32 u4IntCrcErr; /*!< number of packets that CRC error from interrupt */
UINT_32 u4IntShort; /*!< number of packets that is short preamble from interrupt */
UINT_32 u4IntLong; /*!< number of packets that is long preamble from interrupt */
UINT_32 u4PauRxPktCount; /*!< number of packets that Rx ok from PAU */
UINT_32 u4PauCrcErrCount; /*!< number of packets that CRC error from PAU */
UINT_32 u4PauRxFifoFullCount; /*!< number of packets that is short preamble from PAU */
UINT_32 u4PauCCACount; /*!< CCA rising edge count */
} PARAM_CUSTOM_RFTEST_RX_STATUS_STRUCT_T, *P_PARAM_CUSTOM_RFTEST_RX_STATUS_STRUCT_T;
typedef union _EVENT_TEST_STATUS {
PARAM_MTK_WIFI_TEST_STRUCT_T rATInfo;
/* PARAM_CUSTOM_RFTEST_TX_STATUS_STRUCT_T rTxStatus; */
/* PARAM_CUSTOM_RFTEST_RX_STATUS_STRUCT_T rRxStatus; */
} EVENT_TEST_STATUS, *P_EVENT_TEST_STATUS;
/* CMD_BUILD_CONNECTION */
typedef struct _CMD_BUILD_CONNECTION {
UINT_8 ucInfraMode;
UINT_8 ucAuthMode;
UINT_8 ucEncryptStatus;
UINT_8 ucSsidLen;
UINT_8 aucSsid[PARAM_MAX_LEN_SSID];
UINT_8 aucBssid[PARAM_MAC_ADDR_LEN];
/* Ad-hoc mode */
UINT_16 u2BeaconPeriod;
UINT_16 u2ATIMWindow;
UINT_8 ucJoinOnly;
UINT_8 ucReserved;
UINT_32 u4FreqInKHz;
/* for faster connection */
UINT_8 aucScanResult[0];
} CMD_BUILD_CONNECTION, *P_CMD_BUILD_CONNECTION;
/* CMD_ADD_REMOVE_KEY */
typedef struct _CMD_802_11_KEY {
UINT_8 ucAddRemove;
UINT_8 ucTxKey;
UINT_8 ucKeyType;
UINT_8 ucIsAuthenticator;
UINT_8 aucPeerAddr[6];
UINT_8 ucBssIdx;
UINT_8 ucAlgorithmId;
UINT_8 ucKeyId;
UINT_8 ucKeyLen;
UINT_8 ucWlanIndex;
UINT_8 ucReverved;
UINT_8 aucKeyMaterial[32];
UINT_8 aucKeyRsc[16];
} CMD_802_11_KEY, *P_CMD_802_11_KEY;
/* CMD_ID_DEFAULT_KEY_ID */
typedef struct _CMD_DEFAULT_KEY {
UINT_8 ucBssIdx;
UINT_8 ucKeyId;
UINT_8 ucWlanIndex;
UINT_8 ucMulticast;
} CMD_DEFAULT_KEY, *P_CMD_DEFAULT_KEY;
/* WPA2 PMKID cache structure */
typedef struct _PMKID_ENTRY_T {
PARAM_BSSID_INFO_T rBssidInfo;
BOOLEAN fgPmkidExist;
} PMKID_ENTRY_T, *P_PMKID_ENTRY_T;
typedef struct _CMD_802_11_PMKID {
UINT_32 u4BSSIDInfoCount;
P_PMKID_ENTRY_T arPMKIDInfo[1];
} CMD_802_11_PMKID, *P_CMD_802_11_PMKID;
typedef struct _CMD_GTK_REKEY_DATA_T {
UINT_8 aucKek[16];
UINT_8 aucKck[16];
UINT_8 aucReplayCtr[8];
} CMD_GTK_REKEY_DATA_T, *P_CMD_GTK_REKEY_DATA_T;
typedef struct _CMD_CSUM_OFFLOAD_T {
UINT_16 u2RxChecksum; /* bit0: IP, bit1: UDP, bit2: TCP */
UINT_16 u2TxChecksum; /* bit0: IP, bit1: UDP, bit2: TCP */
} CMD_CSUM_OFFLOAD_T, *P_CMD_CSUM_OFFLOAD_T;
/* CMD_BASIC_CONFIG */
typedef struct _CMD_BASIC_CONFIG_T {
UINT_8 ucNative80211;
UINT_8 ucCtrlFlagAssertPath;
UINT_8 ucCtrlFlagDebugLevel;
UINT_8 aucReserved[1];
CMD_CSUM_OFFLOAD_T rCsumOffload;
UINT_8 ucCrlFlagSegememt;
UINT_8 aucReserved2[3];
} CMD_BASIC_CONFIG_T, *P_CMD_BASIC_CONFIG_T;
/* CMD_MAC_MCAST_ADDR */
typedef struct _CMD_MAC_MCAST_ADDR {
UINT_32 u4NumOfGroupAddr;
UINT_8 ucBssIndex;
UINT_8 aucReserved[3];
PARAM_MAC_ADDRESS arAddress[MAX_NUM_GROUP_ADDR];
} CMD_MAC_MCAST_ADDR, *P_CMD_MAC_MCAST_ADDR, EVENT_MAC_MCAST_ADDR, *P_EVENT_MAC_MCAST_ADDR;
/* CMD_ACCESS_EEPROM */
typedef struct _CMD_ACCESS_EEPROM {
UINT_16 u2Offset;
UINT_16 u2Data;
} CMD_ACCESS_EEPROM, *P_CMD_ACCESS_EEPROM, EVENT_ACCESS_EEPROM, *P_EVENT_ACCESS_EEPROM;
typedef struct _CMD_CUSTOM_NOA_PARAM_STRUCT_T {
UINT_32 u4NoaDurationMs;
UINT_32 u4NoaIntervalMs;
UINT_32 u4NoaCount;
UINT_8 ucBssIdx;
UINT_8 aucReserved[3];
} CMD_CUSTOM_NOA_PARAM_STRUCT_T, *P_CMD_CUSTOM_NOA_PARAM_STRUCT_T;
typedef struct _CMD_CUSTOM_OPPPS_PARAM_STRUCT_T {
UINT_32 u4CTwindowMs;
UINT_8 ucBssIdx;
UINT_8 aucReserved[3];
} CMD_CUSTOM_OPPPS_PARAM_STRUCT_T, *P_CMD_CUSTOM_OPPPS_PARAM_STRUCT_T;
typedef struct _CMD_CUSTOM_UAPSD_PARAM_STRUCT_T {
UINT_8 fgEnAPSD;
UINT_8 fgEnAPSD_AcBe;
UINT_8 fgEnAPSD_AcBk;
UINT_8 fgEnAPSD_AcVo;
UINT_8 fgEnAPSD_AcVi;
UINT_8 ucMaxSpLen;
UINT_8 aucResv[2];
} CMD_CUSTOM_UAPSD_PARAM_STRUCT_T, *P_CMD_CUSTOM_UAPSD_PARAM_STRUCT_T;
#if CFG_M0VE_BA_TO_DRIVER
typedef struct _CMD_RESET_BA_SCOREBOARD_T {
UINT_8 ucflag;
UINT_8 ucTID;
UINT_8 aucMacAddr[PARAM_MAC_ADDR_LEN];
} CMD_RESET_BA_SCOREBOARD_T, *P_CMD_RESET_BA_SCOREBOARD_T;
#endif
/* EVENT_CONNECTION_STATUS */
typedef struct _EVENT_CONNECTION_STATUS {
UINT_8 ucMediaStatus;
UINT_8 ucReasonOfDisconnect;
UINT_8 ucInfraMode;
UINT_8 ucSsidLen;
UINT_8 aucSsid[PARAM_MAX_LEN_SSID];
UINT_8 aucBssid[PARAM_MAC_ADDR_LEN];
UINT_8 ucAuthenMode;
UINT_8 ucEncryptStatus;
UINT_16 u2BeaconPeriod;
UINT_16 u2AID;
UINT_16 u2ATIMWindow;
UINT_8 ucNetworkType;
UINT_8 aucReserved[1];
UINT_32 u4FreqInKHz;
#if CFG_ENABLE_WIFI_DIRECT
UINT_8 aucInterfaceAddr[PARAM_MAC_ADDR_LEN];
#endif
} EVENT_CONNECTION_STATUS, *P_EVENT_CONNECTION_STATUS;
/* EVENT_NIC_CAPABILITY */
typedef struct _EVENT_NIC_CAPABILITY_T {
UINT_16 u2ProductID;
UINT_16 u2FwVersion;
UINT_16 u2DriverVersion;
UINT_8 ucHw5GBandDisabled;
UINT_8 ucEepromUsed;
UINT_8 aucMacAddr[6];
UINT_8 ucEndianOfMacAddrNumber;
UINT_8 ucHwNotSupportAC;
UINT_8 ucRfVersion;
UINT_8 ucPhyVersion;
UINT_8 ucRfCalFail;
UINT_8 ucBbCalFail;
UINT_8 aucDateCode[16];
UINT_32 u4FeatureFlag0;
UINT_32 u4FeatureFlag1;
UINT_32 u4CompileFlag0;
UINT_32 u4CompileFlag1;
UINT_8 aucBranchInfo[4];
UINT_8 ucFwBuildNumber;
UINT_8 ucHwSetNss1x1;
UINT_8 ucHwNotSupportDBDC;
UINT_8 aucReserved0[1];
UINT_8 aucReserved1[56];
} EVENT_NIC_CAPABILITY_T, *P_EVENT_NIC_CAPABILITY_T;
typedef struct _EVENT_NIC_CAPABILITY_V2_T {
UINT_16 u2TotalElementNum;
UINT_8 aucReserved[2];
UINT_8 aucBuffer[0];
} EVENT_NIC_CAPABILITY_V2_T, *P_EVENT_NIC_CAPABILITY_V2_T;
typedef struct _NIC_CAPABILITY_V2_ELEMENT {
UINT_32 tag_type; /* NIC_CAPABILITY_V2_TAG_T */
UINT_32 body_len;
UINT_8 aucbody[0];
} NIC_CAPABILITY_V2_ELEMENT, *P_NIC_CAPABILITY_V2_ELEMENT;
typedef WLAN_STATUS(*NIC_CAP_V2_ELEMENT_HDLR)(P_ADAPTER_T prAdapter, P_UINT_8 buff);
typedef struct _NIC_CAPABILITY_V2_REF_TABLE_T {
UINT_32 tag_type; /* NIC_CAPABILITY_V2_TAG_T */
NIC_CAP_V2_ELEMENT_HDLR hdlr;
} NIC_CAPABILITY_V2_REF_TABLE_T, *P_NIC_CAPABILITY_V2_REF_TABLE_T;
typedef enum _NIC_CAPABILITY_V2_TAG_T {
TAG_CAP_TX_RESOURCE = 0x0,
TAG_CAP_TX_EFUSEADDRESS = 0x1,
TAG_CAP_COEX_FEATURE = 0x2,
TAG_CAP_SINGLE_SKU = 0x3,
#if CFG_TCP_IP_CHKSUM_OFFLOAD
TAG_CAP_CSUM_OFFLOAD = 0x4,
#endif
TAG_CAP_TOTAL
} NIC_CAPABILITY_V2_TAG_T;
#if CFG_TCP_IP_CHKSUM_OFFLOAD
typedef struct _NIC_CSUM_OFFLOAD_T {
UINT_8 ucIsSupportCsumOffload; /* 1: Support, 0: Not Support */
} NIC_CSUM_OFFLOAD_T, *P_NIC_CSUM_OFFLOAD_T;
#endif
typedef struct _NIC_COEX_FEATURE_T {
UINT_32 u4FddMode; /* TRUE for COEX FDD mode */
} NIC_COEX_FEATURE_T, *P_NIC_COEX_FEATURE_T;
typedef struct _NIC_EFUSE_ADDRESS_T {
UINT_32 u4EfuseStartAddress; /* Efuse Start Address */
UINT_32 u4EfuseEndAddress; /* Efuse End Address */
} NIC_EFUSE_ADDRESS_T, *P_NIC_EFUSE_ADDRESS_T;
typedef struct _NIC_TX_RESOURCE_T {
UINT_32 u4McuTotalResource; /* the total usable resource for MCU port */
UINT_32 u4McuResourceUnit; /* the unit of a MCU resource */
UINT_32 u4LmacTotalResource; /* the total usable resource for LMAC port */
UINT_32 u4LmacResourceUnit; /* the unit of a LMAC resource */
} NIC_TX_RESOURCE_T, *P_NIC_TX_RESOURCE_T;
/* modified version of WLAN_BEACON_FRAME_BODY_T for simplier buffering */
typedef struct _WLAN_BEACON_FRAME_BODY_T_LOCAL {
/* Beacon frame body */
UINT_32 au4Timestamp[2]; /* Timestamp */
UINT_16 u2BeaconInterval; /* Beacon Interval */
UINT_16 u2CapInfo; /* Capability */
UINT_8 aucInfoElem[MAX_IE_LENGTH]; /* Various IEs, start from SSID */
UINT_16 u2IELength; /* This field is *NOT* carried by F/W but caculated by nic_rx */
} WLAN_BEACON_FRAME_BODY_T_LOCAL, *P_WLAN_BEACON_FRAME_BODY_T_LOCAL;
/* EVENT_SCAN_RESULT */
typedef struct _EVENT_SCAN_RESULT_T {
INT_32 i4RSSI;
UINT_32 u4LinkQuality;
UINT_32 u4DSConfig; /* Center frequency */
UINT_32 u4DomainInfo; /* Require CM opinion */
UINT_32 u4Reserved;
UINT_8 ucNetworkType;
UINT_8 ucOpMode;
UINT_8 aucBssid[MAC_ADDR_LEN];
UINT_8 aucRatesEx[PARAM_MAX_LEN_RATES_EX];
WLAN_BEACON_FRAME_BODY_T_LOCAL rBeaconFrameBody;
} EVENT_SCAN_RESULT_T, *P_EVENT_SCAN_RESULT_T;
/* event of tkip mic error */
typedef struct _EVENT_MIC_ERR_INFO {
UINT_32 u4Flags;
} EVENT_MIC_ERR_INFO, *P_EVENT_MIC_ERR_INFO;
/* event of add key done for port control */
typedef struct _EVENT_ADD_KEY_DONE_INFO {
UINT_8 ucBSSIndex;
UINT_8 ucReserved;
UINT_8 aucStaAddr[6];
} EVENT_ADD_KEY_DONE_INFO, *P_EVENT_ADD_KEY_DONE_INFO;
typedef struct _EVENT_PMKID_CANDIDATE_LIST_T {
UINT_32 u4Version; /*!< Version */
UINT_32 u4NumCandidates; /*!< How many candidates follow */
PARAM_PMKID_CANDIDATE_T arCandidateList[1];
} EVENT_PMKID_CANDIDATE_LIST_T, *P_EVENT_PMKID_CANDIDATE_LIST_T;
typedef struct _EVENT_CMD_RESULT {
UINT_8 ucCmdID;
UINT_8 ucStatus;
UINT_8 aucReserved[2];
} EVENT_CMD_RESULT, *P_EVENT_CMD_RESULT;
/* CMD_ID_ACCESS_REG & EVENT_ID_ACCESS_REG */
typedef struct _CMD_ACCESS_REG {
UINT_32 u4Address;
UINT_32 u4Data;
} CMD_ACCESS_REG, *P_CMD_ACCESS_REG;
#if CFG_SUPPORT_CAL_RESULT_BACKUP_TO_HOST
/* CMD_ID_CAL_BACKUP_IN_HOST_V2 & EVENT_ID_CAL_BACKUP_IN_HOST_V2 */
typedef struct _CMD_CAL_BACKUP_STRUCT_V2_T {
UINT_8 ucReason;
UINT_8 ucAction;
UINT_8 ucNeedResp;
UINT_8 ucFragNum;
UINT_8 ucRomRam;
UINT_32 u4ThermalValue;
UINT_32 u4Address;
UINT_32 u4Length;
UINT_32 u4RemainLength;
UINT_32 au4Buffer[PARAM_CAL_DATA_DUMP_MAX_NUM];
} CMD_CAL_BACKUP_STRUCT_V2_T, *P_CMD_CAL_BACKUP_STRUCT_V2_T;
typedef struct _CMD_CAL_BACKUP_STRUCT_T {
UINT_8 ucReason;
UINT_8 ucAction;
UINT_8 ucNeedResp;
UINT_8 ucFragNum;
UINT_8 ucRomRam;
UINT_32 u4ThermalValue;
UINT_32 u4Address;
UINT_32 u4Length;
UINT_32 u4RemainLength;
} CMD_CAL_BACKUP_STRUCT_T, *P_CMD_CAL_BACKUP_STRUCT_T;
#endif
#if CFG_AUTO_CHANNEL_SEL_SUPPORT
typedef struct _CMD_ACCESS_CHN_LOAD {
UINT_32 u4Address;
UINT_32 u4Data;
UINT_16 u2Channel;
UINT_8 aucReserved[2];
} CMD_ACCESS_CHN_LOAD, *P_ACCESS_CHN_LOAD;
typedef struct _CMD_GET_LTE_SAFE_CHN_T {
UINT_8 ucIndex;
UINT_8 ucFlags;
UINT_8 aucReserved0[2];
UINT_8 aucReserved2[16];
} CMD_GET_LTE_SAFE_CHN_T, *P_CMD_GET_LTE_SAFE_CHN_T;
#endif
/* CMD_DUMP_MEMORY */
typedef struct _CMD_DUMP_MEM {
UINT_32 u4Address;
UINT_32 u4Length;
UINT_32 u4RemainLength;
#if CFG_SUPPORT_QA_TOOL
UINT_32 u4IcapContent;
#endif /* CFG_SUPPORT_QA_TOOL */
UINT_8 ucFragNum;
} CMD_DUMP_MEM, *P_CMD_DUMP_MEM;
typedef struct _EVENT_DUMP_MEM_T {
UINT_32 u4Address;
UINT_32 u4Length;
UINT_32 u4RemainLength;
#if CFG_SUPPORT_QA_TOOL
UINT_32 eIcapContent;
#endif /* CFG_SUPPORT_QA_TOOL */
UINT_8 ucFragNum;
UINT_8 aucBuffer[1];
} EVENT_DUMP_MEM_T, *P_EVENT_DUMP_MEM_T;
#if CFG_SUPPORT_QA_TOOL
typedef struct _CMD_ACCESS_RX_STAT {
UINT_32 u4SeqNum;
UINT_32 u4TotalNum;
} CMD_ACCESS_RX_STAT, *P_CMD_ACCESS_RX_STAT;
typedef struct _EVENT_ACCESS_RX_STAT {
UINT_32 u4SeqNum;
UINT_32 u4TotalNum;
UINT_32 au4Buffer[1];
} EVENT_ACCESS_RX_STAT, *P_EVENT_ACCESS_RX_STAT;
#if CFG_SUPPORT_TX_BF
typedef union _CMD_TXBF_ACTION_T {
PROFILE_TAG_READ_T rProfileTagRead;
PROFILE_TAG_WRITE_T rProfileTagWrite;
PROFILE_DATA_READ_T rProfileDataRead;
PROFILE_DATA_WRITE_T rProfileDataWrite;
PROFILE_PN_READ_T rProfilePnRead;
PROFILE_PN_WRITE_T rProfilePnWrite;
TX_BF_SOUNDING_START_T rTxBfSoundingStart;
TX_BF_SOUNDING_STOP_T rTxBfSoundingStop;
TX_BF_TX_APPLY_T rTxBfTxApply;
TX_BF_PFMU_MEM_ALLOC_T rTxBfPfmuMemAlloc;
TX_BF_PFMU_MEM_RLS_T rTxBfPfmuMemRls;
} CMD_TXBF_ACTION_T, *P_CMD_TXBF_ACTION_T;
#define CMD_DEVINFO_UPDATE_HDR_SIZE 8
typedef struct _CMD_DEV_INFO_UPDATE_T {
UINT_8 ucOwnMacIdx;
UINT_8 ucReserve;
UINT_16 u2TotalElementNum;
UINT_8 ucAppendCmdTLV;
UINT_8 aucReserve[3];
UINT_8 aucBuffer[0];
/* CMD_DEVINFO_ACTIVE_T rCmdDevInfoActive; */
} CMD_DEV_INFO_UPDATE_T, *P_CMD_DEV_INFO_UPDATE_T;
#define CMD_BSSINFO_UPDATE_HDR_SIZE 8
typedef struct _CMD_BSS_INFO_UPDATE_T {
UINT_8 ucBssIndex;
UINT_8 ucReserve;
UINT_16 u2TotalElementNum;
UINT_32 u4Reserve;
/* CMD_BSSINFO_BASIC_T rCmdBssInfoBasic; */
UINT_8 aucBuffer[0];
} CMD_BSS_INFO_UPDATE_T, *P_CMD_BSS_INFO_UPDATE_T;
/* STA record command */
#define CMD_STAREC_UPDATE_HDR_SIZE 8
typedef struct _CMD_STAREC_UPDATE_T {
UINT_8 ucBssIndex;
UINT_8 ucWlanIdx;
UINT_16 u2TotalElementNum;
UINT_32 u4Reserve;
UINT_8 aucBuffer[0];
} CMD_STAREC_UPDATE_T, *P_CMD_STAREC_UPDATE_T;
typedef struct _EVENT_PFMU_TAG_READ_T {
PFMU_PROFILE_TAG1 ru4TxBfPFMUTag1;
PFMU_PROFILE_TAG2 ru4TxBfPFMUTag2;
} EVENT_PFMU_TAG_READ_T, *P_EVENT_PFMU_TAG_READ_T;
#if CFG_SUPPORT_MU_MIMO
typedef struct _EVENT_HQA_GET_QD {
UINT_32 u4EventId;
UINT_32 au4RawData[14];
} EVENT_HQA_GET_QD, *P_EVENT_HQA_GET_QD;
typedef struct _EVENT_HQA_GET_MU_CALC_LQ {
UINT_32 u4EventId;
MU_STRUCT_LQ_REPORT rEntry;
} EVENT_HQA_GET_MU_CALC_LQ, *P_EVENT_HQA_GET_MU_CALC_LQ;
typedef struct _EVENT_SHOW_GROUP_TBL_ENTRY {
UINT_32 u4EventId;
UINT_8 index;
UINT_8 numUser:2;
UINT_8 BW:2;
UINT_8 NS0:2;
UINT_8 NS1:2;
/* UINT_8 NS2:1; */
/* UINT_8 NS3:1; */
UINT_8 PFIDUser0;
UINT_8 PFIDUser1;
/* UINT_8 PFIDUser2; */
/* UINT_8 PFIDUser3; */
BOOLEAN fgIsShortGI;
BOOLEAN fgIsUsed;
BOOLEAN fgIsDisable;
UINT_8 initMcsUser0:4;
UINT_8 initMcsUser1:4;
/* UINT_8 initMcsUser2:4; */
/* UINT_8 initMcsUser3:4; */
UINT_8 dMcsUser0:4;
UINT_8 dMcsUser1:4;
/* UINT_8 dMcsUser2:4; */
/* UINT_8 dMcsUser3:4; */
} EVENT_SHOW_GROUP_TBL_ENTRY, *P_EVENT_SHOW_GROUP_TBL_ENTRY;
typedef union _CMD_MUMIMO_ACTION_T {
UINT_8 ucMuMimoCategory;
UINT_8 aucRsv[3];
union {
MU_GET_CALC_INIT_MCS_T rMuGetCalcInitMcs;
MU_SET_INIT_MCS_T rMuSetInitMcs;
MU_SET_CALC_LQ_T rMuSetCalcLq;
MU_GET_LQ_T rMuGetLq;
MU_SET_SNR_OFFSET_T rMuSetSnrOffset;
MU_SET_ZERO_NSS_T rMuSetZeroNss;
MU_SPEED_UP_LQ_T rMuSpeedUpLq;
MU_SET_MU_TABLE_T rMuSetMuTable;
MU_SET_GROUP_T rMuSetGroup;
MU_GET_QD_T rMuGetQd;
MU_SET_ENABLE_T rMuSetEnable;
MU_SET_GID_UP_T rMuSetGidUp;
MU_TRIGGER_MU_TX_T rMuTriggerMuTx;
} unMuMimoParam;
} CMD_MUMIMO_ACTION_T, *P_CMD_MUMIMO_ACTION_T;
#endif /* CFG_SUPPORT_MU_MIMO */
#endif /* CFG_SUPPORT_TX_BF */
#endif /* CFG_SUPPORT_QA_TOOL */
typedef struct _CMD_SW_DBG_CTRL_T {
UINT_32 u4Id;
UINT_32 u4Data;
/* Debug Support */
UINT_32 u4DebugCnt[64];
} CMD_SW_DBG_CTRL_T, *P_CMD_SW_DBG_CTRL_T;
typedef struct _CMD_FW_LOG_2_HOST_CTRL_T {
UINT_8 ucFwLog2HostCtrl;
UINT_8 ucMcuDest;
UINT_8 ucReserve[2];
} CMD_FW_LOG_2_HOST_CTRL_T, *P_CMD_FW_LOG_2_HOST_CTRL_T;
typedef struct _CMD_CHIP_CONFIG_T {
UINT_16 u2Id;
UINT_8 ucType;
UINT_8 ucRespType;
UINT_16 u2MsgSize;
UINT_8 aucReserved0[2];
UINT_8 aucCmd[CHIP_CONFIG_RESP_SIZE];
} CMD_CHIP_CONFIG_T, *P_CMD_CHIP_CONFIG_T;
/* CMD_ID_LINK_ATTRIB */
typedef struct _CMD_LINK_ATTRIB {
INT_8 cRssiTrigger;
UINT_8 ucDesiredRateLen;
UINT_16 u2DesiredRate[32];
UINT_8 ucMediaStreamMode;
UINT_8 aucReserved[1];
} CMD_LINK_ATTRIB, *P_CMD_LINK_ATTRIB;
/* CMD_ID_NIC_POWER_CTRL */
typedef struct _CMD_NIC_POWER_CTRL {
UINT_8 ucPowerMode;
UINT_8 aucReserved[3];
} CMD_NIC_POWER_CTRL, *P_CMD_NIC_POWER_CTRL;
/* CMD_ID_POWER_SAVE_MODE */
typedef struct _CMD_PS_PROFILE_T {
UINT_8 ucBssIndex;
UINT_8 ucPsProfile;
UINT_8 aucReserved[2];
} CMD_PS_PROFILE_T, *P_CMD_PS_PROFILE_T;
/* EVENT_LINK_QUALITY */
#if 1
typedef struct _LINK_QUALITY_ {
INT_8 cRssi; /* AIS Network. */
INT_8 cLinkQuality;
UINT_16 u2LinkSpeed; /* TX rate1 */
UINT_8 ucMediumBusyPercentage; /* Read clear */
UINT_8 ucIsLQ0Rdy; /* Link Quality BSS0 Ready. */
} LINK_QUALITY, *P_LINK_QUALITY;
typedef struct _EVENT_LINK_QUALITY_V2 {
LINK_QUALITY rLq[BSSID_NUM];
} EVENT_LINK_QUALITY_V2, *P_EVENT_LINK_QUALITY_V2;
typedef struct _EVENT_LINK_QUALITY {
INT_8 cRssi;
INT_8 cLinkQuality;
UINT_16 u2LinkSpeed;
UINT_8 ucMediumBusyPercentage;
} EVENT_LINK_QUALITY, *P_EVENT_LINK_QUALITY;
#endif
#if CFG_SUPPORT_P2P_RSSI_QUERY
/* EVENT_LINK_QUALITY */
typedef struct _EVENT_LINK_QUALITY_EX {
INT_8 cRssi;
INT_8 cLinkQuality;
UINT_16 u2LinkSpeed;
UINT_8 ucMediumBusyPercentage;
UINT_8 ucIsLQ0Rdy;
INT_8 cRssiP2P; /* For P2P Network. */
INT_8 cLinkQualityP2P;
UINT_16 u2LinkSpeedP2P;
UINT_8 ucMediumBusyPercentageP2P;
UINT_8 ucIsLQ1Rdy;
} EVENT_LINK_QUALITY_EX, *P_EVENT_LINK_QUALITY_EX;
#endif
/* EVENT_ID_STATISTICS */
typedef struct _EVENT_STATISTICS {
LARGE_INTEGER rTransmittedFragmentCount;
LARGE_INTEGER rMulticastTransmittedFrameCount;
LARGE_INTEGER rFailedCount;
LARGE_INTEGER rRetryCount;
LARGE_INTEGER rMultipleRetryCount;
LARGE_INTEGER rRTSSuccessCount;
LARGE_INTEGER rRTSFailureCount;
LARGE_INTEGER rACKFailureCount;
LARGE_INTEGER rFrameDuplicateCount;
LARGE_INTEGER rReceivedFragmentCount;
LARGE_INTEGER rMulticastReceivedFrameCount;
LARGE_INTEGER rFCSErrorCount;
} EVENT_STATISTICS, *P_EVENT_STATISTICS;
/* EVENT_ID_FW_SLEEPY_NOTIFY */
typedef struct _EVENT_SLEEPY_INFO_T {
UINT_8 ucSleepyState;
UINT_8 aucReserved[3];
} EVENT_SLEEPY_INFO_T, *P_EVENT_SLEEPY_INFO_T;
typedef struct _EVENT_ACTIVATE_STA_REC_T {
UINT_8 aucMacAddr[6];
UINT_8 ucStaRecIdx;
UINT_8 ucBssIndex;
} EVENT_ACTIVATE_STA_REC_T, *P_EVENT_ACTIVATE_STA_REC_T;
typedef struct _EVENT_DEACTIVATE_STA_REC_T {
UINT_8 ucStaRecIdx;
UINT_8 aucReserved[3];
} EVENT_DEACTIVATE_STA_REC_T, *P_EVENT_DEACTIVATE_STA_REC_T;
/* CMD_BT_OVER_WIFI */
typedef struct _CMD_BT_OVER_WIFI {
UINT_8 ucAction; /* 0: query, 1: setup, 2: destroy */
UINT_8 ucChannelNum;
PARAM_MAC_ADDRESS rPeerAddr;
UINT_16 u2BeaconInterval;
UINT_8 ucTimeoutDiscovery;
UINT_8 ucTimeoutInactivity;
UINT_8 ucRole;
UINT_8 PAL_Capabilities;
UINT_8 cMaxTxPower;
UINT_8 ucChannelBand;
UINT_8 ucReserved[1];
} CMD_BT_OVER_WIFI, *P_CMD_BT_OVER_WIFI;
#if (CFG_SUPPORT_DFS_MASTER == 1)
typedef enum _ENUM_REG_DOMAIN_T {
REG_DEFAULT = 0,
REG_JP_53,
REG_JP_56
} ENUM_REG_DOMAIN_T, *P_ENUM_REG_DOMAIN_T;
typedef struct _CMD_RDD_ON_OFF_CTRL_T {
UINT_8 ucDfsCtrl;
UINT_8 ucRddIdx;
UINT_8 ucRddInSel;
UINT_8 ucRegDomain;
UINT_8 ucRadarDetectMode;
} CMD_RDD_ON_OFF_CTRL_T, *P_CMD_RDD_ON_OFF_CTRL_T;
#endif
/* EVENT_BT_OVER_WIFI */
typedef struct _EVENT_BT_OVER_WIFI {
UINT_8 ucLinkStatus;
UINT_8 ucSelectedChannel;
INT_8 cRSSI;
UINT_8 ucReserved[1];
} EVENT_BT_OVER_WIFI, *P_EVENT_BT_OVER_WIFI;
/* Same with DOMAIN_SUBBAND_INFO */
typedef struct _CMD_SUBBAND_INFO {
UINT_8 ucRegClass;
UINT_8 ucBand;
UINT_8 ucChannelSpan;
UINT_8 ucFirstChannelNum;
UINT_8 ucNumChannels;
UINT_8 aucReserved[3];
} CMD_SUBBAND_INFO, *P_CMD_SUBBAND_INFO;
/* CMD_SET_DOMAIN_INFO */
#if (CFG_SUPPORT_SINGLE_SKU == 1)
typedef struct _CMD_SET_DOMAIN_INFO_V2_T {
UINT_32 u4CountryCode;
UINT_8 uc2G4Bandwidth; /* CONFIG_BW_20_40M or CONFIG_BW_20M */
UINT_8 uc5GBandwidth; /* CONFIG_BW_20_40M or CONFIG_BW_20M */
UINT_8 aucReserved[2];
struct acctive_channel_list active_chs;
} CMD_SET_DOMAIN_INFO_V2_T, *P_CMD_SET_DOMAIN_INFO_V2_T;
#endif
typedef struct _CMD_SET_DOMAIN_INFO_T {
UINT_16 u2CountryCode;
UINT_16 u2IsSetPassiveScan;
CMD_SUBBAND_INFO rSubBand[6];
UINT_8 uc2G4Bandwidth; /* CONFIG_BW_20_40M or CONFIG_BW_20M */
UINT_8 uc5GBandwidth; /* CONFIG_BW_20_40M or CONFIG_BW_20M */
UINT_8 aucReserved[2];
} CMD_SET_DOMAIN_INFO_T, *P_CMD_SET_DOMAIN_INFO_T;
#if CFG_SUPPORT_PWR_LIMIT_COUNTRY
/* CMD_SET_PWR_LIMIT_TABLE */
typedef struct _CMD_CHANNEL_POWER_LIMIT {
UINT_8 ucCentralCh;
INT_8 cPwrLimitCCK;
INT_8 cPwrLimit20;
INT_8 cPwrLimit40;
INT_8 cPwrLimit80;
INT_8 cPwrLimit160;
UINT_8 ucFlag;
UINT_8 aucReserved[1];
} CMD_CHANNEL_POWER_LIMIT, *P_CMD_CHANNEL_POWER_LIMIT;
typedef struct _CMD_SET_COUNTRY_CHANNEL_POWER_LIMIT_T {
UINT_16 u2CountryCode;
UINT_8 ucCountryFlag;
UINT_8 ucNum;
UINT_8 aucReserved[4];
CMD_CHANNEL_POWER_LIMIT rChannelPowerLimit[1];
} CMD_SET_COUNTRY_CHANNEL_POWER_LIMIT_T, *P_CMD_SET_COUNTRY_CHANNEL_POWER_LIMIT_T;
#if (CFG_SUPPORT_SINGLE_SKU == 1)
typedef struct _CMD_CHANNEL_POWER_LIMIT_V2 {
UINT_8 ucCentralCh;
UINT_8 ucReserved[3];
UINT_8 tx_pwr_dsss_cck;
UINT_8 tx_pwr_dsss_bpsk;
UINT_8 tx_pwr_ofdm_bpsk; /* 6M, 9M */
UINT_8 tx_pwr_ofdm_qpsk; /* 12M, 18M */
UINT_8 tx_pwr_ofdm_16qam; /* 24M, 36M */
UINT_8 tx_pwr_ofdm_48m;
UINT_8 tx_pwr_ofdm_54m;
UINT_8 tx_pwr_ht20_bpsk; /* MCS0*/
UINT_8 tx_pwr_ht20_qpsk; /* MCS1, MCS2*/
UINT_8 tx_pwr_ht20_16qam; /* MCS3, MCS4*/
UINT_8 tx_pwr_ht20_mcs5; /* MCS5*/
UINT_8 tx_pwr_ht20_mcs6; /* MCS6*/
UINT_8 tx_pwr_ht20_mcs7; /* MCS7*/
UINT_8 tx_pwr_ht40_bpsk; /* MCS0*/
UINT_8 tx_pwr_ht40_qpsk; /* MCS1, MCS2*/
UINT_8 tx_pwr_ht40_16qam; /* MCS3, MCS4*/
UINT_8 tx_pwr_ht40_mcs5; /* MCS5*/
UINT_8 tx_pwr_ht40_mcs6; /* MCS6*/
UINT_8 tx_pwr_ht40_mcs7; /* MCS7*/
UINT_8 tx_pwr_ht40_mcs32; /* MCS32*/
UINT_8 tx_pwr_vht20_bpsk; /* MCS0*/
UINT_8 tx_pwr_vht20_qpsk; /* MCS1, MCS2*/
UINT_8 tx_pwr_vht20_16qam; /* MCS3, MCS4*/
UINT_8 tx_pwr_vht20_64qam; /* MCS5, MCS6*/
UINT_8 tx_pwr_vht20_mcs7;
UINT_8 tx_pwr_vht20_mcs8;
UINT_8 tx_pwr_vht20_mcs9;
UINT_8 tx_pwr_vht_40;
UINT_8 tx_pwr_vht_80;
UINT_8 tx_pwr_vht_160c;
UINT_8 tx_pwr_vht_160nc;
UINT_8 tx_pwr_lg_40;
UINT_8 tx_pwr_lg_80;
UINT_8 tx_pwr_1ss_delta;
UINT_8 ucReserved_1[2];
} CMD_CHANNEL_POWER_LIMIT_V2, *P_CMD_CHANNEL_POWER_LIMIT_V2;
typedef struct _CMD_SET_COUNTRY_CHANNEL_POWER_LIMIT_V2_T {
UINT_8 ucNum;
UINT_8 eband; /*ENUM_BAND_T*/
UINT_8 usReserved[2];
UINT_32 countryCode;
CMD_CHANNEL_POWER_LIMIT_V2 rChannelPowerLimit[0];
} CMD_SET_COUNTRY_CHANNEL_POWER_LIMIT_V2_T, *P_CMD_SET_COUNTRY_CHANNEL_POWER_LIMIT_V2_T;
#define TX_PWR_LIMIT_SECTION_NUM 5
#define TX_PWR_LIMIT_ELEMENT_NUM 7
#define TX_PWR_LIMIT_COUNTRY_STR_MAX_LEN 4
#define TX_PWR_LIMIT_MAX_VAL 63
typedef struct _CHANNEL_TX_PWR_LIMIT {
UINT_8 ucChannel;
INT_8 rTxPwrLimitValue[TX_PWR_LIMIT_SECTION_NUM][TX_PWR_LIMIT_ELEMENT_NUM];
} CHANNEL_TX_PWR_LIMIT, *P_CHANNEL_TX_PWR_LIMIT;
typedef struct _TX_PWR_LIMIT_DATA {
UINT_32 countryCode;
UINT_32 ucChNum;
P_CHANNEL_TX_PWR_LIMIT rChannelTxPwrLimit;
} TX_PWR_LIMIT_DATA, *P_TX_PWR_LIMIT_DATA;
#endif
#endif
/* CMD_SET_IP_ADDRESS */
typedef struct _IPV4_NETWORK_ADDRESS {
UINT_8 aucIpAddr[4];
} IPV4_NETWORK_ADDRESS, *P_IPV4_NETWORK_ADDRESS;
typedef struct _CMD_SET_NETWORK_ADDRESS_LIST {
UINT_8 ucBssIndex;
UINT_8 ucAddressCount;
UINT_8 ucReserved[2];
IPV4_NETWORK_ADDRESS arNetAddress[1];
} CMD_SET_NETWORK_ADDRESS_LIST, *P_CMD_SET_NETWORK_ADDRESS_LIST;
typedef struct _PATTERN_DESCRIPTION {
UINT_8 fgCheckBcA1;
UINT_8 fgCheckMcA1;
UINT_8 ePatternHeader;
UINT_8 fgAndOp;
UINT_8 fgNotOp;
UINT_8 ucPatternMask;
UINT_16 u2PatternOffset;
UINT_8 aucPattern[8];
} PATTERN_DESCRIPTION, *P_PATTERN_DESCRIPTION;
typedef struct _CMD_RAW_PATTERN_CONFIGURATION_T {
PATTERN_DESCRIPTION arPatternDesc[4];
} CMD_RAW_PATTERN_CONFIGURATION_T, *P_CMD_RAW_PATTERN_CONFIGURATION_T;
typedef struct _CMD_PATTERN_FUNC_CONFIG {
BOOLEAN fgBcA1En;
BOOLEAN fgMcA1En;
BOOLEAN fgBcA1MatchDrop;
BOOLEAN fgMcA1MatchDrop;
} CMD_PATTERN_FUNC_CONFIG, *P_CMD_PATTERN_FUNC_CONFIG;
typedef struct _EVENT_TX_DONE_T {
UINT_8 ucPacketSeq;
UINT_8 ucStatus;
UINT_16 u2SequenceNumber;
UINT_8 ucWlanIndex;
UINT_8 ucTxCount;
UINT_16 u2TxRate;
UINT_8 ucFlag;
UINT_8 ucTid;
UINT_8 ucRspRate;
UINT_8 ucRateTableIdx;
UINT_8 ucBandwidth;
UINT_8 ucTxPower;
UINT_8 aucReserved0[2];
UINT_32 u4TxDelay;
UINT_32 u4Timestamp;
UINT_32 u4AppliedFlag;
UINT_8 aucRawTxS[28];
UINT_8 aucReserved1[32];
} EVENT_TX_DONE_T, *P_EVENT_TX_DONE_T;
typedef enum _ENUM_TXS_APPLIED_FLAG_T {
TX_FRAME_IN_AMPDU_FORMAT = 0,
TX_FRAME_EXP_BF,
TX_FRAME_IMP_BF,
TX_FRAME_PS_BIT
} ENUM_TXS_APPLIED_FLAG_T, *P_ENUM_TXS_APPLIED_FLAG_T;
typedef enum _ENUM_TXS_CONTROL_FLAG_T {
TXS_WITH_ADVANCED_INFO = 0,
TXS_IS_EXIST
} ENUM_TXS_CONTROL_FLAG_T, *P_ENUM_TXS_CONTROL_FLAG_T;
#if (CFG_SUPPORT_DFS_MASTER == 1)
typedef enum _ENUM_DFS_CTRL_T {
RDD_STOP = 0,
RDD_START,
RDD_DET_MODE,
RDD_RADAR_EMULATE,
RDD_START_TXQ
} ENUM_DFS_CTRL_T, *P_ENUM_DFS_CTRL_T;
#endif
typedef struct _CMD_BSS_ACTIVATE_CTRL {
UINT_8 ucBssIndex;
UINT_8 ucActive;
UINT_8 ucNetworkType;
UINT_8 ucOwnMacAddrIndex;
UINT_8 aucBssMacAddr[6];
UINT_8 ucBMCWlanIndex;
UINT_8 ucReserved;
} CMD_BSS_ACTIVATE_CTRL, *P_CMD_BSS_ACTIVATE_CTRL;
typedef struct _CMD_SET_BSS_RLM_PARAM_T {
UINT_8 ucBssIndex;
UINT_8 ucRfBand;
UINT_8 ucPrimaryChannel;
UINT_8 ucRfSco;
UINT_8 ucErpProtectMode;
UINT_8 ucHtProtectMode;
UINT_8 ucGfOperationMode;
UINT_8 ucTxRifsMode;
UINT_16 u2HtOpInfo3;
UINT_16 u2HtOpInfo2;
UINT_8 ucHtOpInfo1;
UINT_8 ucUseShortPreamble;
UINT_8 ucUseShortSlotTime;
UINT_8 ucVhtChannelWidth;
UINT_8 ucVhtChannelFrequencyS1;
UINT_8 ucVhtChannelFrequencyS2;
UINT_16 u2VhtBasicMcsSet;
UINT_8 ucNss;
} CMD_SET_BSS_RLM_PARAM_T, *P_CMD_SET_BSS_RLM_PARAM_T;
typedef struct _CMD_SET_BSS_INFO {
UINT_8 ucBssIndex;
UINT_8 ucConnectionState;
UINT_8 ucCurrentOPMode;
UINT_8 ucSSIDLen;
UINT_8 aucSSID[32];
UINT_8 aucBSSID[6];
UINT_8 ucIsQBSS;
UINT_8 ucReserved1;
UINT_16 u2OperationalRateSet;
UINT_16 u2BSSBasicRateSet;
UINT_8 ucStaRecIdxOfAP;
UINT_16 u2HwDefaultFixedRateCode;
UINT_8 ucNonHTBasicPhyType; /* For Slot Time and CWmin */
UINT_8 ucAuthMode;
UINT_8 ucEncStatus;
UINT_8 ucPhyTypeSet;
UINT_8 ucWapiMode;
UINT_8 ucIsApMode;
UINT_8 ucBMCWlanIndex;
UINT_8 ucHiddenSsidMode;
UINT_8 ucDisconnectDetectTh;
UINT_32 u4PrivateData;
CMD_SET_BSS_RLM_PARAM_T rBssRlmParam;
UINT_8 ucDBDCBand;
UINT_8 ucWmmSet;
UINT_8 ucDBDCAction;
UINT_8 ucNss;
UINT_8 aucReserved[20];
} CMD_SET_BSS_INFO, *P_CMD_SET_BSS_INFO;
typedef enum _ENUM_RTS_POLICY_T {
RTS_POLICY_AUTO,
RTS_POLICY_STATIC_BW,
RTS_POLICY_DYNAMIC_BW,
RTS_POLICY_LEGACY,
RTS_POLICY_NO_RTS
} ENUM_RTS_POLICY;
typedef struct _CMD_UPDATE_STA_RECORD_T {
UINT_8 ucStaIndex;
UINT_8 ucStaType;
/* This field should assign at create and keep consistency for update usage */
UINT_8 aucMacAddr[MAC_ADDR_LEN];
UINT_16 u2AssocId;
UINT_16 u2ListenInterval;
UINT_8 ucBssIndex; /* This field should assign at create and keep consistency for update usage */
UINT_8 ucDesiredPhyTypeSet;
UINT_16 u2DesiredNonHTRateSet;
UINT_16 u2BSSBasicRateSet;
UINT_8 ucIsQoS;
UINT_8 ucIsUapsdSupported;
UINT_8 ucStaState;
UINT_8 ucMcsSet;
UINT_8 ucSupMcs32;
UINT_8 aucReserved1[1];
UINT_8 aucRxMcsBitmask[10];
UINT_16 u2RxHighestSupportedRate;
UINT_32 u4TxRateInfo;
UINT_16 u2HtCapInfo;
UINT_16 u2HtExtendedCap;
UINT_32 u4TxBeamformingCap;
UINT_8 ucAmpduParam;
UINT_8 ucAselCap;
UINT_8 ucRCPI;
UINT_8 ucNeedResp;
UINT_8 ucUapsdAc; /* b0~3: Trigger enabled, b4~7: Delivery enabled */
UINT_8 ucUapsdSp; /* 0: all, 1: max 2, 2: max 4, 3: max 6 */
UINT_8 ucWlanIndex; /* This field should assign at create and keep consistency for update usage */
UINT_8 ucBMCWlanIndex; /* This field should assign at create and keep consistency for update usage */
UINT_32 u4VhtCapInfo;
UINT_16 u2VhtRxMcsMap;
UINT_16 u2VhtRxHighestSupportedDataRate;
UINT_16 u2VhtTxMcsMap;
UINT_16 u2VhtTxHighestSupportedDataRate;
UINT_8 ucRtsPolicy; /* 0: auto 1: Static BW 2: Dynamic BW 3: Legacy 7: WoRts */
UINT_8 ucVhtOpMode; /* VHT operating mode, bit 7: Rx NSS Type, bit 4-6, Rx NSS, bit 0-1: Channel Width */
UINT_8 ucTrafficDataType; /* 0: auto 1: data 2: video 3: voice */
UINT_8 ucTxGfMode;
UINT_8 ucTxSgiMode;
UINT_8 ucTxStbcMode;
UINT_16 u2HwDefaultFixedRateCode;
UINT_8 ucTxAmpdu;
UINT_8 ucRxAmpdu;
UINT_32 u4FixedPhyRate; /* */
UINT_16 u2MaxLinkSpeed; /* unit is 0.5 Mbps */
UINT_16 u2MinLinkSpeed;
UINT_32 u4Flags;
UINT_8 ucTxBaSize;
UINT_8 ucRxBaSize;
UINT_8 aucReserved3[2];
TXBF_PFMU_STA_INFO rTxBfPfmuInfo;
UINT_8 ucTxAmsduInAmpdu;
UINT_8 ucRxAmsduInAmpdu;
UINT_8 aucReserved5[2];
UINT_32 u4TxMaxAmsduInAmpduLen;
/* UINT_8 aucReserved4[30]; */
} CMD_UPDATE_STA_RECORD_T, *P_CMD_UPDATE_STA_RECORD_T;
typedef struct _CMD_REMOVE_STA_RECORD_T {
UINT_8 ucActionType;
UINT_8 ucStaIndex;
UINT_8 ucBssIndex;
UINT_8 ucReserved;
} CMD_REMOVE_STA_RECORD_T, *P_CMD_REMOVE_STA_RECORD_T;
typedef struct _CMD_INDICATE_PM_BSS_CREATED_T {
UINT_8 ucBssIndex;
UINT_8 ucDtimPeriod;
UINT_16 u2BeaconInterval;
UINT_16 u2AtimWindow;
UINT_8 aucReserved[2];
} CMD_INDICATE_PM_BSS_CREATED, *P_CMD_INDICATE_PM_BSS_CREATED;
typedef struct _CMD_INDICATE_PM_BSS_CONNECTED_T {
UINT_8 ucBssIndex;
UINT_8 ucDtimPeriod;
UINT_16 u2AssocId;
UINT_16 u2BeaconInterval;
UINT_16 u2AtimWindow;
UINT_8 fgIsUapsdConnection;
UINT_8 ucBmpDeliveryAC;
UINT_8 ucBmpTriggerAC;
UINT_8 aucReserved[1];
} CMD_INDICATE_PM_BSS_CONNECTED, *P_CMD_INDICATE_PM_BSS_CONNECTED;
typedef struct _CMD_INDICATE_PM_BSS_ABORT {
UINT_8 ucBssIndex;
UINT_8 aucReserved[3];
} CMD_INDICATE_PM_BSS_ABORT, *P_CMD_INDICATE_PM_BSS_ABORT;
typedef struct _CMD_BEACON_TEMPLATE_UPDATE {
/* 0: update randomly, 1: update all, 2: delete all (1 and 2 will update directly without search) */
UINT_8 ucUpdateMethod;
UINT_8 ucBssIndex;
UINT_8 aucReserved[2];
UINT_16 u2Capability;
UINT_16 u2IELen;
UINT_8 aucIE[MAX_IE_LENGTH];
} CMD_BEACON_TEMPLATE_UPDATE, *P_CMD_BEACON_TEMPLATE_UPDATE;
typedef struct _CMD_SET_WMM_PS_TEST_STRUCT_T {
UINT_8 ucBssIndex;
UINT_8 bmfgApsdEnAc; /* b0~3: trigger-en AC0~3. b4~7: delivery-en AC0~3 */
UINT_8 ucIsEnterPsAtOnce; /* enter PS immediately without 5 second guard after connected */
UINT_8 ucIsDisableUcTrigger; /* not to trigger UC on beacon TIM is matched (under U-APSD) */
} CMD_SET_WMM_PS_TEST_STRUCT_T, *P_CMD_SET_WMM_PS_TEST_STRUCT_T;
/* Definition for CHANNEL_INFO.ucBand:
* 0: Reserved
* 1: BAND_2G4
* 2: BAND_5G
* Others: Reserved
*/
typedef struct _CHANNEL_INFO_T {
UINT_8 ucBand;
UINT_8 ucChannelNum;
} CHANNEL_INFO_T, *P_CHANNEL_INFO_T;
typedef struct _CMD_SCAN_REQ_T {
UINT_8 ucSeqNum;
UINT_8 ucBssIndex;
UINT_8 ucScanType;
UINT_8 ucSSIDType; /* BIT(0) wildcard / BIT(1) P2P-wildcard / BIT(2) specific */
UINT_8 ucSSIDLength;
UINT_8 ucNumProbeReq;
UINT_16 u2ChannelMinDwellTime;
UINT_16 u2ChannelDwellTime;
UINT_16 u2TimeoutValue;
UINT_8 aucSSID[32];
UINT_8 ucChannelType;
UINT_8 ucChannelListNum;
UINT_8 aucReserved[2];
CHANNEL_INFO_T arChannelList[32];
UINT_16 u2IELen;
UINT_8 aucIE[MAX_IE_LENGTH];
} CMD_SCAN_REQ, *P_CMD_SCAN_REQ;
typedef struct _CMD_SCAN_REQ_V2_T {
UINT_8 ucSeqNum;
UINT_8 ucBssIndex;
UINT_8 ucScanType;
UINT_8 ucSSIDType;
UINT_8 ucSSIDNum;
UINT_8 ucNumProbeReq;
UINT_8 aucReserved[2]; /*total 8*/
PARAM_SSID_T arSSID[4]; /*(4+32)*4 = 144, total 152*/
UINT_16 u2ProbeDelayTime;
UINT_16 u2ChannelDwellTime;
UINT_16 u2TimeoutValue;
UINT_8 ucChannelType;
UINT_8 ucChannelListNum; /*total 160*/
CHANNEL_INFO_T arChannelList[32]; /*total 160+64=224*/
UINT_16 u2IELen; /*total 226*/
UINT_8 aucIE[MAX_IE_LENGTH]; /*total 826*/
UINT_8 ucScnCtrlFlag;
UINT_8 aucReserved2; /*total 828*/
/*Extend for Scan cmds*/
CHANNEL_INFO_T arChannelListExtend[32]; /*total 892*/
UINT_8 arPerChannelControl[32];
UINT_8 arPerExtendChannelControl[32]; /*total 956*/
UINT_8 ucScanChannelListenTime; /*total 957*/
UINT_8 aucReserved3[3]; /*total 960, max 1024*/
} CMD_SCAN_REQ_V2, *P_CMD_SCAN_REQ_V2;
typedef struct _CMD_SCAN_CANCEL_T {
UINT_8 ucSeqNum;
UINT_8 ucIsExtChannel; /* For P2P channel extension. */
UINT_8 aucReserved[2];
} CMD_SCAN_CANCEL, *P_CMD_SCAN_CANCEL;
/* 20150107 Daniel Added complete channels number in the scan done event */
/* before*/
/*
*typedef struct _EVENT_SCAN_DONE_T {
* UINT_8 ucSeqNum;
* UINT_8 ucSparseChannelValid;
* CHANNEL_INFO_T rSparseChannel;
*} EVENT_SCAN_DONE, *P_EVENT_SCAN_DONE;
*/
/* after */
#define EVENT_SCAN_DONE_CHANNEL_NUM_MAX 64
typedef struct _EVENT_SCAN_DONE_T {
UINT_8 ucSeqNum;
UINT_8 ucSparseChannelValid;
CHANNEL_INFO_T rSparseChannel;
/*scan done version #2 */
UINT_8 ucCompleteChanCount;
UINT_8 ucCurrentState;
UINT_8 ucScanDoneVersion;
/*scan done version #3 */
UINT_8 ucReserved;
UINT_32 u4ScanDurBcnCnt;
UINT_8 fgIsPNOenabled;
UINT_8 aucReserving[3];
/*channel idle count # Mike */
UINT_8 ucSparseChannelArrayValidNum;
UINT_8 aucReserved[3];
UINT_8 aucChannelNum[EVENT_SCAN_DONE_CHANNEL_NUM_MAX];
/* Idle format for au2ChannelIdleTime */
/* 0: first bytes: idle time(ms) 2nd byte: dwell time(ms) */
/* 1: first bytes: idle time(8ms) 2nd byte: dwell time(8ms) */
/* 2: dwell time (16us) */
UINT_16 au2ChannelIdleTime[EVENT_SCAN_DONE_CHANNEL_NUM_MAX];
/* B0: Active/Passive B3-B1: Idle format */
UINT_8 aucChannelFlag[EVENT_SCAN_DONE_CHANNEL_NUM_MAX];
UINT_8 aucChannelMDRDYCnt[EVENT_SCAN_DONE_CHANNEL_NUM_MAX];
} EVENT_SCAN_DONE, *P_EVENT_SCAN_DONE;
#if CFG_SUPPORT_BATCH_SCAN
typedef struct _CMD_BATCH_REQ_T {
UINT_8 ucSeqNum;
UINT_8 ucNetTypeIndex;
UINT_8 ucCmd; /* Start/ Stop */
UINT_8 ucMScan; /* an integer number of scans per batch */
UINT_8 ucBestn; /* an integer number of the max AP to remember per scan */
UINT_8 ucRtt; /* an integer number of highest-strength AP for which we'd */
/* like approximate distance reported */
UINT_8 ucChannel; /* channels */
UINT_8 ucChannelType;
UINT_8 ucChannelListNum;
UINT_8 aucReserved[3];
UINT_32 u4Scanfreq; /* an integer number of seconds between scans */
CHANNEL_INFO_T arChannelList[32]; /* channels */
} CMD_BATCH_REQ_T, *P_CMD_BATCH_REQ_T;
typedef struct _EVENT_BATCH_RESULT_ENTRY_T {
UINT_8 aucBssid[MAC_ADDR_LEN];
UINT_8 aucSSID[ELEM_MAX_LEN_SSID];
UINT_8 ucSSIDLen;
INT_8 cRssi;
UINT_32 ucFreq;
UINT_32 u4Age;
UINT_32 u4Dist;
UINT_32 u4Distsd;
} EVENT_BATCH_RESULT_ENTRY_T, *P_EVENT_BATCH_RESULT_ENTRY_T;
typedef struct _EVENT_BATCH_RESULT_T {
UINT_8 ucScanCount;
UINT_8 aucReserved[3];
EVENT_BATCH_RESULT_ENTRY_T arBatchResult[12]; /* Must be the same with SCN_BATCH_STORE_MAX_NUM */
} EVENT_BATCH_RESULT_T, *P_EVENT_BATCH_RESULT_T;
#endif
typedef struct _CMD_CH_PRIVILEGE_T {
UINT_8 ucBssIndex;
UINT_8 ucTokenID;
UINT_8 ucAction;
UINT_8 ucPrimaryChannel;
UINT_8 ucRfSco;
UINT_8 ucRfBand;
UINT_8 ucRfChannelWidth; /* To support 80/160MHz bandwidth */
UINT_8 ucRfCenterFreqSeg1; /* To support 80/160MHz bandwidth */
UINT_8 ucRfCenterFreqSeg2; /* To support 80/160MHz bandwidth */
UINT_8 ucReqType;
UINT_8 ucDBDCBand;
UINT_8 aucReserved;
UINT_32 u4MaxInterval; /* In unit of ms */
UINT_8 aucReserved2[8];
} CMD_CH_PRIVILEGE_T, *P_CMD_CH_PRIVILEGE_T;
typedef struct _CMD_TX_PWR_T {
INT_8 cTxPwr2G4Cck; /* signed, in unit of 0.5dBm */
INT_8 cTxPwr2G4Dsss; /* signed, in unit of 0.5dBm */
INT_8 acReserved[2];
INT_8 cTxPwr2G4OFDM_BPSK;
INT_8 cTxPwr2G4OFDM_QPSK;
INT_8 cTxPwr2G4OFDM_16QAM;
INT_8 cTxPwr2G4OFDM_Reserved;
INT_8 cTxPwr2G4OFDM_48Mbps;
INT_8 cTxPwr2G4OFDM_54Mbps;
INT_8 cTxPwr2G4HT20_BPSK;
INT_8 cTxPwr2G4HT20_QPSK;
INT_8 cTxPwr2G4HT20_16QAM;
INT_8 cTxPwr2G4HT20_MCS5;
INT_8 cTxPwr2G4HT20_MCS6;
INT_8 cTxPwr2G4HT20_MCS7;
INT_8 cTxPwr2G4HT40_BPSK;
INT_8 cTxPwr2G4HT40_QPSK;
INT_8 cTxPwr2G4HT40_16QAM;
INT_8 cTxPwr2G4HT40_MCS5;
INT_8 cTxPwr2G4HT40_MCS6;
INT_8 cTxPwr2G4HT40_MCS7;
INT_8 cTxPwr5GOFDM_BPSK;
INT_8 cTxPwr5GOFDM_QPSK;
INT_8 cTxPwr5GOFDM_16QAM;
INT_8 cTxPwr5GOFDM_Reserved;
INT_8 cTxPwr5GOFDM_48Mbps;
INT_8 cTxPwr5GOFDM_54Mbps;
INT_8 cTxPwr5GHT20_BPSK;
INT_8 cTxPwr5GHT20_QPSK;
INT_8 cTxPwr5GHT20_16QAM;
INT_8 cTxPwr5GHT20_MCS5;
INT_8 cTxPwr5GHT20_MCS6;
INT_8 cTxPwr5GHT20_MCS7;
INT_8 cTxPwr5GHT40_BPSK;
INT_8 cTxPwr5GHT40_QPSK;
INT_8 cTxPwr5GHT40_16QAM;
INT_8 cTxPwr5GHT40_MCS5;
INT_8 cTxPwr5GHT40_MCS6;
INT_8 cTxPwr5GHT40_MCS7;
} CMD_TX_PWR_T, *P_CMD_TX_PWR_T;
typedef struct _CMD_TX_AC_PWR_T {
INT_8 ucBand;
#if 0
INT_8 c11AcTxPwr_BPSK;
INT_8 c11AcTxPwr_QPSK;
INT_8 c11AcTxPwr_16QAM;
INT_8 c11AcTxPwr_MCS5_MCS6;
INT_8 c11AcTxPwr_MCS7;
INT_8 c11AcTxPwr_MCS8;
INT_8 c11AcTxPwr_MCS9;
INT_8 c11AcTxPwrVht40_OFFSET;
INT_8 c11AcTxPwrVht80_OFFSET;
INT_8 c11AcTxPwrVht160_OFFSET;
#else
AC_PWR_SETTING_STRUCT rAcPwr;
#endif
} CMD_TX_AC_PWR_T, *P_CMD_TX_AC_PWR_T;
typedef struct _CMD_RSSI_PATH_COMPASATION_T {
INT_8 c2GRssiCompensation;
INT_8 c5GRssiCompensation;
} CMD_RSSI_PATH_COMPASATION_T, *P_CMD_RSSI_PATH_COMPASATION_T;
typedef struct _CMD_5G_PWR_OFFSET_T {
INT_8 cOffsetBand0; /* 4.915-4.980G */
INT_8 cOffsetBand1; /* 5.000-5.080G */
INT_8 cOffsetBand2; /* 5.160-5.180G */
INT_8 cOffsetBand3; /* 5.200-5.280G */
INT_8 cOffsetBand4; /* 5.300-5.340G */
INT_8 cOffsetBand5; /* 5.500-5.580G */
INT_8 cOffsetBand6; /* 5.600-5.680G */
INT_8 cOffsetBand7; /* 5.700-5.825G */
} CMD_5G_PWR_OFFSET_T, *P_CMD_5G_PWR_OFFSET_T;
typedef struct _CMD_PWR_PARAM_T {
UINT_32 au4Data[28];
UINT_32 u4RefValue1;
UINT_32 u4RefValue2;
} CMD_PWR_PARAM_T, *P_CMD_PWR_PARAM_T;
typedef struct _CMD_PHY_PARAM_T {
UINT_8 aucData[144]; /* eFuse content */
} CMD_PHY_PARAM_T, *P_CMD_PHY_PARAM_T;
typedef struct _CMD_AUTO_POWER_PARAM_T {
UINT_8 ucType; /* 0: Disable 1: Enalbe 0x10: Change parameters */
UINT_8 ucBssIndex;
UINT_8 aucReserved[2];
UINT_8 aucLevelRcpiTh[3];
UINT_8 aucReserved2[1];
INT_8 aicLevelPowerOffset[3]; /* signed, in unit of 0.5dBm */
UINT_8 aucReserved3[1];
UINT_8 aucReserved4[8];
} CMD_AUTO_POWER_PARAM_T, *P_CMD_AUTO_POWER_PARAM_T;
typedef struct _CMD_DBDC_SETTING_T {
UINT_8 ucDbdcEn;
UINT_8 ucWmmBandBitmap;
UINT_8 ucUpdateSettingNextChReq;
UINT_8 aucReserved1;
UINT_8 aucReserved2[32];
} CMD_DBDC_SETTING_T, *P_CMD_DBDC_SETTING_T;
typedef struct _EVENT_CH_PRIVILEGE_T {
UINT_8 ucBssIndex;
UINT_8 ucTokenID;
UINT_8 ucStatus;
UINT_8 ucPrimaryChannel;
UINT_8 ucRfSco;
UINT_8 ucRfBand;
UINT_8 ucRfChannelWidth; /* To support 80/160MHz bandwidth */
UINT_8 ucRfCenterFreqSeg1; /* To support 80/160MHz bandwidth */
UINT_8 ucRfCenterFreqSeg2; /* To support 80/160MHz bandwidth */
UINT_8 ucReqType;
UINT_8 ucDBDCBand;
UINT_8 aucReserved;
UINT_32 u4GrantInterval; /* In unit of ms */
UINT_8 aucReserved2[8];
} EVENT_CH_PRIVILEGE_T, *P_EVENT_CH_PRIVILEGE_T;
#if (CFG_SUPPORT_DFS_MASTER == 1)
typedef struct _LONG_PULSE_BUFFER_T {
UINT_32 u4LongStartTime;
UINT_16 u2LongPulseWidth;
} LONG_PULSE_BUFFER_T, *PLONG_PULSE_BUFFER_T;
typedef struct _PERIODIC_PULSE_BUFFER_T {
UINT_32 u4PeriodicStartTime;
UINT_16 u2PeriodicPulseWidth;
INT_16 i2PeriodicPulsePower;
} PERIODIC_PULSE_BUFFER_T, *PPERIODIC_PULSE_BUFFER_T;
typedef struct _EVENT_RDD_REPORT_T {
UINT_8 ucRadarReportMode; /*0: Only report radar detected; 1: Add parameter reports*/
UINT_8 ucRddIdx;
UINT_8 ucLongDetected;
UINT_8 ucPeriodicDetected;
UINT_8 ucLPBNum;
UINT_8 ucPPBNum;
UINT_8 ucLPBPeriodValid;
UINT_8 ucLPBWidthValid;
UINT_8 ucPRICountM1;
UINT_8 ucPRICountM1TH;
UINT_8 ucPRICountM2;
UINT_8 ucPRICountM2TH;
UINT_32 u4PRI1stUs;
LONG_PULSE_BUFFER_T arLpbContent[32];
PERIODIC_PULSE_BUFFER_T arPpbContent[32];
} EVENT_RDD_REPORT_T, *P_EVENT_RDD_REPORT_T;
#endif
typedef struct _EVENT_BSS_BEACON_TIMEOUT_T {
UINT_8 ucBssIndex;
UINT_8 ucReasonCode;
UINT_8 aucReserved[2];
} EVENT_BSS_BEACON_TIMEOUT_T, *P_EVENT_BSS_BEACON_TIMEOUT_T;
typedef struct _EVENT_STA_AGING_TIMEOUT_T {
UINT_8 ucStaRecIdx;
UINT_8 aucReserved[3];
} EVENT_STA_AGING_TIMEOUT_T, *P_EVENT_STA_AGING_TIMEOUT_T;
typedef struct _EVENT_NOA_TIMING_T {
UINT_8 ucIsInUse; /* Indicate if this entry is in use or not */
UINT_8 ucCount; /* Count */
UINT_8 aucReserved[2];
UINT_32 u4Duration; /* Duration */
UINT_32 u4Interval; /* Interval */
UINT_32 u4StartTime; /* Start Time */
} EVENT_NOA_TIMING_T, *P_EVENT_NOA_TIMING_T;
typedef struct _EVENT_UPDATE_NOA_PARAMS_T {
UINT_8 ucBssIndex;
UINT_8 aucReserved[2];
UINT_8 ucEnableOppPS;
UINT_16 u2CTWindow;
UINT_8 ucNoAIndex;
UINT_8 ucNoATimingCount; /* Number of NoA Timing */
EVENT_NOA_TIMING_T arEventNoaTiming[8 /*P2P_MAXIMUM_NOA_COUNT */];
} EVENT_UPDATE_NOA_PARAMS_T, *P_EVENT_UPDATE_NOA_PARAMS_T;
typedef struct _EVENT_AP_OBSS_STATUS_T {
UINT_8 ucBssIndex;
UINT_8 ucObssErpProtectMode;
UINT_8 ucObssHtProtectMode;
UINT_8 ucObssGfOperationMode;
UINT_8 ucObssRifsOperationMode;
UINT_8 ucObssBeaconForcedTo20M;
UINT_8 aucReserved[2];
} EVENT_AP_OBSS_STATUS_T, *P_EVENT_AP_OBSS_STATUS_T;
typedef struct _EVENT_DEBUG_MSG_T {
UINT_16 u2DebugMsgId;
UINT_8 ucMsgType;
UINT_8 ucFlags; /* unused */
UINT_32 u4Value; /* memory addre or ... */
UINT_16 u2MsgSize;
UINT_8 aucReserved0[2];
UINT_8 aucMsg[1];
} EVENT_DEBUG_MSG_T, *P_EVENT_DEBUG_MSG_T;
typedef struct _CMD_EDGE_TXPWR_LIMIT_T {
INT_8 cBandEdgeMaxPwrCCK;
INT_8 cBandEdgeMaxPwrOFDM20;
INT_8 cBandEdgeMaxPwrOFDM40;
INT_8 cBandEdgeMaxPwrOFDM80;
} CMD_EDGE_TXPWR_LIMIT_T, *P_CMD_EDGE_TXPWR_LIMIT_T;
typedef struct _CMD_POWER_OFFSET_T {
UINT_8 ucBand; /*1:2.4G ; 2:5G */
UINT_8 ucSubBandOffset[MAX_SUBBAND_NUM_5G]; /*the max num subband is 5G, devide with 8 subband */
UINT_8 aucReverse[3];
} CMD_POWER_OFFSET_T, *P_CMD_POWER_OFFSET_T;
typedef struct _CMD_NVRAM_SETTING_T {
WIFI_CFG_PARAM_STRUCT rNvramSettings;
} CMD_NVRAM_SETTING_T, *P_CMD_NVRAM_SETTING_T;
#if CFG_SUPPORT_TDLS
typedef struct _CMD_TDLS_CH_SW_T {
BOOLEAN fgIsTDLSChSwProhibit;
} CMD_TDLS_CH_SW_T, *P_CMD_TDLS_CH_SW_T;
#endif
#if CFG_SUPPORT_ADVANCE_CONTROL
/* command type */
#define CMD_ADV_CONTROL_SET (1<<15)
#define CMD_PTA_CONFIG_TYPE (0x1)
#define CMD_AFH_CONFIG_TYPE (0x2)
#define CMD_BA_CONFIG_TYPE (0x3)
#define CMD_GET_REPORT_TYPE (0x4)
/* for PtaConfig field */
#define CMD_PTA_CONFIG_PTA_EN (1<<0)
#define CMD_PTA_CONFIG_RW_EN (1<<1)
#define CMD_PTA_CONFIG_PTA_STAT_EN (1<<2)
/* pta config related mask */
#define CMD_PTA_CONFIG_PTA (1<<0)
#define CMD_PTA_CONFIG_RW (1<<1)
#define CMD_PTA_CONFIG_TXDATA_TAG (1<<2)
#define CMD_PTA_CONFIG_RXDATAACK_TAG (1<<3)
#define CMD_PTA_CONFIG_RX_NSW_TAG (1<<4)
#define CMD_PTA_CONFIG_TXACK_TAG (1<<5)
#define CMD_PTA_CONFIG_TXPROTFRAME_TAG (1<<6)
#define CMD_PTA_CONFIG_RXPROTFRAMEACK_TAG (1<<7)
#define CMD_PTA_CONFIG_TX_BMC_TAG (1<<8)
#define CMD_PTA_CONFIG_TX_BCN_TAG (1<<9)
#define CMD_PTA_CONFIG_RX_SP_TAG (1<<10)
#define CMD_PTA_CONFIG_TX_MGMT_TAG (1<<11)
#define CMD_PTA_CONFIG_RXMGMTACK_TAG (1<<12)
#define CMD_PTA_CONFIG_PTA_STAT (1<<13)
#define CMD_PTA_CONFIG_PTA_STAT_RESET (1<<14)
/* for config PTA Tag */
#define EVENT_CONFIG_PTA_OFFSET (0)
#define EVENT_CONFIG_PTA_FEILD (0x1)
#define EVENT_CONFIG_PTA_WIFI_OFFSET (12)
#define EVENT_CONFIG_PTA_WIFI_FEILD (0x1)
#define EVENT_CONFIG_PTA_BT_OFFSET (15)
#define EVENT_CONFIG_PTA_BT_FEILD (0x1)
#define EVENT_CONFIG_PTA_ARB_OFFSET (16)
#define EVENT_CONFIG_PTA_ARB_FEILD (0x1)
#define EVENT_CONFIG_WIFI_GRANT_OFFSET (30)
#define EVENT_CONFIG_WIFI_GRANT_FEILD (0x1)
#define EVENT_CONFIG_WIFI_PRI_OFFSET (12)
#define EVENT_CONFIG_WIFI_PRI_FEILD (0xf)
#define EVENT_CONFIG_WIFI_TXREQ_OFFSET (8)
#define EVENT_CONFIG_WIFI_TXREQ_FEILD (0x1)
#define EVENT_CONFIG_WIFI_RXREQ_OFFSET (9)
#define EVENT_CONFIG_WIFI_RXREQ_FEILD (0x1)
#define EVENT_CONFIG_BT_GRANT_OFFSET (29)
#define EVENT_CONFIG_BT_GRANT_FEILD (0x1)
#define EVENT_CONFIG_BT_PRI_OFFSET (4)
#define EVENT_CONFIG_BT_PRI_FEILD (0xf)
#define EVENT_CONFIG_BT_TXREQ_OFFSET (0)
#define EVENT_CONFIG_BT_TXREQ_FEILD (0x1)
#define EVENT_CONFIG_BT_RXREQ_OFFSET (1)
#define EVENT_CONFIG_BT_RXREQ_FEILD (0x1)
#define EVENT_PTA_BTTRX_CNT_OFFSET (16)
#define EVENT_PTA_BTTRX_CNT_FEILD (0xFFFF)
#define EVENT_PTA_BTTRX_GRANT_CNT_OFFSET (0)
#define EVENT_PTA_BTTRX_GRANT_CNT_FEILD (0xFFFF)
#define EVENT_PTA_WFTRX_CNT_OFFSET (16)
#define EVENT_PTA_WFTRX_CNT_FEILD (0xFFFF)
#define EVENT_PTA_WFTRX_GRANT_CNT_OFFSET (0)
#define EVENT_PTA_WFTRX_GRANT_CNT_FEILD (0xFFFF)
#define EVENT_PTA_TX_ABT_CNT_OFFSET (16)
#define EVENT_PTA_TX_ABT_CNT_FEILD (0xFFFF)
#define EVENT_PTA_RX_ABT_CNT_OFFSET (0)
#define EVENT_PTA_RX_ABT_CNT_FEILD (0xFFFF)
typedef struct _CMD_PTA_CONFIG {
UINT_16 u2Type;
UINT_16 u2Len;
UINT_32 u4ConfigMask;
/* common usage in set/get */
UINT_32 u4PtaConfig;
UINT_32 u4TxDataTag;
UINT_32 u4RxDataAckTag;
UINT_32 u4RxNswTag;
UINT_32 u4TxAckTag;
UINT_32 u4TxProtFrameTag;
UINT_32 u4RxProtFrameAckTag;
UINT_32 u4TxBMCTag;
UINT_32 u4TxBCNTag;
UINT_32 u4RxSPTag;
UINT_32 u4TxMgmtTag;
UINT_32 u4RxMgmtAckTag;
/* Only used in get */
UINT_32 u4PtaWF0TxCnt;
UINT_32 u4PtaWF0RxCnt;
UINT_32 u4PtaWF0AbtCnt;
UINT_32 u4PtaWF1TxCnt;
UINT_32 u4PtaWF1RxCnt;
UINT_32 u4PtaWF1AbtCnt;
UINT_32 u4PtaBTTxCnt;
UINT_32 u4PtaBTRxCnt;
UINT_32 u4PtaBTAbtCnt;
UINT_32 u4GrantStat;
UINT_32 u4CoexMode;
} CMD_PTA_CONFIG_T, *P_CMD_PTA_CONFIG_T;
/* get report related */
enum _ENUM_GET_REPORT_ACTION_T {
CMD_GET_REPORT_ENABLE = 1,
CMD_GET_REPORT_DISABLE,
CMD_GET_REPORT_RESET,
CMD_GET_REPORT_GET,
CMD_GET_REPORT_ACTIONS
};
#define EVENT_REPORT_OFDM_FCCA (16)
#define EVENT_REPORT_OFDM_FCCA_FEILD (0xffff)
#define EVENT_REPORT_CCK_FCCA (0)
#define EVENT_REPORT_CCK_FCCA_FEILD (0xffff)
#define EVENT_REPORT_OFDM_SIGERR (16)
#define EVENT_REPORT_OFDM_SIGERR_FEILD (0xffff)
#define EVENT_REPORT_CCK_SIGERR (0)
#define EVENT_REPORT_CCK_SIGERR_FEILD (0xffff)
struct CMD_GET_TRAFFIC_REPORT {
UINT_16 u2Type;
UINT_16 u2Len;
/* parameter */
UINT_8 ucBand;
UINT_8 ucAction;
UINT_8 reserved[2];
/* report 1 */
UINT_32 u4FalseCCA;
UINT_32 u4HdrCRC;
UINT_32 u4PktSent;
UINT_32 u4PktRetried;
UINT_32 u4PktTxfailed;
UINT_32 u4RxMPDU;
UINT_32 u4RxFcs;
/* air time report */
UINT_32 u4FetchSt; /* ms */
UINT_32 u4FetchEd; /* ms */
UINT_32 u4ChBusy; /* us */
UINT_32 u4ChIdle; /* us */
UINT_32 u4TxAirTime; /* us */
UINT_32 u4RxAirTime; /* us */
UINT_32 u4TimerDur; /* ms */
UINT_32 u4FetchCost; /* us */
INT_32 TimerDrift; /* ms */
};
typedef struct _CMD_ADV_CONFIG_HEADER {
UINT_16 u2Type;
UINT_16 u2Len;
} CMD_ADV_CONFIG_HEADER_T, *P_CMD_ADV_CONFIG_HEADER_T;
#endif
typedef struct _CMD_SET_DEVICE_MODE_T {
UINT_16 u2ChipID;
UINT_16 u2Mode;
} CMD_SET_DEVICE_MODE_T, *P_CMD_SET_DEVICE_MODE_T;
#if CFG_SUPPORT_RDD_TEST_MODE
typedef struct _CMD_RDD_CH_T {
UINT_8 ucRddTestMode;
UINT_8 ucRddShutCh;
UINT_8 ucRddStartCh;
UINT_8 ucRddStopCh;
UINT_8 ucRddDfs;
UINT_8 ucReserved;
UINT_8 ucReserved1;
UINT_8 ucReserved2;
} CMD_RDD_CH_T, *P_CMD_RDD_CH_T;
typedef struct _EVENT_RDD_STATUS_T {
UINT_8 ucRddStatus;
UINT_8 aucReserved[3];
} EVENT_RDD_STATUS_T, *P_EVENT_RDD_STATUS_T;
#endif
typedef struct _EVENT_ICAP_STATUS_T {
UINT_8 ucRddStatus;
UINT_8 aucReserved[3];
UINT_32 u4StartAddress;
UINT_32 u4IcapSieze;
#if CFG_SUPPORT_QA_TOOL
UINT_32 u4IcapContent;
#endif /* CFG_SUPPORT_QA_TOOL */
} EVENT_ICAP_STATUS_T, *P_EVENT_ICAP_STATUS_T;
#if CFG_SUPPORT_QA_TOOL
typedef struct _ADC_BUS_FMT_T {
UINT_32 u4Dcoc0Q:14; /* [13:0] */
UINT_32 u4Dcoc0I:14; /* [27:14] */
UINT_32 u4DbgData1:4; /* [31:28] */
UINT_32 u4Dcoc1Q:14; /* [45:32] */
UINT_32 u4Dcoc1I:14; /* [46:59] */
UINT_32 u4DbgData2:4; /* [63:60] */
UINT_32 u4DbgData3; /* [95:64] */
} ADC_BUS_FMT_T, *P_ADC_BUS_FMT_T;
typedef struct _IQC_BUS_FMT_T {
INT_32 u4Iqc0Q:14; /* [13:0] */
INT_32 u4Iqc0I:14; /* [27:14] */
INT_32 u4Na1:4; /* [31:28] */
INT_32 u4Iqc1Q:14; /* [45:32] */
INT_32 u4Iqc1I:14; /* [59:46] */
INT_32 u4Na2:4; /* [63:60] */
INT_32 u4Na3; /* [95:64] */
} IQC_BUS_FMT_T, *P_IQC_BUS_FMT_T;
typedef struct _IQC_160_BUS_FMT_T {
INT_32 u4Iqc0Q1:12; /* [11:0] */
INT_32 u4Iqc0I1:12; /* [23:12] */
UINT_32 u4Iqc0Q0P1:8; /* [31:24] */
INT_32 u4Iqc0Q0P2:4; /* [35:32] */
INT_32 u4Iqc0I0:12; /* [47:36] */
INT_32 u4Iqc1Q1:12; /* [59:48] */
UINT_32 u4Iqc1I1P1:4; /* [63:60] */
INT_32 u4Iqc1I1P2:8; /* [71:64] */
INT_32 u4Iqc1Q0:12; /* [83:72] */
INT_32 u4Iqc1I0:12; /* [95:84] */
} IQC_160_BUS_FMT_T, *P_IQC_160_BUS_FMT_T;
typedef struct _SPECTRUM_BUS_FMT_T {
INT_32 u4DcocQ:12; /* [11:0] */
INT_32 u4DcocI:12; /* [23:12] */
INT_32 u4LpfGainIdx:4; /* [27:24] */
INT_32 u4LnaGainIdx:2; /* [29:28] */
INT_32 u4AssertData:2; /* [31:30] */
} SPECTRUM_BUS_FMT_T, *P_SPECTRUM_BUS_FMT_T;
typedef struct _PACKED_ADC_BUS_FMT_T {
UINT_32 u4AdcQ0T2:4; /* [19:16] */
UINT_32 u4AdcQ0T1:4; /* [11:8] */
UINT_32 u4AdcQ0T0:4; /* [3:0] */
UINT_32 u4AdcI0T2:4; /* [23:20] */
UINT_32 u4AdcI0T1:4; /* [15:12] */
UINT_32 u4AdcI0T0:4; /* [7:4] */
UINT_32 u4AdcQ0T5:4; /* [43:40] */
UINT_32 u4AdcQ0T4:4; /* [35:32] */
UINT_32 u4AdcQ0T3:4; /* [27:24] */
UINT_32 u4AdcI0T5:4; /* [47:44] */
UINT_32 u4AdcI0T4:4; /* [39:36] */
UINT_32 u4AdcI0T3:4; /* [31:28] */
UINT_32 u4AdcQ1T2:4; /* [19:16] */
UINT_32 u4AdcQ1T1:4; /* [11:8] */
UINT_32 u4AdcQ1T0:4; /* [3:0] */
UINT_32 u4AdcI1T2:4; /* [23:20] */
UINT_32 u4AdcI1T1:4; /* [15:12] */
UINT_32 u4AdcI1T0:4; /* [7:4] */
UINT_32 u4AdcQ1T5:4; /* [43:40] */
UINT_32 u4AdcQ1T4:4; /* [35:32] */
UINT_32 u4AdcQ1T3:4; /* [27:24] */
UINT_32 u4AdcI1T5:4; /* [47:44] */
UINT_32 u4AdcI1T4:4; /* [39:36] */
UINT_32 u4AdcI1T3:4; /* [31:28] */
} PACKED_ADC_BUS_FMT_T, *P_PACKED_ADC_BUS_FMT_T;
typedef union _ICAP_BUS_FMT {
ADC_BUS_FMT_T rAdcBusData; /* 12 bytes */
IQC_BUS_FMT_T rIqcBusData; /* 12 bytes */
IQC_160_BUS_FMT_T rIqc160BusData; /* 12 bytes */
SPECTRUM_BUS_FMT_T rSpectrumBusData; /* 4 bytes */
PACKED_ADC_BUS_FMT_T rPackedAdcBusData; /* 12 bytes */
} ICAP_BUS_FMT, *P_ICAP_BUS_FMT;
#endif /* CFG_SUPPORT_QA_TOOL */
typedef struct _CMD_SET_TXPWR_CTRL_T {
INT_8 c2GLegacyStaPwrOffset; /* Unit: 0.5dBm, default: 0 */
INT_8 c2GHotspotPwrOffset;
INT_8 c2GP2pPwrOffset;
INT_8 c2GBowPwrOffset;
INT_8 c5GLegacyStaPwrOffset; /* Unit: 0.5dBm, default: 0 */
INT_8 c5GHotspotPwrOffset;
INT_8 c5GP2pPwrOffset;
INT_8 c5GBowPwrOffset;
/* TX power policy when concurrence
* in the same channel
* 0: Highest power has priority
* 1: Lowest power has priority
*/
UINT_8 ucConcurrencePolicy;
INT_8 acReserved1[3]; /* Must be zero */
/* Power limit by channel for all data rates */
INT_8 acTxPwrLimit2G[14]; /* Channel 1~14, Unit: 0.5dBm */
INT_8 acTxPwrLimit5G[4]; /* UNII 1~4 */
INT_8 acReserved2[2]; /* Must be zero */
} CMD_SET_TXPWR_CTRL_T, *P_CMD_SET_TXPWR_CTRL_T;
typedef enum _ENUM_NLO_CIPHER_ALGORITHM {
NLO_CIPHER_ALGO_NONE = 0x00,
NLO_CIPHER_ALGO_WEP40 = 0x01,
NLO_CIPHER_ALGO_TKIP = 0x02,
NLO_CIPHER_ALGO_CCMP = 0x04,
NLO_CIPHER_ALGO_WEP104 = 0x05,
NLO_CIPHER_ALGO_WPA_USE_GROUP = 0x100,
NLO_CIPHER_ALGO_RSN_USE_GROUP = 0x100,
NLO_CIPHER_ALGO_WEP = 0x101,
} ENUM_NLO_CIPHER_ALGORITHM, *P_ENUM_NLO_CIPHER_ALGORITHM;
typedef enum _ENUM_NLO_AUTH_ALGORITHM {
NLO_AUTH_ALGO_80211_OPEN = 1,
NLO_AUTH_ALGO_80211_SHARED_KEY = 2,
NLO_AUTH_ALGO_WPA = 3,
NLO_AUTH_ALGO_WPA_PSK = 4,
NLO_AUTH_ALGO_WPA_NONE = 5,
NLO_AUTH_ALGO_RSNA = 6,
NLO_AUTH_ALGO_RSNA_PSK = 7,
} ENUM_NLO_AUTH_ALGORITHM, *P_ENUM_NLO_AUTH_ALGORITHM;
typedef struct _NLO_NETWORK {
UINT_8 ucNumChannelHint[4];
UINT_8 ucSSIDLength;
UINT_8 ucCipherAlgo;
UINT_16 u2AuthAlgo;
UINT_8 aucSSID[32];
} NLO_NETWORK, *P_NLO_NETWORK;
typedef struct _CMD_NLO_REQ {
UINT_8 ucSeqNum;
UINT_8 ucBssIndex;
UINT_8 fgStopAfterIndication;
UINT_8 ucFastScanIteration;
UINT_16 u2FastScanPeriod;
UINT_16 u2SlowScanPeriod;
UINT_8 ucEntryNum;
UINT_8 ucFlag; /* BIT(0) Check cipher */
UINT_16 u2IELen;
NLO_NETWORK arNetworkList[16];
UINT_8 aucIE[0];
} CMD_NLO_REQ, *P_CMD_NLO_REQ;
typedef struct _CMD_NLO_CANCEL_T {
UINT_8 ucSeqNum;
UINT_8 ucBssIndex;
UINT_8 aucReserved[2];
} CMD_NLO_CANCEL, *P_CMD_NLO_CANCEL;
typedef struct _EVENT_NLO_DONE_T {
UINT_8 ucSeqNum;
UINT_8 ucStatus;
UINT_8 aucReserved[2];
} EVENT_NLO_DONE_T, *P_EVENT_NLO_DONE_T;
typedef struct _CMD_HIF_CTRL_T {
UINT_8 ucHifType;
UINT_8 ucHifDirection;
UINT_8 ucHifStop;
UINT_8 aucReserved1;
UINT_8 aucReserved2[32];
} CMD_HIF_CTRL_T, *P_CMD_HIF_CTRL_T;
typedef enum _ENUM_HIF_TYPE {
ENUM_HIF_TYPE_SDIO = 0x00,
ENUM_HIF_TYPE_USB = 0x01,
ENUM_HIF_TYPE_PCIE = 0x02,
ENUM_HIF_TYPE_GPIO = 0x03,
} ENUM_HIF_TYPE, *P_ENUM_HIF_TYPE;
typedef enum _ENUM_HIF_DIRECTION {
ENUM_HIF_TX = 0x01,
ENUM_HIF_RX = 0x02,
ENUM_HIF_TRX = 0x03,
} ENUM_HIF_DIRECTION, *P_ENUM_HIF_DIRECTION;
typedef enum _ENUM_HIF_TRAFFIC_STATUS {
ENUM_HIF_TRAFFIC_BUSY = 0x01,
ENUM_HIF_TRAFFIC_IDLE = 0x02,
ENUM_HIF_TRAFFIC_INVALID = 0x3,
} ENUM_HIF_TRAFFIC_STATUS, *P_ENUM_HIF_TRAFFIC_STATUS;
typedef struct _EVENT_HIF_CTRL_T {
UINT_8 ucHifType;
UINT_8 ucHifTxTrafficStatus;
UINT_8 ucHifRxTrafficStatus;
UINT_8 ucReserved1;
UINT_8 aucReserved2[32];
} EVENT_HIF_CTRL_T, *P_EVENT_HIF_CTRL_T;
#if CFG_SUPPORT_BUILD_DATE_CODE
typedef struct _CMD_GET_BUILD_DATE_CODE {
UINT_8 aucReserved[4];
} CMD_GET_BUILD_DATE_CODE, *P_CMD_GET_BUILD_DATE_CODE;
typedef struct _EVENT_BUILD_DATE_CODE {
UINT_8 aucDateCode[16];
} EVENT_BUILD_DATE_CODE, *P_EVENT_BUILD_DATE_CODE;
#endif
typedef struct _CMD_GET_STA_STATISTICS_T {
UINT_8 ucIndex;
UINT_8 ucFlags;
UINT_8 ucReadClear;
UINT_8 ucLlsReadClear;
UINT_8 aucMacAddr[MAC_ADDR_LEN];
UINT_8 ucResetCounter;
UINT_8 aucReserved1[1];
UINT_8 aucReserved2[16];
} CMD_GET_STA_STATISTICS_T, *P_CMD_GET_STA_STATISTICS_T;
/* per access category statistics */
typedef struct _WIFI_WMM_AC_STAT_GET_FROM_FW_T {
UINT_32 u4TxFailMsdu;
UINT_32 u4TxRetryMsdu;
} WIFI_WMM_AC_STAT_GET_FROM_FW_T, *P_WIFI_WMM_AC_STAT_GET_FROM_FW_T;
/* CFG_SUPPORT_WFD */
typedef struct _EVENT_STA_STATISTICS_T {
/* Event header */
/* UINT_16 u2Length; */
/* UINT_16 u2Reserved1; *//* Must be filled with 0x0001 (EVENT Packet) */
/* UINT_8 ucEID; */
/* UINT_8 ucSeqNum; */
/* UINT_8 aucReserved2[2]; */
/* Event Body */
UINT_8 ucVersion;
UINT_8 aucReserved1[3];
UINT_32 u4Flags; /* Bit0: valid */
UINT_8 ucStaRecIdx;
UINT_8 ucNetworkTypeIndex;
UINT_8 ucWTEntry;
UINT_8 aucReserved4[1];
UINT_8 ucMacAddr[MAC_ADDR_LEN];
UINT_8 ucPer; /* base: 128 */
UINT_8 ucRcpi;
UINT_32 u4PhyMode; /* SGI BW */
UINT_16 u2LinkSpeed; /* unit is 0.5 Mbits */
UINT_8 ucLinkQuality;
UINT_8 ucLinkReserved;
UINT_32 u4TxCount;
UINT_32 u4TxFailCount;
UINT_32 u4TxLifeTimeoutCount;
UINT_32 u4TxDoneAirTime;
UINT_32 u4TransmitCount; /* Transmit in the air (wtbl) */
UINT_32 u4TransmitFailCount; /* Transmit without ack/ba in the air (wtbl) */
WIFI_WMM_AC_STAT_GET_FROM_FW_T arLinkStatistics[AC_NUM]; /*link layer statistics */
UINT_8 ucTemperature;
UINT_8 ucSkipAr;
UINT_8 ucArTableIdx;
UINT_8 ucRateEntryIdx;
UINT_8 ucRateEntryIdxPrev;
UINT_8 ucTxSgiDetectPassCnt;
UINT_8 ucAvePer;
UINT_8 aucArRatePer[AR_RATE_TABLE_ENTRY_MAX];
UINT_8 aucRateEntryIndex[AUTO_RATE_NUM];
UINT_8 ucArStateCurr;
UINT_8 ucArStatePrev;
UINT_8 ucArActionType;
UINT_8 ucHighestRateCnt;
UINT_8 ucLowestRateCnt;
UINT_16 u2TrainUp;
UINT_16 u2TrainDown;
UINT_32 u4Rate1TxCnt;
UINT_32 u4Rate1FailCnt;
TX_VECTOR_BBP_LATCH_T rTxVector[ENUM_BAND_NUM];
MIB_INFO_STAT_T rMibInfo[ENUM_BAND_NUM];
UINT_8 aucReserved[23];
} EVENT_STA_STATISTICS_T, *P_EVENT_STA_STATISTICS_T;
#if CFG_AUTO_CHANNEL_SEL_SUPPORT
typedef struct _EVENT_LTE_SAFE_CHN_T {
UINT_8 ucVersion;
UINT_8 aucReserved[3];
UINT_32 u4Flags; /* Bit0: valid */
LTE_SAFE_CHN_INFO_T rLteSafeChn;
} EVENT_LTE_SAFE_CHN_T, *P_EVENT_LTE_SAFE_CHN_T;
#endif
#if CFG_SUPPORT_SNIFFER
typedef struct _CMD_MONITOR_SET_INFO_T {
UINT_8 ucEnable;
UINT_8 ucBand;
UINT_8 ucPriChannel;
UINT_8 ucSco;
UINT_8 ucChannelWidth;
UINT_8 ucChannelS1;
UINT_8 ucChannelS2;
UINT_8 aucResv[9];
} CMD_MONITOR_SET_INFO_T, *P_CMD_MONITOR_SET_INFO_T;
#endif
typedef struct _CMD_STATS_LOG_T {
UINT_32 u4DurationInMs;
UINT_8 aucReserved[32];
} CMD_STATS_LOG_T, *P_CMD_STATS_LOG_T;
typedef struct _EVENT_WIFI_RDD_TEST_T {
UINT_32 u4FuncIndex;
UINT_32 u4FuncLength;
UINT_32 u4Prefix;
UINT_32 u4Count;
UINT_32 u4SubBandRssi0;
UINT_32 u4SubBandRssi1;
UINT_8 ucRddIdx;
UINT_8 aucReserve[3];
UINT_8 aucBuffer[0];
} EVENT_WIFI_RDD_TEST_T, *P_EVENT_WIFI_RDD_TEST_T;
#if CFG_SUPPORT_MSP
/* EVENT_ID_WLAN_INFO */
typedef struct _EVENT_WLAN_INFO {
PARAM_TX_CONFIG_T rWtblTxConfig;
PARAM_SEC_CONFIG_T rWtblSecConfig;
PARAM_KEY_CONFIG_T rWtblKeyConfig;
PARAM_PEER_RATE_INFO_T rWtblRateInfo;
PARAM_PEER_BA_CONFIG_T rWtblBaConfig;
PARAM_PEER_CAP_T rWtblPeerCap;
PARAM_PEER_RX_COUNTER_ALL_T rWtblRxCounter;
PARAM_PEER_TX_COUNTER_ALL_T rWtblTxCounter;
} EVENT_WLAN_INFO, *P_EVENT_WLAN_INFO;
/* EVENT_ID_MIB_INFO */
typedef struct _EVENT_MIB_INFO {
HW_MIB_COUNTER_T rHwMibCnt;
HW_MIB2_COUNTER_T rHwMib2Cnt;
HW_TX_AMPDU_METRICS_T rHwTxAmpduMts;
} EVENT_MIB_INFO, *P_EVENT_MIB_INFO;
#endif
/*#if (CFG_EEPROM_PAGE_ACCESS == 1)*/
typedef struct _EVENT_ACCESS_EFUSE {
UINT_32 u4Address;
UINT_32 u4Valid;
UINT_8 aucData[16];
} EVENT_ACCESS_EFUSE, *P_EVENT_ACCESS_EFUSE;
typedef struct _EXT_EVENT_EFUSE_FREE_BLOCK_T {
UINT_16 u2FreeBlockNum;
UINT_8 aucReserved[2];
} EVENT_EFUSE_FREE_BLOCK_T, *P_EVENT_EFUSE_FREE_BLOCK_T;
typedef struct _EXT_EVENT_GET_TX_POWER_T {
UINT_8 ucTxPwrType;
UINT_8 ucEfuseAddr;
UINT_8 ucTx0TargetPower;
UINT_8 ucDbdcIdx;
} EVENT_GET_TX_POWER_T, *P_EVENT_GET_TX_POWER_T;
typedef struct _CMD_SUSPEND_MODE_SETTING_T {
UINT_8 ucBssIndex;
UINT_8 ucEnableSuspendMode;
UINT_8 ucMdtim; /* LP parameter */
UINT_8 ucReserved1[1];
UINT_8 ucReserved2[64];
} CMD_SUSPEND_MODE_SETTING_T, *P_CMD_SUSPEND_MODE_SETTING_T;
typedef struct _EVENT_UPDATE_COEX_PHYRATE_T {
UINT_8 ucVersion;
UINT_8 aucReserved1[3]; /* 4 byte alignment */
UINT_32 u4Flags;
UINT_32 au4PhyRateLimit[HW_BSSID_NUM+1];
} EVENT_UPDATE_COEX_PHYRATE_T, *P_EVENT_UPDATE_COEX_PHYRATE_T;
/*#endif*/
/*******************************************************************************
* P U B L I C D A T A
********************************************************************************
*/
/*******************************************************************************
* P R I V A T E D A T A
********************************************************************************
*/
/*******************************************************************************
* M A C R O S
********************************************************************************
*/
/*******************************************************************************
* F U N C T I O N D E C L A R A T I O N S
********************************************************************************
*/
VOID nicCmdEventQueryMcrRead(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#if CFG_SUPPORT_QA_TOOL
VOID nicCmdEventQueryRxStatistics(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
UINT_32 TsfRawData2IqFmt(P_EVENT_DUMP_MEM_T prEventDumpMem);
INT_32 GetIQData(INT_32 **prIQAry, UINT_32 *prDataLen, UINT_32 u4IQ, UINT_32 u4GetWf1);
#if CFG_SUPPORT_TX_BF
VOID nicCmdEventPfmuDataRead(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventPfmuTagRead(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#endif /* CFG_SUPPORT_TX_BF */
#if CFG_SUPPORT_MU_MIMO
VOID nicCmdEventGetQd(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventGetCalcLq(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventGetCalcInitMcs(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#endif /* CFG_SUPPORT_MU_MIMO */
#endif /* CFG_SUPPORT_QA_TOOL */
#if CFG_SUPPORT_CAL_RESULT_BACKUP_TO_HOST
VOID nicCmdEventQueryCalBackupV2(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#endif
VOID nicEventQueryMemDump(IN P_ADAPTER_T prAdapter, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryMemDump(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQuerySwCtrlRead(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryChipConfig(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryRfTestATInfo(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventSetCommon(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventSetDisassociate(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventSetIpAddress(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryLinkQuality(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryLinkSpeed(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryStatistics(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventEnterRfTest(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventLeaveRfTest(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryMcastAddr(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryEepromRead(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventSetMediaStreamMode(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventSetStopSchedScan(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
/* Statistics responder */
VOID nicCmdEventQueryXmitOk(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryRecvOk(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryXmitError(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryRecvError(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryRecvNoBuffer(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryRecvCrcError(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryRecvErrorAlignment(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryXmitOneCollision(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryXmitMoreCollisions(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryXmitMaxCollisions(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
/* for timeout check */
VOID nicOidCmdTimeoutCommon(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo);
VOID nicCmdTimeoutCommon(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo);
VOID nicOidCmdEnterRFTestTimeout(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo);
#if CFG_SUPPORT_BUILD_DATE_CODE
VOID nicCmdEventBuildDateCode(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#endif
VOID nicCmdEventQueryStaStatistics(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#if CFG_AUTO_CHANNEL_SEL_SUPPORT
/* 4 Auto Channel Selection */
VOID nicCmdEventQueryLteSafeChn(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#endif
#if CFG_SUPPORT_BATCH_SCAN
VOID nicCmdEventBatchScanResult(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#endif
#if CFG_SUPPORT_ADVANCE_CONTROL
VOID nicCmdEventQueryAdvCtrl(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
#endif
VOID nicEventRddPulseDump(IN P_ADAPTER_T prAdapter, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryWlanInfo(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryMibInfo(IN P_ADAPTER_T prAdapter, IN P_CMD_INFO_T prCmdInfo, IN PUINT_8 pucEventBuf);
VOID nicCmdEventQueryNicCapabilityV2(IN P_ADAPTER_T prAdapter, IN PUINT_8 pucEventBuf);
WLAN_STATUS nicCmdEventQueryNicTxResource(IN P_ADAPTER_T prAdapter, IN PUINT_8 pucEventBuf);
WLAN_STATUS nicCmdEventQueryNicEfuseAddr(IN P_ADAPTER_T prAdapter, IN PUINT_8 pucEventBuf);
WLAN_STATUS nicCmdEventQueryNicCoexFeature(IN P_ADAPTER_T prAdapter, IN PUINT_8 pucEventBuf);
#if CFG_TCP_IP_CHKSUM_OFFLOAD
WLAN_STATUS nicCmdEventQueryNicCsumOffload(IN P_ADAPTER_T prAdapter, IN PUINT_8 pucEventBuf);
#endif
VOID nicEventLinkQuality(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventLayer0ExtMagic(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventMicErrorInfo(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventScanDone(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventNloDone(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventSleepyNotify(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventBtOverWifi(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventStatistics(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventWlanInfo(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventMibInfo(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventBeaconTimeout(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventUpdateNoaParams(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventStaAgingTimeout(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventApObssStatus(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventRoamingStatus(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventSendDeauth(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventUpdateRddStatus(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventUpdateBwcsStatus(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventUpdateBcmDebug(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventAddPkeyDone(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventIcapDone(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
#if CFG_SUPPORT_CAL_RESULT_BACKUP_TO_HOST
VOID nicEventCalAllDone(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
#endif
VOID nicEventDebugMsg(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventTdls(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventDumpMem(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventAssertDump(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventHifCtrl(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventRddSendPulse(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
VOID nicEventUpdateCoexPhyrate(IN P_ADAPTER_T prAdapter, IN P_WIFI_EVENT_T prEvent);
/*******************************************************************************
* F U N C T I O N S
********************************************************************************
*/
#endif /* _NIC_CMD_EVENT_H */