mwifiex/mxm_wifiex/wlan_src/mlan/mlan_ioctl.h
Sherry Sun 19732f578f mxm_wifiex: update to mxm6x17408 release
Corresponding firmware version:
SDIO-UART W8987 Firmware version 16.92.21.p99
PCIE-UART W8997 Firmware version 16.92.21.p84.4
SDIO-UART W8997 Firmware version 16.92.21.p84.4
SDIO-UART IW416 Firmware version 16.92.21.p84.3
SDIO_UART IW612 Firmware version 18.99.2.p19.6
SDIO-UART W8801 Firmware version 14.92.36.p182
SDIO-UART W9098 Firmware version 17.92.1.p136.128
PCIE-UART W9098 Firmware version 17.92.1.p136.129

Signed-off-by: Sherry Sun <sherry.sun@nxp.com>
2023-07-15 14:41:14 +08:00

6312 lines
181 KiB
C

/** @file mlan_ioctl.h
*
* @brief This file declares the IOCTL data structures and APIs.
*
*
* Copyright 2008-2023 NXP
*
* This software file (the File) is distributed by NXP
* under the terms of the GNU General Public License Version 2, June 1991
* (the License). You may use, redistribute and/or modify the File in
* accordance with the terms and conditions of the License, a copy of which
* is available by writing to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA or on the
* worldwide web at http://www.gnu.org/licenses/old-licenses/gpl-2.0.txt.
*
* THE FILE IS DISTRIBUTED AS-IS, WITHOUT WARRANTY OF ANY KIND, AND THE
* IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE
* ARE EXPRESSLY DISCLAIMED. The License provides additional details about
* this warranty disclaimer.
*
*/
/******************************************************
Change log:
11/07/2008: initial version
******************************************************/
#ifndef _MLAN_IOCTL_H_
#define _MLAN_IOCTL_H_
/** Enumeration for IOCTL request ID */
enum _mlan_ioctl_req_id {
/* Scan Group */
MLAN_IOCTL_SCAN = 0x00010000,
MLAN_OID_SCAN_NORMAL = 0x00010001,
MLAN_OID_SCAN_SPECIFIC_SSID = 0x00010002,
MLAN_OID_SCAN_USER_CONFIG = 0x00010003,
MLAN_OID_SCAN_CONFIG = 0x00010004,
MLAN_OID_SCAN_GET_CURRENT_BSS = 0x00010005,
MLAN_OID_SCAN_CANCEL = 0x00010006,
MLAN_OID_SCAN_TABLE_FLUSH = 0x0001000A,
MLAN_OID_SCAN_BGSCAN_CONFIG = 0x0001000B,
/* BSS Configuration Group */
MLAN_IOCTL_BSS = 0x00020000,
MLAN_OID_BSS_START = 0x00020001,
MLAN_OID_BSS_STOP = 0x00020002,
MLAN_OID_BSS_MODE = 0x00020003,
MLAN_OID_BSS_CHANNEL = 0x00020004,
MLAN_OID_BSS_CHANNEL_LIST = 0x00020005,
MLAN_OID_BSS_MAC_ADDR = 0x00020006,
MLAN_OID_BSS_MULTICAST_LIST = 0x00020007,
MLAN_OID_BSS_FIND_BSS = 0x00020008,
MLAN_OID_IBSS_BCN_INTERVAL = 0x00020009,
MLAN_OID_IBSS_ATIM_WINDOW = 0x0002000A,
MLAN_OID_IBSS_CHANNEL = 0x0002000B,
#ifdef UAP_SUPPORT
MLAN_OID_UAP_BSS_CONFIG = 0x0002000C,
MLAN_OID_UAP_DEAUTH_STA = 0x0002000D,
MLAN_OID_UAP_BSS_RESET = 0x0002000E,
#endif
#if defined(STA_SUPPORT) && defined(UAP_SUPPORT)
MLAN_OID_BSS_ROLE = 0x0002000F,
#endif
#ifdef WIFI_DIRECT_SUPPORT
MLAN_OID_WIFI_DIRECT_MODE = 0x00020010,
#endif
#ifdef STA_SUPPORT
MLAN_OID_BSS_LISTEN_INTERVAL = 0x00020011,
#endif
MLAN_OID_BSS_REMOVE = 0x00020014,
#ifdef UAP_SUPPORT
MLAN_OID_UAP_CFG_WMM_PARAM = 0x00020015,
#endif
MLAN_OID_BSS_11D_CHECK_CHANNEL = 0x00020016,
#ifdef UAP_SUPPORT
MLAN_OID_UAP_ACS_SCAN = 0x00020017,
MLAN_OID_UAP_SCAN_CHANNELS = 0x00020018,
MLAN_OID_UAP_CHANNEL = 0x00020019,
MLAN_OID_UAP_OPER_CTRL = 0x0002001A,
#endif
#ifdef STA_SUPPORT
MLAN_OID_BSS_CHAN_INFO = 0x0002001B,
#endif
#ifdef UAP_SUPPORT
MLAN_OID_UAP_ADD_STATION = 0x0002001C,
#endif
MLAN_OID_BSS_FIND_BSSID = 0x0002001D,
#ifdef UAP_SUPPORT
MLAN_OID_ACTION_CHAN_SWITCH = 0x0002001E,
#endif
/* Radio Configuration Group */
MLAN_IOCTL_RADIO_CFG = 0x00030000,
MLAN_OID_RADIO_CTRL = 0x00030001,
MLAN_OID_BAND_CFG = 0x00030002,
MLAN_OID_ANT_CFG = 0x00030003,
MLAN_OID_REMAIN_CHAN_CFG = 0x00030004,
MLAN_OID_MIMO_SWITCH = 0x00030005,
/* SNMP MIB Group */
MLAN_IOCTL_SNMP_MIB = 0x00040000,
MLAN_OID_SNMP_MIB_RTS_THRESHOLD = 0x00040001,
MLAN_OID_SNMP_MIB_FRAG_THRESHOLD = 0x00040002,
MLAN_OID_SNMP_MIB_RETRY_COUNT = 0x00040003,
MLAN_OID_SNMP_MIB_DOT11D = 0x00040004,
#if defined(UAP_SUPPORT)
MLAN_OID_SNMP_MIB_DOT11H = 0x00040005,
#endif
MLAN_OID_SNMP_MIB_DTIM_PERIOD = 0x00040006,
MLAN_OID_SNMP_MIB_SIGNALEXT_ENABLE = 0x00040007,
MLAN_OID_SNMP_MIB_CTRL_DEAUTH = 0x00040008,
MLAN_OID_SNMP_MIB_DOT11H_FAKERADAR = 0x00040009,
MLAN_OID_SNMP_MIB_CHAN_TRACK = 0x0004000A,
/* Status Information Group */
MLAN_IOCTL_GET_INFO = 0x00050000,
MLAN_OID_GET_STATS = 0x00050001,
MLAN_OID_GET_SIGNAL = 0x00050002,
MLAN_OID_GET_FW_INFO = 0x00050003,
MLAN_OID_GET_VER_EXT = 0x00050004,
MLAN_OID_GET_BSS_INFO = 0x00050005,
MLAN_OID_GET_DEBUG_INFO = 0x00050006,
#ifdef UAP_SUPPORT
MLAN_OID_UAP_STA_LIST = 0x00050007,
#endif
MLAN_OID_GET_SIGNAL_EXT = 0x00050008,
MLAN_OID_LINK_STATS = 0x00050009,
MLAN_OID_GET_UAP_STATS_LOG = 0x0005000A,
/* Security Configuration Group */
MLAN_IOCTL_SEC_CFG = 0x00060000,
MLAN_OID_SEC_CFG_AUTH_MODE = 0x00060001,
MLAN_OID_SEC_CFG_ENCRYPT_MODE = 0x00060002,
MLAN_OID_SEC_CFG_WPA_ENABLED = 0x00060003,
MLAN_OID_SEC_CFG_ENCRYPT_KEY = 0x00060004,
MLAN_OID_SEC_CFG_PASSPHRASE = 0x00060005,
MLAN_OID_SEC_CFG_EWPA_ENABLED = 0x00060006,
MLAN_OID_SEC_CFG_ESUPP_MODE = 0x00060007,
MLAN_OID_SEC_CFG_WAPI_ENABLED = 0x00060009,
MLAN_OID_SEC_CFG_PORT_CTRL_ENABLED = 0x0006000A,
#ifdef UAP_SUPPORT
MLAN_OID_SEC_CFG_REPORT_MIC_ERR = 0x0006000B,
#endif
MLAN_OID_SEC_QUERY_KEY = 0x0006000C,
/* Rate Group */
MLAN_IOCTL_RATE = 0x00070000,
MLAN_OID_RATE_CFG = 0x00070001,
MLAN_OID_GET_DATA_RATE = 0x00070002,
MLAN_OID_SUPPORTED_RATES = 0x00070003,
/* Power Configuration Group */
MLAN_IOCTL_POWER_CFG = 0x00080000,
MLAN_OID_POWER_CFG = 0x00080001,
MLAN_OID_POWER_CFG_EXT = 0x00080002,
MLAN_OID_POWER_LOW_POWER_MODE = 0x00080003,
/* Power Management Configuration Group */
MLAN_IOCTL_PM_CFG = 0x00090000,
MLAN_OID_PM_CFG_IEEE_PS = 0x00090001,
MLAN_OID_PM_CFG_HS_CFG = 0x00090002,
MLAN_OID_PM_CFG_INACTIVITY_TO = 0x00090003,
MLAN_OID_PM_CFG_DEEP_SLEEP = 0x00090004,
MLAN_OID_PM_CFG_SLEEP_PD = 0x00090005,
MLAN_OID_PM_CFG_PS_CFG = 0x00090006,
MLAN_OID_PM_CFG_SLEEP_PARAMS = 0x00090008,
#ifdef UAP_SUPPORT
MLAN_OID_PM_CFG_PS_MODE = 0x00090009,
#endif /* UAP_SUPPORT */
MLAN_OID_PM_INFO = 0x0009000A,
MLAN_OID_PM_HS_WAKEUP_REASON = 0x0009000B,
MLAN_OID_PM_MGMT_FILTER = 0x0009000C,
MLAN_OID_PM_CFG_BCN_TIMEOUT = 0x0009000D,
/* WMM Configuration Group */
MLAN_IOCTL_WMM_CFG = 0x000A0000,
MLAN_OID_WMM_CFG_ENABLE = 0x000A0001,
MLAN_OID_WMM_CFG_QOS = 0x000A0002,
MLAN_OID_WMM_CFG_ADDTS = 0x000A0003,
MLAN_OID_WMM_CFG_DELTS = 0x000A0004,
MLAN_OID_WMM_CFG_QUEUE_CONFIG = 0x000A0005,
MLAN_OID_WMM_CFG_QUEUE_STATS = 0x000A0006,
MLAN_OID_WMM_CFG_QUEUE_STATUS = 0x000A0007,
MLAN_OID_WMM_CFG_TS_STATUS = 0x000A0008,
/* WPS Configuration Group */
MLAN_IOCTL_WPS_CFG = 0x000B0000,
MLAN_OID_WPS_CFG_SESSION = 0x000B0001,
/* 802.11n Configuration Group */
MLAN_IOCTL_11N_CFG = 0x000C0000,
MLAN_OID_11N_CFG_TX = 0x000C0001,
MLAN_OID_11N_HTCAP_CFG = 0x000C0002,
MLAN_OID_11N_CFG_ADDBA_REJECT = 0x000C0003,
MLAN_OID_11N_CFG_AGGR_PRIO_TBL = 0x000C0004,
MLAN_OID_11N_CFG_ADDBA_PARAM = 0x000C0005,
MLAN_OID_11N_CFG_MAX_TX_BUF_SIZE = 0x000C0006,
MLAN_OID_11N_CFG_AMSDU_AGGR_CTRL = 0x000C0007,
MLAN_OID_11N_CFG_SUPPORTED_MCS_SET = 0x000C0008,
MLAN_OID_11N_CFG_TX_BF_CAP = 0x000C0009,
MLAN_OID_11N_CFG_TX_BF_CFG = 0x000C000A,
MLAN_OID_11N_CFG_STREAM_CFG = 0x000C000B,
MLAN_OID_11N_CFG_DELBA = 0x000C000C,
MLAN_OID_11N_CFG_REJECT_ADDBA_REQ = 0x000C000D,
MLAN_OID_11N_CFG_COEX_RX_WINSIZE = 0x000C000E,
MLAN_OID_11N_CFG_TX_AGGR_CTRL = 0x000C000F,
MLAN_OID_11N_CFG_IBSS_AMPDU_PARAM = 0x000C0010,
MLAN_OID_11N_CFG_MIN_BA_THRESHOLD = 0x000C0011,
/* 802.11d Configuration Group */
MLAN_IOCTL_11D_CFG = 0x000D0000,
#ifdef STA_SUPPORT
MLAN_OID_11D_CFG_ENABLE = 0x000D0001,
MLAN_OID_11D_CLR_CHAN_TABLE = 0x000D0002,
#endif /* STA_SUPPORT */
#ifdef UAP_SUPPORT
MLAN_OID_11D_DOMAIN_INFO = 0x000D0003,
#endif
MLAN_OID_11D_DOMAIN_INFO_EXT = 0x000D0004,
/* Register Memory Access Group */
MLAN_IOCTL_REG_MEM = 0x000E0000,
MLAN_OID_REG_RW = 0x000E0001,
MLAN_OID_EEPROM_RD = 0x000E0002,
MLAN_OID_MEM_RW = 0x000E0003,
/* Multi-Radio Configuration Group */
MLAN_IOCTL_MFR_CFG = 0x00100000,
/* 802.11h Configuration Group */
MLAN_IOCTL_11H_CFG = 0x00110000,
MLAN_OID_11H_CHANNEL_CHECK = 0x00110001,
MLAN_OID_11H_LOCAL_POWER_CONSTRAINT = 0x00110002,
MLAN_OID_11H_DFS_TESTING = 0x00110003,
MLAN_OID_11H_CHAN_REPORT_REQUEST = 0x00110004,
MLAN_OID_11H_CHAN_SWITCH_COUNT = 0x00110005,
MLAN_OID_11H_CHAN_NOP_INFO = 0x00110006,
MLAN_OID_11H_CHAN_DFS_STATE = 0x00110007,
MLAN_OID_11H_DFS_W53_CFG = 0x00110008,
MLAN_OID_11H_DFS_MODE = 0x00110009,
MLAN_OID_11H_NOP_CHAN_LIST = 0x0011000A,
/* 802.11n Configuration Group RANDYTODO for value assign */
MLAN_IOCTL_11AC_CFG = 0x00120000,
MLAN_OID_11AC_VHT_CFG = 0x00120001,
MLAN_OID_11AC_CFG_SUPPORTED_MCS_SET = 0x00120002,
MLAN_OID_11AC_OPERMODE_CFG = 0x00120003,
/* 802.11ax Configuration Group */
MLAN_IOCTL_11AX_CFG = 0x00170000,
MLAN_OID_11AX_HE_CFG = 0x00170001,
MLAN_OID_11AX_CMD_CFG = 0x00170002,
MLAN_OID_11AX_TWT_CFG = 0x00170003,
/* Miscellaneous Configuration Group */
MLAN_IOCTL_MISC_CFG = 0x00200000,
MLAN_OID_MISC_GEN_IE = 0x00200001,
MLAN_OID_MISC_REGION = 0x00200002,
MLAN_OID_MISC_WARM_RESET = 0x00200003,
#ifdef SDIO
MLAN_OID_MISC_SDIO_MPA_CTRL = 0x00200006,
#endif
MLAN_OID_MISC_HOST_CMD = 0x00200007,
MLAN_OID_MISC_SYS_CLOCK = 0x00200009,
MLAN_OID_MISC_SOFT_RESET = 0x0020000A,
MLAN_OID_MISC_WWS = 0x0020000B,
MLAN_OID_MISC_ASSOC_RSP = 0x0020000C,
MLAN_OID_MISC_INIT_SHUTDOWN = 0x0020000D,
MLAN_OID_MISC_CUSTOM_IE = 0x0020000F,
MLAN_OID_MISC_TDLS_CONFIG = 0x00200010,
MLAN_OID_MISC_NET_MONITOR = 0x00200011,
MLAN_OID_MISC_TX_DATAPAUSE = 0x00200012,
MLAN_OID_MISC_IP_ADDR = 0x00200013,
MLAN_OID_MISC_MAC_CONTROL = 0x00200014,
MLAN_OID_MISC_MEF_CFG = 0x00200015,
MLAN_OID_MISC_CFP_CODE = 0x00200016,
MLAN_OID_MISC_COUNTRY_CODE = 0x00200017,
MLAN_OID_MISC_THERMAL = 0x00200018,
MLAN_OID_MISC_RX_MGMT_IND = 0x00200019,
MLAN_OID_MISC_SUBSCRIBE_EVENT = 0x0020001A,
#ifdef DEBUG_LEVEL1
MLAN_OID_MISC_DRVDBG = 0x0020001B,
#endif
MLAN_OID_MISC_HOTSPOT_CFG = 0x0020001C,
MLAN_OID_MISC_OTP_USER_DATA = 0x0020001D,
MLAN_OID_MISC_AUTO_ASSOC = 0x0020001E,
#ifdef USB
MLAN_OID_MISC_USB_AGGR_CTRL = 0x0020001F,
#endif
MLAN_OID_MISC_TXCONTROL = 0x00200020,
#ifdef STA_SUPPORT
MLAN_OID_MISC_EXT_CAP_CFG = 0x00200021,
#endif
#if defined(STA_SUPPORT)
MLAN_OID_MISC_PMFCFG = 0x00200022,
#endif
MLAN_OID_MISC_MULTI_CHAN_CFG = 0x00200023,
MLAN_OID_MISC_MULTI_CHAN_POLICY = 0x00200024,
#ifdef WIFI_DIRECT_SUPPORT
MLAN_OID_MISC_WIFI_DIRECT_CONFIG = 0x00200025,
#endif
MLAN_OID_MISC_TDLS_OPER = 0x00200026,
MLAN_OID_MISC_GET_TDLS_IES = 0x00200027,
MLAN_OID_MISC_LOW_PWR_MODE = 0x00200029,
MLAN_OID_MISC_MEF_FLT_CFG = 0x0020002A,
MLAN_OID_MISC_DFS_REAPTER_MODE = 0x0020002B,
MLAN_OID_MISC_TDLS_CS_CHANNEL = 0x0020002D,
MLAN_OID_MISC_COALESCE_CFG = 0x0020002E,
MLAN_OID_MISC_TDLS_IDLE_TIME = 0x0020002F,
MLAN_OID_MISC_GET_SENSOR_TEMP = 0x00200030,
MLAN_OID_MISC_IPV6_RA_OFFLOAD = 0x00200036,
MLAN_OID_MISC_GTK_REKEY_OFFLOAD = 0x00200037,
MLAN_OID_MISC_OPER_CLASS = 0x00200038,
MLAN_OID_MISC_PMIC_CFG = 0x00200039,
MLAN_OID_MISC_IND_RST_CFG = 0x00200040,
MLAN_OID_MISC_ROAM_OFFLOAD = 0x00200042,
MLAN_OID_MISC_ROAM_OFFLOAD_APLIST = 0x00200043,
MLAN_OID_MISC_GET_TSF = 0x00200045,
MLAN_OID_MISC_GET_CHAN_REGION_CFG = 0x00200046,
MLAN_OID_MISC_CLOUD_KEEP_ALIVE = 0x00200048,
MLAN_OID_MISC_OPER_CLASS_CHECK = 0x00200049,
MLAN_OID_MISC_DRCS_CFG = 0x00200050,
MLAN_OID_MISC_CWMODE_CTRL = 0x00200051,
MLAN_OID_MISC_AGGR_CTRL = 0x00200052,
MLAN_OID_MISC_DYN_BW = 0x00200053,
MLAN_OID_MISC_FW_DUMP_EVENT = 0x00200054,
MLAN_OID_MISC_PER_PKT_CFG = 0x00200055,
MLAN_OID_MISC_ROBUSTCOEX = 0x00200056,
MLAN_OID_MISC_GET_TX_RX_HISTOGRAM = 0x00200057,
MLAN_OID_MISC_CONFIG_RTT = 0x00200059,
MLAN_OID_MISC_CANCEL_RTT = 0x0020005A,
MLAN_OID_MISC_RTT_RESPONDER_CFG = 0x0020005B,
MLAN_OID_MISC_CFP_INFO = 0x00200060,
MLAN_OID_MISC_BOOT_SLEEP = 0x00200061,
#if defined(PCIE)
MLAN_OID_MISC_SSU = 0x00200062,
#endif
MLAN_OID_MISC_CSI = 0x00200064,
MLAN_OID_MISC_DMCS_CONFIG = 0x00200065,
MLAN_OID_MISC_RX_ABORT_CFG = 0x00200066,
MLAN_OID_MISC_RX_ABORT_CFG_EXT = 0x00200067,
MLAN_OID_MISC_TX_AMPDU_PROT_MODE = 0x00200068,
MLAN_OID_MISC_RATE_ADAPT_CFG = 0x00200069,
MLAN_OID_MISC_CCK_DESENSE_CFG = 0x00200070,
MLAN_OID_MISC_GET_CHAN_TRPC_CFG = 0x00200072,
MLAN_OID_MISC_BAND_STEERING = 0x00200073,
MLAN_OID_MISC_GET_REGIONPWR_CFG = 0x00200074,
MLAN_OID_MISC_RF_TEST_GENERIC = 0x00200075,
MLAN_OID_MISC_RF_TEST_TX_CONT = 0x00200076,
MLAN_OID_MISC_RF_TEST_TX_FRAME = 0x00200077,
MLAN_OID_MISC_ARB_CONFIG = 0x00200078,
MLAN_OID_MISC_BEACON_STUCK = 0x00200079,
MLAN_OID_MISC_CFP_TABLE = 0x0020007A,
MLAN_OID_MISC_RANGE_EXT = 0x0020007B,
MLAN_OID_MISC_DOT11MC_UNASSOC_FTM_CFG = 0x0020007C,
MLAN_OID_MISC_TP_STATE = 0x0020007D,
MLAN_OID_MISC_HAL_PHY_CFG = 0x0020007E,
MLAN_OID_MISC_RF_TEST_HE_POWER = 0X0020007F,
#ifdef UAP_SUPPORT
MLAN_OID_MISC_WACP_MODE = 0x00200081,
#endif
MLAN_OID_MISC_GPIO_TSF_LATCH = 0x00200082,
MLAN_OID_MISC_GET_TSF_INFO = 0x00200083,
MLAN_OID_MISC_ASSOC_REQ = 0x00200084,
MLAN_OID_MISC_IPS_CFG = 0x00200085,
MLAN_OID_MISC_MC_AGGR_CFG = 0x00200086,
MLAN_OID_MISC_CH_LOAD = 0x00200087,
MLAN_OID_MISC_STATS = 0x00200088,
MLAN_OID_MISC_CH_LOAD_RESULTS = 0x00200089,
MLAN_OID_MISC_CLOUD_KEEP_ALIVE_RX = 0x0020008A,
MLAN_OID_MISC_CROSS_CHIP_SYNCH = 0x0020008B,
MLAN_OID_MISC_RF_TEST_CONFIG_TRIGGER_FRAME = 0x0020008C,
MLAN_OID_MISC_OFDM_DESENSE_CFG = 0x0020008D,
MLAN_OID_MISC_REORDER_FLUSH_TIME = 0x0020008F,
MLAN_OID_MISC_NAV_MITIGATION = 0x00200090,
MLAN_OID_MISC_LED_CONFIG = 0x00200091,
};
/** Sub command size */
#define MLAN_SUB_COMMAND_SIZE 4
/** Enumeration for the action of IOCTL request */
enum _mlan_act_ioctl {
MLAN_ACT_SET = 1,
MLAN_ACT_GET,
MLAN_ACT_CANCEL,
MLAN_ACT_CLEAR,
MLAN_ACT_RESET,
MLAN_ACT_DEFAULT
};
/** Enumeration for generic enable/disable */
enum _mlan_act_generic { MLAN_ACT_DISABLE = 0, MLAN_ACT_ENABLE = 1 };
/** Enumeration for scan mode */
enum _mlan_scan_mode {
MLAN_SCAN_MODE_UNCHANGED = 0,
MLAN_SCAN_MODE_BSS,
MLAN_SCAN_MODE_IBSS,
MLAN_SCAN_MODE_ANY
};
/** Enumeration for scan type */
enum _mlan_scan_type {
MLAN_SCAN_TYPE_UNCHANGED = 0,
MLAN_SCAN_TYPE_ACTIVE,
MLAN_SCAN_TYPE_PASSIVE,
MLAN_SCAN_TYPE_PASSIVE_TO_ACTIVE
};
/** Enumeration for passive to active scan */
enum _mlan_pass_to_act_scan {
MLAN_PASS_TO_ACT_SCAN_UNCHANGED = 0,
MLAN_PASS_TO_ACT_SCAN_EN,
MLAN_PASS_TO_ACT_SCAN_DIS
};
/** Enumeration for passive to active scan */
enum _mlan_ext_scan {
MLAN_EXTENDED_SCAN_UNCHANGED = 0,
MLAN_LEGACY_SCAN,
MLAN_EXT_SCAN,
MLAN_EXT_SCAN_ENH
};
/** Max number of supported rates */
#define MLAN_SUPPORTED_RATES 32
/** Mrvl Proprietary Tlv base */
#define PROPRIETARY_TLV_BASE_ID 0x100
/** RSSI scan */
#define SCAN_RSSI(RSSI) (0x100 - ((t_u8)(RSSI)))
/** Max passive scan time for each channel in milliseconds */
#define MRVDRV_MAX_PASSIVE_SCAN_CHAN_TIME 2000
/** Max active scan time for each channel in milliseconds */
#define MRVDRV_MAX_ACTIVE_SCAN_CHAN_TIME 500
/** Max gap time between 2 scan in milliseconds */
#define MRVDRV_MAX_SCAN_CHAN_GAP_TIME 500
/** Maximum number of probes to send on each channel */
#define MAX_PROBES 5
/** Default number of probes to send on each channel */
#define DEFAULT_PROBES 4
/**
* @brief Sub-structure passed in wlan_ioctl_get_scan_table_entry for each BSS
*
* Fixed field information returned for the scan response in the IOCTL
* response.
*/
typedef struct _wlan_get_scan_table_fixed {
/** BSSID of this network */
t_u8 bssid[MLAN_MAC_ADDR_LENGTH];
/** Channel this beacon/probe response was detected */
t_u8 channel;
/** RSSI for the received packet */
t_u8 rssi;
/** channel load */
t_u8 chan_load;
/** TSF value in microseconds from the firmware at packet reception */
t_u64 network_tsf;
} wlan_get_scan_table_fixed;
/** mlan_802_11_ssid data structure */
typedef struct _mlan_802_11_ssid {
/** SSID Length */
t_u32 ssid_len;
/** SSID information field */
t_u8 ssid[MLAN_MAX_SSID_LENGTH];
} mlan_802_11_ssid, *pmlan_802_11_ssid;
typedef MLAN_PACK_START struct _tx_status_event {
/** packet type */
t_u8 packet_type;
/** tx_token_id */
t_u8 tx_token_id;
/** 0--success, 1--fail, 2--watchdogtimeout */
t_u8 status;
} MLAN_PACK_END tx_status_event;
/**
* Sructure to retrieve the scan table
*/
typedef struct {
/**
* - Zero based scan entry to start retrieval in command request
* - Number of scans entries returned in command response
*/
t_u32 scan_number;
/**
* Buffer marker for multiple wlan_ioctl_get_scan_table_entry
* structures. Each struct is padded to the nearest 32 bit boundary.
*/
t_u8 scan_table_entry_buf[1];
} wlan_ioctl_get_scan_table_info;
/**
* Structure passed in the wlan_ioctl_get_scan_table_info for each
* BSS returned in the WLAN_GET_SCAN_RESP IOCTL
*/
typedef struct _wlan_ioctl_get_scan_table_entry {
/**
* Fixed field length included in the response.
*
* Length value is included so future fixed fields can be added to the
* response without breaking backwards compatibility. Use the length
* to find the offset for the bssInfoLength field, not a sizeof()
* calc.
*/
t_u32 fixed_field_length;
/**
* Length of the BSS Information (probe resp or beacon) that
* follows after the fixed_field_length
*/
t_u32 bss_info_length;
/**
* Always present, fixed length data fields for the BSS
*/
wlan_get_scan_table_fixed fixed_fields;
/*
* Probe response or beacon scanned for the BSS.
*
* Field layout:
* - TSF 8 octets
* - Beacon Interval 2 octets
* - Capability Info 2 octets
*
* - IEEE Infomation Elements; variable number & length per 802.11 spec
*/
/* t_u8 bss_info_buffer[]; */
} wlan_ioctl_get_scan_table_entry;
/** Type definition of mlan_scan_time_params */
typedef struct _mlan_scan_time_params {
/** Scan channel time for specific scan in milliseconds */
t_u32 specific_scan_time;
/** Scan channel time for active scan in milliseconds */
t_u32 active_scan_time;
/** Scan channel time for passive scan in milliseconds */
t_u32 passive_scan_time;
} mlan_scan_time_params, *pmlan_scan_time_params;
/** Type definition of mlan_user_scan */
typedef struct _mlan_user_scan {
/** Length of scan_cfg_buf */
t_u32 scan_cfg_len;
/** Buffer of scan config */
t_u8 scan_cfg_buf[1];
} mlan_user_scan, *pmlan_user_scan;
/** Type definition of mlan_scan_req */
typedef struct _mlan_scan_req {
/** BSS mode for scanning */
t_u32 scan_mode;
/** Scan type */
t_u32 scan_type;
/** SSID */
mlan_802_11_ssid scan_ssid;
/** Scan time parameters */
mlan_scan_time_params scan_time;
/** Scan config parameters in user scan */
mlan_user_scan user_scan;
} mlan_scan_req, *pmlan_scan_req;
/** Type defnition of mlan_scan_resp */
typedef struct _mlan_scan_resp {
/** Number of scan result */
t_u32 num_in_scan_table;
/** Scan table */
t_u8 *pscan_table;
/* Age in seconds */
t_u32 age_in_secs;
/** channel statstics */
t_u8 *pchan_stats;
/** Number of records in the chan_stats */
t_u32 num_in_chan_stats;
} mlan_scan_resp, *pmlan_scan_resp;
#define EXT_SCAN_TYPE_ENH 2
/** Type definition of mlan_scan_cfg */
typedef struct _mlan_scan_cfg {
/** Scan type */
t_u32 scan_type;
/** BSS mode for scanning */
t_u32 scan_mode;
/** Scan probe */
t_u32 scan_probe;
/** Scan time parameters */
mlan_scan_time_params scan_time;
/** First passive scan then active scan */
t_u8 passive_to_active_scan;
/** Ext_scan: 0 disable, 1: enable, 2: enhance scan*/
t_u32 ext_scan;
/** scan channel gap */
t_u32 scan_chan_gap;
} mlan_scan_cfg, *pmlan_scan_cfg;
/** Type defnition of mlan_ds_scan for MLAN_IOCTL_SCAN */
typedef struct _mlan_ds_scan {
/** Sub-command */
t_u32 sub_command;
/** Scan request/response */
union {
/** Scan request */
mlan_scan_req scan_req;
/** Scan response */
mlan_scan_resp scan_resp;
/** Scan config parameters in user scan */
mlan_user_scan user_scan;
/** Scan config parameters */
mlan_scan_cfg scan_cfg;
} param;
} mlan_ds_scan, *pmlan_ds_scan;
/*-----------------------------------------------------------------*/
/** BSS Configuration Group */
/*-----------------------------------------------------------------*/
/** Enumeration for BSS mode */
enum _mlan_bss_mode {
MLAN_BSS_MODE_INFRA = 1,
MLAN_BSS_MODE_IBSS,
MLAN_BSS_MODE_AUTO
};
/** Maximum key length */
#define MLAN_MAX_KEY_LENGTH 32
/** Maximum PMK R0 NAME key length */
#define MLAN_MAX_PMKR0_NAME_LENGTH 16
/** Maximum atim window in milliseconds */
#define MLAN_MAX_ATIM_WINDOW 50
/** Minimum beacon interval */
#define MLAN_MIN_BEACON_INTERVAL 20
/** Maximum beacon interval */
#define MLAN_MAX_BEACON_INTERVAL 1000
/** Default beacon interval */
#define MLAN_BEACON_INTERVAL 100
/** Receive all packets */
#define MLAN_PROMISC_MODE 1
/** Receive multicast packets in multicast list */
#define MLAN_MULTICAST_MODE 2
/** Receive all multicast packets */
#define MLAN_ALL_MULTI_MODE 4
/** Maximum size of multicast list */
#define MLAN_MAX_MULTICAST_LIST_SIZE 32
/** mlan_multicast_list data structure for MLAN_OID_BSS_MULTICAST_LIST */
typedef struct _mlan_multicast_list {
/** Multicast mode */
t_u32 mode;
/** Number of multicast addresses in the list */
t_u32 num_multicast_addr;
/** Multicast address list */
mlan_802_11_mac_addr mac_list[MLAN_MAX_MULTICAST_LIST_SIZE];
} mlan_multicast_list, *pmlan_multicast_list;
/** Max channel */
#define MLAN_MAX_CHANNEL 177
/** Maximum number of channels in table */
#define MLAN_MAX_CHANNEL_NUM 128
/** Channel/frequence for MLAN_OID_BSS_CHANNEL */
typedef struct _chan_freq {
/** Channel Number */
t_u32 channel;
/** Frequency of this Channel */
t_u32 freq;
} chan_freq;
/** mlan_chan_list data structure for MLAN_OID_BSS_CHANNEL_LIST */
typedef struct _mlan_chan_list {
/** Number of channel */
t_u32 num_of_chan;
/** Channel-Frequency table */
chan_freq cf[MLAN_MAX_CHANNEL_NUM];
} mlan_chan_list;
/* This channel is disabled.*/
#define CHAN_FLAGS_DISABLED MBIT(0)
/* do not initiate radiation, this includes sending probe requests or beaconing
*/
#define CHAN_FLAGS_NO_IR MBIT(1)
/* Radar detection is required on this channel */
#define CHAN_FLAGS_RADAR MBIT(3)
/* extension channel above this channel is not permitted */
#define CHAN_FLAGS_NO_HT40PLUS MBIT(4)
/* extension channel below this channel is not permitted */
#define CHAN_FLAGS_NO_HT40MINUS MBIT(5)
/* OFDM is not allowed on this channel */
#define CHAN_FLAGS_NO_OFDM MBIT(6)
/** 80Mhz can not used on this channel */
#define CHAN_FLAGS_NO_80MHZ MBIT(7)
/** 180Mhz can not used on this channel */
#define CHAN_FLAGS_NO_160MHZ MBIT(8)
/* Only indoor use is permitted on this channel */
#define CHAN_FLAGS_INDOOR_ONLY MBIT(9)
/* IR operation is allowed on this channel if it's
* connected concurrently to a BSS on the same channel on
* the 2 GHz band or to a channel in the same UNII band (on the 5 GHz
* band), and IEEE80211_CHAN_RADAR is not set */
#define CHAN_FLAGS_IR_CONCURRENT MBIT(10)
/* 20 MHz operation is not allowed on this channel */
#define CHAN_FLAGS_20MHZ MBIT(11)
/* 10 MHz operation is not allowed on this channel */
#define CHAN_FLAGS_NO_10MHZ MBIT(12)
/** This channel's flag is valid */
#define CHAN_FLAGS_MAX MBIT(31)
/** Maximum response buffer length */
#define ASSOC_RSP_BUF_SIZE 500
/** Type definition of mlan_ds_misc_assoc_rsp for MLAN_OID_MISC_ASSOC_RSP */
typedef struct _mlan_ds_misc_assoc_rsp {
/** Associate response buffer */
t_u8 assoc_resp_buf[ASSOC_RSP_BUF_SIZE];
/** Response buffer length */
t_u32 assoc_resp_len;
} mlan_ds_misc_assoc_rsp, *pmlan_ds_misc_assoc_rsp;
/** Type definition of mlan_ds_misc_assoc_req for MLAN_OID_MISC_ASSOC_REQ */
typedef struct _mlan_ds_misc_assoc_req {
/** Associate req buffer */
t_u8 assoc_req_buf[ASSOC_RSP_BUF_SIZE];
/** Response buffer length */
t_u32 assoc_req_len;
} mlan_ds_misc_assoc_req, *pmlan_ds_misc_assoc_req;
/** mlan_ds_assoc_info */
typedef struct _mlan_ds_assoc_info {
/** Associate req buffer */
t_u8 assoc_resp_buf[ASSOC_RSP_BUF_SIZE];
/** Response buffer length */
t_u32 assoc_resp_len;
/** Associate req buffer */
t_u8 assoc_req_buf[ASSOC_RSP_BUF_SIZE];
/** Response buffer length */
t_u32 assoc_req_len;
} mlan_ds_assoc_info, *pmlan_ds_assoc_info;
/** mlan_ssid_bssid data structure for
* MLAN_OID_BSS_START and MLAN_OID_BSS_FIND_BSS
*/
typedef struct _mlan_ssid_bssid {
/** SSID */
mlan_802_11_ssid ssid;
/** BSSID */
mlan_802_11_mac_addr bssid;
/** index in BSSID list, start from 1 */
t_u32 idx;
/** Receive signal strength in dBm */
t_s32 rssi;
/* previous bssid */
mlan_802_11_mac_addr prev_bssid;
/**channel*/
t_u16 channel;
/**mobility domain value*/
t_u16 ft_md;
/**ft capability*/
t_u8 ft_cap;
/**band*/
t_u16 bss_band;
/** channel flag */
t_u32 channel_flags;
/** host mlme flag*/
t_u8 host_mlme;
/** assoicate resp frame/ie from firmware */
mlan_ds_misc_assoc_rsp assoc_rsp;
t_u8 owe_transition_mode;
/** Transition SSID */
mlan_802_11_ssid trans_ssid;
/** Transition BSSID */
mlan_802_11_mac_addr trans_bssid;
} mlan_ssid_bssid, *pmlan_ssid_bssid;
/** Data structure of WMM ECW */
typedef struct _wmm_ecw_t {
#ifdef BIG_ENDIAN_SUPPORT
/** Maximum Ecw */
t_u8 ecw_max : 4;
/** Minimum Ecw */
t_u8 ecw_min : 4;
#else
/** Minimum Ecw */
t_u8 ecw_min : 4;
/** Maximum Ecw */
t_u8 ecw_max : 4;
#endif /* BIG_ENDIAN_SUPPORT */
} wmm_ecw_t, *pwmm_ecw_t;
/** Data structure of WMM Aci/Aifsn */
typedef struct _wmm_aci_aifsn_t {
#ifdef BIG_ENDIAN_SUPPORT
/** Reserved */
t_u8 reserved : 1;
/** Aci */
t_u8 aci : 2;
/** Acm */
t_u8 acm : 1;
/** Aifsn */
t_u8 aifsn : 4;
#else
/** Aifsn */
t_u8 aifsn : 4;
/** Acm */
t_u8 acm : 1;
/** Aci */
t_u8 aci : 2;
/** Reserved */
t_u8 reserved : 1;
#endif /* BIG_ENDIAN_SUPPORT */
} wmm_aci_aifsn_t, *pwmm_aci_aifsn_t;
/** Data structure of WMM AC parameters */
typedef struct _wmm_ac_parameters_t {
wmm_aci_aifsn_t aci_aifsn; /**< AciAifSn */
wmm_ecw_t ecw; /**< Ecw */
t_u16 tx_op_limit; /**< Tx op limit */
} wmm_ac_parameters_t, *pwmm_ac_parameters_t;
/** mlan_deauth_param */
typedef struct _mlan_deauth_param {
/** STA mac addr */
t_u8 mac_addr[MLAN_MAC_ADDR_LENGTH];
/** deauth reason */
t_u16 reason_code;
} mlan_deauth_param;
#ifdef UAP_SUPPORT
/** UAP FLAG: Host based */
#define UAP_FLAG_HOST_BASED MBIT(0)
/** UAP FLAG: Host mlme */
#define UAP_FLAG_HOST_MLME MBIT(1)
/** Maximum packet forward control value */
#define MAX_PKT_FWD_CTRL 15
/** Maximum BEACON period */
#define MAX_BEACON_PERIOD 4000
/** Minimum BEACON period */
#define MIN_BEACON_PERIOD 50
/** Maximum DTIM period */
#define MAX_DTIM_PERIOD 100
/** Minimum DTIM period */
#define MIN_DTIM_PERIOD 1
/** Maximum TX Power Limit */
#define MAX_TX_POWER 20
/** Minimum TX Power Limit */
#define MIN_TX_POWER 0
/** MAX station count */
#define MAX_STA_COUNT 64
/** Maximum RTS threshold */
#define MAX_RTS_THRESHOLD 2347
/** Maximum fragmentation threshold */
#define MAX_FRAG_THRESHOLD 2346
/** Minimum fragmentation threshold */
#define MIN_FRAG_THRESHOLD 256
/** data rate 54 M */
#define DATA_RATE_54M 108
/** Maximum value of bcast_ssid_ctl */
#define MAX_BCAST_SSID_CTL 2
/** antenna A */
#define ANTENNA_MODE_A 0
/** antenna B */
#define ANTENNA_MODE_B 1
/** transmit antenna */
#define TX_ANTENNA 1
/** receive antenna */
#define RX_ANTENNA 0
/** Maximum stage out time */
#define MAX_STAGE_OUT_TIME 864000
/** Minimum stage out time */
#define MIN_STAGE_OUT_TIME 50
/** Maximum Retry Limit */
#define MAX_RETRY_LIMIT 14
/** Maximum group key timer in seconds */
#define MAX_GRP_TIMER 86400
/** Maximum value of 4 byte configuration */
#define MAX_VALID_DWORD 0x7FFFFFFF /* (1 << 31) - 1 */
/** default UAP BAND 2.4G */
#define DEFAULT_UAP_BAND 0
/** default UAP channel 6 */
#define DEFAULT_UAP_CHANNEL 6
/** Maximum data rates */
#define MAX_DATA_RATES 14
/** auto data rate */
#define DATA_RATE_AUTO 0
/**filter mode: disable */
#define MAC_FILTER_MODE_DISABLE 0
/**filter mode: block mac address */
#define MAC_FILTER_MODE_ALLOW_MAC 1
/**filter mode: block mac address */
#define MAC_FILTER_MODE_BLOCK_MAC 2
/** Maximum mac filter num */
#define MAX_MAC_FILTER_NUM 64
/* Bitmap for protocol to use */
/** No security */
#define PROTOCOL_NO_SECURITY 0x01
/** Static WEP */
#define PROTOCOL_STATIC_WEP 0x02
/** WPA */
#define PROTOCOL_WPA 0x08
/** WPA2 */
#define PROTOCOL_WPA2 0x20
/** WP2 Mixed */
#define PROTOCOL_WPA2_MIXED 0x28
/** EAP */
#define PROTOCOL_EAP 0x40
/** WAPI */
#define PROTOCOL_WAPI 0x80
/** WPA3 SAE */
#define PROTOCOL_WPA3_SAE 0x100
/* hunting-and-pecking loop only */
#define SAE_PWE_HUNT_AND_PECK 0
/** hash-to-element only */
#define SAE_PWE_HASH_TO_ELEMENT 1
/** both hunting-and-pecking loop and hash-to-element */
#define SAE_PWE_BOTH 2
/** OWE */
#define PROTOCOL_OWE 0x200
/** Key_mgmt_psk */
#define KEY_MGMT_NONE 0x04
/** Key_mgmt_none */
#define KEY_MGMT_PSK 0x02
/** Key_mgmt_eap */
#define KEY_MGMT_EAP 0x01
/** Key_mgmt_psk_sha256 */
#define KEY_MGMT_PSK_SHA256 0x100
/** Key_mgmt_sae */
#define KEY_MGMT_SAE 0x400
/** Key_mgmt_owe */
#define KEY_MGMT_OWE 0x200
/** TKIP */
#define CIPHER_TKIP 0x04
/** AES CCMP */
#define CIPHER_AES_CCMP 0x08
/** Valid cipher bitmap */
#define VALID_CIPHER_BITMAP 0x0c
/** Packet forwarding to be done by FW or host */
#define PKT_FWD_FW_BIT 0x01
/** Intra-BSS broadcast packet forwarding allow bit */
#define PKT_FWD_INTRA_BCAST 0x02
/** Intra-BSS unicast packet forwarding allow bit */
#define PKT_FWD_INTRA_UCAST 0x04
/** Inter-BSS unicast packet forwarding allow bit */
#define PKT_FWD_INTER_UCAST 0x08
/** Intra-BSS unicast packet */
#define PKT_INTRA_UCAST 0x01
/** Inter-BSS unicast packet */
#define PKT_INTER_UCAST 0x02
/** Enable Host PKT forwarding */
#define PKT_FWD_ENABLE_BIT 0x01
/** Channel List Entry */
typedef struct _channel_list {
/** Channel Number */
t_u8 chan_number;
/** Band Config */
Band_Config_t bandcfg;
} scan_chan_list;
/** mac_filter data structure */
typedef struct _mac_filter {
/** mac filter mode */
t_u16 filter_mode;
/** mac adress count */
t_u16 mac_count;
/** mac address list */
mlan_802_11_mac_addr mac_list[MAX_MAC_FILTER_NUM];
} mac_filter;
/** wpa parameter */
typedef struct _wpa_param {
/** Pairwise cipher WPA */
t_u8 pairwise_cipher_wpa;
/** Pairwise cipher WPA2 */
t_u8 pairwise_cipher_wpa2;
/** group cipher */
t_u8 group_cipher;
/** RSN replay protection */
t_u8 rsn_protection;
/** passphrase length */
t_u32 length;
/** passphrase */
t_u8 passphrase[64];
/** SAE Password length */
t_u32 sae_password_length;
/** Passphrase */
t_u8 sae_password[255];
/**group key rekey time in seconds */
t_u32 gk_rekey_time;
} wpa_param;
/** wep key */
typedef struct _wep_key {
/** key index 0-3 */
t_u8 key_index;
/** is default */
t_u8 is_default;
/** length */
t_u16 length;
/** key data */
t_u8 key[26];
} wep_key;
/** wep param */
typedef struct _wep_param {
/** key 0 */
wep_key key0;
/** key 1 */
wep_key key1;
/** key 2 */
wep_key key2;
/** key 3 */
wep_key key3;
} wep_param;
/** Data structure of WMM QoS information */
typedef struct _wmm_qos_info_t {
#ifdef BIG_ENDIAN_SUPPORT
/** QoS UAPSD */
t_u8 qos_uapsd : 1;
/** Reserved */
t_u8 reserved : 3;
/** Parameter set count */
t_u8 para_set_count : 4;
#else
/** Parameter set count */
t_u8 para_set_count : 4;
/** Reserved */
t_u8 reserved : 3;
/** QoS UAPSD */
t_u8 qos_uapsd : 1;
#endif /* BIG_ENDIAN_SUPPORT */
} wmm_qos_info_t, *pwmm_qos_info_t;
/** Data structure of WMM parameter IE */
typedef struct _wmm_parameter_t {
/** OuiType: 00:50:f2:02 */
t_u8 ouitype[4];
/** Oui subtype: 01 */
t_u8 ouisubtype;
/** version: 01 */
t_u8 version;
/** QoS information */
t_u8 qos_info;
/** Reserved */
t_u8 reserved;
/** AC Parameters Record WMM_AC_BE, WMM_AC_BK, WMM_AC_VI, WMM_AC_VO */
wmm_ac_parameters_t ac_params[MAX_AC_QUEUES];
} wmm_parameter_t, *pwmm_parameter_t;
/** MAX BG channel */
#define MAX_BG_CHANNEL 14
/** mlan_bss_param
* Note: For each entry you must enter an invalid value
* in the MOAL function woal_set_sys_config_invalid_data().
* Otherwise for a valid data an unwanted TLV will be
* added to that command.
*/
typedef struct _mlan_uap_bss_param {
/** AP mac addr */
mlan_802_11_mac_addr mac_addr;
/** SSID */
mlan_802_11_ssid ssid;
/** Broadcast ssid control */
t_u8 bcast_ssid_ctl;
/** Radio control: on/off */
t_u8 radio_ctl;
/** dtim period */
t_u8 dtim_period;
/** beacon period */
t_u16 beacon_period;
/** rates */
t_u8 rates[MAX_DATA_RATES];
/** Tx data rate */
t_u16 tx_data_rate;
/** Tx beacon rate */
t_u16 tx_beacon_rate;
/** multicast/broadcast data rate */
t_u16 mcbc_data_rate;
/** Tx power level in dBm */
t_u8 tx_power_level;
/** Tx antenna */
t_u8 tx_antenna;
/** Rx antenna */
t_u8 rx_antenna;
/** packet forward control */
t_u8 pkt_forward_ctl;
/** max station count */
t_u16 max_sta_count;
/** mac filter */
mac_filter filter;
/** station ageout timer in unit of 100ms */
t_u32 sta_ageout_timer;
/** PS station ageout timer in unit of 100ms */
t_u32 ps_sta_ageout_timer;
/** RTS threshold */
t_u16 rts_threshold;
/** fragmentation threshold */
t_u16 frag_threshold;
/** retry_limit */
t_u16 retry_limit;
/** pairwise update timeout in milliseconds */
t_u32 pairwise_update_timeout;
/** pairwise handshake retries */
t_u32 pwk_retries;
/** groupwise update timeout in milliseconds */
t_u32 groupwise_update_timeout;
/** groupwise handshake retries */
t_u32 gwk_retries;
/** preamble type */
t_u8 preamble_type;
/** band cfg */
Band_Config_t bandcfg;
/** channel */
t_u8 channel;
/** auth mode */
t_u16 auth_mode;
/** PWE derivation */
t_u8 pwe_derivation;
/** transition disable */
t_u8 transition_disable;
/** encryption protocol */
t_u16 protocol;
/** key managment type */
t_u16 key_mgmt;
/** wep param */
wep_param wep_cfg;
/** wpa param */
wpa_param wpa_cfg;
/** Mgmt IE passthru mask */
t_u32 mgmt_ie_passthru_mask;
/*
* 11n HT Cap HTCap_t ht_cap
*/
/** HT Capabilities Info field */
t_u16 ht_cap_info;
/** A-MPDU Parameters field */
t_u8 ampdu_param;
/** Supported MCS Set field */
t_u8 supported_mcs_set[16];
/** HT Extended Capabilities field */
t_u16 ht_ext_cap;
/** Transmit Beamforming Capabilities field */
t_u32 tx_bf_cap;
/** Antenna Selection Capability field */
t_u8 asel;
/** Enable 2040 Coex */
t_u8 enable_2040coex;
/** key management operation */
t_u16 key_mgmt_operation;
/** BSS status */
t_u16 bss_status;
#ifdef WIFI_DIRECT_SUPPORT
/* pre shared key */
t_u8 psk[MLAN_MAX_KEY_LENGTH];
#endif /* WIFI_DIRECT_SUPPORT */
/** Number of channels in scan_channel_list */
t_u32 num_of_chan;
/** scan channel list in ACS mode */
scan_chan_list chan_list[MLAN_MAX_CHANNEL];
/** Wmm parameters */
wmm_parameter_t wmm_para;
/** uap host based config */
t_u32 uap_host_based_config;
} mlan_uap_bss_param, *pmlan_uap_bss_param;
/** mlan_uap_scan_channels */
typedef struct _mlan_uap_scan_channels {
/** flag for remove nop channel*/
t_u8 remove_nop_channel;
/** num of removed channel */
t_u8 num_remvoed_channel;
/** Number of channels in scan_channel_list */
t_u32 num_of_chan;
/** scan channel list in ACS mode */
scan_chan_list chan_list[MLAN_MAX_CHANNEL];
} mlan_uap_scan_channels;
#define MAX_NUM_PKTS 9
#define DEF_NUM_PKTS 3
/** Default channel mode and retry packets for channel switch */
#define DEFAULT_RETRY_PKTS 9
#define DEFAULT_CHAN_MODE_MASK 3
/** mlan_chan_switch_param */
typedef struct _mlan_action_chan_switch {
/** mode*/
t_u8 mode;
/** switch mode*/
t_u8 chan_switch_mode;
/** oper class*/
t_u8 new_oper_class;
/** new channel */
t_u8 new_channel_num;
/** chan_switch_count */
t_u8 chan_switch_count;
} mlan_action_chan_switch;
/** mlan_uap_oper_ctrl */
typedef struct _mlan_uap_oper_ctrl {
/** control value
* 0: do nothing,
* 2: uap stops and restarts automaticaly
*/
t_u16 ctrl_value;
/** channel opt
* 1: uap restart on default 2.4G/channel 6
* 2: uap restart on the band/channel configured by driver previously
* 3: uap restart on the band/channel specified by band_cfg and channel
*/
t_u16 chan_opt;
/** band cfg 0
* 0: 20Mhz 2: 40 Mhz 3: 80Mhz
*/
t_u8 band_cfg;
/** channel */
t_u8 channel;
} mlan_uap_oper_ctrl;
/** mlan_uap_acs_scan */
typedef struct _mlan_uap_acs_scan {
/** band */
Band_Config_t bandcfg;
/** channel */
t_u8 chan;
} mlan_uap_acs_scan;
/** station is authorized (802.1X) */
#define STA_FLAG_AUTHORIZED MBIT(1)
/** Station is capable of receiving frames with short barker preamble */
#define STA_FLAG_SHORT_PREAMBLE MBIT(2)
/** station is WME/QoS capable */
#define STA_FLAG_WME MBIT(3)
/** station uses management frame protection */
#define STA_FLAG_MFP MBIT(4)
/** station is authenticated */
#define STA_FLAG_AUTHENTICATED MBIT(5)
/** station is a TDLS peer */
#define STA_FLAG_TDLS_PEER MBIT(6)
/** station is associated */
#define STA_FLAG_ASSOCIATED MBIT(7)
/** mlan_ds_sta_info */
typedef struct _mlan_ds_sta_info {
/** aid */
t_u16 aid;
/** peer_mac */
t_u8 peer_mac[MLAN_MAC_ADDR_LENGTH];
/** Listen Interval */
int listen_interval;
/** Capability Info */
t_u16 cap_info;
/** station flag */
t_u32 sta_flags;
/** tlv len */
t_u16 tlv_len;
/** tlv start */
t_u8 tlv[];
} mlan_ds_sta_info;
#endif
#ifdef WIFI_DIRECT_SUPPORT
/** mode: disable wifi direct */
#define WIFI_DIRECT_MODE_DISABLE 0
/** mode: listen */
#define WIFI_DIRECT_MODE_LISTEN 1
/** mode: GO */
#define WIFI_DIRECT_MODE_GO 2
/** mode: client */
#define WIFI_DIRECT_MODE_CLIENT 3
/** mode: find */
#define WIFI_DIRECT_MODE_FIND 4
/** mode: stop find */
#define WIFI_DIRECT_MODE_STOP_FIND 5
#endif
/** Type definition of mlan_ds_bss for MLAN_IOCTL_BSS */
typedef struct _mlan_ds_bss {
/** Sub-command */
t_u32 sub_command;
/** BSS parameter */
union {
/** SSID-BSSID for MLAN_OID_BSS_START */
mlan_ssid_bssid ssid_bssid;
/** BSSID for MLAN_OID_BSS_STOP */
mlan_802_11_mac_addr bssid;
/** BSS mode for MLAN_OID_BSS_MODE */
t_u32 bss_mode;
/** BSS channel/frequency for MLAN_OID_BSS_CHANNEL */
chan_freq bss_chan;
/** BSS channel list for MLAN_OID_BSS_CHANNEL_LIST */
mlan_chan_list chanlist;
/** MAC address for MLAN_OID_BSS_MAC_ADDR */
mlan_802_11_mac_addr mac_addr;
/** Multicast list for MLAN_OID_BSS_MULTICAST_LIST */
mlan_multicast_list multicast_list;
/** Beacon interval for MLAN_OID_IBSS_BCN_INTERVAL */
t_u32 bcn_interval;
/** ATIM window for MLAN_OID_IBSS_ATIM_WINDOW */
t_u32 atim_window;
/** deauth param for MLAN_OID_BSS_STOP & MLAN_OID_UAP_DEAUTH_STA
*/
mlan_deauth_param deauth_param;
#ifdef UAP_SUPPORT
/** host based flag for MLAN_OID_BSS_START */
t_u8 host_based;
/** BSS param for AP mode for MLAN_OID_UAP_BSS_CONFIG */
mlan_uap_bss_param bss_config;
/** AP Wmm parameters for MLAN_OID_UAP_CFG_WMM_PARAM */
wmm_parameter_t ap_wmm_para;
/** ap scan channels for MLAN_OID_UAP_SCAN_CHANNELS*/
mlan_uap_scan_channels ap_scan_channels;
/** channel switch for MLAN_OID_UAP_CHAN_SWITCH */
mlan_action_chan_switch chanswitch;
/** ap channel for MLAN_OID_UAP_CHANNEL*/
chan_band_info ap_channel;
/** ap operation control for MLAN_OID_UAP_OPER_CTRL*/
mlan_uap_oper_ctrl ap_oper_ctrl;
/** AP acs scan MLAN_OID_UAP_ACS_SCAN */
mlan_uap_acs_scan ap_acs_scan;
#endif
#if defined(STA_SUPPORT) && defined(UAP_SUPPORT)
/** BSS role for MLAN_OID_BSS_ROLE */
t_u8 bss_role;
#endif
#ifdef WIFI_DIRECT_SUPPORT
/** wifi direct mode for MLAN_OID_WIFI_DIRECT_MODE */
t_u16 wfd_mode;
#endif
#ifdef STA_SUPPORT
/** Listen interval for MLAN_OID_BSS_LISTEN_INTERVAL */
t_u16 listen_interval;
/** STA channel info for MLAN_OID_BSS_CHAN_INFO */
chan_band_info sta_channel;
#endif
#ifdef UAP_SUPPORT
/** STA info for MLAN_OID_UAP_ADD_STATION */
mlan_ds_sta_info sta_info;
#endif
} param;
} mlan_ds_bss, *pmlan_ds_bss;
/* OTP Region info */
typedef MLAN_PACK_START struct _otp_region_info {
t_u8 country_code[2];
t_u8 region_code;
t_u8 environment;
t_u8 force_reg : 1;
t_u8 reserved : 7;
t_u8 dfs_region;
} MLAN_PACK_END otp_region_info_t;
/** Type definition of mlan_ds_custom_reg_domain */
typedef struct _mlan_ds_custom_reg_domain {
otp_region_info_t region;
/** num of 2g channels in custom_reg_domain */
t_u8 num_bg_chan;
/** num of 5g channels in custom_reg_domain */
t_u8 num_a_chan;
/** cfp table */
chan_freq_power_t cfp_tbl[];
} mlan_ds_custom_reg_domain;
/*-----------------------------------------------------------------*/
/** Radio Control Group */
/*-----------------------------------------------------------------*/
/** Enumeration for band */
enum _mlan_band_def {
BAND_B = 1,
BAND_G = 2,
BAND_A = 4,
BAND_GN = 8,
BAND_AN = 16,
BAND_GAC = 32,
BAND_AAC = 64,
BAND_GAX = 256,
BAND_AAX = 512,
};
/** Channel bandwidth */
#define CHANNEL_BW_20MHZ 0
#define CHANNEL_BW_40MHZ_ABOVE 1
#define CHANNEL_BW_40MHZ_BELOW 3
/** secondary channel is 80Mhz bandwidth for 11ac */
#define CHANNEL_BW_80MHZ 4
#define CHANNEL_BW_160MHZ 5
/** RF antenna selection */
#define RF_ANTENNA_MASK(n) ((1 << (n)) - 1)
/** RF antenna auto select */
#define RF_ANTENNA_AUTO 0xFFFF
/** Type definition of mlan_ds_band_cfg for MLAN_OID_BAND_CFG */
typedef struct _mlan_ds_band_cfg {
/** Infra band */
t_u32 config_bands;
/** Ad-hoc start band */
t_u32 adhoc_start_band;
/** Ad-hoc start channel */
t_u32 adhoc_channel;
/** fw supported band */
t_u32 fw_bands;
} mlan_ds_band_cfg;
/** Type definition of mlan_ds_ant_cfg for MLAN_OID_ANT_CFG */
typedef struct _mlan_ds_ant_cfg {
/** Tx antenna mode */
t_u32 tx_antenna;
/** Rx antenna mode */
t_u32 rx_antenna;
} mlan_ds_ant_cfg, *pmlan_ds_ant_cfg;
/** Type definition of mlan_ds_mimo_switch for MLAN_OID_MIMO_SWITCH */
typedef struct _mlan_ds_mimo_switch {
/** Tx antenna mode */
t_u8 txpath_antmode;
/** Rx antenna mode */
t_u8 rxpath_antmode;
} mlan_ds_mimo_switch, *pmlan_ds_mimo_switch;
/** Type definition of mlan_ds_ant_cfg_1x1 for MLAN_OID_ANT_CFG */
typedef struct _mlan_ds_ant_cfg_1x1 {
/** Antenna mode */
t_u32 antenna;
/** Evaluate time */
t_u16 evaluate_time;
/** Current antenna */
t_u16 current_antenna;
} mlan_ds_ant_cfg_1x1, *pmlan_ds_ant_cfg_1x1;
/** Type definition of mlan_ds_remain_chan for MLAN_OID_REMAIN_CHAN_CFG */
typedef struct _mlan_ds_remain_chan {
/** remove flag */
t_u16 remove;
/** status */
t_u8 status;
/** Band cfg */
Band_Config_t bandcfg;
/** channel */
t_u8 channel;
/** remain time: Unit ms*/
t_u32 remain_period;
} mlan_ds_remain_chan, *pmlan_ds_remain_chan;
/** Type definition of mlan_ds_radio_cfg for MLAN_IOCTL_RADIO_CFG */
typedef struct _mlan_ds_radio_cfg {
/** Sub-command */
t_u32 sub_command;
/** Radio control parameter */
union {
/** Radio on/off for MLAN_OID_RADIO_CTRL */
t_u32 radio_on_off;
/** Band info for MLAN_OID_BAND_CFG */
mlan_ds_band_cfg band_cfg;
/** Antenna info for MLAN_OID_ANT_CFG */
mlan_ds_ant_cfg ant_cfg;
/** Antenna mode for MLAN_OID_MIMO_SWITCH */
mlan_ds_mimo_switch mimo_switch_cfg;
/** Antenna info for MLAN_OID_ANT_CFG */
mlan_ds_ant_cfg_1x1 ant_cfg_1x1;
/** remain on channel for MLAN_OID_REMAIN_CHAN_CFG */
mlan_ds_remain_chan remain_chan;
} param;
} mlan_ds_radio_cfg, *pmlan_ds_radio_cfg;
enum COALESCE_OPERATION {
RECV_FILTER_MATCH_TYPE_EQ = 0x80,
RECV_FILTER_MATCH_TYPE_NE,
};
enum COALESCE_PACKET_TYPE {
PACKET_TYPE_UNICAST = 1,
PACKET_TYPE_MULTICAST = 2,
PACKET_TYPE_BROADCAST = 3
};
#define COALESCE_MAX_RULES 8
#define COALESCE_MAX_BYTESEQ 4 /* non-adjustable */
#define COALESCE_MAX_FILTERS 4
#define MAX_COALESCING_DELAY 100 /* in msecs */
#define MAX_PATTERN_LEN 20
#define MAX_OFFSET_LEN 100
struct filt_field_param {
t_u8 operation;
t_u8 operand_len;
t_u16 offset;
t_u8 operand_byte_stream[COALESCE_MAX_BYTESEQ];
};
struct coalesce_rule {
t_u16 max_coalescing_delay;
t_u8 num_of_fields;
t_u8 pkt_type;
struct filt_field_param params[COALESCE_MAX_FILTERS];
};
typedef struct _mlan_ds_coalesce_cfg {
t_u16 num_of_rules;
struct coalesce_rule rule[COALESCE_MAX_RULES];
} mlan_ds_coalesce_cfg;
/*-----------------------------------------------------------------*/
/** SNMP MIB Group */
/*-----------------------------------------------------------------*/
/** Type definition of mlan_ds_snmp_mib for MLAN_IOCTL_SNMP_MIB */
typedef struct _mlan_ds_snmp_mib {
/** Sub-command */
t_u32 sub_command;
/** SNMP MIB parameter */
union {
/** RTS threshold for MLAN_OID_SNMP_MIB_RTS_THRESHOLD */
t_u32 rts_threshold;
/** Fragment threshold for MLAN_OID_SNMP_MIB_FRAG_THRESHOLD */
t_u32 frag_threshold;
/** Retry count for MLAN_OID_SNMP_MIB_RETRY_COUNT */
t_u32 retry_count;
/** OID value for MLAN_OID_SNMP_MIB_DOT11D/H */
t_u32 oid_value;
/** DTIM period for MLAN_OID_SNMP_MIB_DTIM_PERIOD */
t_u32 dtim_period;
/** Singal_ext Enable for MLAN_OID_SNMP_MIB_SIGNALEXT_ENABLE */
t_u8 signalext_enable;
/** Control deauth when uap switch channel */
t_u8 deauthctrl;
t_u8 chan_track;
} param;
} mlan_ds_snmp_mib, *pmlan_ds_snmp_mib;
/*-----------------------------------------------------------------*/
/** Status Information Group */
/*-----------------------------------------------------------------*/
/** Enumeration for ad-hoc status */
enum _mlan_adhoc_status {
ADHOC_IDLE,
ADHOC_STARTED,
ADHOC_JOINED,
ADHOC_COALESCED,
ADHOC_STARTING
};
typedef struct _mlan_ds_get_stats_org {
/** Statistics counter */
/** Multicast transmitted frame count */
t_u32 mcast_tx_frame;
/** Failure count */
t_u32 failed;
/** Retry count */
t_u32 retry;
/** Multi entry count */
t_u32 multi_retry;
/** Duplicate frame count */
t_u32 frame_dup;
/** RTS success count */
t_u32 rts_success;
/** RTS failure count */
t_u32 rts_failure;
/** Ack failure count */
t_u32 ack_failure;
/** Rx fragmentation count */
t_u32 rx_frag;
/** Multicast Tx frame count */
t_u32 mcast_rx_frame;
/** FCS error count */
t_u32 fcs_error;
/** Tx frame count */
t_u32 tx_frame;
/** WEP ICV error count */
t_u32 wep_icv_error[4];
/** beacon recv count */
t_u32 bcn_rcv_cnt;
/** beacon miss count */
t_u32 bcn_miss_cnt;
/** received amsdu count*/
t_u32 amsdu_rx_cnt;
/** received msdu count in amsdu*/
t_u32 msdu_in_rx_amsdu_cnt;
/** tx amsdu count*/
t_u32 amsdu_tx_cnt;
/** tx msdu count in amsdu*/
t_u32 msdu_in_tx_amsdu_cnt;
} mlan_ds_get_stats_org;
/** Type definition of mlan_ds_get_stats for MLAN_OID_GET_STATS */
typedef struct _mlan_ds_get_stats {
/** Statistics counter */
/** Multicast transmitted frame count */
t_u32 mcast_tx_frame;
/** Failure count */
t_u32 failed;
/** Retry count */
t_u32 retry;
/** Multi entry count */
t_u32 multi_retry;
/** Duplicate frame count */
t_u32 frame_dup;
/** RTS success count */
t_u32 rts_success;
/** RTS failure count */
t_u32 rts_failure;
/** Ack failure count */
t_u32 ack_failure;
/** Rx fragmentation count */
t_u32 rx_frag;
/** Multicast Tx frame count */
t_u32 mcast_rx_frame;
/** FCS error count */
t_u32 fcs_error;
/** Tx frame count */
t_u32 tx_frame;
/** WEP ICV error count */
t_u32 wep_icv_error[4];
/** beacon recv count */
t_u32 bcn_rcv_cnt;
/** beacon miss count */
t_u32 bcn_miss_cnt;
/** received amsdu count*/
t_u32 amsdu_rx_cnt;
/** received msdu count in amsdu*/
t_u32 msdu_in_rx_amsdu_cnt;
/** tx amsdu count*/
t_u32 amsdu_tx_cnt;
/** tx msdu count in amsdu*/
t_u32 msdu_in_tx_amsdu_cnt;
/** Tx frag count */
t_u32 tx_frag_cnt;
/** Qos Tx frag count */
t_u32 qos_tx_frag_cnt[8];
/** Qos failed count */
t_u32 qos_failed_cnt[8];
/** Qos retry count */
t_u32 qos_retry_cnt[8];
/** Qos multi retry count */
t_u32 qos_multi_retry_cnt[8];
/** Qos frame dup count */
t_u32 qos_frm_dup_cnt[8];
/** Qos rts success count */
t_u32 qos_rts_suc_cnt[8];
/** Qos rts failure count */
t_u32 qos_rts_failure_cnt[8];
/** Qos ack failure count */
t_u32 qos_ack_failure_cnt[8];
/** Qos Rx frag count */
t_u32 qos_rx_frag_cnt[8];
/** Qos Tx frame count */
t_u32 qos_tx_frm_cnt[8];
/** Qos discarded frame count */
t_u32 qos_discarded_frm_cnt[8];
/** Qos mpdus Rx count */
t_u32 qos_mpdus_rx_cnt[8];
/** Qos retry rx count */
t_u32 qos_retries_rx_cnt[8];
/** CMAC ICV errors count */
t_u32 cmacicv_errors;
/** CMAC replays count */
t_u32 cmac_replays;
/** mgmt CCMP replays count */
t_u32 mgmt_ccmp_replays;
/** TKIP ICV errors count */
t_u32 tkipicv_errors;
/** TKIP replays count */
t_u32 tkip_replays;
/** CCMP decrypt errors count */
t_u32 ccmp_decrypt_errors;
/** CCMP replays count */
t_u32 ccmp_replays;
/** Tx amsdu count */
t_u32 tx_amsdu_cnt;
/** failed amsdu count */
t_u32 failed_amsdu_cnt;
/** retry amsdu count */
t_u32 retry_amsdu_cnt;
/** multi-retry amsdu count */
t_u32 multi_retry_amsdu_cnt;
/** Tx octets in amsdu count */
t_u64 tx_octets_in_amsdu_cnt;
/** amsdu ack failure count */
t_u32 amsdu_ack_failure_cnt;
/** Rx amsdu count */
t_u32 rx_amsdu_cnt;
/** Rx octets in amsdu count */
t_u64 rx_octets_in_amsdu_cnt;
/** Tx ampdu count */
t_u32 tx_ampdu_cnt;
/** tx mpdus in ampdu count */
t_u32 tx_mpdus_in_ampdu_cnt;
/** tx octets in ampdu count */
t_u64 tx_octets_in_ampdu_cnt;
/** ampdu Rx count */
t_u32 ampdu_rx_cnt;
/** mpdu in Rx ampdu count */
t_u32 mpdu_in_rx_ampdu_cnt;
/** Rx octets ampdu count */
t_u64 rx_octets_in_ampdu_cnt;
/** ampdu delimiter CRC error count */
t_u32 ampdu_delimiter_crc_error_cnt;
/** Rx Stuck Related Info*/
/** Rx Stuck Issue count */
t_u32 rx_stuck_issue_cnt[2];
/** Rx Stuck Recovery count polling based */
t_u32 rx_stuck_poll_recovery_cnt;
/** Rx Stuck Recovery count interrupt based */
t_u32 rx_stuck_intr_recovery_cnt;
/** Rx Stuck TSF */
t_u64 rx_stuck_tsf[2];
/** Tx Watchdog Recovery Related Info */
/** Tx Watchdog Recovery count */
t_u32 tx_watchdog_recovery_cnt;
/** Tx Watchdog TSF */
t_u64 tx_watchdog_tsf[2];
/** Channel Switch Related Info */
/** Channel Switch Announcement Sent */
t_u32 channel_switch_ann_sent;
/** Channel Switch State */
t_u32 channel_switch_state;
/** Register Class */
t_u32 reg_class;
/** Channel Number */
t_u32 channel_number;
/** Channel Switch Mode */
t_u32 channel_switch_mode;
/** Reset Rx Mac Count */
t_u32 rx_reset_mac_recovery_cnt;
/** ISR2 Not Done Count*/
t_u32 rx_Isr2_NotDone_Cnt;
/** GDMA Abort Count */
t_u32 gdma_abort_cnt;
/** Rx Reset MAC Count */
t_u32 g_reset_rx_mac_cnt;
// Ownership error counters
/*Error Ownership error count*/
t_u32 dwCtlErrCnt;
/*Control Ownership error count*/
t_u32 dwBcnErrCnt;
/*Control Ownership error count*/
t_u32 dwMgtErrCnt;
/*Control Ownership error count*/
t_u32 dwDatErrCnt;
/*BIGTK MME good count*/
t_u32 bigtk_mmeGoodCnt;
/*BIGTK Replay error count*/
t_u32 bigtk_replayErrCnt;
/*BIGTK MIC error count*/
t_u32 bigtk_micErrCnt;
/*BIGTK MME not included count*/
t_u32 bigtk_mmeNotFoundCnt;
} mlan_ds_get_stats, *pmlan_ds_get_stats;
/** Type definition of mlan_ds_uap_stats for MLAN_OID_GET_STATS */
typedef struct _mlan_ds_uap_stats {
/** tkip mic failures */
t_u32 tkip_mic_failures;
/** ccmp decrypt errors */
t_u32 ccmp_decrypt_errors;
/** wep undecryptable count */
t_u32 wep_undecryptable_count;
/** wep icv error count */
t_u32 wep_icv_error_count;
/** decrypt failure count */
t_u32 decrypt_failure_count;
/** dot11 multicast tx count */
t_u32 mcast_tx_count;
/** dot11 failed count */
t_u32 failed_count;
/** dot11 retry count */
t_u32 retry_count;
/** dot11 multi retry count */
t_u32 multi_retry_count;
/** dot11 frame duplicate count */
t_u32 frame_dup_count;
/** dot11 rts success count */
t_u32 rts_success_count;
/** dot11 rts failure count */
t_u32 rts_failure_count;
/** dot11 ack failure count */
t_u32 ack_failure_count;
/** dot11 rx ragment count */
t_u32 rx_fragment_count;
/** dot11 mcast rx frame count */
t_u32 mcast_rx_frame_count;
/** dot11 fcs error count */
t_u32 fcs_error_count;
/** dot11 tx frame count */
t_u32 tx_frame_count;
/** dot11 rsna tkip cm invoked */
t_u32 rsna_tkip_cm_invoked;
/** dot11 rsna 4way handshake failures */
t_u32 rsna_4way_hshk_failures;
} mlan_ds_uap_stats, *pmlan_ds_uap_stats;
/** Mask of last beacon RSSI */
#define BCN_RSSI_LAST_MASK 0x00000001
/** Mask of average beacon RSSI */
#define BCN_RSSI_AVG_MASK 0x00000002
/** Mask of last data RSSI */
#define DATA_RSSI_LAST_MASK 0x00000004
/** Mask of average data RSSI */
#define DATA_RSSI_AVG_MASK 0x00000008
/** Mask of last beacon SNR */
#define BCN_SNR_LAST_MASK 0x00000010
/** Mask of average beacon SNR */
#define BCN_SNR_AVG_MASK 0x00000020
/** Mask of last data SNR */
#define DATA_SNR_LAST_MASK 0x00000040
/** Mask of average data SNR */
#define DATA_SNR_AVG_MASK 0x00000080
/** Mask of last beacon NF */
#define BCN_NF_LAST_MASK 0x00000100
/** Mask of average beacon NF */
#define BCN_NF_AVG_MASK 0x00000200
/** Mask of last data NF */
#define DATA_NF_LAST_MASK 0x00000400
/** Mask of average data NF */
#define DATA_NF_AVG_MASK 0x00000800
/** Mask of all RSSI_INFO */
#define ALL_RSSI_INFO_MASK 0x00000fff
#define MAX_PATH_NUM 3
/** path A */
#define PATH_A 0x01
/** path B */
#define PATH_B 0x02
/** path AB */
#define PATH_AB 0x03
/** ALL the path */
#define PATH_ALL 0
/** Type definition of mlan_ds_get_signal for MLAN_OID_GET_SIGNAL */
typedef struct _mlan_ds_get_signal {
/** Selector of get operation */
/*
* Bit0: Last Beacon RSSI, Bit1: Average Beacon RSSI,
* Bit2: Last Data RSSI, Bit3: Average Data RSSI,
* Bit4: Last Beacon SNR, Bit5: Average Beacon SNR,
* Bit6: Last Data SNR, Bit7: Average Data SNR,
* Bit8: Last Beacon NF, Bit9: Average Beacon NF,
* Bit10: Last Data NF, Bit11: Average Data NF
*
* Bit0: PATH A
* Bit1: PATH B
*/
t_u16 selector;
/** RSSI */
/** RSSI of last beacon */
t_s16 bcn_rssi_last;
/** RSSI of beacon average */
t_s16 bcn_rssi_avg;
/** RSSI of last data packet */
t_s16 data_rssi_last;
/** RSSI of data packet average */
t_s16 data_rssi_avg;
/** SNR */
/** SNR of last beacon */
t_s16 bcn_snr_last;
/** SNR of beacon average */
t_s16 bcn_snr_avg;
/** SNR of last data packet */
t_s16 data_snr_last;
/** SNR of data packet average */
t_s16 data_snr_avg;
/** NF */
/** NF of last beacon */
t_s16 bcn_nf_last;
/** NF of beacon average */
t_s16 bcn_nf_avg;
/** NF of last data packet */
t_s16 data_nf_last;
/** NF of data packet average */
t_s16 data_nf_avg;
} mlan_ds_get_signal, *pmlan_ds_get_signal;
/** bit for 2.4 G antenna diversity */
#define ANT_DIVERSITY_2G MBIT(3)
/** bit for 5 G antenna diversity */
#define ANT_DIVERSITY_5G MBIT(7)
/** mlan_fw_info data structure for MLAN_OID_GET_FW_INFO */
typedef struct _mlan_fw_info {
/** Firmware version */
t_u32 fw_ver;
/** Firmware Hotfix version */
t_u8 hotfix_version;
/** tx buf size */
t_u16 tx_buf_size;
/** MAC address */
mlan_802_11_mac_addr mac_addr;
/** 802.11n device capabilities */
t_u32 hw_dot_11n_dev_cap;
/** Device support for MIMO abstraction of MCSs */
t_u8 hw_dev_mcs_support;
/** mpdu density */
t_u8 hw_mpdu_density;
/** user's MCS setting */
t_u8 usr_dev_mcs_support;
/** 802.11ac device capabilities */
t_u32 hw_dot_11ac_dev_cap;
/** 802.11ac device Capabilities for 2.4GHz */
t_u32 usr_dot_11ac_dev_cap_bg;
/** 802.11ac device Capabilities for 5GHz */
t_u32 usr_dot_11ac_dev_cap_a;
/** length of hw he capability */
t_u8 hw_hecap_len;
/** 802.11ax HE capability */
t_u8 hw_he_cap[54];
/** length of hw 2.4G he capability */
t_u8 hw_2g_hecap_len;
/** 802.11ax 2.4G HE capability */
t_u8 hw_2g_he_cap[54];
/** 802.11ac device support for MIMO abstraction of MCSs */
t_u32 hw_dot_11ac_mcs_support;
/** User conf 802.11ac device support for MIMO abstraction of MCSs */
t_u32 usr_dot_11ac_mcs_support;
/** fw supported band */
t_u16 fw_bands;
/** region code */
t_u16 region_code;
/** force_reg */
t_u8 force_reg;
/** ECSA support */
t_u8 ecsa_enable;
/** Get log support */
t_u8 getlog_enable;
/** FW support for embedded supplicant */
t_u8 fw_supplicant_support;
/** ant info */
t_u8 antinfo;
/** max AP associated sta count supported by fw */
t_u8 max_ap_assoc_sta;
/** FW support roaming offload */
t_u8 fw_roaming_support;
/** Bandwidth not support 80Mhz */
t_u8 prohibit_80mhz;
/** FW support beacon protection */
t_u8 fw_beacon_prot;
/** FW RTT support */
t_u8 rtt_support;
/* lower 8 bytes of uuid */
t_u64 uuid_lo;
/* higher 8 bytes of uuid */
t_u64 uuid_hi;
} mlan_fw_info, *pmlan_fw_info;
/** Version string buffer length */
#define MLAN_MAX_VER_STR_LEN 128
/** Maximum length of secure boot uuid */
#define MLAN_MAX_UUID_LEN 32
/** mlan_ver_ext data structure for MLAN_OID_GET_VER_EXT */
typedef struct _mlan_ver_ext {
/** Selected version string */
t_u32 version_str_sel;
/** Version string */
char version_str[MLAN_MAX_VER_STR_LEN];
} mlan_ver_ext, *pmlan_ver_ext;
#ifdef BIG_ENDIAN_SUPPORT
/** Extended Capabilities Data */
typedef struct MLAN_PACK_START _ExtCap_t {
/** Extended Capabilities value */
t_u8 Event : 1; /* bit 7 */ /* Byte 1 */
t_u8 SPSMP_Support : 1; /* bit 6 */
t_u8 Reserved5 : 1; /* bit 5 */
t_u8 PSMP_Capable : 1; /* bit 4 */
t_u8 RejectUnadmFrame : 1; /* bit 3 */
t_u8 ExtChanSwitching : 1; /* bit 2 */
t_u8 Reserved1 : 1; /* bit 1 */
t_u8 BSS_CoexistSupport : 1; /* bit 0 */
t_u8 GeospatialLocation : 1; /* bit 15 */ /* Byte 2 */
t_u8 CivicLocation : 1; /* bit 14 */
t_u8 CollocatedIntf : 1; /* bit 13 */
t_u8 ProxyARPService : 1; /* bit 12 */
t_u8 FMS : 1; /* bit 11 */
t_u8 LocationTracking : 1; /* bit 10 */
t_u8 MulticastDiagnostics : 1; /* bit 9 */
t_u8 Diagnostics : 1; /* bit 8 */
t_u8 TimingMeasurement : 1; /* bit 23 */ /* Byte 3 */
t_u8 MultipleBSSID : 1; /* bit 22 */
t_u8 AC_StationCount : 1; /* bit 21 */
t_u8 QoSTrafficCap : 1; /* bit 20 */
t_u8 BSS_Transition : 1; /* bit 19 */
t_u8 TIM_Broadcast : 1; /* bit 18 */
t_u8 WNM_Sleep : 1; /* bit 17 */
t_u8 TFS : 1; /* bit 16 */
t_u8 Interworking : 1; /* bit 31 */ /* Byte 4 */
t_u8 TDLSChannelSwitching : 1; /* bit 30 */
t_u8 TDLSPeerPSMSupport : 1; /* bit 29 */
t_u8 TDLSPeerUAPSDSupport : 1; /* bit 28 */
t_u8 UTC : 1; /* bit 27 */
t_u8 DMS : 1; /* bit 26 */
t_u8 SSID_List : 1; /* bit 25 */
t_u8 ChannelUsage : 1; /* bit 24 */
t_u8 TDLSChlSwitchProhib : 1; /* bit 39 */ /* Byte 5 */
t_u8 TDLSProhibited : 1; /* bit 38 */
t_u8 TDLSSupport : 1; /* bit 37 */
t_u8 MSGCF_Capa : 1; /* bit 36 */
t_u8 Reserved35 : 1; /* bit 35 */
t_u8 SSPN_Interface : 1; /* bit 34 */
t_u8 EBR : 1; /* bit 33 */
t_u8 Qos_Map : 1; /* bit 32 */
t_u8 rsvdBit47 : 1; /* bit 47 */ /* Byte 6 */
t_u8 rsvdBit46 : 1; /* bit 46 */
t_u8 rsvdBit45 : 1; /* bit 45 */
t_u8 rsvdBit44 : 1; /* bit 44 */
t_u8 rsvdBit43 : 1; /* bit 43 */
t_u8 rsvdBit42 : 1; /* bit 42 */
t_u8 rsvdBit41 : 1; /* bit 41 */
t_u8 rsvdBit40 : 1; /* bit 40 */
t_u8 rsvdBit55 : 1; /* bit 55 */ /* Byte 7 */
t_u8 rsvdBit54 : 1; /* bit 54 */
t_u8 rsvdBit53 : 1; /* bit 53 */
t_u8 rsvdBit52 : 1; /* bit 52 */
t_u8 rsvdBit51 : 1; /* bit 51 */
t_u8 rsvdBit50 : 1; /* bit 50 */
t_u8 rsvdBit49 : 1; /* bit 49 */
t_u8 rsvdBit48 : 1; /* bit 48 */
t_u8 MaxAMSDU0 : 1; /* bit 63 */ /* Byte 8 */
t_u8 OperModeNtf : 1; /* bit 62 */
t_u8 TDLSWildBandwidth : 1; /* bit 61 */
t_u8 rsvdBit60 : 1; /* bit 60 */
t_u8 rsvdBit59 : 1; /* bit 59 */
t_u8 rsvdBit58 : 1; /* bit 58 */
t_u8 rsvdBit57 : 1; /* bit 57 */
t_u8 rsvdBit56 : 1; /* bit 56 */
t_u8 FTMI : 1; /* bit 71 */ /* Byte 9 */
t_u8 FTMR : 1; /* bit 70 */
t_u8 CAQ : 1; /* bit 69 */
t_u8 rsvdBit68 : 1; /* bit 68 */
t_u8 NCC : 1; /* bit 67 */
t_u8 rsvdBit66 : 1; /* bit 66 */
t_u8 chanSchedMgnt : 1; /* bit 65 */
t_u8 MaxAMSDU1 : 1; /* bit 64 */
t_u8 rsvdBit79 : 1; /* bit 79 */ /* Byte 10 */
t_u8 TWTResp : 1; /* bit 78 */
t_u8 TWTReq : 1; /* bit 77 */
t_u8 rsvdBit76 : 1; /* bit 76 */
t_u8 rsvdBit75 : 1; /* bit 75 */
t_u8 rsvdBit74 : 1; /* bit 74 */
t_u8 rsvdBit73 : 1; /* bit 73 */
t_u8 FILS : 1; /* bit 72 */
t_u8 rsvdBit87 : 1; /* bit 87 */ /* Byte 11 */
t_u8 rsvdBit86 : 1; /* bit 86 */
t_u8 rsvdBit85 : 1; /* bit 85 */
t_u8 beacon_prot : 1; /* bit 84 */
t_u8 rsvdBit83 : 1; /* bit 83 */
t_u8 rsvdBit82 : 1; /* bit 82 */
t_u8 rsvdBit81 : 1; /* bit 81 */
t_u8 rsvdBit80 : 1; /* bit 80 */
} MLAN_PACK_END ExtCap_t, *pExtCap_t;
#else
/** Extended Capabilities Data */
typedef struct MLAN_PACK_START _ExtCap_t {
/** Extended Capabilities value */
t_u8 BSS_CoexistSupport : 1; /* bit 0 */
t_u8 Reserved1 : 1; /* bit 1 */
t_u8 ExtChanSwitching : 1; /* bit 2 */
t_u8 RejectUnadmFrame : 1; /* bit 3 */
t_u8 PSMP_Capable : 1; /* bit 4 */
t_u8 Reserved5 : 1; /* bit 5 */
t_u8 SPSMP_Support : 1; /* bit 6 */
t_u8 Event : 1; /* bit 7 */
t_u8 Diagnostics : 1; /* bit 8 */
t_u8 MulticastDiagnostics : 1; /* bit 9 */
t_u8 LocationTracking : 1; /* bit 10 */
t_u8 FMS : 1; /* bit 11 */
t_u8 ProxyARPService : 1; /* bit 12 */
t_u8 CollocatedIntf : 1; /* bit 13 */
t_u8 CivicLocation : 1; /* bit 14 */
t_u8 GeospatialLocation : 1; /* bit 15 */
t_u8 TFS : 1; /* bit 16 */
t_u8 WNM_Sleep : 1; /* bit 17 */
t_u8 TIM_Broadcast : 1; /* bit 18 */
t_u8 BSS_Transition : 1; /* bit 19 */
t_u8 QoSTrafficCap : 1; /* bit 20 */
t_u8 AC_StationCount : 1; /* bit 21 */
t_u8 MultipleBSSID : 1; /* bit 22 */
t_u8 TimingMeasurement : 1; /* bit 23 */
t_u8 ChannelUsage : 1; /* bit 24 */
t_u8 SSID_List : 1; /* bit 25 */
t_u8 DMS : 1; /* bit 26 */
t_u8 UTC : 1; /* bit 27 */
t_u8 TDLSPeerUAPSDSupport : 1; /* bit 28 */
t_u8 TDLSPeerPSMSupport : 1; /* bit 29 */
t_u8 TDLSChannelSwitching : 1; /* bit 30 */
t_u8 Interworking : 1; /* bit 31 */
t_u8 Qos_Map : 1; /* bit 32 */
t_u8 EBR : 1; /* bit 33 */
t_u8 SSPN_Interface : 1; /* bit 34 */
t_u8 Reserved35 : 1; /* bit 35 */
t_u8 MSGCF_Capa : 1; /* bit 36 */
t_u8 TDLSSupport : 1; /* bit 37 */
t_u8 TDLSProhibited : 1; /* bit 38 */
t_u8 TDLSChlSwitchProhib : 1; /* bit 39 */
t_u8 rsvdBit40 : 1; /* bit 40 */
t_u8 rsvdBit41 : 1; /* bit 41 */
t_u8 rsvdBit42 : 1; /* bit 42 */
t_u8 rsvdBit43 : 1; /* bit 43 */
t_u8 rsvdBit44 : 1; /* bit 44 */
t_u8 rsvdBit45 : 1; /* bit 45 */
t_u8 rsvdBit46 : 1; /* bit 46 */
t_u8 rsvdBit47 : 1; /* bit 47 */
t_u8 rsvdBit48 : 1; /* bit 48 */
t_u8 rsvdBit49 : 1; /* bit 49 */
t_u8 rsvdBit50 : 1; /* bit 50 */
t_u8 rsvdBit51 : 1; /* bit 51 */
t_u8 rsvdBit52 : 1; /* bit 52 */
t_u8 rsvdBit53 : 1; /* bit 53 */
t_u8 rsvdBit54 : 1; /* bit 54 */
t_u8 rsvdBit55 : 1; /* bit 55 */
t_u8 rsvdBit56 : 1; /* bit 56 */
t_u8 rsvdBit57 : 1; /* bit 57 */
t_u8 rsvdBit58 : 1; /* bit 58 */
t_u8 rsvdBit59 : 1; /* bit 59 */
t_u8 rsvdBit60 : 1; /* bit 60 */
t_u8 TDLSWildBandwidth : 1; /* bit 61 */
t_u8 OperModeNtf : 1; /* bit 62 */
t_u8 MaxAMSDU0 : 1; /* bit 63 */
t_u8 MaxAMSDU1 : 1; /* bit 64 */
t_u8 chanSchedMgnt : 1; /* bit 65 */
t_u8 rsvdBit66 : 1; /* bit 66 */
t_u8 NCC : 1; /* bit 67 */
t_u8 rsvdBit68 : 1; /* bit 68 */
t_u8 CAQ : 1; /* bit 69 */
t_u8 FTMR : 1; /* bit 70 */
t_u8 FTMI : 1; /* bit 71 */
t_u8 FILS : 1; /* bit 72 */
t_u8 rsvdBit73 : 1; /* bit 73 */
t_u8 rsvdBit74 : 1; /* bit 74 */
t_u8 rsvdBit75 : 1; /* bit 75 */
t_u8 rsvdBit76 : 1; /* bit 76 */
t_u8 TWTReq : 1; /* bit 77 */
t_u8 TWTResp : 1; /* bit 78 */
t_u8 rsvdBit79 : 1; /* bit 79 */
t_u8 rsvdBit80 : 1; /* bit 80 */
t_u8 rsvdBit81 : 1; /* bit 81 */
t_u8 rsvdBit82 : 1; /* bit 82 */
t_u8 rsvdBit83 : 1; /* bit 83 */
t_u8 beacon_prot : 1; /* bit 84 */
t_u8 rsvdBit85 : 1; /* bit 85 */
t_u8 rsvdBit86 : 1; /* bit 86 */
t_u8 rsvdBit87 : 1; /* bit 87 */
} MLAN_PACK_END ExtCap_t, *pExtCap_t;
#endif
/** ExtCap : TDLS prohibited */
#define IS_EXTCAP_TDLS_PROHIBITED(ext_cap) (ext_cap.TDLSProhibited)
/** ExtCap : TDLS channel switch prohibited */
#define IS_EXTCAP_TDLS_CHLSWITCHPROHIB(ext_cap) (ext_cap.TDLSChlSwitchProhib)
/** mlan_bss_info data structure for MLAN_OID_GET_BSS_INFO */
typedef struct _mlan_bss_info {
/** BSS mode */
t_u32 bss_mode;
/** SSID */
mlan_802_11_ssid ssid;
/** Table index */
t_u32 scan_table_idx;
/** Channel */
t_u32 bss_chan;
/** Band */
t_u16 bss_band;
/** Region code */
t_u32 region_code;
/** Connection status */
t_u32 media_connected;
/** Radio on */
t_u32 radio_on;
/** Max power level in dBm */
t_s32 max_power_level;
/** Min power level in dBm */
t_s32 min_power_level;
/** Adhoc state */
t_u32 adhoc_state;
/** NF of last beacon */
t_s32 bcn_nf_last;
/** wep status */
t_u32 wep_status;
/** scan block status */
t_u8 scan_block;
/** Host Sleep configured flag */
t_u32 is_hs_configured;
/** Deep Sleep flag */
t_u32 is_deep_sleep;
/** BSSID */
mlan_802_11_mac_addr bssid;
#ifdef STA_SUPPORT
/** Capability Info */
t_u16 capability_info;
/** Beacon Interval */
t_u16 beacon_interval;
/** Listen Interval */
t_u16 listen_interval;
/** Association Id */
t_u16 assoc_id;
/** AP/Peer supported rates */
t_u8 peer_supp_rates[MLAN_SUPPORTED_RATES];
/** extend capability for AP */
ExtCap_t ext_cap;
#endif /* STA_SUPPORT */
/** Mobility Domain ID */
t_u16 mdid;
/** FT Capability policy */
t_u8 ft_cap;
/** 11h active */
t_bool is_11h_active;
/** dfs check channel */
t_u8 dfs_check_channel;
} mlan_bss_info, *pmlan_bss_info;
/** MAXIMUM number of TID */
#define MAX_NUM_TID 8
/** Max RX Win size */
#define MAX_RX_WINSIZE 64
/** rx_reorder_tbl */
typedef struct {
/** TID */
t_u16 tid;
/** TA */
t_u8 ta[MLAN_MAC_ADDR_LENGTH];
/** Start window */
t_u32 start_win;
/** Window size */
t_u32 win_size;
/** amsdu flag */
t_u8 amsdu;
/** buffer status */
t_u32 buffer[MAX_RX_WINSIZE];
} rx_reorder_tbl;
/** tx_ba_stream_tbl */
typedef struct {
/** TID */
t_u16 tid;
/** RA */
t_u8 ra[MLAN_MAC_ADDR_LENGTH];
/** amsdu flag */
t_u8 amsdu;
} tx_ba_stream_tbl;
/** Debug command number */
#define DBG_CMD_NUM 10
#ifdef SDIO
/** sdio mp debug number */
#define SDIO_MP_DBG_NUM 10
#endif
/** Maximum size of IEEE Information Elements */
#define IEEE_MAX_IE_SIZE 256
/** support up to 8 TDLS peer */
#define MLAN_MAX_TDLS_PEER_SUPPORTED 8
/** TDLS peer info */
typedef struct _tdls_peer_info {
/** station mac address */
t_u8 mac_addr[MLAN_MAC_ADDR_LENGTH];
/** SNR */
t_s8 snr;
/** Noise Floor */
t_s8 nf;
/** Extended Capabilities IE */
t_u8 ext_cap[IEEE_MAX_IE_SIZE];
/** HT Capabilities IE */
t_u8 ht_cap[IEEE_MAX_IE_SIZE];
/** VHT Capabilities IE */
t_u8 vht_cap[IEEE_MAX_IE_SIZE];
/** HE Capabilities IE */
t_u8 he_cap[IEEE_MAX_IE_SIZE];
} tdls_peer_info;
/** max ralist num */
#define MLAN_MAX_RALIST_NUM 8
/** ralist info */
typedef struct _ralist_info {
/** RA list buffer */
t_u8 ra[MLAN_MAC_ADDR_LENGTH];
/** total packets in RA list */
t_u16 total_pkts;
/** tid num */
t_u8 tid;
/** tx_pause flag */
t_u8 tx_pause;
} ralist_info, *pralist_info;
/** mlan_debug_info data structure for MLAN_OID_GET_DEBUG_INFO */
typedef struct _mlan_debug_info {
/* WMM AC_BK count */
t_u32 wmm_ac_bk;
/* WMM AC_BE count */
t_u32 wmm_ac_be;
/* WMM AC_VI count */
t_u32 wmm_ac_vi;
/* WMM AC_VO count */
t_u32 wmm_ac_vo;
/** Corresponds to max_tx_buf_size member of mlan_adapter*/
t_u32 max_tx_buf_size;
/** Corresponds to tx_buf_size member of mlan_adapter*/
t_u32 tx_buf_size;
/** Corresponds to curr_tx_buf_size member of mlan_adapter*/
t_u32 curr_tx_buf_size;
/** Tx table num */
t_u32 tx_tbl_num;
/** Tx ba stream table */
tx_ba_stream_tbl tx_tbl[MLAN_MAX_TX_BASTREAM_SUPPORTED];
/** Rx table num */
t_u32 rx_tbl_num;
/** Rx reorder table*/
rx_reorder_tbl rx_tbl[MLAN_MAX_RX_BASTREAM_SUPPORTED];
/** TDLS peer number */
t_u32 tdls_peer_num;
/** TDLS peer list*/
tdls_peer_info tdls_peer_list[MLAN_MAX_TDLS_PEER_SUPPORTED];
/** ralist num */
t_u32 ralist_num;
/** ralist info */
ralist_info ralist[MLAN_MAX_RALIST_NUM];
/** Corresponds to ps_mode member of mlan_adapter */
t_u16 ps_mode;
/** Corresponds to ps_state member of mlan_adapter */
t_u32 ps_state;
#ifdef STA_SUPPORT
/** Corresponds to is_deep_sleep member of mlan_adapter */
t_u8 is_deep_sleep;
#endif /** STA_SUPPORT */
/** Corresponds to pm_wakeup_card_req member of mlan_adapter */
t_u8 pm_wakeup_card_req;
/** Corresponds to pm_wakeup_fw_try member of mlan_adapter */
t_u32 pm_wakeup_fw_try;
/** time stamp when host try to wake up firmware */
t_u32 pm_wakeup_in_secs;
/** wake up timeout happened */
t_u32 pm_wakeup_timeout;
/** Corresponds to is_hs_configured member of mlan_adapter */
t_u8 is_hs_configured;
/** Corresponds to hs_activated member of mlan_adapter */
t_u8 hs_activated;
/** Corresponds to pps_uapsd_mode member of mlan_adapter */
t_u16 pps_uapsd_mode;
/** Corresponds to sleep_period.period member of mlan_adapter */
t_u16 sleep_pd;
/** Corresponds to wmm_qosinfo member of mlan_private */
t_u8 qos_cfg;
/** Corresponds to tx_lock_flag member of mlan_adapter */
t_u8 tx_lock_flag;
/** Corresponds to port_open member of mlan_private */
t_u8 port_open;
/** bypass pkt count */
t_u32 bypass_pkt_count;
/** Corresponds to scan_processing member of mlan_adapter */
t_u32 scan_processing;
/** Corresponds to scan_state member of mlan_adapter */
t_u32 scan_state;
/** Corresponds to mlan_processing member of mlan_adapter */
t_u32 mlan_processing;
/** Corresponds to main_lock_flag member of mlan_adapter */
t_u32 main_lock_flag;
/** Corresponds to main_process_cnt member of mlan_adapter */
t_u32 main_process_cnt;
/** Corresponds to delay_task_flag member of mlan_adapter */
t_u32 delay_task_flag;
/** mlan_rx_processing */
t_u32 mlan_rx_processing;
/** rx pkts queued */
t_u32 rx_pkts_queued;
/** Number of host to card command failures */
t_u32 num_cmd_host_to_card_failure;
/** Number of host to card sleep confirm failures */
t_u32 num_cmd_sleep_cfm_host_to_card_failure;
/** Number of host to card Tx failures */
t_u32 num_tx_host_to_card_failure;
/** Number of allocate buffer failure */
t_u32 num_alloc_buffer_failure;
/** Number of pkt dropped */
t_u32 num_pkt_dropped;
#ifdef SDIO
/** Number of card to host command/event failures */
t_u32 num_cmdevt_card_to_host_failure;
/** Number of card to host Rx failures */
t_u32 num_rx_card_to_host_failure;
/** Number of interrupt read failures */
t_u32 num_int_read_failure;
/** Last interrupt status */
t_u32 last_int_status;
/** number of interrupt receive */
t_u32 num_of_irq;
/** FW update port number */
t_u32 mp_update[SDIO_MP_AGGR_DEF_PKT_LIMIT_MAX * 2];
/** Invalid port update count */
t_u32 mp_invalid_update;
/** Number of packets tx aggr */
t_u32 mpa_tx_count[SDIO_MP_AGGR_DEF_PKT_LIMIT_MAX];
/** no more packets count*/
t_u32 mpa_sent_last_pkt;
/** no write_ports count */
t_u32 mpa_sent_no_ports;
/** last recv wr_bitmap */
t_u32 last_recv_wr_bitmap;
/** last recv rd_bitmap */
t_u32 last_recv_rd_bitmap;
/** mp_data_port_mask */
t_u32 mp_data_port_mask;
/** last mp_wr_bitmap */
t_u32 last_mp_wr_bitmap[SDIO_MP_DBG_NUM];
/** last ports for cmd53 write data */
t_u32 last_mp_wr_ports[SDIO_MP_DBG_NUM];
/** last len for cmd53 write data */
t_u32 last_mp_wr_len[SDIO_MP_DBG_NUM];
/** last curr_wr_port */
t_u8 last_curr_wr_port[SDIO_MP_DBG_NUM];
/** length info for cmd53 write data */
t_u16 last_mp_wr_info[SDIO_MP_DBG_NUM * SDIO_MP_AGGR_DEF_PKT_LIMIT_MAX];
/** last mp_index */
t_u8 last_mp_index;
/** buffer for mp debug */
t_u8 *mpa_buf;
/** length info for mp buf size */
t_u32 mpa_buf_size;
/** Number of packets rx aggr */
t_u32 mpa_rx_count[SDIO_MP_AGGR_DEF_PKT_LIMIT_MAX];
/** mp aggr_pkt limit */
t_u8 mp_aggr_pkt_limit;
#endif
/** Number of deauthentication events */
t_u32 num_event_deauth;
/** Number of disassosiation events */
t_u32 num_event_disassoc;
/** Number of link lost events */
t_u32 num_event_link_lost;
/** Number of deauthentication commands */
t_u32 num_cmd_deauth;
/** Number of association comamnd successes */
t_u32 num_cmd_assoc_success;
/** Number of association command failures */
t_u32 num_cmd_assoc_failure;
/** Number of consecutive association failures */
t_u32 num_cons_assoc_failure;
/** Number of command timeouts */
t_u32 num_cmd_timeout;
/** Timeout command ID */
t_u16 timeout_cmd_id;
/** Timeout command action */
t_u16 timeout_cmd_act;
/** List of last command IDs */
t_u16 last_cmd_id[DBG_CMD_NUM];
/** List of last command actions */
t_u16 last_cmd_act[DBG_CMD_NUM];
/** Last command index */
t_u16 last_cmd_index;
/** List of last command response IDs */
t_u16 last_cmd_resp_id[DBG_CMD_NUM];
/** Last command response index */
t_u16 last_cmd_resp_index;
/** List of last events */
t_u16 last_event[DBG_CMD_NUM];
/** Last event index */
t_u16 last_event_index;
/** Number of no free command node */
t_u16 num_no_cmd_node;
/** num_assoc_cmd_error, count result 4 error */
t_u16 num_assoc_err;
/** num_scan_cmd_error, count result 4 error */
t_u16 num_scan_err;
/** num_remain_on_channel_cmd_error, count result 4 error */
t_u16 num_remain_chan_err;
/** pending command id */
t_u16 pending_cmd;
/** time stamp for dnld last cmd */
t_u32 dnld_cmd_in_secs;
/** Corresponds to data_sent member of mlan_adapter */
t_u8 data_sent;
/** Corresponds to data_sent_cnt member of mlan_adapter */
t_u32 data_sent_cnt;
/** Corresponds to cmd_sent member of mlan_adapter */
t_u8 cmd_sent;
/** SDIO multiple port read bitmap */
t_u32 mp_rd_bitmap;
/** SDIO multiple port write bitmap */
t_u32 mp_wr_bitmap;
/** Current available port for read */
t_u8 curr_rd_port;
/** Current available port for write */
t_u8 curr_wr_port;
#ifdef PCIE
/** PCIE txbd read pointer */
t_u32 txbd_rdptr;
/** PCIE txbd write pointer */
t_u32 txbd_wrptr;
/** PCIE rxbd read pointer */
t_u32 rxbd_rdptr;
/** PCIE rxbd write pointer */
t_u32 rxbd_wrptr;
/** PCIE eventbd read pointer */
t_u32 eventbd_rdptr;
/** PCIE eventbd write pointer */
t_u32 eventbd_wrptr;
/** txrx_bd_size */
t_u16 txrx_bd_size;
/** txbd ring vbase */
t_u8 *txbd_ring_vbase;
/** txbd ring size */
t_u32 txbd_ring_size;
/** rxbd ring vbase */
t_u8 *rxbd_ring_vbase;
/** rxbd ring size */
t_u32 rxbd_ring_size;
/** evtbd ring vbase */
t_u8 *evtbd_ring_vbase;
/** evtbd ring size */
t_u32 evtbd_ring_size;
#endif
/** Corresponds to cmdresp_received member of mlan_adapter */
t_u8 cmd_resp_received;
/** Corresponds to event_received member of mlan_adapter */
t_u8 event_received;
/** pendig tx pkts */
t_u32 tx_pkts_queued;
#ifdef UAP_SUPPORT
/** pending bridge pkts */
t_u16 num_bridge_pkts;
/** dropped pkts */
t_u32 num_drop_pkts;
#endif
/** FW hang report */
t_u8 fw_hang_report;
/** mlan_adapter pointer */
t_void *mlan_adapter;
/** mlan_adapter_size */
t_u32 mlan_adapter_size;
/** mlan_priv vector */
t_void *mlan_priv[MLAN_MAX_BSS_NUM];
/** mlan_priv_size */
t_u32 mlan_priv_size[MLAN_MAX_BSS_NUM];
/** mlan_priv_num */
t_u8 mlan_priv_num;
} mlan_debug_info, *pmlan_debug_info;
#ifdef UAP_SUPPORT
/** Maximum number of clients supported by AP */
#define MAX_NUM_CLIENTS MAX_STA_COUNT
/** station info */
typedef struct _sta_info_data {
/** STA MAC address */
t_u8 mac_address[MLAN_MAC_ADDR_LENGTH];
/** Power mgmt status */
t_u8 power_mgmt_status;
/** RSSI */
t_s8 rssi;
/** station bandmode */
t_u16 bandmode;
/** station stats */
sta_stats stats;
/** ie length */
t_u16 ie_len;
} sta_info_data;
/** Per station Maximum IE buffer SIZE */
#define MAX_STA_LIST_IE_SIZE 13
/** mlan_ds_sta_list structure for MLAN_OID_UAP_STA_LIST */
typedef struct _mlan_ds_sta_list {
/** station count */
t_u16 sta_count;
/** station list */
sta_info_data info[MAX_NUM_CLIENTS];
/* ie_buf will be append at the end */
} mlan_ds_sta_list, *pmlan_ds_sta_list;
#endif
/** Type definition of mlan_ds_get_info for MLAN_IOCTL_GET_INFO */
typedef struct _mlan_ds_get_info {
/** Sub-command */
t_u32 sub_command;
/** Status information parameter */
union {
/** Signal information for MLAN_OID_GET_SIGNAL */
mlan_ds_get_signal signal;
/** Signal path id for MLAN_OID_GET_SIGNAL_EXT */
t_u16 path_id;
/** Signal information for MLAN_OID_GET_SIGNAL_EXT */
mlan_ds_get_signal signal_ext[MAX_PATH_NUM];
/** Statistics information for MLAN_OID_GET_STATS */
mlan_ds_get_stats stats;
/** Statistics information for MLAN_OID_LINK_STATS*/
t_u8 link_statistic[1];
/** Firmware information for MLAN_OID_GET_FW_INFO */
mlan_fw_info fw_info;
/** Extended version information for MLAN_OID_GET_VER_EXT */
mlan_ver_ext ver_ext;
/** BSS information for MLAN_OID_GET_BSS_INFO */
mlan_bss_info bss_info;
/** Debug information for MLAN_OID_GET_DEBUG_INFO */
t_u8 debug_info[1];
#ifdef UAP_SUPPORT
/** UAP Statistics information for MLAN_OID_GET_STATS */
mlan_ds_uap_stats ustats;
/** UAP station list for MLAN_OID_UAP_STA_LIST */
mlan_ds_sta_list sta_list;
#endif
} param;
} mlan_ds_get_info, *pmlan_ds_get_info;
/*-----------------------------------------------------------------*/
/** Security Configuration Group */
/*-----------------------------------------------------------------*/
/** Enumeration for authentication mode */
enum _mlan_auth_mode {
MLAN_AUTH_MODE_OPEN = 0x00,
MLAN_AUTH_MODE_SHARED = 0x01,
MLAN_AUTH_MODE_FT = 0x02,
MLAN_AUTH_MODE_SAE = 0x03,
MLAN_AUTH_MODE_OWE = 0x04,
MLAN_AUTH_MODE_NETWORKEAP = 0x80,
MLAN_AUTH_MODE_AUTO = 0xFF,
};
/**Enumeration for AssocAgent authentication mode, sync from FW.*/
typedef enum {
AssocAgentAuth_Open,
AssocAgentAuth_Shared,
AssocAgentAuth_FastBss,
AssocAgentAuth_FastBss_Skip,
AssocAgentAuth_Network_EAP,
AssocAgentAuth_Wpa3Sae = 6,
AssocAgentAuth_Owe = 7,
AssocAgentAuth_Auto,
} AssocAgentAuthType_e;
/** Enumeration for encryption mode */
enum _mlan_encryption_mode {
MLAN_ENCRYPTION_MODE_NONE = 0,
MLAN_ENCRYPTION_MODE_WEP40 = 1,
MLAN_ENCRYPTION_MODE_TKIP = 2,
MLAN_ENCRYPTION_MODE_CCMP = 3,
MLAN_ENCRYPTION_MODE_WEP104 = 4,
MLAN_ENCRYPTION_MODE_GCMP = 5,
MLAN_ENCRYPTION_MODE_GCMP_256 = 6,
MLAN_ENCRYPTION_MODE_CCMP_256 = 7,
};
/** Enumeration for PSK */
enum _mlan_psk_type {
MLAN_PSK_PASSPHRASE = 1,
MLAN_PSK_PMK,
MLAN_PSK_CLEAR,
MLAN_PSK_QUERY,
MLAN_PSK_SAE_PASSWORD,
};
/** The bit to indicate the key is for unicast */
#define MLAN_KEY_INDEX_UNICAST 0x40000000
/** The key index to indicate default key */
#define MLAN_KEY_INDEX_DEFAULT 0x000000ff
/** Maximum key length */
/* #define MLAN_MAX_KEY_LENGTH 32 */
/** Minimum passphrase length */
#define MLAN_MIN_PASSPHRASE_LENGTH 8
/** Maximum passphrase length */
#define MLAN_MAX_PASSPHRASE_LENGTH 63
/** Minimum sae_password length */
#define MLAN_MIN_SAE_PASSWORD_LENGTH 8
/** Maximum sae_password length */
#define MLAN_MAX_SAE_PASSWORD_LENGTH 255
/** PMK length */
#define MLAN_PMK_HEXSTR_LENGTH 64
/* A few details needed for WEP (Wireless Equivalent Privacy) */
/** 104 bits */
#define MAX_WEP_KEY_SIZE 13
/** 40 bits RC4 - WEP */
#define MIN_WEP_KEY_SIZE 5
/** packet number size */
#define PN_SIZE 16
/** max seq size of wpa/wpa2 key */
#define SEQ_MAX_SIZE 8
/** key flag for tx_seq */
#define KEY_FLAG_TX_SEQ_VALID 0x00000001
/** key flag for rx_seq */
#define KEY_FLAG_RX_SEQ_VALID 0x00000002
/** key flag for group key */
#define KEY_FLAG_GROUP_KEY 0x00000004
/** key flag for tx */
#define KEY_FLAG_SET_TX_KEY 0x00000008
/** key flag for mcast IGTK */
#define KEY_FLAG_AES_MCAST_IGTK 0x00000010
/** key flag for remove key */
#define KEY_FLAG_REMOVE_KEY 0x80000000
/** key flag for GCMP */
#define KEY_FLAG_GCMP 0x00000020
/** key flag for GCMP_256 */
#define KEY_FLAG_GCMP_256 0x00000040
/** key flag for ccmp 256 */
#define KEY_FLAG_CCMP_256 0x00000080
/** key flag for GMAC_128 */
#define KEY_FLAG_GMAC_128 0x00000100
/** key flag for GMAC_256 */
#define KEY_FLAG_GMAC_256 0x00000200
/** Type definition of mlan_ds_encrypt_key for MLAN_OID_SEC_CFG_ENCRYPT_KEY */
typedef struct _mlan_ds_encrypt_key {
/** Key disabled, all other fields will be
* ignore when this flag set to MTRUE
*/
t_u32 key_disable;
/** key removed flag, when this flag is set
* to MTRUE, only key_index will be check
*/
t_u32 key_remove;
/** Key index, used as current tx key index
* when is_current_wep_key is set to MTRUE
*/
t_u32 key_index;
/** Current Tx key flag */
t_u32 is_current_wep_key;
/** Key length */
t_u32 key_len;
/** Key */
t_u8 key_material[MLAN_MAX_KEY_LENGTH];
/** mac address */
t_u8 mac_addr[MLAN_MAC_ADDR_LENGTH];
/** wapi key flag */
t_u32 is_wapi_key;
/** Initial packet number */
t_u8 pn[PN_SIZE];
/** key flags */
t_u32 key_flags;
} mlan_ds_encrypt_key, *pmlan_ds_encrypt_key;
/** Type definition of mlan_passphrase_t */
typedef struct _mlan_passphrase_t {
/** Length of passphrase */
t_u32 passphrase_len;
/** Passphrase */
t_u8 passphrase[MLAN_MAX_PASSPHRASE_LENGTH];
} mlan_passphrase_t;
/** Type definition of mlan_sae_password_t */
typedef struct _mlan_sae_password_t {
/** Length of SAE Password */
t_u32 sae_password_len;
/** SAE Password */
t_u8 sae_password[MLAN_MAX_SAE_PASSWORD_LENGTH];
} mlan_sae_password_t;
/** Type defnition of mlan_pmk_t */
typedef struct _mlan_pmk_t {
/** PMK */
t_u8 pmk[MLAN_MAX_KEY_LENGTH];
t_u8 pmk_r0[MLAN_MAX_KEY_LENGTH];
t_u8 pmk_r0_name[MLAN_MAX_PMKR0_NAME_LENGTH];
} mlan_pmk_t;
/** Embedded supplicant RSN type: No RSN */
#define RSN_TYPE_NO_RSN MBIT(0)
/** Embedded supplicant RSN type: WPA */
#define RSN_TYPE_WPA MBIT(3)
/** Embedded supplicant RSN type: WPA-NONE */
#define RSN_TYPE_WPANONE MBIT(4)
/** Embedded supplicant RSN type: WPA2 */
#define RSN_TYPE_WPA2 MBIT(5)
/** Embedded supplicant RSN type: RFU */
#define RSN_TYPE_VALID_BITS \
(RSN_TYPE_NO_RSN | RSN_TYPE_WPA | RSN_TYPE_WPANONE | RSN_TYPE_WPA2)
/** Embedded supplicant cipher type: TKIP */
#define EMBED_CIPHER_TKIP MBIT(2)
/** Embedded supplicant cipher type: AES */
#define EMBED_CIPHER_AES MBIT(3)
/** Embedded supplicant cipher type: RFU */
#define EMBED_CIPHER_VALID_BITS (EMBED_CIPHER_TKIP | EMBED_CIPHER_AES)
/** Type definition of mlan_ds_passphrase for MLAN_OID_SEC_CFG_PASSPHRASE */
typedef struct _mlan_ds_passphrase {
/** SSID may be used */
mlan_802_11_ssid ssid;
/** BSSID may be used */
mlan_802_11_mac_addr bssid;
/** Flag for passphrase or pmk used */
t_u16 psk_type;
/** Passphrase or PMK */
union {
/** Passphrase */
mlan_passphrase_t passphrase;
/** SAE Password */
mlan_sae_password_t sae_password;
/** PMK */
mlan_pmk_t pmk;
} psk;
} mlan_ds_passphrase, *pmlan_ds_passphrase;
/** Type definition of mlan_ds_esupp_mode for MLAN_OID_SEC_CFG_ESUPP_MODE */
typedef struct _mlan_ds_ewpa_mode {
/** RSN mode */
t_u32 rsn_mode;
/** Active pairwise cipher */
t_u32 act_paircipher;
/** Active pairwise cipher */
t_u32 act_groupcipher;
} mlan_ds_esupp_mode, *pmlan_ds_esupp_mode;
/* Security SSID MAX number support by firmware*/
#define MAX_SEC_SSID_NUM 6
/** Type definition of mlan_ds_sec_cfg for MLAN_IOCTL_SEC_CFG */
typedef struct _mlan_ds_sec_cfg {
/** Sub-command */
t_u32 sub_command;
/** Flag to extend some structures to support multiple values.
** For example, mlan_ds_passphrase can only contain one value,
** if need use mlan_ds_passphrase[N], just set this flag and
** use mlan_ds_passphrase[] instead to avoid modify
** more already exist code.
*/
t_u8 multi_passphrase;
/** Security configuration parameter */
union {
/** Authentication mode for MLAN_OID_SEC_CFG_AUTH_MODE */
t_u32 auth_mode;
/** Encryption mode for MLAN_OID_SEC_CFG_ENCRYPT_MODE */
t_u32 encrypt_mode;
/** WPA enabled flag for MLAN_OID_SEC_CFG_WPA_ENABLED */
t_u32 wpa_enabled;
/** WAPI enabled flag for MLAN_OID_SEC_CFG_WAPI_ENABLED */
t_u32 wapi_enabled;
/** Port Control enabled flag for MLAN_OID_SEC_CFG_PORT_CTRL */
t_u32 port_ctrl_enabled;
/** Encryption key for MLAN_OID_SEC_CFG_ENCRYPT_KEY */
mlan_ds_encrypt_key encrypt_key;
/** Passphrase for MLAN_OID_SEC_CFG_PASSPHRASE */
mlan_ds_passphrase passphrase;
/** Embedded supplicant WPA enabled flag for
* MLAN_OID_SEC_CFG_EWPA_ENABLED
*/
t_u32 ewpa_enabled;
/** Embedded supplicant mode for MLAN_OID_SEC_CFG_ESUPP_MODE */
mlan_ds_esupp_mode esupp_mode;
#ifdef UAP_SUPPORT
t_u8 sta_mac[MLAN_MAC_ADDR_LENGTH];
#endif
mlan_ds_passphrase roam_passphrase[MAX_SEC_SSID_NUM];
} param;
} mlan_ds_sec_cfg, *pmlan_ds_sec_cfg;
/*-----------------------------------------------------------------*/
/** Rate Configuration Group */
/*-----------------------------------------------------------------*/
/** Enumeration for rate type */
enum _mlan_rate_type { MLAN_RATE_INDEX, MLAN_RATE_VALUE, MLAN_RATE_BITMAP };
/** Enumeration for rate format */
enum _mlan_rate_format {
MLAN_RATE_FORMAT_LG = 0,
MLAN_RATE_FORMAT_HT,
MLAN_RATE_FORMAT_VHT,
MLAN_RATE_FORMAT_HE,
MLAN_RATE_FORMAT_AUTO = 0xFF,
};
/** Max bitmap rates size */
#define MAX_BITMAP_RATES_SIZE 26
/** Type definition of mlan_rate_cfg_t for MLAN_OID_RATE_CFG */
typedef struct _mlan_rate_cfg_t {
/** Fixed rate: 0, auto rate: 1 */
t_u32 is_rate_auto;
/** Rate type. 0: index; 1: value; 2: bitmap */
t_u32 rate_type;
/** Rate/MCS index or rate value if fixed rate */
t_u32 rate;
/** Rate Bitmap */
t_u16 bitmap_rates[MAX_BITMAP_RATES_SIZE];
/** NSS */
t_u32 nss;
/* LG rate: 0, HT rate: 1, VHT rate: 2 */
t_u32 rate_format;
/** Rate Setting */
t_u16 rate_setting;
} mlan_rate_cfg_t;
/** HT channel bandwidth */
typedef enum _mlan_ht_bw {
MLAN_HT_BW20,
MLAN_HT_BW40,
/** VHT channel bandwidth */
MLAN_VHT_BW80,
MLAN_VHT_BW160,
} mlan_ht_bw;
/** HT guard interval */
typedef enum _mlan_ht_gi {
MLAN_HT_LGI,
MLAN_HT_SGI,
} mlan_ht_gi;
typedef enum _mlan_vht_stbc {
MLAN_VHT_STBC,
MLAN_VHT_NO_STBC,
} mlan_vht_stbc;
typedef enum _mlan_vht_ldpc {
MLAN_VHT_LDPC,
MLAN_VHT_NO_LDPC,
} mlan_vht_ldpc;
/** Band and BSS mode */
typedef struct _mlan_band_data_rate {
/** Band configuration */
t_u8 config_bands;
/** BSS mode (Infra or IBSS) */
t_u8 bss_mode;
} mlan_band_data_rate;
/** Type definition of mlan_data_rate for MLAN_OID_GET_DATA_RATE */
typedef struct _mlan_data_rate {
/** Tx data rate */
t_u32 tx_data_rate;
/** Rx data rate */
t_u32 rx_data_rate;
/** Tx channel bandwidth */
t_u32 tx_ht_bw;
/** Tx guard interval */
t_u32 tx_ht_gi;
/** Rx channel bandwidth */
t_u32 rx_ht_bw;
/** Rx guard interval */
t_u32 rx_ht_gi;
/** MCS index */
t_u32 tx_mcs_index;
t_u32 rx_mcs_index;
/** NSS */
t_u32 tx_nss;
t_u32 rx_nss;
/* LG rate: 0, HT rate: 1, VHT rate: 2 */
t_u32 tx_rate_format;
t_u32 rx_rate_format;
} mlan_data_rate;
/** Type definition of mlan_ds_rate for MLAN_IOCTL_RATE */
typedef struct _mlan_ds_rate {
/** Sub-command */
t_u32 sub_command;
/** Rate configuration parameter */
union {
/** Rate configuration for MLAN_OID_RATE_CFG */
mlan_rate_cfg_t rate_cfg;
/** Data rate for MLAN_OID_GET_DATA_RATE */
mlan_data_rate data_rate;
/** Supported rates for MLAN_OID_SUPPORTED_RATES */
t_u8 rates[MLAN_SUPPORTED_RATES];
/** Band/BSS mode for getting supported rates */
mlan_band_data_rate rate_band_cfg;
} param;
} mlan_ds_rate, *pmlan_ds_rate;
/*-----------------------------------------------------------------*/
/** Power Configuration Group */
/*-----------------------------------------------------------------*/
/** Type definition of mlan_power_cfg_t for MLAN_OID_POWER_CFG */
typedef struct _mlan_power_cfg_t {
/** Is power auto */
t_u32 is_power_auto;
/** Power level in dBm */
t_s32 power_level;
} mlan_power_cfg_t;
/** max power table size */
#define MAX_POWER_TABLE_SIZE 128
#define TX_PWR_CFG_AUTO_CTRL_OFF 0xFF
#define MAX_POWER_GROUP 64
/** Type definition of mlan_power group info */
typedef struct mlan_power_group {
/** rate format (LG: 0, HT: 1, VHT: 2, no auto ctrl: 0xFF) */
t_u32 rate_format;
/** bandwidth (LG: 20 MHz, HT: 20/40 MHz, VHT: 80/160/80+80 MHz) */
t_u8 bandwidth;
/** NSS */
t_u32 nss;
/** LG: first rate index, HT/VHT: first MCS */
t_u8 first_rate_ind;
/** LG: last rate index, HT/VHT: last MCS */
t_u8 last_rate_ind;
/** minmum tx power (dBm) */
t_s8 power_min;
/** maximum tx power (dBm) */
t_s8 power_max;
/** tx power step (dB) */
t_s8 power_step;
} mlan_power_group;
/** Type definition of mlan_power_cfg_ext for MLAN_OID_POWER_CFG_EXT */
typedef struct _mlan_power_cfg_ext {
/** number of power_groups */
t_u32 num_pwr_grp;
/** array of power groups */
mlan_power_group power_group[MAX_POWER_GROUP];
} mlan_power_cfg_ext;
/** Type definition of mlan_ds_power_cfg for MLAN_IOCTL_POWER_CFG */
typedef struct _mlan_ds_power_cfg {
/** Sub-command */
t_u32 sub_command;
/** Power configuration parameter */
union {
/** Power configuration for MLAN_OID_POWER_CFG */
mlan_power_cfg_t power_cfg;
/** Extended power configuration for MLAN_OID_POWER_CFG_EXT */
mlan_power_cfg_ext power_ext;
/** Low power mode for MLAN_OID_POWER_LOW_POWER_MODE */
t_u16 lpm;
} param;
} mlan_ds_power_cfg, *pmlan_ds_power_cfg;
/** Type definition of mlan_ds_band_steer_cfg for MLAN_IOCTL_POWER_CFG */
typedef struct _mlan_ds_band_steer_cfg {
/** Set/Get */
t_u8 action;
/** enable/disable band steering*/
t_u8 state;
/** Probe Response will be blocked to 2G channel for first
* block_2g_prb_req probe requests*/
t_u8 block_2g_prb_req;
/** When band steering is enabled, limit the btm request sent to STA at
* <max_btm_req_allowed>*/
t_u8 max_btm_req_allowed;
} mlan_ds_band_steer_cfg, *pmlan_ds_band_steer_cfg;
/** Type definition of mlan_ds_beacon_stuck_param_cfg for MLAN_IOCTL_POWER_CFG
*/
typedef struct _mlan_ds_beacon_stuck_param_cfg {
/** subcmd */
t_u32 subcmd;
/** Set/Get */
t_u8 action;
/** No of beacon interval after which firmware will check if beacon Tx
* is going fine */
t_u8 beacon_stuck_detect_count;
/** Upon performing MAC reset, no of beacon interval after which
* firmware will check if recovery was successful */
t_u8 recovery_confirm_count;
} mlan_ds_beacon_stuck_param_cfg, *pmlan_ds_beacon_stuck_param_cfg;
/*-----------------------------------------------------------------*/
/** Power Management Configuration Group */
/*-----------------------------------------------------------------*/
/** Host sleep config conditions : Cancel */
#define HOST_SLEEP_CFG_CANCEL 0xffffffff
/** Host sleep config condition: broadcast data */
#define HOST_SLEEP_COND_BROADCAST_DATA MBIT(0)
/** Host sleep config condition: unicast data */
#define HOST_SLEEP_COND_UNICAST_DATA MBIT(1)
/** Host sleep config condition: mac event */
#define HOST_SLEEP_COND_MAC_EVENT MBIT(2)
/** Host sleep config condition: multicast data */
#define HOST_SLEEP_COND_MULTICAST_DATA MBIT(3)
/** Host sleep config condition: IPV6 packet */
#define HOST_SLEEP_COND_IPV6_PACKET MBIT(31)
/** Host sleep config conditions: Default */
#define HOST_SLEEP_DEF_COND \
(HOST_SLEEP_COND_BROADCAST_DATA | HOST_SLEEP_COND_UNICAST_DATA | \
HOST_SLEEP_COND_MAC_EVENT)
/** Host sleep config GPIO : Default */
#define HOST_SLEEP_DEF_GPIO 0xff
/** Host sleep config gap : Special setting (host acknowledge required) */
#define HOST_SLEEP_GAP_SPECIAL 0xff
/** Host sleep config gap : Default */
#define HOST_SLEEP_DEF_GAP 200
/** Host sleep config min wake holdoff */
#define HOST_SLEEP_DEF_WAKE_HOLDOFF 0;
/** Host sleep config inactivity timeout */
#define HOST_SLEEP_DEF_INACTIVITY_TIMEOUT 10;
/** Type definition of mlan_ds_hs_cfg for MLAN_OID_PM_CFG_HS_CFG */
typedef struct _mlan_ds_hs_cfg {
/** MTRUE to invoke the HostCmd, MFALSE otherwise */
t_u32 is_invoke_hostcmd;
/** Host sleep config condition */
/** Bit0: broadcast data
* Bit1: unicast data
* Bit2: mac event
* Bit3: multicast data
*/
t_u32 conditions;
/** GPIO pin or 0xff for interface */
t_u32 gpio;
/** Gap in milliseconds or or 0xff for special
* setting (host acknowledge required)
*/
t_u32 gap;
/** Host sleep wake interval */
t_u32 hs_wake_interval;
/** Parameter type for indication gpio*/
t_u8 param_type_ind;
/** GPIO pin for indication wakeup source */
t_u32 ind_gpio;
/** Level on ind_gpio pin for indication normal wakeup source */
t_u32 level;
/** Parameter type for extend hscfg*/
t_u8 param_type_ext;
/** Events that will be forced ignore*/
t_u32 event_force_ignore;
/** Events that will use extend gap to inform host*/
t_u32 event_use_ext_gap;
/** Ext gap*/
t_u8 ext_gap;
/** GPIO wave level for extend hscfg*/
t_u8 gpio_wave;
/** Minimum delay between HsActive and HostWake (in msec) */
t_u16 min_wake_holdoff;
} mlan_ds_hs_cfg, *pmlan_ds_hs_cfg;
#define MAX_MGMT_FRAME_FILTER 2
typedef struct _mlan_mgmt_frame_wakeup {
/** action - bitmap
** On matching rx'd pkt and filter during NON_HOSTSLEEP mode:
** Action[1]=0 Discard
** Action[1]=1 Allow
** Note that default action on non-match is "Allow".
**
** On matching rx'd pkt and filter during HOSTSLEEP mode:
** Action[1:0]=00 Discard and Not Wake host
** Action[1:0]=01 Discard and Wake host
** Action[1:0]=10 Invalid
** Note that default action on non-match is "Discard and Not Wake
*host".
**/
t_u32 action;
/** Frame type(p2p, tdls...)
** type=0: invalid
** type=1: p2p
** type=others: reserved
**/
t_u32 type;
/** Frame mask according to each type
** When type=1 for p2p, frame-mask have following define:
** Bit Frame
** 0 GO Negotiation Request
** 1 GO Negotiation Response
** 2 GO Negotiation Confirmation
** 3 P2P Invitation Request
** 4 P2P Invitation Response
** 5 Device Discoverability Request
** 6 Device Discoverability Response
** 7 Provision Discovery Request
** 8 Provision Discovery Response
** 9 Notice of Absence
** 10 P2P Presence Request
** 11 P2P Presence Response
** 12 GO Discoverability Request
** 13-31 Reserved
**
** When type=others, frame-mask is reserved.
**/
t_u32 frame_mask;
} mlan_mgmt_frame_wakeup, *pmlan_mgmt_frame_wakeup;
/** Enable deep sleep mode */
#define DEEP_SLEEP_ON 1
/** Disable deep sleep mode */
#define DEEP_SLEEP_OFF 0
/** Default idle time in milliseconds for auto deep sleep */
#define DEEP_SLEEP_IDLE_TIME 100
typedef struct _mlan_ds_auto_ds {
/** auto ds mode, 0 - disable, 1 - enable */
t_u16 auto_ds;
/** auto ds idle time in milliseconds */
t_u16 idletime;
} mlan_ds_auto_ds;
/** Type definition of mlan_ds_inactivity_to
* for MLAN_OID_PM_CFG_INACTIVITY_TO
*/
typedef struct _mlan_ds_inactivity_to {
/** Timeout unit in microsecond, 0 means 1000us (1ms) */
t_u32 timeout_unit;
/** Inactivity timeout for unicast data */
t_u32 unicast_timeout;
/** Inactivity timeout for multicast data */
t_u32 mcast_timeout;
/** Timeout for additional Rx traffic after Null PM1 packet exchange */
t_u32 ps_entry_timeout;
/** Inactivity timeout for cmd */
t_u32 ps_cmd_timeout;
} mlan_ds_inactivity_to, *pmlan_ds_inactivity_to;
/** Minimum sleep period in milliseconds */
#define MIN_SLEEP_PERIOD 10
/** Maximum sleep period in milliseconds */
#define MAX_SLEEP_PERIOD 60
/** Special setting for UPSD certification tests */
#define SLEEP_PERIOD_RESERVED_FF 0xFF
/** PS null interval disable */
#define PS_NULL_DISABLE (-1)
/** Local listen interval disable */
#define MRVDRV_LISTEN_INTERVAL_DISABLE (-1)
/** Minimum listen interval */
#define MRVDRV_MIN_LISTEN_INTERVAL 0
/** Minimum multiple DTIM */
#define MRVDRV_MIN_MULTIPLE_DTIM 0
/** Maximum multiple DTIM */
#define MRVDRV_MAX_MULTIPLE_DTIM 5
/** Ignore multiple DTIM */
#define MRVDRV_IGNORE_MULTIPLE_DTIM 0xfffe
/** Match listen interval to closest DTIM */
#define MRVDRV_MATCH_CLOSEST_DTIM 0xfffd
/** Minimum beacon miss timeout in milliseconds */
#define MIN_BCN_MISS_TO 0
/** Maximum beacon miss timeout in milliseconds */
#define MAX_BCN_MISS_TO 50
/** Disable beacon miss timeout */
#define DISABLE_BCN_MISS_TO 65535
/** Minimum delay to PS in milliseconds */
#define MIN_DELAY_TO_PS 0
/** Maximum delay to PS in milliseconds */
#define MAX_DELAY_TO_PS 65535
/** Delay to PS unchanged */
#define DELAY_TO_PS_UNCHANGED (-1)
/** Default delay to PS in milliseconds */
#define DELAY_TO_PS_DEFAULT 1000
/** PS mode: Unchanged */
#define PS_MODE_UNCHANGED 0
/** PS mode: Auto */
#define PS_MODE_AUTO 1
/** PS mode: Poll */
#define PS_MODE_POLL 2
/** PS mode: Null */
#define PS_MODE_NULL 3
/** Type definition of mlan_ds_ps_cfg for MLAN_OID_PM_CFG_PS_CFG */
typedef struct _mlan_ds_ps_cfg {
/** PS null interval in seconds */
t_u32 ps_null_interval;
/** Multiple DTIM interval */
t_u32 multiple_dtim_interval;
/** Listen interval */
t_u32 listen_interval;
/** Beacon miss timeout in milliseconds */
t_u32 bcn_miss_timeout;
/** Delay to PS in milliseconds */
t_s32 delay_to_ps;
/** PS mode */
t_u32 ps_mode;
} mlan_ds_ps_cfg, *pmlan_ds_ps_cfg;
/** Type definition of mlan_ds_sleep_params for MLAN_OID_PM_CFG_SLEEP_PARAMS */
typedef struct _mlan_ds_sleep_params {
/** Error */
t_u32 error;
/** Offset in microseconds */
t_u32 offset;
/** Stable time in microseconds */
t_u32 stable_time;
/** Calibration control */
t_u32 cal_control;
/** External sleep clock */
t_u32 ext_sleep_clk;
/** Reserved */
t_u32 reserved;
} mlan_ds_sleep_params, *pmlan_ds_sleep_params;
/** sleep_param */
typedef struct _ps_sleep_param {
/** control bitmap */
t_u32 ctrl_bitmap;
/** minimum sleep period (micro second) */
t_u32 min_sleep;
/** maximum sleep period (micro second) */
t_u32 max_sleep;
} ps_sleep_param;
/** inactivity sleep_param */
typedef struct _inact_sleep_param {
/** inactivity timeout (micro second) */
t_u32 inactivity_to;
/** miniumu awake period (micro second) */
t_u32 min_awake;
/** maximum awake period (micro second) */
t_u32 max_awake;
} inact_sleep_param;
/** flag for ps mode */
#define PS_FLAG_PS_MODE 1
/** flag for sleep param */
#define PS_FLAG_SLEEP_PARAM 2
/** flag for inactivity sleep param */
#define PS_FLAG_INACT_SLEEP_PARAM 4
/** Enable Robust Coex mode */
#define ROBUSTCOEX_GPIOCFG_ENABLE 1
/** Disable Robust Coex mode */
#define ROBUSTCOEX_GPIOCFG_DISABLE 0
/** Disable power mode */
#define PS_MODE_DISABLE 0
/** Enable periodic dtim ps */
#define PS_MODE_PERIODIC_DTIM 1
/** Enable inactivity ps */
#define PS_MODE_INACTIVITY 2
/** FW wake up method interface */
#define FW_WAKEUP_METHOD_INTERFACE 1
/** FW wake up method gpio */
#define FW_WAKEUP_METHOD_GPIO 2
/** mlan_ds_ps_mgmt */
typedef struct _mlan_ds_ps_mgmt {
/** flags for valid field */
t_u16 flags;
/** power mode */
t_u16 ps_mode;
/** sleep param */
ps_sleep_param sleep_param;
/** inactivity sleep param */
inact_sleep_param inact_param;
} mlan_ds_ps_mgmt;
/** mlan_ds_ps_info */
typedef struct _mlan_ds_ps_info {
/** suspend allowed flag */
t_u32 is_suspend_allowed;
} mlan_ds_ps_info;
/** Type definition of mlan_ds_wakeup_reason for MLAN_OID_PM_HS_WAKEUP_REASON */
typedef struct _mlan_ds_hs_wakeup_reason {
t_u16 hs_wakeup_reason;
} mlan_ds_hs_wakeup_reason;
/** Type definition of mlan_ds_ps_cfg for MLAN_OID_PM_CFG_PS_CFG */
typedef struct _mlan_ds_bcn_timeout {
/** Beacon miss timeout period window */
t_u16 bcn_miss_tmo_window;
/** Beacon miss timeout period */
t_u16 bcn_miss_tmo_period;
/** Beacon reacquire timeout period window */
t_u16 bcn_rq_tmo_window;
/** Beacon reacquire timeout period */
t_u16 bcn_rq_tmo_period;
} mlan_ds_bcn_timeout, *pmlan_ds_bcn_timeout;
/** Type definition of mlan_ds_pm_cfg for MLAN_IOCTL_PM_CFG */
typedef struct _mlan_ds_pm_cfg {
/** Sub-command */
t_u32 sub_command;
/** Power management parameter */
union {
/** Power saving mode for MLAN_OID_PM_CFG_IEEE_PS */
t_u32 ps_mode;
/** Host Sleep configuration for MLAN_OID_PM_CFG_HS_CFG */
mlan_ds_hs_cfg hs_cfg;
/** Deep sleep mode for MLAN_OID_PM_CFG_DEEP_SLEEP */
mlan_ds_auto_ds auto_deep_sleep;
/** Inactivity timeout for MLAN_OID_PM_CFG_INACTIVITY_TO */
mlan_ds_inactivity_to inactivity_to;
/** Sleep period for MLAN_OID_PM_CFG_SLEEP_PD */
t_u32 sleep_period;
/** PS configuration parameters for MLAN_OID_PM_CFG_PS_CFG */
mlan_ds_ps_cfg ps_cfg;
/** PS configuration parameters for MLAN_OID_PM_CFG_SLEEP_PARAMS
*/
mlan_ds_sleep_params sleep_params;
/** PS configuration parameters for MLAN_OID_PM_CFG_PS_MODE */
mlan_ds_ps_mgmt ps_mgmt;
/** power info for MLAN_OID_PM_INFO */
mlan_ds_ps_info ps_info;
/** hs wakeup reason for MLAN_OID_PM_HS_WAKEUP_REASON */
mlan_ds_hs_wakeup_reason wakeup_reason;
/** config manamgement frame for hs wakeup */
mlan_mgmt_frame_wakeup mgmt_filter[MAX_MGMT_FRAME_FILTER];
/** Beacon timout parameters for MLAN_OID_PM_CFG_BCN_TIMEOUT */
mlan_ds_bcn_timeout bcn_timeout;
} param;
} mlan_ds_pm_cfg, *pmlan_ds_pm_cfg;
/*-----------------------------------------------------------------*/
/** WMM Configuration Group */
/*-----------------------------------------------------------------*/
/** WMM TSpec size */
#define MLAN_WMM_TSPEC_SIZE 63
/** WMM Add TS extra IE bytes */
#define MLAN_WMM_ADDTS_EXTRA_IE_BYTES 256
/** WMM statistics for packets hist bins */
#define MLAN_WMM_STATS_PKTS_HIST_BINS 7
/** Maximum number of AC QOS queues available */
#define MLAN_WMM_MAX_AC_QUEUES 4
/**
* @brief IOCTL structure to send an ADDTS request and retrieve the response.
*
* IOCTL structure from the application layer relayed to firmware to
* instigate an ADDTS management frame with an appropriate TSPEC IE as well
* as any additional IEs appended in the ADDTS Action frame.
*
* @sa woal_wmm_addts_req_ioctl
*/
typedef struct {
mlan_cmd_result_e cmd_result; /**< Firmware execution result */
t_u32 timeout_ms; /**< Timeout value in milliseconds */
t_u8 ieee_status_code; /**< IEEE status code */
t_u32 ie_data_len; /**< Length of ie block in ie_data */
t_u8 ie_data[MLAN_WMM_TSPEC_SIZE /**< TSPEC to send in the ADDTS */
+ MLAN_WMM_ADDTS_EXTRA_IE_BYTES]; /**< Extra IE buf*/
} wlan_ioctl_wmm_addts_req_t;
/**
* @brief IOCTL structure to send a DELTS request.
*
* IOCTL structure from the application layer relayed to firmware to
* instigate an DELTS management frame with an appropriate TSPEC IE.
*
* @sa woal_wmm_delts_req_ioctl
*/
typedef struct {
mlan_cmd_result_e cmd_result; /**< Firmware execution result */
t_u8 ieee_reason_code; /**< IEEE reason code sent, unused for WMM */
t_u32 ie_data_len; /**< Length of ie block in ie_data */
t_u8 ie_data[MLAN_WMM_TSPEC_SIZE]; /**< TSPEC to send in the DELTS */
} wlan_ioctl_wmm_delts_req_t;
/**
* @brief IOCTL structure to configure a specific AC Queue's parameters
*
* IOCTL structure from the application layer relayed to firmware to
* get, set, or default the WMM AC queue parameters.
*
* - msdu_lifetime_expiry is ignored if set to 0 on a set command
*
* @sa woal_wmm_queue_config_ioctl
*/
typedef struct {
mlan_wmm_queue_config_action_e action; /**< Set, Get, or Default */
mlan_wmm_ac_e access_category; /**< WMM_AC_BK(0) to WMM_AC_VO(3) */
t_u16 msdu_lifetime_expiry; /**< lifetime expiry in TUs */
t_u8 supported_rates[10]; /**< Not supported yet */
} wlan_ioctl_wmm_queue_config_t;
/**
* @brief IOCTL structure to start, stop, and get statistics for a WMM AC
*
* IOCTL structure from the application layer relayed to firmware to
* start or stop statistical collection for a given AC. Also used to
* retrieve and clear the collected stats on a given AC.
*
* @sa woal_wmm_queue_stats_ioctl
*/
typedef struct {
/** Action of Queue Config : Start, Stop, or Get */
mlan_wmm_queue_stats_action_e action;
/** User Priority */
t_u8 user_priority;
/** Number of successful packets transmitted */
t_u16 pkt_count;
/** Packets lost; not included in pkt_count */
t_u16 pkt_loss;
/** Average Queue delay in microseconds */
t_u32 avg_queue_delay;
/** Average Transmission delay in microseconds */
t_u32 avg_tx_delay;
/** Calculated used time in units of 32 microseconds */
t_u16 used_time;
/** Calculated policed time in units of 32 microseconds */
t_u16 policed_time;
/** Queue Delay Histogram; number of packets per queue delay range
*
* [0] - 0ms <= delay < 5ms
* [1] - 5ms <= delay < 10ms
* [2] - 10ms <= delay < 20ms
* [3] - 20ms <= delay < 30ms
* [4] - 30ms <= delay < 40ms
* [5] - 40ms <= delay < 50ms
* [6] - 50ms <= delay < msduLifetime (TUs)
*/
t_u16 delay_histogram[MLAN_WMM_STATS_PKTS_HIST_BINS];
} wlan_ioctl_wmm_queue_stats_t,
/** Type definition of mlan_ds_wmm_queue_stats
* for MLAN_OID_WMM_CFG_QUEUE_STATS
*/
mlan_ds_wmm_queue_stats, *pmlan_ds_wmm_queue_stats;
/**
* @brief IOCTL sub structure for a specific WMM AC Status
*/
typedef struct {
/** WMM Acm */
t_u8 wmm_acm;
/** Flow required flag */
t_u8 flow_required;
/** Flow created flag */
t_u8 flow_created;
/** Disabled flag */
t_u8 disabled;
} wlan_ioctl_wmm_queue_status_ac_t;
/**
* @brief IOCTL structure to retrieve the WMM AC Queue status
*
* IOCTL structure from the application layer to retrieve:
* - ACM bit setting for the AC
* - Firmware status (flow required, flow created, flow disabled)
*
* @sa woal_wmm_queue_status_ioctl
*/
typedef struct {
/** WMM AC queue status */
wlan_ioctl_wmm_queue_status_ac_t ac_status[MLAN_WMM_MAX_AC_QUEUES];
} wlan_ioctl_wmm_queue_status_t,
/** Type definition of mlan_ds_wmm_queue_status
* for MLAN_OID_WMM_CFG_QUEUE_STATUS
*/
mlan_ds_wmm_queue_status, *pmlan_ds_wmm_queue_status;
/** Type definition of mlan_ds_wmm_addts for MLAN_OID_WMM_CFG_ADDTS */
typedef struct _mlan_ds_wmm_addts {
/** Result of ADDTS request */
mlan_cmd_result_e result;
/** Timeout value in milliseconds */
t_u32 timeout;
/** IEEE status code */
t_u32 status_code;
/** Dialog token */
t_u8 dialog_tok;
/** TSPEC data length */
t_u32 ie_data_len;
/** TSPEC to send in the ADDTS + buffering for any extra IEs */
t_u8 ie_data[MLAN_WMM_TSPEC_SIZE + MLAN_WMM_ADDTS_EXTRA_IE_BYTES];
} mlan_ds_wmm_addts, *pmlan_ds_wmm_addts;
/** Type definition of mlan_ds_wmm_delts for MLAN_OID_WMM_CFG_DELTS */
typedef struct _mlan_ds_wmm_delts {
/** Result of DELTS request */
mlan_cmd_result_e result;
/** IEEE status code */
t_u32 status_code;
/** TSPEC data length */
t_u8 ie_data_len;
/** TSPEC to send in the DELTS */
t_u8 ie_data[MLAN_WMM_TSPEC_SIZE];
} mlan_ds_wmm_delts, *pmlan_ds_wmm_delts;
/** Type definition of mlan_ds_wmm_queue_config
* for MLAN_OID_WMM_CFG_QUEUE_CONFIG
*/
typedef struct _mlan_ds_wmm_queue_config {
/** Action of Queue Config : Set, Get, or Default */
mlan_wmm_queue_config_action_e action;
/** WMM Access Category: WMM_AC_BK(0) to WMM_AC_VO(3) */
mlan_wmm_ac_e access_category;
/** Lifetime expiry in TUs */
t_u16 msdu_lifetime_expiry;
/** Reserve for future use */
t_u8 reserved[10];
} mlan_ds_wmm_queue_config, *pmlan_ds_wmm_queue_config;
/** Type definition of mlan_ds_wmm_cfg for MLAN_IOCTL_WMM_CFG */
typedef struct _mlan_ds_wmm_cfg {
/** Sub-command */
t_u32 sub_command;
/** WMM configuration parameter */
union {
/** WMM enable for MLAN_OID_WMM_CFG_ENABLE */
t_u32 wmm_enable;
/** QoS configuration for MLAN_OID_WMM_CFG_QOS */
t_u8 qos_cfg;
/** WMM add TS for MLAN_OID_WMM_CFG_ADDTS */
mlan_ds_wmm_addts addts;
/** WMM delete TS for MLAN_OID_WMM_CFG_DELTS */
mlan_ds_wmm_delts delts;
/** WMM queue configuration for MLAN_OID_WMM_CFG_QUEUE_CONFIG */
mlan_ds_wmm_queue_config q_cfg;
/** AC Parameters Record WMM_AC_BE, WMM_AC_BK, WMM_AC_VI,
* WMM_AC_VO */
wmm_ac_parameters_t ac_params[MAX_AC_QUEUES];
/** WMM queue status for MLAN_OID_WMM_CFG_QUEUE_STATS */
mlan_ds_wmm_queue_stats q_stats;
/** WMM queue status for MLAN_OID_WMM_CFG_QUEUE_STATUS */
mlan_ds_wmm_queue_status q_status;
/** WMM TS status for MLAN_OID_WMM_CFG_TS_STATUS */
mlan_ds_wmm_ts_status ts_status;
} param;
} mlan_ds_wmm_cfg, *pmlan_ds_wmm_cfg;
/*-----------------------------------------------------------------*/
/** WPS Configuration Group */
/*-----------------------------------------------------------------*/
/** Enumeration for WPS session */
enum _mlan_wps_status {
MLAN_WPS_CFG_SESSION_START = 1,
MLAN_WPS_CFG_SESSION_END = 0
};
/** Type definition of mlan_ds_wps_cfg for MLAN_IOCTL_WPS_CFG */
typedef struct _mlan_ds_wps_cfg {
/** Sub-command */
t_u32 sub_command;
/** WPS configuration parameter */
union {
/** WPS session for MLAN_OID_WPS_CFG_SESSION */
t_u32 wps_session;
} param;
} mlan_ds_wps_cfg, *pmlan_ds_wps_cfg;
/*-----------------------------------------------------------------*/
/** 802.11n Configuration Group */
/*-----------------------------------------------------------------*/
/** Maximum MCS */
#define NUM_MCS_FIELD 16
/** Supported stream modes */
#define HT_STREAM_MODE_1X1 0x11
#define HT_STREAM_MODE_2X2 0x22
/* Both 2.4G and 5G band selected */
#define BAND_SELECT_BOTH 0
/* Band 2.4G selected */
#define BAND_SELECT_BG 1
/* Band 5G selected */
#define BAND_SELECT_A 2
/** Type definition of mlan_ds_11n_htcap_cfg for MLAN_OID_11N_HTCAP_CFG */
typedef struct _mlan_ds_11n_htcap_cfg {
/** HT Capability information */
t_u32 htcap;
/** Band selection */
t_u32 misc_cfg;
/** Hardware HT cap information required */
t_u32 hw_cap_req;
} mlan_ds_11n_htcap_cfg, *pmlan_ds_11n_htcap_cfg;
/** Type definition of mlan_ds_11n_addba_param
* for MLAN_OID_11N_CFG_ADDBA_PARAM
*/
typedef struct _mlan_ds_11n_addba_param {
/** Timeout */
t_u32 timeout;
/** Buffer size for ADDBA request */
t_u32 txwinsize;
/** Buffer size for ADDBA response */
t_u32 rxwinsize;
/** amsdu for ADDBA request */
t_u8 txamsdu;
/** amsdu for ADDBA response */
t_u8 rxamsdu;
} mlan_ds_11n_addba_param, *pmlan_ds_11n_addba_param;
/** Type definition of mlan_ds_11n_tx_cfg for MLAN_OID_11N_CFG_TX */
typedef struct _mlan_ds_11n_tx_cfg {
/** HTTxCap */
t_u16 httxcap;
/** HTTxInfo */
t_u16 httxinfo;
/** Band selection */
t_u32 misc_cfg;
} mlan_ds_11n_tx_cfg, *pmlan_ds_11n_tx_cfg;
/** BF Global Configuration */
#define BF_GLOBAL_CONFIGURATION 0x00
/** Performs NDP sounding for PEER specified */
#define TRIGGER_SOUNDING_FOR_PEER 0x01
/** TX BF interval for channel sounding */
#define SET_GET_BF_PERIODICITY 0x02
/** Tell FW not to perform any sounding for peer */
#define TX_BF_FOR_PEER_ENBL 0x03
/** TX BF SNR threshold for peer */
#define SET_SNR_THR_PEER 0x04
/** TX Sounding*/
#define TX_SOUNDING_CFG 0x05
/* Maximum number of peer MAC and status/SNR tuples */
#define MAX_PEER_MAC_TUPLES 10
/** Any new subcommand structure should be declare here */
/** bf global cfg args */
typedef struct _mlan_bf_global_cfg_args {
/** Global enable/disable bf */
t_u8 bf_enbl;
/** Global enable/disable sounding */
t_u8 sounding_enbl;
/** FB Type */
t_u8 fb_type;
/** SNR Threshold */
t_u8 snr_threshold;
/** Sounding interval in milliseconds */
t_u16 sounding_interval;
/** BF mode */
t_u8 bf_mode;
/** Reserved */
t_u8 reserved;
} mlan_bf_global_cfg_args;
/** trigger sounding args */
typedef struct _mlan_trigger_sound_args {
/** Peer MAC address */
t_u8 peer_mac[MLAN_MAC_ADDR_LENGTH];
/** Status */
t_u8 status;
} mlan_trigger_sound_args;
/** bf periodicity args */
typedef struct _mlan_bf_periodicity_args {
/** Peer MAC address */
t_u8 peer_mac[MLAN_MAC_ADDR_LENGTH];
/** Current Tx BF Interval in milliseconds */
t_u16 interval;
/** Status */
t_u8 status;
} mlan_bf_periodicity_args;
/** tx bf peer args */
typedef struct _mlan_tx_bf_peer_args {
/** Peer MAC address */
t_u8 peer_mac[MLAN_MAC_ADDR_LENGTH];
/** Reserved */
t_u16 reserved;
/** Enable/Disable Beamforming */
t_u8 bf_enbl;
/** Enable/Disable sounding */
t_u8 sounding_enbl;
/** FB Type */
t_u8 fb_type;
} mlan_tx_bf_peer_args;
/** SNR threshold args */
typedef struct _mlan_snr_thr_args {
/** Peer MAC address */
t_u8 peer_mac[MLAN_MAC_ADDR_LENGTH];
/** SNR for peer */
t_u8 snr;
} mlan_snr_thr_args;
/** Type definition of mlan_ds_11n_tx_bf_cfg for MLAN_OID_11N_CFG_TX_BF_CFG */
typedef struct _mlan_ds_11n_tx_bf_cfg {
/** BF Action */
t_u16 bf_action;
/** Action */
t_u16 action;
/** Number of peers */
t_u32 no_of_peers;
union {
mlan_bf_global_cfg_args bf_global_cfg;
mlan_trigger_sound_args bf_sound[MAX_PEER_MAC_TUPLES];
mlan_bf_periodicity_args bf_periodicity[MAX_PEER_MAC_TUPLES];
mlan_tx_bf_peer_args tx_bf_peer[MAX_PEER_MAC_TUPLES];
mlan_snr_thr_args bf_snr[MAX_PEER_MAC_TUPLES];
} body;
} mlan_ds_11n_tx_bf_cfg, *pmlan_ds_11n_tx_bf_cfg;
/** Type definition of mlan_ds_11n_amsdu_aggr_ctrl for
* MLAN_OID_11N_AMSDU_AGGR_CTRL*/
typedef struct _mlan_ds_11n_amsdu_aggr_ctrl {
/** Enable/Disable */
t_u16 enable;
/** Current AMSDU size valid */
t_u16 curr_buf_size;
} mlan_ds_11n_amsdu_aggr_ctrl, *pmlan_ds_11n_amsdu_aggr_ctrl;
/** Type definition of mlan_ds_11n_aggr_prio_tbl
* for MLAN_OID_11N_CFG_AGGR_PRIO_TBL
*/
typedef struct _mlan_ds_11n_aggr_prio_tbl {
/** ampdu priority table */
t_u8 ampdu[MAX_NUM_TID];
/** amsdu priority table */
t_u8 amsdu[MAX_NUM_TID];
} mlan_ds_11n_aggr_prio_tbl, *pmlan_ds_11n_aggr_prio_tbl;
/** DelBA All TIDs */
#define DELBA_ALL_TIDS 0xff
/** DelBA Tx */
#define DELBA_TX MBIT(0)
/** DelBA Rx */
#define DELBA_RX MBIT(1)
/** Type definition of mlan_ds_11n_delba for MLAN_OID_11N_CFG_DELBA */
typedef struct _mlan_ds_11n_delba {
/** TID */
t_u8 tid;
/** Peer MAC address */
t_u8 peer_mac_addr[MLAN_MAC_ADDR_LENGTH];
/** Direction (Tx: bit 0, Rx: bit 1) */
t_u8 direction;
} mlan_ds_11n_delba, *pmlan_ds_11n_delba;
/** Type definition of mlan_ds_delba for MLAN_OID_11N_CFG_REJECT_ADDBA_REQ */
typedef struct _mlan_ds_reject_addba_req {
/** Bit0 : host sleep activated
* Bit1 : auto reconnect enabled
* Others : reserved
*/
t_u32 conditions;
} mlan_ds_reject_addba_req, *pmlan_ds_reject_addba_req;
/** Type definition of mlan_ds_ibss_ampdu_param */
typedef struct _mlan_ds_ibss_ampdu_param {
/** ampdu priority table */
t_u8 ampdu[MAX_NUM_TID];
/** rx amdpdu setting */
t_u8 addba_reject[MAX_NUM_TID];
} mlan_ds_ibss_ampdu_param, *pmlan_ds_ibss_ampdu_param;
/** Type definition of mlan_ds_11n_cfg for MLAN_IOCTL_11N_CFG */
typedef struct _mlan_ds_11n_cfg {
/** Sub-command */
t_u32 sub_command;
/** 802.11n configuration parameter */
union {
/** Tx param for 11n for MLAN_OID_11N_CFG_TX */
mlan_ds_11n_tx_cfg tx_cfg;
/** Aggr priority table for MLAN_OID_11N_CFG_AGGR_PRIO_TBL */
mlan_ds_11n_aggr_prio_tbl aggr_prio_tbl;
/** Add BA param for MLAN_OID_11N_CFG_ADDBA_PARAM */
mlan_ds_11n_addba_param addba_param;
/** Add BA Reject paramters for MLAN_OID_11N_CFG_ADDBA_REJECT */
t_u8 addba_reject[MAX_NUM_TID];
/** Tx buf size for MLAN_OID_11N_CFG_MAX_TX_BUF_SIZE */
t_u32 tx_buf_size;
/** HT cap info configuration for MLAN_OID_11N_HTCAP_CFG */
mlan_ds_11n_htcap_cfg htcap_cfg;
/** Tx param for 11n for MLAN_OID_11N_AMSDU_AGGR_CTRL */
mlan_ds_11n_amsdu_aggr_ctrl amsdu_aggr_ctrl;
/** Supported MCS Set field */
t_u8 supported_mcs_set[NUM_MCS_FIELD];
/** Transmit Beamforming Capabilities field */
t_u32 tx_bf_cap;
/** Transmit Beamforming configuration */
mlan_ds_11n_tx_bf_cfg tx_bf;
/** HT stream configuration */
t_u32 stream_cfg;
/** DelBA for MLAN_OID_11N_CFG_DELBA */
mlan_ds_11n_delba del_ba;
/** Reject Addba Req for MLAN_OID_11N_CFG_REJECT_ADDBA_REQ */
mlan_ds_reject_addba_req reject_addba_req;
/** Control coex RX window size configuration */
t_u32 coex_rx_winsize;
/** Control TX AMPDU configuration */
t_u32 txaggrctrl;
/** aggrprirotity table for MLAN_OID_11N_CFG_IBSS_AMPDU_PARAM */
mlan_ds_ibss_ampdu_param ibss_ampdu;
/** Minimum BA Threshold for MLAN_OID_11N_CFG_MIN_BA_THRESHOLD
*/
t_u8 min_ba_threshold;
} param;
} mlan_ds_11n_cfg, *pmlan_ds_11n_cfg;
#define NUM_MCS_SUPP 20
#define VHT_MCS_SET_LEN 8
/** Type definition of mlan_ds_11ac_vhtcap_cfg for MLAN_OID_11AC_VHTCAP_CFG */
typedef struct _mlan_ds_11ac_vhtcap_cfg {
/** HT Capability information */
t_u32 vhtcap;
/** Band selection */
t_u32 misc_cfg;
/** Hardware HT cap information required */
t_u32 hw_cap_req;
} mlan_ds_11ac_vhtcap_cfg, *pmlan_ds_11ac_vhtcap_cfg;
/** Type definition of mlan_ds_11ac_tx_cfg for MLAN_OID_11AC_CFG_TX */
typedef struct _mlan_ds_11ac_tx_cfg {
/** Band selection */
t_u8 band_cfg;
/** misc configuration */
t_u8 misc_cfg;
/** HTTxCap */
t_u16 vhttxcap;
/** HTTxInfo */
t_u16 vhttxinfo;
} mlan_ds_11ac_tx_cfg, *pmlan_ds_11ac_tx_cfg;
/** Tx */
#define MLAN_RADIO_TX MBIT(0)
/** Rx */
#define MLAN_RADIO_RX MBIT(1)
/** Tx & Rx */
#define MLAN_RADIO_TXRX (MLAN_RADIO_TX | MLAN_RADIO_RX)
/** Type definition of mlan_ds_11ac_tx_cfg for MLAN_OID_11AC_CFG */
typedef struct _mlan_ds_11ac_vht_cfg {
/** Band selection (1: 2.4G, 2: 5 G, 3: both 2.4G and 5G) */
t_u32 band;
/** TxRx (1: Tx, 2: Rx, 3: both Tx and Rx) */
t_u32 txrx;
/** BW CFG (0: 11N CFG, 1: vhtcap) */
t_u32 bwcfg;
/** VHT capabilities. */
t_u32 vht_cap_info;
/** VHT Tx mcs */
t_u32 vht_tx_mcs;
/** VHT Rx mcs */
t_u32 vht_rx_mcs;
/** VHT rx max rate */
t_u16 vht_rx_max_rate;
/** VHT max tx rate */
t_u16 vht_tx_max_rate;
/** Skip usr 11ac mcs cfg */
t_bool skip_usr_11ac_mcs_cfg;
} mlan_ds_11ac_vht_cfg, *pmlan_ds_11ac_vht_cfg;
/** Type definition of mlan_ds_11ac_tx_cfg for MLAN_OID_11AC_CFG */
typedef struct _mlan_ds_11ac_opermode_cfg {
/** channel width: 1-20MHz, 2-40MHz, 3-80MHz, 4-160MHz or 80+80MHz */
t_u8 bw;
/** Rx NSS */
t_u8 nss;
} mlan_ds_11ac_opermode_cfg, *pmlan_ds_11ac_opermode_cfg;
/** Type definition of mlan_ds_11ac_cfg for MLAN_IOCTL_11AC_CFG */
typedef struct _mlan_ds_11ac_cfg {
/** Sub-command */
t_u32 sub_command;
/** 802.11n configuration parameter */
union {
/** VHT configuration for MLAN_OID_11AC_VHT_CFG */
mlan_ds_11ac_vht_cfg vht_cfg;
/** Supported MCS Set field */
t_u8 supported_mcs_set[NUM_MCS_SUPP];
/** Oper mode configuration for MLAN_OID_11AC_OPERMODE_CFG */
mlan_ds_11ac_opermode_cfg opermode_cfg;
} param;
} mlan_ds_11ac_cfg, *pmlan_ds_11ac_cfg;
/** Type definition of mlan_ds_11ax_he_capa for MLAN_OID_11AX_HE_CFG */
typedef MLAN_PACK_START struct _mlan_ds_11ax_he_capa {
/** tlv id of he capability */
t_u16 id;
/** length of the payload */
t_u16 len;
/** extension id */
t_u8 ext_id;
/** he mac capability info */
t_u8 he_mac_cap[6];
/** he phy capability info */
t_u8 he_phy_cap[11];
/** he txrx mcs support for 80MHz */
t_u8 he_txrx_mcs_support[4];
/** val for txrx mcs 160Mhz or 80+80, and PPE thresholds */
t_u8 val[28];
} MLAN_PACK_END mlan_ds_11ax_he_capa, *pmlan_ds_11ax_he_capa;
/** Type definition of mlan_ds_11ax_he_cfg for MLAN_OID_11AX_HE_CFG */
typedef struct _mlan_ds_11ax_he_cfg {
/** band, BIT0:2.4G, BIT1:5G BIT2:6G*/
t_u8 band;
/** mlan_ds_11ax_he_capa */
mlan_ds_11ax_he_capa he_cap;
} mlan_ds_11ax_he_cfg, *pmlan_ds_11ax_he_cfg;
/** Type definition of mlan_ds_11as_cfg for MLAN_IOCTL_11AX_CFG */
typedef struct _mlan_ds_11ax_cfg {
/** Sub-command */
t_u32 sub_command;
/** 802.11n configuration parameter */
union {
/** HE configuration for MLAN_OID_11AX_HE_CFG */
mlan_ds_11ax_he_cfg he_cfg;
} param;
} mlan_ds_11ax_cfg, *pmlan_ds_11ax_cfg;
#define MLAN_11AXCMD_CFG_ID_SR_OBSS_PD_OFFSET 1
#define MLAN_11AXCMD_CFG_ID_SR_ENABLE 2
#define MLAN_11AXCMD_CFG_ID_BEAM_CHANGE 3
#define MLAN_11AXCMD_CFG_ID_HTC_ENABLE 4
#define MLAN_11AXCMD_CFG_ID_TXOP_RTS 5
#define MLAN_11AXCMD_CFG_ID_TX_OMI 6
#define MLAN_11AXCMD_CFG_ID_OBSSNBRU_TOLTIME 7
#define MLAN_11AXCMD_CFG_ID_SET_BSRP 8
#define MLAN_11AXCMD_CFG_ID_LLDE 9
#define MLAN_11AXCMD_SR_SUBID 0x102
#define MLAN_11AXCMD_BEAM_SUBID 0x103
#define MLAN_11AXCMD_HTC_SUBID 0x104
#define MLAN_11AXCMD_TXOMI_SUBID 0x105
#define MLAN_11AXCMD_OBSS_TOLTIME_SUBID 0x106
#define MLAN_11AXCMD_TXOPRTS_SUBID 0x108
#define MLAN_11AXCMD_SET_BSRP_SUBID 0x109
#define MLAN_11AXCMD_LLDE_SUBID 0x110
#define MLAN_11AX_TWT_SETUP_SUBID 0x114
#define MLAN_11AX_TWT_TEARDOWN_SUBID 0x115
#define MLAN_11AX_TWT_REPORT_SUBID 0x116
#define MRVL_DOT11AX_ENABLE_SR_TLV_ID (PROPRIETARY_TLV_BASE_ID + 322)
#define MRVL_DOT11AX_OBSS_PD_OFFSET_TLV_ID (PROPRIETARY_TLV_BASE_ID + 323)
/** Type definition of mlan_11axcmdcfg_obss_pd_offset for MLAN_OID_11AX_CMD_CFG
*/
typedef struct MLAN_PACK_START _mlan_11axcmdcfg_obss_pd_offset {
/** <NON_SRG_OffSET, SRG_OFFSET> */
t_u8 offset[2];
} MLAN_PACK_END mlan_11axcmdcfg_obss_pd_offset;
/** Type definition of mlan_11axcmdcfg_sr_control for MLAN_OID_11AX_CMD_CFG */
typedef struct MLAN_PACK_START _mlan_11axcmdcfg_sr_control {
/** 1 enable, 0 disable */
t_u8 control;
} MLAN_PACK_END mlan_11axcmdcfg_sr_control;
/** Type definition of mlan_ds_11ax_sr_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct MLAN_PACK_START _mlan_ds_11ax_sr_cmd {
/** type*/
t_u16 type;
/** length of TLV */
t_u16 len;
/** value */
union {
mlan_11axcmdcfg_obss_pd_offset obss_pd_offset;
mlan_11axcmdcfg_sr_control sr_control;
} param;
} MLAN_PACK_END mlan_ds_11ax_sr_cmd, *pmlan_ds_11ax_sr_cmd;
/** Type definition of mlan_ds_11ax_beam_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_ds_11ax_beam_cmd {
/** command value: 1 is disable, 0 is enable*/
t_u8 value;
} mlan_ds_11ax_beam_cmd, *pmlan_ds_11ax_beam_cmd;
/** Type definition of mlan_ds_11ax_htc_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_ds_11ax_htc_cmd {
/** command value: 1 is enable, 0 is disable*/
t_u8 value;
} mlan_ds_11ax_htc_cmd, *pmlan_ds_11ax_htc_cmd;
/** Type definition of mlan_ds_11ax_htc_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_ds_11ax_txop_cmd {
/** Two byte rts threshold value of which only 10 bits, bit 0 to bit 9
* are valid */
t_u16 rts_thres;
} mlan_ds_11ax_txop_cmd, *pmlan_ds_11ax_txop_cmd;
/** Type definition of mlan_ds_11ax_htc_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct MLAN_PACK_START_mlan_ds_11ax_txomi_cmd {
/* 11ax spec 9.2.4.6a.2 OM Control 12 bits. Bit 0 to bit 11 */
t_u16 omi;
/* tx option
* 0: send OMI in QoS NULL; 1: send OMI in QoS data; 0xFF: set OMI in
* both
*/
t_u8 tx_option;
/* if OMI is sent in QoS data, specify the number of consecutive data
* packets containing the OMI
*/
t_u8 num_data_pkts;
} MLAN_PACK_END mlan_ds_11ax_txomi_cmd, *pmlan_ds_11ax_txomi_cmd;
/** Type definition of mlan_ds_11ax_toltime_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_ds_11ax_toltime_cmd {
/* OBSS Narrow Bandwidth RU Tolerance Time */
t_u32 tol_time;
} mlan_ds_11ax_toltime_cmd, *pmlan_ds_11ax_toltime_cmd;
/** Type definition of mlan_ds_11ax_set_bsrp_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_ds_11ax_set_bsrp_cmd {
/** command value: 1 is enable, 0 is disable*/
t_u8 value;
} mlan_ds_11ax_set_bsrp_cmd, *pmlan_ds_11ax_set_bsrp_cmd;
/** Type definition of mlan_ds_11ax_llde_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_ds_11ax_llde_cmd {
t_u8 llde; // Uplink LLDE: enable=1,disable=0
t_u8 mode; // operation mode: default=0,carplay=1,gameplay=2
t_u8 fixrate; // trigger frame rate: auto=0xff
t_u8 triggerlimit; // cap airtime limit index: auto=0xff
t_u8 peakULrate; // cap peak UL rate
t_u8 dl_llde; // Downlink LLDE: enable=1,disable=0
t_u16 triggerinterval; // Set trigger frame interval(us): auto=0
t_u16 mu_rts_successcnt;
t_u16 mu_rts_failcnt;
t_u16 basic_trigger_successcnt;
t_u16 basic_trigger_failcnt;
t_u16 tbppdu_nullcnt;
t_u16 tbppdu_datacnt;
} mlan_ds_11ax_llde_cmd, *pmlan_ds_11ax_llde_cmd;
/** Type definition of mlan_ds_11ax_cmd_cfg for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_ds_11ax_cmd_cfg {
/** Sub-command */
t_u32 sub_command;
/** Sub-id */
t_u32 sub_id;
/** 802.11n configuration parameter */
union {
/** SR configuration for MLAN_11AXCMD_SR_SUBID */
mlan_ds_11ax_sr_cmd sr_cfg;
/** Beam configuration for MLAN_11AXCMD_BEAM_SUBID */
mlan_ds_11ax_beam_cmd beam_cfg;
/** HTC configuration for MLAN_11AXCMD_HTC_SUBID */
mlan_ds_11ax_htc_cmd htc_cfg;
/** txop RTS configuration for MLAN_11AXCMD_TXOPRTS_SUBID */
mlan_ds_11ax_txop_cmd txop_cfg;
/** tx omi configuration for MLAN_11AXCMD_TXOMI_SUBID */
mlan_ds_11ax_txomi_cmd txomi_cfg;
/** OBSS tolerance time configuration for
* MLAN_11AXCMD_TOLTIME_SUBID */
mlan_ds_11ax_toltime_cmd toltime_cfg;
/** SET_BSRP configuration for MLAN_11AXCMD_SET_BSRP_SUBID */
mlan_ds_11ax_set_bsrp_cmd setbsrp_cfg;
/* MLAN_11AXCMD_LLDE_SUBID */
mlan_ds_11ax_llde_cmd llde_cfg;
} param;
} mlan_ds_11ax_cmd_cfg, *pmlan_ds_11ax_cmd_cfg;
/** Type definition of mlan_ds_twt_setup for MLAN_OID_11AX_TWT_CFG */
typedef struct MLAN_PACK_START _mlan_ds_twt_setup {
/** Implicit, 0: TWT session is explicit, 1: Session is implicit */
t_u8 implicit;
/** Announced, 0: Unannounced, 1: Announced TWT */
t_u8 announced;
/** Trigger Enabled, 0: Non-Trigger enabled, 1: Trigger enabled TWT */
t_u8 trigger_enabled;
/** TWT Information Disabled, 0: TWT info enabled, 1: TWT info disabled
*/
t_u8 twt_info_disabled;
/** Negotiation Type, 0: Future Individual TWT SP start time, 1: Next
* Wake TBTT time */
t_u8 negotiation_type;
/** TWT Wakeup Duration, time after which the TWT requesting STA can
* transition to doze state */
t_u8 twt_wakeup_duration;
/** Flow Identifier. Range: [0-7]*/
t_u8 flow_identifier;
/** Hard Constraint, 0: FW can tweak the TWT setup parameters if it is
*rejected by AP.
** 1: Firmware should not tweak any parameters. */
t_u8 hard_constraint;
/** TWT Exponent, Range: [0-63] */
t_u8 twt_exponent;
/** TWT Mantissa Range: [0-sizeof(UINT16)] */
t_u16 twt_mantissa;
/** TWT Request Type, 0: REQUEST_TWT, 1: SUGGEST_TWT*/
t_u8 twt_request;
} MLAN_PACK_END mlan_ds_twt_setup, *pmlan_ds_twt_setup;
/** Type definition of mlan_ds_twt_teardown for MLAN_OID_11AX_TWT_CFG */
typedef struct MLAN_PACK_START _mlan_ds_twt_teardown {
/** TWT Flow Identifier. Range: [0-7] */
t_u8 flow_identifier;
/** Negotiation Type. 0: Future Individual TWT SP start time, 1: Next
* Wake TBTT time */
t_u8 negotiation_type;
/** Tear down all TWT. 1: To teardown all TWT, 0 otherwise */
t_u8 teardown_all_twt;
} MLAN_PACK_END mlan_ds_twt_teardown, *pmlan_ds_twt_teardown;
/** Type definition of mlan_ds_twt_report for MLAN_OID_11AX_TWT_CFG */
typedef MLAN_PACK_START struct _mlan_ds_twt_report {
/** TWT report type, 0: BTWT id */
t_u8 type;
/** TWT report length of value in data */
t_u8 length;
t_u8 reserve[2];
/** TWT report payload for FW response to fill */
t_u8 data[36];
} MLAN_PACK_END mlan_ds_twt_report, *pmlan_ds_twt_report;
/** Type definition of mlan_ds_twtcfg for MLAN_OID_11AX_TWT_CFG */
typedef struct MLAN_PACK_START _mlan_ds_twtcfg {
/** Sub-command */
t_u32 sub_command;
/** Sub-id */
t_u32 sub_id;
/** TWT Setup/Teardown configuration parameter */
union {
/** TWT Setup config for Sub ID: MLAN_11AX_TWT_SETUP_SUBID */
mlan_ds_twt_setup twt_setup;
/** TWT Teardown config for Sub ID: MLAN_11AX_TWT_TEARDOWN_SUBID
*/
mlan_ds_twt_teardown twt_teardown;
/** TWT report for Sub ID: MLAN_11AX_TWT_REPORT_SUBID */
mlan_ds_twt_report twt_report;
} param;
} MLAN_PACK_END mlan_ds_twtcfg, *pmlan_ds_twtcfg;
/** Country code length */
#define COUNTRY_CODE_LEN 3
/*-----------------------------------------------------------------*/
/** 802.11d Configuration Group */
/*-----------------------------------------------------------------*/
/** Maximum subbands for 11d */
#define MRVDRV_MAX_SUBBAND_802_11D 83
/** Data structure for subband set */
typedef struct _mlan_ds_subband_set_t {
/** First channel */
t_u8 first_chan;
/** Number of channels */
t_u8 no_of_chan;
/** Maximum Tx power in dBm */
t_u8 max_tx_pwr;
} mlan_ds_subband_set_t;
#define NXP_DFS_UNSET 0
#define NXP_DFS_FCC 1
#define NXP_DFS_ETSI 2
#define NXP_DFS_JP 3
#define NXP_DFS_UNKNOWN 0xFF
/** Domain regulatory information */
typedef struct _mlan_ds_11d_domain_info {
/** DFS region code */
t_u8 dfs_region;
/** Country Code */
t_u8 country_code[COUNTRY_CODE_LEN];
/** Band that channels in sub_band belong to */
t_u16 band;
/** No. of subband in below */
t_u8 no_of_sub_band;
/** Subband data to send/last sent */
mlan_ds_subband_set_t sub_band[MRVDRV_MAX_SUBBAND_802_11D];
} mlan_ds_11d_domain_info;
/** Type definition of mlan_ds_11d_cfg for MLAN_IOCTL_11D_CFG */
typedef struct _mlan_ds_11d_cfg {
/** Sub-command */
t_u32 sub_command;
/** 802.11d configuration parameter */
union {
#ifdef STA_SUPPORT
/** Enable for MLAN_OID_11D_CFG_ENABLE */
t_u32 enable_11d;
#endif /* STA_SUPPORT */
/** Domain info for MLAN_OID_11D_DOMAIN_INFO_EXT */
mlan_ds_11d_domain_info domain_info;
#ifdef UAP_SUPPORT
/** tlv data for MLAN_OID_11D_DOMAIN_INFO */
t_u8 domain_tlv[MAX_IE_SIZE];
#endif /* UAP_SUPPORT */
} param;
} mlan_ds_11d_cfg, *pmlan_ds_11d_cfg;
/*-----------------------------------------------------------------*/
/** Register Memory Access Group */
/*-----------------------------------------------------------------*/
/** Enumeration for CSU target device type */
enum _mlan_csu_target_type {
MLAN_CSU_TARGET_CAU = 1,
MLAN_CSU_TARGET_PSU,
};
/** Enumeration for register type */
enum _mlan_reg_type {
MLAN_REG_MAC = 1,
MLAN_REG_BBP,
MLAN_REG_RF,
MLAN_REG_CAU = 5,
MLAN_REG_PSU = 6,
MLAN_REG_BCA = 7,
MLAN_REG_CIU = 8,
MLAN_REG_MAC2 = 0x81,
MLAN_REG_BBP2 = 0x82,
MLAN_REG_RF2 = 0x83,
MLAN_REG_BCA2 = 0x87
};
/** Type definition of mlan_ds_reg_rw for MLAN_OID_REG_RW */
typedef struct _mlan_ds_reg_rw {
/** Register type */
t_u32 type;
/** Offset */
t_u32 offset;
/** Value */
t_u32 value;
} mlan_ds_reg_rw;
/** Maximum EEPROM data */
#define MAX_EEPROM_DATA 256
/** Type definition of mlan_ds_read_eeprom for MLAN_OID_EEPROM_RD */
typedef struct _mlan_ds_read_eeprom {
/** Multiples of 4 */
t_u16 offset;
/** Number of bytes */
t_u16 byte_count;
/** Value */
t_u8 value[MAX_EEPROM_DATA];
} mlan_ds_read_eeprom;
/** Type definition of mlan_ds_mem_rw for MLAN_OID_MEM_RW */
typedef struct _mlan_ds_mem_rw {
/** Address */
t_u32 addr;
/** Value */
t_u32 value;
} mlan_ds_mem_rw;
/** Type definition of mlan_ds_reg_mem for MLAN_IOCTL_REG_MEM */
typedef struct _mlan_ds_reg_mem {
/** Sub-command */
t_u32 sub_command;
/** Register memory access parameter */
union {
/** Register access for MLAN_OID_REG_RW */
mlan_ds_reg_rw reg_rw;
/** EEPROM access for MLAN_OID_EEPROM_RD */
mlan_ds_read_eeprom rd_eeprom;
/** Memory access for MLAN_OID_MEM_RW */
mlan_ds_mem_rw mem_rw;
} param;
} mlan_ds_reg_mem, *pmlan_ds_reg_mem;
/*-----------------------------------------------------------------*/
/** Multi-Radio Configuration Group */
/*-----------------------------------------------------------------*/
/*-----------------------------------------------------------------*/
/** 802.11h Configuration Group */
/*-----------------------------------------------------------------*/
/** Type definition of mlan_ds_11h_dfs_testing for MLAN_OID_11H_DFS_TESTING */
typedef struct _mlan_ds_11h_dfs_testing {
/** User-configured CAC period in milliseconds, 0 to use default */
t_u32 usr_cac_period_msec;
/** User-configured NOP period in seconds, 0 to use default */
t_u16 usr_nop_period_sec;
/** User-configured skip channel change, 0 to disable */
t_u8 usr_no_chan_change;
/** User-configured fixed channel to change to, 0 to use random channel
*/
t_u8 usr_fixed_new_chan;
/** User-configured cac restart */
t_u8 usr_cac_restart;
} mlan_ds_11h_dfs_testing, *pmlan_ds_11h_dfs_testing;
/** Type definition of mlan_ds_11h_dfs_testing for MLAN_OID_11H_CHAN_NOP_INFO */
typedef struct _mlan_ds_11h_chan_nop_info {
/** current channel */
t_u8 curr_chan;
/** channel_width */
t_u8 chan_width;
/** check new channel flag */
t_u8 check_new_chan;
/** flag for chan under nop */
t_bool chan_under_nop;
/** chan_ban_info for new channel */
chan_band_info new_chan;
} mlan_ds_11h_chan_nop_info, *pmlan_ds_11h_chan_nop_info;
/** Type definition of mlan_ds_11h_nop_chan_list for MLAN_OID_11H_NOP_CHAN_LIST
*/
typedef struct _mlan_ds_11h_nop_chan_list {
/** number of nop channel */
t_u8 num_chan;
/** chan list array */
t_u8 chan_list[20];
} mlan_ds_11h_nop_chan_list, *pmlan_ds_11h_nop_chan_list;
typedef struct _mlan_ds_11h_chan_rep_req {
t_u16 startFreq;
Band_Config_t bandcfg;
t_u8 chanNum;
t_u32 millisec_dwell_time; /**< Channel dwell time in milliseconds */
t_u8 host_based;
} mlan_ds_11h_chan_rep_req;
/** channel dfs state for MLAN_OID_11H_CHAN_DFS_STATE */
typedef struct _mlan_ds_11h_chan_dfs_state {
/** channel */
t_u8 channel;
/** is dfs channel */
t_u8 dfs_required;
/** dfs state */
dfs_state_t dfs_state;
} mlan_ds_11h_chan_dfs_state;
typedef struct _mlan_ds_11h_dfs_w53_cfg {
/** dfs w53 cfg */
t_u8 dfs53cfg;
} mlan_ds_11h_dfs_w53_cfg;
/** Type definition of mlan_ds_11h_cfg for MLAN_IOCTL_11H_CFG */
typedef struct _mlan_ds_11h_cfg {
/** Sub-command */
t_u32 sub_command;
union {
/** Local power constraint for
* MLAN_OID_11H_LOCAL_POWER_CONSTRAINT */
t_s8 usr_local_power_constraint;
/** User-configuation for MLAN_OID_11H_DFS_TESTING */
mlan_ds_11h_dfs_testing dfs_testing;
/** channel NOP information for MLAN_OID_11H_CHAN_NOP_INFO */
mlan_ds_11h_chan_nop_info ch_nop_info;
/** NOP channel list for MLAN_OID_11H_NOP_CHAN_LIST */
mlan_ds_11h_nop_chan_list nop_chan_list;
/** channel report req for MLAN_OID_11H_CHAN_REPORT_REQUEST */
mlan_ds_11h_chan_rep_req chan_rpt_req;
/** channel switch count for MLAN_OID_11H_CHAN_SWITCH_COUNT*/
t_s8 cs_count;
/** channel dfs state for MLAN_OID_11H_CHAN_DFS_STATE */
mlan_ds_11h_chan_dfs_state ch_dfs_state;
mlan_ds_11h_dfs_w53_cfg dfs_w53_cfg;
/** dfs_mode for MLAN_OID_11H_DFS_MODE */
t_u8 dfs_mode;
} param;
} mlan_ds_11h_cfg, *pmlan_ds_11h_cfg;
/*-----------------------------------------------------------------*/
/** Miscellaneous Configuration Group */
/*-----------------------------------------------------------------*/
/** CMD buffer size */
#define MLAN_SIZE_OF_CMD_BUFFER (3 * 1024)
/** LDO Internal */
#define LDO_INTERNAL 0
/** LDO External */
#define LDO_EXTERNAL 1
/** Enumeration for IE type */
enum _mlan_ie_type {
MLAN_IE_TYPE_GEN_IE = 0,
#ifdef STA_SUPPORT
MLAN_IE_TYPE_ARP_FILTER,
#endif /* STA_SUPPORT */
};
/** Type definition of mlan_ds_misc_gen_ie for MLAN_OID_MISC_GEN_IE */
typedef struct _mlan_ds_misc_gen_ie {
/** IE type */
t_u32 type;
/** IE length */
t_u32 len;
/** IE buffer */
t_u8 ie_data[MAX_IE_SIZE];
} mlan_ds_misc_gen_ie;
#ifdef SDIO
/** Type definition of mlan_ds_misc_sdio_mpa_ctrl
* for MLAN_OID_MISC_SDIO_MPA_CTRL
*/
typedef struct _mlan_ds_misc_sdio_mpa_ctrl {
/** SDIO MP-A TX enable/disable */
t_u16 tx_enable;
/** SDIO MP-A RX enable/disable */
t_u16 rx_enable;
/** SDIO MP-A TX buf size */
t_u16 tx_buf_size;
/** SDIO MP-A RX buf size */
t_u16 rx_buf_size;
/** SDIO MP-A TX Max Ports */
t_u16 tx_max_ports;
/** SDIO MP-A RX Max Ports */
t_u16 rx_max_ports;
} mlan_ds_misc_sdio_mpa_ctrl;
#endif
/** Type definition of mlan_ds_misc_cmd for MLAN_OID_MISC_HOST_CMD */
typedef struct _mlan_ds_misc_cmd {
/** Command length */
t_u32 len;
/** Command buffer */
t_u8 cmd[MRVDRV_SIZE_OF_CMD_BUFFER];
} mlan_ds_misc_cmd;
/** Maximum number of system clocks */
#define MLAN_MAX_CLK_NUM 16
/** Clock type : Configurable */
#define MLAN_CLK_CONFIGURABLE 0
/** Clock type : Supported */
#define MLAN_CLK_SUPPORTED 1
/** Type definition of mlan_ds_misc_sys_clock for MLAN_OID_MISC_SYS_CLOCK */
typedef struct _mlan_ds_misc_sys_clock {
/** Current system clock */
t_u16 cur_sys_clk;
/** Clock type */
t_u16 sys_clk_type;
/** Number of clocks */
t_u16 sys_clk_num;
/** System clocks */
t_u16 sys_clk[MLAN_MAX_CLK_NUM];
} mlan_ds_misc_sys_clock;
/** Enumeration for function init/shutdown */
enum _mlan_func_cmd {
MLAN_FUNC_INIT = 1,
MLAN_FUNC_SHUTDOWN,
};
/* Net monitor filters: */
/* management frame */
#define MLAN_NETMON_MANAGEMENT MBIT(0)
/* control frame */
#define MLAN_NETMON_CONTROL MBIT(1)
/* data frame */
#define MLAN_NETMON_DATA MBIT(2)
/* only unicast destined frame (no promiscuous) */
#define MLAN_NETMON_NOPROM MBIT(3)
/* capture non-bss Rx beacons */
#define MLAN_NETMON_NON_BSS_BCN MBIT(5)
/* capture Tx frames */
#define MLAN_NETMON_TX MBIT(6)
typedef struct _mlan_ds_misc_net_monitor {
/** Enable/disable network monitor */
t_u32 enable_net_mon;
/** Set net monitor filer flag */
t_u32 filter_flag;
/** Radio type */
t_u32 band;
/** Channel */
t_u32 channel;
/** Secondary channel bandwidth */
t_u32 chan_bandwidth;
} mlan_ds_misc_net_monitor;
/** Type definition of mlan_ds_misc_tx_datapause
* for MLAN_OID_MISC_TX_DATAPAUSE
*/
typedef struct _mlan_ds_misc_tx_datapause {
/** Tx data pause flag */
t_u16 tx_pause;
/** Max number of Tx buffers for all PS clients */
t_u16 tx_buf_cnt;
} mlan_ds_misc_tx_datapause;
/** Type definition of mlan_ds_misc_rx_abort_cfg
* for MLAN_OID_MISC_RX_ABORT_CFG
*/
typedef struct _mlan_ds_misc_rx_abort_cfg {
/** enable/disable rx abort */
t_u8 enable;
/** Rx weak RSSI pkt threshold */
t_s8 rssi_threshold;
} mlan_ds_misc_rx_abort_cfg;
/** Type definition of mlan_ds_misc_ofdm_desense_cfg
* for MLAN_OID_MISC_OFDM_DESENSE_CFG
*/
typedef struct _mlan_ds_misc_ofdm_desense_cfg {
/** enable/disable ofdm desense cfg */
t_u8 enable;
/** OFDM CCA pkt threshold */
t_s8 cca_threshold;
} mlan_ds_misc_ofdm_desense_cfg;
/** Type definition of mlan_ds_misc_rx_abort_cfg_ext
* for MLAN_OID_MISC_RX_ABORT_CFG_EXT
*/
typedef struct _mlan_ds_misc_rx_abort_cfg_ext {
/** enable/disable dynamic rx abort */
t_u8 enable;
/** rssi margin */
t_s8 rssi_margin;
/** specify ceil rssi threshold */
t_s8 ceil_rssi_threshold;
/** specify floor rssi threshold */
t_s8 floor_rssi_threshold;
/** current dynamic rssi threshold */
t_s8 current_dynamic_rssi_threshold;
/** rssi config: default or user configured */
t_u8 rssi_default_config;
/** EDMAC status */
t_u8 edmac_enable;
} mlan_ds_misc_rx_abort_cfg_ext;
/** Type definition of mlan_ds_misc_nav_mitigation
* for MLAN_OID_MISC_NAV_MITIGATION
*/
typedef struct _mlan_ds_misc_nav_mitigation {
/** start/stop nav mitigation */
t_u16 start_nav_mitigation;
/** Duration value in us to set as threshold in ACT_SET action */
t_u16 threshold;
/** Counter for NAV mitigation detected */
t_u16 detect_cnt;
/** Counter for NAV mitigation stopped */
t_u16 stop_cnt;
} mlan_ds_misc_nav_mitigation;
#define MAX_FW_STATES 6
typedef struct _mlan_ds_led_behavior {
t_u8 firmwarestate;
t_u8 ledstate;
t_u8 ledargs;
} mlan_ds_misc_led_behavior;
/** Type definition of mlan_ds_misc_led_cfg
* for MLAN_OID_MISC_LED_CONFIG
*/
typedef struct _mlan_ds_misc_led_cfg {
t_u32 sub_command;
t_u8 enable;
/** tlv len */
t_u16 led_cfg_len;
mlan_ds_misc_led_behavior misc_led_behvr[MAX_FW_STATES];
} mlan_ds_misc_led_cfg;
/** Type definition of mlan_ds_misc_rx_abort_cfg_ext
* for MLAN_OID_MISC_TX_AMDPU_PROT_MODE
*/
typedef struct _mlan_ds_misc_tx_ampdu_prot_mode {
/** set prot mode */
t_u16 mode;
} mlan_ds_misc_tx_ampdu_prot_mode;
/** Type definition of mlan_ds_misc_dot11mc_unassoc_ftm_cfg
* for MLAN_OID_MISC_DOT11MC_UNASSOC_FTM_CFG
*/
typedef struct _mlan_ds_misc_dot11mc_unassoc_ftm_cfg {
/** set the state */
t_u16 state;
} mlan_ds_misc_dot11mc_unassoc_ftm_cfg;
#define RATEADAPT_ALGO_LEGACY 0
#define RATEADAPT_ALGO_SR 1
/** Type definition of mlan_ds_misc_rate_adapt_cfg
* for MLAN_OID_MISC_RATE_ADAPT_CFG
*/
typedef struct _mlan_ds_misc_rate_adapt_cfg {
/** SR Rateadapt */
t_u8 sr_rateadapt;
/** set low threshold */
t_u8 ra_low_thresh;
/** set high threshold */
t_u8 ra_high_thresh;
/** set interval */
t_u16 ra_interval;
} mlan_ds_misc_rate_adapt_cfg;
/** Type definition of mlan_ds_misc_cck_desense_cfg
* for MLAN_OID_MISC_CCK_DESENSE_CFG
*/
typedef struct _mlan_ds_misc_cck_desense_cfg {
/** cck desense mode: 0:disable 1:normal 2:dynamic */
t_u16 mode;
/** specify rssi margin */
t_s8 margin;
/** specify ceil rssi threshold */
t_s8 ceil_thresh;
/** cck desense "on" interval count */
t_u8 num_on_intervals;
/** cck desense "off" interval count */
t_u8 num_off_intervals;
} mlan_ds_misc_cck_desense_cfg;
/** IP address length */
#define IPADDR_LEN (16)
/** Max number of ip */
#define MAX_IPADDR (4)
/** IP address type - NONE*/
#define IPADDR_TYPE_NONE (0)
/** IP address type - IPv4*/
#define IPADDR_TYPE_IPV4 (1)
/** IP operation remove */
#define MLAN_IPADDR_OP_IP_REMOVE (0)
/** IP operation ARP filter */
#define MLAN_IPADDR_OP_ARP_FILTER MBIT(0)
/** IP operation ARP response */
#define MLAN_IPADDR_OP_AUTO_ARP_RESP MBIT(1)
/** Enable opcode bit for MDNS & NS when device enter into suspend **/
#define MLAN_OP_ADD_MDNS MBIT(2)
#define MLAN_OP_ADD_IPV6_NS MBIT(3)
/** Type definition of mlan_ds_misc_ipaddr_cfg for MLAN_OID_MISC_IP_ADDR */
typedef struct _mlan_ds_misc_ipaddr_cfg {
/** Operation code */
t_u32 op_code;
/** IP address type */
t_u32 ip_addr_type;
/** Number of IP */
t_u32 ip_addr_num;
/** IP address */
t_u8 ip_addr[MAX_IPADDR][IPADDR_LEN];
} mlan_ds_misc_ipaddr_cfg;
/** Type definnition of mlan_ds_misc_ipv6_ra_offload for
* MLAN_OID_MISC_IPV6_RA_OFFLOAD*/
typedef struct _mlan_ds_misc_ipv6_ra_offload {
/** 0: disable; 1: enable*/
t_u8 enable;
t_u8 ipv6_addr[16];
} mlan_ds_misc_ipv6_ra_offload;
/* MEF configuration disable */
#define MEF_CFG_DISABLE 0
/* MEF configuration Rx filter enable */
#define MEF_CFG_RX_FILTER_ENABLE 1
/* MEF configuration auto ARP response */
#define MEF_CFG_AUTO_ARP_RESP 2
/* MEF configuration host command */
#define MEF_CFG_HOSTCMD 0xFFFF
/** Type definition of mlan_ds_misc_mef_cfg for MLAN_OID_MISC_MEF_CFG */
typedef struct _mlan_ds_misc_mef_cfg {
/** Sub-ID for operation */
t_u32 sub_id;
/** Parameter according to sub-ID */
union {
/** MEF command buffer for MEF_CFG_HOSTCMD */
mlan_ds_misc_cmd cmd_buf;
} param;
} mlan_ds_misc_mef_cfg;
/** Type definition of mlan_ds_misc_cfp_code for MLAN_OID_MISC_CFP_CODE */
typedef struct _mlan_ds_misc_cfp_code {
/** CFP table code for 2.4GHz */
t_u32 cfp_code_bg;
/** CFP table code for 5GHz */
t_u32 cfp_code_a;
} mlan_ds_misc_cfp_code;
/** Type definition of mlan_ds_misc_arb_cfg
* for MLAN_OID_MISC_ARB_CFG
*/
typedef struct _mlan_ds_misc_arb_cfg {
/** arb mode 0-4 */
t_u32 arb_mode;
} mlan_ds_misc_arb_cfg;
/** Type definition of mlan_ds_misc_tp_state
* for MLAN_OID_MISC_TP_STATE
*/
typedef struct _mlan_ds_misc_tp_state {
/** TP account mode 0-disable 1-enable */
t_u32 on;
/** Packet drop point */
t_u32 drop_point;
} mlan_ds_misc_tp_state;
/** Type definition of mlan_ds_misc_country_code
* for MLAN_OID_MISC_COUNTRY_CODE
*/
typedef struct _mlan_ds_misc_country_code {
/** Country Code */
t_u8 country_code[COUNTRY_CODE_LEN];
} mlan_ds_misc_country_code;
/** action for set */
#define SUBSCRIBE_EVT_ACT_BITWISE_SET 0x0002
/** action for clear */
#define SUBSCRIBE_EVT_ACT_BITWISE_CLR 0x0003
/** BITMAP for subscribe event rssi low */
#define SUBSCRIBE_EVT_RSSI_LOW MBIT(0)
/** BITMAP for subscribe event snr low */
#define SUBSCRIBE_EVT_SNR_LOW MBIT(1)
/** BITMAP for subscribe event max fail */
#define SUBSCRIBE_EVT_MAX_FAIL MBIT(2)
/** BITMAP for subscribe event beacon missed */
#define SUBSCRIBE_EVT_BEACON_MISSED MBIT(3)
/** BITMAP for subscribe event rssi high */
#define SUBSCRIBE_EVT_RSSI_HIGH MBIT(4)
/** BITMAP for subscribe event snr high */
#define SUBSCRIBE_EVT_SNR_HIGH MBIT(5)
/** BITMAP for subscribe event data rssi low */
#define SUBSCRIBE_EVT_DATA_RSSI_LOW MBIT(6)
/** BITMAP for subscribe event data snr low */
#define SUBSCRIBE_EVT_DATA_SNR_LOW MBIT(7)
/** BITMAP for subscribe event data rssi high */
#define SUBSCRIBE_EVT_DATA_RSSI_HIGH MBIT(8)
/** BITMAP for subscribe event data snr high */
#define SUBSCRIBE_EVT_DATA_SNR_HIGH MBIT(9)
/** BITMAP for subscribe event link quality */
#define SUBSCRIBE_EVT_LINK_QUALITY MBIT(10)
/** BITMAP for subscribe event pre_beacon_lost */
#define SUBSCRIBE_EVT_PRE_BEACON_LOST MBIT(11)
/** default PRE_BEACON_MISS_COUNT */
#define DEFAULT_PRE_BEACON_MISS 30
/** Type definition of mlan_ds_subscribe_evt for MLAN_OID_MISC_CFP_CODE */
typedef struct _mlan_ds_subscribe_evt {
/** evt action */
t_u16 evt_action;
/** bitmap for subscribe event */
t_u16 evt_bitmap;
/** Absolute value of RSSI threshold value (dBm) */
t_u8 low_rssi;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 low_rssi_freq;
/** SNR threshold value (dB) */
t_u8 low_snr;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 low_snr_freq;
/** Failure count threshold */
t_u8 failure_count;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 failure_count_freq;
/** num of missed beacons */
t_u8 beacon_miss;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 beacon_miss_freq;
/** Absolute value of RSSI threshold value (dBm) */
t_u8 high_rssi;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 high_rssi_freq;
/** SNR threshold value (dB) */
t_u8 high_snr;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 high_snr_freq;
/** Absolute value of data RSSI threshold value (dBm) */
t_u8 data_low_rssi;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 data_low_rssi_freq;
/** Absolute value of data SNR threshold value (dBm) */
t_u8 data_low_snr;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 data_low_snr_freq;
/** Absolute value of data RSSI threshold value (dBm) */
t_u8 data_high_rssi;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 data_high_rssi_freq;
/** Absolute value of data SNR threshold value (dBm) */
t_u8 data_high_snr;
/** 0--report once, 1--report everytime happen,
* N -- report only happend > N consecutive times
*/
t_u8 data_high_snr_freq;
/* Link SNR threshold (dB)*/
t_u16 link_snr;
/* Link SNR frequency */
t_u16 link_snr_freq;
/* Second minimum rate value as per the rate table below */
t_u16 link_rate;
/* Second minimum rate frequency */
t_u16 link_rate_freq;
/* Tx latency value (us) */
t_u16 link_tx_latency;
/* Tx latency frequency */
t_u16 link_tx_lantency_freq;
/* Number of pre missed beacons */
t_u8 pre_beacon_miss;
} mlan_ds_subscribe_evt;
/** Max OTP user data length */
#define MAX_OTP_USER_DATA_LEN 252
/** Type definition of mlan_ds_misc_otp_user_data
* for MLAN_OID_MISC_OTP_USER_DATA
*/
typedef struct _mlan_ds_misc_otp_user_data {
/** Reserved */
t_u16 reserved;
/** OTP user data length */
t_u16 user_data_length;
/** User data buffer */
t_u8 user_data[MAX_OTP_USER_DATA_LEN];
} mlan_ds_misc_otp_user_data;
/** Type definition of mlan_ds_fw_reconnect for MLAN_OID_MISC_AUTO_ASSOC */
typedef struct _mlan_ds_fw_reconnect {
/* fw auto re-connect counter */
t_u8 fw_reconn_counter;
/* fw auto re-connect interval */
t_u8 fw_reconn_interval;
/* fw auto re-connect flags */
t_u16 fw_reconn_flags;
} mlan_ds_fw_reconnect;
typedef struct _aggr_ctrl_cfg {
/** Enable */
t_u16 enable;
/** Aggregation alignment */
t_u16 aggr_align;
/** Aggregation max size */
t_u16 aggr_max_size;
/** Aggregation max packet number */
t_u16 aggr_max_num;
/** Aggrgation timeout, in microseconds */
t_u16 aggr_tmo;
} aggr_ctrl_cfg;
/** Type definition of mlan_ds_misc_aggr_ctrl
* for MLAN_OID_MISC_AGGR_CTRL
*/
typedef struct _mlan_ds_misc_aggr_ctrl {
/** Tx aggregation control */
aggr_ctrl_cfg tx;
} mlan_ds_misc_aggr_ctrl;
#ifdef USB
typedef struct _usb_aggr_ctrl_cfg {
/** Enable */
t_u16 enable;
/** Aggregation mode */
t_u16 aggr_mode;
/** Aggregation alignment */
t_u16 aggr_align;
/** Aggregation max packet/size */
t_u16 aggr_max;
/** Aggrgation timeout, in microseconds */
t_u16 aggr_tmo;
} usb_aggr_ctrl_cfg;
/** Type definition of mlan_ds_misc_usb_aggr_ctrl
* for MLAN_OID_MISC_USB_AGGR_CTRL
*/
typedef struct _mlan_ds_misc_usb_aggr_ctrl {
/** Tx aggregation control */
usb_aggr_ctrl_cfg tx_aggr_ctrl;
/** Rx deaggregation control */
usb_aggr_ctrl_cfg rx_deaggr_ctrl;
} mlan_ds_misc_usb_aggr_ctrl;
#endif
#ifdef WIFI_DIRECT_SUPPORT
/** flag for NOA */
#define WIFI_DIRECT_NOA 1
/** flag for OPP_PS */
#define WIFI_DIRECT_OPP_PS 2
/** Type definition of mlan_ds_wifi_direct_config
* for MLAN_OID_MISC_WIFI_DIRECT_CONFIG
*/
typedef struct _mlan_ds_wifi_direct_config {
/** flags for NOA/OPP_PS */
t_u8 flags;
/** NoA enable/disable */
t_u8 noa_enable;
/** index */
t_u16 index;
/** NoA count */
t_u8 noa_count;
/** NoA duration */
t_u32 noa_duration;
/** NoA interval */
t_u32 noa_interval;
/** opp ps enable/disable */
t_u8 opp_ps_enable;
/** CT window value */
t_u8 ct_window;
} mlan_ds_wifi_direct_config;
#endif
/** Type definition of mlan_ds_gpio_tsf_latch */
typedef struct _mlan_ds_gpio_tsf_latch {
/**clock sync Mode */
t_u8 clock_sync_mode;
/**clock sync Role */
t_u8 clock_sync_Role;
/**clock sync GPIO Pin Number */
t_u8 clock_sync_gpio_pin_number;
/**clock sync GPIO Level or Toggle */
t_u8 clock_sync_gpio_level_toggle;
/**clock sync GPIO Pulse Width */
t_u16 clock_sync_gpio_pulse_width;
} mlan_ds_gpio_tsf_latch;
/** Type definition of mlan_ds_tsf_info */
typedef struct _mlan_ds_tsf_info {
/**get tsf info format */
t_u16 tsf_format;
/**tsf info */
t_u16 tsf_info;
/**tsf */
t_u64 tsf;
/**Positive or negative offset in microsecond from Beacon TSF to GPIO
* toggle TSF */
t_s32 tsf_offset;
} mlan_ds_tsf_info;
#if defined(STA_SUPPORT)
typedef struct _mlan_ds_misc_pmfcfg {
/** Management Frame Protection Capable */
t_u8 mfpc;
/** Management Frame Protection Required */
t_u8 mfpr;
} mlan_ds_misc_pmfcfg;
#endif
typedef MLAN_PACK_START struct _mlan_ds_multi_chan_cfg {
/** Channel Time */
t_u32 channel_time;
/** Buffer Weight */
t_u8 buffer_weight;
/** tlv len */
t_u16 tlv_len;
/** TLV buffer */
t_u8 tlv_buf[];
} MLAN_PACK_END mlan_ds_multi_chan_cfg;
typedef MLAN_PACK_START struct _mlan_ds_drcs_cfg {
/** Channel Index*/
t_u16 chan_idx;
/** Channel time (in TU) for chan_idx */
t_u8 chantime;
/** Channel swith time (in TU) for chan_idx */
t_u8 switchtime;
/** Undoze time (in TU) for chan_idx */
t_u8 undozetime;
/** Rx traffic control scheme when channel switch*/
/** only valid for GC/STA interface*/
t_u8 mode;
} MLAN_PACK_END mlan_ds_drcs_cfg;
#define MAX_SSID_NUM 16
#define MAX_AP_LIST 8
#define RETRY_UNLIMITED_TIME 0xFF
#define FW_ROAM_ENABLE MBIT(0)
#define FW_ROAM_TRIGGER_COND MBIT(1)
#define FW_ROAM_BSSID MBIT(2)
#define FW_ROAM_SSID MBIT(3)
#define FW_ROAM_RETRY_COUNT MBIT(4)
#define FW_ROAM_RSSI_PARA MBIT(5)
#define FW_ROAM_BAND_RSSI MBIT(6)
#define FW_ROAM_BGSCAN_PARAM MBIT(7)
#define FW_ROAM_EES_PARAM MBIT(8)
#define FW_ROAM_BCN_MISS_THRESHOLD MBIT(9)
#define FW_ROAM_PRE_BCN_MISS_THRESHOLD MBIT(10)
#define FW_ROAM_BLACKLIST MBIT(11)
#define FW_ROAM_REPEAT_CNT MBIT(12)
/*Roam offload configuration for auto reconnection when suspend and resume*/
typedef enum _roam_offload_config_mode {
ROAM_OFFLOAD_ENABLE = 1,
ROAM_OFFLOAD_SUSPEND_CFG,
ROAM_OFFLOAD_RESUME_CFG,
ROAM_OFFLOAD_PARAM_CFG,
} roam_offload_config_mode;
typedef enum _roam_offload_set_mode {
ROAM_OFFLOAD_DISABLE = 0,
ROAM_OFFLOAD_WITH_APLIST,
ROAM_OFFLOAD_WITHOUT_APLIST,
ROAM_OFFLOAD_WITH_BSSID,
ROAM_OFFLOAD_WITH_SSID,
AUTO_RECONNECT,
} roam_offload_set_mode;
typedef enum _roam_offload_trigger_mode {
NO_TRIGGER = 0x00,
RSSI_LOW_TRIGGER = 0x01,
PRE_BEACON_LOST_TRIGGER = 0x02,
LINK_LOST_TRIGGER = 0x04,
DEAUTH_WITH_EXT_AP_TRIGGER = 0x08,
} roam_offload_trigger_mode;
/** mlan_ds_misc_ees_cfg structure */
typedef MLAN_PACK_START struct _mlan_ds_misc_ees_cfg {
/* EES mode*/
t_u16 ees_mode;
/* EES report condition*/
t_u16 ees_rpt_condition;
/* High scan period(milliseconds)*/
t_u16 high_scan_period;
/* High scan count*/
t_u16 high_scan_count;
/* Middle scan period(milliseconds)*/
t_u16 mid_scan_period;
/* Middle scan count*/
t_u16 mid_scan_count;
/* Low scan period(milliseconds)*/
t_u16 low_scan_period;
/* Low scan count*/
t_u16 low_scan_count;
} MLAN_PACK_END mlan_ds_misc_ees_cfg;
/** mlan_ds_misc_bgscan_cfg structure */
typedef MLAN_PACK_START struct _mlan_ds_misc_bgscan_cfg {
/* BSS Type 0x1-bss independent, 0x2-bss infrastructure, 0x3-bss any*/
t_u8 bss_type;
/* Number of channels scanned for each scan*/
t_u8 channels_per_scan;
/* Interval between consective scans*/
t_u32 scan_interval;
/* Conditons to trigger report to host*/
t_u32 bg_rpt_condition;
} MLAN_PACK_END mlan_ds_misc_bgscan_cfg;
/** mlan_ds_misc_band_rssi structure */
typedef MLAN_PACK_START struct _mlan_ds_misc_band_rssi {
/* RSSI hysteresis*/
t_u8 rssi_hysteresis;
/* Preferred channel band for fw roaming
* 0:2.4G band; 1: 5G band; 2:4G band; 0xFF:band not set(invalid)
*/
t_u8 band_preferred;
} MLAN_PACK_END mlan_ds_misc_band_rssi;
/** mlan_ds_misc_ssid_list structure */
typedef MLAN_PACK_START struct _mlan_ds_misc_ssid_list {
/* SSID number*/
t_u8 ssid_num;
/* SSID for fw roaming/auto_reconnect*/
mlan_802_11_ssid ssids[MAX_SSID_NUM];
} MLAN_PACK_END mlan_ds_misc_ssid_list;
typedef MLAN_PACK_START struct _mlan_ds_misc_roam_offload_aplist {
/** Number of AP**/
t_u8 ap_num;
/** AP mac addrs**/
t_u8 ap_mac[MAX_AP_LIST][MLAN_MAC_ADDR_LENGTH];
} MLAN_PACK_END mlan_ds_misc_roam_offload_aplist;
typedef MLAN_PACK_START struct _mlan_ds_misc_roam_offload_para_rssi {
/** Setting flag**/
t_u8 set_flag;
/** Max value of RSSI threshold**/
t_u8 max_rssi;
/** Min value of RSSI threshold**/
t_u8 min_rssi;
/** Adjusting step value of RSSI threshold**/
t_u8 step_rssi;
} MLAN_PACK_END mlan_ds_misc_roam_offload_para_rssi;
typedef MLAN_PACK_START struct _mlan_ds_misc_roam_offload {
/** Enable roam offload**/
t_u8 enable;
/** User set passphrase**/
t_u8 userset_passphrase;
/* Condition to trigger roaming
* Bit0 : RSSI low trigger
* Bit1 : Pre-beacon lost trigger
* Bit2 : Link Lost trigger
* Bit3 : Deauth by ext-AP trigger
* Bit4 ~ Bit15 : Reserved
* value 0 : no trigger
* value 0xff : invalid
*/
t_u16 trigger_condition;
/** AP list**/
mlan_ds_misc_roam_offload_aplist aplist;
/*Roam offload configuration mode for auto connection when suspend and
* resume*/
roam_offload_config_mode config_mode;
/** Retry count**/
t_u8 retry_count;
/** RSSI para**/
mlan_ds_misc_roam_offload_para_rssi para_rssi;
/** BSSID of reconnection**/
mlan_802_11_mac_addr bssid_reconnect;
/* SSID List(White list)*/
mlan_ds_misc_ssid_list ssid_list;
/* Black list(BSSID list)*/
mlan_ds_misc_roam_offload_aplist black_list;
/* BAND and RSSI_HYSTERESIS set flag*/
t_u8 band_rssi_flag;
mlan_ds_misc_band_rssi band_rssi;
/* BGSCAN params set flag*/
t_u8 bgscan_set_flag;
mlan_ds_misc_bgscan_cfg bgscan_cfg;
/* EES mode params set flag*/
t_u8 ees_param_set_flag;
mlan_ds_misc_ees_cfg ees_cfg;
/* Beacon miss threshold*/
t_u8 bcn_miss_threshold;
/* Beacon miss threshold*/
t_u8 pre_bcn_miss_threshold;
/* Scan repeat count*/
t_u16 repeat_count;
} MLAN_PACK_END mlan_ds_misc_roam_offload;
/**Action ID for TDLS disable link*/
#define WLAN_TDLS_DISABLE_LINK 0x00
/**Action ID for TDLS enable link*/
#define WLAN_TDLS_ENABLE_LINK 0x01
/**Action ID for TDLS create link*/
#define WLAN_TDLS_CREATE_LINK 0x02
/**Action ID for TDLS config link*/
#define WLAN_TDLS_CONFIG_LINK 0x03
/*reason code*/
#define MLAN_REASON_TDLS_TEARDOWN_UNSPECIFIED 26
/** TDLS operation buffer */
typedef struct _mlan_ds_misc_tdls_oper {
/** TDLS Action */
t_u16 tdls_action;
/** TDLS peer address */
t_u8 peer_mac[MLAN_MAC_ADDR_LENGTH];
/** peer capability */
t_u16 capability;
/** peer qos info */
t_u8 qos_info;
/** peer extend capability */
t_u8 *ext_capab;
/** extend capability len */
t_u8 ext_capab_len;
/** support rates */
t_u8 *supported_rates;
/** supported rates len */
t_u8 supported_rates_len;
/** peer ht_cap */
t_u8 *ht_capa;
/** peer vht capability */
t_u8 *vht_cap;
} mlan_ds_misc_tdls_oper;
/** flag for TDLS extcap */
#define TDLS_IE_FLAGS_EXTCAP 0x0001
/** flag for TDLS HTCAP */
#define TDLS_IE_FLAGS_HTCAP 0x0002
/** flag for TDLS HTINFO */
#define TDLS_IE_FLAGS_HTINFO 0x0004
/** flag for TDLS VHTCAP */
#define TDLS_IE_FLAGS_VHTCAP 0x0008
/** flag for TDLS VHTOPRAT */
#define TDLS_IE_FLAGS_VHTOPRAT 0x0010
/** flag for TDLS AID inof */
#define TDLS_IE_FLAGS_AID 0x0020
/** flag for TDLS Supported channels and regulatory class IE*/
#define TDLS_IE_FLAGS_SUPP_CS_IE 0x0040
/** flag for TDLS Qos info */
#define TDLS_IE_FLAGS_QOS_INFO 0x0080
/** flag for TDLS SETUP */
#define TDLS_IE_FLAGS_SETUP 0x0100
#define TDLS_IE_FLAGS_HECAP 0x0200
#define TDLS_IE_FLAGS_HEOP 0x0400
/** TDLS ie buffer */
typedef struct _mlan_ds_misc_tdls_ies {
/** TDLS peer address */
t_u8 peer_mac[MLAN_MAC_ADDR_LENGTH];
/** flags for request IEs */
t_u16 flags;
/** Qos info */
t_u8 QosInfo;
/** Extended Capabilities IE */
t_u8 ext_cap[IEEE_MAX_IE_SIZE];
/** HT Capabilities IE */
t_u8 ht_cap[IEEE_MAX_IE_SIZE];
/** HT Information IE */
t_u8 ht_info[IEEE_MAX_IE_SIZE];
/** VHT Capabilities IE */
t_u8 vht_cap[IEEE_MAX_IE_SIZE];
/** VHT Operations IE */
t_u8 vht_oprat[IEEE_MAX_IE_SIZE];
/** aid Info */
t_u8 aid_info[IEEE_MAX_IE_SIZE];
/** HE Capabilities IE */
t_u8 he_cap[IEEE_MAX_IE_SIZE];
/** HE Operation IE */
t_u8 he_op[IEEE_MAX_IE_SIZE];
/** supported channels */
t_u8 supp_chan[IEEE_MAX_IE_SIZE];
/** supported regulatory class */
t_u8 regulatory_class[IEEE_MAX_IE_SIZE];
} mlan_ds_misc_tdls_ies;
typedef struct _mlan_ds_misc_dfs_repeater {
/** Set or Get */
t_u16 action;
/** 1 on or 0 off */
t_u16 mode;
} mlan_ds_misc_dfs_repeater;
#define WOWLAN_MAX_PATTERN_LEN 20
#define WOWLAN_MAX_OFFSET_LEN 50
#define MAX_NUM_FILTERS 10
#define MEF_MODE_HOST_SLEEP (1 << 0)
#define MEF_MODE_NON_HOST_SLEEP (1 << 1)
#define MEF_ACTION_WAKE (1 << 0)
#define MEF_ACTION_ALLOW (1 << 1)
#define MEF_ACTION_ALLOW_AND_WAKEUP_HOST 3
#define MEF_AUTO_ARP 0x10
#define MEF_AUTO_PING 0x20
#define MEF_NS_RESP 0x40
#define MEF_MAGIC_PKT 0x80
#define CRITERIA_BROADCAST BIT(0)
#define CRITERIA_UNICAST BIT(1)
#define CRITERIA_MULTICAST BIT(3)
#define MAX_NUM_ENTRIES 8
#define MAX_NUM_BYTE_SEQ 6
#define MAX_NUM_MASK_SEQ 6
#define OPERAND_DNUM 1
#define OPERAND_BYTE_SEQ 2
#define MAX_OPERAND 0x40
#define TYPE_BYTE_EQ (MAX_OPERAND + 1)
#define TYPE_DNUM_EQ (MAX_OPERAND + 2)
#define TYPE_BIT_EQ (MAX_OPERAND + 3)
#define RPN_TYPE_AND (MAX_OPERAND + 4)
#define RPN_TYPE_OR (MAX_OPERAND + 5)
#define ICMP_OF_IP_PROTOCOL 0x01
#define TCP_OF_IP_PROTOCOL 0x06
#define UDP_OF_IP_PROTOCOL 0x11
#define IPV4_PKT_OFFSET 20
#define IP_PROTOCOL_OFFSET 31
#define PORT_PROTOCOL_OFFSET 44
#define FILLING_TYPE MBIT(0)
#define FILLING_PATTERN MBIT(1)
#define FILLING_OFFSET MBIT(2)
#define FILLING_NUM_BYTES MBIT(3)
#define FILLING_REPEAT MBIT(4)
#define FILLING_BYTE_SEQ MBIT(5)
#define FILLING_MASK_SEQ MBIT(6)
/** Type definition of filter_item
* Support three match methods:
* <1>Byte comparison type=0x41
* <2>Decimal comparison type=0x42
* <3>Bit comparison type=0x43
*/
typedef struct _mef_filter_t {
/** flag*/
t_u32 fill_flag;
/** BYTE 0X41; Decimal 0X42; Bit 0x43*/
t_u16 type;
/** value*/
t_u32 pattern;
/** offset*/
t_u16 offset;
/** number of bytes*/
t_u16 num_bytes;
/** repeat*/
t_u16 repeat;
/** byte number*/
t_u8 num_byte_seq;
/** array*/
t_u8 byte_seq[MAX_NUM_BYTE_SEQ];
/** mask numbers*/
t_u8 num_mask_seq;
/** array*/
t_u8 mask_seq[MAX_NUM_MASK_SEQ];
} mef_filter_t;
typedef struct _mef_entry_t {
/** mode: bit0--hostsleep mode; bit1--non hostsleep mode */
t_u8 mode;
/** action: 0--discard and not wake host;
1--discard and wake host;
3--allow and wake host;*/
t_u8 action;
/** filter number */
t_u8 filter_num;
/** filter array*/
mef_filter_t filter_item[MAX_NUM_FILTERS];
/** rpn array*/
t_u8 rpn[MAX_NUM_FILTERS];
} mef_entry_t;
/** Type definition of mlan_ds_nvflt_mef_entry
*for MLAN_OID_MISC_MEF_FLT_CFG
*/
typedef struct _mlan_ds_misc_mef_flt_cfg {
/** Type of action*/
int mef_act_type;
/** Operation code*/
t_u32 op_code;
/** NV Filter Criteria*/
t_u32 criteria;
/** NV MEF entry*/
mef_entry_t mef_entry;
} mlan_ds_misc_mef_flt_cfg;
/** Enumeration for action type*/
enum _mlan_act_mef_act_type {
MEF_ACT_ADD = 1,
MEF_ACT_ENABLE,
MEF_ACT_DISABLE,
MEF_ACT_CANCEL,
MEF_ACT_AUTOARP,
MEF_ACT_WOWLAN,
MEF_ACT_IPV6_NS,
};
typedef struct _mlan_ds_sensor_temp {
t_u32 temperature;
} mlan_ds_sensor_temp;
#define MLAN_KCK_LEN 16
#define MLAN_KEK_LEN 16
#define MLAN_REPLAY_CTR_LEN 8
/** mlan_ds_misc_gtk_rekey_data */
typedef struct _mlan_ds_misc_gtk_rekey_data {
/** key encryption key */
t_u8 kek[MLAN_KEK_LEN];
/** key confirmation key */
t_u8 kck[MLAN_KCK_LEN];
/** replay counter */
t_u8 replay_ctr[MLAN_REPLAY_CTR_LEN];
} mlan_ds_misc_gtk_rekey_data;
typedef struct _mlan_ds_bw_chan_oper {
/* bandwidth 20:20M 40:40M 80:80M*/
t_u8 bandwidth;
/* channel number */
t_u8 channel;
/* Non-global operating class */
t_u8 oper_class;
} mlan_ds_bw_chan_oper;
typedef struct _mlan_ds_ind_rst_cfg {
/** Set or Get */
t_u16 action;
/** oob mode enable/ disable */
t_u8 ir_mode;
/** gpio pin */
t_u8 gpio_pin;
} mlan_ds_ind_rst_cfg;
#define MKEEP_ALIVE_IP_PKT_MAX 256
typedef struct _mlan_ds_misc_keep_alive {
t_u8 mkeep_alive_id;
t_u8 enable;
/** enable/disable tcp reset*/
t_u8 reset;
/**True means saved in driver, false means not saved or download*/
t_u8 cached;
t_u32 send_interval;
t_u16 retry_interval;
t_u16 retry_count;
t_u8 dst_mac[MLAN_MAC_ADDR_LENGTH];
t_u8 src_mac[MLAN_MAC_ADDR_LENGTH];
t_u16 pkt_len;
t_u8 packet[MKEEP_ALIVE_IP_PKT_MAX];
/** Ethernet type */
t_u16 ether_type;
} mlan_ds_misc_keep_alive, *pmlan_ds_misc_keep_alive;
#define MKEEP_ALIVE_ACK_PKT_MAX 100
typedef struct _mlan_ds_misc_keep_alive_rx {
t_u8 mkeep_alive_id;
t_u8 enable;
/** enable/disable tcp reset*/
t_u8 reset;
/**True means saved in driver, false means not saved or download*/
t_u8 cached;
t_u8 dst_mac[MLAN_MAC_ADDR_LENGTH];
t_u8 src_mac[MLAN_MAC_ADDR_LENGTH];
t_u16 pkt_len;
t_u8 packet[MKEEP_ALIVE_ACK_PKT_MAX];
/** Ethernet type */
t_u16 ether_type;
} mlan_ds_misc_keep_alive_rx, *pmlan_ds_misc_keep_alive_rx;
/** TX and RX histogram statistic parameters*/
typedef MLAN_PACK_START struct _mlan_ds_misc_tx_rx_histogram {
/** Enable or disable get tx/rx histogram statistic */
t_u8 enable;
/** Choose to get TX, RX or both histogram statistic */
t_u16 action;
/** Size of Tx/Rx info */
t_u16 size;
/** Store Tx/Rx info */
t_u8 value[1];
} MLAN_PACK_END mlan_ds_misc_tx_rx_histogram;
typedef MLAN_PACK_START struct _mlan_ds_cw_mode_ctrl {
/** Mode of Operation 0: Disable 1: Tx Continuous Packet 2: Tx
* Continuous Wave */
t_u8 mode;
/*channel*/
t_u8 channel;
/* channel info*/
t_u8 chanInfo;
/** Tx Power level in dBm */
t_u16 txPower;
/** Packet Length */
t_u16 pktLength;
/** bit rate Info */
t_u32 rateInfo;
} MLAN_PACK_END mlan_ds_cw_mode_ctrl;
#define RX_PKT_INFO MBIT(1)
/** Struct for per-packet configuration */
typedef struct _mlan_per_pkt_cfg {
/** Type ID*/
t_u16 type;
/** Length of payload*/
t_u16 len;
/** Tx/Rx per-packet control */
t_u8 tx_rx_control;
/** Number of ethernet types in ether_type array */
t_u8 proto_type_num;
/** Array of ether_type for per-packet control */
t_u16 ether_type[];
} mlan_per_pkt_cfg;
/** Type definition of mlan_ds_misc_robustcoex_params for MLAN_IOCTL_MISC_CFG */
typedef struct _mlan_ds_misc_robustcoex_params {
t_u16 method;
/** enable/disable robustcoex gpio cfg */
t_u8 enable;
/** Number of GPIO */
t_u8 gpio_num;
/** Polarity of GPIO */
t_u8 gpio_polarity;
} mlan_ds_misc_robustcoex_params;
/** RTT configuration */
typedef struct _mlan_rtt_config {
/** peer device mac address */
t_u8 addr[MLAN_MAC_ADDR_LENGTH];
/** 1-sided or 2-sided RTT */
t_u8 type;
/** optional - peer device hint (STA, P2P, AP) */
t_u8 peer;
/** Required for STA-AP mode, optional for P2P, NBD etc. */
t_u8 channel;
/** Required for STA-AP mode, optional for P2P, NBD etc. */
Band_Config_t bandcfg;
/** Time interval between bursts (units: 100 ms).
* Applies to 1-sided and 2-sided RTT multi-burst requests.
* Range: 0-31, 0: no preference by initiator (2-sided RTT) */
t_u8 burst_period;
/** Total number of RTT bursts to be executed. It will be
* specified in the same way as the parameter "Number of
* Burst Exponent" found in the FTM frame format. It
* applies to both: 1-sided RTT and 2-sided RTT. Valid
* values are 0 to 15 as defined in 802.11mc std.
* 0 means single shot
* The implication of this parameter on the maximum
* number of RTT results is the following:
* for 1-sided RTT: max num of RTT results =
* (2^num_burst)*(num_frames_per_burst)
* for 2-sided RTT: max num of RTT results =
* (2^num_burst)*(num_frames_per_burst - 1) */
t_u8 num_burst;
/** num of frames per burst.
* Minimum value = 1, Maximum value = 31
* For 2-sided this equals the number of FTM frames
* to be attempted in a single burst. This also
* equals the number of FTM frames that the
* initiator will request that the responder send
* in a single frame. */
t_u8 num_frames_per_burst;
/** number of retries for a failed RTT frame. Applies
* to 1-sided RTT only. Minimum value = 0, Maximum value = 3 */
t_u8 num_retries_per_rtt_frame;
/** following fields are only valid for 2-side RTT */
/** Maximum number of retries that the initiator can
* retry an FTMR frame.
* Minimum value = 0, Maximum value = 3 */
t_u8 num_retries_per_ftmr;
/** 1: request LCI, 0: do not request LCI */
t_u8 LCI_request;
/** 1: request LCR, 0: do not request LCR */
t_u8 LCR_request;
/** Applies to 1-sided and 2-sided RTT. Valid values will
* be 2-11 and 15 as specified by the 802.11mc std for
* the FTM parameter burst duration. In a multi-burst
* request, if responder overrides with larger value,
* the initiator will return failure. In a single-burst
* request if responder overrides with larger value,
* the initiator will sent TMR_STOP to terminate RTT
* at the end of the burst_duration it requested. */
t_u8 burst_duration;
/** RTT preamble to be used in the RTT frames */
t_u8 preamble;
/** RTT BW to be used in the RTT frames */
t_u8 bw;
} mlan_rtt_config, *pmlan_rtt_config;
/** RTT config params */
typedef struct _mlan_rtt_config_params {
t_u8 rtt_config_num;
mlan_rtt_config rtt_config[MAX_RTT_CONFIG_NUM];
} mlan_rtt_config_params;
/** RTT cancel params */
typedef struct _mlan_rtt_cancel_params {
t_u8 rtt_cancel_num;
t_u8 rtt_cancel[MAX_RTT_CONFIG_NUM][MLAN_MAC_ADDR_LENGTH];
} mlan_rtt_cancel_params;
/** RTT responder info */
typedef struct _rtt_responder_info {
t_u8 channel;
Band_Config_t bandcfg;
t_u8 preamble;
} rtt_responder_info;
/** RTT responder enable configure */
typedef struct _rtt_responder_encfg {
t_u8 channel;
Band_Config_t bandcfg;
t_u32 max_dur_sec;
} rtt_responder_encfg;
/** Define for mlan_rtt_responder.action */
#define RTT_GET_RESPONDER_INFO 0
#define RTT_SET_RESPONDER_ENABLE 1
#define RTT_SET_RESPONDER_DISABLE 2
#define RTT_SET_RESPONDER_LCI 3
#define RTT_SET_RESPONDER_LCR 4
/** RTT responder configure for MLAN_OID_MISC_RTT_RESPONDER_CFG */
typedef struct _mlan_rtt_responder {
t_u8 action;
union {
rtt_responder_info info;
rtt_responder_encfg encfg;
wifi_lci_information lci;
wifi_lcr_information lcr;
} u;
} mlan_rtt_responder;
#if defined(PCIE)
typedef struct _mlan_ds_ssu_params {
t_u32 nskip;
t_u32 nsel;
t_u32 adcdownsample;
t_u32 mask_adc_pkt;
t_u32 out_16bits;
t_u32 spec_pwr_enable;
t_u32 rate_deduction;
t_u32 n_pkt_avg;
} mlan_ds_ssu_params;
#endif
#define CSI_FILTER_MAX 16
/** Structure of CSI filters */
typedef MLAN_PACK_START struct _mlan_csi_filter_t {
/** Source address of the packet to receive */
t_u8 mac_addr[MLAN_MAC_ADDR_LENGTH];
/** Pakcet type of the interested CSI */
t_u8 pkt_type;
/* Packet subtype of the interested CSI */
t_u8 subtype;
/* Other filter flags */
t_u8 flags;
} MLAN_PACK_END mlan_csi_filter_t;
/** Structure of CSI parameters */
typedef MLAN_PACK_START struct _mlan_ds_csi_params {
/** CSI enable flag. 1: enable, 0: disable */
t_u16 csi_enable;
/** Header ID*/
t_u32 head_id;
/** Tail ID */
t_u32 tail_id;
/** Number of CSI filters */
t_u8 csi_filter_cnt;
/** Chip ID */
t_u8 chip_id;
/** CSI filters */
mlan_csi_filter_t csi_filter[CSI_FILTER_MAX];
} MLAN_PACK_END mlan_ds_csi_params;
typedef MLAN_PACK_START struct _mlan_ds_hal_phy_cfg_params {
/** 11b pwr spectral density mask enable/disable */
t_u8 dot11b_psd_mask_cfg;
/** reserved fields for future hal/phy cfg use */
t_u8 reserved[7];
} MLAN_PACK_END mlan_ds_hal_phy_cfg_params;
#define MAX_NUM_MAC 2
/** Type definition of mlan_ds_misc_mapping_policy */
typedef struct _mlan_ds_misc_mapping_policy {
/** Enable/disable dynamic mapping */
t_u16 subcmd;
/** Mapping policy */
t_u8 mapping_policy;
} mlan_ds_misc_mapping_policy, *pmlan_ds_misc_mapping_policy;
typedef struct _dmcsChanStatus_t {
/** Channel number */
t_u8 channel;
/** Number of ap on this channel */
t_u8 ap_count;
/** Number of sta on this channel */
t_u8 sta_count;
} dmcsChanStatus_t, *pdmcsChanStatus_t;
typedef struct _dmcsStatus_t {
/** Radio ID */
t_u8 radio_id;
/** Running mode
** 0 - Idle
** 1 - DBC
** 2 - DRCS
*/
t_u8 running_mode;
/** Current channel status */
dmcsChanStatus_t chan_status[2];
} dmcsStatus_t, *pdmcsStatus_t;
/** Type definition of mlan_ds_misc_dmcs_status */
typedef struct _mlan_ds_misc_dmcs_status {
t_u8 mapping_policy;
dmcsStatus_t radio_status[MAX_NUM_MAC];
} mlan_ds_misc_dmcs_status, *pmlan_ds_misc_dmcs_status;
/** Type definition of mlan_ds_misc_chan_trpc_cfg for
* MLAN_OID_MISC_GET_CHAN_TRPC_CFG */
typedef struct _mlan_ds_misc_chan_trpc_cfg {
/** sub_band */
t_u16 sub_band;
/** length */
t_u16 length;
/** buf */
t_u8 trpc_buf[2048];
} mlan_ds_misc_chan_trpc_cfg;
#define MFG_CMD_SET_TEST_MODE 1
#define MFG_CMD_UNSET_TEST_MODE 0
#define MFG_CMD_TX_ANT 0x1004
#define MFG_CMD_RX_ANT 0x1005
#define MFG_CMD_TX_CONT 0x1009
#define MFG_CMD_RF_CHAN 0x100A
#define MFG_CMD_CLR_RX_ERR 0x1010
#define MFG_CMD_TX_FRAME 0x1021
#define MFG_CMD_RFPWR 0x1033
#define MFG_CMD_RF_BAND_AG 0x1034
#define MFG_CMD_RF_CHANNELBW 0x1044
#define MFG_CMD_RADIO_MODE_CFG 0x1211
#define MFG_CMD_CONFIG_MAC_HE_TB_TX 0x110A
#define MFG_CMD_CONFIG_TRIGGER_FRAME 0x110C
/** MFG CMD generic cfg */
struct MLAN_PACK_START mfg_cmd_generic_cfg {
/** MFG command code */
t_u32 mfg_cmd;
/** Action */
t_u16 action;
/** Device ID */
t_u16 device_id;
/** MFG Error code */
t_u32 error;
/** value 1 */
t_u32 data1;
/** value 2 */
t_u32 data2;
/** value 3 */
t_u32 data3;
} MLAN_PACK_END;
/** MFG CMD Tx Frame 2 */
struct MLAN_PACK_START mfg_cmd_tx_frame2 {
/** MFG command code */
t_u32 mfg_cmd;
/** Action */
t_u16 action;
/** Device ID */
t_u16 device_id;
/** MFG Error code */
t_u32 error;
/** enable */
t_u32 enable;
/** data_rate */
t_u32 data_rate;
/** frame pattern */
t_u32 frame_pattern;
/** frame length */
t_u32 frame_length;
/** BSSID */
t_u8 bssid[MLAN_MAC_ADDR_LENGTH];
/** Adjust burst sifs */
t_u16 adjust_burst_sifs;
/** Burst sifs in us*/
t_u32 burst_sifs_in_us;
/** short preamble */
t_u32 short_preamble;
/** active sub channel */
t_u32 act_sub_ch;
/** short GI */
t_u32 short_gi;
/** Adv coding */
t_u32 adv_coding;
/** Tx beamforming */
t_u32 tx_bf;
/** HT Greenfield Mode*/
t_u32 gf_mode;
/** STBC */
t_u32 stbc;
/** power id */
t_u32 rsvd[2];
/** NumPkt */
t_u32 NumPkt;
/** MaxPE */
t_u32 MaxPE;
/** BeamChange */
t_u32 BeamChange;
/** Dcm */
t_u32 Dcm;
/** Doppler */
t_u32 Doppler;
/** MidP */
t_u32 MidP;
/** QNum */
t_u32 QNum;
} MLAN_PACK_END;
/* MFG CMD Tx Continuous */
struct MLAN_PACK_START mfg_cmd_tx_cont {
/** MFG command code */
t_u32 mfg_cmd;
/** Action */
t_u16 action;
/** Device ID */
t_u16 device_id;
/** MFG Error code */
t_u32 error;
/** enable Tx*/
t_u32 enable_tx;
/** Continuous Wave mode */
t_u32 cw_mode;
/** payload pattern */
t_u32 payload_pattern;
/** CS Mode */
t_u32 cs_mode;
/** active sub channel */
t_u32 act_sub_ch;
/** Tx rate */
t_u32 tx_rate;
/** power id */
t_u32 rsvd;
} MLAN_PACK_END;
struct MLAN_PACK_START mfg_Cmd_HE_TBTx_t {
/** MFG command code */
t_u32 mfg_cmd;
/** Action */
t_u16 action;
/** Device ID */
t_u16 device_id;
/** MFG Error code */
t_u32 error;
/** Enable Tx */
t_u16 enable;
/** Q num */
t_u16 qnum;
/** AID */
t_u16 aid;
/** AXQ Mu Timer */
t_u16 axq_mu_timer;
/** Tx Power */
t_s16 tx_power;
} MLAN_PACK_END;
#ifdef BIG_ENDIAN_SUPPORT
typedef MLAN_PACK_START struct _mfg_cmd_IEEEtypes_HETrigComInfo_t {
t_u64 reserved : 1;
t_u64 he_sig2 : 9;
t_u64 doppler : 1;
t_u64 spatial_reuse : 16;
t_u64 pe_disambig : 1;
t_u64 pre_fec_pad_fct : 2;
t_u64 ap_tx_pwr : 6;
t_u64 ldpc_ess : 1;
t_u64 ul_stbc : 1;
t_u64 ltf_symbol : 3;
t_u64 ltf_mode : 1;
t_u64 ltf_type : 2;
t_u64 ul_bw : 2;
t_u64 cs_required : 1;
t_u64 more_tf : 1;
t_u64 ul_len : 12;
t_u64 trigger_type : 4;
} MLAN_PACK_END mfg_cmd_IEEEtypes_HETrigComInfo_t;
#else
typedef MLAN_PACK_START struct _mfg_cmd_IEEEtypes_HETrigComInfo_t {
t_u64 trigger_type : 4;
t_u64 ul_len : 12;
t_u64 more_tf : 1;
t_u64 cs_required : 1;
t_u64 ul_bw : 2;
t_u64 ltf_type : 2;
t_u64 ltf_mode : 1;
t_u64 ltf_symbol : 3;
t_u64 ul_stbc : 1;
t_u64 ldpc_ess : 1;
t_u64 ap_tx_pwr : 6;
t_u64 pre_fec_pad_fct : 2;
t_u64 pe_disambig : 1;
t_u64 spatial_reuse : 16;
t_u64 doppler : 1;
t_u64 he_sig2 : 9;
t_u64 reserved : 1;
} MLAN_PACK_END mfg_cmd_IEEEtypes_HETrigComInfo_t;
#endif
#ifdef BIG_ENDIAN_SUPPORT
typedef MLAN_PACK_START struct _mfg_cmd_IEEEtypes_HETrigUserInfo_t {
t_u8 reserved : 1;
t_u8 ul_target_rssi : 7;
t_u32 ss_alloc : 6;
t_u32 ul_dcm : 1;
t_u32 ul_mcs : 4;
t_u32 ul_coding_type : 1;
t_u32 ru_alloc : 7;
t_u32 ru_alloc_reg : 1;
t_u32 aid12 : 12;
} MLAN_PACK_END mfg_cmd_IEEEtypes_HETrigUserInfo_t;
#else
typedef MLAN_PACK_START struct _mfg_cmd_IEEEtypes_HETrigUserInfo_t {
t_u32 aid12 : 12;
t_u32 ru_alloc_reg : 1;
t_u32 ru_alloc : 7;
t_u32 ul_coding_type : 1;
t_u32 ul_mcs : 4;
t_u32 ul_dcm : 1;
t_u32 ss_alloc : 6;
t_u8 ul_target_rssi : 7;
t_u8 reserved : 1;
} MLAN_PACK_END mfg_cmd_IEEEtypes_HETrigUserInfo_t;
#endif
#ifdef BIG_ENDIAN_SUPPORT
typedef MLAN_PACK_START struct _mfg_cmd_IEEETypes_BasicHETrigUserInfo_t {
t_u8 pref_ac : 2;
t_u8 ac_pl : 1;
t_u8 tid_al : 3;
t_u8 mpdu_mu_sf : 2;
} MLAN_PACK_END mfg_cmd_IEEETypes_BasicHETrigUserInfo_t;
#else
typedef MLAN_PACK_START struct _mfg_cmd_IEEETypes_BasicHETrigUserInfo_t {
t_u8 mpdu_mu_sf : 2;
t_u8 tid_al : 3;
t_u8 ac_pl : 1;
t_u8 pref_ac : 2;
} MLAN_PACK_END mfg_cmd_IEEETypes_BasicHETrigUserInfo_t;
#endif
#ifdef BIG_ENDIAN_SUPPORT
typedef MLAN_PACK_START struct _mfg_cmd_IEEEtypes_FrameCtrl_t {
/** Order */
t_u8 order : 1;
/** Wep */
t_u8 wep : 1;
/** More Data */
t_u8 more_data : 1;
/** Power Mgmt */
t_u8 pwr_mgmt : 1;
/** Retry */
t_u8 retry : 1;
/** More Frag */
t_u8 more_frag : 1;
/** From DS */
t_u8 from_ds : 1;
/** To DS */
t_u8 to_ds : 1;
/** Sub Type */
t_u8 sub_type : 4;
/** Type */
t_u8 type : 2;
/** Protocol Version */
t_u8 protocol_version : 2;
} MLAN_PACK_END mfg_cmd_IEEEtypes_FrameCtrl_t;
#else
typedef MLAN_PACK_START struct _mfg_cmd_IEEEtypes_FrameCtrl_t {
/** Protocol Version */
t_u8 protocol_version : 2;
/** Type */
t_u8 type : 2;
/** Sub Type */
t_u8 sub_type : 4;
/** To DS */
t_u8 to_ds : 1;
/** From DS */
t_u8 from_ds : 1;
/** More Frag */
t_u8 more_frag : 1;
/** Retry */
t_u8 retry : 1;
/** Power Mgmt */
t_u8 pwr_mgmt : 1;
/** More Data */
t_u8 more_data : 1;
/** Wep */
t_u8 wep : 1;
/** Order */
t_u8 order : 1;
} MLAN_PACK_END mfg_cmd_IEEEtypes_FrameCtrl_t;
#endif
typedef MLAN_PACK_START struct _mfg_Cmd_IEEEtypes_CtlBasicTrigHdr_t {
/** MFG command code */
t_u32 mfg_cmd;
/** Action */
t_u16 action;
/** Device ID */
t_u16 device_id;
/** MFG Error code */
t_u32 error;
/** enable Tx*/
t_u32 enable_tx;
/** enable Stand Alone HE TB */
t_u32 standalone_hetb;
/** Frame Control */
mfg_cmd_IEEEtypes_FrameCtrl_t frmCtl;
/** Duration */
t_u16 duration;
/** Destination MAC Address */
t_u8 dest_addr[MLAN_MAC_ADDR_LENGTH];
/** Source MAC Address */
t_u8 src_addr[MLAN_MAC_ADDR_LENGTH];
/** Common Info Field **/
mfg_cmd_IEEEtypes_HETrigComInfo_t trig_common_field;
/** User Info Field **/
mfg_cmd_IEEEtypes_HETrigUserInfo_t trig_user_info_field;
/** Trigger Dependent User Info Field **/
mfg_cmd_IEEETypes_BasicHETrigUserInfo_t basic_trig_user_info;
} MLAN_PACK_END mfg_Cmd_IEEEtypes_CtlBasicTrigHdr_t;
typedef struct _mlan_ds_misc_chnrgpwr_cfg {
/** length */
t_u16 length;
/** chnrgpwr buf */
t_u8 chnrgpwr_buf[2048];
} mlan_ds_misc_chnrgpwr_cfg;
/** dfs chan list for MLAN_OID_MISC_CFP_TABLE */
typedef struct _mlan_ds_misc_cfp_tbl {
/** band */
t_u8 band;
/** num chan */
t_u8 num_chan;
/** cfp table */
chan_freq_power_t cfp_tbl[];
} mlan_ds_misc_cfp_tbl;
/** mlan_ds_mc_aggr_cfg for MLAN_OID_MISC_MC_AGGR_CFG */
typedef struct _mlan_ds_mc_aggr_cfg {
/** action */
t_u8 action;
/* 1 enable, 0 disable
* bit 0 MC aggregation
* bit 1 packet expiry
* bit 2 CTS2Self
* bit 3 CTS2Self duration offset*/
t_u8 enable_bitmap;
/* 1 valid, 0 invalid
* bit 0 MC aggregation
* bit 1 packet expiry
* bit 2 CTS2Self
* bit 3 CTS2Self duration offset*/
t_u8 mask_bitmap;
/** CTS2Self duration offset */
t_u16 cts2self_offset;
} mlan_ds_mc_aggr_cfg;
/** mlan_ds_stats */
typedef struct _mlan_ds_stats {
/** action */
t_u16 action;
/** tlv len */
t_u16 tlv_len;
/** TLV buffer */
t_u8 tlv_buf[1];
} mlan_ds_stats;
typedef struct _mlan_ds_ch_load {
/** action */
t_u8 action;
t_u16 ch_load_param;
t_s16 noise;
t_u16 rx_quality;
t_u16 duration;
} mlan_ds_ch_load;
/** Type definition of mlan_ds_cross_chip_synch */
typedef struct _mlan_ds_cross_chip_synch {
/**cross chip sync action 0-GET, 1-SET */
t_u16 action;
/**cross chip sync start or stop */
t_u8 start_stop;
/**cross chip sync role, master or slave */
t_u8 role;
/**cross chip sync periodicty of toggle in us */
t_u32 period;
/**cross chip sync initial TSF low */
t_u32 init_tsf_low;
/**cross chip sync intial TSF high */
t_u32 init_tsf_high;
} mlan_ds_cross_chip_synch;
typedef struct _mlan_ds_reorder_flush_time {
/** AC BK/BE_flush time*/
t_u16 flush_time_ac_be_bk;
/** AC VI/VO flush time */
t_u16 flush_time_ac_vi_vo;
} mlan_ds_reorder_flush_time;
/** Type definition of mlan_ds_misc_cfg for MLAN_IOCTL_MISC_CFG */
typedef struct _mlan_ds_misc_cfg {
/** Sub-command */
t_u32 sub_command;
/** Miscellaneous configuration parameter */
union {
/** Generic IE for MLAN_OID_MISC_GEN_IE */
mlan_ds_misc_gen_ie gen_ie;
/** Region code for MLAN_OID_MISC_REGION */
t_u32 region_code;
#ifdef SDIO
/** SDIO MP-A Ctrl command for MLAN_OID_MISC_SDIO_MPA_CTRL */
mlan_ds_misc_sdio_mpa_ctrl mpa_ctrl;
#endif
/** Hostcmd for MLAN_OID_MISC_HOST_CMD */
mlan_ds_misc_cmd hostcmd;
/** System clock for MLAN_OID_MISC_SYS_CLOCK */
mlan_ds_misc_sys_clock sys_clock;
/** WWS set/get for MLAN_OID_MISC_WWS */
t_u32 wws_cfg;
/** Get associate response for MLAN_OID_MISC_ASSOC_RSP */
mlan_ds_misc_assoc_rsp assoc_resp;
/** Get associate request for MLAN_OID_MISC_ASSOC_REQ */
mlan_ds_misc_assoc_req assoc_req;
/** Function init/shutdown for MLAN_OID_MISC_INIT_SHUTDOWN */
t_u32 func_init_shutdown;
/** Custom IE for MLAN_OID_MISC_CUSTOM_IE */
mlan_ds_misc_custom_ie cust_ie;
t_u16 tdls_idle_time;
/** Config dynamic bandwidth*/
t_u16 dyn_bw;
/** TDLS configuration for MLAN_OID_MISC_TDLS_CONFIG */
mlan_ds_misc_tdls_config tdls_config;
/** TDLS operation for MLAN_OID_MISC_TDLS_OPER */
mlan_ds_misc_tdls_oper tdls_oper;
/** TDLS ies for MLAN_OID_MISC_GET_TDLS_IES */
mlan_ds_misc_tdls_ies tdls_ies;
/**tdls cs off channel*/
t_u8 tdls_cs_channel;
/** Net monitor for MLAN_OID_MISC_NET_MONITOR */
mlan_ds_misc_net_monitor net_mon;
/** Tx data pause for MLAN_OID_MISC_TX_DATAPAUSE */
mlan_ds_misc_tx_datapause tx_datapause;
/** IP address configuration */
mlan_ds_misc_ipaddr_cfg ipaddr_cfg;
/** IPv6 Router Advertisement offload configuration */
mlan_ds_misc_ipv6_ra_offload ipv6_ra_offload;
/** MAC control for MLAN_OID_MISC_MAC_CONTROL */
t_u32 mac_ctrl;
/** MEF configuration for MLAN_OID_MISC_MEF_CFG */
mlan_ds_misc_mef_cfg mef_cfg;
/** CFP code for MLAN_OID_MISC_CFP_CODE */
mlan_ds_misc_cfp_code cfp_code;
/** Country code for MLAN_OID_MISC_COUNTRY_CODE */
mlan_ds_misc_country_code country_code;
/** Thermal reading for MLAN_OID_MISC_THERMAL */
t_u32 thermal;
/** Mgmt subtype mask for MLAN_OID_MISC_RX_MGMT_IND */
t_u32 mgmt_subtype_mask;
/** subscribe event for MLAN_OID_MISC_SUBSCRIBE_EVENT */
mlan_ds_subscribe_evt subscribe_event;
#ifdef DEBUG_LEVEL1
/** Driver debug bit masks */
t_u32 drvdbg;
#endif
/** Hotspot config param set */
t_u32 hotspot_cfg;
#ifdef STA_SUPPORT
ExtCap_t ext_cap;
#endif
mlan_ds_misc_otp_user_data otp_user_data;
/** fw re-connect cfg param set */
mlan_ds_fw_reconnect fw_auto_reconnect;
#ifdef USB
/** USB aggregation parameters for MLAN_OID_MISC_USB_AGGR_CTRL
*/
mlan_ds_misc_usb_aggr_ctrl usb_aggr_params;
#endif
mlan_ds_misc_aggr_ctrl aggr_params;
/** Tx control */
t_u32 tx_control;
#if defined(STA_SUPPORT)
mlan_ds_misc_pmfcfg pmfcfg;
#endif
/** Multi-channel config for MLAN_OID_MISC_MULTI_CHAN_CFG */
mlan_ds_multi_chan_cfg multi_chan_cfg;
/** Multi-channel policy for MLAN_OID_MISC_MULTI_CHAN_POLICY */
t_u16 multi_chan_policy;
/** channel drcs time slicing config for MLAN_OID_MISC_DRCS_CFG
*/
mlan_ds_drcs_cfg drcs_cfg[2];
#ifdef WIFI_DIRECT_SUPPORT
mlan_ds_wifi_direct_config p2p_config;
#endif
mlan_ds_gpio_tsf_latch gpio_tsf_latch_config;
mlan_ds_tsf_info tsf_info;
mlan_ds_coalesce_cfg coalesce_cfg;
t_u8 low_pwr_mode;
/** MEF-FLT-CONFIG for MLAN_OID_MISC_NV_FLT_CFG */
mlan_ds_misc_mef_flt_cfg mef_flt_cfg;
mlan_ds_misc_dfs_repeater dfs_repeater;
/** FW reload flag */
t_u8 fw_reload;
mlan_ds_sensor_temp sensor_temp;
/** GTK rekey data */
mlan_ds_misc_gtk_rekey_data gtk_rekey;
mlan_ds_bw_chan_oper bw_chan_oper;
mlan_ds_ind_rst_cfg ind_rst_cfg;
/** Roam offload */
mlan_ds_misc_roam_offload roam_offload;
t_u64 misc_tsf;
mlan_ds_custom_reg_domain custom_reg_domain;
mlan_ds_misc_keep_alive keep_alive;
mlan_ds_misc_keep_alive_rx keep_alive_rx;
mlan_ds_misc_tx_rx_histogram tx_rx_histogram;
mlan_ds_cw_mode_ctrl cwmode;
/** Tx/Rx per-packet control */
t_u8 txrx_pkt_ctrl;
mlan_ds_misc_robustcoex_params robustcoexparams;
/** config RTT for MLAN_OID_MISC_CONFIG_RTT */
mlan_rtt_config_params rtt_params;
/** cancel RTT for MLAN_OID_MISC_CANCEL_RTT */
mlan_rtt_cancel_params rtt_cancel;
/** config RTT responder for MLAN_OID_MISC_RTT_RESPONDER_CFG */
mlan_rtt_responder rtt_rsp_cfg;
#if defined(PCIE)
mlan_ds_ssu_params ssu_params;
#endif
mlan_ds_csi_params csi_params;
/** boot sleep enable or disable */
t_u16 boot_sleep;
/** Mapping Policy */
mlan_ds_misc_mapping_policy dmcs_policy;
mlan_ds_misc_dmcs_status dmcs_status;
mlan_ds_misc_rx_abort_cfg rx_abort_cfg;
mlan_ds_misc_ofdm_desense_cfg ofdm_desense_cfg;
mlan_ds_misc_rx_abort_cfg_ext rx_abort_cfg_ext;
mlan_ds_misc_nav_mitigation nav_mitigation;
mlan_ds_misc_led_cfg led_config;
mlan_ds_misc_tx_ampdu_prot_mode tx_ampdu_prot_mode;
mlan_ds_misc_rate_adapt_cfg rate_adapt_cfg;
mlan_ds_misc_cck_desense_cfg cck_desense_cfg;
mlan_ds_misc_chan_trpc_cfg trpc_cfg;
mlan_ds_misc_chnrgpwr_cfg rgchnpwr_cfg;
mlan_ds_band_steer_cfg band_steer_cfg;
mlan_ds_beacon_stuck_param_cfg beacon_stuck_cfg;
struct mfg_cmd_generic_cfg mfg_generic_cfg;
struct mfg_cmd_tx_cont mfg_tx_cont;
struct mfg_cmd_tx_frame2 mfg_tx_frame2;
struct mfg_Cmd_HE_TBTx_t mfg_he_power;
mfg_Cmd_IEEEtypes_CtlBasicTrigHdr_t mfg_tx_trigger_config;
mlan_ds_misc_arb_cfg arb_cfg;
mlan_ds_misc_cfp_tbl cfp;
t_u8 range_ext_mode;
mlan_ds_twt_report twt_report_info;
mlan_ds_misc_dot11mc_unassoc_ftm_cfg dot11mc_unassoc_ftm_cfg;
mlan_ds_misc_tp_state tp_state;
mlan_ds_hal_phy_cfg_params hal_phy_cfg_params;
mlan_ds_mc_aggr_cfg mc_aggr_cfg;
mlan_ds_stats stats;
#ifdef UAP_SUPPORT
t_u8 wacp_mode;
#endif
t_u32 ips_ctrl;
mlan_ds_ch_load ch_load;
mlan_ds_cross_chip_synch cross_chip_synch;
mlan_ds_reorder_flush_time flush_time;
} param;
} mlan_ds_misc_cfg, *pmlan_ds_misc_cfg;
/** Hotspot status enable */
#define HOTSPOT_ENABLED MBIT(0)
/** Hotspot status disable */
#define HOTSPOT_DISABLED MFALSE
/** Keep Hotspot2.0 compatible in mwu and wpa_supplicant */
#define HOTSPOT_BY_SUPPLICANT MBIT(1)
/** Reason codes */
#define MLAN_REASON_UNSPECIFIED 1
#define MLAN_REASON_PREV_AUTH_NOT_VALID 2
#define MLAN_REASON_DEAUTH_LEAVING 3
#define MLAN_REASON_DISASSOC_DUE_TO_INACTIVITY 4
#define MLAN_REASON_DISASSOC_AP_BUSY 5
#define MLAN_REASON_CLASS2_FRAME_FROM_NOAUTH_STA 6
#define MLAN_REASON_CLASS3_FRAME_FROM_NOASSOC_STA 7
#define MLAN_REASON_DISASSOC_STA_HAS_LEFT 8
#define MLAN_REASON_STA_REQ_ASSOC_WITHOUT_AUTH 9
#endif /* !_MLAN_IOCTL_H_ */