mwifiex/mxm_wifiex/wlan_src/mapp/mlanutl/mlanutl.h
Sherry Sun 8ffae47921 mxm_wifiex: update to mxm5x17283 release
changes:
1. WCSWREL-191: Fixed the error when loading module param from user config for SD8801
2. WCSWREL-186: Fixed the issue of mlanutl failing on kernel higher than L5.15
3. Fixed low throughput issue for WPA3 SAE
4. Added driver change for WLAN throughput improvement on 8997 SoC
5. Updated README to recommend not to use WEP/TKIP for all chipsets
6. WCSWREL-180: Fix P2P test fail on kernel higher than L5.12
7. WCSWREL-156: kernel_write/kernel_read not allowed by drivers for L5.10 kernel GKI buildou
8. Alternative for pm_qos_add_request/pm_qos_remove_request

Signed-off-by: Sherry Sun <sherry.sun@nxp.com>
Approved-by: Tian Yang <yang.tian@nxp.com>
2021-10-12 12:16:50 +08:00

1243 lines
33 KiB
C

/** @file mlanutl.h
*
* @brief This file contains definitions for application
*
*
* Copyright 2011-2021 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:
11/26/2008: initial version
************************************************************************/
#ifndef _MLANUTL_H_
#define _MLANUTL_H_
/** Include header files */
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include <sys/socket.h>
#include <sys/ioctl.h>
#include <errno.h>
#include <linux/if.h>
#include <linux/wireless.h>
#include <sys/types.h>
#include <sys/time.h>
#include <arpa/inet.h>
#include <netinet/ether.h>
#include <linux/if_packet.h>
/** Type definition: boolean */
typedef enum { FALSE, TRUE } boolean;
/** 16 bits byte swap */
#define swap_byte_16(x) \
((t_u16)((((t_u16)(x)&0x00ffU) << 8) | (((t_u16)(x)&0xff00U) >> 8)))
/** 32 bits byte swap */
#define swap_byte_32(x) \
((t_u32)((((t_u32)(x)&0x000000ffUL) << 24) | \
(((t_u32)(x)&0x0000ff00UL) << 8) | \
(((t_u32)(x)&0x00ff0000UL) >> 8) | \
(((t_u32)(x)&0xff000000UL) >> 24)))
/** Convert to correct endian format */
#ifdef BIG_ENDIAN_SUPPORT
/** CPU to little-endian convert for 16-bit */
#define cpu_to_le16(x) swap_byte_16(x)
/** CPU to little-endian convert for 32-bit */
#define cpu_to_le32(x) swap_byte_32(x)
/** Little-endian to CPU convert for 16-bit */
#define le16_to_cpu(x) swap_byte_16(x)
/** Little-endian to CPU convert for 32-bit */
#define le32_to_cpu(x) swap_byte_32(x)
#else
/** Do nothing */
#define cpu_to_le16(x) (x)
/** Do nothing */
#define cpu_to_le32(x) (x)
/** Do nothing */
#define le16_to_cpu(x) (x)
/** Do nothing */
#define le32_to_cpu(x) (x)
#endif
/** TLV header */
#define TLVHEADER /** Tag */ \
t_u16 tag; \
/** Length */ \
t_u16 length
/** Length of TLV header */
#define TLVHEADER_LEN 4
/** Character, 1 byte */
typedef signed char t_s8;
/** Unsigned character, 1 byte */
typedef unsigned char t_u8;
/** Short integer */
typedef signed short t_s16;
/** Unsigned short integer */
typedef unsigned short t_u16;
/** Integer */
typedef signed int t_s32;
/** Unsigned integer */
typedef unsigned int t_u32;
/** Long long integer */
typedef signed long long t_s64;
/** Unsigned long long integer */
typedef unsigned long long t_u64;
/** Void pointer (4-bytes) */
typedef void t_void;
enum _mlan_act_ioctl {
MLAN_ACT_SET = 1,
MLAN_ACT_GET,
MLAN_ACT_CANCEL,
MLAN_ACT_CLEAR,
MLAN_ACT_RESET,
MLAN_ACT_DEFAULT
};
/** The attribute pack used for structure packing */
#ifndef __ATTRIB_PACK__
#define __ATTRIB_PACK__ __attribute__((packed))
#endif
/** Success */
#define MLAN_STATUS_SUCCESS (0)
/** Failure */
#define MLAN_STATUS_FAILURE (-1)
/** Not found */
#define MLAN_STATUS_NOTFOUND (1)
/** IOCTL number */
#define MLAN_ETH_PRIV (SIOCDEVPRIVATE + 14)
/** Command buffer max length */
#define BUFFER_LENGTH (4 * 1024)
/** Find number of elements */
#define NELEMENTS(x) (sizeof(x) / sizeof(x[0]))
/** BIT value */
#define MBIT(x) (((t_u32)1) << (x))
#ifndef MIN
/** Find minimum value */
#define MIN(a, b) ((a) < (b) ? (a) : (b))
#endif /* MIN */
/** Length of ethernet address */
#ifndef ETH_ALEN
#define ETH_ALEN 6
#endif
/** Action field value : get */
#define ACTION_GET 0
/** Action field value : set */
#define ACTION_SET 1
/** Maximum number of TID */
#define MAX_NUM_TID 8
/** Device name */
extern char dev_name[IFNAMSIZ + 1];
#define HOSTCMD "hostcmd"
/** NXP private command identifier */
#define CMD_NXP "MRVL_CMD"
struct command_node {
char *name;
int (*handler)(int, char **);
};
/** Private command structure */
#ifdef USERSPACE_32BIT_OVER_KERNEL_64BIT
struct eth_priv_cmd {
/** Command buffer pointer */
t_u64 buf;
/** buffer updated by driver */
int used_len;
/** buffer sent by application */
int total_len;
} __ATTRIB_PACK__;
#else
struct eth_priv_cmd {
/** Command buffer */
t_u8 *buf;
/** Used length */
int used_len;
/** Total length */
int total_len;
};
#endif
/** data structure for cmd getdatarate */
struct eth_priv_data_rate {
/** Tx data rate */
t_u32 tx_data_rate;
/** Rx data rate */
t_u32 rx_data_rate;
/** Tx channel bandwidth */
t_u32 tx_bw;
/** Tx guard interval */
t_u32 tx_gi;
/** Rx channel bandwidth */
t_u32 rx_bw;
/** Rx guard interval */
t_u32 rx_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;
};
/** data structure for cmd getlog */
struct eth_priv_get_log {
/** 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];
/** CMACICV 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 */
t_u32 rx_stuck_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 Recovery 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 MAC Address Length */
#define MLAN_MAC_ADDR_LENGTH 6
#define COUNTRY_CODE_LEN 3
/** Type definition of eth_priv_countrycode for CMD_COUNTRYCODE */
struct eth_priv_countrycode {
/** Country Code */
t_u8 country_code[COUNTRY_CODE_LEN];
};
/** Type enumeration of WMM AC_QUEUES */
typedef enum _mlan_wmm_ac_e {
WMM_AC_BK,
WMM_AC_BE,
WMM_AC_VI,
WMM_AC_VO
} __ATTRIB_PACK__ mlan_wmm_ac_e;
/** IEEE Type definitions */
typedef enum _IEEEtypes_ElementId_e {
SSID = 0,
SUPPORTED_RATES = 1,
FH_PARAM_SET = 2,
DS_PARAM_SET = 3,
CF_PARAM_SET = 4,
IBSS_PARAM_SET = 6,
COUNTRY_INFO = 7,
POWER_CONSTRAINT = 32,
POWER_CAPABILITY = 33,
TPC_REQUEST = 34,
TPC_REPORT = 35,
SUPPORTED_CHANNELS = 36,
CHANNEL_SWITCH_ANN = 37,
QUIET = 40,
IBSS_DFS = 41,
HT_CAPABILITY = 45,
HT_OPERATION = 61,
BSSCO_2040 = 72,
OVERLAPBSSSCANPARAM = 74,
EXT_CAPABILITY = 127,
VHT_CAPABILITY = 191,
VHT_OPERATION = 192,
EXT_BSS_LOAD = 193,
BW_CHANNEL_SWITCH = 194,
VHT_TX_POWER_ENV = 195,
EXT_POWER_CONSTR = 196,
AID_INFO = 197,
QUIET_CHAN = 198,
OPER_MODE_NTF = 199,
ERP_INFO = 42,
EXTENDED_SUPPORTED_RATES = 50,
VENDOR_SPECIFIC_221 = 221,
WMM_IE = VENDOR_SPECIFIC_221,
WPS_IE = VENDOR_SPECIFIC_221,
WPA_IE = VENDOR_SPECIFIC_221,
RSN_IE = 48,
EXTENSION = 255,
} __ATTRIB_PACK__ IEEEtypes_ElementId_e;
typedef enum _IEEEtypes_Ext_ElementId_e {
HE_CAPABILITY = 35,
HE_OPERATION = 36
} IEEEtypes_Ext_ElementId_e;
/** Capability Bit Map*/
#ifdef BIG_ENDIAN_SUPPORT
typedef struct _IEEEtypes_CapInfo_t {
t_u8 rsrvd1 : 2;
t_u8 dsss_ofdm : 1;
t_u8 rsvrd2 : 2;
t_u8 short_slot_time : 1;
t_u8 rsrvd3 : 1;
t_u8 spectrum_mgmt : 1;
t_u8 chan_agility : 1;
t_u8 pbcc : 1;
t_u8 short_preamble : 1;
t_u8 privacy : 1;
t_u8 cf_poll_rqst : 1;
t_u8 cf_pollable : 1;
t_u8 ibss : 1;
t_u8 ess : 1;
} __ATTRIB_PACK__ IEEEtypes_CapInfo_t, *pIEEEtypes_CapInfo_t;
#else
typedef struct _IEEEtypes_CapInfo_t {
/** Capability Bit Map : ESS */
t_u8 ess : 1;
/** Capability Bit Map : IBSS */
t_u8 ibss : 1;
/** Capability Bit Map : CF pollable */
t_u8 cf_pollable : 1;
/** Capability Bit Map : CF poll request */
t_u8 cf_poll_rqst : 1;
/** Capability Bit Map : privacy */
t_u8 privacy : 1;
/** Capability Bit Map : Short preamble */
t_u8 short_preamble : 1;
/** Capability Bit Map : PBCC */
t_u8 pbcc : 1;
/** Capability Bit Map : Channel agility */
t_u8 chan_agility : 1;
/** Capability Bit Map : Spectrum management */
t_u8 spectrum_mgmt : 1;
/** Capability Bit Map : Reserved */
t_u8 rsrvd3 : 1;
/** Capability Bit Map : Short slot time */
t_u8 short_slot_time : 1;
/** Capability Bit Map : APSD */
t_u8 apsd : 1;
/** Capability Bit Map : Reserved */
t_u8 rsvrd2 : 1;
/** Capability Bit Map : DSS OFDM */
t_u8 dsss_ofdm : 1;
/** Capability Bit Map : Reserved */
t_u8 rsrvd1 : 2;
} __ATTRIB_PACK__ IEEEtypes_CapInfo_t, *pIEEEtypes_CapInfo_t;
#endif /* BIG_ENDIAN_SUPPORT */
/** IEEE IE header */
typedef struct _IEEEtypes_Header_t {
/** Element ID */
t_u8 element_id;
/** Length */
t_u8 len;
} __ATTRIB_PACK__ IEEEtypes_Header_t, *pIEEEtypes_Header_t;
/** IEEE IE header */
#define IEEE_HEADER_LEN sizeof(IEEEtypes_Header_t)
/** Maximum size of IEEE Information Elements */
#define IEEE_MAX_IE_SIZE 256
/** Vendor specific IE header */
typedef struct _IEEEtypes_VendorHeader_t {
/** Element ID */
t_u8 element_id;
/** Length */
t_u8 len;
/** OUI */
t_u8 oui[3];
/** OUI type */
t_u8 oui_type;
/** OUI subtype */
t_u8 oui_subtype;
/** Version */
t_u8 version;
} __ATTRIB_PACK__ IEEEtypes_VendorHeader_t, *pIEEEtypes_VendorHeader_t;
/** Vendor specific IE */
typedef struct _IEEEtypes_VendorSpecific_t {
/** Vendor specific IE header */
IEEEtypes_VendorHeader_t vend_hdr;
/** IE Max - size of previous fields */
t_u8 data[IEEE_MAX_IE_SIZE - sizeof(IEEEtypes_VendorHeader_t)];
} __ATTRIB_PACK__ IEEEtypes_VendorSpecific_t, *pIEEEtypes_VendorSpecific_t;
/** IEEE IE */
typedef struct _IEEEtypes_Generic_t {
/** Generic IE header */
IEEEtypes_Header_t ieee_hdr;
/** IE Max - size of previous fields */
t_u8 data[IEEE_MAX_IE_SIZE - sizeof(IEEEtypes_Header_t)];
} __ATTRIB_PACK__ IEEEtypes_Generic_t, *pIEEEtypes_Generic_t;
/** Convert character to integer */
#define CHAR2INT(x) (((x) >= 'A') ? ((x) - 'A' + 10) : ((x) - '0'))
/** Command RET code, MSB is set to 1 */
#define HostCmd_RET_BIT 0x8000
/** General purpose action : Get */
#define HostCmd_ACT_GEN_GET 0x0000
/** General purpose action : Set */
#define HostCmd_ACT_GEN_SET 0x0001
/** General purpose action : Clear */
#define HostCmd_ACT_GEN_CLEAR 0x0004
/** General purpose action : Remove */
#define HostCmd_ACT_GEN_REMOVE 0x0004
/** TLV type ID definition */
#define PROPRIETARY_TLV_BASE_ID 0x0100
/** MrvlIEtypesHeader_t */
typedef struct MrvlIEtypesHeader {
/** Header type */
t_u16 type;
/** Header length */
t_u16 len;
} __ATTRIB_PACK__ MrvlIEtypesHeader_t;
/** MrvlIEtypes_Data_t */
typedef struct MrvlIEtypes_Data_t {
/** Header */
MrvlIEtypesHeader_t header;
/** Data */
t_u8 data[1];
} __ATTRIB_PACK__ MrvlIEtypes_Data_t;
/** channel band */
enum { BAND_2GHZ = 0,
BAND_5GHZ = 1,
BAND_4GHZ = 2,
};
/** channel offset */
enum { SEC_CHAN_NONE = 0,
SEC_CHAN_ABOVE = 1,
SEC_CHAN_5MHZ = 2,
SEC_CHAN_BELOW = 3 };
/** channel bandwidth */
enum { CHAN_BW_20MHZ = 0,
CHAN_BW_10MHZ,
CHAN_BW_40MHZ,
CHAN_BW_80MHZ,
};
/** Band_Config_t */
typedef struct _Band_Config_t {
#ifdef BIG_ENDIAN_SUPPORT
/** Channel Selection Mode - (00)=manual, (01)=ACS, (02)=user*/
t_u8 scanMode : 2;
/** Secondary Channel Offset - (00)=None, (01)=Above, (11)=Below */
t_u8 chan2Offset : 2;
/** Channel Width - (00)=20MHz, (10)=40MHz, (11)=80MHz */
t_u8 chanWidth : 2;
/** Band Info - (00)=2.4GHz, (01)=5GHz */
t_u8 chanBand : 2;
#else
/** Band Info - (00)=2.4GHz, (01)=5GHz */
t_u8 chanBand : 2;
/** Channel Width - (00)=20MHz, (10)=40MHz, (11)=80MHz */
t_u8 chanWidth : 2;
/** Secondary Channel Offset - (00)=None, (01)=Above, (11)=Below */
t_u8 chan2Offset : 2;
/** Channel Selection Mode - (00)=manual, (01)=ACS, (02)=Adoption mode*/
t_u8 scanMode : 2;
#endif
} __ATTRIB_PACK__ Band_Config_t;
/** Maximum length of lines in configuration file */
#define MAX_CONFIG_LINE 1024
/** MAC BROADCAST */
#define MAC_BROADCAST 0x1FF
/** MAC MULTICAST */
#define MAC_MULTICAST 0x1FE
/** HostCmd_DS_GEN */
typedef struct MAPP_HostCmd_DS_GEN {
/** Command */
t_u16 command;
/** Size */
t_u16 size;
/** Sequence number */
t_u16 seq_num;
/** Result */
t_u16 result;
} __ATTRIB_PACK__ HostCmd_DS_GEN;
/** Size of HostCmd_DS_GEN */
#define S_DS_GEN sizeof(HostCmd_DS_GEN)
/** max mod group */
#define MAX_MOD_GROUP 35
/** modulation setting */
typedef struct _mod_group_setting {
/** modulation group */
t_u8 mod_group;
/** power */
t_u8 power;
} __ATTRIB_PACK__ mod_group_setting;
/** chan trpc config */
typedef struct _ChanTRPCConfig_t {
/** start freq */
t_u16 start_freq;
/* channel width */
t_u8 width;
/** channel number */
t_u8 chan_num;
mod_group_setting mod_group[MAX_MOD_GROUP];
} __ATTRIB_PACK__ ChanTRPCConfig_t;
/** MrvlIETypes_ChanTRPCConfig_t */
typedef struct _MrvlIETypes_ChanTRPCConfig_t {
/** Header */
MrvlIEtypesHeader_t header;
/** start freq */
t_u16 start_freq;
/* channel width */
t_u8 width;
/** channel number */
t_u8 chan_num;
/** mode groups */
mod_group_setting mod_group[];
} __ATTRIB_PACK__ MrvlIETypes_ChanTRPCConfig_t;
/*This command gets/sets the Transmit Rate-based Power Control (TRPC) channel
* configuration.*/
#define HostCmd_CHANNEL_TRPC_CONFIG 0x00fb
/** TLV OF CHAN_TRPC_CONFIG */
#define TLV_TYPE_CHAN_TRPC_CONFIG (PROPRIETARY_TLV_BASE_ID + 137)
/** mlan_ds_misc_chan_trpc_cfg */
typedef struct _mlan_ds_misc_chan_trpc_cfg {
/** sub_band */
t_u16 sub_band;
/** length */
t_u16 length;
/** trpc buf */
t_u8 trpc_buf[BUFFER_LENGTH];
} __ATTRIB_PACK__ mlan_ds_misc_chan_trpc_cfg;
struct eth_priv_addba {
t_u32 time_out;
t_u32 tx_win_size;
t_u32 rx_win_size;
t_u32 tx_amsdu;
t_u32 rx_amsdu;
};
struct eth_priv_htcapinfo {
t_u32 ht_cap_info_bg;
t_u32 ht_cap_info_a;
};
/** data_structure for cmd vhtcfg */
struct eth_priv_vhtcfg {
/** Band (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;
};
/** data structure for cmd txratecfg */
struct eth_priv_tx_rate_cfg {
/* LG rate: 0, HT rate: 1, VHT rate: 2 */
t_u32 rate_format;
/** Rate/MCS index (0xFF: auto) */
t_u32 rate_index;
/** Rate rate */
t_u32 rate;
/** NSS */
t_u32 nss;
/** Rate Setting */
t_u16 rate_setting;
};
#define MLAN_11AXCMD_CFG_ID_TX_OMI 6
#define MLAN_11AXCMD_CFG_ID_OBSSNBRU_TOLTIME 7
#define MLAN_11AXCMD_TXOMI_SUBID 0x105
#define MLAN_11AXCMD_OBSS_TOLTIME_SUBID 0x106
/** Type definition of mlan_ds_11ax_he_capa for MLAN_OID_11AX_HE_CFG */
typedef 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];
} __ATTRIB_PACK__ 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*/
t_u8 band;
/** mlan_ds_11ax_he_capa */
mlan_ds_11ax_he_capa he_cap;
} __ATTRIB_PACK__ mlan_ds_11ax_he_cfg, *pmlan_ds_11ax_he_cfg;
/** Type definition of mlan_11axcmdcfg_obss_pd_offset for MLAN_OID_11AX_CMD_CFG
*/
typedef struct _mlan_11axcmdcfg_obss_pd_offset {
/** <NON_SRG_OffSET, SRG_OFFSET> */
t_u8 offset[2];
} __ATTRIB_PACK__ mlan_11axcmdcfg_obss_pd_offset;
/** Type definition of mlan_11axcmdcfg_sr_control for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_11axcmdcfg_sr_control {
/** 1 enable, 0 disable */
t_u8 control;
} __ATTRIB_PACK__ mlan_11axcmdcfg_sr_control;
/** Type definition of mlan_ds_11ax_sr_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct _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;
} __ATTRIB_PACK__ 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_txop_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_txomi_cmd for MLAN_OID_11AX_CMD_CFG */
typedef struct _mlan_ds_11ax_txomi_cmd {
/* 11ax spec 9.2.4.6a.2 OM Control 12 bits. Bit 0 to bit 11 */
t_u16 omi;
} 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_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;
/** HTC configuration for MLAN_11AXCMD_TXOPRTS_SUBID */
mlan_ds_11ax_txop_cmd txop_cfg;
/** HTC configuration for MLAN_11AXCMD_TXOMI_SUBID */
mlan_ds_11ax_txomi_cmd txomi_cfg;
/** HTC configuration for MLAN_11AXCMD_TXOMI_SUBID */
mlan_ds_11ax_toltime_cmd toltime_cfg;
} param;
} mlan_ds_11ax_cmd_cfg, *pmlan_ds_11ax_cmd_cfg;
/** Maximum number of AC QOS queues available in the driver/firmware */
#define MAX_AC_QUEUES 4
/** Read/Write Mac register */
#define HostCmd_CMD_MAC_REG_ACCESS 0x0019
/** Read/Write BBP register */
#define HostCmd_CMD_BBP_REG_ACCESS 0x001a
/** Read/Write RF register */
#define HostCmd_CMD_RF_REG_ACCESS 0x001b
/** Data structure of WMM Aci/Aifsn */
typedef struct _IEEEtypes_WmmAciAifsn_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
} __ATTRIB_PACK__ IEEEtypes_WmmAciAifsn_t, *pIEEEtypes_WmmAciAifsn_t;
/** Data structure of WMM ECW */
typedef struct _IEEEtypes_WmmEcw_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
} __ATTRIB_PACK__ IEEEtypes_WmmEcw_t, *pIEEEtypes_WmmEcw_t;
/** Data structure of WMM AC parameters */
typedef struct _IEEEtypes_WmmAcParameters_t {
IEEEtypes_WmmAciAifsn_t aci_aifsn; /**< AciAifSn */
IEEEtypes_WmmEcw_t ecw; /**< Ecw */
t_u16 tx_op_limit; /**< Tx op limit */
} __ATTRIB_PACK__ IEEEtypes_WmmAcParameters_t, *pIEEEtypes_WmmAcParameters_t;
/** HostCmd_DS_802_11_CFG_DATA */
typedef struct MAPP_HostCmd_DS_802_11_CFG_DATA {
/** Action */
t_u16 action;
/** Type */
t_u16 type;
/** Data length */
t_u16 data_len;
/** Data */
t_u8 data[1];
} __ATTRIB_PACK__ HostCmd_DS_802_11_CFG_DATA;
/** Host Command ID : Configuration data */
#define HostCmd_CMD_CFG_DATA 0x008f
/** mlan_ioctl_11h_tpc_resp */
typedef struct {
int status_code; /**< Firmware command result status code */
int tx_power; /**< Reported TX Power from the TPC Report */
int link_margin; /**< Reported Link margin from the TPC Report */
int rssi; /**< RSSI of the received TPC Report frame */
} __ATTRIB_PACK__ mlan_ioctl_11h_tpc_resp;
/** Host Command ID : 802.11 TPC adapt req */
#define HostCmd_CMD_802_11_TPC_ADAPT_REQ 0x0060
/** HostCmd_DS_802_11_CRYPTO */
typedef struct MAPP_HostCmd_DS_802_11_CRYPTO {
t_u16 encdec; /**< Decrypt=0, Encrypt=1 */
t_u16 algorithm; /**< RC4=1 AES=2 , AES_KEY_WRAP=3 */
t_u16 key_IV_length; /**< Length of Key IV (bytes) */
t_u8 keyIV[32]; /**< Key IV */
t_u16 key_length; /**< Length of Key (bytes) */
t_u8 key[32]; /**< Key */
MrvlIEtypes_Data_t data; /**< Plain text if encdec=Encrypt, Ciphertext
data if encdec=Decrypt*/
} __ATTRIB_PACK__ HostCmd_DS_802_11_CRYPTO;
/** HostCmd_DS_802_11_CRYPTO_AES_CCM */
typedef struct MAPP_HostCmd_DS_802_11_CRYPTO_AES_CCM {
t_u16 encdec; /**< Decrypt=0, Encrypt=1 */
t_u16 algorithm; /**< AES_CCM=4 */
t_u16 key_length; /**< Length of Key (bytes) */
t_u8 key[32]; /**< Key */
t_u16 nonce_length; /**< Length of Nonce (bytes) */
t_u8 nonce[14]; /**< Nonce */
t_u16 AAD_length; /**< Length of AAD (bytes) */
t_u8 AAD[32]; /**< AAD */
MrvlIEtypes_Data_t data; /**< Plain text if encdec=Encrypt, Ciphertext
data if encdec=Decrypt*/
} __ATTRIB_PACK__ HostCmd_DS_802_11_CRYPTO_AES_CCM;
/** HostCmd_DS_802_11_CRYPTO_WAPI */
typedef struct MAPP_HostCmd_DS_802_11_CRYPTO_WAPI {
t_u16 encdec; /**< Decrypt=0, Encrypt=1 */
t_u16 algorithm; /**< WAPI =5 */
t_u16 key_length; /**< Length of Key (bytes) */
t_u8 key[32]; /**< Key */
t_u16 nonce_length; /**< Length of Nonce (bytes) */
t_u8 nonce[16]; /**< Nonce */
t_u16 AAD_length; /**< Length of AAD (bytes) */
t_u8 AAD[48]; /**< AAD */
t_u16 data_length; /**< Length of data (bytes) */
} __ATTRIB_PACK__ HostCmd_DS_802_11_CRYPTO_WAPI;
/** WAPI cipher test */
#define CIPHER_TEST_WAPI (5)
/** AES CCM cipher test */
#define CIPHER_TEST_AES_CCM (4)
/** GCMP cipher test */
#define CIPHER_TEST_GCMP (6)
/** Host Command ID : 802.11 crypto */
#define HostCmd_CMD_802_11_CRYPTO 0x0078
/** HostCmd_DS_802_11_SUBSCRIBE_EVENT */
typedef struct MAPP_HostCmd_DS_802_11_SUBSCRIBE_EVENT {
/** Action */
t_u16 action;
/** Events */
t_u16 events;
} __ATTRIB_PACK__ HostCmd_DS_802_11_SUBSCRIBE_EVENT;
/** MrvlIEtypes_RssiParamSet_t */
typedef struct MrvlIEtypes_RssiThreshold {
/** Header */
MrvlIEtypesHeader_t header;
/** RSSI value */
t_u8 RSSI_value;
/** RSSI frequency */
t_u8 RSSI_freq;
} __ATTRIB_PACK__ MrvlIEtypes_RssiThreshold_t;
/** MrvlIEtypes_SnrThreshold_t */
typedef struct MrvlIEtypes_SnrThreshold {
/** Header */
MrvlIEtypesHeader_t header;
/** SNR value */
t_u8 SNR_value;
/** SNR frequency */
t_u8 SNR_freq;
} __ATTRIB_PACK__ MrvlIEtypes_SnrThreshold_t;
/** MrvlIEtypes_FailureCount_t */
typedef struct MrvlIEtypes_FailureCount {
/** Header */
MrvlIEtypesHeader_t header;
/** Failure value */
t_u8 fail_value;
/** Failure frequency */
t_u8 fail_freq;
} __ATTRIB_PACK__ MrvlIEtypes_FailureCount_t;
/** MrvlIEtypes_BeaconsMissed_t */
typedef struct MrvlIEtypes_BeaconsMissed {
/** Header */
MrvlIEtypesHeader_t header;
/** Number of beacons missed */
t_u8 beacon_missed;
/** Reserved */
t_u8 reserved;
} __ATTRIB_PACK__ MrvlIEtypes_BeaconsMissed_t;
/** MrvlIEtypes_LinkQuality_t */
typedef struct MrvlIEtypes_LinkQuality {
/** Header */
MrvlIEtypesHeader_t header;
/** Link SNR threshold */
t_u16 link_SNR_thrs;
/** Link SNR frequency */
t_u16 link_SNR_freq;
/** Minimum rate value */
t_u16 min_rate_val;
/** Minimum rate frequency */
t_u16 min_rate_freq;
/** Tx latency value */
t_u32 tx_latency_val;
/** Tx latency threshold */
t_u32 tx_latency_thrs;
} __ATTRIB_PACK__ MrvlIEtypes_LinkQuality_t;
/** Host Command ID : 802.11 subscribe event */
#define HostCmd_CMD_802_11_SUBSCRIBE_EVENT 0x0075
/** TLV type : Beacon RSSI low */
#define TLV_TYPE_RSSI_LOW (PROPRIETARY_TLV_BASE_ID + 0x04) /* 0x0104 */
/** TLV type : Beacon SNR low */
#define TLV_TYPE_SNR_LOW (PROPRIETARY_TLV_BASE_ID + 0x05) /* 0x0105 */
/** TLV type : Fail count */
#define TLV_TYPE_FAILCOUNT (PROPRIETARY_TLV_BASE_ID + 0x06) /* 0x0106 */
/** TLV type : BCN miss */
#define TLV_TYPE_BCNMISS (PROPRIETARY_TLV_BASE_ID + 0x07) /* 0x0107 */
/** TLV type : Beacon RSSI high */
#define TLV_TYPE_RSSI_HIGH (PROPRIETARY_TLV_BASE_ID + 0x16) /* 0x0116 */
/** TLV type : Beacon SNR high */
#define TLV_TYPE_SNR_HIGH (PROPRIETARY_TLV_BASE_ID + 0x17) /* 0x0117 */
/** TLV type :Link Quality */
#define TLV_TYPE_LINK_QUALITY (PROPRIETARY_TLV_BASE_ID + 0x24) /* 0x0124 */
/** TLV type : Data RSSI low */
#define TLV_TYPE_RSSI_LOW_DATA (PROPRIETARY_TLV_BASE_ID + 0x26) /* 0x0126 */
/** TLV type : Data SNR low */
#define TLV_TYPE_SNR_LOW_DATA (PROPRIETARY_TLV_BASE_ID + 0x27) /* 0x0127 */
/** TLV type : Data RSSI high */
#define TLV_TYPE_RSSI_HIGH_DATA (PROPRIETARY_TLV_BASE_ID + 0x28) /* 0x0128 */
/** TLV type : Data SNR high */
#define TLV_TYPE_SNR_HIGH_DATA (PROPRIETARY_TLV_BASE_ID + 0x29) /* 0x0129 */
/** MrvlIEtypes_PreBeaconLost_t */
typedef struct MrvlIEtypes_PreBeaconLost {
/** Header */
MrvlIEtypesHeader_t header;
/** Pre-Beacon Lost */
t_u8 pre_beacon_lost;
/** Reserved */
t_u8 reserved;
} __ATTRIB_PACK__ MrvlIEtypes_PreBeaconLost_t;
/** TLV type: Pre-Beacon Lost */
#define TLV_TYPE_PRE_BEACON_LOST (PROPRIETARY_TLV_BASE_ID + 0x49) /* 0x0149 */
/** AutoTx_MacFrame_t */
typedef struct AutoTx_MacFrame {
t_u16 interval; /**< in seconds */
t_u8 priority; /**< User Priority: 0~7, ignored if non-WMM */
t_u8 reserved; /**< set to 0 */
t_u16 frame_len; /**< Length of MAC frame payload */
t_u8 dest_mac_addr[MLAN_MAC_ADDR_LENGTH]; /**< Destination MAC address
*/
t_u8 src_mac_addr[MLAN_MAC_ADDR_LENGTH]; /**< Source MAC address */
t_u8 payload[]; /**< Payload */
} __ATTRIB_PACK__ AutoTx_MacFrame_t;
/** MrvlIEtypes_AutoTx_t */
typedef struct MrvlIEtypes_AutoTx {
MrvlIEtypesHeader_t header; /**< Header */
AutoTx_MacFrame_t auto_tx_mac_frame; /**< Auto Tx MAC frame */
} __ATTRIB_PACK__ MrvlIEtypes_AutoTx_t;
/** HostCmd_DS_802_11_AUTO_TX */
typedef struct MAPP_HostCmd_DS_802_11_AUTO_TX {
/** Action */
t_u16 action; /* 0 = ACT_GET; 1 = ACT_SET; */
MrvlIEtypes_AutoTx_t auto_tx; /**< Auto Tx */
} __ATTRIB_PACK__ HostCmd_DS_802_11_AUTO_TX;
/** Host Command ID : 802.11 auto Tx */
#define HostCmd_CMD_802_11_AUTO_TX 0x0082
/** TLV type : Auto Tx */
#define TLV_TYPE_AUTO_TX (PROPRIETARY_TLV_BASE_ID + 0x18) /* 0x0118 */
/** Host Command ID : CAU register access */
#define HostCmd_CMD_CAU_REG_ACCESS 0x00ed
/** Host Command ID : Memory access */
#define HostCmd_CMD_MEM_ACCESS 0x0086
typedef struct {
t_u32 timeSinceLastQuery_ms; /**< Duration of stats collection */
t_u16 bcnCnt; /**< Number of beacons received */
t_u16 bcnMiss; /**< Estimate of beacons missed */
t_s16 bcnRssiAvg; /**< Avg beacon RSSI */
t_s16 bcnSnrAvg; /**< Avg beacon SNR */
t_u32 rxPkts; /**< Number of packets received */
t_s16 rxRssiAvg; /**< Avg received packet RSSI */
t_s16 rxSnrAvg; /**< Avg received packet SNR */
t_u32 txPkts; /**< Number of packets transmitted */
t_u32 txAttempts; /**< Number of attempts made */
t_u32 txFailures; /**< Number of pkts that failed */
t_u8 txInitRate; /**< Current rate adaptation TX rateid */
t_u8 reserved[3]; /**< Reserved */
t_u16 txQueuePktCnt[MAX_AC_QUEUES]; /**< Number of packets per AC */
t_u32 txQueueDelay[MAX_AC_QUEUES]; /**< Averge queue delay per AC*/
} __ATTRIB_PACK__ HostCmd_DS_LINK_STATS_SUMMARY;
#define HostCmd_CMD_LINK_STATS_SUMMARY 0x00d3
/** Type enumeration of WMM AC_QUEUES */
typedef enum _wmm_ac {
AC_BE,
AC_BK,
AC_VI,
AC_VO,
} wmm_ac;
/** Data structure of Host command WMM_PARAM_CFG */
typedef struct _HostCmd_DS_WMM_PARAM_CONFIG {
/** action */
t_u16 action;
/** AC Parameters Record WMM_AC_BE, WMM_AC_BK, WMM_AC_VI, WMM_AC_VO */
IEEEtypes_WmmAcParameters_t ac_params[MAX_AC_QUEUES];
} __ATTRIB_PACK__ HostCmd_DS_WMM_PARAM_CONFIG;
/** Host Command ID : Configure ADHOC_OVER_IP parameters */
#define HostCmd_CMD_WMM_PARAM_CONFIG 0x023a
/** HostCmd_DS_REG */
typedef struct MAPP_HostCmd_DS_REG {
/** Read or write */
t_u16 action;
/** Register offset */
t_u16 offset;
/** Value */
t_u32 value;
} __ATTRIB_PACK__ HostCmd_DS_REG;
/** HostCmd_DS_MEM */
typedef struct MAPP_HostCmd_DS_MEM {
/** Read or write */
t_u16 action;
/** Reserved */
t_u16 reserved;
/** Address */
t_u32 addr;
/** Value */
t_u32 value;
} __ATTRIB_PACK__ HostCmd_DS_MEM;
typedef struct _HostCmd_DS_MEF_CFG {
/** Criteria */
t_u32 Criteria;
/** Number of entries */
t_u16 NumEntries;
} __ATTRIB_PACK__ HostCmd_DS_MEF_CFG;
typedef struct _MEF_CFG_DATA {
/** Size */
t_u16 size;
/** Data */
HostCmd_DS_MEF_CFG data;
} __ATTRIB_PACK__ MEF_CFG_DATA;
/** cloud keep alive parameters */
typedef struct _cloud_keep_alive {
/** id */
t_u8 mkeep_alive_id;
/** enable/disable of this id */
t_u8 enable;
/** enable/disable reset*/
t_u8 reset;
/** Reserved */
t_u8 reserved;
/** Destination MAC address */
t_u8 dst_mac[ETH_ALEN];
/** Source MAC address */
t_u8 src_mac[ETH_ALEN];
/** packet send period */
t_u32 sendInterval;
/** packet retry interval */
t_u32 retryInterval;
/** packet retry count */
t_u8 retryCount;
/** packet length */
t_u8 pkt_len;
/** packet content */
t_u8 pkt[255];
} __ATTRIB_PACK__ cloud_keep_alive;
#endif /* _MLANUTL_H_ */