mwifiex/mxm_wifiex/wlan_src/mlinux/mlan_decl.h

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/** @file mlan_decl.h
*
* @brief This file declares the generic data structures and APIs.
*
*
* Copyright 2008-2021 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.
*
*/
#ifndef _MLAN_DECL_H_
#define _MLAN_DECL_H_
/** MLAN release version */
#define MLAN_RELEASE_VERSION "283.p21"
/** Re-define generic data types for MLAN/MOAL */
/** Signed char (1-byte) */
typedef signed char t_s8, *t_ps8;
/** Unsigned char (1-byte) */
typedef unsigned char t_u8, *t_pu8;
/** Signed short (2-bytes) */
typedef short t_s16, *t_ps16;
/** Unsigned short (2-bytes) */
typedef unsigned short t_u16, *t_pu16;
/** Signed long (4-bytes) */
typedef int t_s32, *t_ps32;
/** Unsigned long (4-bytes) */
typedef unsigned int t_u32, *t_pu32;
/** Signed long long 8-bytes) */
typedef long long t_s64, *t_ps64;
/** Unsigned long long 8-bytes) */
typedef unsigned long long t_u64, *t_pu64;
/** Void pointer (4-bytes) */
typedef void t_void, *t_pvoid;
/** Size type */
typedef t_u32 t_size;
/** Boolean type */
typedef t_u8 t_bool;
#ifdef MLAN_64BIT
/** Pointer type (64-bit) */
typedef t_u64 t_ptr;
/** Signed value (64-bit) */
typedef t_s64 t_sval;
#else
/** Pointer type (32-bit) */
typedef t_u32 t_ptr;
/** Signed value (32-bit) */
typedef t_s32 t_sval;
#endif
/** Constants below */
#ifdef __GNUC__
/** Structure packing begins */
#define MLAN_PACK_START
/** Structure packeing end */
#define MLAN_PACK_END __attribute__((packed))
#else /* !__GNUC__ */
#ifdef PRAGMA_PACK
/** Structure packing begins */
#define MLAN_PACK_START
/** Structure packeing end */
#define MLAN_PACK_END
#else /* !PRAGMA_PACK */
/** Structure packing begins */
#define MLAN_PACK_START __packed
/** Structure packing end */
#define MLAN_PACK_END
#endif /* PRAGMA_PACK */
#endif /* __GNUC__ */
#ifndef INLINE
#ifdef __GNUC__
/** inline directive */
#define INLINE inline
#else
/** inline directive */
#define INLINE __inline
#endif
#endif
/** MLAN TRUE */
#define MTRUE (1)
/** MLAN FALSE */
#define MFALSE (0)
#ifndef MACSTR
/** MAC address security format */
#define MACSTR "%02x:XX:XX:XX:%02x:%02x"
#endif
#ifndef MAC2STR
/** MAC address security print arguments */
#define MAC2STR(a) (a)[0], (a)[4], (a)[5]
#endif
#ifndef FULL_MACSTR
#define FULL_MACSTR "%02x:%02x:%02x:%02x:%02x:%02x"
#endif
#ifndef FULL_MAC2STR
#define FULL_MAC2STR(a) (a)[0], (a)[1], (a)[2], (a)[3], (a)[4], (a)[5]
#endif
/** Macros for Data Alignment : size */
#define ALIGN_SZ(p, a) (((p) + ((a)-1)) & ~((a)-1))
/** Macros for Data Alignment : address */
#define ALIGN_ADDR(p, a) \
((((t_ptr)(p)) + (((t_ptr)(a)) - 1)) & ~(((t_ptr)(a)) - 1))
/** Return the byte offset of a field in the given structure */
#define MLAN_FIELD_OFFSET(type, field) ((t_u32)(t_ptr) & (((type *)0)->field))
/** Return aligned offset */
#define OFFSET_ALIGN_ADDR(p, a) (t_u32)(ALIGN_ADDR(p, a) - (t_ptr)p)
#if defined(WIFI_DIRECT_SUPPORT)
/** Maximum BSS numbers */
#define MLAN_MAX_BSS_NUM (16)
#else
/** Maximum BSS numbers */
#define MLAN_MAX_BSS_NUM (2)
#endif
/** NET IP alignment */
#define MLAN_NET_IP_ALIGN 2
/** DMA alignment */
/* SDIO3.0 Inrevium Adapter require 32 bit DMA alignment */
#define DMA_ALIGNMENT 32
/** max size of TxPD */
#define MAX_TXPD_SIZE 32
/** Minimum data header length */
#define MLAN_MIN_DATA_HEADER_LEN (DMA_ALIGNMENT + MAX_TXPD_SIZE)
/** rx data header length */
#define MLAN_RX_HEADER_LEN MLAN_MIN_DATA_HEADER_LEN
/** This is current limit on Maximum Tx AMPDU allowed */
#define MLAN_MAX_TX_BASTREAM_SUPPORTED 16
#define MLAN_MAX_TX_BASTREAM_DEFAULT 2
/** This is current limit on Maximum Rx AMPDU allowed */
#define MLAN_MAX_RX_BASTREAM_SUPPORTED 16
#ifdef STA_SUPPORT
/** Default Win size attached during ADDBA request */
#define MLAN_STA_AMPDU_DEF_TXWINSIZE 64
/** Default Win size attached during ADDBA response */
#define MLAN_STA_AMPDU_DEF_RXWINSIZE 64
/** RX winsize for COEX */
#define MLAN_STA_COEX_AMPDU_DEF_RXWINSIZE 16
#endif /* STA_SUPPORT */
#ifdef UAP_SUPPORT
/** Default Win size attached during ADDBA request */
#define MLAN_UAP_AMPDU_DEF_TXWINSIZE 64
/** Default Win size attached during ADDBA response */
#define MLAN_UAP_AMPDU_DEF_RXWINSIZE 64
/** RX winsize for COEX */
#define MLAN_UAP_COEX_AMPDU_DEF_RXWINSIZE 16
#endif /* UAP_SUPPORT */
#ifdef WIFI_DIRECT_SUPPORT
/** WFD use the same window size for tx/rx */
#define MLAN_WFD_AMPDU_DEF_TXRXWINSIZE 64
/** RX winsize for COEX */
#define MLAN_WFD_COEX_AMPDU_DEF_RXWINSIZE 16
#endif
/** Block ack timeout value */
#define MLAN_DEFAULT_BLOCK_ACK_TIMEOUT 0xffff
/** Maximum Tx Win size configured for ADDBA request [10 bits] */
#define MLAN_AMPDU_MAX_TXWINSIZE 0x3ff
/** Maximum Rx Win size configured for ADDBA request [10 bits] */
#define MLAN_AMPDU_MAX_RXWINSIZE 0x3ff
/** Rate index for HR/DSSS 0 */
#define MLAN_RATE_INDEX_HRDSSS0 0
/** Rate index for HR/DSSS 3 */
#define MLAN_RATE_INDEX_HRDSSS3 3
/** Rate index for OFDM 0 */
#define MLAN_RATE_INDEX_OFDM0 4
/** Rate index for OFDM 7 */
#define MLAN_RATE_INDEX_OFDM7 11
/** Rate index for MCS 0 */
#define MLAN_RATE_INDEX_MCS0 0
/** Rate index for MCS 2 */
#define MLAN_RATE_INDEX_MCS2 2
/** Rate index for MCS 4 */
#define MLAN_RATE_INDEX_MCS4 4
/** Rate index for MCS 7 */
#define MLAN_RATE_INDEX_MCS7 7
/** Rate index for MCS 9 */
#define MLAN_RATE_INDEX_MCS9 9
/** Rate index for MCS11 */
#define MLAN_RATE_INDEX_MCS11 11
/** Rate index for MCS15 */
#define MLAN_RATE_INDEX_MCS15 15
/** Rate index for MCS 32 */
#define MLAN_RATE_INDEX_MCS32 32
/** Rate index for MCS 127 */
#define MLAN_RATE_INDEX_MCS127 127
#define MLAN_RATE_NSS1 1
#define MLAN_RATE_NSS2 2
/** Rate bitmap for OFDM 0 */
#define MLAN_RATE_BITMAP_OFDM0 16
/** Rate bitmap for OFDM 7 */
#define MLAN_RATE_BITMAP_OFDM7 23
/** Rate bitmap for MCS 0 */
#define MLAN_RATE_BITMAP_MCS0 32
/** Rate bitmap for MCS 127 */
#define MLAN_RATE_BITMAP_MCS127 159
#define MLAN_RATE_BITMAP_NSS1_MCS0 160
#define MLAN_RATE_BITMAP_NSS1_MCS9 169
#define MLAN_RATE_BITMAP_NSS2_MCS0 176
#define MLAN_RATE_BITMAP_NSS2_MCS9 185
/** MU beamformer */
#define DEFALUT_11AC_CAP_BEAMFORMING_RESET_MASK (MBIT(19))
/** Size of rx data buffer 3839+256 */
#define MLAN_RX_DATA_BUF_SIZE 4096
/** Size of command buffer */
/** because cal_data_size 2.4 k */
#define MRVDRV_SIZE_OF_CMD_BUFFER (3 * 1024)
/** Size of rx command buffer */
#define MLAN_RX_CMD_BUF_SIZE MRVDRV_SIZE_OF_CMD_BUFFER
/** Upload size */
#define WLAN_UPLD_SIZE MRVDRV_SIZE_OF_CMD_BUFFER
#if defined(PCIE)
#define MLAN_SSU_MAX_PKT_SIZE (283 * 4)
#define MLAN_SSU_HEADER_SIZE 256
/**
* Size of DMA buffer to collect 10ms SSU data:
* 2500 spectral packets, plus header
*/
#define MLAN_SSU_BUF_SIZE_1MS (MLAN_SSU_MAX_PKT_SIZE * 250)
#define MLAN_SSU_BUF_SIZE (MLAN_SSU_HEADER_SIZE + MLAN_SSU_BUF_SIZE_1MS * 10)
#define MLAN_SSU_BUF_SIZE_HOST (MLAN_SSU_BUF_SIZE)
#endif
/** driver initial the fw reset */
#define FW_RELOAD_SDIO_INBAND_RESET 1
/** out band reset trigger reset, no interface re-emulation */
#define FW_RELOAD_NO_EMULATION 2
/** out band reset with interface re-emulation */
#define FW_RELOAD_WITH_EMULATION 3
#ifdef PCIE
/** pcie card reset */
#define FW_RELOAD_PCIE_RESET 4
#endif
#define FW_RELOAD_SDIO_HW_RESET 5
#ifdef USB
#define MLAN_USB_BLOCK_SIZE (512)
#define MLAN_USB_AGGR_MODE_NUM (0)
#define MLAN_USB_AGGR_MODE_LEN (1)
#define MLAN_USB_AGGR_MODE_LEN_V2 (2)
#define MLAN_USB_TX_AGGR_MAX_LEN (16000)
#define MLAN_USB_TX_AGGR_MAX_NUM 10
#define MLAN_USB_TX_AGGR_V2_ALIGN 4
#define MLAN_USB_TX_AGGR_HEADER 4
#define MLAN_USB_MAX_PKT_SIZE (MLAN_USB_BLOCK_SIZE * 4)
#define MLAN_USB_RX_ALIGN_SIZE MLAN_USB_BLOCK_SIZE
#define MLAN_USB_RX_MAX_AGGR_NUM (8)
#define MLAN_USB_RX_DEAGGR_TIMEOUT_USEC (200)
#define MLAN_USB_TX_AGGR_ALIGN (MLAN_USB_BLOCK_SIZE * 4)
#define MLAN_USB_TX_MAX_AGGR_NUM (8)
#define MLAN_USB_TX_MAX_AGGR_SIZE \
(MLAN_USB_BLOCK_SIZE * 4 * MLAN_USB_TX_MAX_AGGR_NUM)
#define MLAN_USB_TX_MIN_AGGR_TIMEOUT (1)
#define MLAN_USB_TX_MAX_AGGR_TIMEOUT (4)
#define MLAN_USB_TX_AGGR_TIMEOUT_MSEC MLAN_USB_TX_MIN_AGGR_TIMEOUT
#define MLAN_USB_TX_AGGR_TIMEOUT_DYN (0xFFFF)
#endif /*USB*/
/** MLAN MAC Address Length */
#define MLAN_MAC_ADDR_LENGTH (6)
/** MLAN 802.11 MAC Address */
typedef t_u8 mlan_802_11_mac_addr[MLAN_MAC_ADDR_LENGTH];
/** MLAN Maximum SSID Length */
#define MLAN_MAX_SSID_LENGTH (32)
/** RTS/FRAG related defines */
/** Minimum RTS value */
#define MLAN_RTS_MIN_VALUE (0)
/** Maximum RTS value */
#define MLAN_RTS_MAX_VALUE (2347)
/** Minimum FRAG value */
#define MLAN_FRAG_MIN_VALUE (256)
/** Maximum FRAG value */
#define MLAN_FRAG_MAX_VALUE (2346)
/** Minimum tx retry count */
#define MLAN_TX_RETRY_MIN (0)
/** Maximum tx retry count */
#define MLAN_TX_RETRY_MAX (14)
/** max Wmm AC queues */
#define MAX_AC_QUEUES 4
#ifdef SDIO
/** define SDIO block size for data Tx/Rx */
/* We support up to 480-byte block size due to FW buffer limitation. */
#define MLAN_SDIO_BLOCK_SIZE 256
/** define SDIO block size for firmware download */
#define MLAN_SDIO_BLOCK_SIZE_FW_DNLD MLAN_SDIO_BLOCK_SIZE
/** define allocated buffer size */
#define ALLOC_BUF_SIZE MLAN_RX_DATA_BUF_SIZE
/** SDIO MP aggr pkt limit */
#define SDIO_MP_AGGR_DEF_PKT_LIMIT (16)
/** SDIO MP aggr pkt limit 8 */
#define SDIO_MP_AGGR_DEF_PKT_LIMIT_8 (8)
/** max SDIO MP aggr pkt limit */
#define SDIO_MP_AGGR_DEF_PKT_LIMIT_MAX (16)
/** SDIO IO Port mask */
#define MLAN_SDIO_IO_PORT_MASK 0xfffff
/** SDIO Block/Byte mode mask */
#define MLAN_SDIO_BYTE_MODE_MASK 0x80000000
#endif /* SDIO */
/** SD Interface */
#define INTF_SD MBIT(0)
#define IS_SD(ct) (ct & (INTF_SD << 8))
/** PCIE Interface */
#define INTF_PCIE MBIT(1)
#define IS_PCIE(ct) (ct & (INTF_PCIE << 8))
/** USB Interface */
#define INTF_USB MBIT(2)
#define IS_USB(ct) (ct & (INTF_USB << 8))
/** 8887 card type */
#define CARD_TYPE_8887 0x01
/** 8897 card type */
#define CARD_TYPE_8897 0x02
/** 8977 card type */
#define CARD_TYPE_8977 0x03
/** 8997 card type */
#define CARD_TYPE_8997 0x04
/** 8987 card type */
#define CARD_TYPE_8987 0x05
/** 9098 card type */
#define CARD_TYPE_9098 0x06
/** 9097 card type */
#define CARD_TYPE_9097 0x07
/** 8978 card type */
#define CARD_TYPE_8978 0x08
/** 9177 card type */
#define CARD_TYPE_9177 0x09
/** 8801 card type */
#define CARD_TYPE_8801 0x0a
/** 9098 A0 reverion num */
#define CHIP_9098_REV_A0 1
#define CHIP_9098_REV_A1 2
/** 9097 CHIP REV */
#define CHIP_9097_REV_B0 1
#define INTF_MASK 0xff
#define CARD_TYPE_MASK 0xff
#ifdef SDIO
/** SD8887 card type */
#define CARD_TYPE_SD8887 (CARD_TYPE_8887 | (INTF_SD << 8))
/** SD8897 card type */
#define CARD_TYPE_SD8897 (CARD_TYPE_8897 | (INTF_SD << 8))
/** SD8977 card type */
#define CARD_TYPE_SD8977 (CARD_TYPE_8977 | (INTF_SD << 8))
/** SD8978 card type */
#define CARD_TYPE_SD8978 (CARD_TYPE_8978 | (INTF_SD << 8))
/** SD8997 card type */
#define CARD_TYPE_SD8997 (CARD_TYPE_8997 | (INTF_SD << 8))
/** SD8987 card type */
#define CARD_TYPE_SD8987 (CARD_TYPE_8987 | (INTF_SD << 8))
/** SD9097 card type */
#define CARD_TYPE_SD9097 (CARD_TYPE_9097 | (INTF_SD << 8))
/** SD9098 card type */
#define CARD_TYPE_SD9098 (CARD_TYPE_9098 | (INTF_SD << 8))
/** SD9177 card type */
#define CARD_TYPE_SD9177 (CARD_TYPE_9177 | (INTF_SD << 8))
/** SD8801 card type */
#define CARD_TYPE_SD8801 (CARD_TYPE_8801 | (INTF_SD << 8))
#define IS_SD8887(ct) (CARD_TYPE_SD8887 == (ct))
#define IS_SD8897(ct) (CARD_TYPE_SD8897 == (ct))
#define IS_SD8977(ct) (CARD_TYPE_SD8977 == (ct))
#define IS_SD8978(ct) (CARD_TYPE_SD8978 == (ct))
#define IS_SD8997(ct) (CARD_TYPE_SD8997 == (ct))
#define IS_SD8987(ct) (CARD_TYPE_SD8987 == (ct))
#define IS_SD9097(ct) (CARD_TYPE_SD9097 == (ct))
#define IS_SD9098(ct) (CARD_TYPE_SD9098 == (ct))
#define IS_SD9177(ct) (CARD_TYPE_SD9177 == (ct))
#define IS_SD8801(ct) (CARD_TYPE_SD8801 == (ct))
/** SD8887 Card */
#define CARD_SD8887 "SD8887"
/** SD8897 Card */
#define CARD_SD8897 "SD8897"
/** SD8977 Card */
#define CARD_SD8977 "SD8977"
/** SD8978 Card */
#define CARD_SD8978 "SD8978"
/** SD8997 Card */
#define CARD_SD8997 "SD8997"
/** SD8987 Card */
#define CARD_SD8987 "SD8987"
/** SD9097 Card */
#define CARD_SD9097 "SD9097"
/** SDIW620 Card */
#define CARD_SDIW620 "SDIW620"
/** SD9098 Card */
#define CARD_SD9098 "SD9098"
/** SD9177 Card */
#define CARD_SD9177 "SD9177"
/** SD8801 Card */
#define CARD_SD8801 "SD8801"
#endif
#ifdef PCIE
/** PCIE8897 card type */
#define CARD_TYPE_PCIE8897 (CARD_TYPE_8897 | (INTF_PCIE << 8))
/** PCIE8997 card type */
#define CARD_TYPE_PCIE8997 (CARD_TYPE_8997 | (INTF_PCIE << 8))
/** PCIE9097 card type */
#define CARD_TYPE_PCIE9097 (CARD_TYPE_9097 | (INTF_PCIE << 8))
/** PCIE9098 card type */
#define CARD_TYPE_PCIE9098 (CARD_TYPE_9098 | (INTF_PCIE << 8))
#define IS_PCIE8897(ct) (CARD_TYPE_PCIE8897 == (ct))
#define IS_PCIE8997(ct) (CARD_TYPE_PCIE8997 == (ct))
#define IS_PCIE9097(ct) (CARD_TYPE_PCIE9097 == (ct))
#define IS_PCIE9098(ct) (CARD_TYPE_PCIE9098 == (ct))
/** PCIE8897 Card */
#define CARD_PCIE8897 "PCIE8897"
/** PCIE8997 Card */
#define CARD_PCIE8997 "PCIE8997"
/** PCIE9097 Card */
#define CARD_PCIE9097 "PCIE9097"
/** PCIEIW620 Card */
#define CARD_PCIEIW620 "PCIEIW620"
/** PCIE9000S Card */
#define CARD_PCIE9000S "PCIE9000S"
/** PCIE9098 Card */
#define CARD_PCIE9098 "PCIE9098"
/** PCIEAW690 Card */
#define CARD_PCIEAW690 "PCIEAW690"
#endif
#ifdef USB
/** USB8801 card type */
#define CARD_TYPE_USB8801 (CARD_TYPE_8801 | (INTF_USB << 8))
/** USB8897 card type */
#define CARD_TYPE_USB8897 (CARD_TYPE_8897 | (INTF_USB << 8))
/** USB8997 card type */
#define CARD_TYPE_USB8997 (CARD_TYPE_8997 | (INTF_USB << 8))
/** USB8978 card type */
#define CARD_TYPE_USB8978 (CARD_TYPE_8978 | (INTF_USB << 8))
/** USB9098 card type */
#define CARD_TYPE_USB9098 (CARD_TYPE_9098 | (INTF_USB << 8))
/** USB9097 card type */
#define CARD_TYPE_USB9097 (CARD_TYPE_9097 | (INTF_USB << 8))
#define IS_USB8801(ct) (CARD_TYPE_USB8801 == (ct))
#define IS_USB8897(ct) (CARD_TYPE_USB8897 == (ct))
#define IS_USB8997(ct) (CARD_TYPE_USB8997 == (ct))
#define IS_USB8978(ct) (CARD_TYPE_USB8978 == (ct))
#define IS_USB9098(ct) (CARD_TYPE_USB9098 == (ct))
#define IS_USB9097(ct) (CARD_TYPE_USB9097 == (ct))
/** USB8801 Card */
#define CARD_USB8801 "USB8801"
/** USB8897 Card */
#define CARD_USB8897 "USB8897"
/** USB8997 Card */
#define CARD_USB8997 "USB8997"
/** USB8978 Card */
#define CARD_USB8978 "USB8978"
/** USB9098 Card */
#define CARD_USB9098 "USB9098"
/** USB9097 Card */
#define CARD_USB9097 "USB9097"
/** USBIW620 Card */
#define CARD_USBIW620 "USBIW620"
#endif
#define IS_CARD8801(ct) (CARD_TYPE_8801 == ((ct)&0xf))
#define IS_CARD8887(ct) (CARD_TYPE_8887 == ((ct)&0xf))
#define IS_CARD8897(ct) (CARD_TYPE_8897 == ((ct)&0xf))
#define IS_CARD8977(ct) (CARD_TYPE_8977 == ((ct)&0xf))
#define IS_CARD8997(ct) (CARD_TYPE_8997 == ((ct)&0xf))
#define IS_CARD8987(ct) (CARD_TYPE_8987 == ((ct)&0xf))
#define IS_CARD9098(ct) (CARD_TYPE_9098 == ((ct)&0xf))
#define IS_CARD9097(ct) (CARD_TYPE_9097 == ((ct)&0xf))
#define IS_CARD9177(ct) (CARD_TYPE_9177 == ((ct)&0xf))
typedef struct _card_type_entry {
t_u16 card_type;
t_u16 func_id;
char *name;
} card_type_entry;
#if defined(SDIO) || defined(PCIE)
/** Max retry number of IO write */
#define MAX_WRITE_IOMEM_RETRY 2
#endif /* SDIO || PCIE */
#ifdef PCIE
typedef enum {
PCIE_INT_MODE_LEGACY = 0,
PCIE_INT_MODE_MSI,
PCIE_INT_MODE_MSIX,
PCIE_INT_MODE_MAX,
} PCIE_INT_MODE;
#endif /* PCIE */
/** IN parameter */
#define IN
/** OUT parameter */
#define OUT
/** BIT value */
#define MBIT(x) (((t_u32)1) << (x))
/** Buffer flag for requeued packet */
#define MLAN_BUF_FLAG_REQUEUED_PKT MBIT(0)
/** Buffer flag for transmit buf from moal */
#define MLAN_BUF_FLAG_MOAL_TX_BUF MBIT(1)
/** Buffer flag for malloc mlan_buffer */
#define MLAN_BUF_FLAG_MALLOC_BUF MBIT(2)
/** Buffer flag for bridge packet */
#define MLAN_BUF_FLAG_BRIDGE_BUF MBIT(3)
#ifdef USB
/** Buffer flag for deaggregated rx packet */
#define MLAN_BUF_FLAG_RX_DEAGGR MBIT(5)
/** Buffer flag for sleep confirm resp packet */
#define MLAN_BUF_FLAG_SLEEPCFM_RESP MBIT(6)
/** Buffer flag for USB TX AGGR */
#define MLAN_BUF_FLAG_USB_TX_AGGR MBIT(7)
#endif
/** Buffer flag for TDLS */
#define MLAN_BUF_FLAG_TDLS MBIT(8)
/** Buffer flag for TCP_ACK */
#define MLAN_BUF_FLAG_TCP_ACK MBIT(9)
/** Buffer flag for TX_STATUS */
#define MLAN_BUF_FLAG_TX_STATUS MBIT(10)
/** Buffer flag for NULL data packet */
#define MLAN_BUF_FLAG_NULL_PKT MBIT(12)
/** Buffer flag for Diag pkt */
#define MLAN_BUF_FLAG_DIAG_BUF MBIT(13)
#define MLAN_BUF_FLAG_TX_CTRL MBIT(14)
#ifdef DEBUG_LEVEL1
/** Debug level bit definition */
#define MMSG MBIT(0)
#define MFATAL MBIT(1)
#define MERROR MBIT(2)
#define MDATA MBIT(3)
#define MCMND MBIT(4)
#define MEVENT MBIT(5)
#define MINTR MBIT(6)
#define MIOCTL MBIT(7)
#define MREG_D MBIT(9)
#define MMPA_D MBIT(15)
#define MDAT_D MBIT(16)
#define MCMD_D MBIT(17)
#define MEVT_D MBIT(18)
#define MFW_D MBIT(19)
#define MIF_D MBIT(20)
#define MENTRY MBIT(28)
#define MWARN MBIT(29)
#define MINFO MBIT(30)
#define MHEX_DUMP MBIT(31)
#endif /* DEBUG_LEVEL1 */
/** Memory allocation type: DMA */
#define MLAN_MEM_DMA MBIT(0)
/** Default memory allocation flag */
#define MLAN_MEM_DEF 0
/** mlan_status */
typedef enum _mlan_status {
MLAN_STATUS_FAILURE = 0xffffffff,
MLAN_STATUS_SUCCESS = 0,
MLAN_STATUS_PENDING,
MLAN_STATUS_RESOURCE,
#ifdef USB
/* Status pending and no resource */
MLAN_STATUS_PRESOURCE,
#endif
MLAN_STATUS_COMPLETE,
MLAN_STATUS_FILE_ERR,
} mlan_status;
/** mlan_error_code */
typedef enum _mlan_error_code {
/** No error */
MLAN_ERROR_NO_ERROR = 0,
/** Firmware/device errors below (MSB=0) */
MLAN_ERROR_FW_NOT_READY = 0x00000001,
MLAN_ERROR_FW_BUSY = 0x00000002,
MLAN_ERROR_FW_CMDRESP = 0x00000003,
MLAN_ERROR_DATA_TX_FAIL = 0x00000004,
MLAN_ERROR_DATA_RX_FAIL = 0x00000005,
/** Driver errors below (MSB=1) */
MLAN_ERROR_PKT_SIZE_INVALID = 0x80000001,
MLAN_ERROR_PKT_TIMEOUT = 0x80000002,
MLAN_ERROR_PKT_INVALID = 0x80000003,
MLAN_ERROR_CMD_INVALID = 0x80000004,
MLAN_ERROR_CMD_TIMEOUT = 0x80000005,
MLAN_ERROR_CMD_DNLD_FAIL = 0x80000006,
MLAN_ERROR_CMD_CANCEL = 0x80000007,
MLAN_ERROR_CMD_RESP_FAIL = 0x80000008,
MLAN_ERROR_CMD_ASSOC_FAIL = 0x80000009,
MLAN_ERROR_CMD_SCAN_FAIL = 0x8000000A,
MLAN_ERROR_IOCTL_INVALID = 0x8000000B,
MLAN_ERROR_IOCTL_FAIL = 0x8000000C,
MLAN_ERROR_EVENT_UNKNOWN = 0x8000000D,
MLAN_ERROR_INVALID_PARAMETER = 0x8000000E,
MLAN_ERROR_NO_MEM = 0x8000000F,
/** More to add */
} mlan_error_code;
/** mlan_buf_type */
typedef enum _mlan_buf_type {
MLAN_BUF_TYPE_CMD = 1,
MLAN_BUF_TYPE_DATA,
MLAN_BUF_TYPE_EVENT,
MLAN_BUF_TYPE_RAW_DATA,
#ifdef SDIO
MLAN_BUF_TYPE_SPA_DATA,
#endif
} mlan_buf_type;
#ifdef USB
/** mlan_usb_ep */
typedef enum _mlan_usb_ep {
MLAN_USB_EP_CTRL = 0,
MLAN_USB_EP_CMD_EVENT = 1,
MLAN_USB_EP_DATA = 2,
MLAN_USB_EP_DATA_CH2 = 3,
MLAN_USB_EP_CMD_EVENT_IF2 = 4,
MLAN_USB_EP_DATA_IF2 = 5,
MLAN_USB_EP_DATA_CH2_IF2 = 6,
} mlan_usb_ep;
/** Timeout in milliseconds for usb_bulk_msg function */
#define MLAN_USB_BULK_MSG_TIMEOUT 100
#endif /* USB */
/** MLAN BSS type */
typedef enum _mlan_bss_type {
MLAN_BSS_TYPE_STA = 0,
MLAN_BSS_TYPE_UAP = 1,
#ifdef WIFI_DIRECT_SUPPORT
MLAN_BSS_TYPE_WIFIDIRECT = 2,
#endif
MLAN_BSS_TYPE_ANY = 0xff,
} mlan_bss_type;
/** MLAN BSS role */
typedef enum _mlan_bss_role {
MLAN_BSS_ROLE_STA = 0,
MLAN_BSS_ROLE_UAP = 1,
MLAN_BSS_ROLE_ANY = 0xff,
} mlan_bss_role;
/** BSS role mask */
#define BSS_ROLE_MASK (MBIT(0) | MBIT(1))
/** Get BSS role */
#define GET_BSS_ROLE(priv) ((priv)->bss_role & BSS_ROLE_MASK)
/** mlan_data_frame_type */
typedef enum _mlan_data_frame_type {
MLAN_DATA_FRAME_TYPE_ETH_II = 0,
MLAN_DATA_FRAME_TYPE_802_11,
} mlan_data_frame_type;
/** mlan_event_id */
typedef enum _mlan_event_id {
/* Event generated by firmware (MSB=0) */
MLAN_EVENT_ID_FW_UNKNOWN = 0x00000001,
MLAN_EVENT_ID_FW_ADHOC_LINK_SENSED = 0x00000002,
MLAN_EVENT_ID_FW_ADHOC_LINK_LOST = 0x00000003,
MLAN_EVENT_ID_FW_DISCONNECTED = 0x00000004,
MLAN_EVENT_ID_FW_MIC_ERR_UNI = 0x00000005,
MLAN_EVENT_ID_FW_MIC_ERR_MUL = 0x00000006,
MLAN_EVENT_ID_FW_BCN_RSSI_LOW = 0x00000007,
MLAN_EVENT_ID_FW_BCN_RSSI_HIGH = 0x00000008,
MLAN_EVENT_ID_FW_BCN_SNR_LOW = 0x00000009,
MLAN_EVENT_ID_FW_BCN_SNR_HIGH = 0x0000000A,
MLAN_EVENT_ID_FW_MAX_FAIL = 0x0000000B,
MLAN_EVENT_ID_FW_DATA_RSSI_LOW = 0x0000000C,
MLAN_EVENT_ID_FW_DATA_RSSI_HIGH = 0x0000000D,
MLAN_EVENT_ID_FW_DATA_SNR_LOW = 0x0000000E,
MLAN_EVENT_ID_FW_DATA_SNR_HIGH = 0x0000000F,
MLAN_EVENT_ID_FW_LINK_QUALITY = 0x00000010,
MLAN_EVENT_ID_FW_PORT_RELEASE = 0x00000011,
MLAN_EVENT_ID_FW_PRE_BCN_LOST = 0x00000012,
MLAN_EVENT_ID_FW_DEBUG_INFO = 0x00000013,
MLAN_EVENT_ID_FW_WMM_CONFIG_CHANGE = 0x0000001A,
MLAN_EVENT_ID_FW_HS_WAKEUP = 0x0000001B,
MLAN_EVENT_ID_FW_BG_SCAN = 0x0000001D,
MLAN_EVENT_ID_FW_BG_SCAN_STOPPED = 0x0000001E,
MLAN_EVENT_ID_FW_WEP_ICV_ERR = 0x00000020,
MLAN_EVENT_ID_FW_STOP_TX = 0x00000021,
MLAN_EVENT_ID_FW_START_TX = 0x00000022,
MLAN_EVENT_ID_FW_CHANNEL_SWITCH_ANN = 0x00000023,
MLAN_EVENT_ID_FW_RADAR_DETECTED = 0x00000024,
MLAN_EVENT_ID_FW_CHANNEL_REPORT_RDY = 0x00000025,
MLAN_EVENT_ID_FW_BW_CHANGED = 0x00000026,
MLAN_EVENT_ID_FW_REMAIN_ON_CHAN_EXPIRED = 0x0000002B,
#ifdef UAP_SUPPORT
MLAN_EVENT_ID_UAP_FW_BSS_START = 0x0000002C,
MLAN_EVENT_ID_UAP_FW_BSS_ACTIVE = 0x0000002D,
MLAN_EVENT_ID_UAP_FW_BSS_IDLE = 0x0000002E,
MLAN_EVENT_ID_UAP_FW_MIC_COUNTERMEASURES = 0x0000002F,
MLAN_EVENT_ID_UAP_FW_STA_CONNECT = 0x00000030,
MLAN_EVENT_ID_UAP_FW_STA_DISCONNECT = 0x00000031,
#endif
MLAN_EVENT_ID_FW_DUMP_INFO = 0x00000033,
MLAN_EVENT_ID_FW_TX_STATUS = 0x00000034,
MLAN_EVENT_ID_FW_CHAN_SWITCH_COMPLETE = 0x00000036,
#if defined(PCIE)
MLAN_EVENT_ID_SSU_DUMP_FILE = 0x00000039,
#endif /* SSU_SUPPORT */
/* Event generated by MLAN driver (MSB=1) */
MLAN_EVENT_ID_DRV_CONNECTED = 0x80000001,
MLAN_EVENT_ID_DRV_DEFER_HANDLING = 0x80000002,
MLAN_EVENT_ID_DRV_HS_ACTIVATED = 0x80000003,
MLAN_EVENT_ID_DRV_HS_DEACTIVATED = 0x80000004,
MLAN_EVENT_ID_DRV_MGMT_FRAME = 0x80000005,
MLAN_EVENT_ID_DRV_OBSS_SCAN_PARAM = 0x80000006,
MLAN_EVENT_ID_DRV_PASSTHRU = 0x80000007,
MLAN_EVENT_ID_DRV_SCAN_REPORT = 0x80000009,
MLAN_EVENT_ID_DRV_MEAS_REPORT = 0x8000000A,
MLAN_EVENT_ID_DRV_ASSOC_FAILURE_REPORT = 0x8000000B,
MLAN_EVENT_ID_DRV_REPORT_STRING = 0x8000000F,
MLAN_EVENT_ID_DRV_DBG_DUMP = 0x80000012,
MLAN_EVENT_ID_DRV_BGSCAN_RESULT = 0x80000013,
MLAN_EVENT_ID_DRV_FLUSH_RX_WORK = 0x80000015,
MLAN_EVENT_ID_DRV_DEFER_RX_WORK = 0x80000016,
MLAN_EVENT_ID_DRV_TDLS_TEARDOWN_REQ = 0x80000017,
MLAN_EVENT_ID_DRV_FT_RESPONSE = 0x80000018,
MLAN_EVENT_ID_DRV_FLUSH_MAIN_WORK = 0x80000019,
#ifdef UAP_SUPPORT
MLAN_EVENT_ID_DRV_UAP_CHAN_INFO = 0x80000020,
#endif
MLAN_EVENT_ID_DRV_ASSOC_FAILURE_LOGGER = 0x80000026,
MLAN_EVENT_ID_DRV_ASSOC_SUCC_LOGGER = 0x80000027,
MLAN_EVENT_ID_DRV_DISCONNECT_LOGGER = 0x80000028,
MLAN_EVENT_ID_DRV_WIFI_STATUS = 0x80000029,
MLAN_EVENT_ID_STORE_HOST_CMD_RESP = 0x80000030,
} mlan_event_id;
/** Data Structures */
/** mlan_image data structure */
typedef struct _mlan_fw_image {
/** Firmware image buffer pointer */
t_u8 *pfw_buf;
/** Firmware image length */
t_u32 fw_len;
/** Firmware reload flag */
t_u8 fw_reload;
} mlan_fw_image, *pmlan_fw_image;
/** MrvlIEtypesHeader_t */
typedef MLAN_PACK_START struct _MrvlIEtypesHeader {
/** Header type */
t_u16 type;
/** Header length */
t_u16 len;
} MLAN_PACK_END MrvlIEtypesHeader_t;
/** MrvlExtIEtypesHeader_t */
typedef MLAN_PACK_START struct _MrvlExtIEtypesHeader {
/** Header type */
t_u16 type;
/** Header length */
t_u16 len;
/** ext id */
t_u8 ext_id;
} MLAN_PACK_END MrvlExtIEtypesHeader_t;
/** MrvlIEtypes_Data_t */
typedef MLAN_PACK_START struct _MrvlExtIEtypes_Data_t {
/** Header */
MrvlExtIEtypesHeader_t header;
/** Data */
t_u8 data[];
} MLAN_PACK_END MrvlExtIEtypes_Data_t;
/** MrvlIEtypes_Data_t */
typedef MLAN_PACK_START struct _MrvlIEtypes_Data_t {
/** Header */
MrvlIEtypesHeader_t header;
/** Data */
t_u8 data[];
} MLAN_PACK_END MrvlIEtypes_Data_t;
#define OID_TYPE_CAL 0x2
#define OID_TYPE_DPD 0xa
#define UNKNOW_DPD_LENGTH 0xffffffff
/** Custom data structure */
typedef struct _mlan_init_param {
/** DPD data buffer pointer */
t_u8 *pdpd_data_buf;
/** DPD data length */
t_u32 dpd_data_len;
/** region txpowerlimit cfg data buffer pointer */
t_u8 *ptxpwr_data_buf;
/** region txpowerlimit cfg data length */
t_u32 txpwr_data_len;
/** Cal data buffer pointer */
t_u8 *pcal_data_buf;
/** Cal data length */
t_u32 cal_data_len;
/** Other custom data */
} mlan_init_param, *pmlan_init_param;
/** channel type */
enum mlan_channel_type {
CHAN_NO_HT,
CHAN_HT20,
CHAN_HT40MINUS,
CHAN_HT40PLUS,
CHAN_VHT80
};
/** 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,
};
/** scan mode */
enum { SCAN_MODE_MANUAL = 0,
SCAN_MODE_ACS,
SCAN_MODE_USER,
};
/** DFS state */
typedef enum _dfs_state_t {
/** Channel can be used, CAC (Channel Availability Check) must be done
before using it */
DFS_USABLE = 0,
/** Channel is not available, radar was detected */
DFS_UNAVAILABLE = 1,
/** Channel is Available, CAC is done and is free of radar */
DFS_AVAILABLE = 2,
} dfs_state_t;
/** max cac time 10 minutes */
#define MAX_CAC_DWELL_TIME 600000
/** default cac time 60 seconds */
#define DEF_CAC_DWELL_TIME 60000
/** start freq for 5G */
#define START_FREQ_11A_BAND 5000
typedef enum _dfs_w53_cfg_t {
/** DFS W53 Default Fw Value */
DFS_W53_DEFAULT_FW = 0,
/** DFS W53 New W53 Rules/Standard */
DFS_W53_NEW = 1,
/** DFS W53 Old W53 Rules/Standard */
DFS_W53_OLD = 2
} dfs_w53_cfg_t;
/** Band_Config_t */
typedef MLAN_PACK_START 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
} MLAN_PACK_END Band_Config_t;
/** channel_band_t */
typedef MLAN_PACK_START struct _chan_band_info {
/** Band Configuration */
Band_Config_t bandcfg;
/** channel */
t_u8 channel;
/** 11n flag */
t_u8 is_11n_enabled;
/** center channel */
t_u8 center_chan;
/** dfs channel flag */
t_u8 is_dfs_chan;
} MLAN_PACK_END chan_band_info;
/** Channel usability flags */
#define NXP_CHANNEL_NO_OFDM MBIT(9)
#define NXP_CHANNEL_NO_CCK MBIT(8)
#define NXP_CHANNEL_DISABLED MBIT(7)
/* BIT 5/6 resevered for FW */
#define NXP_CHANNEL_NOHT160 MBIT(4)
#define NXP_CHANNEL_NOHT80 MBIT(3)
#define NXP_CHANNEL_NOHT40 MBIT(2)
#define NXP_CHANNEL_DFS MBIT(1)
#define NXP_CHANNEL_PASSIVE MBIT(0)
/** CFP dynamic (non-const) elements */
typedef struct _cfp_dyn_t {
/** extra flags to specify channel usability
* bit 9 : if set, channel is non-OFDM
* bit 8 : if set, channel is non-CCK
* bit 7 : if set, channel is disabled
* bit 5/6 resevered for FW
* bit 4 : if set, 160MHz on channel is disabled
* bit 3 : if set, 80MHz on channel is disabled
* bit 2 : if set, 40MHz on channel is disabled
* bit 1 : if set, channel is DFS channel
* bit 0 : if set, channel is passive
*/
t_u16 flags;
/** TRUE: Channel is blacklisted (do not use) */
t_bool blacklist;
/** DFS state of the channel
* 0:DFS_USABLE 1:DFS_AVAILABLE 2:DFS_UNAVAILABLE */
dfs_state_t dfs_state;
} cfp_dyn_t;
/** Chan-Freq-TxPower mapping table*/
typedef struct _chan_freq_power_t {
/** Channel Number */
t_u16 channel;
/** Frequency of this Channel */
t_u32 freq;
/** Max allowed Tx power level */
t_u16 max_tx_power;
/** TRUE:radar detect required for BAND A or passive scan for BAND B/G;
* FALSE:radar detect not required for BAND A or active scan for BAND
* B/G*/
t_bool passive_scan_or_radar_detect;
/** Elements associated to cfp that change at run-time */
cfp_dyn_t dynamic;
} chan_freq_power_t;
/** mlan_event data structure */
typedef struct _mlan_event {
/** BSS index number for multiple BSS support */
t_u32 bss_index;
/** Event ID */
mlan_event_id event_id;
/** Event length */
t_u32 event_len;
/** Event buffer */
t_u8 event_buf[];
} mlan_event, *pmlan_event;
/** mlan_cmdresp_event data structure */
typedef struct _mlan_cmdresp_event {
/** BSS index number for multiple BSS support */
t_u32 bss_index;
/** Event ID */
mlan_event_id event_id;
/** Event length */
t_u32 event_len;
/** resp buffer pointer */
t_u8 *resp;
} mlan_cmdresp_event, *pmlan_cmdresp_event;
/** csi event data structure */
/** mlan_ioctl_req data structure */
typedef struct _mlan_ioctl_req {
/** Pointer to previous mlan_ioctl_req */
struct _mlan_ioctl_req *pprev;
/** Pointer to next mlan_ioctl_req */
struct _mlan_ioctl_req *pnext;
/** Status code from firmware/driver */
t_u32 status_code;
/** BSS index number for multiple BSS support */
t_u32 bss_index;
/** Request id */
t_u32 req_id;
/** Action: set or get */
t_u32 action;
/** Pointer to buffer */
t_u8 *pbuf;
/** Length of buffer */
t_u32 buf_len;
/** Length of the data read/written in buffer */
t_u32 data_read_written;
/** Length of buffer needed */
t_u32 buf_len_needed;
/** Reserved for MOAL module */
t_ptr reserved_1;
} mlan_ioctl_req, *pmlan_ioctl_req;
/** txpower structure */
typedef MLAN_PACK_START struct {
#ifdef BIG_ENDIAN_SUPPORT
/** Host tx power ctrl:
0x0: use fw setting for TX power
0x1: value specified in bit[6] and bit[5:0] are valid */
t_u8 hostctl : 1;
/** Sign of the power specified in bit[5:0] */
t_u8 sign : 1;
/** Power to be used for transmission(in dBm) */
t_u8 abs_val : 6;
#else
/** Power to be used for transmission(in dBm) */
t_u8 abs_val : 6;
/** Sign of the power specified in bit[5:0] */
t_u8 sign : 1;
/** Host tx power ctrl:
0x0: use fw setting for TX power
0x1: value specified in bit[6] and bit[5:0] are valid */
t_u8 hostctl : 1;
#endif
} MLAN_PACK_END tx_power_t;
/* pkt_txctrl */
typedef MLAN_PACK_START struct _pkt_txctrl {
/**Data rate in unit of 0.5Mbps */
t_u16 data_rate;
/*Channel number to transmit the frame */
t_u8 channel;
/** Bandwidth to transmit the frame*/
t_u8 bw;
/** Power to be used for transmission*/
union {
tx_power_t tp;
t_u8 val;
} tx_power;
/** Retry time of tx transmission*/
t_u8 retry_limit;
} MLAN_PACK_END pkt_txctrl, *ppkt_txctrl;
/** pkt_rxinfo */
typedef MLAN_PACK_START struct _pkt_rxinfo {
/** Data rate of received paccket*/
t_u16 data_rate;
/** Channel on which packet was received*/
t_u8 channel;
/** Rx antenna*/
t_u8 antenna;
/** Rx Rssi*/
t_u8 rssi;
} MLAN_PACK_END pkt_rxinfo, *ppkt_rxinfo;
/** mlan_buffer data structure */
typedef struct _mlan_buffer {
/** Pointer to previous mlan_buffer */
struct _mlan_buffer *pprev;
/** Pointer to next mlan_buffer */
struct _mlan_buffer *pnext;
/** Status code from firmware/driver */
t_u32 status_code;
/** Flags for this buffer */
t_u32 flags;
/** BSS index number for multiple BSS support */
t_u32 bss_index;
/** Buffer descriptor, e.g. skb in Linux */
t_void *pdesc;
/** Pointer to buffer */
t_u8 *pbuf;
#ifdef PCIE
/** Physical address of the pbuf pointer */
t_u64 buf_pa;
t_u32 total_pcie_buf_len;
#endif
/** Offset to data */
t_u32 data_offset;
/** Data length */
t_u32 data_len;
/** Buffer type: data, cmd, event etc. */
mlan_buf_type buf_type;
/** Fields below are valid for data packet only */
/** QoS priority */
t_u32 priority;
/** Time stamp when packet is received (seconds) */
t_u32 in_ts_sec;
/** Time stamp when packet is received (micro seconds) */
t_u32 in_ts_usec;
/** Time stamp when packet is processed (seconds) */
t_u32 out_ts_sec;
/** Time stamp when packet is processed (micro seconds) */
t_u32 out_ts_usec;
/** tx_seq_num */
t_u32 tx_seq_num;
/** Time stamp when packet is deque from rx_q(seconds) */
t_u32 extra_ts_sec;
/** Time stamp when packet is dequed from rx_q(micro seconds) */
t_u32 extra_ts_usec;
/** Fields below are valid for MLAN module only */
/** Pointer to parent mlan_buffer */
struct _mlan_buffer *pparent;
/** Use count for this buffer */
t_u32 use_count;
union {
pkt_txctrl tx_info;
pkt_rxinfo rx_info;
} u;
} mlan_buffer, *pmlan_buffer, **ppmlan_buffer;
/** mlan_hw_info data structure */
typedef struct _mlan_hw_info {
t_u32 fw_cap;
t_u32 fw_cap_ext;
} mlan_hw_info, *pmlan_hw_info;
/** mlan_bss_attr data structure */
typedef struct _mlan_bss_attr {
/** BSS type */
t_u32 bss_type;
/** Data frame type: Ethernet II, 802.11, etc. */
t_u32 frame_type;
/** The BSS is active (non-0) or not (0). */
t_u32 active;
/** BSS Priority */
t_u32 bss_priority;
/** BSS number */
t_u32 bss_num;
/** The BSS is virtual */
t_u32 bss_virtual;
} mlan_bss_attr, *pmlan_bss_attr;
/** bss tbl data structure */
typedef struct _mlan_bss_tbl {
/** BSS Attributes */
mlan_bss_attr bss_attr[MLAN_MAX_BSS_NUM];
} mlan_bss_tbl, *pmlan_bss_tbl;
#ifdef PRAGMA_PACK
#pragma pack(push, 1)
#endif
/** Type enumeration for the command result */
typedef MLAN_PACK_START enum _mlan_cmd_result_e {
MLAN_CMD_RESULT_SUCCESS = 0,
MLAN_CMD_RESULT_FAILURE = 1,
MLAN_CMD_RESULT_TIMEOUT = 2,
MLAN_CMD_RESULT_INVALID_DATA = 3
} MLAN_PACK_END mlan_cmd_result_e;
/** Type enumeration of WMM AC_QUEUES */
typedef MLAN_PACK_START enum _mlan_wmm_ac_e {
WMM_AC_BK,
WMM_AC_BE,
WMM_AC_VI,
WMM_AC_VO
} MLAN_PACK_END mlan_wmm_ac_e;
/** Type enumeration for the action field in the Queue Config command */
typedef MLAN_PACK_START enum _mlan_wmm_queue_config_action_e {
MLAN_WMM_QUEUE_CONFIG_ACTION_GET = 0,
MLAN_WMM_QUEUE_CONFIG_ACTION_SET = 1,
MLAN_WMM_QUEUE_CONFIG_ACTION_DEFAULT = 2,
MLAN_WMM_QUEUE_CONFIG_ACTION_MAX
} MLAN_PACK_END mlan_wmm_queue_config_action_e;
/** Type enumeration for the action field in the queue stats command */
typedef MLAN_PACK_START enum _mlan_wmm_queue_stats_action_e {
MLAN_WMM_STATS_ACTION_START = 0,
MLAN_WMM_STATS_ACTION_STOP = 1,
MLAN_WMM_STATS_ACTION_GET_CLR = 2,
MLAN_WMM_STATS_ACTION_SET_CFG = 3, /* Not currently used */
MLAN_WMM_STATS_ACTION_GET_CFG = 4, /* Not currently used */
MLAN_WMM_STATS_ACTION_MAX
} MLAN_PACK_END mlan_wmm_queue_stats_action_e;
/**
* @brief IOCTL structure for a Traffic stream status.
*
*/
typedef MLAN_PACK_START struct {
/** TSID: Range: 0->7 */
t_u8 tid;
/** TSID specified is valid */
t_u8 valid;
/** AC TSID is active on */
t_u8 access_category;
/** UP specified for the TSID */
t_u8 user_priority;
/** Power save mode for TSID: 0 (legacy), 1 (UAPSD) */
t_u8 psb;
/** Upstream(0), Downlink(1), Bidirectional(3) */
t_u8 flow_dir;
/** Medium time granted for the TSID */
t_u16 medium_time;
} MLAN_PACK_END wlan_ioctl_wmm_ts_status_t,
/** Type definition of mlan_ds_wmm_ts_status for
MLAN_OID_WMM_CFG_TS_STATUS */
mlan_ds_wmm_ts_status, *pmlan_ds_wmm_ts_status;
/** Max Ie length */
#define MAX_IE_SIZE 256
/** custom IE */
typedef MLAN_PACK_START struct _custom_ie {
/** IE Index */
t_u16 ie_index;
/** Mgmt Subtype Mask */
t_u16 mgmt_subtype_mask;
/** IE Length */
t_u16 ie_length;
/** IE buffer */
t_u8 ie_buffer[MAX_IE_SIZE];
} MLAN_PACK_END custom_ie;
/** Max IE index to FW */
#define MAX_MGMT_IE_INDEX_TO_FW 4
/** Max IE index per BSS */
#define MAX_MGMT_IE_INDEX 26
/** custom IE info */
typedef MLAN_PACK_START struct _custom_ie_info {
/** size of buffer */
t_u16 buf_size;
/** no of buffers of buf_size */
t_u16 buf_count;
} MLAN_PACK_END custom_ie_info;
/** TLV buffer : Max Mgmt IE */
typedef MLAN_PACK_START struct _tlvbuf_max_mgmt_ie {
/** Type */
t_u16 type;
/** Length */
t_u16 len;
/** No of tuples */
t_u16 count;
/** custom IE info tuples */
custom_ie_info info[MAX_MGMT_IE_INDEX];
} MLAN_PACK_END tlvbuf_max_mgmt_ie;
/** TLV buffer : custom IE */
typedef MLAN_PACK_START struct _tlvbuf_custom_ie {
/** Type */
t_u16 type;
/** Length */
t_u16 len;
/** IE data */
custom_ie ie_data_list[MAX_MGMT_IE_INDEX_TO_FW];
/** Max mgmt IE TLV */
tlvbuf_max_mgmt_ie max_mgmt_ie;
} MLAN_PACK_END mlan_ds_misc_custom_ie;
/** Max TDLS config data length */
#define MAX_TDLS_DATA_LEN 1024
/** Action commands for TDLS enable/disable */
#define WLAN_TDLS_CONFIG 0x00
/** Action commands for TDLS configuration :Set */
#define WLAN_TDLS_SET_INFO 0x01
/** Action commands for TDLS configuration :Discovery Request */
#define WLAN_TDLS_DISCOVERY_REQ 0x02
/** Action commands for TDLS configuration :Setup Request */
#define WLAN_TDLS_SETUP_REQ 0x03
/** Action commands for TDLS configuration :Tear down Request */
#define WLAN_TDLS_TEAR_DOWN_REQ 0x04
/** Action ID for TDLS power mode */
#define WLAN_TDLS_POWER_MODE 0x05
/**Action ID for init TDLS Channel Switch*/
#define WLAN_TDLS_INIT_CHAN_SWITCH 0x06
/** Action ID for stop TDLS Channel Switch */
#define WLAN_TDLS_STOP_CHAN_SWITCH 0x07
/** Action ID for configure CS related parameters */
#define WLAN_TDLS_CS_PARAMS 0x08
/** Action ID for Disable CS */
#define WLAN_TDLS_CS_DISABLE 0x09
/** Action ID for TDLS link status */
#define WLAN_TDLS_LINK_STATUS 0x0A
/** Action ID for Host TDLS config uapsd and CS */
#define WLAN_HOST_TDLS_CONFIG 0x0D
/** Action ID for TDLS CS immediate return */
#define WLAN_TDLS_DEBUG_CS_RET_IM 0xFFF7
/** Action ID for TDLS Stop RX */
#define WLAN_TDLS_DEBUG_STOP_RX 0xFFF8
/** Action ID for TDLS Allow weak security for links establish */
#define WLAN_TDLS_DEBUG_ALLOW_WEAK_SECURITY 0xFFF9
/** Action ID for TDLS Ignore key lifetime expiry */
#define WLAN_TDLS_DEBUG_IGNORE_KEY_EXPIRY 0xFFFA
/** Action ID for TDLS Higher/Lower mac Test */
#define WLAN_TDLS_DEBUG_HIGHER_LOWER_MAC 0xFFFB
/** Action ID for TDLS Prohibited Test */
#define WLAN_TDLS_DEBUG_SETUP_PROHIBITED 0xFFFC
/** Action ID for TDLS Existing link Test */
#define WLAN_TDLS_DEBUG_SETUP_SAME_LINK 0xFFFD
/** Action ID for TDLS Fail Setup Confirm */
#define WLAN_TDLS_DEBUG_FAIL_SETUP_CONFIRM 0xFFFE
/** Action commands for TDLS debug: Wrong BSS Request */
#define WLAN_TDLS_DEBUG_WRONG_BSS 0xFFFF
/** tdls each link rate information */
typedef MLAN_PACK_START struct _tdls_link_rate_info {
/** Tx Data Rate */
t_u8 tx_data_rate;
/** Tx Rate HT info*/
t_u8 tx_rate_htinfo;
} MLAN_PACK_END tdls_link_rate_info;
/** tdls each link status */
typedef MLAN_PACK_START struct _tdls_each_link_status {
/** peer mac Address */
t_u8 peer_mac[MLAN_MAC_ADDR_LENGTH];
/** Link Flags */
t_u8 link_flags;
/** Traffic Status */
t_u8 traffic_status;
/** Tx Failure Count */
t_u8 tx_fail_count;
/** Channel Number */
t_u32 active_channel;
/** Last Data RSSI in dBm */
t_s16 data_rssi_last;
/** Last Data NF in dBm */
t_s16 data_nf_last;
/** AVG DATA RSSI in dBm */
t_s16 data_rssi_avg;
/** AVG DATA NF in dBm */
t_s16 data_nf_avg;
union {
/** tdls rate info */
tdls_link_rate_info rate_info;
/** tdls link final rate*/
t_u16 final_data_rate;
} u;
/** Security Method */
t_u8 security_method;
/** Key Lifetime in milliseconds */
t_u32 key_lifetime;
/** Key Length */
t_u8 key_length;
/** actual key */
t_u8 key[1];
} MLAN_PACK_END tdls_each_link_status;
/** TDLS configuration data */
typedef MLAN_PACK_START struct _tdls_all_config {
union {
/** TDLS state enable disable */
MLAN_PACK_START struct _tdls_config {
/** enable or disable */
t_u16 enable;
} MLAN_PACK_END tdls_config;
/** Host tdls config */
MLAN_PACK_START struct _host_tdls_cfg {
/** support uapsd */
t_u8 uapsd_support;
/** channel_switch */
t_u8 cs_support;
/** TLV length */
t_u16 tlv_len;
/** tdls info */
t_u8 tlv_buffer[];
} MLAN_PACK_END host_tdls_cfg;
/** TDLS set info */
MLAN_PACK_START struct _tdls_set_data {
/** (tlv + capInfo) length */
t_u16 tlv_length;
/** Cap Info */
t_u16 cap_info;
/** TLV buffer */
t_u8 tlv_buffer[];
} MLAN_PACK_END tdls_set;
/** TDLS discovery and others having mac argument */
MLAN_PACK_START struct _tdls_discovery_data {
/** peer mac Address */
t_u8 peer_mac_addr[MLAN_MAC_ADDR_LENGTH];
} MLAN_PACK_END tdls_discovery, tdls_stop_chan_switch,
tdls_link_status_req;
/** TDLS discovery Response */
MLAN_PACK_START struct _tdls_discovery_resp {
/** payload length */
t_u16 payload_len;
/** peer mac Address */
t_u8 peer_mac_addr[MLAN_MAC_ADDR_LENGTH];
/** RSSI */
t_s8 rssi;
/** Cap Info */
t_u16 cap_info;
/** TLV buffer */
t_u8 tlv_buffer[];
} MLAN_PACK_END tdls_discovery_resp;
/** TDLS setup request */
MLAN_PACK_START struct _tdls_setup_data {
/** peer mac Address */
t_u8 peer_mac_addr[MLAN_MAC_ADDR_LENGTH];
/** timeout value in milliseconds */
t_u32 setup_timeout;
/** key lifetime in milliseconds */
t_u32 key_lifetime;
} MLAN_PACK_END tdls_setup;
/** TDLS tear down info */
MLAN_PACK_START struct _tdls_tear_down_data {
/** peer mac Address */
t_u8 peer_mac_addr[MLAN_MAC_ADDR_LENGTH];
/** reason code */
t_u16 reason_code;
} MLAN_PACK_END tdls_tear_down, tdls_cmd_resp;
/** TDLS power mode info */
MLAN_PACK_START struct _tdls_power_mode_data {
/** peer mac Address */
t_u8 peer_mac_addr[MLAN_MAC_ADDR_LENGTH];
/** Power Mode */
t_u16 power_mode;
} MLAN_PACK_END tdls_power_mode;
/** TDLS channel switch info */
MLAN_PACK_START struct _tdls_chan_switch {
/** peer mac Address */
t_u8 peer_mac_addr[MLAN_MAC_ADDR_LENGTH];
/** Channel Switch primary channel no */
t_u8 primary_channel;
/** Channel Switch secondary channel offset */
t_u8 secondary_channel_offset;
/** Channel Switch Band */
t_u8 band;
/** Channel Switch time in milliseconds */
t_u16 switch_time;
/** Channel Switch timeout in milliseconds */
t_u16 switch_timeout;
/** Channel Regulatory class*/
t_u8 regulatory_class;
/** peridicity flag*/
t_u8 periodicity;
} MLAN_PACK_END tdls_chan_switch;
/** TDLS channel switch paramters */
MLAN_PACK_START struct _tdls_cs_params {
/** unit time, multiples of 10ms */
t_u8 unit_time;
/** threshold for other link */
t_u8 threshold_otherlink;
/** threshold for direct link */
t_u8 threshold_directlink;
} MLAN_PACK_END tdls_cs_params;
/** tdls disable channel switch */
MLAN_PACK_START struct _tdls_disable_cs {
/** Data*/
t_u16 data;
} MLAN_PACK_END tdls_disable_cs;
/** TDLS debug data */
MLAN_PACK_START struct _tdls_debug_data {
/** debug data */
t_u16 debug_data;
} MLAN_PACK_END tdls_debug_data;
/** TDLS link status Response */
MLAN_PACK_START struct _tdls_link_status_resp {
/** payload length */
t_u16 payload_len;
/** number of links */
t_u8 active_links;
/** structure for link status */
tdls_each_link_status link_stats[1];
} MLAN_PACK_END tdls_link_status_resp;
} u;
} MLAN_PACK_END tdls_all_config;
/** TDLS configuration buffer */
typedef MLAN_PACK_START struct _buf_tdls_config {
/** TDLS Action */
t_u16 tdls_action;
/** TDLS data */
t_u8 tdls_data[MAX_TDLS_DATA_LEN];
} MLAN_PACK_END mlan_ds_misc_tdls_config;
/** Event structure for tear down */
typedef struct _tdls_tear_down_event {
/** Peer mac address */
t_u8 peer_mac_addr[MLAN_MAC_ADDR_LENGTH];
/** Reason code */
t_u16 reason_code;
} tdls_tear_down_event;
/** channel width */
typedef enum wifi_channel_width {
WIFI_CHAN_WIDTH_20 = 0,
WIFI_CHAN_WIDTH_40 = 1,
WIFI_CHAN_WIDTH_80 = 2,
WIFI_CHAN_WIDTH_160 = 3,
WIFI_CHAN_WIDTH_80P80 = 4,
WIFI_CHAN_WIDTH_5 = 5,
WIFI_CHAN_WIDTH_10 = 6,
WIFI_CHAN_WIDTH_INVALID = -1
} wifi_channel_width_t;
/** channel information */
typedef struct {
/** channel width (20, 40, 80, 80+80, 160) */
wifi_channel_width_t width;
/** primary 20 MHz channel */
int center_freq;
/** center frequency (MHz) first segment */
int center_freq0;
/** center frequency (MHz) second segment */
int center_freq1;
} wifi_channel_info;
/** wifi rate */
typedef struct {
/** 0: OFDM, 1:CCK, 2:HT 3:VHT 4..7 reserved */
t_u32 preamble : 3;
/** 0:1x1, 1:2x2, 3:3x3, 4:4x4 */
t_u32 nss : 2;
/** 0:20MHz, 1:40Mhz, 2:80Mhz, 3:160Mhz */
t_u32 bw : 3;
/** OFDM/CCK rate code would be as per ieee std in the units of 0.5mbps
*/
/** HT/VHT it would be mcs index */
t_u32 rateMcsIdx : 8;
/** reserved */
t_u32 reserved : 16;
/** units of 100 Kbps */
t_u32 bitrate;
} wifi_rate;
/** wifi Preamble type */
typedef enum {
WIFI_PREAMBLE_LEGACY = 0x1,
WIFI_PREAMBLE_HT = 0x2,
WIFI_PREAMBLE_VHT = 0x4
} wifi_preamble;
/** timeval */
typedef struct {
/** Time (seconds) */
t_u32 time_sec;
/** Time (micro seconds) */
t_u32 time_usec;
} wifi_timeval;
#define MAX_NUM_RATE 32
#define MAX_RADIO 2
#define MAX_NUM_CHAN 1
#define VHT_NUM_SUPPORT_MCS 10
#define MCS_NUM_SUPP 16
#define BUF_MAXLEN 4096
/** connection state */
typedef enum {
MLAN_DISCONNECTED = 0,
MLAN_AUTHENTICATING = 1,
MLAN_ASSOCIATING = 2,
MLAN_ASSOCIATED = 3,
/** if done by firmware/driver */
MLAN_EAPOL_STARTED = 4,
/** if done by firmware/driver */
MLAN_EAPOL_COMPLETED = 5,
} mlan_connection_state;
/** roam state */
typedef enum {
MLAN_ROAMING_IDLE = 0,
MLAN_ROAMING_ACTIVE = 1,
} mlan_roam_state;
/** interface mode */
typedef enum {
MLAN_INTERFACE_STA = 0,
MLAN_INTERFACE_SOFTAP = 1,
MLAN_INTERFACE_IBSS = 2,
MLAN_INTERFACE_P2P_CLIENT = 3,
MLAN_INTERFACE_P2P_GO = 4,
MLAN_INTERFACE_NAN = 5,
MLAN_INTERFACE_MESH = 6,
} mlan_interface_mode;
/** set for QOS association */
#define MLAN_CAPABILITY_QOS 0x00000001
/** set for protected association (802.11 beacon frame control protected bit
* set) */
#define MLAN_CAPABILITY_PROTECTED 0x00000002
/** set if 802.11 Extended Capabilities element interworking bit is set */
#define MLAN_CAPABILITY_INTERWORKING 0x00000004
/** set for HS20 association */
#define MLAN_CAPABILITY_HS20 0x00000008
/** set is 802.11 Extended Capabilities element UTF-8 SSID bit is set */
#define MLAN_CAPABILITY_SSID_UTF8 0x00000010
/** set is 802.11 Country Element is present */
#define MLAN_CAPABILITY_COUNTRY 0x00000020
/** link layer status */
typedef struct {
/** interface mode */
mlan_interface_mode mode;
/** interface mac address (self) */
t_u8 mac_addr[6];
/** connection state (valid for STA, CLI only) */
mlan_connection_state state;
/** roaming state */
mlan_roam_state roaming;
/** WIFI_CAPABILITY_XXX (self) */
t_u32 capabilities;
/** null terminated SSID */
t_u8 ssid[33];
/** bssid */
t_u8 bssid[6];
/** country string advertised by AP */
t_u8 ap_country_str[3];
/** country string for this association */
t_u8 country_str[3];
} mlan_interface_link_layer_info, *mlan_interface_handle;
/** channel statistics */
typedef struct {
/** channel */
wifi_channel_info channel;
/** msecs the radio is awake (32 bits number accruing over time) */
t_u32 on_time;
/** msecs the CCA register is busy (32 bits number accruing over time)
*/
t_u32 cca_busy_time;
} wifi_channel_stat;
#define timeval_to_msec(timeval) \
(t_u64)((t_u64)(timeval.time_sec) * 1000 + \
(t_u64)(timeval.time_usec) / 1000)
#define timeval_to_usec(timeval) \
(t_u64)((t_u64)(timeval.time_sec) * 1000 * 1000 + \
(t_u64)(timeval.time_usec))
#define is_zero_timeval(timeval) \
((timeval.time_sec == 0) && (timeval.time_usec == 0))
/** radio statistics */
typedef struct {
/** wifi radio (if multiple radio supported) */
int radio;
/** msecs the radio is awake (32 bits number accruing over time) */
t_u32 on_time;
/** msecs the radio is transmitting (32 bits number accruing over time)
*/
t_u32 tx_time;
/** TBD: num_tx_levels: number of radio transmit power levels */
t_u32 reserved0;
/** TBD: tx_time_per_levels: pointer to an array of radio transmit per
* power levels in msecs accured over time */
/* t_u32 *reserved1;*/
/** msecs the radio is in active receive (32 bits number accruing over
* time) */
t_u32 rx_time;
/** msecs the radio is awake due to all scan (32 bits number accruing
* over time) */
t_u32 on_time_scan;
/** msecs the radio is awake due to NAN (32 bits number accruing over
* time) */
t_u32 on_time_nbd;
/** msecs the radio is awake due to G?scan (32 bits number accruing over
* time) */
t_u32 on_time_gscan;
/** msecs the radio is awake due to roam?scan (32 bits number accruing
* over time) */
t_u32 on_time_roam_scan;
/** msecs the radio is awake due to PNO scan (32 bits number accruing
* over time) */
t_u32 on_time_pno_scan;
/** msecs the radio is awake due to HS2.0 scans and GAS exchange (32
* bits number accruing over time) */
t_u32 on_time_hs20;
/** number of channels */
t_u32 num_channels;
/** channel statistics */
wifi_channel_stat channels[MAX_NUM_CHAN];
} wifi_radio_stat;
/** per rate statistics */
typedef struct {
/** rate information */
wifi_rate rate;
/** number of successfully transmitted data pkts (ACK rcvd) */
t_u32 tx_mpdu;
/** number of received data pkts */
t_u32 rx_mpdu;
/** number of data packet losses (no ACK) */
t_u32 mpdu_lost;
/** total number of data pkt retries */
t_u32 retries;
/** number of short data pkt retries */
t_u32 retries_short;
/** number of long data pkt retries */
t_u32 retries_long;
} wifi_rate_stat;
/** wifi peer type */
typedef enum {
WIFI_PEER_STA,
WIFI_PEER_AP,
WIFI_PEER_P2P_GO,
WIFI_PEER_P2P_CLIENT,
WIFI_PEER_NAN,
WIFI_PEER_TDLS,
WIFI_PEER_INVALID,
} wifi_peer_type;
/** per peer statistics */
typedef struct {
/** peer type (AP, TDLS, GO etc.) */
wifi_peer_type type;
/** mac address */
t_u8 peer_mac_address[6];
/** peer WIFI_CAPABILITY_XXX */
t_u32 capabilities;
/** number of rates */
t_u32 num_rate;
/** per rate statistics, number of entries = num_rate */
wifi_rate_stat rate_stats[];
} wifi_peer_info;
/** per access category statistics */
typedef struct {
/** access category (VI, VO, BE, BK) */
mlan_wmm_ac_e ac;
/** number of successfully transmitted unicast data pkts (ACK rcvd) */
t_u32 tx_mpdu;
/** number of received unicast mpdus */
t_u32 rx_mpdu;
/** number of succesfully transmitted multicast data packets */
/** STA case: implies ACK received from AP for the unicast packet in
* which mcast pkt was sent */
t_u32 tx_mcast;
/** number of received multicast data packets */
t_u32 rx_mcast;
/** number of received unicast a-mpdus */
t_u32 rx_ampdu;
/** number of transmitted unicast a-mpdus */
t_u32 tx_ampdu;
/** number of data pkt losses (no ACK) */
t_u32 mpdu_lost;
/** total number of data pkt retries */
t_u32 retries;
/** number of short data pkt retries */
t_u32 retries_short;
/** number of long data pkt retries */
t_u32 retries_long;
/** data pkt min contention time (usecs) */
t_u32 contention_time_min;
/** data pkt max contention time (usecs) */
t_u32 contention_time_max;
/** data pkt avg contention time (usecs) */
t_u32 contention_time_avg;
/** num of data pkts used for contention statistics */
t_u32 contention_num_samples;
} wifi_wmm_ac_stat;
/** interface statistics */
typedef struct {
/** wifi interface */
/* wifi_interface_handle iface;*/
/** current state of the interface */
mlan_interface_link_layer_info info;
/** access point beacon received count from connected AP */
t_u32 beacon_rx;
/** Average beacon offset encountered (beacon_TSF - TBTT)
* the average_tsf_offset field is used so as to calculate the
* typical beacon contention time on the channel as well may be
* used to debug beacon synchronization and related power consumption
* issue
*/
t_u64 average_tsf_offset;
/** indicate that this AP typically leaks packets beyond the driver
* guard time */
t_u32 leaky_ap_detected;
/** average number of frame leaked by AP after frame with PM bit set was
* ACK'ed by AP */
t_u32 leaky_ap_avg_num_frames_leaked;
/** Guard time currently in force (when implementing IEEE power
* management based on frame control PM bit), How long driver waits
* before shutting down the radio and after receiving an ACK for a data
* frame with PM bit set)
*/
t_u32 leaky_ap_guard_time;
/** access point mgmt frames received count from connected AP (including
* Beacon) */
t_u32 mgmt_rx;
/** action frames received count */
t_u32 mgmt_action_rx;
/** action frames transmit count */
t_u32 mgmt_action_tx;
/** access Point Beacon and Management frames RSSI (averaged) */
t_s32 rssi_mgmt;
/** access Point Data Frames RSSI (averaged) from connected AP */
t_s32 rssi_data;
/** access Point ACK RSSI (averaged) from connected AP */
t_s32 rssi_ack;
/** per ac data packet statistics */
wifi_wmm_ac_stat ac[MAX_AC_QUEUES];
/** number of peers */
t_u32 num_peers;
/** per peer statistics */
wifi_peer_info peer_info[];
} wifi_iface_stat;
/** link layer stat configuration params */
typedef struct {
/** threshold to classify the pkts as short or long */
t_u32 mpdu_size_threshold;
/** wifi statistics bitmap */
t_u32 aggressive_statistics_gathering;
} wifi_link_layer_params;
/** wifi statistics bitmap */
#define WIFI_STATS_RADIO 0x00000001 /** all radio statistics */
#define WIFI_STATS_RADIO_CCA \
0x00000002 /** cca_busy_time (within radio statistics) */
#define WIFI_STATS_RADIO_CHANNELS \
0x00000004 /** all channel statistics (within radio statistics) */
#define WIFI_STATS_RADIO_SCAN \
0x00000008 /** all scan statistics (within radio statistics) */
#define WIFI_STATS_IFACE 0x00000010 /** all interface statistics */
#define WIFI_STATS_IFACE_TXRATE \
0x00000020 /** all tx rate statistics (within interface statistics) */
#define WIFI_STATS_IFACE_AC \
0x00000040 /** all ac statistics (within interface statistics) */
#define WIFI_STATS_IFACE_CONTENTION \
0x00000080 /** all contention (min, max, avg) statistics (within ac \
statisctics) */
/** station stats */
typedef struct _sta_stats {
t_u64 last_rx_in_msec;
} sta_stats;
#ifdef PRAGMA_PACK
#pragma pack(pop)
#endif
/** mlan_callbacks data structure */
typedef struct _mlan_callbacks {
/** moal_get_fw_data */
mlan_status (*moal_get_fw_data)(t_void *pmoal, t_u32 offset, t_u32 len,
t_u8 *pbuf);
mlan_status (*moal_get_vdll_data)(t_void *pmoal, t_u32 len, t_u8 *pbuf);
/** moal_get_hw_spec_complete */
mlan_status (*moal_get_hw_spec_complete)(t_void *pmoal,
mlan_status status,
pmlan_hw_info phw,
pmlan_bss_tbl ptbl);
/** moal_init_fw_complete */
mlan_status (*moal_init_fw_complete)(t_void *pmoal, mlan_status status);
/** moal_shutdown_fw_complete */
mlan_status (*moal_shutdown_fw_complete)(t_void *pmoal,
mlan_status status);
/** moal_send_packet_complete */
mlan_status (*moal_send_packet_complete)(t_void *pmoal,
pmlan_buffer pmbuf,
mlan_status status);
/** moal_recv_complete */
mlan_status (*moal_recv_complete)(t_void *pmoal, pmlan_buffer pmbuf,
t_u32 port, mlan_status status);
/** moal_recv_packet */
mlan_status (*moal_recv_packet)(t_void *pmoal, pmlan_buffer pmbuf);
/** moal_recv_event */
mlan_status (*moal_recv_event)(t_void *pmoal, pmlan_event pmevent);
/** moal_ioctl_complete */
mlan_status (*moal_ioctl_complete)(t_void *pmoal,
pmlan_ioctl_req pioctl_req,
mlan_status status);
/** moal_alloc_mlan_buffer */
mlan_status (*moal_alloc_mlan_buffer)(t_void *pmoal, t_u32 size,
ppmlan_buffer pmbuf);
/** moal_free_mlan_buffer */
mlan_status (*moal_free_mlan_buffer)(t_void *pmoal, pmlan_buffer pmbuf);
#ifdef USB
/** moal_write_data_async */
mlan_status (*moal_write_data_async)(t_void *pmoal, pmlan_buffer pmbuf,
t_u32 port);
#endif /* USB */
#if defined(SDIO) || defined(PCIE)
/** moal_write_reg */
mlan_status (*moal_write_reg)(t_void *pmoal, t_u32 reg, t_u32 data);
/** moal_read_reg */
mlan_status (*moal_read_reg)(t_void *pmoal, t_u32 reg, t_u32 *data);
#endif /* SDIO || PCIE */
/** moal_write_data_sync */
mlan_status (*moal_write_data_sync)(t_void *pmoal, pmlan_buffer pmbuf,
t_u32 port, t_u32 timeout);
/** moal_read_data_sync */
mlan_status (*moal_read_data_sync)(t_void *pmoal, pmlan_buffer pmbuf,
t_u32 port, t_u32 timeout);
/** moal_malloc */
mlan_status (*moal_malloc)(t_void *pmoal, t_u32 size, t_u32 flag,
t_u8 **ppbuf);
/** moal_mfree */
mlan_status (*moal_mfree)(t_void *pmoal, t_u8 *pbuf);
/** moal_vmalloc */
mlan_status (*moal_vmalloc)(t_void *pmoal, t_u32 size, t_u8 **ppbuf);
/** moal_vfree */
mlan_status (*moal_vfree)(t_void *pmoal, t_u8 *pbuf);
#ifdef PCIE
/** moal_malloc_consistent */
mlan_status (*moal_malloc_consistent)(t_void *pmoal, t_u32 size,
t_u8 **ppbuf, t_u64 *pbuf_pa);
/** moal_mfree_consistent */
mlan_status (*moal_mfree_consistent)(t_void *pmoal, t_u32 size,
t_u8 *pbuf, t_u64 buf_pa);
/** moal_map_memory */
mlan_status (*moal_map_memory)(t_void *pmoal, t_u8 *pbuf,
t_u64 *pbuf_pa, t_u32 size, t_u32 flag);
/** moal_unmap_memory */
mlan_status (*moal_unmap_memory)(t_void *pmoal, t_u8 *pbuf,
t_u64 buf_pa, t_u32 size, t_u32 flag);
#endif /* PCIE */
/** moal_memset */
t_void *(*moal_memset)(t_void *pmoal, t_void *pmem, t_u8 byte,
t_u32 num);
/** moal_memcpy */
t_void *(*moal_memcpy)(t_void *pmoal, t_void *pdest, const t_void *psrc,
t_u32 num);
/** moal_memcpy_ext */
t_void *(*moal_memcpy_ext)(t_void *pmoal, t_void *pdest,
const t_void *psrc, t_u32 num,
t_u32 dest_size);
/** moal_memmove */
t_void *(*moal_memmove)(t_void *pmoal, t_void *pdest,
const t_void *psrc, t_u32 num);
/** moal_memcmp */
t_s32 (*moal_memcmp)(t_void *pmoal, const t_void *pmem1,
const t_void *pmem2, t_u32 num);
/** moal_udelay */
t_void (*moal_udelay)(t_void *pmoal, t_u32 udelay);
/** moal_usleep_range */
t_void (*moal_usleep_range)(t_void *pmoal, t_u32 min_delay,
t_u32 max_delay);
/** moal_get_boot_ktime */
mlan_status (*moal_get_boot_ktime)(t_void *pmoal, t_u64 *pnsec);
/** moal_get_system_time */
mlan_status (*moal_get_system_time)(t_void *pmoal, t_u32 *psec,
t_u32 *pusec);
/** moal_init_timer*/
mlan_status (*moal_init_timer)(t_void *pmoal, t_void **pptimer,
IN t_void (*callback)(t_void *pcontext),
t_void *pcontext);
/** moal_free_timer */
mlan_status (*moal_free_timer)(t_void *pmoal, t_void *ptimer);
/** moal_start_timer*/
mlan_status (*moal_start_timer)(t_void *pmoal, t_void *ptimer,
t_u8 periodic, t_u32 msec);
/** moal_stop_timer*/
mlan_status (*moal_stop_timer)(t_void *pmoal, t_void *ptimer);
/** moal_init_lock */
mlan_status (*moal_init_lock)(t_void *pmoal, t_void **pplock);
/** moal_free_lock */
mlan_status (*moal_free_lock)(t_void *pmoal, t_void *plock);
/** moal_spin_lock */
mlan_status (*moal_spin_lock)(t_void *pmoal, t_void *plock);
/** moal_spin_unlock */
mlan_status (*moal_spin_unlock)(t_void *pmoal, t_void *plock);
/** moal_print */
t_void (*moal_print)(t_void *pmoal, t_u32 level, char *pformat, IN...);
/** moal_print_netintf */
t_void (*moal_print_netintf)(t_void *pmoal, t_u32 bss_index,
t_u32 level);
/** moal_assert */
t_void (*moal_assert)(t_void *pmoal, t_u32 cond);
/** moal_hist_data_add */
t_void (*moal_hist_data_add)(t_void *pmoal, t_u32 bss_index,
t_u16 rx_rate, t_s8 snr, t_s8 nflr,
t_u8 antenna);
t_void (*moal_updata_peer_signal)(t_void *pmoal, t_u32 bss_index,
t_u8 *peer_addr, t_s8 snr, t_s8 nflr);
t_u64 (*moal_do_div)(t_u64 num, t_u32 base);
#if defined(DRV_EMBEDDED_AUTHENTICATOR) || defined(DRV_EMBEDDED_SUPPLICANT)
mlan_status (*moal_wait_hostcmd_complete)(t_void *pmoal,
t_u32 bss_index);
mlan_status (*moal_notify_hostcmd_complete)(t_void *pmoal,
t_u32 bss_index);
#endif
void (*moal_tp_accounting)(t_void *pmoal, t_void *buf,
t_u32 drop_point);
void (*moal_tp_accounting_rx_param)(t_void *pmoal, unsigned int type,
unsigned int rsvd1);
void (*moal_amsdu_tp_accounting)(t_void *pmoal, t_s32 delay,
t_s32 copy_delay);
} mlan_callbacks, *pmlan_callbacks;
/** Parameter unchanged, use MLAN default setting */
#define ROBUSTCOEX_GPIO_UNCHANGED 0
/** Parameter enabled, override MLAN default setting */
#define ROBUSTCOEX_GPIO_CFG 1
#if defined(SDIO)
/** Interrupt Mode SDIO */
#define INT_MODE_SDIO 0
/** Interrupt Mode GPIO */
#define INT_MODE_GPIO 1
/** New mode: GPIO-1 as a duplicated signal of interrupt as appear of SDIO_DAT1
*/
#define GPIO_INT_NEW_MODE 255
#endif
/** Parameter unchanged, use MLAN default setting */
#define MLAN_INIT_PARA_UNCHANGED 0
/** Parameter enabled, override MLAN default setting */
#define MLAN_INIT_PARA_ENABLED 1
/** Parameter disabled, override MLAN default setting */
#define MLAN_INIT_PARA_DISABLED 2
/** Control bit for stream 2X2 */
#define FEATURE_CTRL_STREAM_2X2 MBIT(0)
/** Control bit for DFS support */
#define FEATURE_CTRL_DFS_SUPPORT MBIT(1)
#ifdef USB
/** Control bit for winner check & not wait for FW ready event */
#define FEATURE_CTRL_USB_NEW_INIT MBIT(2)
#endif
/** Default feature control */
#define FEATURE_CTRL_DEFAULT 0xffffffff
/** Check if stream 2X2 enabled */
#define IS_STREAM_2X2(x) ((x)&FEATURE_CTRL_STREAM_2X2)
/** Check if DFS support enabled */
#define IS_DFS_SUPPORT(x) ((x)&FEATURE_CTRL_DFS_SUPPORT)
#ifdef USB
/** Check if winner check & not wait for FW ready event */
#define IS_USB_NEW_INIT(x) ((x)&FEATURE_CTRL_USB_NEW_INIT)
#endif
/*
#define DRV_MODE_NAN MBIT(4)
#define DRV_MODE_11P MBIT(5)
#define DRV_MODE_MAC80211 MBIT(6)
#define DRV_MODE_DFS MBIT(7)*/
#define DRV_MODE_MASK (MBIT(4) | MBIT(5) | MBIT(6) | MBIT(7))
/** mlan_device data structure */
typedef struct _mlan_device {
/** MOAL Handle */
t_void *pmoal_handle;
/** BSS Attributes */
mlan_bss_attr bss_attr[MLAN_MAX_BSS_NUM];
/** Callbacks */
mlan_callbacks callbacks;
#ifdef MFG_CMD_SUPPORT
/** MFG mode */
t_u32 mfg_mode;
#endif
#ifdef PCIE
t_u16 ring_size;
#endif
#if defined(SDIO)
/** SDIO interrupt mode (0: INT_MODE_SDIO, 1: INT_MODE_GPIO) */
t_u32 int_mode;
/** GPIO interrupt pin number */
t_u32 gpio_pin;
#endif
#ifdef DEBUG_LEVEL1
/** Driver debug bit masks */
t_u32 drvdbg;
#endif
/** allocate fixed buffer size for scan beacon buffer*/
t_u32 fixed_beacon_buffer;
/** SDIO MPA Tx */
t_u32 mpa_tx_cfg;
/** SDIO MPA Rx */
t_u32 mpa_rx_cfg;
#ifdef SDIO
/** SDIO Single port rx aggr */
t_u8 sdio_rx_aggr_enable;
/* see blk_queue_max_segment_size */
t_u32 max_seg_size;
/* see blk_queue_max_segments */
t_u16 max_segs;
#endif
/** Auto deep sleep */
t_u32 auto_ds;
/** IEEE PS mode */
t_u32 ps_mode;
/** Max Tx buffer size */
t_u32 max_tx_buf;
#if defined(STA_SUPPORT)
/** 802.11d configuration */
t_u32 cfg_11d;
#endif
/** Feature control bitmask */
t_u32 feature_control;
/** enable/disable rx work */
t_u8 rx_work;
/** dev cap mask */
t_u32 dev_cap_mask;
/** oob independent reset */
t_u32 indrstcfg;
/** dtim interval */
t_u16 multi_dtim;
/** IEEE ps inactivity timeout value */
t_u16 inact_tmo;
/** card type */
t_u16 card_type;
/** card rev */
t_u8 card_rev;
/** Host sleep wakeup interval */
t_u32 hs_wake_interval;
/** GPIO to indicate wakeup source */
t_u8 indication_gpio;
/** Dynamic MIMO-SISO switch for hscfg*/
t_u8 hs_mimo_switch;
#ifdef USB
/** Tx CMD endpoint address */
t_u8 tx_cmd_ep;
/** Rx CMD/EVT endpoint address */
t_u8 rx_cmd_ep;
/** Rx data endpoint address */
t_u8 rx_data_ep;
/** Tx data endpoint address */
t_u8 tx_data_ep;
#endif
/** passive to active scan */
t_u8 passive_to_active_scan;
/** uap max supported station per chip */
t_u8 uap_max_sta;
/** drv mode */
t_u32 drv_mode;
/** dfs w53 cfg */
t_u8 dfs53cfg;
/** extend enhance scan */
t_u8 ext_scan;
} mlan_device, *pmlan_device;
/** MLAN API function prototype */
#define MLAN_API
/** Registration */
MLAN_API mlan_status mlan_register(pmlan_device pmdevice,
t_void **ppmlan_adapter);
/** Un-registration */
MLAN_API mlan_status mlan_unregister(t_void *padapter);
/** Firmware Downloading */
MLAN_API mlan_status mlan_dnld_fw(t_void *padapter, pmlan_fw_image pmfw);
/** Custom data pass API */
MLAN_API mlan_status mlan_set_init_param(t_void *padapter,
pmlan_init_param pparam);
/** Firmware Initialization */
MLAN_API mlan_status mlan_init_fw(t_void *padapter);
/** Firmware Shutdown */
MLAN_API mlan_status mlan_shutdown_fw(t_void *padapter);
/** Main Process */
MLAN_API mlan_status mlan_main_process(t_void *padapter);
/** Rx process */
mlan_status mlan_rx_process(t_void *padapter, t_u8 *rx_pkts);
/** Packet Transmission */
MLAN_API mlan_status mlan_send_packet(t_void *padapter, pmlan_buffer pmbuf);
#ifdef USB
/** mlan_write_data_async_complete */
MLAN_API mlan_status mlan_write_data_async_complete(t_void *padapter,
pmlan_buffer pmbuf,
t_u32 port,
mlan_status status);
/** Packet Reception */
MLAN_API mlan_status mlan_recv(t_void *padapter, pmlan_buffer pmbuf,
t_u32 port);
#endif /* USB */
/** Packet Reception complete callback */
MLAN_API mlan_status mlan_recv_packet_complete(t_void *padapter,
pmlan_buffer pmbuf,
mlan_status status);
#if defined(SDIO) || defined(PCIE)
/** interrupt handler */
MLAN_API mlan_status mlan_interrupt(t_u16 msg_id, t_void *padapter);
#if defined(SYSKT)
/** GPIO IRQ callback function */
MLAN_API t_void mlan_hs_callback(t_void *pctx);
#endif /* SYSKT_MULTI || SYSKT */
#endif /* SDIO || PCIE */
MLAN_API t_void mlan_pm_wakeup_card(t_void *padapter, t_u8 keep_wakeup);
MLAN_API t_u8 mlan_is_main_process_running(t_void *adapter);
#ifdef PCIE
MLAN_API t_void mlan_set_int_mode(t_void *adapter, t_u32 int_mode,
t_u8 func_num);
#endif
/** mlan ioctl */
MLAN_API mlan_status mlan_ioctl(t_void *padapter, pmlan_ioctl_req pioctl_req);
/** mlan select wmm queue */
MLAN_API t_u8 mlan_select_wmm_queue(t_void *padapter, t_u8 bss_num, t_u8 tid);
/** mlan mask host interrupt */
MLAN_API mlan_status mlan_disable_host_int(t_void *padapter);
/** mlan unmask host interrupt */
MLAN_API mlan_status mlan_enable_host_int(t_void *padapter);
#endif /* !_MLAN_DECL_H_ */