4d26d7e6ba
This patch kills the ->SurpriseRemoveCount member of struct hwdata. It's not used at all so it's safe to remove it. Acked-by: Pavel Machek <pavel@ucw.cz> Signed-off-by: Pekka Enberg <penberg@kernel.org> Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
515 lines
14 KiB
C
515 lines
14 KiB
C
#ifndef __WINBOND_WBHAL_S_H
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#define __WINBOND_WBHAL_S_H
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#include <linux/types.h>
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#include <linux/if_ether.h> /* for ETH_ALEN */
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#define HAL_LED_SET_MASK 0x001c
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#define HAL_LED_SET_SHIFT 2
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/* supported RF type */
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#define RF_MAXIM_2825 0
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#define RF_MAXIM_2827 1
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#define RF_MAXIM_2828 2
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#define RF_MAXIM_2829 3
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#define RF_MAXIM_V1 15
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#define RF_AIROHA_2230 16
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#define RF_AIROHA_7230 17
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#define RF_AIROHA_2230S 18
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#define RF_WB_242 33
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#define RF_WB_242_1 34
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#define RF_DECIDE_BY_INF 255
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/*
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* ----------------------------------------------------------------
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* The follow define connect to upper layer
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* User must modify for connection between HAL and upper layer
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* ----------------------------------------------------------------
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*/
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/*
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* ==============================
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* Common define
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* ==============================
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*/
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/* Bit 5 */
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#define HAL_USB_MODE_BURST(_H) (_H->SoftwareSet & 0x20)
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/* Scan interval */
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#define SCAN_MAX_CHNL_TIME (50)
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/* For TxL2 Frame typr recognise */
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#define FRAME_TYPE_802_3_DATA 0
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#define FRAME_TYPE_802_11_MANAGEMENT 1
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#define FRAME_TYPE_802_11_MANAGEMENT_CHALLENGE 2
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#define FRAME_TYPE_802_11_CONTROL 3
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#define FRAME_TYPE_802_11_DATA 4
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#define FRAME_TYPE_PROMISCUOUS 5
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/* The follow definition is used for convert the frame------------ */
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#define DOT_11_SEQUENCE_OFFSET 22 /* Sequence control offset */
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#define DOT_3_TYPE_OFFSET 12
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#define DOT_11_MAC_HEADER_SIZE 24
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#define DOT_11_SNAP_SIZE 6
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#define DOT_11_TYPE_OFFSET 30 /* The start offset of 802.11 Frame. Type encapsulation. */
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#define DEFAULT_SIFSTIME 10
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#define DEFAULT_FRAGMENT_THRESHOLD 2346 /* No fragment */
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#define DEFAULT_MSDU_LIFE_TIME 0xffff
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#define LONG_PREAMBLE_PLUS_PLCPHEADER_TIME (144 + 48)
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#define SHORT_PREAMBLE_PLUS_PLCPHEADER_TIME (72 + 24)
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#define PREAMBLE_PLUS_SIGNAL_PLUS_SIGNALEXTENSION (16 + 4 + 6)
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#define Tsym 4
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/* Frame Type of Bits (2, 3)----------------------------------- */
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#define MAC_TYPE_MANAGEMENT 0x00
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#define MAC_TYPE_CONTROL 0x04
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#define MAC_TYPE_DATA 0x08
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#define MASK_FRAGMENT_NUMBER 0x000F
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#define SEQUENCE_NUMBER_SHIFT 4
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#define HAL_WOL_TYPE_WAKEUP_FRAME 0x01
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#define HAL_WOL_TYPE_MAGIC_PACKET 0x02
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#define HAL_KEYTYPE_WEP40 0
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#define HAL_KEYTYPE_WEP104 1
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#define HAL_KEYTYPE_TKIP 2 /* 128 bit key */
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#define HAL_KEYTYPE_AES_CCMP 3 /* 128 bit key */
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/* For VM state */
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enum {
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VM_STOP = 0,
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VM_RUNNING,
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VM_COMPLETED
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};
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/*
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* ================================
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* Normal Key table format
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* ================================
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*/
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/* The order of KEY index is MAPPING_KEY_START_INDEX > GROUP_KEY_START_INDEX */
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#define MAX_KEY_TABLE 24 /* 24 entry for storing key data */
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#define GROUP_KEY_START_INDEX 4
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#define MAPPING_KEY_START_INDEX 8
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/*
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* =========================================
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* Descriptor
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* =========================================
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*/
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#define MAX_DESCRIPTOR_BUFFER_INDEX 8 /* Have to multiple of 2 */
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#define FLAG_ERROR_TX_MASK 0x000000bf
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#define FLAG_ERROR_RX_MASK 0x0000083f
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#define FLAG_BAND_RX_MASK 0x10000000 /* Bit 28 */
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struct R00_descriptor {
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union {
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u32 value;
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#ifdef _BIG_ENDIAN_
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struct {
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u32 R00_packet_or_buffer_status:1;
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u32 R00_packet_in_fifo:1;
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u32 R00_RESERVED:2;
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u32 R00_receive_byte_count:12;
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u32 R00_receive_time_index:16;
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};
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#else
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struct {
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u32 R00_receive_time_index:16;
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u32 R00_receive_byte_count:12;
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u32 R00_RESERVED:2;
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u32 R00_packet_in_fifo:1;
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u32 R00_packet_or_buffer_status:1;
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};
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#endif
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};
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};
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struct T00_descriptor {
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union {
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u32 value;
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#ifdef _BIG_ENDIAN_
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struct {
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u32 T00_first_mpdu:1; /* for hardware use */
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u32 T00_last_mpdu:1; /* for hardware use */
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u32 T00_IsLastMpdu:1;/* 0:not 1:Yes for software used */
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u32 T00_IgnoreResult:1;/* The same mechanism with T00 setting. */
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u32 T00_RESERVED_ID:2;/* 3 bit ID reserved */
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u32 T00_tx_packet_id:4;
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u32 T00_RESERVED:4;
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u32 T00_header_length:6;
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u32 T00_frame_length:12;
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};
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#else
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struct {
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u32 T00_frame_length:12;
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u32 T00_header_length:6;
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u32 T00_RESERVED:4;
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u32 T00_tx_packet_id:4;
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u32 T00_RESERVED_ID:2; /* 3 bit ID reserved */
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u32 T00_IgnoreResult:1; /* The same mechanism with T00 setting. */
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u32 T00_IsLastMpdu:1; /* 0:not 1:Yes for software used */
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u32 T00_last_mpdu:1; /* for hardware use */
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u32 T00_first_mpdu:1; /* for hardware use */
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};
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#endif
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};
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};
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struct R01_descriptor {
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union {
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u32 value;
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#ifdef _BIG_ENDIAN_
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struct {
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u32 R01_RESERVED:3;
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u32 R01_mod_type:1;
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u32 R01_pre_type:1;
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u32 R01_data_rate:3;
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u32 R01_AGC_state:8;
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u32 R01_LNA_state:2;
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u32 R01_decryption_method:2;
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u32 R01_mic_error:1;
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u32 R01_replay:1;
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u32 R01_broadcast_frame:1;
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u32 R01_multicast_frame:1;
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u32 R01_directed_frame:1;
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u32 R01_receive_frame_antenna_selection:1;
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u32 R01_frame_receive_during_atim_window:1;
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u32 R01_protocol_version_error:1;
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u32 R01_authentication_frame_icv_error:1;
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u32 R01_null_key_to_authentication_frame:1;
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u32 R01_icv_error:1;
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u32 R01_crc_error:1;
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};
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#else
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struct {
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u32 R01_crc_error:1;
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u32 R01_icv_error:1;
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u32 R01_null_key_to_authentication_frame:1;
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u32 R01_authentication_frame_icv_error:1;
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u32 R01_protocol_version_error:1;
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u32 R01_frame_receive_during_atim_window:1;
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u32 R01_receive_frame_antenna_selection:1;
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u32 R01_directed_frame:1;
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u32 R01_multicast_frame:1;
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u32 R01_broadcast_frame:1;
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u32 R01_replay:1;
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u32 R01_mic_error:1;
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u32 R01_decryption_method:2;
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u32 R01_LNA_state:2;
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u32 R01_AGC_state:8;
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u32 R01_data_rate:3;
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u32 R01_pre_type:1;
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u32 R01_mod_type:1;
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u32 R01_RESERVED:3;
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};
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#endif
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};
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};
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struct T01_descriptor {
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union {
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u32 value;
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#ifdef _BIG_ENDIAN_
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struct {
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u32 T01_rts_cts_duration:16;
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u32 T01_fall_back_rate:3;
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u32 T01_add_rts:1;
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u32 T01_add_cts:1;
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u32 T01_modulation_type:1;
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u32 T01_plcp_header_length:1;
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u32 T01_transmit_rate:3;
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u32 T01_wep_id:2;
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u32 T01_add_challenge_text:1;
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u32 T01_inhibit_crc:1;
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u32 T01_loop_back_wep_mode:1;
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u32 T01_retry_abort_ebable:1;
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};
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#else
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struct {
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u32 T01_retry_abort_ebable:1;
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u32 T01_loop_back_wep_mode:1;
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u32 T01_inhibit_crc:1;
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u32 T01_add_challenge_text:1;
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u32 T01_wep_id:2;
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u32 T01_transmit_rate:3;
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u32 T01_plcp_header_length:1;
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u32 T01_modulation_type:1;
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u32 T01_add_cts:1;
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u32 T01_add_rts:1;
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u32 T01_fall_back_rate:3;
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u32 T01_rts_cts_duration:16;
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};
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#endif
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};
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};
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struct T02_descriptor {
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union {
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u32 value;
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#ifdef _BIG_ENDIAN_
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struct {
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u32 T02_IsLastMpdu:1; /* The same mechanism with T00 setting */
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u32 T02_IgnoreResult:1; /* The same mechanism with T00 setting. */
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u32 T02_RESERVED_ID:2; /* The same mechanism with T00 setting */
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u32 T02_Tx_PktID:4;
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u32 T02_MPDU_Cnt:4;
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u32 T02_RTS_Cnt:4;
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u32 T02_RESERVED:7;
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u32 T02_transmit_complete:1;
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u32 T02_transmit_abort_due_to_TBTT:1;
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u32 T02_effective_transmission_rate:1;
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u32 T02_transmit_without_encryption_due_to_wep_on_false:1;
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u32 T02_discard_due_to_null_wep_key:1;
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u32 T02_RESERVED_1:1;
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u32 T02_out_of_MaxTxMSDULiftTime:1;
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u32 T02_transmit_abort:1;
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u32 T02_transmit_fail:1;
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};
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#else
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struct {
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u32 T02_transmit_fail:1;
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u32 T02_transmit_abort:1;
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u32 T02_out_of_MaxTxMSDULiftTime:1;
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u32 T02_RESERVED_1:1;
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u32 T02_discard_due_to_null_wep_key:1;
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u32 T02_transmit_without_encryption_due_to_wep_on_false:1;
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u32 T02_effective_transmission_rate:1;
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u32 T02_transmit_abort_due_to_TBTT:1;
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u32 T02_transmit_complete:1;
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u32 T02_RESERVED:7;
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u32 T02_RTS_Cnt:4;
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u32 T02_MPDU_Cnt:4;
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u32 T02_Tx_PktID:4;
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u32 T02_RESERVED_ID:2; /* The same mechanism with T00 setting */
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u32 T02_IgnoreResult:1; /* The same mechanism with T00 setting. */
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u32 T02_IsLastMpdu:1; /* The same mechanism with T00 setting */
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};
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#endif
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};
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};
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struct wb35_descriptor { /* Skip length = 8 DWORD */
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/* ID for descriptor ---, The field doesn't be cleard in the operation of Descriptor definition */
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u8 Descriptor_ID;
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/* ----------------------The above region doesn't be cleared by DESCRIPTOR_RESET------ */
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u8 RESERVED[3];
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u16 FragmentThreshold;
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u8 InternalUsed; /* Only can be used by operation of descriptor definition */
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u8 Type; /* 0: 802.3 1:802.11 data frame 2:802.11 management frame */
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u8 PreambleMode;/* 0: short 1:long */
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u8 TxRate;
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u8 FragmentCount;
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u8 EapFix; /* For speed up key install */
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/* For R00 and T00 ------------------------------ */
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union {
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struct R00_descriptor R00;
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struct T00_descriptor T00;
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};
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/* For R01 and T01 ------------------------------ */
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union {
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struct R01_descriptor R01;
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struct T01_descriptor T01;
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};
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/* For R02 and T02 ------------------------------ */
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union {
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u32 R02;
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struct T02_descriptor T02;
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};
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/* For R03 and T03 ------------------------------ */
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/* For software used */
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union {
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u32 R03;
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u32 T03;
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struct {
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u8 buffer_number;
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u8 buffer_start_index;
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u16 buffer_total_size;
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};
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};
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/* For storing the buffer */
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u16 buffer_size[MAX_DESCRIPTOR_BUFFER_INDEX];
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void *buffer_address[MAX_DESCRIPTOR_BUFFER_INDEX];
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};
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#define MAX_TXVGA_EEPROM 9 /* How many word(u16) of EEPROM will be used for TxVGA */
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#define MAX_RF_PARAMETER 32
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struct txvga_for_50 {
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u8 ChanNo;
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u8 TxVgaValue;
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};
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/*
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* ==============================================
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* Device related include
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* ==============================================
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*/
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#include "wbusb_s.h"
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#include "wb35reg_s.h"
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#include "wb35tx_s.h"
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#include "wb35rx_s.h"
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/* For Hal using ============================================ */
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struct hw_data {
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/* For compatible with 33 */
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u32 revision;
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u32 BB3c_cal; /* The value for Tx calibration comes from EEPROM */
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u32 BB54_cal; /* The value for Rx calibration comes from EEPROM */
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/* For surprise remove */
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u32 SurpriseRemove; /* 0: Normal 1: Surprise remove */
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u8 IsKeyPreSet;
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u8 CalOneTime;
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u8 VCO_trim;
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u32 FragCount;
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u32 DMAFix; /* V1_DMA_FIX The variable can be removed if driver want to save mem space for V2. */
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/*
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* ===============================================
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* Definition for MAC address
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* ===============================================
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*/
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u8 PermanentMacAddress[ETH_ALEN + 2]; /* The Ethernet addr that are stored in EEPROM. + 2 to 8-byte alignment */
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u8 CurrentMacAddress[ETH_ALEN + 2]; /* The Enthernet addr that are in used. + 2 to 8-byte alignment */
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/*
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* =========================================
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* Definition for 802.11
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* =========================================
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*/
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u8 *bssid_pointer; /* Used by hal_get_bssid for return value */
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u8 bssid[8]; /* Only 6 byte will be used. 8 byte is required for read buffer */
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u8 ssid[32]; /* maximum ssid length is 32 byte */
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u16 AID;
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u8 ssid_length;
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u8 Channel;
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u16 ListenInterval;
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u16 CapabilityInformation;
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u16 BeaconPeriod;
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u16 ProbeDelay;
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u8 bss_type;/* 0: IBSS_NET or 1:ESS_NET */
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u8 preamble;/* 0: short preamble, 1: long preamble */
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u8 slot_time_select; /* 9 or 20 value */
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u8 phy_type; /* Phy select */
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u32 phy_para[MAX_RF_PARAMETER];
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u32 phy_number;
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u32 CurrentRadioSw; /* 0:On 1:Off */
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u32 CurrentRadioHw; /* 0:On 1:Off */
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u8 *power_save_point; /* Used by hal_get_power_save_mode for return value */
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u8 cwmin;
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u8 desired_power_save;
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u8 dtim; /* Is running dtim */
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u8 mapping_key_replace_index; /* In Key table, the next index be replaced */
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u16 MaxReceiveLifeTime;
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u16 FragmentThreshold;
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u16 FragmentThreshold_tmp;
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u16 cwmax;
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u8 Key_slot[MAX_KEY_TABLE][8]; /* Ownership record for key slot. For Alignment */
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u32 Key_content[MAX_KEY_TABLE][12]; /* 10DW for each entry + 2 for burst command (Off and On valid bit) */
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u8 CurrentDefaultKeyIndex;
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u32 CurrentDefaultKeyLength;
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/*
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* ==================================================
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* Variable for each module
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* ==================================================
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*/
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struct wb_usb WbUsb; /* Need WbUsb.h */
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struct wb35_reg reg; /* Need Wb35Reg.h */
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struct wb35_tx Wb35Tx; /* Need Wb35Tx.h */
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struct wb35_rx Wb35Rx; /* Need Wb35Rx.h */
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struct timer_list LEDTimer; /* For LED */
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u32 LEDpoint; /* For LED */
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u32 dto_tx_retry_count;
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u32 dto_tx_frag_count;
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u32 rx_ok_count[13]; /* index=0: total rx ok */
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u32 rx_err_count[13]; /* index=0: total rx err */
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/* for Tx debug */
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u32 tx_TBTT_start_count;
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u32 tx_ETR_count;
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u32 tx_WepOn_false_count;
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u32 tx_Null_key_count;
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u32 tx_retry_count[8];
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u8 PowerIndexFromEEPROM; /* For 2412MHz */
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u8 power_index;
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u8 IsWaitJoinComplete; /* TRUE: set join request */
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u8 band;
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u16 SoftwareSet;
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u16 Reserved_s;
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u32 IsInitOK; /* 0: Driver starting 1: Driver init OK */
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/* For Phy calibration */
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s32 iq_rsdl_gain_tx_d2;
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s32 iq_rsdl_phase_tx_d2;
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u32 txvga_setting_for_cal;
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u8 TxVgaSettingInEEPROM[(((MAX_TXVGA_EEPROM * 2) + 3) & ~0x03)]; /* For EEPROM value */
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u8 TxVgaFor24[16]; /* Max is 14, 2 for alignment */
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struct txvga_for_50 TxVgaFor50[36]; /* 35 channels in 5G. 35x2 = 70 byte. 2 for alignments */
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u16 Scan_Interval;
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u16 RESERVED6;
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/* LED control */
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u32 LED_control;
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|
/*
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* LED_control 4 byte: Gray_Led_1[3] Gray_Led_0[2] Led[1] Led[0]
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|
* Gray_Led
|
|
* For Led gray setting
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|
* Led
|
|
* 0: normal control,
|
|
* LED behavior will decide by EEPROM setting
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|
* 1: Turn off specific LED
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|
* 2: Always on specific LED
|
|
* 3: slow blinking specific LED
|
|
* 4: fast blinking specific LED
|
|
* 5: WPS led control is set. Led0 is Red, Led1 id Green
|
|
*
|
|
* Led[1] is parameter for WPS LED mode
|
|
* 1:InProgress
|
|
* 2: Error
|
|
* 3: Session overlap
|
|
* 4: Success control
|
|
*/
|
|
u32 LED_LinkOn; /* Turn LED on control */
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|
u32 LED_Scanning; /* Let LED in scan process control */
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|
u32 LED_Blinking; /* Temp variable for shining */
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|
u32 RxByteCountLast;
|
|
u32 TxByteCountLast;
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|
|
|
/* For global timer */
|
|
u32 time_count; /* TICK_TIME_100ms 1 = 100ms */
|
|
};
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|
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#endif
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