#ifndef __INC_PHYDM_BEAMFORMING_H #define __INC_PHYDM_BEAMFORMING_H #ifndef BEAMFORMING_SUPPORT #define BEAMFORMING_SUPPORT 0 #endif /*Beamforming Related*/ #include "txbf/halcomtxbf.h" #include "txbf/haltxbfjaguar.h" #include "txbf/haltxbf8192e.h" #include "txbf/haltxbf8814a.h" #include "txbf/haltxbf8822b.h" #include "txbf/haltxbfinterface.h" #if (BEAMFORMING_SUPPORT == 1) #if (DM_ODM_SUPPORT_TYPE == ODM_WIN) #define eq_mac_addr(a,b) ( ((a)[0]==(b)[0] && (a)[1]==(b)[1] && (a)[2]==(b)[2] && (a)[3]==(b)[3] && (a)[4]==(b)[4] && (a)[5]==(b)[5]) ? 1:0 ) #define cp_mac_addr(des,src) ((des)[0]=(src)[0],(des)[1]=(src)[1],(des)[2]=(src)[2],(des)[3]=(src)[3],(des)[4]=(src)[4],(des)[5]=(src)[5]) #endif #define MAX_BEAMFORMEE_SU 2 #define MAX_BEAMFORMER_SU 2 #if (RTL8822B_SUPPORT == 1) #define MAX_BEAMFORMEE_MU 6 #define MAX_BEAMFORMER_MU 1 #else #define MAX_BEAMFORMEE_MU 0 #define MAX_BEAMFORMER_MU 0 #endif #define BEAMFORMEE_ENTRY_NUM (MAX_BEAMFORMEE_SU + MAX_BEAMFORMEE_MU) #define BEAMFORMER_ENTRY_NUM (MAX_BEAMFORMER_SU + MAX_BEAMFORMER_MU) #if (DM_ODM_SUPPORT_TYPE == ODM_CE) /*for different naming between WIN and CE*/ #define BEACON_QUEUE BCN_QUEUE_INX #define NORMAL_QUEUE MGT_QUEUE_INX #define RT_DISABLE_FUNC RTW_DISABLE_FUNC #define RT_ENABLE_FUNC RTW_ENABLE_FUNC #endif enum beamforming_entry_state { BEAMFORMING_ENTRY_STATE_UNINITIALIZE, BEAMFORMING_ENTRY_STATE_INITIALIZEING, BEAMFORMING_ENTRY_STATE_INITIALIZED, BEAMFORMING_ENTRY_STATE_PROGRESSING, BEAMFORMING_ENTRY_STATE_PROGRESSED }; enum beamforming_notify_state { BEAMFORMING_NOTIFY_NONE, BEAMFORMING_NOTIFY_ADD, BEAMFORMING_NOTIFY_DELETE, BEAMFORMEE_NOTIFY_ADD_SU, BEAMFORMEE_NOTIFY_DELETE_SU, BEAMFORMEE_NOTIFY_ADD_MU, BEAMFORMEE_NOTIFY_DELETE_MU, BEAMFORMING_NOTIFY_RESET }; enum beamforming_cap { BEAMFORMING_CAP_NONE = 0x0, BEAMFORMER_CAP_HT_EXPLICIT = BIT(1), BEAMFORMEE_CAP_HT_EXPLICIT = BIT(2), BEAMFORMER_CAP_VHT_SU = BIT(5), /* Self has er Cap, because Reg er & peer ee */ BEAMFORMEE_CAP_VHT_SU = BIT(6), /* Self has ee Cap, because Reg ee & peer er */ BEAMFORMER_CAP_VHT_MU = BIT(7), /* Self has er Cap, because Reg er & peer ee */ BEAMFORMEE_CAP_VHT_MU = BIT(8), /* Self has ee Cap, because Reg ee & peer er */ BEAMFORMER_CAP = BIT(9), BEAMFORMEE_CAP = BIT(10), }; enum sounding_mode { SOUNDING_SW_VHT_TIMER = 0x0, SOUNDING_SW_HT_TIMER = 0x1, sounding_stop_all_timer = 0x2, SOUNDING_HW_VHT_TIMER = 0x3, SOUNDING_HW_HT_TIMER = 0x4, SOUNDING_STOP_OID_TIMER = 0x5, SOUNDING_AUTO_VHT_TIMER = 0x6, SOUNDING_AUTO_HT_TIMER = 0x7, SOUNDING_FW_VHT_TIMER = 0x8, SOUNDING_FW_HT_TIMER = 0x9, }; struct _RT_BEAMFORM_STAINFO { u8 *ra; u16 aid; u16 mac_id; u8 my_mac_addr[6]; WIRELESS_MODE wireless_mode; CHANNEL_WIDTH bw; enum beamforming_cap beamform_cap; u8 ht_beamform_cap; u16 vht_beamform_cap; u8 cur_beamform; u16 cur_beamform_vht; }; struct _RT_BEAMFORMEE_ENTRY { bool is_used; bool is_txbf; bool is_sound; u16 aid; /*Used to construct AID field of NDPA packet.*/ u16 mac_id; /*Used to Set Reg42C in IBSS mode. */ u16 p_aid; /*Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC. */ u16 g_id; /*Used to fill Tx DESC*/ u8 my_mac_addr[6]; u8 mac_addr[6]; /*Used to fill Reg6E4 to fill Mac address of CSI report frame.*/ CHANNEL_WIDTH sound_bw; /*Sounding band_width*/ u16 sound_period; enum beamforming_cap beamform_entry_cap; enum beamforming_entry_state beamform_entry_state; bool is_beamforming_in_progress; /*u8 log_seq; // Move to _RT_BEAMFORMER_ENTRY*/ /*u16 log_retry_cnt:3; // 0~4 // Move to _RT_BEAMFORMER_ENTRY*/ /*u16 LogSuccessCnt:2; // 0~2 // Move to _RT_BEAMFORMER_ENTRY*/ u16 log_status_fail_cnt:5; /* 0~21 */ u16 default_csi_cnt:5; /* 0~21 */ u8 csi_matrix[327]; u16 csi_matrix_len; u8 num_of_sounding_dim; u8 comp_steering_num_of_bfer; u8 su_reg_index; /*For MU-MIMO*/ bool is_mu_sta; u8 mu_reg_index; u8 gid_valid[8]; u8 user_position[16]; }; struct _RT_BEAMFORMER_ENTRY { bool is_used; /*P_AID of BFer entry is probably not used*/ u16 p_aid; /*Used to fill Reg42C & Reg714 to compare with P_AID of Tx DESC. */ u16 g_id; u8 my_mac_addr[6]; u8 mac_addr[6]; enum beamforming_cap beamform_entry_cap; u8 num_of_sounding_dim; u8 clock_reset_times; /*Modified by Jeffery @2015-04-10*/ u8 pre_log_seq; /*Modified by Jeffery @2015-03-30*/ u8 log_seq; /*Modified by Jeffery @2014-10-29*/ u16 log_retry_cnt:3; /*Modified by Jeffery @2014-10-29*/ u16 log_success:2; /*Modified by Jeffery @2014-10-29*/ u8 su_reg_index; /*For MU-MIMO*/ bool is_mu_ap; u8 gid_valid[8]; u8 user_position[16]; u16 aid; }; struct _RT_SOUNDING_INFO { u8 sound_idx; CHANNEL_WIDTH sound_bw; enum sounding_mode sound_mode; u16 sound_period; }; struct _RT_BEAMFORMING_OID_INFO { u8 sound_oid_idx; CHANNEL_WIDTH sound_oid_bw; enum sounding_mode sound_oid_mode; u16 sound_oid_period; }; struct _RT_BEAMFORMING_INFO { enum beamforming_cap beamform_cap; struct _RT_BEAMFORMEE_ENTRY beamformee_entry[BEAMFORMEE_ENTRY_NUM]; struct _RT_BEAMFORMER_ENTRY beamformer_entry[BEAMFORMER_ENTRY_NUM]; struct _RT_BEAMFORM_STAINFO beamform_sta_info; u8 beamformee_cur_idx; struct timer_list beamforming_timer; struct timer_list mu_timer; struct _RT_SOUNDING_INFO sounding_info; struct _RT_BEAMFORMING_OID_INFO beamforming_oid_info; struct _HAL_TXBF_INFO txbf_info; u8 sounding_sequence; u8 beamformee_su_cnt; u8 beamformer_su_cnt; u32 beamformee_su_reg_maping; u32 beamformer_su_reg_maping; /*For MU-MINO*/ u8 beamformee_mu_cnt; u8 beamformer_mu_cnt; u32 beamformee_mu_reg_maping; u8 mu_ap_index; bool is_mu_sounding; u8 first_mu_bfee_index; bool is_mu_sounding_in_progress; bool dbg_disable_mu_tx; bool apply_v_matrix; bool snding3ss; #if (DM_ODM_SUPPORT_TYPE == ODM_WIN) struct _ADAPTER *source_adapter; #endif /* Control register */ u32 reg_mu_tx_ctrl; /* For USB/SDIO interfaces aync I/O */ }; struct _RT_NDPA_STA_INFO { u16 aid:12; u16 feedback_type:1; u16 nc_index:3; }; enum phydm_acting_type { phydm_acting_as_ibss = 0, phydm_acting_as_ap = 1 }; enum beamforming_cap phydm_beamforming_get_entry_beam_cap_by_mac_id( void *p_dm_void, u8 mac_id ); struct _RT_BEAMFORMEE_ENTRY * phydm_beamforming_get_bfee_entry_by_addr( void *p_dm_void, u8 *RA, u8 *idx ); struct _RT_BEAMFORMER_ENTRY * phydm_beamforming_get_bfer_entry_by_addr( void *p_dm_void, u8 *TA, u8 *idx ); void phydm_beamforming_notify( void *p_dm_void ); bool phydm_acting_determine( void *p_dm_void, enum phydm_acting_type type ); void beamforming_enter( void *p_dm_void, u16 sta_idx ); void beamforming_leave( void *p_dm_void, u8 *RA ); bool beamforming_start_fw( void *p_dm_void, u8 idx ); void beamforming_check_sounding_success( void *p_dm_void, bool status ); void phydm_beamforming_end_sw( void *p_dm_void, bool status ); void beamforming_timer_callback( void *p_dm_void ); void phydm_beamforming_init( void *p_dm_void ); enum beamforming_cap phydm_beamforming_get_beam_cap( void *p_dm_void, struct _RT_BEAMFORMING_INFO *p_beam_info ); bool beamforming_control_v1( void *p_dm_void, u8 *RA, u8 AID, u8 mode, CHANNEL_WIDTH BW, u8 rate ); bool phydm_beamforming_control_v2( void *p_dm_void, u8 idx, u8 mode, CHANNEL_WIDTH BW, u16 period ); void phydm_beamforming_watchdog( void *p_dm_void ); void beamforming_sw_timer_callback( #if (DM_ODM_SUPPORT_TYPE == ODM_WIN) struct timer_list *p_timer #elif (DM_ODM_SUPPORT_TYPE == ODM_CE) void *function_context #endif ); bool beamforming_send_ht_ndpa_packet( void *p_dm_void, u8 *RA, CHANNEL_WIDTH BW, u8 q_idx ); bool beamforming_send_vht_ndpa_packet( void *p_dm_void, u8 *RA, u16 AID, CHANNEL_WIDTH BW, u8 q_idx ); #else #define beamforming_gid_paid(adapter, p_tcb) #define phydm_acting_determine(p_dm_odm, type) false #define beamforming_enter(p_dm_odm, sta_idx) #define beamforming_leave(p_dm_odm, RA) #define beamforming_end_fw(p_dm_odm) #define beamforming_control_v1(p_dm_odm, RA, AID, mode, BW, rate) true #define beamforming_control_v2(p_dm_odm, idx, mode, BW, period) true #define phydm_beamforming_end_sw(p_dm_odm, _status) #define beamforming_timer_callback(p_dm_odm) #define phydm_beamforming_init(p_dm_odm) #define phydm_beamforming_control_v2(p_dm_odm, _idx, _mode, _BW, _period) false #define beamforming_watchdog(p_dm_odm) #define phydm_beamforming_watchdog(p_dm_odm) #endif #endif