/****************************************************************************** * * Copyright(c) 2019 Realtek Corporation. * * This program is free software; you can redistribute it and/or modify it * under the terms of version 2 of the GNU General Public License as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * *****************************************************************************/ #ifndef _PHL_API_H_ #define _PHL_API_H_ u8 rtw_phl_read8(void *phl, u32 addr); u16 rtw_phl_read16(void *phl, u32 addr); u32 rtw_phl_read32(void *phl, u32 addr); void rtw_phl_write8(void *phl, u32 addr, u8 val); void rtw_phl_write16(void *phl, u32 addr, u16 val); void rtw_phl_write32(void *phl, u32 addr, u32 val); u32 rtw_phl_read_macreg(void *phl, u32 offset, u32 bit_mask); void rtw_phl_write_macreg(void *phl, u32 offset, u32 bit_mask, u32 data); u32 rtw_phl_read_bbreg(void *phl, u32 offset, u32 bit_mask); void rtw_phl_write_bbreg(void *phl, u32 offset, u32 bit_mask, u32 data); u32 rtw_phl_read_rfreg(void *phl, enum rf_path path, u32 offset, u32 bit_mask); void rtw_phl_write_rfreg(void *phl, enum rf_path path, u32 offset, u32 bit_mask, u32 data); enum rtw_phl_status rtw_phl_interrupt_handler(void *phl); void rtw_phl_enable_interrupt(void *phl); void rtw_phl_disable_interrupt(void *phl); bool rtw_phl_recognize_interrupt(void *phl); void rtw_phl_clear_interrupt(void *phl); void rtw_phl_restore_interrupt(void *phl); #ifdef PHL_PLATFORM_LINUX void rtw_phl_mac_reg_dump(void *sel, void *phl); void rtw_phl_bb_reg_dump(void *sel, void *phl); void rtw_phl_bb_reg_dump_ex(void *sel, void *phl); void rtw_phl_rf_reg_dump(void *sel, void *phl); #endif bool rtw_phl_get_sec_cam(void *phl, u16 num, u8 *buf, u16 size); bool rtw_phl_get_addr_cam(void *phl, u16 num, u8 *buf, u16 size); struct rtw_phl_com_t *rtw_phl_get_com(void *phl); enum rtw_phl_status rtw_phl_init(void *drv_priv, void **phl, struct rtw_ic_info *ic_info); void rtw_phl_deinit(void *phl); void rtw_phl_watchdog_init(void *phl, u16 period, void (*core_sw_wdog)(void *drv_priv), void (*core_hw_wdog)(void *drv_priv)); void rtw_phl_watchdog_deinit(void *phl); void rtw_phl_watchdog_start(void *phl); void rtw_phl_watchdog_stop(void *phl); enum rtw_phl_status rtw_phl_trx_alloc(void *phl); void rtw_phl_trx_free(void *phl); void rtw_phl_trx_free_handler(void *phl); void rtw_phl_trx_free_sw_rsc(void *phl); void rtw_phl_cap_pre_config(void *phl); enum rtw_phl_status rtw_phl_preload(void *phl); enum rtw_phl_status rtw_phl_start(void *phl); void rtw_phl_stop(void *phl); bool rtw_phl_is_init_completed(void *phl); void rtw_phl_ps_set_rt_cap(void *phl, u8 band_idx, bool ps_allow, enum phl_ps_rt_rson rt_rson); enum rtw_phl_status rtw_phl_ps_set_rf_state(void *phl, u8 band_idx, enum rtw_rf_state rf_state); enum rtw_phl_status rtw_phl_suspend(void *phl, struct rtw_phl_stainfo_t *sta, u8 wow_en); enum rtw_phl_status rtw_phl_resume(void *phl, struct rtw_phl_stainfo_t *sta, u8 *hw_reinit); enum rtw_phl_status rtw_phl_tx_req_notify(void *phl); enum rtw_phl_status rtw_phl_add_tx_req(void *phl, struct rtw_xmit_req *tx_req); void rtw_phl_tx_stop(void *phl); void rtw_phl_tx_resume(void *phl); u16 rtw_phl_tring_rsc(void *phl, u16 macid, u8 tid); u16 rtw_phl_query_new_rx_num(void *phl); struct rtw_recv_pkt *rtw_phl_query_rx_pkt(void *phl); void rtw_phl_rx_deferred_In_token(void *phl); void rtw_phl_post_in_complete(void *phl, void *rxobj, u32 inbuf_len, u8 status_code); enum rtw_phl_status rtw_phl_return_rxbuf(void *phl, u8* rxpkt); enum rtw_phl_status rtw_phl_recycle_tx_buf(void *phl, u8 *tx_buf_ptr); enum rtw_phl_status rtw_phl_cmd_cfg_ampdu(void *phl, struct rtw_wifi_role_t *wrole, struct rtw_phl_stainfo_t *sta, enum phl_cmd_type cmd_type, u32 cmd_timeout); void rtw_phl_proc_cmd(void *phl, char proc_cmd, struct rtw_proc_cmd *incmd, char *output, u32 out_len); void rtw_phl_get_fw_ver(void *phl, char *ver_str, u16 len); enum rtw_fw_status rtw_phl_get_fw_status(void *phl); /* command thread jobs */ enum rtw_phl_status rtw_phl_job_run_func(void *phl, void *func, void *priv, void *parm, char *name); /*WIFI Role management section*/ u8 rtw_phl_wifi_role_alloc(void *phl, u8 *mac_addr, enum role_type type, u8 ridx, struct rtw_wifi_role_t **wifi_role, bool ignore_hw_fail); enum rtw_phl_status rtw_phl_cmd_wrole_change(void *phl, struct rtw_wifi_role_t *wrole, enum wr_chg_id chg_id, u8 *chg_info, u8 chg_info_len, enum phl_cmd_type cmd_type, u32 cmd_timeout); void rtw_phl_wifi_role_free(void *phl, u8 role_idx); /*WIFI sta_info management section*/ struct rtw_phl_stainfo_t * rtw_phl_alloc_stainfo_sw(void *phl, u8 *sta_addr, struct rtw_wifi_role_t *wrole); enum rtw_phl_status rtw_phl_free_stainfo_sw(void *phl, struct rtw_phl_stainfo_t *sta); enum rtw_phl_status rtw_phl_cmd_alloc_stainfo(void *phl, struct rtw_phl_stainfo_t **sta, u8 *sta_addr, struct rtw_wifi_role_t *wrole, bool alloc, bool only_hw, enum phl_cmd_type cmd_type, u32 cmd_timeout); enum rtw_phl_status rtw_phl_cmd_change_stainfo(void *phl, struct rtw_phl_stainfo_t *sta, enum sta_chg_id chg_id, u8 *chg_info, u8 chg_info_len, enum phl_cmd_type cmd_type, u32 cmd_timeout); enum rtw_phl_status rtw_phl_cmd_update_media_status(void *phl, struct rtw_phl_stainfo_t *sta, u8 *sta_addr, bool is_connect, enum phl_cmd_type cmd_type, u32 cmd_timeout); struct rtw_phl_stainfo_t * rtw_phl_get_stainfo_self(void *phl, struct rtw_wifi_role_t *wrole); struct rtw_phl_stainfo_t * rtw_phl_get_stainfo_by_addr(void *phl, struct rtw_wifi_role_t *wrole, u8 *addr); struct rtw_phl_stainfo_t * rtw_phl_get_stainfo_by_macid(void *phl, u16 macid); u8 rtw_phl_get_sta_rssi(struct rtw_phl_stainfo_t *sta); enum rtw_phl_status rtw_phl_query_rainfo(void *phl, struct rtw_phl_stainfo_t *phl_sta, struct rtw_phl_rainfo *ra_info); enum rtw_phl_status rtw_phl_get_rx_stat(void *phl, struct rtw_phl_stainfo_t *phl_sta, u16 *rx_rate, u8 *bw, u8 *gi_ltf); void rtw_phl_sta_up_rx_bcn(void *phl, struct rtw_bcn_pkt_info *info); /*macid management section, temporary for debuge*/ u16 rtw_phl_get_macid_max_num(void *phl); u16 rtw_phl_wrole_bcmc_id_get(void *phl, struct rtw_wifi_role_t *wrole); u8 rtw_phl_macid_is_bmc(void *phl, u16 macid); u8 rtw_phl_macid_is_used(void *phl, u16 macid); enum rtw_phl_status rtw_phl_cmd_add_key(void *phl, struct rtw_phl_stainfo_t *sta, struct phl_sec_param_h *crypt, u8 *keybuf, enum phl_cmd_type cmd_type, u32 cmd_timeout); enum rtw_phl_status rtw_phl_cmd_del_key(void *phl, struct rtw_phl_stainfo_t *sta, struct phl_sec_param_h *crypt, enum phl_cmd_type cmd_type, u32 cmd_timeout); /* phy msg forwarder functions*/ enum rtw_phl_status rtw_phl_msg_hub_register_recver(void* phl, struct phl_msg_receiver* ctx, enum phl_msg_recver_layer layer); enum rtw_phl_status rtw_phl_msg_hub_update_recver_mask(void* phl, enum phl_msg_recver_layer layer, u8* mdl_id, u32 len, u8 clr); enum rtw_phl_status rtw_phl_msg_hub_deregister_recver(void* phl, enum phl_msg_recver_layer layer); enum rtw_phl_status rtw_phl_msg_hub_send(void* phl, struct phl_msg_attribute* attr, struct phl_msg* msg); u8 rtw_phl_trans_sec_mode(u8 unicast, u8 multicast); u8 rtw_phl_get_sec_cam_idx(void *phl, struct rtw_phl_stainfo_t *sta, u8 keyid, u8 key_type); void rtw_phl_test_txtb_cfg(struct rtw_phl_com_t* phl_com, void *buf, u32 buf_len, u8 *cfg_bssid, u16 cfg_aid, u8 cfg_bsscolor); /* command dispatcher module section*/ enum rtw_phl_status rtw_phl_register_module(void *phl, u8 band_idx, enum phl_module_id id, struct phl_bk_module_ops* ops); enum rtw_phl_status rtw_phl_deregister_module(void *phl,u8 band_idx, enum phl_module_id id); u8 rtw_phl_is_fg_empty(void *phl, u8 band_idx); /* opt: refer to enum phl_msg_opt */ enum rtw_phl_status rtw_phl_send_msg_to_dispr(void *phl, struct phl_msg* msg, struct phl_msg_attribute* attr, u32* msg_hdl); enum rtw_phl_status rtw_phl_cancel_dispr_msg(void *phl, u8 band_idx, u32* msg_hdl); enum rtw_phl_status rtw_phl_add_cmd_token_req(void *phl, u8 band_idx, struct phl_cmd_token_req* req, u32* req_hdl); enum rtw_phl_status rtw_phl_cancel_cmd_token(void *phl, u8 band_idx, u32* req_hdl); enum rtw_phl_status rtw_phl_set_cur_cmd_info(void *phl, u8 band_idx, struct phl_module_op_info* op_info); enum rtw_phl_status rtw_phl_query_cur_cmd_info(void *phl, u8 band_idx, struct phl_module_op_info* op_info); enum rtw_phl_status rtw_phl_free_cmd_token(void *phl, u8 band_idx, u32* req_hdl); enum rtw_phl_status rtw_phl_set_bk_module_info(void *phl, u8 band_idx, enum phl_module_id id, struct phl_module_op_info* op_info); enum rtw_phl_status rtw_phl_query_bk_module_info(void *phl, u8 band_idx, enum phl_module_id id, struct phl_module_op_info* op_info); enum rtw_phl_status rtw_phl_set_msg_disp_seq(void *phl, struct phl_msg_attribute *attr, struct msg_self_def_seq* seq); /* BA session management */ void rtw_phl_stop_rx_ba_session(void *phl, struct rtw_phl_stainfo_t *sta, u16 tid); enum rtw_phl_status rtw_phl_start_rx_ba_session(void *phl, struct rtw_phl_stainfo_t *sta, u8 dialog_token, u16 timeout, u16 start_seq_num, u16 ba_policy, u16 tid, u16 buf_size); void rtw_phl_rx_bar(void *phl, struct rtw_phl_stainfo_t *sta, u8 tid, u16 seq); void rtw_phl_flush_reorder_buf(void *phl, struct rtw_phl_stainfo_t *sta); enum rtw_phl_status rtw_phl_enter_mon_mode(void *phl, struct rtw_wifi_role_t *wrole); enum rtw_phl_status rtw_phl_leave_mon_mode(void *phl, struct rtw_wifi_role_t *wrole); #ifdef RTW_PHL_BCN enum rtw_phl_status rtw_phl_free_bcn_entry(void *phl, struct rtw_wifi_role_t *wrole); enum rtw_phl_status rtw_phl_cmd_issue_beacon(void *phl, struct rtw_wifi_role_t *wifi_role, struct rtw_bcn_info_cmn *bcn_cmn, enum phl_cmd_type cmd_type, u32 cmd_timeout); enum rtw_phl_status rtw_phl_cmd_stop_beacon(void *phl, struct rtw_wifi_role_t *wifi_role, u8 stop, enum phl_cmd_type cmd_type, u32 cmd_timeout); #endif #ifdef CONFIG_CMD_DISP enum rtw_phl_status rtw_phl_cmd_chg_op_chdef(struct rtw_wifi_role_t *wrole, struct rtw_chan_def *new_chdef, bool cmd_wait, u32 cmd_timeout, void (*chg_opch_done)(void *priv, u8 ridx, enum rtw_phl_status status)); enum rtw_phl_status rtw_phl_cmd_set_ch_bw(struct rtw_wifi_role_t *wifi_role, struct rtw_chan_def *chdef, bool do_rfk, enum phl_cmd_type cmd_type, u32 cmd_timeout); enum rtw_phl_status rtw_phl_cmd_enqueue(void *phl, enum phl_band_idx band_idx, enum phl_msg_evt_id evt_id, u8 *cmd_buf, u32 cmd_len, void (*core_cmd_complete)(void *priv, u8 *cmd, u32 cmd_len, enum rtw_phl_status status), enum phl_cmd_type cmd_type, u32 cmd_timeout); #endif /*CONFIG_CMD_DISP*/ u8 rtw_phl_get_cur_ch(struct rtw_wifi_role_t *wifi_role); enum rtw_phl_status rtw_phl_get_cur_hal_chdef(struct rtw_wifi_role_t *wifi_role, struct rtw_chan_def *cur_chandef); enum band_type rtw_phl_get_band_type(u8 chan); u8 rtw_phl_get_center_ch(u8 ch, enum channel_width bw, enum chan_offset offset); enum rtw_phl_status rtw_phl_cmd_dfs_tx_pause(struct rtw_wifi_role_t *wifi_role, bool pause, enum phl_cmd_type cmd_type, u32 cmd_timeout); u8 rtw_phl_get_operating_class( struct rtw_chan_def chan_def ); bool rtw_phl_get_chandef_from_operating_class( u8 channel, u8 operating_class, struct rtw_chan_def *chan_def ); /* * export API from sw cap module */ void rtw_phl_final_cap_decision(void *phl); enum rtw_phl_status rtw_phl_get_dft_proto_cap(void *phl, u8 hw_band, enum role_type rtype, struct protocol_cap_t *role_proto_cap); enum rtw_phl_status rtw_phl_get_dft_cap(void *phl, u8 hw_band, struct role_cap_t *role_cap); void rtw_phl_mac_dbg_status_dump(void *phl, u32 *val, u8 *en); #ifdef CONFIG_DBCC_SUPPORT enum rtw_phl_status rtw_phl_dbcc_test(void *phl, enum dbcc_test_id id, void *param); #endif /* * API for config channel info CR */ #ifdef CONFIG_PHL_CHANNEL_INFO enum rtw_phl_status rtw_phl_cmd_cfg_chinfo(void *phl, struct rtw_phl_stainfo_t *sta, u8 enable, enum phl_cmd_type cmd_type, u32 cmd_timeout); enum rtw_phl_status rtw_phl_query_chan_info(void *phl, u32 buf_len, u8* chan_info_buffer, u32 *length, struct csi_header_t *csi_header); #endif /* CONFIG_PHL_CHANNEL_INFO */ void rtw_phl_set_edcca_mode(void *phl, enum rtw_edcca_mode mode); enum rtw_edcca_mode rtw_phl_get_edcca_mode(void *phl); bool rtw_phl_set_user_def_chplan(void *phl, struct rtw_user_def_chplan *udef); bool rtw_phl_valid_regulation_domain(u8 domain); bool rtw_phl_regulation_set_domain(void *phl, u8 domain, enum regulation_rsn reason); bool rtw_phl_regulation_set_country(void *phl, char *country, enum regulation_rsn reason); bool rtw_phl_regulation_set_capability(void *phl, enum rtw_regulation_capability capability); bool rtw_phl_regulation_query_chplan( void *phl, enum rtw_regulation_query type, struct rtw_chlist *filter, struct rtw_regulation_chplan *plan); bool rtw_phl_query_specific_chplan(void *phl, u8 domain, struct rtw_regulation_chplan *plan); bool rtw_phl_query_country_chplan(char *country, struct rtw_regulation_country_chplan *country_chplan); bool rtw_phl_generate_scan_instance(struct instance_strategy *strategy, struct rtw_regulation_chplan *chplan, struct instance *inst); bool rtw_phl_scan_instance_insert_ch(void *phl, struct instance *inst, enum band_type band, u8 channel, u8 strategy_period); bool rtw_phl_regulation_valid_channel(void *phl, enum band_type band, u16 channel, u8 reject); bool rtw_phl_regulation_dfs_channel(void *phl, enum band_type band, u16 channel, bool *dfs); bool rtw_phl_query_regulation_info(void *phl, struct rtw_regulation_info *info); bool rtw_phl_regulation_query_ch(void *phl, enum band_type band, u8 channel, struct rtw_regulation_channel *ch); u8 rtw_phl_get_domain_regulation_2g(u8 domain); u8 rtw_phl_get_domain_regulation_5g(u8 domain); enum rtw_phl_status rtw_phl_get_mac_addr_efuse(void* phl, u8 *addr); /** * rtw_phl_usb_tx_ep_id - query USB tx end point index * identified by macid, tid and band * @macid: input target macid is 0 ~ 127 * @tid: input target tid, range is 0 ~ 7 * @band: input target band, 0 for band 0 / 1 for band 1 * * returns corresponding end point idx of a specific tid */ u8 rtw_phl_usb_tx_ep_id(void *phl, u16 macid, u8 tid, u8 band); enum rtw_phl_status rtw_phl_cfg_trx_path(void* phl, enum rf_path tx, u8 tx_nss, enum rf_path rx, u8 rx_nss); void rtw_phl_reset_stat_ma_rssi(struct rtw_phl_com_t *phl_com); u8 rtw_phl_get_ma_rssi(struct rtw_phl_com_t *phl_com, enum rtw_rssi_type rssi_type); bool rtw_phl_chanctx_chk(void *phl, struct rtw_wifi_role_t *wifi_role, u8 chan, enum channel_width bw, enum chan_offset offset); bool rtw_phl_chanctx_add(void *phl, struct rtw_wifi_role_t *wifi_role, u8 *chan, enum channel_width *bw, enum chan_offset *offset); int rtw_phl_chanctx_del(void *phl, struct rtw_wifi_role_t *wifi_role, struct rtw_chan_def *chan_def); enum rtw_phl_status rtw_phl_chanctx_del_no_self(void *phl, struct rtw_wifi_role_t *wifi_role); int rtw_phl_mr_get_chanctx_num(void *phl, struct rtw_wifi_role_t *wifi_role); enum rtw_phl_status rtw_phl_mr_get_chandef(void *phl, struct rtw_wifi_role_t *wifi_role, struct rtw_chan_def *chandef); enum rtw_phl_status rtw_phl_mr_upt_chandef(void *phl, struct rtw_wifi_role_t *wifi_role); #ifdef CONFIG_MCC_SUPPORT u8 rtw_phl_mr_query_mcc_inprogress (void *phl, struct rtw_wifi_role_t *wrole, enum rtw_phl_mcc_chk_inprocess_type check_type); #endif u8 rtw_phl_mr_dump_mac_addr(void *phl, struct rtw_wifi_role_t *wifi_role); u8 rtw_phl_mr_buddy_dump_mac_addr(void *phl, struct rtw_wifi_role_t *wifi_role); enum rtw_phl_status rtw_phl_mr_rx_filter(void *phl, struct rtw_wifi_role_t *wrole); #ifdef CONFIG_FSM enum rtw_phl_status rtw_phl_mr_offch_hdl(void *phl, struct rtw_wifi_role_t *wrole, bool off_ch, void *obj_priv, u8 (*issue_null_data)(void *priv, u8 ridx, bool ps), struct rtw_chan_def *chandef); #endif void rtw_phl_mr_ops_init (void *phl, struct rtw_phl_mr_ops *mr_ops); #ifdef PHL_MR_PROC_CMD void rtw_phl_mr_dump_info(void *phl, bool show_caller); void rtw_phl_mr_dump_band_ctl(void *phl, bool show_caller); bool rtw_phl_chanctx_test(void *phl, struct rtw_wifi_role_t *wifi_role, bool is_add, u8 *chan, enum channel_width *bw, enum chan_offset *offset); #endif void rtw_phl_sta_dump_info(void *phl, bool show_caller, struct rtw_wifi_role_t *wr, u8 mode); bool rtw_phl_mr_query_info(void *phl, struct rtw_wifi_role_t *wrole, struct mr_query_info *info); u8 rtw_phl_mr_get_opch_list(void *phl, struct rtw_wifi_role_t *wifi_role, struct rtw_chan_def *chdef_list, u8 list_size); void rtw_phl_mr_dump_cur_chandef(void *phl, struct rtw_wifi_role_t *wifi_role); enum mr_op_mode rtw_phl_mr_get_opmode(void *phl, struct rtw_wifi_role_t *wrole); void rtw_phl_led_set_ctrl_mode(void *phl, enum rtw_led_id led_id, enum rtw_led_ctrl_mode ctrl_mode); void rtw_phl_led_set_toggle_intervals(void *phl, u8 intervals_idx, u32 *intervals, u8 intervals_len); void rtw_phl_led_set_action(void *phl, enum rtw_led_event event, enum rtw_led_state state_condition, struct rtw_led_action_args_t *action_args_arr, u8 action_args_arr_len, u32 toggle_delay_unit); void rtw_phl_led_control(void *phl, enum rtw_led_event led_event); #ifdef CONFIG_RTW_ACS u16 rtw_phl_acs_get_channel_by_idx(void *phl, u8 ch_idx); u8 rtw_phl_acs_get_clm_ratio_by_idx(void *phl, u8 ch_idx); s8 rtw_phl_noise_query_by_idx(void *phl, u8 ch_idx); #endif /* CONFIG_RTW_ACS */ void rtw_phl_get_env_rpt(void *phl, struct rtw_env_report *env_rpt, struct rtw_wifi_role_t *wrole); #ifdef RTW_WKARD_DYNAMIC_BFEE_CAP enum rtw_phl_status rtw_phl_bfee_ctrl(void *phl, struct rtw_wifi_role_t *wrole, bool ctrl); #endif enum rtw_phl_status rtw_phl_snd_init_ops_send_ndpa(void *phl, enum rtw_phl_status (*snd_send_ndpa)(void *, struct rtw_wifi_role_t *, u8 *, u32 *, enum channel_width)); u8 rtw_phl_snd_chk_in_progress(void *phl); enum rtw_phl_status rtw_phl_sound_start(void *phl, u8 wrole_idx, u8 st_dlg_tkn, u8 period, u8 test_flag); enum rtw_phl_status rtw_phl_sound_abort(void *phl); enum rtw_phl_status rtw_phl_set_power_lmt(void *phl, u8 hw_band); s8 rtw_phl_get_power_limit(void *phl, u8 hw_band, u16 rate, u8 bandwidth, u8 beamforming, u8 tx_num, u8 channel); void rtw_phl_enable_ext_pwr_lmt(void *phl, u8 hw_band, struct rtw_phl_ext_pwr_lmt_info *ext_pwr_lmt_info); void rtw_phl_set_ext_pwr_lmt_en(void *phl, bool enable); void rtw_phl_init_ppdu_sts_para(struct rtw_phl_com_t *phl_com, bool en_psts_per_pkt, bool psts_ampdu, u8 rx_fltr); enum rtw_phl_status rtw_phl_rf_on(void *phl); enum rtw_phl_status rtw_phl_rf_off(void *phl); #ifdef CONFIG_PHL_TWT enum rtw_phl_status rtw_phl_twt_alloc_twt_config(void *phl, struct rtw_wifi_role_t *role, struct rtw_phl_twt_setup_info setup_info, u8 benable, u8 *id); enum rtw_phl_status rtw_phl_twt_free_twt_config(void *phl, u8 id); enum rtw_phl_status rtw_phl_twt_enable_twt_config(void *phl, u8 id); enum rtw_phl_status rtw_phl_twt_free_all_twt_by_role(void *phl, struct rtw_wifi_role_t *role); enum rtw_phl_status rtw_phl_twt_disable_all_twt_by_role(void *phl, struct rtw_wifi_role_t *role); enum rtw_phl_status rtw_phl_twt_enable_all_twt_by_role(void *phl, struct rtw_wifi_role_t *role); enum rtw_phl_status rtw_phl_twt_add_sta_info(void *phl, struct rtw_phl_stainfo_t *phl_sta, u8 config_id, u8 id); enum rtw_phl_status rtw_phl_twt_teardown_sta(void *phl, struct rtw_phl_stainfo_t *phl_sta, struct rtw_phl_twt_flow_field *twt_flow, u8 *bitmap); enum rtw_phl_status rtw_phl_twt_get_new_flow_id(void *phl, struct rtw_phl_stainfo_t *phl_sta, u8 *id); enum rtw_phl_status rtw_phl_twt_accept_for_sta_mode(void *phl, struct rtw_phl_stainfo_t *phl_sta, struct rtw_phl_twt_setup_info *setup_info, u8 *id); enum rtw_phl_status rtw_phl_twt_teardown_for_sta_mode(void *phl, struct rtw_phl_stainfo_t *phl_sta, struct rtw_phl_twt_flow_field *twt_flow); enum rtw_phl_status rtw_phl_twt_delete_all_sta_info(void *phl, struct rtw_phl_stainfo_t *phl_sta, u8 *bitmap); enum rtw_phl_status rtw_phl_twt_get_target_wake_time(void *phl, u8 port, u8 id, u16 offset, u32 *tsf_h, u32 *tsf_l); enum rtw_phl_status rtw_phl_twt_sta_announce_to_fw(void *phl, u16 macid); enum rtw_phl_status rtw_phl_twt_handle_c2h(void *phl_com, void *c); enum rtw_phl_status rtw_phl_twt_fill_twt_element(struct rtw_phl_twt_element *twt_ele, u8 *buf, u8 *length); enum rtw_phl_status rtw_phl_twt_fill_flow_field(struct rtw_phl_twt_flow_field *twt_flow, u8 *buf, u16 *length); enum rtw_phl_status rtw_phl_twt_parse_element(u8 *twt_ele, u16 length, struct rtw_phl_twt_element *twt_element); enum rtw_phl_status rtw_phl_twt_parse_setup_info(u8 *pkt, u16 length, struct rtw_phl_twt_setup_info *setup_info); enum rtw_phl_status rtw_phl_twt_parse_flow_field(u8 *ie_twt_flow, u16 length, struct rtw_phl_twt_flow_field *twt_flow); #endif /* CONFIG_PHL_TWT */ enum rtw_phl_status rtw_phl_snd_cmd_set_vht_gid(void *phl, struct rtw_wifi_role_t *wrole, struct rtw_phl_gid_pos_tbl *tbl); enum rtw_phl_status rtw_phl_snd_cmd_set_aid(void *phl, struct rtw_wifi_role_t *wrole, struct rtw_phl_stainfo_t *sta, u16 aid); #ifdef RTW_WKARD_P2PPS_REFINE #ifdef CONFIG_PHL_P2PPS enum rtw_phl_status rtw_phl_p2pps_noa_update(void *phl, struct rtw_phl_noa_desc *in_desc); void rtw_phl_p2pps_init_ops(void *phl, struct rtw_phl_p2pps_ops *ops); void rtw_phl_p2pps_noa_disable_all(void *phl, struct rtw_wifi_role_t *w_role); #endif #endif enum rtw_phl_status rtw_phl_snd_cmd_set_vht_gid(void *phl, struct rtw_wifi_role_t *wrole, struct rtw_phl_gid_pos_tbl *tbl); void rtw_phl_event_notify(void *phl, enum phl_msg_evt_id event, struct rtw_wifi_role_t *wrole); void rtw_phl_notification(void *phl, enum phl_msg_evt_id event, struct rtw_wifi_role_t *wrole, bool direct); void rtw_phl_dev_terminate_ntf(void *phl); enum rtw_phl_status rtw_phl_cmd_force_usb_switch(void *phl, u32 speed, enum phl_band_idx band_idx, enum phl_cmd_type cmd_type, u32 cmd_timeout); enum rtw_phl_status rtw_phl_cmd_get_usb_speed(void *phl, u32* speed, enum phl_band_idx band_idx, enum phl_cmd_type cmd_type, u32 cmd_timeout); enum rtw_phl_status rtw_phl_cmd_get_usb_support_ability(void *phl, u32* ability, enum phl_band_idx band_idx, enum phl_cmd_type cmd_type, u32 cmd_timeout); u8 rtw_phl_get_sta_mgnt_rssi(struct rtw_phl_stainfo_t *psta); enum rtw_phl_status rtw_phl_txsts_rpt_config(void *phl, struct rtw_phl_stainfo_t *phl_sta); #if defined(CONFIG_USB_HCI) || defined(CONFIG_PCI_HCI) /* tx_ok/tx_fail are from release report*/ enum rtw_phl_status rtw_phl_get_tx_ok_rpt(void *phl, struct rtw_phl_stainfo_t *phl_sta, u32 *tx_ok_cnt, enum phl_ac_queue qsel); enum rtw_phl_status rtw_phl_get_tx_fail_rpt(void *phl, struct rtw_phl_stainfo_t *phl_sta, u32 *tx_fail_cnt, enum phl_ac_queue qsel); /* tx retry is from ra sts report.*/ enum rtw_phl_status rtw_phl_get_tx_retry_rpt(void *phl, struct rtw_phl_stainfo_t *phl_sta, u32 *tx_retry_cnt, enum phl_ac_queue qsel); #endif /* CONFIG_USB_HCI */ enum rtw_rx_status rtw_phl_get_rx_status(void *phl); void rtw_phl_dbg_dump_rx(void *phl, struct rtw_wifi_role_t *wrole); /****************************************************************************** * * TX power APIs * *****************************************************************************/ const char *rtw_phl_get_pw_lmt_regu_type_str(void *phl, enum band_type band); bool rtw_phl_get_pwr_lmt_en(void *phl, u8 band_idx); enum rtw_phl_status rtw_phl_set_tx_power(void *phl, u8 band_idx); enum rtw_phl_status rtw_phl_get_txinfo_pwr(void *phl, s16 *pwr_dbm); /*****************************************************************************/ u32 rtw_phl_get_phy_stat_info(void *phl, enum phl_band_idx hw_band, enum phl_stat_info_query phy_stat); #endif /*_PHL_API_H_*/