mirror of
https://github.com/aircrack-ng/rtl8812au.git
synced 2024-11-29 08:27:41 +00:00
625 lines
18 KiB
C
625 lines
18 KiB
C
/******************************************************************************
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*
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* Copyright(c) 2013 - 2017 Realtek Corporation.
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of version 2 of the GNU General Public License as
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* published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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*****************************************************************************/
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#include <rtw_odm.h>
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#include <hal_data.h>
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u32 rtw_phydm_ability_ops(_adapter *adapter, HAL_PHYDM_OPS ops, u32 ability)
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{
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(adapter);
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struct dm_struct *podmpriv = &pHalData->odmpriv;
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u32 result = 0;
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switch (ops) {
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case HAL_PHYDM_DIS_ALL_FUNC:
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podmpriv->support_ability = DYNAMIC_FUNC_DISABLE;
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halrf_cmn_info_set(podmpriv, HALRF_CMNINFO_ABILITY, DYNAMIC_FUNC_DISABLE);
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break;
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case HAL_PHYDM_FUNC_SET:
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podmpriv->support_ability |= ability;
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break;
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case HAL_PHYDM_FUNC_CLR:
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podmpriv->support_ability &= ~(ability);
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break;
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case HAL_PHYDM_ABILITY_BK:
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/* dm flag backup*/
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podmpriv->bk_support_ability = podmpriv->support_ability;
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pHalData->bk_rf_ability = halrf_cmn_info_get(podmpriv, HALRF_CMNINFO_ABILITY);
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break;
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case HAL_PHYDM_ABILITY_RESTORE:
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/* restore dm flag */
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podmpriv->support_ability = podmpriv->bk_support_ability;
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halrf_cmn_info_set(podmpriv, HALRF_CMNINFO_ABILITY, pHalData->bk_rf_ability);
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break;
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case HAL_PHYDM_ABILITY_SET:
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podmpriv->support_ability = ability;
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break;
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case HAL_PHYDM_ABILITY_GET:
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result = podmpriv->support_ability;
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break;
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}
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return result;
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}
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/* set ODM_CMNINFO_IC_TYPE based on chip_type */
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void rtw_odm_init_ic_type(_adapter *adapter)
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{
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struct dm_struct *odm = adapter_to_phydm(adapter);
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u32 ic_type = chip_type_to_odm_ic_type(rtw_get_chip_type(adapter));
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rtw_warn_on(!ic_type);
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odm_cmn_info_init(odm, ODM_CMNINFO_IC_TYPE, ic_type);
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}
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void rtw_odm_adaptivity_ver_msg(void *sel, _adapter *adapter)
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{
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RTW_PRINT_SEL(sel, "ADAPTIVITY_VERSION "ADAPTIVITY_VERSION"\n");
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}
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#define RTW_ADAPTIVITY_EN_DISABLE 0
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#define RTW_ADAPTIVITY_EN_ENABLE 1
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#define RTW_ADAPTIVITY_EN_AUTO 2
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void rtw_odm_adaptivity_en_msg(void *sel, _adapter *adapter)
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{
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struct registry_priv *regsty = &adapter->registrypriv;
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RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_EN_");
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if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_DISABLE)
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_RTW_PRINT_SEL(sel, "DISABLE\n");
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else if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_ENABLE)
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_RTW_PRINT_SEL(sel, "ENABLE\n");
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else if (regsty->adaptivity_en == RTW_ADAPTIVITY_EN_AUTO)
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_RTW_PRINT_SEL(sel, "AUTO\n");
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else
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_RTW_PRINT_SEL(sel, "INVALID\n");
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}
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#define RTW_ADAPTIVITY_MODE_NORMAL 0
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#define RTW_ADAPTIVITY_MODE_CARRIER_SENSE 1
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void rtw_odm_adaptivity_mode_msg(void *sel, _adapter *adapter)
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{
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struct registry_priv *regsty = &adapter->registrypriv;
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if (regsty->adaptivity_en != RTW_ADAPTIVITY_EN_ENABLE)
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return;
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RTW_PRINT_SEL(sel, "RTW_ADAPTIVITY_MODE_");
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if (regsty->adaptivity_mode == RTW_ADAPTIVITY_MODE_NORMAL)
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_RTW_PRINT_SEL(sel, "NORMAL\n");
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else if (regsty->adaptivity_mode == RTW_ADAPTIVITY_MODE_CARRIER_SENSE)
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_RTW_PRINT_SEL(sel, "CARRIER_SENSE\n");
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else
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_RTW_PRINT_SEL(sel, "INVALID\n");
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}
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void rtw_odm_adaptivity_config_msg(void *sel, _adapter *adapter)
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{
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rtw_odm_adaptivity_ver_msg(sel, adapter);
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rtw_odm_adaptivity_en_msg(sel, adapter);
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rtw_odm_adaptivity_mode_msg(sel, adapter);
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}
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bool rtw_odm_adaptivity_needed(_adapter *adapter)
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{
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struct registry_priv *regsty = &adapter->registrypriv;
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bool ret = _FALSE;
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if (regsty->adaptivity_en)
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ret = _TRUE;
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return ret;
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}
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void rtw_odm_adaptivity_update(struct dvobj_priv *dvobj)
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{
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HAL_DATA_TYPE *hal_data = GET_HAL_DATA(dvobj_get_primary_adapter(dvobj));
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struct rf_ctl_t *rfctl = dvobj_to_rfctl(dvobj);
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struct dm_struct *odm = dvobj_to_phydm(dvobj);
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u8 edcca_mode = RTW_EDCCA_NORMAL;
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if (hal_data->current_band_type == BAND_ON_2_4G)
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edcca_mode = rfctl->edcca_mode_2g;
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#if CONFIG_IEEE80211_BAND_5GHZ
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else if (hal_data->current_band_type == BAND_ON_5G)
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edcca_mode = rfctl->edcca_mode_5g;
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#endif
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rfctl->adaptivity_en = (edcca_mode == RTW_EDCCA_NORMAL || edcca_mode == RTW_EDCCA_MODE_NUM) ? 0 : 1;
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phydm_adaptivity_info_init(odm, PHYDM_ADAPINFO_CARRIER_SENSE_ENABLE, edcca_mode == RTW_EDCCA_CS ? TRUE : FALSE);
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}
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void rtw_odm_adaptivity_parm_msg(void *sel, _adapter *adapter)
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{
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struct dm_struct *odm = adapter_to_phydm(adapter);
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rtw_odm_adaptivity_config_msg(sel, adapter);
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RTW_PRINT_SEL(sel, "%10s %16s\n"
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, "th_l2h_ini", "th_edcca_hl_diff");
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RTW_PRINT_SEL(sel, "0x%-8x %-16d\n"
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, (u8)odm->th_l2h_ini
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, odm->th_edcca_hl_diff
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);
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}
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void rtw_odm_adaptivity_parm_set(_adapter *adapter, s8 th_l2h_ini, s8 th_edcca_hl_diff)
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{
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struct dm_struct *odm = adapter_to_phydm(adapter);
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odm->th_l2h_ini = th_l2h_ini;
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odm->th_edcca_hl_diff = th_edcca_hl_diff;
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}
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void rtw_odm_get_perpkt_rssi(void *sel, _adapter *adapter)
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{
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struct dm_struct *odm = adapter_to_phydm(adapter);
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RTW_PRINT_SEL(sel, "rx_rate = %s, rssi_a = %d(%%), rssi_b = %d(%%)\n",
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HDATA_RATE(odm->rx_rate), odm->rssi_a, odm->rssi_b);
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}
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void rtw_odm_acquirespinlock(_adapter *adapter, enum rt_spinlock_type type)
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{
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PHAL_DATA_TYPE pHalData = GET_HAL_DATA(adapter);
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_irqL irqL;
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switch (type) {
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case RT_IQK_SPINLOCK:
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_enter_critical_bh(&pHalData->IQKSpinLock, &irqL);
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default:
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break;
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}
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}
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void rtw_odm_releasespinlock(_adapter *adapter, enum rt_spinlock_type type)
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{
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PHAL_DATA_TYPE pHalData = GET_HAL_DATA(adapter);
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_irqL irqL;
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switch (type) {
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case RT_IQK_SPINLOCK:
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_exit_critical_bh(&pHalData->IQKSpinLock, &irqL);
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default:
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break;
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}
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}
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s16 rtw_odm_get_tx_power_mbm(struct dm_struct *dm, u8 rfpath, u8 rate, u8 bw, u8 cch)
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{
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return phy_get_txpwr_single_mbm(dm->adapter, rfpath, mgn_rate_to_rs(rate), rate, bw, cch, 0, 0, 0, NULL);
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}
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#ifdef CONFIG_DFS_MASTER
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inline void rtw_odm_radar_detect_reset(_adapter *adapter)
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{
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phydm_radar_detect_reset(adapter_to_phydm(adapter));
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}
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inline void rtw_odm_radar_detect_disable(_adapter *adapter)
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{
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phydm_radar_detect_disable(adapter_to_phydm(adapter));
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}
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/* called after ch, bw is set */
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inline void rtw_odm_radar_detect_enable(_adapter *adapter)
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{
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phydm_radar_detect_enable(adapter_to_phydm(adapter));
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}
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inline BOOLEAN rtw_odm_radar_detect(_adapter *adapter)
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{
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return phydm_radar_detect(adapter_to_phydm(adapter));
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}
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static enum phydm_dfs_region_domain _rtw_dfs_regd_to_phydm[] = {
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[RTW_DFS_REGD_NONE] = PHYDM_DFS_DOMAIN_UNKNOWN,
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[RTW_DFS_REGD_FCC] = PHYDM_DFS_DOMAIN_FCC,
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[RTW_DFS_REGD_MKK] = PHYDM_DFS_DOMAIN_MKK,
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[RTW_DFS_REGD_ETSI] = PHYDM_DFS_DOMAIN_ETSI,
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};
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#define rtw_dfs_regd_to_phydm(region) (((region) >= RTW_DFS_REGD_NUM) ? _rtw_dfs_regd_to_phydm[RTW_DFS_REGD_NONE] : _rtw_dfs_regd_to_phydm[(region)])
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void rtw_odm_update_dfs_region(struct dvobj_priv *dvobj)
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{
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odm_cmn_info_init(dvobj_to_phydm(dvobj), ODM_CMNINFO_DFS_REGION_DOMAIN, rtw_dfs_regd_to_phydm(rtw_rfctl_get_dfs_domain(dvobj_to_rfctl(dvobj))));
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}
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inline u8 rtw_odm_radar_detect_polling_int_ms(struct dvobj_priv *dvobj)
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{
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return phydm_dfs_polling_time(dvobj_to_phydm(dvobj));
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}
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#endif /* CONFIG_DFS_MASTER */
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void rtw_odm_parse_rx_phy_status_chinfo(union recv_frame *rframe, u8 *phys)
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{
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#ifndef DBG_RX_PHYSTATUS_CHINFO
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#define DBG_RX_PHYSTATUS_CHINFO 0
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#endif
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#if (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1)
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_adapter *adapter = rframe->u.hdr.adapter;
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struct dm_struct *phydm = adapter_to_phydm(adapter);
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struct rx_pkt_attrib *attrib = &rframe->u.hdr.attrib;
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u8 *wlanhdr = get_recvframe_data(rframe);
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if (phydm->support_ic_type & PHYSTS_2ND_TYPE_IC) {
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/*
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* 8723D:
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* type_0(CCK)
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* l_rxsc
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* is filled with primary channel SC, not real rxsc.
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* 0:LSC, 1:USC
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* type_1(OFDM)
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* rf_mode
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* RF bandwidth when RX
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* l_rxsc(legacy), ht_rxsc
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* see below RXSC N-series
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* type_2(Not used)
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*/
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/*
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* 8821C, 8822B:
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* type_0(CCK)
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* l_rxsc
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* is filled with primary channel SC, not real rxsc.
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* 0:LSC, 1:USC
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* type_1(OFDM)
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* rf_mode
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* RF bandwidth when RX
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* l_rxsc(legacy), ht_rxsc
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* see below RXSC AC-series
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* type_2(Not used)
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*/
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if ((*phys & 0xf) == 0) {
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struct phy_sts_rpt_jgr2_type0 *phys_t0 = (struct phy_sts_rpt_jgr2_type0 *)phys;
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if (DBG_RX_PHYSTATUS_CHINFO) {
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RTW_PRINT("phys_t%u ta="MAC_FMT" %s, %s(band:%u, ch:%u, l_rxsc:%u)\n"
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, *phys & 0xf
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, MAC_ARG(get_ta(wlanhdr))
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, is_broadcast_mac_addr(get_ra(wlanhdr)) ? "BC" : is_multicast_mac_addr(get_ra(wlanhdr)) ? "MC" : "UC"
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, HDATA_RATE(attrib->data_rate)
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, phys_t0->band, phys_t0->channel, phys_t0->rxsc
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);
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}
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} else if ((*phys & 0xf) == 1) {
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struct phy_sts_rpt_jgr2_type1 *phys_t1 = (struct phy_sts_rpt_jgr2_type1 *)phys;
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u8 rxsc = (attrib->data_rate > DESC_RATE11M && attrib->data_rate < DESC_RATEMCS0) ? phys_t1->l_rxsc : phys_t1->ht_rxsc;
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u8 pkt_cch = 0;
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u8 pkt_bw = CHANNEL_WIDTH_20;
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#if ODM_IC_11N_SERIES_SUPPORT
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if (phydm->support_ic_type & ODM_IC_11N_SERIES) {
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/* RXSC N-series */
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#define RXSC_DUP 0
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#define RXSC_LSC 1
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#define RXSC_USC 2
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#define RXSC_40M 3
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static const s8 cch_offset_by_rxsc[4] = {0, -2, 2, 0};
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if (phys_t1->rf_mode == 0) {
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pkt_cch = phys_t1->channel;
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pkt_bw = CHANNEL_WIDTH_20;
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} else if (phys_t1->rf_mode == 1) {
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if (rxsc == RXSC_LSC || rxsc == RXSC_USC) {
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pkt_cch = phys_t1->channel + cch_offset_by_rxsc[rxsc];
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pkt_bw = CHANNEL_WIDTH_20;
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} else if (rxsc == RXSC_40M) {
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pkt_cch = phys_t1->channel;
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pkt_bw = CHANNEL_WIDTH_40;
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}
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} else
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rtw_warn_on(1);
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goto type1_end;
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}
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#endif /* ODM_IC_11N_SERIES_SUPPORT */
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#if ODM_IC_11AC_SERIES_SUPPORT
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if (phydm->support_ic_type & ODM_IC_11AC_SERIES) {
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/* RXSC AC-series */
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#define RXSC_DUP 0 /* 0: RX from all SC of current rf_mode */
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#define RXSC_LL20M_OF_160M 8 /* 1~8: RX from 20MHz SC */
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#define RXSC_L20M_OF_160M 6
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#define RXSC_L20M_OF_80M 4
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#define RXSC_L20M_OF_40M 2
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#define RXSC_U20M_OF_40M 1
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#define RXSC_U20M_OF_80M 3
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#define RXSC_U20M_OF_160M 5
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#define RXSC_UU20M_OF_160M 7
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#define RXSC_L40M_OF_160M 12 /* 9~12: RX from 40MHz SC */
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#define RXSC_L40M_OF_80M 10
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#define RXSC_U40M_OF_80M 9
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#define RXSC_U40M_OF_160M 11
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#define RXSC_L80M_OF_160M 14 /* 13~14: RX from 80MHz SC */
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#define RXSC_U80M_OF_160M 13
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static const s8 cch_offset_by_rxsc[15] = {0, 2, -2, 6, -6, 10, -10, 14, -14, 4, -4, 12, -12, 8, -8};
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if (phys_t1->rf_mode == 0) {
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/* RF 20MHz */
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pkt_cch = phys_t1->channel;
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pkt_bw = CHANNEL_WIDTH_20;
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goto type1_end;
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}
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if (rxsc == 0) {
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/* RF and RX with same BW */
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if (attrib->data_rate >= DESC_RATEMCS0) {
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pkt_cch = phys_t1->channel;
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pkt_bw = phys_t1->rf_mode;
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}
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goto type1_end;
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}
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if ((phys_t1->rf_mode == 1 && rxsc >= 1 && rxsc <= 2) /* RF 40MHz, RX 20MHz */
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|| (phys_t1->rf_mode == 2 && rxsc >= 1 && rxsc <= 4) /* RF 80MHz, RX 20MHz */
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|| (phys_t1->rf_mode == 3 && rxsc >= 1 && rxsc <= 8) /* RF 160MHz, RX 20MHz */
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) {
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pkt_cch = phys_t1->channel + cch_offset_by_rxsc[rxsc];
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pkt_bw = CHANNEL_WIDTH_20;
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} else if ((phys_t1->rf_mode == 2 && rxsc >= 9 && rxsc <= 10) /* RF 80MHz, RX 40MHz */
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|| (phys_t1->rf_mode == 3 && rxsc >= 9 && rxsc <= 12) /* RF 160MHz, RX 40MHz */
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) {
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if (attrib->data_rate >= DESC_RATEMCS0) {
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pkt_cch = phys_t1->channel + cch_offset_by_rxsc[rxsc];
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pkt_bw = CHANNEL_WIDTH_40;
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}
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} else if ((phys_t1->rf_mode == 3 && rxsc >= 13 && rxsc <= 14) /* RF 160MHz, RX 80MHz */
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) {
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if (attrib->data_rate >= DESC_RATEMCS0) {
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pkt_cch = phys_t1->channel + cch_offset_by_rxsc[rxsc];
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pkt_bw = CHANNEL_WIDTH_80;
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}
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} else
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rtw_warn_on(1);
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}
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#endif /* ODM_IC_11AC_SERIES_SUPPORT */
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type1_end:
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if (DBG_RX_PHYSTATUS_CHINFO) {
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RTW_PRINT("phys_t%u ta="MAC_FMT" %s, %s(band:%u, ch:%u, rf_mode:%u, l_rxsc:%u, ht_rxsc:%u) => %u,%u\n"
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, *phys & 0xf
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, MAC_ARG(get_ta(wlanhdr))
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, is_broadcast_mac_addr(get_ra(wlanhdr)) ? "BC" : is_multicast_mac_addr(get_ra(wlanhdr)) ? "MC" : "UC"
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, HDATA_RATE(attrib->data_rate)
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, phys_t1->band, phys_t1->channel, phys_t1->rf_mode, phys_t1->l_rxsc, phys_t1->ht_rxsc
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, pkt_cch, pkt_bw
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);
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}
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/* for now, only return cneter channel of 20MHz packet */
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if (pkt_cch && pkt_bw == CHANNEL_WIDTH_20)
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attrib->ch = pkt_cch;
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|
|
|
} else {
|
|
struct phy_sts_rpt_jgr2_type2 *phys_t2 = (struct phy_sts_rpt_jgr2_type2 *)phys;
|
|
|
|
if (DBG_RX_PHYSTATUS_CHINFO) {
|
|
RTW_PRINT("phys_t%u ta="MAC_FMT" %s, %s(band:%u, ch:%u, l_rxsc:%u, ht_rxsc:%u)\n"
|
|
, *phys & 0xf
|
|
, MAC_ARG(get_ta(wlanhdr))
|
|
, is_broadcast_mac_addr(get_ra(wlanhdr)) ? "BC" : is_multicast_mac_addr(get_ra(wlanhdr)) ? "MC" : "UC"
|
|
, HDATA_RATE(attrib->data_rate)
|
|
, phys_t2->band, phys_t2->channel, phys_t2->l_rxsc, phys_t2->ht_rxsc
|
|
);
|
|
}
|
|
}
|
|
}
|
|
#endif /* (ODM_PHY_STATUS_NEW_TYPE_SUPPORT == 1) */
|
|
|
|
}
|
|
|
|
#if defined(CONFIG_RTL8822C) && defined(CONFIG_LPS_PG)
|
|
void
|
|
debug_DACK(
|
|
struct dm_struct *dm
|
|
)
|
|
{
|
|
//P_PHYDM_FUNC dm;
|
|
//dm = &(SysMib.ODM.Phydm);
|
|
//PIQK_OFFLOAD_PARM pIQK_info;
|
|
//pIQK_info= &(SysMib.ODM.IQKParm);
|
|
u8 i;
|
|
u32 temp1, temp2, temp3;
|
|
|
|
temp1 = odm_get_bb_reg(dm, 0x1860, bMaskDWord);
|
|
temp2 = odm_get_bb_reg(dm, 0x4160, bMaskDWord);
|
|
temp3 = odm_get_bb_reg(dm, 0x9b4, bMaskDWord);
|
|
|
|
odm_set_bb_reg(dm, 0x9b4, bMaskDWord, 0xdb66db00);
|
|
|
|
//pathA
|
|
odm_set_bb_reg(dm, 0x1830, BIT(30), 0x0);
|
|
odm_set_bb_reg(dm, 0x1860, 0xfc000000, 0x3c);
|
|
|
|
RTW_INFO("path A i\n");
|
|
//i
|
|
for (i = 0; i < 0xf; i++) {
|
|
odm_set_bb_reg(dm, 0x18b0, 0xf0000000, i);
|
|
RTW_INFO("[0][0][%d] = 0x%08x\n", i, (u16)odm_get_bb_reg(dm,0x2810,0x7fc0000));
|
|
//pIQK_info->msbk_d[0][0][i] = (u16)odm_get_bb_reg(dm,0x2810,0x7fc0000);
|
|
}
|
|
RTW_INFO("path A q\n");
|
|
//q
|
|
for (i = 0; i < 0xf; i++) {
|
|
odm_set_bb_reg(dm, 0x18cc, 0xf0000000, i);
|
|
RTW_INFO("[0][1][%d] = 0x%08x\n", i, (u16)odm_get_bb_reg(dm,0x283c,0x7fc0000));
|
|
//pIQK_info->msbk_d[0][1][i] = (u16)odm_get_bb_reg(dm,0x283c,0x7fc0000);
|
|
}
|
|
//pathB
|
|
odm_set_bb_reg(dm, 0x4130, BIT(30), 0x0);
|
|
odm_set_bb_reg(dm, 0x4160, 0xfc000000, 0x3c);
|
|
|
|
RTW_INFO("\npath B i\n");
|
|
//i
|
|
for (i = 0; i < 0xf; i++) {
|
|
odm_set_bb_reg(dm, 0x41b0, 0xf0000000, i);
|
|
RTW_INFO("[1][0][%d] = 0x%08x\n", i, (u16)odm_get_bb_reg(dm,0x4510,0x7fc0000));
|
|
//pIQK_info->msbk_d[1][0][i] = (u16)odm_get_bb_reg(dm,0x2810,0x7fc0000);
|
|
}
|
|
RTW_INFO("path B q\n");
|
|
//q
|
|
for (i = 0; i < 0xf; i++) {
|
|
odm_set_bb_reg(dm, 0x41cc, 0xf0000000, i);
|
|
RTW_INFO("[1][1][%d] = 0x%08x\n", i, (u16)odm_get_bb_reg(dm,0x453c,0x7fc0000));
|
|
//pIQK_info->msbk_d[1][1][i] = (u16)odm_get_bb_reg(dm,0x283c,0x7fc0000);
|
|
}
|
|
|
|
//restore to normal
|
|
odm_set_bb_reg(dm, 0x1830, BIT(30), 0x1);
|
|
odm_set_bb_reg(dm, 0x4130, BIT(30), 0x1);
|
|
odm_set_bb_reg(dm, 0x1860, bMaskDWord, temp1);
|
|
odm_set_bb_reg(dm, 0x4160, bMaskDWord, temp2);
|
|
odm_set_bb_reg(dm, 0x9b4, bMaskDWord, temp3);
|
|
|
|
|
|
}
|
|
|
|
void
|
|
debug_IQK(
|
|
struct dm_struct *dm,
|
|
IN u8 idx,
|
|
IN u8 path
|
|
)
|
|
{
|
|
u8 i, ch;
|
|
u32 tmp;
|
|
u32 bit_mask_20_16 = BIT(20) | BIT(19) | BIT(18) | BIT(17) | BIT(16);
|
|
|
|
RTW_INFO("idx = %d, path = %d\n", idx, path);
|
|
|
|
odm_set_bb_reg(dm, 0x1b00, MASKDWORD, 0x8 | path << 1);
|
|
|
|
if (idx == TX_IQK) {//TXCFIR
|
|
odm_set_bb_reg(dm, R_0x1b20, BIT(31) | BIT(30), 0x3);
|
|
} else {//RXCFIR
|
|
odm_set_bb_reg(dm, R_0x1b20, BIT(31) | BIT(30), 0x1);
|
|
}
|
|
odm_set_bb_reg(dm, R_0x1bd4, BIT(21), 0x1);
|
|
odm_set_bb_reg(dm, R_0x1bd4, bit_mask_20_16, 0x10);
|
|
for (i = 0; i <= 16; i++) {
|
|
odm_set_bb_reg(dm, R_0x1bd8, MASKDWORD, 0xe0000001 | i << 2);
|
|
tmp = odm_get_bb_reg(dm, R_0x1bfc, MASKDWORD);
|
|
RTW_INFO("iqk_cfir_real[%d][%d][%d] = 0x%x\n", path, idx, i, ((tmp & 0x0fff0000) >> 16));
|
|
//iqk_info->iqk_cfir_real[ch][path][idx][i] =
|
|
// (tmp & 0x0fff0000) >> 16;
|
|
RTW_INFO("iqk_cfir_imag[%d][%d][%d] = 0x%x\n", path, idx, i, (tmp & 0x0fff));
|
|
//iqk_info->iqk_cfir_imag[ch][path][idx][i] = tmp & 0x0fff;
|
|
}
|
|
odm_set_bb_reg(dm, R_0x1b20, BIT(31) | BIT(30), 0x0);
|
|
//odm_set_bb_reg(dm, R_0x1bd8, MASKDWORD, 0x0);
|
|
}
|
|
|
|
__odm_func__ void
|
|
debug_information_8822c(
|
|
struct dm_struct *dm)
|
|
{
|
|
struct dm_dpk_info *dpk_info = &dm->dpk_info;
|
|
|
|
u32 reg_rf18;
|
|
|
|
if (odm_get_bb_reg(dm, R_0x1e7c, BIT(30)))
|
|
dpk_info->is_tssi_mode = true;
|
|
else
|
|
dpk_info->is_tssi_mode = false;
|
|
|
|
reg_rf18 = odm_get_rf_reg(dm, RF_PATH_A, RF_0x18, RFREG_MASK);
|
|
|
|
dpk_info->dpk_band = (u8)((reg_rf18 & BIT(16)) >> 16); /*0/1:G/A*/
|
|
dpk_info->dpk_ch = (u8)reg_rf18 & 0xff;
|
|
dpk_info->dpk_bw = (u8)((reg_rf18 & 0x3000) >> 12); /*3/2/1:20/40/80*/
|
|
|
|
RTW_INFO("[DPK] TSSI/ Band/ CH/ BW = %d / %s / %d / %s\n",
|
|
dpk_info->is_tssi_mode, dpk_info->dpk_band == 0 ? "2G" : "5G",
|
|
dpk_info->dpk_ch,
|
|
dpk_info->dpk_bw == 3 ? "20M" : (dpk_info->dpk_bw == 2 ? "40M" : "80M"));
|
|
}
|
|
|
|
extern void _dpk_get_coef_8822c(void *dm_void, u8 path);
|
|
|
|
__odm_func__ void
|
|
debug_reload_data_8822c(
|
|
void *dm_void)
|
|
{
|
|
struct dm_struct *dm = (struct dm_struct *)dm_void;
|
|
struct dm_dpk_info *dpk_info = &dm->dpk_info;
|
|
|
|
u8 path;
|
|
u32 u32tmp;
|
|
|
|
debug_information_8822c(dm);
|
|
|
|
for (path = 0; path < DPK_RF_PATH_NUM_8822C; path++) {
|
|
|
|
RTW_INFO("[DPK] Reload path: 0x%x\n", path);
|
|
|
|
odm_set_bb_reg(dm, R_0x1b00, MASKDWORD, 0x8 | (path << 1));
|
|
|
|
/*txagc bnd*/
|
|
if (dpk_info->dpk_band == 0x0)
|
|
u32tmp = odm_get_bb_reg(dm, R_0x1b60, MASKDWORD);
|
|
else
|
|
u32tmp = odm_get_bb_reg(dm, R_0x1b60, MASKDWORD);
|
|
|
|
RTW_INFO("[DPK] txagc bnd = 0x%08x\n", u32tmp);
|
|
|
|
u32tmp = odm_get_bb_reg(dm, R_0x1b64, MASKBYTE3);
|
|
RTW_INFO("[DPK] dpk_txagc = 0x%08x\n", u32tmp);
|
|
|
|
//debug_coef_write_8822c(dm, path, dpk_info->dpk_path_ok & BIT(path) >> path);
|
|
_dpk_get_coef_8822c(dm, path);
|
|
|
|
//debug_one_shot_8822c(dm, path, DPK_ON);
|
|
|
|
odm_set_bb_reg(dm, R_0x1b00, 0x0000000f, 0xc);
|
|
|
|
if (path == RF_PATH_A)
|
|
u32tmp = odm_get_bb_reg(dm, R_0x1b04, 0x0fffffff);
|
|
else
|
|
u32tmp = odm_get_bb_reg(dm, R_0x1b5c, 0x0fffffff);
|
|
|
|
RTW_INFO("[DPK] dpk_gs = 0x%08x\n", u32tmp);
|
|
|
|
}
|
|
}
|
|
|
|
void odm_lps_pg_debug_8822c(void *dm_void)
|
|
{
|
|
struct dm_struct *dm = (struct dm_struct *)dm_void;
|
|
|
|
debug_DACK(dm);
|
|
debug_IQK(dm, TX_IQK, RF_PATH_A);
|
|
debug_IQK(dm, RX_IQK, RF_PATH_A);
|
|
debug_IQK(dm, TX_IQK, RF_PATH_B);
|
|
debug_IQK(dm, RX_IQK, RF_PATH_B);
|
|
debug_reload_data_8822c(dm);
|
|
}
|
|
#endif /* defined(CONFIG_RTL8822C) && defined(CONFIG_LPS_PG) */
|
|
|