2018-06-22 16:48:32 +00:00
/******************************************************************************
*
* Copyright ( c ) 2007 - 2017 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 .
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# include "mp_precomp.h"
# if RT_PLATFORM==PLATFORM_MACOSX
# include "phydm_precomp.h"
# else
# include "../phydm_precomp.h"
# endif
/*---------------------------Define Local Constant---------------------------*/
/* 2010/04/25 MH Define the max tx power tracking tx agc power. */
# define ODM_TXPWRTRACK_MAX_IDX8812A 6
/*---------------------------Define Local Constant---------------------------*/
/* 3============================================================
* 3 Tx Power Tracking
* 3 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = */
void halrf_rf_lna_setting_8812a (
struct PHY_DM_STRUCT * p_dm ,
enum phydm_lna_set type
)
{
/*phydm_disable_lna*/
if ( type = = phydm_lna_disable ) {
odm_set_rf_reg ( p_dm , RF_PATH_A , 0xef , 0x80000 , 0x1 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x30 , 0xfffff , 0x18000 ) ; /*select Rx mode*/
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x31 , 0xfffff , 0x3f7ff ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x32 , 0xfffff , 0xc22bf ) ; /*disable LNA*/
odm_set_rf_reg ( p_dm , RF_PATH_A , 0xef , 0x80000 , 0x0 ) ;
if ( p_dm - > rf_type > RF_1T1R ) {
odm_set_rf_reg ( p_dm , RF_PATH_B , 0xef , 0x80000 , 0x1 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x30 , 0xfffff , 0x18000 ) ; /*select Rx mode*/
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x31 , 0xfffff , 0x3f7ff ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x32 , 0xfffff , 0xc22bf ) ; /*disable LNA*/
odm_set_rf_reg ( p_dm , RF_PATH_B , 0xef , 0x80000 , 0x0 ) ;
}
} else if ( type = = phydm_lna_enable ) {
odm_set_rf_reg ( p_dm , RF_PATH_A , 0xef , 0x80000 , 0x1 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x30 , 0xfffff , 0x18000 ) ; /*select Rx mode*/
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x31 , 0xfffff , 0x3f7ff ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x32 , 0xfffff , 0xc26bf ) ; /*disable LNA*/
odm_set_rf_reg ( p_dm , RF_PATH_A , 0xef , 0x80000 , 0x0 ) ;
if ( p_dm - > rf_type > RF_1T1R ) {
odm_set_rf_reg ( p_dm , RF_PATH_B , 0xef , 0x80000 , 0x1 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x30 , 0xfffff , 0x18000 ) ; /*select Rx mode*/
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x31 , 0xfffff , 0x3f7ff ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x32 , 0xfffff , 0xc26bf ) ; /*disable LNA*/
odm_set_rf_reg ( p_dm , RF_PATH_B , 0xef , 0x80000 , 0x0 ) ;
}
}
}
void do_iqk_8812a (
void * p_dm_void ,
u8 delta_thermal_index ,
u8 thermal_value ,
u8 threshold
)
{
struct PHY_DM_STRUCT * p_dm = ( struct PHY_DM_STRUCT * ) p_dm_void ;
odm_reset_iqk_result ( p_dm ) ;
p_dm - > rf_calibrate_info . thermal_value_iqk = thermal_value ;
halrf_iqk_trigger ( p_dm , false ) ;
}
/*-----------------------------------------------------------------------------
* Function : odm_TxPwrTrackSetPwr88E ( )
*
* Overview : 88 E change all channel tx power accordign to flag .
* OFDM & CCK are all different .
*
* Input : NONE
*
* Output : NONE
*
* Return : NONE
*
* Revised History :
* When Who Remark
* 04 / 23 / 2012 MHC Create version 0.
*
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
void
odm_tx_pwr_track_set_pwr8812a (
void * p_dm_void ,
enum pwrtrack_method method ,
u8 rf_path ,
u8 channel_mapped_index
)
{
u32 final_bb_swing_idx [ 2 ] ;
struct PHY_DM_STRUCT * p_dm = ( struct PHY_DM_STRUCT * ) p_dm_void ;
struct _ADAPTER * adapter = p_dm - > adapter ;
u8 pwr_tracking_limit = 26 ; /* +1.0dB */
u8 tx_rate = 0xFF ;
u8 final_ofdm_swing_index = 0 ;
u8 final_cck_swing_index = 0 ;
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
if ( * ( p_dm - > p_mp_mode ) = = true ) {
# if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
# if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
# if (MP_DRIVER == 1)
PMPT_CONTEXT p_mpt_ctx = & ( adapter - > MptCtx ) ;
tx_rate = MptToMgntRate ( p_mpt_ctx - > MptRateIndex ) ;
# endif
# elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
# ifdef CONFIG_MP_INCLUDED
PMPT_CONTEXT p_mpt_ctx = & ( adapter - > mppriv . mpt_ctx ) ;
tx_rate = mpt_to_mgnt_rate ( p_mpt_ctx - > mpt_rate_index ) ;
# endif
# endif
# endif
} else {
u16 rate = * ( p_dm - > p_forced_data_rate ) ;
if ( ! rate ) { /*auto rate*/
# if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
tx_rate = adapter - > HalFunc . GetHwRateFromMRateHandler ( p_dm - > tx_rate ) ;
# elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
tx_rate = hw_rate_to_m_rate ( p_dm - > tx_rate ) ;
# endif
} else /*force rate*/
tx_rate = ( u8 ) rate ;
}
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " Power Tracking tx_rate=0x%X \n " , tx_rate ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ===>odm_tx_pwr_track_set_pwr8812a \n " ) ) ;
if ( tx_rate ! = 0xFF ) { /* 20130429 Mimic Modify High rate BBSwing Limit. */
/* 2 CCK */
if ( ( ( tx_rate > = MGN_1M ) & & ( tx_rate < = MGN_5_5M ) ) | | ( tx_rate = = MGN_11M ) )
pwr_tracking_limit = 32 ; /*+4dB*/
/*2 OFDM*/
else if ( ( tx_rate > = MGN_6M ) & & ( tx_rate < = MGN_48M ) )
pwr_tracking_limit = 30 ; /* +3dB */
else if ( tx_rate = = MGN_54M )
pwr_tracking_limit = 28 ; /* +2dB */
/* 2 HT */
else if ( ( tx_rate > = MGN_MCS0 ) & & ( tx_rate < = MGN_MCS2 ) ) /* QPSK/BPSK */
pwr_tracking_limit = 34 ; /* +5dB */
else if ( ( tx_rate > = MGN_MCS3 ) & & ( tx_rate < = MGN_MCS4 ) ) /* 16QAM */
pwr_tracking_limit = 30 ; /* +3dB */
else if ( ( tx_rate > = MGN_MCS5 ) & & ( tx_rate < = MGN_MCS7 ) ) /* 64QAM */
pwr_tracking_limit = 28 ; /* +2dB */
else if ( ( tx_rate > = MGN_MCS8 ) & & ( tx_rate < = MGN_MCS10 ) ) /* QPSK/BPSK */
pwr_tracking_limit = 34 ; /* +5dB */
else if ( ( tx_rate > = MGN_MCS11 ) & & ( tx_rate < = MGN_MCS12 ) ) /* 16QAM */
pwr_tracking_limit = 30 ; /* +3dB */
else if ( ( tx_rate > = MGN_MCS13 ) & & ( tx_rate < = MGN_MCS15 ) ) /* 64QAM */
pwr_tracking_limit = 28 ; /* +2dB */
/* 2 VHT */
else if ( ( tx_rate > = MGN_VHT1SS_MCS0 ) & & ( tx_rate < = MGN_VHT1SS_MCS2 ) ) /* QPSK/BPSK */
pwr_tracking_limit = 34 ; /* +5dB */
else if ( ( tx_rate > = MGN_VHT1SS_MCS3 ) & & ( tx_rate < = MGN_VHT1SS_MCS4 ) ) /* 16QAM */
pwr_tracking_limit = 30 ; /* +3dB */
else if ( ( tx_rate > = MGN_VHT1SS_MCS5 ) & & ( tx_rate < = MGN_VHT1SS_MCS6 ) ) /* 64QAM */
pwr_tracking_limit = 28 ; /* +2dB */
else if ( tx_rate = = MGN_VHT1SS_MCS7 ) /* 64QAM */
pwr_tracking_limit = 26 ; /* +1dB */
else if ( tx_rate = = MGN_VHT1SS_MCS8 ) /* 256QAM */
pwr_tracking_limit = 24 ; /* +0dB */
else if ( tx_rate = = MGN_VHT1SS_MCS9 ) /* 256QAM */
pwr_tracking_limit = 22 ; /* -1dB */
else if ( ( tx_rate > = MGN_VHT2SS_MCS0 ) & & ( tx_rate < = MGN_VHT2SS_MCS2 ) ) /* QPSK/BPSK */
pwr_tracking_limit = 34 ; /* +5dB */
else if ( ( tx_rate > = MGN_VHT2SS_MCS3 ) & & ( tx_rate < = MGN_VHT2SS_MCS4 ) ) /* 16QAM */
pwr_tracking_limit = 30 ; /* +3dB */
else if ( ( tx_rate > = MGN_VHT2SS_MCS5 ) & & ( tx_rate < = MGN_VHT2SS_MCS6 ) ) /* 64QAM */
pwr_tracking_limit = 28 ; /* +2dB */
else if ( tx_rate = = MGN_VHT2SS_MCS7 ) /* 64QAM */
pwr_tracking_limit = 26 ; /* +1dB */
else if ( tx_rate = = MGN_VHT2SS_MCS8 ) /* 256QAM */
pwr_tracking_limit = 24 ; /* +0dB */
else if ( tx_rate = = MGN_VHT2SS_MCS9 ) /* 256QAM */
pwr_tracking_limit = 22 ; /* -1dB */
else
pwr_tracking_limit = 24 ;
}
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " tx_rate=0x%x, pwr_tracking_limit=%d \n " , tx_rate , pwr_tracking_limit ) ) ;
if ( method = = BBSWING ) {
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ===>odm_tx_pwr_track_set_pwr8812a \n " ) ) ;
if ( rf_path = = RF_PATH_A ) {
final_bb_swing_idx [ RF_PATH_A ] = ( p_rf_calibrate_info - > OFDM_index [ RF_PATH_A ] > pwr_tracking_limit ) ? pwr_tracking_limit : p_rf_calibrate_info - > OFDM_index [ RF_PATH_A ] ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " p_rf_calibrate_info->OFDM_index[RF_PATH_A]=%d, p_dm->RealBbSwingIdx[RF_PATH_A]=%d \n " ,
p_rf_calibrate_info - > OFDM_index [ RF_PATH_A ] , final_bb_swing_idx [ RF_PATH_A ] ) ) ;
odm_set_bb_reg ( p_dm , REG_A_TX_SCALE_JAGUAR , 0xFFE00000 , tx_scaling_table_jaguar [ final_bb_swing_idx [ RF_PATH_A ] ] ) ;
} else {
final_bb_swing_idx [ RF_PATH_B ] = ( p_rf_calibrate_info - > OFDM_index [ RF_PATH_B ] > pwr_tracking_limit ) ? pwr_tracking_limit : p_rf_calibrate_info - > OFDM_index [ RF_PATH_B ] ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " p_rf_calibrate_info->OFDM_index[RF_PATH_B]=%d, p_dm->RealBbSwingIdx[RF_PATH_B]=%d \n " ,
p_rf_calibrate_info - > OFDM_index [ RF_PATH_B ] , final_bb_swing_idx [ RF_PATH_B ] ) ) ;
odm_set_bb_reg ( p_dm , REG_B_TX_SCALE_JAGUAR , 0xFFE00000 , tx_scaling_table_jaguar [ final_bb_swing_idx [ RF_PATH_B ] ] ) ;
}
}
else if ( method = = MIX_MODE ) {
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " p_rf_calibrate_info->default_ofdm_index=%d, p_rf_calibrate_info->absolute_ofdm_swing_idx[rf_path]=%d, rf_path = %d \n " ,
p_rf_calibrate_info - > default_ofdm_index , p_rf_calibrate_info - > absolute_ofdm_swing_idx [ rf_path ] , rf_path ) ) ;
final_cck_swing_index = p_rf_calibrate_info - > default_cck_index + p_rf_calibrate_info - > absolute_ofdm_swing_idx [ rf_path ] ;
final_ofdm_swing_index = p_rf_calibrate_info - > default_ofdm_index + p_rf_calibrate_info - > absolute_ofdm_swing_idx [ rf_path ] ;
if ( rf_path = = RF_PATH_A ) {
if ( final_ofdm_swing_index > pwr_tracking_limit ) { /* BBSwing higher then Limit */
p_rf_calibrate_info - > remnant_cck_swing_idx = final_cck_swing_index - pwr_tracking_limit ; /* CCK Follow the same compensate value as path A */
p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] = final_ofdm_swing_index - pwr_tracking_limit ;
odm_set_bb_reg ( p_dm , REG_A_TX_SCALE_JAGUAR , 0xFFE00000 , tx_scaling_table_jaguar [ pwr_tracking_limit ] ) ;
p_rf_calibrate_info - > modify_tx_agc_flag_path_a = true ;
PHY_SetTxPowerLevelByPath ( adapter , * p_dm - > p_channel , RF_PATH_A ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ******Path_A Over BBSwing Limit, pwr_tracking_limit = %d, Remnant tx_agc value = %d \n " , pwr_tracking_limit , p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] ) ) ;
} else if ( final_ofdm_swing_index < 0 ) {
p_rf_calibrate_info - > remnant_cck_swing_idx = final_cck_swing_index ; /* CCK Follow the same compensate value as path A */
p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] = final_ofdm_swing_index ;
odm_set_bb_reg ( p_dm , REG_A_TX_SCALE_JAGUAR , 0xFFE00000 , tx_scaling_table_jaguar [ 0 ] ) ;
p_rf_calibrate_info - > modify_tx_agc_flag_path_a = true ;
PHY_SetTxPowerLevelByPath ( adapter , * p_dm - > p_channel , RF_PATH_A ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ******Path_A Lower then BBSwing lower bound 0, Remnant tx_agc value = %d \n " , p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] ) ) ;
} else {
odm_set_bb_reg ( p_dm , REG_A_TX_SCALE_JAGUAR , 0xFFE00000 , tx_scaling_table_jaguar [ final_ofdm_swing_index ] ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ******Path_A Compensate with BBSwing, final_ofdm_swing_index = %d \n " , final_ofdm_swing_index ) ) ;
if ( p_rf_calibrate_info - > modify_tx_agc_flag_path_a ) { /* If tx_agc has changed, reset tx_agc again */
p_rf_calibrate_info - > remnant_cck_swing_idx = 0 ;
p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] = 0 ;
PHY_SetTxPowerLevelByPath ( adapter , * p_dm - > p_channel , RF_PATH_A ) ;
p_rf_calibrate_info - > modify_tx_agc_flag_path_a = false ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ******Path_A p_dm->Modify_TxAGC_Flag = false \n " ) ) ;
}
}
}
if ( rf_path = = RF_PATH_B ) {
if ( final_ofdm_swing_index > pwr_tracking_limit ) { /* BBSwing higher then Limit */
p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] = final_ofdm_swing_index - pwr_tracking_limit ;
odm_set_bb_reg ( p_dm , REG_B_TX_SCALE_JAGUAR , 0xFFE00000 , tx_scaling_table_jaguar [ pwr_tracking_limit ] ) ;
p_rf_calibrate_info - > modify_tx_agc_flag_path_b = true ;
PHY_SetTxPowerLevelByPath ( adapter , * p_dm - > p_channel , RF_PATH_B ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ******Path_B Over BBSwing Limit, pwr_tracking_limit = %d, Remnant tx_agc value = %d \n " , pwr_tracking_limit , p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] ) ) ;
} else if ( final_ofdm_swing_index < 0 ) {
p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] = final_ofdm_swing_index ;
odm_set_bb_reg ( p_dm , REG_B_TX_SCALE_JAGUAR , 0xFFE00000 , tx_scaling_table_jaguar [ 0 ] ) ;
p_rf_calibrate_info - > modify_tx_agc_flag_path_b = true ;
PHY_SetTxPowerLevelByPath ( adapter , * p_dm - > p_channel , RF_PATH_B ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ******Path_B Lower then BBSwing lower bound 0, Remnant tx_agc value = %d \n " , p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] ) ) ;
} else {
odm_set_bb_reg ( p_dm , REG_B_TX_SCALE_JAGUAR , 0xFFE00000 , tx_scaling_table_jaguar [ final_ofdm_swing_index ] ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ******Path_B Compensate with BBSwing, final_ofdm_swing_index = %d \n " , final_ofdm_swing_index ) ) ;
if ( p_rf_calibrate_info - > modify_tx_agc_flag_path_b ) { /* If tx_agc has changed, reset tx_agc again */
p_rf_calibrate_info - > remnant_ofdm_swing_idx [ rf_path ] = 0 ;
PHY_SetTxPowerLevelByPath ( adapter , * p_dm - > p_channel , RF_PATH_B ) ;
p_rf_calibrate_info - > modify_tx_agc_flag_path_b = false ;
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " ******Path_B p_dm->Modify_TxAGC_Flag = false \n " ) ) ;
}
}
}
} else
return ;
}
void
get_delta_swing_table_8812a (
void * p_dm_void ,
u8 * * temperature_up_a ,
u8 * * temperature_down_a ,
u8 * * temperature_up_b ,
u8 * * temperature_down_b
)
{
struct PHY_DM_STRUCT * p_dm = ( struct PHY_DM_STRUCT * ) p_dm_void ;
struct _ADAPTER * adapter = p_dm - > adapter ;
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
u8 tx_rate = 0xFF ;
u8 channel = * p_dm - > p_channel ;
if ( * ( p_dm - > p_mp_mode ) = = true ) {
# if (DM_ODM_SUPPORT_TYPE & (ODM_WIN | ODM_CE))
# if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
# if (MP_DRIVER == 1)
PMPT_CONTEXT p_mpt_ctx = & ( adapter - > MptCtx ) ;
tx_rate = MptToMgntRate ( p_mpt_ctx - > MptRateIndex ) ;
# endif
# elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
# ifdef CONFIG_MP_INCLUDED
PMPT_CONTEXT p_mpt_ctx = & ( adapter - > mppriv . mpt_ctx ) ;
tx_rate = mpt_to_mgnt_rate ( p_mpt_ctx - > mpt_rate_index ) ;
# endif
# endif
# endif
} else {
u16 rate = * ( p_dm - > p_forced_data_rate ) ;
if ( ! rate ) { /*auto rate*/
# if (DM_ODM_SUPPORT_TYPE & ODM_WIN)
tx_rate = adapter - > HalFunc . GetHwRateFromMRateHandler ( p_dm - > tx_rate ) ;
# elif (DM_ODM_SUPPORT_TYPE & ODM_CE)
tx_rate = hw_rate_to_m_rate ( p_dm - > tx_rate ) ;
# endif
} else /*force rate*/
tx_rate = ( u8 ) rate ;
}
ODM_RT_TRACE ( p_dm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " Power Tracking tx_rate=0x%X \n " , tx_rate ) ) ;
if ( 1 < = channel & & channel < = 14 ) {
if ( IS_CCK_RATE ( tx_rate ) ) {
* temperature_up_a = p_rf_calibrate_info - > delta_swing_table_idx_2g_cck_a_p ;
* temperature_down_a = p_rf_calibrate_info - > delta_swing_table_idx_2g_cck_a_n ;
* temperature_up_b = p_rf_calibrate_info - > delta_swing_table_idx_2g_cck_b_p ;
* temperature_down_b = p_rf_calibrate_info - > delta_swing_table_idx_2g_cck_b_n ;
} else {
* temperature_up_a = p_rf_calibrate_info - > delta_swing_table_idx_2ga_p ;
* temperature_down_a = p_rf_calibrate_info - > delta_swing_table_idx_2ga_n ;
* temperature_up_b = p_rf_calibrate_info - > delta_swing_table_idx_2gb_p ;
* temperature_down_b = p_rf_calibrate_info - > delta_swing_table_idx_2gb_n ;
}
} else if ( 36 < = channel & & channel < = 64 ) {
* temperature_up_a = p_rf_calibrate_info - > delta_swing_table_idx_5ga_p [ 0 ] ;
* temperature_down_a = p_rf_calibrate_info - > delta_swing_table_idx_5ga_n [ 0 ] ;
* temperature_up_b = p_rf_calibrate_info - > delta_swing_table_idx_5gb_p [ 0 ] ;
* temperature_down_b = p_rf_calibrate_info - > delta_swing_table_idx_5gb_n [ 0 ] ;
} else if ( 100 < = channel & & channel < = 144 ) {
* temperature_up_a = p_rf_calibrate_info - > delta_swing_table_idx_5ga_p [ 1 ] ;
* temperature_down_a = p_rf_calibrate_info - > delta_swing_table_idx_5ga_n [ 1 ] ;
* temperature_up_b = p_rf_calibrate_info - > delta_swing_table_idx_5gb_p [ 1 ] ;
* temperature_down_b = p_rf_calibrate_info - > delta_swing_table_idx_5gb_n [ 1 ] ;
} else if ( 149 < = channel & & channel < = 177 ) {
* temperature_up_a = p_rf_calibrate_info - > delta_swing_table_idx_5ga_p [ 2 ] ;
* temperature_down_a = p_rf_calibrate_info - > delta_swing_table_idx_5ga_n [ 2 ] ;
* temperature_up_b = p_rf_calibrate_info - > delta_swing_table_idx_5gb_p [ 2 ] ;
* temperature_down_b = p_rf_calibrate_info - > delta_swing_table_idx_5gb_n [ 2 ] ;
} else {
* temperature_up_a = ( u8 * ) delta_swing_table_idx_2ga_p_8188e ;
* temperature_down_a = ( u8 * ) delta_swing_table_idx_2ga_n_8188e ;
* temperature_up_b = ( u8 * ) delta_swing_table_idx_2ga_p_8188e ;
* temperature_down_b = ( u8 * ) delta_swing_table_idx_2ga_n_8188e ;
}
return ;
}
void configure_txpower_track_8812a (
struct _TXPWRTRACK_CFG * p_config
)
{
p_config - > swing_table_size_cck = TXSCALE_TABLE_SIZE ;
p_config - > swing_table_size_ofdm = TXSCALE_TABLE_SIZE ;
p_config - > threshold_iqk = IQK_THRESHOLD ;
p_config - > threshold_dpk = DPK_THRESHOLD ;
p_config - > average_thermal_num = AVG_THERMAL_NUM_8812A ;
p_config - > rf_path_count = MAX_PATH_NUM_8812A ;
p_config - > thermal_reg_addr = RF_T_METER_8812A ;
p_config - > odm_tx_pwr_track_set_pwr = odm_tx_pwr_track_set_pwr8812a ;
p_config - > do_iqk = do_iqk_8812a ;
p_config - > phy_lc_calibrate = halrf_lck_trigger ;
p_config - > get_delta_swing_table = get_delta_swing_table_8812a ;
}
# define BW_20M 0
# define BW_40M 1
# define BW_80M 2
void _iqk_rx_fill_iqc_8812a (
struct PHY_DM_STRUCT * p_dm ,
enum rf_path path ,
unsigned int RX_X ,
unsigned int RX_Y
)
{
switch ( path ) {
case RF_PATH_A :
{
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
if ( RX_X > > 1 > = 0x112 | | ( RX_Y > > 1 > = 0x12 & & RX_Y > > 1 < = 0x3ee ) ) {
odm_set_bb_reg ( p_dm , 0xc10 , 0x000003ff , 0x100 ) ;
odm_set_bb_reg ( p_dm , 0xc10 , 0x03ff0000 , 0 ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RX_X = %x;;RX_Y = %x ====>fill to IQC \n " , RX_X > > 1 & 0x000003ff , RX_Y > > 1 & 0x000003ff ) ) ;
} else {
2018-07-02 16:49:32 +00:00
if ( RX_X > = 0x20c )
RX_X = 0x20c ;
else if ( RX_X < = 0x1f4 )
RX_X = 0x1f4 ;
2018-06-22 16:48:32 +00:00
odm_set_bb_reg ( p_dm , 0xc10 , 0x000003ff , RX_X > > 1 ) ;
odm_set_bb_reg ( p_dm , 0xc10 , 0x03ff0000 , RX_Y > > 1 ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RX_X = %x;;RX_Y = %x ====>fill to IQC \n " , RX_X > > 1 & 0x000003ff , RX_Y > > 1 & 0x000003ff ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xc10 = %x ====>fill to IQC \n " , odm_read_4byte ( p_dm , 0xc10 ) ) ) ;
}
}
break ;
case RF_PATH_B :
{
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
if ( RX_X > > 1 > = 0x112 | | ( RX_Y > > 1 > = 0x12 & & RX_Y > > 1 < = 0x3ee ) ) {
odm_set_bb_reg ( p_dm , 0xe10 , 0x000003ff , 0x100 ) ;
odm_set_bb_reg ( p_dm , 0xe10 , 0x03ff0000 , 0 ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RX_X = %x;;RX_Y = %x ====>fill to IQC \n " , RX_X > > 1 & 0x000003ff , RX_Y > > 1 & 0x000003ff ) ) ;
} else {
2018-07-02 16:49:32 +00:00
if ( RX_X > = 0x20c )
RX_X = 0x20c ;
else if ( RX_X < = 0x1f4 )
RX_X = 0x1f4 ;
2018-06-22 16:48:32 +00:00
odm_set_bb_reg ( p_dm , 0xe10 , 0x000003ff , RX_X > > 1 ) ;
odm_set_bb_reg ( p_dm , 0xe10 , 0x03ff0000 , RX_Y > > 1 ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RX_X = %x;;RX_Y = %x====>fill to IQC \n " , RX_X > > 1 & 0x000003ff , RX_Y > > 1 & 0x000003ff ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xe10 = %x====>fill to IQC \n " , odm_read_4byte ( p_dm , 0xe10 ) ) ) ;
}
}
break ;
default :
break ;
} ;
}
void _iqk_tx_fill_iqc_8812a (
struct PHY_DM_STRUCT * p_dm ,
enum rf_path path ,
unsigned int TX_X ,
unsigned int TX_Y
)
{
struct _hal_rf_ * p_rf = & ( p_dm - > rf_table ) ;
switch ( path ) {
case RF_PATH_A :
{
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
odm_set_bb_reg ( p_dm , 0xc90 , BIT ( 7 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xcc4 , BIT ( 18 ) , 0x1 ) ;
if ( ! p_rf - > dpk_done )
odm_set_bb_reg ( p_dm , 0xcc4 , BIT ( 29 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xcc8 , BIT ( 29 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xccc , 0x000007ff , TX_Y ) ;
odm_set_bb_reg ( p_dm , 0xcd4 , 0x000007ff , TX_X ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TX_X = %x;;TX_Y = %x =====> fill to IQC \n " , TX_X & 0x000007ff , TX_Y & 0x000007ff ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xcd4 = %x;;0xccc = %x ====>fill to IQC \n " , odm_get_bb_reg ( p_dm , 0xcd4 , 0x000007ff ) , odm_get_bb_reg ( p_dm , 0xccc , 0x000007ff ) ) ) ;
}
break ;
case RF_PATH_B :
{
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
odm_set_bb_reg ( p_dm , 0xe90 , BIT ( 7 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xec4 , BIT ( 18 ) , 0x1 ) ;
if ( ! p_rf - > dpk_done )
odm_set_bb_reg ( p_dm , 0xec4 , BIT ( 29 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xec8 , BIT ( 29 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xecc , 0x000007ff , TX_Y ) ;
odm_set_bb_reg ( p_dm , 0xed4 , 0x000007ff , TX_X ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TX_X = %x;;TX_Y = %x =====> fill to IQC \n " , TX_X & 0x000007ff , TX_Y & 0x000007ff ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xed4 = %x;;0xecc = %x ====>fill to IQC \n " , odm_get_bb_reg ( p_dm , 0xed4 , 0x000007ff ) , odm_get_bb_reg ( p_dm , 0xecc , 0x000007ff ) ) ) ;
}
break ;
default :
break ;
} ;
}
void _iqk_backup_mac_bb_8812a (
struct PHY_DM_STRUCT * p_dm ,
u32 * MACBB_backup ,
u32 * backup_macbb_reg ,
u32 MACBB_NUM
)
{
u32 i ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
/* save MACBB default value */
for ( i = 0 ; i < MACBB_NUM ; i + + )
MACBB_backup [ i ] = odm_read_4byte ( p_dm , backup_macbb_reg [ i ] ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " BackupMacBB Success!!!! \n " ) ) ;
}
void _iqk_backup_rf_8812a (
struct PHY_DM_STRUCT * p_dm ,
u32 * RFA_backup ,
u32 * RFB_backup ,
u32 * backup_rf_reg ,
u32 RF_NUM
)
{
u32 i ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
/* Save RF Parameters */
for ( i = 0 ; i < RF_NUM ; i + + ) {
RFA_backup [ i ] = odm_get_rf_reg ( p_dm , RF_PATH_A , backup_rf_reg [ i ] , MASKDWORD ) ;
RFB_backup [ i ] = odm_get_rf_reg ( p_dm , RF_PATH_B , backup_rf_reg [ i ] , MASKDWORD ) ;
}
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " BackupRF Success!!!! \n " ) ) ;
}
void _iqk_backup_afe_8812a (
struct PHY_DM_STRUCT * p_dm ,
u32 * AFE_backup ,
u32 * backup_afe_reg ,
u32 AFE_NUM
)
{
u32 i ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
/* Save AFE Parameters */
for ( i = 0 ; i < AFE_NUM ; i + + )
AFE_backup [ i ] = odm_read_4byte ( p_dm , backup_afe_reg [ i ] ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " BackupAFE Success!!!! \n " ) ) ;
}
void _iqk_restore_mac_bb_8812a (
struct PHY_DM_STRUCT * p_dm ,
u32 * MACBB_backup ,
u32 * backup_macbb_reg ,
u32 MACBB_NUM
)
{
u32 i ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
/* Reload MacBB Parameters */
for ( i = 0 ; i < MACBB_NUM ; i + + )
odm_write_4byte ( p_dm , backup_macbb_reg [ i ] , MACBB_backup [ i ] ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RestoreMacBB Success!!!! \n " ) ) ;
}
void _iqk_restore_rf_8812a (
struct PHY_DM_STRUCT * p_dm ,
enum rf_path path ,
u32 * backup_rf_reg ,
u32 * RF_backup ,
u32 RF_REG_NUM
)
{
u32 i ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
for ( i = 0 ; i < RF_REG_NUM ; i + + )
odm_set_rf_reg ( p_dm , ( enum rf_path ) path , backup_rf_reg [ i ] , RFREGOFFSETMASK , RF_backup [ i ] ) ;
odm_set_rf_reg ( p_dm , ( enum rf_path ) path , 0xef , RFREGOFFSETMASK , 0x0 ) ;
switch ( path ) {
case RF_PATH_A :
{
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RestoreRF path A Success!!!! \n " ) ) ;
}
break ;
case RF_PATH_B :
{
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RestoreRF path B Success!!!! \n " ) ) ;
}
break ;
default :
break ;
}
}
void _iqk_restore_afe_8812a (
struct PHY_DM_STRUCT * p_dm ,
u32 * AFE_backup ,
u32 * backup_afe_reg ,
u32 AFE_NUM
)
{
struct _hal_rf_ * p_rf = & ( p_dm - > rf_table ) ;
u32 i ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
/* Reload AFE Parameters */
for ( i = 0 ; i < AFE_NUM ; i + + )
odm_write_4byte ( p_dm , backup_afe_reg [ i ] , AFE_backup [ i ] ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
odm_write_4byte ( p_dm , 0xc80 , 0x0 ) ;
odm_write_4byte ( p_dm , 0xc84 , 0x0 ) ;
odm_write_4byte ( p_dm , 0xc88 , 0x0 ) ;
odm_write_4byte ( p_dm , 0xc8c , 0x3c000000 ) ;
odm_set_bb_reg ( p_dm , 0xc90 , BIT ( 7 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xcc4 , BIT ( 18 ) , 0x1 ) ;
if ( ! p_rf - > dpk_done )
odm_set_bb_reg ( p_dm , 0xcc4 , BIT ( 29 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xcc8 , BIT ( 29 ) , 0x1 ) ;
/* odm_write_4byte(p_dm, 0xcb8, 0x0); */
odm_write_4byte ( p_dm , 0xe80 , 0x0 ) ;
odm_write_4byte ( p_dm , 0xe84 , 0x0 ) ;
odm_write_4byte ( p_dm , 0xe88 , 0x0 ) ;
odm_write_4byte ( p_dm , 0xe8c , 0x3c000000 ) ;
odm_set_bb_reg ( p_dm , 0xe90 , BIT ( 7 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xec4 , BIT ( 18 ) , 0x1 ) ;
if ( ! p_rf - > dpk_done )
odm_set_bb_reg ( p_dm , 0xec4 , BIT ( 29 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xec8 , BIT ( 29 ) , 0x1 ) ;
/* odm_write_4byte(p_dm, 0xeb8, 0x0); */
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RestoreAFE Success!!!! \n " ) ) ;
}
void _iqk_configure_mac_8812a (
struct PHY_DM_STRUCT * p_dm
)
{
/* ========MAC register setting======== */
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
odm_write_1byte ( p_dm , 0x522 , 0x3f ) ;
odm_set_bb_reg ( p_dm , 0x550 , BIT ( 11 ) | BIT ( 3 ) , 0x0 ) ;
odm_write_1byte ( p_dm , 0x808 , 0x00 ) ; /* RX ante off */
odm_set_bb_reg ( p_dm , 0x838 , 0xf , 0xc ) ; /* CCA off */
odm_write_1byte ( p_dm , 0xa07 , 0xf ) ; /* CCK RX path off */
}
# define cal_num 10
void _iqk_tx_8812a (
struct PHY_DM_STRUCT * p_dm ,
u8 chnl_idx
)
{
u8 delay_count ;
u8 cal0_retry , cal1_retry , tx0_average = 0 , tx1_average = 0 , rx0_average = 0 , rx1_average = 0 ;
int TX_IQC_temp [ 10 ] [ 4 ] , TX_IQC [ 4 ] ; /* TX_IQC = [TX0_X, TX0_Y,TX1_X,TX1_Y]; for 3 times */
int RX_IQC_temp [ 10 ] [ 4 ] , RX_IQC [ 4 ] ; /* RX_IQC = [RX0_X, RX0_Y,RX1_X,RX1_Y]; for 3 times */
boolean TX0_fail = true , RX0_fail = true , IQK0_ready = false , TX0_finish = false , RX0_finish = false ;
boolean TX1_fail = true , RX1_fail = true , IQK1_ready = false , TX1_finish = false , RX1_finish = false ;
int i , ii , dx = 0 , dy = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " band_width = %d, ext_pa_5g = %d, ExtPA2G = %d \n " , * p_dm - > p_band_width , p_dm - > ext_pa_5g , p_dm - > ext_pa ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Interface = %d, RFE_Type = %d \n " , p_dm - > support_interface , p_dm - > rfe_type ) ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
/* ========path-A AFE all on======== */
/* Port 0 DAC/ADC on */
odm_write_4byte ( p_dm , 0xc60 , 0x77777777 ) ;
odm_write_4byte ( p_dm , 0xc64 , 0x77777777 ) ;
/* Port 1 DAC/ADC on */
odm_write_4byte ( p_dm , 0xe60 , 0x77777777 ) ;
odm_write_4byte ( p_dm , 0xe64 , 0x77777777 ) ;
odm_write_4byte ( p_dm , 0xc68 , 0x19791979 ) ;
odm_write_4byte ( p_dm , 0xe68 , 0x19791979 ) ;
odm_set_bb_reg ( p_dm , 0xc00 , 0xf , 0x4 ) ; /* hardware 3-wire off */
odm_set_bb_reg ( p_dm , 0xe00 , 0xf , 0x4 ) ; /* hardware 3-wire off */
/* DAC/ADC sampling rate (160 MHz) */
odm_set_bb_reg ( p_dm , 0xc5c , BIT ( 26 ) | BIT ( 25 ) | BIT ( 24 ) , 0x7 ) ;
odm_set_bb_reg ( p_dm , 0xe5c , BIT ( 26 ) | BIT ( 25 ) | BIT ( 24 ) , 0x7 ) ;
/* ====== path A TX IQK RF setting ====== */
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0xef , RFREGOFFSETMASK , 0x80002 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x30 , RFREGOFFSETMASK , 0x20000 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x31 , RFREGOFFSETMASK , 0x3fffd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x32 , RFREGOFFSETMASK , 0xfe83f ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x65 , RFREGOFFSETMASK , 0x931d5 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x8f , RFREGOFFSETMASK , 0x8a001 ) ;
/* ====== path B TX IQK RF setting ====== */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0xef , RFREGOFFSETMASK , 0x80002 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x30 , RFREGOFFSETMASK , 0x20000 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x31 , RFREGOFFSETMASK , 0x3fffd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x32 , RFREGOFFSETMASK , 0xfe83f ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x65 , RFREGOFFSETMASK , 0x931d5 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x8f , RFREGOFFSETMASK , 0x8a001 ) ;
odm_write_4byte ( p_dm , 0x90c , 0x00008000 ) ;
odm_set_bb_reg ( p_dm , 0xc94 , BIT ( 0 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0xe94 , BIT ( 0 ) , 0x1 ) ;
odm_write_4byte ( p_dm , 0x978 , 0x29002000 ) ; /* TX (X,Y) */
odm_write_4byte ( p_dm , 0x97c , 0xa9002000 ) ; /* RX (X,Y) */
odm_write_4byte ( p_dm , 0x984 , 0x00462910 ) ; /* [0]:AGC_en, [15]:idac_K_Mask */
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
if ( p_dm - > ext_pa_5g ) {
if ( p_dm - > rfe_type = = 1 ) {
odm_write_4byte ( p_dm , 0xc88 , 0x821403e3 ) ;
odm_write_4byte ( p_dm , 0xe88 , 0x821403e3 ) ;
} else {
odm_write_4byte ( p_dm , 0xc88 , 0x821403f7 ) ;
odm_write_4byte ( p_dm , 0xe88 , 0x821403f7 ) ;
}
} else {
odm_write_4byte ( p_dm , 0xc88 , 0x821403f1 ) ;
odm_write_4byte ( p_dm , 0xe88 , 0x821403f1 ) ;
}
if ( * p_dm - > p_band_type = = ODM_BAND_5G ) {
odm_write_4byte ( p_dm , 0xc8c , 0x68163e96 ) ;
odm_write_4byte ( p_dm , 0xe8c , 0x68163e96 ) ;
} else {
odm_write_4byte ( p_dm , 0xc8c , 0x28163e96 ) ;
odm_write_4byte ( p_dm , 0xe8c , 0x28163e96 ) ;
if ( p_dm - > rfe_type = = 3 ) {
if ( p_dm - > ext_pa )
odm_write_4byte ( p_dm , 0xc88 , 0x821403e3 ) ;
else
odm_write_4byte ( p_dm , 0xc88 , 0x821403f7 ) ;
}
}
odm_write_4byte ( p_dm , 0xc80 , 0x18008c10 ) ; /* TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16 */
odm_write_4byte ( p_dm , 0xc84 , 0x38008c10 ) ; /* RX_Tone_idx[9:0], RxK_Mask[29] */
odm_write_4byte ( p_dm , 0xce8 , 0x00000000 ) ;
odm_write_4byte ( p_dm , 0xe80 , 0x18008c10 ) ; /* TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16 */
odm_write_4byte ( p_dm , 0xe84 , 0x38008c10 ) ; /* RX_Tone_idx[9:0], RxK_Mask[29] */
odm_write_4byte ( p_dm , 0xee8 , 0x00000000 ) ;
cal0_retry = 0 ;
cal1_retry = 0 ;
while ( 1 ) {
/* one shot */
odm_write_4byte ( p_dm , 0xcb8 , 0x00100000 ) ; /* cb8[20] <20> N SI/PI <20> ϥ<EFBFBD> <CFA5> v<EFBFBD> <76> <EFBFBD> <EFBFBD> iqk_dpk module */
odm_write_4byte ( p_dm , 0xeb8 , 0x00100000 ) ; /* cb8[20] <20> N SI/PI <20> ϥ<EFBFBD> <CFA5> v<EFBFBD> <76> <EFBFBD> <EFBFBD> iqk_dpk module */
odm_write_4byte ( p_dm , 0x980 , 0xfa000000 ) ;
odm_write_4byte ( p_dm , 0x980 , 0xf8000000 ) ;
ODM_delay_ms ( 10 ) ; /* delay 10ms */
odm_write_4byte ( p_dm , 0xcb8 , 0x00000000 ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x00000000 ) ;
delay_count = 0 ;
while ( 1 ) {
if ( ! TX0_finish )
IQK0_ready = ( boolean ) odm_get_bb_reg ( p_dm , 0xd00 , BIT ( 10 ) ) ;
if ( ! TX1_finish )
IQK1_ready = ( boolean ) odm_get_bb_reg ( p_dm , 0xd40 , BIT ( 10 ) ) ;
if ( ( IQK0_ready & & IQK1_ready ) | | ( delay_count > 20 ) )
break ;
else {
ODM_delay_ms ( 1 ) ;
delay_count + + ;
}
}
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TX delay_count = %d \n " , delay_count ) ) ;
if ( delay_count < 20 ) { /* If 20ms No Result, then cal_retry++ */
/* ============TXIQK Check============== */
TX0_fail = ( boolean ) odm_get_bb_reg ( p_dm , 0xd00 , BIT ( 12 ) ) ;
TX1_fail = ( boolean ) odm_get_bb_reg ( p_dm , 0xd40 , BIT ( 12 ) ) ;
if ( ! ( TX0_fail | | TX0_finish ) ) {
odm_write_4byte ( p_dm , 0xcb8 , 0x02000000 ) ;
TX_IQC_temp [ tx0_average ] [ 0 ] = odm_get_bb_reg ( p_dm , 0xd00 , 0x07ff0000 ) < < 21 ;
odm_write_4byte ( p_dm , 0xcb8 , 0x04000000 ) ;
TX_IQC_temp [ tx0_average ] [ 1 ] = odm_get_bb_reg ( p_dm , 0xd00 , 0x07ff0000 ) < < 21 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TX_X0[%d] = %x ;; TX_Y0[%d] = %x \n " , tx0_average , ( TX_IQC_temp [ tx0_average ] [ 0 ] ) > > 21 & 0x000007ff , tx0_average , ( TX_IQC_temp [ tx0_average ] [ 1 ] ) > > 21 & 0x000007ff ) ) ;
/*
odm_write_4byte ( p_dm , 0xcb8 , 0x01000000 ) ;
reg1 = odm_get_bb_reg ( p_dm , 0xd00 , 0xffffffff ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x02000000 ) ;
reg2 = odm_get_bb_reg ( p_dm , 0xd00 , 0x0000001f ) ;
image_power = ( reg2 < < 32 ) + reg1 ;
dbg_print ( " Before PW = %d \n " , image_power ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x03000000 ) ;
reg1 = odm_get_bb_reg ( p_dm , 0xd00 , 0xffffffff ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x04000000 ) ;
reg2 = odm_get_bb_reg ( p_dm , 0xd00 , 0x0000001f ) ;
image_power = ( reg2 < < 32 ) + reg1 ;
dbg_print ( " After PW = %d \n " , image_power ) ;
*/
tx0_average + + ;
} else {
cal0_retry + + ;
if ( cal0_retry = = 10 )
break ;
}
if ( ! ( TX1_fail | | TX1_finish ) ) {
odm_write_4byte ( p_dm , 0xeb8 , 0x02000000 ) ;
TX_IQC_temp [ tx1_average ] [ 2 ] = odm_get_bb_reg ( p_dm , 0xd40 , 0x07ff0000 ) < < 21 ;
odm_write_4byte ( p_dm , 0xeb8 , 0x04000000 ) ;
TX_IQC_temp [ tx1_average ] [ 3 ] = odm_get_bb_reg ( p_dm , 0xd40 , 0x07ff0000 ) < < 21 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TX_X1[%d] = %x ;; TX_Y1[%d] = %x \n " , tx1_average , ( TX_IQC_temp [ tx1_average ] [ 2 ] ) > > 21 & 0x000007ff , tx1_average , ( TX_IQC_temp [ tx1_average ] [ 3 ] ) > > 21 & 0x000007ff ) ) ;
/*
int reg1 = 0 , reg2 = 0 , image_power = 0 ;
odm_write_4byte ( p_dm , 0xeb8 , 0x01000000 ) ;
reg1 = odm_get_bb_reg ( p_dm , 0xd40 , 0xffffffff ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x02000000 ) ;
reg2 = odm_get_bb_reg ( p_dm , 0xd40 , 0x0000001f ) ;
image_power = ( reg2 < < 32 ) + reg1 ;
dbg_print ( " Before PW = %d \n " , image_power ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x03000000 ) ;
reg1 = odm_get_bb_reg ( p_dm , 0xd40 , 0xffffffff ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x04000000 ) ;
reg2 = odm_get_bb_reg ( p_dm , 0xd40 , 0x0000001f ) ;
image_power = ( reg2 < < 32 ) + reg1 ;
dbg_print ( " After PW = %d \n " , image_power ) ;
*/
tx1_average + + ;
} else {
cal1_retry + + ;
if ( cal1_retry = = 10 )
break ;
}
} else {
cal0_retry + + ;
cal1_retry + + ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " delay 20ms TX IQK Not Ready!!!!! \n " ) ) ;
if ( cal0_retry = = 10 )
break ;
}
if ( tx0_average > = 2 ) {
for ( i = 0 ; i < tx0_average ; i + + ) {
for ( ii = i + 1 ; ii < tx0_average ; ii + + ) {
dx = ( TX_IQC_temp [ i ] [ 0 ] > > 21 ) - ( TX_IQC_temp [ ii ] [ 0 ] > > 21 ) ;
if ( dx < 4 & & dx > - 4 ) {
dy = ( TX_IQC_temp [ i ] [ 1 ] > > 21 ) - ( TX_IQC_temp [ ii ] [ 1 ] > > 21 ) ;
if ( dy < 4 & & dy > - 4 ) {
TX_IQC [ 0 ] = ( ( TX_IQC_temp [ i ] [ 0 ] > > 21 ) + ( TX_IQC_temp [ ii ] [ 0 ] > > 21 ) ) / 2 ;
TX_IQC [ 1 ] = ( ( TX_IQC_temp [ i ] [ 1 ] > > 21 ) + ( TX_IQC_temp [ ii ] [ 1 ] > > 21 ) ) / 2 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TXA_X = %x;;TXA_Y = %x \n " , TX_IQC [ 0 ] & 0x000007ff , TX_IQC [ 1 ] & 0x000007ff ) ) ;
TX0_finish = true ;
}
}
}
}
}
if ( tx1_average > = 2 ) {
for ( i = 0 ; i < tx1_average ; i + + ) {
for ( ii = i + 1 ; ii < tx1_average ; ii + + ) {
dx = ( TX_IQC_temp [ i ] [ 2 ] > > 21 ) - ( TX_IQC_temp [ ii ] [ 2 ] > > 21 ) ;
if ( dx < 4 & & dx > - 4 ) {
dy = ( TX_IQC_temp [ i ] [ 3 ] > > 21 ) - ( TX_IQC_temp [ ii ] [ 3 ] > > 21 ) ;
if ( dy < 4 & & dy > - 4 ) {
TX_IQC [ 2 ] = ( ( TX_IQC_temp [ i ] [ 2 ] > > 21 ) + ( TX_IQC_temp [ ii ] [ 2 ] > > 21 ) ) / 2 ;
TX_IQC [ 3 ] = ( ( TX_IQC_temp [ i ] [ 3 ] > > 21 ) + ( TX_IQC_temp [ ii ] [ 3 ] > > 21 ) ) / 2 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TXB_X = %x;;TXB_Y = %x \n " , TX_IQC [ 2 ] & 0x000007ff , TX_IQC [ 3 ] & 0x000007ff ) ) ;
TX1_finish = true ;
}
}
}
}
}
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " tx0_average = %d, tx1_average = %d \n " , tx0_average , tx1_average ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TX0_finish = %d, TX1_finish = %d \n " , TX0_finish , TX1_finish ) ) ;
if ( TX0_finish & & TX1_finish )
break ;
if ( ( cal0_retry + tx0_average ) > = 10 | | ( cal1_retry + tx1_average ) > = 10 )
break ;
}
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TXA_cal_retry = %d \n " , cal0_retry ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " TXB_cal_retry = %d \n " , cal1_retry ) ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x58 , 0x7fe00 , odm_get_rf_reg ( p_dm , RF_PATH_A , 0x8 , 0xffc00 ) ) ; /* Load LOK */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x58 , 0x7fe00 , odm_get_rf_reg ( p_dm , RF_PATH_B , 0x8 , 0xffc00 ) ) ; /* Load LOK */
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
if ( TX0_finish ) {
/* ====== path A RX IQK RF setting====== */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0xef , RFREGOFFSETMASK , 0x80000 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x30 , RFREGOFFSETMASK , 0x30000 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x31 , RFREGOFFSETMASK , 0x3f7ff ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x32 , RFREGOFFSETMASK , 0xfe7bf ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x8f , RFREGOFFSETMASK , 0x88001 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x65 , RFREGOFFSETMASK , 0x931d1 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0xef , RFREGOFFSETMASK , 0x00000 ) ;
}
if ( TX1_finish ) {
/* ====== path B RX IQK RF setting====== */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0xef , RFREGOFFSETMASK , 0x80000 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x30 , RFREGOFFSETMASK , 0x30000 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x31 , RFREGOFFSETMASK , 0x3f7ff ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x32 , RFREGOFFSETMASK , 0xfe7bf ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x8f , RFREGOFFSETMASK , 0x88001 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x65 , RFREGOFFSETMASK , 0x931d1 ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0xef , RFREGOFFSETMASK , 0x00000 ) ;
}
odm_set_bb_reg ( p_dm , 0x978 , BIT ( 31 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , 0x97c , BIT ( 31 ) , 0x0 ) ;
odm_write_4byte ( p_dm , 0x90c , 0x00008000 ) ;
if ( p_dm - > support_interface = = ODM_ITRF_PCIE )
odm_write_4byte ( p_dm , 0x984 , 0x0046a911 ) ;
else
odm_write_4byte ( p_dm , 0x984 , 0x0046a890 ) ;
/* odm_write_4byte(p_dm, 0x984, 0x0046a890); */
if ( p_dm - > rfe_type = = 1 ) {
odm_write_4byte ( p_dm , 0xcb0 , 0x77777717 ) ;
odm_write_4byte ( p_dm , 0xcb4 , 0x00000077 ) ;
odm_write_4byte ( p_dm , 0xeb0 , 0x77777717 ) ;
odm_write_4byte ( p_dm , 0xeb4 , 0x00000077 ) ;
} else {
odm_write_4byte ( p_dm , 0xcb0 , 0x77777717 ) ;
odm_write_4byte ( p_dm , 0xcb4 , 0x02000077 ) ;
odm_write_4byte ( p_dm , 0xeb0 , 0x77777717 ) ;
odm_write_4byte ( p_dm , 0xeb4 , 0x02000077 ) ;
}
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
if ( TX0_finish ) {
odm_write_4byte ( p_dm , 0xc80 , 0x38008c10 ) ; /* TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16 */
odm_write_4byte ( p_dm , 0xc84 , 0x18008c10 ) ; /* RX_Tone_idx[9:0], RxK_Mask[29] */
odm_write_4byte ( p_dm , 0xc88 , 0x82140119 ) ;
}
if ( TX1_finish ) {
odm_write_4byte ( p_dm , 0xe80 , 0x38008c10 ) ; /* TX_Tone_idx[9:0], TxK_Mask[29] TX_Tone = 16 */
odm_write_4byte ( p_dm , 0xe84 , 0x18008c10 ) ; /* RX_Tone_idx[9:0], RxK_Mask[29] */
odm_write_4byte ( p_dm , 0xe88 , 0x82140119 ) ;
}
cal0_retry = 0 ;
cal1_retry = 0 ;
while ( 1 ) {
/* one shot */
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
if ( TX0_finish ) {
odm_set_bb_reg ( p_dm , 0x978 , 0x03FF8000 , ( TX_IQC [ 0 ] ) & 0x000007ff ) ;
odm_set_bb_reg ( p_dm , 0x978 , 0x000007FF , ( TX_IQC [ 1 ] ) & 0x000007ff ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
2018-07-02 16:49:32 +00:00
/*pathA RXIQK gain setting*/
if ( ( p_dm - > rfe_type = = 1 ) & & ( p_dm - > ext_pa_5g ) )
2018-06-22 16:48:32 +00:00
odm_write_4byte ( p_dm , 0xc8c , 0x28161500 ) ;
else
odm_write_4byte ( p_dm , 0xc8c , 0x28160cc0 ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x00300000 ) ; /* cb8[20] <20> N SI/PI <20> ϥ<EFBFBD> <CFA5> v<EFBFBD> <76> <EFBFBD> <EFBFBD> iqk_dpk module */
odm_write_4byte ( p_dm , 0xcb8 , 0x00100000 ) ;
ODM_delay_ms ( 5 ) ; /* delay 5ms */
odm_write_4byte ( p_dm , 0xc8c , 0x3c000000 ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x00000000 ) ;
}
if ( TX1_finish ) {
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
odm_set_bb_reg ( p_dm , 0x978 , 0x03FF8000 , ( TX_IQC [ 2 ] ) & 0x000007ff ) ;
odm_set_bb_reg ( p_dm , 0x978 , 0x000007FF , ( TX_IQC [ 3 ] ) & 0x000007ff ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
2018-07-02 16:49:32 +00:00
/*pathB RXIQK gain setting*/
if ( ( p_dm - > rfe_type = = 1 ) & & ( p_dm - > ext_pa_5g ) )
2018-06-22 16:48:32 +00:00
odm_write_4byte ( p_dm , 0xe8c , 0x28161500 ) ;
else
odm_write_4byte ( p_dm , 0xe8c , 0x28160ca0 ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x00300000 ) ; /* cb8[20] <20> N SI/PI <20> ϥ<EFBFBD> <CFA5> v<EFBFBD> <76> <EFBFBD> <EFBFBD> iqk_dpk module */
odm_write_4byte ( p_dm , 0xeb8 , 0x00100000 ) ; /* cb8[20] <20> N SI/PI <20> ϥ<EFBFBD> <CFA5> v<EFBFBD> <76> <EFBFBD> <EFBFBD> iqk_dpk module */
ODM_delay_ms ( 5 ) ; /* delay 5ms */
odm_write_4byte ( p_dm , 0xe8c , 0x3c000000 ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x00000000 ) ;
}
delay_count = 0 ;
while ( 1 ) {
if ( ! RX0_finish & & TX0_finish )
IQK0_ready = ( boolean ) odm_get_bb_reg ( p_dm , 0xd00 , BIT ( 10 ) ) ;
if ( ! RX1_finish & & TX1_finish )
IQK1_ready = ( boolean ) odm_get_bb_reg ( p_dm , 0xd40 , BIT ( 10 ) ) ;
if ( ( IQK0_ready & & IQK1_ready ) | | ( delay_count > 20 ) )
break ;
else {
ODM_delay_ms ( 1 ) ;
delay_count + + ;
}
}
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RX delay_count = %d \n " , delay_count ) ) ;
if ( delay_count < 20 ) { /* If 20ms No Result, then cal_retry++ */
/* ============RXIQK Check============== */
RX0_fail = ( boolean ) odm_get_bb_reg ( p_dm , 0xd00 , BIT ( 11 ) ) ;
RX1_fail = ( boolean ) odm_get_bb_reg ( p_dm , 0xd40 , BIT ( 11 ) ) ;
if ( ! ( RX0_fail | | RX0_finish ) & & TX0_finish ) {
odm_write_4byte ( p_dm , 0xcb8 , 0x06000000 ) ;
RX_IQC_temp [ rx0_average ] [ 0 ] = odm_get_bb_reg ( p_dm , 0xd00 , 0x07ff0000 ) < < 21 ;
odm_write_4byte ( p_dm , 0xcb8 , 0x08000000 ) ;
RX_IQC_temp [ rx0_average ] [ 1 ] = odm_get_bb_reg ( p_dm , 0xd00 , 0x07ff0000 ) < < 21 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RX_X0[%d] = %x ;; RX_Y0[%d] = %x \n " , rx0_average , ( RX_IQC_temp [ rx0_average ] [ 0 ] ) > > 21 & 0x000007ff , rx0_average , ( RX_IQC_temp [ rx0_average ] [ 1 ] ) > > 21 & 0x000007ff ) ) ;
/*
odm_write_4byte ( p_dm , 0xcb8 , 0x05000000 ) ;
reg1 = odm_get_bb_reg ( p_dm , 0xd00 , 0xffffffff ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x06000000 ) ;
reg2 = odm_get_bb_reg ( p_dm , 0xd00 , 0x0000001f ) ;
dbg_print ( " reg1 = %d, reg2 = %d " , reg1 , reg2 ) ;
image_power = ( reg2 < < 32 ) + reg1 ;
dbg_print ( " Before PW = %d \n " , image_power ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x07000000 ) ;
reg1 = odm_get_bb_reg ( p_dm , 0xd00 , 0xffffffff ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x08000000 ) ;
reg2 = odm_get_bb_reg ( p_dm , 0xd00 , 0x0000001f ) ;
image_power = ( reg2 < < 32 ) + reg1 ;
dbg_print ( " After PW = %d \n " , image_power ) ;
*/
rx0_average + + ;
} else {
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 1. RXA_cal_retry = %d \n " , cal0_retry ) ) ;
cal0_retry + + ;
if ( cal0_retry = = 10 )
break ;
}
if ( ! ( RX1_fail | | RX1_finish ) & & TX1_finish ) {
odm_write_4byte ( p_dm , 0xeb8 , 0x06000000 ) ;
RX_IQC_temp [ rx1_average ] [ 2 ] = odm_get_bb_reg ( p_dm , 0xd40 , 0x07ff0000 ) < < 21 ;
odm_write_4byte ( p_dm , 0xeb8 , 0x08000000 ) ;
RX_IQC_temp [ rx1_average ] [ 3 ] = odm_get_bb_reg ( p_dm , 0xd40 , 0x07ff0000 ) < < 21 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RX_X1[%d] = %x ;; RX_Y1[%d] = %x \n " , rx1_average , ( RX_IQC_temp [ rx1_average ] [ 2 ] ) > > 21 & 0x000007ff , rx1_average , ( RX_IQC_temp [ rx1_average ] [ 3 ] ) > > 21 & 0x000007ff ) ) ;
/*
odm_write_4byte ( p_dm , 0xeb8 , 0x05000000 ) ;
reg1 = odm_get_bb_reg ( p_dm , 0xd40 , 0xffffffff ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x06000000 ) ;
reg2 = odm_get_bb_reg ( p_dm , 0xd40 , 0x0000001f ) ;
dbg_print ( " reg1 = %d, reg2 = %d " , reg1 , reg2 ) ;
image_power = ( reg2 < < 32 ) + reg1 ;
dbg_print ( " Before PW = %d \n " , image_power ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x07000000 ) ;
reg1 = odm_get_bb_reg ( p_dm , 0xd40 , 0xffffffff ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x08000000 ) ;
reg2 = odm_get_bb_reg ( p_dm , 0xd40 , 0x0000001f ) ;
image_power = ( reg2 < < 32 ) + reg1 ;
dbg_print ( " After PW = %d \n " , image_power ) ;
*/
rx1_average + + ;
} else {
cal1_retry + + ;
if ( cal1_retry = = 10 )
break ;
}
} else {
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 2. RXA_cal_retry = %d \n " , cal0_retry ) ) ;
cal0_retry + + ;
cal1_retry + + ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " delay 20ms RX IQK Not Ready!!!!! \n " ) ) ;
if ( cal0_retry = = 10 )
break ;
}
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 3. RXA_cal_retry = %d \n " , cal0_retry ) ) ;
if ( rx0_average > = 2 ) {
for ( i = 0 ; i < rx0_average ; i + + ) {
for ( ii = i + 1 ; ii < rx0_average ; ii + + ) {
dx = ( RX_IQC_temp [ i ] [ 0 ] > > 21 ) - ( RX_IQC_temp [ ii ] [ 0 ] > > 21 ) ;
if ( dx < 4 & & dx > - 4 ) {
dy = ( RX_IQC_temp [ i ] [ 1 ] > > 21 ) - ( RX_IQC_temp [ ii ] [ 1 ] > > 21 ) ;
if ( dy < 4 & & dy > - 4 ) {
RX_IQC [ 0 ] = ( ( RX_IQC_temp [ i ] [ 0 ] > > 21 ) + ( RX_IQC_temp [ ii ] [ 0 ] > > 21 ) ) / 2 ;
RX_IQC [ 1 ] = ( ( RX_IQC_temp [ i ] [ 1 ] > > 21 ) + ( RX_IQC_temp [ ii ] [ 1 ] > > 21 ) ) / 2 ;
RX0_finish = true ;
break ;
}
}
}
}
}
if ( rx1_average > = 2 ) {
for ( i = 0 ; i < rx1_average ; i + + ) {
for ( ii = i + 1 ; ii < rx1_average ; ii + + ) {
dx = ( RX_IQC_temp [ i ] [ 2 ] > > 21 ) - ( RX_IQC_temp [ ii ] [ 2 ] > > 21 ) ;
if ( dx < 4 & & dx > - 4 ) {
dy = ( RX_IQC_temp [ i ] [ 3 ] > > 21 ) - ( RX_IQC_temp [ ii ] [ 3 ] > > 21 ) ;
if ( dy < 4 & & dy > - 4 ) {
RX_IQC [ 2 ] = ( ( RX_IQC_temp [ i ] [ 2 ] > > 21 ) + ( RX_IQC_temp [ ii ] [ 2 ] > > 21 ) ) / 2 ;
RX_IQC [ 3 ] = ( ( RX_IQC_temp [ i ] [ 3 ] > > 21 ) + ( RX_IQC_temp [ ii ] [ 3 ] > > 21 ) ) / 2 ;
RX1_finish = true ;
break ;
}
}
}
}
}
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " rx0_average = %d, rx1_average = %d \n " , rx0_average , rx1_average ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RX0_finish = %d, RX1_finish = %d \n " , RX0_finish , RX1_finish ) ) ;
if ( ( RX0_finish | | ! TX0_finish ) & & ( RX1_finish | | ! TX1_finish ) )
break ;
if ( ( cal0_retry + rx0_average ) > = 10 | | ( cal1_retry + rx1_average ) > = 10 | | rx0_average = = 3 | | rx1_average = = 3 )
break ;
}
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RXA_cal_retry = %d \n " , cal0_retry ) ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " RXB_cal_retry = %d \n " , cal1_retry ) ) ;
/* FillIQK Result */
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ========Path_A ======= \n " ) ) ;
if ( TX0_finish )
_iqk_tx_fill_iqc_8812a ( p_dm , RF_PATH_A , TX_IQC [ 0 ] , TX_IQC [ 1 ] ) ;
else
_iqk_tx_fill_iqc_8812a ( p_dm , RF_PATH_A , 0x200 , 0x0 ) ;
if ( RX0_finish )
_iqk_rx_fill_iqc_8812a ( p_dm , RF_PATH_A , RX_IQC [ 0 ] , RX_IQC [ 1 ] ) ;
else
_iqk_rx_fill_iqc_8812a ( p_dm , RF_PATH_A , 0x200 , 0x0 ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ========Path_B ======= \n " ) ) ;
if ( TX1_finish )
_iqk_tx_fill_iqc_8812a ( p_dm , RF_PATH_B , TX_IQC [ 2 ] , TX_IQC [ 3 ] ) ;
else
_iqk_tx_fill_iqc_8812a ( p_dm , RF_PATH_B , 0x200 , 0x0 ) ;
if ( RX1_finish )
_iqk_rx_fill_iqc_8812a ( p_dm , RF_PATH_B , RX_IQC [ 2 ] , RX_IQC [ 3 ] ) ;
else
_iqk_rx_fill_iqc_8812a ( p_dm , RF_PATH_B , 0x200 , 0x0 ) ;
}
# define TARGET_CHNL_NUM_2G_5G 59
u8 get_right_chnl_place_for_iqk ( u8 chnl )
{
u8 channel_all [ TARGET_CHNL_NUM_2G_5G ] = { 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 , 13 , 14 , 36 , 38 , 40 , 42 , 44 , 46 , 48 , 50 , 52 , 54 , 56 , 58 , 60 , 62 , 64 , 100 ,
102 , 104 , 106 , 108 , 110 , 112 , 114 , 116 , 118 , 120 , 122 , 124 , 126 , 128 , 130 , 132 , 134 , 136 , 138 , 140 , 149 , 151 , 153 , 155 , 157 , 159 , 161 , 163 , 165
} ;
u8 place = chnl ;
if ( chnl > 14 ) {
for ( place = 14 ; place < sizeof ( channel_all ) ; place + + ) {
if ( channel_all [ place ] = = chnl )
return place - 13 ;
}
}
return 0 ;
}
# define MACBB_REG_NUM 9
# define AFE_REG_NUM 12
# define RF_REG_NUM 3
/* Maintained by BB James. */
void
_phy_iq_calibrate_8812a (
struct PHY_DM_STRUCT * p_dm ,
u8 channel
)
{
u32 MACBB_backup [ MACBB_REG_NUM ] , AFE_backup [ AFE_REG_NUM ] , RFA_backup [ RF_REG_NUM ] , RFB_backup [ RF_REG_NUM ] ;
u32 backup_macbb_reg [ MACBB_REG_NUM ] = { 0x520 , 0x550 , 0x808 , 0xa04 , 0x90c , 0xc00 , 0xe00 , 0x838 , 0x82c } ;
u32 backup_afe_reg [ AFE_REG_NUM ] = { 0xc5c , 0xc60 , 0xc64 , 0xc68 , 0xcb0 , 0xcb4 ,
0xe5c , 0xe60 , 0xe64 , 0xe68 , 0xeb0 , 0xeb4
} ;
u32 reg_c1b8 , reg_e1b8 ;
u32 backup_rf_reg [ RF_REG_NUM ] = { 0x65 , 0x8f , 0x0 } ;
u8 chnl_idx = get_right_chnl_place_for_iqk ( channel ) ;
_iqk_backup_mac_bb_8812a ( p_dm , MACBB_backup , backup_macbb_reg , MACBB_REG_NUM ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ;
reg_c1b8 = odm_read_4byte ( p_dm , 0xcb8 ) ;
reg_e1b8 = odm_read_4byte ( p_dm , 0xeb8 ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ;
_iqk_backup_afe_8812a ( p_dm , AFE_backup , backup_afe_reg , AFE_REG_NUM ) ;
_iqk_backup_rf_8812a ( p_dm , RFA_backup , RFB_backup , backup_rf_reg , RF_REG_NUM ) ;
_iqk_configure_mac_8812a ( p_dm ) ;
_iqk_tx_8812a ( p_dm , chnl_idx ) ;
_iqk_restore_rf_8812a ( p_dm , RF_PATH_A , backup_rf_reg , RFA_backup , RF_REG_NUM ) ;
_iqk_restore_rf_8812a ( p_dm , RF_PATH_B , backup_rf_reg , RFB_backup , RF_REG_NUM ) ;
_iqk_restore_afe_8812a ( p_dm , AFE_backup , backup_afe_reg , AFE_REG_NUM ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ;
odm_write_4byte ( p_dm , 0xcb8 , reg_c1b8 ) ;
odm_write_4byte ( p_dm , 0xeb8 , reg_e1b8 ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ;
_iqk_restore_mac_bb_8812a ( p_dm , MACBB_backup , backup_macbb_reg , MACBB_REG_NUM ) ;
}
void
_phy_lc_calibrate_8812a (
struct PHY_DM_STRUCT * p_dm ,
boolean is2T
)
{
u32 /*rf_amode=0, rf_bmode=0,*/ lc_cal = 0 , tmp = 0 ;
/* Check continuous TX and Packet TX */
u32 reg0x914 = odm_read_4byte ( p_dm , REG_SINGLE_TONE_CONT_TX_JAGUAR ) ; ;
/* Backup RF reg18. */
lc_cal = odm_get_rf_reg ( p_dm , RF_PATH_A , RF_CHNLBW , RFREGOFFSETMASK ) ;
if ( ( reg0x914 & 0x70000 ) ! = 0 ) /* If contTx, disable all continuous TX. 0x914[18:16] */
/* <20121121, Kordan> A workaround: If we set 0x914[18:16] as zero, BB turns off ContTx */
/* until another packet comes in. To avoid ContTx being turned off, we skip this step. */
; /* odm_write_4byte(p_dm, REG_SINGLE_TONE_CONT_TX_JAGUAR, reg0x914 & (~0x70000)); */
else /* If packet Tx-ing, pause Tx. */
odm_write_1byte ( p_dm , REG_TXPAUSE_8812A , 0xFF ) ;
#if 0
/* 3 1. Read original RF mode */
rf_amode = odm_get_rf_reg ( p_dm , RF_PATH_A , RF_AC , RFREGOFFSETMASK ) ;
if ( is2T )
rf_bmode = odm_get_rf_reg ( p_dm , RF_PATH_B , RF_AC , RFREGOFFSETMASK ) ;
/* 3 2. Set RF mode = standby mode */
odm_set_rf_reg ( p_dm , RF_PATH_A , RF_AC , RFREGOFFSETMASK , ( rf_amode & 0x8FFFF ) | 0x10000 ) ;
if ( is2T )
odm_set_rf_reg ( p_dm , RF_PATH_B , RF_AC , RFREGOFFSETMASK , ( rf_bmode & 0x8FFFF ) | 0x10000 ) ;
# endif
/* Enter LCK mode */
tmp = odm_get_rf_reg ( p_dm , RF_PATH_A , RF_LCK , RFREGOFFSETMASK ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , RF_LCK , RFREGOFFSETMASK , tmp | BIT ( 14 ) ) ;
/* 3 3. Read RF reg18 */
lc_cal = odm_get_rf_reg ( p_dm , RF_PATH_A , RF_CHNLBW , RFREGOFFSETMASK ) ;
/* 3 4. Set LC calibration begin bit15 */
odm_set_rf_reg ( p_dm , RF_PATH_A , RF_CHNLBW , RFREGOFFSETMASK , lc_cal | 0x08000 ) ;
ODM_delay_ms ( 150 ) ; /* suggest by RFSI Binson */
/* Leave LCK mode */
tmp = odm_get_rf_reg ( p_dm , RF_PATH_A , RF_LCK , RFREGOFFSETMASK ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , RF_LCK , RFREGOFFSETMASK , tmp & ~ BIT ( 14 ) ) ;
/* 3 Restore original situation */
if ( ( reg0x914 & 70000 ) ! = 0 ) { /* Deal with contisuous TX case, 0x914[18:16] */
/* <20121121, Kordan> A workaround: If we set 0x914[18:16] as zero, BB turns off ContTx */
/* until another packet comes in. To avoid ContTx being turned off, we skip this step. */
/* odm_write_4byte(p_dm, REG_SINGLE_TONE_CONT_TX_JAGUAR, reg0x914); */
} else /* Deal with Packet TX case */
odm_write_1byte ( p_dm , REG_TXPAUSE_8812A , 0x00 ) ;
/* Recover channel number */
odm_set_rf_reg ( p_dm , RF_PATH_A , RF_CHNLBW , RFREGOFFSETMASK , lc_cal ) ;
/*
odm_set_rf_reg ( p_dm , RF_PATH_A , RF_AC , RFREGOFFSETMASK , rf_amode ) ;
if ( is2T )
odm_set_rf_reg ( p_dm , RF_PATH_B , RF_AC , RFREGOFFSETMASK , rf_bmode ) ;
*/
}
void
phy_reload_iqk_setting_8812a (
struct PHY_DM_STRUCT * p_dm ,
u8 channel
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
u8 chnl_idx = get_right_chnl_place_for_iqk ( channel ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
odm_set_bb_reg ( p_dm , 0xccc , 0x000007ff , p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 0 ] & 0x7ff ) ;
odm_set_bb_reg ( p_dm , 0xcd4 , 0x000007ff , ( p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 0 ] & 0x7ff0000 ) > > 16 ) ;
odm_set_bb_reg ( p_dm , 0xecc , 0x000007ff , p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 2 ] & 0x7ff ) ;
odm_set_bb_reg ( p_dm , 0xed4 , 0x000007ff , ( p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 2 ] & 0x7ff0000 ) > > 16 ) ;
if ( * p_dm - > p_band_width ! = 2 ) {
odm_write_4byte ( p_dm , 0xce8 , 0x0 ) ;
odm_write_4byte ( p_dm , 0xee8 , 0x0 ) ;
} else {
odm_write_4byte ( p_dm , 0xce8 , p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 4 ] ) ;
odm_write_4byte ( p_dm , 0xee8 , p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 5 ] ) ;
}
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
odm_set_bb_reg ( p_dm , 0xc10 , 0x000003ff , ( p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 1 ] & 0x7ff0000 ) > > 17 ) ;
odm_set_bb_reg ( p_dm , 0xc10 , 0x03ff0000 , ( p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 1 ] & 0x7ff ) > > 1 ) ;
odm_set_bb_reg ( p_dm , 0xe10 , 0x000003ff , ( p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 3 ] & 0x7ff0000 ) > > 17 ) ;
odm_set_bb_reg ( p_dm , 0xe10 , 0x03ff0000 , ( p_rf_calibrate_info - > iqk_matrix_reg_setting [ chnl_idx ] . value [ * p_dm - > p_band_width ] [ 3 ] & 0x7ff ) > > 1 ) ;
}
void
phy_reset_iqk_result_8812a (
struct PHY_DM_STRUCT * p_dm
)
{
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x1 ) ; /* [31] = 1 --> Page C1 */
odm_set_bb_reg ( p_dm , 0xccc , 0x000007ff , 0x0 ) ;
odm_set_bb_reg ( p_dm , 0xcd4 , 0x000007ff , 0x200 ) ;
odm_set_bb_reg ( p_dm , 0xecc , 0x000007ff , 0x0 ) ;
odm_set_bb_reg ( p_dm , 0xed4 , 0x000007ff , 0x200 ) ;
odm_write_4byte ( p_dm , 0xce8 , 0x0 ) ;
odm_write_4byte ( p_dm , 0xee8 , 0x0 ) ;
odm_set_bb_reg ( p_dm , 0x82c , BIT ( 31 ) , 0x0 ) ; /* [31] = 0 --> Page C */
odm_set_bb_reg ( p_dm , 0xc10 , 0x000003ff , 0x100 ) ;
odm_set_bb_reg ( p_dm , 0xe10 , 0x000003ff , 0x100 ) ;
}
void
_phy_iq_calibrate_by_fw_8812a (
struct PHY_DM_STRUCT * p_dm
)
{
u8 iqk_cmd [ 3 ] = { * p_dm - > p_channel , 0x0 , 0x0 } ;
u8 buf1 = 0x0 ;
u8 buf2 = 0x0 ;
/* Byte 2, Bit 4 ~ Bit 5 : band_type */
if ( * p_dm - > p_band_type = = ODM_BAND_5G )
buf1 = 0x2 < < 4 ;
else
buf1 = 0x1 < < 4 ;
/* Byte 2, Bit 0 ~ Bit 3 : bandwidth */
if ( * p_dm - > p_band_width = = CHANNEL_WIDTH_20 )
buf2 = 0x1 ;
else if ( * p_dm - > p_band_width = = CHANNEL_WIDTH_40 )
buf2 = 0x1 < < 1 ;
else if ( * p_dm - > p_band_width = = CHANNEL_WIDTH_80 )
buf2 = 0x1 < < 2 ;
else
buf2 = 0x1 < < 3 ;
iqk_cmd [ 1 ] = buf1 | buf2 ;
iqk_cmd [ 2 ] = p_dm - > ext_pa_5g | p_dm - > ext_pa < < 1 | p_dm - > support_interface < < 2 | p_dm - > rfe_type < < 5 ;
odm_fill_h2c_cmd ( p_dm , ODM_H2C_IQ_CALIBRATION , 3 , iqk_cmd ) ;
}
2018-07-02 16:49:32 +00:00
/*IQK version:0x2*/
/*1. add RX IQK boundary*/
/*2. fine tune RXIQK loop gain*/
2018-06-22 16:48:32 +00:00
void
phy_iq_calibrate_8812a (
void * p_dm_void ,
boolean is_recovery
)
{
struct PHY_DM_STRUCT * p_dm = ( struct PHY_DM_STRUCT * ) p_dm_void ;
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
u32 counter = 0 ;
if ( p_dm - > fw_offload_ability & PHYDM_RF_IQK_OFFLOAD ) {
_phy_iq_calibrate_by_fw_8812a ( p_dm ) ;
for ( counter = 0 ; counter < 10 ; counter + + ) {
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " == FW IQK PROGRESS == #%d \n " , counter ) ) ;
delay_ms ( 50 ) ;
if ( ! p_rf_calibrate_info - > is_iqk_in_progress ) {
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " == FW IQK RETURN FROM WAITING == \n " ) ) ;
break ;
}
}
if ( p_rf_calibrate_info - > is_iqk_in_progress )
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " == FW IQK TIMEOUT (Still in progress after 500ms) == \n " ) ) ;
} else
_phy_iq_calibrate_8812a ( p_dm , * p_dm - > p_channel ) ;
}
void
phy_lc_calibrate_8812a (
void * p_dm_void
)
{
struct PHY_DM_STRUCT * p_dm = ( struct PHY_DM_STRUCT * ) p_dm_void ;
_phy_lc_calibrate_8812a ( p_dm , true ) ;
}
void _phy_set_rf_path_switch_8812a (
# if (DM_ODM_SUPPORT_TYPE & ODM_AP)
struct PHY_DM_STRUCT * p_dm ,
# else
struct _ADAPTER * p_adapter ,
# endif
boolean is_main ,
boolean is2T
)
{
# if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
HAL_DATA_TYPE * p_hal_data = GET_HAL_DATA ( p_adapter ) ;
# if (DM_ODM_SUPPORT_TYPE == ODM_CE)
struct PHY_DM_STRUCT * p_dm = & p_hal_data - > odmpriv ;
# elif (DM_ODM_SUPPORT_TYPE == ODM_WIN)
struct PHY_DM_STRUCT * p_dm = & p_hal_data - > DM_OutSrc ;
# endif
# endif
if ( IS_HARDWARE_TYPE_8821 ( p_adapter ) ) {
if ( is_main )
odm_set_bb_reg ( p_dm , REG_A_RFE_PINMUX_JAGUAR + 4 , BIT ( 29 ) | BIT28 , 0x1 ) ; /* Main */
else
odm_set_bb_reg ( p_dm , REG_A_RFE_PINMUX_JAGUAR + 4 , BIT ( 29 ) | BIT28 , 0x2 ) ; /* Aux */
} else if ( p_dm - > support_ic_type & ODM_RTL8812 ) {
if ( p_dm - > rfe_type = = 5 ) {
if ( is_main ) {
/* WiFi */
odm_set_bb_reg ( p_dm , REG_ANTSEL_SW_JAGUAR , BIT ( 1 ) | BIT ( 0 ) , 0x2 ) ;
odm_set_bb_reg ( p_dm , REG_ANTSEL_SW_JAGUAR , BIT ( 9 ) | BIT ( 8 ) , 0x3 ) ;
} else {
/* BT */
odm_set_bb_reg ( p_dm , REG_ANTSEL_SW_JAGUAR , BIT ( 1 ) | BIT ( 0 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , REG_ANTSEL_SW_JAGUAR , BIT ( 9 ) | BIT ( 8 ) , 0x3 ) ;
}
} else if ( p_dm - > rfe_type = = 1 ) {
/* <131224, VincentL> When rfe_type == 1 also Set 0x900, suggested by RF Binson. */
if ( is_main ) {
/* WiFi */
odm_set_bb_reg ( p_dm , REG_ANTSEL_SW_JAGUAR , BIT ( 1 ) | BIT ( 0 ) , 0x2 ) ;
odm_set_bb_reg ( p_dm , REG_ANTSEL_SW_JAGUAR , BIT ( 9 ) | BIT ( 8 ) , 0x3 ) ;
} else {
/* BT */
odm_set_bb_reg ( p_dm , REG_ANTSEL_SW_JAGUAR , BIT ( 1 ) | BIT ( 0 ) , 0x1 ) ;
odm_set_bb_reg ( p_dm , REG_ANTSEL_SW_JAGUAR , BIT ( 9 ) | BIT ( 8 ) , 0x3 ) ;
}
}
}
}
void phy_set_rf_path_switch_8812a (
# if (DM_ODM_SUPPORT_TYPE & ODM_AP)
struct PHY_DM_STRUCT * p_dm ,
# else
struct _ADAPTER * p_adapter ,
# endif
boolean is_main
)
{
# if DISABLE_BB_RF
return ;
# endif
# if !(DM_ODM_SUPPORT_TYPE & ODM_AP)
_phy_set_rf_path_switch_8812a ( p_adapter , is_main , true ) ;
# endif
}
#if 0
s32
_sign (
u32 number
)
{
if ( ( number & BIT ( 10 ) ) = = BIT10 ) { /* Negative */
number & = ( ~ 0xFFFFFC00 ) ; /* [9:0] */
number = ~ number ;
number & = ( ~ 0xFFFFFC00 ) ; /* [9:0] */
number + = 1 ;
number & = ( ~ 0xFFFFF800 ) ; /* [10:0] */
return - 1 * number ;
} else /* Positive */
return ( s32 ) number ;
}
void
_dpk_mac_bb_backup_path_a (
struct PHY_DM_STRUCT * p_dm ,
u32 * backup_reg_addr ,
u32 * backup_reg_data ,
u32 number
)
{
u32 i ;
for ( i = 0 ; i < number ; i + + )
backup_reg_data [ i ] = odm_read_4byte ( p_dm , backup_reg_addr [ i ] ) ;
}
void
_dpk_mac_bb_restore_path_a (
struct PHY_DM_STRUCT * p_dm ,
u32 * backup_reg_addr ,
u32 * backup_reg_data ,
u32 number
)
{
u32 i ;
for ( i = 0 ; i < number ; i + + )
odm_write_4byte ( p_dm , backup_reg_addr [ i ] , backup_reg_data [ i ] ) ;
}
void
_dpk_rf_backup_path_a (
struct PHY_DM_STRUCT * p_dm ,
u32 * backup_reg_addr ,
enum rf_path rf_path ,
u32 * backup_reg_data ,
u32 number
)
{
u32 i ;
for ( i = 0 ; i < number ; i + + )
backup_reg_data [ i ] = odm_get_rf_reg ( p_dm , ( enum rf_path ) rf_path , backup_reg_addr [ i ] , RFREGOFFSETMASK ) ;
}
void
_dpk_rf_restore_path_a (
struct PHY_DM_STRUCT * p_dm ,
u32 * backup_reg_addr ,
enum rf_path rf_path ,
u32 * backup_reg_data ,
u32 number
)
{
u32 i ;
for ( i = 0 ; i < number ; i + + )
odm_set_rf_reg ( p_dm , ( enum rf_path ) rf_path , backup_reg_addr [ i ] , RFREGOFFSETMASK , backup_reg_data [ i ] ) ;
}
s32
_compute_loop_back_gain_path_a (
struct PHY_DM_STRUCT * p_dm
)
{
/* compute loopback gain */
/* <20> p<EFBFBD> <70> tmp_lb_gain <20> Ψ쪺function hex2dec() <20> O<EFBFBD> N twos complement<6E> <74> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> i<EFBFBD> <69> <EFBFBD> ন<EFBFBD> Q<EFBFBD> i<EFBFBD> <69> , <20> Q<EFBFBD> <51> <EFBFBD> i<EFBFBD> 쪺<EFBFBD> 榡<EFBFBD> <E6A6A1> s11.10
* <EFBFBD> | <EFBFBD> <EFBFBD> 1 , d00 [ 10 : 0 ] = h ' 3ff , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 3ff ) = 1023 ,
* <EFBFBD> | <EFBFBD> <EFBFBD> 2 , d00 [ 10 : 0 ] = h ' 400 , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 400 ) = - 1024 ,
* <EFBFBD> | <EFBFBD> <EFBFBD> 3 , d00 [ 10 : 0 ] = h ' 0 A9 , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 0 A9 ) = 169 ,
* <EFBFBD> | <EFBFBD> <EFBFBD> 4 , d00 [ 10 : 0 ] = h ' 54 c , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 54 c ) = - 692 ,
* <EFBFBD> | <EFBFBD> <EFBFBD> 5 , d00 [ 10 : 0 ] = h ' 7ff , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 7ff ) = - 1 , */
u32 reg0xd00_26_16 = odm_get_bb_reg ( p_dm , 0xD00 , 0x7FF0000 ) ;
u32 reg0xd00_10_0 = odm_get_bb_reg ( p_dm , 0xD00 , 0x7FF ) ;
s32 tmp_lb_gain = _sign ( reg0xd00_26_16 ) * _sign ( reg0xd00_26_16 ) + _sign ( reg0xd00_10_0 ) * _sign ( reg0xd00_10_0 ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _compute_loop_back_gain_path_a, tmp_lb_gain = 0x%X \n " , tmp_lb_gain ) ) ;
return tmp_lb_gain ;
}
boolean
_fine_tune_loop_back_gain_path_a (
struct PHY_DM_STRUCT * p_dm ,
u32 dpk_tx_agc
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
s32 tmp_lb_gain = 0 ;
u32 rf0x64_orig = odm_get_rf_reg ( p_dm , RF_PATH_A , 0x64 , 0x7 ) ;
u32 rf0x64_new = rf0x64_orig ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _FineTuneLoopBackGain \n " ) ) ;
do {
/* RF setting */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , dpk_tx_agc ) ;
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* <20> `<60> Npage c1<63> <31> c90<39> bDPK<50> L<EFBFBD> {<7B> <> <EFBFBD> d<EFBFBD> U<EFBFBD> <55> <EFBFBD> <EFBFBD> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> Lthread or process<73> <73> <EFBFBD> g<EFBFBD> <67> page c<> <63> c90<39> <30> */
odm_write_4byte ( p_dm , 0xc90 , 0x0101f018 ) ;
/* one shot */
odm_write_4byte ( p_dm , 0xcc8 , 0x800c5599 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x000c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , 0x33d8d ) ;
tmp_lb_gain = _compute_loop_back_gain_path_a ( p_dm ) ;
if ( ( rf0x64_new = = ( BIT ( 2 ) | BIT ( 1 ) | BIT ( 0 ) ) ) | | ( rf0x64_new = = 0 ) ) {
/* printf('DPK Phase 1 failed'); */
p_rf_calibrate_info - > is_dpk_fail = true ;
break ;
/* Go to DPK Phase 5 */
} else {
if ( tmp_lb_gain < 263390 ) { /* fine tune loopback path gain: newReg64[2:0] = reg64[2:0] - 3b'001 */
rf0x64_new - = 1 ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x64 , 0x7 , rf0x64_new ) ;
} else if ( tmp_lb_gain > 661607 ) { /* fine tune loopback path gain: newReg64 [2:0] = reg64[2:0] + 3b'001 */
rf0x64_new + = 1 ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x64 , 0x7 , rf0x64_new ) ;
} else
p_rf_calibrate_info - > is_dpk_fail = false ;
}
} while ( tmp_lb_gain < 263390 | | 661607 < tmp_lb_gain ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _FineTuneLoopBackGain \n " ) ) ;
return p_rf_calibrate_info - > is_dpk_fail ? false : true ;
}
void
_dpk_init_path_a (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_Init \n " ) ) ;
/* TX pause */
odm_write_1byte ( p_dm , 0x522 , 0x7f ) ;
/* reg82c[31] = b'0, <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
/* AFE setting */
odm_write_4byte ( p_dm , 0xc68 , 0x19791979 ) ;
odm_write_4byte ( p_dm , 0xc60 , 0x77777777 ) ;
odm_write_4byte ( p_dm , 0xc64 , 0x77777777 ) ;
/* external TRSW <20> <> <EFBFBD> <EFBFBD> T */
odm_write_4byte ( p_dm , 0xcb0 , 0x77777777 ) ;
odm_write_4byte ( p_dm , 0xcb4 , 0x01000077 ) ;
/* hardware 3-wire off */
odm_write_4byte ( p_dm , 0xc00 , 0x00000004 ) ;
/* CCA off */
odm_write_4byte ( p_dm , 0x838 , 0x16C89B4c ) ;
/* 90c[15]: dac fifo reset by CSWU */
odm_write_4byte ( p_dm , 0x90c , 0x00008000 ) ;
/* r_gothrough_iqkdpk */
odm_write_4byte ( p_dm , 0xc94 , 0x0100005D ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* IQK Amp off */
odm_write_4byte ( p_dm , 0xc8c , 0x3c000000 ) ;
/* tx_amp */
odm_write_4byte ( p_dm , 0xc98 , 0x41382e21 ) ;
odm_write_4byte ( p_dm , 0xc9c , 0x5b554f48 ) ;
odm_write_4byte ( p_dm , 0xca0 , 0x6f6b6661 ) ;
odm_write_4byte ( p_dm , 0xca4 , 0x817d7874 ) ;
odm_write_4byte ( p_dm , 0xca8 , 0x908c8884 ) ;
odm_write_4byte ( p_dm , 0xcac , 0x9d9a9793 ) ;
odm_write_4byte ( p_dm , 0xcb0 , 0xaaa7a4a1 ) ;
odm_write_4byte ( p_dm , 0xcb4 , 0xb6b3b0ad ) ;
/* tx_inverse */
odm_write_4byte ( p_dm , 0xc40 , 0x02ce03e9 ) ;
odm_write_4byte ( p_dm , 0xc44 , 0x01fd0249 ) ;
odm_write_4byte ( p_dm , 0xc48 , 0x01a101c9 ) ;
odm_write_4byte ( p_dm , 0xc4c , 0x016a0181 ) ;
odm_write_4byte ( p_dm , 0xc50 , 0x01430155 ) ;
odm_write_4byte ( p_dm , 0xc54 , 0x01270135 ) ;
odm_write_4byte ( p_dm , 0xc58 , 0x0112011c ) ;
odm_write_4byte ( p_dm , 0xc5c , 0x01000108 ) ;
odm_write_4byte ( p_dm , 0xc60 , 0x00f100f8 ) ;
odm_write_4byte ( p_dm , 0xc64 , 0x00e500eb ) ;
odm_write_4byte ( p_dm , 0xc68 , 0x00db00e0 ) ;
odm_write_4byte ( p_dm , 0xc6c , 0x00d100d5 ) ;
odm_write_4byte ( p_dm , 0xc70 , 0x00c900cd ) ;
odm_write_4byte ( p_dm , 0xc74 , 0x00c200c5 ) ;
odm_write_4byte ( p_dm , 0xc78 , 0x00bb00be ) ;
odm_write_4byte ( p_dm , 0xc7c , 0x00b500b8 ) ;
/* reg82c[31] = b'0, <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
p_rf_calibrate_info - > is_dpk_fail = false ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_Init \n " ) ) ;
}
boolean
_dpk_adjust_rf_gain_path_a (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
s32 tmp_lb_gain = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_AdjustRFGain \n " ) ) ;
/* RF setting */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , 0x50bfc ) ;
/* Attn: A mode @ reg64[2:0], G mode @ reg56 */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x64 , RFREGOFFSETMASK , 0x19aac ) ;
/* PGA gain: RF reg8f[14:13] */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x8f , RFREGOFFSETMASK , 0x8a001 ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* DPK setting */
odm_write_4byte ( p_dm , 0xc94 , 0xf76c9f84 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x000c5599 ) ;
odm_write_4byte ( p_dm , 0xcc4 , 0x11838000 ) ;
odm_set_bb_reg ( p_dm , 0xcd4 , 0xFFF000 , 0x100 ) ; /* <20> Ncd4[23:12] <20> 令 h'100, <20> 䥦<EFBFBD> 줸<EFBFBD> ЫO<D0AB> d<EFBFBD> <64> <EFBFBD> Ȥ<EFBFBD> <C8A4> n<EFBFBD> g<EFBFBD> <67>
* <EFBFBD> ` <EFBFBD> Npage c1 <EFBFBD> <EFBFBD> c90 <EFBFBD> bDPK <EFBFBD> L <EFBFBD> { <EFBFBD> <EFBFBD> <EFBFBD> d <EFBFBD> U <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> Q <EFBFBD> <EFBFBD> <EFBFBD> Lthread or process <EFBFBD> <EFBFBD> <EFBFBD> g <EFBFBD> <EFBFBD> page c <EFBFBD> <EFBFBD> c90 <EFBFBD> <EFBFBD> */
odm_write_4byte ( p_dm , 0xc90 , 0x0101f018 ) ;
/* one shot */
odm_write_4byte ( p_dm , 0xcc8 , 0x800c5599 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x000c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* read back Loopback Gain */
odm_write_4byte ( p_dm , 0xcb8 , 0x09000000 ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , 0x33d8d ) ;
tmp_lb_gain = _compute_loop_back_gain_path_a ( p_dm ) ;
/* coarse tune loopback gain by RF reg8f[14:13] = 2b'11 */
if ( tmp_lb_gain < 263390 ) {
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x8f , RFREGOFFSETMASK , 0x8e001 ) ;
_fine_tune_loop_back_gain_path_a ( p_dm , 0x50bfc ) ;
} else if ( tmp_lb_gain > 661607 ) {
/* coarse tune loopback gain by RF reg8f[14:13] = 2b'00 */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x8f , RFREGOFFSETMASK , 0x88001 ) ;
_fine_tune_loop_back_gain_path_a ( p_dm , 0x50bfc ) ;
} else
p_rf_calibrate_info - > is_dpk_fail = false ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_AdjustRFGain \n " ) ) ;
return p_rf_calibrate_info - > is_dpk_fail ? false : true ;
}
void
_dpk_gain_loss_to_find_tx_agc_path_a (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
u32 reg0xd00 = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_GainLossToFindTxAGC \n " ) ) ;
/* RF setting */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , 0x50bfc ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* regc20[15:13] = dB sel, <20> i<EFBFBD> D Gain Loss function <20> h<EFBFBD> M<EFBFBD> <4D> dB_sel <20> ҳ]<5D> w<EFBFBD> <77> PA gain loss<73> ؼЩҹ<D0A9> <D2B9> <EFBFBD> <EFBFBD> <EFBFBD> Tx AGC <20> <> <EFBFBD> <EFBFBD> . */
/* dB_sel = b'000 ' 1.0 dB PA gain loss */
/* dB_sel = b'001 ' 1.5 dB PA gain loss */
/* dB_sel = b'010 ' 2.0 dB PA gain loss */
/* dB_sel = b'011 ' 2.5 dB PA gain loss */
/* dB_sel = b'100 ' 3.0 dB PA gain loss */
/* dB_sel = b'101 ' 3.5 dB PA gain loss */
/* dB_sel = b'110 ' 4.0 dB PA gain loss */
odm_write_4byte ( p_dm , 0xc20 , 0x00002000 ) ;
/* DPK setting */
odm_write_4byte ( p_dm , 0xc94 , 0xf76c9f84 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x000c5599 ) ;
odm_write_4byte ( p_dm , 0xcc4 , 0x148b8000 ) ;
/* <20> `<60> Npage c1<63> <31> c90<39> bDPK<50> L<EFBFBD> {<7B> <> <EFBFBD> d<EFBFBD> U<EFBFBD> <55> <EFBFBD> <EFBFBD> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> Lthread or process<73> <73> <EFBFBD> g<EFBFBD> <67> page c<> <63> c90<39> <30> */
odm_write_4byte ( p_dm , 0xc90 , 0x0401f018 ) ;
/* one shot */
odm_write_4byte ( p_dm , 0xcc8 , 0x800c5599 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x000c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* read back Loopback Gain */
/* <20> i<EFBFBD> H<EFBFBD> b d00[3:0] <20> <> Ū<EFBFBD> ^, dB_sel <20> <> <EFBFBD> ҳ]<5D> w<EFBFBD> <77> gain loss <20> |<7C> <> <EFBFBD> b<EFBFBD> <62> <EFBFBD> @<40> <> Tx AGC <20> ]<5D> w */
/* Ū<> ^d00[3:0] = h'1 ' Tx AGC = h'13 */
/* Ū<> ^d00[3:0] = h'2 ' Tx AGC = h'14 */
/* Ū<> ^d00[3:0] = h'3 ' Tx AGC = h'15 */
/* Ū<> ^d00[3:0] = h'4 ' Tx AGC = h'16 */
/* Ū<> ^d00[3:0] = h'5 ' Tx AGC = h'17 */
/* Ū<> ^d00[3:0] = h'6 ' Tx AGC = h'18 */
/* Ū<> ^d00[3:0] = h'7 ' Tx AGC = h'19 */
/* Ū<> ^d00[3:0] = h'8 ' Tx AGC = h'1a */
/* Ū<> ^d00[3:0] = h'9 ' Tx AGC = h'1b */
/* Ū<> ^d00[3:0] = h'a ' Tx AGC = h'1c */
/* */
reg0xd00 = odm_read_4byte ( p_dm , 0xd00 ) ;
switch ( odm_read_4byte ( p_dm , 0xd00 ) & ( BIT ( 3 ) | BIT ( 2 ) | BIT ( 1 ) | BIT ( 0 ) ) ) {
case 0x0 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x2 ;
break ;
case 0x1 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x3 ;
break ;
case 0x2 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x4 ;
break ;
case 0x3 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x5 ;
break ;
case 0x4 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x6 ;
break ;
case 0x5 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x7 ;
break ;
case 0x6 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x8 ;
break ;
case 0x7 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x9 ;
break ;
case 0x8 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0xa ;
break ;
case 0x9 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0xb ;
break ;
case 0xa :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0xc ;
break ;
}
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , 0x33d8d ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_GainLossToFindTxAGC \n " ) ) ;
}
boolean
_dpk_adjust_rf_gain_by_found_tx_agc_path_a
(
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
s32 tmp_lb_gain = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_AdjustRFGainByFoundTxAGC \n " ) ) ;
/* RF setting, <20> <> <EFBFBD> s<EFBFBD> ]<5D> wRF reg00, <20> |<7C> ҥ<EFBFBD> DPK Phase 2<> o<EFBFBD> 쪺 d00[3:0] = 0x6 ' TX AGC= 0x18 ' RF reg00[4:0] = 0x18 */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , p_rf_calibrate_info - > dpk_tx_agc ) ;
/* Attn: A mode @ reg64[2:0], G mode @ reg56 */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x64 , RFREGOFFSETMASK , 0x19aac ) ;
/* PGA gain: RF reg8f[14:13] */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x8f , RFREGOFFSETMASK , 0x8a001 ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* DPK setting */
odm_write_4byte ( p_dm , 0xc94 , 0xf76c9f84 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x000c5599 ) ;
odm_write_4byte ( p_dm , 0xcc4 , 0x11838000 ) ;
/* <20> `<60> Npage c1<63> <31> c90<39> bDPK<50> L<EFBFBD> {<7B> <> <EFBFBD> d<EFBFBD> U<EFBFBD> <55> <EFBFBD> <EFBFBD> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> Lthread or process<73> <73> <EFBFBD> g<EFBFBD> <67> page c<> <63> c90<39> <30> */
odm_write_4byte ( p_dm , 0xc90 , 0x0101f018 ) ;
/* one shot */
odm_write_4byte ( p_dm , 0xcc8 , 0x800c5599 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x000c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , 0x33d8d ) ;
tmp_lb_gain = _compute_loop_back_gain_path_a ( p_dm ) ;
if ( tmp_lb_gain < 263390 ) {
/* coarse tune loopback gain by RF reg8f[14:13] = 2b'11 */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x8f , RFREGOFFSETMASK , 0x8e001 ) ;
_fine_tune_loop_back_gain_path_a ( p_dm , p_rf_calibrate_info - > dpk_tx_agc ) ;
} else if ( tmp_lb_gain > 661607 ) {
/* coarse tune loopback gain by RF reg8f[14:13] = 2b'00 */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x8f , RFREGOFFSETMASK , 0x88001 ) ;
_fine_tune_loop_back_gain_path_a ( p_dm , p_rf_calibrate_info - > dpk_tx_agc ) ;
} else
p_rf_calibrate_info - > is_dpk_fail = false ; /* Go to DPK Phase 4 */
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_AdjustRFGainByFoundTxAGC \n " ) ) ;
return p_rf_calibrate_info - > is_dpk_fail ? false : true ;
}
void
_dpk_do_auto_dpk_path_a (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
u32 tmp_lb_gain = 0 , reg0xd00 = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_DoAutoDPK \n " ) ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
/* RF setting, <20> <> <EFBFBD> BRF reg00, <20> P DPK Phase 3 <20> @<40> P */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , p_rf_calibrate_info - > dpk_tx_agc ) ;
/* Baseband data rate setting */
odm_write_4byte ( p_dm , 0xc20 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc24 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc28 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc2c , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc30 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc34 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc38 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc3c , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc40 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc44 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc48 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xc4c , 0x3c3c3c3c ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* DPK setting */
odm_write_4byte ( p_dm , 0xc94 , 0xf76C9f84 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x400C5599 ) ;
odm_write_4byte ( p_dm , 0xcc4 , 0x11938080 ) ; /* 0xcc4[9:4]= DPk fail threshold */
if ( 36 < = * ( p_dm - > p_channel ) & & * ( p_dm - > p_channel ) < = 53 ) /* Channelchannel at low band) */
/* r_agc */
odm_write_4byte ( p_dm , 0xcbc , 0x00022a1f ) ;
else
/* r_agc */
odm_write_4byte ( p_dm , 0xcbc , 0x00009dbf ) ;
/* <20> `<60> Npage c1<63> <31> c90<39> bDPK<50> L<EFBFBD> {<7B> <> <EFBFBD> d<EFBFBD> U<EFBFBD> <55> <EFBFBD> <EFBFBD> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> Lthread or process<73> <73> <EFBFBD> g<EFBFBD> <67> page c<> <63> c90<39> <30> */
odm_write_4byte ( p_dm , 0xc90 , 0x0101f018 ) ; /* TODO: 0xC90(rA_LSSIWrite_Jaguar) can not be overwritten. */
/* one shot */
odm_write_4byte ( p_dm , 0xcc8 , 0xc00c5599 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x400c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
/* T-meter RFReg42[17] = 1 to enable read T-meter, [15:10] ' T-meter value */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x42 , BIT ( 17 ) , 1 ) ;
p_rf_calibrate_info - > dpk_thermal [ RF_PATH_A ] = odm_get_rf_reg ( p_dm , RF_PATH_A , 0x42 , 0xFC00 ) ; /* Ū<> X42[15:10] <20> Ȩæs<C3A6> <73> <EFBFBD> ܼ<EFBFBD> TMeter */
dbg_print ( " p_rf_calibrate_info->dpk_thermal[RF_PATH_A] = 0x%X \n " , p_rf_calibrate_info - > dpk_thermal [ RF_PATH_A ] ) ;
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x00 , RFREGOFFSETMASK , 0x33D8D ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* read back dp_fail report */
odm_write_4byte ( p_dm , 0xcb8 , 0x00000000 ) ;
/* dp_fail<69> o<EFBFBD> <6F> bit<69> bd00[6], <20> <> d00[6] = 1, <20> <> <EFBFBD> <EFBFBD> calibration<6F> <6E> <EFBFBD> <EFBFBD> . */
reg0xd00 = odm_read_4byte ( p_dm , 0xd00 ) ;
if ( ( reg0xd00 & BIT ( 6 ) ) = = BIT ( 6 ) ) {
/* printf('DPK fail') */
p_rf_calibrate_info - > is_dpk_fail = true ;
/* Go to DPK Phase 5 */
} else {
/* printf('DPK success') */
}
/* read back */
odm_write_4byte ( p_dm , 0xc90 , 0x0201f01f ) ;
odm_write_4byte ( p_dm , 0xcb8 , 0x0c000000 ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
/* <20> p<EFBFBD> <70> tmpGainLoss <20> Ψ쪺function hex2dec() <20> O<EFBFBD> N twos complement<6E> <74> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> i<EFBFBD> <69> <EFBFBD> ন<EFBFBD> Q<EFBFBD> i<EFBFBD> <69> , <20> Q<EFBFBD> <51> <EFBFBD> i<EFBFBD> 쪺<EFBFBD> 榡<EFBFBD> <E6A6A1> s11.9 */
/* <20> |<7C> <> 1, d00[10:0] = h'3ff, <20> g<EFBFBD> L hex2dec(h'3ff) = 1023, */
/* <20> |<7C> <> 2, d00[10:0] = h'400, <20> g<EFBFBD> L hex2dec(h'400) = -1024, */
/* <20> |<7C> <> 3, d00[10:0] = h'0A9, <20> g<EFBFBD> L hex2dec(h'0A9) = 169, */
/* <20> |<7C> <> 4, d00[10:0] = h'54c, <20> g<EFBFBD> L hex2dec(h'54c) = -692, */
/* <20> |<7C> <> 4, d00[10:0] = h'7ff, <20> g<EFBFBD> L hex2dec(h'7ff) = -1, */
tmp_lb_gain = _compute_loop_back_gain_path_a ( p_dm ) ;
/* Gain Scaling */
if ( 227007 < tmp_lb_gain )
p_rf_calibrate_info - > dpk_gain = 0x43ca43ca ;
else if ( 214309 < tmp_lb_gain & & tmp_lb_gain < = 227007 )
p_rf_calibrate_info - > dpk_gain = 0x45c545c5 ;
else if ( 202321 < tmp_lb_gain & & tmp_lb_gain < = 214309 )
p_rf_calibrate_info - > dpk_gain = 0x47cf47cf ;
else if ( 191003 < tmp_lb_gain & & tmp_lb_gain < = 202321 )
p_rf_calibrate_info - > dpk_gain = 0x49e749e7 ;
else if ( 180318 < tmp_lb_gain & & tmp_lb_gain < = 191003 )
p_rf_calibrate_info - > dpk_gain = 0x4c104c10 ;
else if ( 170231 < tmp_lb_gain & & tmp_lb_gain < = 180318 )
p_rf_calibrate_info - > dpk_gain = 0x4e494e49 ;
else if ( 160709 < tmp_lb_gain & & tmp_lb_gain < = 170231 )
p_rf_calibrate_info - > dpk_gain = 0x50925092 ;
else if ( 151719 < tmp_lb_gain & & tmp_lb_gain < = 160709 )
p_rf_calibrate_info - > dpk_gain = 0x52ec52ec ;
else if ( 151719 < = tmp_lb_gain )
p_rf_calibrate_info - > dpk_gain = 0x55585558 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_DoAutoDPK \n " ) ) ;
}
void
_dpk_enable_dp_path_a (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _dpk_enable_dp \n " ) ) ;
/* [31] = 1 --> switch to page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* enable IQC matrix --> <20> ]<5D> <> BB <20> H<EFBFBD> <48> <EFBFBD> |<7C> <> <EFBFBD> g<EFBFBD> L predistortion module, <20> ~<7E> g<EFBFBD> L IQC matrix <20> <> DAC <20> <> <EFBFBD> X<EFBFBD> h */
/* <20> ҥH<D2A5> n<EFBFBD> <6E> enable predistortion module {c90[7] = 1 (enable_predis) cc4[18] = 1 (<28> T<EFBFBD> w<EFBFBD> <77> IQK/DPK module <20> <> clock), cc8[29] = 1 (<28> @<40> <> IQK/DPK module <20> ̪<EFBFBD> mux, <20> T<EFBFBD> { data path <20> <> IQK/DPK)} */
odm_write_4byte ( p_dm , 0xc90 , 0x0000f098 ) ;
odm_write_4byte ( p_dm , 0xc94 , 0x776d9f84 ) ;
odm_write_4byte ( p_dm , 0xcc8 , 0x20000000 ) ;
odm_write_4byte ( p_dm , 0xc8c , 0x3c000000 ) ;
/* r_bnd */
odm_write_4byte ( p_dm , 0xcb8 , 0x000fffff ) ;
if ( p_rf_calibrate_info - > is_dpk_fail ) {
/* cc4[29] = 1 (bypass DP LUT) */
odm_write_4byte ( p_dm , 0xc98 , 0x40004000 ) ;
odm_write_4byte ( p_dm , 0xcc4 , 0x28840000 ) ;
} else {
odm_write_4byte ( p_dm , 0xc98 , p_rf_calibrate_info - > dpk_gain ) ;
odm_write_4byte ( p_dm , 0xcc4 , 0x08840000 ) ;
/* PWSF */
/* <20> gPWSF table in 1st SRAM for PA = 11 use */
odm_write_4byte ( p_dm , 0xc20 , 0x00000800 ) ;
/* ******************************************************* */
/* 0xce4[0]<5D> Owrite enable<6C> A0xce4[7:1]<5D> Oaddress<73> A0xce4[15:8]<5D> M0xce4[23:16]<5D> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> TX index<65> A */
/* <20> Y<EFBFBD> <59> <EFBFBD> m<EFBFBD> <6D> 0(0xce4[7:1] = 0x0)<29> <> <EFBFBD> <EFBFBD> 0xce4[15:8]<5D> <> <EFBFBD> <EFBFBD> <EFBFBD> 쪺TX RF index <20> O0x1f,<2C> A */
/* 0xce4[23:16]<5D> <> <EFBFBD> <EFBFBD> <EFBFBD> 쪺<EFBFBD> O0x1e<31> A<EFBFBD> Y<EFBFBD> <59> <EFBFBD> m<EFBFBD> <6D> 1(0xce4[7:1] = 0x1)<29> A<EFBFBD> <41> <EFBFBD> <EFBFBD> 0xce4 [15:8]<5D> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> 0x1d<31> A */
/* 0xce4[23:16]<5D> <> <EFBFBD> <EFBFBD> 0x1c<31> A<EFBFBD> <41> <EFBFBD> L<EFBFBD> ̦<EFBFBD> <CCA6> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> A<EFBFBD> C<EFBFBD> <43> data<74> <61> <EFBFBD> 쳣<EFBFBD> O<EFBFBD> ۮt1dB<64> C<EFBFBD> Ygainloss<73> <73> <EFBFBD> 쪺RF TX index=0x18<31> A */
/* <20> h<EFBFBD> b0xce4 address<73> <73> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> 0x18<31> <38> <EFBFBD> a<EFBFBD> <61> <EFBFBD> n<EFBFBD> <6E> 0x40(<28> ]<5D> N<EFBFBD> O0dB)<29> A<EFBFBD> <41> <EFBFBD> L<EFBFBD> h<EFBFBD> ӤU<D3A4> <55> table<6C> <65> <EFBFBD> <EFBFBD> <EFBFBD> ǨC<C7A8> <43> 1dB<64> ̧DZƦ
/* <20> N<EFBFBD> Ҧ<EFBFBD> <D2A6> <EFBFBD> 0xce4c<34> <63> data<74> <61> <EFBFBD> 쳣<EFBFBD> <ECB3A3> <EFBFBD> J<EFBFBD> ۹<EFBFBD> <DBB9> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> ȡC */
/* ************************************************************* */
{
const s32 LEN = 25 ;
u32 base_idx = 6 ; /* 0 dB: 0x40 */
u32 table_pwsf [ ] = {
0xff , 0xca , 0xa1 , 0x80 , 0x65 , 0x51 , 0x40 /* 0 dB */ ,
0x33 , 0x28 , 0x20 , 0x19 , 0x14 , 0x10 ,
0x0d , 0x0a , 0x08 , 0x06 , 0x05 , 0x04 ,
0x03 , 0x03 , 0x02 , 0x02 , 0x01 , 0x01
} ;
u32 center_tx_idx = p_rf_calibrate_info - > dpk_tx_agc & 0x1F ;
u32 center_addr = ( 0x1F - center_tx_idx ) / 2 ;
s32 i = 0 , j = 0 , value = 0 , start_idx = 0 ;
/* Upper */
start_idx = ( ( ( 0x1F - center_tx_idx ) % 2 = = 0 ) ? base_idx + 1 : base_idx ) ;
for ( i = start_idx , j = 0 ; ( center_addr - j + 1 ) > = 1 ; i - = 2 , j + + ) {
if ( i - 1 < 0 )
value = ( table_pwsf [ 0 ] < < 16 ) | ( table_pwsf [ 0 ] < < 8 ) | ( ( center_addr - j ) < < 1 ) | 0x1 ;
else
value = ( table_pwsf [ i ] < < 16 ) | ( table_pwsf [ i - 1 ] < < 8 ) | ( ( center_addr - j ) < < 1 ) | 0x1 ;
odm_write_4byte ( p_dm , 0xce4 , value ) ;
odm_write_1byte ( p_dm , 0xce4 , 0x0 ) ; /* write disable */
}
/* Lower */
start_idx = ( ( ( 0x1F - center_tx_idx ) % 2 = = 0 ) ? base_idx + 2 : base_idx + 1 ) ;
center_addr + + ; /* Skip center_tx_idx */
for ( i = start_idx , j = 0 ; ( center_addr + j ) < 16 ; i + = 2 , j + + ) { /* Total: 16*2 = 32 values (Upper+Lower) */
if ( i + 1 > = LEN )
value = ( table_pwsf [ LEN - 1 ] < < 16 ) | ( table_pwsf [ LEN - 1 ] < < 8 ) | ( ( center_addr + j ) < < 1 ) | 0x1 ;
else
value = ( table_pwsf [ i + 1 ] < < 16 ) | ( table_pwsf [ i ] < < 8 ) | ( ( center_addr + j ) < < 1 ) | 0x1 ;
odm_write_4byte ( p_dm , 0xce4 , value ) ;
odm_write_1byte ( p_dm , 0xce4 , 0x0 ) ; /* write disable */
}
}
}
/* [31] = 0 --> switch to page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _dpk_enable_dp \n " ) ) ;
}
void
_phy_dp_calibrate_path_a_8812a (
struct PHY_DM_STRUCT * p_dm
)
{
u32 backup_mac_bb_reg_addrs [ ] = {
0xC60 , 0xC64 , 0xC68 , 0x82C , 0x838 , 0x90C , 0x522 , 0xC00 , 0xC20 , 0xC24 , /* 10 */
0xC28 , 0xC2C , 0xC30 , 0xC34 , 0xC38 , 0xC3C , 0xC40 , 0xC44 , 0xC48 , 0xC4C , /* 20 */
0xC94 , 0xCB0 , 0xCB4
} ;
u32 backup_rf_reg_addrs [ ] = { 0x00 , 0x64 , 0x8F } ;
u32 backup_mac_bb_reg_data [ sizeof ( backup_mac_bb_reg_addrs ) / sizeof ( u32 ) ] ;
u32 backup_rf_reg_data_a [ sizeof ( backup_rf_reg_addrs ) / sizeof ( u32 ) ] ;
/* u32 backupRFRegData_B[sizeof(backup_rf_reg_addrs)/sizeof(u32)]; */
_dpk_mac_bb_backup_path_a ( p_dm , backup_mac_bb_reg_addrs , backup_mac_bb_reg_data , sizeof ( backup_mac_bb_reg_addrs ) / sizeof ( u32 ) ) ;
_dpk_rf_backup_path_a ( p_dm , backup_rf_reg_addrs , RF_PATH_A , backup_rf_reg_data_a , sizeof ( backup_rf_reg_addrs ) / sizeof ( u32 ) ) ;
_dpk_init_path_a ( p_dm ) ;
if ( _dpk_adjust_rf_gain_path_a ( p_dm ) ) { /* Phase 1 */
_dpk_gain_loss_to_find_tx_agc_path_a ( p_dm ) ; /* Phase 2 */
if ( _dpk_adjust_rf_gain_by_found_tx_agc_path_a ( p_dm ) ) /* Phase 3 */
_dpk_do_auto_dpk_path_a ( p_dm ) ; /* Phase 4 */
}
_dpk_enable_dp_path_a ( p_dm ) ; /* Phase 5 */
_dpk_mac_bb_restore_path_a ( p_dm , backup_mac_bb_reg_addrs , backup_mac_bb_reg_data , sizeof ( backup_mac_bb_reg_addrs ) / sizeof ( u32 ) ) ;
_dpk_rf_restore_path_a ( p_dm , backup_rf_reg_addrs , RF_PATH_A , backup_rf_reg_data_a , sizeof ( backup_rf_reg_addrs ) / sizeof ( u32 ) ) ;
}
void
_dpk_mac_bb_backup_path_b (
struct PHY_DM_STRUCT * p_dm ,
u32 * backup_reg_addr ,
u32 * backup_reg_data ,
u32 number
)
{
u32 i ;
for ( i = 0 ; i < number ; i + + )
backup_reg_data [ i ] = odm_read_4byte ( p_dm , backup_reg_addr [ i ] ) ;
}
void
_dpk_mac_bb_restore_path_b (
struct PHY_DM_STRUCT * p_dm ,
u32 * backup_reg_addr ,
u32 * backup_reg_data ,
u32 number
)
{
u32 i ;
for ( i = 0 ; i < number ; i + + )
odm_write_4byte ( p_dm , backup_reg_addr [ i ] , backup_reg_data [ i ] ) ;
}
void
_dpk_rf_backup_path_b (
struct PHY_DM_STRUCT * p_dm ,
u32 * backup_reg_addr ,
enum rf_path rf_path ,
u32 * backup_reg_data ,
u32 number
)
{
u32 i ;
for ( i = 0 ; i < number ; i + + )
backup_reg_data [ i ] = odm_get_rf_reg ( p_dm , ( enum rf_path ) rf_path , backup_reg_addr [ i ] , RFREGOFFSETMASK ) ;
}
void
_dpk_rf_restore_path_b (
struct PHY_DM_STRUCT * p_dm ,
u32 * backup_reg_addr ,
enum rf_path rf_path ,
u32 * backup_reg_data ,
u32 number
)
{
u32 i ;
for ( i = 0 ; i < number ; i + + )
odm_set_rf_reg ( p_dm , ( enum rf_path ) rf_path , backup_reg_addr [ i ] , RFREGOFFSETMASK , backup_reg_data [ i ] ) ;
}
s32
_compute_loop_back_gain_path_b (
struct PHY_DM_STRUCT * p_dm
)
{
/* compute loopback gain */
/* <20> p<EFBFBD> <70> tmp_lb_gain <20> Ψ쪺function hex2dec() <20> O<EFBFBD> N twos complement<6E> <74> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> i<EFBFBD> <69> <EFBFBD> ন<EFBFBD> Q<EFBFBD> i<EFBFBD> <69> , <20> Q<EFBFBD> <51> <EFBFBD> i<EFBFBD> 쪺<EFBFBD> 榡<EFBFBD> <E6A6A1> s11.10
* <EFBFBD> | <EFBFBD> <EFBFBD> 1 , d00 [ 10 : 0 ] = h ' 3ff , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 3ff ) = 1023 ,
* <EFBFBD> | <EFBFBD> <EFBFBD> 2 , d00 [ 10 : 0 ] = h ' 400 , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 400 ) = - 1024 ,
* <EFBFBD> | <EFBFBD> <EFBFBD> 3 , d00 [ 10 : 0 ] = h ' 0 A9 , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 0 A9 ) = 169 ,
* <EFBFBD> | <EFBFBD> <EFBFBD> 4 , d00 [ 10 : 0 ] = h ' 54 c , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 54 c ) = - 692 ,
* <EFBFBD> | <EFBFBD> <EFBFBD> 5 , d00 [ 10 : 0 ] = h ' 7ff , <EFBFBD> g <EFBFBD> L hex2dec ( h ' 7ff ) = - 1 , */
u32 reg0xd40_26_16 = odm_get_bb_reg ( p_dm , 0xD40 , 0x7FF0000 ) ;
u32 reg0xd40_10_0 = odm_get_bb_reg ( p_dm , 0xD40 , 0x7FF ) ;
s32 tmp_lb_gain = _sign ( reg0xd40_26_16 ) * _sign ( reg0xd40_26_16 ) + _sign ( reg0xd40_10_0 ) * _sign ( reg0xd40_10_0 ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _compute_loop_back_gain_path_b, tmp_lb_gain = 0x%X \n " , tmp_lb_gain ) ) ;
return tmp_lb_gain ;
}
boolean
_fine_tune_loop_back_gain_path_b (
struct PHY_DM_STRUCT * p_dm ,
u32 dpk_tx_agc
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
s32 tmp_lb_gain = 0 ;
u32 rf0x64_orig = odm_get_rf_reg ( p_dm , RF_PATH_B , 0x64 , 0x7 ) ;
u32 rf0x64_new = rf0x64_orig ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _fine_tune_loop_back_gain_path_b \n " ) ) ;
do {
/* RF setting */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , dpk_tx_agc ) ;
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* <20> `<60> Npage c1<63> <31> c90<39> bDPK<50> L<EFBFBD> {<7B> <> <EFBFBD> d<EFBFBD> U<EFBFBD> <55> <EFBFBD> <EFBFBD> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> Lthread or process<73> <73> <EFBFBD> g<EFBFBD> <67> page c<> <63> c90<39> <30> */
odm_write_4byte ( p_dm , 0xe90 , 0x0101f018 ) ;
/* one shot */
odm_write_4byte ( p_dm , 0xec8 , 0x800c5599 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x000c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , 0x33d8d ) ;
tmp_lb_gain = _compute_loop_back_gain_path_b ( p_dm ) ;
if ( ( rf0x64_new = = ( BIT ( 2 ) | BIT ( 1 ) | BIT ( 0 ) ) ) | | ( rf0x64_new = = 0 ) ) {
/* printf('DPK Phase 1 failed'); */
p_rf_calibrate_info - > is_dpk_fail = true ;
break ;
/* Go to DPK Phase 5 */
} else {
if ( tmp_lb_gain < 263390 ) { /* fine tune loopback path gain: newReg64[2:0] = reg64[2:0] - 3b'001 */
rf0x64_new - = 1 ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x64 , 0x7 , rf0x64_new ) ;
} else if ( tmp_lb_gain > 661607 ) { /* fine tune loopback path gain: newReg64 [2:0] = reg64[2:0] + 3b'001 */
rf0x64_new + = 1 ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x64 , 0x7 , rf0x64_new ) ;
} else
p_rf_calibrate_info - > is_dpk_fail = false ;
}
} while ( tmp_lb_gain < 263390 | | 661607 < tmp_lb_gain ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _fine_tune_loop_back_gain_path_b \n " ) ) ;
return p_rf_calibrate_info - > is_dpk_fail ? false : true ;
}
void
_dpk_init_path_b (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_Init \n " ) ) ;
/* TX pause */
odm_write_1byte ( p_dm , 0x522 , 0x7f ) ;
/* reg82c[31] = b'0, <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
/* AFE setting */
odm_write_4byte ( p_dm , 0xc68 , 0x59791979 ) ;
odm_write_4byte ( p_dm , 0xe60 , 0x77777777 ) ;
odm_write_4byte ( p_dm , 0xe64 , 0x77777777 ) ;
/* external TRSW <20> <> <EFBFBD> <EFBFBD> T */
odm_write_4byte ( p_dm , 0xeb0 , 0x77777777 ) ;
odm_write_4byte ( p_dm , 0xeb4 , 0x01000077 ) ;
/* hardware 3-wire off */
odm_write_4byte ( p_dm , 0xe00 , 0x00000004 ) ;
/* CCA off */
odm_write_4byte ( p_dm , 0x838 , 0x16C89B4c ) ;
/* 90c[15]: dac fifo reset by CSWU */
odm_write_4byte ( p_dm , 0x90c , 0x00008000 ) ;
/* r_gothrough_iqkdpk */
odm_write_4byte ( p_dm , 0xe94 , 0x0100005D ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* IQK Amp off */
odm_write_4byte ( p_dm , 0xe8c , 0x3c000000 ) ;
/* tx_amp */
odm_write_4byte ( p_dm , 0xe98 , 0x41382e21 ) ;
odm_write_4byte ( p_dm , 0xe9c , 0x5b554f48 ) ;
odm_write_4byte ( p_dm , 0xea0 , 0x6f6b6661 ) ;
odm_write_4byte ( p_dm , 0xea4 , 0x817d7874 ) ;
odm_write_4byte ( p_dm , 0xea8 , 0x908c8884 ) ;
odm_write_4byte ( p_dm , 0xeac , 0x9d9a9793 ) ;
odm_write_4byte ( p_dm , 0xeb0 , 0xaaa7a4a1 ) ;
odm_write_4byte ( p_dm , 0xeb4 , 0xb6b3b0ad ) ;
/* tx_inverse */
odm_write_4byte ( p_dm , 0xe40 , 0x02ce03e9 ) ;
odm_write_4byte ( p_dm , 0xe44 , 0x01fd0249 ) ;
odm_write_4byte ( p_dm , 0xe48 , 0x01a101c9 ) ;
odm_write_4byte ( p_dm , 0xe4c , 0x016a0181 ) ;
odm_write_4byte ( p_dm , 0xe50 , 0x01430155 ) ;
odm_write_4byte ( p_dm , 0xe54 , 0x01270135 ) ;
odm_write_4byte ( p_dm , 0xe58 , 0x0112011c ) ;
odm_write_4byte ( p_dm , 0xe5c , 0x01000108 ) ;
odm_write_4byte ( p_dm , 0xe60 , 0x00f100f8 ) ;
odm_write_4byte ( p_dm , 0xe64 , 0x00e500eb ) ;
odm_write_4byte ( p_dm , 0xe68 , 0x00db00e0 ) ;
odm_write_4byte ( p_dm , 0xe6c , 0x00d100d5 ) ;
odm_write_4byte ( p_dm , 0xe70 , 0x00c900cd ) ;
odm_write_4byte ( p_dm , 0xe74 , 0x00c200c5 ) ;
odm_write_4byte ( p_dm , 0xe78 , 0x00bb00be ) ;
odm_write_4byte ( p_dm , 0xe7c , 0x00b500b8 ) ;
/* reg82c[31] = b'0, <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
p_rf_calibrate_info - > is_dpk_fail = false ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_Init \n " ) ) ;
}
boolean
_dpk_adjust_rf_gain_path_b (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
s32 tmp_lb_gain = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_AdjustRFGain \n " ) ) ;
/* RF setting */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , 0x50bfc ) ;
/* Attn: A mode @ reg64[2:0], G mode @ reg56 */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x64 , RFREGOFFSETMASK , 0x19aac ) ;
/* PGA gain: RF reg8f[14:13] */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x8f , RFREGOFFSETMASK , 0x8a001 ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* DPK setting */
odm_write_4byte ( p_dm , 0xe94 , 0xf76c9f84 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x000c5599 ) ;
odm_write_4byte ( p_dm , 0xec4 , 0x11838000 ) ;
odm_set_bb_reg ( p_dm , 0xed4 , 0xFFF000 , 0x100 ) ; /* <20> Ncd4[23:12] <20> 令 h'100, <20> 䥦<EFBFBD> 줸<EFBFBD> ЫO<D0AB> d<EFBFBD> <64> <EFBFBD> Ȥ<EFBFBD> <C8A4> n<EFBFBD> g<EFBFBD> <67>
* <EFBFBD> ` <EFBFBD> Npage c1 <EFBFBD> <EFBFBD> c90 <EFBFBD> bDPK <EFBFBD> L <EFBFBD> { <EFBFBD> <EFBFBD> <EFBFBD> d <EFBFBD> U <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> Q <EFBFBD> <EFBFBD> <EFBFBD> Lthread or process <EFBFBD> <EFBFBD> <EFBFBD> g <EFBFBD> <EFBFBD> page c <EFBFBD> <EFBFBD> c90 <EFBFBD> <EFBFBD> */
odm_write_4byte ( p_dm , 0xe90 , 0x0101f018 ) ;
/* one shot */
odm_write_4byte ( p_dm , 0xec8 , 0x800c5599 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x000c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* read back Loopback Gain */
odm_write_4byte ( p_dm , 0xeb8 , 0x09000000 ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , 0x33d8d ) ;
tmp_lb_gain = _compute_loop_back_gain_path_b ( p_dm ) ;
/* coarse tune loopback gain by RF reg8f[14:13] = 2b'11 */
if ( tmp_lb_gain < 263390 ) {
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x8f , RFREGOFFSETMASK , 0x8e001 ) ;
_fine_tune_loop_back_gain_path_b ( p_dm , 0x50bfc ) ;
} else if ( tmp_lb_gain > 661607 ) {
/* coarse tune loopback gain by RF reg8f[14:13] = 2b'00 */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x8f , RFREGOFFSETMASK , 0x88001 ) ;
_fine_tune_loop_back_gain_path_b ( p_dm , 0x50bfc ) ;
} else
p_rf_calibrate_info - > is_dpk_fail = false ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_AdjustRFGain \n " ) ) ;
return p_rf_calibrate_info - > is_dpk_fail ? false : true ;
}
void
_dpk_gain_loss_to_find_tx_agc_path_b (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
u32 reg0xd40 = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_GainLossToFindTxAGC \n " ) ) ;
/* RF setting */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , 0x50bfc ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* regc20[15:13] = dB sel, <20> i<EFBFBD> D Gain Loss function <20> h<EFBFBD> M<EFBFBD> <4D> dB_sel <20> ҳ]<5D> w<EFBFBD> <77> PA gain loss<73> ؼЩҹ<D0A9> <D2B9> <EFBFBD> <EFBFBD> <EFBFBD> Tx AGC <20> <> <EFBFBD> <EFBFBD> . */
/* dB_sel = b'000 ' 1.0 dB PA gain loss */
/* dB_sel = b'001 ' 1.5 dB PA gain loss */
/* dB_sel = b'010 ' 2.0 dB PA gain loss */
/* dB_sel = b'011 ' 2.5 dB PA gain loss */
/* dB_sel = b'100 ' 3.0 dB PA gain loss */
/* dB_sel = b'101 ' 3.5 dB PA gain loss */
/* dB_sel = b'110 ' 4.0 dB PA gain loss */
odm_write_4byte ( p_dm , 0xe20 , 0x00002000 ) ;
/* DPK setting */
odm_write_4byte ( p_dm , 0xe94 , 0xf76c9f84 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x000c5599 ) ;
odm_write_4byte ( p_dm , 0xec4 , 0x148b8000 ) ;
/* <20> `<60> Npage c1<63> <31> c90<39> bDPK<50> L<EFBFBD> {<7B> <> <EFBFBD> d<EFBFBD> U<EFBFBD> <55> <EFBFBD> <EFBFBD> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> Lthread or process<73> <73> <EFBFBD> g<EFBFBD> <67> page c<> <63> c90<39> <30> */
odm_write_4byte ( p_dm , 0xe90 , 0x0401f018 ) ;
/* one shot */
odm_write_4byte ( p_dm , 0xec8 , 0x800c5599 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x000c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* read back Loopback Gain */
/* <20> i<EFBFBD> H<EFBFBD> b d40[3:0] <20> <> Ū<EFBFBD> ^, dB_sel <20> <> <EFBFBD> ҳ]<5D> w<EFBFBD> <77> gain loss <20> |<7C> <> <EFBFBD> b<EFBFBD> <62> <EFBFBD> @<40> <> Tx AGC <20> ]<5D> w */
/* Ū<> ^d00[3:0] = h'1 ' Tx AGC = h'13 */
/* Ū<> ^d00[3:0] = h'2 ' Tx AGC = h'14 */
/* Ū<> ^d00[3:0] = h'3 ' Tx AGC = h'15 */
/* Ū<> ^d00[3:0] = h'4 ' Tx AGC = h'16 */
/* Ū<> ^d00[3:0] = h'5 ' Tx AGC = h'17 */
/* Ū<> ^d00[3:0] = h'6 ' Tx AGC = h'18 */
/* Ū<> ^d00[3:0] = h'7 ' Tx AGC = h'19 */
/* Ū<> ^d00[3:0] = h'8 ' Tx AGC = h'1a */
/* Ū<> ^d00[3:0] = h'9 ' Tx AGC = h'1b */
/* Ū<> ^d00[3:0] = h'a ' Tx AGC = h'1c */
/* */
reg0xd40 = odm_read_4byte ( p_dm , 0xd40 ) ;
switch ( odm_read_4byte ( p_dm , 0xd40 ) & ( BIT ( 3 ) | BIT ( 2 ) | BIT ( 1 ) | BIT ( 0 ) ) ) {
case 0x0 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x2 ;
break ;
case 0x1 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x3 ;
break ;
case 0x2 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x4 ;
break ;
case 0x3 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x5 ;
break ;
case 0x4 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x6 ;
break ;
case 0x5 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x7 ;
break ;
case 0x6 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x8 ;
break ;
case 0x7 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0x9 ;
break ;
case 0x8 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0xa ;
break ;
case 0x9 :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0xb ;
break ;
case 0xa :
p_rf_calibrate_info - > dpk_tx_agc = 0x50bf0 | 0xc ;
break ;
}
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , 0x33d8d ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_GainLossToFindTxAGC \n " ) ) ;
}
boolean
_dpk_adjust_rf_gain_by_found_tx_agc_path_b
(
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
s32 tmp_lb_gain = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_AdjustRFGainByFoundTxAGC \n " ) ) ;
/* RF setting, <20> <> <EFBFBD> s<EFBFBD> ]<5D> wRF reg00, <20> |<7C> ҥ<EFBFBD> DPK Phase 2<> o<EFBFBD> 쪺 d40[3:0] = 0x6 ' TX AGC= 0x18 ' RF reg00[4:0] = 0x18 */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , p_rf_calibrate_info - > dpk_tx_agc ) ;
/* Attn: A mode @ reg64[2:0], G mode @ reg56 */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x64 , RFREGOFFSETMASK , 0x19aac ) ;
/* PGA gain: RF reg8f[14:13] */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x8f , RFREGOFFSETMASK , 0x8a001 ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* DPK setting */
odm_write_4byte ( p_dm , 0xe94 , 0xf76c9f84 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x000c5599 ) ;
odm_write_4byte ( p_dm , 0xec4 , 0x11838000 ) ;
/* <20> `<60> Npage c1<63> <31> c90<39> bDPK<50> L<EFBFBD> {<7B> <> <EFBFBD> d<EFBFBD> U<EFBFBD> <55> <EFBFBD> <EFBFBD> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> Lthread or process<73> <73> <EFBFBD> g<EFBFBD> <67> page c<> <63> c90<39> <30> */
odm_write_4byte ( p_dm , 0xe90 , 0x0101f018 ) ;
/* one shot */
odm_write_4byte ( p_dm , 0xec8 , 0x800c5599 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x000c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , 0x33d8d ) ;
tmp_lb_gain = _compute_loop_back_gain_path_b ( p_dm ) ;
if ( tmp_lb_gain < 263390 ) {
/* coarse tune loopback gain by RF reg8f[14:13] = 2b'11 */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x8f , RFREGOFFSETMASK , 0x8e001 ) ;
_fine_tune_loop_back_gain_path_b ( p_dm , p_rf_calibrate_info - > dpk_tx_agc ) ;
} else if ( tmp_lb_gain > 661607 ) {
/* coarse tune loopback gain by RF reg8f[14:13] = 2b'00 */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x8f , RFREGOFFSETMASK , 0x88001 ) ;
_fine_tune_loop_back_gain_path_b ( p_dm , p_rf_calibrate_info - > dpk_tx_agc ) ;
} else
p_rf_calibrate_info - > is_dpk_fail = false ; /* Go to DPK Phase 4 */
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_AdjustRFGainByFoundTxAGC \n " ) ) ;
return p_rf_calibrate_info - > is_dpk_fail ? false : true ;
}
void
_dpk_do_auto_dpk_path_b (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
u32 tmp_lb_gain = 0 , reg0xd40 = 0 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _DPK_DoAutoDPK \n " ) ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
/* RF setting, <20> <> <EFBFBD> BRF reg00, <20> P DPK Phase 3 <20> @<40> P */
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , p_rf_calibrate_info - > dpk_tx_agc ) ;
/* Baseband data rate setting */
odm_write_4byte ( p_dm , 0xe20 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe24 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe28 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe2c , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe30 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe34 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe38 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe3c , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe40 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe44 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe48 , 0x3c3c3c3c ) ;
odm_write_4byte ( p_dm , 0xe4c , 0x3c3c3c3c ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* DPK setting */
odm_write_4byte ( p_dm , 0xe94 , 0xf76C9f84 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x400C5599 ) ;
odm_write_4byte ( p_dm , 0xec4 , 0x11938080 ) ; /* 0xec4[9:4]= DPk fail threshold */
if ( 36 < = * ( p_dm - > p_channel ) & & * ( p_dm - > p_channel ) < = 53 ) /* Channelchannel at low band) */
/* r_agc */
odm_write_4byte ( p_dm , 0xebc , 0x00022a1f ) ;
else
/* r_agc */
odm_write_4byte ( p_dm , 0xebc , 0x00009dbf ) ;
/* <20> `<60> Npage c1<63> <31> c90<39> bDPK<50> L<EFBFBD> {<7B> <> <EFBFBD> d<EFBFBD> U<EFBFBD> <55> <EFBFBD> <EFBFBD> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> Lthread or process<73> <73> <EFBFBD> g<EFBFBD> <67> page c<> <63> c90<39> <30> */
odm_write_4byte ( p_dm , 0xe90 , 0x0101f018 ) ; /* TODO: 0xe90(rA_LSSIWrite_Jaguar) can not be overwritten. */
/* one shot */
odm_write_4byte ( p_dm , 0xec8 , 0xc00c5599 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x400c5599 ) ;
/* delay 50 ms,<2C> <> delay <20> ɶ<EFBFBD> <C9B6> <EFBFBD> <EFBFBD> @<40> I, <20> T<EFBFBD> w PA Scan function <20> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> */
delay_ms ( 50 ) ;
/* reg82c[31] = 0 --> <20> <> <EFBFBD> <EFBFBD> page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
/* T-meter RFReg42[17] = 1 to enable read T-meter, [15:10] ' T-meter value */
odm_set_rf_reg ( p_dm , RF_PATH_A , 0x42 , BIT ( 17 ) , 1 ) ;
p_rf_calibrate_info - > dpk_thermal [ RF_PATH_B ] = odm_get_rf_reg ( p_dm , RF_PATH_A , 0x42 , 0xFC00 ) ; /* Ū<> X42[15:10] <20> Ȩæs<C3A6> <73> <EFBFBD> ܼ<EFBFBD> TMeter */
dbg_print ( " p_rf_calibrate_info->dpk_thermal[RF_PATH_B] = 0x%X \n " , p_rf_calibrate_info - > dpk_thermal [ RF_PATH_B ] ) ;
odm_set_rf_reg ( p_dm , RF_PATH_B , 0x00 , RFREGOFFSETMASK , 0x33D8D ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* read back dp_fail report */
odm_write_4byte ( p_dm , 0xeb8 , 0x00000000 ) ;
/* dp_fail<69> o<EFBFBD> <6F> bit<69> bd40[6], <20> <> d40[6] = 1, <20> <> <EFBFBD> <EFBFBD> calibration<6F> <6E> <EFBFBD> <EFBFBD> . */
reg0xd40 = odm_read_4byte ( p_dm , 0xd40 ) ;
if ( ( reg0xd40 & BIT ( 6 ) ) = = BIT ( 6 ) ) {
/* printf('DPK fail') */
p_rf_calibrate_info - > is_dpk_fail = true ;
/* Go to DPK Phase 5 */
} else {
/* printf('DPK success') */
}
/* read back */
odm_write_4byte ( p_dm , 0xe90 , 0x0201f01f ) ;
odm_write_4byte ( p_dm , 0xeb8 , 0x0c000000 ) ;
/* reg82c[31] = 1 --> <20> <> <EFBFBD> <EFBFBD> page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
/* <20> p<EFBFBD> <70> tmpGainLoss <20> Ψ쪺function hex2dec() <20> O<EFBFBD> N twos complement<6E> <74> <EFBFBD> Q<EFBFBD> <51> <EFBFBD> i<EFBFBD> <69> <EFBFBD> ন<EFBFBD> Q<EFBFBD> i<EFBFBD> <69> , <20> Q<EFBFBD> <51> <EFBFBD> i<EFBFBD> 쪺<EFBFBD> 榡<EFBFBD> <E6A6A1> s11.9 */
/* <20> |<7C> <> 1, d00[10:0] = h'3ff, <20> g<EFBFBD> L hex2dec(h'3ff) = 1023, */
/* <20> |<7C> <> 2, d00[10:0] = h'400, <20> g<EFBFBD> L hex2dec(h'400) = -1024, */
/* <20> |<7C> <> 3, d00[10:0] = h'0A9, <20> g<EFBFBD> L hex2dec(h'0A9) = 169, */
/* <20> |<7C> <> 4, d00[10:0] = h'54c, <20> g<EFBFBD> L hex2dec(h'54c) = -692, */
/* <20> |<7C> <> 4, d00[10:0] = h'7ff, <20> g<EFBFBD> L hex2dec(h'7ff) = -1, */
tmp_lb_gain = _compute_loop_back_gain_path_b ( p_dm ) ;
/* Gain Scaling */
if ( 227007 < tmp_lb_gain )
p_rf_calibrate_info - > dpk_gain = 0x43ca43ca ;
else if ( 214309 < tmp_lb_gain & & tmp_lb_gain < = 227007 )
p_rf_calibrate_info - > dpk_gain = 0x45c545c5 ;
else if ( 202321 < tmp_lb_gain & & tmp_lb_gain < = 214309 )
p_rf_calibrate_info - > dpk_gain = 0x47cf47cf ;
else if ( 191003 < tmp_lb_gain & & tmp_lb_gain < = 202321 )
p_rf_calibrate_info - > dpk_gain = 0x49e749e7 ;
else if ( 180318 < tmp_lb_gain & & tmp_lb_gain < = 191003 )
p_rf_calibrate_info - > dpk_gain = 0x4c104c10 ;
else if ( 170231 < tmp_lb_gain & & tmp_lb_gain < = 180318 )
p_rf_calibrate_info - > dpk_gain = 0x4e494e49 ;
else if ( 160709 < tmp_lb_gain & & tmp_lb_gain < = 170231 )
p_rf_calibrate_info - > dpk_gain = 0x50925092 ;
else if ( 151719 < tmp_lb_gain & & tmp_lb_gain < = 160709 )
p_rf_calibrate_info - > dpk_gain = 0x52ec52ec ;
else if ( 151719 < = tmp_lb_gain )
p_rf_calibrate_info - > dpk_gain = 0x55585558 ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _DPK_DoAutoDPK \n " ) ) ;
}
void
_dpk_enable_dp_path_b (
struct PHY_DM_STRUCT * p_dm
)
{
struct odm_rf_calibration_structure * p_rf_calibrate_info = & ( p_dm - > rf_calibrate_info ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> _dpk_enable_dp \n " ) ) ;
/* [31] = 1 --> switch to page C1 */
odm_write_4byte ( p_dm , 0x82c , 0x802083dd ) ;
/* enable IQC matrix --> <20> ]<5D> <> BB <20> H<EFBFBD> <48> <EFBFBD> |<7C> <> <EFBFBD> g<EFBFBD> L predistortion module, <20> ~<7E> g<EFBFBD> L IQC matrix <20> <> DAC <20> <> <EFBFBD> X<EFBFBD> h */
/* <20> ҥH<D2A5> n<EFBFBD> <6E> enable predistortion module {c90[7] = 1 (enable_predis) cc4[18] = 1 (<28> T<EFBFBD> w<EFBFBD> <77> IQK/DPK module <20> <> clock), cc8[29] = 1 (<28> @<40> <> IQK/DPK module <20> ̪<EFBFBD> mux, <20> T<EFBFBD> { data path <20> <> IQK/DPK)} */
odm_write_4byte ( p_dm , 0xe90 , 0x0000f098 ) ;
odm_write_4byte ( p_dm , 0xe94 , 0x776d9f84 ) ;
odm_write_4byte ( p_dm , 0xec8 , 0x20000000 ) ;
odm_write_4byte ( p_dm , 0xe8c , 0x3c000000 ) ;
/* r_bnd */
odm_write_4byte ( p_dm , 0xeb8 , 0x000fffff ) ;
if ( p_rf_calibrate_info - > is_dpk_fail ) {
/* cc4[29] = 1 (bypass DP LUT) */
odm_write_4byte ( p_dm , 0xe98 , 0x40004000 ) ;
odm_write_4byte ( p_dm , 0xec4 , 0x28840000 ) ;
} else {
odm_write_4byte ( p_dm , 0xe98 , p_rf_calibrate_info - > dpk_gain ) ;
odm_write_4byte ( p_dm , 0xec4 , 0x08840000 ) ;
/* PWSF */
/* <20> gPWSF table in 1st SRAM for PA = 11 use */
odm_write_4byte ( p_dm , 0xe20 , 0x00000800 ) ;
/* ******************************************************* */
/* 0xee4[0]<5D> Owrite enable<6C> A0xee4[7:1]<5D> Oaddress<73> A0xee4[15:8]<5D> M0xee4[23:16]<5D> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> TX index<65> A */
/* <20> Y<EFBFBD> <59> <EFBFBD> m<EFBFBD> <6D> 0(0xee4[7:1] = 0x0)<29> <> <EFBFBD> <EFBFBD> 0xee4[15:8]<5D> <> <EFBFBD> <EFBFBD> <EFBFBD> 쪺TX RF index <20> O0x1f,<2C> A */
/* 0xee4[23:16]<5D> <> <EFBFBD> <EFBFBD> <EFBFBD> 쪺<EFBFBD> O0x1e<31> A<EFBFBD> Y<EFBFBD> <59> <EFBFBD> m<EFBFBD> <6D> 1(0xee4[7:1] = 0x1)<29> A<EFBFBD> <41> <EFBFBD> <EFBFBD> 0xee4 [15:8]<5D> <> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> 0x1d<31> A */
/* 0xee4[23:16]<5D> <> <EFBFBD> <EFBFBD> 0x1c<31> A<EFBFBD> <41> <EFBFBD> L<EFBFBD> ̦<EFBFBD> <CCA6> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> A<EFBFBD> C<EFBFBD> <43> data<74> <61> <EFBFBD> 쳣<EFBFBD> O<EFBFBD> ۮt1dB<64> C<EFBFBD> Ygainloss<73> <73> <EFBFBD> 쪺RF TX index=0x18<31> A */
/* <20> h<EFBFBD> b0xee4 address<73> <73> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> 0x18<31> <38> <EFBFBD> a<EFBFBD> <61> <EFBFBD> n<EFBFBD> <6E> 0x40(<28> ]<5D> N<EFBFBD> O0dB)<29> A<EFBFBD> <41> <EFBFBD> L<EFBFBD> h<EFBFBD> ӤU<D3A4> <55> table<6C> <65> <EFBFBD> <EFBFBD> <EFBFBD> ǨC<C7A8> <43> 1dB<64> ̧DZƦ
/* <20> N<EFBFBD> Ҧ<EFBFBD> <D2A6> <EFBFBD> 0xee4c<34> <63> data<74> <61> <EFBFBD> 쳣<EFBFBD> <ECB3A3> <EFBFBD> J<EFBFBD> ۹<EFBFBD> <DBB9> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> ȡC */
/* ************************************************************* */
{
const s32 LEN = 25 ;
u32 base_idx = 6 ; /* 0 dB: 0x40 */
u32 table_pwsf [ ] = {
0xff , 0xca , 0xa1 , 0x80 , 0x65 , 0x51 , 0x40 /* 0 dB */ ,
0x33 , 0x28 , 0x20 , 0x19 , 0x14 , 0x10 ,
0x0d , 0x0a , 0x08 , 0x06 , 0x05 , 0x04 ,
0x03 , 0x03 , 0x02 , 0x02 , 0x01 , 0x01
} ;
u32 center_tx_idx = p_rf_calibrate_info - > dpk_tx_agc & 0x1F ;
u32 center_addr = ( 0x1F - center_tx_idx ) / 2 ;
s32 i = 0 , j = 0 , value = 0 , start_idx = 0 ;
/* Upper */
start_idx = ( ( ( 0x1F - center_tx_idx ) % 2 = = 0 ) ? base_idx + 1 : base_idx ) ;
for ( i = start_idx , j = 0 ; ( center_addr - j + 1 ) > = 1 ; i - = 2 , j + + ) {
if ( i - 1 < 0 )
value = ( table_pwsf [ 0 ] < < 16 ) | ( table_pwsf [ 0 ] < < 8 ) | ( ( center_addr - j ) < < 1 ) | 0x1 ;
else
value = ( table_pwsf [ i ] < < 16 ) | ( table_pwsf [ i - 1 ] < < 8 ) | ( ( center_addr - j ) < < 1 ) | 0x1 ;
odm_write_4byte ( p_dm , 0xee4 , value ) ;
odm_write_1byte ( p_dm , 0xee4 , 0x0 ) ; /* write disable */
}
/* Lower */
start_idx = ( ( ( 0x1F - center_tx_idx ) % 2 = = 0 ) ? base_idx + 2 : base_idx + 1 ) ;
center_addr + + ; /* Skip center_tx_idx */
for ( i = start_idx , j = 0 ; ( center_addr + j ) < 16 ; i + = 2 , j + + ) { /* Total: 16*2 = 32 values (Upper+Lower) */
if ( i + 1 > = LEN )
value = ( table_pwsf [ LEN - 1 ] < < 16 ) | ( table_pwsf [ LEN - 1 ] < < 8 ) | ( ( center_addr + j ) < < 1 ) | 0x1 ;
else
value = ( table_pwsf [ i + 1 ] < < 16 ) | ( table_pwsf [ i ] < < 8 ) | ( ( center_addr + j ) < < 1 ) | 0x1 ;
odm_write_4byte ( p_dm , 0xee4 , value ) ;
odm_write_1byte ( p_dm , 0xee4 , 0x0 ) ; /* write disable */
}
}
}
/* [31] = 0 --> switch to page C */
odm_write_4byte ( p_dm , 0x82c , 0x002083dd ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== _dpk_enable_dp \n " ) ) ;
}
void
_phy_dp_calibrate_path_b_8812a (
struct PHY_DM_STRUCT * p_dm
)
{
u32 backup_mac_bb_reg_addrs [ ] = {
0xE60 , 0xE64 , 0xC68 , 0x82C , 0x838 , 0x90C , 0x522 , 0xE00 , 0xE20 , 0xE24 , /* 10 */
0xE28 , 0xE2C , 0xE30 , 0xE34 , 0xE38 , 0xE3C , 0xE40 , 0xE44 , 0xE48 , 0xE4C , /* 20 */
0xE94 , 0xEB0 , 0xEB4
} ;
u32 backup_rf_reg_addrs [ ] = { 0x00 , 0x64 , 0x8F } ;
u32 backup_mac_bb_reg_data [ sizeof ( backup_mac_bb_reg_addrs ) / sizeof ( u32 ) ] ;
u32 backup_rf_reg_data_a [ sizeof ( backup_rf_reg_addrs ) / sizeof ( u32 ) ] ;
/* u32 backupRFRegData_B[sizeof(backup_rf_reg_addrs)/sizeof(u32)]; */
_dpk_mac_bb_backup_path_b ( p_dm , backup_mac_bb_reg_addrs , backup_mac_bb_reg_data , sizeof ( backup_mac_bb_reg_addrs ) / sizeof ( u32 ) ) ;
_dpk_rf_backup_path_b ( p_dm , backup_rf_reg_addrs , RF_PATH_B , backup_rf_reg_data_a , sizeof ( backup_rf_reg_addrs ) / sizeof ( u32 ) ) ;
_dpk_init_path_b ( p_dm ) ;
if ( _dpk_adjust_rf_gain_path_b ( p_dm ) ) { /* Phase 1 */
_dpk_gain_loss_to_find_tx_agc_path_b ( p_dm ) ; /* Phase 2 */
if ( _dpk_adjust_rf_gain_by_found_tx_agc_path_b ( p_dm ) ) /* Phase 3 */
_dpk_do_auto_dpk_path_b ( p_dm ) ; /* Phase 4 */
}
_dpk_enable_dp_path_b ( p_dm ) ; /* Phase 5 */
_dpk_mac_bb_restore_path_b ( p_dm , backup_mac_bb_reg_addrs , backup_mac_bb_reg_data , sizeof ( backup_mac_bb_reg_addrs ) / sizeof ( u32 ) ) ;
_dpk_rf_restore_path_b ( p_dm , backup_rf_reg_addrs , RF_PATH_B , backup_rf_reg_data_a , sizeof ( backup_rf_reg_addrs ) / sizeof ( u32 ) ) ;
}
# endif
void
phy_dp_calibrate_8812a (
struct PHY_DM_STRUCT * p_dm
)
{
#if 0
struct _hal_rf_ * p_rf = & ( p_dm - > rf_table ) ;
p_rf - > dpk_done = true ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> phy_dp_calibrate_8812a \n " ) ) ;
_phy_dp_calibrate_path_a_8812a ( p_dm ) ;
_phy_dp_calibrate_path_b_8812a ( p_dm ) ;
ODM_RT_TRACE ( p_dm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <=== phy_dp_calibrate_8812a \n " ) ) ;
# endif
}
