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/******************************************************************************
*
* Copyright ( c ) 2007 - 2011 Realtek Corporation . All rights reserved .
*
* 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 .
*
* You should have received a copy of the GNU General Public License along with
* this program ; if not , write to the Free Software Foundation , Inc . ,
* 51 Franklin Street , Fifth Floor , Boston , MA 02110 , USA
*
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# include "odm_precomp.h"
/*---------------------------Define Local Constant---------------------------*/
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/* 2010/04/25 MH Define the max tx power tracking tx agc power. */
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# define ODM_TXPWRTRACK_MAX_IDX_88E 6
/*---------------------------Define Local Constant---------------------------*/
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/* 3============================================================ */
/* 3 Tx Power Tracking */
/* 3============================================================ */
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/*-----------------------------------------------------------------------------
* Function : ODM_TxPwrTrackAdjust88E ( )
*
* Overview : 88 E we can not write 0xc80 / c94 / c4c / 0xa2 x . Instead of write TX agc .
* No matter OFDM & CCK use the same method .
*
* Input : NONE
*
* Output : NONE
*
* Return : NONE
*
* Revised History :
* When Who Remark
* 04 / 23 / 2012 MHC Create Version 0.
* 04 / 23 / 2012 MHC Adjust TX agc directly not throughput BB digital .
*
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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void ODM_TxPwrTrackAdjust88E ( struct odm_dm_struct * dm_odm , u8 Type , /* 0 = OFDM, 1 = CCK */
u8 * pDirection , /* 1 = +(increase) 2 = -(decrease) */
u32 * pOutWriteVal /* Tx tracking CCK/OFDM BB swing index adjust */
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)
{
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u8 pwr_value = 0 ;
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/* Tx power tracking BB swing table. */
/* The base index = 12. +((12-n)/2)dB 13~?? = decrease tx pwr by -((n-12)/2)dB */
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if ( Type = = 0 ) { /* For OFDM afjust */
ODM_RT_TRACE ( dm_odm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD ,
( " BbSwingIdxOfdm = %d BbSwingFlagOfdm=%d \n " ,
dm_odm - > BbSwingIdxOfdm , dm_odm - > BbSwingFlagOfdm ) ) ;
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if ( dm_odm - > BbSwingIdxOfdm < = dm_odm - > BbSwingIdxOfdmBase ) {
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* pDirection = 1 ;
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pwr_value = ( dm_odm - > BbSwingIdxOfdmBase - dm_odm - > BbSwingIdxOfdm ) ;
} else {
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* pDirection = 2 ;
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pwr_value = ( dm_odm - > BbSwingIdxOfdm - dm_odm - > BbSwingIdxOfdmBase ) ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD ,
( " BbSwingIdxOfdm = %d BbSwingFlagOfdm=%d \n " ,
dm_odm - > BbSwingIdxOfdm , dm_odm - > BbSwingFlagOfdm ) ) ;
} else if ( Type = = 1 ) { /* For CCK adjust. */
ODM_RT_TRACE ( dm_odm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD ,
( " dm_odm->BbSwingIdxCck = %d dm_odm->BbSwingIdxCckBase = %d \n " ,
dm_odm - > BbSwingIdxCck , dm_odm - > BbSwingIdxCckBase ) ) ;
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if ( dm_odm - > BbSwingIdxCck < = dm_odm - > BbSwingIdxCckBase ) {
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* pDirection = 1 ;
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pwr_value = ( dm_odm - > BbSwingIdxCckBase - dm_odm - > BbSwingIdxCck ) ;
} else {
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* pDirection = 2 ;
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pwr_value = ( dm_odm - > BbSwingIdxCck - dm_odm - > BbSwingIdxCckBase ) ;
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}
}
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/* */
/* 2012/04/25 MH According to Ed/Luke.Lees estimate for EVM the max tx power tracking */
/* need to be less than 6 power index for 88E. */
/* */
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if ( pwr_value > = ODM_TXPWRTRACK_MAX_IDX_88E & & * pDirection = = 1 )
pwr_value = ODM_TXPWRTRACK_MAX_IDX_88E ;
* pOutWriteVal = pwr_value | ( pwr_value < < 8 ) | ( pwr_value < < 16 ) | ( pwr_value < < 24 ) ;
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} /* ODM_TxPwrTrackAdjust88E */
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/*-----------------------------------------------------------------------------
* 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.
*
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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static void odm_TxPwrTrackSetPwr88E ( struct odm_dm_struct * dm_odm )
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{
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if ( dm_odm - > BbSwingFlagOfdm | | dm_odm - > BbSwingFlagCck ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_TX_PWR_TRACK , ODM_DBG_LOUD , ( " odm_TxPwrTrackSetPwr88E CH=%d \n " , * ( dm_odm - > pChannel ) ) ) ;
PHY_SetTxPowerLevel8188E ( dm_odm - > Adapter , * ( dm_odm - > pChannel ) ) ;
dm_odm - > BbSwingFlagOfdm = false ;
dm_odm - > BbSwingFlagCck = false ;
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}
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} /* odm_TxPwrTrackSetPwr88E */
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/* 091212 chiyokolin */
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void
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odm_TXPowerTrackingCallback_ThermalMeter_8188E (
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struct adapter * Adapter
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)
{
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( Adapter ) ;
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u8 ThermalValue = 0 , delta , delta_LCK , delta_IQK , offset ;
u8 ThermalValue_AVG_count = 0 ;
u32 ThermalValue_AVG = 0 ;
s32 ele_A = 0 , ele_D , TempCCk , X , value32 ;
s32 Y , ele_C = 0 ;
s8 OFDM_index [ 2 ] , CCK_index = 0 ;
s8 OFDM_index_old [ 2 ] = { 0 , 0 } , CCK_index_old = 0 ;
u32 i = 0 , j = 0 ;
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bool is2t = false ;
bool bInteralPA = false ;
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u8 OFDM_min_index = 6 , rf ; /* OFDM BB Swing should be less than +3.0dB, which is required by Arthur */
u8 Indexforchannel = 0 /*GetRightChnlPlaceforIQK(pHalData->CurrentChannel)*/ ;
s8 OFDM_index_mapping [ 2 ] [ index_mapping_NUM_88E ] = {
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{ 0 , 0 , 2 , 3 , 4 , 4 , /* 2.4G, decrease power */
5 , 6 , 7 , 7 , 8 , 9 ,
10 , 10 , 11 } , /* For lower temperature, 20120220 updated on 20120220. */
{ 0 , 0 , - 1 , - 2 , - 3 , - 4 , /* 2.4G, increase power */
- 4 , - 4 , - 4 , - 5 , - 7 , - 8 ,
- 9 , - 9 , - 10 } ,
} ;
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u8 Thermal_mapping [ 2 ] [ index_mapping_NUM_88E ] = {
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{ 0 , 2 , 4 , 6 , 8 , 10 , /* 2.4G, decrease power */
12 , 14 , 16 , 18 , 20 , 22 ,
24 , 26 , 27 } ,
{ 0 , 2 , 4 , 6 , 8 , 10 , /* 2.4G,, increase power */
12 , 14 , 16 , 18 , 20 , 22 ,
25 , 25 , 25 } ,
} ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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/* 2012/04/25 MH Add for tx power tracking to set tx power in tx agc for 88E. */
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odm_TxPwrTrackSetPwr88E ( dm_odm ) ;
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dm_odm - > RFCalibrateInfo . TXPowerTrackingCallbackCnt + + ; /* cosa add for debug */
dm_odm - > RFCalibrateInfo . bTXPowerTrackingInit = true ;
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/* <Kordan> RFCalibrateInfo.RegA24 will be initialized when ODM HW configuring, but MP configures with para files. */
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dm_odm - > RFCalibrateInfo . RegA24 = 0x090e1317 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " ===>dm_TXPowerTrackingCallback_ThermalMeter_8188E txpowercontrol %d \n " ,
dm_odm - > RFCalibrateInfo . TxPowerTrackControl ) ) ;
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ThermalValue = ( u8 ) ODM_GetRFReg ( dm_odm , RF_PATH_A , RF_T_METER_88E , 0xfc00 ) ; /* 0x42: RF Reg[15:10] 88E */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Readback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x \n " ,
ThermalValue , dm_odm - > RFCalibrateInfo . ThermalValue , pHalData - > EEPROMThermalMeter ) ) ;
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if ( is2t )
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rf = 2 ;
else
rf = 1 ;
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if ( ThermalValue ) {
/* Query OFDM path A default setting */
ele_D = ODM_GetBBReg ( dm_odm , rOFDM0_XATxIQImbalance , bMaskDWord ) & bMaskOFDM_D ;
for ( i = 0 ; i < OFDM_TABLE_SIZE_92D ; i + + ) { /* find the index */
if ( ele_D = = ( OFDMSwingTable [ i ] & bMaskOFDM_D ) ) {
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OFDM_index_old [ 0 ] = ( u8 ) i ;
dm_odm - > BbSwingIdxOfdmBase = ( u8 ) i ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Initial pathA ele_D reg0x%x = 0x%x, OFDM_index=0x%x \n " ,
rOFDM0_XATxIQImbalance , ele_D , OFDM_index_old [ 0 ] ) ) ;
break ;
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}
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}
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/* Query OFDM path B default setting */
if ( is2t ) {
ele_D = ODM_GetBBReg ( dm_odm , rOFDM0_XBTxIQImbalance , bMaskDWord ) & bMaskOFDM_D ;
for ( i = 0 ; i < OFDM_TABLE_SIZE_92D ; i + + ) { /* find the index */
if ( ele_D = = ( OFDMSwingTable [ i ] & bMaskOFDM_D ) ) {
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OFDM_index_old [ 1 ] = ( u8 ) i ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Initial pathB ele_D reg0x%x = 0x%x, OFDM_index=0x%x \n " ,
rOFDM0_XBTxIQImbalance , ele_D , OFDM_index_old [ 1 ] ) ) ;
break ;
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}
}
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}
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/* Query CCK default setting From 0xa24 */
TempCCk = dm_odm - > RFCalibrateInfo . RegA24 ;
for ( i = 0 ; i < CCK_TABLE_SIZE ; i + + ) {
if ( dm_odm - > RFCalibrateInfo . bCCKinCH14 ) {
if ( ODM_CompareMemory ( dm_odm , ( void * ) & TempCCk , ( void * ) & CCKSwingTable_Ch14 [ i ] [ 2 ] , 4 ) = = 0 ) {
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CCK_index_old = ( u8 ) i ;
dm_odm - > BbSwingIdxCckBase = ( u8 ) i ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Initial reg0x%x = 0x%x, CCK_index=0x%x, ch 14 %d \n " ,
rCCK0_TxFilter2 , TempCCk , CCK_index_old , dm_odm - > RFCalibrateInfo . bCCKinCH14 ) ) ;
break ;
}
} else {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " RegA24: 0x%X, CCKSwingTable_Ch1_Ch13[%d][2]: CCKSwingTable_Ch1_Ch13[i][2]: 0x%X \n " ,
TempCCk , i , CCKSwingTable_Ch1_Ch13 [ i ] [ 2 ] ) ) ;
if ( ODM_CompareMemory ( dm_odm , ( void * ) & TempCCk , ( void * ) & CCKSwingTable_Ch1_Ch13 [ i ] [ 2 ] , 4 ) = = 0 ) {
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CCK_index_old = ( u8 ) i ;
dm_odm - > BbSwingIdxCckBase = ( u8 ) i ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Initial reg0x%x = 0x%x, CCK_index=0x%x, ch14 %d \n " ,
rCCK0_TxFilter2 , TempCCk , CCK_index_old , dm_odm - > RFCalibrateInfo . bCCKinCH14 ) ) ;
break ;
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}
}
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}
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if ( ! dm_odm - > RFCalibrateInfo . ThermalValue ) {
dm_odm - > RFCalibrateInfo . ThermalValue = pHalData - > EEPROMThermalMeter ;
dm_odm - > RFCalibrateInfo . ThermalValue_LCK = ThermalValue ;
dm_odm - > RFCalibrateInfo . ThermalValue_IQK = ThermalValue ;
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for ( i = 0 ; i < rf ; i + + )
dm_odm - > RFCalibrateInfo . OFDM_index [ i ] = OFDM_index_old [ i ] ;
dm_odm - > RFCalibrateInfo . CCK_index = CCK_index_old ;
}
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if ( dm_odm - > RFCalibrateInfo . bReloadtxpowerindex )
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " reload ofdm index for band switch \n " ) ) ;
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/* calculate average thermal meter */
dm_odm - > RFCalibrateInfo . ThermalValue_AVG [ dm_odm - > RFCalibrateInfo . ThermalValue_AVG_index ] = ThermalValue ;
dm_odm - > RFCalibrateInfo . ThermalValue_AVG_index + + ;
if ( dm_odm - > RFCalibrateInfo . ThermalValue_AVG_index = = AVG_THERMAL_NUM_88E )
dm_odm - > RFCalibrateInfo . ThermalValue_AVG_index = 0 ;
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for ( i = 0 ; i < AVG_THERMAL_NUM_88E ; i + + ) {
if ( dm_odm - > RFCalibrateInfo . ThermalValue_AVG [ i ] ) {
ThermalValue_AVG + = dm_odm - > RFCalibrateInfo . ThermalValue_AVG [ i ] ;
ThermalValue_AVG_count + + ;
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}
}
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if ( ThermalValue_AVG_count ) {
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ThermalValue = ( u8 ) ( ThermalValue_AVG / ThermalValue_AVG_count ) ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " AVG Thermal Meter = 0x%x \n " , ThermalValue ) ) ;
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}
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if ( dm_odm - > RFCalibrateInfo . bReloadtxpowerindex ) {
delta = ThermalValue > pHalData - > EEPROMThermalMeter ?
( ThermalValue - pHalData - > EEPROMThermalMeter ) :
( pHalData - > EEPROMThermalMeter - ThermalValue ) ;
dm_odm - > RFCalibrateInfo . bReloadtxpowerindex = false ;
dm_odm - > RFCalibrateInfo . bDoneTxpower = false ;
} else if ( dm_odm - > RFCalibrateInfo . bDoneTxpower ) {
delta = ( ThermalValue > dm_odm - > RFCalibrateInfo . ThermalValue ) ?
( ThermalValue - dm_odm - > RFCalibrateInfo . ThermalValue ) :
( dm_odm - > RFCalibrateInfo . ThermalValue - ThermalValue ) ;
} else {
delta = ThermalValue > pHalData - > EEPROMThermalMeter ?
( ThermalValue - pHalData - > EEPROMThermalMeter ) :
( pHalData - > EEPROMThermalMeter - ThermalValue ) ;
}
delta_LCK = ( ThermalValue > dm_odm - > RFCalibrateInfo . ThermalValue_LCK ) ?
( ThermalValue - dm_odm - > RFCalibrateInfo . ThermalValue_LCK ) :
( dm_odm - > RFCalibrateInfo . ThermalValue_LCK - ThermalValue ) ;
delta_IQK = ( ThermalValue > dm_odm - > RFCalibrateInfo . ThermalValue_IQK ) ?
( ThermalValue - dm_odm - > RFCalibrateInfo . ThermalValue_IQK ) :
( dm_odm - > RFCalibrateInfo . ThermalValue_IQK - ThermalValue ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Readback Thermal Meter = 0x%x pre thermal meter 0x%x EEPROMthermalmeter 0x%x delta 0x%x delta_LCK 0x%x delta_IQK 0x%x \n " ,
ThermalValue , dm_odm - > RFCalibrateInfo . ThermalValue ,
pHalData - > EEPROMThermalMeter , delta , delta_LCK , delta_IQK ) ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " pre thermal meter LCK 0x%x pre thermal meter IQK 0x%x delta_LCK_bound 0x%x delta_IQK_bound 0x%x \n " ,
dm_odm - > RFCalibrateInfo . ThermalValue_LCK ,
dm_odm - > RFCalibrateInfo . ThermalValue_IQK ,
dm_odm - > RFCalibrateInfo . Delta_LCK ,
dm_odm - > RFCalibrateInfo . Delta_IQK ) ) ;
if ( ( delta_LCK > = 8 ) ) { /* Delta temperature is equal to or larger than 20 centigrade. */
dm_odm - > RFCalibrateInfo . ThermalValue_LCK = ThermalValue ;
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PHY_LCCalibrate_8188E ( Adapter ) ;
}
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if ( delta > 0 & & dm_odm - > RFCalibrateInfo . TxPowerTrackControl ) {
delta = ThermalValue > pHalData - > EEPROMThermalMeter ?
( ThermalValue - pHalData - > EEPROMThermalMeter ) :
( pHalData - > EEPROMThermalMeter - ThermalValue ) ;
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/* calculate new OFDM / CCK offset */
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if ( ThermalValue > pHalData - > EEPROMThermalMeter )
j = 1 ;
else
j = 0 ;
for ( offset = 0 ; offset < index_mapping_NUM_88E ; offset + + ) {
if ( delta < Thermal_mapping [ j ] [ offset ] ) {
if ( offset ! = 0 )
offset - - ;
break ;
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}
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}
if ( offset > = index_mapping_NUM_88E )
offset = index_mapping_NUM_88E - 1 ;
for ( i = 0 ; i < rf ; i + + )
OFDM_index [ i ] = dm_odm - > RFCalibrateInfo . OFDM_index [ i ] + OFDM_index_mapping [ j ] [ offset ] ;
CCK_index = dm_odm - > RFCalibrateInfo . CCK_index + OFDM_index_mapping [ j ] [ offset ] ;
if ( is2t ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " temp OFDM_A_index=0x%x, OFDM_B_index=0x%x, CCK_index=0x%x \n " ,
dm_odm - > RFCalibrateInfo . OFDM_index [ 0 ] ,
dm_odm - > RFCalibrateInfo . OFDM_index [ 1 ] ,
dm_odm - > RFCalibrateInfo . CCK_index ) ) ;
} else {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " temp OFDM_A_index=0x%x, CCK_index=0x%x \n " ,
dm_odm - > RFCalibrateInfo . OFDM_index [ 0 ] ,
dm_odm - > RFCalibrateInfo . CCK_index ) ) ;
}
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for ( i = 0 ; i < rf ; i + + ) {
if ( OFDM_index [ i ] > OFDM_TABLE_SIZE_92D - 1 )
OFDM_index [ i ] = OFDM_TABLE_SIZE_92D - 1 ;
else if ( OFDM_index [ i ] < OFDM_min_index )
OFDM_index [ i ] = OFDM_min_index ;
}
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if ( CCK_index > CCK_TABLE_SIZE - 1 )
CCK_index = CCK_TABLE_SIZE - 1 ;
else if ( CCK_index < 0 )
CCK_index = 0 ;
if ( is2t ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " new OFDM_A_index=0x%x, OFDM_B_index=0x%x, CCK_index=0x%x \n " ,
OFDM_index [ 0 ] , OFDM_index [ 1 ] , CCK_index ) ) ;
} else {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " new OFDM_A_index=0x%x, CCK_index=0x%x \n " ,
OFDM_index [ 0 ] , CCK_index ) ) ;
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}
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/* 2 temporarily remove bNOPG */
/* Config by SwingTable */
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if ( dm_odm - > RFCalibrateInfo . TxPowerTrackControl ) {
dm_odm - > RFCalibrateInfo . bDoneTxpower = true ;
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/* Adujst OFDM Ant_A according to IQK result */
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ele_D = ( OFDMSwingTable [ ( u8 ) OFDM_index [ 0 ] ] & 0xFFC00000 ) > > 22 ;
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X = dm_odm - > RFCalibrateInfo . IQKMatrixRegSetting [ Indexforchannel ] . Value [ 0 ] [ 0 ] ;
Y = dm_odm - > RFCalibrateInfo . IQKMatrixRegSetting [ Indexforchannel ] . Value [ 0 ] [ 1 ] ;
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/* Revse TX power table. */
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dm_odm - > BbSwingIdxOfdm = ( u8 ) OFDM_index [ 0 ] ;
dm_odm - > BbSwingIdxCck = ( u8 ) CCK_index ;
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if ( dm_odm - > BbSwingIdxOfdmCurrent ! = dm_odm - > BbSwingIdxOfdm ) {
dm_odm - > BbSwingIdxOfdmCurrent = dm_odm - > BbSwingIdxOfdm ;
dm_odm - > BbSwingFlagOfdm = true ;
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}
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if ( dm_odm - > BbSwingIdxCckCurrent ! = dm_odm - > BbSwingIdxCck ) {
dm_odm - > BbSwingIdxCckCurrent = dm_odm - > BbSwingIdxCck ;
dm_odm - > BbSwingFlagCck = true ;
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}
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if ( X ! = 0 ) {
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if ( ( X & 0x00000200 ) ! = 0 )
X = X | 0xFFFFFC00 ;
ele_A = ( ( X * ele_D ) > > 8 ) & 0x000003FF ;
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/* new element C = element D x Y */
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if ( ( Y & 0x00000200 ) ! = 0 )
Y = Y | 0xFFFFFC00 ;
ele_C = ( ( Y * ele_D ) > > 8 ) & 0x000003FF ;
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/* 2012/04/23 MH According to Luke's suggestion, we can not write BB digital */
/* to increase TX power. Otherwise, EVM will be bad. */
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " TxPwrTracking for path A: X=0x%x, Y=0x%x ele_A=0x%x ele_C=0x%x ele_D=0x%x 0xe94=0x%x 0xe9c=0x%x \n " ,
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( u32 ) X , ( u32 ) Y , ( u32 ) ele_A , ( u32 ) ele_C , ( u32 ) ele_D , ( u32 ) X , ( u32 ) Y ) ) ;
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if ( is2t ) {
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ele_D = ( OFDMSwingTable [ ( u8 ) OFDM_index [ 1 ] ] & 0xFFC00000 ) > > 22 ;
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/* new element A = element D x X */
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X = dm_odm - > RFCalibrateInfo . IQKMatrixRegSetting [ Indexforchannel ] . Value [ 0 ] [ 4 ] ;
Y = dm_odm - > RFCalibrateInfo . IQKMatrixRegSetting [ Indexforchannel ] . Value [ 0 ] [ 5 ] ;
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if ( ( X ! = 0 ) & & ( * ( dm_odm - > pBandType ) = = ODM_BAND_2_4G ) ) {
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if ( ( X & 0x00000200 ) ! = 0 ) /* consider minus */
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X = X | 0xFFFFFC00 ;
ele_A = ( ( X * ele_D ) > > 8 ) & 0x000003FF ;
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/* new element C = element D x Y */
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if ( ( Y & 0x00000200 ) ! = 0 )
Y = Y | 0xFFFFFC00 ;
ele_C = ( ( Y * ele_D ) > > 8 ) & 0x00003FF ;
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/* wtite new elements A, C, D to regC88 and regC9C, element B is always 0 */
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value32 = ( ele_D < < 22 ) | ( ( ele_C & 0x3F ) < < 16 ) | ele_A ;
ODM_SetBBReg ( dm_odm , rOFDM0_XBTxIQImbalance , bMaskDWord , value32 ) ;
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value32 = ( ele_C & 0x000003C0 ) > > 6 ;
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ODM_SetBBReg ( dm_odm , rOFDM0_XDTxAFE , bMaskH4Bits , value32 ) ;
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value32 = ( ( X * ele_D ) > > 7 ) & 0x01 ;
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ODM_SetBBReg ( dm_odm , rOFDM0_ECCAThreshold , BIT28 , value32 ) ;
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} else {
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ODM_SetBBReg ( dm_odm , rOFDM0_XBTxIQImbalance , bMaskDWord , OFDMSwingTable [ ( u8 ) OFDM_index [ 1 ] ] ) ;
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ODM_SetBBReg ( dm_odm , rOFDM0_XDTxAFE , bMaskH4Bits , 0x00 ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_ECCAThreshold , BIT28 , 0x00 ) ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " TxPwrTracking path B: X=0x%x, Y=0x%x ele_A=0x%x ele_C=0x%x ele_D=0x%x 0xeb4=0x%x 0xebc=0x%x \n " ,
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( u32 ) X , ( u32 ) Y , ( u32 ) ele_A ,
( u32 ) ele_C , ( u32 ) ele_D , ( u32 ) X , ( u32 ) Y ) ) ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " TxPwrTracking 0xc80 = 0x%x, 0xc94 = 0x%x RF 0x24 = 0x%x \n " ,
ODM_GetBBReg ( dm_odm , 0xc80 , bMaskDWord ) , ODM_GetBBReg ( dm_odm ,
0xc94 , bMaskDWord ) , ODM_GetRFReg ( dm_odm , RF_PATH_A , 0x24 , bRFRegOffsetMask ) ) ) ;
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}
}
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if ( delta_IQK > = 8 ) { /* Delta temperature is equal to or larger than 20 centigrade. */
ODM_ResetIQKResult ( dm_odm ) ;
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dm_odm - > RFCalibrateInfo . ThermalValue_IQK = ThermalValue ;
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PHY_IQCalibrate_8188E ( Adapter , false ) ;
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}
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/* update thermal meter value */
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if ( dm_odm - > RFCalibrateInfo . TxPowerTrackControl )
dm_odm - > RFCalibrateInfo . ThermalValue = ThermalValue ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " <===dm_TXPowerTrackingCallback_ThermalMeter_8188E \n " ) ) ;
dm_odm - > RFCalibrateInfo . TXPowercount = 0 ;
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}
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/* 1 7. IQK */
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# define MAX_TOLERANCE 5
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# define IQK_DELAY_TIME 1 /* ms */
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static u8 /* bit0 = 1 => Tx OK, bit1 = 1 => Rx OK */
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phy_PathA_IQK_8188E ( struct adapter * adapt , bool configPathB )
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{
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u32 regeac , regE94 , regE9C , regEA4 ;
u8 result = 0x00 ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path A IQK! \n " ) ) ;
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/* 1 Tx IQK */
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/* path-A IQK setting */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path-A IQK setting! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rTx_IQK_Tone_A , bMaskDWord , 0x10008c1c ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_Tone_A , bMaskDWord , 0x30008c1c ) ;
ODM_SetBBReg ( dm_odm , rTx_IQK_PI_A , bMaskDWord , 0x8214032a ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_PI_A , bMaskDWord , 0x28160000 ) ;
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/* LO calibration setting */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " LO calibration setting! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Rsp , bMaskDWord , 0x00462911 ) ;
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/* One shot, path A LOK & IQK */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " One shot, path A LOK & IQK! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Pts , bMaskDWord , 0xf9000000 ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Pts , bMaskDWord , 0xf8000000 ) ;
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/* delay x ms */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Delay %d ms for One shot, path A LOK & IQK. \n " , IQK_DELAY_TIME_88E ) ) ;
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/* PlatformStallExecution(IQK_DELAY_TIME_88E*1000); */
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ODM_delay_ms ( IQK_DELAY_TIME_88E ) ;
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/* Check failed */
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regeac = ODM_GetBBReg ( dm_odm , rRx_Power_After_IQK_A_2 , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xeac = 0x%x \n " , regeac ) ) ;
regE94 = ODM_GetBBReg ( dm_odm , rTx_Power_Before_IQK_A , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xe94 = 0x%x \n " , regE94 ) ) ;
regE9C = ODM_GetBBReg ( dm_odm , rTx_Power_After_IQK_A , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xe9c = 0x%x \n " , regE9C ) ) ;
regEA4 = ODM_GetBBReg ( dm_odm , rRx_Power_Before_IQK_A_2 , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xea4 = 0x%x \n " , regEA4 ) ) ;
if ( ! ( regeac & BIT28 ) & &
( ( ( regE94 & 0x03FF0000 ) > > 16 ) ! = 0x142 ) & &
( ( ( regE9C & 0x03FF0000 ) > > 16 ) ! = 0x42 ) )
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result | = 0x01 ;
return result ;
}
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static u8 /* bit0 = 1 => Tx OK, bit1 = 1 => Rx OK */
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phy_PathA_RxIQK ( struct adapter * adapt , bool configPathB )
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{
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u32 regeac , regE94 , regE9C , regEA4 , u4tmp ;
u8 result = 0x00 ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path A Rx IQK! \n " ) ) ;
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/* 1 Get TXIMR setting */
/* modify RXIQK mode table */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path-A Rx IQK modify RXIQK mode table! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x00000000 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_WE_LUT , bRFRegOffsetMask , 0x800a0 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_RCK_OS , bRFRegOffsetMask , 0x30000 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_TXPA_G1 , bRFRegOffsetMask , 0x0000f ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_TXPA_G2 , bRFRegOffsetMask , 0xf117B ) ;
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/* PA,PAD off */
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ODM_SetRFReg ( dm_odm , RF_PATH_A , 0xdf , bRFRegOffsetMask , 0x980 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , 0x56 , bRFRegOffsetMask , 0x51000 ) ;
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x80800000 ) ;
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/* IQK setting */
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ODM_SetBBReg ( dm_odm , rTx_IQK , bMaskDWord , 0x01007c00 ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK , bMaskDWord , 0x81004800 ) ;
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/* path-A IQK setting */
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ODM_SetBBReg ( dm_odm , rTx_IQK_Tone_A , bMaskDWord , 0x10008c1c ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_Tone_A , bMaskDWord , 0x30008c1c ) ;
ODM_SetBBReg ( dm_odm , rTx_IQK_PI_A , bMaskDWord , 0x82160c1f ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_PI_A , bMaskDWord , 0x28160000 ) ;
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/* LO calibration setting */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " LO calibration setting! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Rsp , bMaskDWord , 0x0046a911 ) ;
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/* One shot, path A LOK & IQK */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " One shot, path A LOK & IQK! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Pts , bMaskDWord , 0xf9000000 ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Pts , bMaskDWord , 0xf8000000 ) ;
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/* delay x ms */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Delay %d ms for One shot, path A LOK & IQK. \n " ,
IQK_DELAY_TIME_88E ) ) ;
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ODM_delay_ms ( IQK_DELAY_TIME_88E ) ;
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/* Check failed */
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regeac = ODM_GetBBReg ( dm_odm , rRx_Power_After_IQK_A_2 , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " 0xeac = 0x%x \n " , regeac ) ) ;
regE94 = ODM_GetBBReg ( dm_odm , rTx_Power_Before_IQK_A , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " 0xe94 = 0x%x \n " , regE94 ) ) ;
regE9C = ODM_GetBBReg ( dm_odm , rTx_Power_After_IQK_A , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " 0xe9c = 0x%x \n " , regE9C ) ) ;
if ( ! ( regeac & BIT28 ) & &
( ( ( regE94 & 0x03FF0000 ) > > 16 ) ! = 0x142 ) & &
( ( ( regE9C & 0x03FF0000 ) > > 16 ) ! = 0x42 ) )
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result | = 0x01 ;
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else /* if Tx not OK, ignore Rx */
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return result ;
u4tmp = 0x80007C00 | ( regE94 & 0x3FF0000 ) | ( ( regE9C & 0x3FF0000 ) > > 16 ) ;
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ODM_SetBBReg ( dm_odm , rTx_IQK , bMaskDWord , u4tmp ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xe40 = 0x%x u4tmp = 0x%x \n " , ODM_GetBBReg ( dm_odm , rTx_IQK , bMaskDWord ) , u4tmp ) ) ;
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/* 1 RX IQK */
/* modify RXIQK mode table */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path-A Rx IQK modify RXIQK mode table 2! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x00000000 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_WE_LUT , bRFRegOffsetMask , 0x800a0 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_RCK_OS , bRFRegOffsetMask , 0x30000 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_TXPA_G1 , bRFRegOffsetMask , 0x0000f ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_TXPA_G2 , bRFRegOffsetMask , 0xf7ffa ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x80800000 ) ;
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/* IQK setting */
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ODM_SetBBReg ( dm_odm , rRx_IQK , bMaskDWord , 0x01004800 ) ;
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/* path-A IQK setting */
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ODM_SetBBReg ( dm_odm , rTx_IQK_Tone_A , bMaskDWord , 0x38008c1c ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_Tone_A , bMaskDWord , 0x18008c1c ) ;
ODM_SetBBReg ( dm_odm , rTx_IQK_PI_A , bMaskDWord , 0x82160c05 ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_PI_A , bMaskDWord , 0x28160c1f ) ;
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/* LO calibration setting */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " LO calibration setting! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Rsp , bMaskDWord , 0x0046a911 ) ;
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/* One shot, path A LOK & IQK */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " One shot, path A LOK & IQK! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Pts , bMaskDWord , 0xf9000000 ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Pts , bMaskDWord , 0xf8000000 ) ;
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/* delay x ms */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Delay %d ms for One shot, path A LOK & IQK. \n " , IQK_DELAY_TIME_88E ) ) ;
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/* PlatformStallExecution(IQK_DELAY_TIME_88E*1000); */
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ODM_delay_ms ( IQK_DELAY_TIME_88E ) ;
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/* Check failed */
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regeac = ODM_GetBBReg ( dm_odm , rRx_Power_After_IQK_A_2 , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xeac = 0x%x \n " , regeac ) ) ;
regE94 = ODM_GetBBReg ( dm_odm , rTx_Power_Before_IQK_A , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xe94 = 0x%x \n " , regE94 ) ) ;
regE9C = ODM_GetBBReg ( dm_odm , rTx_Power_After_IQK_A , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xe9c = 0x%x \n " , regE9C ) ) ;
regEA4 = ODM_GetBBReg ( dm_odm , rRx_Power_Before_IQK_A_2 , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " 0xea4 = 0x%x \n " , regEA4 ) ) ;
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/* reload RF 0xdf */
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x00000000 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , 0xdf , bRFRegOffsetMask , 0x180 ) ;
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if ( ! ( regeac & BIT27 ) & & /* if Tx is OK, check whether Rx is OK */
( ( ( regEA4 & 0x03FF0000 ) > > 16 ) ! = 0x132 ) & &
( ( ( regeac & 0x03FF0000 ) > > 16 ) ! = 0x36 ) )
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result | = 0x02 ;
else
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path A Rx IQK fail!! \n " ) ) ;
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return result ;
}
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static u8 /* bit0 = 1 => Tx OK, bit1 = 1 => Rx OK */
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phy_PathB_IQK_8188E ( struct adapter * adapt )
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{
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u32 regeac , regeb4 , regebc , regec4 , regecc ;
u8 result = 0x00 ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path B IQK! \n " ) ) ;
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/* One shot, path B LOK & IQK */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " One shot, path A LOK & IQK! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Cont , bMaskDWord , 0x00000002 ) ;
ODM_SetBBReg ( dm_odm , rIQK_AGC_Cont , bMaskDWord , 0x00000000 ) ;
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/* delay x ms */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Delay %d ms for One shot, path B LOK & IQK. \n " ,
IQK_DELAY_TIME_88E ) ) ;
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ODM_delay_ms ( IQK_DELAY_TIME_88E ) ;
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/* Check failed */
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regeac = ODM_GetBBReg ( dm_odm , rRx_Power_After_IQK_A_2 , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " 0xeac = 0x%x \n " , regeac ) ) ;
regeb4 = ODM_GetBBReg ( dm_odm , rTx_Power_Before_IQK_B , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " 0xeb4 = 0x%x \n " , regeb4 ) ) ;
regebc = ODM_GetBBReg ( dm_odm , rTx_Power_After_IQK_B , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " 0xebc = 0x%x \n " , regebc ) ) ;
regec4 = ODM_GetBBReg ( dm_odm , rRx_Power_Before_IQK_B_2 , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " 0xec4 = 0x%x \n " , regec4 ) ) ;
regecc = ODM_GetBBReg ( dm_odm , rRx_Power_After_IQK_B_2 , bMaskDWord ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " 0xecc = 0x%x \n " , regecc ) ) ;
if ( ! ( regeac & BIT31 ) & &
( ( ( regeb4 & 0x03FF0000 ) > > 16 ) ! = 0x142 ) & &
( ( ( regebc & 0x03FF0000 ) > > 16 ) ! = 0x42 ) )
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result | = 0x01 ;
else
return result ;
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if ( ! ( regeac & BIT30 ) & &
( ( ( regec4 & 0x03FF0000 ) > > 16 ) ! = 0x132 ) & &
( ( ( regecc & 0x03FF0000 ) > > 16 ) ! = 0x36 ) )
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result | = 0x02 ;
else
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path B Rx IQK fail!! \n " ) ) ;
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return result ;
}
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static void patha_fill_iqk ( struct adapter * adapt , bool iqkok , s32 result [ ] [ 8 ] , u8 final_candidate , bool txonly )
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{
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u32 Oldval_0 , X , TX0_A , reg ;
s32 Y , TX0_C ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Path A IQ Calibration %s ! \n " ,
( iqkok ) ? " Success " : " Failed " ) ) ;
if ( final_candidate = = 0xFF ) {
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return ;
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} else if ( iqkok ) {
Oldval_0 = ( ODM_GetBBReg ( dm_odm , rOFDM0_XATxIQImbalance , bMaskDWord ) > > 22 ) & 0x3FF ;
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X = result [ final_candidate ] [ 0 ] ;
if ( ( X & 0x00000200 ) ! = 0 )
X = X | 0xFFFFFC00 ;
TX0_A = ( X * Oldval_0 ) > > 8 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " X = 0x%x, TX0_A = 0x%x, Oldval_0 0x%x \n " ,
X , TX0_A , Oldval_0 ) ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_XATxIQImbalance , 0x3FF , TX0_A ) ;
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ODM_SetBBReg ( dm_odm , rOFDM0_ECCAThreshold , BIT ( 31 ) , ( ( X * Oldval_0 > > 7 ) & 0x1 ) ) ;
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Y = result [ final_candidate ] [ 1 ] ;
if ( ( Y & 0x00000200 ) ! = 0 )
Y = Y | 0xFFFFFC00 ;
TX0_C = ( Y * Oldval_0 ) > > 8 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Y = 0x%x, TX = 0x%x \n " , Y , TX0_C ) ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_XCTxAFE , 0xF0000000 , ( ( TX0_C & 0x3C0 ) > > 6 ) ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_XATxIQImbalance , 0x003F0000 , ( TX0_C & 0x3F ) ) ;
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ODM_SetBBReg ( dm_odm , rOFDM0_ECCAThreshold , BIT ( 29 ) , ( ( Y * Oldval_0 > > 7 ) & 0x1 ) ) ;
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if ( txonly ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " patha_fill_iqk only Tx OK \n " ) ) ;
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return ;
}
reg = result [ final_candidate ] [ 2 ] ;
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ODM_SetBBReg ( dm_odm , rOFDM0_XARxIQImbalance , 0x3FF , reg ) ;
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reg = result [ final_candidate ] [ 3 ] & 0x3F ;
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ODM_SetBBReg ( dm_odm , rOFDM0_XARxIQImbalance , 0xFC00 , reg ) ;
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reg = ( result [ final_candidate ] [ 3 ] > > 6 ) & 0xF ;
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ODM_SetBBReg ( dm_odm , rOFDM0_RxIQExtAnta , 0xF0000000 , reg ) ;
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}
}
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static void pathb_fill_iqk ( struct adapter * adapt , bool iqkok , s32 result [ ] [ 8 ] , u8 final_candidate , bool txonly )
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{
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u32 Oldval_1 , X , TX1_A , reg ;
s32 Y , TX1_C ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " Path B IQ Calibration %s ! \n " ,
( iqkok ) ? " Success " : " Failed " ) ) ;
if ( final_candidate = = 0xFF ) {
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return ;
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} else if ( iqkok ) {
Oldval_1 = ( ODM_GetBBReg ( dm_odm , rOFDM0_XBTxIQImbalance , bMaskDWord ) > > 22 ) & 0x3FF ;
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X = result [ final_candidate ] [ 4 ] ;
if ( ( X & 0x00000200 ) ! = 0 )
X = X | 0xFFFFFC00 ;
TX1_A = ( X * Oldval_1 ) > > 8 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " X = 0x%x, TX1_A = 0x%x \n " , X , TX1_A ) ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_XBTxIQImbalance , 0x3FF , TX1_A ) ;
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ODM_SetBBReg ( dm_odm , rOFDM0_ECCAThreshold , BIT ( 27 ) , ( ( X * Oldval_1 > > 7 ) & 0x1 ) ) ;
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Y = result [ final_candidate ] [ 5 ] ;
if ( ( Y & 0x00000200 ) ! = 0 )
Y = Y | 0xFFFFFC00 ;
TX1_C = ( Y * Oldval_1 ) > > 8 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Y = 0x%x, TX1_C = 0x%x \n " , Y , TX1_C ) ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_XDTxAFE , 0xF0000000 , ( ( TX1_C & 0x3C0 ) > > 6 ) ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_XBTxIQImbalance , 0x003F0000 , ( TX1_C & 0x3F ) ) ;
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ODM_SetBBReg ( dm_odm , rOFDM0_ECCAThreshold , BIT ( 25 ) , ( ( Y * Oldval_1 > > 7 ) & 0x1 ) ) ;
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if ( txonly )
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return ;
reg = result [ final_candidate ] [ 6 ] ;
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ODM_SetBBReg ( dm_odm , rOFDM0_XBRxIQImbalance , 0x3FF , reg ) ;
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reg = result [ final_candidate ] [ 7 ] & 0x3F ;
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ODM_SetBBReg ( dm_odm , rOFDM0_XBRxIQImbalance , 0xFC00 , reg ) ;
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reg = ( result [ final_candidate ] [ 7 ] > > 6 ) & 0xF ;
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ODM_SetBBReg ( dm_odm , rOFDM0_AGCRSSITable , 0x0000F000 , reg ) ;
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}
}
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/* */
/* 2011/07/26 MH Add an API for testing IQK fail case. */
/* */
/* MP Already declare in odm.c */
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static bool ODM_CheckPowerStatus ( struct adapter * Adapter )
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{
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return true ;
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}
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void _PHY_SaveADDARegisters ( struct adapter * adapt , u32 * ADDAReg , u32 * ADDABackup , u32 RegisterNum )
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{
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u32 i ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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if ( ODM_CheckPowerStatus ( adapt ) = = false )
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return ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Save ADDA parameters. \n " ) ) ;
for ( i = 0 ; i < RegisterNum ; i + + ) {
ADDABackup [ i ] = ODM_GetBBReg ( dm_odm , ADDAReg [ i ] , bMaskDWord ) ;
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}
}
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static void _PHY_SaveMACRegisters (
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struct adapter * adapt ,
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u32 * MACReg ,
u32 * MACBackup
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)
{
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u32 i ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Save MAC parameters. \n " ) ) ;
for ( i = 0 ; i < ( IQK_MAC_REG_NUM - 1 ) ; i + + ) {
MACBackup [ i ] = ODM_Read1Byte ( dm_odm , MACReg [ i ] ) ;
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}
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MACBackup [ i ] = ODM_Read4Byte ( dm_odm , MACReg [ i ] ) ;
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}
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static void reload_adda_reg ( struct adapter * adapt , u32 * ADDAReg , u32 * ADDABackup , u32 RegiesterNum )
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{
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u32 i ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Reload ADDA power saving parameters ! \n " ) ) ;
for ( i = 0 ; i < RegiesterNum ; i + + )
ODM_SetBBReg ( dm_odm , ADDAReg [ i ] , bMaskDWord , ADDABackup [ i ] ) ;
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}
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static void
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_PHY_ReloadMACRegisters (
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struct adapter * adapt ,
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u32 * MACReg ,
u32 * MACBackup
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)
{
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u32 i ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Reload MAC parameters ! \n " ) ) ;
for ( i = 0 ; i < ( IQK_MAC_REG_NUM - 1 ) ; i + + ) {
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ODM_Write1Byte ( dm_odm , MACReg [ i ] , ( u8 ) MACBackup [ i ] ) ;
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}
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ODM_Write4Byte ( dm_odm , MACReg [ i ] , MACBackup [ i ] ) ;
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}
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void
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_PHY_PathADDAOn (
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struct adapter * adapt ,
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u32 * ADDAReg ,
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bool isPathAOn ,
bool is2t
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)
{
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u32 pathOn ;
u32 i ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ADDA ON. \n " ) ) ;
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pathOn = isPathAOn ? 0x04db25a4 : 0x0b1b25a4 ;
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if ( false = = is2t ) {
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pathOn = 0x0bdb25a0 ;
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ODM_SetBBReg ( dm_odm , ADDAReg [ 0 ] , bMaskDWord , 0x0b1b25a0 ) ;
} else {
ODM_SetBBReg ( dm_odm , ADDAReg [ 0 ] , bMaskDWord , pathOn ) ;
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}
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for ( i = 1 ; i < IQK_ADDA_REG_NUM ; i + + )
ODM_SetBBReg ( dm_odm , ADDAReg [ i ] , bMaskDWord , pathOn ) ;
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}
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void
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_PHY_MACSettingCalibration (
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struct adapter * adapt ,
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u32 * MACReg ,
u32 * MACBackup
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)
{
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u32 i = 0 ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " MAC settings for Calibration. \n " ) ) ;
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ODM_Write1Byte ( dm_odm , MACReg [ i ] , 0x3F ) ;
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for ( i = 1 ; i < ( IQK_MAC_REG_NUM - 1 ) ; i + + ) {
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ODM_Write1Byte ( dm_odm , MACReg [ i ] , ( u8 ) ( MACBackup [ i ] & ( ~ BIT3 ) ) ) ;
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}
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ODM_Write1Byte ( dm_odm , MACReg [ i ] , ( u8 ) ( MACBackup [ i ] & ( ~ BIT5 ) ) ) ;
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}
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void
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_PHY_PathAStandBy (
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struct adapter * adapt
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)
{
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path-A standby mode! \n " ) ) ;
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x0 ) ;
ODM_SetBBReg ( dm_odm , 0x840 , bMaskDWord , 0x00010000 ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x80800000 ) ;
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}
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static void _PHY_PIModeSwitch (
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struct adapter * adapt ,
bool PIMode
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)
{
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u32 mode ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " BB Switch to %s mode! \n " , ( PIMode ? " PI " : " SI " ) ) ) ;
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mode = PIMode ? 0x01000100 : 0x01000000 ;
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ODM_SetBBReg ( dm_odm , rFPGA0_XA_HSSIParameter1 , bMaskDWord , mode ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_XB_HSSIParameter1 , bMaskDWord , mode ) ;
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}
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static bool phy_SimularityCompare_8188E (
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struct adapter * adapt ,
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s32 resulta [ ] [ 8 ] ,
u8 c1 ,
u8 c2
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)
{
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u32 i , j , diff , sim_bitmap , bound = 0 ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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u8 final_candidate [ 2 ] = { 0xFF , 0xFF } ; /* for path A and path B */
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bool result = true ;
bool is2t ;
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s32 tmp1 = 0 , tmp2 = 0 ;
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if ( ( dm_odm - > RFType = = ODM_2T2R ) | | ( dm_odm - > RFType = = ODM_2T3R ) | | ( dm_odm - > RFType = = ODM_2T4R ) )
is2t = true ;
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else
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is2t = false ;
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if ( is2t )
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bound = 8 ;
else
bound = 4 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ===> IQK:phy_SimularityCompare_8188E c1 %d c2 %d!!! \n " , c1 , c2 ) ) ;
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sim_bitmap = 0 ;
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for ( i = 0 ; i < bound ; i + + ) {
if ( ( i = = 1 ) | | ( i = = 3 ) | | ( i = = 5 ) | | ( i = = 7 ) ) {
if ( ( resulta [ c1 ] [ i ] & 0x00000200 ) ! = 0 )
tmp1 = resulta [ c1 ] [ i ] | 0xFFFFFC00 ;
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else
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tmp1 = resulta [ c1 ] [ i ] ;
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if ( ( resulta [ c2 ] [ i ] & 0x00000200 ) ! = 0 )
tmp2 = resulta [ c2 ] [ i ] | 0xFFFFFC00 ;
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else
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tmp2 = resulta [ c2 ] [ i ] ;
} else {
tmp1 = resulta [ c1 ] [ i ] ;
tmp2 = resulta [ c2 ] [ i ] ;
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}
diff = ( tmp1 > tmp2 ) ? ( tmp1 - tmp2 ) : ( tmp2 - tmp1 ) ;
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if ( diff > MAX_TOLERANCE ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " IQK:phy_SimularityCompare_8188E differnece overflow index %d compare1 0x%x compare2 0x%x!!! \n " ,
i , resulta [ c1 ] [ i ] , resulta [ c2 ] [ i ] ) ) ;
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if ( ( i = = 2 | | i = = 6 ) & & ! sim_bitmap ) {
if ( resulta [ c1 ] [ i ] + resulta [ c1 ] [ i + 1 ] = = 0 )
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final_candidate [ ( i / 4 ) ] = c2 ;
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else if ( resulta [ c2 ] [ i ] + resulta [ c2 ] [ i + 1 ] = = 0 )
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final_candidate [ ( i / 4 ) ] = c1 ;
else
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sim_bitmap = sim_bitmap | ( 1 < < i ) ;
} else {
sim_bitmap = sim_bitmap | ( 1 < < i ) ;
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}
}
}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK:phy_SimularityCompare_8188E sim_bitmap %d !!! \n " , sim_bitmap ) ) ;
if ( sim_bitmap = = 0 ) {
for ( i = 0 ; i < ( bound / 4 ) ; i + + ) {
if ( final_candidate [ i ] ! = 0xFF ) {
for ( j = i * 4 ; j < ( i + 1 ) * 4 - 2 ; j + + )
resulta [ 3 ] [ j ] = resulta [ final_candidate [ i ] ] [ j ] ;
result = false ;
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}
}
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return result ;
} else {
if ( ! ( sim_bitmap & 0x03 ) ) { /* path A TX OK */
for ( i = 0 ; i < 2 ; i + + )
resulta [ 3 ] [ i ] = resulta [ c1 ] [ i ] ;
}
if ( ! ( sim_bitmap & 0x0c ) ) { /* path A RX OK */
for ( i = 2 ; i < 4 ; i + + )
resulta [ 3 ] [ i ] = resulta [ c1 ] [ i ] ;
}
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if ( ! ( sim_bitmap & 0x30 ) ) { /* path B TX OK */
for ( i = 4 ; i < 6 ; i + + )
resulta [ 3 ] [ i ] = resulta [ c1 ] [ i ] ;
}
if ( ! ( sim_bitmap & 0xc0 ) ) { /* path B RX OK */
for ( i = 6 ; i < 8 ; i + + )
resulta [ 3 ] [ i ] = resulta [ c1 ] [ i ] ;
}
return false ;
}
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}
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static void phy_IQCalibrate_8188E ( struct adapter * adapt , s32 result [ ] [ 8 ] , u8 t , bool is2t )
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{
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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u32 i ;
u8 PathAOK , PathBOK ;
u32 ADDA_REG [ IQK_ADDA_REG_NUM ] = {
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rFPGA0_XCD_SwitchControl , rBlue_Tooth ,
rRx_Wait_CCA , rTx_CCK_RFON ,
rTx_CCK_BBON , rTx_OFDM_RFON ,
rTx_OFDM_BBON , rTx_To_Rx ,
rTx_To_Tx , rRx_CCK ,
rRx_OFDM , rRx_Wait_RIFS ,
rRx_TO_Rx , rStandby ,
rSleep , rPMPD_ANAEN } ;
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u32 IQK_MAC_REG [ IQK_MAC_REG_NUM ] = {
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REG_TXPAUSE , REG_BCN_CTRL ,
REG_BCN_CTRL_1 , REG_GPIO_MUXCFG } ;
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/* since 92C & 92D have the different define in IQK_BB_REG */
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u32 IQK_BB_REG_92C [ IQK_BB_REG_NUM ] = {
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rOFDM0_TRxPathEnable , rOFDM0_TRMuxPar ,
rFPGA0_XCD_RFInterfaceSW , rConfig_AntA , rConfig_AntB ,
rFPGA0_XAB_RFInterfaceSW , rFPGA0_XA_RFInterfaceOE ,
rFPGA0_XB_RFInterfaceOE , rFPGA0_RFMOD
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} ;
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u32 retryCount = 9 ;
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if ( * ( dm_odm - > mp_mode ) = = 1 )
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retryCount = 9 ;
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else
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retryCount = 2 ;
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/* Note: IQ calibration must be performed after loading */
/* PHY_REG.txt , and radio_a, radio_b.txt */
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if ( t = = 0 ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQ Calibration for %s for %d times \n " , ( is2t ? " 2T2R " : " 1T1R " ) , t ) ) ;
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/* Save ADDA parameters, turn Path A ADDA on */
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_PHY_SaveADDARegisters ( adapt , ADDA_REG , dm_odm - > RFCalibrateInfo . ADDA_backup , IQK_ADDA_REG_NUM ) ;
_PHY_SaveMACRegisters ( adapt , IQK_MAC_REG , dm_odm - > RFCalibrateInfo . IQK_MAC_backup ) ;
_PHY_SaveADDARegisters ( adapt , IQK_BB_REG_92C , dm_odm - > RFCalibrateInfo . IQK_BB_backup , IQK_BB_REG_NUM ) ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQ Calibration for %s for %d times \n " , ( is2t ? " 2T2R " : " 1T1R " ) , t ) ) ;
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_PHY_PathADDAOn ( adapt , ADDA_REG , true , is2t ) ;
if ( t = = 0 )
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dm_odm - > RFCalibrateInfo . bRfPiEnable = ( u8 ) ODM_GetBBReg ( dm_odm , rFPGA0_XA_HSSIParameter1 , BIT ( 8 ) ) ;
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if ( ! dm_odm - > RFCalibrateInfo . bRfPiEnable ) {
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/* Switch BB to PI mode to do IQ Calibration. */
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_PHY_PIModeSwitch ( adapt , true ) ;
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}
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/* BB setting */
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ODM_SetBBReg ( dm_odm , rFPGA0_RFMOD , BIT24 , 0x00 ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_TRxPathEnable , bMaskDWord , 0x03a05600 ) ;
ODM_SetBBReg ( dm_odm , rOFDM0_TRMuxPar , bMaskDWord , 0x000800e4 ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_XCD_RFInterfaceSW , bMaskDWord , 0x22204000 ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_XAB_RFInterfaceSW , BIT10 , 0x01 ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_XAB_RFInterfaceSW , BIT26 , 0x01 ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_XA_RFInterfaceOE , BIT10 , 0x00 ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_XB_RFInterfaceOE , BIT10 , 0x00 ) ;
if ( is2t ) {
ODM_SetBBReg ( dm_odm , rFPGA0_XA_LSSIParameter , bMaskDWord , 0x00010000 ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_XB_LSSIParameter , bMaskDWord , 0x00010000 ) ;
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}
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/* MAC settings */
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_PHY_MACSettingCalibration ( adapt , IQK_MAC_REG , dm_odm - > RFCalibrateInfo . IQK_MAC_backup ) ;
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/* Page B init */
/* AP or IQK */
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ODM_SetBBReg ( dm_odm , rConfig_AntA , bMaskDWord , 0x0f600000 ) ;
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if ( is2t )
ODM_SetBBReg ( dm_odm , rConfig_AntB , bMaskDWord , 0x0f600000 ) ;
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/* IQ calibration setting */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK setting! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x80800000 ) ;
ODM_SetBBReg ( dm_odm , rTx_IQK , bMaskDWord , 0x01007c00 ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK , bMaskDWord , 0x81004800 ) ;
for ( i = 0 ; i < retryCount ; i + + ) {
PathAOK = phy_PathA_IQK_8188E ( adapt , is2t ) ;
if ( PathAOK = = 0x01 ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path A Tx IQK Success!! \n " ) ) ;
result [ t ] [ 0 ] = ( ODM_GetBBReg ( dm_odm , rTx_Power_Before_IQK_A , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
result [ t ] [ 1 ] = ( ODM_GetBBReg ( dm_odm , rTx_Power_After_IQK_A , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
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break ;
}
}
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for ( i = 0 ; i < retryCount ; i + + ) {
PathAOK = phy_PathA_RxIQK ( adapt , is2t ) ;
if ( PathAOK = = 0x03 ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path A Rx IQK Success!! \n " ) ) ;
result [ t ] [ 2 ] = ( ODM_GetBBReg ( dm_odm , rRx_Power_Before_IQK_A_2 , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
result [ t ] [ 3 ] = ( ODM_GetBBReg ( dm_odm , rRx_Power_After_IQK_A_2 , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
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break ;
} else {
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path A Rx IQK Fail!! \n " ) ) ;
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}
}
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if ( 0x00 = = PathAOK ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path A IQK failed!! \n " ) ) ;
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}
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if ( is2t ) {
_PHY_PathAStandBy ( adapt ) ;
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/* Turn Path B ADDA on */
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_PHY_PathADDAOn ( adapt , ADDA_REG , false , is2t ) ;
for ( i = 0 ; i < retryCount ; i + + ) {
PathBOK = phy_PathB_IQK_8188E ( adapt ) ;
if ( PathBOK = = 0x03 ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path B IQK Success!! \n " ) ) ;
result [ t ] [ 4 ] = ( ODM_GetBBReg ( dm_odm , rTx_Power_Before_IQK_B , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
result [ t ] [ 5 ] = ( ODM_GetBBReg ( dm_odm , rTx_Power_After_IQK_B , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
result [ t ] [ 6 ] = ( ODM_GetBBReg ( dm_odm , rRx_Power_Before_IQK_B_2 , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
result [ t ] [ 7 ] = ( ODM_GetBBReg ( dm_odm , rRx_Power_After_IQK_B_2 , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
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break ;
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} else if ( i = = ( retryCount - 1 ) & & PathBOK = = 0x01 ) { /* Tx IQK OK */
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path B Only Tx IQK Success!! \n " ) ) ;
result [ t ] [ 4 ] = ( ODM_GetBBReg ( dm_odm , rTx_Power_Before_IQK_B , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
result [ t ] [ 5 ] = ( ODM_GetBBReg ( dm_odm , rTx_Power_After_IQK_B , bMaskDWord ) & 0x3FF0000 ) > > 16 ;
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}
}
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if ( 0x00 = = PathBOK ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " Path B IQK failed!! \n " ) ) ;
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}
}
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/* Back to BB mode, load original value */
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK:Back to BB mode, load original value! \n " ) ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0 ) ;
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if ( t ! = 0 ) {
if ( ! dm_odm - > RFCalibrateInfo . bRfPiEnable ) {
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/* Switch back BB to SI mode after finish IQ Calibration. */
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_PHY_PIModeSwitch ( adapt , false ) ;
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}
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/* Reload ADDA power saving parameters */
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reload_adda_reg ( adapt , ADDA_REG , dm_odm - > RFCalibrateInfo . ADDA_backup , IQK_ADDA_REG_NUM ) ;
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/* Reload MAC parameters */
2013-08-06 20:24:06 +00:00
_PHY_ReloadMACRegisters ( adapt , IQK_MAC_REG , dm_odm - > RFCalibrateInfo . IQK_MAC_backup ) ;
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reload_adda_reg ( adapt , IQK_BB_REG_92C , dm_odm - > RFCalibrateInfo . IQK_BB_backup , IQK_BB_REG_NUM ) ;
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/* Restore RX initial gain */
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ODM_SetBBReg ( dm_odm , rFPGA0_XA_LSSIParameter , bMaskDWord , 0x00032ed3 ) ;
if ( is2t )
ODM_SetBBReg ( dm_odm , rFPGA0_XB_LSSIParameter , bMaskDWord , 0x00032ed3 ) ;
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/* load 0xe30 IQC default value */
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ODM_SetBBReg ( dm_odm , rTx_IQK_Tone_A , bMaskDWord , 0x01008c00 ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_Tone_A , bMaskDWord , 0x01008c00 ) ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " phy_IQCalibrate_8188E() <== \n " ) ) ;
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}
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static void phy_LCCalibrate_8188E ( struct adapter * adapt , bool is2t )
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{
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u8 tmpreg ;
u32 RF_Amode = 0 , RF_Bmode = 0 , LC_Cal ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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/* Check continuous TX and Packet TX */
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tmpreg = ODM_Read1Byte ( dm_odm , 0xd03 ) ;
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if ( ( tmpreg & 0x70 ) ! = 0 ) /* Deal with contisuous TX case */
ODM_Write1Byte ( dm_odm , 0xd03 , tmpreg & 0x8F ) ; /* disable all continuous TX */
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else /* Deal with Packet TX case */
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ODM_Write1Byte ( dm_odm , REG_TXPAUSE , 0xFF ) ; /* block all queues */
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if ( ( tmpreg & 0x70 ) ! = 0 ) {
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/* 1. Read original RF mode */
/* Path-A */
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RF_Amode = PHY_QueryRFReg ( adapt , RF_PATH_A , RF_AC , bMask12Bits ) ;
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/* Path-B */
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if ( is2t )
RF_Bmode = PHY_QueryRFReg ( adapt , RF_PATH_B , RF_AC , bMask12Bits ) ;
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/* 2. Set RF mode = standby mode */
/* Path-A */
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ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_AC , bMask12Bits , ( RF_Amode & 0x8FFFF ) | 0x10000 ) ;
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/* Path-B */
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if ( is2t )
ODM_SetRFReg ( dm_odm , RF_PATH_B , RF_AC , bMask12Bits , ( RF_Bmode & 0x8FFFF ) | 0x10000 ) ;
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}
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/* 3. Read RF reg18 */
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LC_Cal = PHY_QueryRFReg ( adapt , RF_PATH_A , RF_CHNLBW , bMask12Bits ) ;
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/* 4. Set LC calibration begin bit15 */
2013-08-06 20:24:06 +00:00
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_CHNLBW , bMask12Bits , LC_Cal | 0x08000 ) ;
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ODM_sleep_ms ( 100 ) ;
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/* Restore original situation */
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if ( ( tmpreg & 0x70 ) ! = 0 ) {
/* Deal with continuous TX case */
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/* Path-A */
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ODM_Write1Byte ( dm_odm , 0xd03 , tmpreg ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_AC , bMask12Bits , RF_Amode ) ;
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/* Path-B */
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if ( is2t )
ODM_SetRFReg ( dm_odm , RF_PATH_B , RF_AC , bMask12Bits , RF_Bmode ) ;
} else {
/* Deal with Packet TX case */
ODM_Write1Byte ( dm_odm , REG_TXPAUSE , 0x00 ) ;
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}
}
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/* Analog Pre-distortion calibration */
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# define APK_BB_REG_NUM 8
# define APK_CURVE_REG_NUM 4
# define PATH_NUM 2
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static void phy_APCalibrate_8188E ( struct adapter * adapt , s8 delta , bool is2t )
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{
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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u32 regD [ PATH_NUM ] ;
u32 tmpreg , index , offset , apkbound ;
u8 path , i , pathbound = PATH_NUM ;
u32 BB_backup [ APK_BB_REG_NUM ] ;
u32 BB_REG [ APK_BB_REG_NUM ] = {
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rFPGA1_TxBlock , rOFDM0_TRxPathEnable ,
rFPGA0_RFMOD , rOFDM0_TRMuxPar ,
rFPGA0_XCD_RFInterfaceSW , rFPGA0_XAB_RFInterfaceSW ,
rFPGA0_XA_RFInterfaceOE , rFPGA0_XB_RFInterfaceOE } ;
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u32 BB_AP_MODE [ APK_BB_REG_NUM ] = {
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0x00000020 , 0x00a05430 , 0x02040000 ,
0x000800e4 , 0x00204000 } ;
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u32 BB_normal_AP_MODE [ APK_BB_REG_NUM ] = {
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0x00000020 , 0x00a05430 , 0x02040000 ,
0x000800e4 , 0x22204000 } ;
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u32 AFE_backup [ IQK_ADDA_REG_NUM ] ;
u32 AFE_REG [ IQK_ADDA_REG_NUM ] = {
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rFPGA0_XCD_SwitchControl , rBlue_Tooth ,
rRx_Wait_CCA , rTx_CCK_RFON ,
rTx_CCK_BBON , rTx_OFDM_RFON ,
rTx_OFDM_BBON , rTx_To_Rx ,
rTx_To_Tx , rRx_CCK ,
rRx_OFDM , rRx_Wait_RIFS ,
rRx_TO_Rx , rStandby ,
rSleep , rPMPD_ANAEN } ;
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u32 MAC_backup [ IQK_MAC_REG_NUM ] ;
u32 MAC_REG [ IQK_MAC_REG_NUM ] = {
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REG_TXPAUSE , REG_BCN_CTRL ,
REG_BCN_CTRL_1 , REG_GPIO_MUXCFG } ;
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u32 APK_RF_init_value [ PATH_NUM ] [ APK_BB_REG_NUM ] = {
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{ 0x0852c , 0x1852c , 0x5852c , 0x1852c , 0x5852c } ,
{ 0x2852e , 0x0852e , 0x3852e , 0x0852e , 0x0852e }
} ;
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u32 APK_normal_RF_init_value [ PATH_NUM ] [ APK_BB_REG_NUM ] = {
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{ 0x0852c , 0x0a52c , 0x3a52c , 0x5a52c , 0x5a52c } , /* path settings equal to path b settings */
{ 0x0852c , 0x0a52c , 0x5a52c , 0x5a52c , 0x5a52c }
} ;
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u32 APK_RF_value_0 [ PATH_NUM ] [ APK_BB_REG_NUM ] = {
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{ 0x52019 , 0x52014 , 0x52013 , 0x5200f , 0x5208d } ,
{ 0x5201a , 0x52019 , 0x52016 , 0x52033 , 0x52050 }
} ;
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u32 APK_normal_RF_value_0 [ PATH_NUM ] [ APK_BB_REG_NUM ] = {
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{ 0x52019 , 0x52017 , 0x52010 , 0x5200d , 0x5206a } , /* path settings equal to path b settings */
{ 0x52019 , 0x52017 , 0x52010 , 0x5200d , 0x5206a }
} ;
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u32 AFE_on_off [ PATH_NUM ] = {
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0x04db25a4 , 0x0b1b25a4 } ; /* path A on path B off / path A off path B on */
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u32 APK_offset [ PATH_NUM ] = {
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rConfig_AntA , rConfig_AntB } ;
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u32 APK_normal_offset [ PATH_NUM ] = {
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rConfig_Pmpd_AntA , rConfig_Pmpd_AntB } ;
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u32 APK_value [ PATH_NUM ] = {
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0x92fc0000 , 0x12fc0000 } ;
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u32 APK_normal_value [ PATH_NUM ] = {
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0x92680000 , 0x12680000 } ;
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s8 APK_delta_mapping [ APK_BB_REG_NUM ] [ 13 ] = {
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{ - 4 , - 3 , - 2 , - 2 , - 1 , - 1 , 0 , 1 , 2 , 3 , 4 , 5 , 6 } ,
{ - 4 , - 3 , - 2 , - 2 , - 1 , - 1 , 0 , 1 , 2 , 3 , 4 , 5 , 6 } ,
{ - 6 , - 4 , - 2 , - 2 , - 1 , - 1 , 0 , 1 , 2 , 3 , 4 , 5 , 6 } ,
{ - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , 0 , 1 , 2 , 3 , 4 , 5 , 6 } ,
{ - 11 , - 9 , - 7 , - 5 , - 3 , - 1 , 0 , 0 , 0 , 0 , 0 , 0 , 0 }
} ;
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u32 APK_normal_setting_value_1 [ 13 ] = {
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0x01017018 , 0xf7ed8f84 , 0x1b1a1816 , 0x2522201e , 0x322e2b28 ,
0x433f3a36 , 0x5b544e49 , 0x7b726a62 , 0xa69a8f84 , 0xdfcfc0b3 ,
0x12680000 , 0x00880000 , 0x00880000
} ;
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u32 APK_normal_setting_value_2 [ 16 ] = {
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0x01c7021d , 0x01670183 , 0x01000123 , 0x00bf00e2 , 0x008d00a3 ,
0x0068007b , 0x004d0059 , 0x003a0042 , 0x002b0031 , 0x001f0025 ,
0x0017001b , 0x00110014 , 0x000c000f , 0x0009000b , 0x00070008 ,
0x00050006
} ;
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u32 APK_result [ PATH_NUM ] [ APK_BB_REG_NUM ] ; /* val_1_1a, val_1_2a, val_2a, val_3a, val_4a */
s32 BB_offset , delta_V , delta_offset ;
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if ( * ( dm_odm - > mp_mode ) = = 1 ) {
struct mpt_context * pMptCtx = & ( adapt - > mppriv . MptCtx ) ;
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pMptCtx - > APK_bound [ 0 ] = 45 ;
pMptCtx - > APK_bound [ 1 ] = 52 ;
}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " ==>phy_APCalibrate_8188E() delta %d \n " , delta ) ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " AP Calibration for %s \n " , ( is2t ? " 2T2R " : " 1T1R " ) ) ) ;
if ( ! is2t )
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pathbound = 1 ;
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/* 2 FOR NORMAL CHIP SETTINGS */
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/* Temporarily do not allow normal driver to do the following settings
* because these offset and value will cause RF internal PA to be
* unpredictably disabled by HW , such that RF Tx signal will disappear
* after disable / enable card many times on 88 CU . RF SD and DD have not
* find the root cause , so we remove these actions temporarily .
*/
if ( * ( dm_odm - > mp_mode ) ! = 1 )
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return ;
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/* settings adjust for normal chip */
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for ( index = 0 ; index < PATH_NUM ; index + + ) {
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APK_offset [ index ] = APK_normal_offset [ index ] ;
APK_value [ index ] = APK_normal_value [ index ] ;
AFE_on_off [ index ] = 0x6fdb25a4 ;
}
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for ( index = 0 ; index < APK_BB_REG_NUM ; index + + ) {
for ( path = 0 ; path < pathbound ; path + + ) {
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APK_RF_init_value [ path ] [ index ] = APK_normal_RF_init_value [ path ] [ index ] ;
APK_RF_value_0 [ path ] [ index ] = APK_normal_RF_value_0 [ path ] [ index ] ;
}
BB_AP_MODE [ index ] = BB_normal_AP_MODE [ index ] ;
}
apkbound = 6 ;
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/* save BB default value */
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for ( index = 0 ; index < APK_BB_REG_NUM ; index + + ) {
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if ( index = = 0 ) /* skip */
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continue ;
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BB_backup [ index ] = ODM_GetBBReg ( dm_odm , BB_REG [ index ] , bMaskDWord ) ;
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}
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/* save MAC default value */
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_PHY_SaveMACRegisters ( adapt , MAC_REG , MAC_backup ) ;
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/* save AFE default value */
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_PHY_SaveADDARegisters ( adapt , AFE_REG , AFE_backup , IQK_ADDA_REG_NUM ) ;
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for ( path = 0 ; path < pathbound ; path + + ) {
if ( path = = RF_PATH_A ) {
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/* path A APK */
/* load APK setting */
/* path-A */
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offset = rPdp_AntA ;
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for ( index = 0 ; index < 11 ; index + + ) {
ODM_SetBBReg ( dm_odm , offset , bMaskDWord , APK_normal_setting_value_1 [ index ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() offset 0x%x value 0x%x \n " ,
offset , ODM_GetBBReg ( dm_odm , offset , bMaskDWord ) ) ) ;
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offset + = 0x04 ;
}
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ODM_SetBBReg ( dm_odm , rConfig_Pmpd_AntB , bMaskDWord , 0x12680000 ) ;
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offset = rConfig_AntA ;
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for ( ; index < 13 ; index + + ) {
ODM_SetBBReg ( dm_odm , offset , bMaskDWord , APK_normal_setting_value_1 [ index ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() offset 0x%x value 0x%x \n " ,
offset , ODM_GetBBReg ( dm_odm , offset , bMaskDWord ) ) ) ;
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offset + = 0x04 ;
}
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/* page-B1 */
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x40000000 ) ;
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/* path A */
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offset = rPdp_AntA ;
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for ( index = 0 ; index < 16 ; index + + ) {
ODM_SetBBReg ( dm_odm , offset , bMaskDWord , APK_normal_setting_value_2 [ index ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() offset 0x%x value 0x%x \n " ,
offset , ODM_GetBBReg ( dm_odm , offset , bMaskDWord ) ) ) ;
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offset + = 0x04 ;
}
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x00000000 ) ;
} else if ( path = = RF_PATH_B ) {
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/* path B APK */
/* load APK setting */
/* path-B */
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offset = rPdp_AntB ;
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for ( index = 0 ; index < 10 ; index + + ) {
ODM_SetBBReg ( dm_odm , offset , bMaskDWord , APK_normal_setting_value_1 [ index ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() offset 0x%x value 0x%x \n " ,
offset , ODM_GetBBReg ( dm_odm , offset , bMaskDWord ) ) ) ;
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offset + = 0x04 ;
}
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ODM_SetBBReg ( dm_odm , rConfig_Pmpd_AntA , bMaskDWord , 0x12680000 ) ;
PHY_SetBBReg ( adapt , rConfig_Pmpd_AntB , bMaskDWord , 0x12680000 ) ;
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offset = rConfig_AntA ;
index = 11 ;
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for ( ; index < 13 ; index + + ) { /* offset 0xb68, 0xb6c */
ODM_SetBBReg ( dm_odm , offset , bMaskDWord , APK_normal_setting_value_1 [ index ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() offset 0x%x value 0x%x \n " ,
offset , ODM_GetBBReg ( dm_odm , offset , bMaskDWord ) ) ) ;
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offset + = 0x04 ;
}
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/* page-B1 */
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x40000000 ) ;
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/* path B */
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offset = 0xb60 ;
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for ( index = 0 ; index < 16 ; index + + ) {
ODM_SetBBReg ( dm_odm , offset , bMaskDWord , APK_normal_setting_value_2 [ index ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() offset 0x%x value 0x%x \n " ,
offset , ODM_GetBBReg ( dm_odm , offset , bMaskDWord ) ) ) ;
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offset + = 0x04 ;
}
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0 ) ;
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}
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/* save RF default value */
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regD [ path ] = PHY_QueryRFReg ( adapt , path , RF_TXBIAS_A , bMaskDWord ) ;
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/* Path A AFE all on, path B AFE All off or vise versa */
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for ( index = 0 ; index < IQK_ADDA_REG_NUM ; index + + )
ODM_SetBBReg ( dm_odm , AFE_REG [ index ] , bMaskDWord , AFE_on_off [ path ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() offset 0xe70 %x \n " ,
ODM_GetBBReg ( dm_odm , rRx_Wait_CCA , bMaskDWord ) ) ) ;
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/* BB to AP mode */
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if ( path = = 0 ) {
for ( index = 0 ; index < APK_BB_REG_NUM ; index + + ) {
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if ( index = = 0 ) /* skip */
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continue ;
else if ( index < 5 )
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ODM_SetBBReg ( dm_odm , BB_REG [ index ] , bMaskDWord , BB_AP_MODE [ index ] ) ;
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else if ( BB_REG [ index ] = = 0x870 )
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ODM_SetBBReg ( dm_odm , BB_REG [ index ] , bMaskDWord , BB_backup [ index ] | BIT10 | BIT26 ) ;
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else
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ODM_SetBBReg ( dm_odm , BB_REG [ index ] , BIT10 , 0x0 ) ;
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}
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ODM_SetBBReg ( dm_odm , rTx_IQK_Tone_A , bMaskDWord , 0x01008c00 ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_Tone_A , bMaskDWord , 0x01008c00 ) ;
} else {
/* path B */
ODM_SetBBReg ( dm_odm , rTx_IQK_Tone_B , bMaskDWord , 0x01008c00 ) ;
ODM_SetBBReg ( dm_odm , rRx_IQK_Tone_B , bMaskDWord , 0x01008c00 ) ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() offset 0x800 %x \n " ,
ODM_GetBBReg ( dm_odm , 0x800 , bMaskDWord ) ) ) ;
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/* MAC settings */
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_PHY_MACSettingCalibration ( adapt , MAC_REG , MAC_backup ) ;
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if ( path = = RF_PATH_A ) {
/* Path B to standby mode */
ODM_SetRFReg ( dm_odm , RF_PATH_B , RF_AC , bMaskDWord , 0x10000 ) ;
} else {
/* Path A to standby mode */
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_AC , bMaskDWord , 0x10000 ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_MODE1 , bMaskDWord , 0x1000f ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_MODE2 , bMaskDWord , 0x20103 ) ;
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}
delta_offset = ( ( delta + 14 ) / 2 ) ;
if ( delta_offset < 0 )
delta_offset = 0 ;
else if ( delta_offset > 12 )
delta_offset = 12 ;
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/* AP calibration */
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for ( index = 0 ; index < APK_BB_REG_NUM ; index + + ) {
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if ( index ! = 1 ) /* only DO PA11+PAD01001, AP RF setting */
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continue ;
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tmpreg = APK_RF_init_value [ path ] [ index ] ;
if ( ! dm_odm - > RFCalibrateInfo . bAPKThermalMeterIgnore ) {
BB_offset = ( tmpreg & 0xF0000 ) > > 16 ;
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if ( ! ( tmpreg & BIT15 ) ) /* sign bit 0 */
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BB_offset = - BB_offset ;
delta_V = APK_delta_mapping [ index ] [ delta_offset ] ;
BB_offset + = delta_V ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " phy_APCalibrate_8188E() APK index %d tmpreg 0x%x delta_V %d delta_offset %d \n " ,
index , tmpreg , delta_V , delta_offset ) ) ;
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if ( BB_offset < 0 ) {
tmpreg = tmpreg & ( ~ BIT15 ) ;
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BB_offset = - BB_offset ;
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} else {
tmpreg = tmpreg | BIT15 ;
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}
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tmpreg = ( tmpreg & 0xFFF0FFFF ) | ( BB_offset < < 16 ) ;
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}
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ODM_SetRFReg ( dm_odm , path , RF_IPA_A , bMaskDWord , 0x8992e ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " phy_APCalibrate_8188E() offset 0xc %x \n " , PHY_QueryRFReg ( adapt , path , RF_IPA_A , bMaskDWord ) ) ) ;
ODM_SetRFReg ( dm_odm , path , RF_AC , bMaskDWord , APK_RF_value_0 [ path ] [ index ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " phy_APCalibrate_8188E() offset 0x0 %x \n " , PHY_QueryRFReg ( adapt , path , RF_AC , bMaskDWord ) ) ) ;
ODM_SetRFReg ( dm_odm , path , RF_TXBIAS_A , bMaskDWord , tmpreg ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " phy_APCalibrate_8188E() offset 0xd %x \n " , PHY_QueryRFReg ( adapt , path , RF_TXBIAS_A , bMaskDWord ) ) ) ;
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/* PA11+PAD01111, one shot */
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i = 0 ;
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do {
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x80000000 ) ;
ODM_SetBBReg ( dm_odm , APK_offset [ path ] , bMaskDWord , APK_value [ 0 ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " phy_APCalibrate_8188E() offset 0x%x value 0x%x \n " , APK_offset [ path ] , ODM_GetBBReg ( dm_odm , APK_offset [ path ] , bMaskDWord ) ) ) ;
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ODM_delay_ms ( 3 ) ;
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ODM_SetBBReg ( dm_odm , APK_offset [ path ] , bMaskDWord , APK_value [ 1 ] ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " phy_APCalibrate_8188E() offset 0x%x value 0x%x \n " , APK_offset [ path ] , ODM_GetBBReg ( dm_odm , APK_offset [ path ] , bMaskDWord ) ) ) ;
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ODM_delay_ms ( 20 ) ;
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ODM_SetBBReg ( dm_odm , rFPGA0_IQK , bMaskDWord , 0x00000000 ) ;
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if ( path = = RF_PATH_A )
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tmpreg = ODM_GetBBReg ( dm_odm , rAPK , 0x03E00000 ) ;
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else
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tmpreg = ODM_GetBBReg ( dm_odm , rAPK , 0xF8000000 ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " phy_APCalibrate_8188E() offset 0xbd8[25:21] %x \n " , tmpreg ) ) ;
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i + + ;
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} while ( tmpreg > apkbound & & i < 4 ) ;
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APK_result [ path ] [ index ] = tmpreg ;
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}
}
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/* reload MAC default value */
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_PHY_ReloadMACRegisters ( adapt , MAC_REG , MAC_backup ) ;
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/* reload BB default value */
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for ( index = 0 ; index < APK_BB_REG_NUM ; index + + ) {
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if ( index = = 0 ) /* skip */
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continue ;
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ODM_SetBBReg ( dm_odm , BB_REG [ index ] , bMaskDWord , BB_backup [ index ] ) ;
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}
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/* reload AFE default value */
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reload_adda_reg ( adapt , AFE_REG , AFE_backup , IQK_ADDA_REG_NUM ) ;
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/* reload RF path default value */
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for ( path = 0 ; path < pathbound ; path + + ) {
ODM_SetRFReg ( dm_odm , path , 0xd , bMaskDWord , regD [ path ] ) ;
if ( path = = RF_PATH_B ) {
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_MODE1 , bMaskDWord , 0x1000f ) ;
ODM_SetRFReg ( dm_odm , RF_PATH_A , RF_MODE2 , bMaskDWord , 0x20101 ) ;
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}
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/* note no index == 0 */
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if ( APK_result [ path ] [ 1 ] > 6 )
APK_result [ path ] [ 1 ] = 6 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " apk path %d result %d 0x%x \t " , path , 1 , APK_result [ path ] [ 1 ] ) ) ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " \n " ) ) ;
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for ( path = 0 ; path < pathbound ; path + + ) {
ODM_SetRFReg ( dm_odm , path , 0x3 , bMaskDWord ,
( ( APK_result [ path ] [ 1 ] < < 15 ) | ( APK_result [ path ] [ 1 ] < < 10 ) | ( APK_result [ path ] [ 1 ] < < 5 ) | APK_result [ path ] [ 1 ] ) ) ;
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if ( path = = RF_PATH_A )
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ODM_SetRFReg ( dm_odm , path , 0x4 , bMaskDWord ,
( ( APK_result [ path ] [ 1 ] < < 15 ) | ( APK_result [ path ] [ 1 ] < < 10 ) | ( 0x00 < < 5 ) | 0x05 ) ) ;
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else
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ODM_SetRFReg ( dm_odm , path , 0x4 , bMaskDWord ,
( ( APK_result [ path ] [ 1 ] < < 15 ) | ( APK_result [ path ] [ 1 ] < < 10 ) | ( 0x02 < < 5 ) | 0x05 ) ) ;
if ( ! IS_HARDWARE_TYPE_8723A ( adapt ) )
ODM_SetRFReg ( dm_odm , path , RF_BS_PA_APSET_G9_G11 , bMaskDWord ,
( ( 0x08 < < 15 ) | ( 0x08 < < 10 ) | ( 0x08 < < 5 ) | 0x08 ) ) ;
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}
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dm_odm - > RFCalibrateInfo . bAPKdone = true ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " <==phy_APCalibrate_8188E() \n " ) ) ;
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}
# define DP_BB_REG_NUM 7
# define DP_RF_REG_NUM 1
# define DP_RETRY_LIMIT 10
# define DP_PATH_NUM 2
# define DP_DPK_NUM 3
# define DP_DPK_VALUE_NUM 2
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void PHY_IQCalibrate_8188E ( struct adapter * adapt , bool recovery )
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{
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
struct mpt_context * pMptCtx = & ( adapt - > mppriv . MptCtx ) ;
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s32 result [ 4 ] [ 8 ] ; /* last is final result */
u8 i , final_candidate , Indexforchannel ;
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bool pathaok , pathbok ;
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s32 RegE94 , RegE9C , RegEA4 , RegEAC , RegEB4 , RegEBC , RegEC4 , RegECC ;
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bool is12simular , is13simular , is23simular ;
bool singletone = false , carrier_sup = false ;
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u32 IQK_BB_REG_92C [ IQK_BB_REG_NUM ] = {
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rOFDM0_XARxIQImbalance , rOFDM0_XBRxIQImbalance ,
rOFDM0_ECCAThreshold , rOFDM0_AGCRSSITable ,
rOFDM0_XATxIQImbalance , rOFDM0_XBTxIQImbalance ,
rOFDM0_XCTxAFE , rOFDM0_XDTxAFE ,
rOFDM0_RxIQExtAnta } ;
bool is2t ;
is2t = ( dm_odm - > RFType = = ODM_2T2R ) ? true : false ;
if ( ODM_CheckPowerStatus ( adapt ) = = false )
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return ;
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if ( ! ( dm_odm - > SupportAbility & ODM_RF_CALIBRATION ) )
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return ;
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if ( * ( dm_odm - > mp_mode ) = = 1 ) {
singletone = pMptCtx - > bSingleTone ;
carrier_sup = pMptCtx - > bCarrierSuppression ;
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}
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/* 20120213<Kordan> Turn on when continuous Tx to pass lab testing. (required by Edlu) */
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if ( singletone | | carrier_sup )
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return ;
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if ( recovery ) {
ODM_RT_TRACE ( dm_odm , ODM_COMP_INIT , ODM_DBG_LOUD , ( " PHY_IQCalibrate_8188E: Return due to recovery! \n " ) ) ;
reload_adda_reg ( adapt , IQK_BB_REG_92C , dm_odm - > RFCalibrateInfo . IQK_BB_backup_recover , 9 ) ;
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return ;
}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK:Start!!! \n " ) ) ;
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for ( i = 0 ; i < 8 ; i + + ) {
result [ 0 ] [ i ] = 0 ;
result [ 1 ] [ i ] = 0 ;
result [ 2 ] [ i ] = 0 ;
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if ( ( i = = 0 ) | | ( i = = 2 ) | | ( i = = 4 ) | | ( i = = 6 ) )
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result [ 3 ] [ i ] = 0x100 ;
else
result [ 3 ] [ i ] = 0 ;
}
final_candidate = 0xff ;
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pathaok = false ;
pathbok = false ;
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is12simular = false ;
is23simular = false ;
is13simular = false ;
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for ( i = 0 ; i < 3 ; i + + ) {
phy_IQCalibrate_8188E ( adapt , result , i , is2t ) ;
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if ( i = = 1 ) {
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is12simular = phy_SimularityCompare_8188E ( adapt , result , 0 , 1 ) ;
if ( is12simular ) {
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final_candidate = 0 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK: is12simular final_candidate is %x \n " , final_candidate ) ) ;
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break ;
}
}
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if ( i = = 2 ) {
is13simular = phy_SimularityCompare_8188E ( adapt , result , 0 , 2 ) ;
if ( is13simular ) {
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final_candidate = 0 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK: is13simular final_candidate is %x \n " , final_candidate ) ) ;
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break ;
}
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is23simular = phy_SimularityCompare_8188E ( adapt , result , 1 , 2 ) ;
if ( is23simular ) {
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final_candidate = 1 ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK: is23simular final_candidate is %x \n " , final_candidate ) ) ;
} else {
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final_candidate = 3 ;
}
}
}
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for ( i = 0 ; i < 4 ; i + + ) {
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RegE94 = result [ i ] [ 0 ] ;
RegE9C = result [ i ] [ 1 ] ;
RegEA4 = result [ i ] [ 2 ] ;
RegEAC = result [ i ] [ 3 ] ;
RegEB4 = result [ i ] [ 4 ] ;
RegEBC = result [ i ] [ 5 ] ;
RegEC4 = result [ i ] [ 6 ] ;
RegECC = result [ i ] [ 7 ] ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " IQK: RegE94=%x RegE9C=%x RegEA4=%x RegEAC=%x RegEB4=%x RegEBC=%x RegEC4=%x RegECC=%x \n " ,
RegE94 , RegE9C , RegEA4 , RegEAC , RegEB4 , RegEBC , RegEC4 , RegECC ) ) ;
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}
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if ( final_candidate ! = 0xff ) {
RegE94 = result [ final_candidate ] [ 0 ] ;
RegE9C = result [ final_candidate ] [ 1 ] ;
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RegEA4 = result [ final_candidate ] [ 2 ] ;
RegEAC = result [ final_candidate ] [ 3 ] ;
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RegEB4 = result [ final_candidate ] [ 4 ] ;
RegEBC = result [ final_candidate ] [ 5 ] ;
dm_odm - > RFCalibrateInfo . RegE94 = RegE94 ;
dm_odm - > RFCalibrateInfo . RegE9C = RegE9C ;
dm_odm - > RFCalibrateInfo . RegEB4 = RegEB4 ;
dm_odm - > RFCalibrateInfo . RegEBC = RegEBC ;
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RegEC4 = result [ final_candidate ] [ 6 ] ;
RegECC = result [ final_candidate ] [ 7 ] ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " IQK: final_candidate is %x \n " , final_candidate ) ) ;
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " IQK: RegE94=%x RegE9C=%x RegEA4=%x RegEAC=%x RegEB4=%x RegEBC=%x RegEC4=%x RegECC=%x \n " ,
RegE94 , RegE9C , RegEA4 , RegEAC , RegEB4 , RegEBC , RegEC4 , RegECC ) ) ;
pathaok = true ;
pathbok = true ;
} else {
ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK: FAIL use default value \n " ) ) ;
dm_odm - > RFCalibrateInfo . RegE94 = 0x100 ;
dm_odm - > RFCalibrateInfo . RegEB4 = 0x100 ; /* X default value */
dm_odm - > RFCalibrateInfo . RegE9C = 0x0 ;
dm_odm - > RFCalibrateInfo . RegEBC = 0x0 ; /* Y default value */
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}
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if ( RegE94 ! = 0 )
patha_fill_iqk ( adapt , pathaok , result , final_candidate , ( RegEA4 = = 0 ) ) ;
if ( is2t ) {
if ( RegEB4 ! = 0 )
pathb_fill_iqk ( adapt , pathbok , result , final_candidate , ( RegEC4 = = 0 ) ) ;
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}
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Indexforchannel = ODM_GetRightChnlPlaceforIQK ( pHalData - > CurrentChannel ) ;
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/* To Fix BSOD when final_candidate is 0xff */
/* by sherry 20120321 */
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if ( final_candidate < 4 ) {
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for ( i = 0 ; i < IQK_Matrix_REG_NUM ; i + + )
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dm_odm - > RFCalibrateInfo . IQKMatrixRegSetting [ Indexforchannel ] . Value [ 0 ] [ i ] = result [ final_candidate ] [ i ] ;
dm_odm - > RFCalibrateInfo . IQKMatrixRegSetting [ Indexforchannel ] . bIQKDone = true ;
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}
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " \n IQK OK Indexforchannel %d. \n " , Indexforchannel ) ) ;
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_PHY_SaveADDARegisters ( adapt , IQK_BB_REG_92C , dm_odm - > RFCalibrateInfo . IQK_BB_backup_recover , 9 ) ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD , ( " IQK finished \n " ) ) ;
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}
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void PHY_LCCalibrate_8188E ( struct adapter * adapt )
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{
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bool singletone = false , carrier_sup = false ;
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u32 timeout = 2000 , timecount = 0 ;
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
struct mpt_context * pMptCtx = & ( adapt - > mppriv . MptCtx ) ;
if ( * ( dm_odm - > mp_mode ) = = 1 ) {
singletone = pMptCtx - > bSingleTone ;
carrier_sup = pMptCtx - > bCarrierSuppression ;
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}
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if ( ! ( dm_odm - > SupportAbility & ODM_RF_CALIBRATION ) )
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return ;
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/* 20120213<Kordan> Turn on when continuous Tx to pass lab testing. (required by Edlu) */
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if ( singletone | | carrier_sup )
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return ;
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while ( * ( dm_odm - > pbScanInProcess ) & & timecount < timeout ) {
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ODM_delay_ms ( 50 ) ;
timecount + = 50 ;
}
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dm_odm - > RFCalibrateInfo . bLCKInProgress = true ;
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if ( dm_odm - > RFType = = ODM_2T2R ) {
phy_LCCalibrate_8188E ( adapt , true ) ;
} else {
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/* For 88C 1T1R */
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phy_LCCalibrate_8188E ( adapt , false ) ;
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}
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dm_odm - > RFCalibrateInfo . bLCKInProgress = false ;
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ODM_RT_TRACE ( dm_odm , ODM_COMP_CALIBRATION , ODM_DBG_LOUD ,
( " LCK:Finish!!!interface %d \n " , dm_odm - > InterfaceIndex ) ) ;
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}
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void PHY_APCalibrate_8188E ( struct adapter * adapt , s8 delta )
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{
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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return ;
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if ( ! ( dm_odm - > SupportAbility & ODM_RF_CALIBRATION ) )
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return ;
# if FOR_BRAZIL_PRETEST != 1
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if ( dm_odm - > RFCalibrateInfo . bAPKdone )
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# endif
return ;
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if ( dm_odm - > RFType = = ODM_2T2R ) {
phy_APCalibrate_8188E ( adapt , delta , true ) ;
} else {
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/* For 88C 1T1R */
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phy_APCalibrate_8188E ( adapt , delta , false ) ;
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}
}
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static void phy_setrfpathswitch_8188e ( struct adapter * adapt , bool main , bool is2t )
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{
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
if ( ! adapt - > hw_init_completed ) {
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u8 u1btmp ;
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u1btmp = ODM_Read1Byte ( dm_odm , REG_LEDCFG2 ) | BIT7 ;
ODM_Write1Byte ( dm_odm , REG_LEDCFG2 , u1btmp ) ;
ODM_SetBBReg ( dm_odm , rFPGA0_XAB_RFParameter , BIT13 , 0x01 ) ;
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}
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if ( is2t ) { /* 92C */
if ( main )
ODM_SetBBReg ( dm_odm , rFPGA0_XB_RFInterfaceOE , BIT5 | BIT6 , 0x1 ) ; /* 92C_Path_A */
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else
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ODM_SetBBReg ( dm_odm , rFPGA0_XB_RFInterfaceOE , BIT5 | BIT6 , 0x2 ) ; /* BT */
} else { /* 88C */
if ( main )
ODM_SetBBReg ( dm_odm , rFPGA0_XA_RFInterfaceOE , BIT8 | BIT9 , 0x2 ) ; /* Main */
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else
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ODM_SetBBReg ( dm_odm , rFPGA0_XA_RFInterfaceOE , BIT8 | BIT9 , 0x1 ) ; /* Aux */
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}
}
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void PHY_SetRFPathSwitch_8188E ( struct adapter * adapt , bool main )
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{
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struct hal_data_8188e * pHalData = GET_HAL_DATA ( adapt ) ;
struct odm_dm_struct * dm_odm = & pHalData - > odmpriv ;
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if ( dm_odm - > RFType = = ODM_2T2R ) {
phy_setrfpathswitch_8188e ( adapt , main , true ) ;
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} else {
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/* For 88C 1T1R */
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phy_setrfpathswitch_8188e ( adapt , main , false ) ;
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}
}