mirror of
https://github.com/lwfinger/rtl8188eu.git
synced 2024-11-30 07:53:39 +00:00
883 lines
27 KiB
C
883 lines
27 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/* Copyright(c) 2007 - 2016 Realtek Corporation. All rights reserved. */
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#define _HAL_MP_C_
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#include <drv_types.h>
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#ifdef CONFIG_MP_INCLUDED
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#ifdef RTW_HALMAC
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#include <hal_data.h> /* struct HAL_DATA_TYPE, RF register definition and etc. */
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#else /* !RTW_HALMAC */
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#include <rtl8188e_hal.h>
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#endif /* !RTW_HALMAC */
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static u8 MgntQuery_NssTxRate(u16 Rate)
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{
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u8 NssNum = RF_TX_NUM_NONIMPLEMENT;
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if ((Rate >= MGN_MCS8 && Rate <= MGN_MCS15) ||
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(Rate >= MGN_VHT2SS_MCS0 && Rate <= MGN_VHT2SS_MCS9))
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NssNum = RF_2TX;
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else if ((Rate >= MGN_MCS16 && Rate <= MGN_MCS23) ||
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(Rate >= MGN_VHT3SS_MCS0 && Rate <= MGN_VHT3SS_MCS9))
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NssNum = RF_3TX;
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else if ((Rate >= MGN_MCS24 && Rate <= MGN_MCS31) ||
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(Rate >= MGN_VHT4SS_MCS0 && Rate <= MGN_VHT4SS_MCS9))
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NssNum = RF_4TX;
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else
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NssNum = RF_1TX;
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return NssNum;
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}
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void hal_mpt_SwitchRfSetting(PADAPTER pAdapter)
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{
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
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PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
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u8 ChannelToSw = pMptCtx->MptChannelToSw;
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u32 ulRateIdx = pMptCtx->mpt_rate_index;
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u32 ulbandwidth = pMptCtx->MptBandWidth;
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/* <20120525, Kordan> Dynamic mechanism for APK, asked by Dennis.*/
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if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
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phy_set_rf_reg(pAdapter, ODM_RF_PATH_A, RF_0x52, 0x000F0, pMptCtx->backup0x52_RF_A);
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phy_set_rf_reg(pAdapter, ODM_RF_PATH_B, RF_0x52, 0x000F0, pMptCtx->backup0x52_RF_B);
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}
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}
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s32 hal_mpt_SetPowerTracking(PADAPTER padapter, u8 enable)
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{
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
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struct PHY_DM_STRUCT *pDM_Odm = &(pHalData->odmpriv);
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if (!netif_running(padapter->pnetdev)) {
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return _FAIL;
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}
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if (check_fwstate(&padapter->mlmepriv, WIFI_MP_STATE) == false) {
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return _FAIL;
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}
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if (enable)
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pDM_Odm->rf_calibrate_info.txpowertrack_control = true;
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else
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pDM_Odm->rf_calibrate_info.txpowertrack_control = false;
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return _SUCCESS;
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}
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void hal_mpt_GetPowerTracking(PADAPTER padapter, u8 *enable)
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{
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(padapter);
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struct PHY_DM_STRUCT *pDM_Odm = &(pHalData->odmpriv);
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*enable = pDM_Odm->rf_calibrate_info.txpowertrack_control;
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}
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void hal_mpt_CCKTxPowerAdjust(PADAPTER Adapter, bool bInCH14)
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{
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u32 TempVal = 0, TempVal2 = 0, TempVal3 = 0;
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u32 CurrCCKSwingVal = 0, CCKSwingIndex = 12;
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u8 i;
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(Adapter);
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PMPT_CONTEXT pMptCtx = &(Adapter->mppriv.mpt_ctx);
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u8 u1Channel = pHalData->current_channel;
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u32 ulRateIdx = pMptCtx->mpt_rate_index;
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u8 DataRate = 0xFF;
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DataRate = mpt_to_mgnt_rate(ulRateIdx);
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if (u1Channel == 14 && IS_CCK_RATE(DataRate))
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pHalData->bCCKinCH14 = true;
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else
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pHalData->bCCKinCH14 = false;
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/* get current cck swing value and check 0xa22 & 0xa23 later to match the table.*/
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CurrCCKSwingVal = read_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord);
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if (!pHalData->bCCKinCH14) {
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/* Readback the current bb cck swing value and compare with the table to */
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/* get the current swing index */
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for (i = 0; i < CCK_TABLE_SIZE; i++) {
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if (((CurrCCKSwingVal & 0xff) == (u32)cck_swing_table_ch1_ch13[i][0]) &&
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(((CurrCCKSwingVal & 0xff00) >> 8) == (u32)cck_swing_table_ch1_ch13[i][1])) {
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CCKSwingIndex = i;
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break;
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}
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}
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/*Write 0xa22 0xa23*/
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TempVal = cck_swing_table_ch1_ch13[CCKSwingIndex][0] +
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(cck_swing_table_ch1_ch13[CCKSwingIndex][1] << 8);
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/*Write 0xa24 ~ 0xa27*/
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TempVal2 = 0;
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TempVal2 = cck_swing_table_ch1_ch13[CCKSwingIndex][2] +
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(cck_swing_table_ch1_ch13[CCKSwingIndex][3] << 8) +
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(cck_swing_table_ch1_ch13[CCKSwingIndex][4] << 16) +
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(cck_swing_table_ch1_ch13[CCKSwingIndex][5] << 24);
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/*Write 0xa28 0xa29*/
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TempVal3 = 0;
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TempVal3 = cck_swing_table_ch1_ch13[CCKSwingIndex][6] +
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(cck_swing_table_ch1_ch13[CCKSwingIndex][7] << 8);
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} else {
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for (i = 0; i < CCK_TABLE_SIZE; i++) {
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if (((CurrCCKSwingVal & 0xff) == (u32)cck_swing_table_ch14[i][0]) &&
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(((CurrCCKSwingVal & 0xff00) >> 8) == (u32)cck_swing_table_ch14[i][1])) {
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CCKSwingIndex = i;
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break;
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}
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}
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/*Write 0xa22 0xa23*/
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TempVal = cck_swing_table_ch14[CCKSwingIndex][0] +
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(cck_swing_table_ch14[CCKSwingIndex][1] << 8);
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/*Write 0xa24 ~ 0xa27*/
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TempVal2 = 0;
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TempVal2 = cck_swing_table_ch14[CCKSwingIndex][2] +
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(cck_swing_table_ch14[CCKSwingIndex][3] << 8) +
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(cck_swing_table_ch14[CCKSwingIndex][4] << 16) +
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(cck_swing_table_ch14[CCKSwingIndex][5] << 24);
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/*Write 0xa28 0xa29*/
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TempVal3 = 0;
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TempVal3 = cck_swing_table_ch14[CCKSwingIndex][6] +
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(cck_swing_table_ch14[CCKSwingIndex][7] << 8);
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}
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write_bbreg(Adapter, rCCK0_TxFilter1, bMaskHWord, TempVal);
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write_bbreg(Adapter, rCCK0_TxFilter2, bMaskDWord, TempVal2);
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write_bbreg(Adapter, rCCK0_DebugPort, bMaskLWord, TempVal3);
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}
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void hal_mpt_SetChannel(PADAPTER pAdapter)
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{
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u8 eRFPath;
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
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struct PHY_DM_STRUCT *pDM_Odm = &(pHalData->odmpriv);
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struct mp_priv *pmp = &pAdapter->mppriv;
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u8 channel = pmp->channel;
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u8 bandwidth = pmp->bandwidth;
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hal_mpt_SwitchRfSetting(pAdapter);
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pHalData->bSwChnl = true;
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pHalData->bSetChnlBW = true;
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rtw_hal_set_chnl_bw(pAdapter, channel, bandwidth, 0, 0);
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hal_mpt_CCKTxPowerAdjust(pAdapter, pHalData->bCCKinCH14);
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}
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/*
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* Notice
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* Switch bandwitdth may change center frequency(channel)
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*/
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void hal_mpt_SetBandwidth(PADAPTER pAdapter)
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{
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struct mp_priv *pmp = &pAdapter->mppriv;
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
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u8 channel = pmp->channel;
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u8 bandwidth = pmp->bandwidth;
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pHalData->bSwChnl = true;
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pHalData->bSetChnlBW = true;
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rtw_hal_set_chnl_bw(pAdapter, channel, bandwidth, 0, 0);
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hal_mpt_SwitchRfSetting(pAdapter);
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}
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static void mpt_SetTxPower_Old(PADAPTER pAdapter, MPT_TXPWR_DEF Rate, u8 *pTxPower)
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{
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switch (Rate) {
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case MPT_CCK: {
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u32 TxAGC = 0, pwr = 0;
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u8 rf;
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pwr = pTxPower[ODM_RF_PATH_A];
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if (pwr < 0x3f) {
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TxAGC = (pwr << 16) | (pwr << 8) | (pwr);
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phy_set_bb_reg(pAdapter, rTxAGC_A_CCK1_Mcs32, bMaskByte1, pTxPower[ODM_RF_PATH_A]);
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phy_set_bb_reg(pAdapter, rTxAGC_B_CCK11_A_CCK2_11, 0xffffff00, TxAGC);
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}
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pwr = pTxPower[ODM_RF_PATH_B];
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if (pwr < 0x3f) {
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TxAGC = (pwr << 16) | (pwr << 8) | (pwr);
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phy_set_bb_reg(pAdapter, rTxAGC_B_CCK11_A_CCK2_11, bMaskByte0, pTxPower[ODM_RF_PATH_B]);
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phy_set_bb_reg(pAdapter, rTxAGC_B_CCK1_55_Mcs32, 0xffffff00, TxAGC);
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}
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}
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break;
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case MPT_OFDM_AND_HT: {
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u32 TxAGC = 0;
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u8 pwr = 0, rf;
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pwr = pTxPower[0];
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if (pwr < 0x3f) {
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TxAGC |= ((pwr << 24) | (pwr << 16) | (pwr << 8) | pwr);
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RTW_INFO("HT Tx-rf(A) Power = 0x%x\n", TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_A_Rate18_06, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_A_Rate54_24, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_A_Mcs03_Mcs00, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_A_Mcs07_Mcs04, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_A_Mcs11_Mcs08, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_A_Mcs15_Mcs12, bMaskDWord, TxAGC);
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}
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TxAGC = 0;
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pwr = pTxPower[1];
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if (pwr < 0x3f) {
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TxAGC |= ((pwr << 24) | (pwr << 16) | (pwr << 8) | pwr);
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RTW_INFO("HT Tx-rf(B) Power = 0x%x\n", TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_B_Rate18_06, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_B_Rate54_24, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_B_Mcs03_Mcs00, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_B_Mcs07_Mcs04, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_B_Mcs11_Mcs08, bMaskDWord, TxAGC);
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phy_set_bb_reg(pAdapter, rTxAGC_B_Mcs15_Mcs12, bMaskDWord, TxAGC);
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}
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}
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break;
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default:
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break;
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}
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RTW_INFO("<===mpt_SetTxPower_Old()\n");
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}
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static void
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mpt_SetTxPower(
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PADAPTER pAdapter,
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MPT_TXPWR_DEF Rate,
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u8 * pTxPower
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)
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{
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
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u8 path = 0 , i = 0, MaxRate = MGN_6M;
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u8 StartPath = ODM_RF_PATH_A, EndPath = ODM_RF_PATH_B;
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switch (Rate) {
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case MPT_CCK: {
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u8 rate[] = {MGN_1M, MGN_2M, MGN_5_5M, MGN_11M};
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for (path = StartPath; path <= EndPath; path++)
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for (i = 0; i < sizeof(rate); ++i)
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PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
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}
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break;
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case MPT_OFDM: {
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u8 rate[] = {
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MGN_6M, MGN_9M, MGN_12M, MGN_18M,
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MGN_24M, MGN_36M, MGN_48M, MGN_54M,
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};
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for (path = StartPath; path <= EndPath; path++)
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for (i = 0; i < sizeof(rate); ++i)
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PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
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}
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break;
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case MPT_HT: {
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u8 rate[] = {
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MGN_MCS0, MGN_MCS1, MGN_MCS2, MGN_MCS3, MGN_MCS4,
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MGN_MCS5, MGN_MCS6, MGN_MCS7, MGN_MCS8, MGN_MCS9,
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MGN_MCS10, MGN_MCS11, MGN_MCS12, MGN_MCS13, MGN_MCS14,
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MGN_MCS15, MGN_MCS16, MGN_MCS17, MGN_MCS18, MGN_MCS19,
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MGN_MCS20, MGN_MCS21, MGN_MCS22, MGN_MCS23, MGN_MCS24,
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MGN_MCS25, MGN_MCS26, MGN_MCS27, MGN_MCS28, MGN_MCS29,
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MGN_MCS30, MGN_MCS31,
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};
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if (pHalData->rf_type == RF_3T3R)
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MaxRate = MGN_MCS23;
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else if (pHalData->rf_type == RF_2T2R)
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MaxRate = MGN_MCS15;
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else
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MaxRate = MGN_MCS7;
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for (path = StartPath; path <= EndPath; path++) {
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for (i = 0; i < sizeof(rate); ++i) {
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if (rate[i] > MaxRate)
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break;
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PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
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}
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}
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}
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break;
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case MPT_VHT: {
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u8 rate[] = {
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MGN_VHT1SS_MCS0, MGN_VHT1SS_MCS1, MGN_VHT1SS_MCS2, MGN_VHT1SS_MCS3, MGN_VHT1SS_MCS4,
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MGN_VHT1SS_MCS5, MGN_VHT1SS_MCS6, MGN_VHT1SS_MCS7, MGN_VHT1SS_MCS8, MGN_VHT1SS_MCS9,
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MGN_VHT2SS_MCS0, MGN_VHT2SS_MCS1, MGN_VHT2SS_MCS2, MGN_VHT2SS_MCS3, MGN_VHT2SS_MCS4,
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MGN_VHT2SS_MCS5, MGN_VHT2SS_MCS6, MGN_VHT2SS_MCS7, MGN_VHT2SS_MCS8, MGN_VHT2SS_MCS9,
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MGN_VHT3SS_MCS0, MGN_VHT3SS_MCS1, MGN_VHT3SS_MCS2, MGN_VHT3SS_MCS3, MGN_VHT3SS_MCS4,
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MGN_VHT3SS_MCS5, MGN_VHT3SS_MCS6, MGN_VHT3SS_MCS7, MGN_VHT3SS_MCS8, MGN_VHT3SS_MCS9,
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MGN_VHT4SS_MCS0, MGN_VHT4SS_MCS1, MGN_VHT4SS_MCS2, MGN_VHT4SS_MCS3, MGN_VHT4SS_MCS4,
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MGN_VHT4SS_MCS5, MGN_VHT4SS_MCS6, MGN_VHT4SS_MCS7, MGN_VHT4SS_MCS8, MGN_VHT4SS_MCS9,
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};
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if (pHalData->rf_type == RF_3T3R)
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MaxRate = MGN_VHT3SS_MCS9;
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else if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_2T4R)
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MaxRate = MGN_VHT2SS_MCS9;
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else
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MaxRate = MGN_VHT1SS_MCS9;
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for (path = StartPath; path <= EndPath; path++) {
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for (i = 0; i < sizeof(rate); ++i) {
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if (rate[i] > MaxRate)
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break;
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PHY_SetTxPowerIndex(pAdapter, pTxPower[path], path, rate[i]);
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}
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}
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}
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break;
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default:
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RTW_INFO("<===mpt_SetTxPower: Illegal channel!!\n");
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break;
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}
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}
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void hal_mpt_SetTxPower(PADAPTER pAdapter)
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{
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
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PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
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struct PHY_DM_STRUCT *pDM_Odm = &pHalData->odmpriv;
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if (pHalData->rf_chip < RF_TYPE_MAX) {
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if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
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u8 path = (pHalData->antenna_tx_path == ANTENNA_A) ? (ODM_RF_PATH_A) : (ODM_RF_PATH_B);
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RTW_INFO("===> MPT_ProSetTxPower: Old\n");
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mpt_SetTxPower_Old(pAdapter, MPT_CCK, pMptCtx->TxPwrLevel);
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mpt_SetTxPower_Old(pAdapter, MPT_OFDM_AND_HT, pMptCtx->TxPwrLevel);
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} else {
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RTW_INFO("===> MPT_ProSetTxPower: Jaguar/Jaguar2\n");
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mpt_SetTxPower(pAdapter, MPT_CCK, pMptCtx->TxPwrLevel);
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mpt_SetTxPower(pAdapter, MPT_OFDM, pMptCtx->TxPwrLevel);
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mpt_SetTxPower(pAdapter, MPT_HT, pMptCtx->TxPwrLevel);
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mpt_SetTxPower(pAdapter, MPT_VHT, pMptCtx->TxPwrLevel);
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}
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} else
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RTW_INFO("RFChipID < RF_TYPE_MAX, the RF chip is not supported - %d\n", pHalData->rf_chip);
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odm_clear_txpowertracking_state(pDM_Odm);
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}
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void hal_mpt_SetDataRate(PADAPTER pAdapter)
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{
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HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
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PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
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u32 DataRate;
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DataRate = mpt_to_mgnt_rate(pMptCtx->mpt_rate_index);
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hal_mpt_SwitchRfSetting(pAdapter);
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hal_mpt_CCKTxPowerAdjust(pAdapter, pHalData->bCCKinCH14);
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}
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#define RF_PATH_AB 22
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static void mpt_SetRFPath_819X(PADAPTER pAdapter)
|
|
{
|
|
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
|
|
PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
|
|
u32 ulAntennaTx, ulAntennaRx;
|
|
R_ANTENNA_SELECT_OFDM *p_ofdm_tx; /* OFDM Tx register */
|
|
R_ANTENNA_SELECT_CCK *p_cck_txrx;
|
|
u8 r_rx_antenna_ofdm = 0, r_ant_select_cck_val = 0;
|
|
u8 chgTx = 0, chgRx = 0;
|
|
u32 r_ant_sel_cck_val = 0, r_ant_select_ofdm_val = 0, r_ofdm_tx_en_val = 0;
|
|
|
|
ulAntennaTx = pHalData->antenna_tx_path;
|
|
ulAntennaRx = pHalData->AntennaRxPath;
|
|
|
|
p_ofdm_tx = (R_ANTENNA_SELECT_OFDM *)&r_ant_select_ofdm_val;
|
|
p_cck_txrx = (R_ANTENNA_SELECT_CCK *)&r_ant_select_cck_val;
|
|
|
|
p_ofdm_tx->r_ant_ht1 = 0x1;
|
|
p_ofdm_tx->r_ant_ht2 = 0x2;/*Second TX RF path is A*/
|
|
p_ofdm_tx->r_ant_non_ht = 0x3;/*/ 0x1+0x2=0x3 */
|
|
|
|
switch (ulAntennaTx) {
|
|
case ANTENNA_A:
|
|
p_ofdm_tx->r_tx_antenna = 0x1;
|
|
r_ofdm_tx_en_val = 0x1;
|
|
p_ofdm_tx->r_ant_l = 0x1;
|
|
p_ofdm_tx->r_ant_ht_s1 = 0x1;
|
|
p_ofdm_tx->r_ant_non_ht_s1 = 0x1;
|
|
p_cck_txrx->r_ccktx_enable = 0x8;
|
|
chgTx = 1;
|
|
/*/ From SD3 Willis suggestion !!! Set RF A=TX and B as standby*/
|
|
{
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 2);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 1);
|
|
r_ofdm_tx_en_val = 0x3;
|
|
/*/ Power save*/
|
|
/*/cosa r_ant_select_ofdm_val = 0x11111111;*/
|
|
/*/ We need to close RFB by SW control*/
|
|
if (pHalData->rf_type == RF_2T2R) {
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 1);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 1);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 0);
|
|
}
|
|
}
|
|
pMptCtx->mpt_rf_path = ODM_RF_PATH_A;
|
|
break;
|
|
case ANTENNA_B:
|
|
p_ofdm_tx->r_tx_antenna = 0x2;
|
|
r_ofdm_tx_en_val = 0x2;
|
|
p_ofdm_tx->r_ant_l = 0x2;
|
|
p_ofdm_tx->r_ant_ht_s1 = 0x2;
|
|
p_ofdm_tx->r_ant_non_ht_s1 = 0x2;
|
|
p_cck_txrx->r_ccktx_enable = 0x4;
|
|
chgTx = 1;
|
|
/*/ From SD3 Willis suggestion !!! Set RF A as standby*/
|
|
{
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 1);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 2);
|
|
|
|
/*/ 2008/10/31 MH From SD3 Willi's suggestion. We must read RF 1T table.*/
|
|
/*/ 2009/01/08 MH From Sd3 Willis. We need to close RFA by SW control*/
|
|
if (pHalData->rf_type == RF_2T2R || pHalData->rf_type == RF_1T2R) {
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 1);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_RFInterfaceOE, BIT10, 0);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0);
|
|
/*/phy_set_bb_reg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);*/
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 0);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 1);
|
|
}
|
|
}
|
|
pMptCtx->mpt_rf_path = ODM_RF_PATH_B;
|
|
break;
|
|
case ANTENNA_AB:/*/ For 8192S*/
|
|
p_ofdm_tx->r_tx_antenna = 0x3;
|
|
r_ofdm_tx_en_val = 0x3;
|
|
p_ofdm_tx->r_ant_l = 0x3;
|
|
p_ofdm_tx->r_ant_ht_s1 = 0x3;
|
|
p_ofdm_tx->r_ant_non_ht_s1 = 0x3;
|
|
p_cck_txrx->r_ccktx_enable = 0xC;
|
|
chgTx = 1;
|
|
/*/ From SD3Willis suggestion !!! Set RF B as standby*/
|
|
{
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_HSSIParameter2, 0xe, 2);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_HSSIParameter2, 0xe, 2);
|
|
/* Disable Power save*/
|
|
/*cosa r_ant_select_ofdm_val = 0x3321333;*/
|
|
/* 2009/01/08 MH From Sd3 Willis. We need to enable RFA/B by SW control*/
|
|
if (pHalData->rf_type == RF_2T2R) {
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT10, 0);
|
|
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFInterfaceSW, BIT26, 0);
|
|
/*/phy_set_bb_reg(pAdapter, rFPGA0_XB_RFInterfaceOE, BIT10, 0);*/
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFParameter, BIT1, 1);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XAB_RFParameter, BIT17, 1);
|
|
}
|
|
}
|
|
pMptCtx->mpt_rf_path = ODM_RF_PATH_AB;
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
switch (ulAntennaRx) {
|
|
case ANTENNA_A:
|
|
r_rx_antenna_ofdm = 0x1; /* A*/
|
|
p_cck_txrx->r_cckrx_enable = 0x0; /* default: A*/
|
|
p_cck_txrx->r_cckrx_enable_2 = 0x0; /* option: A*/
|
|
chgRx = 1;
|
|
break;
|
|
case ANTENNA_B:
|
|
r_rx_antenna_ofdm = 0x2; /*/ B*/
|
|
p_cck_txrx->r_cckrx_enable = 0x1; /*/ default: B*/
|
|
p_cck_txrx->r_cckrx_enable_2 = 0x1; /*/ option: B*/
|
|
chgRx = 1;
|
|
break;
|
|
case ANTENNA_AB:/*/ For 8192S and 8192E/U...*/
|
|
r_rx_antenna_ofdm = 0x3;/*/ AB*/
|
|
p_cck_txrx->r_cckrx_enable = 0x0;/*/ default:A*/
|
|
p_cck_txrx->r_cckrx_enable_2 = 0x1;/*/ option:B*/
|
|
chgRx = 1;
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
|
|
|
|
if (chgTx && chgRx) {
|
|
switch (pHalData->rf_chip) {
|
|
case RF_8225:
|
|
case RF_8256:
|
|
case RF_6052:
|
|
/*/r_ant_sel_cck_val = r_ant_select_cck_val;*/
|
|
phy_set_bb_reg(pAdapter, rFPGA1_TxInfo, 0x7fffffff, r_ant_select_ofdm_val); /*/OFDM Tx*/
|
|
phy_set_bb_reg(pAdapter, rFPGA0_TxInfo, 0x0000000f, r_ofdm_tx_en_val); /*/OFDM Tx*/
|
|
phy_set_bb_reg(pAdapter, rOFDM0_TRxPathEnable, 0x0000000f, r_rx_antenna_ofdm); /*/OFDM Rx*/
|
|
phy_set_bb_reg(pAdapter, rOFDM1_TRxPathEnable, 0x0000000f, r_rx_antenna_ofdm); /*/OFDM Rx*/
|
|
phy_set_bb_reg(pAdapter, rCCK0_AFESetting, bMaskByte3, r_ant_select_cck_val);/*/r_ant_sel_cck_val); /CCK TxRx*/
|
|
break;
|
|
|
|
default:
|
|
RTW_INFO("Unsupported RFChipID for switching antenna.\n");
|
|
break;
|
|
}
|
|
}
|
|
} /* MPT_ProSetRFPath */
|
|
|
|
|
|
void hal_mpt_SetAntenna(PADAPTER pAdapter)
|
|
|
|
{
|
|
RTW_INFO("Do %s\n", __func__);
|
|
mpt_SetRFPath_819X(pAdapter);
|
|
RTW_INFO("mpt_SetRFPath_819X Do %s\n", __func__);
|
|
}
|
|
|
|
s32 hal_mpt_SetThermalMeter(PADAPTER pAdapter, u8 target_ther)
|
|
{
|
|
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
|
|
|
|
if (!netif_running(pAdapter->pnetdev)) {
|
|
return _FAIL;
|
|
}
|
|
|
|
|
|
if (check_fwstate(&pAdapter->mlmepriv, WIFI_MP_STATE) == false) {
|
|
return _FAIL;
|
|
}
|
|
|
|
|
|
target_ther &= 0xff;
|
|
if (target_ther < 0x07)
|
|
target_ther = 0x07;
|
|
else if (target_ther > 0x1d)
|
|
target_ther = 0x1d;
|
|
|
|
pHalData->eeprom_thermal_meter = target_ther;
|
|
|
|
return _SUCCESS;
|
|
}
|
|
|
|
|
|
void hal_mpt_TriggerRFThermalMeter(PADAPTER pAdapter)
|
|
{
|
|
phy_set_rf_reg(pAdapter, ODM_RF_PATH_A, 0x42, BIT17 | BIT16, 0x03);
|
|
|
|
}
|
|
|
|
|
|
u8 hal_mpt_ReadRFThermalMeter(PADAPTER pAdapter)
|
|
|
|
{
|
|
u32 ThermalValue = 0;
|
|
|
|
ThermalValue = (u8)phy_query_rf_reg(pAdapter, ODM_RF_PATH_A, 0x42, 0xfc00); /*0x42: RF Reg[15:10]*/
|
|
return (u8)ThermalValue;
|
|
|
|
}
|
|
|
|
void hal_mpt_GetThermalMeter(PADAPTER pAdapter, u8 *value)
|
|
{
|
|
hal_mpt_TriggerRFThermalMeter(pAdapter);
|
|
rtw_msleep_os(1000);
|
|
*value = hal_mpt_ReadRFThermalMeter(pAdapter);
|
|
}
|
|
|
|
void hal_mpt_SetSingleCarrierTx(PADAPTER pAdapter, u8 bStart)
|
|
{
|
|
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
|
|
|
|
pAdapter->mppriv.mpt_ctx.bSingleCarrier = bStart;
|
|
|
|
if (bStart) {/*/ Start Single Carrier.*/
|
|
/*/ Start Single Carrier.*/
|
|
/*/ 1. if OFDM block on?*/
|
|
if (!phy_query_bb_reg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
|
|
phy_set_bb_reg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 1); /*set OFDM block on*/
|
|
|
|
/*/ 2. set CCK test mode off, set to CCK normal mode*/
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKBBMode, 0);
|
|
|
|
/*/ 3. turn on scramble setting*/
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKScramble, 1);
|
|
|
|
/*/ 4. Turn On Continue Tx and turn off the other test modes.*/
|
|
phy_set_bb_reg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_SingleCarrier);
|
|
} else {
|
|
/*/ Stop Single Carrier.*/
|
|
/*/ Stop Single Carrier.*/
|
|
/*/ Turn off all test modes.*/
|
|
phy_set_bb_reg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
|
|
|
|
rtw_msleep_os(10);
|
|
/*/BB Reset*/
|
|
phy_set_bb_reg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
|
|
phy_set_bb_reg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
|
|
}
|
|
}
|
|
|
|
|
|
void hal_mpt_SetSingleToneTx(PADAPTER pAdapter, u8 bStart)
|
|
{
|
|
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
|
|
PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
|
|
u32 ulAntennaTx = pHalData->antenna_tx_path;
|
|
static u32 regRF = 0, regBB0 = 0, regBB1 = 0, regBB2 = 0, regBB3 = 0;
|
|
u8 rfPath;
|
|
|
|
switch (ulAntennaTx) {
|
|
case ANTENNA_B:
|
|
rfPath = ODM_RF_PATH_B;
|
|
break;
|
|
case ANTENNA_C:
|
|
rfPath = ODM_RF_PATH_C;
|
|
break;
|
|
case ANTENNA_D:
|
|
rfPath = ODM_RF_PATH_D;
|
|
break;
|
|
case ANTENNA_A:
|
|
default:
|
|
rfPath = ODM_RF_PATH_A;
|
|
break;
|
|
}
|
|
|
|
pAdapter->mppriv.mpt_ctx.is_single_tone = bStart;
|
|
if (bStart) {
|
|
/*/ Start Single Tone.*/
|
|
/*/ <20120326, Kordan> To amplify the power of tone for Xtal calibration. (asked by Edlu)*/
|
|
if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
|
|
regRF = phy_query_rf_reg(pAdapter, rfPath, lna_low_gain_3, bRFRegOffsetMask);
|
|
phy_set_rf_reg(pAdapter, ODM_RF_PATH_A, lna_low_gain_3, BIT1, 0x1); /*/ RF LO enabled*/
|
|
phy_set_bb_reg(pAdapter, rFPGA0_RFMOD, bCCKEn, 0x0);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 0x0);
|
|
} else { /*/ Turn On SingleTone and turn off the other test modes.*/
|
|
phy_set_bb_reg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_SingleTone);
|
|
}
|
|
write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
|
|
write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
|
|
} else {/*/ Stop Single Ton e.*/
|
|
if (IS_HARDWARE_TYPE_8188E(pAdapter)) {
|
|
phy_set_rf_reg(pAdapter, ODM_RF_PATH_A, lna_low_gain_3, bRFRegOffsetMask, regRF);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_RFMOD, bCCKEn, 0x1);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 0x1);
|
|
}
|
|
write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
|
|
write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
|
|
}
|
|
}
|
|
|
|
void hal_mpt_SetCarrierSuppressionTx(PADAPTER pAdapter, u8 bStart)
|
|
{
|
|
u8 Rate;
|
|
|
|
pAdapter->mppriv.mpt_ctx.is_carrier_suppression = bStart;
|
|
|
|
Rate = HwRateToMPTRate(pAdapter->mppriv.rateidx);
|
|
if (bStart) {/* Start Carrier Suppression.*/
|
|
if (Rate <= MPT_RATE_11M) {
|
|
/*/ 1. if CCK block on?*/
|
|
if (!read_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn))
|
|
write_bbreg(pAdapter, rFPGA0_RFMOD, bCCKEn, bEnable);/*set CCK block on*/
|
|
|
|
/*/Turn Off All Test Mode*/
|
|
phy_set_bb_reg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
|
|
|
|
write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x2); /*/transmit mode*/
|
|
write_bbreg(pAdapter, rCCK0_System, bCCKScramble, 0x0); /*/turn off scramble setting*/
|
|
|
|
/*/Set CCK Tx Test Rate*/
|
|
write_bbreg(pAdapter, rCCK0_System, bCCKTxRate, 0x0); /*/Set FTxRate to 1Mbps*/
|
|
}
|
|
|
|
/*Set for dynamic set Power index*/
|
|
write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
|
|
write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
|
|
|
|
} else {/* Stop Carrier Suppression.*/
|
|
|
|
if (Rate <= MPT_RATE_11M) {
|
|
write_bbreg(pAdapter, rCCK0_System, bCCKBBMode, 0x0); /*normal mode*/
|
|
write_bbreg(pAdapter, rCCK0_System, bCCKScramble, 0x1); /*turn on scramble setting*/
|
|
|
|
/*BB Reset*/
|
|
write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
|
|
write_bbreg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
|
|
}
|
|
/*Stop for dynamic set Power index*/
|
|
write_bbreg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
|
|
write_bbreg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
|
|
}
|
|
RTW_INFO("\n MPT_ProSetCarrierSupp() is finished.\n");
|
|
}
|
|
|
|
u32 hal_mpt_query_phytxok(PADAPTER pAdapter)
|
|
{
|
|
PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
|
|
RT_PMAC_TX_INFO PMacTxInfo = pMptCtx->PMacTxInfo;
|
|
u16 count = 0;
|
|
|
|
if (IS_MPT_CCK_RATE(PMacTxInfo.TX_RATE))
|
|
count = phy_query_bb_reg(pAdapter, 0xF50, bMaskLWord); /* [15:0]*/
|
|
else
|
|
count = phy_query_bb_reg(pAdapter, 0xF50, bMaskHWord); /* [31:16]*/
|
|
|
|
if (count > 50000) {
|
|
rtw_reset_phy_trx_ok_counters(pAdapter);
|
|
pAdapter->mppriv.tx.sended += count;
|
|
count = 0;
|
|
}
|
|
|
|
return pAdapter->mppriv.tx.sended + count;
|
|
|
|
}
|
|
|
|
static void mpt_StopCckContTx(
|
|
PADAPTER pAdapter
|
|
)
|
|
{
|
|
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
|
|
PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
|
|
u8 u1bReg;
|
|
|
|
pMptCtx->bCckContTx = false;
|
|
pMptCtx->bOfdmContTx = false;
|
|
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKBBMode, 0x0); /*normal mode*/
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKScramble, 0x1); /*turn on scramble setting*/
|
|
|
|
/*BB Reset*/
|
|
phy_set_bb_reg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
|
|
phy_set_bb_reg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
|
|
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
|
|
|
|
} /* mpt_StopCckContTx */
|
|
|
|
|
|
static void mpt_StopOfdmContTx(
|
|
PADAPTER pAdapter
|
|
)
|
|
{
|
|
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
|
|
PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
|
|
u8 u1bReg;
|
|
u32 data;
|
|
|
|
pMptCtx->bCckContTx = false;
|
|
pMptCtx->bOfdmContTx = false;
|
|
|
|
phy_set_bb_reg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
|
|
|
|
rtw_mdelay_os(10);
|
|
|
|
/*BB Reset*/
|
|
phy_set_bb_reg(pAdapter, rPMAC_Reset, bBBResetB, 0x0);
|
|
phy_set_bb_reg(pAdapter, rPMAC_Reset, bBBResetB, 0x1);
|
|
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000100);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000100);
|
|
} /* mpt_StopOfdmContTx */
|
|
|
|
|
|
static void mpt_StartCckContTx(
|
|
PADAPTER pAdapter
|
|
)
|
|
{
|
|
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
|
|
PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
|
|
u32 cckrate;
|
|
|
|
/* 1. if CCK block on */
|
|
if (!phy_query_bb_reg(pAdapter, rFPGA0_RFMOD, bCCKEn))
|
|
phy_set_bb_reg(pAdapter, rFPGA0_RFMOD, bCCKEn, 1);/*set CCK block on*/
|
|
|
|
/*Turn Off All Test Mode*/
|
|
phy_set_bb_reg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ALL_OFF);
|
|
|
|
cckrate = pAdapter->mppriv.rateidx;
|
|
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKTxRate, cckrate);
|
|
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKBBMode, 0x2); /*transmit mode*/
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKScramble, 0x1); /*turn on scramble setting*/
|
|
|
|
phy_set_bb_reg(pAdapter, 0xa14, 0x300, 0x3); /* 0xa15[1:0] = 11 force cck rxiq = 0*/
|
|
phy_set_bb_reg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1); /* 0xc08[16] = 1 force ofdm rxiq = ofdm txiq*/
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_HSSIParameter2, BIT14, 1);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_HSSIParameter2, BIT14, 1);
|
|
phy_set_bb_reg(pAdapter, 0x0B34, BIT14, 1);
|
|
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
|
|
|
|
pMptCtx->bCckContTx = true;
|
|
pMptCtx->bOfdmContTx = false;
|
|
|
|
} /* mpt_StartCckContTx */
|
|
|
|
|
|
static void mpt_StartOfdmContTx(
|
|
PADAPTER pAdapter
|
|
)
|
|
{
|
|
HAL_DATA_TYPE *pHalData = GET_HAL_DATA(pAdapter);
|
|
PMPT_CONTEXT pMptCtx = &(pAdapter->mppriv.mpt_ctx);
|
|
|
|
/* 1. if OFDM block on?*/
|
|
if (!phy_query_bb_reg(pAdapter, rFPGA0_RFMOD, bOFDMEn))
|
|
phy_set_bb_reg(pAdapter, rFPGA0_RFMOD, bOFDMEn, 1);/*set OFDM block on*/
|
|
|
|
/* 2. set CCK test mode off, set to CCK normal mode*/
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKBBMode, 0);
|
|
|
|
/* 3. turn on scramble setting*/
|
|
phy_set_bb_reg(pAdapter, rCCK0_System, bCCKScramble, 1);
|
|
|
|
phy_set_bb_reg(pAdapter, 0xa14, 0x300, 0x3); /* 0xa15[1:0] = 2b'11*/
|
|
phy_set_bb_reg(pAdapter, rOFDM0_TRMuxPar, 0x10000, 0x1); /* 0xc08[16] = 1*/
|
|
|
|
/* 4. Turn On Continue Tx and turn off the other test modes.*/
|
|
phy_set_bb_reg(pAdapter, rOFDM1_LSTF, BIT30 | BIT29 | BIT28, OFDM_ContinuousTx);
|
|
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XA_HSSIParameter1, bMaskDWord, 0x01000500);
|
|
phy_set_bb_reg(pAdapter, rFPGA0_XB_HSSIParameter1, bMaskDWord, 0x01000500);
|
|
|
|
pMptCtx->bCckContTx = false;
|
|
pMptCtx->bOfdmContTx = true;
|
|
} /* mpt_StartOfdmContTx */
|
|
|
|
void hal_mpt_SetContinuousTx(PADAPTER pAdapter, u8 bStart)
|
|
{
|
|
u8 Rate;
|
|
|
|
RT_TRACE(_module_mp_, _drv_info_,
|
|
("SetContinuousTx: rate:%d\n", pAdapter->mppriv.rateidx));
|
|
Rate = HwRateToMPTRate(pAdapter->mppriv.rateidx);
|
|
pAdapter->mppriv.mpt_ctx.is_start_cont_tx = bStart;
|
|
|
|
if (Rate <= MPT_RATE_11M) {
|
|
if (bStart)
|
|
mpt_StartCckContTx(pAdapter);
|
|
else
|
|
mpt_StopCckContTx(pAdapter);
|
|
|
|
} else if (Rate >= MPT_RATE_6M) {
|
|
if (bStart)
|
|
mpt_StartOfdmContTx(pAdapter);
|
|
else
|
|
mpt_StopOfdmContTx(pAdapter);
|
|
}
|
|
}
|
|
|
|
#endif /* CONFIG_MP_INCLUDE*/
|