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5bd4f692e0
The traditional license information is replaced by the SPDX form. There are no code changes. Signed-off-by: Larry Finger <Larry.Finger@lwfinger.net> Signed-off-by: Kalle Valo <kvalo@codeaurora.org>
597 lines
18 KiB
C
597 lines
18 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/* Copyright(c) 2009-2012 Realtek Corporation.*/
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#include "../wifi.h"
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#include "reg.h"
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#include "def.h"
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#include "phy.h"
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#include "rf.h"
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#include "dm.h"
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#include "hw.h"
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void rtl92d_phy_rf6052_set_bandwidth(struct ieee80211_hw *hw, u8 bandwidth)
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{
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struct rtl_priv *rtlpriv = rtl_priv(hw);
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struct rtl_phy *rtlphy = &(rtlpriv->phy);
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u8 rfpath;
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switch (bandwidth) {
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case HT_CHANNEL_WIDTH_20:
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for (rfpath = 0; rfpath < rtlphy->num_total_rfpath; rfpath++) {
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rtlphy->rfreg_chnlval[rfpath] = ((rtlphy->rfreg_chnlval
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[rfpath] & 0xfffff3ff) | 0x0400);
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rtl_set_rfreg(hw, rfpath, RF_CHNLBW, BIT(10) |
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BIT(11), 0x01);
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RT_TRACE(rtlpriv, COMP_RF, DBG_LOUD,
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"20M RF 0x18 = 0x%x\n",
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rtlphy->rfreg_chnlval[rfpath]);
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}
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break;
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case HT_CHANNEL_WIDTH_20_40:
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for (rfpath = 0; rfpath < rtlphy->num_total_rfpath; rfpath++) {
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rtlphy->rfreg_chnlval[rfpath] =
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((rtlphy->rfreg_chnlval[rfpath] & 0xfffff3ff));
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rtl_set_rfreg(hw, rfpath, RF_CHNLBW, BIT(10) | BIT(11),
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0x00);
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RT_TRACE(rtlpriv, COMP_RF, DBG_LOUD,
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"40M RF 0x18 = 0x%x\n",
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rtlphy->rfreg_chnlval[rfpath]);
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}
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break;
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default:
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pr_err("unknown bandwidth: %#X\n", bandwidth);
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break;
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}
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}
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void rtl92d_phy_rf6052_set_cck_txpower(struct ieee80211_hw *hw,
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u8 *ppowerlevel)
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{
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struct rtl_priv *rtlpriv = rtl_priv(hw);
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struct rtl_phy *rtlphy = &(rtlpriv->phy);
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struct rtl_mac *mac = rtl_mac(rtl_priv(hw));
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struct rtl_efuse *rtlefuse = rtl_efuse(rtl_priv(hw));
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u32 tx_agc[2] = {0, 0}, tmpval;
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bool turbo_scanoff = false;
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u8 idx1, idx2;
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u8 *ptr;
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if (rtlefuse->eeprom_regulatory != 0)
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turbo_scanoff = true;
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if (mac->act_scanning) {
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tx_agc[RF90_PATH_A] = 0x3f3f3f3f;
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tx_agc[RF90_PATH_B] = 0x3f3f3f3f;
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if (turbo_scanoff) {
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for (idx1 = RF90_PATH_A; idx1 <= RF90_PATH_B; idx1++) {
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tx_agc[idx1] = ppowerlevel[idx1] |
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(ppowerlevel[idx1] << 8) |
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(ppowerlevel[idx1] << 16) |
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(ppowerlevel[idx1] << 24);
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}
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}
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} else {
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for (idx1 = RF90_PATH_A; idx1 <= RF90_PATH_B; idx1++) {
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tx_agc[idx1] = ppowerlevel[idx1] |
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(ppowerlevel[idx1] << 8) |
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(ppowerlevel[idx1] << 16) |
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(ppowerlevel[idx1] << 24);
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}
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if (rtlefuse->eeprom_regulatory == 0) {
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tmpval = (rtlphy->mcs_offset[0][6]) +
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(rtlphy->mcs_offset[0][7] << 8);
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tx_agc[RF90_PATH_A] += tmpval;
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tmpval = (rtlphy->mcs_offset[0][14]) +
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(rtlphy->mcs_offset[0][15] << 24);
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tx_agc[RF90_PATH_B] += tmpval;
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}
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}
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for (idx1 = RF90_PATH_A; idx1 <= RF90_PATH_B; idx1++) {
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ptr = (u8 *) (&(tx_agc[idx1]));
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for (idx2 = 0; idx2 < 4; idx2++) {
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if (*ptr > RF6052_MAX_TX_PWR)
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*ptr = RF6052_MAX_TX_PWR;
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ptr++;
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}
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}
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tmpval = tx_agc[RF90_PATH_A] & 0xff;
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rtl_set_bbreg(hw, RTXAGC_A_CCK1_MCS32, MASKBYTE1, tmpval);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"CCK PWR 1M (rf-A) = 0x%x (reg 0x%x)\n",
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tmpval, RTXAGC_A_CCK1_MCS32);
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tmpval = tx_agc[RF90_PATH_A] >> 8;
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rtl_set_bbreg(hw, RTXAGC_B_CCK11_A_CCK2_11, 0xffffff00, tmpval);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"CCK PWR 2~11M (rf-A) = 0x%x (reg 0x%x)\n",
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tmpval, RTXAGC_B_CCK11_A_CCK2_11);
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tmpval = tx_agc[RF90_PATH_B] >> 24;
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rtl_set_bbreg(hw, RTXAGC_B_CCK11_A_CCK2_11, MASKBYTE0, tmpval);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"CCK PWR 11M (rf-B) = 0x%x (reg 0x%x)\n",
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tmpval, RTXAGC_B_CCK11_A_CCK2_11);
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tmpval = tx_agc[RF90_PATH_B] & 0x00ffffff;
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rtl_set_bbreg(hw, RTXAGC_B_CCK1_55_MCS32, 0xffffff00, tmpval);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"CCK PWR 1~5.5M (rf-B) = 0x%x (reg 0x%x)\n",
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tmpval, RTXAGC_B_CCK1_55_MCS32);
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}
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static void _rtl92d_phy_get_power_base(struct ieee80211_hw *hw,
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u8 *ppowerlevel, u8 channel,
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u32 *ofdmbase, u32 *mcsbase)
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{
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struct rtl_priv *rtlpriv = rtl_priv(hw);
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struct rtl_phy *rtlphy = &(rtlpriv->phy);
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struct rtl_efuse *rtlefuse = rtl_efuse(rtl_priv(hw));
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u32 powerbase0, powerbase1;
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u8 legacy_pwrdiff, ht20_pwrdiff;
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u8 i, powerlevel[2];
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for (i = 0; i < 2; i++) {
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powerlevel[i] = ppowerlevel[i];
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legacy_pwrdiff = rtlefuse->txpwr_legacyhtdiff[i][channel - 1];
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powerbase0 = powerlevel[i] + legacy_pwrdiff;
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powerbase0 = (powerbase0 << 24) | (powerbase0 << 16) |
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(powerbase0 << 8) | powerbase0;
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*(ofdmbase + i) = powerbase0;
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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" [OFDM power base index rf(%c) = 0x%x]\n",
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i == 0 ? 'A' : 'B', *(ofdmbase + i));
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}
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for (i = 0; i < 2; i++) {
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if (rtlphy->current_chan_bw == HT_CHANNEL_WIDTH_20) {
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ht20_pwrdiff = rtlefuse->txpwr_ht20diff[i][channel - 1];
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powerlevel[i] += ht20_pwrdiff;
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}
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powerbase1 = powerlevel[i];
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powerbase1 = (powerbase1 << 24) | (powerbase1 << 16) |
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(powerbase1 << 8) | powerbase1;
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*(mcsbase + i) = powerbase1;
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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" [MCS power base index rf(%c) = 0x%x]\n",
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i == 0 ? 'A' : 'B', *(mcsbase + i));
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}
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}
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static u8 _rtl92d_phy_get_chnlgroup_bypg(u8 chnlindex)
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{
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u8 group;
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u8 channel_info[59] = {
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1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14,
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36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58,
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60, 62, 64, 100, 102, 104, 106, 108, 110, 112,
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114, 116, 118, 120, 122, 124, 126, 128, 130, 132,
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134, 136, 138, 140, 149, 151, 153, 155, 157, 159,
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161, 163, 165
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};
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if (channel_info[chnlindex] <= 3) /* Chanel 1-3 */
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group = 0;
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else if (channel_info[chnlindex] <= 9) /* Channel 4-9 */
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group = 1;
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else if (channel_info[chnlindex] <= 14) /* Channel 10-14 */
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group = 2;
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else if (channel_info[chnlindex] <= 64)
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group = 6;
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else if (channel_info[chnlindex] <= 140)
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group = 7;
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else
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group = 8;
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return group;
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}
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static void _rtl92d_get_txpower_writeval_by_regulatory(struct ieee80211_hw *hw,
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u8 channel, u8 index,
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u32 *powerbase0,
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u32 *powerbase1,
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u32 *p_outwriteval)
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{
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struct rtl_priv *rtlpriv = rtl_priv(hw);
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struct rtl_phy *rtlphy = &(rtlpriv->phy);
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struct rtl_efuse *rtlefuse = rtl_efuse(rtl_priv(hw));
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u8 i, chnlgroup = 0, pwr_diff_limit[4];
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u32 writeval = 0, customer_limit, rf;
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for (rf = 0; rf < 2; rf++) {
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switch (rtlefuse->eeprom_regulatory) {
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case 0:
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chnlgroup = 0;
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writeval = rtlphy->mcs_offset
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[chnlgroup][index +
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(rf ? 8 : 0)] + ((index < 2) ?
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powerbase0[rf] :
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powerbase1[rf]);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"RTK better performance, writeval(%c) = 0x%x\n",
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rf == 0 ? 'A' : 'B', writeval);
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break;
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case 1:
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if (rtlphy->pwrgroup_cnt == 1)
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chnlgroup = 0;
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if (rtlphy->pwrgroup_cnt >= MAX_PG_GROUP) {
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chnlgroup = _rtl92d_phy_get_chnlgroup_bypg(
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channel - 1);
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if (rtlphy->current_chan_bw ==
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HT_CHANNEL_WIDTH_20)
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chnlgroup++;
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else
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chnlgroup += 4;
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writeval = rtlphy->mcs_offset
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[chnlgroup][index +
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(rf ? 8 : 0)] + ((index < 2) ?
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powerbase0[rf] :
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powerbase1[rf]);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"Realtek regulatory, 20MHz, writeval(%c) = 0x%x\n",
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rf == 0 ? 'A' : 'B', writeval);
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}
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break;
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case 2:
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writeval = ((index < 2) ? powerbase0[rf] :
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powerbase1[rf]);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"Better regulatory, writeval(%c) = 0x%x\n",
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rf == 0 ? 'A' : 'B', writeval);
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break;
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case 3:
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chnlgroup = 0;
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if (rtlphy->current_chan_bw == HT_CHANNEL_WIDTH_20_40) {
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"customer's limit, 40MHz rf(%c) = 0x%x\n",
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rf == 0 ? 'A' : 'B',
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rtlefuse->pwrgroup_ht40[rf]
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[channel - 1]);
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} else {
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"customer's limit, 20MHz rf(%c) = 0x%x\n",
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rf == 0 ? 'A' : 'B',
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rtlefuse->pwrgroup_ht20[rf]
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[channel - 1]);
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}
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for (i = 0; i < 4; i++) {
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pwr_diff_limit[i] = (u8)((rtlphy->mcs_offset
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[chnlgroup][index + (rf ? 8 : 0)] &
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(0x7f << (i * 8))) >> (i * 8));
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if (rtlphy->current_chan_bw ==
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HT_CHANNEL_WIDTH_20_40) {
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if (pwr_diff_limit[i] >
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rtlefuse->pwrgroup_ht40[rf]
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[channel - 1])
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pwr_diff_limit[i] =
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rtlefuse->pwrgroup_ht40
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[rf][channel - 1];
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} else {
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if (pwr_diff_limit[i] >
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rtlefuse->pwrgroup_ht20[rf][
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channel - 1])
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pwr_diff_limit[i] =
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rtlefuse->pwrgroup_ht20[rf]
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[channel - 1];
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}
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}
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customer_limit = (pwr_diff_limit[3] << 24) |
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(pwr_diff_limit[2] << 16) |
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(pwr_diff_limit[1] << 8) |
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(pwr_diff_limit[0]);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"Customer's limit rf(%c) = 0x%x\n",
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rf == 0 ? 'A' : 'B', customer_limit);
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writeval = customer_limit + ((index < 2) ?
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powerbase0[rf] : powerbase1[rf]);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"Customer, writeval rf(%c)= 0x%x\n",
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rf == 0 ? 'A' : 'B', writeval);
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break;
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default:
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chnlgroup = 0;
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writeval = rtlphy->mcs_offset[chnlgroup][index +
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(rf ? 8 : 0)] + ((index < 2) ?
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powerbase0[rf] : powerbase1[rf]);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"RTK better performance, writeval rf(%c) = 0x%x\n",
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rf == 0 ? 'A' : 'B', writeval);
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break;
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}
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*(p_outwriteval + rf) = writeval;
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}
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}
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static void _rtl92d_write_ofdm_power_reg(struct ieee80211_hw *hw,
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u8 index, u32 *pvalue)
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{
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struct rtl_priv *rtlpriv = rtl_priv(hw);
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struct rtl_phy *rtlphy = &(rtlpriv->phy);
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static u16 regoffset_a[6] = {
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RTXAGC_A_RATE18_06, RTXAGC_A_RATE54_24,
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RTXAGC_A_MCS03_MCS00, RTXAGC_A_MCS07_MCS04,
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RTXAGC_A_MCS11_MCS08, RTXAGC_A_MCS15_MCS12
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};
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static u16 regoffset_b[6] = {
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RTXAGC_B_RATE18_06, RTXAGC_B_RATE54_24,
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RTXAGC_B_MCS03_MCS00, RTXAGC_B_MCS07_MCS04,
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RTXAGC_B_MCS11_MCS08, RTXAGC_B_MCS15_MCS12
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};
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u8 i, rf, pwr_val[4];
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u32 writeval;
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u16 regoffset;
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for (rf = 0; rf < 2; rf++) {
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writeval = pvalue[rf];
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for (i = 0; i < 4; i++) {
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pwr_val[i] = (u8) ((writeval & (0x7f <<
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(i * 8))) >> (i * 8));
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if (pwr_val[i] > RF6052_MAX_TX_PWR)
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pwr_val[i] = RF6052_MAX_TX_PWR;
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}
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writeval = (pwr_val[3] << 24) | (pwr_val[2] << 16) |
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(pwr_val[1] << 8) | pwr_val[0];
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if (rf == 0)
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regoffset = regoffset_a[index];
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else
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regoffset = regoffset_b[index];
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rtl_set_bbreg(hw, regoffset, MASKDWORD, writeval);
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RTPRINT(rtlpriv, FPHY, PHY_TXPWR,
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"Set 0x%x = %08x\n", regoffset, writeval);
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if (((get_rf_type(rtlphy) == RF_2T2R) &&
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(regoffset == RTXAGC_A_MCS15_MCS12 ||
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regoffset == RTXAGC_B_MCS15_MCS12)) ||
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((get_rf_type(rtlphy) != RF_2T2R) &&
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(regoffset == RTXAGC_A_MCS07_MCS04 ||
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regoffset == RTXAGC_B_MCS07_MCS04))) {
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writeval = pwr_val[3];
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if (regoffset == RTXAGC_A_MCS15_MCS12 ||
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regoffset == RTXAGC_A_MCS07_MCS04)
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regoffset = 0xc90;
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if (regoffset == RTXAGC_B_MCS15_MCS12 ||
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regoffset == RTXAGC_B_MCS07_MCS04)
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regoffset = 0xc98;
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for (i = 0; i < 3; i++) {
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if (i != 2)
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writeval = (writeval > 8) ?
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(writeval - 8) : 0;
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else
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writeval = (writeval > 6) ?
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(writeval - 6) : 0;
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rtl_write_byte(rtlpriv, (u32) (regoffset + i),
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(u8) writeval);
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}
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}
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}
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}
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void rtl92d_phy_rf6052_set_ofdm_txpower(struct ieee80211_hw *hw,
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u8 *ppowerlevel, u8 channel)
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{
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u32 writeval[2], powerbase0[2], powerbase1[2];
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u8 index;
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_rtl92d_phy_get_power_base(hw, ppowerlevel, channel,
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&powerbase0[0], &powerbase1[0]);
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for (index = 0; index < 6; index++) {
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_rtl92d_get_txpower_writeval_by_regulatory(hw,
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channel, index, &powerbase0[0],
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&powerbase1[0], &writeval[0]);
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_rtl92d_write_ofdm_power_reg(hw, index, &writeval[0]);
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}
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}
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bool rtl92d_phy_enable_anotherphy(struct ieee80211_hw *hw, bool bmac0)
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{
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struct rtl_priv *rtlpriv = rtl_priv(hw);
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struct rtl_hal *rtlhal = &(rtlpriv->rtlhal);
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u8 u1btmp;
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u8 direct = bmac0 ? BIT(3) | BIT(2) : BIT(3);
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u8 mac_reg = bmac0 ? REG_MAC1 : REG_MAC0;
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u8 mac_on_bit = bmac0 ? MAC1_ON : MAC0_ON;
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bool bresult = true; /* true: need to enable BB/RF power */
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rtlhal->during_mac0init_radiob = false;
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rtlhal->during_mac1init_radioa = false;
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RT_TRACE(rtlpriv, COMP_RF, DBG_LOUD, "===>\n");
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/* MAC0 Need PHY1 load radio_b.txt . Driver use DBI to write. */
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u1btmp = rtl_read_byte(rtlpriv, mac_reg);
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if (!(u1btmp & mac_on_bit)) {
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RT_TRACE(rtlpriv, COMP_INIT, DBG_LOUD, "enable BB & RF\n");
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/* Enable BB and RF power */
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rtl92de_write_dword_dbi(hw, REG_SYS_ISO_CTRL,
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rtl92de_read_dword_dbi(hw, REG_SYS_ISO_CTRL, direct) |
|
|
BIT(29) | BIT(16) | BIT(17), direct);
|
|
} else {
|
|
/* We think if MAC1 is ON,then radio_a.txt
|
|
* and radio_b.txt has been load. */
|
|
bresult = false;
|
|
}
|
|
RT_TRACE(rtlpriv, COMP_RF, DBG_LOUD, "<===\n");
|
|
return bresult;
|
|
|
|
}
|
|
|
|
void rtl92d_phy_powerdown_anotherphy(struct ieee80211_hw *hw, bool bmac0)
|
|
{
|
|
struct rtl_priv *rtlpriv = rtl_priv(hw);
|
|
struct rtl_hal *rtlhal = &(rtlpriv->rtlhal);
|
|
u8 u1btmp;
|
|
u8 direct = bmac0 ? BIT(3) | BIT(2) : BIT(3);
|
|
u8 mac_reg = bmac0 ? REG_MAC1 : REG_MAC0;
|
|
u8 mac_on_bit = bmac0 ? MAC1_ON : MAC0_ON;
|
|
|
|
rtlhal->during_mac0init_radiob = false;
|
|
rtlhal->during_mac1init_radioa = false;
|
|
RT_TRACE(rtlpriv, COMP_RF, DBG_LOUD, "====>\n");
|
|
/* check MAC0 enable or not again now, if
|
|
* enabled, not power down radio A. */
|
|
u1btmp = rtl_read_byte(rtlpriv, mac_reg);
|
|
if (!(u1btmp & mac_on_bit)) {
|
|
RT_TRACE(rtlpriv, COMP_INIT, DBG_LOUD, "power down\n");
|
|
/* power down RF radio A according to YuNan's advice. */
|
|
rtl92de_write_dword_dbi(hw, RFPGA0_XA_LSSIPARAMETER,
|
|
0x00000000, direct);
|
|
}
|
|
RT_TRACE(rtlpriv, COMP_RF, DBG_LOUD, "<====\n");
|
|
}
|
|
|
|
bool rtl92d_phy_rf6052_config(struct ieee80211_hw *hw)
|
|
{
|
|
struct rtl_priv *rtlpriv = rtl_priv(hw);
|
|
struct rtl_phy *rtlphy = &(rtlpriv->phy);
|
|
bool rtstatus = true;
|
|
struct rtl_hal *rtlhal = &(rtlpriv->rtlhal);
|
|
u32 u4_regvalue = 0;
|
|
u8 rfpath;
|
|
struct bb_reg_def *pphyreg;
|
|
bool mac1_initradioa_first = false, mac0_initradiob_first = false;
|
|
bool need_pwrdown_radioa = false, need_pwrdown_radiob = false;
|
|
bool true_bpath = false;
|
|
|
|
if (rtlphy->rf_type == RF_1T1R)
|
|
rtlphy->num_total_rfpath = 1;
|
|
else
|
|
rtlphy->num_total_rfpath = 2;
|
|
|
|
/* Single phy mode: use radio_a radio_b config path_A path_B */
|
|
/* seperately by MAC0, and MAC1 needn't configure RF; */
|
|
/* Dual PHY mode:MAC0 use radio_a config 1st phy path_A, */
|
|
/* MAC1 use radio_b config 2nd PHY path_A. */
|
|
/* DMDP,MAC0 on G band,MAC1 on A band. */
|
|
if (rtlhal->macphymode == DUALMAC_DUALPHY) {
|
|
if (rtlhal->current_bandtype == BAND_ON_2_4G &&
|
|
rtlhal->interfaceindex == 0) {
|
|
/* MAC0 needs PHY1 load radio_b.txt.
|
|
* Driver use DBI to write. */
|
|
if (rtl92d_phy_enable_anotherphy(hw, true)) {
|
|
rtlphy->num_total_rfpath = 2;
|
|
mac0_initradiob_first = true;
|
|
} else {
|
|
/* We think if MAC1 is ON,then radio_a.txt and
|
|
* radio_b.txt has been load. */
|
|
return rtstatus;
|
|
}
|
|
} else if (rtlhal->current_bandtype == BAND_ON_5G &&
|
|
rtlhal->interfaceindex == 1) {
|
|
/* MAC1 needs PHY0 load radio_a.txt.
|
|
* Driver use DBI to write. */
|
|
if (rtl92d_phy_enable_anotherphy(hw, false)) {
|
|
rtlphy->num_total_rfpath = 2;
|
|
mac1_initradioa_first = true;
|
|
} else {
|
|
/* We think if MAC0 is ON,then radio_a.txt and
|
|
* radio_b.txt has been load. */
|
|
return rtstatus;
|
|
}
|
|
} else if (rtlhal->interfaceindex == 1) {
|
|
/* MAC0 enabled, only init radia B. */
|
|
true_bpath = true;
|
|
}
|
|
}
|
|
|
|
for (rfpath = 0; rfpath < rtlphy->num_total_rfpath; rfpath++) {
|
|
/* Mac1 use PHY0 write */
|
|
if (mac1_initradioa_first) {
|
|
if (rfpath == RF90_PATH_A) {
|
|
rtlhal->during_mac1init_radioa = true;
|
|
need_pwrdown_radioa = true;
|
|
} else if (rfpath == RF90_PATH_B) {
|
|
rtlhal->during_mac1init_radioa = false;
|
|
mac1_initradioa_first = false;
|
|
rfpath = RF90_PATH_A;
|
|
true_bpath = true;
|
|
rtlphy->num_total_rfpath = 1;
|
|
}
|
|
} else if (mac0_initradiob_first) {
|
|
/* Mac0 use PHY1 write */
|
|
if (rfpath == RF90_PATH_A)
|
|
rtlhal->during_mac0init_radiob = false;
|
|
if (rfpath == RF90_PATH_B) {
|
|
rtlhal->during_mac0init_radiob = true;
|
|
mac0_initradiob_first = false;
|
|
need_pwrdown_radiob = true;
|
|
rfpath = RF90_PATH_A;
|
|
true_bpath = true;
|
|
rtlphy->num_total_rfpath = 1;
|
|
}
|
|
}
|
|
pphyreg = &rtlphy->phyreg_def[rfpath];
|
|
switch (rfpath) {
|
|
case RF90_PATH_A:
|
|
case RF90_PATH_C:
|
|
u4_regvalue = rtl_get_bbreg(hw, pphyreg->rfintfs,
|
|
BRFSI_RFENV);
|
|
break;
|
|
case RF90_PATH_B:
|
|
case RF90_PATH_D:
|
|
u4_regvalue = rtl_get_bbreg(hw, pphyreg->rfintfs,
|
|
BRFSI_RFENV << 16);
|
|
break;
|
|
}
|
|
rtl_set_bbreg(hw, pphyreg->rfintfe, BRFSI_RFENV << 16, 0x1);
|
|
udelay(1);
|
|
rtl_set_bbreg(hw, pphyreg->rfintfo, BRFSI_RFENV, 0x1);
|
|
udelay(1);
|
|
/* Set bit number of Address and Data for RF register */
|
|
/* Set 1 to 4 bits for 8255 */
|
|
rtl_set_bbreg(hw, pphyreg->rfhssi_para2,
|
|
B3WIREADDRESSLENGTH, 0x0);
|
|
udelay(1);
|
|
/* Set 0 to 12 bits for 8255 */
|
|
rtl_set_bbreg(hw, pphyreg->rfhssi_para2, B3WIREDATALENGTH, 0x0);
|
|
udelay(1);
|
|
switch (rfpath) {
|
|
case RF90_PATH_A:
|
|
if (true_bpath)
|
|
rtstatus = rtl92d_phy_config_rf_with_headerfile(
|
|
hw, radiob_txt,
|
|
(enum radio_path)rfpath);
|
|
else
|
|
rtstatus = rtl92d_phy_config_rf_with_headerfile(
|
|
hw, radioa_txt,
|
|
(enum radio_path)rfpath);
|
|
break;
|
|
case RF90_PATH_B:
|
|
rtstatus =
|
|
rtl92d_phy_config_rf_with_headerfile(hw, radiob_txt,
|
|
(enum radio_path) rfpath);
|
|
break;
|
|
case RF90_PATH_C:
|
|
break;
|
|
case RF90_PATH_D:
|
|
break;
|
|
}
|
|
switch (rfpath) {
|
|
case RF90_PATH_A:
|
|
case RF90_PATH_C:
|
|
rtl_set_bbreg(hw, pphyreg->rfintfs, BRFSI_RFENV,
|
|
u4_regvalue);
|
|
break;
|
|
case RF90_PATH_B:
|
|
case RF90_PATH_D:
|
|
rtl_set_bbreg(hw, pphyreg->rfintfs, BRFSI_RFENV << 16,
|
|
u4_regvalue);
|
|
break;
|
|
}
|
|
if (!rtstatus) {
|
|
RT_TRACE(rtlpriv, COMP_INIT, DBG_TRACE,
|
|
"Radio[%d] Fail!!\n", rfpath);
|
|
goto phy_rf_cfg_fail;
|
|
}
|
|
|
|
}
|
|
|
|
/* check MAC0 enable or not again, if enabled,
|
|
* not power down radio A. */
|
|
/* check MAC1 enable or not again, if enabled,
|
|
* not power down radio B. */
|
|
if (need_pwrdown_radioa)
|
|
rtl92d_phy_powerdown_anotherphy(hw, false);
|
|
else if (need_pwrdown_radiob)
|
|
rtl92d_phy_powerdown_anotherphy(hw, true);
|
|
RT_TRACE(rtlpriv, COMP_INIT, DBG_TRACE, "<---\n");
|
|
return rtstatus;
|
|
|
|
phy_rf_cfg_fail:
|
|
return rtstatus;
|
|
}
|