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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2025-01-23 04:39:22 +07:00
staging: brcm80211: remove uncoditional code blocks from brcmsmac
Using a block statement to scope function variables is not common in linux kernel development. Browsed through the brcmsmac to remove those. Reported-by: Johannes Berg <johannes@sipsolutions.net> Reviewed-by: Roland Vossen <rvossen@broadcom.com> Reviewed-by: Pieter-Paul Giesberts <pieterpg@broadcom.com> Signed-off-by: Franky Lin <frankyl@broadcom.com> Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
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748b636c40
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@ -5076,7 +5076,7 @@ brcms_c_attach(struct brcms_info *wl, u16 vendor, u16 device, uint unit,
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{
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struct brcms_c_info *wlc;
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uint err = 0;
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uint j;
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uint i, j;
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struct brcms_pub *pub;
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uint n_disabled;
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@ -5149,11 +5149,8 @@ brcms_c_attach(struct brcms_info *wl, u16 vendor, u16 device, uint unit,
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wlc->stf->hw_rxchain);
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/* pull up some info resulting from the low attach */
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{
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int i;
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for (i = 0; i < NFIFO; i++)
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wlc->core->txavail[i] = wlc->hw->txavail[i];
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}
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for (i = 0; i < NFIFO; i++)
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wlc->core->txavail[i] = wlc->hw->txavail[i];
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brcms_b_hw_etheraddr(wlc->hw, wlc->perm_etheraddr);
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@ -1199,12 +1199,7 @@ static bool wlc_phy_cal_txpower_recalc_sw(struct brcms_phy *pi)
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void wlc_phy_switch_radio(struct brcms_phy_pub *pih, bool on)
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{
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struct brcms_phy *pi = (struct brcms_phy *) pih;
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{
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uint mc;
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mc = R_REG(&pi->regs->maccontrol);
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}
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(void)R_REG(&pi->regs->maccontrol);
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if (ISNPHY(pi)) {
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wlc_phy_switch_radio_nphy(pi, on);
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@ -1696,26 +1691,22 @@ void wlc_phy_txpower_recalc_target(struct brcms_phy *pi)
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band,
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rate);
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{
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wlc_phy_txpower_sromlimit((struct brcms_phy_pub *) pi,
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target_chan,
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&mintxpwr, &maxtxpwr, rate);
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wlc_phy_txpower_sromlimit((struct brcms_phy_pub *) pi,
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target_chan,
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&mintxpwr, &maxtxpwr, rate);
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maxtxpwr = min(maxtxpwr, pi->txpwr_limit[rate]);
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maxtxpwr = min(maxtxpwr, pi->txpwr_limit[rate]);
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maxtxpwr = (maxtxpwr > pactrl) ? (maxtxpwr - pactrl) : 0;
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maxtxpwr =
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(maxtxpwr > pactrl) ? (maxtxpwr - pactrl) : 0;
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maxtxpwr = (maxtxpwr > 6) ? (maxtxpwr - 6) : 0;
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maxtxpwr = (maxtxpwr > 6) ? (maxtxpwr - 6) : 0;
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maxtxpwr = min(maxtxpwr, tx_pwr_target[rate]);
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maxtxpwr = min(maxtxpwr, tx_pwr_target[rate]);
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if (pi->txpwr_percent <= 100)
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maxtxpwr = (maxtxpwr * pi->txpwr_percent) / 100;
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if (pi->txpwr_percent <= 100)
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maxtxpwr = (maxtxpwr * pi->txpwr_percent) / 100;
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tx_pwr_target[rate] = max(maxtxpwr, mintxpwr);
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}
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tx_pwr_target[rate] = max(maxtxpwr, mintxpwr);
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tx_pwr_target[rate] =
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min(tx_pwr_target[rate], pi->txpwr_env_limit[rate]);
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@ -69,6 +69,14 @@
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#define LCN_TEMPSENSE_OFFSET 80812
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#define LCN_TEMPSENSE_DEN 2647
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#define LCN_BW_LMT 200
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#define LCN_CUR_LMT 1250
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#define LCN_MULT 1
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#define LCN_VCO_DIV 30
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#define LCN_OFFSET 680
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#define LCN_FACT 490
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#define LCN_CUR_DIV 2640
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#define LCNPHY_txgainctrlovrval1_pagain_ovr_val1_SHIFT \
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(0 + 8)
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#define LCNPHY_txgainctrlovrval1_pagain_ovr_val1_MASK \
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@ -1054,21 +1062,17 @@ static int wlc_lcnphy_calc_floor(s16 coeff_x, int type)
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static void
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wlc_lcnphy_get_tx_gain(struct brcms_phy *pi, struct lcnphy_txgains *gains)
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{
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u16 dac_gain;
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u16 dac_gain, rfgain0, rfgain1;
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dac_gain = read_phy_reg(pi, 0x439) >> 0;
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gains->dac_gain = (dac_gain & 0x380) >> 7;
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{
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u16 rfgain0, rfgain1;
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rfgain0 = (read_phy_reg(pi, 0x4b5) & (0xffff << 0)) >> 0;
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rfgain1 = (read_phy_reg(pi, 0x4fb) & (0x7fff << 0)) >> 0;
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rfgain0 = (read_phy_reg(pi, 0x4b5) & (0xffff << 0)) >> 0;
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rfgain1 = (read_phy_reg(pi, 0x4fb) & (0x7fff << 0)) >> 0;
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gains->gm_gain = rfgain0 & 0xff;
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gains->pga_gain = (rfgain0 >> 8) & 0xff;
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gains->pad_gain = rfgain1 & 0xff;
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}
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gains->gm_gain = rfgain0 & 0xff;
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gains->pga_gain = (rfgain0 >> 8) & 0xff;
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gains->pad_gain = rfgain1 & 0xff;
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}
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@ -1634,6 +1638,9 @@ wlc_lcnphy_radio_2064_channel_tune_4313(struct brcms_phy *pi, u8 channel)
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u32 div_int, div_frac, fvco3, fpfd, fref3, fcal_div;
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u16 loop_bw, d30, setCount;
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u8 h29, h28_ten, e30, h30_ten, cp_current;
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u16 g30, d28;
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ci = &chan_info_2064_lcnphy[0];
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rfpll_doubler = 1;
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@ -1746,27 +1753,18 @@ wlc_lcnphy_radio_2064_channel_tune_4313(struct brcms_phy *pi, u8 channel)
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write_radio_reg(pi, RADIO_2064_REG042, 0xA3);
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write_radio_reg(pi, RADIO_2064_REG043, 0x0C);
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{
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u8 h29, h23, c28, d29, h28_ten, e30, h30_ten, cp_current;
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u16 c29, c38, c30, g30, d28;
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c29 = loop_bw;
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d29 = 200;
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c38 = 1250;
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h29 = d29 / c29;
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h23 = 1;
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c28 = 30;
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d28 = (((PLL_2064_HIGH_END_KVCO - PLL_2064_LOW_END_KVCO) *
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(fvco3 / 2 - PLL_2064_LOW_END_VCO)) /
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(PLL_2064_HIGH_END_VCO - PLL_2064_LOW_END_VCO))
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+ PLL_2064_LOW_END_KVCO;
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h28_ten = (d28 * 10) / c28;
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c30 = 2640;
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e30 = (d30 - 680) / 490;
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g30 = 680 + (e30 * 490);
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h30_ten = (g30 * 10) / c30;
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cp_current = ((c38 * h29 * h23 * 100) / h28_ten) / h30_ten;
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mod_radio_reg(pi, RADIO_2064_REG03C, 0x3f, cp_current);
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}
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h29 = LCN_BW_LMT / loop_bw;
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d28 = (((PLL_2064_HIGH_END_KVCO - PLL_2064_LOW_END_KVCO) *
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(fvco3 / 2 - PLL_2064_LOW_END_VCO)) /
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(PLL_2064_HIGH_END_VCO - PLL_2064_LOW_END_VCO))
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+ PLL_2064_LOW_END_KVCO;
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h28_ten = (d28 * 10) / LCN_VCO_DIV;
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e30 = (d30 - LCN_OFFSET) / LCN_FACT;
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g30 = LCN_OFFSET + (e30 * LCN_FACT);
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h30_ten = (g30 * 10) / LCN_CUR_DIV;
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cp_current = ((LCN_CUR_LMT * h29 * LCN_MULT * 100) / h28_ten) / h30_ten;
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mod_radio_reg(pi, RADIO_2064_REG03C, 0x3f, cp_current);
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if (channel >= 1 && channel <= 5)
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write_radio_reg(pi, RADIO_2064_REG03C, 0x8);
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else
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@ -4838,18 +4836,13 @@ static bool wlc_phy_txpwr_srom_read_lcnphy(struct brcms_phy *pi)
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pi_lcn->lcnphy_rssi_vc = (u8) PHY_GETINTVAR(pi, "rssismc2g");
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pi_lcn->lcnphy_rssi_gs = (u8) PHY_GETINTVAR(pi, "rssisav2g");
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{
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pi_lcn->lcnphy_rssi_vf_lowtemp = pi_lcn->lcnphy_rssi_vf;
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pi_lcn->lcnphy_rssi_vc_lowtemp = pi_lcn->lcnphy_rssi_vc;
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pi_lcn->lcnphy_rssi_gs_lowtemp = pi_lcn->lcnphy_rssi_gs;
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pi_lcn->lcnphy_rssi_vf_lowtemp = pi_lcn->lcnphy_rssi_vf;
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pi_lcn->lcnphy_rssi_vc_lowtemp = pi_lcn->lcnphy_rssi_vc;
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pi_lcn->lcnphy_rssi_gs_lowtemp = pi_lcn->lcnphy_rssi_gs;
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pi_lcn->lcnphy_rssi_vf_hightemp =
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pi_lcn->lcnphy_rssi_vf;
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pi_lcn->lcnphy_rssi_vc_hightemp =
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pi_lcn->lcnphy_rssi_vc;
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pi_lcn->lcnphy_rssi_gs_hightemp =
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pi_lcn->lcnphy_rssi_gs;
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}
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pi_lcn->lcnphy_rssi_vf_hightemp = pi_lcn->lcnphy_rssi_vf;
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pi_lcn->lcnphy_rssi_vc_hightemp = pi_lcn->lcnphy_rssi_vc;
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pi_lcn->lcnphy_rssi_gs_hightemp = pi_lcn->lcnphy_rssi_gs;
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txpwr = (s8) PHY_GETINTVAR(pi, "maxp2ga0");
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pi->tx_srom_max_2g = txpwr;
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@ -5098,6 +5091,8 @@ s32 wlc_lcnphy_rx_signal_power(struct brcms_phy *pi, s32 gain_index)
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s32 log_val, gain_mismatch, desired_gain, input_power_offset_db,
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input_power_db;
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s32 received_power, temperature;
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u32 power;
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u32 msb1, msb2, val1, val2, diff1, diff2;
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uint freq;
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struct brcms_phy_lcnphy *pi_lcn = pi->u.pi_lcnphy;
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@ -5107,20 +5102,17 @@ s32 wlc_lcnphy_rx_signal_power(struct brcms_phy *pi, s32 gain_index)
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nominal_power_db = read_phy_reg(pi, 0x425) >> 8;
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{
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u32 power = (received_power * 16);
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u32 msb1, msb2, val1, val2, diff1, diff2;
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msb1 = ffs(power) - 1;
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msb2 = msb1 + 1;
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val1 = 1 << msb1;
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val2 = 1 << msb2;
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diff1 = (power - val1);
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diff2 = (val2 - power);
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if (diff1 < diff2)
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log_val = msb1;
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else
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log_val = msb2;
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}
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power = (received_power * 16);
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msb1 = ffs(power) - 1;
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msb2 = msb1 + 1;
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val1 = 1 << msb1;
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val2 = 1 << msb2;
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diff1 = (power - val1);
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diff2 = (val2 - power);
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if (diff1 < diff2)
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log_val = msb1;
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else
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log_val = msb2;
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log_val = log_val * 3;
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