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/*
* carl9170 firmware - used by the ar9170 wireless device
*
* PHY and RF functions
*
* Copyright (c) 2000-2005 ZyDAS Technology Corporation
* Copyright (c) 2007-2009 Atheros Communications, Inc.
* Copyright 2009 Johannes Berg <johannes@sipsolutions.net>
* Copyright 2009-2011 Christian Lamparter <chunkeey@googlemail.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "carl9170.h"
#include "timer.h"
#include "printf.h"
#include "rf.h"
#include "shared/phy.h"
#ifdef CONFIG_CARL9170FW_RADIO_FUNCTIONS
static void set_channel_end(void)
{
/* Manipulate CCA threshold to resume transmission */
set(AR9170_PHY_REG_CCA_THRESHOLD, 0x0);
/* Disable Virtual CCA */
andl(AR9170_MAC_REG_QOS_PRIORITY_VIRTUAL_CCA,
~AR9170_MAC_VIRTUAL_CCA_ALL);
fw.phy.state = CARL9170_PHY_ON;
}
void rf_notify_set_channel(void)
{
/* Manipulate CCA threshold to stop transmission */
set(AR9170_PHY_REG_CCA_THRESHOLD, 0x300);
/* Enable Virtual CCA */
orl(AR9170_MAC_REG_QOS_PRIORITY_VIRTUAL_CCA,
AR9170_MAC_VIRTUAL_CCA_ALL);
/* reset CCA stats */
fw.tally.active = 0;
fw.tally.cca = 0;
fw.tally.tx_time = 0;
fw.phy.state = CARL9170_PHY_OFF;
}
/*
* Update delta slope coeff man and exp
*/
static void hw_turn_off_dyn(const uint32_t delta_slope_coeff_exp,
const uint32_t delta_slope_coeff_man,
const uint32_t delta_slope_coeff_exp_shgi,
const uint32_t delta_slope_coeff_man_shgi)
{
uint32_t tmp;
tmp = get_async(AR9170_PHY_REG_TIMING3) & 0x00001fff;
tmp |= (delta_slope_coeff_man << AR9170_PHY_TIMING3_DSC_MAN_S) &
AR9170_PHY_TIMING3_DSC_MAN;
tmp |= (delta_slope_coeff_exp << AR9170_PHY_TIMING3_DSC_EXP_S) &
AR9170_PHY_TIMING3_DSC_EXP;
set(AR9170_PHY_REG_TIMING3, tmp);
tmp = (delta_slope_coeff_man_shgi << AR9170_PHY_HALFGI_DSC_MAN_S) &
AR9170_PHY_HALFGI_DSC_MAN;
tmp |= (delta_slope_coeff_exp_shgi << AR9170_PHY_HALFGI_DSC_EXP_S) &
AR9170_PHY_HALFGI_DSC_EXP;
set(AR9170_PHY_REG_HALFGI, tmp);
}
static void program_ADDAC(void)
{
/* ??? Select Internal ADDAC ??? (is external radio) */
set(AR9170_PHY_REG_ADC_SERIAL_CTL, AR9170_PHY_ADC_SCTL_SEL_EXTERNAL_RADIO);
delay(10);
set(0x1c589c, 0x00000000); /*# 7-0 */
set(0x1c589c, 0x00000000); /*# 15-8 */
set(0x1c589c, 0x00000000); /*# 23-16 */
set(0x1c589c, 0x00000000); /*# 31- */
set(0x1c589c, 0x00000000); /*# 39- */
set(0x1c589c, 0x00000000); /*# 47- */
set(0x1c589c, 0x00000000); /*# 55- [48]:doubles the xtalosc bias current */
set(0x1c589c, 0x00000000); /*# 63- */
set(0x1c589c, 0x00000000); /*# 71- */
set(0x1c589c, 0x00000000); /*# 79- */
set(0x1c589c, 0x00000000); /*# 87- */
set(0x1c589c, 0x00000000); /*# 95- */
set(0x1c589c, 0x00000000); /*# 103- */
set(0x1c589c, 0x00000000); /*# 111- */
set(0x1c589c, 0x00000000); /*# 119- */
set(0x1c589c, 0x00000000); /*# 127- */
set(0x1c589c, 0x00000000); /*# 135- */
set(0x1c589c, 0x00000000); /*# 143- */
set(0x1c589c, 0x00000000); /*# 151- */
set(0x1c589c, 0x00000030); /*# 159- #[158:156]=xlnabufmode */
set(0x1c589c, 0x00000004); /*# 167- [162]:disable clkp_driver to flow */
set(0x1c589c, 0x00000000); /*# 175- */
set(0x1c589c, 0x00000000); /*# 183-176 */
set(0x1c589c, 0x00000000); /*# 191-184 */
set(0x1c589c, 0x00000000); /*# 199- */
set(0x1c589c, 0x00000000); /*# 207- */
set(0x1c589c, 0x00000000); /*# 215- */
set(0x1c589c, 0x00000000); /*# 223- */
set(0x1c589c, 0x00000000); /*# 231- */
set(0x1c58c4, 0x00000000); /*# 233-232 */
delay(10);
/* Select External Flow ???? (is internal addac??) */
set(AR9170_PHY_REG_ADC_SERIAL_CTL, AR9170_PHY_ADC_SCTL_SEL_INTERNAL_ADDAC);
}
static uint32_t AGC_calibration(uint32_t loop)
{
uint32_t wrdata;
uint32_t ret;
#define AGC_CAL_NF (AR9170_PHY_AGC_CONTROL_CAL | AR9170_PHY_AGC_CONTROL_NF)
wrdata = get_async(AR9170_PHY_REG_AGC_CONTROL) | AGC_CAL_NF;
set(AR9170_PHY_REG_AGC_CONTROL, wrdata);
ret = get_async(AR9170_PHY_REG_AGC_CONTROL) & AGC_CAL_NF;
/* sitesurvey : 100 ms / current connected 200 ms */
while ((ret != 0) && loop--) {
udelay(100);
ret = get_async(AR9170_PHY_REG_AGC_CONTROL) & AGC_CAL_NF;
}
/* return the AGC/Noise calibration state to the driver */
return ret;
}
#define EIGHTY_FLAG (CARL9170FW_PHY_HT_ENABLE | CARL9170FW_PHY_HT_DYN2040)
static uint32_t rf_init(const uint32_t delta_slope_coeff_exp,
const uint32_t delta_slope_coeff_man,
const uint32_t delta_slope_coeff_exp_shgi,
const uint32_t delta_slope_coeff_man_shgi,
const uint32_t finiteLoopCount,
const bool initialize)
{
uint32_t ret;
hw_turn_off_dyn(delta_slope_coeff_exp,
delta_slope_coeff_man,
delta_slope_coeff_exp_shgi,
delta_slope_coeff_man_shgi);
if (initialize) {
/* Real Chip */
program_ADDAC();
/* inverse chain 0 <-> chain 2 */
set(AR9170_PHY_REG_ANALOG_SWAP, AR9170_PHY_ANALOG_SWAP_AB);
/* swap chain 0 and chain 2 */
set(AR9170_PHY_REG_ANALOG_SWAP, AR9170_PHY_ANALOG_SWAP_AB |
AR9170_PHY_ANALOG_SWAP_ALT_CHAIN);
/* Activate BB */
set(AR9170_PHY_REG_ACTIVE, AR9170_PHY_ACTIVE_EN);
delay(10);
}
ret = AGC_calibration(finiteLoopCount);
set_channel_end();
return ret;
}
void rf_cmd(const struct carl9170_cmd *cmd, struct carl9170_rsp *resp)
{
uint32_t ret;
fw.phy.ht_settings = cmd->rf_init.ht_settings;
fw.phy.frequency = cmd->rf_init.freq;
/*
* Is the clock controlled by the PHY?
*/
if ((fw.phy.ht_settings & EIGHTY_FLAG) == EIGHTY_FLAG)
clock_set(AHB_80_88MHZ, true);
else
clock_set(AHB_40_44MHZ, true);
ret = rf_init(le32_to_cpu(cmd->rf_init.delta_slope_coeff_exp),
le32_to_cpu(cmd->rf_init.delta_slope_coeff_man),
le32_to_cpu(cmd->rf_init.delta_slope_coeff_exp_shgi),
le32_to_cpu(cmd->rf_init.delta_slope_coeff_man_shgi),
le32_to_cpu(cmd->rf_init.finiteLoopCount),
cmd->hdr.cmd == CARL9170_CMD_RF_INIT);
resp->hdr.len = sizeof(struct carl9170_rf_init_result);
resp->rf_init_res.ret = cpu_to_le32(ret);
}
void rf_psm(void)
{
u32 bank3;
if (fw.phy.psm.state == CARL9170_PSM_SOFTWARE) {
/* not enabled by the driver */
return;
}
if (fw.phy.psm.state & CARL9170_PSM_SLEEP) {
fw.phy.psm.state &= ~CARL9170_PSM_SLEEP;
/* disable all agc gain and offset updates to a2 */
set(AR9170_PHY_REG_TEST2, 0x8000000);
/* power down ADDAC */
set(AR9170_PHY_REG_ADC_CTL,
AR9170_PHY_ADC_CTL_OFF_PWDDAC |
AR9170_PHY_ADC_CTL_OFF_PWDADC |
0xa0000000);
/* Synthesizer off + RX off */
bank3 = 0x00400018;
fw.phy.state = CARL9170_PHY_OFF;
} else {
/* advance to the next PSM step */
fw.phy.psm.state--;
if (fw.phy.psm.state == CARL9170_PSM_WAKE) {
/* wake up ADDAC */
set(AR9170_PHY_REG_ADC_CTL,
AR9170_PHY_ADC_CTL_OFF_PWDDAC |
AR9170_PHY_ADC_CTL_OFF_PWDADC);
/* enable all agc gain and offset updates to a2 */
set(AR9170_PHY_REG_TEST2, 0x0);
/* Synthesizer on + RX on */
bank3 = 0x01420098;
fw.phy.state = CARL9170_PHY_ON;
} else {
return ;
}
}
if (fw.phy.frequency < 3000000)
bank3 |= 0x00800000;
set(0x1c58f0, bank3);
}
#endif /* CONFIG_CARL9170FW_RADIO_FUNCTIONS */
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