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rtw8723d.c
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rtw8723d.c
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// SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause
/* Copyright(c) 2018-2019 Realtek Corporation
*/
#include <linux/module.h>
#include "main.h"
#include "coex.h"
#include "fw.h"
#include "tx.h"
#include "rx.h"
#include "phy.h"
#include "rtw8723d.h"
#include "rtw8723d_table.h"
#include "mac.h"
#include "reg.h"
#include "debug.h"
static const struct rtw_hw_reg rtw8723d_txagc[] = {
[DESC_RATE1M] = { .addr = 0xe08, .mask = 0x0000ff00 },
[DESC_RATE2M] = { .addr = 0x86c, .mask = 0x0000ff00 },
[DESC_RATE5_5M] = { .addr = 0x86c, .mask = 0x00ff0000 },
[DESC_RATE11M] = { .addr = 0x86c, .mask = 0xff000000 },
[DESC_RATE6M] = { .addr = 0xe00, .mask = 0x000000ff },
[DESC_RATE9M] = { .addr = 0xe00, .mask = 0x0000ff00 },
[DESC_RATE12M] = { .addr = 0xe00, .mask = 0x00ff0000 },
[DESC_RATE18M] = { .addr = 0xe00, .mask = 0xff000000 },
[DESC_RATE24M] = { .addr = 0xe04, .mask = 0x000000ff },
[DESC_RATE36M] = { .addr = 0xe04, .mask = 0x0000ff00 },
[DESC_RATE48M] = { .addr = 0xe04, .mask = 0x00ff0000 },
[DESC_RATE54M] = { .addr = 0xe04, .mask = 0xff000000 },
[DESC_RATEMCS0] = { .addr = 0xe10, .mask = 0x000000ff },
[DESC_RATEMCS1] = { .addr = 0xe10, .mask = 0x0000ff00 },
[DESC_RATEMCS2] = { .addr = 0xe10, .mask = 0x00ff0000 },
[DESC_RATEMCS3] = { .addr = 0xe10, .mask = 0xff000000 },
[DESC_RATEMCS4] = { .addr = 0xe14, .mask = 0x000000ff },
[DESC_RATEMCS5] = { .addr = 0xe14, .mask = 0x0000ff00 },
[DESC_RATEMCS6] = { .addr = 0xe14, .mask = 0x00ff0000 },
[DESC_RATEMCS7] = { .addr = 0xe14, .mask = 0xff000000 },
};
#define WLAN_TXQ_RPT_EN 0x1F
#define WLAN_SLOT_TIME 0x09
#define WLAN_RL_VAL 0x3030
#define WLAN_BAR_VAL 0x0201ffff
#define BIT_MASK_TBTT_HOLD 0x00000fff
#define BIT_SHIFT_TBTT_HOLD 8
#define BIT_MASK_TBTT_SETUP 0x000000ff
#define BIT_SHIFT_TBTT_SETUP 0
#define BIT_MASK_TBTT_MASK ((BIT_MASK_TBTT_HOLD << BIT_SHIFT_TBTT_HOLD) | \
(BIT_MASK_TBTT_SETUP << BIT_SHIFT_TBTT_SETUP))
#define TBTT_TIME(s, h)((((s) & BIT_MASK_TBTT_SETUP) << BIT_SHIFT_TBTT_SETUP) |\
(((h) & BIT_MASK_TBTT_HOLD) << BIT_SHIFT_TBTT_HOLD))
#define WLAN_TBTT_TIME_NORMAL TBTT_TIME(0x04, 0x80)
#define WLAN_TBTT_TIME_STOP_BCN TBTT_TIME(0x04, 0x64)
#define WLAN_PIFS_VAL 0
#define WLAN_AGG_BRK_TIME 0x16
#define WLAN_NAV_PROT_LEN 0x0040
#define WLAN_SPEC_SIFS 0x100a
#define WLAN_RX_PKT_LIMIT 0x17
#define WLAN_MAX_AGG_NR 0x0A
#define WLAN_AMPDU_MAX_TIME 0x1C
#define WLAN_ANT_SEL 0x82
#define WLAN_LTR_IDLE_LAT 0x90039003
#define WLAN_LTR_ACT_LAT 0x883c883c
#define WLAN_LTR_CTRL1 0xCB004010
#define WLAN_LTR_CTRL2 0x01233425
static void rtw8723d_lck(struct rtw_dev *rtwdev)
{
u32 lc_cal;
u8 val_ctx, rf_val;
int ret;
val_ctx = rtw_read8(rtwdev, REG_CTX);
if ((val_ctx & BIT_MASK_CTX_TYPE) != 0)
rtw_write8(rtwdev, REG_CTX, val_ctx & ~BIT_MASK_CTX_TYPE);
else
rtw_write8(rtwdev, REG_TXPAUSE, 0xFF);
lc_cal = rtw_read_rf(rtwdev, RF_PATH_A, RF_CFGCH, RFREG_MASK);
rtw_write_rf(rtwdev, RF_PATH_A, RF_CFGCH, RFREG_MASK, lc_cal | BIT_LCK);
ret = read_poll_timeout(rtw_read_rf, rf_val, rf_val != 0x1,
10000, 1000000, false,
rtwdev, RF_PATH_A, RF_CFGCH, BIT_LCK);
if (ret)
rtw_warn(rtwdev, "failed to poll LCK status bit\n");
rtw_write_rf(rtwdev, RF_PATH_A, RF_CFGCH, RFREG_MASK, lc_cal);
if ((val_ctx & BIT_MASK_CTX_TYPE) != 0)
rtw_write8(rtwdev, REG_CTX, val_ctx);
else
rtw_write8(rtwdev, REG_TXPAUSE, 0x00);
}
static const u32 rtw8723d_ofdm_swing_table[] = {
0x0b40002d, 0x0c000030, 0x0cc00033, 0x0d800036, 0x0e400039, 0x0f00003c,
0x10000040, 0x11000044, 0x12000048, 0x1300004c, 0x14400051, 0x15800056,
0x16c0005b, 0x18000060, 0x19800066, 0x1b00006c, 0x1c800072, 0x1e400079,
0x20000080, 0x22000088, 0x24000090, 0x26000098, 0x288000a2, 0x2ac000ab,
0x2d4000b5, 0x300000c0, 0x32c000cb, 0x35c000d7, 0x390000e4, 0x3c8000f2,
0x40000100, 0x43c0010f, 0x47c0011f, 0x4c000130, 0x50800142, 0x55400155,
0x5a400169, 0x5fc0017f, 0x65400195, 0x6b8001ae, 0x71c001c7, 0x788001e2,
0x7f8001fe,
};
static const u32 rtw8723d_cck_swing_table[] = {
0x0CD, 0x0D9, 0x0E6, 0x0F3, 0x102, 0x111, 0x121, 0x132, 0x144, 0x158,
0x16C, 0x182, 0x198, 0x1B1, 0x1CA, 0x1E5, 0x202, 0x221, 0x241, 0x263,
0x287, 0x2AE, 0x2D6, 0x301, 0x32F, 0x35F, 0x392, 0x3C9, 0x402, 0x43F,
0x47F, 0x4C3, 0x50C, 0x558, 0x5A9, 0x5FF, 0x65A, 0x6BA, 0x720, 0x78C,
0x7FF,
};
#define RTW_OFDM_SWING_TABLE_SIZE ARRAY_SIZE(rtw8723d_ofdm_swing_table)
#define RTW_CCK_SWING_TABLE_SIZE ARRAY_SIZE(rtw8723d_cck_swing_table)
static void rtw8723d_pwrtrack_init(struct rtw_dev *rtwdev)
{
struct rtw_dm_info *dm_info = &rtwdev->dm_info;
u8 path;
dm_info->default_ofdm_index = RTW_DEF_OFDM_SWING_INDEX;
for (path = RF_PATH_A; path < rtwdev->hal.rf_path_num; path++) {
ewma_thermal_init(&dm_info->avg_thermal[path]);
dm_info->delta_power_index[path] = 0;
}
dm_info->pwr_trk_triggered = false;
dm_info->pwr_trk_init_trigger = true;
dm_info->thermal_meter_k = rtwdev->efuse.thermal_meter_k;
dm_info->txagc_remnant_cck = 0;
dm_info->txagc_remnant_ofdm = 0;
}
static void rtw8723d_phy_set_param(struct rtw_dev *rtwdev)
{
u8 xtal_cap;
u32 val32;
/* power on BB/RF domain */
rtw_write16_set(rtwdev, REG_SYS_FUNC_EN,
BIT_FEN_EN_25_1 | BIT_FEN_BB_GLB_RST | BIT_FEN_BB_RSTB);
rtw_write8_set(rtwdev, REG_RF_CTRL,
BIT_RF_EN | BIT_RF_RSTB | BIT_RF_SDM_RSTB);
rtw_write8(rtwdev, REG_AFE_CTRL1 + 1, 0x80);
rtw_phy_load_tables(rtwdev);
/* post init after header files config */
rtw_write32_clr(rtwdev, REG_RCR, BIT_RCR_ADF);
rtw_write8_set(rtwdev, REG_HIQ_NO_LMT_EN, BIT_HIQ_NO_LMT_EN_ROOT);
rtw_write16_set(rtwdev, REG_AFE_CTRL_4, BIT_CK320M_AFE_EN | BIT_EN_SYN);
xtal_cap = rtwdev->efuse.crystal_cap & 0x3F;
rtw_write32_mask(rtwdev, REG_AFE_CTRL3, BIT_MASK_XTAL,
xtal_cap | (xtal_cap << 6));
rtw_write32_set(rtwdev, REG_FPGA0_RFMOD, BIT_CCKEN | BIT_OFDMEN);
if ((rtwdev->efuse.afe >> 4) == 14) {
rtw_write32_set(rtwdev, REG_AFE_CTRL3, BIT_XTAL_GMP_BIT4);
rtw_write32_clr(rtwdev, REG_AFE_CTRL1, BITS_PLL);
rtw_write32_set(rtwdev, REG_LDO_SWR_CTRL, BIT_XTA1);
rtw_write32_clr(rtwdev, REG_LDO_SWR_CTRL, BIT_XTA0);
}
rtw_write8(rtwdev, REG_SLOT, WLAN_SLOT_TIME);
rtw_write8(rtwdev, REG_FWHW_TXQ_CTRL + 1, WLAN_TXQ_RPT_EN);
rtw_write16(rtwdev, REG_RETRY_LIMIT, WLAN_RL_VAL);
rtw_write32(rtwdev, REG_BAR_MODE_CTRL, WLAN_BAR_VAL);
rtw_write8(rtwdev, REG_ATIMWND, 0x2);
rtw_write8(rtwdev, REG_BCN_CTRL,
BIT_DIS_TSF_UDT | BIT_EN_BCN_FUNCTION | BIT_EN_TXBCN_RPT);
val32 = rtw_read32(rtwdev, REG_TBTT_PROHIBIT);
val32 &= ~BIT_MASK_TBTT_MASK;
val32 |= WLAN_TBTT_TIME_STOP_BCN;
rtw_write8(rtwdev, REG_TBTT_PROHIBIT, val32);
rtw_write8(rtwdev, REG_PIFS, WLAN_PIFS_VAL);
rtw_write8(rtwdev, REG_AGGR_BREAK_TIME, WLAN_AGG_BRK_TIME);
rtw_write16(rtwdev, REG_NAV_PROT_LEN, WLAN_NAV_PROT_LEN);
rtw_write16(rtwdev, REG_MAC_SPEC_SIFS, WLAN_SPEC_SIFS);
rtw_write16(rtwdev, REG_SIFS, WLAN_SPEC_SIFS);
rtw_write16(rtwdev, REG_SIFS + 2, WLAN_SPEC_SIFS);
rtw_write8(rtwdev, REG_SINGLE_AMPDU_CTRL, BIT_EN_SINGLE_APMDU);
rtw_write8(rtwdev, REG_RX_PKT_LIMIT, WLAN_RX_PKT_LIMIT);
rtw_write8(rtwdev, REG_MAX_AGGR_NUM, WLAN_MAX_AGG_NR);
rtw_write8(rtwdev, REG_AMPDU_MAX_TIME, WLAN_AMPDU_MAX_TIME);
rtw_write8(rtwdev, REG_LEDCFG2, WLAN_ANT_SEL);
rtw_write32(rtwdev, REG_LTR_IDLE_LATENCY, WLAN_LTR_IDLE_LAT);
rtw_write32(rtwdev, REG_LTR_ACTIVE_LATENCY, WLAN_LTR_ACT_LAT);
rtw_write32(rtwdev, REG_LTR_CTRL_BASIC, WLAN_LTR_CTRL1);
rtw_write32(rtwdev, REG_LTR_CTRL_BASIC + 4, WLAN_LTR_CTRL2);
rtw_phy_init(rtwdev);
rtwdev->dm_info.cck_pd_default = rtw_read8(rtwdev, REG_CSRATIO) & 0x1f;
rtw_write16_set(rtwdev, REG_TXDMA_OFFSET_CHK, BIT_DROP_DATA_EN);
rtw8723d_lck(rtwdev);
rtw_write32_mask(rtwdev, REG_OFDM0_XAAGC1, MASKBYTE0, 0x50);
rtw_write32_mask(rtwdev, REG_OFDM0_XAAGC1, MASKBYTE0, 0x20);
rtw8723d_pwrtrack_init(rtwdev);
}
static void rtw8723de_efuse_parsing(struct rtw_efuse *efuse,
struct rtw8723d_efuse *map)
{
ether_addr_copy(efuse->addr, map->e.mac_addr);
}
static void rtw8723du_efuse_parsing(struct rtw_efuse *efuse,
struct rtw8723d_efuse *map)
{
ether_addr_copy(efuse->addr, map->u.mac_addr);
}
static int rtw8723d_read_efuse(struct rtw_dev *rtwdev, u8 *log_map)
{
struct rtw_efuse *efuse = &rtwdev->efuse;
struct rtw8723d_efuse *map;
int i;
map = (struct rtw8723d_efuse *)log_map;
efuse->rfe_option = 0;
efuse->rf_board_option = map->rf_board_option;
efuse->crystal_cap = map->xtal_k;
efuse->pa_type_2g = map->pa_type;
efuse->lna_type_2g = map->lna_type_2g[0];
efuse->channel_plan = map->channel_plan;
efuse->country_code[0] = map->country_code[0];
efuse->country_code[1] = map->country_code[1];
efuse->bt_setting = map->rf_bt_setting;
efuse->regd = map->rf_board_option & 0x7;
efuse->thermal_meter[0] = map->thermal_meter;
efuse->thermal_meter_k = map->thermal_meter;
efuse->afe = map->afe;
for (i = 0; i < 4; i++)
efuse->txpwr_idx_table[i] = map->txpwr_idx_table[i];
switch (rtw_hci_type(rtwdev)) {
case RTW_HCI_TYPE_PCIE:
rtw8723de_efuse_parsing(efuse, map);
break;
case RTW_HCI_TYPE_USB:
rtw8723du_efuse_parsing(efuse, map);
break;
default:
/* unsupported now */
return -ENOTSUPP;
}
return 0;
}
static void query_phy_status_page0(struct rtw_dev *rtwdev, u8 *phy_status,
struct rtw_rx_pkt_stat *pkt_stat)
{
struct rtw_dm_info *dm_info = &rtwdev->dm_info;
s8 min_rx_power = -120;
u8 pwdb = GET_PHY_STAT_P0_PWDB(phy_status);
pkt_stat->rx_power[RF_PATH_A] = pwdb - 97;
pkt_stat->rssi = rtw_phy_rf_power_2_rssi(pkt_stat->rx_power, 1);
pkt_stat->bw = RTW_CHANNEL_WIDTH_20;
pkt_stat->signal_power = max(pkt_stat->rx_power[RF_PATH_A],
min_rx_power);
dm_info->rssi[RF_PATH_A] = pkt_stat->rssi;
}
static void query_phy_status_page1(struct rtw_dev *rtwdev, u8 *phy_status,
struct rtw_rx_pkt_stat *pkt_stat)
{
struct rtw_dm_info *dm_info = &rtwdev->dm_info;
u8 rxsc, bw;
s8 min_rx_power = -120;
s8 rx_evm;
if (pkt_stat->rate > DESC_RATE11M && pkt_stat->rate < DESC_RATEMCS0)
rxsc = GET_PHY_STAT_P1_L_RXSC(phy_status);
else
rxsc = GET_PHY_STAT_P1_HT_RXSC(phy_status);
if (GET_PHY_STAT_P1_RF_MODE(phy_status) == 0)
bw = RTW_CHANNEL_WIDTH_20;
else if ((rxsc == 1) || (rxsc == 2))
bw = RTW_CHANNEL_WIDTH_20;
else
bw = RTW_CHANNEL_WIDTH_40;
pkt_stat->rx_power[RF_PATH_A] = GET_PHY_STAT_P1_PWDB_A(phy_status) - 110;
pkt_stat->rssi = rtw_phy_rf_power_2_rssi(pkt_stat->rx_power, 1);
pkt_stat->bw = bw;
pkt_stat->signal_power = max(pkt_stat->rx_power[RF_PATH_A],
min_rx_power);
pkt_stat->rx_evm[RF_PATH_A] = GET_PHY_STAT_P1_RXEVM_A(phy_status);
pkt_stat->rx_snr[RF_PATH_A] = GET_PHY_STAT_P1_RXSNR_A(phy_status);
pkt_stat->cfo_tail[RF_PATH_A] = GET_PHY_STAT_P1_CFO_TAIL_A(phy_status);
dm_info->curr_rx_rate = pkt_stat->rate;
dm_info->rssi[RF_PATH_A] = pkt_stat->rssi;
dm_info->rx_snr[RF_PATH_A] = pkt_stat->rx_snr[RF_PATH_A] >> 1;
dm_info->cfo_tail[RF_PATH_A] = (pkt_stat->cfo_tail[RF_PATH_A] * 5) >> 1;
rx_evm = clamp_t(s8, -pkt_stat->rx_evm[RF_PATH_A] >> 1, 0, 64);
rx_evm &= 0x3F; /* 64->0: second path of 1SS rate is 64 */
dm_info->rx_evm_dbm[RF_PATH_A] = rx_evm;
}
static void query_phy_status(struct rtw_dev *rtwdev, u8 *phy_status,
struct rtw_rx_pkt_stat *pkt_stat)
{
u8 page;
page = *phy_status & 0xf;
switch (page) {
case 0:
query_phy_status_page0(rtwdev, phy_status, pkt_stat);
break;
case 1:
query_phy_status_page1(rtwdev, phy_status, pkt_stat);
break;
default:
rtw_warn(rtwdev, "unused phy status page (%d)\n", page);
return;
}
}
static void rtw8723d_query_rx_desc(struct rtw_dev *rtwdev, u8 *rx_desc,
struct rtw_rx_pkt_stat *pkt_stat,
struct ieee80211_rx_status *rx_status)
{
struct ieee80211_hdr *hdr;
u32 desc_sz = rtwdev->chip->rx_pkt_desc_sz;
u8 *phy_status = NULL;
memset(pkt_stat, 0, sizeof(*pkt_stat));
pkt_stat->phy_status = GET_RX_DESC_PHYST(rx_desc);
pkt_stat->icv_err = GET_RX_DESC_ICV_ERR(rx_desc);
pkt_stat->crc_err = GET_RX_DESC_CRC32(rx_desc);
pkt_stat->decrypted = !GET_RX_DESC_SWDEC(rx_desc) &&
GET_RX_DESC_ENC_TYPE(rx_desc) != RX_DESC_ENC_NONE;
pkt_stat->is_c2h = GET_RX_DESC_C2H(rx_desc);
pkt_stat->pkt_len = GET_RX_DESC_PKT_LEN(rx_desc);
pkt_stat->drv_info_sz = GET_RX_DESC_DRV_INFO_SIZE(rx_desc);
pkt_stat->shift = GET_RX_DESC_SHIFT(rx_desc);
pkt_stat->rate = GET_RX_DESC_RX_RATE(rx_desc);
pkt_stat->cam_id = GET_RX_DESC_MACID(rx_desc);
pkt_stat->ppdu_cnt = 0;
pkt_stat->tsf_low = GET_RX_DESC_TSFL(rx_desc);
/* drv_info_sz is in unit of 8-bytes */
pkt_stat->drv_info_sz *= 8;
/* c2h cmd pkt's rx/phy status is not interested */
if (pkt_stat->is_c2h)
return;
hdr = (struct ieee80211_hdr *)(rx_desc + desc_sz + pkt_stat->shift +
pkt_stat->drv_info_sz);
if (pkt_stat->phy_status) {
phy_status = rx_desc + desc_sz + pkt_stat->shift;
query_phy_status(rtwdev, phy_status, pkt_stat);
}
rtw_rx_fill_rx_status(rtwdev, pkt_stat, hdr, rx_status, phy_status);
}
static bool rtw8723d_check_spur_ov_thres(struct rtw_dev *rtwdev,
u8 channel, u32 thres)
{
u32 freq;
bool ret = false;
if (channel == 13)
freq = FREQ_CH13;
else if (channel == 14)
freq = FREQ_CH14;
else
return false;
rtw_write32(rtwdev, REG_ANALOG_P4, DIS_3WIRE);
rtw_write32(rtwdev, REG_PSDFN, freq);
rtw_write32(rtwdev, REG_PSDFN, START_PSD | freq);
msleep(30);
if (rtw_read32(rtwdev, REG_PSDRPT) >= thres)
ret = true;
rtw_write32(rtwdev, REG_PSDFN, freq);
rtw_write32(rtwdev, REG_ANALOG_P4, EN_3WIRE);
return ret;
}
static void rtw8723d_cfg_notch(struct rtw_dev *rtwdev, u8 channel, bool notch)
{
if (!notch) {
rtw_write32_mask(rtwdev, REG_OFDM0_RXDSP, BIT_MASK_RXDSP, 0x1f);
rtw_write32_mask(rtwdev, REG_OFDM0_RXDSP, BIT_EN_RXDSP, 0x0);
rtw_write32(rtwdev, REG_OFDM1_CSI1, 0x00000000);
rtw_write32(rtwdev, REG_OFDM1_CSI2, 0x00000000);
rtw_write32(rtwdev, REG_OFDM1_CSI3, 0x00000000);
rtw_write32(rtwdev, REG_OFDM1_CSI4, 0x00000000);
rtw_write32_mask(rtwdev, REG_OFDM1_CFOTRK, BIT_EN_CFOTRK, 0x0);
return;
}
switch (channel) {
case 13:
rtw_write32_mask(rtwdev, REG_OFDM0_RXDSP, BIT_MASK_RXDSP, 0xb);
rtw_write32_mask(rtwdev, REG_OFDM0_RXDSP, BIT_EN_RXDSP, 0x1);
rtw_write32(rtwdev, REG_OFDM1_CSI1, 0x04000000);
rtw_write32(rtwdev, REG_OFDM1_CSI2, 0x00000000);
rtw_write32(rtwdev, REG_OFDM1_CSI3, 0x00000000);
rtw_write32(rtwdev, REG_OFDM1_CSI4, 0x00000000);
rtw_write32_mask(rtwdev, REG_OFDM1_CFOTRK, BIT_EN_CFOTRK, 0x1);
break;
case 14:
rtw_write32_mask(rtwdev, REG_OFDM0_RXDSP, BIT_MASK_RXDSP, 0x5);
rtw_write32_mask(rtwdev, REG_OFDM0_RXDSP, BIT_EN_RXDSP, 0x1);
rtw_write32(rtwdev, REG_OFDM1_CSI1, 0x00000000);
rtw_write32(rtwdev, REG_OFDM1_CSI2, 0x00000000);
rtw_write32(rtwdev, REG_OFDM1_CSI3, 0x00000000);
rtw_write32(rtwdev, REG_OFDM1_CSI4, 0x00080000);
rtw_write32_mask(rtwdev, REG_OFDM1_CFOTRK, BIT_EN_CFOTRK, 0x1);
break;
default:
rtw_write32_mask(rtwdev, REG_OFDM0_RXDSP, BIT_EN_RXDSP, 0x0);
rtw_write32_mask(rtwdev, REG_OFDM1_CFOTRK, BIT_EN_CFOTRK, 0x0);
break;
}
}
static void rtw8723d_spur_cal(struct rtw_dev *rtwdev, u8 channel)
{
bool notch;
if (channel < 13) {
rtw8723d_cfg_notch(rtwdev, channel, false);
return;
}
notch = rtw8723d_check_spur_ov_thres(rtwdev, channel, SPUR_THRES);
rtw8723d_cfg_notch(rtwdev, channel, notch);
}
static void rtw8723d_set_channel_rf(struct rtw_dev *rtwdev, u8 channel, u8 bw)
{
u32 rf_cfgch_a, rf_cfgch_b;
rf_cfgch_a = rtw_read_rf(rtwdev, RF_PATH_A, RF_CFGCH, RFREG_MASK);
rf_cfgch_b = rtw_read_rf(rtwdev, RF_PATH_B, RF_CFGCH, RFREG_MASK);
rf_cfgch_a &= ~RFCFGCH_CHANNEL_MASK;
rf_cfgch_b &= ~RFCFGCH_CHANNEL_MASK;
rf_cfgch_a |= (channel & RFCFGCH_CHANNEL_MASK);
rf_cfgch_b |= (channel & RFCFGCH_CHANNEL_MASK);
rf_cfgch_a &= ~RFCFGCH_BW_MASK;
switch (bw) {
case RTW_CHANNEL_WIDTH_20:
rf_cfgch_a |= RFCFGCH_BW_20M;
break;
case RTW_CHANNEL_WIDTH_40:
rf_cfgch_a |= RFCFGCH_BW_40M;
break;
default:
break;
}
rtw_write_rf(rtwdev, RF_PATH_A, RF_CFGCH, RFREG_MASK, rf_cfgch_a);
rtw_write_rf(rtwdev, RF_PATH_B, RF_CFGCH, RFREG_MASK, rf_cfgch_b);
rtw8723d_spur_cal(rtwdev, channel);
}
static const struct rtw_backup_info cck_dfir_cfg[][CCK_DFIR_NR] = {
[0] = {
{ .len = 4, .reg = 0xA24, .val = 0x64B80C1C },
{ .len = 4, .reg = 0xA28, .val = 0x00008810 },
{ .len = 4, .reg = 0xAAC, .val = 0x01235667 },
},
[1] = {
{ .len = 4, .reg = 0xA24, .val = 0x0000B81C },
{ .len = 4, .reg = 0xA28, .val = 0x00000000 },
{ .len = 4, .reg = 0xAAC, .val = 0x00003667 },
},
};
static void rtw8723d_set_channel_bb(struct rtw_dev *rtwdev, u8 channel, u8 bw,
u8 primary_ch_idx)
{
const struct rtw_backup_info *cck_dfir;
int i;
cck_dfir = channel <= 13 ? cck_dfir_cfg[0] : cck_dfir_cfg[1];
for (i = 0; i < CCK_DFIR_NR; i++, cck_dfir++)
rtw_write32(rtwdev, cck_dfir->reg, cck_dfir->val);
switch (bw) {
case RTW_CHANNEL_WIDTH_20:
rtw_write32_mask(rtwdev, REG_FPGA0_RFMOD, BIT_MASK_RFMOD, 0x0);
rtw_write32_mask(rtwdev, REG_FPGA1_RFMOD, BIT_MASK_RFMOD, 0x0);
rtw_write32_mask(rtwdev, REG_BBRX_DFIR, BIT_RXBB_DFIR_EN, 1);
rtw_write32_mask(rtwdev, REG_BBRX_DFIR, BIT_MASK_RXBB_DFIR, 0xa);
break;
case RTW_CHANNEL_WIDTH_40:
rtw_write32_mask(rtwdev, REG_FPGA0_RFMOD, BIT_MASK_RFMOD, 0x1);
rtw_write32_mask(rtwdev, REG_FPGA1_RFMOD, BIT_MASK_RFMOD, 0x1);
rtw_write32_mask(rtwdev, REG_BBRX_DFIR, BIT_RXBB_DFIR_EN, 0);
rtw_write32_mask(rtwdev, REG_CCK0_SYS, BIT_CCK_SIDE_BAND,
(primary_ch_idx == RTW_SC_20_UPPER ? 1 : 0));
break;
default:
break;
}
}
static void rtw8723d_set_channel(struct rtw_dev *rtwdev, u8 channel, u8 bw,
u8 primary_chan_idx)
{
rtw8723d_set_channel_rf(rtwdev, channel, bw);
rtw_set_channel_mac(rtwdev, channel, bw, primary_chan_idx);
rtw8723d_set_channel_bb(rtwdev, channel, bw, primary_chan_idx);
}
#define BIT_CFENDFORM BIT(9)
#define BIT_WMAC_TCR_ERR0 BIT(12)
#define BIT_WMAC_TCR_ERR1 BIT(13)
#define BIT_TCR_CFG (BIT_CFENDFORM | BIT_WMAC_TCR_ERR0 | \
BIT_WMAC_TCR_ERR1)
#define WLAN_RX_FILTER0 0xFFFF
#define WLAN_RX_FILTER1 0x400
#define WLAN_RX_FILTER2 0xFFFF
#define WLAN_RCR_CFG 0x700060CE
static int rtw8723d_mac_init(struct rtw_dev *rtwdev)
{
rtw_write8(rtwdev, REG_FWHW_TXQ_CTRL + 1, WLAN_TXQ_RPT_EN);
rtw_write32(rtwdev, REG_TCR, BIT_TCR_CFG);
rtw_write16(rtwdev, REG_RXFLTMAP0, WLAN_RX_FILTER0);
rtw_write16(rtwdev, REG_RXFLTMAP1, WLAN_RX_FILTER1);
rtw_write16(rtwdev, REG_RXFLTMAP2, WLAN_RX_FILTER2);
rtw_write32(rtwdev, REG_RCR, WLAN_RCR_CFG);
rtw_write32(rtwdev, REG_INT_MIG, 0);
rtw_write32(rtwdev, REG_MCUTST_1, 0x0);
rtw_write8(rtwdev, REG_MISC_CTRL, BIT_DIS_SECOND_CCA);
rtw_write8(rtwdev, REG_2ND_CCA_CTRL, 0);
return 0;
}
static void rtw8723d_shutdown(struct rtw_dev *rtwdev)
{
rtw_write16_set(rtwdev, REG_HCI_OPT_CTRL, BIT_USB_SUS_DIS);
}
static void rtw8723d_cfg_ldo25(struct rtw_dev *rtwdev, bool enable)
{
u8 ldo_pwr;
ldo_pwr = rtw_read8(rtwdev, REG_LDO_EFUSE_CTRL + 3);
if (enable) {
ldo_pwr &= ~BIT_MASK_LDO25_VOLTAGE;
ldo_pwr |= (BIT_LDO25_VOLTAGE_V25 << 4) | BIT_LDO25_EN;
} else {
ldo_pwr &= ~BIT_LDO25_EN;
}
rtw_write8(rtwdev, REG_LDO_EFUSE_CTRL + 3, ldo_pwr);
}
static void
rtw8723d_set_tx_power_index_by_rate(struct rtw_dev *rtwdev, u8 path, u8 rs)
{
struct rtw_hal *hal = &rtwdev->hal;
const struct rtw_hw_reg *txagc;
u8 rate, pwr_index;
int j;
for (j = 0; j < rtw_rate_size[rs]; j++) {
rate = rtw_rate_section[rs][j];
pwr_index = hal->tx_pwr_tbl[path][rate];
if (rate >= ARRAY_SIZE(rtw8723d_txagc)) {
rtw_warn(rtwdev, "rate 0x%x isn't supported\n", rate);
continue;
}
txagc = &rtw8723d_txagc[rate];
if (!txagc->addr) {
rtw_warn(rtwdev, "rate 0x%x isn't defined\n", rate);
continue;
}
rtw_write32_mask(rtwdev, txagc->addr, txagc->mask, pwr_index);
}
}
static void rtw8723d_set_tx_power_index(struct rtw_dev *rtwdev)
{
struct rtw_hal *hal = &rtwdev->hal;
int rs, path;
for (path = 0; path < hal->rf_path_num; path++) {
for (rs = 0; rs <= RTW_RATE_SECTION_HT_1S; rs++)
rtw8723d_set_tx_power_index_by_rate(rtwdev, path, rs);
}
}
static void rtw8723d_efuse_grant(struct rtw_dev *rtwdev, bool on)
{
if (on) {
rtw_write8(rtwdev, REG_EFUSE_ACCESS, EFUSE_ACCESS_ON);
rtw_write16_set(rtwdev, REG_SYS_FUNC_EN, BIT_FEN_ELDR);
rtw_write16_set(rtwdev, REG_SYS_CLKR, BIT_LOADER_CLK_EN | BIT_ANA8M);
} else {
rtw_write8(rtwdev, REG_EFUSE_ACCESS, EFUSE_ACCESS_OFF);
}
}
static void rtw8723d_false_alarm_statistics(struct rtw_dev *rtwdev)
{
struct rtw_dm_info *dm_info = &rtwdev->dm_info;
u32 cck_fa_cnt;
u32 ofdm_fa_cnt;
u32 crc32_cnt;
u32 val32;
/* hold counter */
rtw_write32_mask(rtwdev, REG_OFDM_FA_HOLDC_11N, BIT_MASK_OFDM_FA_KEEP, 1);
rtw_write32_mask(rtwdev, REG_OFDM_FA_RSTD_11N, BIT_MASK_OFDM_FA_KEEP1, 1);
rtw_write32_mask(rtwdev, REG_CCK_FA_RST_11N, BIT_MASK_CCK_CNT_KEEP, 1);
rtw_write32_mask(rtwdev, REG_CCK_FA_RST_11N, BIT_MASK_CCK_FA_KEEP, 1);
cck_fa_cnt = rtw_read32_mask(rtwdev, REG_CCK_FA_LSB_11N, MASKBYTE0);
cck_fa_cnt += rtw_read32_mask(rtwdev, REG_CCK_FA_MSB_11N, MASKBYTE3) << 8;
val32 = rtw_read32(rtwdev, REG_OFDM_FA_TYPE1_11N);
ofdm_fa_cnt = u32_get_bits(val32, BIT_MASK_OFDM_FF_CNT);
ofdm_fa_cnt += u32_get_bits(val32, BIT_MASK_OFDM_SF_CNT);
val32 = rtw_read32(rtwdev, REG_OFDM_FA_TYPE2_11N);
dm_info->ofdm_cca_cnt = u32_get_bits(val32, BIT_MASK_OFDM_CCA_CNT);
ofdm_fa_cnt += u32_get_bits(val32, BIT_MASK_OFDM_PF_CNT);
val32 = rtw_read32(rtwdev, REG_OFDM_FA_TYPE3_11N);
ofdm_fa_cnt += u32_get_bits(val32, BIT_MASK_OFDM_RI_CNT);
ofdm_fa_cnt += u32_get_bits(val32, BIT_MASK_OFDM_CRC_CNT);
val32 = rtw_read32(rtwdev, REG_OFDM_FA_TYPE4_11N);
ofdm_fa_cnt += u32_get_bits(val32, BIT_MASK_OFDM_MNS_CNT);
dm_info->cck_fa_cnt = cck_fa_cnt;
dm_info->ofdm_fa_cnt = ofdm_fa_cnt;
dm_info->total_fa_cnt = cck_fa_cnt + ofdm_fa_cnt;
dm_info->cck_err_cnt = rtw_read32(rtwdev, REG_IGI_C_11N);
dm_info->cck_ok_cnt = rtw_read32(rtwdev, REG_IGI_D_11N);
crc32_cnt = rtw_read32(rtwdev, REG_OFDM_CRC32_CNT_11N);
dm_info->ofdm_err_cnt = u32_get_bits(crc32_cnt, BIT_MASK_OFDM_LCRC_ERR);
dm_info->ofdm_ok_cnt = u32_get_bits(crc32_cnt, BIT_MASK_OFDM_LCRC_OK);
crc32_cnt = rtw_read32(rtwdev, REG_HT_CRC32_CNT_11N);
dm_info->ht_err_cnt = u32_get_bits(crc32_cnt, BIT_MASK_HT_CRC_ERR);
dm_info->ht_ok_cnt = u32_get_bits(crc32_cnt, BIT_MASK_HT_CRC_OK);
dm_info->vht_err_cnt = 0;
dm_info->vht_ok_cnt = 0;
val32 = rtw_read32(rtwdev, REG_CCK_CCA_CNT_11N);
dm_info->cck_cca_cnt = (u32_get_bits(val32, BIT_MASK_CCK_FA_MSB) << 8) |
u32_get_bits(val32, BIT_MASK_CCK_FA_LSB);
dm_info->total_cca_cnt = dm_info->cck_cca_cnt + dm_info->ofdm_cca_cnt;
/* reset counter */
rtw_write32_mask(rtwdev, REG_OFDM_FA_RSTC_11N, BIT_MASK_OFDM_FA_RST, 1);
rtw_write32_mask(rtwdev, REG_OFDM_FA_RSTC_11N, BIT_MASK_OFDM_FA_RST, 0);
rtw_write32_mask(rtwdev, REG_OFDM_FA_RSTD_11N, BIT_MASK_OFDM_FA_RST1, 1);
rtw_write32_mask(rtwdev, REG_OFDM_FA_RSTD_11N, BIT_MASK_OFDM_FA_RST1, 0);
rtw_write32_mask(rtwdev, REG_OFDM_FA_HOLDC_11N, BIT_MASK_OFDM_FA_KEEP, 0);
rtw_write32_mask(rtwdev, REG_OFDM_FA_RSTD_11N, BIT_MASK_OFDM_FA_KEEP1, 0);
rtw_write32_mask(rtwdev, REG_CCK_FA_RST_11N, BIT_MASK_CCK_CNT_KPEN, 0);
rtw_write32_mask(rtwdev, REG_CCK_FA_RST_11N, BIT_MASK_CCK_CNT_KPEN, 2);
rtw_write32_mask(rtwdev, REG_CCK_FA_RST_11N, BIT_MASK_CCK_FA_KPEN, 0);
rtw_write32_mask(rtwdev, REG_CCK_FA_RST_11N, BIT_MASK_CCK_FA_KPEN, 2);
rtw_write32_mask(rtwdev, REG_PAGE_F_RST_11N, BIT_MASK_F_RST_ALL, 1);
rtw_write32_mask(rtwdev, REG_PAGE_F_RST_11N, BIT_MASK_F_RST_ALL, 0);
}
static const u32 iqk_adda_regs[] = {
0x85c, 0xe6c, 0xe70, 0xe74, 0xe78, 0xe7c, 0xe80, 0xe84, 0xe88, 0xe8c,
0xed0, 0xed4, 0xed8, 0xedc, 0xee0, 0xeec
};
static const u32 iqk_mac8_regs[] = {0x522, 0x550, 0x551};
static const u32 iqk_mac32_regs[] = {0x40};
static const u32 iqk_bb_regs[] = {
0xc04, 0xc08, 0x874, 0xb68, 0xb6c, 0x870, 0x860, 0x864, 0xa04
};
#define IQK_ADDA_REG_NUM ARRAY_SIZE(iqk_adda_regs)
#define IQK_MAC8_REG_NUM ARRAY_SIZE(iqk_mac8_regs)
#define IQK_MAC32_REG_NUM ARRAY_SIZE(iqk_mac32_regs)
#define IQK_BB_REG_NUM ARRAY_SIZE(iqk_bb_regs)
struct iqk_backup_regs {
u32 adda[IQK_ADDA_REG_NUM];
u8 mac8[IQK_MAC8_REG_NUM];
u32 mac32[IQK_MAC32_REG_NUM];
u32 bb[IQK_BB_REG_NUM];
u32 lte_path;
u32 lte_gnt;
u32 bb_sel_btg;
u8 btg_sel;
u8 igia;
u8 igib;
};
static void rtw8723d_iqk_backup_regs(struct rtw_dev *rtwdev,
struct iqk_backup_regs *backup)
{
int i;
for (i = 0; i < IQK_ADDA_REG_NUM; i++)
backup->adda[i] = rtw_read32(rtwdev, iqk_adda_regs[i]);
for (i = 0; i < IQK_MAC8_REG_NUM; i++)
backup->mac8[i] = rtw_read8(rtwdev, iqk_mac8_regs[i]);
for (i = 0; i < IQK_MAC32_REG_NUM; i++)
backup->mac32[i] = rtw_read32(rtwdev, iqk_mac32_regs[i]);
for (i = 0; i < IQK_BB_REG_NUM; i++)
backup->bb[i] = rtw_read32(rtwdev, iqk_bb_regs[i]);
backup->igia = rtw_read32_mask(rtwdev, REG_OFDM0_XAAGC1, MASKBYTE0);
backup->igib = rtw_read32_mask(rtwdev, REG_OFDM0_XBAGC1, MASKBYTE0);
backup->bb_sel_btg = rtw_read32(rtwdev, REG_BB_SEL_BTG);
}
static void rtw8723d_iqk_restore_regs(struct rtw_dev *rtwdev,
const struct iqk_backup_regs *backup)
{
int i;
for (i = 0; i < IQK_ADDA_REG_NUM; i++)
rtw_write32(rtwdev, iqk_adda_regs[i], backup->adda[i]);
for (i = 0; i < IQK_MAC8_REG_NUM; i++)
rtw_write8(rtwdev, iqk_mac8_regs[i], backup->mac8[i]);
for (i = 0; i < IQK_MAC32_REG_NUM; i++)
rtw_write32(rtwdev, iqk_mac32_regs[i], backup->mac32[i]);
for (i = 0; i < IQK_BB_REG_NUM; i++)
rtw_write32(rtwdev, iqk_bb_regs[i], backup->bb[i]);
rtw_write32_mask(rtwdev, REG_OFDM0_XAAGC1, MASKBYTE0, 0x50);
rtw_write32_mask(rtwdev, REG_OFDM0_XAAGC1, MASKBYTE0, backup->igia);
rtw_write32_mask(rtwdev, REG_OFDM0_XBAGC1, MASKBYTE0, 0x50);
rtw_write32_mask(rtwdev, REG_OFDM0_XBAGC1, MASKBYTE0, backup->igib);
rtw_write32(rtwdev, REG_TXIQK_TONE_A_11N, 0x01008c00);
rtw_write32(rtwdev, REG_RXIQK_TONE_A_11N, 0x01008c00);
}
static void rtw8723d_iqk_backup_path_ctrl(struct rtw_dev *rtwdev,
struct iqk_backup_regs *backup)
{
backup->btg_sel = rtw_read8(rtwdev, REG_BTG_SEL);
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] original 0x67 = 0x%x\n",
backup->btg_sel);
}
static void rtw8723d_iqk_config_path_ctrl(struct rtw_dev *rtwdev)
{
rtw_write32_mask(rtwdev, REG_PAD_CTRL1, BIT_BT_BTG_SEL, 0x1);
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] set 0x67 = 0x%x\n",
rtw_read32_mask(rtwdev, REG_PAD_CTRL1, MASKBYTE3));
}
static void rtw8723d_iqk_restore_path_ctrl(struct rtw_dev *rtwdev,
const struct iqk_backup_regs *backup)
{
rtw_write8(rtwdev, REG_BTG_SEL, backup->btg_sel);
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] restore 0x67 = 0x%x\n",
rtw_read32_mask(rtwdev, REG_PAD_CTRL1, MASKBYTE3));
}
static void rtw8723d_iqk_backup_lte_path_gnt(struct rtw_dev *rtwdev,
struct iqk_backup_regs *backup)
{
backup->lte_path = rtw_read32(rtwdev, REG_LTECOEX_PATH_CONTROL);
rtw_write32(rtwdev, REG_LTECOEX_CTRL, 0x800f0038);
mdelay(1);
backup->lte_gnt = rtw_read32(rtwdev, REG_LTECOEX_READ_DATA);
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] OriginalGNT = 0x%x\n",
backup->lte_gnt);
}
static void rtw8723d_iqk_config_lte_path_gnt(struct rtw_dev *rtwdev)
{
rtw_write32(rtwdev, REG_LTECOEX_WRITE_DATA, 0x0000ff00);
rtw_write32(rtwdev, REG_LTECOEX_CTRL, 0xc0020038);
rtw_write32_mask(rtwdev, REG_LTECOEX_PATH_CONTROL, BIT_LTE_MUX_CTRL_PATH, 0x1);
}
static void rtw8723d_iqk_restore_lte_path_gnt(struct rtw_dev *rtwdev,
const struct iqk_backup_regs *bak)
{
rtw_write32(rtwdev, REG_LTECOEX_WRITE_DATA, bak->lte_gnt);
rtw_write32(rtwdev, REG_LTECOEX_CTRL, 0xc00f0038);
rtw_write32(rtwdev, REG_LTECOEX_PATH_CONTROL, bak->lte_path);
}
struct rtw_8723d_iqk_cfg {
const char *name;
u32 val_bb_sel_btg;
u32 reg_lutwe;
u32 val_txiqk_pi;
u32 reg_padlut;
u32 reg_gaintx;
u32 reg_bspad;
u32 val_wlint;
u32 val_wlsel;
u32 val_iqkpts;
};
static const struct rtw_8723d_iqk_cfg iqk_tx_cfg[PATH_NR] = {
[PATH_S1] = {
.name = "S1",
.val_bb_sel_btg = 0x99000000,
.reg_lutwe = RF_LUTWE,
.val_txiqk_pi = 0x8214019f,
.reg_padlut = RF_LUTDBG,
.reg_gaintx = RF_GAINTX,
.reg_bspad = RF_BSPAD,
.val_wlint = 0xe0d,
.val_wlsel = 0x60d,
.val_iqkpts = 0xfa000000,
},
[PATH_S0] = {
.name = "S0",
.val_bb_sel_btg = 0x99000280,
.reg_lutwe = RF_LUTWE2,
.val_txiqk_pi = 0x8214018a,
.reg_padlut = RF_TXADBG,
.reg_gaintx = RF_TRXIQ,
.reg_bspad = RF_TXATANK,
.val_wlint = 0xe6d,
.val_wlsel = 0x66d,
.val_iqkpts = 0xf9000000,
},
};
static u8 rtw8723d_iqk_check_tx_failed(struct rtw_dev *rtwdev,
const struct rtw_8723d_iqk_cfg *iqk_cfg)
{
s32 tx_x, tx_y;
u32 tx_fail;
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] 0xeac = 0x%x\n",
rtw_read32(rtwdev, REG_IQK_RES_RY));
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] 0xe94 = 0x%x, 0xe9c = 0x%x\n",
rtw_read32(rtwdev, REG_IQK_RES_TX),
rtw_read32(rtwdev, REG_IQK_RES_TY));
rtw_dbg(rtwdev, RTW_DBG_RFK,
"[IQK] 0xe90(before IQK)= 0x%x, 0xe98(afer IQK) = 0x%x\n",
rtw_read32(rtwdev, 0xe90),
rtw_read32(rtwdev, 0xe98));
tx_fail = rtw_read32_mask(rtwdev, REG_IQK_RES_RY, BIT_IQK_TX_FAIL);
tx_x = rtw_read32_mask(rtwdev, REG_IQK_RES_TX, BIT_MASK_RES_TX);
tx_y = rtw_read32_mask(rtwdev, REG_IQK_RES_TY, BIT_MASK_RES_TY);
if (!tx_fail && tx_x != IQK_TX_X_ERR && tx_y != IQK_TX_Y_ERR)
return IQK_TX_OK;
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] %s TXIQK is failed\n",
iqk_cfg->name);
return 0;
}
static u8 rtw8723d_iqk_check_rx_failed(struct rtw_dev *rtwdev,
const struct rtw_8723d_iqk_cfg *iqk_cfg)
{
s32 rx_x, rx_y;
u32 rx_fail;
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] 0xea4 = 0x%x, 0xeac = 0x%x\n",
rtw_read32(rtwdev, REG_IQK_RES_RX),
rtw_read32(rtwdev, REG_IQK_RES_RY));
rtw_dbg(rtwdev, RTW_DBG_RFK,
"[IQK] 0xea0(before IQK)= 0x%x, 0xea8(afer IQK) = 0x%x\n",
rtw_read32(rtwdev, 0xea0),
rtw_read32(rtwdev, 0xea8));
rx_fail = rtw_read32_mask(rtwdev, REG_IQK_RES_RY, BIT_IQK_RX_FAIL);
rx_x = rtw_read32_mask(rtwdev, REG_IQK_RES_RX, BIT_MASK_RES_RX);
rx_y = rtw_read32_mask(rtwdev, REG_IQK_RES_RY, BIT_MASK_RES_RY);
rx_y = abs(iqkxy_to_s32(rx_y));
if (!rx_fail && rx_x < IQK_RX_X_UPPER && rx_x > IQK_RX_X_LOWER &&
rx_y < IQK_RX_Y_LMT)
return IQK_RX_OK;
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] %s RXIQK STEP2 is failed\n",
iqk_cfg->name);
return 0;
}
static void rtw8723d_iqk_one_shot(struct rtw_dev *rtwdev, bool tx,
const struct rtw_8723d_iqk_cfg *iqk_cfg)
{
u32 pts = (tx ? iqk_cfg->val_iqkpts : 0xf9000000);
/* enter IQK mode */
rtw_write32_mask(rtwdev, REG_FPGA0_IQK_11N, BIT_MASK_IQK_MOD, EN_IQK);
rtw8723d_iqk_config_lte_path_gnt(rtwdev);
rtw_write32(rtwdev, REG_LTECOEX_CTRL, 0x800f0054);
mdelay(1);
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] GNT_BT @%s %sIQK1 = 0x%x\n",
iqk_cfg->name, tx ? "TX" : "RX",
rtw_read32(rtwdev, REG_LTECOEX_READ_DATA));
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] 0x948 @%s %sIQK1 = 0x%x\n",
iqk_cfg->name, tx ? "TX" : "RX",
rtw_read32(rtwdev, REG_BB_SEL_BTG));
/* One shot, LOK & IQK */
rtw_write32(rtwdev, REG_IQK_AGC_PTS_11N, pts);
rtw_write32(rtwdev, REG_IQK_AGC_PTS_11N, 0xf8000000);
if (!check_hw_ready(rtwdev, REG_IQK_RES_RY, BIT_IQK_DONE, 1))
rtw_warn(rtwdev, "%s %s IQK isn't done\n", iqk_cfg->name,
tx ? "TX" : "RX");
}
static void rtw8723d_iqk_txrx_path_post(struct rtw_dev *rtwdev,
const struct rtw_8723d_iqk_cfg *iqk_cfg,
const struct iqk_backup_regs *backup)
{
rtw8723d_iqk_restore_lte_path_gnt(rtwdev, backup);
rtw_write32(rtwdev, REG_BB_SEL_BTG, backup->bb_sel_btg);
/* leave IQK mode */
rtw_write32_mask(rtwdev, REG_FPGA0_IQK_11N, BIT_MASK_IQK_MOD, RST_IQK);
mdelay(1);
rtw_write_rf(rtwdev, RF_PATH_A, iqk_cfg->reg_padlut, 0x800, 0x0);
rtw_write_rf(rtwdev, RF_PATH_A, RF_WLINT, BIT(0), 0x0);
rtw_write_rf(rtwdev, RF_PATH_A, RF_WLSEL, BIT(0), 0x0);
}
static u8 rtw8723d_iqk_tx_path(struct rtw_dev *rtwdev,
const struct rtw_8723d_iqk_cfg *iqk_cfg,
const struct iqk_backup_regs *backup)
{
u8 status;
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] path %s TXIQK!!\n", iqk_cfg->name);
rtw_dbg(rtwdev, RTW_DBG_RFK, "[IQK] 0x67 @%s TXIQK = 0x%x\n",
iqk_cfg->name,
rtw_read32_mask(rtwdev, REG_PAD_CTRL1, MASKBYTE3));
rtw_write32(rtwdev, REG_BB_SEL_BTG, iqk_cfg->val_bb_sel_btg);
rtw_write32_mask(rtwdev, REG_FPGA0_IQK_11N, BIT_MASK_IQK_MOD, RST_IQK);
mdelay(1);
rtw_write_rf(rtwdev, RF_PATH_A, iqk_cfg->reg_lutwe, RFREG_MASK, 0x80000);
rtw_write_rf(rtwdev, RF_PATH_A, RF_LUTWA, RFREG_MASK, 0x00004);
rtw_write_rf(rtwdev, RF_PATH_A, RF_LUTWD1, RFREG_MASK, 0x0005d);
rtw_write_rf(rtwdev, RF_PATH_A, RF_LUTWD0, RFREG_MASK, 0xBFFE0);
rtw_write_rf(rtwdev, RF_PATH_A, iqk_cfg->reg_lutwe, RFREG_MASK, 0x00000);
/* IQK setting */
rtw_write32(rtwdev, REG_TXIQK_TONE_A_11N, 0x08008c0c);
rtw_write32(rtwdev, REG_RXIQK_TONE_A_11N, 0x38008c1c);
rtw_write32(rtwdev, REG_TXIQK_PI_A_11N, iqk_cfg->val_txiqk_pi);
rtw_write32(rtwdev, REG_RXIQK_PI_A_11N, 0x28160200);
rtw_write32(rtwdev, REG_TXIQK_11N, 0x01007c00);
rtw_write32(rtwdev, REG_RXIQK_11N, 0x01004800);
/* LOK setting */
rtw_write32(rtwdev, REG_IQK_AGC_RSP_11N, 0x00462911);
/* PA, PAD setting */
rtw_write_rf(rtwdev, RF_PATH_A, iqk_cfg->reg_padlut, 0x800, 0x1);
rtw_write_rf(rtwdev, RF_PATH_A, iqk_cfg->reg_gaintx, 0x600, 0x0);
rtw_write_rf(rtwdev, RF_PATH_A, iqk_cfg->reg_gaintx, 0x1E0, 0x3);