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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* RTL8XXXU mac80211 USB driver - 8723a specific subdriver
*
* Copyright (c) 2014 - 2017 Jes Sorensen <Jes.Sorensen@gmail.com>
*
* Portions, notably calibration code:
* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
*
* This driver was written as a replacement for the vendor provided
* rtl8723au driver. As the Realtek 8xxx chips are very similar in
* their programming interface, I have started adding support for
* additional 8xxx chips like the 8192cu, 8188cus, etc.
*/
#include "regs.h"
#include "rtl8xxxu.h"
static struct rtl8xxxu_power_base rtl8723a_power_base = {
.reg_0e00 = 0x0a0c0c0c,
.reg_0e04 = 0x02040608,
.reg_0e08 = 0x00000000,
.reg_086c = 0x00000000,
.reg_0e10 = 0x0a0c0d0e,
.reg_0e14 = 0x02040608,
.reg_0e18 = 0x0a0c0d0e,
.reg_0e1c = 0x02040608,
.reg_0830 = 0x0a0c0c0c,
.reg_0834 = 0x02040608,
.reg_0838 = 0x00000000,
.reg_086c_2 = 0x00000000,
.reg_083c = 0x0a0c0d0e,
.reg_0848 = 0x02040608,
.reg_084c = 0x0a0c0d0e,
.reg_0868 = 0x02040608,
};
static const struct rtl8xxxu_reg8val rtl8723au_mac_init_table[] = {
{0x420, 0x80}, {0x423, 0x00}, {0x430, 0x00}, {0x431, 0x00},
{0x432, 0x00}, {0x433, 0x01}, {0x434, 0x04}, {0x435, 0x05},
{0x436, 0x06}, {0x437, 0x07}, {0x438, 0x00}, {0x439, 0x00},
{0x43a, 0x00}, {0x43b, 0x01}, {0x43c, 0x04}, {0x43d, 0x05},
{0x43e, 0x06}, {0x43f, 0x07}, {0x440, 0x5d}, {0x441, 0x01},
{0x442, 0x00}, {0x444, 0x15}, {0x445, 0xf0}, {0x446, 0x0f},
{0x447, 0x00}, {0x458, 0x41}, {0x459, 0xa8}, {0x45a, 0x72},
{0x45b, 0xb9}, {0x460, 0x66}, {0x461, 0x66}, {0x462, 0x08},
{0x463, 0x03}, {0x4c8, 0xff}, {0x4c9, 0x08}, {0x4cc, 0xff},
{0x4cd, 0xff}, {0x4ce, 0x01}, {0x500, 0x26}, {0x501, 0xa2},
{0x502, 0x2f}, {0x503, 0x00}, {0x504, 0x28}, {0x505, 0xa3},
{0x506, 0x5e}, {0x507, 0x00}, {0x508, 0x2b}, {0x509, 0xa4},
{0x50a, 0x5e}, {0x50b, 0x00}, {0x50c, 0x4f}, {0x50d, 0xa4},
{0x50e, 0x00}, {0x50f, 0x00}, {0x512, 0x1c}, {0x514, 0x0a},
{0x515, 0x10}, {0x516, 0x0a}, {0x517, 0x10}, {0x51a, 0x16},
{0x524, 0x0f}, {0x525, 0x4f}, {0x546, 0x40}, {0x547, 0x00},
{0x550, 0x10}, {0x551, 0x10}, {0x559, 0x02}, {0x55a, 0x02},
{0x55d, 0xff}, {0x605, 0x30}, {0x608, 0x0e}, {0x609, 0x2a},
{0x652, 0x20}, {0x63c, 0x0a}, {0x63d, 0x0a}, {0x63e, 0x0e},
{0x63f, 0x0e}, {0x66e, 0x05}, {0x700, 0x21}, {0x701, 0x43},
{0x702, 0x65}, {0x703, 0x87}, {0x708, 0x21}, {0x709, 0x43},
{0x70a, 0x65}, {0x70b, 0x87}, {0xffff, 0xff},
};
static const struct rtl8xxxu_rfregval rtl8723au_radioa_1t_init_table[] = {
{0x00, 0x00030159}, {0x01, 0x00031284},
{0x02, 0x00098000}, {0x03, 0x00039c63},
{0x04, 0x000210e7}, {0x09, 0x0002044f},
{0x0a, 0x0001a3f1}, {0x0b, 0x00014787},
{0x0c, 0x000896fe}, {0x0d, 0x0000e02c},
{0x0e, 0x00039ce7}, {0x0f, 0x00000451},
{0x19, 0x00000000}, {0x1a, 0x00030355},
{0x1b, 0x00060a00}, {0x1c, 0x000fc378},
{0x1d, 0x000a1250}, {0x1e, 0x0000024f},
{0x1f, 0x00000000}, {0x20, 0x0000b614},
{0x21, 0x0006c000}, {0x22, 0x00000000},
{0x23, 0x00001558}, {0x24, 0x00000060},
{0x25, 0x00000483}, {0x26, 0x0004f000},
{0x27, 0x000ec7d9}, {0x28, 0x00057730},
{0x29, 0x00004783}, {0x2a, 0x00000001},
{0x2b, 0x00021334}, {0x2a, 0x00000000},
{0x2b, 0x00000054}, {0x2a, 0x00000001},
{0x2b, 0x00000808}, {0x2b, 0x00053333},
{0x2c, 0x0000000c}, {0x2a, 0x00000002},
{0x2b, 0x00000808}, {0x2b, 0x0005b333},
{0x2c, 0x0000000d}, {0x2a, 0x00000003},
{0x2b, 0x00000808}, {0x2b, 0x00063333},
{0x2c, 0x0000000d}, {0x2a, 0x00000004},
{0x2b, 0x00000808}, {0x2b, 0x0006b333},
{0x2c, 0x0000000d}, {0x2a, 0x00000005},
{0x2b, 0x00000808}, {0x2b, 0x00073333},
{0x2c, 0x0000000d}, {0x2a, 0x00000006},
{0x2b, 0x00000709}, {0x2b, 0x0005b333},
{0x2c, 0x0000000d}, {0x2a, 0x00000007},
{0x2b, 0x00000709}, {0x2b, 0x00063333},
{0x2c, 0x0000000d}, {0x2a, 0x00000008},
{0x2b, 0x0000060a}, {0x2b, 0x0004b333},
{0x2c, 0x0000000d}, {0x2a, 0x00000009},
{0x2b, 0x0000060a}, {0x2b, 0x00053333},
{0x2c, 0x0000000d}, {0x2a, 0x0000000a},
{0x2b, 0x0000060a}, {0x2b, 0x0005b333},
{0x2c, 0x0000000d}, {0x2a, 0x0000000b},
{0x2b, 0x0000060a}, {0x2b, 0x00063333},
{0x2c, 0x0000000d}, {0x2a, 0x0000000c},
{0x2b, 0x0000060a}, {0x2b, 0x0006b333},
{0x2c, 0x0000000d}, {0x2a, 0x0000000d},
{0x2b, 0x0000060a}, {0x2b, 0x00073333},
{0x2c, 0x0000000d}, {0x2a, 0x0000000e},
{0x2b, 0x0000050b}, {0x2b, 0x00066666},
{0x2c, 0x0000001a}, {0x2a, 0x000e0000},
{0x10, 0x0004000f}, {0x11, 0x000e31fc},
{0x10, 0x0006000f}, {0x11, 0x000ff9f8},
{0x10, 0x0002000f}, {0x11, 0x000203f9},
{0x10, 0x0003000f}, {0x11, 0x000ff500},
{0x10, 0x00000000}, {0x11, 0x00000000},
{0x10, 0x0008000f}, {0x11, 0x0003f100},
{0x10, 0x0009000f}, {0x11, 0x00023100},
{0x12, 0x00032000}, {0x12, 0x00071000},
{0x12, 0x000b0000}, {0x12, 0x000fc000},
{0x13, 0x000287b3}, {0x13, 0x000244b7},
{0x13, 0x000204ab}, {0x13, 0x0001c49f},
{0x13, 0x00018493}, {0x13, 0x0001429b},
{0x13, 0x00010299}, {0x13, 0x0000c29c},
{0x13, 0x000081a0}, {0x13, 0x000040ac},
{0x13, 0x00000020}, {0x14, 0x0001944c},
{0x14, 0x00059444}, {0x14, 0x0009944c},
{0x14, 0x000d9444}, {0x15, 0x0000f474},
{0x15, 0x0004f477}, {0x15, 0x0008f455},
{0x15, 0x000cf455}, {0x16, 0x00000339},
{0x16, 0x00040339}, {0x16, 0x00080339},
{0x16, 0x000c0366}, {0x00, 0x00010159},
{0x18, 0x0000f401}, {0xfe, 0x00000000},
{0xfe, 0x00000000}, {0x1f, 0x00000003},
{0xfe, 0x00000000}, {0xfe, 0x00000000},
{0x1e, 0x00000247}, {0x1f, 0x00000000},
{0x00, 0x00030159},
{0xff, 0xffffffff}
};
static int rtl8723au_identify_chip(struct rtl8xxxu_priv *priv)
{
struct device *dev = &priv->udev->dev;
u32 val32, sys_cfg, vendor;
int ret = 0;
sys_cfg = rtl8xxxu_read32(priv, REG_SYS_CFG);
priv->chip_cut = u32_get_bits(sys_cfg, SYS_CFG_CHIP_VERSION_MASK);
if (sys_cfg & SYS_CFG_TRP_VAUX_EN) {
dev_info(dev, "Unsupported test chip\n");
ret = -ENOTSUPP;
goto out;
}
strscpy(priv->chip_name, "8723AU", sizeof(priv->chip_name));
priv->usb_interrupts = 1;
priv->rtl_chip = RTL8723A;
priv->rf_paths = 1;
priv->rx_paths = 1;
priv->tx_paths = 1;
val32 = rtl8xxxu_read32(priv, REG_MULTI_FUNC_CTRL);
if (val32 & MULTI_WIFI_FUNC_EN)
priv->has_wifi = 1;
if (val32 & MULTI_BT_FUNC_EN)
priv->has_bluetooth = 1;
if (val32 & MULTI_GPS_FUNC_EN)
priv->has_gps = 1;
priv->is_multi_func = 1;
vendor = sys_cfg & SYS_CFG_VENDOR_ID;
rtl8xxxu_identify_vendor_1bit(priv, vendor);
val32 = rtl8xxxu_read32(priv, REG_GPIO_OUTSTS);
priv->rom_rev = u32_get_bits(val32, GPIO_RF_RL_ID);
rtl8xxxu_config_endpoints_sie(priv);
/*
* Fallback for devices that do not provide REG_NORMAL_SIE_EP_TX
*/
if (!priv->ep_tx_count)
ret = rtl8xxxu_config_endpoints_no_sie(priv);
out:
return ret;
}
static int rtl8723au_parse_efuse(struct rtl8xxxu_priv *priv)
{
struct rtl8723au_efuse *efuse = &priv->efuse_wifi.efuse8723;
if (efuse->rtl_id != cpu_to_le16(0x8129))
return -EINVAL;
ether_addr_copy(priv->mac_addr, efuse->mac_addr);
memcpy(priv->cck_tx_power_index_A,
efuse->cck_tx_power_index_A,
sizeof(efuse->cck_tx_power_index_A));
memcpy(priv->cck_tx_power_index_B,
efuse->cck_tx_power_index_B,
sizeof(efuse->cck_tx_power_index_B));
memcpy(priv->ht40_1s_tx_power_index_A,
efuse->ht40_1s_tx_power_index_A,
sizeof(efuse->ht40_1s_tx_power_index_A));
memcpy(priv->ht40_1s_tx_power_index_B,
efuse->ht40_1s_tx_power_index_B,
sizeof(efuse->ht40_1s_tx_power_index_B));
memcpy(priv->ht20_tx_power_index_diff,
efuse->ht20_tx_power_index_diff,
sizeof(efuse->ht20_tx_power_index_diff));
memcpy(priv->ofdm_tx_power_index_diff,
efuse->ofdm_tx_power_index_diff,
sizeof(efuse->ofdm_tx_power_index_diff));
memcpy(priv->ht40_max_power_offset,
efuse->ht40_max_power_offset,
sizeof(efuse->ht40_max_power_offset));
memcpy(priv->ht20_max_power_offset,
efuse->ht20_max_power_offset,
sizeof(efuse->ht20_max_power_offset));
if (priv->efuse_wifi.efuse8723.version >= 0x01)
priv->default_crystal_cap = priv->efuse_wifi.efuse8723.xtal_k & 0x3f;
else
priv->fops->set_crystal_cap = NULL;
priv->power_base = &rtl8723a_power_base;
return 0;
}
static int rtl8723au_load_firmware(struct rtl8xxxu_priv *priv)
{
const char *fw_name;
int ret;
switch (priv->chip_cut) {
case 0:
fw_name = "rtlwifi/rtl8723aufw_A.bin";
break;
case 1:
if (priv->enable_bluetooth)
fw_name = "rtlwifi/rtl8723aufw_B.bin";
else
fw_name = "rtlwifi/rtl8723aufw_B_NoBT.bin";
break;
default:
return -EINVAL;
}
ret = rtl8xxxu_load_firmware(priv, fw_name);
return ret;
}
static int rtl8723au_init_phy_rf(struct rtl8xxxu_priv *priv)
{
int ret;
ret = rtl8xxxu_init_phy_rf(priv, rtl8723au_radioa_1t_init_table, RF_A);
/* Reduce 80M spur */
rtl8xxxu_write32(priv, REG_AFE_XTAL_CTRL, 0x0381808d);
rtl8xxxu_write32(priv, REG_AFE_PLL_CTRL, 0xf0ffff83);
rtl8xxxu_write32(priv, REG_AFE_PLL_CTRL, 0xf0ffff82);
rtl8xxxu_write32(priv, REG_AFE_PLL_CTRL, 0xf0ffff83);
return ret;
}
static int rtl8723a_emu_to_active(struct rtl8xxxu_priv *priv)
{
u8 val8;
u32 val32;
int count, ret = 0;
/* 0x20[0] = 1 enable LDOA12 MACRO block for all interface*/
val8 = rtl8xxxu_read8(priv, REG_LDOA15_CTRL);
val8 |= LDOA15_ENABLE;
rtl8xxxu_write8(priv, REG_LDOA15_CTRL, val8);
/* 0x67[0] = 0 to disable BT_GPS_SEL pins*/
val8 = rtl8xxxu_read8(priv, 0x0067);
val8 &= ~BIT(4);
rtl8xxxu_write8(priv, 0x0067, val8);
mdelay(1);
/* 0x00[5] = 0 release analog Ips to digital, 1:isolation */
val8 = rtl8xxxu_read8(priv, REG_SYS_ISO_CTRL);
val8 &= ~SYS_ISO_ANALOG_IPS;
rtl8xxxu_write8(priv, REG_SYS_ISO_CTRL, val8);
/* disable SW LPS 0x04[10]= 0 */
val8 = rtl8xxxu_read8(priv, REG_APS_FSMCO + 1);
val8 &= ~BIT(2);
rtl8xxxu_write8(priv, REG_APS_FSMCO + 1, val8);
/* wait till 0x04[17] = 1 power ready*/
for (count = RTL8XXXU_MAX_REG_POLL; count; count--) {
val32 = rtl8xxxu_read32(priv, REG_APS_FSMCO);
if (val32 & BIT(17))
break;
udelay(10);
}
if (!count) {
ret = -EBUSY;
goto exit;
}
/* We should be able to optimize the following three entries into one */
/* release WLON reset 0x04[16]= 1*/
val8 = rtl8xxxu_read8(priv, REG_APS_FSMCO + 2);
val8 |= BIT(0);
rtl8xxxu_write8(priv, REG_APS_FSMCO + 2, val8);
/* disable HWPDN 0x04[15]= 0*/
val8 = rtl8xxxu_read8(priv, REG_APS_FSMCO + 1);
val8 &= ~BIT(7);
rtl8xxxu_write8(priv, REG_APS_FSMCO + 1, val8);
/* disable WL suspend*/
val8 = rtl8xxxu_read8(priv, REG_APS_FSMCO + 1);
val8 &= ~(BIT(3) | BIT(4));
rtl8xxxu_write8(priv, REG_APS_FSMCO + 1, val8);
/* set, then poll until 0 */
val32 = rtl8xxxu_read32(priv, REG_APS_FSMCO);
val32 |= APS_FSMCO_MAC_ENABLE;
rtl8xxxu_write32(priv, REG_APS_FSMCO, val32);
for (count = RTL8XXXU_MAX_REG_POLL; count; count--) {
val32 = rtl8xxxu_read32(priv, REG_APS_FSMCO);
if ((val32 & APS_FSMCO_MAC_ENABLE) == 0) {
ret = 0;
break;
}
udelay(10);
}
if (!count) {
ret = -EBUSY;
goto exit;
}
/* 0x4C[23] = 0x4E[7] = 1, switch DPDT_SEL_P output from WL BB */
/*
* Note: Vendor driver actually clears this bit, despite the
* documentation claims it's being set!
*/
val8 = rtl8xxxu_read8(priv, REG_LEDCFG2);
val8 |= LEDCFG2_DPDT_SELECT;
val8 &= ~LEDCFG2_DPDT_SELECT;
rtl8xxxu_write8(priv, REG_LEDCFG2, val8);
exit:
return ret;
}
static int rtl8723au_power_on(struct rtl8xxxu_priv *priv)
{
u8 val8;
u16 val16;
u32 val32;
int ret;
/*
* RSV_CTRL 0x001C[7:0] = 0x00, unlock ISO/CLK/Power control register
*/
rtl8xxxu_write8(priv, REG_RSV_CTRL, 0x0);
rtl8xxxu_disabled_to_emu(priv);
ret = rtl8723a_emu_to_active(priv);
if (ret)
goto exit;
/*
* 0x0004[19] = 1, reset 8051
*/
val8 = rtl8xxxu_read8(priv, REG_APS_FSMCO + 2);
val8 |= BIT(3);
rtl8xxxu_write8(priv, REG_APS_FSMCO + 2, val8);
/*
* Enable MAC DMA/WMAC/SCHEDULE/SEC block
* Set CR bit10 to enable 32k calibration.
*/
val16 = rtl8xxxu_read16(priv, REG_CR);
val16 |= (CR_HCI_TXDMA_ENABLE | CR_HCI_RXDMA_ENABLE |
CR_TXDMA_ENABLE | CR_RXDMA_ENABLE |
CR_PROTOCOL_ENABLE | CR_SCHEDULE_ENABLE |
CR_MAC_TX_ENABLE | CR_MAC_RX_ENABLE |
CR_SECURITY_ENABLE | CR_CALTIMER_ENABLE);
rtl8xxxu_write16(priv, REG_CR, val16);
/* For EFuse PG */
val32 = rtl8xxxu_read32(priv, REG_EFUSE_CTRL);
val32 &= ~(BIT(28) | BIT(29) | BIT(30));
val32 |= (0x06 << 28);
rtl8xxxu_write32(priv, REG_EFUSE_CTRL, val32);
exit:
return ret;
}
#define XTAL1 GENMASK(23, 18)
#define XTAL0 GENMASK(17, 12)
void rtl8723a_set_crystal_cap(struct rtl8xxxu_priv *priv, u8 crystal_cap)
{
struct rtl8xxxu_cfo_tracking *cfo = &priv->cfo_tracking;
u32 val32;
if (crystal_cap == cfo->crystal_cap)
return;
val32 = rtl8xxxu_read32(priv, REG_MAC_PHY_CTRL);
dev_dbg(&priv->udev->dev,
"%s: Adjusting crystal cap from 0x%x (actually 0x%lx 0x%lx) to 0x%x\n",
__func__,
cfo->crystal_cap,
FIELD_GET(XTAL1, val32),
FIELD_GET(XTAL0, val32),
crystal_cap);
val32 &= ~(XTAL1 | XTAL0);
val32 |= FIELD_PREP(XTAL1, crystal_cap) |
FIELD_PREP(XTAL0, crystal_cap);
rtl8xxxu_write32(priv, REG_MAC_PHY_CTRL, val32);
cfo->crystal_cap = crystal_cap;
}
s8 rtl8723a_cck_rssi(struct rtl8xxxu_priv *priv, struct rtl8723au_phy_stats *phy_stats)
{
u8 cck_agc_rpt = phy_stats->cck_agc_rpt_ofdm_cfosho_a;
s8 rx_pwr_all = 0x00;
switch (cck_agc_rpt & 0xc0) {
case 0xc0:
rx_pwr_all = -46 - (cck_agc_rpt & 0x3e);
break;
case 0x80:
rx_pwr_all = -26 - (cck_agc_rpt & 0x3e);
break;
case 0x40:
rx_pwr_all = -12 - (cck_agc_rpt & 0x3e);
break;
case 0x00:
rx_pwr_all = 16 - (cck_agc_rpt & 0x3e);
break;
}
return rx_pwr_all;
}
static int rtl8723au_led_brightness_set(struct led_classdev *led_cdev,
enum led_brightness brightness)
{
struct rtl8xxxu_priv *priv = container_of(led_cdev,
struct rtl8xxxu_priv,
led_cdev);
u8 ledcfg = rtl8xxxu_read8(priv, REG_LEDCFG2);
if (brightness == LED_OFF) {
ledcfg &= ~LEDCFG2_HW_LED_CONTROL;
ledcfg |= LEDCFG2_SW_LED_CONTROL | LEDCFG2_SW_LED_DISABLE;
} else if (brightness == LED_ON) {
ledcfg &= ~(LEDCFG2_HW_LED_CONTROL | LEDCFG2_SW_LED_DISABLE);
ledcfg |= LEDCFG2_SW_LED_CONTROL;
} else if (brightness == RTL8XXXU_HW_LED_CONTROL) {
ledcfg &= ~LEDCFG2_SW_LED_DISABLE;
ledcfg |= LEDCFG2_HW_LED_CONTROL | LEDCFG2_HW_LED_ENABLE;
}
rtl8xxxu_write8(priv, REG_LEDCFG2, ledcfg);
return 0;
}
struct rtl8xxxu_fileops rtl8723au_fops = {
.identify_chip = rtl8723au_identify_chip,
.parse_efuse = rtl8723au_parse_efuse,
.load_firmware = rtl8723au_load_firmware,
.power_on = rtl8723au_power_on,
.power_off = rtl8xxxu_power_off,
.read_efuse = rtl8xxxu_read_efuse,
.reset_8051 = rtl8xxxu_reset_8051,
.llt_init = rtl8xxxu_init_llt_table,
.init_phy_bb = rtl8xxxu_gen1_init_phy_bb,
.init_phy_rf = rtl8723au_init_phy_rf,
.phy_lc_calibrate = rtl8723a_phy_lc_calibrate,
.phy_iq_calibrate = rtl8xxxu_gen1_phy_iq_calibrate,
.config_channel = rtl8xxxu_gen1_config_channel,
.parse_rx_desc = rtl8xxxu_parse_rxdesc16,
.parse_phystats = rtl8723au_rx_parse_phystats,
.init_aggregation = rtl8xxxu_gen1_init_aggregation,
.enable_rf = rtl8xxxu_gen1_enable_rf,
.disable_rf = rtl8xxxu_gen1_disable_rf,
.usb_quirks = rtl8xxxu_gen1_usb_quirks,
.set_tx_power = rtl8xxxu_gen1_set_tx_power,
.update_rate_mask = rtl8xxxu_update_rate_mask,
.report_connect = rtl8xxxu_gen1_report_connect,
.report_rssi = rtl8xxxu_gen1_report_rssi,
.fill_txdesc = rtl8xxxu_fill_txdesc_v1,
.set_crystal_cap = rtl8723a_set_crystal_cap,
.cck_rssi = rtl8723a_cck_rssi,
.led_classdev_brightness_set = rtl8723au_led_brightness_set,
.writeN_block_size = 1024,
.rx_agg_buf_size = 16000,
.tx_desc_size = sizeof(struct rtl8xxxu_txdesc32),
.rx_desc_size = sizeof(struct rtl8xxxu_rxdesc16),
.max_sec_cam_num = 32,
.adda_1t_init = 0x0b1b25a0,
.adda_1t_path_on = 0x0bdb25a0,
.adda_2t_path_on_a = 0x04db25a4,
.adda_2t_path_on_b = 0x0b1b25a4,
.trxff_boundary = 0x27ff,
.pbp_rx = PBP_PAGE_SIZE_128,
.pbp_tx = PBP_PAGE_SIZE_128,
.mactable = rtl8723au_mac_init_table,
.total_page_num = TX_TOTAL_PAGE_NUM,
.page_num_hi = TX_PAGE_NUM_HI_PQ,
.page_num_lo = TX_PAGE_NUM_LO_PQ,
.page_num_norm = TX_PAGE_NUM_NORM_PQ,
};
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