target/linux/mediatek/patches-5.4/745-en8801sc-gphy-support.patch - openwrt/feeds/mtk-openwrt-feeds - Gitiles

 Index: drivers/net/phy/en8801sc.c
 ===================================================================
 --- /dev/null
 +++ b/drivers/net/phy/en8801sc.c
 @@ -0,0 +1,449 @@
 +// SPDX-License-Identifier: GPL-2.0
 +/* FILE NAME:  en8801sc.c
 + * PURPOSE:
 + *      EN8801S phy driver for Linux
 + * NOTES:
 + *
 + */
 +
 +/* INCLUDE FILE DECLARATIONS
 + */
 +
 +#include <linux/kernel.h>
 +#include <linux/string.h>
 +#include <linux/errno.h>
 +#include <linux/unistd.h>
 +#include <linux/interrupt.h>
 +#include <linux/init.h>
 +#include <linux/delay.h>
 +#include <linux/netdevice.h>
 +#include <linux/etherdevice.h>
 +#include <linux/skbuff.h>
 +#include <linux/spinlock.h>
 +#include <linux/mm.h>
 +#include <linux/module.h>
 +#include <linux/mii.h>
 +#include <linux/ethtool.h>
 +#include <linux/phy.h>
 +#include <linux/delay.h>
 +
 +#include <linux/uaccess.h>
 +#include <linux/version.h>
 +
 +#include "en8801sc.h"
 +
 +MODULE_DESCRIPTION("Airoha EN8801S PHY drivers for MT7981 SoC");
 +MODULE_AUTHOR("Airoha");
 +MODULE_LICENSE("GPL");
 +
 +#if (LINUX_VERSION_CODE < KERNEL_VERSION(4, 5, 0))
 +#define phydev_mdio_bus(dev) ((dev)->bus)
 +#else
 +#define phydev_mdio_bus(dev) ((dev)->mdio.bus)
 +#endif
 +
 +enum {
 +    PHY_STATE_DONE = 0,
 +    PHY_STATE_INIT = 1,
 +    PHY_STATE_PROCESS = 2,
 +};
 +
 +static int preSpeed = 0;
 +/************************************************************************
 +*                  F U N C T I O N S
 +************************************************************************/
 +unsigned int airoha_cl45_write(struct mii_bus *bus, u32 port, u32 devad, u32 reg, u16 val)
 +{
 +    mdiobus_write(bus, port, MII_MMD_ACC_CTL_REG, devad);
 +    mdiobus_write(bus, port, MII_MMD_ADDR_DATA_REG, reg);
 +    mdiobus_write(bus, port, MII_MMD_ACC_CTL_REG, MMD_OP_MODE_DATA | devad);
 +    mdiobus_write(bus, port, MII_MMD_ADDR_DATA_REG, val);
 +    return 0;
 +}
 +
 +unsigned int airoha_cl45_read(struct mii_bus *bus, u32 port, u32 devad, u32 reg, u32 *read_data)
 +{
 +    mdiobus_write(bus, port, MII_MMD_ACC_CTL_REG, devad);
 +    mdiobus_write(bus, port, MII_MMD_ADDR_DATA_REG, reg);
 +    mdiobus_write(bus, port, MII_MMD_ACC_CTL_REG, MMD_OP_MODE_DATA | devad);
 +    *read_data = mdiobus_read(bus, port, MII_MMD_ADDR_DATA_REG);
 +    return 0;
 +}
 +
 +unsigned int airoha_cl22_read(struct mii_bus *ebus, unsigned int phy_addr,unsigned int phy_register,unsigned int *read_data)
 +{
 +    *read_data = mdiobus_read(ebus, phy_addr, phy_register);
 +    return 0;
 +}
 +
 +unsigned int airoha_cl22_write(struct mii_bus *ebus, unsigned int phy_addr, unsigned int phy_register,unsigned int write_data)
 +{
 +    mdiobus_write(ebus, phy_addr, phy_register, write_data);
 +    return 0;
 +}
 +
 +void airoha_pbus_write(struct mii_bus *ebus, unsigned long pbus_id, unsigned long pbus_address, unsigned long pbus_data)
 +{
 +    airoha_cl22_write(ebus, pbus_id, 0x1F, (unsigned int)(pbus_address >> 6));
 +    airoha_cl22_write(ebus, pbus_id, (unsigned int)((pbus_address >> 2) & 0xf), (unsigned int)(pbus_data & 0xFFFF));
 +    airoha_cl22_write(ebus, pbus_id, 0x10, (unsigned int)(pbus_data >> 16));
 +    return;
 +}
 +
 +unsigned long airoha_pbus_read(struct mii_bus *ebus, unsigned long pbus_id, unsigned long pbus_address)
 +{
 +    unsigned long pbus_data;
 +    unsigned int pbus_data_low, pbus_data_high;
 +
 +    airoha_cl22_write(ebus, pbus_id, 0x1F, (unsigned int)(pbus_address >> 6));
 +    airoha_cl22_read(ebus, pbus_id, (unsigned int)((pbus_address >> 2) & 0xf), &pbus_data_low);
 +    airoha_cl22_read(ebus, pbus_id, 0x10, &pbus_data_high);
 +    pbus_data = (pbus_data_high << 16) + pbus_data_low;
 +    return pbus_data;
 +}
 +
 +/* Airoha Token Ring Write function */
 +void airoha_tr_reg_write(struct mii_bus *ebus, unsigned long tr_address, unsigned long tr_data)
 +{
 +    airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x1F, 0x52b5);       /* page select */
 +    airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x11, (unsigned int)(tr_data & 0xffff));
 +    airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x12, (unsigned int)(tr_data >> 16));
 +    airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x10, (unsigned int)(tr_address | TrReg_WR));
 +    airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x1F, 0x0);          /* page resetore */
 +    return;
 +}
 +
 +/* Airoha Token Ring Read function */
 +unsigned long airoha_tr_reg_read(struct mii_bus *ebus, unsigned long tr_address)
 +{
 +    unsigned long tr_data;
 +    unsigned int tr_data_low, tr_data_high;
 +
 +    airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x1F, 0x52b5);       /* page select */
 +    airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x10, (unsigned int)(tr_address | TrReg_RD));
 +    airoha_cl22_read(ebus, EN8801S_MDIO_PHY_ID, 0x11, &tr_data_low);
 +    airoha_cl22_read(ebus, EN8801S_MDIO_PHY_ID, 0x12, &tr_data_high);
 +    airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x1F, 0x0);          /* page resetore */
 +    tr_data = (tr_data_high << 16) + tr_data_low;
 +    return tr_data;
 +}
 +
 +void en8801s_led_init(struct mii_bus *mbus)
 +{
 +    u32 reg_value;
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x186c, 0x3);
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0X1870, 0x100);
 +    reg_value = (airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1880) & ~(0x3));
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1880, reg_value);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x21, 0x8008);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x22, 0x600);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x23, 0xc00);
 +    /* LED0: 10M/100M */
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x24, 0x8006);
 +    /* LED0: blink 10M/100M Tx/Rx */
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x25, 0x3c);
 +    /* LED1: 1000M */
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x26, 0x8001);
 +    /* LED1: blink 1000M Tx/Rx */
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x27, 0x3);
 +}
 +
 +static int en8801s_phy_process(struct phy_device *phydev)
 +{
 +    struct mii_bus *mbus = phydev_mdio_bus(phydev);
 +    u32 reg_value = 0;
 +
 +    reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x19e0);
 +    reg_value |= (1 << 0);
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x19e0, reg_value);
 +    reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x19e0);
 +    reg_value &= ~(1 << 0);
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x19e0, reg_value);
 +    return 0;
 +}
 +
 +static int en8801s_phase1_init(struct phy_device *phydev)
 +{
 +    unsigned long pbus_data;
 +    unsigned int pbusAddress;
 +    u32 reg_value;
 +    int retry;
 +    struct mii_bus *mbus = phydev_mdio_bus(phydev);
 +
 +    msleep(1500);
 +
 +    pbusAddress = EN8801S_PBUS_DEFAULT_ID;
 +    retry = MAX_OUI_CHECK;
 +    while(1)
 +    {
 +        pbus_data = airoha_pbus_read(mbus, pbusAddress, EN8801S_RG_ETHER_PHY_OUI);      /* PHY OUI */
 +        if(EN8801S_PBUS_OUI == pbus_data)
 +        {
 +            pbus_data = airoha_pbus_read(mbus, pbusAddress, EN8801S_RG_SMI_ADDR);       /* SMI ADDR */
 +            pbus_data = (pbus_data & 0xffff0000) | (unsigned long)(EN8801S_PBUS_PHY_ID << 8) | (unsigned long)(EN8801S_MDIO_PHY_ID );
 +            printk("[Airoha] EN8801S SMI_ADDR=%lx (renew)\n", pbus_data);
 +            airoha_pbus_write(mbus, pbusAddress, EN8801S_RG_SMI_ADDR, pbus_data);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_BUCK_CTL, 0x03);
 +            mdelay(10);
 +            break;
 +        }
 +        else
 +        {
 +            pbusAddress = EN8801S_PBUS_PHY_ID;
 +        }
 +        retry --;
 +        if (0 == retry)
 +        {
 +            printk("[Airoha] EN8801S probe fail !\n");
 +            return 0;
 +        }
 +    }
 +
 +    reg_value = (airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL) & 0xfffffffc) | 0x10 | (EN8801S_RX_POLARITY << 1) | EN8801S_TX_POLARITY;
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL, reg_value);
 +    mdelay(10);
 +    reg_value &= 0xffffffef;
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL, reg_value);
 +
 +    retry = MAX_RETRY;
 +    while (1)
 +    {
 +        mdelay(10);
 +        reg_value = phy_read(phydev, MII_PHYSID2);
 +        if (reg_value == EN8801S_PHY_ID2)
 +        {
 +            break;    /* wait GPHY ready */
 +        }
 +        retry--;
 +        if (0 == retry)
 +        {
 +            printk("[Airoha] EN8801S initialize fail !\n");
 +            return 0;
 +        }
 +    }
 +    /* Software Reset PHY */
 +    reg_value = phy_read(phydev, MII_BMCR);
 +    reg_value |= BMCR_RESET;
 +    phy_write(phydev, MII_BMCR, reg_value);
 +    retry = MAX_RETRY;
 +    do
 +    {
 +        mdelay(10);
 +        reg_value = phy_read(phydev, MII_BMCR);
 +        retry--;
 +        if (0 == retry)
 +        {
 +            printk("[Airoha] EN8801S reset fail !\n");
 +            return 0;
 +        }
 +    } while (reg_value & BMCR_RESET);
 +
 +    printk("[Airoha] EN8801S Phase1 initialize OK ! (%s)\n", EN8801S_DRIVER_VERSION);
 +    return 0;
 +}
 +
 +static int en8801s_phase2_init(struct phy_device *phydev)
 +{
 +    gephy_all_REG_LpiReg1Ch      GPHY_RG_LPI_1C;
 +    gephy_all_REG_dev1Eh_reg324h GPHY_RG_1E_324;
 +    gephy_all_REG_dev1Eh_reg012h GPHY_RG_1E_012;
 +    gephy_all_REG_dev1Eh_reg017h GPHY_RG_1E_017;
 +    unsigned long pbus_data;
 +    u32 reg_value;
 +    int retry;
 +    struct mii_bus *mbus = phydev_mdio_bus(phydev);
 +
 +    reg_value = (airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL) & 0xfffffffc) | 0x10 | (EN8801S_RX_POLARITY << 1) | EN8801S_TX_POLARITY;
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL, reg_value);
 +    mdelay(10);
 +    reg_value &= 0xffffffef;
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL, reg_value);
 +
 +    pbus_data = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1690);
 +    pbus_data |= (1 << 31);
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1690, pbus_data);
 +
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c000c00);
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x10, 0xD801);
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0,  0x9140);
 +
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0A14, 0x0003);
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c000c00);
 +    /* Set FCM control */
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1404, 0x004b);
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x140c, 0x0007);
 +
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x142c, 0x05050505);
 +    /* Set GPHY Perfomance*/
 +    /* Token Ring */
 +    airoha_tr_reg_write(mbus, RgAddr_PMA_01h,     0x6FB90A);
 +    airoha_tr_reg_write(mbus, RgAddr_PMA_18h,     0x0E2F00);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_06h,    0x2EBAEF);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_11h,    0x040001);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_03h,    0x000004);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_1Ch,    0x003210);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_14h,    0x00024A);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_0Ch,    0x00704D);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_0Dh,    0x02314F);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_10h,    0x005010);
 +    airoha_tr_reg_write(mbus, RgAddr_DSPF_0Fh,    0x003028);
 +    airoha_tr_reg_write(mbus, RgAddr_TR_26h,      0x444444);
 +    airoha_tr_reg_write(mbus, RgAddr_R1000DEC_15h,0x0055A0);
 +    /* CL22 & CL45 */
 +    phy_write(phydev, 0x1f, 0x03);
 +    GPHY_RG_LPI_1C.DATA = phy_read(phydev, RgAddr_LpiReg1Ch);
 +    GPHY_RG_LPI_1C.DataBitField.smi_deton_th = 0x0C;
 +    phy_write(phydev, RgAddr_LpiReg1Ch, GPHY_RG_LPI_1C.DATA);
 +    phy_write(phydev, 0x1f, 0x0);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x122, 0xffff);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x234, 0x0180);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x238, 0x0120);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x120, 0x9014);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x239, 0x0117);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x14A, 0xEE20);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x19B, 0x0111);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1F, 0x268, 0x07F4);
 +
 +    airoha_cl45_read(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x324, &reg_value);
 +    GPHY_RG_1E_324.DATA=(u16)reg_value;
 +    GPHY_RG_1E_324.DataBitField.smi_det_deglitch_off = 0;
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x324, (u32)GPHY_RG_1E_324.DATA);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x19E, 0xC2);
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x013, 0x0);
 +
 +    /* EFUSE */
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1C08, 0x40000040);
 +    retry = MAX_RETRY;
 +    while (0 != retry)
 +    {
 +        mdelay(1);
 +        reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1C08);
 +        if ((reg_value & (1 << 30)) == 0)
 +        {
 +            break;
 +        }
 +        retry--;
 +    }
 +    reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1C38);          /* RAW#2 */
 +    GPHY_RG_1E_012.DataBitField.da_tx_i2mpb_a_tbt = reg_value & 0x03f;
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x12, (u32)GPHY_RG_1E_012.DATA);
 +    GPHY_RG_1E_017.DataBitField.da_tx_i2mpb_b_tbt=(reg_value >> 8) & 0x03f;
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x12, (u32)GPHY_RG_1E_017.DATA);
 +
 +    airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1C08, 0x40400040);
 +    retry = MAX_RETRY;
 +    while (0 != retry)
 +    {
 +        mdelay(1);
 +        reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1C08);
 +        if ((reg_value & (1 << 30)) == 0)
 +        {
 +            break;
 +        }
 +        retry--;
 +    }
 +    reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1C30);          /* RAW#16 */
 +    GPHY_RG_1E_324.DataBitField.smi_det_deglitch_off = (reg_value >> 12) & 0x01;
 +    airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x324, (u32)GPHY_RG_1E_324.DATA);
 +
 +    en8801s_led_init(mbus);
 +
 +    printk("[Airoha] EN8801S Phase2 initialize OK !\n");
 +    return 0;
 +}
 +
 +static int en8801s_read_status(struct phy_device *phydev)
 +{
 +    int ret;
 +    struct mii_bus *mbus = phydev_mdio_bus(phydev);
 +    u32 reg_value;
 +    static int phystate = PHY_STATE_INIT;
 +
 +    ret = genphy_read_status(phydev);
 +    if (LINK_DOWN == phydev->link) preSpeed =0;
 +
 +    if (phystate == PHY_STATE_PROCESS) {
 +        en8801s_phy_process(phydev);
 +        phystate = PHY_STATE_DONE;
 +    }
 +
 +    if ((preSpeed != phydev->speed) && (LINK_UP == phydev->link))
 +    {
 +        preSpeed = phydev->speed;
 +
 +        if (phystate == PHY_STATE_INIT) {
 +            en8801s_phase2_init(phydev);
 +            phystate = PHY_STATE_PROCESS;
 +        }
 +
 +        if (preSpeed == SPEED_10) {
 +            reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1694);
 +            reg_value |= (1 << 31);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1694, reg_value);
 +            phystate = PHY_STATE_PROCESS;
 +        } else {
 +            reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1694);
 +            reg_value &= ~(1 << 31);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1694, reg_value);
 +            phystate = PHY_STATE_PROCESS;
 +        }
 +
 +        airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c000c00);
 +        if (SPEED_1000 == preSpeed)
 +        {
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x10, 0xD801);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0,  0x9140);
 +
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0A14, 0x0003);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c000c00);
 +            mdelay(2);      /* delay 2 ms */
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1404, 0x004b);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x140c, 0x0007);
 +        }
 +        else if (SPEED_100 == preSpeed)
 +        {
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x10, 0xD401);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0,  0x9140);
 +
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0A14, 0x0007);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c11);
 +            mdelay(2);      /* delay 2 ms */
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1404, 0x0027);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x140c, 0x0007);
 +        }
 +        else if (SPEED_10 == preSpeed)
 +        {
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x10, 0xD001);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0,  0x9140);
 +
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0A14, 0x000b);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c11);
 +            mdelay(2);      /* delay 2 ms */
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1404, 0x0027);
 +            airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x140c, 0x0007);
 +        }
 +    }
 +    return ret;
 +}
 +
 +static struct phy_driver Airoha_driver[] = {
 +{
 +    .phy_id         = EN8801S_PHY_ID,
 +    .name           = "Airoha EN8801S",
 +    .phy_id_mask    = 0x0ffffff0,
 +    .features       = PHY_GBIT_FEATURES,
 +    .config_init    = en8801s_phase1_init,
 +    .config_aneg    = genphy_config_aneg,
 +    .read_status    = en8801s_read_status,
 +    .suspend        = genphy_suspend,
 +    .resume         = genphy_resume,
 +} };
 +
 +module_phy_driver(Airoha_driver);
 +
 +static struct mdio_device_id __maybe_unused Airoha_tbl[] = {
 +    { EN8801S_PHY_ID, 0x0ffffff0 },
 +    { }
 +};
 +
 +MODULE_DEVICE_TABLE(mdio, Airoha_tbl);
 Index: drivers/net/phy/en8801sc.h
 ===================================================================
 --- /dev/null
 +++ b/drivers/net/phy/en8801sc.h
 @@ -0,0 +1,158 @@
 +// SPDX-License-Identifier: GPL-2.0
 +/* FILE NAME:  en8801sc.h
 + * PURPOSE:
 + *      Define EN8801S driver function
 + *
 + * NOTES:
 + *
 + */
 +
 +#ifndef __AIROHA_H
 +#define __AIROHA_H
 +
 +/* NAMING DECLARATIONS
 + */
 +#define EN8801S_DRIVER_VERSION  "1.0.0"
 +
 +#define PHY_ADDRESS_RANGE       0x18
 +#define EN8801S_PBUS_DEFAULT_ID 0x1e
 +#define EN8801S_MDIO_PHY_ID     0x18       /* Range PHY_ADDRESS_RANGE .. 0x1e */
 +#define EN8801S_PBUS_PHY_ID     (EN8801S_MDIO_PHY_ID + 1)
 +
 +#define EN8801S_RG_ETHER_PHY_OUI 0x19a4
 +#define EN8801S_RG_SMI_ADDR      0x19a8
 +#define EN8801S_RG_BUCK_CTL      0x1a20
 +#define EN8801S_RG_LTR_CTL      0x0cf8
 +
 +#define EN8801S_PBUS_OUI        0x17a5
 +#define EN8801S_PHY_ID1         0x03a2
 +#define EN8801S_PHY_ID2         0x9471
 +#define EN8801S_PHY_ID          (unsigned long)((EN8801S_PHY_ID1 << 16) | EN8801S_PHY_ID2)
 +
 +#define DEV1E_REG013_VALUE      0
 +#define DEV1E_REG19E_VALUE      0xC2
 +#define DEV1E_REG324_VALUE      0x200
 +
 +#define TRUE                    1
 +#define FALSE                   0
 +#define LINK_UP                 1
 +#define LINK_DOWN               0
 +
 +//#define TEST_BOARD
 +#if defined(TEST_BOARD)
 +/* SFP sample for verification */
 +#define EN8801S_TX_POLARITY     1
 +#define EN8801S_RX_POLARITY     0
 +#else
 +/* chip on board */
 +#define EN8801S_TX_POLARITY     0
 +#define EN8801S_RX_POLARITY     1       /* The pin default assignment is set to 1 */
 +#endif
 +
 +#define MAX_RETRY               5
 +#define MAX_OUI_CHECK           2
 +/* CL45 MDIO control */
 +#define MII_MMD_ACC_CTL_REG     0x0d
 +#define MII_MMD_ADDR_DATA_REG   0x0e
 +#define MMD_OP_MODE_DATA        BIT(14)
 +
 +#define MAX_TRG_COUNTER         5
 +
 +/* CL22 Reg Support Page Select */
 +#define RgAddr_Reg1Fh        0x1f
 +#define CL22_Page_Reg        0x0000
 +#define CL22_Page_ExtReg     0x0001
 +#define CL22_Page_MiscReg    0x0002
 +#define CL22_Page_LpiReg     0x0003
 +#define CL22_Page_tReg       0x02A3
 +#define CL22_Page_TrReg      0x52B5
 +
 +/* CL45 Reg Support DEVID */
 +#define DEVID_03             0x03
 +#define DEVID_07             0x07
 +#define DEVID_1E             0x1E
 +#define DEVID_1F             0x1F
 +
 +/* TokenRing Reg Access */
 +#define TrReg_PKT_XMT_STA    0x8000
 +#define TrReg_WR             0x8000
 +#define TrReg_RD             0xA000
 +
 +#define RgAddr_LpiReg1Ch     0x1c
 +#define RgAddr_PMA_01h       0x0f82
 +#define RgAddr_PMA_18h       0x0fb0
 +#define RgAddr_DSPF_03h      0x1686
 +#define RgAddr_DSPF_06h      0x168c
 +#define RgAddr_DSPF_0Ch      0x1698
 +#define RgAddr_DSPF_0Dh      0x169a
 +#define RgAddr_DSPF_0Fh      0x169e
 +#define RgAddr_DSPF_10h      0x16a0
 +#define RgAddr_DSPF_11h      0x16a2
 +#define RgAddr_DSPF_14h      0x16a8
 +#define RgAddr_DSPF_1Ch      0x16b8
 +#define RgAddr_TR_26h        0x0ecc
 +#define RgAddr_R1000DEC_15h  0x03aa
 +
 +/* DATA TYPE DECLARATIONS
 + */
 +typedef struct
 +{
 +    u16 DATA_Lo;
 +    u16 DATA_Hi;
 +}TR_DATA_T;
 +
 +typedef union
 +{
 +    struct
 +    {
 +        /* b[15:00] */
 +        u16 smi_deton_wt                             : 3;
 +        u16 smi_det_mdi_inv                          : 1;
 +        u16 smi_detoff_wt                            : 3;
 +        u16 smi_sigdet_debouncing_en                 : 1;
 +        u16 smi_deton_th                             : 6;
 +        u16 rsv_14                                   : 2;
 +    } DataBitField;
 +    u16 DATA;
 +} gephy_all_REG_LpiReg1Ch, *Pgephy_all_REG_LpiReg1Ch;
 +
 +typedef union
 +{
 +    struct
 +    {
 +        /* b[15:00] */
 +        u16 rg_smi_detcnt_max                        : 6;
 +        u16 rsv_6                                    : 2;
 +        u16 rg_smi_det_max_en                        : 1;
 +        u16 smi_det_deglitch_off                     : 1;
 +        u16 rsv_10                                   : 6;
 +    } DataBitField;
 +    u16 DATA;
 +} gephy_all_REG_dev1Eh_reg324h, *Pgephy_all_REG_dev1Eh_reg324h;
 +
 +typedef union
 +{
 +    struct
 +    {
 +        /* b[15:00] */
 +        u16 da_tx_i2mpb_a_tbt                        : 6;
 +        u16 rsv_6                                    : 4;
 +        u16 da_tx_i2mpb_a_gbe                        : 6;
 +    } DataBitField;
 +    u16 DATA;
 +} gephy_all_REG_dev1Eh_reg012h, *Pgephy_all_REG_dev1Eh_reg012h;
 +
 +typedef union
 +{
 +    struct
 +    {
 +        /* b[15:00] */
 +        u16 da_tx_i2mpb_b_tbt                        : 6;
 +        u16 rsv_6                                    : 2;
 +        u16 da_tx_i2mpb_b_gbe                        : 6;
 +        u16 rsv_14                                   : 2;
 +    } DataBitField;
 +    u16 DATA;
 +} gephy_all_REG_dev1Eh_reg017h, *Pgephy_all_REG_dev1Eh_reg017h;
 +
 +#endif /* End of __AIROHA_H */
 Index: drivers/net/phy/Kconfig
 ===================================================================
 --- a/drivers/net/phy/Kconfig
 +++ b/drivers/net/phy/Kconfig
 @@ -350,6 +350,11 @@ config AIROHA_EN8801S_PHY
  	---help---
  	  Currently supports the Airoha EN8801S PHY.

 +config AIROHA_EN8801SC_PHY
 +        tristate "Drivers for Airoha EN8801S Gigabit PHYs for MT7981 SoC."
 +        ---help---
 +          Currently supports the Airoha EN8801S PHY for MT7981 SoC.
 +
  config ADIN_PHY
  	tristate "Analog Devices Industrial Ethernet PHYs"
  	help
 Index: drivers/net/phy/Makefile
 ===================================================================
 --- a/drivers/net/phy/Makefile
 +++ b/drivers/net/phy/Makefile
 @@ -68,6 +68,7 @@ ifdef CONFIG_HWMON
  aquantia-objs			+= aquantia_hwmon.o
  endif
  obj-$(CONFIG_AIROHA_EN8801S_PHY)	+= en8801s.o
 +obj-$(CONFIG_AIROHA_EN8801SC_PHY)	+= en8801sc.o
  obj-$(CONFIG_AQUANTIA_PHY)	+= aquantia.o
  obj-$(CONFIG_AX88796B_PHY)	+= ax88796b.o
  obj-$(CONFIG_AT803X_PHY)	+= at803x.o
	Index: drivers/net/phy/en8801sc.c
	===================================================================
	--- /dev/null
	+++ b/drivers/net/phy/en8801sc.c
	@@ -0,0 +1,449 @@
	+// SPDX-License-Identifier: GPL-2.0
	+/* FILE NAME: en8801sc.c
	+ * PURPOSE:
	+ * EN8801S phy driver for Linux
	+ * NOTES:
	+ *
	+ */
	+
	+/* INCLUDE FILE DECLARATIONS
	+ */
	+
	+#include <linux/kernel.h>
	+#include <linux/string.h>
	+#include <linux/errno.h>
	+#include <linux/unistd.h>
	+#include <linux/interrupt.h>
	+#include <linux/init.h>
	+#include <linux/delay.h>
	+#include <linux/netdevice.h>
	+#include <linux/etherdevice.h>
	+#include <linux/skbuff.h>
	+#include <linux/spinlock.h>
	+#include <linux/mm.h>
	+#include <linux/module.h>
	+#include <linux/mii.h>
	+#include <linux/ethtool.h>
	+#include <linux/phy.h>
	+#include <linux/delay.h>
	+
	+#include <linux/uaccess.h>
	+#include <linux/version.h>
	+
	+#include "en8801sc.h"
	+
	+MODULE_DESCRIPTION("Airoha EN8801S PHY drivers for MT7981 SoC");
	+MODULE_AUTHOR("Airoha");
	+MODULE_LICENSE("GPL");
	+
	+#if (LINUX_VERSION_CODE < KERNEL_VERSION(4, 5, 0))
	+#define phydev_mdio_bus(dev) ((dev)->bus)
	+#else
	+#define phydev_mdio_bus(dev) ((dev)->mdio.bus)
	+#endif
	+
	+enum {
	+ PHY_STATE_DONE = 0,
	+ PHY_STATE_INIT = 1,
	+ PHY_STATE_PROCESS = 2,
	+};
	+
	+static int preSpeed = 0;
	+/************************************************************************
	+* F U N C T I O N S
	+************************************************************************/
	+unsigned int airoha_cl45_write(struct mii_bus *bus, u32 port, u32 devad, u32 reg, u16 val)
	+{
	+ mdiobus_write(bus, port, MII_MMD_ACC_CTL_REG, devad);
	+ mdiobus_write(bus, port, MII_MMD_ADDR_DATA_REG, reg);
	+ mdiobus_write(bus, port, MII_MMD_ACC_CTL_REG, MMD_OP_MODE_DATA \| devad);
	+ mdiobus_write(bus, port, MII_MMD_ADDR_DATA_REG, val);
	+ return 0;
	+}
	+
	+unsigned int airoha_cl45_read(struct mii_bus bus, u32 port, u32 devad, u32 reg, u32 read_data)
	+{
	+ mdiobus_write(bus, port, MII_MMD_ACC_CTL_REG, devad);
	+ mdiobus_write(bus, port, MII_MMD_ADDR_DATA_REG, reg);
	+ mdiobus_write(bus, port, MII_MMD_ACC_CTL_REG, MMD_OP_MODE_DATA \| devad);
	+ *read_data = mdiobus_read(bus, port, MII_MMD_ADDR_DATA_REG);
	+ return 0;
	+}
	+
	+unsigned int airoha_cl22_read(struct mii_bus ebus, unsigned int phy_addr,unsigned int phy_register,unsigned int read_data)
	+{
	+ *read_data = mdiobus_read(ebus, phy_addr, phy_register);
	+ return 0;
	+}
	+
	+unsigned int airoha_cl22_write(struct mii_bus *ebus, unsigned int phy_addr, unsigned int phy_register,unsigned int write_data)
	+{
	+ mdiobus_write(ebus, phy_addr, phy_register, write_data);
	+ return 0;
	+}
	+
	+void airoha_pbus_write(struct mii_bus *ebus, unsigned long pbus_id, unsigned long pbus_address, unsigned long pbus_data)
	+{
	+ airoha_cl22_write(ebus, pbus_id, 0x1F, (unsigned int)(pbus_address >> 6));
	+ airoha_cl22_write(ebus, pbus_id, (unsigned int)((pbus_address >> 2) & 0xf), (unsigned int)(pbus_data & 0xFFFF));
	+ airoha_cl22_write(ebus, pbus_id, 0x10, (unsigned int)(pbus_data >> 16));
	+ return;
	+}
	+
	+unsigned long airoha_pbus_read(struct mii_bus *ebus, unsigned long pbus_id, unsigned long pbus_address)
	+{
	+ unsigned long pbus_data;
	+ unsigned int pbus_data_low, pbus_data_high;
	+
	+ airoha_cl22_write(ebus, pbus_id, 0x1F, (unsigned int)(pbus_address >> 6));
	+ airoha_cl22_read(ebus, pbus_id, (unsigned int)((pbus_address >> 2) & 0xf), &pbus_data_low);
	+ airoha_cl22_read(ebus, pbus_id, 0x10, &pbus_data_high);
	+ pbus_data = (pbus_data_high << 16) + pbus_data_low;
	+ return pbus_data;
	+}
	+
	+/* Airoha Token Ring Write function */
	+void airoha_tr_reg_write(struct mii_bus *ebus, unsigned long tr_address, unsigned long tr_data)
	+{
	+ airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x1F, 0x52b5); /* page select */
	+ airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x11, (unsigned int)(tr_data & 0xffff));
	+ airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x12, (unsigned int)(tr_data >> 16));
	+ airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x10, (unsigned int)(tr_address \| TrReg_WR));
	+ airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x1F, 0x0); /* page resetore */
	+ return;
	+}
	+
	+/* Airoha Token Ring Read function */
	+unsigned long airoha_tr_reg_read(struct mii_bus *ebus, unsigned long tr_address)
	+{
	+ unsigned long tr_data;
	+ unsigned int tr_data_low, tr_data_high;
	+
	+ airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x1F, 0x52b5); /* page select */
	+ airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x10, (unsigned int)(tr_address \| TrReg_RD));
	+ airoha_cl22_read(ebus, EN8801S_MDIO_PHY_ID, 0x11, &tr_data_low);
	+ airoha_cl22_read(ebus, EN8801S_MDIO_PHY_ID, 0x12, &tr_data_high);
	+ airoha_cl22_write(ebus, EN8801S_MDIO_PHY_ID, 0x1F, 0x0); /* page resetore */
	+ tr_data = (tr_data_high << 16) + tr_data_low;
	+ return tr_data;
	+}
	+
	+void en8801s_led_init(struct mii_bus *mbus)
	+{
	+ u32 reg_value;
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x186c, 0x3);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0X1870, 0x100);
	+ reg_value = (airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1880) & ~(0x3));
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1880, reg_value);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x21, 0x8008);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x22, 0x600);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x23, 0xc00);
	+ /* LED0: 10M/100M */
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x24, 0x8006);
	+ /* LED0: blink 10M/100M Tx/Rx */
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x25, 0x3c);
	+ /* LED1: 1000M */
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x26, 0x8001);
	+ /* LED1: blink 1000M Tx/Rx */
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1f, 0x27, 0x3);
	+}
	+
	+static int en8801s_phy_process(struct phy_device *phydev)
	+{
	+ struct mii_bus *mbus = phydev_mdio_bus(phydev);
	+ u32 reg_value = 0;
	+
	+ reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x19e0);
	+ reg_value \|= (1 << 0);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x19e0, reg_value);
	+ reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x19e0);
	+ reg_value &= ~(1 << 0);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x19e0, reg_value);
	+ return 0;
	+}
	+
	+static int en8801s_phase1_init(struct phy_device *phydev)
	+{
	+ unsigned long pbus_data;
	+ unsigned int pbusAddress;
	+ u32 reg_value;
	+ int retry;
	+ struct mii_bus *mbus = phydev_mdio_bus(phydev);
	+
	+ msleep(1500);
	+
	+ pbusAddress = EN8801S_PBUS_DEFAULT_ID;
	+ retry = MAX_OUI_CHECK;
	+ while(1)
	+ {
	+ pbus_data = airoha_pbus_read(mbus, pbusAddress, EN8801S_RG_ETHER_PHY_OUI); /* PHY OUI */
	+ if(EN8801S_PBUS_OUI == pbus_data)
	+ {
	+ pbus_data = airoha_pbus_read(mbus, pbusAddress, EN8801S_RG_SMI_ADDR); /* SMI ADDR */
	+ pbus_data = (pbus_data & 0xffff0000) \| (unsigned long)(EN8801S_PBUS_PHY_ID << 8) \| (unsigned long)(EN8801S_MDIO_PHY_ID );
	+ printk("[Airoha] EN8801S SMI_ADDR=%lx (renew)\n", pbus_data);
	+ airoha_pbus_write(mbus, pbusAddress, EN8801S_RG_SMI_ADDR, pbus_data);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_BUCK_CTL, 0x03);
	+ mdelay(10);
	+ break;
	+ }
	+ else
	+ {
	+ pbusAddress = EN8801S_PBUS_PHY_ID;
	+ }
	+ retry --;
	+ if (0 == retry)
	+ {
	+ printk("[Airoha] EN8801S probe fail !\n");
	+ return 0;
	+ }
	+ }
	+
	+ reg_value = (airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL) & 0xfffffffc) \| 0x10 \| (EN8801S_RX_POLARITY << 1) \| EN8801S_TX_POLARITY;
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL, reg_value);
	+ mdelay(10);
	+ reg_value &= 0xffffffef;
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL, reg_value);
	+
	+ retry = MAX_RETRY;
	+ while (1)
	+ {
	+ mdelay(10);
	+ reg_value = phy_read(phydev, MII_PHYSID2);
	+ if (reg_value == EN8801S_PHY_ID2)
	+ {
	+ break; /* wait GPHY ready */
	+ }
	+ retry--;
	+ if (0 == retry)
	+ {
	+ printk("[Airoha] EN8801S initialize fail !\n");
	+ return 0;
	+ }
	+ }
	+ /* Software Reset PHY */
	+ reg_value = phy_read(phydev, MII_BMCR);
	+ reg_value \|= BMCR_RESET;
	+ phy_write(phydev, MII_BMCR, reg_value);
	+ retry = MAX_RETRY;
	+ do
	+ {
	+ mdelay(10);
	+ reg_value = phy_read(phydev, MII_BMCR);
	+ retry--;
	+ if (0 == retry)
	+ {
	+ printk("[Airoha] EN8801S reset fail !\n");
	+ return 0;
	+ }
	+ } while (reg_value & BMCR_RESET);
	+
	+ printk("[Airoha] EN8801S Phase1 initialize OK ! (%s)\n", EN8801S_DRIVER_VERSION);
	+ return 0;
	+}
	+
	+static int en8801s_phase2_init(struct phy_device *phydev)
	+{
	+ gephy_all_REG_LpiReg1Ch GPHY_RG_LPI_1C;
	+ gephy_all_REG_dev1Eh_reg324h GPHY_RG_1E_324;
	+ gephy_all_REG_dev1Eh_reg012h GPHY_RG_1E_012;
	+ gephy_all_REG_dev1Eh_reg017h GPHY_RG_1E_017;
	+ unsigned long pbus_data;
	+ u32 reg_value;
	+ int retry;
	+ struct mii_bus *mbus = phydev_mdio_bus(phydev);
	+
	+ reg_value = (airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL) & 0xfffffffc) \| 0x10 \| (EN8801S_RX_POLARITY << 1) \| EN8801S_TX_POLARITY;
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL, reg_value);
	+ mdelay(10);
	+ reg_value &= 0xffffffef;
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, EN8801S_RG_LTR_CTL, reg_value);
	+
	+ pbus_data = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1690);
	+ pbus_data \|= (1 << 31);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1690, pbus_data);
	+
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c000c00);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x10, 0xD801);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0, 0x9140);
	+
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0A14, 0x0003);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c000c00);
	+ /* Set FCM control */
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1404, 0x004b);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x140c, 0x0007);
	+
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x142c, 0x05050505);
	+ /* Set GPHY Perfomance*/
	+ /* Token Ring */
	+ airoha_tr_reg_write(mbus, RgAddr_PMA_01h, 0x6FB90A);
	+ airoha_tr_reg_write(mbus, RgAddr_PMA_18h, 0x0E2F00);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_06h, 0x2EBAEF);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_11h, 0x040001);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_03h, 0x000004);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_1Ch, 0x003210);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_14h, 0x00024A);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_0Ch, 0x00704D);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_0Dh, 0x02314F);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_10h, 0x005010);
	+ airoha_tr_reg_write(mbus, RgAddr_DSPF_0Fh, 0x003028);
	+ airoha_tr_reg_write(mbus, RgAddr_TR_26h, 0x444444);
	+ airoha_tr_reg_write(mbus, RgAddr_R1000DEC_15h,0x0055A0);
	+ /* CL22 & CL45 */
	+ phy_write(phydev, 0x1f, 0x03);
	+ GPHY_RG_LPI_1C.DATA = phy_read(phydev, RgAddr_LpiReg1Ch);
	+ GPHY_RG_LPI_1C.DataBitField.smi_deton_th = 0x0C;
	+ phy_write(phydev, RgAddr_LpiReg1Ch, GPHY_RG_LPI_1C.DATA);
	+ phy_write(phydev, 0x1f, 0x0);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x122, 0xffff);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x234, 0x0180);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x238, 0x0120);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x120, 0x9014);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x239, 0x0117);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x14A, 0xEE20);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x19B, 0x0111);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1F, 0x268, 0x07F4);
	+
	+ airoha_cl45_read(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x324, &reg_value);
	+ GPHY_RG_1E_324.DATA=(u16)reg_value;
	+ GPHY_RG_1E_324.DataBitField.smi_det_deglitch_off = 0;
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x324, (u32)GPHY_RG_1E_324.DATA);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x19E, 0xC2);
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x013, 0x0);
	+
	+ /* EFUSE */
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1C08, 0x40000040);
	+ retry = MAX_RETRY;
	+ while (0 != retry)
	+ {
	+ mdelay(1);
	+ reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1C08);
	+ if ((reg_value & (1 << 30)) == 0)
	+ {
	+ break;
	+ }
	+ retry--;
	+ }
	+ reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1C38); /* RAW#2 */
	+ GPHY_RG_1E_012.DataBitField.da_tx_i2mpb_a_tbt = reg_value & 0x03f;
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x12, (u32)GPHY_RG_1E_012.DATA);
	+ GPHY_RG_1E_017.DataBitField.da_tx_i2mpb_b_tbt=(reg_value >> 8) & 0x03f;
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x12, (u32)GPHY_RG_1E_017.DATA);
	+
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1C08, 0x40400040);
	+ retry = MAX_RETRY;
	+ while (0 != retry)
	+ {
	+ mdelay(1);
	+ reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1C08);
	+ if ((reg_value & (1 << 30)) == 0)
	+ {
	+ break;
	+ }
	+ retry--;
	+ }
	+ reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1C30); /* RAW#16 */
	+ GPHY_RG_1E_324.DataBitField.smi_det_deglitch_off = (reg_value >> 12) & 0x01;
	+ airoha_cl45_write(mbus, EN8801S_MDIO_PHY_ID, 0x1E, 0x324, (u32)GPHY_RG_1E_324.DATA);
	+
	+ en8801s_led_init(mbus);
	+
	+ printk("[Airoha] EN8801S Phase2 initialize OK !\n");
	+ return 0;
	+}
	+
	+static int en8801s_read_status(struct phy_device *phydev)
	+{
	+ int ret;
	+ struct mii_bus *mbus = phydev_mdio_bus(phydev);
	+ u32 reg_value;
	+ static int phystate = PHY_STATE_INIT;
	+
	+ ret = genphy_read_status(phydev);
	+ if (LINK_DOWN == phydev->link) preSpeed =0;
	+
	+ if (phystate == PHY_STATE_PROCESS) {
	+ en8801s_phy_process(phydev);
	+ phystate = PHY_STATE_DONE;
	+ }
	+
	+ if ((preSpeed != phydev->speed) && (LINK_UP == phydev->link))
	+ {
	+ preSpeed = phydev->speed;
	+
	+ if (phystate == PHY_STATE_INIT) {
	+ en8801s_phase2_init(phydev);
	+ phystate = PHY_STATE_PROCESS;
	+ }
	+
	+ if (preSpeed == SPEED_10) {
	+ reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1694);
	+ reg_value \|= (1 << 31);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1694, reg_value);
	+ phystate = PHY_STATE_PROCESS;
	+ } else {
	+ reg_value = airoha_pbus_read(mbus, EN8801S_PBUS_PHY_ID, 0x1694);
	+ reg_value &= ~(1 << 31);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1694, reg_value);
	+ phystate = PHY_STATE_PROCESS;
	+ }
	+
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c000c00);
	+ if (SPEED_1000 == preSpeed)
	+ {
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x10, 0xD801);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0, 0x9140);
	+
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0A14, 0x0003);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c000c00);
	+ mdelay(2); /* delay 2 ms */
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1404, 0x004b);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x140c, 0x0007);
	+ }
	+ else if (SPEED_100 == preSpeed)
	+ {
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x10, 0xD401);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0, 0x9140);
	+
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0A14, 0x0007);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c11);
	+ mdelay(2); /* delay 2 ms */
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1404, 0x0027);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x140c, 0x0007);
	+ }
	+ else if (SPEED_10 == preSpeed)
	+ {
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x10, 0xD001);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0, 0x9140);
	+
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0A14, 0x000b);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x0600, 0x0c11);
	+ mdelay(2); /* delay 2 ms */
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x1404, 0x0027);
	+ airoha_pbus_write(mbus, EN8801S_PBUS_PHY_ID, 0x140c, 0x0007);
	+ }
	+ }
	+ return ret;
	+}
	+
	+static struct phy_driver Airoha_driver[] = {
	+{
	+ .phy_id = EN8801S_PHY_ID,
	+ .name = "Airoha EN8801S",
	+ .phy_id_mask = 0x0ffffff0,
	+ .features = PHY_GBIT_FEATURES,
	+ .config_init = en8801s_phase1_init,
	+ .config_aneg = genphy_config_aneg,
	+ .read_status = en8801s_read_status,
	+ .suspend = genphy_suspend,
	+ .resume = genphy_resume,
	+} };
	+
	+module_phy_driver(Airoha_driver);
	+
	+static struct mdio_device_id __maybe_unused Airoha_tbl[] = {
	+ { EN8801S_PHY_ID, 0x0ffffff0 },
	+ { }
	+};
	+
	+MODULE_DEVICE_TABLE(mdio, Airoha_tbl);
	Index: drivers/net/phy/en8801sc.h
	===================================================================
	--- /dev/null
	+++ b/drivers/net/phy/en8801sc.h
	@@ -0,0 +1,158 @@
	+// SPDX-License-Identifier: GPL-2.0
	+/* FILE NAME: en8801sc.h
	+ * PURPOSE:
	+ * Define EN8801S driver function
	+ *
	+ * NOTES:
	+ *
	+ */
	+
	+#ifndef __AIROHA_H
	+#define __AIROHA_H
	+
	+/* NAMING DECLARATIONS
	+ */
	+#define EN8801S_DRIVER_VERSION "1.0.0"
	+
	+#define PHY_ADDRESS_RANGE 0x18
	+#define EN8801S_PBUS_DEFAULT_ID 0x1e
	+#define EN8801S_MDIO_PHY_ID 0x18 /* Range PHY_ADDRESS_RANGE .. 0x1e */
	+#define EN8801S_PBUS_PHY_ID (EN8801S_MDIO_PHY_ID + 1)
	+
	+#define EN8801S_RG_ETHER_PHY_OUI 0x19a4
	+#define EN8801S_RG_SMI_ADDR 0x19a8
	+#define EN8801S_RG_BUCK_CTL 0x1a20
	+#define EN8801S_RG_LTR_CTL 0x0cf8
	+
	+#define EN8801S_PBUS_OUI 0x17a5
	+#define EN8801S_PHY_ID1 0x03a2
	+#define EN8801S_PHY_ID2 0x9471
	+#define EN8801S_PHY_ID (unsigned long)((EN8801S_PHY_ID1 << 16) \| EN8801S_PHY_ID2)
	+
	+#define DEV1E_REG013_VALUE 0
	+#define DEV1E_REG19E_VALUE 0xC2
	+#define DEV1E_REG324_VALUE 0x200
	+
	+#define TRUE 1
	+#define FALSE 0
	+#define LINK_UP 1
	+#define LINK_DOWN 0
	+
	+//#define TEST_BOARD
	+#if defined(TEST_BOARD)
	+/* SFP sample for verification */
	+#define EN8801S_TX_POLARITY 1
	+#define EN8801S_RX_POLARITY 0
	+#else
	+/* chip on board */
	+#define EN8801S_TX_POLARITY 0
	+#define EN8801S_RX_POLARITY 1 /* The pin default assignment is set to 1 */
	+#endif
	+
	+#define MAX_RETRY 5
	+#define MAX_OUI_CHECK 2
	+/* CL45 MDIO control */
	+#define MII_MMD_ACC_CTL_REG 0x0d
	+#define MII_MMD_ADDR_DATA_REG 0x0e
	+#define MMD_OP_MODE_DATA BIT(14)
	+
	+#define MAX_TRG_COUNTER 5
	+
	+/* CL22 Reg Support Page Select */
	+#define RgAddr_Reg1Fh 0x1f
	+#define CL22_Page_Reg 0x0000
	+#define CL22_Page_ExtReg 0x0001
	+#define CL22_Page_MiscReg 0x0002
	+#define CL22_Page_LpiReg 0x0003
	+#define CL22_Page_tReg 0x02A3
	+#define CL22_Page_TrReg 0x52B5
	+
	+/* CL45 Reg Support DEVID */
	+#define DEVID_03 0x03
	+#define DEVID_07 0x07
	+#define DEVID_1E 0x1E
	+#define DEVID_1F 0x1F
	+
	+/* TokenRing Reg Access */
	+#define TrReg_PKT_XMT_STA 0x8000
	+#define TrReg_WR 0x8000
	+#define TrReg_RD 0xA000
	+
	+#define RgAddr_LpiReg1Ch 0x1c
	+#define RgAddr_PMA_01h 0x0f82
	+#define RgAddr_PMA_18h 0x0fb0
	+#define RgAddr_DSPF_03h 0x1686
	+#define RgAddr_DSPF_06h 0x168c
	+#define RgAddr_DSPF_0Ch 0x1698
	+#define RgAddr_DSPF_0Dh 0x169a
	+#define RgAddr_DSPF_0Fh 0x169e
	+#define RgAddr_DSPF_10h 0x16a0
	+#define RgAddr_DSPF_11h 0x16a2
	+#define RgAddr_DSPF_14h 0x16a8
	+#define RgAddr_DSPF_1Ch 0x16b8
	+#define RgAddr_TR_26h 0x0ecc
	+#define RgAddr_R1000DEC_15h 0x03aa
	+
	+/* DATA TYPE DECLARATIONS
	+ */
	+typedef struct
	+{
	+ u16 DATA_Lo;
	+ u16 DATA_Hi;
	+}TR_DATA_T;
	+
	+typedef union
	+{
	+ struct
	+ {
	+ /* b[15:00] */
	+ u16 smi_deton_wt : 3;
	+ u16 smi_det_mdi_inv : 1;
	+ u16 smi_detoff_wt : 3;
	+ u16 smi_sigdet_debouncing_en : 1;
	+ u16 smi_deton_th : 6;
	+ u16 rsv_14 : 2;
	+ } DataBitField;
	+ u16 DATA;
	+} gephy_all_REG_LpiReg1Ch, *Pgephy_all_REG_LpiReg1Ch;
	+
	+typedef union
	+{
	+ struct
	+ {
	+ /* b[15:00] */
	+ u16 rg_smi_detcnt_max : 6;
	+ u16 rsv_6 : 2;
	+ u16 rg_smi_det_max_en : 1;
	+ u16 smi_det_deglitch_off : 1;
	+ u16 rsv_10 : 6;
	+ } DataBitField;
	+ u16 DATA;
	+} gephy_all_REG_dev1Eh_reg324h, *Pgephy_all_REG_dev1Eh_reg324h;
	+
	+typedef union
	+{
	+ struct
	+ {
	+ /* b[15:00] */
	+ u16 da_tx_i2mpb_a_tbt : 6;
	+ u16 rsv_6 : 4;
	+ u16 da_tx_i2mpb_a_gbe : 6;
	+ } DataBitField;
	+ u16 DATA;
	+} gephy_all_REG_dev1Eh_reg012h, *Pgephy_all_REG_dev1Eh_reg012h;
	+
	+typedef union
	+{
	+ struct
	+ {
	+ /* b[15:00] */
	+ u16 da_tx_i2mpb_b_tbt : 6;
	+ u16 rsv_6 : 2;
	+ u16 da_tx_i2mpb_b_gbe : 6;
	+ u16 rsv_14 : 2;
	+ } DataBitField;
	+ u16 DATA;
	+} gephy_all_REG_dev1Eh_reg017h, *Pgephy_all_REG_dev1Eh_reg017h;
	+
	+#endif /* End of __AIROHA_H */
	Index: drivers/net/phy/Kconfig
	===================================================================
	--- a/drivers/net/phy/Kconfig
	+++ b/drivers/net/phy/Kconfig
	@@ -350,6 +350,11 @@ config AIROHA_EN8801S_PHY
	---help---
	Currently supports the Airoha EN8801S PHY.

	+config AIROHA_EN8801SC_PHY
	+ tristate "Drivers for Airoha EN8801S Gigabit PHYs for MT7981 SoC."
	+ ---help---
	+ Currently supports the Airoha EN8801S PHY for MT7981 SoC.
	+
	config ADIN_PHY
	tristate "Analog Devices Industrial Ethernet PHYs"
	help
	Index: drivers/net/phy/Makefile
	===================================================================
	--- a/drivers/net/phy/Makefile
	+++ b/drivers/net/phy/Makefile
	@@ -68,6 +68,7 @@ ifdef CONFIG_HWMON
	aquantia-objs += aquantia_hwmon.o
	endif
	obj-$(CONFIG_AIROHA_EN8801S_PHY) += en8801s.o
	+obj-$(CONFIG_AIROHA_EN8801SC_PHY) += en8801sc.o
	obj-$(CONFIG_AQUANTIA_PHY) += aquantia.o
	obj-$(CONFIG_AX88796B_PHY) += ax88796b.o
	obj-$(CONFIG_AT803X_PHY) += at803x.o