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git01.mediatek.com / openwrt / feeds / mtk-openwrt-feeds / 29089081e98e52274db70df08436adc9c52d0028 / . / target / linux / mediatek / files-5.4 / drivers / net / phy / en8801sc.h
blob: 0a077c34abb14606a85b18ca15227cad1209c060 [file] [log] [blame]
// SPDX-License-Identifier: GPL-2.0
/* FILE NAME: en8801sc.h
* PURPOSE:
* Define EN8801SC driver function
*
* NOTES:
*
*/
#ifndef __EN8801SC_H
#define __EN8801SC_H
/* NAMING DECLARATIONS
*/
#define EN8801S_DRIVER_VERSION "1.1.7_Generic"
#define EN8801S_PBUS_DEFAULT_ID 0x1e
#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 0x9461
#define EN8801SC_PHY_ID 0x03a29471
#define LED_ON_CTRL(i) (0x024 + ((i)*2))
#define LED_ON_EN (1 << 15)
#define LED_ON_POL (1 << 14)
#define LED_ON_EVT_MASK (0x7f)
/* LED ON Event Option.B */
#define LED_ON_EVT_FORCE (1 << 6)
#define LED_ON_EVT_LINK_DOWN (1 << 3)
#define LED_ON_EVT_LINK_10M (1 << 2)
#define LED_ON_EVT_LINK_100M (1 << 1)
#define LED_ON_EVT_LINK_1000M (1 << 0)
/* LED ON Event Option.E */
#define LED_BLK_CTRL(i) (0x025 + ((i)*2))
#define LED_BLK_EVT_MASK (0x3ff)
/* LED Blinking Event Option.B*/
#define LED_BLK_EVT_FORCE (1 << 9)
#define LED_BLK_EVT_10M_RX_ACT (1 << 5)
#define LED_BLK_EVT_10M_TX_ACT (1 << 4)
#define LED_BLK_EVT_100M_RX_ACT (1 << 3)
#define LED_BLK_EVT_100M_TX_ACT (1 << 2)
#define LED_BLK_EVT_1000M_RX_ACT (1 << 1)
#define LED_BLK_EVT_1000M_TX_ACT (1 << 0)
/* LED Blinking Event Option.E*/
#define LED_ENABLE 1
#define LED_DISABLE 0
#define LINK_UP 1
#define LINK_DOWN 0
/*
SFP Sample for verification
Tx Reverse, Rx Reverse
*/
#define EN8801S_TX_POLARITY_NORMAL 0x0
#define EN8801S_TX_POLARITY_REVERSE 0x1
#define EN8801S_RX_POLARITY_NORMAL (0x1 << 1)
#define EN8801S_RX_POLARITY_REVERSE (0x0 << 1)
/*
The following led_cfg example is for reference only.
LED5 1000M/LINK/ACT (GPIO5) <-> BASE_T_LED0,
LED6 10/100M/LINK/ACT(GPIO9) <-> BASE_T_LED1,
LED4 100M/LINK/ACT (GPIO8) <-> BASE_T_LED2,
*/
/* User-defined.B */
#define BASE_T_LED0_ON_CFG (LED_ON_EVT_LINK_1000M)
#define BASE_T_LED0_BLK_CFG \
(LED_BLK_EVT_1000M_TX_ACT | \
LED_BLK_EVT_1000M_RX_ACT)
#define BASE_T_LED1_ON_CFG \
(LED_ON_EVT_LINK_100M | \
LED_ON_EVT_LINK_10M)
#define BASE_T_LED1_BLK_CFG \
(LED_BLK_EVT_100M_TX_ACT | \
LED_BLK_EVT_100M_RX_ACT | \
LED_BLK_EVT_10M_TX_ACT | \
LED_BLK_EVT_10M_RX_ACT)
#define BASE_T_LED2_ON_CFG \
(LED_ON_EVT_LINK_100M)
#define BASE_T_LED2_BLK_CFG \
(LED_BLK_EVT_100M_TX_ACT | \
LED_BLK_EVT_100M_RX_ACT)
#define BASE_T_LED3_ON_CFG (0x0)
#define BASE_T_LED3_BLK_CFG (0x0)
/* User-defined.E */
#define EN8801S_LED_COUNT 4
#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_LPI_1Ch 0x1c
#define RgAddr_AUXILIARY_1Dh 0x1d
#define RgAddr_PMA_00h 0x0f80
#define RgAddr_PMA_01h 0x0f82
#define RgAddr_PMA_17h 0x0fae
#define RgAddr_PMA_18h 0x0fb0
#define RgAddr_DSPF_03h 0x1686
#define RgAddr_DSPF_06h 0x168c
#define RgAddr_DSPF_08h 0x1690
#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_13h 0x16a6
#define RgAddr_DSPF_14h 0x16a8
#define RgAddr_DSPF_1Bh 0x16b6
#define RgAddr_DSPF_1Ch 0x16b8
#define RgAddr_TR_26h 0x0ecc
#define RgAddr_R1000DEC_15h 0x03aa
#define RgAddr_R1000DEC_17h 0x03ae
#define LED_BCR (0x021)
#define LED_BCR_EXT_CTRL (1 << 15)
#define LED_BCR_CLK_EN (1 << 3)
#define LED_BCR_TIME_TEST (1 << 2)
#define LED_BCR_MODE_MASK (3)
#define LED_BCR_MODE_DISABLE (0)
#define LED_ON_DUR (0x022)
#define LED_ON_DUR_MASK (0xffff)
#define LED_BLK_DUR (0x023)
#define LED_BLK_DUR_MASK (0xffff)
#define LED_GPIO_SEL_MASK 0x7FFFFFF
#define UNIT_LED_BLINK_DURATION 1024
/* Invalid data */
#define INVALID_DATA 0xffffffff
#define LED_SET_EVT(reg, cod, result, bit) do \
{ \
if (reg & cod) { \
result |= bit; \
} \
} while (0)
#define LED_SET_GPIO_SEL(gpio, led, val) \
(val |= (led << (8 * (gpio % 4)))) \
/* DATA TYPE DECLARATIONS
*/
struct AIR_BASE_T_LED_CFG_S {
u16 en;
u16 gpio;
u16 pol;
u16 on_cfg;
u16 blk_cfg;
};
union gephy_all_REG_LpiReg1Ch {
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;
};
union gephy_all_REG_dev1Eh_reg324h {
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;
};
union gephy_all_REG_dev1Eh_reg012h {
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;
};
union gephy_all_REG_dev1Eh_reg017h {
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;
};
enum {
AIR_LED_BLK_DUR_32M,
AIR_LED_BLK_DUR_64M,
AIR_LED_BLK_DUR_128M,
AIR_LED_BLK_DUR_256M,
AIR_LED_BLK_DUR_512M,
AIR_LED_BLK_DUR_1024M,
AIR_LED_BLK_DUR_LAST
};
enum {
AIR_ACTIVE_LOW,
AIR_ACTIVE_HIGH,
};
enum {
AIR_LED_MODE_DISABLE,
AIR_LED_MODE_USER_DEFINE,
AIR_LED_MODE_LAST
};
#endif /* End of __EN8801SC_H */