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/* SPDX-License-Identifier: GPL-2.0 */
/* Copyright (C) 2021, Intel Corporation. */
#ifndef _ICE_PTP_HW_H_
#define _ICE_PTP_HW_H_
#include <linux/dpll.h>
enum ice_ptp_tmr_cmd {
ICE_PTP_INIT_TIME,
ICE_PTP_INIT_INCVAL,
ICE_PTP_ADJ_TIME,
ICE_PTP_ADJ_TIME_AT_TIME,
ICE_PTP_READ_TIME,
ICE_PTP_NOP,
};
enum ice_ptp_serdes {
ICE_PTP_SERDES_1G,
ICE_PTP_SERDES_10G,
ICE_PTP_SERDES_25G,
ICE_PTP_SERDES_40G,
ICE_PTP_SERDES_50G,
ICE_PTP_SERDES_100G
};
enum ice_ptp_link_spd {
ICE_PTP_LNK_SPD_1G,
ICE_PTP_LNK_SPD_10G,
ICE_PTP_LNK_SPD_25G,
ICE_PTP_LNK_SPD_25G_RS,
ICE_PTP_LNK_SPD_40G,
ICE_PTP_LNK_SPD_50G,
ICE_PTP_LNK_SPD_50G_RS,
ICE_PTP_LNK_SPD_100G_RS,
NUM_ICE_PTP_LNK_SPD /* Must be last */
};
enum ice_ptp_fec_mode {
ICE_PTP_FEC_MODE_NONE,
ICE_PTP_FEC_MODE_CLAUSE74,
ICE_PTP_FEC_MODE_RS_FEC
};
enum eth56g_res_type {
ETH56G_PHY_REG_PTP,
ETH56G_PHY_MEM_PTP,
ETH56G_PHY_REG_XPCS,
ETH56G_PHY_REG_MAC,
ETH56G_PHY_REG_GPCS,
NUM_ETH56G_PHY_RES
};
enum ice_eth56g_link_spd {
ICE_ETH56G_LNK_SPD_1G,
ICE_ETH56G_LNK_SPD_2_5G,
ICE_ETH56G_LNK_SPD_10G,
ICE_ETH56G_LNK_SPD_25G,
ICE_ETH56G_LNK_SPD_40G,
ICE_ETH56G_LNK_SPD_50G,
ICE_ETH56G_LNK_SPD_50G2,
ICE_ETH56G_LNK_SPD_100G,
ICE_ETH56G_LNK_SPD_100G2,
NUM_ICE_ETH56G_LNK_SPD /* Must be last */
};
/**
* struct ice_phy_reg_info_eth56g - ETH56G PHY register parameters
* @base: base address for each PHY block
* @step: step between PHY lanes
*
* Characteristic information for the various PHY register parameters in the
* ETH56G devices
*/
struct ice_phy_reg_info_eth56g {
u32 base[NUM_ETH56G_PHY_RES];
u32 step;
};
/**
* struct ice_time_ref_info_e82x
* @pll_freq: Frequency of PLL that drives timer ticks in Hz
* @nominal_incval: increment to generate nanoseconds in GLTSYN_TIME_L
* @pps_delay: propagation delay of the PPS output signal
*
* Characteristic information for the various TIME_REF sources possible in the
* E822 devices
*/
struct ice_time_ref_info_e82x {
u64 pll_freq;
u64 nominal_incval;
u8 pps_delay;
};
/**
* struct ice_vernier_info_e82x
* @tx_par_clk: Frequency used to calculate P_REG_PAR_TX_TUS
* @rx_par_clk: Frequency used to calculate P_REG_PAR_RX_TUS
* @tx_pcs_clk: Frequency used to calculate P_REG_PCS_TX_TUS
* @rx_pcs_clk: Frequency used to calculate P_REG_PCS_RX_TUS
* @tx_desk_rsgb_par: Frequency used to calculate P_REG_DESK_PAR_TX_TUS
* @rx_desk_rsgb_par: Frequency used to calculate P_REG_DESK_PAR_RX_TUS
* @tx_desk_rsgb_pcs: Frequency used to calculate P_REG_DESK_PCS_TX_TUS
* @rx_desk_rsgb_pcs: Frequency used to calculate P_REG_DESK_PCS_RX_TUS
* @tx_fixed_delay: Fixed Tx latency measured in 1/100th nanoseconds
* @pmd_adj_divisor: Divisor used to calculate PDM alignment adjustment
* @rx_fixed_delay: Fixed Rx latency measured in 1/100th nanoseconds
*
* Table of constants used during as part of the Vernier calibration of the Tx
* and Rx timestamps. This includes frequency values used to compute TUs per
* PAR/PCS clock cycle, and static delay values measured during hardware
* design.
*
* Note that some values are not used for all link speeds, and the
* P_REG_DESK_PAR* registers may represent different clock markers at
* different link speeds, either the deskew marker for multi-lane link speeds
* or the Reed Solomon gearbox marker for RS-FEC.
*/
struct ice_vernier_info_e82x {
u32 tx_par_clk;
u32 rx_par_clk;
u32 tx_pcs_clk;
u32 rx_pcs_clk;
u32 tx_desk_rsgb_par;
u32 rx_desk_rsgb_par;
u32 tx_desk_rsgb_pcs;
u32 rx_desk_rsgb_pcs;
u32 tx_fixed_delay;
u32 pmd_adj_divisor;
u32 rx_fixed_delay;
};
#define ICE_ETH56G_MAC_CFG_RX_OFFSET_INT GENMASK(19, 9)
#define ICE_ETH56G_MAC_CFG_RX_OFFSET_FRAC GENMASK(8, 0)
#define ICE_ETH56G_MAC_CFG_FRAC_W 9
/**
* struct ice_eth56g_mac_reg_cfg - MAC config values for specific PTP registers
* @tx_mode: Tx timestamp compensation mode
* @tx_mk_dly: Tx timestamp marker start strobe delay
* @tx_cw_dly: Tx timestamp codeword start strobe delay
* @rx_mode: Rx timestamp compensation mode
* @rx_mk_dly: Rx timestamp marker start strobe delay
* @rx_cw_dly: Rx timestamp codeword start strobe delay
* @blks_per_clk: number of blocks transferred per clock cycle
* @blktime: block time, fixed point
* @mktime: marker time, fixed point
* @tx_offset: total Tx offset, fixed point
* @rx_offset: total Rx offset, contains value for bitslip/deskew, fixed point
*
* All fixed point registers except Rx offset are 23 bit unsigned ints with
* a 9 bit fractional.
* Rx offset is 11 bit unsigned int with a 9 bit fractional.
*/
struct ice_eth56g_mac_reg_cfg {
struct {
u8 def;
u8 rs;
} tx_mode;
u8 tx_mk_dly;
struct {
u8 def;
u8 onestep;
} tx_cw_dly;
struct {
u8 def;
u8 rs;
} rx_mode;
struct {
u8 def;
u8 rs;
} rx_mk_dly;
struct {
u8 def;
u8 rs;
} rx_cw_dly;
u8 blks_per_clk;
u16 blktime;
u16 mktime;
struct {
u32 serdes;
u32 no_fec;
u32 fc;
u32 rs;
u32 sfd;
u32 onestep;
} tx_offset;
struct {
u32 serdes;
u32 no_fec;
u32 fc;
u32 rs;
u32 sfd;
u32 bs_ds;
} rx_offset;
};
extern
const struct ice_eth56g_mac_reg_cfg eth56g_mac_cfg[NUM_ICE_ETH56G_LNK_SPD];
/**
* struct ice_cgu_pll_params_e82x - E82X CGU parameters
* @refclk_pre_div: Reference clock pre-divisor
* @feedback_div: Feedback divisor
* @frac_n_div: Fractional divisor
* @post_pll_div: Post PLL divisor
*
* Clock Generation Unit parameters used to program the PLL based on the
* selected TIME_REF frequency.
*/
struct ice_cgu_pll_params_e82x {
u32 refclk_pre_div;
u32 feedback_div;
u32 frac_n_div;
u32 post_pll_div;
};
#define E810C_QSFP_C827_0_HANDLE 2
#define E810C_QSFP_C827_1_HANDLE 3
enum ice_e810_c827_idx {
C827_0,
C827_1
};
enum ice_phy_rclk_pins {
ICE_RCLKA_PIN = 0, /* SCL pin */
ICE_RCLKB_PIN, /* SDA pin */
};
#define ICE_E810_RCLK_PINS_NUM (ICE_RCLKB_PIN + 1)
#define ICE_E82X_RCLK_PINS_NUM (ICE_RCLKA_PIN + 1)
#define E810T_CGU_INPUT_C827(_phy, _pin) ((_phy) * ICE_E810_RCLK_PINS_NUM + \
(_pin) + ZL_REF1P)
enum ice_zl_cgu_in_pins {
ZL_REF0P = 0,
ZL_REF0N,
ZL_REF1P,
ZL_REF1N,
ZL_REF2P,
ZL_REF2N,
ZL_REF3P,
ZL_REF3N,
ZL_REF4P,
ZL_REF4N,
NUM_ZL_CGU_INPUT_PINS
};
enum ice_zl_cgu_out_pins {
ZL_OUT0 = 0,
ZL_OUT1,
ZL_OUT2,
ZL_OUT3,
ZL_OUT4,
ZL_OUT5,
ZL_OUT6,
NUM_ZL_CGU_OUTPUT_PINS
};
enum ice_si_cgu_in_pins {
SI_REF0P = 0,
SI_REF0N,
SI_REF1P,
SI_REF1N,
SI_REF2P,
SI_REF2N,
SI_REF3,
SI_REF4,
NUM_SI_CGU_INPUT_PINS
};
enum ice_si_cgu_out_pins {
SI_OUT0 = 0,
SI_OUT1,
SI_OUT2,
SI_OUT3,
SI_OUT4,
NUM_SI_CGU_OUTPUT_PINS
};
struct ice_cgu_pin_desc {
char *name;
u8 index;
enum dpll_pin_type type;
u32 freq_supp_num;
struct dpll_pin_frequency *freq_supp;
};
extern const struct
ice_cgu_pll_params_e82x e822_cgu_params[NUM_ICE_TIME_REF_FREQ];
/**
* struct ice_cgu_pll_params_e825c - E825C CGU parameters
* @tspll_ck_refclkfreq: tspll_ck_refclkfreq selection
* @tspll_ndivratio: ndiv ratio that goes directly to the pll
* @tspll_fbdiv_intgr: TS PLL integer feedback divide
* @tspll_fbdiv_frac: TS PLL fractional feedback divide
* @ref1588_ck_div: clock divider for tspll ref
*
* Clock Generation Unit parameters used to program the PLL based on the
* selected TIME_REF/TCXO frequency.
*/
struct ice_cgu_pll_params_e825c {
u32 tspll_ck_refclkfreq;
u32 tspll_ndivratio;
u32 tspll_fbdiv_intgr;
u32 tspll_fbdiv_frac;
u32 ref1588_ck_div;
};
extern const struct
ice_cgu_pll_params_e825c e825c_cgu_params[NUM_ICE_TIME_REF_FREQ];
#define E810C_QSFP_C827_0_HANDLE 2
#define E810C_QSFP_C827_1_HANDLE 3
/* Table of constants related to possible ETH56G PHY resources */
extern const struct ice_phy_reg_info_eth56g eth56g_phy_res[NUM_ETH56G_PHY_RES];
/* Table of constants related to possible TIME_REF sources */
extern const struct ice_time_ref_info_e82x e822_time_ref[NUM_ICE_TIME_REF_FREQ];
/* Table of constants for Vernier calibration on E822 */
extern const struct ice_vernier_info_e82x e822_vernier[NUM_ICE_PTP_LNK_SPD];
/* Increment value to generate nanoseconds in the GLTSYN_TIME_L register for
* the E810 devices. Based off of a PLL with an 812.5 MHz frequency.
*/
#define ICE_E810_PLL_FREQ 812500000
#define ICE_PTP_NOMINAL_INCVAL_E810 0x13b13b13bULL
#define E810_OUT_PROP_DELAY_NS 1
/* Device agnostic functions */
u8 ice_get_ptp_src_clock_index(struct ice_hw *hw);
bool ice_ptp_lock(struct ice_hw *hw);
void ice_ptp_unlock(struct ice_hw *hw);
void ice_ptp_src_cmd(struct ice_hw *hw, enum ice_ptp_tmr_cmd cmd);
int ice_ptp_init_time(struct ice_hw *hw, u64 time);
int ice_ptp_write_incval(struct ice_hw *hw, u64 incval);
int ice_ptp_write_incval_locked(struct ice_hw *hw, u64 incval);
int ice_ptp_adj_clock(struct ice_hw *hw, s32 adj);
int ice_ptp_clear_phy_offset_ready_e82x(struct ice_hw *hw);
int ice_read_phy_tstamp(struct ice_hw *hw, u8 block, u8 idx, u64 *tstamp);
int ice_clear_phy_tstamp(struct ice_hw *hw, u8 block, u8 idx);
void ice_ptp_reset_ts_memory(struct ice_hw *hw);
int ice_ptp_init_phc(struct ice_hw *hw);
void ice_ptp_init_hw(struct ice_hw *hw);
int ice_get_phy_tx_tstamp_ready(struct ice_hw *hw, u8 block, u64 *tstamp_ready);
int ice_ptp_one_port_cmd(struct ice_hw *hw, u8 configured_port,
enum ice_ptp_tmr_cmd configured_cmd);
/* E822 family functions */
int ice_read_quad_reg_e82x(struct ice_hw *hw, u8 quad, u16 offset, u32 *val);
int ice_write_quad_reg_e82x(struct ice_hw *hw, u8 quad, u16 offset, u32 val);
void ice_ptp_reset_ts_memory_quad_e82x(struct ice_hw *hw, u8 quad);
/**
* ice_e82x_time_ref - Get the current TIME_REF from capabilities
* @hw: pointer to the HW structure
*
* Returns the current TIME_REF from the capabilities structure.
*/
static inline enum ice_time_ref_freq ice_e82x_time_ref(struct ice_hw *hw)
{
return hw->func_caps.ts_func_info.time_ref;
}
/**
* ice_set_e82x_time_ref - Set new TIME_REF
* @hw: pointer to the HW structure
* @time_ref: new TIME_REF to set
*
* Update the TIME_REF in the capabilities structure in response to some
* change, such as an update to the CGU registers.
*/
static inline void
ice_set_e82x_time_ref(struct ice_hw *hw, enum ice_time_ref_freq time_ref)
{
hw->func_caps.ts_func_info.time_ref = time_ref;
}
static inline u64 ice_e82x_pll_freq(enum ice_time_ref_freq time_ref)
{
return e822_time_ref[time_ref].pll_freq;
}
static inline u64 ice_e82x_nominal_incval(enum ice_time_ref_freq time_ref)
{
return e822_time_ref[time_ref].nominal_incval;
}
static inline u64 ice_e82x_pps_delay(enum ice_time_ref_freq time_ref)
{
return e822_time_ref[time_ref].pps_delay;
}
/* E822 Vernier calibration functions */
int ice_stop_phy_timer_e82x(struct ice_hw *hw, u8 port, bool soft_reset);
int ice_start_phy_timer_e82x(struct ice_hw *hw, u8 port);
int ice_phy_cfg_tx_offset_e82x(struct ice_hw *hw, u8 port);
int ice_phy_cfg_rx_offset_e82x(struct ice_hw *hw, u8 port);
int ice_phy_cfg_intr_e82x(struct ice_hw *hw, u8 quad, bool ena, u8 threshold);
/* E810 family functions */
int ice_read_sma_ctrl_e810t(struct ice_hw *hw, u8 *data);
int ice_write_sma_ctrl_e810t(struct ice_hw *hw, u8 data);
int ice_read_pca9575_reg_e810t(struct ice_hw *hw, u8 offset, u8 *data);
bool ice_is_pca9575_present(struct ice_hw *hw);
enum dpll_pin_type ice_cgu_get_pin_type(struct ice_hw *hw, u8 pin, bool input);
struct dpll_pin_frequency *
ice_cgu_get_pin_freq_supp(struct ice_hw *hw, u8 pin, bool input, u8 *num);
const char *ice_cgu_get_pin_name(struct ice_hw *hw, u8 pin, bool input);
int ice_get_cgu_state(struct ice_hw *hw, u8 dpll_idx,
enum dpll_lock_status last_dpll_state, u8 *pin,
u8 *ref_state, u8 *eec_mode, s64 *phase_offset,
enum dpll_lock_status *dpll_state);
int ice_get_cgu_rclk_pin_info(struct ice_hw *hw, u8 *base_idx, u8 *pin_num);
int ice_cgu_get_output_pin_state_caps(struct ice_hw *hw, u8 pin_id,
unsigned long *caps);
/* ETH56G family functions */
int ice_ptp_read_tx_hwtstamp_status_eth56g(struct ice_hw *hw, u32 *ts_status);
int ice_stop_phy_timer_eth56g(struct ice_hw *hw, u8 port, bool soft_reset);
int ice_start_phy_timer_eth56g(struct ice_hw *hw, u8 port);
int ice_phy_cfg_tx_offset_eth56g(struct ice_hw *hw, u8 port);
int ice_phy_cfg_rx_offset_eth56g(struct ice_hw *hw, u8 port);
int ice_phy_cfg_intr_eth56g(struct ice_hw *hw, u8 port, bool ena, u8 threshold);
int ice_phy_cfg_ptp_1step_eth56g(struct ice_hw *hw, u8 port);
#define ICE_ETH56G_NOMINAL_INCVAL 0x140000000ULL
#define ICE_ETH56G_NOMINAL_PCS_REF_TUS 0x100000000ULL
#define ICE_ETH56G_NOMINAL_PCS_REF_INC 0x300000000ULL
#define ICE_ETH56G_NOMINAL_THRESH4 0x7777
#define ICE_ETH56G_NOMINAL_TX_THRESH 0x6
/**
* ice_get_base_incval - Get base clock increment value
* @hw: pointer to the HW struct
*
* Return: base clock increment value for supported PHYs, 0 otherwise
*/
static inline u64 ice_get_base_incval(struct ice_hw *hw)
{
switch (hw->ptp.phy_model) {
case ICE_PHY_ETH56G:
return ICE_ETH56G_NOMINAL_INCVAL;
case ICE_PHY_E810:
return ICE_PTP_NOMINAL_INCVAL_E810;
case ICE_PHY_E82X:
return ice_e82x_nominal_incval(ice_e82x_time_ref(hw));
default:
return 0;
}
}
#define PFTSYN_SEM_BYTES 4
#define ICE_PTP_CLOCK_INDEX_0 0x00
#define ICE_PTP_CLOCK_INDEX_1 0x01
/* PHY timer commands */
#define SEL_CPK_SRC 8
#define SEL_PHY_SRC 3
/* Time Sync command Definitions */
#define GLTSYN_CMD_INIT_TIME BIT(0)
#define GLTSYN_CMD_INIT_INCVAL BIT(1)
#define GLTSYN_CMD_INIT_TIME_INCVAL (BIT(0) | BIT(1))
#define GLTSYN_CMD_ADJ_TIME BIT(2)
#define GLTSYN_CMD_ADJ_INIT_TIME (BIT(2) | BIT(3))
#define GLTSYN_CMD_READ_TIME BIT(7)
/* PHY port Time Sync command definitions */
#define PHY_CMD_INIT_TIME BIT(0)
#define PHY_CMD_INIT_INCVAL BIT(1)
#define PHY_CMD_ADJ_TIME (BIT(0) | BIT(1))
#define PHY_CMD_ADJ_TIME_AT_TIME (BIT(0) | BIT(2))
#define PHY_CMD_READ_TIME (BIT(0) | BIT(1) | BIT(2))
#define TS_CMD_MASK_E810 0xFF
#define TS_CMD_MASK 0xF
#define SYNC_EXEC_CMD 0x3
#define TS_CMD_RX_TYPE ICE_M(0x18, 0x4)
/* Macros to derive port low and high addresses on both quads */
#define P_Q0_L(a, p) ((((a) + (0x2000 * (p)))) & 0xFFFF)
#define P_Q0_H(a, p) ((((a) + (0x2000 * (p)))) >> 16)
#define P_Q1_L(a, p) ((((a) - (0x2000 * ((p) - ICE_PORTS_PER_QUAD)))) & 0xFFFF)
#define P_Q1_H(a, p) ((((a) - (0x2000 * ((p) - ICE_PORTS_PER_QUAD)))) >> 16)
/* PHY QUAD register base addresses */
#define Q_0_BASE 0x94000
#define Q_1_BASE 0x114000
/* Timestamp memory reset registers */
#define Q_REG_TS_CTRL 0x618
#define Q_REG_TS_CTRL_S 0
#define Q_REG_TS_CTRL_M BIT(0)
/* Timestamp availability status registers */
#define Q_REG_TX_MEMORY_STATUS_L 0xCF0
#define Q_REG_TX_MEMORY_STATUS_U 0xCF4
/* Tx FIFO status registers */
#define Q_REG_FIFO23_STATUS 0xCF8
#define Q_REG_FIFO01_STATUS 0xCFC
#define Q_REG_FIFO02_S 0
#define Q_REG_FIFO02_M ICE_M(0x3FF, 0)
#define Q_REG_FIFO13_S 10
#define Q_REG_FIFO13_M ICE_M(0x3FF, 10)
/* Interrupt control Config registers */
#define Q_REG_TX_MEM_GBL_CFG 0xC08
#define Q_REG_TX_MEM_GBL_CFG_LANE_TYPE_S 0
#define Q_REG_TX_MEM_GBL_CFG_LANE_TYPE_M BIT(0)
#define Q_REG_TX_MEM_GBL_CFG_TX_TYPE_M ICE_M(0xFF, 1)
#define Q_REG_TX_MEM_GBL_CFG_INTR_THR_M ICE_M(0x3F, 9)
#define Q_REG_TX_MEM_GBL_CFG_INTR_ENA_M BIT(15)
/* Tx Timestamp data registers */
#define Q_REG_TX_MEMORY_BANK_START 0xA00
/* PHY port register base addresses */
#define P_0_BASE 0x80000
#define P_4_BASE 0x106000
/* Timestamp init registers */
#define P_REG_RX_TIMER_INC_PRE_L 0x46C
#define P_REG_RX_TIMER_INC_PRE_U 0x470
#define P_REG_TX_TIMER_INC_PRE_L 0x44C
#define P_REG_TX_TIMER_INC_PRE_U 0x450
/* Timestamp match and adjust target registers */
#define P_REG_RX_TIMER_CNT_ADJ_L 0x474
#define P_REG_RX_TIMER_CNT_ADJ_U 0x478
#define P_REG_TX_TIMER_CNT_ADJ_L 0x454
#define P_REG_TX_TIMER_CNT_ADJ_U 0x458
/* Timestamp capture registers */
#define P_REG_RX_CAPTURE_L 0x4D8
#define P_REG_RX_CAPTURE_U 0x4DC
#define P_REG_TX_CAPTURE_L 0x4B4
#define P_REG_TX_CAPTURE_U 0x4B8
/* Timestamp PHY incval registers */
#define P_REG_TIMETUS_L 0x410
#define P_REG_TIMETUS_U 0x414
#define P_REG_40B_LOW_M GENMASK(7, 0)
#define P_REG_40B_HIGH_S 8
/* PHY window length registers */
#define P_REG_WL 0x40C
#define PTP_VERNIER_WL 0x111ed
/* PHY start registers */
#define P_REG_PS 0x408
#define P_REG_PS_START_S 0
#define P_REG_PS_START_M BIT(0)
#define P_REG_PS_BYPASS_MODE_S 1
#define P_REG_PS_BYPASS_MODE_M BIT(1)
#define P_REG_PS_ENA_CLK_S 2
#define P_REG_PS_ENA_CLK_M BIT(2)
#define P_REG_PS_LOAD_OFFSET_S 3
#define P_REG_PS_LOAD_OFFSET_M BIT(3)
#define P_REG_PS_SFT_RESET_S 11
#define P_REG_PS_SFT_RESET_M BIT(11)
/* PHY offset valid registers */
#define P_REG_TX_OV_STATUS 0x4D4
#define P_REG_TX_OV_STATUS_OV_S 0
#define P_REG_TX_OV_STATUS_OV_M BIT(0)
#define P_REG_RX_OV_STATUS 0x4F8
#define P_REG_RX_OV_STATUS_OV_S 0
#define P_REG_RX_OV_STATUS_OV_M BIT(0)
/* PHY offset ready registers */
#define P_REG_TX_OR 0x45C
#define P_REG_RX_OR 0x47C
/* PHY total offset registers */
#define P_REG_TOTAL_RX_OFFSET_L 0x460
#define P_REG_TOTAL_RX_OFFSET_U 0x464
#define P_REG_TOTAL_TX_OFFSET_L 0x440
#define P_REG_TOTAL_TX_OFFSET_U 0x444
/* Timestamp PAR/PCS registers */
#define P_REG_UIX66_10G_40G_L 0x480
#define P_REG_UIX66_10G_40G_U 0x484
#define P_REG_UIX66_25G_100G_L 0x488
#define P_REG_UIX66_25G_100G_U 0x48C
#define P_REG_DESK_PAR_RX_TUS_L 0x490
#define P_REG_DESK_PAR_RX_TUS_U 0x494
#define P_REG_DESK_PAR_TX_TUS_L 0x498
#define P_REG_DESK_PAR_TX_TUS_U 0x49C
#define P_REG_DESK_PCS_RX_TUS_L 0x4A0
#define P_REG_DESK_PCS_RX_TUS_U 0x4A4
#define P_REG_DESK_PCS_TX_TUS_L 0x4A8
#define P_REG_DESK_PCS_TX_TUS_U 0x4AC
#define P_REG_PAR_RX_TUS_L 0x420
#define P_REG_PAR_RX_TUS_U 0x424
#define P_REG_PAR_TX_TUS_L 0x428
#define P_REG_PAR_TX_TUS_U 0x42C
#define P_REG_PCS_RX_TUS_L 0x430
#define P_REG_PCS_RX_TUS_U 0x434
#define P_REG_PCS_TX_TUS_L 0x438
#define P_REG_PCS_TX_TUS_U 0x43C
#define P_REG_PAR_RX_TIME_L 0x4F0
#define P_REG_PAR_RX_TIME_U 0x4F4
#define P_REG_PAR_TX_TIME_L 0x4CC
#define P_REG_PAR_TX_TIME_U 0x4D0
#define P_REG_PAR_PCS_RX_OFFSET_L 0x4E8
#define P_REG_PAR_PCS_RX_OFFSET_U 0x4EC
#define P_REG_PAR_PCS_TX_OFFSET_L 0x4C4
#define P_REG_PAR_PCS_TX_OFFSET_U 0x4C8
#define P_REG_LINK_SPEED 0x4FC
#define P_REG_LINK_SPEED_SERDES_S 0
#define P_REG_LINK_SPEED_SERDES_M ICE_M(0x7, 0)
#define P_REG_LINK_SPEED_FEC_MODE_S 3
#define P_REG_LINK_SPEED_FEC_MODE_M ICE_M(0x3, 3)
#define P_REG_LINK_SPEED_FEC_MODE(reg) \
(((reg) & P_REG_LINK_SPEED_FEC_MODE_M) >> \
P_REG_LINK_SPEED_FEC_MODE_S)
/* PHY timestamp related registers */
#define P_REG_PMD_ALIGNMENT 0x0FC
#define P_REG_RX_80_TO_160_CNT 0x6FC
#define P_REG_RX_80_TO_160_CNT_RXCYC_S 0
#define P_REG_RX_80_TO_160_CNT_RXCYC_M BIT(0)
#define P_REG_RX_40_TO_160_CNT 0x8FC
#define P_REG_RX_40_TO_160_CNT_RXCYC_S 0
#define P_REG_RX_40_TO_160_CNT_RXCYC_M ICE_M(0x3, 0)
/* Rx FIFO status registers */
#define P_REG_RX_OV_FS 0x4F8
#define P_REG_RX_OV_FS_FIFO_STATUS_S 2
#define P_REG_RX_OV_FS_FIFO_STATUS_M ICE_M(0x3FF, 2)
/* Timestamp command registers */
#define P_REG_TX_TMR_CMD 0x448
#define P_REG_RX_TMR_CMD 0x468
/* E810 timesync enable register */
#define ETH_GLTSYN_ENA(_i) (0x03000348 + ((_i) * 4))
/* E810 shadow init time registers */
#define ETH_GLTSYN_SHTIME_0(i) (0x03000368 + ((i) * 32))
#define ETH_GLTSYN_SHTIME_L(i) (0x0300036C + ((i) * 32))
/* E810 shadow time adjust registers */
#define ETH_GLTSYN_SHADJ_L(_i) (0x03000378 + ((_i) * 32))
#define ETH_GLTSYN_SHADJ_H(_i) (0x0300037C + ((_i) * 32))
/* E810 timer command register */
#define E810_ETH_GLTSYN_CMD 0x03000344
/* Source timer incval macros */
#define INCVAL_HIGH_M 0xFF
/* Timestamp block macros */
#define TS_VALID BIT(0)
#define TS_LOW_M 0xFFFFFFFF
#define TS_HIGH_M 0xFF
#define TS_HIGH_S 32
#define TS_PHY_LOW_M 0xFF
#define TS_PHY_HIGH_M 0xFFFFFFFF
#define TS_PHY_HIGH_S 8
#define BYTES_PER_IDX_ADDR_L_U 8
#define BYTES_PER_IDX_ADDR_L 4
/* Tx timestamp low latency read definitions */
#define TS_LL_READ_RETRIES 200
#define TS_LL_READ_TS_HIGH GENMASK(23, 16)
#define TS_LL_READ_TS_IDX GENMASK(29, 24)
#define TS_LL_READ_TS_INTR BIT(30)
#define TS_LL_READ_TS BIT(31)
/* Internal PHY timestamp address */
#define TS_L(a, idx) ((a) + ((idx) * BYTES_PER_IDX_ADDR_L_U))
#define TS_H(a, idx) ((a) + ((idx) * BYTES_PER_IDX_ADDR_L_U + \
BYTES_PER_IDX_ADDR_L))
/* External PHY timestamp address */
#define TS_EXT(a, port, idx) ((a) + (0x1000 * (port)) + \
((idx) * BYTES_PER_IDX_ADDR_L_U))
#define LOW_TX_MEMORY_BANK_START 0x03090000
#define HIGH_TX_MEMORY_BANK_START 0x03090004
/* E810T SMA controller pin control */
#define ICE_SMA1_DIR_EN_E810T BIT(4)
#define ICE_SMA1_TX_EN_E810T BIT(5)
#define ICE_SMA2_UFL2_RX_DIS_E810T BIT(3)
#define ICE_SMA2_DIR_EN_E810T BIT(6)
#define ICE_SMA2_TX_EN_E810T BIT(7)
#define ICE_SMA1_MASK_E810T (ICE_SMA1_DIR_EN_E810T | \
ICE_SMA1_TX_EN_E810T)
#define ICE_SMA2_MASK_E810T (ICE_SMA2_UFL2_RX_DIS_E810T | \
ICE_SMA2_DIR_EN_E810T | \
ICE_SMA2_TX_EN_E810T)
#define ICE_ALL_SMA_MASK_E810T (ICE_SMA1_MASK_E810T | \
ICE_SMA2_MASK_E810T)
#define ICE_SMA_MIN_BIT_E810T 3
#define ICE_SMA_MAX_BIT_E810T 7
#define ICE_PCA9575_P1_OFFSET 8
/* E810T PCA9575 IO controller registers */
#define ICE_PCA9575_P0_IN 0x0
/* E810T PCA9575 IO controller pin control */
#define ICE_E810T_P0_GNSS_PRSNT_N BIT(4)
/* ETH56G PHY register addresses */
/* Timestamp PHY incval registers */
#define PHY_REG_TIMETUS_L 0x8
#define PHY_REG_TIMETUS_U 0xC
/* Timestamp PCS registers */
#define PHY_PCS_REF_TUS_L 0x18
#define PHY_PCS_REF_TUS_U 0x1C
/* Timestamp PCS ref incval registers */
#define PHY_PCS_REF_INC_L 0x20
#define PHY_PCS_REF_INC_U 0x24
/* Timestamp init registers */
#define PHY_REG_RX_TIMER_INC_PRE_L 0x64
#define PHY_REG_RX_TIMER_INC_PRE_U 0x68
#define PHY_REG_TX_TIMER_INC_PRE_L 0x44
#define PHY_REG_TX_TIMER_INC_PRE_U 0x48
/* Timestamp match and adjust target registers */
#define PHY_REG_RX_TIMER_CNT_ADJ_L 0x6C
#define PHY_REG_RX_TIMER_CNT_ADJ_U 0x70
#define PHY_REG_TX_TIMER_CNT_ADJ_L 0x4C
#define PHY_REG_TX_TIMER_CNT_ADJ_U 0x50
/* Timestamp command registers */
#define PHY_REG_TX_TMR_CMD 0x40
#define PHY_REG_RX_TMR_CMD 0x60
/* Phy offset ready registers */
#define PHY_REG_TX_OFFSET_READY 0x54
#define PHY_REG_RX_OFFSET_READY 0x74
/* Phy total offset registers */
#define PHY_REG_TOTAL_TX_OFFSET_L 0x38
#define PHY_REG_TOTAL_TX_OFFSET_U 0x3C
#define PHY_REG_TOTAL_RX_OFFSET_L 0x58
#define PHY_REG_TOTAL_RX_OFFSET_U 0x5C
/* Timestamp capture registers */
#define PHY_REG_TX_CAPTURE_L 0x78
#define PHY_REG_TX_CAPTURE_U 0x7C
#define PHY_REG_RX_CAPTURE_L 0x8C
#define PHY_REG_RX_CAPTURE_U 0x90
/* Memory status registers */
#define PHY_REG_TX_MEMORY_STATUS_L 0x80
#define PHY_REG_TX_MEMORY_STATUS_U 0x84
/* Interrupt config register */
#define PHY_REG_TS_INT_CONFIG 0x88
/* XIF mode config register */
#define PHY_MAC_XIF_MODE 0x24
#define PHY_MAC_XIF_1STEP_ENA_M ICE_M(0x1, 5)
#define PHY_MAC_XIF_TS_BIN_MODE_M ICE_M(0x1, 11)
#define PHY_MAC_XIF_TS_SFD_ENA_M ICE_M(0x1, 20)
#define PHY_MAC_XIF_GMII_TS_SEL_M ICE_M(0x1, 21)
/* GPCS config register */
#define PHY_GPCS_CONFIG_REG0 0x268
#define PHY_GPCS_CONFIG_REG0_TX_THR_M ICE_M(0xF, 24)
#define PHY_GPCS_BITSLIP 0x5C
#define PHY_TS_INT_CONFIG_THRESHOLD_M ICE_M(0x3F, 0)
#define PHY_TS_INT_CONFIG_ENA_M BIT(6)
/* 1-step PTP config */
#define PHY_PTP_1STEP_CONFIG 0x270
#define PHY_PTP_1STEP_T1S_UP64_M ICE_M(0xF, 4)
#define PHY_PTP_1STEP_T1S_DELTA_M ICE_M(0xF, 8)
#define PHY_PTP_1STEP_PEER_DELAY(_port) (0x274 + 4 * (_port))
#define PHY_PTP_1STEP_PD_ADD_PD_M ICE_M(0x1, 0)
#define PHY_PTP_1STEP_PD_DELAY_M ICE_M(0x3fffffff, 1)
#define PHY_PTP_1STEP_PD_DLY_V_M ICE_M(0x1, 31)
/* Macros to derive offsets for TimeStampLow and TimeStampHigh */
#define PHY_TSTAMP_L(x) (((x) * 8) + 0)
#define PHY_TSTAMP_U(x) (((x) * 8) + 4)
#define PHY_REG_REVISION 0x85000
#define PHY_REG_DESKEW_0 0x94
#define PHY_REG_DESKEW_0_RLEVEL GENMASK(6, 0)
#define PHY_REG_DESKEW_0_RLEVEL_FRAC GENMASK(9, 7)
#define PHY_REG_DESKEW_0_RLEVEL_FRAC_W 3
#define PHY_REG_DESKEW_0_VALID GENMASK(10, 10)
#define PHY_REG_GPCS_BITSLIP 0x5C
#define PHY_REG_SD_BIT_SLIP(_port_offset) (0x29C + 4 * (_port_offset))
#define PHY_REVISION_ETH56G 0x10200
#define PHY_VENDOR_TXLANE_THRESH 0x2000C
#define PHY_MAC_TSU_CONFIG 0x40
#define PHY_MAC_TSU_CFG_RX_MODE_M ICE_M(0x7, 0)
#define PHY_MAC_TSU_CFG_RX_MII_CW_DLY_M ICE_M(0x7, 4)
#define PHY_MAC_TSU_CFG_RX_MII_MK_DLY_M ICE_M(0x7, 8)
#define PHY_MAC_TSU_CFG_TX_MODE_M ICE_M(0x7, 12)
#define PHY_MAC_TSU_CFG_TX_MII_CW_DLY_M ICE_M(0x1F, 16)
#define PHY_MAC_TSU_CFG_TX_MII_MK_DLY_M ICE_M(0x1F, 21)
#define PHY_MAC_TSU_CFG_BLKS_PER_CLK_M ICE_M(0x1, 28)
#define PHY_MAC_RX_MODULO 0x44
#define PHY_MAC_RX_OFFSET 0x48
#define PHY_MAC_RX_OFFSET_M ICE_M(0xFFFFFF, 0)
#define PHY_MAC_TX_MODULO 0x4C
#define PHY_MAC_BLOCKTIME 0x50
#define PHY_MAC_MARKERTIME 0x54
#define PHY_MAC_TX_OFFSET 0x58
#define PHY_PTP_INT_STATUS 0x7FD140
#endif /* _ICE_PTP_HW_H_ */
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