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/* SPDX-License-Identifier: GPL-2.0 */
/* Copyright (C) 2021, Intel Corporation. */
#ifndef _ICE_PTP_H_
#define _ICE_PTP_H_
#include <linux/ptp_clock_kernel.h>
#include <linux/kthread.h>
#include "ice_ptp_hw.h"
enum ice_ptp_pin_e810 {
GPIO_20 = 0,
GPIO_21,
GPIO_22,
GPIO_23,
NUM_PTP_PIN_E810
};
enum ice_ptp_pin_e810t {
GNSS = 0,
SMA1,
UFL1,
SMA2,
UFL2,
NUM_PTP_PINS_E810T
};
struct ice_perout_channel {
bool ena;
u32 gpio_pin;
u64 period;
u64 start_time;
};
/* The ice hardware captures Tx hardware timestamps in the PHY. The timestamp
* is stored in a buffer of registers. Depending on the specific hardware,
* this buffer might be shared across multiple PHY ports.
*
* On transmit of a packet to be timestamped, software is responsible for
* selecting an open index. Hardware makes no attempt to lock or prevent
* re-use of an index for multiple packets.
*
* To handle this, timestamp indexes must be tracked by software to ensure
* that an index is not re-used for multiple transmitted packets. The
* structures and functions declared in this file track the available Tx
* register indexes, as well as provide storage for the SKB pointers.
*
* To allow multiple ports to access the shared register block independently,
* the blocks are split up so that indexes are assigned to each port based on
* hardware logical port number.
*
* The timestamp blocks are handled differently for E810- and E822-based
* devices. In E810 devices, each port has its own block of timestamps, while in
* E822 there is a need to logically break the block of registers into smaller
* chunks based on the port number to avoid collisions.
*
* Example for port 5 in E810:
* +--------+--------+--------+--------+--------+--------+--------+--------+
* |register|register|register|register|register|register|register|register|
* | block | block | block | block | block | block | block | block |
* | for | for | for | for | for | for | for | for |
* | port 0 | port 1 | port 2 | port 3 | port 4 | port 5 | port 6 | port 7 |
* +--------+--------+--------+--------+--------+--------+--------+--------+
* ^^
* ||
* |--- quad offset is always 0
* ---- quad number
*
* Example for port 5 in E822:
* +-----------------------------+-----------------------------+
* | register block for quad 0 | register block for quad 1 |
* |+------+------+------+------+|+------+------+------+------+|
* ||port 0|port 1|port 2|port 3|||port 0|port 1|port 2|port 3||
* |+------+------+------+------+|+------+------+------+------+|
* +-----------------------------+-------^---------------------+
* ^ |
* | --- quad offset*
* ---- quad number
*
* * PHY port 5 is port 1 in quad 1
*
*/
/**
* struct ice_tx_tstamp - Tracking for a single Tx timestamp
* @skb: pointer to the SKB for this timestamp request
* @start: jiffies when the timestamp was first requested
* @cached_tstamp: last read timestamp
*
* This structure tracks a single timestamp request. The SKB pointer is
* provided when initiating a request. The start time is used to ensure that
* we discard old requests that were not fulfilled within a 2 second time
* window.
* Timestamp values in the PHY are read only and do not get cleared except at
* hardware reset or when a new timestamp value is captured.
*
* Some PHY types do not provide a "ready" bitmap indicating which timestamp
* indexes are valid. In these cases, we use a cached_tstamp to keep track of
* the last timestamp we read for a given index. If the current timestamp
* value is the same as the cached value, we assume a new timestamp hasn't
* been captured. This avoids reporting stale timestamps to the stack. This is
* only done if the verify_cached flag is set in ice_ptp_tx structure.
*/
struct ice_tx_tstamp {
struct sk_buff *skb;
unsigned long start;
u64 cached_tstamp;
};
/**
* enum ice_tx_tstamp_work - Status of Tx timestamp work function
* @ICE_TX_TSTAMP_WORK_DONE: Tx timestamp processing is complete
* @ICE_TX_TSTAMP_WORK_PENDING: More Tx timestamps are pending
*/
enum ice_tx_tstamp_work {
ICE_TX_TSTAMP_WORK_DONE = 0,
ICE_TX_TSTAMP_WORK_PENDING,
};
/**
* struct ice_ptp_tx - Tracking structure for all Tx timestamp requests on a port
* @lock: lock to prevent concurrent access to fields of this struct
* @tstamps: array of len to store outstanding requests
* @in_use: bitmap of len to indicate which slots are in use
* @stale: bitmap of len to indicate slots which have stale timestamps
* @block: which memory block (quad or port) the timestamps are captured in
* @offset: offset into timestamp block to get the real index
* @len: length of the tstamps and in_use fields.
* @init: if true, the tracker is initialized;
* @calibrating: if true, the PHY is calibrating the Tx offset. During this
* window, timestamps are temporarily disabled.
* @verify_cached: if true, verify new timestamp differs from last read value
*/
struct ice_ptp_tx {
spinlock_t lock; /* lock protecting in_use bitmap */
struct ice_tx_tstamp *tstamps;
unsigned long *in_use;
unsigned long *stale;
u8 block;
u8 offset;
u8 len;
u8 init : 1;
u8 calibrating : 1;
u8 verify_cached : 1;
};
/* Quad and port information for initializing timestamp blocks */
#define INDEX_PER_QUAD 64
#define INDEX_PER_PORT_E822 16
#define INDEX_PER_PORT_E810 64
/**
* struct ice_ptp_port - data used to initialize an external port for PTP
*
* This structure contains data indicating whether a single external port is
* ready for PTP functionality. It is used to track the port initialization
* and determine when the port's PHY offset is valid.
*
* @list_member: list member structure of auxiliary device
* @tx: Tx timestamp tracking for this port
* @aux_dev: auxiliary device associated with this port
* @ov_work: delayed work task for tracking when PHY offset is valid
* @ps_lock: mutex used to protect the overall PTP PHY start procedure
* @link_up: indicates whether the link is up
* @tx_fifo_busy_cnt: number of times the Tx FIFO was busy
* @port_num: the port number this structure represents
*/
struct ice_ptp_port {
struct list_head list_member;
struct ice_ptp_tx tx;
struct auxiliary_device aux_dev;
struct kthread_delayed_work ov_work;
struct mutex ps_lock; /* protects overall PTP PHY start procedure */
bool link_up;
u8 tx_fifo_busy_cnt;
u8 port_num;
};
enum ice_ptp_tx_interrupt {
ICE_PTP_TX_INTERRUPT_NONE = 0,
ICE_PTP_TX_INTERRUPT_SELF,
ICE_PTP_TX_INTERRUPT_ALL,
};
/**
* struct ice_ptp_port_owner - data used to handle the PTP clock owner info
*
* This structure contains data necessary for the PTP clock owner to correctly
* handle the timestamping feature for all attached ports.
*
* @aux_driver: the structure carring the auxiliary driver information
* @ports: list of porst handled by this port owner
* @lock: protect access to ports list
*/
struct ice_ptp_port_owner {
struct auxiliary_driver aux_driver;
struct list_head ports;
struct mutex lock;
};
#define GLTSYN_TGT_H_IDX_MAX 4
/**
* struct ice_ptp - data used for integrating with CONFIG_PTP_1588_CLOCK
* @tx_interrupt_mode: the TX interrupt mode for the PTP clock
* @port: data for the PHY port initialization procedure
* @ports_owner: data for the auxiliary driver owner
* @work: delayed work function for periodic tasks
* @cached_phc_time: a cached copy of the PHC time for timestamp extension
* @cached_phc_jiffies: jiffies when cached_phc_time was last updated
* @ext_ts_chan: the external timestamp channel in use
* @ext_ts_irq: the external timestamp IRQ in use
* @kworker: kwork thread for handling periodic work
* @perout_channels: periodic output data
* @info: structure defining PTP hardware capabilities
* @clock: pointer to registered PTP clock device
* @tstamp_config: hardware timestamping configuration
* @reset_time: kernel time after clock stop on reset
* @tx_hwtstamp_skipped: number of Tx time stamp requests skipped
* @tx_hwtstamp_timeouts: number of Tx skbs discarded with no time stamp
* @tx_hwtstamp_flushed: number of Tx skbs flushed due to interface closed
* @tx_hwtstamp_discarded: number of Tx skbs discarded due to cached PHC time
* being too old to correctly extend timestamp
* @late_cached_phc_updates: number of times cached PHC update is late
*/
struct ice_ptp {
enum ice_ptp_tx_interrupt tx_interrupt_mode;
struct ice_ptp_port port;
struct ice_ptp_port_owner ports_owner;
struct kthread_delayed_work work;
u64 cached_phc_time;
unsigned long cached_phc_jiffies;
u8 ext_ts_chan;
u8 ext_ts_irq;
struct kthread_worker *kworker;
struct ice_perout_channel perout_channels[GLTSYN_TGT_H_IDX_MAX];
struct ptp_clock_info info;
struct ptp_clock *clock;
struct hwtstamp_config tstamp_config;
u64 reset_time;
u32 tx_hwtstamp_skipped;
u32 tx_hwtstamp_timeouts;
u32 tx_hwtstamp_flushed;
u32 tx_hwtstamp_discarded;
u32 late_cached_phc_updates;
};
#define __ptp_port_to_ptp(p) \
container_of((p), struct ice_ptp, port)
#define ptp_port_to_pf(p) \
container_of(__ptp_port_to_ptp((p)), struct ice_pf, ptp)
#define __ptp_info_to_ptp(i) \
container_of((i), struct ice_ptp, info)
#define ptp_info_to_pf(i) \
container_of(__ptp_info_to_ptp((i)), struct ice_pf, ptp)
#define PFTSYN_SEM_BYTES 4
#define PTP_SHARED_CLK_IDX_VALID BIT(31)
#define TS_CMD_MASK 0xF
#define SYNC_EXEC_CMD 0x3
#define ICE_PTP_TS_VALID BIT(0)
#define FIFO_EMPTY BIT(2)
#define FIFO_OK 0xFF
#define ICE_PTP_FIFO_NUM_CHECKS 5
/* Per-channel register definitions */
#define GLTSYN_AUX_OUT(_chan, _idx) (GLTSYN_AUX_OUT_0(_idx) + ((_chan) * 8))
#define GLTSYN_AUX_IN(_chan, _idx) (GLTSYN_AUX_IN_0(_idx) + ((_chan) * 8))
#define GLTSYN_CLKO(_chan, _idx) (GLTSYN_CLKO_0(_idx) + ((_chan) * 8))
#define GLTSYN_TGT_L(_chan, _idx) (GLTSYN_TGT_L_0(_idx) + ((_chan) * 16))
#define GLTSYN_TGT_H(_chan, _idx) (GLTSYN_TGT_H_0(_idx) + ((_chan) * 16))
#define GLTSYN_EVNT_L(_chan, _idx) (GLTSYN_EVNT_L_0(_idx) + ((_chan) * 16))
#define GLTSYN_EVNT_H(_chan, _idx) (GLTSYN_EVNT_H_0(_idx) + ((_chan) * 16))
#define GLTSYN_EVNT_H_IDX_MAX 3
/* Pin definitions for PTP PPS out */
#define PPS_CLK_GEN_CHAN 3
#define PPS_CLK_SRC_CHAN 2
#define PPS_PIN_INDEX 5
#define TIME_SYNC_PIN_INDEX 4
#define N_EXT_TS_E810 3
#define N_PER_OUT_E810 4
#define N_PER_OUT_E810T 3
#define N_PER_OUT_NO_SMA_E810T 2
#define N_EXT_TS_NO_SMA_E810T 2
#define ETH_GLTSYN_ENA(_i) (0x03000348 + ((_i) * 4))
#if IS_ENABLED(CONFIG_PTP_1588_CLOCK)
int ice_ptp_clock_index(struct ice_pf *pf);
struct ice_pf;
int ice_ptp_set_ts_config(struct ice_pf *pf, struct ifreq *ifr);
int ice_ptp_get_ts_config(struct ice_pf *pf, struct ifreq *ifr);
void ice_ptp_cfg_timestamp(struct ice_pf *pf, bool ena);
void ice_ptp_extts_event(struct ice_pf *pf);
s8 ice_ptp_request_ts(struct ice_ptp_tx *tx, struct sk_buff *skb);
enum ice_tx_tstamp_work ice_ptp_process_ts(struct ice_pf *pf);
void
ice_ptp_rx_hwtstamp(struct ice_rx_ring *rx_ring,
union ice_32b_rx_flex_desc *rx_desc, struct sk_buff *skb);
void ice_ptp_reset(struct ice_pf *pf);
void ice_ptp_prepare_for_reset(struct ice_pf *pf);
void ice_ptp_init(struct ice_pf *pf);
void ice_ptp_release(struct ice_pf *pf);
void ice_ptp_link_change(struct ice_pf *pf, u8 port, bool linkup);
#else /* IS_ENABLED(CONFIG_PTP_1588_CLOCK) */
static inline int ice_ptp_set_ts_config(struct ice_pf *pf, struct ifreq *ifr)
{
return -EOPNOTSUPP;
}
static inline int ice_ptp_get_ts_config(struct ice_pf *pf, struct ifreq *ifr)
{
return -EOPNOTSUPP;
}
static inline void ice_ptp_cfg_timestamp(struct ice_pf *pf, bool ena) { }
static inline void ice_ptp_extts_event(struct ice_pf *pf) { }
static inline s8
ice_ptp_request_ts(struct ice_ptp_tx *tx, struct sk_buff *skb)
{
return -1;
}
static inline bool ice_ptp_process_ts(struct ice_pf *pf)
{
return true;
}
static inline void
ice_ptp_rx_hwtstamp(struct ice_rx_ring *rx_ring,
union ice_32b_rx_flex_desc *rx_desc, struct sk_buff *skb) { }
static inline void ice_ptp_reset(struct ice_pf *pf) { }
static inline void ice_ptp_prepare_for_reset(struct ice_pf *pf) { }
static inline void ice_ptp_init(struct ice_pf *pf) { }
static inline void ice_ptp_release(struct ice_pf *pf) { }
static inline void ice_ptp_link_change(struct ice_pf *pf, u8 port, bool linkup)
{
}
static inline int ice_ptp_clock_index(struct ice_pf *pf)
{
return -1;
}
#endif /* IS_ENABLED(CONFIG_PTP_1588_CLOCK) */
#endif /* _ICE_PTP_H_ */
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