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opensbi/include/sbi/sbi_timer.h
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Anup Patel 1932ee3f0a lib: sbi_timer: Introduce sbi_timer_compute_delta() and friends 
The users of timer event have to compute next_event (aka timer value
in the future) based on desired units and unit frequency. Introduce
sbi_timer_compute_delta() and friends to simplify computing next_event
for timer event users.

Signed-off-by: Anup Patel <anup.patel@oss.qualcomm.com>
Reviewed-by: Nicholas Piggin <npiggin@gmail.com>
Link: https://lore.kernel.org/r/20260425104048.2335262-5-anup.patel@oss.qualcomm.com
Signed-off-by: Anup Patel <anup@brainfault.org>
2026-05-09 13:16:07 +05:30

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/*
* SPDX-License-Identifier: BSD-2-Clause
*
* Copyright (c) 2019 Western Digital Corporation or its affiliates.
*
* Authors:
* Anup Patel <anup.patel@wdc.com>
*/
#ifndef __SBI_TIMER_H__
#define __SBI_TIMER_H__
#include <sbi/sbi_list.h>
/** Timer event re-start details */
struct sbi_timer_event_restart {
/** Flag indicating whether event re-start is required */
bool required;
/** Next time stamp for event if re-start is required */
u64 next_event;
};
/** Timer event abstraction */
struct sbi_timer_event {
/** List head for per-HART event list (Internal) */
struct sbi_dlist head;
/** Hart on which the event is started / running (Internal) */
int hart_index;
/** Time stamp when the event expires (Internal) */
u64 time_stamp;
/**
* Event callback to be called upon expiry.
*
* If the callback wants to re-start the event then
* it must update the event re-start details.
*
* NOTE: This will be called with the per-HART timer
* event list lock held.
*/
void (*callback)(struct sbi_timer_event *ev,
struct sbi_timer_event_restart *restart);
/**
* Event cleanup to be called upon sbi_timer_exit()
*
* NOTE: This will be called with per-HART timer
* event list lock held.
*/
void (*cleanup)(struct sbi_timer_event *ev);
/** Event specific private data */
void *priv;
};
#define SBI_INIT_TIMER_EVENT(__ptr, __callback, __cleanup, __priv) \
do { \
SBI_INIT_LIST_HEAD(&(__ptr)->head); \
(__ptr)->hart_index = -1; \
(__ptr)->time_stamp = 0; \
(__ptr)->callback = (__callback); \
(__ptr)->cleanup = (__cleanup); \
(__ptr)->priv = (__priv); \
} while (0)
/** Timer hardware device */
struct sbi_timer_device {
/** Name of the timer operations */
char name[32];
/** Frequency of timer in HZ */
unsigned long timer_freq;
/** Get free-running timer value */
u64 (*timer_value)(void);
/** Start timer event for current HART */
void (*timer_event_start)(u64 next_event);
/** Stop timer event for current HART */
void (*timer_event_stop)(void);
/** Initialize timer device for current HART */
int (*warm_init)(void);
};
struct sbi_scratch;
/** Compute timer value delta based on arbitary units */
u64 sbi_timer_compute_delta(ulong units, u64 unit_freq);
/** Compute timer value delta from milliseconds */
static inline u64 sbi_timer_compute_mdelta(ulong msecs)
{
return sbi_timer_compute_delta(msecs, 1000);
}
/** Compute timer value delta from microseconds */
static inline u64 sbi_timer_compute_udelta(ulong usecs)
{
return sbi_timer_compute_delta(usecs, 1000000);
}
/** Generic delay loop of desired granularity */
void sbi_timer_delay_loop(ulong units, u64 unit_freq,
void (*delay_fn)(void *), void *opaque);
/** Provide delay in terms of milliseconds */
static inline void sbi_timer_mdelay(ulong msecs)
{
sbi_timer_delay_loop(msecs, 1000, NULL, NULL);
}
/** Provide delay in terms of microseconds */
static inline void sbi_timer_udelay(ulong usecs)
{
sbi_timer_delay_loop(usecs, 1000000, NULL, NULL);
}
/**
* A blocking function that will wait until @p predicate returns true or
* @p timeout_ms milliseconds elapsed. @p arg will be passed as argument to
* @p predicate function.
*
* @param predicate Pointer to a function that returns true if certain
* condition is met. It shouldn't block the code execution.
* @param arg Argument to pass to @p predicate.
* @param timeout_ms Timeout value in milliseconds. The function will return
* false if @p timeout_ms time period elapsed but still @p predicate doesn't
* return true.
*
* @return true if @p predicate returns true within @p timeout_ms, false
* otherwise.
*/
bool sbi_timer_waitms_until(bool (*predicate)(void *), void *arg,
uint64_t timeout_ms);
/** Get timer value for current HART */
u64 sbi_timer_value(void);
/** Compute timer value after specified milliseconds */
static inline u64 sbi_timer_value_after_msecs(ulong msecs)
{
return sbi_timer_value() + sbi_timer_compute_mdelta(msecs);
}
/** Compute timer value after specified microseconds */
static inline u64 sbi_timer_value_after_usecs(ulong usecs)
{
return sbi_timer_value() + sbi_timer_compute_udelta(usecs);
}
/** Get virtualized timer value for current HART */
u64 sbi_timer_virt_value(void);
/** Get timer delta value for current HART */
u64 sbi_timer_get_delta(void);
/** Set timer delta value for current HART */
void sbi_timer_set_delta(ulong delta);
#if __riscv_xlen == 32
/** Set upper 32-bits of timer delta value for current HART */
void sbi_timer_set_delta_upper(ulong delta_upper);
#endif
/** Start timer event on current HART */
void sbi_timer_event_start(struct sbi_timer_event *ev, u64 next_event);
/** Stop timer event on current HART */
void sbi_timer_event_stop(struct sbi_timer_event *ev);
/** Start supervisor timer event on current HART */
void sbi_timer_smode_event_start(u64 next_event);
/** Process timer event for current HART */
void sbi_timer_process(void);
/** Get current timer device */
const struct sbi_timer_device *sbi_timer_get_device(void);
/** Register timer device */
void sbi_timer_set_device(const struct sbi_timer_device *dev);
/* Initialize timer */
int sbi_timer_init(struct sbi_scratch *scratch, bool cold_boot);
/* Exit timer */
void sbi_timer_exit(struct sbi_scratch *scratch);
#endif
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