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211baa7016
sched_clock is supposed to be initialized early - in the recently added init_early platform hook. However, in doing so we end up calling mod_timer() before the timer lists are initialized, resulting in an oops. Split the initialization in two - the part which the platform calls early which starts things off. The addition of the timer can be delayed until after we have more of the kernel initialized - when the normal time sources are initialized. Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk>
121 lines
3.4 KiB
C
121 lines
3.4 KiB
C
/*
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* sched_clock.h: support for extending counters to full 64-bit ns counter
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License version 2 as
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* published by the Free Software Foundation.
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*/
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#ifndef ASM_SCHED_CLOCK
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#define ASM_SCHED_CLOCK
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#include <linux/kernel.h>
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#include <linux/types.h>
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struct clock_data {
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u64 epoch_ns;
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u32 epoch_cyc;
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u32 epoch_cyc_copy;
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u32 mult;
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u32 shift;
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};
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#define DEFINE_CLOCK_DATA(name) struct clock_data name
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static inline u64 cyc_to_ns(u64 cyc, u32 mult, u32 shift)
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{
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return (cyc * mult) >> shift;
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}
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/*
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* Atomically update the sched_clock epoch. Your update callback will
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* be called from a timer before the counter wraps - read the current
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* counter value, and call this function to safely move the epochs
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* forward. Only use this from the update callback.
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*/
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static inline void update_sched_clock(struct clock_data *cd, u32 cyc, u32 mask)
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{
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unsigned long flags;
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u64 ns = cd->epoch_ns +
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cyc_to_ns((cyc - cd->epoch_cyc) & mask, cd->mult, cd->shift);
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/*
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* Write epoch_cyc and epoch_ns in a way that the update is
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* detectable in cyc_to_fixed_sched_clock().
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*/
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raw_local_irq_save(flags);
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cd->epoch_cyc = cyc;
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smp_wmb();
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cd->epoch_ns = ns;
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smp_wmb();
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cd->epoch_cyc_copy = cyc;
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raw_local_irq_restore(flags);
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}
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/*
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* If your clock rate is known at compile time, using this will allow
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* you to optimize the mult/shift loads away. This is paired with
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* init_fixed_sched_clock() to ensure that your mult/shift are correct.
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*/
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static inline unsigned long long cyc_to_fixed_sched_clock(struct clock_data *cd,
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u32 cyc, u32 mask, u32 mult, u32 shift)
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{
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u64 epoch_ns;
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u32 epoch_cyc;
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/*
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* Load the epoch_cyc and epoch_ns atomically. We do this by
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* ensuring that we always write epoch_cyc, epoch_ns and
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* epoch_cyc_copy in strict order, and read them in strict order.
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* If epoch_cyc and epoch_cyc_copy are not equal, then we're in
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* the middle of an update, and we should repeat the load.
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*/
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do {
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epoch_cyc = cd->epoch_cyc;
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smp_rmb();
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epoch_ns = cd->epoch_ns;
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smp_rmb();
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} while (epoch_cyc != cd->epoch_cyc_copy);
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return epoch_ns + cyc_to_ns((cyc - epoch_cyc) & mask, mult, shift);
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}
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/*
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* Otherwise, you need to use this, which will obtain the mult/shift
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* from the clock_data structure. Use init_sched_clock() with this.
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*/
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static inline unsigned long long cyc_to_sched_clock(struct clock_data *cd,
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u32 cyc, u32 mask)
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{
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return cyc_to_fixed_sched_clock(cd, cyc, mask, cd->mult, cd->shift);
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}
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/*
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* Initialize the clock data - calculate the appropriate multiplier
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* and shift. Also setup a timer to ensure that the epoch is refreshed
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* at the appropriate time interval, which will call your update
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* handler.
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*/
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void init_sched_clock(struct clock_data *, void (*)(void),
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unsigned int, unsigned long);
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/*
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* Use this initialization function rather than init_sched_clock() if
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* you're using cyc_to_fixed_sched_clock, which will warn if your
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* constants are incorrect.
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*/
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static inline void init_fixed_sched_clock(struct clock_data *cd,
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void (*update)(void), unsigned int bits, unsigned long rate,
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u32 mult, u32 shift)
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{
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init_sched_clock(cd, update, bits, rate);
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if (cd->mult != mult || cd->shift != shift) {
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pr_crit("sched_clock: wrong multiply/shift: %u>>%u vs calculated %u>>%u\n"
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"sched_clock: fix multiply/shift to avoid scheduler hiccups\n",
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mult, shift, cd->mult, cd->shift);
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}
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}
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extern void sched_clock_postinit(void);
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#endif
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