forked from luck/tmp_suning_uos_patched
sched_clock: Add local_clock() API and improve documentation
For people who otherwise get to write: cpu_clock(smp_processor_id()), there is now: local_clock(). Also, as per suggestion from Andrew, provide some documentation on the various clock interfaces, and minimize the unsigned long long vs u64 mess. Signed-off-by: Peter Zijlstra <a.p.zijlstra@chello.nl> Cc: Andrew Morton <akpm@linux-foundation.org> Cc: Linus Torvalds <torvalds@linux-foundation.org> Cc: Jens Axboe <jaxboe@fusionio.com> LKML-Reference: <1275052414.1645.52.camel@laptop> Signed-off-by: Ingo Molnar <mingo@elte.hu>
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@ -82,7 +82,7 @@ unsigned long ftrace_return_to_handler(unsigned long retval0,
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unsigned long ret;
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pop_return_trace(&trace, &ret);
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trace.rettime = cpu_clock(raw_smp_processor_id());
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trace.rettime = local_clock();
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ftrace_graph_return(&trace);
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if (unlikely(!ret)) {
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@ -126,7 +126,7 @@ void prepare_ftrace_return(unsigned long *parent, unsigned long self_addr)
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return;
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}
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calltime = cpu_clock(raw_smp_processor_id());
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calltime = local_clock();
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if (push_return_trace(old, calltime,
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self_addr, &trace.depth) == -EBUSY) {
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@ -1791,20 +1791,23 @@ static inline int set_cpus_allowed(struct task_struct *p, cpumask_t new_mask)
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#endif
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/*
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* Architectures can set this to 1 if they have specified
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* CONFIG_HAVE_UNSTABLE_SCHED_CLOCK in their arch Kconfig,
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* but then during bootup it turns out that sched_clock()
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* is reliable after all:
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* Do not use outside of architecture code which knows its limitations.
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*
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* sched_clock() has no promise of monotonicity or bounded drift between
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* CPUs, use (which you should not) requires disabling IRQs.
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*
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* Please use one of the three interfaces below.
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*/
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#ifdef CONFIG_HAVE_UNSTABLE_SCHED_CLOCK
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extern int sched_clock_stable;
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#endif
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/* ftrace calls sched_clock() directly */
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extern unsigned long long notrace sched_clock(void);
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/*
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* See the comment in kernel/sched_clock.c
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*/
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extern u64 cpu_clock(int cpu);
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extern u64 local_clock(void);
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extern u64 sched_clock_cpu(int cpu);
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extern void sched_clock_init(void);
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extern u64 sched_clock_cpu(int cpu);
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#ifndef CONFIG_HAVE_UNSTABLE_SCHED_CLOCK
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static inline void sched_clock_tick(void)
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@ -1819,17 +1822,19 @@ static inline void sched_clock_idle_wakeup_event(u64 delta_ns)
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{
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}
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#else
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/*
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* Architectures can set this to 1 if they have specified
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* CONFIG_HAVE_UNSTABLE_SCHED_CLOCK in their arch Kconfig,
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* but then during bootup it turns out that sched_clock()
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* is reliable after all:
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*/
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extern int sched_clock_stable;
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extern void sched_clock_tick(void);
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extern void sched_clock_idle_sleep_event(void);
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extern void sched_clock_idle_wakeup_event(u64 delta_ns);
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#endif
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/*
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* For kernel-internal use: high-speed (but slightly incorrect) per-cpu
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* clock constructed from sched_clock():
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*/
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extern unsigned long long cpu_clock(int cpu);
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extern unsigned long long
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task_sched_runtime(struct task_struct *task);
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extern unsigned long long thread_group_sched_runtime(struct task_struct *task);
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@ -146,7 +146,7 @@ static DEFINE_PER_CPU(struct lock_class_stats[MAX_LOCKDEP_KEYS],
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static inline u64 lockstat_clock(void)
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{
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return cpu_clock(smp_processor_id());
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return local_clock();
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}
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static int lock_point(unsigned long points[], unsigned long ip)
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@ -214,7 +214,7 @@ static void perf_unpin_context(struct perf_event_context *ctx)
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static inline u64 perf_clock(void)
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{
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return cpu_clock(raw_smp_processor_id());
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return local_clock();
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}
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/*
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@ -239,8 +239,7 @@ static unsigned long
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rcu_random(struct rcu_random_state *rrsp)
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{
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if (--rrsp->rrs_count < 0) {
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rrsp->rrs_state +=
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(unsigned long)cpu_clock(raw_smp_processor_id());
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rrsp->rrs_state += (unsigned long)local_clock();
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rrsp->rrs_count = RCU_RANDOM_REFRESH;
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}
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rrsp->rrs_state = rrsp->rrs_state * RCU_RANDOM_MULT + RCU_RANDOM_ADD;
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@ -1647,7 +1647,7 @@ static void update_shares(struct sched_domain *sd)
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if (root_task_group_empty())
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return;
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now = cpu_clock(raw_smp_processor_id());
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now = local_clock();
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elapsed = now - sd->last_update;
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if (elapsed >= (s64)(u64)sysctl_sched_shares_ratelimit) {
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@ -10,19 +10,55 @@
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* Ingo Molnar <mingo@redhat.com>
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* Guillaume Chazarain <guichaz@gmail.com>
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*
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* Create a semi stable clock from a mixture of other events, including:
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* - gtod
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*
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* What:
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*
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* cpu_clock(i) provides a fast (execution time) high resolution
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* clock with bounded drift between CPUs. The value of cpu_clock(i)
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* is monotonic for constant i. The timestamp returned is in nanoseconds.
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*
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* ######################### BIG FAT WARNING ##########################
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* # when comparing cpu_clock(i) to cpu_clock(j) for i != j, time can #
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* # go backwards !! #
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* ####################################################################
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*
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* There is no strict promise about the base, although it tends to start
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* at 0 on boot (but people really shouldn't rely on that).
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*
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* cpu_clock(i) -- can be used from any context, including NMI.
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* sched_clock_cpu(i) -- must be used with local IRQs disabled (implied by NMI)
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* local_clock() -- is cpu_clock() on the current cpu.
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*
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* How:
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*
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* The implementation either uses sched_clock() when
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* !CONFIG_HAVE_UNSTABLE_SCHED_CLOCK, which means in that case the
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* sched_clock() is assumed to provide these properties (mostly it means
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* the architecture provides a globally synchronized highres time source).
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*
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* Otherwise it tries to create a semi stable clock from a mixture of other
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* clocks, including:
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*
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* - GTOD (clock monotomic)
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* - sched_clock()
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* - explicit idle events
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*
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* We use gtod as base and the unstable clock deltas. The deltas are filtered,
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* making it monotonic and keeping it within an expected window.
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* We use GTOD as base and use sched_clock() deltas to improve resolution. The
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* deltas are filtered to provide monotonicity and keeping it within an
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* expected window.
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*
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* Furthermore, explicit sleep and wakeup hooks allow us to account for time
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* that is otherwise invisible (TSC gets stopped).
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*
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* The clock: sched_clock_cpu() is monotonic per cpu, and should be somewhat
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* consistent between cpus (never more than 2 jiffies difference).
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*
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* Notes:
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*
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* The !IRQ-safetly of sched_clock() and sched_clock_cpu() comes from things
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* like cpufreq interrupts that can change the base clock (TSC) multiplier
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* and cause funny jumps in time -- although the filtering provided by
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* sched_clock_cpu() should mitigate serious artifacts we cannot rely on it
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* in general since for !CONFIG_HAVE_UNSTABLE_SCHED_CLOCK we fully rely on
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* sched_clock().
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*/
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#include <linux/spinlock.h>
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#include <linux/hardirq.h>
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@ -170,6 +206,11 @@ static u64 sched_clock_remote(struct sched_clock_data *scd)
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return val;
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}
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/*
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* Similar to cpu_clock(), but requires local IRQs to be disabled.
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*
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* See cpu_clock().
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*/
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u64 sched_clock_cpu(int cpu)
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{
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struct sched_clock_data *scd;
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}
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EXPORT_SYMBOL_GPL(sched_clock_idle_wakeup_event);
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unsigned long long cpu_clock(int cpu)
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/*
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* As outlined at the top, provides a fast, high resolution, nanosecond
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* time source that is monotonic per cpu argument and has bounded drift
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* between cpus.
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*
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* ######################### BIG FAT WARNING ##########################
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* # when comparing cpu_clock(i) to cpu_clock(j) for i != j, time can #
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* # go backwards !! #
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* ####################################################################
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*/
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u64 cpu_clock(int cpu)
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{
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unsigned long long clock;
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u64 clock;
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unsigned long flags;
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local_irq_save(flags);
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return clock;
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}
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/*
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* Similar to cpu_clock() for the current cpu. Time will only be observed
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* to be monotonic if care is taken to only compare timestampt taken on the
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* same CPU.
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*
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* See cpu_clock().
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*/
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u64 local_clock(void)
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{
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u64 clock;
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unsigned long flags;
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local_irq_save(flags);
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clock = sched_clock_cpu(smp_processor_id());
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local_irq_restore(flags);
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return clock;
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}
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#else /* CONFIG_HAVE_UNSTABLE_SCHED_CLOCK */
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void sched_clock_init(void)
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return sched_clock();
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}
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unsigned long long cpu_clock(int cpu)
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u64 cpu_clock(int cpu)
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{
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return sched_clock_cpu(cpu);
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}
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u64 local_clock(void)
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{
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return sched_clock_cpu(0);
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}
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#endif /* CONFIG_HAVE_UNSTABLE_SCHED_CLOCK */
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EXPORT_SYMBOL_GPL(cpu_clock);
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EXPORT_SYMBOL_GPL(local_clock);
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@ -56,7 +56,7 @@ u64 notrace trace_clock_local(void)
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*/
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u64 notrace trace_clock(void)
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{
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return cpu_clock(raw_smp_processor_id());
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return local_clock();
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}
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