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    perf_counter: Optimize context switch between identical inherited contexts · 564c2b21
    Paul Mackerras 提交于
    When monitoring a process and its descendants with a set of inherited
    counters, we can often get the situation in a context switch where
    both the old (outgoing) and new (incoming) process have the same set
    of counters, and their values are ultimately going to be added together.
    In that situation it doesn't matter which set of counters are used to
    count the activity for the new process, so there is really no need to
    go through the process of reading the hardware counters and updating
    the old task's counters and then setting up the PMU for the new task.
    
    This optimizes the context switch in this situation.  Instead of
    scheduling out the perf_counter_context for the old task and
    scheduling in the new context, we simply transfer the old context
    to the new task and keep using it without interruption.  The new
    context gets transferred to the old task.  This means that both
    tasks still have a valid perf_counter_context, so no special case
    is introduced when the old task gets scheduled in again, either on
    this CPU or another CPU.
    
    The equivalence of contexts is detected by keeping a pointer in
    each cloned context pointing to the context it was cloned from.
    To cope with the situation where a context is changed by adding
    or removing counters after it has been cloned, we also keep a
    generation number on each context which is incremented every time
    a context is changed.  When a context is cloned we take a copy
    of the parent's generation number, and two cloned contexts are
    equivalent only if they have the same parent and the same
    generation number.  In order that the parent context pointer
    remains valid (and is not reused), we increment the parent
    context's reference count for each context cloned from it.
    
    Since we don't have individual fds for the counters in a cloned
    context, the only thing that can make two clones of a given parent
    different after they have been cloned is enabling or disabling all
    counters with prctl.  To account for this, we keep a count of the
    number of enabled counters in each context.  Two contexts must have
    the same number of enabled counters to be considered equivalent.
    
    Here are some measurements of the context switch time as measured with
    the lat_ctx benchmark from lmbench, comparing the times obtained with
    and without this patch series:
    
    		-----Unmodified-----		With this patch series
    Counters:	none	2 HW	4H+4S	none	2 HW	4H+4S
    
    2 processes:
    Average		3.44	6.45	11.24	3.12	3.39	3.60
    St dev		0.04	0.04	0.13	0.05	0.17	0.19
    
    8 processes:
    Average		6.45	8.79	14.00	5.57	6.23	7.57
    St dev		1.27	1.04	0.88	1.42	1.46	1.42
    
    32 processes:
    Average		5.56	8.43	13.78	5.28	5.55	7.15
    St dev		0.41	0.47	0.53	0.54	0.57	0.81
    
    The numbers are the mean and standard deviation of 20 runs of
    lat_ctx.  The "none" columns are lat_ctx run directly without any
    counters.  The "2 HW" columns are with lat_ctx run under perfstat,
    counting cycles and instructions.  The "4H+4S" columns are lat_ctx run
    under perfstat with 4 hardware counters and 4 software counters
    (cycles, instructions, cache references, cache misses, task
    clock, context switch, cpu migrations, and page faults).
    
    [ Impact: performance optimization of counter context-switches ]
    Signed-off-by: NPaul Mackerras <paulus@samba.org>
    Acked-by: NPeter Zijlstra <a.p.zijlstra@chello.nl>
    Cc: Corey Ashford <cjashfor@linux.vnet.ibm.com>
    Cc: Marcelo Tosatti <mtosatti@redhat.com>
    Cc: Arnaldo Carvalho de Melo <acme@redhat.com>
    LKML-Reference: <18966.10666.517218.332164@cargo.ozlabs.ibm.com>
    Signed-off-by: NIngo Molnar <mingo@elte.hu>
    564c2b21
perf_counter.h 16.7 KB