Messages in this thread | | | From | Stephane Eranian <> | Date | Tue, 31 Aug 2010 17:25:01 +0200 | Subject | [RFC PATCH 0/2] perf_events: add support for per-cpu per-cgroup monitoring |
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This series of patches adds per-container (cgroup) filtering capability to per-cpu monitoring. In other words, we can monitor all threads belonging to a specific cgroup and running on a specific CPU.
This is useful to measure what is going on inside a cgroup. Something that cannot easily and cheaply be achieved with either per-thread or per-cpu mode. Cgroups can span multiple CPUs. CPUs can be shared between cgroups. Cgroups can have lots of threads. Threads can come and go during a measurement.
To measure per-cgroup today requires using per-thread mode and attaching to all the current threads inside a cgroup and tracking new threads. That would require scanning of /proc/PID, which is subject to race conditions, and creating an event for each thread, each event requiring kernel memory.
The approach taken by this patch is to leverage the per-cpu mode by simply adding a filtering capability on context switch only when necessary. That way the amount of kernel memory used remains bound by the number of CPUs. We also do not have to scan /proc. We are only interested in cgroup level counts, not per-thread.
The cgroup to monitor is designated by passing a file descriptor opened on a new per-cgroup file in the cgroup filesystem (perf_event.perf). The option must be activated by setting perf_event_attr.cgroup=1 and passing a valid file descriptor in perf_event_attr.cgroup_fd. Those are the only two ABI extensions.
The patch also includes changes to the perf tool to make use of cgroup filtering. Both perf stat and perf record have been extended to support cgroup via a new -G option. The cgroup is specified per event:
$ perf stat -a -e cycles:u,cycles:u -G test1,test2 -- sleep 1 Performance counter stats for 'sleep 1': 2368881622 cycles test1 0 cycles test2 1.001938136 seconds time elapsed
Time tracking and scaling are left unmodified at the moment. That means: - time_enabled: counts wall-clock between start and stop of the measurement - time_running: counts time when event is on the PMU
The scaling done by the perf tool is left unchanged. That means, the interpretation of the scaled counts is: "number of events if the cgroup had been active on ALL the monitored CPUs for the ENTIRE duration of the run". This is all you can infer from what time_enabled and time_running are tracking today.
The current time tracking is not quite satisfactory. It does not capture the difference between scaling because of multiplexing of events vs. cgroup did not have active threads during the entire measurement. I think this distinction is important, but tracking it is not obvious given this is not an event-centric metric.
PATCH 0/2: introduction PATCH 1/2: kernel changes PATCH 2/2: perf tool changes
Signed-off-by: Stephane Eranian <eranian@google.com>
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