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/* This script requires a command line argument, to be used in the "process"
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* probe definition.
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*
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* For a statically build binary, that'd be the name of the binary itself.
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* For dynamically built ones, point to the location of the libgrpc.so being
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* used. */
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global starts, times, times_per_tag
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probe process(@1).mark("timing_ns_begin") {
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starts[$arg1, tid()] = gettimeofday_ns();
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}
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probe process(@1).mark("timing_ns_end") {
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tag = $arg1
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t = gettimeofday_ns();
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if (s = starts[tag, tid()]) {
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times[tag, tid()] <<< t-s;
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delete starts[tag, tid()];
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}
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}
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probe end {
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printf("%15s %9s %10s %10s %10s %10s\n", "tag", "tid", "count",
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"min(ns)", "avg(ns)", "max(ns)");
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foreach ([tag+, tid] in times) {
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printf("%15X %9d %10d %10d %10d %10d\n", tag, tid, @count(times[tag, tid]),
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@min(times[tag, tid]), @avg(times[tag, tid]), @max(times[tag, tid]));
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}
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printf("Per tag average of averages\n");
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foreach ([tag+, tid] in times) {
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times_per_tag[tag] <<< @avg(times[tag, tid]);
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}
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printf("%15s %10s %10s\n", "tag", "count", "avg(ns)");
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foreach ([tag+] in times_per_tag) {
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printf("%15X %10d %10d\n", tag, @count(times_per_tag[tag]),
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@avg(times_per_tag[tag]));
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}
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}
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