On 4/1/17 12:14 AM, Jesper Dangaard Brouer wrote:
On Thu, 30 Mar 2017 21:45:38 -0700 Alexei Starovoitov <[email protected]> wrote:static u32 bpf_test_run(struct bpf_prog *prog, void *ctx, u32 repeat, u32 *time) +{ + u64 time_start, time_spent = 0; + u32 ret = 0, i; + + if (!repeat) + repeat = 1; + time_start = ktime_get_ns();I've found that is useful to record the CPU cycles, as it is more useful for comparing between CPUs. The nanosec time measurement varies too much between CPUs and GHz. I do use nanosec measurements myself a lot, but that is mostly because it is easier to relate to pps rates. For eBPF code execution I think it is more useful to get a cycles cost count?
for micro-benchmarking of an instruction or small primitives like spin_lock and irq_save/restore, yes. Cycles are more interesting to look at. Here it's the whole program which in case of networking likely does at least a few map lookups. Also this duration field is more of sanity test then actual metric.
I've been using tsc[1] (rdtsc) to get the CPU cycles, I believe get_cycles() the more generic call, which have arch specific impl. (but can return 0 if no arch support). The best solution would be to use the perf infrastructure and PMU counter to get both PMU cycles and instructions, as that also tell you about the pipeline efficiency like instructions per cycles. I only got this partly working in [1][2].
to use get_cycles() or perf_event_create_kernel_counter() the current simple loop would become kthread pinned to cpu and so on. imo it's an overkill. The only reason 'duration' being reported is a sanity test with user space measurements. What this command allows to do is: $ time ./my_bpf_benchmark The reported time should match the kernel reported 'duration'. The tiny difference will come from resched. That's sanity part. Now we can also do $ perf record ./my_bpf_benchmark and get all perf goodness for free without adding any kernel code. I want this test_run command to stay execution only. All pmu and performance metrics should stay on perf side. In case of performance optimization of bpf programs we're trying to improve perf by changing the way program is written, hence we need perf to point out which line of C code is costly. Second is improving performance by changing JIT, map implementations and so on. Here we also want full perf tool power. Unfortunately there is an issue with perf today, since as soon as my_bpf_benchmark exits, bpf prog is unloaded and ksym is gone, so 'perf report' cannot associate addresses back to source code. We discussed a solution with Arnaldo. So that's orthogonal work in progress which is needed regardless of this test_run command. User space can also pin itself to cpu instead of asking kernel to do it and run the same program on multiple cpus in parallel testing interaction between concurrent map accesses and so on. So by keeping test_run command as execution only primitive we allow user space to do all the fancy tricks and measurements.
