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#include "selfping_actor.h"

#include <library/cpp/actors/core/actor_bootstrapped.h>
#include <library/cpp/actors/core/hfunc.h>

#include <library/cpp/containers/stack_vector/stack_vec.h>
#include <library/cpp/sliding_window/sliding_window.h>

namespace NActors {

namespace {

struct TEvPing: public TEventLocal<TEvPing, TEvents::THelloWorld::Ping> { 
    TEvPing(double timeStart) 
        : TimeStart(timeStart) 
    {} 
 
    const double TimeStart; 
}; 
 
template <class TValueType_>
struct TAvgOperation {
    struct TValueType {
        ui64 Count = 0;
        TValueType_ Sum = TValueType_();
    };
    using TValueVector = TVector<TValueType>;

    static constexpr TValueType InitialValue() {
        return TValueType(); // zero
    }

    // Updates value in current bucket and returns window value
    static TValueType UpdateBucket(TValueType windowValue, TValueVector& buckets, size_t index, TValueType newVal) {
        Y_ASSERT(index < buckets.size());
        buckets[index].Sum += newVal.Sum;
        buckets[index].Count += newVal.Count;
        windowValue.Sum += newVal.Sum;
        windowValue.Count += newVal.Count;
        return windowValue;
    }

    static TValueType ClearBuckets(TValueType windowValue, TValueVector& buckets, size_t firstElemIndex, size_t bucketsToClear) {
        Y_ASSERT(!buckets.empty());
        Y_ASSERT(firstElemIndex < buckets.size());
        Y_ASSERT(bucketsToClear <= buckets.size());

        const size_t arraySize = buckets.size();
        for (size_t i = 0; i < bucketsToClear; ++i) {
            TValueType& curVal = buckets[firstElemIndex];
            windowValue.Sum -= curVal.Sum;
            windowValue.Count -= curVal.Count;
            curVal = InitialValue();
            firstElemIndex = (firstElemIndex + 1) % arraySize;
        }
        return windowValue;
    }

};

class TSelfPingActor : public TActorBootstrapped<TSelfPingActor> {
private:
    const TDuration SendInterval;
    const NMonitoring::TDynamicCounters::TCounterPtr Counter;
    const NMonitoring::TDynamicCounters::TCounterPtr CalculationTimeCounter;

    NSlidingWindow::TSlidingWindow<NSlidingWindow::TMaxOperation<ui64>> SlidingWindow;
    NSlidingWindow::TSlidingWindow<TAvgOperation<ui64>> CalculationSlidingWindow;

    THPTimer Timer;

public:
    static constexpr auto ActorActivityType() { 
        return SELF_PING_ACTOR; 
    }

    TSelfPingActor(TDuration sendInterval, const NMonitoring::TDynamicCounters::TCounterPtr& counter,
            const NMonitoring::TDynamicCounters::TCounterPtr& calculationTimeCounter)
        : SendInterval(sendInterval)
        , Counter(counter)
        , CalculationTimeCounter(calculationTimeCounter)
        , SlidingWindow(TDuration::Seconds(15), 100)
        , CalculationSlidingWindow(TDuration::Seconds(15), 100)
    {
    }

    void Bootstrap(const TActorContext& ctx)
    {
        Become(&TSelfPingActor::RunningState);
        SchedulePing(ctx, Timer.Passed());
    }

    STFUNC(RunningState)
    {
        switch (ev->GetTypeRewrite()) {
            HFunc(TEvPing, HandlePing); 
        default:
            Y_FAIL("TSelfPingActor::RunningState: unexpected event 0x%08" PRIx32, ev->GetTypeRewrite());
        }
    }

    ui64 MeasureTaskDurationNs() {
        // Prepare worm test data
        // 11 * 11 * 3 * 8 = 2904 bytes, fits in L1 cache
        constexpr ui64 Size = 11;
        // Align the data to reduce random alignment effects
        alignas(64) TStackVec<ui64, Size * Size * 3> data;
        ui64 s = 0;
        NHPTimer::STime beginTime;
        NHPTimer::STime endTime;
        // Prepare the data
        data.resize(Size * Size * 3);
        for (ui64 matrixIdx = 0; matrixIdx < 3; ++matrixIdx) {
            for (ui64 y = 0; y < Size; ++y) {
                for (ui64 x = 0; x < Size; ++x) {
                    data[matrixIdx * (Size * Size) + y * Size + x] = y * Size + x;
                }
            }
        }
        // Warm-up the cache
        NHPTimer::GetTime(&beginTime);
        for (ui64 idx = 0; idx < data.size(); ++idx) {
            s += data[idx];
        }
        NHPTimer::GetTime(&endTime);
        s += (ui64)(1000000.0 * NHPTimer::GetSeconds(endTime - beginTime));

        // Measure the CPU performance
        // C = A * B  with injected dependency to s
        NHPTimer::GetTime(&beginTime);
        for (ui64 y = 0; y < Size; ++y) {
            for (ui64 x = 0; x < Size; ++x) {
                for (ui64 i = 0; i < Size; ++i) {
                    s += data[y * Size + i] * data[Size * Size + i * Size + x];
                }
                data[2 * Size * Size + y * Size + x] = s;
                s = 0;
            }
        }
        for (ui64 idx = 0; idx < data.size(); ++idx) {
            s += data[idx];
        }
        NHPTimer::GetTime(&endTime);
        // Prepare the result
        double d = 1000000000.0 * (NHPTimer::GetSeconds(endTime - beginTime) + 0.000000001 * (s & 1));
        return (ui64)d;
    }

    void HandlePing(TEvPing::TPtr &ev, const TActorContext &ctx) 
    {
        const auto now = ctx.Now();
        const double hpNow = Timer.Passed();
        const auto& e = *ev->Get();
        const double passedTime = hpNow - e.TimeStart;
        const ui64 delayUs = passedTime > 0.0 ? static_cast<ui64>(passedTime * 1e6) : 0;

        *Counter = SlidingWindow.Update(delayUs, now);

        ui64 d = MeasureTaskDurationNs();
        auto res = CalculationSlidingWindow.Update({1, d}, now);
        *CalculationTimeCounter = double(res.Sum) / double(res.Count + 1);

        SchedulePing(ctx, hpNow);
    }

private:
    void SchedulePing(const TActorContext &ctx, double hpNow) const
    {
        ctx.Schedule(SendInterval, new TEvPing(hpNow)); 
    }
};

} // namespace

IActor* CreateSelfPingActor(
    TDuration sendInterval,
    const NMonitoring::TDynamicCounters::TCounterPtr& counter,
    const NMonitoring::TDynamicCounters::TCounterPtr& calculationTimeCounter)
{
    return new TSelfPingActor(sendInterval, counter, calculationTimeCounter);
}

} // NActors