8195142: Refactor out card table from CardTableModRefBS to flatten the BarrierSet hierarchy
Reviewed-by: stefank, coleenp, kvn, ehelin
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#ifndef SHARE_VM_GC_G1_G1MMUTRACKER_HPP
#define SHARE_VM_GC_G1_G1MMUTRACKER_HPP
#include "gc/shared/gcId.hpp"
#include "memory/allocation.hpp"
#include "utilities/debug.hpp"
// Two major user controls over G1 behavior are setting a pause time goal (MaxGCPauseMillis),
// over a time slice (GCPauseIntervalMillis). This defines the Minimum Mutator
// Utilisation (MMU) goal.
//
// * Definitions *
// Mutator Utilisation:
// - for a given time slice duration "ts",
// - mutator utilisation is the following fraction:
// non_gc_time / ts
//
// Minimum Mutator Utilisation (MMU):
// - the worst mutator utilisation across all time slices.
//
// G1MMUTracker keeps track of the GC work and decides when it is OK to do GC work
// and for how long so that the MMU invariants are maintained.
//
// ***** ALL TIMES ARE IN SECS!!!!!!! *****
// this is the "interface"
class G1MMUTracker: public CHeapObj<mtGC> {
protected:
double _time_slice;
double _max_gc_time; // this is per time slice
public:
G1MMUTracker(double time_slice, double max_gc_time);
virtual void add_pause(double start, double end) = 0;
virtual double when_sec(double current_time, double pause_time) = 0;
double max_gc_time() const {
return _max_gc_time;
}
inline bool now_max_gc(double current_time) {
return when_sec(current_time, max_gc_time()) < 0.00001;
}
inline double when_max_gc_sec(double current_time) {
return when_sec(current_time, max_gc_time());
}
inline jlong when_max_gc_ms(double current_time) {
double when = when_max_gc_sec(current_time);
return (jlong) (when * 1000.0);
}
inline jlong when_ms(double current_time, double pause_time) {
double when = when_sec(current_time, pause_time);
return (jlong) (when * 1000.0);
}
};
class G1MMUTrackerQueueElem VALUE_OBJ_CLASS_SPEC {
private:
double _start_time;
double _end_time;
public:
inline double start_time() { return _start_time; }
inline double end_time() { return _end_time; }
inline double duration() { return _end_time - _start_time; }
G1MMUTrackerQueueElem() {
_start_time = 0.0;
_end_time = 0.0;
}
G1MMUTrackerQueueElem(double start_time, double end_time) {
_start_time = start_time;
_end_time = end_time;
}
};
// this is an implementation of the MMUTracker using a (fixed-size) queue
// that keeps track of all the recent pause times
class G1MMUTrackerQueue: public G1MMUTracker {
private:
enum PrivateConstants {
QueueLength = 64
};
// The array keeps track of all the pauses that fall within a time
// slice (the last time slice during which pauses took place).
// The data structure implemented is a circular queue.
// Head "points" to the most recent addition, tail to the oldest one.
// The array is of fixed size and I don't think we'll need more than
// two or three entries with the current behavior of G1 pauses.
// If the array is full, an easy fix is to look for the pauses with
// the shortest gap between them and consolidate them.
// For now, we have taken the expedient alternative of forgetting
// the oldest entry in the event that +G1UseFixedWindowMMUTracker, thus
// potentially violating MMU specs for some time thereafter.
G1MMUTrackerQueueElem _array[QueueLength];
int _head_index;
int _tail_index;
int _no_entries;
inline int trim_index(int index) {
return (index + QueueLength) % QueueLength;
}
void remove_expired_entries(double current_time);
double calculate_gc_time(double current_time);
public:
G1MMUTrackerQueue(double time_slice, double max_gc_time);
virtual void add_pause(double start, double end);
virtual double when_sec(double current_time, double pause_time);
};
#endif // SHARE_VM_GC_G1_G1MMUTRACKER_HPP