8071770: G1 does not implement millis_since_last_gc which is needed by RMI GC
Summary: G1 does not return a correct value for the CollectedHeap::millis_since_last_gc
Reviewed-by: jmasa, tschatzl
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#ifndef SHARE_VM_GC_G1_BUFFERINGOOPCLOSURE_HPP
#define SHARE_VM_GC_G1_BUFFERINGOOPCLOSURE_HPP
#include "memory/iterator.hpp"
#include "oops/oopsHierarchy.hpp"
#include "runtime/os.hpp"
#include "utilities/debug.hpp"
// A BufferingOops closure tries to separate out the cost of finding roots
// from the cost of applying closures to them. It maintains an array of
// ref-containing locations. Until the array is full, applying the closure
// to an oop* merely records that location in the array. Since this
// closure app cost is small, an elapsed timer can approximately attribute
// all of this cost to the cost of finding the roots. When the array fills
// up, the wrapped closure is applied to all elements, keeping track of
// this elapsed time of this process, and leaving the array empty.
// The caller must be sure to call "done" to process any unprocessed
// buffered entries.
class BufferingOopClosure: public OopClosure {
friend class TestBufferingOopClosure;
protected:
static const size_t BufferLength = 1024;
// We need to know if the buffered addresses contain oops or narrowOops.
// We can't tag the addresses the way StarTask does, because we need to
// be able to handle unaligned addresses coming from oops embedded in code.
//
// The addresses for the full-sized oops are filled in from the bottom,
// while the addresses for the narrowOops are filled in from the top.
OopOrNarrowOopStar _buffer[BufferLength];
OopOrNarrowOopStar* _oop_top;
OopOrNarrowOopStar* _narrowOop_bottom;
OopClosure* _oc;
double _closure_app_seconds;
bool is_buffer_empty() {
return _oop_top == _buffer && _narrowOop_bottom == (_buffer + BufferLength - 1);
}
bool is_buffer_full() {
return _narrowOop_bottom < _oop_top;
}
// Process addresses containing full-sized oops.
void process_oops() {
for (OopOrNarrowOopStar* curr = _buffer; curr < _oop_top; ++curr) {
_oc->do_oop((oop*)(*curr));
}
_oop_top = _buffer;
}
// Process addresses containing narrow oops.
void process_narrowOops() {
for (OopOrNarrowOopStar* curr = _buffer + BufferLength - 1; curr > _narrowOop_bottom; --curr) {
_oc->do_oop((narrowOop*)(*curr));
}
_narrowOop_bottom = _buffer + BufferLength - 1;
}
// Apply the closure to all oops and clear the buffer.
// Accumulate the time it took.
void process_buffer() {
double start = os::elapsedTime();
process_oops();
process_narrowOops();
_closure_app_seconds += (os::elapsedTime() - start);
}
void process_buffer_if_full() {
if (is_buffer_full()) {
process_buffer();
}
}
void add_narrowOop(narrowOop* p) {
assert(!is_buffer_full(), "Buffer should not be full");
*_narrowOop_bottom = (OopOrNarrowOopStar)p;
_narrowOop_bottom--;
}
void add_oop(oop* p) {
assert(!is_buffer_full(), "Buffer should not be full");
*_oop_top = (OopOrNarrowOopStar)p;
_oop_top++;
}
public:
virtual void do_oop(narrowOop* p) {
process_buffer_if_full();
add_narrowOop(p);
}
virtual void do_oop(oop* p) {
process_buffer_if_full();
add_oop(p);
}
void done() {
if (!is_buffer_empty()) {
process_buffer();
}
}
double closure_app_seconds() {
return _closure_app_seconds;
}
BufferingOopClosure(OopClosure *oc) :
_oc(oc),
_oop_top(_buffer),
_narrowOop_bottom(_buffer + BufferLength - 1),
_closure_app_seconds(0.0) { }
};
#endif // SHARE_VM_GC_G1_BUFFERINGOOPCLOSURE_HPP