8198515: Extract SoftReferencePolicy code out of CollectorPolicy
Reviewed-by: pliden, sjohanss
/*
* Copyright (c) 2001, 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
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*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#ifndef SHARE_VM_GC_SHARED_PLAB_HPP
#define SHARE_VM_GC_SHARED_PLAB_HPP
#include "gc/shared/gcUtil.hpp"
#include "memory/allocation.hpp"
#include "utilities/globalDefinitions.hpp"
// Forward declarations.
class PLABStats;
// A per-thread allocation buffer used during GC.
class PLAB: public CHeapObj<mtGC> {
protected:
char head[32];
size_t _word_sz; // In HeapWord units
HeapWord* _bottom;
HeapWord* _top;
HeapWord* _end; // Last allocatable address + 1
HeapWord* _hard_end; // _end + AlignmentReserve
// In support of ergonomic sizing of PLAB's
size_t _allocated; // in HeapWord units
size_t _wasted; // in HeapWord units
size_t _undo_wasted;
char tail[32];
static size_t AlignmentReserve;
// Force future allocations to fail and queries for contains()
// to return false. Returns the amount of unused space in this PLAB.
size_t invalidate() {
_end = _hard_end;
size_t remaining = pointer_delta(_end, _top); // Calculate remaining space.
_top = _end; // Force future allocations to fail.
_bottom = _end; // Force future contains() queries to return false.
return remaining;
}
// Fill in remaining space with a dummy object and invalidate the PLAB. Returns
// the amount of remaining space.
size_t retire_internal();
void add_undo_waste(HeapWord* obj, size_t word_sz);
// Undo the last allocation in the buffer, which is required to be of the
// "obj" of the given "word_sz".
void undo_last_allocation(HeapWord* obj, size_t word_sz);
public:
// Initializes the buffer to be empty, but with the given "word_sz".
// Must get initialized with "set_buf" for an allocation to succeed.
PLAB(size_t word_sz);
static size_t size_required_for_allocation(size_t word_size) { return word_size + AlignmentReserve; }
// Minimum PLAB size.
static size_t min_size();
// Maximum PLAB size.
static size_t max_size();
// If an allocation of the given "word_sz" can be satisfied within the
// buffer, do the allocation, returning a pointer to the start of the
// allocated block. If the allocation request cannot be satisfied,
// return NULL.
HeapWord* allocate(size_t word_sz) {
HeapWord* res = _top;
if (pointer_delta(_end, _top) >= word_sz) {
_top = _top + word_sz;
return res;
} else {
return NULL;
}
}
// Allocate the object aligned to "alignment_in_bytes".
inline HeapWord* allocate_aligned(size_t word_sz, unsigned short alignment_in_bytes);
// Undo any allocation in the buffer, which is required to be of the
// "obj" of the given "word_sz".
void undo_allocation(HeapWord* obj, size_t word_sz);
// The total (word) size of the buffer, including both allocated and
// unallocated space.
size_t word_sz() { return _word_sz; }
size_t waste() { return _wasted; }
size_t undo_waste() { return _undo_wasted; }
// The number of words of unallocated space remaining in the buffer.
size_t words_remaining() {
assert(_end >= _top, "Negative buffer");
return pointer_delta(_end, _top, HeapWordSize);
}
bool contains(void* addr) {
return (void*)_bottom <= addr && addr < (void*)_hard_end;
}
// Sets the space of the buffer to be [buf, space+word_sz()).
void set_buf(HeapWord* buf, size_t new_word_sz) {
assert(new_word_sz > AlignmentReserve, "Too small");
_word_sz = new_word_sz;
_bottom = buf;
_top = _bottom;
_hard_end = _bottom + word_sz();
_end = _hard_end - AlignmentReserve;
assert(_end >= _top, "Negative buffer");
// In support of ergonomic sizing
_allocated += word_sz();
}
// Flush allocation statistics into the given PLABStats supporting ergonomic
// sizing of PLAB's and retire the current buffer. To be called at the end of
// GC.
void flush_and_retire_stats(PLABStats* stats);
// Fills in the unallocated portion of the buffer with a garbage object and updates
// statistics. To be called during GC.
void retire();
};
// PLAB book-keeping.
class PLABStats : public CHeapObj<mtGC> {
protected:
const char* _description; // Identifying string.
size_t _allocated; // Total allocated
size_t _wasted; // of which wasted (internal fragmentation)
size_t _undo_wasted; // of which wasted on undo (is not used for calculation of PLAB size)
size_t _unused; // Unused in last buffer
size_t _desired_net_plab_sz;// Output of filter (below), suitably trimmed and quantized
AdaptiveWeightedAverage
_filter; // Integrator with decay
virtual void reset() {
_allocated = 0;
_wasted = 0;
_undo_wasted = 0;
_unused = 0;
}
virtual void log_plab_allocation();
virtual void log_sizing(size_t calculated, size_t net_desired);
// helper for adjust_desired_plab_sz().
virtual size_t compute_desired_plab_sz();
public:
PLABStats(const char* description, size_t desired_net_plab_sz_, unsigned wt) :
_description(description),
_allocated(0),
_wasted(0),
_undo_wasted(0),
_unused(0),
_desired_net_plab_sz(desired_net_plab_sz_),
_filter(wt)
{ }
virtual ~PLABStats() { }
size_t allocated() const { return _allocated; }
size_t wasted() const { return _wasted; }
size_t unused() const { return _unused; }
size_t used() const { return allocated() - (wasted() + unused()); }
size_t undo_wasted() const { return _undo_wasted; }
static const size_t min_size() {
return PLAB::min_size();
}
static const size_t max_size() {
return PLAB::max_size();
}
// Calculates plab size for current number of gc worker threads.
size_t desired_plab_sz(uint no_of_gc_workers);
// Updates the current desired PLAB size. Computes the new desired PLAB size with one gc worker thread,
// updates _desired_plab_sz and clears sensor accumulators.
void adjust_desired_plab_sz();
inline void add_allocated(size_t v);
inline void add_unused(size_t v);
inline void add_wasted(size_t v);
inline void add_undo_wasted(size_t v);
};
#endif // SHARE_VM_GC_SHARED_PLAB_HPP