/*
* Copyright 2001-2006 Sun Microsystems, Inc. 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
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* 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.
*
* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
* CA 95054 USA or visit www.sun.com if you need additional information or
* have any questions.
*
*/
// This class (or more correctly, subtypes of this class)
// are used to define global garbage collector attributes.
// This includes initialization of generations and any other
// shared resources they may need.
//
// In general, all flag adjustment and validation should be
// done in initialize_flags(), which is called prior to
// initialize_size_info().
//
// This class is not fully developed yet. As more collector(s)
// are added, it is expected that we will come across further
// behavior that requires global attention. The correct place
// to deal with those issues is this class.
// Forward declarations.
class GenCollectorPolicy;
class TwoGenerationCollectorPolicy;
#ifndef SERIALGC
class ConcurrentMarkSweepPolicy;
#endif // SERIALGC
class AdaptiveSizePolicy;
class GCPolicyCounters;
class PermanentGenerationSpec;
class MarkSweepPolicy;
class CollectorPolicy : public CHeapObj {
protected:
PermanentGenerationSpec *_permanent_generation;
GCPolicyCounters* _gc_policy_counters;
// Requires that the concrete subclass sets the alignment constraints
// before calling.
virtual void initialize_flags();
virtual void initialize_size_info() = 0;
// Initialize "_permanent_generation" to a spec for the given kind of
// Perm Gen.
void initialize_perm_generation(PermGen::Name pgnm);
size_t _initial_heap_byte_size;
size_t _max_heap_byte_size;
size_t _min_heap_byte_size;
size_t _min_alignment;
size_t _max_alignment;
CollectorPolicy() :
_min_alignment(1),
_max_alignment(1),
_initial_heap_byte_size(0),
_max_heap_byte_size(0),
_min_heap_byte_size(0)
{}
public:
void set_min_alignment(size_t align) { _min_alignment = align; }
size_t min_alignment() { return _min_alignment; }
void set_max_alignment(size_t align) { _max_alignment = align; }
size_t max_alignment() { return _max_alignment; }
size_t initial_heap_byte_size() { return _initial_heap_byte_size; }
size_t max_heap_byte_size() { return _max_heap_byte_size; }
size_t min_heap_byte_size() { return _min_heap_byte_size; }
enum Name {
CollectorPolicyKind,
TwoGenerationCollectorPolicyKind,
TrainPolicyKind,
ConcurrentMarkSweepPolicyKind,
ASConcurrentMarkSweepPolicyKind
};
// Identification methods.
virtual GenCollectorPolicy* as_generation_policy() { return NULL; }
virtual TwoGenerationCollectorPolicy* as_two_generation_policy() { return NULL; }
virtual MarkSweepPolicy* as_mark_sweep_policy() { return NULL; }
#ifndef SERIALGC
virtual ConcurrentMarkSweepPolicy* as_concurrent_mark_sweep_policy() { return NULL; }
#endif // SERIALGC
// Note that these are not virtual.
bool is_generation_policy() { return as_generation_policy() != NULL; }
bool is_two_generation_policy() { return as_two_generation_policy() != NULL; }
bool is_mark_sweep_policy() { return as_mark_sweep_policy() != NULL; }
#ifndef SERIALGC
bool is_concurrent_mark_sweep_policy() { return as_concurrent_mark_sweep_policy() != NULL; }
#else // SERIALGC
bool is_concurrent_mark_sweep_policy() { return false; }
#endif // SERIALGC
virtual PermanentGenerationSpec *permanent_generation() {
assert(_permanent_generation != NULL, "Sanity check");
return _permanent_generation;
}
virtual BarrierSet::Name barrier_set_name() = 0;
virtual GenRemSet::Name rem_set_name() = 0;
// Create the remembered set (to cover the given reserved region,
// allowing breaking up into at most "max_covered_regions").
virtual GenRemSet* create_rem_set(MemRegion reserved,
int max_covered_regions);
// This method controls how a collector satisfies a request
// for a block of memory. "gc_time_limit_was_exceeded" will
// be set to true if the adaptive size policy determine that
// an excessive amount of time is being spent doing collections
// and caused a NULL to be returned. If a NULL is not returned,
// "gc_time_limit_was_exceeded" has an undefined meaning.
virtual HeapWord* mem_allocate_work(size_t size,
bool is_tlab,
bool* gc_overhead_limit_was_exceeded) = 0;
// This method controls how a collector handles one or more
// of its generations being fully allocated.
virtual HeapWord *satisfy_failed_allocation(size_t size, bool is_tlab) = 0;
// Performace Counter support
GCPolicyCounters* counters() { return _gc_policy_counters; }
// Create the jstat counters for the GC policy. By default, policy's
// don't have associated counters, and we complain if this is invoked.
virtual void initialize_gc_policy_counters() {
ShouldNotReachHere();
}
virtual CollectorPolicy::Name kind() {
return CollectorPolicy::CollectorPolicyKind;
}
// Returns true if a collector has eden space with soft end.
virtual bool has_soft_ended_eden() {
return false;
}
};
class GenCollectorPolicy : public CollectorPolicy {
protected:
size_t _min_gen0_size;
size_t _initial_gen0_size;
size_t _max_gen0_size;
GenerationSpec **_generations;
// The sizing of the different generations in the heap are controlled
// by a sizing policy.
AdaptiveSizePolicy* _size_policy;
// Return true if an allocation should be attempted in the older
// generation if it fails in the younger generation. Return
// false, otherwise.
virtual bool should_try_older_generation_allocation(size_t word_size) const;
void initialize_flags();
void initialize_size_info();
// Try to allocate space by expanding the heap.
virtual HeapWord* expand_heap_and_allocate(size_t size, bool is_tlab);
// compute max heap alignment
size_t compute_max_alignment();
public:
virtual int number_of_generations() = 0;
virtual GenerationSpec **generations() {
assert(_generations != NULL, "Sanity check");
return _generations;
}
virtual GenCollectorPolicy* as_generation_policy() { return this; }
virtual void initialize_generations() = 0;
virtual void initialize_all() {
initialize_flags();
initialize_size_info();
initialize_generations();
}
HeapWord* mem_allocate_work(size_t size,
bool is_tlab,
bool* gc_overhead_limit_was_exceeded);
HeapWord *satisfy_failed_allocation(size_t size, bool is_tlab);
// The size that defines a "large array".
virtual size_t large_typearray_limit();
// Adaptive size policy
AdaptiveSizePolicy* size_policy() { return _size_policy; }
virtual void initialize_size_policy(size_t init_eden_size,
size_t init_promo_size,
size_t init_survivor_size);
};
// All of hotspot's current collectors are subtypes of this
// class. Currently, these collectors all use the same gen[0],
// but have different gen[1] types. If we add another subtype
// of CollectorPolicy, this class should be broken out into
// its own file.
class TwoGenerationCollectorPolicy : public GenCollectorPolicy {
protected:
size_t _min_gen1_size;
size_t _initial_gen1_size;
size_t _max_gen1_size;
void initialize_flags();
void initialize_size_info();
void initialize_generations() { ShouldNotReachHere(); }
public:
// Inherited methods
TwoGenerationCollectorPolicy* as_two_generation_policy() { return this; }
int number_of_generations() { return 2; }
BarrierSet::Name barrier_set_name() { return BarrierSet::CardTableModRef; }
GenRemSet::Name rem_set_name() { return GenRemSet::CardTable; }
virtual CollectorPolicy::Name kind() {
return CollectorPolicy::TwoGenerationCollectorPolicyKind;
}
};
class MarkSweepPolicy : public TwoGenerationCollectorPolicy {
protected:
void initialize_generations();
public:
MarkSweepPolicy();
MarkSweepPolicy* as_mark_sweep_policy() { return this; }
void initialize_gc_policy_counters();
};