8232365: Implementation for JEP 363: Remove the Concurrent Mark Sweep (CMS) Garbage Collector
Reviewed-by: kbarrett, tschatzl, erikj, coleenp, dholmes
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#ifndef SHARE_GC_SHARED_PRESERVEDMARKS_HPP
#define SHARE_GC_SHARED_PRESERVEDMARKS_HPP
#include "memory/allocation.hpp"
#include "memory/padded.hpp"
#include "oops/oop.hpp"
#include "utilities/stack.hpp"
class PreservedMarksSet;
class WorkGang;
class PreservedMarks {
private:
class OopAndMarkWord {
private:
oop _o;
markWord _m;
public:
OopAndMarkWord(oop obj, markWord m) : _o(obj), _m(m) { }
oop get_oop() { return _o; }
inline void set_mark() const;
void set_oop(oop obj) { _o = obj; }
};
typedef Stack<OopAndMarkWord, mtGC> OopAndMarkWordStack;
OopAndMarkWordStack _stack;
inline bool should_preserve_mark(oop obj, markWord m) const;
public:
size_t size() const { return _stack.size(); }
inline void push(oop obj, markWord m);
inline void push_if_necessary(oop obj, markWord m);
// Iterate over the stack, restore all preserved marks, and
// reclaim the memory taken up by the stack segments.
void restore();
// Iterate over the stack, adjust all preserved marks according
// to their forwarding location stored in the mark.
void adjust_during_full_gc();
void restore_and_increment(volatile size_t* const _total_size_addr);
inline static void init_forwarded_mark(oop obj);
// Assert the stack is empty and has no cached segments.
void assert_empty() PRODUCT_RETURN;
inline PreservedMarks();
~PreservedMarks() { assert_empty(); }
};
class RemoveForwardedPointerClosure: public ObjectClosure {
public:
virtual void do_object(oop obj);
};
class RestorePreservedMarksTaskExecutor {
public:
void virtual restore(PreservedMarksSet* preserved_marks_set,
volatile size_t* total_size_addr) = 0;
};
class SharedRestorePreservedMarksTaskExecutor : public RestorePreservedMarksTaskExecutor {
private:
WorkGang* _workers;
public:
SharedRestorePreservedMarksTaskExecutor(WorkGang* workers) : _workers(workers) { }
void restore(PreservedMarksSet* preserved_marks_set,
volatile size_t* total_size_addr);
};
class PreservedMarksSet : public CHeapObj<mtGC> {
private:
// true -> _stacks will be allocated in the C heap
// false -> _stacks will be allocated in the resource arena
const bool _in_c_heap;
// Number of stacks we have allocated (typically, one stack per GC worker).
// This should be >= 1 if the stacks have been initialized,
// or == 0 if they have not.
uint _num;
// Stack array (typically, one stack per GC worker) of length _num.
// This should be != NULL if the stacks have been initialized,
// or == NULL if they have not.
Padded<PreservedMarks>* _stacks;
public:
uint num() const { return _num; }
// Return the i'th stack.
PreservedMarks* get(uint i = 0) const {
assert(_num > 0 && _stacks != NULL, "stacks should have been initialized");
assert(i < _num, "pre-condition");
return (_stacks + i);
}
// Allocate stack array.
void init(uint num);
// Iterate over all stacks, restore all preserved marks, and reclaim
// the memory taken up by the stack segments.
// Supported executors: SharedRestorePreservedMarksTaskExecutor (Serial, G1),
// PSRestorePreservedMarksTaskExecutor (PS).
inline void restore(RestorePreservedMarksTaskExecutor* executor);
// Reclaim stack array.
void reclaim();
// Assert all the stacks are empty and have no cached segments.
void assert_empty() PRODUCT_RETURN;
PreservedMarksSet(bool in_c_heap)
: _in_c_heap(in_c_heap), _num(0), _stacks(NULL) { }
~PreservedMarksSet() {
assert(_stacks == NULL && _num == 0, "stacks should have been reclaimed");
}
};
#endif // SHARE_GC_SHARED_PRESERVEDMARKS_HPP