8034764: Use process_strong_roots to adjust the StringTable
Reviewed-by: tschatzl, brutisso
/*
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* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
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* 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_MEMORY_METASPACE_HPP
#define SHARE_VM_MEMORY_METASPACE_HPP
#include "memory/allocation.hpp"
#include "memory/memRegion.hpp"
#include "runtime/virtualspace.hpp"
#include "utilities/exceptions.hpp"
// Metaspace
//
// Metaspaces are Arenas for the VM's metadata.
// They are allocated one per class loader object, and one for the null
// bootstrap class loader
// Eventually for bootstrap loader we'll have a read-only section and read-write
// to write for DumpSharedSpaces and read for UseSharedSpaces
//
// block X ---+ +-------------------+
// | | Virtualspace |
// | | |
// | | |
// | |-------------------|
// | || Chunk |
// | || |
// | ||---------- |
// +------>||| block 0 | |
// ||---------- |
// ||| block 1 | |
// ||---------- |
// || |
// |-------------------|
// | |
// | |
// +-------------------+
//
class ChunkManager;
class ClassLoaderData;
class Metablock;
class Metachunk;
class MetaWord;
class Mutex;
class outputStream;
class SpaceManager;
class VirtualSpaceList;
// Metaspaces each have a SpaceManager and allocations
// are done by the SpaceManager. Allocations are done
// out of the current Metachunk. When the current Metachunk
// is exhausted, the SpaceManager gets a new one from
// the current VirtualSpace. When the VirtualSpace is exhausted
// the SpaceManager gets a new one. The SpaceManager
// also manages freelists of available Chunks.
//
// Currently the space manager maintains the list of
// virtual spaces and the list of chunks in use. Its
// allocate() method returns a block for use as a
// quantum of metadata.
class Metaspace : public CHeapObj<mtClass> {
friend class VMStructs;
friend class SpaceManager;
friend class VM_CollectForMetadataAllocation;
friend class MetaspaceGC;
friend class MetaspaceAux;
public:
enum MetadataType {
ClassType,
NonClassType,
MetadataTypeCount
};
enum MetaspaceType {
StandardMetaspaceType,
BootMetaspaceType,
ROMetaspaceType,
ReadWriteMetaspaceType,
AnonymousMetaspaceType,
ReflectionMetaspaceType
};
private:
void initialize(Mutex* lock, MetaspaceType type);
// Get the first chunk for a Metaspace. Used for
// special cases such as the boot class loader, reflection
// class loader and anonymous class loader.
Metachunk* get_initialization_chunk(MetadataType mdtype,
size_t chunk_word_size,
size_t chunk_bunch);
// Align up the word size to the allocation word size
static size_t align_word_size_up(size_t);
// Aligned size of the metaspace.
static size_t _compressed_class_space_size;
static size_t compressed_class_space_size() {
return _compressed_class_space_size;
}
static void set_compressed_class_space_size(size_t size) {
_compressed_class_space_size = size;
}
static size_t _first_chunk_word_size;
static size_t _first_class_chunk_word_size;
static size_t _commit_alignment;
static size_t _reserve_alignment;
SpaceManager* _vsm;
SpaceManager* vsm() const { return _vsm; }
SpaceManager* _class_vsm;
SpaceManager* class_vsm() const { return _class_vsm; }
// Allocate space for metadata of type mdtype. This is space
// within a Metachunk and is used by
// allocate(ClassLoaderData*, size_t, bool, MetadataType, TRAPS)
MetaWord* allocate(size_t word_size, MetadataType mdtype);
// Virtual Space lists for both classes and other metadata
static VirtualSpaceList* _space_list;
static VirtualSpaceList* _class_space_list;
static ChunkManager* _chunk_manager_metadata;
static ChunkManager* _chunk_manager_class;
public:
static VirtualSpaceList* space_list() { return _space_list; }
static VirtualSpaceList* class_space_list() { return _class_space_list; }
static VirtualSpaceList* get_space_list(MetadataType mdtype) {
assert(mdtype != MetadataTypeCount, "MetadaTypeCount can't be used as mdtype");
return mdtype == ClassType ? class_space_list() : space_list();
}
static ChunkManager* chunk_manager_metadata() { return _chunk_manager_metadata; }
static ChunkManager* chunk_manager_class() { return _chunk_manager_class; }
static ChunkManager* get_chunk_manager(MetadataType mdtype) {
assert(mdtype != MetadataTypeCount, "MetadaTypeCount can't be used as mdtype");
return mdtype == ClassType ? chunk_manager_class() : chunk_manager_metadata();
}
private:
// This is used by DumpSharedSpaces only, where only _vsm is used. So we will
// maintain a single list for now.
void record_allocation(void* ptr, MetaspaceObj::Type type, size_t word_size);
#ifdef _LP64
static void set_narrow_klass_base_and_shift(address metaspace_base, address cds_base);
// Returns true if can use CDS with metaspace allocated as specified address.
static bool can_use_cds_with_metaspace_addr(char* metaspace_base, address cds_base);
static void allocate_metaspace_compressed_klass_ptrs(char* requested_addr, address cds_base);
static void initialize_class_space(ReservedSpace rs);
#endif
class AllocRecord : public CHeapObj<mtClass> {
public:
AllocRecord(address ptr, MetaspaceObj::Type type, int byte_size)
: _next(NULL), _ptr(ptr), _type(type), _byte_size(byte_size) {}
AllocRecord *_next;
address _ptr;
MetaspaceObj::Type _type;
int _byte_size;
};
AllocRecord * _alloc_record_head;
AllocRecord * _alloc_record_tail;
size_t class_chunk_size(size_t word_size);
public:
Metaspace(Mutex* lock, MetaspaceType type);
~Metaspace();
static void ergo_initialize();
static void global_initialize();
static size_t first_chunk_word_size() { return _first_chunk_word_size; }
static size_t first_class_chunk_word_size() { return _first_class_chunk_word_size; }
static size_t reserve_alignment() { return _reserve_alignment; }
static size_t reserve_alignment_words() { return _reserve_alignment / BytesPerWord; }
static size_t commit_alignment() { return _commit_alignment; }
static size_t commit_alignment_words() { return _commit_alignment / BytesPerWord; }
char* bottom() const;
size_t used_words_slow(MetadataType mdtype) const;
size_t free_words_slow(MetadataType mdtype) const;
size_t capacity_words_slow(MetadataType mdtype) const;
size_t used_bytes_slow(MetadataType mdtype) const;
size_t capacity_bytes_slow(MetadataType mdtype) const;
static MetaWord* allocate(ClassLoaderData* loader_data, size_t word_size,
bool read_only, MetaspaceObj::Type type, TRAPS);
void deallocate(MetaWord* ptr, size_t byte_size, bool is_class);
MetaWord* expand_and_allocate(size_t size,
MetadataType mdtype);
bool contains(const void* ptr);
void dump(outputStream* const out) const;
// Free empty virtualspaces
static void purge(MetadataType mdtype);
static void purge();
static void report_metadata_oome(ClassLoaderData* loader_data, size_t word_size,
MetadataType mdtype, TRAPS);
void print_on(outputStream* st) const;
// Debugging support
void verify();
class AllocRecordClosure : public StackObj {
public:
virtual void doit(address ptr, MetaspaceObj::Type type, int byte_size) = 0;
};
void iterate(AllocRecordClosure *closure);
// Return TRUE only if UseCompressedClassPointers is True and DumpSharedSpaces is False.
static bool using_class_space() {
return NOT_LP64(false) LP64_ONLY(UseCompressedClassPointers && !DumpSharedSpaces);
}
static bool is_class_space_allocation(MetadataType mdType) {
return mdType == ClassType && using_class_space();
}
};
class MetaspaceAux : AllStatic {
static size_t free_chunks_total_words(Metaspace::MetadataType mdtype);
// These methods iterate over the classloader data graph
// for the given Metaspace type. These are slow.
static size_t used_bytes_slow(Metaspace::MetadataType mdtype);
static size_t free_bytes_slow(Metaspace::MetadataType mdtype);
static size_t capacity_bytes_slow(Metaspace::MetadataType mdtype);
static size_t capacity_bytes_slow();
// Running sum of space in all Metachunks that has been
// allocated to a Metaspace. This is used instead of
// iterating over all the classloaders. One for each
// type of Metadata
static size_t _allocated_capacity_words[Metaspace:: MetadataTypeCount];
// Running sum of space in all Metachunks that have
// are being used for metadata. One for each
// type of Metadata.
static size_t _allocated_used_words[Metaspace:: MetadataTypeCount];
public:
// Decrement and increment _allocated_capacity_words
static void dec_capacity(Metaspace::MetadataType type, size_t words);
static void inc_capacity(Metaspace::MetadataType type, size_t words);
// Decrement and increment _allocated_used_words
static void dec_used(Metaspace::MetadataType type, size_t words);
static void inc_used(Metaspace::MetadataType type, size_t words);
// Total of space allocated to metadata in all Metaspaces.
// This sums the space used in each Metachunk by
// iterating over the classloader data graph
static size_t used_bytes_slow() {
return used_bytes_slow(Metaspace::ClassType) +
used_bytes_slow(Metaspace::NonClassType);
}
// Used by MetaspaceCounters
static size_t free_chunks_total_words();
static size_t free_chunks_total_bytes();
static size_t free_chunks_total_bytes(Metaspace::MetadataType mdtype);
static size_t allocated_capacity_words(Metaspace::MetadataType mdtype) {
return _allocated_capacity_words[mdtype];
}
static size_t allocated_capacity_words() {
return allocated_capacity_words(Metaspace::NonClassType) +
allocated_capacity_words(Metaspace::ClassType);
}
static size_t allocated_capacity_bytes(Metaspace::MetadataType mdtype) {
return allocated_capacity_words(mdtype) * BytesPerWord;
}
static size_t allocated_capacity_bytes() {
return allocated_capacity_words() * BytesPerWord;
}
static size_t allocated_used_words(Metaspace::MetadataType mdtype) {
return _allocated_used_words[mdtype];
}
static size_t allocated_used_words() {
return allocated_used_words(Metaspace::NonClassType) +
allocated_used_words(Metaspace::ClassType);
}
static size_t allocated_used_bytes(Metaspace::MetadataType mdtype) {
return allocated_used_words(mdtype) * BytesPerWord;
}
static size_t allocated_used_bytes() {
return allocated_used_words() * BytesPerWord;
}
static size_t free_bytes();
static size_t free_bytes(Metaspace::MetadataType mdtype);
static size_t reserved_bytes(Metaspace::MetadataType mdtype);
static size_t reserved_bytes() {
return reserved_bytes(Metaspace::ClassType) +
reserved_bytes(Metaspace::NonClassType);
}
static size_t committed_bytes(Metaspace::MetadataType mdtype);
static size_t committed_bytes() {
return committed_bytes(Metaspace::ClassType) +
committed_bytes(Metaspace::NonClassType);
}
static size_t min_chunk_size_words();
static size_t min_chunk_size_bytes() {
return min_chunk_size_words() * BytesPerWord;
}
// Print change in used metadata.
static void print_metaspace_change(size_t prev_metadata_used);
static void print_on(outputStream * out);
static void print_on(outputStream * out, Metaspace::MetadataType mdtype);
static void print_class_waste(outputStream* out);
static void print_waste(outputStream* out);
static void dump(outputStream* out);
static void verify_free_chunks();
// Checks that the values returned by allocated_capacity_bytes() and
// capacity_bytes_slow() are the same.
static void verify_capacity();
static void verify_used();
static void verify_metrics();
};
// Metaspace are deallocated when their class loader are GC'ed.
// This class implements a policy for inducing GC's to recover
// Metaspaces.
class MetaspaceGC : AllStatic {
// The current high-water-mark for inducing a GC.
// When committed memory of all metaspaces reaches this value,
// a GC is induced and the value is increased. Size is in bytes.
static volatile intptr_t _capacity_until_GC;
// For a CMS collection, signal that a concurrent collection should
// be started.
static bool _should_concurrent_collect;
static uint _shrink_factor;
static size_t shrink_factor() { return _shrink_factor; }
void set_shrink_factor(uint v) { _shrink_factor = v; }
public:
static void initialize() { _capacity_until_GC = MetaspaceSize; }
static size_t capacity_until_GC();
static size_t inc_capacity_until_GC(size_t v);
static size_t dec_capacity_until_GC(size_t v);
static bool should_concurrent_collect() { return _should_concurrent_collect; }
static void set_should_concurrent_collect(bool v) {
_should_concurrent_collect = v;
}
// The amount to increase the high-water-mark (_capacity_until_GC)
static size_t delta_capacity_until_GC(size_t bytes);
// Tells if we have can expand metaspace without hitting set limits.
static bool can_expand(size_t words, bool is_class);
// Returns amount that we can expand without hitting a GC,
// measured in words.
static size_t allowed_expansion();
// Calculate the new high-water mark at which to induce
// a GC.
static void compute_new_size();
};
#endif // SHARE_VM_MEMORY_METASPACE_HPP