8074457: Remove the non-Zero CPP Interpreter
Summary: Remove cppInterpreter assembly files and reorganize InterpreterGenerator includes
Reviewed-by: goetz, bdelsart
/*
* Copyright (c) 2014, 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
* 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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*
*/
#ifndef SHARE_VM_SERVICES_MALLOC_TRACKER_HPP
#define SHARE_VM_SERVICES_MALLOC_TRACKER_HPP
#if INCLUDE_NMT
#include "memory/allocation.hpp"
#include "runtime/atomic.hpp"
#include "runtime/threadCritical.hpp"
#include "services/nmtCommon.hpp"
#include "utilities/nativeCallStack.hpp"
/*
* This counter class counts memory allocation and deallocation,
* records total memory allocation size and number of allocations.
* The counters are updated atomically.
*/
class MemoryCounter VALUE_OBJ_CLASS_SPEC {
private:
size_t _count;
size_t _size;
DEBUG_ONLY(size_t _peak_count;)
DEBUG_ONLY(size_t _peak_size; )
public:
MemoryCounter() : _count(0), _size(0) {
DEBUG_ONLY(_peak_count = 0;)
DEBUG_ONLY(_peak_size = 0;)
}
inline void allocate(size_t sz) {
Atomic::add(1, (volatile MemoryCounterType*)&_count);
if (sz > 0) {
Atomic::add((MemoryCounterType)sz, (volatile MemoryCounterType*)&_size);
DEBUG_ONLY(_peak_size = MAX2(_peak_size, _size));
}
DEBUG_ONLY(_peak_count = MAX2(_peak_count, _count);)
}
inline void deallocate(size_t sz) {
assert(_count > 0, "Negative counter");
assert(_size >= sz, "Negative size");
Atomic::add(-1, (volatile MemoryCounterType*)&_count);
if (sz > 0) {
Atomic::add(-(MemoryCounterType)sz, (volatile MemoryCounterType*)&_size);
}
}
inline void resize(long sz) {
if (sz != 0) {
Atomic::add((MemoryCounterType)sz, (volatile MemoryCounterType*)&_size);
DEBUG_ONLY(_peak_size = MAX2(_size, _peak_size);)
}
}
inline size_t count() const { return _count; }
inline size_t size() const { return _size; }
DEBUG_ONLY(inline size_t peak_count() const { return _peak_count; })
DEBUG_ONLY(inline size_t peak_size() const { return _peak_size; })
};
/*
* Malloc memory used by a particular subsystem.
* It includes the memory acquired through os::malloc()
* call and arena's backing memory.
*/
class MallocMemory VALUE_OBJ_CLASS_SPEC {
private:
MemoryCounter _malloc;
MemoryCounter _arena;
public:
MallocMemory() { }
inline void record_malloc(size_t sz) {
_malloc.allocate(sz);
}
inline void record_free(size_t sz) {
_malloc.deallocate(sz);
}
inline void record_new_arena() {
_arena.allocate(0);
}
inline void record_arena_free() {
_arena.deallocate(0);
}
inline void record_arena_size_change(long sz) {
_arena.resize(sz);
}
inline size_t malloc_size() const { return _malloc.size(); }
inline size_t malloc_count() const { return _malloc.count();}
inline size_t arena_size() const { return _arena.size(); }
inline size_t arena_count() const { return _arena.count(); }
DEBUG_ONLY(inline const MemoryCounter& malloc_counter() const { return _malloc; })
DEBUG_ONLY(inline const MemoryCounter& arena_counter() const { return _arena; })
};
class MallocMemorySummary;
// A snapshot of malloc'd memory, includes malloc memory
// usage by types and memory used by tracking itself.
class MallocMemorySnapshot : public ResourceObj {
friend class MallocMemorySummary;
private:
MallocMemory _malloc[mt_number_of_types];
MemoryCounter _tracking_header;
public:
inline MallocMemory* by_type(MEMFLAGS flags) {
int index = NMTUtil::flag_to_index(flags);
return &_malloc[index];
}
inline MallocMemory* by_index(int index) {
assert(index >= 0, "Index out of bound");
assert(index < mt_number_of_types, "Index out of bound");
return &_malloc[index];
}
inline MemoryCounter* malloc_overhead() {
return &_tracking_header;
}
// Total malloc'd memory amount
size_t total() const;
// Total malloc'd memory used by arenas
size_t total_arena() const;
inline size_t thread_count() const {
MallocMemorySnapshot* s = const_cast<MallocMemorySnapshot*>(this);
return s->by_type(mtThreadStack)->malloc_count();
}
void copy_to(MallocMemorySnapshot* s) {
// Need to make sure that mtChunks don't get deallocated while the
// copy is going on, because their size is adjusted using this
// buffer in make_adjustment().
ThreadCritical tc;
s->_tracking_header = _tracking_header;
for (int index = 0; index < mt_number_of_types; index ++) {
s->_malloc[index] = _malloc[index];
}
}
// Make adjustment by subtracting chunks used by arenas
// from total chunks to get total free chunk size
void make_adjustment();
};
/*
* This class is for collecting malloc statistics at summary level
*/
class MallocMemorySummary : AllStatic {
private:
// Reserve memory for placement of MallocMemorySnapshot object
static size_t _snapshot[CALC_OBJ_SIZE_IN_TYPE(MallocMemorySnapshot, size_t)];
public:
static void initialize();
static inline void record_malloc(size_t size, MEMFLAGS flag) {
as_snapshot()->by_type(flag)->record_malloc(size);
}
static inline void record_free(size_t size, MEMFLAGS flag) {
as_snapshot()->by_type(flag)->record_free(size);
}
static inline void record_new_arena(MEMFLAGS flag) {
as_snapshot()->by_type(flag)->record_new_arena();
}
static inline void record_arena_free(MEMFLAGS flag) {
as_snapshot()->by_type(flag)->record_arena_free();
}
static inline void record_arena_size_change(long size, MEMFLAGS flag) {
as_snapshot()->by_type(flag)->record_arena_size_change(size);
}
static void snapshot(MallocMemorySnapshot* s) {
as_snapshot()->copy_to(s);
s->make_adjustment();
}
// Record memory used by malloc tracking header
static inline void record_new_malloc_header(size_t sz) {
as_snapshot()->malloc_overhead()->allocate(sz);
}
static inline void record_free_malloc_header(size_t sz) {
as_snapshot()->malloc_overhead()->deallocate(sz);
}
// The memory used by malloc tracking headers
static inline size_t tracking_overhead() {
return as_snapshot()->malloc_overhead()->size();
}
static MallocMemorySnapshot* as_snapshot() {
return (MallocMemorySnapshot*)_snapshot;
}
};
/*
* Malloc tracking header.
* To satisfy malloc alignment requirement, NMT uses 2 machine words for tracking purpose,
* which ensures 8-bytes alignment on 32-bit systems and 16-bytes on 64-bit systems (Product build).
*/
class MallocHeader VALUE_OBJ_CLASS_SPEC {
#ifdef _LP64
size_t _size : 64;
size_t _flags : 8;
size_t _pos_idx : 16;
size_t _bucket_idx: 40;
#define MAX_MALLOCSITE_TABLE_SIZE right_n_bits(40)
#define MAX_BUCKET_LENGTH right_n_bits(16)
#else
size_t _size : 32;
size_t _flags : 8;
size_t _pos_idx : 8;
size_t _bucket_idx: 16;
#define MAX_MALLOCSITE_TABLE_SIZE right_n_bits(16)
#define MAX_BUCKET_LENGTH right_n_bits(8)
#endif // _LP64
public:
MallocHeader(size_t size, MEMFLAGS flags, const NativeCallStack& stack, NMT_TrackingLevel level) {
assert(sizeof(MallocHeader) == sizeof(void*) * 2,
"Wrong header size");
if (level == NMT_minimal) {
return;
}
_flags = flags;
set_size(size);
if (level == NMT_detail) {
size_t bucket_idx;
size_t pos_idx;
if (record_malloc_site(stack, size, &bucket_idx, &pos_idx)) {
assert(bucket_idx <= MAX_MALLOCSITE_TABLE_SIZE, "Overflow bucket index");
assert(pos_idx <= MAX_BUCKET_LENGTH, "Overflow bucket position index");
_bucket_idx = bucket_idx;
_pos_idx = pos_idx;
}
}
MallocMemorySummary::record_malloc(size, flags);
MallocMemorySummary::record_new_malloc_header(sizeof(MallocHeader));
}
inline size_t size() const { return _size; }
inline MEMFLAGS flags() const { return (MEMFLAGS)_flags; }
bool get_stack(NativeCallStack& stack) const;
// Cleanup tracking information before the memory is released.
void release() const;
private:
inline void set_size(size_t size) {
_size = size;
}
bool record_malloc_site(const NativeCallStack& stack, size_t size,
size_t* bucket_idx, size_t* pos_idx) const;
};
// Main class called from MemTracker to track malloc activities
class MallocTracker : AllStatic {
public:
// Initialize malloc tracker for specific tracking level
static bool initialize(NMT_TrackingLevel level);
static bool transition(NMT_TrackingLevel from, NMT_TrackingLevel to);
// malloc tracking header size for specific tracking level
static inline size_t malloc_header_size(NMT_TrackingLevel level) {
return (level == NMT_off) ? 0 : sizeof(MallocHeader);
}
// Parameter name convention:
// memblock : the beginning address for user data
// malloc_base: the beginning address that includes malloc tracking header
//
// The relationship:
// memblock = (char*)malloc_base + sizeof(nmt header)
//
// Record malloc on specified memory block
static void* record_malloc(void* malloc_base, size_t size, MEMFLAGS flags,
const NativeCallStack& stack, NMT_TrackingLevel level);
// Record free on specified memory block
static void* record_free(void* memblock);
// Offset memory address to header address
static inline void* get_base(void* memblock);
static inline void* get_base(void* memblock, NMT_TrackingLevel level) {
if (memblock == NULL || level == NMT_off) return memblock;
return (char*)memblock - malloc_header_size(level);
}
// Get memory size
static inline size_t get_size(void* memblock) {
MallocHeader* header = malloc_header(memblock);
return header->size();
}
// Get memory type
static inline MEMFLAGS get_flags(void* memblock) {
MallocHeader* header = malloc_header(memblock);
return header->flags();
}
// Get header size
static inline size_t get_header_size(void* memblock) {
return (memblock == NULL) ? 0 : sizeof(MallocHeader);
}
static inline void record_new_arena(MEMFLAGS flags) {
MallocMemorySummary::record_new_arena(flags);
}
static inline void record_arena_free(MEMFLAGS flags) {
MallocMemorySummary::record_arena_free(flags);
}
static inline void record_arena_size_change(int size, MEMFLAGS flags) {
MallocMemorySummary::record_arena_size_change(size, flags);
}
private:
static inline MallocHeader* malloc_header(void *memblock) {
assert(memblock != NULL, "NULL pointer");
MallocHeader* header = (MallocHeader*)((char*)memblock - sizeof(MallocHeader));
return header;
}
};
#endif // INCLUDE_NMT
#endif //SHARE_VM_SERVICES_MALLOC_TRACKER_HPP