/* * Copyright (c) 2016, 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 * 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_JFR_RECORDER_STORAGE_JFRMEMORYSPACE_HPP #define SHARE_VM_JFR_RECORDER_STORAGE_JFRMEMORYSPACE_HPP #include "jfr/utilities/jfrAllocation.hpp" #include "jfr/utilities/jfrDoublyLinkedList.hpp" #include "jfr/utilities/jfrIterator.hpp" #include "jfr/utilities/jfrTypes.hpp" #include "runtime/os.hpp" #include "utilities/globalDefinitions.hpp" #include "utilities/macros.hpp" template class RetrievalType, typename Callback> class JfrMemorySpace : public JfrCHeapObj { public: typedef T Type; typedef RetrievalType > Retrieval; typedef JfrDoublyLinkedList List; typedef StopOnNullIterator Iterator; private: List _free; List _full; size_t _min_elem_size; size_t _limit_size; size_t _cache_count; Callback* _callback; bool should_populate_cache() const { return _free.count() < _cache_count; } public: JfrMemorySpace(size_t min_elem_size, size_t limit_size, size_t cache_count, Callback* callback); ~JfrMemorySpace(); bool initialize(); size_t min_elem_size() const { return _min_elem_size; } size_t limit_size() const { return _limit_size; } bool has_full() const { return _full.head() != NULL; } bool has_free() const { return _free.head() != NULL; } bool is_full_empty() const { return !has_full(); } bool is_free_empty() const { return !has_free(); } size_t full_count() const { return _full.count(); } size_t free_count() const { return _free.count(); } List& full() { return _full; } const List& full() const { return _full; } List& free() { return _free; } const List& free() const { return _free; } Type* full_head() { return _full.head(); } Type* full_tail() { return _full.tail(); } Type* free_head() { return _free.head(); } Type* free_tail() { return _free.tail(); } void insert_free_head(Type* t) { _free.prepend(t); } void insert_free_tail(Type* t) { _free.append(t); } void insert_free_tail(Type* t, Type* tail, size_t count) { _free.append_list(t, tail, count); } void insert_full_head(Type* t) { _full.prepend(t); } void insert_full_tail(Type* t) { _full.append(t); } void insert_full_tail(Type* t, Type* tail, size_t count) { _full.append_list(t, tail, count); } Type* remove_free(Type* t) { return _free.remove(t); } Type* remove_full(Type* t) { return _full.remove(t); } Type* remove_free_tail() { _free.remove(_free.tail()); } Type* remove_full_tail() { return _full.remove(_full.tail()); } Type* clear_full(bool return_tail = false) { return _full.clear(return_tail); } Type* clear_free(bool return_tail = false) { return _free.clear(return_tail); } void release_full(Type* t); void release_free(Type* t); void register_full(Type* t, Thread* thread) { _callback->register_full(t, thread); } void lock() { _callback->lock(); } void unlock() { _callback->unlock(); } DEBUG_ONLY(bool is_locked() const { return _callback->is_locked(); }) Type* allocate(size_t size); void deallocate(Type* t); Type* get(size_t size, Thread* thread) { return Retrieval::get(size, this, thread); } template void iterate(IteratorCallback& callback, bool full = true, jfr_iter_direction direction = forward); debug_only(bool in_full_list(const Type* t) const { return _full.in_list(t); }) debug_only(bool in_free_list(const Type* t) const { return _free.in_list(t); }) }; // allocations are even multiples of the mspace min size inline u8 align_allocation_size(u8 requested_size, size_t min_elem_size) { assert((int)min_elem_size % os::vm_page_size() == 0, "invariant"); u8 alloc_size_bytes = min_elem_size; while (requested_size > alloc_size_bytes) { alloc_size_bytes <<= 1; } assert((int)alloc_size_bytes % os::vm_page_size() == 0, "invariant"); return alloc_size_bytes; } template class RetrievalType, typename Callback> T* JfrMemorySpace::allocate(size_t size) { const u8 aligned_size_bytes = align_allocation_size(size, _min_elem_size); void* const allocation = JfrCHeapObj::new_array(aligned_size_bytes + sizeof(T)); if (allocation == NULL) { return NULL; } T* const t = new (allocation) T; assert(t != NULL, "invariant"); if (!t->initialize(sizeof(T), aligned_size_bytes)) { JfrCHeapObj::free(t, aligned_size_bytes + sizeof(T)); return NULL; } return t; } template class RetrievalType, typename Callback> void JfrMemorySpace::deallocate(T* t) { assert(t != NULL, "invariant"); assert(!_free.in_list(t), "invariant"); assert(!_full.in_list(t), "invariant"); assert(t != NULL, "invariant"); JfrCHeapObj::free(t, t->total_size()); } template class MspaceLock { private: Mspace* _mspace; public: MspaceLock(Mspace* mspace) : _mspace(mspace) { _mspace->lock(); } ~MspaceLock() { _mspace->unlock(); } }; template class ReleaseOp : public StackObj { private: Mspace* _mspace; Thread* _thread; bool _release_full; public: typedef typename Mspace::Type Type; ReleaseOp(Mspace* mspace, Thread* thread, bool release_full = true) : _mspace(mspace), _thread(thread), _release_full(release_full) {} bool process(Type* t); size_t processed() const { return 0; } }; #endif // SHARE_VM_JFR_RECORDER_STORAGE_JFRMEMORYSPACE_HPP