/* * Copyright (c) 2011, 2012, 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_GC_IMPLEMENTATION_G1_HEAPREGIONSET_HPP #define SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONSET_HPP #include "gc_implementation/g1/heapRegion.hpp" // Large buffer for some cases where the output might be larger than normal. #define HRS_ERR_MSG_BUFSZ 512 typedef FormatBuffer hrs_err_msg; // Set verification will be forced either if someone defines // HEAP_REGION_SET_FORCE_VERIFY to be 1, or in builds in which // asserts are compiled in. #ifndef HEAP_REGION_SET_FORCE_VERIFY #define HEAP_REGION_SET_FORCE_VERIFY defined(ASSERT) #endif // HEAP_REGION_SET_FORCE_VERIFY class hrs_ext_msg; class HRSMtSafeChecker : public CHeapObj { public: virtual bool check() = 0; }; class MasterFreeRegionListMtSafeChecker : public HRSMtSafeChecker { public: bool check(); }; class SecondaryFreeRegionListMtSafeChecker : public HRSMtSafeChecker { public: bool check(); }; class HumongousRegionSetMtSafeChecker : public HRSMtSafeChecker { public: bool check(); }; class OldRegionSetMtSafeChecker : public HRSMtSafeChecker { public: bool check(); }; class HeapRegionSetCount VALUE_OBJ_CLASS_SPEC { friend class VMStructs; uint _length; size_t _capacity; public: HeapRegionSetCount() : _length(0), _capacity(0) { } const uint length() const { return _length; } const size_t capacity() const { return _capacity; } void increment(uint length_to_add, size_t capacity_to_add) { _length += length_to_add; _capacity += capacity_to_add; } void decrement(const uint length_to_remove, const size_t capacity_to_remove) { _length -= length_to_remove; _capacity -= capacity_to_remove; } }; //////////////////// HeapRegionSetBase //////////////////// // Base class for all the classes that represent heap region sets. It // contains the basic attributes that each set needs to maintain // (e.g., length, region num, used bytes sum) plus any shared // functionality (e.g., verification). class HeapRegionSetBase VALUE_OBJ_CLASS_SPEC { friend class VMStructs; private: bool _is_humongous; bool _is_empty; HRSMtSafeChecker* _mt_safety_checker; protected: // The number of regions added to the set. If the set contains // only humongous regions, this reflects only 'starts humongous' // regions and does not include 'continues humongous' ones. HeapRegionSetCount _count; const char* _name; bool _verify_in_progress; // verify_region() is used to ensure that the contents of a region // added to / removed from a set are consistent. void verify_region(HeapRegion* hr) PRODUCT_RETURN; // Indicates whether all regions in the set should be humongous or // not. Only used during verification. bool regions_humongous() { return _is_humongous; } // Indicates whether all regions in the set should be empty or // not. Only used during verification. bool regions_empty() { return _is_empty; } bool check_mt_safety() { if (_mt_safety_checker != NULL) { _mt_safety_checker->check(); } return true; } virtual void fill_in_ext_msg_extra(hrs_ext_msg* msg) { } HeapRegionSetBase(const char* name, bool humongous, bool empty, HRSMtSafeChecker* mt_safety_checker); public: const char* name() { return _name; } uint length() { return _count.length(); } bool is_empty() { return _count.length() == 0; } size_t total_capacity_bytes() { return _count.capacity(); } // It updates the fields of the set to reflect hr being added to // the set and tags the region appropriately. inline void add(HeapRegion* hr); // It updates the fields of the set to reflect hr being removed // from the set and tags the region appropriately. inline void remove(HeapRegion* hr); // fill_in_ext_msg() writes the the values of the set's attributes // in the custom err_msg (hrs_ext_msg). fill_in_ext_msg_extra() // allows subclasses to append further information. void fill_in_ext_msg(hrs_ext_msg* msg, const char* message); virtual void verify(); void verify_start(); void verify_next_region(HeapRegion* hr); void verify_end(); #if HEAP_REGION_SET_FORCE_VERIFY void verify_optional() { verify(); } #else // HEAP_REGION_SET_FORCE_VERIFY void verify_optional() { } #endif // HEAP_REGION_SET_FORCE_VERIFY virtual void print_on(outputStream* out, bool print_contents = false); }; // Customized err_msg for heap region sets. Apart from a // assert/guarantee-specific message it also prints out the values of // the fields of the associated set. This can be very helpful in // diagnosing failures. class hrs_ext_msg : public hrs_err_msg { public: hrs_ext_msg(HeapRegionSetBase* set, const char* message) : hrs_err_msg("") { set->fill_in_ext_msg(this, message); } }; //////////////////// HeapRegionSet //////////////////// #define hrs_assert_sets_match(_set1_, _set2_) \ do { \ assert(((_set1_)->regions_humongous() == \ (_set2_)->regions_humongous()) && \ ((_set1_)->regions_empty() == (_set2_)->regions_empty()), \ hrs_err_msg("the contents of set %s and set %s should match", \ (_set1_)->name(), (_set2_)->name())); \ } while (0) // This class represents heap region sets whose members are not // explicitly tracked. It's helpful to group regions using such sets // so that we can reason about all the region groups in the heap using // the same interface (namely, the HeapRegionSetBase API). class HeapRegionSet : public HeapRegionSetBase { public: HeapRegionSet(const char* name, bool humongous, HRSMtSafeChecker* mt_safety_checker): HeapRegionSetBase(name, humongous, false /* empty */, mt_safety_checker) { } void bulk_remove(const HeapRegionSetCount& removed) { _count.decrement(removed.length(), removed.capacity()); } }; //////////////////// HeapRegionLinkedList //////////////////// // A set that links all the regions added to it in a singly-linked // list. We should try to avoid doing operations that iterate over // such lists in performance critical paths. Typically we should // add / remove one region at a time or concatenate two lists. All // those operations are done in constant time. class FreeRegionListIterator; class FreeRegionList : public HeapRegionSetBase { friend class FreeRegionListIterator; private: HeapRegion* _head; HeapRegion* _tail; protected: virtual void fill_in_ext_msg_extra(hrs_ext_msg* msg); // See the comment for HeapRegionSetBase::clear() virtual void clear(); public: FreeRegionList(const char* name, HRSMtSafeChecker* mt_safety_checker): HeapRegionSetBase(name, false /* humongous */, true /* empty */, mt_safety_checker) { clear(); } void verify_list(); HeapRegion* head() { return _head; } HeapRegion* tail() { return _tail; } static uint _unrealistically_long_length; static void set_unrealistically_long_length(uint len); // It adds hr to the list as the new head. The region should not be // a member of another set. inline void add_as_head(HeapRegion* hr); // It adds hr to the list as the new tail. The region should not be // a member of another set. inline void add_as_tail(HeapRegion* hr); // It removes and returns the head of the list. It assumes that the // list is not empty so it will return a non-NULL value. inline HeapRegion* remove_head(); // Convenience method. inline HeapRegion* remove_head_or_null(); // It moves the regions from from_list to this list and empties // from_list. The new regions will appear in the same order as they // were in from_list and be linked in the beginning of this list. void add_as_head(FreeRegionList* from_list); // It moves the regions from from_list to this list and empties // from_list. The new regions will appear in the same order as they // were in from_list and be linked in the end of this list. void add_as_tail(FreeRegionList* from_list); // It empties the list by removing all regions from it. void remove_all(); // It removes all regions in the list that are pending for removal // (i.e., they have been tagged with "pending_removal"). The list // must not be empty, target_count should reflect the exact number // of regions that are pending for removal in the list, and // target_count should be > 1 (currently, we never need to remove a // single region using this). void remove_all_pending(uint target_count); virtual void verify(); virtual void print_on(outputStream* out, bool print_contents = false); }; //////////////////// FreeRegionListIterator //////////////////// // Iterator class that provides a convenient way to iterate over the // regions of a HeapRegionLinkedList instance. class FreeRegionListIterator : public StackObj { private: FreeRegionList* _list; HeapRegion* _curr; public: bool more_available() { return _curr != NULL; } HeapRegion* get_next() { assert(more_available(), "get_next() should be called when more regions are available"); // If we are going to introduce a count in the iterator we should // do the "cycle" check. HeapRegion* hr = _curr; _list->verify_region(hr); _curr = hr->next(); return hr; } FreeRegionListIterator(FreeRegionList* list) : _curr(NULL), _list(list) { _curr = list->head(); } }; #endif // SHARE_VM_GC_IMPLEMENTATION_G1_HEAPREGIONSET_HPP