/* * Copyright (c) 2001, 2019, 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. * */ #include "precompiled.hpp" #include "gc/g1/g1BiasedArray.hpp" #include "gc/g1/g1NUMA.hpp" #include "gc/g1/g1RegionToSpaceMapper.hpp" #include "logging/log.hpp" #include "memory/allocation.inline.hpp" #include "memory/virtualspace.hpp" #include "runtime/java.hpp" #include "runtime/os.inline.hpp" #include "services/memTracker.hpp" #include "utilities/align.hpp" #include "utilities/bitMap.inline.hpp" #include "utilities/formatBuffer.hpp" G1RegionToSpaceMapper::G1RegionToSpaceMapper(ReservedSpace rs, size_t used_size, size_t page_size, size_t region_granularity, size_t commit_factor, MemoryType type) : _listener(NULL), _storage(rs, used_size, page_size), _region_granularity(region_granularity), _commit_map(rs.size() * commit_factor / region_granularity, mtGC), _memory_type(type) { guarantee(is_power_of_2(page_size), "must be"); guarantee(is_power_of_2(region_granularity), "must be"); MemTracker::record_virtual_memory_type((address)rs.base(), type); } // G1RegionToSpaceMapper implementation where the region granularity is larger than // or the same as the commit granularity. // Basically, the space corresponding to one region region spans several OS pages. class G1RegionsLargerThanCommitSizeMapper : public G1RegionToSpaceMapper { private: size_t _pages_per_region; public: G1RegionsLargerThanCommitSizeMapper(ReservedSpace rs, size_t actual_size, size_t page_size, size_t alloc_granularity, size_t commit_factor, MemoryType type) : G1RegionToSpaceMapper(rs, actual_size, page_size, alloc_granularity, commit_factor, type), _pages_per_region(alloc_granularity / (page_size * commit_factor)) { guarantee(alloc_granularity >= page_size, "allocation granularity smaller than commit granularity"); } virtual void commit_regions(uint start_idx, size_t num_regions, WorkGang* pretouch_gang) { const size_t start_page = (size_t)start_idx * _pages_per_region; const size_t size_in_pages = num_regions * _pages_per_region; bool zero_filled = _storage.commit(start_page, size_in_pages); if (_memory_type == mtJavaHeap) { for (uint region_index = start_idx; region_index < start_idx + num_regions; region_index++ ) { void* address = _storage.page_start(region_index * _pages_per_region); size_t size_in_bytes = _storage.page_size() * _pages_per_region; G1NUMA::numa()->request_memory_on_node(address, size_in_bytes, region_index); } } if (AlwaysPreTouch) { _storage.pretouch(start_page, size_in_pages, pretouch_gang); } _commit_map.set_range(start_idx, start_idx + num_regions); fire_on_commit(start_idx, num_regions, zero_filled); } virtual void uncommit_regions(uint start_idx, size_t num_regions) { _storage.uncommit((size_t)start_idx * _pages_per_region, num_regions * _pages_per_region); _commit_map.clear_range(start_idx, start_idx + num_regions); } }; // G1RegionToSpaceMapper implementation where the region granularity is smaller // than the commit granularity. // Basically, the contents of one OS page span several regions. class G1RegionsSmallerThanCommitSizeMapper : public G1RegionToSpaceMapper { private: class CommitRefcountArray : public G1BiasedMappedArray { protected: virtual uint default_value() const { return 0; } }; size_t _regions_per_page; CommitRefcountArray _refcounts; uintptr_t region_idx_to_page_idx(uint region) const { return region / _regions_per_page; } public: G1RegionsSmallerThanCommitSizeMapper(ReservedSpace rs, size_t actual_size, size_t page_size, size_t alloc_granularity, size_t commit_factor, MemoryType type) : G1RegionToSpaceMapper(rs, actual_size, page_size, alloc_granularity, commit_factor, type), _regions_per_page((page_size * commit_factor) / alloc_granularity), _refcounts() { guarantee((page_size * commit_factor) >= alloc_granularity, "allocation granularity smaller than commit granularity"); _refcounts.initialize((HeapWord*)rs.base(), (HeapWord*)(rs.base() + align_up(rs.size(), page_size)), page_size); } virtual void commit_regions(uint start_idx, size_t num_regions, WorkGang* pretouch_gang) { size_t const NoPage = ~(size_t)0; size_t first_committed = NoPage; size_t num_committed = 0; bool all_zero_filled = true; G1NUMA* numa = G1NUMA::numa(); for (uint region_idx = start_idx; region_idx < start_idx + num_regions; region_idx++) { assert(!_commit_map.at(region_idx), "Trying to commit storage at region %u that is already committed", region_idx); size_t page_idx = region_idx_to_page_idx(region_idx); uint old_refcount = _refcounts.get_by_index(page_idx); bool zero_filled = false; if (old_refcount == 0) { if (first_committed == NoPage) { first_committed = page_idx; num_committed = 1; } else { num_committed++; } zero_filled = _storage.commit(page_idx, 1); if (_memory_type == mtJavaHeap) { void* address = _storage.page_start(page_idx); size_t size_in_bytes = _storage.page_size(); numa->request_memory_on_node(address, size_in_bytes, region_idx); } } all_zero_filled &= zero_filled; _refcounts.set_by_index(page_idx, old_refcount + 1); _commit_map.set_bit(region_idx); } if (AlwaysPreTouch && num_committed > 0) { _storage.pretouch(first_committed, num_committed, pretouch_gang); } fire_on_commit(start_idx, num_regions, all_zero_filled); } virtual void uncommit_regions(uint start_idx, size_t num_regions) { for (uint i = start_idx; i < start_idx + num_regions; i++) { assert(_commit_map.at(i), "Trying to uncommit storage at region %u that is not committed", i); size_t idx = region_idx_to_page_idx(i); uint old_refcount = _refcounts.get_by_index(idx); assert(old_refcount > 0, "must be"); if (old_refcount == 1) { _storage.uncommit(idx, 1); } _refcounts.set_by_index(idx, old_refcount - 1); _commit_map.clear_bit(i); } } }; void G1RegionToSpaceMapper::fire_on_commit(uint start_idx, size_t num_regions, bool zero_filled) { if (_listener != NULL) { _listener->on_commit(start_idx, num_regions, zero_filled); } } static bool map_nvdimm_space(ReservedSpace rs) { assert(AllocateOldGenAt != NULL, ""); int _backing_fd = os::create_file_for_heap(AllocateOldGenAt); if (_backing_fd == -1) { log_error(gc, init)("Could not create file for Old generation at location %s", AllocateOldGenAt); return false; } // commit this memory in nv-dimm char* ret = os::attempt_reserve_memory_at(rs.size(), rs.base(), _backing_fd); if (ret != rs.base()) { if (ret != NULL) { os::unmap_memory(rs.base(), rs.size()); } log_error(gc, init)("Error in mapping Old Gen to given AllocateOldGenAt = %s", AllocateOldGenAt); os::close(_backing_fd); return false; } os::close(_backing_fd); return true; } G1RegionToHeteroSpaceMapper::G1RegionToHeteroSpaceMapper(ReservedSpace rs, size_t actual_size, size_t page_size, size_t alloc_granularity, size_t commit_factor, MemoryType type) : G1RegionToSpaceMapper(rs, actual_size, page_size, alloc_granularity, commit_factor, type), _rs(rs), _dram_mapper(NULL), _num_committed_dram(0), _num_committed_nvdimm(0), _start_index_of_dram(0), _page_size(page_size), _commit_factor(commit_factor), _type(type) { assert(actual_size == 2 * MaxHeapSize, "For 2-way heterogenuous heap, reserved space is two times MaxHeapSize"); } bool G1RegionToHeteroSpaceMapper::initialize() { // Since we need to re-map the reserved space - 'Xmx' to nv-dimm and 'Xmx' to dram, we need to release the reserved memory first. // Because on some OSes (e.g. Windows) you cannot do a file mapping on memory reserved with regular mapping. os::release_memory(_rs.base(), _rs.size()); // First half of size Xmx is for nv-dimm. ReservedSpace rs_nvdimm = _rs.first_part(MaxHeapSize); assert(rs_nvdimm.base() == _rs.base(), "We should get the same base address"); // Second half of reserved memory is mapped to dram. ReservedSpace rs_dram = _rs.last_part(MaxHeapSize); assert(rs_dram.size() == rs_nvdimm.size() && rs_nvdimm.size() == MaxHeapSize, "They all should be same"); // Reserve dram memory char* base = os::attempt_reserve_memory_at(rs_dram.size(), rs_dram.base()); if (base != rs_dram.base()) { if (base != NULL) { os::release_memory(base, rs_dram.size()); } log_error(gc, init)("Error in re-mapping memory on dram during G1 heterogenous memory initialization"); return false; } // We reserve and commit this entire space to NV-DIMM. if (!map_nvdimm_space(rs_nvdimm)) { log_error(gc, init)("Error in re-mapping memory to nv-dimm during G1 heterogenous memory initialization"); return false; } if (_region_granularity >= (_page_size * _commit_factor)) { _dram_mapper = new G1RegionsLargerThanCommitSizeMapper(rs_dram, rs_dram.size(), _page_size, _region_granularity, _commit_factor, _type); } else { _dram_mapper = new G1RegionsSmallerThanCommitSizeMapper(rs_dram, rs_dram.size(), _page_size, _region_granularity, _commit_factor, _type); } _start_index_of_dram = (uint)(rs_nvdimm.size() / _region_granularity); return true; } void G1RegionToHeteroSpaceMapper::commit_regions(uint start_idx, size_t num_regions, WorkGang* pretouch_gang) { uint end_idx = (start_idx + (uint)num_regions - 1); uint num_dram = end_idx >= _start_index_of_dram ? MIN2((end_idx - _start_index_of_dram + 1), (uint)num_regions) : 0; uint num_nvdimm = (uint)num_regions - num_dram; if (num_nvdimm > 0) { // We do not need to commit nv-dimm regions, since they are committed in the beginning. _num_committed_nvdimm += num_nvdimm; } if (num_dram > 0) { _dram_mapper->commit_regions(start_idx > _start_index_of_dram ? (start_idx - _start_index_of_dram) : 0, num_dram, pretouch_gang); _num_committed_dram += num_dram; } } void G1RegionToHeteroSpaceMapper::uncommit_regions(uint start_idx, size_t num_regions) { uint end_idx = (start_idx + (uint)num_regions - 1); uint num_dram = end_idx >= _start_index_of_dram ? MIN2((end_idx - _start_index_of_dram + 1), (uint)num_regions) : 0; uint num_nvdimm = (uint)num_regions - num_dram; if (num_nvdimm > 0) { // We do not uncommit memory for nv-dimm regions. _num_committed_nvdimm -= num_nvdimm; } if (num_dram > 0) { _dram_mapper->uncommit_regions(start_idx > _start_index_of_dram ? (start_idx - _start_index_of_dram) : 0, num_dram); _num_committed_dram -= num_dram; } } uint G1RegionToHeteroSpaceMapper::num_committed_dram() const { return _num_committed_dram; } uint G1RegionToHeteroSpaceMapper::num_committed_nvdimm() const { return _num_committed_nvdimm; } G1RegionToSpaceMapper* G1RegionToSpaceMapper::create_heap_mapper(ReservedSpace rs, size_t actual_size, size_t page_size, size_t region_granularity, size_t commit_factor, MemoryType type) { if (AllocateOldGenAt != NULL) { G1RegionToHeteroSpaceMapper* mapper = new G1RegionToHeteroSpaceMapper(rs, actual_size, page_size, region_granularity, commit_factor, type); if (!mapper->initialize()) { delete mapper; return NULL; } return (G1RegionToSpaceMapper*)mapper; } else { return create_mapper(rs, actual_size, page_size, region_granularity, commit_factor, type); } } G1RegionToSpaceMapper* G1RegionToSpaceMapper::create_mapper(ReservedSpace rs, size_t actual_size, size_t page_size, size_t region_granularity, size_t commit_factor, MemoryType type) { if (region_granularity >= (page_size * commit_factor)) { return new G1RegionsLargerThanCommitSizeMapper(rs, actual_size, page_size, region_granularity, commit_factor, type); } else { return new G1RegionsSmallerThanCommitSizeMapper(rs, actual_size, page_size, region_granularity, commit_factor, type); } } void G1RegionToSpaceMapper::commit_and_set_special() { _storage.commit_and_set_special(); }