1 /*
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  3  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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  6  * under the terms of the GNU General Public License version 2 only, as
  7  * published by the Free Software Foundation.
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  9  * This code is distributed in the hope that it will be useful, but WITHOUT
 10  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 11  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 12  * version 2 for more details (a copy is included in the LICENSE file that
 13  * accompanied this code).
 14  *
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 24 
 25 #ifndef SHARE_CDS_ARCHIVEHEAPWRITER_HPP
 26 #define SHARE_CDS_ARCHIVEHEAPWRITER_HPP
 27 
 28 #include "cds/heapShared.hpp"
 29 #include "memory/allocation.hpp"
 30 #include "memory/allStatic.hpp"
 31 #include "oops/oopHandle.hpp"
 32 #include "utilities/bitMap.hpp"
 33 #include "utilities/exceptions.hpp"
 34 #include "utilities/growableArray.hpp"
 35 #include "utilities/macros.hpp"
 36 #include "utilities/resourceHash.hpp"
 37 
 38 class MemRegion;
 39 
 40 class ArchiveHeapInfo {
 41   MemRegion _buffer_region;             // Contains the archived objects to be written into the CDS archive.
 42   CHeapBitMap _oopmap;
 43   CHeapBitMap _ptrmap;
 44   size_t _heap_roots_offset;            // Offset of the HeapShared::roots() object, from the bottom
 45                                         // of the archived heap objects, in bytes.
 46 
 47 public:
 48   ArchiveHeapInfo() : _buffer_region(), _oopmap(128, mtClassShared), _ptrmap(128, mtClassShared) {}
 49   bool is_used() { return !_buffer_region.is_empty(); }
 50 
 51   MemRegion buffer_region() { return _buffer_region; }
 52   void set_buffer_region(MemRegion r) { _buffer_region = r; }
 53 
 54   char* buffer_start() { return (char*)_buffer_region.start(); }
 55   size_t buffer_byte_size() { return _buffer_region.byte_size();    }
 56 
 57   CHeapBitMap* oopmap() { return &_oopmap; }
 58   CHeapBitMap* ptrmap() { return &_ptrmap; }
 59 
 60   void set_heap_roots_offset(size_t n) { _heap_roots_offset = n; }
 61   size_t heap_roots_offset() const { return _heap_roots_offset; }
 62 };
 63 
 64 #if INCLUDE_CDS_JAVA_HEAP
 65 class ArchiveHeapWriter : AllStatic {
 66   // ArchiveHeapWriter manipulates three types of addresses:
 67   //
 68   //     "source" vs "buffered" vs "requested"
 69   //
 70   // (Note: the design and convention is the same as for the archiving of Metaspace objects.
 71   //  See archiveBuilder.hpp.)
 72   //
 73   // - "source objects" are regular Java objects allocated during the execution
 74   //   of "java -Xshare:dump". They can be used as regular oops.
 75   //
 76   //   HeapShared::archive_objects() recursively searches for the oops that need to be
 77   //   stored into the CDS archive. These are entered into HeapShared::archived_object_cache().
 78   //
 79   // - "buffered objects" are copies of the "source objects", and are stored in into
 80   //   ArchiveHeapWriter::_buffer, which is a GrowableArray that sits outside of
 81   //   the valid heap range. Therefore we avoid using the addresses of these copies
 82   //   as oops. They are usually called "buffered_addr" in the code (of the type "address").
 83   //
 84   //   The buffered objects are stored contiguously, possibly with interleaving fillers
 85   //   to make sure no objects span across boundaries of MIN_GC_REGION_ALIGNMENT.
 86   //
 87   // - Each archived object has a "requested address" -- at run time, if the object
 88   //   can be mapped at this address, we can avoid relocation.
 89   //
 90   // The requested address is implemented differently depending on UseCompressedOops:
 91   //
 92   // UseCompressedOops == true:
 93   //   The archived objects are stored assuming that the runtime COOPS compression
 94   //   scheme is exactly the same as in dump time (or else a more expensive runtime relocation
 95   //   would be needed.)
 96   //
 97   //   At dump time, we assume that the runtime heap range is exactly the same as
 98   //   in dump time. The requested addresses of the archived objects are chosen such that
 99   //   they would occupy the top end of a G1 heap (TBD when dumping is supported by other
100   //   collectors. See JDK-8298614).
101   //
102   // UseCompressedOops == false:
103   //   At runtime, the heap range is usually picked (randomly) by the OS, so we will almost always
104   //   need to perform relocation. Hence, the goal of the "requested address" is to ensure that
105   //   the contents of the archived objects are deterministic. I.e., the oop fields of archived
106   //   objects will always point to deterministic addresses.
107   //
108   //   For G1, the archived heap is written such that the lowest archived object is placed
109   //   at NOCOOPS_REQUESTED_BASE. (TBD after JDK-8298614).
110   // ----------------------------------------------------------------------
111 
112 public:
113   static const intptr_t NOCOOPS_REQUESTED_BASE = 0x10000000;
114 
115 private:
116   class EmbeddedOopRelocator;
117   struct NativePointerInfo {
118     oop _src_obj;
119     int _field_offset;
120   };
121 
122   // The minimum region size of all collectors that are supported by CDS in
123   // ArchiveHeapLoader::can_map() mode. Currently only G1 is supported. G1's region size
124   // depends on -Xmx, but can never be smaller than 1 * M.
125   // (TODO: Perhaps change to 256K to be compatible with Shenandoah)
126   static constexpr int MIN_GC_REGION_ALIGNMENT = 1 * M;
127 
128   static GrowableArrayCHeap<u1, mtClassShared>* _buffer;
129 
130   // The number of bytes that have written into _buffer (may be smaller than _buffer->length()).
131   static size_t _buffer_used;
132 
133   // The bottom of the copy of Heap::roots() inside this->_buffer.
134   static size_t _heap_roots_offset;
135   static size_t _heap_roots_word_size;
136 
137   // The address range of the requested location of the archived heap objects.
138   static address _requested_bottom;
139   static address _requested_top;
140 
141   static GrowableArrayCHeap<NativePointerInfo, mtClassShared>* _native_pointers;
142   static GrowableArrayCHeap<oop, mtClassShared>* _source_objs;
143 
144   typedef ResourceHashtable<size_t, oop,
145       36137, // prime number
146       AnyObj::C_HEAP,
147       mtClassShared> BufferOffsetToSourceObjectTable;
148   static BufferOffsetToSourceObjectTable* _buffer_offset_to_source_obj_table;
149 
150   static void allocate_buffer();
151   static void ensure_buffer_space(size_t min_bytes);
152 
153   // Both Java bytearray and GrowableArraty use int indices and lengths. Do a safe typecast with range check
154   static int to_array_index(size_t i) {
155     assert(i <= (size_t)max_jint, "must be");
156     return (int)i;
157   }
158   static int to_array_length(size_t n) {
159     return to_array_index(n);
160   }
161 
162   template <typename T> static T offset_to_buffered_address(size_t offset) {
163     return (T)(_buffer->adr_at(to_array_index(offset)));
164   }
165 
166   static address buffer_bottom() {
167     return offset_to_buffered_address<address>(0);
168   }
169 
170   // The exclusive end of the last object that was copied into the buffer.
171   static address buffer_top() {
172     return buffer_bottom() + _buffer_used;
173   }
174 
175   static bool in_buffer(address buffered_addr) {
176     return (buffer_bottom() <= buffered_addr) && (buffered_addr < buffer_top());
177   }
178 
179   static size_t buffered_address_to_offset(address buffered_addr) {
180     assert(in_buffer(buffered_addr), "sanity");
181     return buffered_addr - buffer_bottom();
182   }
183 
184   static void copy_roots_to_buffer(GrowableArrayCHeap<oop, mtClassShared>* roots);
185   static void copy_source_objs_to_buffer(GrowableArrayCHeap<oop, mtClassShared>* roots);
186   static size_t copy_one_source_obj_to_buffer(oop src_obj);
187 
188   static void maybe_fill_gc_region_gap(size_t required_byte_size);
189   static size_t filler_array_byte_size(int length);
190   static int filler_array_length(size_t fill_bytes);
191   static HeapWord* init_filler_array_at_buffer_top(int array_length, size_t fill_bytes);
192 
193   static void set_requested_address(ArchiveHeapInfo* info);
194   static void relocate_embedded_oops(GrowableArrayCHeap<oop, mtClassShared>* roots, ArchiveHeapInfo* info);
195   static void compute_ptrmap(ArchiveHeapInfo *info);
196   static bool is_in_requested_range(oop o);
197   static oop requested_obj_from_buffer_offset(size_t offset);
198 
199   static oop load_oop_from_buffer(oop* buffered_addr);
200   static oop load_oop_from_buffer(narrowOop* buffered_addr);
201   inline static void store_oop_in_buffer(oop* buffered_addr, oop requested_obj);
202   inline static void store_oop_in_buffer(narrowOop* buffered_addr, oop requested_obj);
203 
204   template <typename T> static oop load_source_oop_from_buffer(T* buffered_addr);
205   template <typename T> static void store_requested_oop_in_buffer(T* buffered_addr, oop request_oop);
206 
207   template <typename T> static T* requested_addr_to_buffered_addr(T* p);
208   template <typename T> static void relocate_field_in_buffer(T* field_addr_in_buffer, CHeapBitMap* oopmap);
209   template <typename T> static void mark_oop_pointer(T* buffered_addr, CHeapBitMap* oopmap);
210   template <typename T> static void relocate_root_at(oop requested_roots, int index, CHeapBitMap* oopmap);
211 
212   static void update_header_for_requested_obj(oop requested_obj, oop src_obj, Klass* src_klass);
213 public:
214   static void init() NOT_CDS_JAVA_HEAP_RETURN;
215   static void add_source_obj(oop src_obj);
216   static bool is_too_large_to_archive(size_t size);
217   static bool is_too_large_to_archive(oop obj);
218   static bool is_string_too_large_to_archive(oop string);
219   static void write(GrowableArrayCHeap<oop, mtClassShared>*, ArchiveHeapInfo* heap_info);
220   static address requested_address();  // requested address of the lowest achived heap object
221   static oop heap_roots_requested_address(); // requested address of HeapShared::roots()
222   static address buffered_heap_roots_addr() {
223     return offset_to_buffered_address<address>(_heap_roots_offset);
224   }
225   static size_t heap_roots_word_size() {
226     return _heap_roots_word_size;
227   }
228   static size_t get_filler_size_at(address buffered_addr);
229 
230   static void mark_native_pointer(oop src_obj, int offset);
231   static bool is_marked_as_native_pointer(ArchiveHeapInfo* heap_info, oop src_obj, int field_offset);
232   static oop source_obj_to_requested_obj(oop src_obj);
233   static oop buffered_addr_to_source_obj(address buffered_addr);
234   static address buffered_addr_to_requested_addr(address buffered_addr);
235 
236   // Archived heap object headers carry pre-computed narrow Klass ids calculated with the
237   // following scheme:
238   // 1) the encoding base must be the mapping start address.
239   // 2) shift must be large enough to result in an encoding range that covers the runtime Klass range.
240   //    That Klass range is defined by CDS archive size and runtime class space size. Luckily, the maximum
241   //    size can be predicted: archive size is assumed to be <1G, class space size capped at 3G, and at
242   //    runtime we put both regions adjacent to each other. Therefore, runtime Klass range size < 4G.
243   //    Since nKlass itself is 32 bit, our encoding range len is 4G, and since we set the base directly
244   //    at mapping start, these 4G are enough. Therefore, we don't need to shift at all (shift=0).
245   static constexpr int precomputed_narrow_klass_shift = 0;
246 
247 };
248 #endif // INCLUDE_CDS_JAVA_HEAP
249 #endif // SHARE_CDS_ARCHIVEHEAPWRITER_HPP
--- EOF ---