1 /*
2 * Copyright (c) 2003, 2017, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
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 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
24
25 #ifndef SHARE_VM_UTILITIES_HASHTABLE_HPP
26 #define SHARE_VM_UTILITIES_HASHTABLE_HPP
27
28 #include "classfile/classLoaderData.hpp"
29 #include "memory/allocation.hpp"
30 #include "oops/oop.hpp"
31 #include "oops/symbol.hpp"
32 #include "runtime/handles.hpp"
33
34 // This is a generic hashtable, designed to be used for the symbol
35 // and string tables.
36 //
37 // It is implemented as an open hash table with a fixed number of buckets.
38 //
39 // %note:
40 // - TableEntrys are allocated in blocks to reduce the space overhead.
41
42
43
44 template <MEMFLAGS F> class BasicHashtableEntry : public CHeapObj<F> {
45 friend class VMStructs;
46 private:
47 unsigned int _hash; // 32-bit hash for item
48
49 // Link to next element in the linked list for this bucket. EXCEPT
50 // bit 0 set indicates that this entry is shared and must not be
51 // unlinked from the table. Bit 0 is set during the dumping of the
52 // archive. Since shared entries are immutable, _next fields in the
53 // shared entries will not change. New entries will always be
54 // unshared and since pointers are align, bit 0 will always remain 0
55 // with no extra effort.
56 BasicHashtableEntry<F>* _next;
57
58 // Windows IA64 compiler requires subclasses to be able to access these
59 protected:
60 // Entry objects should not be created, they should be taken from the
61 // free list with BasicHashtable.new_entry().
BasicHashtableEntry()62 BasicHashtableEntry() { ShouldNotReachHere(); }
63 // Entry objects should not be destroyed. They should be placed on
64 // the free list instead with BasicHashtable.free_entry().
~BasicHashtableEntry()65 ~BasicHashtableEntry() { ShouldNotReachHere(); }
66
67 public:
68
hash() const69 unsigned int hash() const { return _hash; }
set_hash(unsigned int hash)70 void set_hash(unsigned int hash) { _hash = hash; }
hash_addr()71 unsigned int* hash_addr() { return &_hash; }
72
make_ptr(BasicHashtableEntry<F> * p)73 static BasicHashtableEntry<F>* make_ptr(BasicHashtableEntry<F>* p) {
74 return (BasicHashtableEntry*)((intptr_t)p & -2);
75 }
76
next() const77 BasicHashtableEntry<F>* next() const {
78 return make_ptr(_next);
79 }
80
set_next(BasicHashtableEntry<F> * next)81 void set_next(BasicHashtableEntry<F>* next) {
82 _next = next;
83 }
84
next_addr()85 BasicHashtableEntry<F>** next_addr() {
86 return &_next;
87 }
88
is_shared() const89 bool is_shared() const {
90 return ((intptr_t)_next & 1) != 0;
91 }
92
set_shared()93 void set_shared() {
94 _next = (BasicHashtableEntry<F>*)((intptr_t)_next | 1);
95 }
96 };
97
98
99
100 template <class T, MEMFLAGS F> class HashtableEntry : public BasicHashtableEntry<F> {
101 friend class VMStructs;
102 private:
103 T _literal; // ref to item in table.
104
105 public:
106 // Literal
literal() const107 T literal() const { return _literal; }
literal_addr()108 T* literal_addr() { return &_literal; }
set_literal(T s)109 void set_literal(T s) { _literal = s; }
110
next() const111 HashtableEntry* next() const {
112 return (HashtableEntry*)BasicHashtableEntry<F>::next();
113 }
next_addr()114 HashtableEntry** next_addr() {
115 return (HashtableEntry**)BasicHashtableEntry<F>::next_addr();
116 }
117 };
118
119
120
121 template <MEMFLAGS F> class HashtableBucket : public CHeapObj<F> {
122 friend class VMStructs;
123 private:
124 // Instance variable
125 BasicHashtableEntry<F>* _entry;
126
127 public:
128 // Accessing
clear()129 void clear() { _entry = NULL; }
130
131 // The following methods use order access methods to avoid race
132 // conditions in multiprocessor systems.
133 BasicHashtableEntry<F>* get_entry() const;
134 void set_entry(BasicHashtableEntry<F>* l);
135
136 // The following method is not MT-safe and must be done under lock.
entry_addr()137 BasicHashtableEntry<F>** entry_addr() { return &_entry; }
138
139 };
140
141
142 template <MEMFLAGS F> class BasicHashtable : public CHeapObj<F> {
143 friend class VMStructs;
144
145 public:
146 BasicHashtable(int table_size, int entry_size);
147 BasicHashtable(int table_size, int entry_size,
148 HashtableBucket<F>* buckets, int number_of_entries);
149
150 // Sharing support.
151 size_t count_bytes_for_buckets();
152 size_t count_bytes_for_table();
153 void copy_buckets(char* top, char* end);
154 void copy_table(char* top, char* end);
155
156 // Bucket handling
hash_to_index(unsigned int full_hash) const157 int hash_to_index(unsigned int full_hash) const {
158 int h = full_hash % _table_size;
159 assert(h >= 0 && h < _table_size, "Illegal hash value");
160 return h;
161 }
162
163 private:
164 // Instance variables
165 int _table_size;
166 HashtableBucket<F>* _buckets;
167 BasicHashtableEntry<F>* volatile _free_list;
168 char* _first_free_entry;
169 char* _end_block;
170 int _entry_size;
171 volatile int _number_of_entries;
172
173 protected:
174
175 void initialize(int table_size, int entry_size, int number_of_entries);
176
177 // Accessor
entry_size() const178 int entry_size() const { return _entry_size; }
179
180 // The following method is MT-safe and may be used with caution.
181 BasicHashtableEntry<F>* bucket(int i) const;
182
183 // The following method is not MT-safe and must be done under lock.
bucket_addr(int i)184 BasicHashtableEntry<F>** bucket_addr(int i) { return _buckets[i].entry_addr(); }
185
186 // Attempt to get an entry from the free list
187 BasicHashtableEntry<F>* new_entry_free_list();
188
189 // Table entry management
190 BasicHashtableEntry<F>* new_entry(unsigned int hashValue);
191
192 // Used when moving the entry to another table
193 // Clean up links, but do not add to free_list
unlink_entry(BasicHashtableEntry<F> * entry)194 void unlink_entry(BasicHashtableEntry<F>* entry) {
195 entry->set_next(NULL);
196 --_number_of_entries;
197 }
198
199 // Move over freelist and free block for allocation
copy_freelist(BasicHashtable * src)200 void copy_freelist(BasicHashtable* src) {
201 _free_list = src->_free_list;
202 src->_free_list = NULL;
203 _first_free_entry = src->_first_free_entry;
204 src->_first_free_entry = NULL;
205 _end_block = src->_end_block;
206 src->_end_block = NULL;
207 }
208
209 // Free the buckets in this hashtable
210 void free_buckets();
211
212 // Helper data structure containing context for the bucket entry unlink process,
213 // storing the unlinked buckets in a linked list.
214 // Also avoids the need to pass around these four members as parameters everywhere.
215 struct BucketUnlinkContext {
216 int _num_processed;
217 int _num_removed;
218 // Head and tail pointers for the linked list of removed entries.
219 BasicHashtableEntry<F>* _removed_head;
220 BasicHashtableEntry<F>* _removed_tail;
221
BucketUnlinkContextBasicHashtable::BucketUnlinkContext222 BucketUnlinkContext() : _num_processed(0), _num_removed(0), _removed_head(NULL), _removed_tail(NULL) {
223 }
224
225 void free_entry(BasicHashtableEntry<F>* entry);
226 };
227 // Add of bucket entries linked together in the given context to the global free list. This method
228 // is mt-safe wrt. to other calls of this method.
229 void bulk_free_entries(BucketUnlinkContext* context);
230 public:
table_size() const231 int table_size() const { return _table_size; }
232 void set_entry(int index, BasicHashtableEntry<F>* entry);
233
234 void add_entry(int index, BasicHashtableEntry<F>* entry);
235
236 void free_entry(BasicHashtableEntry<F>* entry);
237
number_of_entries() const238 int number_of_entries() const { return _number_of_entries; }
239
240 bool resize(int new_size);
241
242 template <class T> void verify_table(const char* table_name) PRODUCT_RETURN;
243 };
244
245
246 template <class T, MEMFLAGS F> class Hashtable : public BasicHashtable<F> {
247 friend class VMStructs;
248
249 public:
Hashtable(int table_size,int entry_size)250 Hashtable(int table_size, int entry_size)
251 : BasicHashtable<F>(table_size, entry_size) { }
252
Hashtable(int table_size,int entry_size,HashtableBucket<F> * buckets,int number_of_entries)253 Hashtable(int table_size, int entry_size,
254 HashtableBucket<F>* buckets, int number_of_entries)
255 : BasicHashtable<F>(table_size, entry_size, buckets, number_of_entries) { }
256
257 // Debugging
258 void print() PRODUCT_RETURN;
259
compute_hash(const Symbol * name) const260 unsigned int compute_hash(const Symbol* name) const {
261 return (unsigned int) name->identity_hash();
262 }
263
index_for(const Symbol * name) const264 int index_for(const Symbol* name) const {
265 return this->hash_to_index(compute_hash(name));
266 }
267
268 void print_table_statistics(outputStream* st, const char *table_name, T (*literal_load_barrier)(HashtableEntry<T, F>*) = NULL);
269
270 protected:
271
272 // Table entry management
273 HashtableEntry<T, F>* new_entry(unsigned int hashValue, T obj);
274 // Don't create and use freelist of HashtableEntry.
275 HashtableEntry<T, F>* allocate_new_entry(unsigned int hashValue, T obj);
276
277 // The following method is MT-safe and may be used with caution.
bucket(int i) const278 HashtableEntry<T, F>* bucket(int i) const {
279 return (HashtableEntry<T, F>*)BasicHashtable<F>::bucket(i);
280 }
281
282 // The following method is not MT-safe and must be done under lock.
bucket_addr(int i)283 HashtableEntry<T, F>** bucket_addr(int i) {
284 return (HashtableEntry<T, F>**)BasicHashtable<F>::bucket_addr(i);
285 }
286 };
287
288 template <class T, MEMFLAGS F> class RehashableHashtable : public Hashtable<T, F> {
289 friend class VMStructs;
290 protected:
291
292 enum {
293 rehash_count = 100,
294 rehash_multiple = 60
295 };
296
297 // Check that the table is unbalanced
298 bool check_rehash_table(int count);
299
300 public:
RehashableHashtable(int table_size,int entry_size)301 RehashableHashtable(int table_size, int entry_size)
302 : Hashtable<T, F>(table_size, entry_size) { }
303
RehashableHashtable(int table_size,int entry_size,HashtableBucket<F> * buckets,int number_of_entries)304 RehashableHashtable(int table_size, int entry_size,
305 HashtableBucket<F>* buckets, int number_of_entries)
306 : Hashtable<T, F>(table_size, entry_size, buckets, number_of_entries) { }
307
308
309 // Function to move these elements into the new table.
310 void move_to(RehashableHashtable<T, F>* new_table);
311 static bool use_alternate_hashcode();
312 static juint seed();
313
314 private:
315 static juint _seed;
316 };
317
318 template <class T, MEMFLAGS F> juint RehashableHashtable<T, F>::_seed = 0;
seed()319 template <class T, MEMFLAGS F> juint RehashableHashtable<T, F>::seed() { return _seed; };
use_alternate_hashcode()320 template <class T, MEMFLAGS F> bool RehashableHashtable<T, F>::use_alternate_hashcode() { return _seed != 0; };
321
322 #endif // SHARE_VM_UTILITIES_HASHTABLE_HPP
323