rculfhash needs local config.h
[urcu.git] / rculfhash.c
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5e28c532 1/*
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2 * rculfhash.c
3 *
1475579c 4 * Userspace RCU library - Lock-Free Resizable RCU Hash Table
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5 *
6 * Copyright 2010-2011 - Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
7 *
8 * This library is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU Lesser General Public
10 * License as published by the Free Software Foundation; either
11 * version 2.1 of the License, or (at your option) any later version.
12 *
13 * This library is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 * Lesser General Public License for more details.
17 *
18 * You should have received a copy of the GNU Lesser General Public
19 * License along with this library; if not, write to the Free Software
20 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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21 */
22
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23/*
24 * Based on the following articles:
25 * - Ori Shalev and Nir Shavit. Split-ordered lists: Lock-free
26 * extensible hash tables. J. ACM 53, 3 (May 2006), 379-405.
27 * - Michael, M. M. High performance dynamic lock-free hash tables
28 * and list-based sets. In Proceedings of the fourteenth annual ACM
29 * symposium on Parallel algorithms and architectures, ACM Press,
30 * (2002), 73-82.
31 *
1475579c 32 * Some specificities of this Lock-Free Resizable RCU Hash Table
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33 * implementation:
34 *
35 * - RCU read-side critical section allows readers to perform hash
36 * table lookups and use the returned objects safely by delaying
37 * memory reclaim of a grace period.
38 * - Add and remove operations are lock-free, and do not need to
39 * allocate memory. They need to be executed within RCU read-side
40 * critical section to ensure the objects they read are valid and to
41 * deal with the cmpxchg ABA problem.
42 * - add and add_unique operations are supported. add_unique checks if
43 * the node key already exists in the hash table. It ensures no key
44 * duplicata exists.
45 * - The resize operation executes concurrently with add/remove/lookup.
46 * - Hash table nodes are contained within a split-ordered list. This
47 * list is ordered by incrementing reversed-bits-hash value.
48 * - An index of dummy nodes is kept. These dummy nodes are the hash
49 * table "buckets", and they are also chained together in the
50 * split-ordered list, which allows recursive expansion.
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51 * - The resize operation for small tables only allows expanding the hash table.
52 * It is triggered automatically by detecting long chains in the add
53 * operation.
54 * - The resize operation for larger tables (and available through an
55 * API) allows both expanding and shrinking the hash table.
56 * - Per-CPU Split-counters are used to keep track of the number of
57 * nodes within the hash table for automatic resize triggering.
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58 * - Resize operation initiated by long chain detection is executed by a
59 * call_rcu thread, which keeps lock-freedom of add and remove.
60 * - Resize operations are protected by a mutex.
61 * - The removal operation is split in two parts: first, a "removed"
62 * flag is set in the next pointer within the node to remove. Then,
63 * a "garbage collection" is performed in the bucket containing the
64 * removed node (from the start of the bucket up to the removed node).
65 * All encountered nodes with "removed" flag set in their next
66 * pointers are removed from the linked-list. If the cmpxchg used for
67 * removal fails (due to concurrent garbage-collection or concurrent
68 * add), we retry from the beginning of the bucket. This ensures that
69 * the node with "removed" flag set is removed from the hash table
70 * (not visible to lookups anymore) before the RCU read-side critical
71 * section held across removal ends. Furthermore, this ensures that
72 * the node with "removed" flag set is removed from the linked-list
73 * before its memory is reclaimed. Only the thread which removal
74 * successfully set the "removed" flag (with a cmpxchg) into a node's
75 * next pointer is considered to have succeeded its removal (and thus
76 * owns the node to reclaim). Because we garbage-collect starting from
77 * an invariant node (the start-of-bucket dummy node) up to the
78 * "removed" node (or find a reverse-hash that is higher), we are sure
79 * that a successful traversal of the chain leads to a chain that is
80 * present in the linked-list (the start node is never removed) and
81 * that is does not contain the "removed" node anymore, even if
82 * concurrent delete/add operations are changing the structure of the
83 * list concurrently.
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84 * - The add operation performs gargage collection of buckets if it
85 * encounters nodes with removed flag set in the bucket where it wants
86 * to add its new node. This ensures lock-freedom of add operation by
87 * helping the remover unlink nodes from the list rather than to wait
88 * for it do to so.
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89 * - A RCU "order table" indexed by log2(hash index) is copied and
90 * expanded by the resize operation. This order table allows finding
91 * the "dummy node" tables.
92 * - There is one dummy node table per hash index order. The size of
93 * each dummy node table is half the number of hashes contained in
94 * this order.
95 * - call_rcu is used to garbage-collect the old order table.
96 * - The per-order dummy node tables contain a compact version of the
97 * hash table nodes. These tables are invariant after they are
98 * populated into the hash table.
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99 *
100 * A bit of ascii art explanation:
101 *
102 * Order index is the off-by-one compare to the actual power of 2 because
103 * we use index 0 to deal with the 0 special-case.
104 *
105 * This shows the nodes for a small table ordered by reversed bits:
106 *
107 * bits reverse
108 * 0 000 000
109 * 4 100 001
110 * 2 010 010
111 * 6 110 011
112 * 1 001 100
113 * 5 101 101
114 * 3 011 110
115 * 7 111 111
116 *
117 * This shows the nodes in order of non-reversed bits, linked by
118 * reversed-bit order.
119 *
120 * order bits reverse
121 * 0 0 000 000
122 * |
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123 * 1 | 1 001 100 <- <-
124 * | | | |
125 * 2 | | 2 010 010 | |
126 * | | | 3 011 110 | <- |
127 * | | | | | | |
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128 * 3 -> | | | 4 100 001 | |
129 * -> | | 5 101 101 |
130 * -> | 6 110 011
131 * -> 7 111 111
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132 */
133
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134#define _LGPL_SOURCE
135#include <stdlib.h>
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136#include <errno.h>
137#include <assert.h>
138#include <stdio.h>
abc490a1 139#include <stdint.h>
f000907d 140#include <string.h>
e0ba718a 141
15cfbec7 142#include "config.h"
2ed95849 143#include <urcu.h>
abc490a1 144#include <urcu-call-rcu.h>
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145#include <urcu/arch.h>
146#include <urcu/uatomic.h>
a42cc659 147#include <urcu/compiler.h>
abc490a1 148#include <urcu/rculfhash.h>
5e28c532 149#include <stdio.h>
464a1ec9 150#include <pthread.h>
44395fb7 151
f9830efd 152#ifdef DEBUG
f0c29ed7 153#define dbg_printf(fmt, args...) printf("[debug rculfhash] " fmt, ## args)
f9830efd 154#else
e753ff5a 155#define dbg_printf(fmt, args...)
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156#endif
157
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158/*
159 * Per-CPU split-counters lazily update the global counter each 1024
160 * addition/removal. It automatically keeps track of resize required.
161 * We use the bucket length as indicator for need to expand for small
162 * tables and machines lacking per-cpu data suppport.
163 */
164#define COUNT_COMMIT_ORDER 10
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165#define CHAIN_LEN_TARGET 1
166#define CHAIN_LEN_RESIZE_THRESHOLD 3
2ed95849 167
cd95516d 168/*
76a73da8 169 * Define the minimum table size.
cd95516d 170 */
c9edd44a 171#define MIN_TABLE_SIZE 1
cd95516d 172
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173#if (CAA_BITS_PER_LONG == 32)
174#define MAX_TABLE_ORDER 32
175#else
176#define MAX_TABLE_ORDER 64
177#endif
178
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179/*
180 * Minimum number of dummy nodes to touch per thread to parallelize grow/shrink.
181 */
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182#define MIN_PARTITION_PER_THREAD_ORDER 12
183#define MIN_PARTITION_PER_THREAD (1UL << MIN_PARTITION_PER_THREAD_ORDER)
b7d619b0 184
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185#ifndef min
186#define min(a, b) ((a) < (b) ? (a) : (b))
187#endif
188
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189#ifndef max
190#define max(a, b) ((a) > (b) ? (a) : (b))
191#endif
2ed95849 192
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193/*
194 * The removed flag needs to be updated atomically with the pointer.
48ed1c18 195 * It indicates that no node must attach to the node scheduled for
b198f0fd 196 * removal, and that node garbage collection must be performed.
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197 * The dummy flag does not require to be updated atomically with the
198 * pointer, but it is added as a pointer low bit flag to save space.
199 */
d37166c6 200#define REMOVED_FLAG (1UL << 0)
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201#define DUMMY_FLAG (1UL << 1)
202#define FLAGS_MASK ((1UL << 2) - 1)
d37166c6 203
bb7b2f26 204/* Value of the end pointer. Should not interact with flags. */
f9c80341 205#define END_VALUE NULL
bb7b2f26 206
df44348d 207struct ht_items_count {
860d07e8 208 unsigned long add, del;
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209} __attribute__((aligned(CAA_CACHE_LINE_SIZE)));
210
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211struct rcu_level {
212 struct rcu_head head;
213 struct _cds_lfht_node nodes[0];
214};
215
395270b6 216struct rcu_table {
4105056a 217 unsigned long size; /* always a power of 2, shared (RCU) */
f9830efd 218 unsigned long resize_target;
11519af6 219 int resize_initiated;
4105056a 220 struct rcu_level *tbl[MAX_TABLE_ORDER];
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221};
222
14044b37 223struct cds_lfht {
4105056a 224 struct rcu_table t;
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225 cds_lfht_hash_fct hash_fct;
226 cds_lfht_compare_fct compare_fct;
732ad076 227 unsigned long hash_seed;
b8af5011 228 int flags;
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229 /*
230 * We need to put the work threads offline (QSBR) when taking this
231 * mutex, because we use synchronize_rcu within this mutex critical
232 * section, which waits on read-side critical sections, and could
233 * therefore cause grace-period deadlock if we hold off RCU G.P.
234 * completion.
235 */
464a1ec9 236 pthread_mutex_t resize_mutex; /* resize mutex: add/del mutex */
33c7c748 237 unsigned int in_progress_resize, in_progress_destroy;
14044b37 238 void (*cds_lfht_call_rcu)(struct rcu_head *head,
abc490a1 239 void (*func)(struct rcu_head *head));
1475579c 240 void (*cds_lfht_synchronize_rcu)(void);
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241 void (*cds_lfht_rcu_read_lock)(void);
242 void (*cds_lfht_rcu_read_unlock)(void);
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243 void (*cds_lfht_rcu_thread_offline)(void);
244 void (*cds_lfht_rcu_thread_online)(void);
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245 void (*cds_lfht_rcu_register_thread)(void);
246 void (*cds_lfht_rcu_unregister_thread)(void);
247 pthread_attr_t *resize_attr; /* Resize threads attributes */
7de5ccfd 248 long count; /* global approximate item count */
df44348d 249 struct ht_items_count *percpu_count; /* per-cpu item count */
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250};
251
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252struct rcu_resize_work {
253 struct rcu_head head;
14044b37 254 struct cds_lfht *ht;
abc490a1 255};
2ed95849 256
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257struct partition_resize_work {
258 struct rcu_head head;
259 struct cds_lfht *ht;
260 unsigned long i, start, len;
261 void (*fct)(struct cds_lfht *ht, unsigned long i,
262 unsigned long start, unsigned long len);
263};
264
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265enum add_mode {
266 ADD_DEFAULT = 0,
267 ADD_UNIQUE = 1,
268 ADD_REPLACE = 2,
269};
270
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271static
272struct cds_lfht_node *_cds_lfht_add(struct cds_lfht *ht,
273 unsigned long size,
274 struct cds_lfht_node *node,
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275 enum add_mode mode, int dummy);
276
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277/*
278 * Algorithm to reverse bits in a word by lookup table, extended to
279 * 64-bit words.
f9830efd 280 * Source:
abc490a1 281 * http://graphics.stanford.edu/~seander/bithacks.html#BitReverseTable
f9830efd 282 * Originally from Public Domain.
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283 */
284
285static const uint8_t BitReverseTable256[256] =
2ed95849 286{
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287#define R2(n) (n), (n) + 2*64, (n) + 1*64, (n) + 3*64
288#define R4(n) R2(n), R2((n) + 2*16), R2((n) + 1*16), R2((n) + 3*16)
289#define R6(n) R4(n), R4((n) + 2*4 ), R4((n) + 1*4 ), R4((n) + 3*4 )
290 R6(0), R6(2), R6(1), R6(3)
291};
292#undef R2
293#undef R4
294#undef R6
2ed95849 295
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296static
297uint8_t bit_reverse_u8(uint8_t v)
298{
299 return BitReverseTable256[v];
300}
ab7d5fc6 301
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302static __attribute__((unused))
303uint32_t bit_reverse_u32(uint32_t v)
304{
305 return ((uint32_t) bit_reverse_u8(v) << 24) |
306 ((uint32_t) bit_reverse_u8(v >> 8) << 16) |
307 ((uint32_t) bit_reverse_u8(v >> 16) << 8) |
308 ((uint32_t) bit_reverse_u8(v >> 24));
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309}
310
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311static __attribute__((unused))
312uint64_t bit_reverse_u64(uint64_t v)
2ed95849 313{
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314 return ((uint64_t) bit_reverse_u8(v) << 56) |
315 ((uint64_t) bit_reverse_u8(v >> 8) << 48) |
316 ((uint64_t) bit_reverse_u8(v >> 16) << 40) |
317 ((uint64_t) bit_reverse_u8(v >> 24) << 32) |
318 ((uint64_t) bit_reverse_u8(v >> 32) << 24) |
319 ((uint64_t) bit_reverse_u8(v >> 40) << 16) |
320 ((uint64_t) bit_reverse_u8(v >> 48) << 8) |
321 ((uint64_t) bit_reverse_u8(v >> 56));
322}
323
324static
325unsigned long bit_reverse_ulong(unsigned long v)
326{
327#if (CAA_BITS_PER_LONG == 32)
328 return bit_reverse_u32(v);
329#else
330 return bit_reverse_u64(v);
331#endif
332}
333
f9830efd 334/*
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335 * fls: returns the position of the most significant bit.
336 * Returns 0 if no bit is set, else returns the position of the most
337 * significant bit (from 1 to 32 on 32-bit, from 1 to 64 on 64-bit).
f9830efd 338 */
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339#if defined(__i386) || defined(__x86_64)
340static inline
341unsigned int fls_u32(uint32_t x)
f9830efd 342{
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343 int r;
344
345 asm("bsrl %1,%0\n\t"
346 "jnz 1f\n\t"
347 "movl $-1,%0\n\t"
348 "1:\n\t"
349 : "=r" (r) : "rm" (x));
350 return r + 1;
351}
352#define HAS_FLS_U32
353#endif
354
355#if defined(__x86_64)
356static inline
357unsigned int fls_u64(uint64_t x)
358{
359 long r;
360
361 asm("bsrq %1,%0\n\t"
362 "jnz 1f\n\t"
363 "movq $-1,%0\n\t"
364 "1:\n\t"
365 : "=r" (r) : "rm" (x));
366 return r + 1;
367}
368#define HAS_FLS_U64
369#endif
370
371#ifndef HAS_FLS_U64
372static __attribute__((unused))
373unsigned int fls_u64(uint64_t x)
374{
375 unsigned int r = 64;
376
377 if (!x)
378 return 0;
379
380 if (!(x & 0xFFFFFFFF00000000ULL)) {
381 x <<= 32;
382 r -= 32;
383 }
384 if (!(x & 0xFFFF000000000000ULL)) {
385 x <<= 16;
386 r -= 16;
387 }
388 if (!(x & 0xFF00000000000000ULL)) {
389 x <<= 8;
390 r -= 8;
391 }
392 if (!(x & 0xF000000000000000ULL)) {
393 x <<= 4;
394 r -= 4;
395 }
396 if (!(x & 0xC000000000000000ULL)) {
397 x <<= 2;
398 r -= 2;
399 }
400 if (!(x & 0x8000000000000000ULL)) {
401 x <<= 1;
402 r -= 1;
403 }
404 return r;
405}
406#endif
407
408#ifndef HAS_FLS_U32
409static __attribute__((unused))
410unsigned int fls_u32(uint32_t x)
411{
412 unsigned int r = 32;
f9830efd 413
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414 if (!x)
415 return 0;
416 if (!(x & 0xFFFF0000U)) {
417 x <<= 16;
418 r -= 16;
419 }
420 if (!(x & 0xFF000000U)) {
421 x <<= 8;
422 r -= 8;
423 }
424 if (!(x & 0xF0000000U)) {
425 x <<= 4;
426 r -= 4;
427 }
428 if (!(x & 0xC0000000U)) {
429 x <<= 2;
430 r -= 2;
431 }
432 if (!(x & 0x80000000U)) {
433 x <<= 1;
434 r -= 1;
435 }
436 return r;
437}
438#endif
439
440unsigned int fls_ulong(unsigned long x)
f9830efd 441{
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442#if (CAA_BITS_PER_lONG == 32)
443 return fls_u32(x);
444#else
445 return fls_u64(x);
446#endif
447}
f9830efd 448
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449int get_count_order_u32(uint32_t x)
450{
451 int order;
452
453 order = fls_u32(x) - 1;
454 if (x & (x - 1))
455 order++;
456 return order;
457}
458
459int get_count_order_ulong(unsigned long x)
460{
461 int order;
462
463 order = fls_ulong(x) - 1;
464 if (x & (x - 1))
465 order++;
466 return order;
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467}
468
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469#ifdef POISON_FREE
470#define poison_free(ptr) \
471 do { \
472 memset(ptr, 0x42, sizeof(*(ptr))); \
473 free(ptr); \
474 } while (0)
475#else
476#define poison_free(ptr) free(ptr)
477#endif
478
f9830efd 479static
4105056a 480void cds_lfht_resize_lazy(struct cds_lfht *ht, unsigned long size, int growth);
f9830efd 481
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482/*
483 * If the sched_getcpu() and sysconf(_SC_NPROCESSORS_CONF) calls are
484 * available, then we support hash table item accounting.
485 * In the unfortunate event the number of CPUs reported would be
486 * inaccurate, we use modulo arithmetic on the number of CPUs we got.
487 */
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488#if defined(HAVE_SCHED_GETCPU) && defined(HAVE_SYSCONF)
489
f8994aee 490static
4105056a 491void cds_lfht_resize_lazy_count(struct cds_lfht *ht, unsigned long size,
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492 unsigned long count);
493
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494static long nr_cpus_mask = -1;
495
496static
497struct ht_items_count *alloc_per_cpu_items_count(void)
498{
499 struct ht_items_count *count;
500
501 switch (nr_cpus_mask) {
502 case -2:
503 return NULL;
504 case -1:
505 {
506 long maxcpus;
507
508 maxcpus = sysconf(_SC_NPROCESSORS_CONF);
509 if (maxcpus <= 0) {
510 nr_cpus_mask = -2;
511 return NULL;
512 }
513 /*
514 * round up number of CPUs to next power of two, so we
515 * can use & for modulo.
516 */
517 maxcpus = 1UL << get_count_order_ulong(maxcpus);
518 nr_cpus_mask = maxcpus - 1;
519 }
520 /* Fall-through */
521 default:
522 return calloc(nr_cpus_mask + 1, sizeof(*count));
523 }
524}
525
526static
527void free_per_cpu_items_count(struct ht_items_count *count)
528{
98808fb1 529 poison_free(count);
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530}
531
532static
533int ht_get_cpu(void)
534{
535 int cpu;
536
537 assert(nr_cpus_mask >= 0);
538 cpu = sched_getcpu();
539 if (unlikely(cpu < 0))
540 return cpu;
541 else
542 return cpu & nr_cpus_mask;
543}
544
545static
4105056a 546void ht_count_add(struct cds_lfht *ht, unsigned long size)
df44348d 547{
3171717f 548 unsigned long percpu_count;
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549 int cpu;
550
551 if (unlikely(!ht->percpu_count))
3171717f 552 return;
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553 cpu = ht_get_cpu();
554 if (unlikely(cpu < 0))
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555 return;
556 percpu_count = uatomic_add_return(&ht->percpu_count[cpu].add, 1);
df44348d 557 if (unlikely(!(percpu_count & ((1UL << COUNT_COMMIT_ORDER) - 1)))) {
e3ecefd6 558 long count;
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559
560 dbg_printf("add percpu %lu\n", percpu_count);
561 count = uatomic_add_return(&ht->count,
562 1UL << COUNT_COMMIT_ORDER);
563 /* If power of 2 */
564 if (!(count & (count - 1))) {
4105056a 565 if ((count >> CHAIN_LEN_RESIZE_THRESHOLD) < size)
f8994aee 566 return;
e3ecefd6 567 dbg_printf("add set global %ld\n", count);
4105056a 568 cds_lfht_resize_lazy_count(ht, size,
6ea6bc67 569 count >> (CHAIN_LEN_TARGET - 1));
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570 }
571 }
572}
573
574static
860d07e8 575void ht_count_del(struct cds_lfht *ht, unsigned long size)
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576{
577 unsigned long percpu_count;
3171717f 578 int cpu;
df44348d 579
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580 if (unlikely(!ht->percpu_count))
581 return;
582 cpu = ht_get_cpu();
583 if (unlikely(cpu < 0))
584 return;
80d90c06 585 percpu_count = uatomic_add_return(&ht->percpu_count[cpu].del, 1);
df44348d 586 if (unlikely(!(percpu_count & ((1UL << COUNT_COMMIT_ORDER) - 1)))) {
e3ecefd6 587 long count;
df44348d 588
860d07e8 589 dbg_printf("del percpu %lu\n", percpu_count);
df44348d 590 count = uatomic_add_return(&ht->count,
3171717f 591 -(1UL << COUNT_COMMIT_ORDER));
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592 /* If power of 2 */
593 if (!(count & (count - 1))) {
4105056a 594 if ((count >> CHAIN_LEN_RESIZE_THRESHOLD) >= size)
f8994aee 595 return;
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596 dbg_printf("del set global %ld\n", count);
597 /*
c941bb9e 598 * Don't shrink table if the number of nodes is below a
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599 * certain threshold.
600 */
c941bb9e 601 if (count < (1UL << COUNT_COMMIT_ORDER) * (nr_cpus_mask + 1))
e3ecefd6 602 return;
4105056a 603 cds_lfht_resize_lazy_count(ht, size,
6ea6bc67 604 count >> (CHAIN_LEN_TARGET - 1));
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605 }
606 }
607}
608
609#else /* #if defined(HAVE_SCHED_GETCPU) && defined(HAVE_SYSCONF) */
610
611static const long nr_cpus_mask = -1;
612
613static
614struct ht_items_count *alloc_per_cpu_items_count(void)
615{
616 return NULL;
617}
618
619static
620void free_per_cpu_items_count(struct ht_items_count *count)
621{
622}
623
624static
4105056a 625void ht_count_add(struct cds_lfht *ht, unsigned long size)
df44348d
MD
626{
627}
628
629static
860d07e8 630void ht_count_del(struct cds_lfht *ht, unsigned long size)
df44348d
MD
631{
632}
633
634#endif /* #else #if defined(HAVE_SCHED_GETCPU) && defined(HAVE_SYSCONF) */
635
636
f9830efd 637static
4105056a 638void check_resize(struct cds_lfht *ht, unsigned long size, uint32_t chain_len)
f9830efd 639{
f8994aee
MD
640 unsigned long count;
641
b8af5011
MD
642 if (!(ht->flags & CDS_LFHT_AUTO_RESIZE))
643 return;
f8994aee
MD
644 count = uatomic_read(&ht->count);
645 /*
646 * Use bucket-local length for small table expand and for
647 * environments lacking per-cpu data support.
648 */
649 if (count >= (1UL << COUNT_COMMIT_ORDER))
650 return;
24365af7 651 if (chain_len > 100)
f0c29ed7 652 dbg_printf("WARNING: large chain length: %u.\n",
24365af7 653 chain_len);
3390d470 654 if (chain_len >= CHAIN_LEN_RESIZE_THRESHOLD)
4105056a 655 cds_lfht_resize_lazy(ht, size,
01370f0b 656 get_count_order_u32(chain_len - (CHAIN_LEN_TARGET - 1)));
f9830efd
MD
657}
658
abc490a1 659static
14044b37 660struct cds_lfht_node *clear_flag(struct cds_lfht_node *node)
abc490a1 661{
14044b37 662 return (struct cds_lfht_node *) (((unsigned long) node) & ~FLAGS_MASK);
abc490a1
MD
663}
664
665static
14044b37 666int is_removed(struct cds_lfht_node *node)
abc490a1 667{
d37166c6 668 return ((unsigned long) node) & REMOVED_FLAG;
abc490a1
MD
669}
670
671static
14044b37 672struct cds_lfht_node *flag_removed(struct cds_lfht_node *node)
abc490a1 673{
14044b37 674 return (struct cds_lfht_node *) (((unsigned long) node) | REMOVED_FLAG);
abc490a1
MD
675}
676
f5596c94 677static
14044b37 678int is_dummy(struct cds_lfht_node *node)
f5596c94
MD
679{
680 return ((unsigned long) node) & DUMMY_FLAG;
681}
682
683static
14044b37 684struct cds_lfht_node *flag_dummy(struct cds_lfht_node *node)
f5596c94 685{
14044b37 686 return (struct cds_lfht_node *) (((unsigned long) node) | DUMMY_FLAG);
f5596c94 687}
bb7b2f26
MD
688
689static
690struct cds_lfht_node *get_end(void)
691{
692 return (struct cds_lfht_node *) END_VALUE;
693}
694
695static
696int is_end(struct cds_lfht_node *node)
697{
698 return clear_flag(node) == (struct cds_lfht_node *) END_VALUE;
699}
700
abc490a1 701static
f9830efd 702unsigned long _uatomic_max(unsigned long *ptr, unsigned long v)
abc490a1
MD
703{
704 unsigned long old1, old2;
705
706 old1 = uatomic_read(ptr);
707 do {
708 old2 = old1;
709 if (old2 >= v)
f9830efd 710 return old2;
abc490a1 711 } while ((old1 = uatomic_cmpxchg(ptr, old2, v)) != old2);
f9830efd 712 return v;
abc490a1
MD
713}
714
1475579c
MD
715static
716void cds_lfht_free_level(struct rcu_head *head)
717{
718 struct rcu_level *l =
719 caa_container_of(head, struct rcu_level, head);
98808fb1 720 poison_free(l);
1475579c
MD
721}
722
273399de
MD
723/*
724 * Remove all logically deleted nodes from a bucket up to a certain node key.
725 */
726static
f9c80341 727void _cds_lfht_gc_bucket(struct cds_lfht_node *dummy, struct cds_lfht_node *node)
273399de 728{
14044b37 729 struct cds_lfht_node *iter_prev, *iter, *next, *new_next;
273399de 730
c90201ac
MD
731 assert(!is_dummy(dummy));
732 assert(!is_removed(dummy));
733 assert(!is_dummy(node));
734 assert(!is_removed(node));
273399de
MD
735 for (;;) {
736 iter_prev = dummy;
737 /* We can always skip the dummy node initially */
cc4fcb10
MD
738 iter = rcu_dereference(iter_prev->p.next);
739 assert(iter_prev->p.reverse_hash <= node->p.reverse_hash);
bd4db153
MD
740 /*
741 * We should never be called with dummy (start of chain)
742 * and logically removed node (end of path compression
743 * marker) being the actual same node. This would be a
744 * bug in the algorithm implementation.
745 */
746 assert(dummy != node);
273399de 747 for (;;) {
bb7b2f26 748 if (unlikely(is_end(iter)))
f9c80341 749 return;
76412f24 750 if (likely(clear_flag(iter)->p.reverse_hash > node->p.reverse_hash))
f9c80341 751 return;
cc4fcb10 752 next = rcu_dereference(clear_flag(iter)->p.next);
b198f0fd 753 if (likely(is_removed(next)))
273399de 754 break;
b453eae1 755 iter_prev = clear_flag(iter);
273399de
MD
756 iter = next;
757 }
b198f0fd 758 assert(!is_removed(iter));
f5596c94
MD
759 if (is_dummy(iter))
760 new_next = flag_dummy(clear_flag(next));
761 else
762 new_next = clear_flag(next);
48ed1c18
MD
763 if (is_removed(iter))
764 new_next = flag_removed(new_next);
f5596c94 765 (void) uatomic_cmpxchg(&iter_prev->p.next, iter, new_next);
273399de 766 }
f9c80341 767 return;
273399de
MD
768}
769
9357c415
MD
770static
771int _cds_lfht_replace(struct cds_lfht *ht, unsigned long size,
772 struct cds_lfht_node *old_node,
773 struct cds_lfht_node *ret_next,
774 struct cds_lfht_node *new_node)
775{
776 struct cds_lfht_node *dummy, *old_next;
777 struct _cds_lfht_node *lookup;
778 int flagged = 0;
779 unsigned long hash, index, order;
780
781 if (!old_node) /* Return -ENOENT if asked to replace NULL node */
782 goto end;
783
784 assert(!is_removed(old_node));
785 assert(!is_dummy(old_node));
786 assert(!is_removed(new_node));
787 assert(!is_dummy(new_node));
788 assert(new_node != old_node);
789 do {
790 /* Insert after node to be replaced */
791 old_next = ret_next;
792 if (is_removed(old_next)) {
793 /*
794 * Too late, the old node has been removed under us
795 * between lookup and replace. Fail.
796 */
797 goto end;
798 }
799 assert(!is_dummy(old_next));
800 assert(new_node != clear_flag(old_next));
801 new_node->p.next = clear_flag(old_next);
802 /*
803 * Here is the whole trick for lock-free replace: we add
804 * the replacement node _after_ the node we want to
805 * replace by atomically setting its next pointer at the
806 * same time we set its removal flag. Given that
807 * the lookups/get next use an iterator aware of the
808 * next pointer, they will either skip the old node due
809 * to the removal flag and see the new node, or use
810 * the old node, but will not see the new one.
811 */
812 ret_next = uatomic_cmpxchg(&old_node->p.next,
813 old_next, flag_removed(new_node));
814 } while (ret_next != old_next);
815
816 /* We performed the replacement. */
817 flagged = 1;
818
819 /*
820 * Ensure that the old node is not visible to readers anymore:
821 * lookup for the node, and remove it (along with any other
822 * logically removed node) if found.
823 */
824 hash = bit_reverse_ulong(old_node->p.reverse_hash);
825 assert(size > 0);
826 index = hash & (size - 1);
827 order = get_count_order_ulong(index + 1);
828 lookup = &ht->t.tbl[order]->nodes[index & (!order ? 0 : ((1UL << (order - 1)) - 1))];
829 dummy = (struct cds_lfht_node *) lookup;
830 _cds_lfht_gc_bucket(dummy, new_node);
831end:
832 /*
833 * Only the flagging action indicated that we (and no other)
834 * replaced the node from the hash table.
835 */
836 if (flagged) {
837 assert(is_removed(rcu_dereference(old_node->p.next)));
838 return 0;
839 } else {
840 return -ENOENT;
841 }
842}
843
abc490a1 844static
4105056a
MD
845struct cds_lfht_node *_cds_lfht_add(struct cds_lfht *ht,
846 unsigned long size,
847 struct cds_lfht_node *node,
48ed1c18 848 enum add_mode mode, int dummy)
abc490a1 849{
14044b37 850 struct cds_lfht_node *iter_prev, *iter, *next, *new_node, *new_next,
adc0de68 851 *dummy_node, *return_node;
14044b37 852 struct _cds_lfht_node *lookup;
24365af7 853 unsigned long hash, index, order;
abc490a1 854
c90201ac
MD
855 assert(!is_dummy(node));
856 assert(!is_removed(node));
4105056a 857 if (!size) {
f5596c94 858 assert(dummy);
bb7b2f26 859 node->p.next = flag_dummy(get_end());
18117871
MD
860 return node; /* Initial first add (head) */
861 }
cc4fcb10 862 hash = bit_reverse_ulong(node->p.reverse_hash);
abc490a1 863 for (;;) {
adc0de68 864 uint32_t chain_len = 0;
abc490a1 865
11519af6
MD
866 /*
867 * iter_prev points to the non-removed node prior to the
868 * insert location.
11519af6 869 */
4105056a 870 index = hash & (size - 1);
24365af7 871 order = get_count_order_ulong(index + 1);
4105056a 872 lookup = &ht->t.tbl[order]->nodes[index & ((!order ? 0 : (1UL << (order - 1))) - 1)];
14044b37 873 iter_prev = (struct cds_lfht_node *) lookup;
11519af6 874 /* We can always skip the dummy node initially */
cc4fcb10
MD
875 iter = rcu_dereference(iter_prev->p.next);
876 assert(iter_prev->p.reverse_hash <= node->p.reverse_hash);
abc490a1 877 for (;;) {
bb7b2f26 878 if (unlikely(is_end(iter)))
273399de 879 goto insert;
76412f24 880 if (likely(clear_flag(iter)->p.reverse_hash > node->p.reverse_hash))
273399de 881 goto insert;
cc4fcb10 882 next = rcu_dereference(clear_flag(iter)->p.next);
b198f0fd 883 if (unlikely(is_removed(next)))
9dba85be 884 goto gc_node;
48ed1c18 885 if ((mode == ADD_UNIQUE || mode == ADD_REPLACE)
1b81fe1a 886 && !is_dummy(next)
e43f23f8
MD
887 && !ht->compare_fct(node->key, node->key_len,
888 clear_flag(iter)->key,
48ed1c18
MD
889 clear_flag(iter)->key_len)) {
890 if (mode == ADD_UNIQUE)
891 return clear_flag(iter);
892 else /* mode == ADD_REPLACE */
893 goto replace;
894 }
11519af6 895 /* Only account for identical reverse hash once */
24365af7
MD
896 if (iter_prev->p.reverse_hash != clear_flag(iter)->p.reverse_hash
897 && !is_dummy(next))
4105056a 898 check_resize(ht, size, ++chain_len);
11519af6 899 iter_prev = clear_flag(iter);
273399de 900 iter = next;
abc490a1 901 }
48ed1c18 902
273399de 903 insert:
7ec59d3b 904 assert(node != clear_flag(iter));
11519af6 905 assert(!is_removed(iter_prev));
c90201ac 906 assert(!is_removed(iter));
f000907d 907 assert(iter_prev != node);
f9c80341 908 if (!dummy)
1b81fe1a 909 node->p.next = clear_flag(iter);
f9c80341
MD
910 else
911 node->p.next = flag_dummy(clear_flag(iter));
f5596c94
MD
912 if (is_dummy(iter))
913 new_node = flag_dummy(node);
914 else
915 new_node = node;
cc4fcb10 916 if (uatomic_cmpxchg(&iter_prev->p.next, iter,
48ed1c18 917 new_node) != iter) {
273399de 918 continue; /* retry */
48ed1c18
MD
919 } else {
920 if (mode == ADD_REPLACE)
921 return_node = NULL;
922 else /* ADD_DEFAULT and ADD_UNIQUE */
923 return_node = node;
273399de 924 goto gc_end;
48ed1c18
MD
925 }
926
927 replace:
9357c415
MD
928
929 if (!_cds_lfht_replace(ht, size, clear_flag(iter), next,
930 node)) {
931 return_node = clear_flag(iter);
932 goto end; /* gc already done */
48ed1c18 933 } else {
9357c415 934 continue; /* retry */
48ed1c18
MD
935 }
936
9dba85be
MD
937 gc_node:
938 assert(!is_removed(iter));
f5596c94
MD
939 if (is_dummy(iter))
940 new_next = flag_dummy(clear_flag(next));
941 else
942 new_next = clear_flag(next);
943 (void) uatomic_cmpxchg(&iter_prev->p.next, iter, new_next);
273399de 944 /* retry */
464a1ec9 945 }
273399de
MD
946gc_end:
947 /* Garbage collect logically removed nodes in the bucket */
4105056a 948 index = hash & (size - 1);
24365af7 949 order = get_count_order_ulong(index + 1);
4105056a 950 lookup = &ht->t.tbl[order]->nodes[index & (!order ? 0 : ((1UL << (order - 1)) - 1))];
14044b37 951 dummy_node = (struct cds_lfht_node *) lookup;
f9c80341 952 _cds_lfht_gc_bucket(dummy_node, node);
9357c415 953end:
48ed1c18 954 return return_node;
abc490a1 955}
464a1ec9 956
abc490a1 957static
860d07e8 958int _cds_lfht_del(struct cds_lfht *ht, unsigned long size,
4105056a 959 struct cds_lfht_node *node,
b198f0fd 960 int dummy_removal)
abc490a1 961{
14044b37
MD
962 struct cds_lfht_node *dummy, *next, *old;
963 struct _cds_lfht_node *lookup;
abc490a1 964 int flagged = 0;
24365af7 965 unsigned long hash, index, order;
5e28c532 966
9357c415
MD
967 if (!node) /* Return -ENOENT if asked to delete NULL node */
968 goto end;
969
7ec59d3b 970 /* logically delete the node */
c90201ac
MD
971 assert(!is_dummy(node));
972 assert(!is_removed(node));
cc4fcb10 973 old = rcu_dereference(node->p.next);
7ec59d3b 974 do {
48ed1c18
MD
975 struct cds_lfht_node *new_next;
976
7ec59d3b 977 next = old;
76412f24 978 if (unlikely(is_removed(next)))
7ec59d3b 979 goto end;
1475579c
MD
980 if (dummy_removal)
981 assert(is_dummy(next));
982 else
983 assert(!is_dummy(next));
48ed1c18 984 new_next = flag_removed(next);
48ed1c18 985 old = uatomic_cmpxchg(&node->p.next, next, new_next);
7ec59d3b
MD
986 } while (old != next);
987
988 /* We performed the (logical) deletion. */
989 flagged = 1;
990
991 /*
992 * Ensure that the node is not visible to readers anymore: lookup for
273399de
MD
993 * the node, and remove it (along with any other logically removed node)
994 * if found.
11519af6 995 */
cc4fcb10 996 hash = bit_reverse_ulong(node->p.reverse_hash);
4105056a
MD
997 assert(size > 0);
998 index = hash & (size - 1);
24365af7 999 order = get_count_order_ulong(index + 1);
4105056a 1000 lookup = &ht->t.tbl[order]->nodes[index & (!order ? 0 : ((1UL << (order - 1)) - 1))];
14044b37 1001 dummy = (struct cds_lfht_node *) lookup;
f9c80341 1002 _cds_lfht_gc_bucket(dummy, node);
2ed95849 1003end:
11519af6
MD
1004 /*
1005 * Only the flagging action indicated that we (and no other)
1006 * removed the node from the hash.
1007 */
7ec59d3b 1008 if (flagged) {
cc4fcb10 1009 assert(is_removed(rcu_dereference(node->p.next)));
11519af6 1010 return 0;
9357c415 1011 } else {
11519af6 1012 return -ENOENT;
9357c415 1013 }
abc490a1 1014}
2ed95849 1015
b7d619b0
MD
1016static
1017void *partition_resize_thread(void *arg)
1018{
1019 struct partition_resize_work *work = arg;
1020
1021 work->ht->cds_lfht_rcu_register_thread();
1022 work->fct(work->ht, work->i, work->start, work->len);
1023 work->ht->cds_lfht_rcu_unregister_thread();
1024 return NULL;
1025}
1026
1027static
1028void partition_resize_helper(struct cds_lfht *ht, unsigned long i,
1029 unsigned long len,
1030 void (*fct)(struct cds_lfht *ht, unsigned long i,
1031 unsigned long start, unsigned long len))
1032{
1033 unsigned long partition_len;
1034 struct partition_resize_work *work;
6083a889
MD
1035 int thread, ret;
1036 unsigned long nr_threads;
b7d619b0
MD
1037 pthread_t *thread_id;
1038
6083a889
MD
1039 /*
1040 * Note: nr_cpus_mask + 1 is always power of 2.
1041 * We spawn just the number of threads we need to satisfy the minimum
1042 * partition size, up to the number of CPUs in the system.
1043 */
1044 nr_threads = min(nr_cpus_mask + 1,
1045 len >> MIN_PARTITION_PER_THREAD_ORDER);
1046 partition_len = len >> get_count_order_ulong(nr_threads);
1047 work = calloc(nr_threads, sizeof(*work));
1048 thread_id = calloc(nr_threads, sizeof(*thread_id));
b7d619b0 1049 assert(work);
6083a889
MD
1050 for (thread = 0; thread < nr_threads; thread++) {
1051 work[thread].ht = ht;
1052 work[thread].i = i;
1053 work[thread].len = partition_len;
1054 work[thread].start = thread * partition_len;
1055 work[thread].fct = fct;
1056 ret = pthread_create(&thread_id[thread], ht->resize_attr,
1057 partition_resize_thread, &work[thread]);
b7d619b0
MD
1058 assert(!ret);
1059 }
6083a889
MD
1060 for (thread = 0; thread < nr_threads; thread++) {
1061 ret = pthread_join(thread_id[thread], NULL);
b7d619b0
MD
1062 assert(!ret);
1063 }
1064 free(work);
1065 free(thread_id);
1066}
1067
e8de508e
MD
1068/*
1069 * Holding RCU read lock to protect _cds_lfht_add against memory
1070 * reclaim that could be performed by other call_rcu worker threads (ABA
1071 * problem).
9ee0fc9a 1072 *
b7d619b0 1073 * When we reach a certain length, we can split this population phase over
9ee0fc9a
MD
1074 * many worker threads, based on the number of CPUs available in the system.
1075 * This should therefore take care of not having the expand lagging behind too
1076 * many concurrent insertion threads by using the scheduler's ability to
1077 * schedule dummy node population fairly with insertions.
e8de508e 1078 */
4105056a 1079static
b7d619b0
MD
1080void init_table_populate_partition(struct cds_lfht *ht, unsigned long i,
1081 unsigned long start, unsigned long len)
4105056a
MD
1082{
1083 unsigned long j;
1084
1085 ht->cds_lfht_rcu_read_lock();
b7d619b0 1086 for (j = start; j < start + len; j++) {
4105056a
MD
1087 struct cds_lfht_node *new_node =
1088 (struct cds_lfht_node *) &ht->t.tbl[i]->nodes[j];
1089
dc1da8f6 1090 dbg_printf("init populate: i %lu j %lu hash %lu\n",
4105056a 1091 i, j, !i ? 0 : (1UL << (i - 1)) + j);
dc1da8f6
MD
1092 new_node->p.reverse_hash =
1093 bit_reverse_ulong(!i ? 0 : (1UL << (i - 1)) + j);
4105056a 1094 (void) _cds_lfht_add(ht, !i ? 0 : (1UL << (i - 1)),
48ed1c18 1095 new_node, ADD_DEFAULT, 1);
4105056a
MD
1096 if (CMM_LOAD_SHARED(ht->in_progress_destroy))
1097 break;
1098 }
1099 ht->cds_lfht_rcu_read_unlock();
b7d619b0
MD
1100}
1101
1102static
1103void init_table_populate(struct cds_lfht *ht, unsigned long i,
1104 unsigned long len)
1105{
1106 assert(nr_cpus_mask != -1);
6083a889 1107 if (nr_cpus_mask < 0 || len < 2 * MIN_PARTITION_PER_THREAD) {
b7d619b0
MD
1108 ht->cds_lfht_rcu_thread_online();
1109 init_table_populate_partition(ht, i, 0, len);
1110 ht->cds_lfht_rcu_thread_offline();
1111 return;
1112 }
1113 partition_resize_helper(ht, i, len, init_table_populate_partition);
4105056a
MD
1114}
1115
abc490a1 1116static
4105056a 1117void init_table(struct cds_lfht *ht,
24365af7
MD
1118 unsigned long first_order, unsigned long len_order)
1119{
1120 unsigned long i, end_order;
1121
f0c29ed7 1122 dbg_printf("init table: first_order %lu end_order %lu\n",
24365af7
MD
1123 first_order, first_order + len_order);
1124 end_order = first_order + len_order;
24365af7 1125 for (i = first_order; i < end_order; i++) {
4105056a 1126 unsigned long len;
24365af7
MD
1127
1128 len = !i ? 1 : 1UL << (i - 1);
f0c29ed7 1129 dbg_printf("init order %lu len: %lu\n", i, len);
4d676753
MD
1130
1131 /* Stop expand if the resize target changes under us */
1132 if (CMM_LOAD_SHARED(ht->t.resize_target) < (!i ? 1 : (1UL << i)))
1133 break;
1134
4105056a 1135 ht->t.tbl[i] = calloc(1, sizeof(struct rcu_level)
1475579c 1136 + (len * sizeof(struct _cds_lfht_node)));
b7d619b0 1137 assert(ht->t.tbl[i]);
4105056a 1138
4105056a 1139 /*
dc1da8f6
MD
1140 * Set all dummy nodes reverse hash values for a level and
1141 * link all dummy nodes into the table.
4105056a 1142 */
dc1da8f6 1143 init_table_populate(ht, i, len);
4105056a 1144
f9c80341
MD
1145 /*
1146 * Update table size.
1147 */
1148 cmm_smp_wmb(); /* populate data before RCU size */
1149 CMM_STORE_SHARED(ht->t.size, !i ? 1 : (1UL << i));
1150
4105056a
MD
1151 dbg_printf("init new size: %lu\n", !i ? 1 : (1UL << i));
1152 if (CMM_LOAD_SHARED(ht->in_progress_destroy))
1153 break;
1154 }
1155}
1156
e8de508e
MD
1157/*
1158 * Holding RCU read lock to protect _cds_lfht_remove against memory
1159 * reclaim that could be performed by other call_rcu worker threads (ABA
1160 * problem).
1161 * For a single level, we logically remove and garbage collect each node.
1162 *
1163 * As a design choice, we perform logical removal and garbage collection on a
1164 * node-per-node basis to simplify this algorithm. We also assume keeping good
1165 * cache locality of the operation would overweight possible performance gain
1166 * that could be achieved by batching garbage collection for multiple levels.
1167 * However, this would have to be justified by benchmarks.
1168 *
1169 * Concurrent removal and add operations are helping us perform garbage
1170 * collection of logically removed nodes. We guarantee that all logically
1171 * removed nodes have been garbage-collected (unlinked) before call_rcu is
1172 * invoked to free a hole level of dummy nodes (after a grace period).
1173 *
1174 * Logical removal and garbage collection can therefore be done in batch or on a
1175 * node-per-node basis, as long as the guarantee above holds.
9ee0fc9a 1176 *
b7d619b0
MD
1177 * When we reach a certain length, we can split this removal over many worker
1178 * threads, based on the number of CPUs available in the system. This should
1179 * take care of not letting resize process lag behind too many concurrent
9ee0fc9a 1180 * updater threads actively inserting into the hash table.
e8de508e 1181 */
4105056a 1182static
b7d619b0
MD
1183void remove_table_partition(struct cds_lfht *ht, unsigned long i,
1184 unsigned long start, unsigned long len)
4105056a
MD
1185{
1186 unsigned long j;
1187
1188 ht->cds_lfht_rcu_read_lock();
b7d619b0 1189 for (j = start; j < start + len; j++) {
4105056a
MD
1190 struct cds_lfht_node *fini_node =
1191 (struct cds_lfht_node *) &ht->t.tbl[i]->nodes[j];
1192
1193 dbg_printf("remove entry: i %lu j %lu hash %lu\n",
1194 i, j, !i ? 0 : (1UL << (i - 1)) + j);
1195 fini_node->p.reverse_hash =
1196 bit_reverse_ulong(!i ? 0 : (1UL << (i - 1)) + j);
860d07e8 1197 (void) _cds_lfht_del(ht, !i ? 0 : (1UL << (i - 1)),
b198f0fd 1198 fini_node, 1);
33c7c748
MD
1199 if (CMM_LOAD_SHARED(ht->in_progress_destroy))
1200 break;
abc490a1 1201 }
4105056a 1202 ht->cds_lfht_rcu_read_unlock();
b7d619b0
MD
1203}
1204
1205static
1206void remove_table(struct cds_lfht *ht, unsigned long i, unsigned long len)
1207{
1208
1209 assert(nr_cpus_mask != -1);
6083a889 1210 if (nr_cpus_mask < 0 || len < 2 * MIN_PARTITION_PER_THREAD) {
b7d619b0
MD
1211 ht->cds_lfht_rcu_thread_online();
1212 remove_table_partition(ht, i, 0, len);
1213 ht->cds_lfht_rcu_thread_offline();
1214 return;
1215 }
1216 partition_resize_helper(ht, i, len, remove_table_partition);
2ed95849
MD
1217}
1218
1475579c 1219static
4105056a 1220void fini_table(struct cds_lfht *ht,
1475579c
MD
1221 unsigned long first_order, unsigned long len_order)
1222{
1223 long i, end_order;
1224
1225 dbg_printf("fini table: first_order %lu end_order %lu\n",
1226 first_order, first_order + len_order);
1227 end_order = first_order + len_order;
1228 assert(first_order > 0);
1475579c 1229 for (i = end_order - 1; i >= first_order; i--) {
4105056a 1230 unsigned long len;
1475579c
MD
1231
1232 len = !i ? 1 : 1UL << (i - 1);
1233 dbg_printf("fini order %lu len: %lu\n", i, len);
4105056a 1234
4d676753
MD
1235 /* Stop shrink if the resize target changes under us */
1236 if (CMM_LOAD_SHARED(ht->t.resize_target) > (1UL << (i - 1)))
1237 break;
1238
1239 cmm_smp_wmb(); /* populate data before RCU size */
1240 CMM_STORE_SHARED(ht->t.size, 1UL << (i - 1));
1241
1242 /*
1243 * We need to wait for all add operations to reach Q.S. (and
1244 * thus use the new table for lookups) before we can start
1245 * releasing the old dummy nodes. Otherwise their lookup will
1246 * return a logically removed node as insert position.
1247 */
1248 ht->cds_lfht_synchronize_rcu();
1249
21263e21 1250 /*
4105056a
MD
1251 * Set "removed" flag in dummy nodes about to be removed.
1252 * Unlink all now-logically-removed dummy node pointers.
1253 * Concurrent add/remove operation are helping us doing
1254 * the gc.
21263e21 1255 */
4105056a
MD
1256 remove_table(ht, i, len);
1257
1258 ht->cds_lfht_call_rcu(&ht->t.tbl[i]->head, cds_lfht_free_level);
1259
1260 dbg_printf("fini new size: %lu\n", 1UL << i);
1475579c
MD
1261 if (CMM_LOAD_SHARED(ht->in_progress_destroy))
1262 break;
1263 }
1475579c
MD
1264}
1265
7a9dcf9b 1266struct cds_lfht *_cds_lfht_new(cds_lfht_hash_fct hash_fct,
14044b37
MD
1267 cds_lfht_compare_fct compare_fct,
1268 unsigned long hash_seed,
1269 unsigned long init_size,
b8af5011 1270 int flags,
14044b37 1271 void (*cds_lfht_call_rcu)(struct rcu_head *head,
1475579c 1272 void (*func)(struct rcu_head *head)),
01dbfa62
MD
1273 void (*cds_lfht_synchronize_rcu)(void),
1274 void (*cds_lfht_rcu_read_lock)(void),
5f511391
MD
1275 void (*cds_lfht_rcu_read_unlock)(void),
1276 void (*cds_lfht_rcu_thread_offline)(void),
b7d619b0
MD
1277 void (*cds_lfht_rcu_thread_online)(void),
1278 void (*cds_lfht_rcu_register_thread)(void),
1279 void (*cds_lfht_rcu_unregister_thread)(void),
1280 pthread_attr_t *attr)
abc490a1 1281{
14044b37 1282 struct cds_lfht *ht;
24365af7 1283 unsigned long order;
abc490a1 1284
8129be4e 1285 /* init_size must be power of two */
49619ea0 1286 if (init_size && (init_size & (init_size - 1)))
8129be4e 1287 return NULL;
14044b37 1288 ht = calloc(1, sizeof(struct cds_lfht));
b7d619b0 1289 assert(ht);
abc490a1 1290 ht->hash_fct = hash_fct;
732ad076
MD
1291 ht->compare_fct = compare_fct;
1292 ht->hash_seed = hash_seed;
14044b37 1293 ht->cds_lfht_call_rcu = cds_lfht_call_rcu;
1475579c 1294 ht->cds_lfht_synchronize_rcu = cds_lfht_synchronize_rcu;
01dbfa62
MD
1295 ht->cds_lfht_rcu_read_lock = cds_lfht_rcu_read_lock;
1296 ht->cds_lfht_rcu_read_unlock = cds_lfht_rcu_read_unlock;
5f511391
MD
1297 ht->cds_lfht_rcu_thread_offline = cds_lfht_rcu_thread_offline;
1298 ht->cds_lfht_rcu_thread_online = cds_lfht_rcu_thread_online;
b7d619b0
MD
1299 ht->cds_lfht_rcu_register_thread = cds_lfht_rcu_register_thread;
1300 ht->cds_lfht_rcu_unregister_thread = cds_lfht_rcu_unregister_thread;
1301 ht->resize_attr = attr;
df44348d 1302 ht->percpu_count = alloc_per_cpu_items_count();
abc490a1
MD
1303 /* this mutex should not nest in read-side C.S. */
1304 pthread_mutex_init(&ht->resize_mutex, NULL);
cd95516d 1305 order = get_count_order_ulong(max(init_size, MIN_TABLE_SIZE)) + 1;
b8af5011 1306 ht->flags = flags;
5f511391 1307 ht->cds_lfht_rcu_thread_offline();
f000907d 1308 pthread_mutex_lock(&ht->resize_mutex);
4d676753 1309 ht->t.resize_target = 1UL << (order - 1);
4105056a 1310 init_table(ht, 0, order);
f000907d 1311 pthread_mutex_unlock(&ht->resize_mutex);
5f511391 1312 ht->cds_lfht_rcu_thread_online();
abc490a1
MD
1313 return ht;
1314}
1315
adc0de68
MD
1316void cds_lfht_lookup(struct cds_lfht *ht, void *key, size_t key_len,
1317 struct cds_lfht_iter *iter)
2ed95849 1318{
bb7b2f26 1319 struct cds_lfht_node *node, *next, *dummy_node;
14044b37 1320 struct _cds_lfht_node *lookup;
4105056a 1321 unsigned long hash, reverse_hash, index, order, size;
2ed95849 1322
732ad076 1323 hash = ht->hash_fct(key, key_len, ht->hash_seed);
abc490a1 1324 reverse_hash = bit_reverse_ulong(hash);
464a1ec9 1325
4105056a
MD
1326 size = rcu_dereference(ht->t.size);
1327 index = hash & (size - 1);
24365af7 1328 order = get_count_order_ulong(index + 1);
4105056a 1329 lookup = &ht->t.tbl[order]->nodes[index & (!order ? 0 : ((1UL << (order - 1))) - 1)];
f0c29ed7 1330 dbg_printf("lookup hash %lu index %lu order %lu aridx %lu\n",
554c284e 1331 hash, index, order, index & (!order ? 0 : ((1UL << (order - 1)) - 1)));
bb7b2f26
MD
1332 dummy_node = (struct cds_lfht_node *) lookup;
1333 /* We can always skip the dummy node initially */
1334 node = rcu_dereference(dummy_node->p.next);
bb7b2f26 1335 node = clear_flag(node);
2ed95849 1336 for (;;) {
bb7b2f26 1337 if (unlikely(is_end(node))) {
96ad1112 1338 node = next = NULL;
abc490a1 1339 break;
bb7b2f26 1340 }
cc4fcb10 1341 if (unlikely(node->p.reverse_hash > reverse_hash)) {
96ad1112 1342 node = next = NULL;
abc490a1 1343 break;
2ed95849 1344 }
1b81fe1a 1345 next = rcu_dereference(node->p.next);
adc0de68 1346 if (likely(!is_removed(next))
1b81fe1a 1347 && !is_dummy(next)
49c2e2d6 1348 && likely(!ht->compare_fct(node->key, node->key_len, key, key_len))) {
273399de 1349 break;
2ed95849 1350 }
1b81fe1a 1351 node = clear_flag(next);
2ed95849 1352 }
1b81fe1a 1353 assert(!node || !is_dummy(rcu_dereference(node->p.next)));
adc0de68
MD
1354 iter->node = node;
1355 iter->next = next;
abc490a1 1356}
e0ba718a 1357
3883c0e5 1358void cds_lfht_next_duplicate(struct cds_lfht *ht, struct cds_lfht_iter *iter)
a481e5ff 1359{
adc0de68 1360 struct cds_lfht_node *node, *next;
a481e5ff
MD
1361 unsigned long reverse_hash;
1362 void *key;
1363 size_t key_len;
1364
adc0de68 1365 node = iter->node;
a481e5ff
MD
1366 reverse_hash = node->p.reverse_hash;
1367 key = node->key;
1368 key_len = node->key_len;
adc0de68 1369 next = iter->next;
a481e5ff
MD
1370 node = clear_flag(next);
1371
1372 for (;;) {
bb7b2f26 1373 if (unlikely(is_end(node))) {
96ad1112 1374 node = next = NULL;
a481e5ff 1375 break;
bb7b2f26 1376 }
a481e5ff 1377 if (unlikely(node->p.reverse_hash > reverse_hash)) {
96ad1112 1378 node = next = NULL;
a481e5ff
MD
1379 break;
1380 }
1381 next = rcu_dereference(node->p.next);
adc0de68 1382 if (likely(!is_removed(next))
a481e5ff
MD
1383 && !is_dummy(next)
1384 && likely(!ht->compare_fct(node->key, node->key_len, key, key_len))) {
1385 break;
1386 }
1387 node = clear_flag(next);
1388 }
1389 assert(!node || !is_dummy(rcu_dereference(node->p.next)));
adc0de68
MD
1390 iter->node = node;
1391 iter->next = next;
a481e5ff
MD
1392}
1393
4e9b9fbf
MD
1394void cds_lfht_next(struct cds_lfht *ht, struct cds_lfht_iter *iter)
1395{
1396 struct cds_lfht_node *node, *next;
1397
1398 node = iter->node;
1399 next = iter->next;
1400 node = clear_flag(next);
1401
1402 for (;;) {
1403 if (unlikely(is_end(node))) {
1404 node = next = NULL;
1405 break;
1406 }
1407 next = rcu_dereference(node->p.next);
1408 if (likely(!is_removed(next))
1409 && !is_dummy(next)) {
1410 break;
1411 }
1412 node = clear_flag(next);
1413 }
1414 assert(!node || !is_dummy(rcu_dereference(node->p.next)));
1415 iter->node = node;
1416 iter->next = next;
1417}
1418
1419void cds_lfht_first(struct cds_lfht *ht, struct cds_lfht_iter *iter)
1420{
1421 struct _cds_lfht_node *lookup;
1422
1423 /*
1424 * Get next after first dummy node. The first dummy node is the
1425 * first node of the linked list.
1426 */
1427 lookup = &ht->t.tbl[0]->nodes[0];
1428 iter->node = (struct cds_lfht_node *) lookup;
1429 cds_lfht_next(ht, iter);
1430}
1431
14044b37 1432void cds_lfht_add(struct cds_lfht *ht, struct cds_lfht_node *node)
abc490a1 1433{
4105056a 1434 unsigned long hash, size;
ab7d5fc6 1435
49c2e2d6 1436 hash = ht->hash_fct(node->key, node->key_len, ht->hash_seed);
cc4fcb10 1437 node->p.reverse_hash = bit_reverse_ulong((unsigned long) hash);
2ed95849 1438
4105056a 1439 size = rcu_dereference(ht->t.size);
48ed1c18 1440 (void) _cds_lfht_add(ht, size, node, ADD_DEFAULT, 0);
4105056a 1441 ht_count_add(ht, size);
3eca1b8c
MD
1442}
1443
14044b37 1444struct cds_lfht_node *cds_lfht_add_unique(struct cds_lfht *ht,
48ed1c18 1445 struct cds_lfht_node *node)
3eca1b8c 1446{
4105056a 1447 unsigned long hash, size;
df44348d 1448 struct cds_lfht_node *ret;
3eca1b8c 1449
49c2e2d6 1450 hash = ht->hash_fct(node->key, node->key_len, ht->hash_seed);
cc4fcb10 1451 node->p.reverse_hash = bit_reverse_ulong((unsigned long) hash);
3eca1b8c 1452
4105056a 1453 size = rcu_dereference(ht->t.size);
48ed1c18 1454 ret = _cds_lfht_add(ht, size, node, ADD_UNIQUE, 0);
17f31d1b 1455 if (ret == node)
4105056a 1456 ht_count_add(ht, size);
df44348d 1457 return ret;
2ed95849
MD
1458}
1459
9357c415 1460struct cds_lfht_node *cds_lfht_add_replace(struct cds_lfht *ht,
48ed1c18
MD
1461 struct cds_lfht_node *node)
1462{
1463 unsigned long hash, size;
1464 struct cds_lfht_node *ret;
1465
1466 hash = ht->hash_fct(node->key, node->key_len, ht->hash_seed);
1467 node->p.reverse_hash = bit_reverse_ulong((unsigned long) hash);
1468
1469 size = rcu_dereference(ht->t.size);
1470 ret = _cds_lfht_add(ht, size, node, ADD_REPLACE, 0);
1471 if (ret == NULL)
1472 ht_count_add(ht, size);
1473 return ret;
1474}
1475
9357c415
MD
1476int cds_lfht_replace(struct cds_lfht *ht, struct cds_lfht_iter *old_iter,
1477 struct cds_lfht_node *new_node)
1478{
1479 unsigned long size;
1480
1481 size = rcu_dereference(ht->t.size);
1482 return _cds_lfht_replace(ht, size, old_iter->node, old_iter->next,
1483 new_node);
1484}
1485
1486int cds_lfht_del(struct cds_lfht *ht, struct cds_lfht_iter *iter)
2ed95849 1487{
4105056a 1488 unsigned long size;
df44348d 1489 int ret;
abc490a1 1490
4105056a 1491 size = rcu_dereference(ht->t.size);
9357c415 1492 ret = _cds_lfht_del(ht, size, iter->node, 0);
df44348d 1493 if (!ret)
860d07e8 1494 ht_count_del(ht, size);
df44348d 1495 return ret;
2ed95849 1496}
ab7d5fc6 1497
abc490a1 1498static
14044b37 1499int cds_lfht_delete_dummy(struct cds_lfht *ht)
674f7a69 1500{
14044b37
MD
1501 struct cds_lfht_node *node;
1502 struct _cds_lfht_node *lookup;
4105056a 1503 unsigned long order, i, size;
674f7a69 1504
abc490a1 1505 /* Check that the table is empty */
4105056a 1506 lookup = &ht->t.tbl[0]->nodes[0];
14044b37 1507 node = (struct cds_lfht_node *) lookup;
abc490a1 1508 do {
1b81fe1a
MD
1509 node = clear_flag(node)->p.next;
1510 if (!is_dummy(node))
abc490a1 1511 return -EPERM;
273399de 1512 assert(!is_removed(node));
bb7b2f26 1513 } while (!is_end(node));
4105056a
MD
1514 /*
1515 * size accessed without rcu_dereference because hash table is
1516 * being destroyed.
1517 */
1518 size = ht->t.size;
abc490a1 1519 /* Internal sanity check: all nodes left should be dummy */
4105056a 1520 for (order = 0; order < get_count_order_ulong(size) + 1; order++) {
24365af7
MD
1521 unsigned long len;
1522
1523 len = !order ? 1 : 1UL << (order - 1);
1524 for (i = 0; i < len; i++) {
f0c29ed7 1525 dbg_printf("delete order %lu i %lu hash %lu\n",
24365af7 1526 order, i,
4105056a
MD
1527 bit_reverse_ulong(ht->t.tbl[order]->nodes[i].reverse_hash));
1528 assert(is_dummy(ht->t.tbl[order]->nodes[i].next));
24365af7 1529 }
4105056a 1530 poison_free(ht->t.tbl[order]);
674f7a69 1531 }
abc490a1 1532 return 0;
674f7a69
MD
1533}
1534
1535/*
1536 * Should only be called when no more concurrent readers nor writers can
1537 * possibly access the table.
1538 */
b7d619b0 1539int cds_lfht_destroy(struct cds_lfht *ht, pthread_attr_t **attr)
674f7a69 1540{
5e28c532
MD
1541 int ret;
1542
848d4088 1543 /* Wait for in-flight resize operations to complete */
33c7c748 1544 CMM_STORE_SHARED(ht->in_progress_destroy, 1);
848d4088
MD
1545 while (uatomic_read(&ht->in_progress_resize))
1546 poll(NULL, 0, 100); /* wait for 100ms */
14044b37 1547 ret = cds_lfht_delete_dummy(ht);
abc490a1
MD
1548 if (ret)
1549 return ret;
df44348d 1550 free_per_cpu_items_count(ht->percpu_count);
b7d619b0
MD
1551 if (attr)
1552 *attr = ht->resize_attr;
98808fb1 1553 poison_free(ht);
5e28c532 1554 return ret;
674f7a69
MD
1555}
1556
14044b37 1557void cds_lfht_count_nodes(struct cds_lfht *ht,
d933dd0e 1558 long *approx_before,
273399de 1559 unsigned long *count,
973e5e1b 1560 unsigned long *removed,
d933dd0e 1561 long *approx_after)
273399de 1562{
14044b37
MD
1563 struct cds_lfht_node *node, *next;
1564 struct _cds_lfht_node *lookup;
24365af7 1565 unsigned long nr_dummy = 0;
273399de 1566
7ed7682f 1567 *approx_before = 0;
973e5e1b
MD
1568 if (nr_cpus_mask >= 0) {
1569 int i;
1570
1571 for (i = 0; i < nr_cpus_mask + 1; i++) {
1572 *approx_before += uatomic_read(&ht->percpu_count[i].add);
1573 *approx_before -= uatomic_read(&ht->percpu_count[i].del);
1574 }
1575 }
1576
273399de
MD
1577 *count = 0;
1578 *removed = 0;
1579
24365af7 1580 /* Count non-dummy nodes in the table */
4105056a 1581 lookup = &ht->t.tbl[0]->nodes[0];
14044b37 1582 node = (struct cds_lfht_node *) lookup;
273399de 1583 do {
cc4fcb10 1584 next = rcu_dereference(node->p.next);
b198f0fd 1585 if (is_removed(next)) {
973e5e1b
MD
1586 if (!is_dummy(next))
1587 (*removed)++;
1588 else
1589 (nr_dummy)++;
1b81fe1a 1590 } else if (!is_dummy(next))
273399de 1591 (*count)++;
24365af7
MD
1592 else
1593 (nr_dummy)++;
273399de 1594 node = clear_flag(next);
bb7b2f26 1595 } while (!is_end(node));
f0c29ed7 1596 dbg_printf("number of dummy nodes: %lu\n", nr_dummy);
7ed7682f 1597 *approx_after = 0;
973e5e1b
MD
1598 if (nr_cpus_mask >= 0) {
1599 int i;
1600
1601 for (i = 0; i < nr_cpus_mask + 1; i++) {
1602 *approx_after += uatomic_read(&ht->percpu_count[i].add);
1603 *approx_after -= uatomic_read(&ht->percpu_count[i].del);
1604 }
1605 }
273399de
MD
1606}
1607
1475579c 1608/* called with resize mutex held */
abc490a1 1609static
4105056a 1610void _do_cds_lfht_grow(struct cds_lfht *ht,
1475579c 1611 unsigned long old_size, unsigned long new_size)
abc490a1 1612{
1475579c 1613 unsigned long old_order, new_order;
1475579c
MD
1614
1615 old_order = get_count_order_ulong(old_size) + 1;
1616 new_order = get_count_order_ulong(new_size) + 1;
1617 printf("resize from %lu (order %lu) to %lu (order %lu) buckets\n",
1618 old_size, old_order, new_size, new_order);
1475579c 1619 assert(new_size > old_size);
4105056a 1620 init_table(ht, old_order, new_order - old_order);
abc490a1
MD
1621}
1622
1623/* called with resize mutex held */
1624static
4105056a 1625void _do_cds_lfht_shrink(struct cds_lfht *ht,
1475579c 1626 unsigned long old_size, unsigned long new_size)
464a1ec9 1627{
1475579c 1628 unsigned long old_order, new_order;
464a1ec9 1629
cd95516d 1630 new_size = max(new_size, MIN_TABLE_SIZE);
24365af7 1631 old_order = get_count_order_ulong(old_size) + 1;
24365af7 1632 new_order = get_count_order_ulong(new_size) + 1;
df44348d 1633 printf("resize from %lu (order %lu) to %lu (order %lu) buckets\n",
df03fab8 1634 old_size, old_order, new_size, new_order);
1475579c 1635 assert(new_size < old_size);
1475579c 1636
4105056a
MD
1637 /* Remove and unlink all dummy nodes to remove. */
1638 fini_table(ht, new_order, old_order - new_order);
464a1ec9
MD
1639}
1640
1475579c
MD
1641
1642/* called with resize mutex held */
1643static
1644void _do_cds_lfht_resize(struct cds_lfht *ht)
1645{
1646 unsigned long new_size, old_size;
4105056a
MD
1647
1648 /*
1649 * Resize table, re-do if the target size has changed under us.
1650 */
1651 do {
1652 ht->t.resize_initiated = 1;
1653 old_size = ht->t.size;
1654 new_size = CMM_LOAD_SHARED(ht->t.resize_target);
1655 if (old_size < new_size)
1656 _do_cds_lfht_grow(ht, old_size, new_size);
1657 else if (old_size > new_size)
1658 _do_cds_lfht_shrink(ht, old_size, new_size);
1659 ht->t.resize_initiated = 0;
1660 /* write resize_initiated before read resize_target */
1661 cmm_smp_mb();
4d676753 1662 } while (ht->t.size != CMM_LOAD_SHARED(ht->t.resize_target));
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1663}
1664
abc490a1 1665static
4105056a 1666unsigned long resize_target_update(struct cds_lfht *ht, unsigned long size,
f9830efd 1667 int growth_order)
464a1ec9 1668{
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1669 return _uatomic_max(&ht->t.resize_target,
1670 size << growth_order);
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1671}
1672
1475579c 1673static
4105056a 1674void resize_target_update_count(struct cds_lfht *ht,
b8af5011 1675 unsigned long count)
1475579c 1676{
cd95516d 1677 count = max(count, MIN_TABLE_SIZE);
4105056a 1678 uatomic_set(&ht->t.resize_target, count);
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1679}
1680
1681void cds_lfht_resize(struct cds_lfht *ht, unsigned long new_size)
464a1ec9 1682{
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1683 resize_target_update_count(ht, new_size);
1684 CMM_STORE_SHARED(ht->t.resize_initiated, 1);
5f511391 1685 ht->cds_lfht_rcu_thread_offline();
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1686 pthread_mutex_lock(&ht->resize_mutex);
1687 _do_cds_lfht_resize(ht);
1688 pthread_mutex_unlock(&ht->resize_mutex);
5f511391 1689 ht->cds_lfht_rcu_thread_online();
abc490a1 1690}
464a1ec9 1691
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1692static
1693void do_resize_cb(struct rcu_head *head)
1694{
1695 struct rcu_resize_work *work =
1696 caa_container_of(head, struct rcu_resize_work, head);
14044b37 1697 struct cds_lfht *ht = work->ht;
abc490a1 1698
5f511391 1699 ht->cds_lfht_rcu_thread_offline();
abc490a1 1700 pthread_mutex_lock(&ht->resize_mutex);
14044b37 1701 _do_cds_lfht_resize(ht);
abc490a1 1702 pthread_mutex_unlock(&ht->resize_mutex);
5f511391 1703 ht->cds_lfht_rcu_thread_online();
98808fb1 1704 poison_free(work);
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1705 cmm_smp_mb(); /* finish resize before decrement */
1706 uatomic_dec(&ht->in_progress_resize);
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1707}
1708
abc490a1 1709static
4105056a 1710void cds_lfht_resize_lazy(struct cds_lfht *ht, unsigned long size, int growth)
ab7d5fc6 1711{
abc490a1 1712 struct rcu_resize_work *work;
f9830efd 1713 unsigned long target_size;
abc490a1 1714
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1715 target_size = resize_target_update(ht, size, growth);
1716 /* Store resize_target before read resize_initiated */
1717 cmm_smp_mb();
1718 if (!CMM_LOAD_SHARED(ht->t.resize_initiated) && size < target_size) {
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1719 uatomic_inc(&ht->in_progress_resize);
1720 cmm_smp_mb(); /* increment resize count before calling it */
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1721 work = malloc(sizeof(*work));
1722 work->ht = ht;
14044b37 1723 ht->cds_lfht_call_rcu(&work->head, do_resize_cb);
4105056a 1724 CMM_STORE_SHARED(ht->t.resize_initiated, 1);
f9830efd 1725 }
ab7d5fc6 1726}
3171717f 1727
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1728#if defined(HAVE_SCHED_GETCPU) && defined(HAVE_SYSCONF)
1729
3171717f 1730static
4105056a 1731void cds_lfht_resize_lazy_count(struct cds_lfht *ht, unsigned long size,
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1732 unsigned long count)
1733{
1734 struct rcu_resize_work *work;
3171717f 1735
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1736 if (!(ht->flags & CDS_LFHT_AUTO_RESIZE))
1737 return;
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1738 resize_target_update_count(ht, count);
1739 /* Store resize_target before read resize_initiated */
1740 cmm_smp_mb();
1741 if (!CMM_LOAD_SHARED(ht->t.resize_initiated)) {
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1742 uatomic_inc(&ht->in_progress_resize);
1743 cmm_smp_mb(); /* increment resize count before calling it */
1744 work = malloc(sizeof(*work));
1745 work->ht = ht;
1746 ht->cds_lfht_call_rcu(&work->head, do_resize_cb);
4105056a 1747 CMM_STORE_SHARED(ht->t.resize_initiated, 1);
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1748 }
1749}
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1750
1751#endif
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