1e7ee1501SPaul E. McKenney // SPDX-License-Identifier: GPL-2.0+
2dad81a20SPaul E. McKenney /*
3dad81a20SPaul E. McKenney * Sleepable Read-Copy Update mechanism for mutual exclusion.
4dad81a20SPaul E. McKenney *
5dad81a20SPaul E. McKenney * Copyright (C) IBM Corporation, 2006
6dad81a20SPaul E. McKenney * Copyright (C) Fujitsu, 2012
7dad81a20SPaul E. McKenney *
865bb0dc4SSeongJae Park * Authors: Paul McKenney <paulmck@linux.ibm.com>
9dad81a20SPaul E. McKenney * Lai Jiangshan <laijs@cn.fujitsu.com>
10dad81a20SPaul E. McKenney *
11dad81a20SPaul E. McKenney * For detailed explanation of Read-Copy Update mechanism see -
12dad81a20SPaul E. McKenney * Documentation/RCU/ *.txt
13dad81a20SPaul E. McKenney *
14dad81a20SPaul E. McKenney */
15dad81a20SPaul E. McKenney
16a7538352SJoe Perches #define pr_fmt(fmt) "rcu: " fmt
17a7538352SJoe Perches
18dad81a20SPaul E. McKenney #include <linux/export.h>
19dad81a20SPaul E. McKenney #include <linux/mutex.h>
20dad81a20SPaul E. McKenney #include <linux/percpu.h>
21dad81a20SPaul E. McKenney #include <linux/preempt.h>
22dad81a20SPaul E. McKenney #include <linux/rcupdate_wait.h>
23dad81a20SPaul E. McKenney #include <linux/sched.h>
24dad81a20SPaul E. McKenney #include <linux/smp.h>
25dad81a20SPaul E. McKenney #include <linux/delay.h>
2622607d66SPaul E. McKenney #include <linux/module.h>
272ec30311SPaul E. McKenney #include <linux/slab.h>
28dad81a20SPaul E. McKenney #include <linux/srcu.h>
29dad81a20SPaul E. McKenney
30dad81a20SPaul E. McKenney #include "rcu.h"
3145753c5fSIngo Molnar #include "rcu_segcblist.h"
32dad81a20SPaul E. McKenney
330c8e0e3cSPaul E. McKenney /* Holdoff in nanoseconds for auto-expediting. */
340c8e0e3cSPaul E. McKenney #define DEFAULT_SRCU_EXP_HOLDOFF (25 * 1000)
350c8e0e3cSPaul E. McKenney static ulong exp_holdoff = DEFAULT_SRCU_EXP_HOLDOFF;
3622607d66SPaul E. McKenney module_param(exp_holdoff, ulong, 0444);
3722607d66SPaul E. McKenney
38c350c008SPaul E. McKenney /* Overflow-check frequency. N bits roughly says every 2**N grace periods. */
39c350c008SPaul E. McKenney static ulong counter_wrap_check = (ULONG_MAX >> 2);
40c350c008SPaul E. McKenney module_param(counter_wrap_check, ulong, 0444);
41c350c008SPaul E. McKenney
42c69a00a1SPaul E. McKenney /*
43c69a00a1SPaul E. McKenney * Control conversion to SRCU_SIZE_BIG:
44a57ffb3cSPaul E. McKenney * 0: Don't convert at all.
45c69a00a1SPaul E. McKenney * 1: Convert at init_srcu_struct() time.
46c69a00a1SPaul E. McKenney * 2: Convert when rcutorture invokes srcu_torture_stats_print().
47a57ffb3cSPaul E. McKenney * 3: Decide at boot time based on system shape (default).
489f2e91d9SPaul E. McKenney * 0x1x: Convert when excessive contention encountered.
49c69a00a1SPaul E. McKenney */
509f2e91d9SPaul E. McKenney #define SRCU_SIZING_NONE 0
519f2e91d9SPaul E. McKenney #define SRCU_SIZING_INIT 1
529f2e91d9SPaul E. McKenney #define SRCU_SIZING_TORTURE 2
539f2e91d9SPaul E. McKenney #define SRCU_SIZING_AUTO 3
549f2e91d9SPaul E. McKenney #define SRCU_SIZING_CONTEND 0x10
559f2e91d9SPaul E. McKenney #define SRCU_SIZING_IS(x) ((convert_to_big & ~SRCU_SIZING_CONTEND) == x)
569f2e91d9SPaul E. McKenney #define SRCU_SIZING_IS_NONE() (SRCU_SIZING_IS(SRCU_SIZING_NONE))
579f2e91d9SPaul E. McKenney #define SRCU_SIZING_IS_INIT() (SRCU_SIZING_IS(SRCU_SIZING_INIT))
589f2e91d9SPaul E. McKenney #define SRCU_SIZING_IS_TORTURE() (SRCU_SIZING_IS(SRCU_SIZING_TORTURE))
599f2e91d9SPaul E. McKenney #define SRCU_SIZING_IS_CONTEND() (convert_to_big & SRCU_SIZING_CONTEND)
60a57ffb3cSPaul E. McKenney static int convert_to_big = SRCU_SIZING_AUTO;
61c69a00a1SPaul E. McKenney module_param(convert_to_big, int, 0444);
62c69a00a1SPaul E. McKenney
63a57ffb3cSPaul E. McKenney /* Number of CPUs to trigger init_srcu_struct()-time transition to big. */
64a57ffb3cSPaul E. McKenney static int big_cpu_lim __read_mostly = 128;
65a57ffb3cSPaul E. McKenney module_param(big_cpu_lim, int, 0444);
66a57ffb3cSPaul E. McKenney
679f2e91d9SPaul E. McKenney /* Contention events per jiffy to initiate transition to big. */
689f2e91d9SPaul E. McKenney static int small_contention_lim __read_mostly = 100;
699f2e91d9SPaul E. McKenney module_param(small_contention_lim, int, 0444);
709f2e91d9SPaul E. McKenney
71e0fcba9aSPaul E. McKenney /* Early-boot callback-management, so early that no lock is required! */
72e0fcba9aSPaul E. McKenney static LIST_HEAD(srcu_boot_list);
73e0fcba9aSPaul E. McKenney static bool __read_mostly srcu_init_done;
74e0fcba9aSPaul E. McKenney
75da915ad5SPaul E. McKenney static void srcu_invoke_callbacks(struct work_struct *work);
76aacb5d91SPaul E. McKenney static void srcu_reschedule(struct srcu_struct *ssp, unsigned long delay);
770d8a1e83SPaul E. McKenney static void process_srcu(struct work_struct *work);
78e81baf4cSSebastian Andrzej Siewior static void srcu_delay_timer(struct timer_list *t);
79da915ad5SPaul E. McKenney
80d6331980SPaul E. McKenney /* Wrappers for lock acquisition and release, see raw_spin_lock_rcu_node(). */
81d6331980SPaul E. McKenney #define spin_lock_rcu_node(p) \
82d6331980SPaul E. McKenney do { \
83d6331980SPaul E. McKenney spin_lock(&ACCESS_PRIVATE(p, lock)); \
84d6331980SPaul E. McKenney smp_mb__after_unlock_lock(); \
85d6331980SPaul E. McKenney } while (0)
86d6331980SPaul E. McKenney
87d6331980SPaul E. McKenney #define spin_unlock_rcu_node(p) spin_unlock(&ACCESS_PRIVATE(p, lock))
88d6331980SPaul E. McKenney
89d6331980SPaul E. McKenney #define spin_lock_irq_rcu_node(p) \
90d6331980SPaul E. McKenney do { \
91d6331980SPaul E. McKenney spin_lock_irq(&ACCESS_PRIVATE(p, lock)); \
92d6331980SPaul E. McKenney smp_mb__after_unlock_lock(); \
93d6331980SPaul E. McKenney } while (0)
94d6331980SPaul E. McKenney
95d6331980SPaul E. McKenney #define spin_unlock_irq_rcu_node(p) \
96d6331980SPaul E. McKenney spin_unlock_irq(&ACCESS_PRIVATE(p, lock))
97d6331980SPaul E. McKenney
98d6331980SPaul E. McKenney #define spin_lock_irqsave_rcu_node(p, flags) \
99d6331980SPaul E. McKenney do { \
100d6331980SPaul E. McKenney spin_lock_irqsave(&ACCESS_PRIVATE(p, lock), flags); \
101d6331980SPaul E. McKenney smp_mb__after_unlock_lock(); \
102d6331980SPaul E. McKenney } while (0)
103d6331980SPaul E. McKenney
1049f2e91d9SPaul E. McKenney #define spin_trylock_irqsave_rcu_node(p, flags) \
1059f2e91d9SPaul E. McKenney ({ \
1069f2e91d9SPaul E. McKenney bool ___locked = spin_trylock_irqsave(&ACCESS_PRIVATE(p, lock), flags); \
1079f2e91d9SPaul E. McKenney \
1089f2e91d9SPaul E. McKenney if (___locked) \
1099f2e91d9SPaul E. McKenney smp_mb__after_unlock_lock(); \
1109f2e91d9SPaul E. McKenney ___locked; \
1119f2e91d9SPaul E. McKenney })
1129f2e91d9SPaul E. McKenney
113d6331980SPaul E. McKenney #define spin_unlock_irqrestore_rcu_node(p, flags) \
114d6331980SPaul E. McKenney spin_unlock_irqrestore(&ACCESS_PRIVATE(p, lock), flags) \
115d6331980SPaul E. McKenney
116da915ad5SPaul E. McKenney /*
1172ec30311SPaul E. McKenney * Initialize SRCU per-CPU data. Note that statically allocated
118da915ad5SPaul E. McKenney * srcu_struct structures might already have srcu_read_lock() and
119da915ad5SPaul E. McKenney * srcu_read_unlock() running against them. So if the is_static parameter
120da915ad5SPaul E. McKenney * is set, don't initialize ->srcu_lock_count[] and ->srcu_unlock_count[].
121da915ad5SPaul E. McKenney */
init_srcu_struct_data(struct srcu_struct * ssp)1222ec30311SPaul E. McKenney static void init_srcu_struct_data(struct srcu_struct *ssp)
1232ec30311SPaul E. McKenney {
1242ec30311SPaul E. McKenney int cpu;
1252ec30311SPaul E. McKenney struct srcu_data *sdp;
1262ec30311SPaul E. McKenney
1272ec30311SPaul E. McKenney /*
1282ec30311SPaul E. McKenney * Initialize the per-CPU srcu_data array, which feeds into the
1292ec30311SPaul E. McKenney * leaves of the srcu_node tree.
1302ec30311SPaul E. McKenney */
1312ec30311SPaul E. McKenney WARN_ON_ONCE(ARRAY_SIZE(sdp->srcu_lock_count) !=
1322ec30311SPaul E. McKenney ARRAY_SIZE(sdp->srcu_unlock_count));
1332ec30311SPaul E. McKenney for_each_possible_cpu(cpu) {
1342ec30311SPaul E. McKenney sdp = per_cpu_ptr(ssp->sda, cpu);
1352ec30311SPaul E. McKenney spin_lock_init(&ACCESS_PRIVATE(sdp, lock));
1362ec30311SPaul E. McKenney rcu_segcblist_init(&sdp->srcu_cblist);
1372ec30311SPaul E. McKenney sdp->srcu_cblist_invoking = false;
13803200b5cSPaul E. McKenney sdp->srcu_gp_seq_needed = ssp->srcu_sup->srcu_gp_seq;
13903200b5cSPaul E. McKenney sdp->srcu_gp_seq_needed_exp = ssp->srcu_sup->srcu_gp_seq;
1402ec30311SPaul E. McKenney sdp->mynode = NULL;
1412ec30311SPaul E. McKenney sdp->cpu = cpu;
1422ec30311SPaul E. McKenney INIT_WORK(&sdp->work, srcu_invoke_callbacks);
1432ec30311SPaul E. McKenney timer_setup(&sdp->delay_work, srcu_delay_timer, 0);
1442ec30311SPaul E. McKenney sdp->ssp = ssp;
1452ec30311SPaul E. McKenney }
1462ec30311SPaul E. McKenney }
1472ec30311SPaul E. McKenney
148cbdc98e9SPaul E. McKenney /* Invalid seq state, used during snp node initialization */
149cbdc98e9SPaul E. McKenney #define SRCU_SNP_INIT_SEQ 0x2
150cbdc98e9SPaul E. McKenney
151cbdc98e9SPaul E. McKenney /*
152cbdc98e9SPaul E. McKenney * Check whether sequence number corresponding to snp node,
153cbdc98e9SPaul E. McKenney * is invalid.
154cbdc98e9SPaul E. McKenney */
srcu_invl_snp_seq(unsigned long s)155cbdc98e9SPaul E. McKenney static inline bool srcu_invl_snp_seq(unsigned long s)
156cbdc98e9SPaul E. McKenney {
15750be0c04SPingfan Liu return s == SRCU_SNP_INIT_SEQ;
158cbdc98e9SPaul E. McKenney }
159cbdc98e9SPaul E. McKenney
1602ec30311SPaul E. McKenney /*
1612ec30311SPaul E. McKenney * Allocated and initialize SRCU combining tree. Returns @true if
1622ec30311SPaul E. McKenney * allocation succeeded and @false otherwise.
1632ec30311SPaul E. McKenney */
init_srcu_struct_nodes(struct srcu_struct * ssp,gfp_t gfp_flags)164c69a00a1SPaul E. McKenney static bool init_srcu_struct_nodes(struct srcu_struct *ssp, gfp_t gfp_flags)
165dad81a20SPaul E. McKenney {
166da915ad5SPaul E. McKenney int cpu;
167da915ad5SPaul E. McKenney int i;
168da915ad5SPaul E. McKenney int level = 0;
169da915ad5SPaul E. McKenney int levelspread[RCU_NUM_LVLS];
170da915ad5SPaul E. McKenney struct srcu_data *sdp;
171da915ad5SPaul E. McKenney struct srcu_node *snp;
172da915ad5SPaul E. McKenney struct srcu_node *snp_first;
173da915ad5SPaul E. McKenney
174b5befe84SFrederic Weisbecker /* Initialize geometry if it has not already been initialized. */
175b5befe84SFrederic Weisbecker rcu_init_geometry();
17695433f72SPaul E. McKenney ssp->srcu_sup->node = kcalloc(rcu_num_nodes, sizeof(*ssp->srcu_sup->node), gfp_flags);
17795433f72SPaul E. McKenney if (!ssp->srcu_sup->node)
1782ec30311SPaul E. McKenney return false;
179b5befe84SFrederic Weisbecker
180da915ad5SPaul E. McKenney /* Work out the overall tree geometry. */
181208f41b1SPaul E. McKenney ssp->srcu_sup->level[0] = &ssp->srcu_sup->node[0];
182da915ad5SPaul E. McKenney for (i = 1; i < rcu_num_lvls; i++)
183208f41b1SPaul E. McKenney ssp->srcu_sup->level[i] = ssp->srcu_sup->level[i - 1] + num_rcu_lvl[i - 1];
184da915ad5SPaul E. McKenney rcu_init_levelspread(levelspread, num_rcu_lvl);
185da915ad5SPaul E. McKenney
186da915ad5SPaul E. McKenney /* Each pass through this loop initializes one srcu_node structure. */
187aacb5d91SPaul E. McKenney srcu_for_each_node_breadth_first(ssp, snp) {
188d6331980SPaul E. McKenney spin_lock_init(&ACCESS_PRIVATE(snp, lock));
189c7e88067SPaul E. McKenney WARN_ON_ONCE(ARRAY_SIZE(snp->srcu_have_cbs) !=
190c7e88067SPaul E. McKenney ARRAY_SIZE(snp->srcu_data_have_cbs));
191c7e88067SPaul E. McKenney for (i = 0; i < ARRAY_SIZE(snp->srcu_have_cbs); i++) {
192cbdc98e9SPaul E. McKenney snp->srcu_have_cbs[i] = SRCU_SNP_INIT_SEQ;
193c7e88067SPaul E. McKenney snp->srcu_data_have_cbs[i] = 0;
194c7e88067SPaul E. McKenney }
195cbdc98e9SPaul E. McKenney snp->srcu_gp_seq_needed_exp = SRCU_SNP_INIT_SEQ;
196da915ad5SPaul E. McKenney snp->grplo = -1;
197da915ad5SPaul E. McKenney snp->grphi = -1;
19895433f72SPaul E. McKenney if (snp == &ssp->srcu_sup->node[0]) {
199da915ad5SPaul E. McKenney /* Root node, special case. */
200da915ad5SPaul E. McKenney snp->srcu_parent = NULL;
201da915ad5SPaul E. McKenney continue;
202da915ad5SPaul E. McKenney }
203da915ad5SPaul E. McKenney
204da915ad5SPaul E. McKenney /* Non-root node. */
205208f41b1SPaul E. McKenney if (snp == ssp->srcu_sup->level[level + 1])
206da915ad5SPaul E. McKenney level++;
207208f41b1SPaul E. McKenney snp->srcu_parent = ssp->srcu_sup->level[level - 1] +
208208f41b1SPaul E. McKenney (snp - ssp->srcu_sup->level[level]) /
209da915ad5SPaul E. McKenney levelspread[level - 1];
210da915ad5SPaul E. McKenney }
211da915ad5SPaul E. McKenney
212da915ad5SPaul E. McKenney /*
213da915ad5SPaul E. McKenney * Initialize the per-CPU srcu_data array, which feeds into the
214da915ad5SPaul E. McKenney * leaves of the srcu_node tree.
215da915ad5SPaul E. McKenney */
216da915ad5SPaul E. McKenney level = rcu_num_lvls - 1;
217208f41b1SPaul E. McKenney snp_first = ssp->srcu_sup->level[level];
218da915ad5SPaul E. McKenney for_each_possible_cpu(cpu) {
219aacb5d91SPaul E. McKenney sdp = per_cpu_ptr(ssp->sda, cpu);
220da915ad5SPaul E. McKenney sdp->mynode = &snp_first[cpu / levelspread[level]];
221da915ad5SPaul E. McKenney for (snp = sdp->mynode; snp != NULL; snp = snp->srcu_parent) {
222da915ad5SPaul E. McKenney if (snp->grplo < 0)
223da915ad5SPaul E. McKenney snp->grplo = cpu;
224da915ad5SPaul E. McKenney snp->grphi = cpu;
225da915ad5SPaul E. McKenney }
22674f6aedbSDenis Arefev sdp->grpmask = 1UL << (cpu - sdp->mynode->grplo);
227da915ad5SPaul E. McKenney }
228a0d8cbd3SPaul E. McKenney smp_store_release(&ssp->srcu_sup->srcu_size_state, SRCU_SIZE_WAIT_BARRIER);
2292ec30311SPaul E. McKenney return true;
230da915ad5SPaul E. McKenney }
231da915ad5SPaul E. McKenney
232da915ad5SPaul E. McKenney /*
233da915ad5SPaul E. McKenney * Initialize non-compile-time initialized fields, including the
234994f7068SPaul E. McKenney * associated srcu_node and srcu_data structures. The is_static parameter
235994f7068SPaul E. McKenney * tells us that ->sda has already been wired up to srcu_data.
236da915ad5SPaul E. McKenney */
init_srcu_struct_fields(struct srcu_struct * ssp,bool is_static)237aacb5d91SPaul E. McKenney static int init_srcu_struct_fields(struct srcu_struct *ssp, bool is_static)
238da915ad5SPaul E. McKenney {
23995433f72SPaul E. McKenney if (!is_static)
24095433f72SPaul E. McKenney ssp->srcu_sup = kzalloc(sizeof(*ssp->srcu_sup), GFP_KERNEL);
24195433f72SPaul E. McKenney if (!ssp->srcu_sup)
24295433f72SPaul E. McKenney return -ENOMEM;
2430839ade9SPaul E. McKenney if (!is_static)
244b3fb11f7SPaul E. McKenney spin_lock_init(&ACCESS_PRIVATE(ssp->srcu_sup, lock));
245a0d8cbd3SPaul E. McKenney ssp->srcu_sup->srcu_size_state = SRCU_SIZE_SMALL;
24695433f72SPaul E. McKenney ssp->srcu_sup->node = NULL;
247574dc1a7SPaul E. McKenney mutex_init(&ssp->srcu_sup->srcu_cb_mutex);
248e3a6ab25SPaul E. McKenney mutex_init(&ssp->srcu_sup->srcu_gp_mutex);
249aacb5d91SPaul E. McKenney ssp->srcu_idx = 0;
25003200b5cSPaul E. McKenney ssp->srcu_sup->srcu_gp_seq = 0;
251d20162e0SPaul E. McKenney ssp->srcu_sup->srcu_barrier_seq = 0;
252d20162e0SPaul E. McKenney mutex_init(&ssp->srcu_sup->srcu_barrier_mutex);
253d20162e0SPaul E. McKenney atomic_set(&ssp->srcu_sup->srcu_barrier_cpu_cnt, 0);
254fd1b3f8eSPaul E. McKenney INIT_DELAYED_WORK(&ssp->srcu_sup->work, process_srcu);
255660349acSPaul E. McKenney ssp->srcu_sup->sda_is_static = is_static;
256da915ad5SPaul E. McKenney if (!is_static)
257aacb5d91SPaul E. McKenney ssp->sda = alloc_percpu(struct srcu_data);
25895433f72SPaul E. McKenney if (!ssp->sda) {
25995433f72SPaul E. McKenney if (!is_static)
26095433f72SPaul E. McKenney kfree(ssp->srcu_sup);
26150edb988SPaul E. McKenney return -ENOMEM;
26295433f72SPaul E. McKenney }
2632ec30311SPaul E. McKenney init_srcu_struct_data(ssp);
26403200b5cSPaul E. McKenney ssp->srcu_sup->srcu_gp_seq_needed_exp = 0;
26503200b5cSPaul E. McKenney ssp->srcu_sup->srcu_last_gp_end = ktime_get_mono_fast_ns();
266a0d8cbd3SPaul E. McKenney if (READ_ONCE(ssp->srcu_sup->srcu_size_state) == SRCU_SIZE_SMALL && SRCU_SIZING_IS_INIT()) {
267c69a00a1SPaul E. McKenney if (!init_srcu_struct_nodes(ssp, GFP_ATOMIC)) {
268660349acSPaul E. McKenney if (!ssp->srcu_sup->sda_is_static) {
2692ec30311SPaul E. McKenney free_percpu(ssp->sda);
2702ec30311SPaul E. McKenney ssp->sda = NULL;
27195433f72SPaul E. McKenney kfree(ssp->srcu_sup);
2722ec30311SPaul E. McKenney return -ENOMEM;
2732ec30311SPaul E. McKenney }
2742ec30311SPaul E. McKenney } else {
275a0d8cbd3SPaul E. McKenney WRITE_ONCE(ssp->srcu_sup->srcu_size_state, SRCU_SIZE_BIG);
2762ec30311SPaul E. McKenney }
277c69a00a1SPaul E. McKenney }
278fd1b3f8eSPaul E. McKenney ssp->srcu_sup->srcu_ssp = ssp;
27903200b5cSPaul E. McKenney smp_store_release(&ssp->srcu_sup->srcu_gp_seq_needed, 0); /* Init done. */
28050edb988SPaul E. McKenney return 0;
281dad81a20SPaul E. McKenney }
282dad81a20SPaul E. McKenney
283dad81a20SPaul E. McKenney #ifdef CONFIG_DEBUG_LOCK_ALLOC
284dad81a20SPaul E. McKenney
__init_srcu_struct(struct srcu_struct * ssp,const char * name,struct lock_class_key * key)285aacb5d91SPaul E. McKenney int __init_srcu_struct(struct srcu_struct *ssp, const char *name,
286dad81a20SPaul E. McKenney struct lock_class_key *key)
287dad81a20SPaul E. McKenney {
288dad81a20SPaul E. McKenney /* Don't re-initialize a lock while it is held. */
289aacb5d91SPaul E. McKenney debug_check_no_locks_freed((void *)ssp, sizeof(*ssp));
290aacb5d91SPaul E. McKenney lockdep_init_map(&ssp->dep_map, name, key, 0);
291aacb5d91SPaul E. McKenney return init_srcu_struct_fields(ssp, false);
292dad81a20SPaul E. McKenney }
293dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(__init_srcu_struct);
294dad81a20SPaul E. McKenney
295dad81a20SPaul E. McKenney #else /* #ifdef CONFIG_DEBUG_LOCK_ALLOC */
296dad81a20SPaul E. McKenney
297dad81a20SPaul E. McKenney /**
298dad81a20SPaul E. McKenney * init_srcu_struct - initialize a sleep-RCU structure
299aacb5d91SPaul E. McKenney * @ssp: structure to initialize.
300dad81a20SPaul E. McKenney *
301dad81a20SPaul E. McKenney * Must invoke this on a given srcu_struct before passing that srcu_struct
302dad81a20SPaul E. McKenney * to any other function. Each srcu_struct represents a separate domain
303dad81a20SPaul E. McKenney * of SRCU protection.
304dad81a20SPaul E. McKenney */
init_srcu_struct(struct srcu_struct * ssp)305aacb5d91SPaul E. McKenney int init_srcu_struct(struct srcu_struct *ssp)
306dad81a20SPaul E. McKenney {
307aacb5d91SPaul E. McKenney return init_srcu_struct_fields(ssp, false);
308dad81a20SPaul E. McKenney }
309dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(init_srcu_struct);
310dad81a20SPaul E. McKenney
311dad81a20SPaul E. McKenney #endif /* #else #ifdef CONFIG_DEBUG_LOCK_ALLOC */
312dad81a20SPaul E. McKenney
313dad81a20SPaul E. McKenney /*
3149f2e91d9SPaul E. McKenney * Initiate a transition to SRCU_SIZE_BIG with lock held.
3159f2e91d9SPaul E. McKenney */
__srcu_transition_to_big(struct srcu_struct * ssp)3169f2e91d9SPaul E. McKenney static void __srcu_transition_to_big(struct srcu_struct *ssp)
3179f2e91d9SPaul E. McKenney {
318b3fb11f7SPaul E. McKenney lockdep_assert_held(&ACCESS_PRIVATE(ssp->srcu_sup, lock));
319a0d8cbd3SPaul E. McKenney smp_store_release(&ssp->srcu_sup->srcu_size_state, SRCU_SIZE_ALLOC);
3209f2e91d9SPaul E. McKenney }
3219f2e91d9SPaul E. McKenney
3229f2e91d9SPaul E. McKenney /*
32399659f64SPaul E. McKenney * Initiate an idempotent transition to SRCU_SIZE_BIG.
32499659f64SPaul E. McKenney */
srcu_transition_to_big(struct srcu_struct * ssp)32599659f64SPaul E. McKenney static void srcu_transition_to_big(struct srcu_struct *ssp)
32699659f64SPaul E. McKenney {
32799659f64SPaul E. McKenney unsigned long flags;
32899659f64SPaul E. McKenney
32999659f64SPaul E. McKenney /* Double-checked locking on ->srcu_size-state. */
330a0d8cbd3SPaul E. McKenney if (smp_load_acquire(&ssp->srcu_sup->srcu_size_state) != SRCU_SIZE_SMALL)
33199659f64SPaul E. McKenney return;
332b3fb11f7SPaul E. McKenney spin_lock_irqsave_rcu_node(ssp->srcu_sup, flags);
333a0d8cbd3SPaul E. McKenney if (smp_load_acquire(&ssp->srcu_sup->srcu_size_state) != SRCU_SIZE_SMALL) {
334b3fb11f7SPaul E. McKenney spin_unlock_irqrestore_rcu_node(ssp->srcu_sup, flags);
33599659f64SPaul E. McKenney return;
33699659f64SPaul E. McKenney }
3379f2e91d9SPaul E. McKenney __srcu_transition_to_big(ssp);
338b3fb11f7SPaul E. McKenney spin_unlock_irqrestore_rcu_node(ssp->srcu_sup, flags);
33999659f64SPaul E. McKenney }
34099659f64SPaul E. McKenney
34199659f64SPaul E. McKenney /*
342c2445d38SPaul E. McKenney * Check to see if the just-encountered contention event justifies
343c2445d38SPaul E. McKenney * a transition to SRCU_SIZE_BIG.
3449f2e91d9SPaul E. McKenney */
spin_lock_irqsave_check_contention(struct srcu_struct * ssp)345c2445d38SPaul E. McKenney static void spin_lock_irqsave_check_contention(struct srcu_struct *ssp)
3469f2e91d9SPaul E. McKenney {
3479f2e91d9SPaul E. McKenney unsigned long j;
3489f2e91d9SPaul E. McKenney
349a0d8cbd3SPaul E. McKenney if (!SRCU_SIZING_IS_CONTEND() || ssp->srcu_sup->srcu_size_state)
3509f2e91d9SPaul E. McKenney return;
3519f2e91d9SPaul E. McKenney j = jiffies;
3523b46679cSPaul E. McKenney if (ssp->srcu_sup->srcu_size_jiffies != j) {
3533b46679cSPaul E. McKenney ssp->srcu_sup->srcu_size_jiffies = j;
3543b46679cSPaul E. McKenney ssp->srcu_sup->srcu_n_lock_retries = 0;
3559f2e91d9SPaul E. McKenney }
3563b46679cSPaul E. McKenney if (++ssp->srcu_sup->srcu_n_lock_retries <= small_contention_lim)
3579f2e91d9SPaul E. McKenney return;
3589f2e91d9SPaul E. McKenney __srcu_transition_to_big(ssp);
3599f2e91d9SPaul E. McKenney }
3609f2e91d9SPaul E. McKenney
3619f2e91d9SPaul E. McKenney /*
362c2445d38SPaul E. McKenney * Acquire the specified srcu_data structure's ->lock, but check for
363c2445d38SPaul E. McKenney * excessive contention, which results in initiation of a transition
364c2445d38SPaul E. McKenney * to SRCU_SIZE_BIG. But only if the srcutree.convert_to_big module
365c2445d38SPaul E. McKenney * parameter permits this.
366c2445d38SPaul E. McKenney */
spin_lock_irqsave_sdp_contention(struct srcu_data * sdp,unsigned long * flags)367c2445d38SPaul E. McKenney static void spin_lock_irqsave_sdp_contention(struct srcu_data *sdp, unsigned long *flags)
368c2445d38SPaul E. McKenney {
369c2445d38SPaul E. McKenney struct srcu_struct *ssp = sdp->ssp;
370c2445d38SPaul E. McKenney
371c2445d38SPaul E. McKenney if (spin_trylock_irqsave_rcu_node(sdp, *flags))
372c2445d38SPaul E. McKenney return;
373b3fb11f7SPaul E. McKenney spin_lock_irqsave_rcu_node(ssp->srcu_sup, *flags);
374c2445d38SPaul E. McKenney spin_lock_irqsave_check_contention(ssp);
375b3fb11f7SPaul E. McKenney spin_unlock_irqrestore_rcu_node(ssp->srcu_sup, *flags);
376c2445d38SPaul E. McKenney spin_lock_irqsave_rcu_node(sdp, *flags);
377c2445d38SPaul E. McKenney }
378c2445d38SPaul E. McKenney
379c2445d38SPaul E. McKenney /*
380c2445d38SPaul E. McKenney * Acquire the specified srcu_struct structure's ->lock, but check for
381c2445d38SPaul E. McKenney * excessive contention, which results in initiation of a transition
382c2445d38SPaul E. McKenney * to SRCU_SIZE_BIG. But only if the srcutree.convert_to_big module
383c2445d38SPaul E. McKenney * parameter permits this.
384c2445d38SPaul E. McKenney */
spin_lock_irqsave_ssp_contention(struct srcu_struct * ssp,unsigned long * flags)385c2445d38SPaul E. McKenney static void spin_lock_irqsave_ssp_contention(struct srcu_struct *ssp, unsigned long *flags)
386c2445d38SPaul E. McKenney {
387b3fb11f7SPaul E. McKenney if (spin_trylock_irqsave_rcu_node(ssp->srcu_sup, *flags))
388c2445d38SPaul E. McKenney return;
389b3fb11f7SPaul E. McKenney spin_lock_irqsave_rcu_node(ssp->srcu_sup, *flags);
390c2445d38SPaul E. McKenney spin_lock_irqsave_check_contention(ssp);
391c2445d38SPaul E. McKenney }
392c2445d38SPaul E. McKenney
393c2445d38SPaul E. McKenney /*
394da915ad5SPaul E. McKenney * First-use initialization of statically allocated srcu_struct
395da915ad5SPaul E. McKenney * structure. Wiring up the combining tree is more than can be
396da915ad5SPaul E. McKenney * done with compile-time initialization, so this check is added
397aacb5d91SPaul E. McKenney * to each update-side SRCU primitive. Use ssp->lock, which -is-
398da915ad5SPaul E. McKenney * compile-time initialized, to resolve races involving multiple
399da915ad5SPaul E. McKenney * CPUs trying to garner first-use privileges.
400da915ad5SPaul E. McKenney */
check_init_srcu_struct(struct srcu_struct * ssp)401aacb5d91SPaul E. McKenney static void check_init_srcu_struct(struct srcu_struct *ssp)
402da915ad5SPaul E. McKenney {
403da915ad5SPaul E. McKenney unsigned long flags;
404da915ad5SPaul E. McKenney
405da915ad5SPaul E. McKenney /* The smp_load_acquire() pairs with the smp_store_release(). */
40603200b5cSPaul E. McKenney if (!rcu_seq_state(smp_load_acquire(&ssp->srcu_sup->srcu_gp_seq_needed))) /*^^^*/
407da915ad5SPaul E. McKenney return; /* Already initialized. */
408b3fb11f7SPaul E. McKenney spin_lock_irqsave_rcu_node(ssp->srcu_sup, flags);
40903200b5cSPaul E. McKenney if (!rcu_seq_state(ssp->srcu_sup->srcu_gp_seq_needed)) {
410b3fb11f7SPaul E. McKenney spin_unlock_irqrestore_rcu_node(ssp->srcu_sup, flags);
411da915ad5SPaul E. McKenney return;
412da915ad5SPaul E. McKenney }
413aacb5d91SPaul E. McKenney init_srcu_struct_fields(ssp, true);
414b3fb11f7SPaul E. McKenney spin_unlock_irqrestore_rcu_node(ssp->srcu_sup, flags);
415da915ad5SPaul E. McKenney }
416da915ad5SPaul E. McKenney
417da915ad5SPaul E. McKenney /*
418da915ad5SPaul E. McKenney * Returns approximate total of the readers' ->srcu_lock_count[] values
419da915ad5SPaul E. McKenney * for the rank of per-CPU counters specified by idx.
420dad81a20SPaul E. McKenney */
srcu_readers_lock_idx(struct srcu_struct * ssp,int idx)421aacb5d91SPaul E. McKenney static unsigned long srcu_readers_lock_idx(struct srcu_struct *ssp, int idx)
422dad81a20SPaul E. McKenney {
423dad81a20SPaul E. McKenney int cpu;
424dad81a20SPaul E. McKenney unsigned long sum = 0;
425dad81a20SPaul E. McKenney
426dad81a20SPaul E. McKenney for_each_possible_cpu(cpu) {
427aacb5d91SPaul E. McKenney struct srcu_data *cpuc = per_cpu_ptr(ssp->sda, cpu);
428dad81a20SPaul E. McKenney
4295d0f5953SPaul E. McKenney sum += atomic_long_read(&cpuc->srcu_lock_count[idx]);
430dad81a20SPaul E. McKenney }
431dad81a20SPaul E. McKenney return sum;
432dad81a20SPaul E. McKenney }
433dad81a20SPaul E. McKenney
434dad81a20SPaul E. McKenney /*
435da915ad5SPaul E. McKenney * Returns approximate total of the readers' ->srcu_unlock_count[] values
436da915ad5SPaul E. McKenney * for the rank of per-CPU counters specified by idx.
437dad81a20SPaul E. McKenney */
srcu_readers_unlock_idx(struct srcu_struct * ssp,int idx)438aacb5d91SPaul E. McKenney static unsigned long srcu_readers_unlock_idx(struct srcu_struct *ssp, int idx)
439dad81a20SPaul E. McKenney {
440dad81a20SPaul E. McKenney int cpu;
44136f65f1dSPaul E. McKenney unsigned long mask = 0;
442dad81a20SPaul E. McKenney unsigned long sum = 0;
443dad81a20SPaul E. McKenney
444dad81a20SPaul E. McKenney for_each_possible_cpu(cpu) {
445aacb5d91SPaul E. McKenney struct srcu_data *cpuc = per_cpu_ptr(ssp->sda, cpu);
446dad81a20SPaul E. McKenney
4475d0f5953SPaul E. McKenney sum += atomic_long_read(&cpuc->srcu_unlock_count[idx]);
44836f65f1dSPaul E. McKenney if (IS_ENABLED(CONFIG_PROVE_RCU))
44936f65f1dSPaul E. McKenney mask = mask | READ_ONCE(cpuc->srcu_nmi_safety);
450dad81a20SPaul E. McKenney }
45136f65f1dSPaul E. McKenney WARN_ONCE(IS_ENABLED(CONFIG_PROVE_RCU) && (mask & (mask >> 1)),
45236f65f1dSPaul E. McKenney "Mixed NMI-safe readers for srcu_struct at %ps.\n", ssp);
453dad81a20SPaul E. McKenney return sum;
454dad81a20SPaul E. McKenney }
455dad81a20SPaul E. McKenney
456dad81a20SPaul E. McKenney /*
457dad81a20SPaul E. McKenney * Return true if the number of pre-existing readers is determined to
458dad81a20SPaul E. McKenney * be zero.
459dad81a20SPaul E. McKenney */
srcu_readers_active_idx_check(struct srcu_struct * ssp,int idx)460aacb5d91SPaul E. McKenney static bool srcu_readers_active_idx_check(struct srcu_struct *ssp, int idx)
461dad81a20SPaul E. McKenney {
462dad81a20SPaul E. McKenney unsigned long unlocks;
463dad81a20SPaul E. McKenney
464aacb5d91SPaul E. McKenney unlocks = srcu_readers_unlock_idx(ssp, idx);
465dad81a20SPaul E. McKenney
466dad81a20SPaul E. McKenney /*
467dad81a20SPaul E. McKenney * Make sure that a lock is always counted if the corresponding
468dad81a20SPaul E. McKenney * unlock is counted. Needs to be a smp_mb() as the read side may
469dad81a20SPaul E. McKenney * contain a read from a variable that is written to before the
470dad81a20SPaul E. McKenney * synchronize_srcu() in the write side. In this case smp_mb()s
471dad81a20SPaul E. McKenney * A and B act like the store buffering pattern.
472dad81a20SPaul E. McKenney *
473dad81a20SPaul E. McKenney * This smp_mb() also pairs with smp_mb() C to prevent accesses
474dad81a20SPaul E. McKenney * after the synchronize_srcu() from being executed before the
475dad81a20SPaul E. McKenney * grace period ends.
476dad81a20SPaul E. McKenney */
477dad81a20SPaul E. McKenney smp_mb(); /* A */
478dad81a20SPaul E. McKenney
479dad81a20SPaul E. McKenney /*
480dad81a20SPaul E. McKenney * If the locks are the same as the unlocks, then there must have
4810cd4b50bSPaul E. McKenney * been no readers on this index at some point in this function.
4820cd4b50bSPaul E. McKenney * But there might be more readers, as a task might have read
4830cd4b50bSPaul E. McKenney * the current ->srcu_idx but not yet have incremented its CPU's
4840cd4b50bSPaul E. McKenney * ->srcu_lock_count[idx] counter. In fact, it is possible
4850cd4b50bSPaul E. McKenney * that most of the tasks have been preempted between fetching
4860cd4b50bSPaul E. McKenney * ->srcu_idx and incrementing ->srcu_lock_count[idx]. And there
4870cd4b50bSPaul E. McKenney * could be almost (ULONG_MAX / sizeof(struct task_struct)) tasks
4880cd4b50bSPaul E. McKenney * in a system whose address space was fully populated with memory.
4890cd4b50bSPaul E. McKenney * Call this quantity Nt.
490dad81a20SPaul E. McKenney *
4910cd4b50bSPaul E. McKenney * So suppose that the updater is preempted at this point in the
4920cd4b50bSPaul E. McKenney * code for a long time. That now-preempted updater has already
4930cd4b50bSPaul E. McKenney * flipped ->srcu_idx (possibly during the preceding grace period),
4940cd4b50bSPaul E. McKenney * done an smp_mb() (again, possibly during the preceding grace
4950cd4b50bSPaul E. McKenney * period), and summed up the ->srcu_unlock_count[idx] counters.
4960cd4b50bSPaul E. McKenney * How many times can a given one of the aforementioned Nt tasks
4970cd4b50bSPaul E. McKenney * increment the old ->srcu_idx value's ->srcu_lock_count[idx]
4980cd4b50bSPaul E. McKenney * counter, in the absence of nesting?
499881ec9d2SPaul E. McKenney *
5000cd4b50bSPaul E. McKenney * It can clearly do so once, given that it has already fetched
5010cd4b50bSPaul E. McKenney * the old value of ->srcu_idx and is just about to use that value
5020cd4b50bSPaul E. McKenney * to index its increment of ->srcu_lock_count[idx]. But as soon as
5030cd4b50bSPaul E. McKenney * it leaves that SRCU read-side critical section, it will increment
5040cd4b50bSPaul E. McKenney * ->srcu_unlock_count[idx], which must follow the updater's above
5050cd4b50bSPaul E. McKenney * read from that same value. Thus, as soon the reading task does
5060cd4b50bSPaul E. McKenney * an smp_mb() and a later fetch from ->srcu_idx, that task will be
5070cd4b50bSPaul E. McKenney * guaranteed to get the new index. Except that the increment of
5080cd4b50bSPaul E. McKenney * ->srcu_unlock_count[idx] in __srcu_read_unlock() is after the
5090cd4b50bSPaul E. McKenney * smp_mb(), and the fetch from ->srcu_idx in __srcu_read_lock()
5100cd4b50bSPaul E. McKenney * is before the smp_mb(). Thus, that task might not see the new
5110cd4b50bSPaul E. McKenney * value of ->srcu_idx until the -second- __srcu_read_lock(),
5120cd4b50bSPaul E. McKenney * which in turn means that this task might well increment
5130cd4b50bSPaul E. McKenney * ->srcu_lock_count[idx] for the old value of ->srcu_idx twice,
5140cd4b50bSPaul E. McKenney * not just once.
5150cd4b50bSPaul E. McKenney *
5160cd4b50bSPaul E. McKenney * However, it is important to note that a given smp_mb() takes
5170cd4b50bSPaul E. McKenney * effect not just for the task executing it, but also for any
5180cd4b50bSPaul E. McKenney * later task running on that same CPU.
5190cd4b50bSPaul E. McKenney *
5200cd4b50bSPaul E. McKenney * That is, there can be almost Nt + Nc further increments of
5210cd4b50bSPaul E. McKenney * ->srcu_lock_count[idx] for the old index, where Nc is the number
5220cd4b50bSPaul E. McKenney * of CPUs. But this is OK because the size of the task_struct
5230cd4b50bSPaul E. McKenney * structure limits the value of Nt and current systems limit Nc
5240cd4b50bSPaul E. McKenney * to a few thousand.
5250cd4b50bSPaul E. McKenney *
5260cd4b50bSPaul E. McKenney * OK, but what about nesting? This does impose a limit on
5270cd4b50bSPaul E. McKenney * nesting of half of the size of the task_struct structure
5280cd4b50bSPaul E. McKenney * (measured in bytes), which should be sufficient. A late 2022
5290cd4b50bSPaul E. McKenney * TREE01 rcutorture run reported this size to be no less than
5300cd4b50bSPaul E. McKenney * 9408 bytes, allowing up to 4704 levels of nesting, which is
5310cd4b50bSPaul E. McKenney * comfortably beyond excessive. Especially on 64-bit systems,
5320cd4b50bSPaul E. McKenney * which are unlikely to be configured with an address space fully
5330cd4b50bSPaul E. McKenney * populated with memory, at least not anytime soon.
534dad81a20SPaul E. McKenney */
535aacb5d91SPaul E. McKenney return srcu_readers_lock_idx(ssp, idx) == unlocks;
536dad81a20SPaul E. McKenney }
537dad81a20SPaul E. McKenney
538dad81a20SPaul E. McKenney /**
539dad81a20SPaul E. McKenney * srcu_readers_active - returns true if there are readers. and false
540dad81a20SPaul E. McKenney * otherwise
541aacb5d91SPaul E. McKenney * @ssp: which srcu_struct to count active readers (holding srcu_read_lock).
542dad81a20SPaul E. McKenney *
543dad81a20SPaul E. McKenney * Note that this is not an atomic primitive, and can therefore suffer
544dad81a20SPaul E. McKenney * severe errors when invoked on an active srcu_struct. That said, it
545dad81a20SPaul E. McKenney * can be useful as an error check at cleanup time.
546dad81a20SPaul E. McKenney */
srcu_readers_active(struct srcu_struct * ssp)547aacb5d91SPaul E. McKenney static bool srcu_readers_active(struct srcu_struct *ssp)
548dad81a20SPaul E. McKenney {
549dad81a20SPaul E. McKenney int cpu;
550dad81a20SPaul E. McKenney unsigned long sum = 0;
551dad81a20SPaul E. McKenney
552dad81a20SPaul E. McKenney for_each_possible_cpu(cpu) {
553aacb5d91SPaul E. McKenney struct srcu_data *cpuc = per_cpu_ptr(ssp->sda, cpu);
554dad81a20SPaul E. McKenney
5555d0f5953SPaul E. McKenney sum += atomic_long_read(&cpuc->srcu_lock_count[0]);
5565d0f5953SPaul E. McKenney sum += atomic_long_read(&cpuc->srcu_lock_count[1]);
5575d0f5953SPaul E. McKenney sum -= atomic_long_read(&cpuc->srcu_unlock_count[0]);
5585d0f5953SPaul E. McKenney sum -= atomic_long_read(&cpuc->srcu_unlock_count[1]);
559dad81a20SPaul E. McKenney }
560dad81a20SPaul E. McKenney return sum;
561dad81a20SPaul E. McKenney }
562dad81a20SPaul E. McKenney
5634f2bfd94SNeeraj Upadhyay /*
5644f2bfd94SNeeraj Upadhyay * We use an adaptive strategy for synchronize_srcu() and especially for
5654f2bfd94SNeeraj Upadhyay * synchronize_srcu_expedited(). We spin for a fixed time period
5664f2bfd94SNeeraj Upadhyay * (defined below, boot time configurable) to allow SRCU readers to exit
5674f2bfd94SNeeraj Upadhyay * their read-side critical sections. If there are still some readers
5684f2bfd94SNeeraj Upadhyay * after one jiffy, we repeatedly block for one jiffy time periods.
5694f2bfd94SNeeraj Upadhyay * The blocking time is increased as the grace-period age increases,
5704f2bfd94SNeeraj Upadhyay * with max blocking time capped at 10 jiffies.
5714f2bfd94SNeeraj Upadhyay */
5724f2bfd94SNeeraj Upadhyay #define SRCU_DEFAULT_RETRY_CHECK_DELAY 5
5734f2bfd94SNeeraj Upadhyay
5744f2bfd94SNeeraj Upadhyay static ulong srcu_retry_check_delay = SRCU_DEFAULT_RETRY_CHECK_DELAY;
5754f2bfd94SNeeraj Upadhyay module_param(srcu_retry_check_delay, ulong, 0444);
5764f2bfd94SNeeraj Upadhyay
577282d8998SPaul E. McKenney #define SRCU_INTERVAL 1 // Base delay if no expedited GPs pending.
578282d8998SPaul E. McKenney #define SRCU_MAX_INTERVAL 10 // Maximum incremental delay from slow readers.
5794f2bfd94SNeeraj Upadhyay
5804f2bfd94SNeeraj Upadhyay #define SRCU_DEFAULT_MAX_NODELAY_PHASE_LO 3UL // Lowmark on default per-GP-phase
5814f2bfd94SNeeraj Upadhyay // no-delay instances.
5824f2bfd94SNeeraj Upadhyay #define SRCU_DEFAULT_MAX_NODELAY_PHASE_HI 1000UL // Highmark on default per-GP-phase
5834f2bfd94SNeeraj Upadhyay // no-delay instances.
5844f2bfd94SNeeraj Upadhyay
5854f2bfd94SNeeraj Upadhyay #define SRCU_UL_CLAMP_LO(val, low) ((val) > (low) ? (val) : (low))
5864f2bfd94SNeeraj Upadhyay #define SRCU_UL_CLAMP_HI(val, high) ((val) < (high) ? (val) : (high))
5874f2bfd94SNeeraj Upadhyay #define SRCU_UL_CLAMP(val, low, high) SRCU_UL_CLAMP_HI(SRCU_UL_CLAMP_LO((val), (low)), (high))
5884f2bfd94SNeeraj Upadhyay // per-GP-phase no-delay instances adjusted to allow non-sleeping poll upto
5894f2bfd94SNeeraj Upadhyay // one jiffies time duration. Mult by 2 is done to factor in the srcu_get_delay()
5904f2bfd94SNeeraj Upadhyay // called from process_srcu().
5914f2bfd94SNeeraj Upadhyay #define SRCU_DEFAULT_MAX_NODELAY_PHASE_ADJUSTED \
5924f2bfd94SNeeraj Upadhyay (2UL * USEC_PER_SEC / HZ / SRCU_DEFAULT_RETRY_CHECK_DELAY)
5934f2bfd94SNeeraj Upadhyay
5944f2bfd94SNeeraj Upadhyay // Maximum per-GP-phase consecutive no-delay instances.
5954f2bfd94SNeeraj Upadhyay #define SRCU_DEFAULT_MAX_NODELAY_PHASE \
5964f2bfd94SNeeraj Upadhyay SRCU_UL_CLAMP(SRCU_DEFAULT_MAX_NODELAY_PHASE_ADJUSTED, \
5974f2bfd94SNeeraj Upadhyay SRCU_DEFAULT_MAX_NODELAY_PHASE_LO, \
5984f2bfd94SNeeraj Upadhyay SRCU_DEFAULT_MAX_NODELAY_PHASE_HI)
5994f2bfd94SNeeraj Upadhyay
6004f2bfd94SNeeraj Upadhyay static ulong srcu_max_nodelay_phase = SRCU_DEFAULT_MAX_NODELAY_PHASE;
6014f2bfd94SNeeraj Upadhyay module_param(srcu_max_nodelay_phase, ulong, 0444);
6024f2bfd94SNeeraj Upadhyay
6034f2bfd94SNeeraj Upadhyay // Maximum consecutive no-delay instances.
6044f2bfd94SNeeraj Upadhyay #define SRCU_DEFAULT_MAX_NODELAY (SRCU_DEFAULT_MAX_NODELAY_PHASE > 100 ? \
6054f2bfd94SNeeraj Upadhyay SRCU_DEFAULT_MAX_NODELAY_PHASE : 100)
6064f2bfd94SNeeraj Upadhyay
6074f2bfd94SNeeraj Upadhyay static ulong srcu_max_nodelay = SRCU_DEFAULT_MAX_NODELAY;
6084f2bfd94SNeeraj Upadhyay module_param(srcu_max_nodelay, ulong, 0444);
609dad81a20SPaul E. McKenney
6101e9a038bSPaul E. McKenney /*
6111e9a038bSPaul E. McKenney * Return grace-period delay, zero if there are expedited grace
6121e9a038bSPaul E. McKenney * periods pending, SRCU_INTERVAL otherwise.
6131e9a038bSPaul E. McKenney */
srcu_get_delay(struct srcu_struct * ssp)614aacb5d91SPaul E. McKenney static unsigned long srcu_get_delay(struct srcu_struct *ssp)
6151e9a038bSPaul E. McKenney {
6168f870e6eSPaul E. McKenney unsigned long gpstart;
6178f870e6eSPaul E. McKenney unsigned long j;
618282d8998SPaul E. McKenney unsigned long jbase = SRCU_INTERVAL;
619eabe7625SPaul E. McKenney struct srcu_usage *sup = ssp->srcu_sup;
620282d8998SPaul E. McKenney
621eabe7625SPaul E. McKenney if (ULONG_CMP_LT(READ_ONCE(sup->srcu_gp_seq), READ_ONCE(sup->srcu_gp_seq_needed_exp)))
622282d8998SPaul E. McKenney jbase = 0;
623eabe7625SPaul E. McKenney if (rcu_seq_state(READ_ONCE(sup->srcu_gp_seq))) {
6248f870e6eSPaul E. McKenney j = jiffies - 1;
625eabe7625SPaul E. McKenney gpstart = READ_ONCE(sup->srcu_gp_start);
6268f870e6eSPaul E. McKenney if (time_after(j, gpstart))
6278f870e6eSPaul E. McKenney jbase += j - gpstart;
628282d8998SPaul E. McKenney if (!jbase) {
629eabe7625SPaul E. McKenney WRITE_ONCE(sup->srcu_n_exp_nodelay, READ_ONCE(sup->srcu_n_exp_nodelay) + 1);
630eabe7625SPaul E. McKenney if (READ_ONCE(sup->srcu_n_exp_nodelay) > srcu_max_nodelay_phase)
631282d8998SPaul E. McKenney jbase = 1;
632282d8998SPaul E. McKenney }
6338f870e6eSPaul E. McKenney }
634282d8998SPaul E. McKenney return jbase > SRCU_MAX_INTERVAL ? SRCU_MAX_INTERVAL : jbase;
6351e9a038bSPaul E. McKenney }
6361e9a038bSPaul E. McKenney
637f5ad3991SPaul E. McKenney /**
638f5ad3991SPaul E. McKenney * cleanup_srcu_struct - deconstruct a sleep-RCU structure
639f5ad3991SPaul E. McKenney * @ssp: structure to clean up.
640f5ad3991SPaul E. McKenney *
641f5ad3991SPaul E. McKenney * Must invoke this after you are finished using a given srcu_struct that
642f5ad3991SPaul E. McKenney * was initialized via init_srcu_struct(), else you leak memory.
643f5ad3991SPaul E. McKenney */
cleanup_srcu_struct(struct srcu_struct * ssp)644f5ad3991SPaul E. McKenney void cleanup_srcu_struct(struct srcu_struct *ssp)
645dad81a20SPaul E. McKenney {
646da915ad5SPaul E. McKenney int cpu;
6475ff8319fSPaul E. McKenney struct srcu_usage *sup = ssp->srcu_sup;
648da915ad5SPaul E. McKenney
649aacb5d91SPaul E. McKenney if (WARN_ON(!srcu_get_delay(ssp)))
650f7194ac3SPaul E. McKenney return; /* Just leak it! */
651aacb5d91SPaul E. McKenney if (WARN_ON(srcu_readers_active(ssp)))
652f7194ac3SPaul E. McKenney return; /* Just leak it! */
6535ff8319fSPaul E. McKenney flush_delayed_work(&sup->work);
654e81baf4cSSebastian Andrzej Siewior for_each_possible_cpu(cpu) {
655e81baf4cSSebastian Andrzej Siewior struct srcu_data *sdp = per_cpu_ptr(ssp->sda, cpu);
656e81baf4cSSebastian Andrzej Siewior
657e81baf4cSSebastian Andrzej Siewior del_timer_sync(&sdp->delay_work);
658e81baf4cSSebastian Andrzej Siewior flush_work(&sdp->work);
6595cdfd174SPaul E. McKenney if (WARN_ON(rcu_segcblist_n_cbs(&sdp->srcu_cblist)))
6605cdfd174SPaul E. McKenney return; /* Forgot srcu_barrier(), so just leak it! */
661f7194ac3SPaul E. McKenney }
6625ff8319fSPaul E. McKenney if (WARN_ON(rcu_seq_state(READ_ONCE(sup->srcu_gp_seq)) != SRCU_STATE_IDLE) ||
6635ff8319fSPaul E. McKenney WARN_ON(rcu_seq_current(&sup->srcu_gp_seq) != sup->srcu_gp_seq_needed) ||
664aacb5d91SPaul E. McKenney WARN_ON(srcu_readers_active(ssp))) {
6658ed00760SPaul E. McKenney pr_info("%s: Active srcu_struct %p read state: %d gp state: %lu/%lu\n",
6665ff8319fSPaul E. McKenney __func__, ssp, rcu_seq_state(READ_ONCE(sup->srcu_gp_seq)),
6675ff8319fSPaul E. McKenney rcu_seq_current(&sup->srcu_gp_seq), sup->srcu_gp_seq_needed);
668dad81a20SPaul E. McKenney return; /* Caller forgot to stop doing call_srcu()? */
669dad81a20SPaul E. McKenney }
6705ff8319fSPaul E. McKenney kfree(sup->node);
6715ff8319fSPaul E. McKenney sup->node = NULL;
6725ff8319fSPaul E. McKenney sup->srcu_size_state = SRCU_SIZE_SMALL;
6735ff8319fSPaul E. McKenney if (!sup->sda_is_static) {
674aacb5d91SPaul E. McKenney free_percpu(ssp->sda);
675aacb5d91SPaul E. McKenney ssp->sda = NULL;
6765ff8319fSPaul E. McKenney kfree(sup);
67795433f72SPaul E. McKenney ssp->srcu_sup = NULL;
67846470cf8SPaul E. McKenney }
679dad81a20SPaul E. McKenney }
680f5ad3991SPaul E. McKenney EXPORT_SYMBOL_GPL(cleanup_srcu_struct);
681dad81a20SPaul E. McKenney
682e29a4915SFrederic Weisbecker #ifdef CONFIG_PROVE_RCU
683dad81a20SPaul E. McKenney /*
68427120e7dSPaul E. McKenney * Check for consistent NMI safety.
68527120e7dSPaul E. McKenney */
srcu_check_nmi_safety(struct srcu_struct * ssp,bool nmi_safe)686e29a4915SFrederic Weisbecker void srcu_check_nmi_safety(struct srcu_struct *ssp, bool nmi_safe)
68727120e7dSPaul E. McKenney {
68827120e7dSPaul E. McKenney int nmi_safe_mask = 1 << nmi_safe;
68927120e7dSPaul E. McKenney int old_nmi_safe_mask;
69027120e7dSPaul E. McKenney struct srcu_data *sdp;
69127120e7dSPaul E. McKenney
6926b77bb9bSFrederic Weisbecker /* NMI-unsafe use in NMI is a bad sign */
6936b77bb9bSFrederic Weisbecker WARN_ON_ONCE(!nmi_safe && in_nmi());
69427120e7dSPaul E. McKenney sdp = raw_cpu_ptr(ssp->sda);
69527120e7dSPaul E. McKenney old_nmi_safe_mask = READ_ONCE(sdp->srcu_nmi_safety);
69627120e7dSPaul E. McKenney if (!old_nmi_safe_mask) {
69727120e7dSPaul E. McKenney WRITE_ONCE(sdp->srcu_nmi_safety, nmi_safe_mask);
69827120e7dSPaul E. McKenney return;
69927120e7dSPaul E. McKenney }
70027120e7dSPaul E. McKenney WARN_ONCE(old_nmi_safe_mask != nmi_safe_mask, "CPU %d old state %d new state %d\n", sdp->cpu, old_nmi_safe_mask, nmi_safe_mask);
70127120e7dSPaul E. McKenney }
702e29a4915SFrederic Weisbecker EXPORT_SYMBOL_GPL(srcu_check_nmi_safety);
703e29a4915SFrederic Weisbecker #endif /* CONFIG_PROVE_RCU */
70427120e7dSPaul E. McKenney
70527120e7dSPaul E. McKenney /*
706dad81a20SPaul E. McKenney * Counts the new reader in the appropriate per-CPU element of the
707cdf7abc4SPaolo Bonzini * srcu_struct.
708dad81a20SPaul E. McKenney * Returns an index that must be passed to the matching srcu_read_unlock().
709dad81a20SPaul E. McKenney */
__srcu_read_lock(struct srcu_struct * ssp)710aacb5d91SPaul E. McKenney int __srcu_read_lock(struct srcu_struct *ssp)
711dad81a20SPaul E. McKenney {
712dad81a20SPaul E. McKenney int idx;
713dad81a20SPaul E. McKenney
714aacb5d91SPaul E. McKenney idx = READ_ONCE(ssp->srcu_idx) & 0x1;
7155d0f5953SPaul E. McKenney this_cpu_inc(ssp->sda->srcu_lock_count[idx].counter);
716dad81a20SPaul E. McKenney smp_mb(); /* B */ /* Avoid leaking the critical section. */
717dad81a20SPaul E. McKenney return idx;
718dad81a20SPaul E. McKenney }
719dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(__srcu_read_lock);
720dad81a20SPaul E. McKenney
721dad81a20SPaul E. McKenney /*
722dad81a20SPaul E. McKenney * Removes the count for the old reader from the appropriate per-CPU
723dad81a20SPaul E. McKenney * element of the srcu_struct. Note that this may well be a different
724dad81a20SPaul E. McKenney * CPU than that which was incremented by the corresponding srcu_read_lock().
725dad81a20SPaul E. McKenney */
__srcu_read_unlock(struct srcu_struct * ssp,int idx)726aacb5d91SPaul E. McKenney void __srcu_read_unlock(struct srcu_struct *ssp, int idx)
727dad81a20SPaul E. McKenney {
728dad81a20SPaul E. McKenney smp_mb(); /* C */ /* Avoid leaking the critical section. */
7295d0f5953SPaul E. McKenney this_cpu_inc(ssp->sda->srcu_unlock_count[idx].counter);
730dad81a20SPaul E. McKenney }
731dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(__srcu_read_unlock);
732dad81a20SPaul E. McKenney
7332e83b879SPaul E. McKenney #ifdef CONFIG_NEED_SRCU_NMI_SAFE
7342e83b879SPaul E. McKenney
7352e83b879SPaul E. McKenney /*
7362e83b879SPaul E. McKenney * Counts the new reader in the appropriate per-CPU element of the
7372e83b879SPaul E. McKenney * srcu_struct, but in an NMI-safe manner using RMW atomics.
7382e83b879SPaul E. McKenney * Returns an index that must be passed to the matching srcu_read_unlock().
7392e83b879SPaul E. McKenney */
__srcu_read_lock_nmisafe(struct srcu_struct * ssp)740e29a4915SFrederic Weisbecker int __srcu_read_lock_nmisafe(struct srcu_struct *ssp)
7412e83b879SPaul E. McKenney {
7422e83b879SPaul E. McKenney int idx;
7432e83b879SPaul E. McKenney struct srcu_data *sdp = raw_cpu_ptr(ssp->sda);
7442e83b879SPaul E. McKenney
7452e83b879SPaul E. McKenney idx = READ_ONCE(ssp->srcu_idx) & 0x1;
7462e83b879SPaul E. McKenney atomic_long_inc(&sdp->srcu_lock_count[idx]);
7472e83b879SPaul E. McKenney smp_mb__after_atomic(); /* B */ /* Avoid leaking the critical section. */
7482e83b879SPaul E. McKenney return idx;
7492e83b879SPaul E. McKenney }
7502e83b879SPaul E. McKenney EXPORT_SYMBOL_GPL(__srcu_read_lock_nmisafe);
7512e83b879SPaul E. McKenney
7522e83b879SPaul E. McKenney /*
7532e83b879SPaul E. McKenney * Removes the count for the old reader from the appropriate per-CPU
7542e83b879SPaul E. McKenney * element of the srcu_struct. Note that this may well be a different
7552e83b879SPaul E. McKenney * CPU than that which was incremented by the corresponding srcu_read_lock().
7562e83b879SPaul E. McKenney */
__srcu_read_unlock_nmisafe(struct srcu_struct * ssp,int idx)757e29a4915SFrederic Weisbecker void __srcu_read_unlock_nmisafe(struct srcu_struct *ssp, int idx)
7582e83b879SPaul E. McKenney {
7592e83b879SPaul E. McKenney struct srcu_data *sdp = raw_cpu_ptr(ssp->sda);
7602e83b879SPaul E. McKenney
7612e83b879SPaul E. McKenney smp_mb__before_atomic(); /* C */ /* Avoid leaking the critical section. */
7622e83b879SPaul E. McKenney atomic_long_inc(&sdp->srcu_unlock_count[idx]);
7632e83b879SPaul E. McKenney }
7642e83b879SPaul E. McKenney EXPORT_SYMBOL_GPL(__srcu_read_unlock_nmisafe);
7652e83b879SPaul E. McKenney
7662e83b879SPaul E. McKenney #endif // CONFIG_NEED_SRCU_NMI_SAFE
7672e83b879SPaul E. McKenney
768dad81a20SPaul E. McKenney /*
769dad81a20SPaul E. McKenney * Start an SRCU grace period.
770dad81a20SPaul E. McKenney */
srcu_gp_start(struct srcu_struct * ssp)771aacb5d91SPaul E. McKenney static void srcu_gp_start(struct srcu_struct *ssp)
772dad81a20SPaul E. McKenney {
773586e31d5SLukas Bulwahn struct srcu_data *sdp;
774dad81a20SPaul E. McKenney int state;
775dad81a20SPaul E. McKenney
776a0d8cbd3SPaul E. McKenney if (smp_load_acquire(&ssp->srcu_sup->srcu_size_state) < SRCU_SIZE_WAIT_BARRIER)
7777f24626dSPingfan Liu sdp = per_cpu_ptr(ssp->sda, get_boot_cpu_id());
778994f7068SPaul E. McKenney else
779994f7068SPaul E. McKenney sdp = this_cpu_ptr(ssp->sda);
780b3fb11f7SPaul E. McKenney lockdep_assert_held(&ACCESS_PRIVATE(ssp->srcu_sup, lock));
78103200b5cSPaul E. McKenney WARN_ON_ONCE(ULONG_CMP_GE(ssp->srcu_sup->srcu_gp_seq, ssp->srcu_sup->srcu_gp_seq_needed));
782eb4c2382SDennis Krein spin_lock_rcu_node(sdp); /* Interrupts already disabled. */
783da915ad5SPaul E. McKenney rcu_segcblist_advance(&sdp->srcu_cblist,
78403200b5cSPaul E. McKenney rcu_seq_current(&ssp->srcu_sup->srcu_gp_seq));
785f62c43d6SFrederic Weisbecker WARN_ON_ONCE(!rcu_segcblist_segempty(&sdp->srcu_cblist, RCU_NEXT_TAIL));
786eb4c2382SDennis Krein spin_unlock_rcu_node(sdp); /* Interrupts remain disabled. */
78703200b5cSPaul E. McKenney WRITE_ONCE(ssp->srcu_sup->srcu_gp_start, jiffies);
7883b46679cSPaul E. McKenney WRITE_ONCE(ssp->srcu_sup->srcu_n_exp_nodelay, 0);
7892da4b2a7SPaul E. McKenney smp_mb(); /* Order prior store to ->srcu_gp_seq_needed vs. GP start. */
79003200b5cSPaul E. McKenney rcu_seq_start(&ssp->srcu_sup->srcu_gp_seq);
79103200b5cSPaul E. McKenney state = rcu_seq_state(ssp->srcu_sup->srcu_gp_seq);
792dad81a20SPaul E. McKenney WARN_ON_ONCE(state != SRCU_STATE_SCAN1);
793dad81a20SPaul E. McKenney }
794dad81a20SPaul E. McKenney
795da915ad5SPaul E. McKenney
srcu_delay_timer(struct timer_list * t)796e81baf4cSSebastian Andrzej Siewior static void srcu_delay_timer(struct timer_list *t)
797da915ad5SPaul E. McKenney {
798e81baf4cSSebastian Andrzej Siewior struct srcu_data *sdp = container_of(t, struct srcu_data, delay_work);
799e81baf4cSSebastian Andrzej Siewior
800e81baf4cSSebastian Andrzej Siewior queue_work_on(sdp->cpu, rcu_gp_wq, &sdp->work);
801da915ad5SPaul E. McKenney }
802da915ad5SPaul E. McKenney
srcu_queue_delayed_work_on(struct srcu_data * sdp,unsigned long delay)803e81baf4cSSebastian Andrzej Siewior static void srcu_queue_delayed_work_on(struct srcu_data *sdp,
804da915ad5SPaul E. McKenney unsigned long delay)
805da915ad5SPaul E. McKenney {
806e81baf4cSSebastian Andrzej Siewior if (!delay) {
807e81baf4cSSebastian Andrzej Siewior queue_work_on(sdp->cpu, rcu_gp_wq, &sdp->work);
808e81baf4cSSebastian Andrzej Siewior return;
809e81baf4cSSebastian Andrzej Siewior }
810da915ad5SPaul E. McKenney
811e81baf4cSSebastian Andrzej Siewior timer_reduce(&sdp->delay_work, jiffies + delay);
812da915ad5SPaul E. McKenney }
813da915ad5SPaul E. McKenney
814da915ad5SPaul E. McKenney /*
815da915ad5SPaul E. McKenney * Schedule callback invocation for the specified srcu_data structure,
816da915ad5SPaul E. McKenney * if possible, on the corresponding CPU.
817da915ad5SPaul E. McKenney */
srcu_schedule_cbs_sdp(struct srcu_data * sdp,unsigned long delay)818da915ad5SPaul E. McKenney static void srcu_schedule_cbs_sdp(struct srcu_data *sdp, unsigned long delay)
819da915ad5SPaul E. McKenney {
820e81baf4cSSebastian Andrzej Siewior srcu_queue_delayed_work_on(sdp, delay);
821da915ad5SPaul E. McKenney }
822da915ad5SPaul E. McKenney
823da915ad5SPaul E. McKenney /*
824da915ad5SPaul E. McKenney * Schedule callback invocation for all srcu_data structures associated
825c7e88067SPaul E. McKenney * with the specified srcu_node structure that have callbacks for the
826c7e88067SPaul E. McKenney * just-completed grace period, the one corresponding to idx. If possible,
827c7e88067SPaul E. McKenney * schedule this invocation on the corresponding CPUs.
828da915ad5SPaul E. McKenney */
srcu_schedule_cbs_snp(struct srcu_struct * ssp,struct srcu_node * snp,unsigned long mask,unsigned long delay)829aacb5d91SPaul E. McKenney static void srcu_schedule_cbs_snp(struct srcu_struct *ssp, struct srcu_node *snp,
8301e9a038bSPaul E. McKenney unsigned long mask, unsigned long delay)
831da915ad5SPaul E. McKenney {
832da915ad5SPaul E. McKenney int cpu;
833da915ad5SPaul E. McKenney
834c7e88067SPaul E. McKenney for (cpu = snp->grplo; cpu <= snp->grphi; cpu++) {
83574f6aedbSDenis Arefev if (!(mask & (1UL << (cpu - snp->grplo))))
836c7e88067SPaul E. McKenney continue;
837aacb5d91SPaul E. McKenney srcu_schedule_cbs_sdp(per_cpu_ptr(ssp->sda, cpu), delay);
838da915ad5SPaul E. McKenney }
839c7e88067SPaul E. McKenney }
840da915ad5SPaul E. McKenney
841da915ad5SPaul E. McKenney /*
842da915ad5SPaul E. McKenney * Note the end of an SRCU grace period. Initiates callback invocation
843da915ad5SPaul E. McKenney * and starts a new grace period if needed.
844da915ad5SPaul E. McKenney *
845da915ad5SPaul E. McKenney * The ->srcu_cb_mutex acquisition does not protect any data, but
846da915ad5SPaul E. McKenney * instead prevents more than one grace period from starting while we
847da915ad5SPaul E. McKenney * are initiating callback invocation. This allows the ->srcu_have_cbs[]
848da915ad5SPaul E. McKenney * array to have a finite number of elements.
849da915ad5SPaul E. McKenney */
srcu_gp_end(struct srcu_struct * ssp)850aacb5d91SPaul E. McKenney static void srcu_gp_end(struct srcu_struct *ssp)
851da915ad5SPaul E. McKenney {
8524f2bfd94SNeeraj Upadhyay unsigned long cbdelay = 1;
853da915ad5SPaul E. McKenney bool cbs;
8548ddbd883SIldar Ismagilov bool last_lvl;
855c350c008SPaul E. McKenney int cpu;
856c350c008SPaul E. McKenney unsigned long flags;
857da915ad5SPaul E. McKenney unsigned long gpseq;
858da915ad5SPaul E. McKenney int idx;
859c7e88067SPaul E. McKenney unsigned long mask;
860c350c008SPaul E. McKenney struct srcu_data *sdp;
861cbdc98e9SPaul E. McKenney unsigned long sgsne;
862da915ad5SPaul E. McKenney struct srcu_node *snp;
863e2f63836SPaul E. McKenney int ss_state;
8646c366522SPaul E. McKenney struct srcu_usage *sup = ssp->srcu_sup;
865da915ad5SPaul E. McKenney
866da915ad5SPaul E. McKenney /* Prevent more than one additional grace period. */
8676c366522SPaul E. McKenney mutex_lock(&sup->srcu_cb_mutex);
868da915ad5SPaul E. McKenney
869da915ad5SPaul E. McKenney /* End the current grace period. */
8706c366522SPaul E. McKenney spin_lock_irq_rcu_node(sup);
8716c366522SPaul E. McKenney idx = rcu_seq_state(sup->srcu_gp_seq);
872da915ad5SPaul E. McKenney WARN_ON_ONCE(idx != SRCU_STATE_SCAN2);
8736c366522SPaul E. McKenney if (ULONG_CMP_LT(READ_ONCE(sup->srcu_gp_seq), READ_ONCE(sup->srcu_gp_seq_needed_exp)))
8744f2bfd94SNeeraj Upadhyay cbdelay = 0;
8754f2bfd94SNeeraj Upadhyay
8766c366522SPaul E. McKenney WRITE_ONCE(sup->srcu_last_gp_end, ktime_get_mono_fast_ns());
8776c366522SPaul E. McKenney rcu_seq_end(&sup->srcu_gp_seq);
8786c366522SPaul E. McKenney gpseq = rcu_seq_current(&sup->srcu_gp_seq);
8796c366522SPaul E. McKenney if (ULONG_CMP_LT(sup->srcu_gp_seq_needed_exp, gpseq))
8806c366522SPaul E. McKenney WRITE_ONCE(sup->srcu_gp_seq_needed_exp, gpseq);
8816c366522SPaul E. McKenney spin_unlock_irq_rcu_node(sup);
8826c366522SPaul E. McKenney mutex_unlock(&sup->srcu_gp_mutex);
883da915ad5SPaul E. McKenney /* A new grace period can start at this point. But only one. */
884da915ad5SPaul E. McKenney
885da915ad5SPaul E. McKenney /* Initiate callback invocation as needed. */
8866c366522SPaul E. McKenney ss_state = smp_load_acquire(&sup->srcu_size_state);
887c69a00a1SPaul E. McKenney if (ss_state < SRCU_SIZE_WAIT_BARRIER) {
8887f24626dSPingfan Liu srcu_schedule_cbs_sdp(per_cpu_ptr(ssp->sda, get_boot_cpu_id()),
8897f24626dSPingfan Liu cbdelay);
890994f7068SPaul E. McKenney } else {
891da915ad5SPaul E. McKenney idx = rcu_seq_ctr(gpseq) % ARRAY_SIZE(snp->srcu_have_cbs);
892aacb5d91SPaul E. McKenney srcu_for_each_node_breadth_first(ssp, snp) {
893d6331980SPaul E. McKenney spin_lock_irq_rcu_node(snp);
894da915ad5SPaul E. McKenney cbs = false;
8956c366522SPaul E. McKenney last_lvl = snp >= sup->level[rcu_num_lvls - 1];
8968ddbd883SIldar Ismagilov if (last_lvl)
897c69a00a1SPaul E. McKenney cbs = ss_state < SRCU_SIZE_BIG || snp->srcu_have_cbs[idx] == gpseq;
898da915ad5SPaul E. McKenney snp->srcu_have_cbs[idx] = gpseq;
899da915ad5SPaul E. McKenney rcu_seq_set_state(&snp->srcu_have_cbs[idx], 1);
900cbdc98e9SPaul E. McKenney sgsne = snp->srcu_gp_seq_needed_exp;
901cbdc98e9SPaul E. McKenney if (srcu_invl_snp_seq(sgsne) || ULONG_CMP_LT(sgsne, gpseq))
9027ff8b450SPaul E. McKenney WRITE_ONCE(snp->srcu_gp_seq_needed_exp, gpseq);
903c69a00a1SPaul E. McKenney if (ss_state < SRCU_SIZE_BIG)
904c69a00a1SPaul E. McKenney mask = ~0;
905c69a00a1SPaul E. McKenney else
906c7e88067SPaul E. McKenney mask = snp->srcu_data_have_cbs[idx];
907c7e88067SPaul E. McKenney snp->srcu_data_have_cbs[idx] = 0;
908d6331980SPaul E. McKenney spin_unlock_irq_rcu_node(snp);
909a3883df3SPaul E. McKenney if (cbs)
910aacb5d91SPaul E. McKenney srcu_schedule_cbs_snp(ssp, snp, mask, cbdelay);
911994f7068SPaul E. McKenney }
912994f7068SPaul E. McKenney }
913c350c008SPaul E. McKenney
914c350c008SPaul E. McKenney /* Occasionally prevent srcu_data counter wrap. */
915994f7068SPaul E. McKenney if (!(gpseq & counter_wrap_check))
916994f7068SPaul E. McKenney for_each_possible_cpu(cpu) {
917aacb5d91SPaul E. McKenney sdp = per_cpu_ptr(ssp->sda, cpu);
918d6331980SPaul E. McKenney spin_lock_irqsave_rcu_node(sdp, flags);
919994f7068SPaul E. McKenney if (ULONG_CMP_GE(gpseq, sdp->srcu_gp_seq_needed + 100))
920c350c008SPaul E. McKenney sdp->srcu_gp_seq_needed = gpseq;
921994f7068SPaul E. McKenney if (ULONG_CMP_GE(gpseq, sdp->srcu_gp_seq_needed_exp + 100))
922a35d13ecSIldar Ismagilov sdp->srcu_gp_seq_needed_exp = gpseq;
923d6331980SPaul E. McKenney spin_unlock_irqrestore_rcu_node(sdp, flags);
924c350c008SPaul E. McKenney }
925da915ad5SPaul E. McKenney
926da915ad5SPaul E. McKenney /* Callback initiation done, allow grace periods after next. */
9276c366522SPaul E. McKenney mutex_unlock(&sup->srcu_cb_mutex);
928da915ad5SPaul E. McKenney
929da915ad5SPaul E. McKenney /* Start a new grace period if needed. */
9306c366522SPaul E. McKenney spin_lock_irq_rcu_node(sup);
9316c366522SPaul E. McKenney gpseq = rcu_seq_current(&sup->srcu_gp_seq);
932da915ad5SPaul E. McKenney if (!rcu_seq_state(gpseq) &&
9336c366522SPaul E. McKenney ULONG_CMP_LT(gpseq, sup->srcu_gp_seq_needed)) {
934aacb5d91SPaul E. McKenney srcu_gp_start(ssp);
9356c366522SPaul E. McKenney spin_unlock_irq_rcu_node(sup);
936aacb5d91SPaul E. McKenney srcu_reschedule(ssp, 0);
937da915ad5SPaul E. McKenney } else {
9386c366522SPaul E. McKenney spin_unlock_irq_rcu_node(sup);
939da915ad5SPaul E. McKenney }
940e2f63836SPaul E. McKenney
941e2f63836SPaul E. McKenney /* Transition to big if needed. */
942e2f63836SPaul E. McKenney if (ss_state != SRCU_SIZE_SMALL && ss_state != SRCU_SIZE_BIG) {
943e2f63836SPaul E. McKenney if (ss_state == SRCU_SIZE_ALLOC)
944c69a00a1SPaul E. McKenney init_srcu_struct_nodes(ssp, GFP_KERNEL);
945e2f63836SPaul E. McKenney else
9466c366522SPaul E. McKenney smp_store_release(&sup->srcu_size_state, ss_state + 1);
947e2f63836SPaul E. McKenney }
948da915ad5SPaul E. McKenney }
949da915ad5SPaul E. McKenney
950da915ad5SPaul E. McKenney /*
9511e9a038bSPaul E. McKenney * Funnel-locking scheme to scalably mediate many concurrent expedited
9521e9a038bSPaul E. McKenney * grace-period requests. This function is invoked for the first known
9531e9a038bSPaul E. McKenney * expedited request for a grace period that has already been requested,
9541e9a038bSPaul E. McKenney * but without expediting. To start a completely new grace period,
9551e9a038bSPaul E. McKenney * whether expedited or not, use srcu_funnel_gp_start() instead.
9561e9a038bSPaul E. McKenney */
srcu_funnel_exp_start(struct srcu_struct * ssp,struct srcu_node * snp,unsigned long s)957aacb5d91SPaul E. McKenney static void srcu_funnel_exp_start(struct srcu_struct *ssp, struct srcu_node *snp,
9581e9a038bSPaul E. McKenney unsigned long s)
9591e9a038bSPaul E. McKenney {
9601e9a038bSPaul E. McKenney unsigned long flags;
961cbdc98e9SPaul E. McKenney unsigned long sgsne;
9621e9a038bSPaul E. McKenney
963994f7068SPaul E. McKenney if (snp)
9641e9a038bSPaul E. McKenney for (; snp != NULL; snp = snp->srcu_parent) {
965cbdc98e9SPaul E. McKenney sgsne = READ_ONCE(snp->srcu_gp_seq_needed_exp);
96603200b5cSPaul E. McKenney if (WARN_ON_ONCE(rcu_seq_done(&ssp->srcu_sup->srcu_gp_seq, s)) ||
967cbdc98e9SPaul E. McKenney (!srcu_invl_snp_seq(sgsne) && ULONG_CMP_GE(sgsne, s)))
9681e9a038bSPaul E. McKenney return;
969d6331980SPaul E. McKenney spin_lock_irqsave_rcu_node(snp, flags);
970cbdc98e9SPaul E. McKenney sgsne = snp->srcu_gp_seq_needed_exp;
971cbdc98e9SPaul E. McKenney if (!srcu_invl_snp_seq(sgsne) && ULONG_CMP_GE(sgsne, s)) {
972d6331980SPaul E. McKenney spin_unlock_irqrestore_rcu_node(snp, flags);
9731e9a038bSPaul E. McKenney return;
9741e9a038bSPaul E. McKenney }
9751e9a038bSPaul E. McKenney WRITE_ONCE(snp->srcu_gp_seq_needed_exp, s);
976d6331980SPaul E. McKenney spin_unlock_irqrestore_rcu_node(snp, flags);
9771e9a038bSPaul E. McKenney }
9789f2e91d9SPaul E. McKenney spin_lock_irqsave_ssp_contention(ssp, &flags);
97903200b5cSPaul E. McKenney if (ULONG_CMP_LT(ssp->srcu_sup->srcu_gp_seq_needed_exp, s))
98003200b5cSPaul E. McKenney WRITE_ONCE(ssp->srcu_sup->srcu_gp_seq_needed_exp, s);
981b3fb11f7SPaul E. McKenney spin_unlock_irqrestore_rcu_node(ssp->srcu_sup, flags);
9821e9a038bSPaul E. McKenney }
9831e9a038bSPaul E. McKenney
9841e9a038bSPaul E. McKenney /*
985da915ad5SPaul E. McKenney * Funnel-locking scheme to scalably mediate many concurrent grace-period
986da915ad5SPaul E. McKenney * requests. The winner has to do the work of actually starting grace
987da915ad5SPaul E. McKenney * period s. Losers must either ensure that their desired grace-period
988da915ad5SPaul E. McKenney * number is recorded on at least their leaf srcu_node structure, or they
989da915ad5SPaul E. McKenney * must take steps to invoke their own callbacks.
99017294ce6SPaul E. McKenney *
99117294ce6SPaul E. McKenney * Note that this function also does the work of srcu_funnel_exp_start(),
99217294ce6SPaul E. McKenney * in some cases by directly invoking it.
9931bafbfb3SPingfan Liu *
9941bafbfb3SPingfan Liu * The srcu read lock should be hold around this function. And s is a seq snap
9951bafbfb3SPingfan Liu * after holding that lock.
996da915ad5SPaul E. McKenney */
srcu_funnel_gp_start(struct srcu_struct * ssp,struct srcu_data * sdp,unsigned long s,bool do_norm)997aacb5d91SPaul E. McKenney static void srcu_funnel_gp_start(struct srcu_struct *ssp, struct srcu_data *sdp,
9981e9a038bSPaul E. McKenney unsigned long s, bool do_norm)
999da915ad5SPaul E. McKenney {
1000da915ad5SPaul E. McKenney unsigned long flags;
1001da915ad5SPaul E. McKenney int idx = rcu_seq_ctr(s) % ARRAY_SIZE(sdp->mynode->srcu_have_cbs);
1002cbdc98e9SPaul E. McKenney unsigned long sgsne;
10037b9e9b58SPaul E. McKenney struct srcu_node *snp;
10040b56f953SNeeraj Upadhyay struct srcu_node *snp_leaf;
1005da915ad5SPaul E. McKenney unsigned long snp_seq;
1006cefc0a59SPaul E. McKenney struct srcu_usage *sup = ssp->srcu_sup;
1007da915ad5SPaul E. McKenney
10080b56f953SNeeraj Upadhyay /* Ensure that snp node tree is fully initialized before traversing it */
1009cefc0a59SPaul E. McKenney if (smp_load_acquire(&sup->srcu_size_state) < SRCU_SIZE_WAIT_BARRIER)
10100b56f953SNeeraj Upadhyay snp_leaf = NULL;
10110b56f953SNeeraj Upadhyay else
10120b56f953SNeeraj Upadhyay snp_leaf = sdp->mynode;
10130b56f953SNeeraj Upadhyay
1014994f7068SPaul E. McKenney if (snp_leaf)
1015da915ad5SPaul E. McKenney /* Each pass through the loop does one level of the srcu_node tree. */
10167b9e9b58SPaul E. McKenney for (snp = snp_leaf; snp != NULL; snp = snp->srcu_parent) {
1017cefc0a59SPaul E. McKenney if (WARN_ON_ONCE(rcu_seq_done(&sup->srcu_gp_seq, s)) && snp != snp_leaf)
1018da915ad5SPaul E. McKenney return; /* GP already done and CBs recorded. */
1019d6331980SPaul E. McKenney spin_lock_irqsave_rcu_node(snp, flags);
1020da915ad5SPaul E. McKenney snp_seq = snp->srcu_have_cbs[idx];
1021cbdc98e9SPaul E. McKenney if (!srcu_invl_snp_seq(snp_seq) && ULONG_CMP_GE(snp_seq, s)) {
10227b9e9b58SPaul E. McKenney if (snp == snp_leaf && snp_seq == s)
1023c7e88067SPaul E. McKenney snp->srcu_data_have_cbs[idx] |= sdp->grpmask;
1024d6331980SPaul E. McKenney spin_unlock_irqrestore_rcu_node(snp, flags);
10257b9e9b58SPaul E. McKenney if (snp == snp_leaf && snp_seq != s) {
1026aeb9b39bSPaul E. McKenney srcu_schedule_cbs_sdp(sdp, do_norm ? SRCU_INTERVAL : 0);
10271e9a038bSPaul E. McKenney return;
1028da915ad5SPaul E. McKenney }
10291e9a038bSPaul E. McKenney if (!do_norm)
1030aacb5d91SPaul E. McKenney srcu_funnel_exp_start(ssp, snp, s);
1031da915ad5SPaul E. McKenney return;
1032da915ad5SPaul E. McKenney }
1033da915ad5SPaul E. McKenney snp->srcu_have_cbs[idx] = s;
10347b9e9b58SPaul E. McKenney if (snp == snp_leaf)
1035c7e88067SPaul E. McKenney snp->srcu_data_have_cbs[idx] |= sdp->grpmask;
1036cbdc98e9SPaul E. McKenney sgsne = snp->srcu_gp_seq_needed_exp;
1037cbdc98e9SPaul E. McKenney if (!do_norm && (srcu_invl_snp_seq(sgsne) || ULONG_CMP_LT(sgsne, s)))
10387ff8b450SPaul E. McKenney WRITE_ONCE(snp->srcu_gp_seq_needed_exp, s);
1039d6331980SPaul E. McKenney spin_unlock_irqrestore_rcu_node(snp, flags);
1040da915ad5SPaul E. McKenney }
1041da915ad5SPaul E. McKenney
1042da915ad5SPaul E. McKenney /* Top of tree, must ensure the grace period will be started. */
10439f2e91d9SPaul E. McKenney spin_lock_irqsave_ssp_contention(ssp, &flags);
1044cefc0a59SPaul E. McKenney if (ULONG_CMP_LT(sup->srcu_gp_seq_needed, s)) {
1045da915ad5SPaul E. McKenney /*
1046da915ad5SPaul E. McKenney * Record need for grace period s. Pair with load
1047da915ad5SPaul E. McKenney * acquire setting up for initialization.
1048da915ad5SPaul E. McKenney */
1049cefc0a59SPaul E. McKenney smp_store_release(&sup->srcu_gp_seq_needed, s); /*^^^*/
1050da915ad5SPaul E. McKenney }
1051cefc0a59SPaul E. McKenney if (!do_norm && ULONG_CMP_LT(sup->srcu_gp_seq_needed_exp, s))
1052cefc0a59SPaul E. McKenney WRITE_ONCE(sup->srcu_gp_seq_needed_exp, s);
1053da915ad5SPaul E. McKenney
10541bafbfb3SPingfan Liu /* If grace period not already in progress, start it. */
1055cefc0a59SPaul E. McKenney if (!WARN_ON_ONCE(rcu_seq_done(&sup->srcu_gp_seq, s)) &&
1056cefc0a59SPaul E. McKenney rcu_seq_state(sup->srcu_gp_seq) == SRCU_STATE_IDLE) {
1057cefc0a59SPaul E. McKenney WARN_ON_ONCE(ULONG_CMP_GE(sup->srcu_gp_seq, sup->srcu_gp_seq_needed));
1058aacb5d91SPaul E. McKenney srcu_gp_start(ssp);
1059ee5e2448SPaul E. McKenney
1060ee5e2448SPaul E. McKenney // And how can that list_add() in the "else" clause
1061ee5e2448SPaul E. McKenney // possibly be safe for concurrent execution? Well,
1062ee5e2448SPaul E. McKenney // it isn't. And it does not have to be. After all, it
1063ee5e2448SPaul E. McKenney // can only be executed during early boot when there is only
1064ee5e2448SPaul E. McKenney // the one boot CPU running with interrupts still disabled.
1065e0fcba9aSPaul E. McKenney if (likely(srcu_init_done))
1066cefc0a59SPaul E. McKenney queue_delayed_work(rcu_gp_wq, &sup->work,
1067282d8998SPaul E. McKenney !!srcu_get_delay(ssp));
1068cefc0a59SPaul E. McKenney else if (list_empty(&sup->work.work.entry))
1069cefc0a59SPaul E. McKenney list_add(&sup->work.work.entry, &srcu_boot_list);
1070da915ad5SPaul E. McKenney }
1071cefc0a59SPaul E. McKenney spin_unlock_irqrestore_rcu_node(sup, flags);
1072da915ad5SPaul E. McKenney }
1073da915ad5SPaul E. McKenney
1074da915ad5SPaul E. McKenney /*
1075dad81a20SPaul E. McKenney * Wait until all readers counted by array index idx complete, but
1076dad81a20SPaul E. McKenney * loop an additional time if there is an expedited grace period pending.
1077da915ad5SPaul E. McKenney * The caller must ensure that ->srcu_idx is not changed while checking.
1078dad81a20SPaul E. McKenney */
try_check_zero(struct srcu_struct * ssp,int idx,int trycount)1079aacb5d91SPaul E. McKenney static bool try_check_zero(struct srcu_struct *ssp, int idx, int trycount)
1080dad81a20SPaul E. McKenney {
10814f2bfd94SNeeraj Upadhyay unsigned long curdelay;
10824f2bfd94SNeeraj Upadhyay
10834f2bfd94SNeeraj Upadhyay curdelay = !srcu_get_delay(ssp);
10844f2bfd94SNeeraj Upadhyay
1085dad81a20SPaul E. McKenney for (;;) {
1086aacb5d91SPaul E. McKenney if (srcu_readers_active_idx_check(ssp, idx))
1087dad81a20SPaul E. McKenney return true;
10884f2bfd94SNeeraj Upadhyay if ((--trycount + curdelay) <= 0)
1089dad81a20SPaul E. McKenney return false;
10904f2bfd94SNeeraj Upadhyay udelay(srcu_retry_check_delay);
1091dad81a20SPaul E. McKenney }
1092dad81a20SPaul E. McKenney }
1093dad81a20SPaul E. McKenney
1094dad81a20SPaul E. McKenney /*
1095da915ad5SPaul E. McKenney * Increment the ->srcu_idx counter so that future SRCU readers will
1096da915ad5SPaul E. McKenney * use the other rank of the ->srcu_(un)lock_count[] arrays. This allows
1097dad81a20SPaul E. McKenney * us to wait for pre-existing readers in a starvation-free manner.
1098dad81a20SPaul E. McKenney */
srcu_flip(struct srcu_struct * ssp)1099aacb5d91SPaul E. McKenney static void srcu_flip(struct srcu_struct *ssp)
1100dad81a20SPaul E. McKenney {
1101881ec9d2SPaul E. McKenney /*
1102754aa642SJoel Fernandes (Google) * Because the flip of ->srcu_idx is executed only if the
1103754aa642SJoel Fernandes (Google) * preceding call to srcu_readers_active_idx_check() found that
1104754aa642SJoel Fernandes (Google) * the ->srcu_unlock_count[] and ->srcu_lock_count[] sums matched
1105754aa642SJoel Fernandes (Google) * and because that summing uses atomic_long_read(), there is
1106754aa642SJoel Fernandes (Google) * ordering due to a control dependency between that summing and
1107754aa642SJoel Fernandes (Google) * the WRITE_ONCE() in this call to srcu_flip(). This ordering
1108754aa642SJoel Fernandes (Google) * ensures that if this updater saw a given reader's increment from
1109754aa642SJoel Fernandes (Google) * __srcu_read_lock(), that reader was using a value of ->srcu_idx
1110754aa642SJoel Fernandes (Google) * from before the previous call to srcu_flip(), which should be
1111754aa642SJoel Fernandes (Google) * quite rare. This ordering thus helps forward progress because
1112754aa642SJoel Fernandes (Google) * the grace period could otherwise be delayed by additional
1113754aa642SJoel Fernandes (Google) * calls to __srcu_read_lock() using that old (soon to be new)
1114754aa642SJoel Fernandes (Google) * value of ->srcu_idx.
1115754aa642SJoel Fernandes (Google) *
1116754aa642SJoel Fernandes (Google) * This sum-equality check and ordering also ensures that if
1117754aa642SJoel Fernandes (Google) * a given call to __srcu_read_lock() uses the new value of
1118754aa642SJoel Fernandes (Google) * ->srcu_idx, this updater's earlier scans cannot have seen
1119754aa642SJoel Fernandes (Google) * that reader's increments, which is all to the good, because
1120754aa642SJoel Fernandes (Google) * this grace period need not wait on that reader. After all,
1121754aa642SJoel Fernandes (Google) * if those earlier scans had seen that reader, there would have
1122754aa642SJoel Fernandes (Google) * been a sum mismatch and this code would not be reached.
1123754aa642SJoel Fernandes (Google) *
1124754aa642SJoel Fernandes (Google) * This means that the following smp_mb() is redundant, but
1125754aa642SJoel Fernandes (Google) * it stays until either (1) Compilers learn about this sort of
1126754aa642SJoel Fernandes (Google) * control dependency or (2) Some production workload running on
1127754aa642SJoel Fernandes (Google) * a production system is unduly delayed by this slowpath smp_mb().
1128881ec9d2SPaul E. McKenney */
1129881ec9d2SPaul E. McKenney smp_mb(); /* E */ /* Pairs with B and C. */
1130881ec9d2SPaul E. McKenney
1131754aa642SJoel Fernandes (Google) WRITE_ONCE(ssp->srcu_idx, ssp->srcu_idx + 1); // Flip the counter.
1132dad81a20SPaul E. McKenney
1133dad81a20SPaul E. McKenney /*
1134dad81a20SPaul E. McKenney * Ensure that if the updater misses an __srcu_read_unlock()
1135dafc4d16SPaul E. McKenney * increment, that task's __srcu_read_lock() following its next
1136dafc4d16SPaul E. McKenney * __srcu_read_lock() or __srcu_read_unlock() will see the above
1137dafc4d16SPaul E. McKenney * counter update. Note that both this memory barrier and the
1138dafc4d16SPaul E. McKenney * one in srcu_readers_active_idx_check() provide the guarantee
1139dafc4d16SPaul E. McKenney * for __srcu_read_lock().
1140dad81a20SPaul E. McKenney */
1141dad81a20SPaul E. McKenney smp_mb(); /* D */ /* Pairs with C. */
1142dad81a20SPaul E. McKenney }
1143dad81a20SPaul E. McKenney
1144dad81a20SPaul E. McKenney /*
11452da4b2a7SPaul E. McKenney * If SRCU is likely idle, return true, otherwise return false.
11462da4b2a7SPaul E. McKenney *
11472da4b2a7SPaul E. McKenney * Note that it is OK for several current from-idle requests for a new
11482da4b2a7SPaul E. McKenney * grace period from idle to specify expediting because they will all end
11492da4b2a7SPaul E. McKenney * up requesting the same grace period anyhow. So no loss.
11502da4b2a7SPaul E. McKenney *
11512da4b2a7SPaul E. McKenney * Note also that if any CPU (including the current one) is still invoking
11522da4b2a7SPaul E. McKenney * callbacks, this function will nevertheless say "idle". This is not
11532da4b2a7SPaul E. McKenney * ideal, but the overhead of checking all CPUs' callback lists is even
11542da4b2a7SPaul E. McKenney * less ideal, especially on large systems. Furthermore, the wakeup
11552da4b2a7SPaul E. McKenney * can happen before the callback is fully removed, so we have no choice
11562da4b2a7SPaul E. McKenney * but to accept this type of error.
11572da4b2a7SPaul E. McKenney *
11582da4b2a7SPaul E. McKenney * This function is also subject to counter-wrap errors, but let's face
11592da4b2a7SPaul E. McKenney * it, if this function was preempted for enough time for the counters
11602da4b2a7SPaul E. McKenney * to wrap, it really doesn't matter whether or not we expedite the grace
11612da4b2a7SPaul E. McKenney * period. The extra overhead of a needlessly expedited grace period is
11627fef6cffSEthon Paul * negligible when amortized over that time period, and the extra latency
11632da4b2a7SPaul E. McKenney * of a needlessly non-expedited grace period is similarly negligible.
11642da4b2a7SPaul E. McKenney */
srcu_might_be_idle(struct srcu_struct * ssp)1165aacb5d91SPaul E. McKenney static bool srcu_might_be_idle(struct srcu_struct *ssp)
11662da4b2a7SPaul E. McKenney {
116722607d66SPaul E. McKenney unsigned long curseq;
11682da4b2a7SPaul E. McKenney unsigned long flags;
11692da4b2a7SPaul E. McKenney struct srcu_data *sdp;
117022607d66SPaul E. McKenney unsigned long t;
1171844a378dSPaul E. McKenney unsigned long tlast;
11722da4b2a7SPaul E. McKenney
1173bde50d8fSSebastian Andrzej Siewior check_init_srcu_struct(ssp);
11742da4b2a7SPaul E. McKenney /* If the local srcu_data structure has callbacks, not idle. */
1175bde50d8fSSebastian Andrzej Siewior sdp = raw_cpu_ptr(ssp->sda);
1176bde50d8fSSebastian Andrzej Siewior spin_lock_irqsave_rcu_node(sdp, flags);
11772da4b2a7SPaul E. McKenney if (rcu_segcblist_pend_cbs(&sdp->srcu_cblist)) {
1178bde50d8fSSebastian Andrzej Siewior spin_unlock_irqrestore_rcu_node(sdp, flags);
11792da4b2a7SPaul E. McKenney return false; /* Callbacks already present, so not idle. */
11802da4b2a7SPaul E. McKenney }
1181bde50d8fSSebastian Andrzej Siewior spin_unlock_irqrestore_rcu_node(sdp, flags);
11822da4b2a7SPaul E. McKenney
11832da4b2a7SPaul E. McKenney /*
1184a616aec9SIngo Molnar * No local callbacks, so probabilistically probe global state.
11852da4b2a7SPaul E. McKenney * Exact information would require acquiring locks, which would
1186a616aec9SIngo Molnar * kill scalability, hence the probabilistic nature of the probe.
11872da4b2a7SPaul E. McKenney */
118822607d66SPaul E. McKenney
118922607d66SPaul E. McKenney /* First, see if enough time has passed since the last GP. */
119022607d66SPaul E. McKenney t = ktime_get_mono_fast_ns();
119103200b5cSPaul E. McKenney tlast = READ_ONCE(ssp->srcu_sup->srcu_last_gp_end);
119222607d66SPaul E. McKenney if (exp_holdoff == 0 ||
1193844a378dSPaul E. McKenney time_in_range_open(t, tlast, tlast + exp_holdoff))
119422607d66SPaul E. McKenney return false; /* Too soon after last GP. */
119522607d66SPaul E. McKenney
119622607d66SPaul E. McKenney /* Next, check for probable idleness. */
119703200b5cSPaul E. McKenney curseq = rcu_seq_current(&ssp->srcu_sup->srcu_gp_seq);
11982da4b2a7SPaul E. McKenney smp_mb(); /* Order ->srcu_gp_seq with ->srcu_gp_seq_needed. */
119903200b5cSPaul E. McKenney if (ULONG_CMP_LT(curseq, READ_ONCE(ssp->srcu_sup->srcu_gp_seq_needed)))
12002da4b2a7SPaul E. McKenney return false; /* Grace period in progress, so not idle. */
12012da4b2a7SPaul E. McKenney smp_mb(); /* Order ->srcu_gp_seq with prior access. */
120203200b5cSPaul E. McKenney if (curseq != rcu_seq_current(&ssp->srcu_sup->srcu_gp_seq))
12032da4b2a7SPaul E. McKenney return false; /* GP # changed, so not idle. */
12042da4b2a7SPaul E. McKenney return true; /* With reasonable probability, idle! */
12052da4b2a7SPaul E. McKenney }
12062da4b2a7SPaul E. McKenney
12072da4b2a7SPaul E. McKenney /*
1208a602538eSPaul E. McKenney * SRCU callback function to leak a callback.
1209a602538eSPaul E. McKenney */
srcu_leak_callback(struct rcu_head * rhp)1210a602538eSPaul E. McKenney static void srcu_leak_callback(struct rcu_head *rhp)
1211a602538eSPaul E. McKenney {
1212a602538eSPaul E. McKenney }
1213a602538eSPaul E. McKenney
1214a602538eSPaul E. McKenney /*
121529d2bb94SPaul E. McKenney * Start an SRCU grace period, and also queue the callback if non-NULL.
121629d2bb94SPaul E. McKenney */
srcu_gp_start_if_needed(struct srcu_struct * ssp,struct rcu_head * rhp,bool do_norm)12175358c9faSPaul E. McKenney static unsigned long srcu_gp_start_if_needed(struct srcu_struct *ssp,
12185358c9faSPaul E. McKenney struct rcu_head *rhp, bool do_norm)
121929d2bb94SPaul E. McKenney {
122029d2bb94SPaul E. McKenney unsigned long flags;
122129d2bb94SPaul E. McKenney int idx;
122229d2bb94SPaul E. McKenney bool needexp = false;
122329d2bb94SPaul E. McKenney bool needgp = false;
122429d2bb94SPaul E. McKenney unsigned long s;
122529d2bb94SPaul E. McKenney struct srcu_data *sdp;
12260b56f953SNeeraj Upadhyay struct srcu_node *sdp_mynode;
12270b56f953SNeeraj Upadhyay int ss_state;
122829d2bb94SPaul E. McKenney
12295358c9faSPaul E. McKenney check_init_srcu_struct(ssp);
1230ae3c0706SFrederic Weisbecker /*
1231ae3c0706SFrederic Weisbecker * While starting a new grace period, make sure we are in an
1232ae3c0706SFrederic Weisbecker * SRCU read-side critical section so that the grace-period
1233ae3c0706SFrederic Weisbecker * sequence number cannot wrap around in the meantime.
1234ae3c0706SFrederic Weisbecker */
1235e29a4915SFrederic Weisbecker idx = __srcu_read_lock_nmisafe(ssp);
1236a0d8cbd3SPaul E. McKenney ss_state = smp_load_acquire(&ssp->srcu_sup->srcu_size_state);
12370b56f953SNeeraj Upadhyay if (ss_state < SRCU_SIZE_WAIT_CALL)
12387f24626dSPingfan Liu sdp = per_cpu_ptr(ssp->sda, get_boot_cpu_id());
1239994f7068SPaul E. McKenney else
124029d2bb94SPaul E. McKenney sdp = raw_cpu_ptr(ssp->sda);
1241c2445d38SPaul E. McKenney spin_lock_irqsave_sdp_contention(sdp, &flags);
12425358c9faSPaul E. McKenney if (rhp)
124329d2bb94SPaul E. McKenney rcu_segcblist_enqueue(&sdp->srcu_cblist, rhp);
124451631531SFrederic Weisbecker /*
124551631531SFrederic Weisbecker * The snapshot for acceleration must be taken _before_ the read of the
124651631531SFrederic Weisbecker * current gp sequence used for advancing, otherwise advancing may fail
124751631531SFrederic Weisbecker * and acceleration may then fail too.
124851631531SFrederic Weisbecker *
124951631531SFrederic Weisbecker * This could happen if:
125051631531SFrederic Weisbecker *
125151631531SFrederic Weisbecker * 1) The RCU_WAIT_TAIL segment has callbacks (gp_num = X + 4) and the
125251631531SFrederic Weisbecker * RCU_NEXT_READY_TAIL also has callbacks (gp_num = X + 8).
125351631531SFrederic Weisbecker *
125451631531SFrederic Weisbecker * 2) The grace period for RCU_WAIT_TAIL is seen as started but not
125551631531SFrederic Weisbecker * completed so rcu_seq_current() returns X + SRCU_STATE_SCAN1.
125651631531SFrederic Weisbecker *
125751631531SFrederic Weisbecker * 3) This value is passed to rcu_segcblist_advance() which can't move
125851631531SFrederic Weisbecker * any segment forward and fails.
125951631531SFrederic Weisbecker *
126051631531SFrederic Weisbecker * 4) srcu_gp_start_if_needed() still proceeds with callback acceleration.
126151631531SFrederic Weisbecker * But then the call to rcu_seq_snap() observes the grace period for the
126251631531SFrederic Weisbecker * RCU_WAIT_TAIL segment as completed and the subsequent one for the
126351631531SFrederic Weisbecker * RCU_NEXT_READY_TAIL segment as started (ie: X + 4 + SRCU_STATE_SCAN1)
126451631531SFrederic Weisbecker * so it returns a snapshot of the next grace period, which is X + 12.
126551631531SFrederic Weisbecker *
126651631531SFrederic Weisbecker * 5) The value of X + 12 is passed to rcu_segcblist_accelerate() but the
126751631531SFrederic Weisbecker * freshly enqueued callback in RCU_NEXT_TAIL can't move to
126851631531SFrederic Weisbecker * RCU_NEXT_READY_TAIL which already has callbacks for a previous grace
126951631531SFrederic Weisbecker * period (gp_num = X + 8). So acceleration fails.
127051631531SFrederic Weisbecker */
127151631531SFrederic Weisbecker s = rcu_seq_snap(&ssp->srcu_sup->srcu_gp_seq);
127229d2bb94SPaul E. McKenney rcu_segcblist_advance(&sdp->srcu_cblist,
127303200b5cSPaul E. McKenney rcu_seq_current(&ssp->srcu_sup->srcu_gp_seq));
127451631531SFrederic Weisbecker WARN_ON_ONCE(!rcu_segcblist_accelerate(&sdp->srcu_cblist, s) && rhp);
127529d2bb94SPaul E. McKenney if (ULONG_CMP_LT(sdp->srcu_gp_seq_needed, s)) {
127629d2bb94SPaul E. McKenney sdp->srcu_gp_seq_needed = s;
127729d2bb94SPaul E. McKenney needgp = true;
127829d2bb94SPaul E. McKenney }
127929d2bb94SPaul E. McKenney if (!do_norm && ULONG_CMP_LT(sdp->srcu_gp_seq_needed_exp, s)) {
128029d2bb94SPaul E. McKenney sdp->srcu_gp_seq_needed_exp = s;
128129d2bb94SPaul E. McKenney needexp = true;
128229d2bb94SPaul E. McKenney }
128329d2bb94SPaul E. McKenney spin_unlock_irqrestore_rcu_node(sdp, flags);
12840b56f953SNeeraj Upadhyay
12850b56f953SNeeraj Upadhyay /* Ensure that snp node tree is fully initialized before traversing it */
12860b56f953SNeeraj Upadhyay if (ss_state < SRCU_SIZE_WAIT_BARRIER)
12870b56f953SNeeraj Upadhyay sdp_mynode = NULL;
12880b56f953SNeeraj Upadhyay else
12890b56f953SNeeraj Upadhyay sdp_mynode = sdp->mynode;
12900b56f953SNeeraj Upadhyay
129129d2bb94SPaul E. McKenney if (needgp)
129229d2bb94SPaul E. McKenney srcu_funnel_gp_start(ssp, sdp, s, do_norm);
129329d2bb94SPaul E. McKenney else if (needexp)
12940b56f953SNeeraj Upadhyay srcu_funnel_exp_start(ssp, sdp_mynode, s);
1295e29a4915SFrederic Weisbecker __srcu_read_unlock_nmisafe(ssp, idx);
12965358c9faSPaul E. McKenney return s;
129729d2bb94SPaul E. McKenney }
129829d2bb94SPaul E. McKenney
129929d2bb94SPaul E. McKenney /*
1300da915ad5SPaul E. McKenney * Enqueue an SRCU callback on the srcu_data structure associated with
1301da915ad5SPaul E. McKenney * the current CPU and the specified srcu_struct structure, initiating
1302da915ad5SPaul E. McKenney * grace-period processing if it is not already running.
1303dad81a20SPaul E. McKenney *
1304dad81a20SPaul E. McKenney * Note that all CPUs must agree that the grace period extended beyond
1305dad81a20SPaul E. McKenney * all pre-existing SRCU read-side critical section. On systems with
1306dad81a20SPaul E. McKenney * more than one CPU, this means that when "func()" is invoked, each CPU
1307dad81a20SPaul E. McKenney * is guaranteed to have executed a full memory barrier since the end of
1308dad81a20SPaul E. McKenney * its last corresponding SRCU read-side critical section whose beginning
13095ef98a63SPaul E. McKenney * preceded the call to call_srcu(). It also means that each CPU executing
1310dad81a20SPaul E. McKenney * an SRCU read-side critical section that continues beyond the start of
13115ef98a63SPaul E. McKenney * "func()" must have executed a memory barrier after the call_srcu()
1312dad81a20SPaul E. McKenney * but before the beginning of that SRCU read-side critical section.
1313dad81a20SPaul E. McKenney * Note that these guarantees include CPUs that are offline, idle, or
1314dad81a20SPaul E. McKenney * executing in user mode, as well as CPUs that are executing in the kernel.
1315dad81a20SPaul E. McKenney *
13165ef98a63SPaul E. McKenney * Furthermore, if CPU A invoked call_srcu() and CPU B invoked the
1317dad81a20SPaul E. McKenney * resulting SRCU callback function "func()", then both CPU A and CPU
1318dad81a20SPaul E. McKenney * B are guaranteed to execute a full memory barrier during the time
13195ef98a63SPaul E. McKenney * interval between the call to call_srcu() and the invocation of "func()".
1320dad81a20SPaul E. McKenney * This guarantee applies even if CPU A and CPU B are the same CPU (but
1321dad81a20SPaul E. McKenney * again only if the system has more than one CPU).
1322dad81a20SPaul E. McKenney *
1323dad81a20SPaul E. McKenney * Of course, these guarantees apply only for invocations of call_srcu(),
1324dad81a20SPaul E. McKenney * srcu_read_lock(), and srcu_read_unlock() that are all passed the same
1325dad81a20SPaul E. McKenney * srcu_struct structure.
1326dad81a20SPaul E. McKenney */
__call_srcu(struct srcu_struct * ssp,struct rcu_head * rhp,rcu_callback_t func,bool do_norm)132711b00045SJiang Biao static void __call_srcu(struct srcu_struct *ssp, struct rcu_head *rhp,
13281e9a038bSPaul E. McKenney rcu_callback_t func, bool do_norm)
1329dad81a20SPaul E. McKenney {
1330a602538eSPaul E. McKenney if (debug_rcu_head_queue(rhp)) {
1331a602538eSPaul E. McKenney /* Probable double call_srcu(), so leak the callback. */
1332a602538eSPaul E. McKenney WRITE_ONCE(rhp->func, srcu_leak_callback);
1333a602538eSPaul E. McKenney WARN_ONCE(1, "call_srcu(): Leaked duplicate callback\n");
1334a602538eSPaul E. McKenney return;
1335a602538eSPaul E. McKenney }
1336da915ad5SPaul E. McKenney rhp->func = func;
13375358c9faSPaul E. McKenney (void)srcu_gp_start_if_needed(ssp, rhp, do_norm);
13381e9a038bSPaul E. McKenney }
13391e9a038bSPaul E. McKenney
13405a0465e1SPaul E. McKenney /**
13415a0465e1SPaul E. McKenney * call_srcu() - Queue a callback for invocation after an SRCU grace period
1342aacb5d91SPaul E. McKenney * @ssp: srcu_struct in queue the callback
134327fdb35fSPaul E. McKenney * @rhp: structure to be used for queueing the SRCU callback.
13445a0465e1SPaul E. McKenney * @func: function to be invoked after the SRCU grace period
13455a0465e1SPaul E. McKenney *
13465a0465e1SPaul E. McKenney * The callback function will be invoked some time after a full SRCU
13475a0465e1SPaul E. McKenney * grace period elapses, in other words after all pre-existing SRCU
13485a0465e1SPaul E. McKenney * read-side critical sections have completed. However, the callback
13495a0465e1SPaul E. McKenney * function might well execute concurrently with other SRCU read-side
13505a0465e1SPaul E. McKenney * critical sections that started after call_srcu() was invoked. SRCU
13515a0465e1SPaul E. McKenney * read-side critical sections are delimited by srcu_read_lock() and
13525a0465e1SPaul E. McKenney * srcu_read_unlock(), and may be nested.
13535a0465e1SPaul E. McKenney *
13545a0465e1SPaul E. McKenney * The callback will be invoked from process context, but must nevertheless
13555a0465e1SPaul E. McKenney * be fast and must not block.
13565a0465e1SPaul E. McKenney */
call_srcu(struct srcu_struct * ssp,struct rcu_head * rhp,rcu_callback_t func)1357aacb5d91SPaul E. McKenney void call_srcu(struct srcu_struct *ssp, struct rcu_head *rhp,
13581e9a038bSPaul E. McKenney rcu_callback_t func)
13591e9a038bSPaul E. McKenney {
1360aacb5d91SPaul E. McKenney __call_srcu(ssp, rhp, func, true);
1361dad81a20SPaul E. McKenney }
1362dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(call_srcu);
1363dad81a20SPaul E. McKenney
1364dad81a20SPaul E. McKenney /*
1365dad81a20SPaul E. McKenney * Helper function for synchronize_srcu() and synchronize_srcu_expedited().
1366dad81a20SPaul E. McKenney */
__synchronize_srcu(struct srcu_struct * ssp,bool do_norm)1367aacb5d91SPaul E. McKenney static void __synchronize_srcu(struct srcu_struct *ssp, bool do_norm)
1368dad81a20SPaul E. McKenney {
1369dad81a20SPaul E. McKenney struct rcu_synchronize rcu;
1370dad81a20SPaul E. McKenney
1371f0f44752SBoqun Feng srcu_lock_sync(&ssp->dep_map);
1372f0f44752SBoqun Feng
1373f505d434SJakub Kicinski RCU_LOCKDEP_WARN(lockdep_is_held(ssp) ||
1374dad81a20SPaul E. McKenney lock_is_held(&rcu_bh_lock_map) ||
1375dad81a20SPaul E. McKenney lock_is_held(&rcu_lock_map) ||
1376dad81a20SPaul E. McKenney lock_is_held(&rcu_sched_lock_map),
1377dad81a20SPaul E. McKenney "Illegal synchronize_srcu() in same-type SRCU (or in RCU) read-side critical section");
1378dad81a20SPaul E. McKenney
1379dad81a20SPaul E. McKenney if (rcu_scheduler_active == RCU_SCHEDULER_INACTIVE)
1380dad81a20SPaul E. McKenney return;
1381dad81a20SPaul E. McKenney might_sleep();
1382aacb5d91SPaul E. McKenney check_init_srcu_struct(ssp);
1383dad81a20SPaul E. McKenney init_completion(&rcu.completion);
1384da915ad5SPaul E. McKenney init_rcu_head_on_stack(&rcu.head);
1385aacb5d91SPaul E. McKenney __call_srcu(ssp, &rcu.head, wakeme_after_rcu, do_norm);
1386dad81a20SPaul E. McKenney wait_for_completion(&rcu.completion);
1387da915ad5SPaul E. McKenney destroy_rcu_head_on_stack(&rcu.head);
138835732cf9SPaul E. McKenney
138935732cf9SPaul E. McKenney /*
139035732cf9SPaul E. McKenney * Make sure that later code is ordered after the SRCU grace
1391d6331980SPaul E. McKenney * period. This pairs with the spin_lock_irq_rcu_node()
139235732cf9SPaul E. McKenney * in srcu_invoke_callbacks(). Unlike Tree RCU, this is needed
139335732cf9SPaul E. McKenney * because the current CPU might have been totally uninvolved with
139435732cf9SPaul E. McKenney * (and thus unordered against) that grace period.
139535732cf9SPaul E. McKenney */
139635732cf9SPaul E. McKenney smp_mb();
1397dad81a20SPaul E. McKenney }
1398dad81a20SPaul E. McKenney
1399dad81a20SPaul E. McKenney /**
1400dad81a20SPaul E. McKenney * synchronize_srcu_expedited - Brute-force SRCU grace period
1401aacb5d91SPaul E. McKenney * @ssp: srcu_struct with which to synchronize.
1402dad81a20SPaul E. McKenney *
1403dad81a20SPaul E. McKenney * Wait for an SRCU grace period to elapse, but be more aggressive about
1404dad81a20SPaul E. McKenney * spinning rather than blocking when waiting.
1405dad81a20SPaul E. McKenney *
1406dad81a20SPaul E. McKenney * Note that synchronize_srcu_expedited() has the same deadlock and
1407dad81a20SPaul E. McKenney * memory-ordering properties as does synchronize_srcu().
1408dad81a20SPaul E. McKenney */
synchronize_srcu_expedited(struct srcu_struct * ssp)1409aacb5d91SPaul E. McKenney void synchronize_srcu_expedited(struct srcu_struct *ssp)
1410dad81a20SPaul E. McKenney {
1411aacb5d91SPaul E. McKenney __synchronize_srcu(ssp, rcu_gp_is_normal());
1412dad81a20SPaul E. McKenney }
1413dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(synchronize_srcu_expedited);
1414dad81a20SPaul E. McKenney
1415dad81a20SPaul E. McKenney /**
1416dad81a20SPaul E. McKenney * synchronize_srcu - wait for prior SRCU read-side critical-section completion
1417aacb5d91SPaul E. McKenney * @ssp: srcu_struct with which to synchronize.
1418dad81a20SPaul E. McKenney *
1419dad81a20SPaul E. McKenney * Wait for the count to drain to zero of both indexes. To avoid the
1420dad81a20SPaul E. McKenney * possible starvation of synchronize_srcu(), it waits for the count of
1421da915ad5SPaul E. McKenney * the index=((->srcu_idx & 1) ^ 1) to drain to zero at first,
1422da915ad5SPaul E. McKenney * and then flip the srcu_idx and wait for the count of the other index.
1423dad81a20SPaul E. McKenney *
1424dad81a20SPaul E. McKenney * Can block; must be called from process context.
1425dad81a20SPaul E. McKenney *
1426dad81a20SPaul E. McKenney * Note that it is illegal to call synchronize_srcu() from the corresponding
1427dad81a20SPaul E. McKenney * SRCU read-side critical section; doing so will result in deadlock.
1428dad81a20SPaul E. McKenney * However, it is perfectly legal to call synchronize_srcu() on one
1429dad81a20SPaul E. McKenney * srcu_struct from some other srcu_struct's read-side critical section,
1430dad81a20SPaul E. McKenney * as long as the resulting graph of srcu_structs is acyclic.
1431dad81a20SPaul E. McKenney *
1432dad81a20SPaul E. McKenney * There are memory-ordering constraints implied by synchronize_srcu().
1433dad81a20SPaul E. McKenney * On systems with more than one CPU, when synchronize_srcu() returns,
1434dad81a20SPaul E. McKenney * each CPU is guaranteed to have executed a full memory barrier since
14356eb95cc4SPaul E. McKenney * the end of its last corresponding SRCU read-side critical section
1436dad81a20SPaul E. McKenney * whose beginning preceded the call to synchronize_srcu(). In addition,
1437dad81a20SPaul E. McKenney * each CPU having an SRCU read-side critical section that extends beyond
1438dad81a20SPaul E. McKenney * the return from synchronize_srcu() is guaranteed to have executed a
1439dad81a20SPaul E. McKenney * full memory barrier after the beginning of synchronize_srcu() and before
1440dad81a20SPaul E. McKenney * the beginning of that SRCU read-side critical section. Note that these
1441dad81a20SPaul E. McKenney * guarantees include CPUs that are offline, idle, or executing in user mode,
1442dad81a20SPaul E. McKenney * as well as CPUs that are executing in the kernel.
1443dad81a20SPaul E. McKenney *
1444dad81a20SPaul E. McKenney * Furthermore, if CPU A invoked synchronize_srcu(), which returned
1445dad81a20SPaul E. McKenney * to its caller on CPU B, then both CPU A and CPU B are guaranteed
1446dad81a20SPaul E. McKenney * to have executed a full memory barrier during the execution of
1447dad81a20SPaul E. McKenney * synchronize_srcu(). This guarantee applies even if CPU A and CPU B
1448dad81a20SPaul E. McKenney * are the same CPU, but again only if the system has more than one CPU.
1449dad81a20SPaul E. McKenney *
1450dad81a20SPaul E. McKenney * Of course, these memory-ordering guarantees apply only when
1451dad81a20SPaul E. McKenney * synchronize_srcu(), srcu_read_lock(), and srcu_read_unlock() are
1452dad81a20SPaul E. McKenney * passed the same srcu_struct structure.
14532da4b2a7SPaul E. McKenney *
14543d3a0d1bSPaul E. McKenney * Implementation of these memory-ordering guarantees is similar to
14553d3a0d1bSPaul E. McKenney * that of synchronize_rcu().
14563d3a0d1bSPaul E. McKenney *
14572da4b2a7SPaul E. McKenney * If SRCU is likely idle, expedite the first request. This semantic
14582da4b2a7SPaul E. McKenney * was provided by Classic SRCU, and is relied upon by its users, so TREE
14592da4b2a7SPaul E. McKenney * SRCU must also provide it. Note that detecting idleness is heuristic
14602da4b2a7SPaul E. McKenney * and subject to both false positives and negatives.
1461dad81a20SPaul E. McKenney */
synchronize_srcu(struct srcu_struct * ssp)1462aacb5d91SPaul E. McKenney void synchronize_srcu(struct srcu_struct *ssp)
1463dad81a20SPaul E. McKenney {
1464aacb5d91SPaul E. McKenney if (srcu_might_be_idle(ssp) || rcu_gp_is_expedited())
1465aacb5d91SPaul E. McKenney synchronize_srcu_expedited(ssp);
1466dad81a20SPaul E. McKenney else
1467aacb5d91SPaul E. McKenney __synchronize_srcu(ssp, true);
1468dad81a20SPaul E. McKenney }
1469dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(synchronize_srcu);
1470dad81a20SPaul E. McKenney
14715358c9faSPaul E. McKenney /**
14725358c9faSPaul E. McKenney * get_state_synchronize_srcu - Provide an end-of-grace-period cookie
14735358c9faSPaul E. McKenney * @ssp: srcu_struct to provide cookie for.
14745358c9faSPaul E. McKenney *
14755358c9faSPaul E. McKenney * This function returns a cookie that can be passed to
14765358c9faSPaul E. McKenney * poll_state_synchronize_srcu(), which will return true if a full grace
14775358c9faSPaul E. McKenney * period has elapsed in the meantime. It is the caller's responsibility
14785358c9faSPaul E. McKenney * to make sure that grace period happens, for example, by invoking
14795358c9faSPaul E. McKenney * call_srcu() after return from get_state_synchronize_srcu().
14805358c9faSPaul E. McKenney */
get_state_synchronize_srcu(struct srcu_struct * ssp)14815358c9faSPaul E. McKenney unsigned long get_state_synchronize_srcu(struct srcu_struct *ssp)
14825358c9faSPaul E. McKenney {
14835358c9faSPaul E. McKenney // Any prior manipulation of SRCU-protected data must happen
14845358c9faSPaul E. McKenney // before the load from ->srcu_gp_seq.
14855358c9faSPaul E. McKenney smp_mb();
148603200b5cSPaul E. McKenney return rcu_seq_snap(&ssp->srcu_sup->srcu_gp_seq);
14875358c9faSPaul E. McKenney }
14885358c9faSPaul E. McKenney EXPORT_SYMBOL_GPL(get_state_synchronize_srcu);
14895358c9faSPaul E. McKenney
14905358c9faSPaul E. McKenney /**
14915358c9faSPaul E. McKenney * start_poll_synchronize_srcu - Provide cookie and start grace period
14925358c9faSPaul E. McKenney * @ssp: srcu_struct to provide cookie for.
14935358c9faSPaul E. McKenney *
14945358c9faSPaul E. McKenney * This function returns a cookie that can be passed to
14955358c9faSPaul E. McKenney * poll_state_synchronize_srcu(), which will return true if a full grace
14965358c9faSPaul E. McKenney * period has elapsed in the meantime. Unlike get_state_synchronize_srcu(),
14975358c9faSPaul E. McKenney * this function also ensures that any needed SRCU grace period will be
14985358c9faSPaul E. McKenney * started. This convenience does come at a cost in terms of CPU overhead.
14995358c9faSPaul E. McKenney */
start_poll_synchronize_srcu(struct srcu_struct * ssp)15005358c9faSPaul E. McKenney unsigned long start_poll_synchronize_srcu(struct srcu_struct *ssp)
15015358c9faSPaul E. McKenney {
15025358c9faSPaul E. McKenney return srcu_gp_start_if_needed(ssp, NULL, true);
15035358c9faSPaul E. McKenney }
15045358c9faSPaul E. McKenney EXPORT_SYMBOL_GPL(start_poll_synchronize_srcu);
15055358c9faSPaul E. McKenney
15065358c9faSPaul E. McKenney /**
15075358c9faSPaul E. McKenney * poll_state_synchronize_srcu - Has cookie's grace period ended?
15085358c9faSPaul E. McKenney * @ssp: srcu_struct to provide cookie for.
15095358c9faSPaul E. McKenney * @cookie: Return value from get_state_synchronize_srcu() or start_poll_synchronize_srcu().
15105358c9faSPaul E. McKenney *
15115358c9faSPaul E. McKenney * This function takes the cookie that was returned from either
15125358c9faSPaul E. McKenney * get_state_synchronize_srcu() or start_poll_synchronize_srcu(), and
15135358c9faSPaul E. McKenney * returns @true if an SRCU grace period elapsed since the time that the
15145358c9faSPaul E. McKenney * cookie was created.
15154e7ccfaeSPaul E. McKenney *
15164e7ccfaeSPaul E. McKenney * Because cookies are finite in size, wrapping/overflow is possible.
15174e7ccfaeSPaul E. McKenney * This is more pronounced on 32-bit systems where cookies are 32 bits,
15184e7ccfaeSPaul E. McKenney * where in theory wrapping could happen in about 14 hours assuming
15194e7ccfaeSPaul E. McKenney * 25-microsecond expedited SRCU grace periods. However, a more likely
15204e7ccfaeSPaul E. McKenney * overflow lower bound is on the order of 24 days in the case of
15214e7ccfaeSPaul E. McKenney * one-millisecond SRCU grace periods. Of course, wrapping in a 64-bit
15224e7ccfaeSPaul E. McKenney * system requires geologic timespans, as in more than seven million years
15234e7ccfaeSPaul E. McKenney * even for expedited SRCU grace periods.
15244e7ccfaeSPaul E. McKenney *
15254e7ccfaeSPaul E. McKenney * Wrapping/overflow is much more of an issue for CONFIG_SMP=n systems
15264e7ccfaeSPaul E. McKenney * that also have CONFIG_PREEMPTION=n, which selects Tiny SRCU. This uses
15274e7ccfaeSPaul E. McKenney * a 16-bit cookie, which rcutorture routinely wraps in a matter of a
15284e7ccfaeSPaul E. McKenney * few minutes. If this proves to be a problem, this counter will be
15294e7ccfaeSPaul E. McKenney * expanded to the same size as for Tree SRCU.
15305358c9faSPaul E. McKenney */
poll_state_synchronize_srcu(struct srcu_struct * ssp,unsigned long cookie)15315358c9faSPaul E. McKenney bool poll_state_synchronize_srcu(struct srcu_struct *ssp, unsigned long cookie)
15325358c9faSPaul E. McKenney {
153303200b5cSPaul E. McKenney if (!rcu_seq_done(&ssp->srcu_sup->srcu_gp_seq, cookie))
15345358c9faSPaul E. McKenney return false;
15355358c9faSPaul E. McKenney // Ensure that the end of the SRCU grace period happens before
15365358c9faSPaul E. McKenney // any subsequent code that the caller might execute.
15375358c9faSPaul E. McKenney smp_mb(); // ^^^
15385358c9faSPaul E. McKenney return true;
15395358c9faSPaul E. McKenney }
15405358c9faSPaul E. McKenney EXPORT_SYMBOL_GPL(poll_state_synchronize_srcu);
15415358c9faSPaul E. McKenney
1542da915ad5SPaul E. McKenney /*
1543da915ad5SPaul E. McKenney * Callback function for srcu_barrier() use.
1544da915ad5SPaul E. McKenney */
srcu_barrier_cb(struct rcu_head * rhp)1545da915ad5SPaul E. McKenney static void srcu_barrier_cb(struct rcu_head *rhp)
1546da915ad5SPaul E. McKenney {
1547da915ad5SPaul E. McKenney struct srcu_data *sdp;
1548aacb5d91SPaul E. McKenney struct srcu_struct *ssp;
1549da915ad5SPaul E. McKenney
1550da915ad5SPaul E. McKenney sdp = container_of(rhp, struct srcu_data, srcu_barrier_head);
1551aacb5d91SPaul E. McKenney ssp = sdp->ssp;
1552d20162e0SPaul E. McKenney if (atomic_dec_and_test(&ssp->srcu_sup->srcu_barrier_cpu_cnt))
1553d20162e0SPaul E. McKenney complete(&ssp->srcu_sup->srcu_barrier_completion);
1554da915ad5SPaul E. McKenney }
1555da915ad5SPaul E. McKenney
1556994f7068SPaul E. McKenney /*
1557994f7068SPaul E. McKenney * Enqueue an srcu_barrier() callback on the specified srcu_data
1558994f7068SPaul E. McKenney * structure's ->cblist. but only if that ->cblist already has at least one
1559994f7068SPaul E. McKenney * callback enqueued. Note that if a CPU already has callbacks enqueue,
1560994f7068SPaul E. McKenney * it must have already registered the need for a future grace period,
1561994f7068SPaul E. McKenney * so all we need do is enqueue a callback that will use the same grace
1562994f7068SPaul E. McKenney * period as the last callback already in the queue.
1563994f7068SPaul E. McKenney */
srcu_barrier_one_cpu(struct srcu_struct * ssp,struct srcu_data * sdp)1564994f7068SPaul E. McKenney static void srcu_barrier_one_cpu(struct srcu_struct *ssp, struct srcu_data *sdp)
1565994f7068SPaul E. McKenney {
1566994f7068SPaul E. McKenney spin_lock_irq_rcu_node(sdp);
1567d20162e0SPaul E. McKenney atomic_inc(&ssp->srcu_sup->srcu_barrier_cpu_cnt);
1568994f7068SPaul E. McKenney sdp->srcu_barrier_head.func = srcu_barrier_cb;
1569994f7068SPaul E. McKenney debug_rcu_head_queue(&sdp->srcu_barrier_head);
1570994f7068SPaul E. McKenney if (!rcu_segcblist_entrain(&sdp->srcu_cblist,
1571994f7068SPaul E. McKenney &sdp->srcu_barrier_head)) {
1572994f7068SPaul E. McKenney debug_rcu_head_unqueue(&sdp->srcu_barrier_head);
1573d20162e0SPaul E. McKenney atomic_dec(&ssp->srcu_sup->srcu_barrier_cpu_cnt);
1574994f7068SPaul E. McKenney }
1575994f7068SPaul E. McKenney spin_unlock_irq_rcu_node(sdp);
1576994f7068SPaul E. McKenney }
1577994f7068SPaul E. McKenney
1578dad81a20SPaul E. McKenney /**
1579dad81a20SPaul E. McKenney * srcu_barrier - Wait until all in-flight call_srcu() callbacks complete.
1580aacb5d91SPaul E. McKenney * @ssp: srcu_struct on which to wait for in-flight callbacks.
1581dad81a20SPaul E. McKenney */
srcu_barrier(struct srcu_struct * ssp)1582aacb5d91SPaul E. McKenney void srcu_barrier(struct srcu_struct *ssp)
1583dad81a20SPaul E. McKenney {
1584da915ad5SPaul E. McKenney int cpu;
1585e2f63836SPaul E. McKenney int idx;
1586d20162e0SPaul E. McKenney unsigned long s = rcu_seq_snap(&ssp->srcu_sup->srcu_barrier_seq);
1587da915ad5SPaul E. McKenney
1588aacb5d91SPaul E. McKenney check_init_srcu_struct(ssp);
1589d20162e0SPaul E. McKenney mutex_lock(&ssp->srcu_sup->srcu_barrier_mutex);
1590d20162e0SPaul E. McKenney if (rcu_seq_done(&ssp->srcu_sup->srcu_barrier_seq, s)) {
1591da915ad5SPaul E. McKenney smp_mb(); /* Force ordering following return. */
1592d20162e0SPaul E. McKenney mutex_unlock(&ssp->srcu_sup->srcu_barrier_mutex);
1593da915ad5SPaul E. McKenney return; /* Someone else did our work for us. */
1594da915ad5SPaul E. McKenney }
1595d20162e0SPaul E. McKenney rcu_seq_start(&ssp->srcu_sup->srcu_barrier_seq);
1596d20162e0SPaul E. McKenney init_completion(&ssp->srcu_sup->srcu_barrier_completion);
1597da915ad5SPaul E. McKenney
1598da915ad5SPaul E. McKenney /* Initial count prevents reaching zero until all CBs are posted. */
1599d20162e0SPaul E. McKenney atomic_set(&ssp->srcu_sup->srcu_barrier_cpu_cnt, 1);
1600da915ad5SPaul E. McKenney
1601e29a4915SFrederic Weisbecker idx = __srcu_read_lock_nmisafe(ssp);
1602a0d8cbd3SPaul E. McKenney if (smp_load_acquire(&ssp->srcu_sup->srcu_size_state) < SRCU_SIZE_WAIT_BARRIER)
16037f24626dSPingfan Liu srcu_barrier_one_cpu(ssp, per_cpu_ptr(ssp->sda, get_boot_cpu_id()));
1604994f7068SPaul E. McKenney else
1605994f7068SPaul E. McKenney for_each_possible_cpu(cpu)
1606994f7068SPaul E. McKenney srcu_barrier_one_cpu(ssp, per_cpu_ptr(ssp->sda, cpu));
1607e29a4915SFrederic Weisbecker __srcu_read_unlock_nmisafe(ssp, idx);
1608da915ad5SPaul E. McKenney
1609da915ad5SPaul E. McKenney /* Remove the initial count, at which point reaching zero can happen. */
1610d20162e0SPaul E. McKenney if (atomic_dec_and_test(&ssp->srcu_sup->srcu_barrier_cpu_cnt))
1611d20162e0SPaul E. McKenney complete(&ssp->srcu_sup->srcu_barrier_completion);
1612d20162e0SPaul E. McKenney wait_for_completion(&ssp->srcu_sup->srcu_barrier_completion);
1613da915ad5SPaul E. McKenney
1614d20162e0SPaul E. McKenney rcu_seq_end(&ssp->srcu_sup->srcu_barrier_seq);
1615d20162e0SPaul E. McKenney mutex_unlock(&ssp->srcu_sup->srcu_barrier_mutex);
1616dad81a20SPaul E. McKenney }
1617dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(srcu_barrier);
1618dad81a20SPaul E. McKenney
1619dad81a20SPaul E. McKenney /**
1620dad81a20SPaul E. McKenney * srcu_batches_completed - return batches completed.
1621aacb5d91SPaul E. McKenney * @ssp: srcu_struct on which to report batch completion.
1622dad81a20SPaul E. McKenney *
1623dad81a20SPaul E. McKenney * Report the number of batches, correlated with, but not necessarily
1624dad81a20SPaul E. McKenney * precisely the same as, the number of grace periods that have elapsed.
1625dad81a20SPaul E. McKenney */
srcu_batches_completed(struct srcu_struct * ssp)1626aacb5d91SPaul E. McKenney unsigned long srcu_batches_completed(struct srcu_struct *ssp)
1627dad81a20SPaul E. McKenney {
162839f91504SPaul E. McKenney return READ_ONCE(ssp->srcu_idx);
1629dad81a20SPaul E. McKenney }
1630dad81a20SPaul E. McKenney EXPORT_SYMBOL_GPL(srcu_batches_completed);
1631dad81a20SPaul E. McKenney
1632dad81a20SPaul E. McKenney /*
1633da915ad5SPaul E. McKenney * Core SRCU state machine. Push state bits of ->srcu_gp_seq
1634da915ad5SPaul E. McKenney * to SRCU_STATE_SCAN2, and invoke srcu_gp_end() when scan has
1635da915ad5SPaul E. McKenney * completed in that state.
1636dad81a20SPaul E. McKenney */
srcu_advance_state(struct srcu_struct * ssp)1637aacb5d91SPaul E. McKenney static void srcu_advance_state(struct srcu_struct *ssp)
1638dad81a20SPaul E. McKenney {
1639dad81a20SPaul E. McKenney int idx;
1640dad81a20SPaul E. McKenney
1641e3a6ab25SPaul E. McKenney mutex_lock(&ssp->srcu_sup->srcu_gp_mutex);
1642da915ad5SPaul E. McKenney
1643dad81a20SPaul E. McKenney /*
1644dad81a20SPaul E. McKenney * Because readers might be delayed for an extended period after
1645da915ad5SPaul E. McKenney * fetching ->srcu_idx for their index, at any point in time there
1646dad81a20SPaul E. McKenney * might well be readers using both idx=0 and idx=1. We therefore
1647dad81a20SPaul E. McKenney * need to wait for readers to clear from both index values before
1648dad81a20SPaul E. McKenney * invoking a callback.
1649dad81a20SPaul E. McKenney *
1650dad81a20SPaul E. McKenney * The load-acquire ensures that we see the accesses performed
1651dad81a20SPaul E. McKenney * by the prior grace period.
1652dad81a20SPaul E. McKenney */
165303200b5cSPaul E. McKenney idx = rcu_seq_state(smp_load_acquire(&ssp->srcu_sup->srcu_gp_seq)); /* ^^^ */
1654dad81a20SPaul E. McKenney if (idx == SRCU_STATE_IDLE) {
1655b3fb11f7SPaul E. McKenney spin_lock_irq_rcu_node(ssp->srcu_sup);
165603200b5cSPaul E. McKenney if (ULONG_CMP_GE(ssp->srcu_sup->srcu_gp_seq, ssp->srcu_sup->srcu_gp_seq_needed)) {
165703200b5cSPaul E. McKenney WARN_ON_ONCE(rcu_seq_state(ssp->srcu_sup->srcu_gp_seq));
1658b3fb11f7SPaul E. McKenney spin_unlock_irq_rcu_node(ssp->srcu_sup);
1659e3a6ab25SPaul E. McKenney mutex_unlock(&ssp->srcu_sup->srcu_gp_mutex);
1660dad81a20SPaul E. McKenney return;
1661dad81a20SPaul E. McKenney }
166203200b5cSPaul E. McKenney idx = rcu_seq_state(READ_ONCE(ssp->srcu_sup->srcu_gp_seq));
1663dad81a20SPaul E. McKenney if (idx == SRCU_STATE_IDLE)
1664aacb5d91SPaul E. McKenney srcu_gp_start(ssp);
1665b3fb11f7SPaul E. McKenney spin_unlock_irq_rcu_node(ssp->srcu_sup);
1666da915ad5SPaul E. McKenney if (idx != SRCU_STATE_IDLE) {
1667e3a6ab25SPaul E. McKenney mutex_unlock(&ssp->srcu_sup->srcu_gp_mutex);
1668dad81a20SPaul E. McKenney return; /* Someone else started the grace period. */
1669dad81a20SPaul E. McKenney }
1670da915ad5SPaul E. McKenney }
1671dad81a20SPaul E. McKenney
167203200b5cSPaul E. McKenney if (rcu_seq_state(READ_ONCE(ssp->srcu_sup->srcu_gp_seq)) == SRCU_STATE_SCAN1) {
1673aacb5d91SPaul E. McKenney idx = 1 ^ (ssp->srcu_idx & 1);
1674aacb5d91SPaul E. McKenney if (!try_check_zero(ssp, idx, 1)) {
1675e3a6ab25SPaul E. McKenney mutex_unlock(&ssp->srcu_sup->srcu_gp_mutex);
1676dad81a20SPaul E. McKenney return; /* readers present, retry later. */
1677da915ad5SPaul E. McKenney }
1678aacb5d91SPaul E. McKenney srcu_flip(ssp);
1679b3fb11f7SPaul E. McKenney spin_lock_irq_rcu_node(ssp->srcu_sup);
168003200b5cSPaul E. McKenney rcu_seq_set_state(&ssp->srcu_sup->srcu_gp_seq, SRCU_STATE_SCAN2);
16813b46679cSPaul E. McKenney ssp->srcu_sup->srcu_n_exp_nodelay = 0;
1682b3fb11f7SPaul E. McKenney spin_unlock_irq_rcu_node(ssp->srcu_sup);
1683dad81a20SPaul E. McKenney }
1684dad81a20SPaul E. McKenney
168503200b5cSPaul E. McKenney if (rcu_seq_state(READ_ONCE(ssp->srcu_sup->srcu_gp_seq)) == SRCU_STATE_SCAN2) {
1686dad81a20SPaul E. McKenney
1687dad81a20SPaul E. McKenney /*
1688dad81a20SPaul E. McKenney * SRCU read-side critical sections are normally short,
1689dad81a20SPaul E. McKenney * so check at least twice in quick succession after a flip.
1690dad81a20SPaul E. McKenney */
1691aacb5d91SPaul E. McKenney idx = 1 ^ (ssp->srcu_idx & 1);
1692aacb5d91SPaul E. McKenney if (!try_check_zero(ssp, idx, 2)) {
1693e3a6ab25SPaul E. McKenney mutex_unlock(&ssp->srcu_sup->srcu_gp_mutex);
1694da915ad5SPaul E. McKenney return; /* readers present, retry later. */
1695da915ad5SPaul E. McKenney }
16963b46679cSPaul E. McKenney ssp->srcu_sup->srcu_n_exp_nodelay = 0;
1697aacb5d91SPaul E. McKenney srcu_gp_end(ssp); /* Releases ->srcu_gp_mutex. */
1698dad81a20SPaul E. McKenney }
1699dad81a20SPaul E. McKenney }
1700dad81a20SPaul E. McKenney
1701dad81a20SPaul E. McKenney /*
1702dad81a20SPaul E. McKenney * Invoke a limited number of SRCU callbacks that have passed through
1703dad81a20SPaul E. McKenney * their grace period. If there are more to do, SRCU will reschedule
1704dad81a20SPaul E. McKenney * the workqueue. Note that needed memory barriers have been executed
1705dad81a20SPaul E. McKenney * in this task's context by srcu_readers_active_idx_check().
1706dad81a20SPaul E. McKenney */
srcu_invoke_callbacks(struct work_struct * work)1707da915ad5SPaul E. McKenney static void srcu_invoke_callbacks(struct work_struct *work)
1708dad81a20SPaul E. McKenney {
1709ae5c2341SJoel Fernandes (Google) long len;
1710da915ad5SPaul E. McKenney bool more;
1711dad81a20SPaul E. McKenney struct rcu_cblist ready_cbs;
1712dad81a20SPaul E. McKenney struct rcu_head *rhp;
1713da915ad5SPaul E. McKenney struct srcu_data *sdp;
1714aacb5d91SPaul E. McKenney struct srcu_struct *ssp;
1715dad81a20SPaul E. McKenney
1716e81baf4cSSebastian Andrzej Siewior sdp = container_of(work, struct srcu_data, work);
1717e81baf4cSSebastian Andrzej Siewior
1718aacb5d91SPaul E. McKenney ssp = sdp->ssp;
1719dad81a20SPaul E. McKenney rcu_cblist_init(&ready_cbs);
1720d6331980SPaul E. McKenney spin_lock_irq_rcu_node(sdp);
1721f62c43d6SFrederic Weisbecker WARN_ON_ONCE(!rcu_segcblist_segempty(&sdp->srcu_cblist, RCU_NEXT_TAIL));
1722da915ad5SPaul E. McKenney rcu_segcblist_advance(&sdp->srcu_cblist,
172303200b5cSPaul E. McKenney rcu_seq_current(&ssp->srcu_sup->srcu_gp_seq));
1724da915ad5SPaul E. McKenney if (sdp->srcu_cblist_invoking ||
1725da915ad5SPaul E. McKenney !rcu_segcblist_ready_cbs(&sdp->srcu_cblist)) {
1726d6331980SPaul E. McKenney spin_unlock_irq_rcu_node(sdp);
1727da915ad5SPaul E. McKenney return; /* Someone else on the job or nothing to do. */
1728da915ad5SPaul E. McKenney }
1729da915ad5SPaul E. McKenney
1730da915ad5SPaul E. McKenney /* We are on the job! Extract and invoke ready callbacks. */
1731da915ad5SPaul E. McKenney sdp->srcu_cblist_invoking = true;
1732da915ad5SPaul E. McKenney rcu_segcblist_extract_done_cbs(&sdp->srcu_cblist, &ready_cbs);
1733ae5c2341SJoel Fernandes (Google) len = ready_cbs.len;
1734d6331980SPaul E. McKenney spin_unlock_irq_rcu_node(sdp);
1735dad81a20SPaul E. McKenney rhp = rcu_cblist_dequeue(&ready_cbs);
1736dad81a20SPaul E. McKenney for (; rhp != NULL; rhp = rcu_cblist_dequeue(&ready_cbs)) {
1737a602538eSPaul E. McKenney debug_rcu_head_unqueue(rhp);
1738*e160de34SZhen Lei debug_rcu_head_callback(rhp);
1739dad81a20SPaul E. McKenney local_bh_disable();
1740dad81a20SPaul E. McKenney rhp->func(rhp);
1741dad81a20SPaul E. McKenney local_bh_enable();
1742dad81a20SPaul E. McKenney }
1743ae5c2341SJoel Fernandes (Google) WARN_ON_ONCE(ready_cbs.len);
1744da915ad5SPaul E. McKenney
1745da915ad5SPaul E. McKenney /*
1746da915ad5SPaul E. McKenney * Update counts, accelerate new callbacks, and if needed,
1747da915ad5SPaul E. McKenney * schedule another round of callback invocation.
1748da915ad5SPaul E. McKenney */
1749d6331980SPaul E. McKenney spin_lock_irq_rcu_node(sdp);
1750ae5c2341SJoel Fernandes (Google) rcu_segcblist_add_len(&sdp->srcu_cblist, -len);
1751da915ad5SPaul E. McKenney sdp->srcu_cblist_invoking = false;
1752da915ad5SPaul E. McKenney more = rcu_segcblist_ready_cbs(&sdp->srcu_cblist);
1753d6331980SPaul E. McKenney spin_unlock_irq_rcu_node(sdp);
1754da915ad5SPaul E. McKenney if (more)
1755da915ad5SPaul E. McKenney srcu_schedule_cbs_sdp(sdp, 0);
1756dad81a20SPaul E. McKenney }
1757dad81a20SPaul E. McKenney
1758dad81a20SPaul E. McKenney /*
1759dad81a20SPaul E. McKenney * Finished one round of SRCU grace period. Start another if there are
1760dad81a20SPaul E. McKenney * more SRCU callbacks queued, otherwise put SRCU into not-running state.
1761dad81a20SPaul E. McKenney */
srcu_reschedule(struct srcu_struct * ssp,unsigned long delay)1762aacb5d91SPaul E. McKenney static void srcu_reschedule(struct srcu_struct *ssp, unsigned long delay)
1763dad81a20SPaul E. McKenney {
1764da915ad5SPaul E. McKenney bool pushgp = true;
1765dad81a20SPaul E. McKenney
1766b3fb11f7SPaul E. McKenney spin_lock_irq_rcu_node(ssp->srcu_sup);
176703200b5cSPaul E. McKenney if (ULONG_CMP_GE(ssp->srcu_sup->srcu_gp_seq, ssp->srcu_sup->srcu_gp_seq_needed)) {
176803200b5cSPaul E. McKenney if (!WARN_ON_ONCE(rcu_seq_state(ssp->srcu_sup->srcu_gp_seq))) {
1769da915ad5SPaul E. McKenney /* All requests fulfilled, time to go idle. */
1770da915ad5SPaul E. McKenney pushgp = false;
1771dad81a20SPaul E. McKenney }
177203200b5cSPaul E. McKenney } else if (!rcu_seq_state(ssp->srcu_sup->srcu_gp_seq)) {
1773da915ad5SPaul E. McKenney /* Outstanding request and no GP. Start one. */
1774aacb5d91SPaul E. McKenney srcu_gp_start(ssp);
1775da915ad5SPaul E. McKenney }
1776b3fb11f7SPaul E. McKenney spin_unlock_irq_rcu_node(ssp->srcu_sup);
1777dad81a20SPaul E. McKenney
1778da915ad5SPaul E. McKenney if (pushgp)
1779fd1b3f8eSPaul E. McKenney queue_delayed_work(rcu_gp_wq, &ssp->srcu_sup->work, delay);
1780dad81a20SPaul E. McKenney }
1781dad81a20SPaul E. McKenney
1782dad81a20SPaul E. McKenney /*
1783dad81a20SPaul E. McKenney * This is the work-queue function that handles SRCU grace periods.
1784dad81a20SPaul E. McKenney */
process_srcu(struct work_struct * work)17850d8a1e83SPaul E. McKenney static void process_srcu(struct work_struct *work)
1786dad81a20SPaul E. McKenney {
1787282d8998SPaul E. McKenney unsigned long curdelay;
1788282d8998SPaul E. McKenney unsigned long j;
1789aacb5d91SPaul E. McKenney struct srcu_struct *ssp;
1790fd1b3f8eSPaul E. McKenney struct srcu_usage *sup;
1791dad81a20SPaul E. McKenney
1792fd1b3f8eSPaul E. McKenney sup = container_of(work, struct srcu_usage, work.work);
1793fd1b3f8eSPaul E. McKenney ssp = sup->srcu_ssp;
1794dad81a20SPaul E. McKenney
1795aacb5d91SPaul E. McKenney srcu_advance_state(ssp);
1796282d8998SPaul E. McKenney curdelay = srcu_get_delay(ssp);
1797282d8998SPaul E. McKenney if (curdelay) {
1798fd1b3f8eSPaul E. McKenney WRITE_ONCE(sup->reschedule_count, 0);
1799282d8998SPaul E. McKenney } else {
1800282d8998SPaul E. McKenney j = jiffies;
1801fd1b3f8eSPaul E. McKenney if (READ_ONCE(sup->reschedule_jiffies) == j) {
1802fd1b3f8eSPaul E. McKenney WRITE_ONCE(sup->reschedule_count, READ_ONCE(sup->reschedule_count) + 1);
1803fd1b3f8eSPaul E. McKenney if (READ_ONCE(sup->reschedule_count) > srcu_max_nodelay)
1804282d8998SPaul E. McKenney curdelay = 1;
1805282d8998SPaul E. McKenney } else {
1806fd1b3f8eSPaul E. McKenney WRITE_ONCE(sup->reschedule_count, 1);
1807fd1b3f8eSPaul E. McKenney WRITE_ONCE(sup->reschedule_jiffies, j);
1808282d8998SPaul E. McKenney }
1809282d8998SPaul E. McKenney }
1810282d8998SPaul E. McKenney srcu_reschedule(ssp, curdelay);
1811dad81a20SPaul E. McKenney }
18127f6733c3SPaul E. McKenney
srcutorture_get_gp_data(enum rcutorture_type test_type,struct srcu_struct * ssp,int * flags,unsigned long * gp_seq)18137f6733c3SPaul E. McKenney void srcutorture_get_gp_data(enum rcutorture_type test_type,
1814aacb5d91SPaul E. McKenney struct srcu_struct *ssp, int *flags,
1815aebc8264SPaul E. McKenney unsigned long *gp_seq)
18167f6733c3SPaul E. McKenney {
18177f6733c3SPaul E. McKenney if (test_type != SRCU_FLAVOR)
18187f6733c3SPaul E. McKenney return;
18197f6733c3SPaul E. McKenney *flags = 0;
182003200b5cSPaul E. McKenney *gp_seq = rcu_seq_current(&ssp->srcu_sup->srcu_gp_seq);
18217f6733c3SPaul E. McKenney }
18227f6733c3SPaul E. McKenney EXPORT_SYMBOL_GPL(srcutorture_get_gp_data);
18231f4f6da1SPaul E. McKenney
18243bedebcfSPaul E. McKenney static const char * const srcu_size_state_name[] = {
18253bedebcfSPaul E. McKenney "SRCU_SIZE_SMALL",
18263bedebcfSPaul E. McKenney "SRCU_SIZE_ALLOC",
18273bedebcfSPaul E. McKenney "SRCU_SIZE_WAIT_BARRIER",
18283bedebcfSPaul E. McKenney "SRCU_SIZE_WAIT_CALL",
18293bedebcfSPaul E. McKenney "SRCU_SIZE_WAIT_CBS1",
18303bedebcfSPaul E. McKenney "SRCU_SIZE_WAIT_CBS2",
18313bedebcfSPaul E. McKenney "SRCU_SIZE_WAIT_CBS3",
18323bedebcfSPaul E. McKenney "SRCU_SIZE_WAIT_CBS4",
18333bedebcfSPaul E. McKenney "SRCU_SIZE_BIG",
18343bedebcfSPaul E. McKenney "SRCU_SIZE_???",
18353bedebcfSPaul E. McKenney };
18363bedebcfSPaul E. McKenney
srcu_torture_stats_print(struct srcu_struct * ssp,char * tt,char * tf)1837aacb5d91SPaul E. McKenney void srcu_torture_stats_print(struct srcu_struct *ssp, char *tt, char *tf)
1838115a1a52SPaul E. McKenney {
1839115a1a52SPaul E. McKenney int cpu;
1840115a1a52SPaul E. McKenney int idx;
1841ac3748c6SPaul E. McKenney unsigned long s0 = 0, s1 = 0;
1842a0d8cbd3SPaul E. McKenney int ss_state = READ_ONCE(ssp->srcu_sup->srcu_size_state);
18433bedebcfSPaul E. McKenney int ss_state_idx = ss_state;
1844115a1a52SPaul E. McKenney
1845aacb5d91SPaul E. McKenney idx = ssp->srcu_idx & 0x1;
18463bedebcfSPaul E. McKenney if (ss_state < 0 || ss_state >= ARRAY_SIZE(srcu_size_state_name))
18473bedebcfSPaul E. McKenney ss_state_idx = ARRAY_SIZE(srcu_size_state_name) - 1;
18484a230f80SPaul E. McKenney pr_alert("%s%s Tree SRCU g%ld state %d (%s)",
184903200b5cSPaul E. McKenney tt, tf, rcu_seq_current(&ssp->srcu_sup->srcu_gp_seq), ss_state,
18504a230f80SPaul E. McKenney srcu_size_state_name[ss_state_idx]);
18514a230f80SPaul E. McKenney if (!ssp->sda) {
18524a230f80SPaul E. McKenney // Called after cleanup_srcu_struct(), perhaps.
18534a230f80SPaul E. McKenney pr_cont(" No per-CPU srcu_data structures (->sda == NULL).\n");
18544a230f80SPaul E. McKenney } else {
18554a230f80SPaul E. McKenney pr_cont(" per-CPU(idx=%d):", idx);
1856115a1a52SPaul E. McKenney for_each_possible_cpu(cpu) {
1857115a1a52SPaul E. McKenney unsigned long l0, l1;
1858115a1a52SPaul E. McKenney unsigned long u0, u1;
1859115a1a52SPaul E. McKenney long c0, c1;
18605ab07a8dSPaul E. McKenney struct srcu_data *sdp;
1861115a1a52SPaul E. McKenney
1862aacb5d91SPaul E. McKenney sdp = per_cpu_ptr(ssp->sda, cpu);
18635d0f5953SPaul E. McKenney u0 = data_race(atomic_long_read(&sdp->srcu_unlock_count[!idx]));
18645d0f5953SPaul E. McKenney u1 = data_race(atomic_long_read(&sdp->srcu_unlock_count[idx]));
1865115a1a52SPaul E. McKenney
1866115a1a52SPaul E. McKenney /*
1867115a1a52SPaul E. McKenney * Make sure that a lock is always counted if the corresponding
1868115a1a52SPaul E. McKenney * unlock is counted.
1869115a1a52SPaul E. McKenney */
1870115a1a52SPaul E. McKenney smp_rmb();
1871115a1a52SPaul E. McKenney
18725d0f5953SPaul E. McKenney l0 = data_race(atomic_long_read(&sdp->srcu_lock_count[!idx]));
18735d0f5953SPaul E. McKenney l1 = data_race(atomic_long_read(&sdp->srcu_lock_count[idx]));
1874115a1a52SPaul E. McKenney
1875115a1a52SPaul E. McKenney c0 = l0 - u0;
1876115a1a52SPaul E. McKenney c1 = l1 - u1;
18777e210a65SPaul E. McKenney pr_cont(" %d(%ld,%ld %c)",
18787e210a65SPaul E. McKenney cpu, c0, c1,
18797e210a65SPaul E. McKenney "C."[rcu_segcblist_empty(&sdp->srcu_cblist)]);
1880ac3748c6SPaul E. McKenney s0 += c0;
1881ac3748c6SPaul E. McKenney s1 += c1;
1882115a1a52SPaul E. McKenney }
1883ac3748c6SPaul E. McKenney pr_cont(" T(%ld,%ld)\n", s0, s1);
18844a230f80SPaul E. McKenney }
18859f2e91d9SPaul E. McKenney if (SRCU_SIZING_IS_TORTURE())
188699659f64SPaul E. McKenney srcu_transition_to_big(ssp);
1887115a1a52SPaul E. McKenney }
1888115a1a52SPaul E. McKenney EXPORT_SYMBOL_GPL(srcu_torture_stats_print);
1889115a1a52SPaul E. McKenney
srcu_bootup_announce(void)18901f4f6da1SPaul E. McKenney static int __init srcu_bootup_announce(void)
18911f4f6da1SPaul E. McKenney {
18921f4f6da1SPaul E. McKenney pr_info("Hierarchical SRCU implementation.\n");
18930c8e0e3cSPaul E. McKenney if (exp_holdoff != DEFAULT_SRCU_EXP_HOLDOFF)
18940c8e0e3cSPaul E. McKenney pr_info("\tNon-default auto-expedite holdoff of %lu ns.\n", exp_holdoff);
18954f2bfd94SNeeraj Upadhyay if (srcu_retry_check_delay != SRCU_DEFAULT_RETRY_CHECK_DELAY)
18964f2bfd94SNeeraj Upadhyay pr_info("\tNon-default retry check delay of %lu us.\n", srcu_retry_check_delay);
18974f2bfd94SNeeraj Upadhyay if (srcu_max_nodelay != SRCU_DEFAULT_MAX_NODELAY)
18984f2bfd94SNeeraj Upadhyay pr_info("\tNon-default max no-delay of %lu.\n", srcu_max_nodelay);
18994f2bfd94SNeeraj Upadhyay pr_info("\tMax phase no-delay instances is %lu.\n", srcu_max_nodelay_phase);
19001f4f6da1SPaul E. McKenney return 0;
19011f4f6da1SPaul E. McKenney }
19021f4f6da1SPaul E. McKenney early_initcall(srcu_bootup_announce);
1903e0fcba9aSPaul E. McKenney
srcu_init(void)1904e0fcba9aSPaul E. McKenney void __init srcu_init(void)
1905e0fcba9aSPaul E. McKenney {
1906fd1b3f8eSPaul E. McKenney struct srcu_usage *sup;
1907e0fcba9aSPaul E. McKenney
1908a57ffb3cSPaul E. McKenney /* Decide on srcu_struct-size strategy. */
1909a57ffb3cSPaul E. McKenney if (SRCU_SIZING_IS(SRCU_SIZING_AUTO)) {
1910a57ffb3cSPaul E. McKenney if (nr_cpu_ids >= big_cpu_lim) {
1911a57ffb3cSPaul E. McKenney convert_to_big = SRCU_SIZING_INIT; // Don't bother waiting for contention.
1912a57ffb3cSPaul E. McKenney pr_info("%s: Setting srcu_struct sizes to big.\n", __func__);
1913a57ffb3cSPaul E. McKenney } else {
1914a57ffb3cSPaul E. McKenney convert_to_big = SRCU_SIZING_NONE | SRCU_SIZING_CONTEND;
1915a57ffb3cSPaul E. McKenney pr_info("%s: Setting srcu_struct sizes based on contention.\n", __func__);
1916a57ffb3cSPaul E. McKenney }
1917a57ffb3cSPaul E. McKenney }
1918a57ffb3cSPaul E. McKenney
19198e9c01c7SFrederic Weisbecker /*
19208e9c01c7SFrederic Weisbecker * Once that is set, call_srcu() can follow the normal path and
19218e9c01c7SFrederic Weisbecker * queue delayed work. This must follow RCU workqueues creation
19228e9c01c7SFrederic Weisbecker * and timers initialization.
19238e9c01c7SFrederic Weisbecker */
1924e0fcba9aSPaul E. McKenney srcu_init_done = true;
1925e0fcba9aSPaul E. McKenney while (!list_empty(&srcu_boot_list)) {
1926fd1b3f8eSPaul E. McKenney sup = list_first_entry(&srcu_boot_list, struct srcu_usage,
19274e6ea4efSPaul E. McKenney work.work.entry);
1928fd1b3f8eSPaul E. McKenney list_del_init(&sup->work.work.entry);
1929a0d8cbd3SPaul E. McKenney if (SRCU_SIZING_IS(SRCU_SIZING_INIT) &&
1930fd1b3f8eSPaul E. McKenney sup->srcu_size_state == SRCU_SIZE_SMALL)
1931fd1b3f8eSPaul E. McKenney sup->srcu_size_state = SRCU_SIZE_ALLOC;
1932fd1b3f8eSPaul E. McKenney queue_work(rcu_gp_wq, &sup->work.work);
1933e0fcba9aSPaul E. McKenney }
1934e0fcba9aSPaul E. McKenney }
1935fe15b50cSPaul E. McKenney
1936fe15b50cSPaul E. McKenney #ifdef CONFIG_MODULES
1937fe15b50cSPaul E. McKenney
1938fe15b50cSPaul E. McKenney /* Initialize any global-scope srcu_struct structures used by this module. */
srcu_module_coming(struct module * mod)1939fe15b50cSPaul E. McKenney static int srcu_module_coming(struct module *mod)
1940fe15b50cSPaul E. McKenney {
1941fe15b50cSPaul E. McKenney int i;
1942f4d01a25SPaul E. McKenney struct srcu_struct *ssp;
1943fe15b50cSPaul E. McKenney struct srcu_struct **sspp = mod->srcu_struct_ptrs;
1944fe15b50cSPaul E. McKenney
1945fe15b50cSPaul E. McKenney for (i = 0; i < mod->num_srcu_structs; i++) {
1946f4d01a25SPaul E. McKenney ssp = *(sspp++);
1947f4d01a25SPaul E. McKenney ssp->sda = alloc_percpu(struct srcu_data);
1948f4d01a25SPaul E. McKenney if (WARN_ON_ONCE(!ssp->sda))
1949f4d01a25SPaul E. McKenney return -ENOMEM;
1950fe15b50cSPaul E. McKenney }
1951fe15b50cSPaul E. McKenney return 0;
1952fe15b50cSPaul E. McKenney }
1953fe15b50cSPaul E. McKenney
1954fe15b50cSPaul E. McKenney /* Clean up any global-scope srcu_struct structures used by this module. */
srcu_module_going(struct module * mod)1955fe15b50cSPaul E. McKenney static void srcu_module_going(struct module *mod)
1956fe15b50cSPaul E. McKenney {
1957fe15b50cSPaul E. McKenney int i;
1958f4d01a25SPaul E. McKenney struct srcu_struct *ssp;
1959fe15b50cSPaul E. McKenney struct srcu_struct **sspp = mod->srcu_struct_ptrs;
1960fe15b50cSPaul E. McKenney
1961f4d01a25SPaul E. McKenney for (i = 0; i < mod->num_srcu_structs; i++) {
1962f4d01a25SPaul E. McKenney ssp = *(sspp++);
196303200b5cSPaul E. McKenney if (!rcu_seq_state(smp_load_acquire(&ssp->srcu_sup->srcu_gp_seq_needed)) &&
1964660349acSPaul E. McKenney !WARN_ON_ONCE(!ssp->srcu_sup->sda_is_static))
1965f4d01a25SPaul E. McKenney cleanup_srcu_struct(ssp);
1966a7bf4d7cSPaul E. McKenney if (!WARN_ON(srcu_readers_active(ssp)))
1967f4d01a25SPaul E. McKenney free_percpu(ssp->sda);
1968f4d01a25SPaul E. McKenney }
1969fe15b50cSPaul E. McKenney }
1970fe15b50cSPaul E. McKenney
1971fe15b50cSPaul E. McKenney /* Handle one module, either coming or going. */
srcu_module_notify(struct notifier_block * self,unsigned long val,void * data)1972fe15b50cSPaul E. McKenney static int srcu_module_notify(struct notifier_block *self,
1973fe15b50cSPaul E. McKenney unsigned long val, void *data)
1974fe15b50cSPaul E. McKenney {
1975fe15b50cSPaul E. McKenney struct module *mod = data;
1976fe15b50cSPaul E. McKenney int ret = 0;
1977fe15b50cSPaul E. McKenney
1978fe15b50cSPaul E. McKenney switch (val) {
1979fe15b50cSPaul E. McKenney case MODULE_STATE_COMING:
1980fe15b50cSPaul E. McKenney ret = srcu_module_coming(mod);
1981fe15b50cSPaul E. McKenney break;
1982fe15b50cSPaul E. McKenney case MODULE_STATE_GOING:
1983fe15b50cSPaul E. McKenney srcu_module_going(mod);
1984fe15b50cSPaul E. McKenney break;
1985fe15b50cSPaul E. McKenney default:
1986fe15b50cSPaul E. McKenney break;
1987fe15b50cSPaul E. McKenney }
1988fe15b50cSPaul E. McKenney return ret;
1989fe15b50cSPaul E. McKenney }
1990fe15b50cSPaul E. McKenney
1991fe15b50cSPaul E. McKenney static struct notifier_block srcu_module_nb = {
1992fe15b50cSPaul E. McKenney .notifier_call = srcu_module_notify,
1993fe15b50cSPaul E. McKenney .priority = 0,
1994fe15b50cSPaul E. McKenney };
1995fe15b50cSPaul E. McKenney
init_srcu_module_notifier(void)1996fe15b50cSPaul E. McKenney static __init int init_srcu_module_notifier(void)
1997fe15b50cSPaul E. McKenney {
1998fe15b50cSPaul E. McKenney int ret;
1999fe15b50cSPaul E. McKenney
2000fe15b50cSPaul E. McKenney ret = register_module_notifier(&srcu_module_nb);
2001fe15b50cSPaul E. McKenney if (ret)
2002fe15b50cSPaul E. McKenney pr_warn("Failed to register srcu module notifier\n");
2003fe15b50cSPaul E. McKenney return ret;
2004fe15b50cSPaul E. McKenney }
2005fe15b50cSPaul E. McKenney late_initcall(init_srcu_module_notifier);
2006fe15b50cSPaul E. McKenney
2007fe15b50cSPaul E. McKenney #endif /* #ifdef CONFIG_MODULES */
2008