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Willy Tarreaubaaee002006-06-26 02:48:02 +02001/*
2 * Task management functions.
3 *
Willy Tarreau4726f532009-03-07 17:25:21 +01004 * Copyright 2000-2009 Willy Tarreau <w@1wt.eu>
Willy Tarreaubaaee002006-06-26 02:48:02 +02005 *
6 * This program is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU General Public License
8 * as published by the Free Software Foundation; either version
9 * 2 of the License, or (at your option) any later version.
10 *
11 */
12
Willy Tarreau87bed622009-03-08 22:25:28 +010013#include <string.h>
14
Willy Tarreaub2551052020-06-09 09:07:15 +020015#include <import/eb32sctree.h>
16#include <import/eb32tree.h>
17
Willy Tarreau4c7e4b72020-05-27 12:58:42 +020018#include <haproxy/api.h>
Willy Tarreaue7723bd2020-06-24 11:11:02 +020019#include <haproxy/cfgparse.h>
Willy Tarreaub2551052020-06-09 09:07:15 +020020#include <haproxy/fd.h>
21#include <haproxy/freq_ctr.h>
Willy Tarreau853b2972020-05-27 18:01:47 +020022#include <haproxy/list.h>
Willy Tarreaub2551052020-06-09 09:07:15 +020023#include <haproxy/pool.h>
Willy Tarreaudfd3de82020-06-04 23:46:14 +020024#include <haproxy/stream.h>
Willy Tarreaucea0e1b2020-06-04 17:25:40 +020025#include <haproxy/task.h>
Willy Tarreau92b4f132020-06-01 11:05:15 +020026#include <haproxy/time.h>
Willy Tarreaub2551052020-06-09 09:07:15 +020027#include <haproxy/tools.h>
Willy Tarreaubaaee002006-06-26 02:48:02 +020028
Willy Tarreaubaaee002006-06-26 02:48:02 +020029
Willy Tarreau8ceae722018-11-26 11:58:30 +010030DECLARE_POOL(pool_head_task, "task", sizeof(struct task));
31DECLARE_POOL(pool_head_tasklet, "tasklet", sizeof(struct tasklet));
Willy Tarreau96bcfd72007-04-29 10:41:56 +020032
Thierry FOURNIERd6975962017-07-12 14:31:10 +020033/* This is the memory pool containing all the signal structs. These
Joseph Herlantcf92b6d2018-11-15 14:19:23 -080034 * struct are used to store each required signal between two tasks.
Thierry FOURNIERd6975962017-07-12 14:31:10 +020035 */
Willy Tarreau8ceae722018-11-26 11:58:30 +010036DECLARE_POOL(pool_head_notification, "notification", sizeof(struct notification));
Thierry FOURNIERd6975962017-07-12 14:31:10 +020037
Willy Tarreaua4613182009-03-21 18:13:21 +010038unsigned int nb_tasks = 0;
Olivier Houchardeba0c0b2018-07-26 18:53:28 +020039volatile unsigned long global_tasks_mask = 0; /* Mask of threads with tasks in the global runqueue */
Christopher Faulet34c5cc92016-12-06 09:15:30 +010040unsigned int tasks_run_queue = 0;
41unsigned int tasks_run_queue_cur = 0; /* copy of the run queue size */
Willy Tarreauc7bdf092009-03-21 18:33:52 +010042unsigned int nb_tasks_cur = 0; /* copy of the tasks count */
Willy Tarreaue35c94a2009-03-21 10:01:42 +010043unsigned int niced_tasks = 0; /* number of niced tasks in the run queue */
Emeric Brun01948972017-03-30 15:37:25 +020044
Willy Tarreaud022e9c2019-09-24 08:25:15 +020045THREAD_LOCAL struct task_per_thread *sched = &task_per_thread[0]; /* scheduler context for the current thread */
Willy Tarreau6d1222c2017-11-26 10:08:06 +010046
Willy Tarreau86abe442018-11-25 20:12:18 +010047__decl_aligned_spinlock(rq_lock); /* spin lock related to run queue */
Willy Tarreauef28dc12019-05-28 18:48:07 +020048__decl_aligned_rwlock(wq_lock); /* RW lock related to the wait queue */
Willy Tarreau964c9362007-01-07 00:38:00 +010049
Olivier Houchardb1ca58b2018-06-06 14:22:03 +020050#ifdef USE_THREAD
Willy Tarreaub20aa9e2018-10-15 14:52:21 +020051struct eb_root timers; /* sorted timers tree, global */
Olivier Houchardf6e6dc12018-05-18 18:38:23 +020052struct eb_root rqueue; /* tree constituting the run queue */
Olivier Houchard77551ee2018-07-26 15:59:38 +020053int global_rqueue_size; /* Number of element sin the global runqueue */
Olivier Houchardb1ca58b2018-06-06 14:22:03 +020054#endif
Willy Tarreaub20aa9e2018-10-15 14:52:21 +020055
Willy Tarreaue35c94a2009-03-21 10:01:42 +010056static unsigned int rqueue_ticks; /* insertion count */
Willy Tarreau8d8747a2018-10-15 16:12:48 +020057
58struct task_per_thread task_per_thread[MAX_THREADS];
Willy Tarreau9789f7b2008-06-24 08:17:16 +020059
Willy Tarreaueb8c2c62020-06-30 11:48:48 +020060
61/* Flags the task <t> for immediate destruction and puts it into its first
62 * thread's shared tasklet list if not yet queued/running. This will bypass
63 * the priority scheduling and make the task show up as fast as possible in
64 * the other thread's queue. Note that this operation isn't idempotent and is
65 * not supposed to be run on the same task from multiple threads at once. It's
66 * the caller's responsibility to make sure it is the only one able to kill the
67 * task.
68 */
69void task_kill(struct task *t)
70{
71 unsigned short state = t->state;
72 unsigned int thr;
73
74 BUG_ON(state & TASK_KILLED);
75
76 while (1) {
77 while (state & (TASK_RUNNING | TASK_QUEUED)) {
78 /* task already in the queue and about to be executed,
79 * or even currently running. Just add the flag and be
80 * done with it, the process loop will detect it and kill
81 * it. The CAS will fail if we arrive too late.
82 */
83 if (_HA_ATOMIC_CAS(&t->state, &state, state | TASK_KILLED))
84 return;
85 }
86
87 /* We'll have to wake it up, but we must also secure it so that
88 * it doesn't vanish under us. TASK_QUEUED guarantees nobody will
89 * add past us.
90 */
91 if (_HA_ATOMIC_CAS(&t->state, &state, state | TASK_QUEUED | TASK_KILLED)) {
92 /* Bypass the tree and go directly into the shared tasklet list.
93 * Note: that's a task so it must be accounted for as such. Pick
94 * the task's first thread for the job.
95 */
96 thr = my_ffsl(t->thread_mask) - 1;
Willy Tarreau54d31172020-07-02 14:14:00 +020097
98 /* Beware: tasks that have never run don't have their ->list empty yet! */
Willy Tarreau950954f2020-07-10 08:32:10 +020099 MT_LIST_ADDQ(&task_per_thread[thr].shared_tasklet_list,
Willy Tarreau4f589262020-07-02 17:17:42 +0200100 (struct mt_list *)&((struct tasklet *)t)->list);
Willy Tarreau54d31172020-07-02 14:14:00 +0200101 _HA_ATOMIC_ADD(&tasks_run_queue, 1);
102 _HA_ATOMIC_ADD(&task_per_thread[thr].task_list_size, 1);
103 if (sleeping_thread_mask & (1UL << thr)) {
104 _HA_ATOMIC_AND(&sleeping_thread_mask, ~(1UL << thr));
105 wake_thread(thr);
Willy Tarreaueb8c2c62020-06-30 11:48:48 +0200106 }
Willy Tarreau54d31172020-07-02 14:14:00 +0200107 return;
Willy Tarreaueb8c2c62020-06-30 11:48:48 +0200108 }
109 }
110}
111
Willy Tarreau4726f532009-03-07 17:25:21 +0100112/* Puts the task <t> in run queue at a position depending on t->nice. <t> is
113 * returned. The nice value assigns boosts in 32th of the run queue size. A
Christopher Faulet34c5cc92016-12-06 09:15:30 +0100114 * nice value of -1024 sets the task to -tasks_run_queue*32, while a nice value
115 * of 1024 sets the task to tasks_run_queue*32. The state flags are cleared, so
116 * the caller will have to set its flags after this call.
Willy Tarreau4726f532009-03-07 17:25:21 +0100117 * The task must not already be in the run queue. If unsure, use the safer
118 * task_wakeup() function.
Willy Tarreau91e99932008-06-30 07:51:00 +0200119 */
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200120void __task_wakeup(struct task *t, struct eb_root *root)
Willy Tarreaue33aece2007-04-30 13:15:14 +0200121{
Olivier Houchardb1ca58b2018-06-06 14:22:03 +0200122#ifdef USE_THREAD
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200123 if (root == &rqueue) {
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200124 HA_SPIN_LOCK(TASK_RQ_LOCK, &rq_lock);
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200125 }
Willy Tarreau2d1fd0a2019-04-15 09:18:31 +0200126#endif
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200127 /* Make sure if the task isn't in the runqueue, nobody inserts it
128 * in the meanwhile.
129 */
Olivier Houchard4c2832852019-03-08 18:48:47 +0100130 _HA_ATOMIC_ADD(&tasks_run_queue, 1);
Olivier Houchardc4aac9e2018-07-26 15:25:49 +0200131#ifdef USE_THREAD
132 if (root == &rqueue) {
Olivier Houchardde82aea2019-04-17 19:10:22 +0200133 global_tasks_mask |= t->thread_mask;
Olivier Houcharded1a6a02019-04-18 14:12:51 +0200134 __ha_barrier_store();
Olivier Houchardc4aac9e2018-07-26 15:25:49 +0200135 }
136#endif
Olivier Houchard4c2832852019-03-08 18:48:47 +0100137 t->rq.key = _HA_ATOMIC_ADD(&rqueue_ticks, 1);
Willy Tarreau91e99932008-06-30 07:51:00 +0200138
139 if (likely(t->nice)) {
140 int offset;
141
Olivier Houchard4c2832852019-03-08 18:48:47 +0100142 _HA_ATOMIC_ADD(&niced_tasks, 1);
Willy Tarreau2d1fd0a2019-04-15 09:18:31 +0200143 offset = t->nice * (int)global.tune.runqueue_depth;
Willy Tarreau4726f532009-03-07 17:25:21 +0100144 t->rq.key += offset;
Willy Tarreau91e99932008-06-30 07:51:00 +0200145 }
146
Willy Tarreaud9add3a2019-04-25 08:57:41 +0200147 if (task_profiling_mask & tid_bit)
Willy Tarreau9efd7452018-05-31 14:48:54 +0200148 t->call_date = now_mono_time();
149
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200150 eb32sc_insert(root, &t->rq, t->thread_mask);
Olivier Houchardb1ca58b2018-06-06 14:22:03 +0200151#ifdef USE_THREAD
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200152 if (root == &rqueue) {
153 global_rqueue_size++;
Olivier Houchard4c2832852019-03-08 18:48:47 +0100154 _HA_ATOMIC_OR(&t->state, TASK_GLOBAL);
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200155 HA_SPIN_UNLOCK(TASK_RQ_LOCK, &rq_lock);
Olivier Houchardb1ca58b2018-06-06 14:22:03 +0200156 } else
157#endif
158 {
Willy Tarreau8d8747a2018-10-15 16:12:48 +0200159 int nb = ((void *)root - (void *)&task_per_thread[0].rqueue) / sizeof(task_per_thread[0]);
160 task_per_thread[nb].rqueue_size++;
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200161 }
Willy Tarreau85d9b842018-07-27 17:14:41 +0200162#ifdef USE_THREAD
Olivier Houchard79321b92018-07-26 17:55:11 +0200163 /* If all threads that are supposed to handle this task are sleeping,
164 * wake one.
165 */
166 if ((((t->thread_mask & all_threads_mask) & sleeping_thread_mask) ==
Olivier Houchard1b327902019-03-15 00:23:10 +0100167 (t->thread_mask & all_threads_mask))) {
168 unsigned long m = (t->thread_mask & all_threads_mask) &~ tid_bit;
169
170 m = (m & (m - 1)) ^ m; // keep lowest bit set
171 _HA_ATOMIC_AND(&sleeping_thread_mask, ~m);
172 wake_thread(my_ffsl(m) - 1);
173 }
Willy Tarreau85d9b842018-07-27 17:14:41 +0200174#endif
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200175 return;
Willy Tarreaue33aece2007-04-30 13:15:14 +0200176}
Willy Tarreaud825eef2007-05-12 22:35:00 +0200177
Willy Tarreau96bcfd72007-04-29 10:41:56 +0200178/*
Willy Tarreau531cf0c2009-03-08 16:35:27 +0100179 * __task_queue()
Willy Tarreau96bcfd72007-04-29 10:41:56 +0200180 *
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200181 * Inserts a task into wait queue <wq> at the position given by its expiration
Willy Tarreau4726f532009-03-07 17:25:21 +0100182 * date. It does not matter if the task was already in the wait queue or not,
Willy Tarreau531cf0c2009-03-08 16:35:27 +0100183 * as it will be unlinked. The task must not have an infinite expiration timer.
Willy Tarreaue35c94a2009-03-21 10:01:42 +0100184 * Last, tasks must not be queued further than the end of the tree, which is
185 * between <now_ms> and <now_ms> + 2^31 ms (now+24days in 32bit).
Willy Tarreau531cf0c2009-03-08 16:35:27 +0100186 *
187 * This function should not be used directly, it is meant to be called by the
188 * inline version of task_queue() which performs a few cheap preliminary tests
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200189 * before deciding to call __task_queue(). Moreover this function doesn't care
190 * at all about locking so the caller must be careful when deciding whether to
191 * lock or not around this call.
Willy Tarreau96bcfd72007-04-29 10:41:56 +0200192 */
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200193void __task_queue(struct task *task, struct eb_root *wq)
Willy Tarreau964c9362007-01-07 00:38:00 +0100194{
Willy Tarreau531cf0c2009-03-08 16:35:27 +0100195 if (likely(task_in_wq(task)))
Willy Tarreau4726f532009-03-07 17:25:21 +0100196 __task_unlink_wq(task);
Willy Tarreau4726f532009-03-07 17:25:21 +0100197
198 /* the task is not in the queue now */
Willy Tarreaue35c94a2009-03-21 10:01:42 +0100199 task->wq.key = task->expire;
Willy Tarreau28c41a42008-06-29 17:00:59 +0200200#ifdef DEBUG_CHECK_INVALID_EXPIRATION_DATES
Willy Tarreaue35c94a2009-03-21 10:01:42 +0100201 if (tick_is_lt(task->wq.key, now_ms))
Willy Tarreau28c41a42008-06-29 17:00:59 +0200202 /* we're queuing too far away or in the past (most likely) */
Willy Tarreau4726f532009-03-07 17:25:21 +0100203 return;
Willy Tarreau28c41a42008-06-29 17:00:59 +0200204#endif
Willy Tarreauce44f122008-07-05 18:16:19 +0200205
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200206 eb32_insert(wq, &task->wq);
Willy Tarreau964c9362007-01-07 00:38:00 +0100207}
208
Willy Tarreau96bcfd72007-04-29 10:41:56 +0200209/*
Willy Tarreau9789f7b2008-06-24 08:17:16 +0200210 * Extract all expired timers from the timer queue, and wakes up all
Willy Tarreauc49ba522019-12-11 08:12:23 +0100211 * associated tasks.
Willy Tarreau96bcfd72007-04-29 10:41:56 +0200212 */
Willy Tarreauc49ba522019-12-11 08:12:23 +0100213void wake_expired_tasks()
Willy Tarreaubaaee002006-06-26 02:48:02 +0200214{
Willy Tarreaud022e9c2019-09-24 08:25:15 +0200215 struct task_per_thread * const tt = sched; // thread's tasks
Willy Tarreau96bcfd72007-04-29 10:41:56 +0200216 struct task *task;
Willy Tarreau9789f7b2008-06-24 08:17:16 +0200217 struct eb32_node *eb;
Willy Tarreauaf613e82020-06-05 08:40:51 +0200218 __decl_thread(int key);
Willy Tarreaubaaee002006-06-26 02:48:02 +0200219
Willy Tarreaue35c94a2009-03-21 10:01:42 +0100220 while (1) {
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200221 lookup_next_local:
Willy Tarreau4c1e1ad2019-09-24 07:19:08 +0200222 eb = eb32_lookup_ge(&tt->timers, now_ms - TIMER_LOOK_BACK);
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200223 if (!eb) {
224 /* we might have reached the end of the tree, typically because
225 * <now_ms> is in the first half and we're first scanning the last
226 * half. Let's loop back to the beginning of the tree now.
227 */
Willy Tarreau4c1e1ad2019-09-24 07:19:08 +0200228 eb = eb32_first(&tt->timers);
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200229 if (likely(!eb))
230 break;
231 }
232
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200233 /* It is possible that this task was left at an earlier place in the
234 * tree because a recent call to task_queue() has not moved it. This
235 * happens when the new expiration date is later than the old one.
236 * Since it is very unlikely that we reach a timeout anyway, it's a
237 * lot cheaper to proceed like this because we almost never update
238 * the tree. We may also find disabled expiration dates there. Since
239 * we have detached the task from the tree, we simply call task_queue
240 * to take care of this. Note that we might occasionally requeue it at
241 * the same place, before <eb>, so we have to check if this happens,
242 * and adjust <eb>, otherwise we may skip it which is not what we want.
243 * We may also not requeue the task (and not point eb at it) if its
Willy Tarreau77015ab2020-06-19 11:50:27 +0200244 * expiration time is not set. We also make sure we leave the real
245 * expiration date for the next task in the queue so that when calling
246 * next_timer_expiry() we're guaranteed to see the next real date and
247 * not the next apparent date. This is in order to avoid useless
248 * wakeups.
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200249 */
Willy Tarreau77015ab2020-06-19 11:50:27 +0200250
251 task = eb32_entry(eb, struct task, wq);
252 if (tick_is_expired(task->expire, now_ms)) {
253 /* expired task, wake it up */
254 __task_unlink_wq(task);
255 task_wakeup(task, TASK_WOKEN_TIMER);
256 }
257 else if (task->expire != eb->key) {
258 /* task is not expired but its key doesn't match so let's
259 * update it and skip to next apparently expired task.
260 */
261 __task_unlink_wq(task);
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200262 if (tick_isset(task->expire))
Willy Tarreau4c1e1ad2019-09-24 07:19:08 +0200263 __task_queue(task, &tt->timers);
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200264 }
Willy Tarreau77015ab2020-06-19 11:50:27 +0200265 else {
266 /* task not expired and correctly placed */
267 break;
268 }
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200269 }
270
271#ifdef USE_THREAD
Willy Tarreau1e928c02019-05-28 18:57:25 +0200272 if (eb_is_empty(&timers))
273 goto leave;
274
275 HA_RWLOCK_RDLOCK(TASK_WQ_LOCK, &wq_lock);
276 eb = eb32_lookup_ge(&timers, now_ms - TIMER_LOOK_BACK);
277 if (!eb) {
278 eb = eb32_first(&timers);
279 if (likely(!eb)) {
280 HA_RWLOCK_RDUNLOCK(TASK_WQ_LOCK, &wq_lock);
281 goto leave;
282 }
283 }
284 key = eb->key;
285 HA_RWLOCK_RDUNLOCK(TASK_WQ_LOCK, &wq_lock);
286
Willy Tarreauc49ba522019-12-11 08:12:23 +0100287 if (tick_is_lt(now_ms, key))
Willy Tarreau1e928c02019-05-28 18:57:25 +0200288 goto leave;
Willy Tarreau1e928c02019-05-28 18:57:25 +0200289
290 /* There's really something of interest here, let's visit the queue */
291
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200292 while (1) {
Willy Tarreauef28dc12019-05-28 18:48:07 +0200293 HA_RWLOCK_WRLOCK(TASK_WQ_LOCK, &wq_lock);
Emeric Brunc60def82017-09-27 14:59:38 +0200294 lookup_next:
Emeric Brun01948972017-03-30 15:37:25 +0200295 eb = eb32_lookup_ge(&timers, now_ms - TIMER_LOOK_BACK);
Emeric Brunc60def82017-09-27 14:59:38 +0200296 if (!eb) {
Willy Tarreaue35c94a2009-03-21 10:01:42 +0100297 /* we might have reached the end of the tree, typically because
298 * <now_ms> is in the first half and we're first scanning the last
299 * half. Let's loop back to the beginning of the tree now.
300 */
301 eb = eb32_first(&timers);
Willy Tarreaub992ba12017-11-05 19:09:27 +0100302 if (likely(!eb))
Willy Tarreaue35c94a2009-03-21 10:01:42 +0100303 break;
304 }
Willy Tarreaubaaee002006-06-26 02:48:02 +0200305
Willy Tarreaue35c94a2009-03-21 10:01:42 +0100306 task = eb32_entry(eb, struct task, wq);
Willy Tarreau77015ab2020-06-19 11:50:27 +0200307 if (tick_is_expired(task->expire, now_ms)) {
308 /* expired task, wake it up */
309 __task_unlink_wq(task);
310 task_wakeup(task, TASK_WOKEN_TIMER);
311 }
312 else if (task->expire != eb->key) {
313 /* task is not expired but its key doesn't match so let's
314 * update it and skip to next apparently expired task.
315 */
316 __task_unlink_wq(task);
Willy Tarreaub992ba12017-11-05 19:09:27 +0100317 if (tick_isset(task->expire))
Willy Tarreau77015ab2020-06-19 11:50:27 +0200318 __task_queue(task, &tt->timers);
Emeric Brunc60def82017-09-27 14:59:38 +0200319 goto lookup_next;
Willy Tarreaubaaee002006-06-26 02:48:02 +0200320 }
Willy Tarreau77015ab2020-06-19 11:50:27 +0200321 else {
322 /* task not expired and correctly placed */
323 break;
324 }
Willy Tarreauef28dc12019-05-28 18:48:07 +0200325 HA_RWLOCK_WRUNLOCK(TASK_WQ_LOCK, &wq_lock);
Willy Tarreaue35c94a2009-03-21 10:01:42 +0100326 }
Willy Tarreau9789f7b2008-06-24 08:17:16 +0200327
Willy Tarreauef28dc12019-05-28 18:48:07 +0200328 HA_RWLOCK_WRUNLOCK(TASK_WQ_LOCK, &wq_lock);
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200329#endif
Willy Tarreau1e928c02019-05-28 18:57:25 +0200330leave:
Willy Tarreauc49ba522019-12-11 08:12:23 +0100331 return;
332}
333
334/* Checks the next timer for the current thread by looking into its own timer
335 * list and the global one. It may return TICK_ETERNITY if no timer is present.
Ilya Shipitsin856aabc2020-04-16 23:51:34 +0500336 * Note that the next timer might very well be slightly in the past.
Willy Tarreauc49ba522019-12-11 08:12:23 +0100337 */
338int next_timer_expiry()
339{
340 struct task_per_thread * const tt = sched; // thread's tasks
341 struct eb32_node *eb;
342 int ret = TICK_ETERNITY;
Willy Tarreauaf613e82020-06-05 08:40:51 +0200343 __decl_thread(int key);
Willy Tarreauc49ba522019-12-11 08:12:23 +0100344
345 /* first check in the thread-local timers */
346 eb = eb32_lookup_ge(&tt->timers, now_ms - TIMER_LOOK_BACK);
347 if (!eb) {
348 /* we might have reached the end of the tree, typically because
349 * <now_ms> is in the first half and we're first scanning the last
350 * half. Let's loop back to the beginning of the tree now.
351 */
352 eb = eb32_first(&tt->timers);
353 }
354
355 if (eb)
356 ret = eb->key;
357
358#ifdef USE_THREAD
359 if (!eb_is_empty(&timers)) {
360 HA_RWLOCK_RDLOCK(TASK_WQ_LOCK, &wq_lock);
361 eb = eb32_lookup_ge(&timers, now_ms - TIMER_LOOK_BACK);
362 if (!eb)
363 eb = eb32_first(&timers);
364 if (eb)
365 key = eb->key;
366 HA_RWLOCK_RDUNLOCK(TASK_WQ_LOCK, &wq_lock);
367 if (eb)
368 ret = tick_first(ret, key);
369 }
370#endif
Willy Tarreaub992ba12017-11-05 19:09:27 +0100371 return ret;
Willy Tarreaubaaee002006-06-26 02:48:02 +0200372}
373
Willy Tarreau59153fe2020-06-24 10:17:29 +0200374/* Walks over tasklet lists sched->tasklets[0..TL_CLASSES-1] and run at most
375 * budget[TL_*] of them. Returns the number of entries effectively processed
376 * (tasks and tasklets merged). The count of tasks in the list for the current
377 * thread is adjusted.
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100378 */
Willy Tarreau59153fe2020-06-24 10:17:29 +0200379unsigned int run_tasks_from_lists(unsigned int budgets[])
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100380{
381 struct task *(*process)(struct task *t, void *ctx, unsigned short state);
Willy Tarreauba48d5c2020-06-24 09:54:24 +0200382 struct list *tl_queues = sched->tasklets;
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100383 struct task *t;
Willy Tarreaue7723bd2020-06-24 11:11:02 +0200384 uint8_t budget_mask = (1 << TL_CLASSES) - 1;
Willy Tarreau59153fe2020-06-24 10:17:29 +0200385 unsigned int done = 0;
386 unsigned int queue;
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100387 unsigned short state;
388 void *ctx;
Willy Tarreau59153fe2020-06-24 10:17:29 +0200389
390 for (queue = 0; queue < TL_CLASSES;) {
391 sched->current_queue = queue;
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100392
Willy Tarreaue7723bd2020-06-24 11:11:02 +0200393 /* global.tune.sched.low-latency is set */
394 if (global.tune.options & GTUNE_SCHED_LOW_LATENCY) {
395 if (unlikely(sched->tl_class_mask & budget_mask & ((1 << queue) - 1))) {
396 /* a lower queue index has tasks again and still has a
397 * budget to run them. Let's switch to it now.
398 */
399 queue = (sched->tl_class_mask & 1) ? 0 :
400 (sched->tl_class_mask & 2) ? 1 : 2;
401 continue;
402 }
403
404 if (unlikely(queue > TL_URGENT &&
405 budget_mask & (1 << TL_URGENT) &&
406 !MT_LIST_ISEMPTY(&sched->shared_tasklet_list))) {
407 /* an urgent tasklet arrived from another thread */
408 break;
409 }
410
411 if (unlikely(queue > TL_NORMAL &&
412 budget_mask & (1 << TL_NORMAL) &&
413 ((sched->rqueue_size > 0) ||
414 (global_tasks_mask & tid_bit)))) {
415 /* a task was woken up by a bulk tasklet or another thread */
416 break;
417 }
418 }
419
Willy Tarreauba48d5c2020-06-24 09:54:24 +0200420 if (LIST_ISEMPTY(&tl_queues[queue])) {
421 sched->tl_class_mask &= ~(1 << queue);
Willy Tarreau59153fe2020-06-24 10:17:29 +0200422 queue++;
423 continue;
Willy Tarreauba48d5c2020-06-24 09:54:24 +0200424 }
425
Willy Tarreau59153fe2020-06-24 10:17:29 +0200426 if (!budgets[queue]) {
Willy Tarreaue7723bd2020-06-24 11:11:02 +0200427 budget_mask &= ~(1 << queue);
Willy Tarreau59153fe2020-06-24 10:17:29 +0200428 queue++;
429 continue;
430 }
Willy Tarreauba48d5c2020-06-24 09:54:24 +0200431
Willy Tarreau59153fe2020-06-24 10:17:29 +0200432 budgets[queue]--;
Willy Tarreauba48d5c2020-06-24 09:54:24 +0200433 t = (struct task *)LIST_ELEM(tl_queues[queue].n, struct tasklet *, list);
Willy Tarreau8a6049c2020-06-30 11:48:48 +0200434 state = t->state & (TASK_SHARED_WQ|TASK_SELF_WAKING|TASK_KILLED);
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100435
436 ti->flags &= ~TI_FL_STUCK; // this thread is still running
437 activity[tid].ctxsw++;
438 ctx = t->context;
439 process = t->process;
440 t->calls++;
Willy Tarreaud23d4132020-01-31 10:39:03 +0100441 sched->current = t;
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100442
443 if (TASK_IS_TASKLET(t)) {
Willy Tarreau952c2642020-01-31 16:39:30 +0100444 state = _HA_ATOMIC_XCHG(&t->state, state);
445 __ha_barrier_atomic_store();
446 __tasklet_remove_from_tasklet_list((struct tasklet *)t);
Olivier Houchardc62d9ab2020-03-17 18:15:04 +0100447 process(t, ctx, state);
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100448 done++;
Willy Tarreaud23d4132020-01-31 10:39:03 +0100449 sched->current = NULL;
450 __ha_barrier_store();
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100451 continue;
452 }
453
Willy Tarreau952c2642020-01-31 16:39:30 +0100454 state = _HA_ATOMIC_XCHG(&t->state, state | TASK_RUNNING);
455 __ha_barrier_atomic_store();
456 __tasklet_remove_from_tasklet_list((struct tasklet *)t);
457
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100458 /* OK then this is a regular task */
459
Willy Tarreaud99177f2020-06-30 11:48:48 +0200460 _HA_ATOMIC_SUB(&task_per_thread[tid].task_list_size, 1);
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100461 if (unlikely(t->call_date)) {
462 uint64_t now_ns = now_mono_time();
463
464 t->lat_time += now_ns - t->call_date;
465 t->call_date = now_ns;
466 }
467
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100468 __ha_barrier_store();
Willy Tarreau8a6049c2020-06-30 11:48:48 +0200469
470 /* Note for below: if TASK_KILLED arrived before we've read the state, we
471 * directly free the task. Otherwise it will be seen after processing and
472 * it's freed on the exit path.
473 */
474 if (likely(!(state & TASK_KILLED) && process == process_stream))
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100475 t = process_stream(t, ctx, state);
Willy Tarreau8a6049c2020-06-30 11:48:48 +0200476 else if (!(state & TASK_KILLED) && process != NULL)
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100477 t = process(t, ctx, state);
478 else {
Willy Tarreau273aea42020-07-17 14:37:51 +0200479 task_unlink_wq(t);
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100480 __task_free(t);
481 sched->current = NULL;
482 __ha_barrier_store();
483 /* We don't want max_processed to be decremented if
484 * we're just freeing a destroyed task, we should only
485 * do so if we really ran a task.
486 */
487 continue;
488 }
489 sched->current = NULL;
490 __ha_barrier_store();
491 /* If there is a pending state we have to wake up the task
492 * immediately, else we defer it into wait queue
493 */
494 if (t != NULL) {
495 if (unlikely(t->call_date)) {
496 t->cpu_time += now_mono_time() - t->call_date;
497 t->call_date = 0;
498 }
499
500 state = _HA_ATOMIC_AND(&t->state, ~TASK_RUNNING);
Willy Tarreau8a6049c2020-06-30 11:48:48 +0200501 if (unlikely(state & TASK_KILLED)) {
Willy Tarreau273aea42020-07-17 14:37:51 +0200502 task_unlink_wq(t);
Willy Tarreau8a6049c2020-06-30 11:48:48 +0200503 __task_free(t);
504 }
505 else if (state & TASK_WOKEN_ANY)
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100506 task_wakeup(t, 0);
507 else
508 task_queue(t);
509 }
510 done++;
511 }
Willy Tarreauba48d5c2020-06-24 09:54:24 +0200512 sched->current_queue = -1;
Willy Tarreau116ef222020-06-23 16:35:38 +0200513
Willy Tarreau4ffa0b52020-01-30 18:13:13 +0100514 return done;
515}
516
Willy Tarreau58b458d2008-06-29 22:40:23 +0200517/* The run queue is chronologically sorted in a tree. An insertion counter is
518 * used to assign a position to each task. This counter may be combined with
519 * other variables (eg: nice value) to set the final position in the tree. The
520 * counter may wrap without a problem, of course. We then limit the number of
Christopher Faulet8a48f672017-11-14 10:38:36 +0100521 * tasks processed to 200 in any case, so that general latency remains low and
Willy Tarreaucde79022019-04-12 18:03:41 +0200522 * so that task positions have a chance to be considered. The function scans
523 * both the global and local run queues and picks the most urgent task between
524 * the two. We need to grab the global runqueue lock to touch it so it's taken
525 * on the very first access to the global run queue and is released as soon as
526 * it reaches the end.
Willy Tarreau58b458d2008-06-29 22:40:23 +0200527 *
528 * The function adjusts <next> if a new event is closer.
Willy Tarreaubaaee002006-06-26 02:48:02 +0200529 */
Thierry FOURNIER9cf7c4b2014-12-15 13:26:01 +0100530void process_runnable_tasks()
Willy Tarreaubaaee002006-06-26 02:48:02 +0200531{
Willy Tarreaud022e9c2019-09-24 08:25:15 +0200532 struct task_per_thread * const tt = sched;
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200533 struct eb32sc_node *lrq; // next local run queue entry
534 struct eb32sc_node *grq; // next global run queue entry
Willy Tarreau964c9362007-01-07 00:38:00 +0100535 struct task *t;
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200536 const unsigned int default_weights[TL_CLASSES] = {
537 [TL_URGENT] = 64, // ~50% of CPU bandwidth for I/O
538 [TL_NORMAL] = 48, // ~37% of CPU bandwidth for tasks
539 [TL_BULK] = 16, // ~13% of CPU bandwidth for self-wakers
540 };
541 unsigned int max[TL_CLASSES]; // max to be run per class
542 unsigned int max_total; // sum of max above
Olivier Houchard06910462019-10-11 16:35:01 +0200543 struct mt_list *tmp_list;
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200544 unsigned int queue;
545 int max_processed;
Christopher Faulet3911ee82017-11-14 10:26:53 +0100546
Willy Tarreaue6a02fa2019-05-22 07:06:44 +0200547 ti->flags &= ~TI_FL_STUCK; // this thread is still running
548
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200549 if (!thread_has_tasks()) {
550 activity[tid].empty_rq++;
551 return;
552 }
553
Willy Tarreau5c8be272020-06-19 12:17:55 +0200554 tasks_run_queue_cur = tasks_run_queue; /* keep a copy for reporting */
555 nb_tasks_cur = nb_tasks;
556 max_processed = global.tune.runqueue_depth;
557
558 if (likely(niced_tasks))
559 max_processed = (max_processed + 3) / 4;
560
Willy Tarreau5c8be272020-06-19 12:17:55 +0200561 not_done_yet:
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200562 max[TL_URGENT] = max[TL_NORMAL] = max[TL_BULK] = 0;
Willy Tarreaucde79022019-04-12 18:03:41 +0200563
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200564 /* urgent tasklets list gets a default weight of ~50% */
Willy Tarreau49f90bf2020-06-24 09:39:48 +0200565 if ((tt->tl_class_mask & (1 << TL_URGENT)) ||
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200566 !MT_LIST_ISEMPTY(&tt->shared_tasklet_list))
567 max[TL_URGENT] = default_weights[TL_URGENT];
Willy Tarreaua62917b2020-01-30 18:37:28 +0100568
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200569 /* normal tasklets list gets a default weight of ~37% */
Willy Tarreau49f90bf2020-06-24 09:39:48 +0200570 if ((tt->tl_class_mask & (1 << TL_NORMAL)) ||
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200571 (sched->rqueue_size > 0) || (global_tasks_mask & tid_bit))
572 max[TL_NORMAL] = default_weights[TL_NORMAL];
Willy Tarreaua62917b2020-01-30 18:37:28 +0100573
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200574 /* bulk tasklets list gets a default weight of ~13% */
Willy Tarreau49f90bf2020-06-24 09:39:48 +0200575 if ((tt->tl_class_mask & (1 << TL_BULK)))
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200576 max[TL_BULK] = default_weights[TL_BULK];
577
578 /* Now compute a fair share of the weights. Total may slightly exceed
Willy Tarreau1553b662020-06-30 13:46:21 +0200579 * 100% due to rounding, this is not a problem. Note that while in
580 * theory the sum cannot be NULL as we cannot get there without tasklets
581 * to process, in practice it seldom happens when multiple writers
Willy Tarreaude4db172020-07-10 08:10:29 +0200582 * conflict and rollback on MT_LIST_TRY_ADDQ(shared_tasklet_list), causing
Willy Tarreau1553b662020-06-30 13:46:21 +0200583 * a first MT_LIST_ISEMPTY() to succeed for thread_has_task() and the
584 * one above to finally fail. This is extremely rare and not a problem.
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200585 */
586 max_total = max[TL_URGENT] + max[TL_NORMAL] + max[TL_BULK];
Willy Tarreau1553b662020-06-30 13:46:21 +0200587 if (!max_total)
588 return;
589
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200590 for (queue = 0; queue < TL_CLASSES; queue++)
591 max[queue] = ((unsigned)max_processed * max[queue] + max_total - 1) / max_total;
592
593 lrq = grq = NULL;
Christopher Faulet8a48f672017-11-14 10:38:36 +0100594
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200595 /* pick up to max[TL_NORMAL] regular tasks from prio-ordered run queues */
596 /* Note: the grq lock is always held when grq is not null */
597 while (tt->task_list_size < max[TL_NORMAL]) {
Willy Tarreaucde79022019-04-12 18:03:41 +0200598 if ((global_tasks_mask & tid_bit) && !grq) {
Willy Tarreau3466e3c2019-04-15 18:52:40 +0200599#ifdef USE_THREAD
Willy Tarreaucde79022019-04-12 18:03:41 +0200600 HA_SPIN_LOCK(TASK_RQ_LOCK, &rq_lock);
601 grq = eb32sc_lookup_ge(&rqueue, rqueue_ticks - TIMER_LOOK_BACK, tid_bit);
602 if (unlikely(!grq)) {
603 grq = eb32sc_first(&rqueue, tid_bit);
604 if (!grq) {
Olivier Houchardde82aea2019-04-17 19:10:22 +0200605 global_tasks_mask &= ~tid_bit;
Willy Tarreaucde79022019-04-12 18:03:41 +0200606 HA_SPIN_UNLOCK(TASK_RQ_LOCK, &rq_lock);
Olivier Houchardc4aac9e2018-07-26 15:25:49 +0200607 }
Willy Tarreauf0c531a2017-11-05 16:35:59 +0100608 }
Willy Tarreau3466e3c2019-04-15 18:52:40 +0200609#endif
Willy Tarreaucde79022019-04-12 18:03:41 +0200610 }
Willy Tarreauf0c531a2017-11-05 16:35:59 +0100611
Willy Tarreaucde79022019-04-12 18:03:41 +0200612 /* If a global task is available for this thread, it's in grq
613 * now and the global RQ is locked.
614 */
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200615
Willy Tarreaucde79022019-04-12 18:03:41 +0200616 if (!lrq) {
Willy Tarreau4c1e1ad2019-09-24 07:19:08 +0200617 lrq = eb32sc_lookup_ge(&tt->rqueue, rqueue_ticks - TIMER_LOOK_BACK, tid_bit);
Willy Tarreaucde79022019-04-12 18:03:41 +0200618 if (unlikely(!lrq))
Willy Tarreau4c1e1ad2019-09-24 07:19:08 +0200619 lrq = eb32sc_first(&tt->rqueue, tid_bit);
Willy Tarreauf0c531a2017-11-05 16:35:59 +0100620 }
Willy Tarreauf0c531a2017-11-05 16:35:59 +0100621
Willy Tarreaucde79022019-04-12 18:03:41 +0200622 if (!lrq && !grq)
623 break;
624
625 if (likely(!grq || (lrq && (int)(lrq->key - grq->key) <= 0))) {
626 t = eb32sc_entry(lrq, struct task, rq);
627 lrq = eb32sc_next(lrq, tid_bit);
628 __task_unlink_rq(t);
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200629 }
Willy Tarreau3466e3c2019-04-15 18:52:40 +0200630#ifdef USE_THREAD
Willy Tarreaucde79022019-04-12 18:03:41 +0200631 else {
632 t = eb32sc_entry(grq, struct task, rq);
633 grq = eb32sc_next(grq, tid_bit);
634 __task_unlink_rq(t);
635 if (unlikely(!grq)) {
636 grq = eb32sc_first(&rqueue, tid_bit);
637 if (!grq) {
Olivier Houchardde82aea2019-04-17 19:10:22 +0200638 global_tasks_mask &= ~tid_bit;
Willy Tarreaucde79022019-04-12 18:03:41 +0200639 HA_SPIN_UNLOCK(TASK_RQ_LOCK, &rq_lock);
Willy Tarreaucde79022019-04-12 18:03:41 +0200640 }
641 }
Emeric Brun01948972017-03-30 15:37:25 +0200642 }
Willy Tarreau3466e3c2019-04-15 18:52:40 +0200643#endif
Willy Tarreaucde79022019-04-12 18:03:41 +0200644
Olivier Houchardff1e9f32019-09-20 17:18:35 +0200645 /* Make sure the entry doesn't appear to be in a list */
Olivier Houchard06910462019-10-11 16:35:01 +0200646 LIST_INIT(&((struct tasklet *)t)->list);
Olivier Houchardb0bdae72018-05-18 18:45:28 +0200647 /* And add it to the local task list */
Willy Tarreaua62917b2020-01-30 18:37:28 +0100648 tasklet_insert_into_tasklet_list(&tt->tasklets[TL_NORMAL], (struct tasklet *)t);
Willy Tarreau49f90bf2020-06-24 09:39:48 +0200649 tt->tl_class_mask |= 1 << TL_NORMAL;
Willy Tarreaud99177f2020-06-30 11:48:48 +0200650 _HA_ATOMIC_ADD(&tt->task_list_size, 1);
Willy Tarreaubc13bec2019-04-30 14:55:18 +0200651 activity[tid].tasksw++;
Olivier Houchardb0bdae72018-05-18 18:45:28 +0200652 }
Willy Tarreaucde79022019-04-12 18:03:41 +0200653
654 /* release the rqueue lock */
655 if (grq) {
656 HA_SPIN_UNLOCK(TASK_RQ_LOCK, &rq_lock);
657 grq = NULL;
658 }
659
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200660 /* Merge the list of tasklets waken up by other threads to the
661 * main list.
662 */
663 tmp_list = MT_LIST_BEHEAD(&tt->shared_tasklet_list);
Willy Tarreau49f90bf2020-06-24 09:39:48 +0200664 if (tmp_list) {
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200665 LIST_SPLICE_END_DETACHED(&tt->tasklets[TL_URGENT], (struct list *)tmp_list);
Willy Tarreau49f90bf2020-06-24 09:39:48 +0200666 if (!LIST_ISEMPTY(&tt->tasklets[TL_URGENT]))
667 tt->tl_class_mask |= 1 << TL_URGENT;
668 }
Willy Tarreaucde79022019-04-12 18:03:41 +0200669
Willy Tarreau3ef7a192020-06-24 07:21:08 +0200670 /* execute tasklets in each queue */
Willy Tarreau59153fe2020-06-24 10:17:29 +0200671 max_processed -= run_tasks_from_lists(max);
Willy Tarreaua62917b2020-01-30 18:37:28 +0100672
Willy Tarreau5c8be272020-06-19 12:17:55 +0200673 /* some tasks may have woken other ones up */
Willy Tarreau0c0c85e2020-06-23 11:32:35 +0200674 if (max_processed > 0 && thread_has_tasks())
Willy Tarreau5c8be272020-06-19 12:17:55 +0200675 goto not_done_yet;
676
Willy Tarreau49f90bf2020-06-24 09:39:48 +0200677 if (tt->tl_class_mask)
Willy Tarreaucde79022019-04-12 18:03:41 +0200678 activity[tid].long_rq++;
Willy Tarreaubaaee002006-06-26 02:48:02 +0200679}
680
Willy Tarreau64e60122019-07-12 08:31:17 +0200681/* create a work list array for <nbthread> threads, using tasks made of
682 * function <fct>. The context passed to the function will be the pointer to
683 * the thread's work list, which will contain a copy of argument <arg>. The
684 * wake up reason will be TASK_WOKEN_OTHER. The pointer to the work_list array
685 * is returned on success, otherwise NULL on failure.
686 */
687struct work_list *work_list_create(int nbthread,
688 struct task *(*fct)(struct task *, void *, unsigned short),
689 void *arg)
690{
691 struct work_list *wl;
692 int i;
693
694 wl = calloc(nbthread, sizeof(*wl));
695 if (!wl)
696 goto fail;
697
698 for (i = 0; i < nbthread; i++) {
Olivier Houchard859dc802019-08-08 15:47:21 +0200699 MT_LIST_INIT(&wl[i].head);
Willy Tarreau64e60122019-07-12 08:31:17 +0200700 wl[i].task = task_new(1UL << i);
701 if (!wl[i].task)
702 goto fail;
703 wl[i].task->process = fct;
704 wl[i].task->context = &wl[i];
705 wl[i].arg = arg;
706 }
707 return wl;
708
709 fail:
710 work_list_destroy(wl, nbthread);
711 return NULL;
712}
713
714/* destroy work list <work> */
715void work_list_destroy(struct work_list *work, int nbthread)
716{
717 int t;
718
719 if (!work)
720 return;
721 for (t = 0; t < nbthread; t++)
722 task_destroy(work[t].task);
723 free(work);
724}
725
William Lallemand27f3fa52018-12-06 14:05:20 +0100726/*
727 * Delete every tasks before running the master polling loop
728 */
729void mworker_cleantasks()
730{
731 struct task *t;
732 int i;
William Lallemandb5823392018-12-06 15:14:37 +0100733 struct eb32_node *tmp_wq = NULL;
734 struct eb32sc_node *tmp_rq = NULL;
William Lallemand27f3fa52018-12-06 14:05:20 +0100735
736#ifdef USE_THREAD
737 /* cleanup the global run queue */
William Lallemandb5823392018-12-06 15:14:37 +0100738 tmp_rq = eb32sc_first(&rqueue, MAX_THREADS_MASK);
739 while (tmp_rq) {
740 t = eb32sc_entry(tmp_rq, struct task, rq);
741 tmp_rq = eb32sc_next(tmp_rq, MAX_THREADS_MASK);
Olivier Houchard3f795f72019-04-17 22:51:06 +0200742 task_destroy(t);
William Lallemand27f3fa52018-12-06 14:05:20 +0100743 }
744 /* cleanup the timers queue */
William Lallemandb5823392018-12-06 15:14:37 +0100745 tmp_wq = eb32_first(&timers);
746 while (tmp_wq) {
747 t = eb32_entry(tmp_wq, struct task, wq);
748 tmp_wq = eb32_next(tmp_wq);
Olivier Houchard3f795f72019-04-17 22:51:06 +0200749 task_destroy(t);
William Lallemand27f3fa52018-12-06 14:05:20 +0100750 }
751#endif
752 /* clean the per thread run queue */
753 for (i = 0; i < global.nbthread; i++) {
William Lallemandb5823392018-12-06 15:14:37 +0100754 tmp_rq = eb32sc_first(&task_per_thread[i].rqueue, MAX_THREADS_MASK);
755 while (tmp_rq) {
756 t = eb32sc_entry(tmp_rq, struct task, rq);
757 tmp_rq = eb32sc_next(tmp_rq, MAX_THREADS_MASK);
Olivier Houchard3f795f72019-04-17 22:51:06 +0200758 task_destroy(t);
William Lallemand27f3fa52018-12-06 14:05:20 +0100759 }
760 /* cleanup the per thread timers queue */
William Lallemandb5823392018-12-06 15:14:37 +0100761 tmp_wq = eb32_first(&task_per_thread[i].timers);
762 while (tmp_wq) {
763 t = eb32_entry(tmp_wq, struct task, wq);
764 tmp_wq = eb32_next(tmp_wq);
Olivier Houchard3f795f72019-04-17 22:51:06 +0200765 task_destroy(t);
William Lallemand27f3fa52018-12-06 14:05:20 +0100766 }
767 }
768}
769
Willy Tarreaub6b3df32018-11-26 16:31:20 +0100770/* perform minimal intializations */
771static void init_task()
Willy Tarreau4726f532009-03-07 17:25:21 +0100772{
Olivier Houchardf6e6dc12018-05-18 18:38:23 +0200773 int i;
774
Olivier Houchardb1ca58b2018-06-06 14:22:03 +0200775#ifdef USE_THREAD
Willy Tarreaub20aa9e2018-10-15 14:52:21 +0200776 memset(&timers, 0, sizeof(timers));
Willy Tarreau4726f532009-03-07 17:25:21 +0100777 memset(&rqueue, 0, sizeof(rqueue));
Olivier Houchardb1ca58b2018-06-06 14:22:03 +0200778#endif
Willy Tarreau8d8747a2018-10-15 16:12:48 +0200779 memset(&task_per_thread, 0, sizeof(task_per_thread));
Olivier Houchardb0bdae72018-05-18 18:45:28 +0200780 for (i = 0; i < MAX_THREADS; i++) {
Willy Tarreaua62917b2020-01-30 18:37:28 +0100781 LIST_INIT(&task_per_thread[i].tasklets[TL_URGENT]);
782 LIST_INIT(&task_per_thread[i].tasklets[TL_NORMAL]);
783 LIST_INIT(&task_per_thread[i].tasklets[TL_BULK]);
Olivier Houchard06910462019-10-11 16:35:01 +0200784 MT_LIST_INIT(&task_per_thread[i].shared_tasklet_list);
Olivier Houchardb0bdae72018-05-18 18:45:28 +0200785 }
Willy Tarreau4726f532009-03-07 17:25:21 +0100786}
787
Willy Tarreaue7723bd2020-06-24 11:11:02 +0200788/* config parser for global "tune.sched.low-latency", accepts "on" or "off" */
789static int cfg_parse_tune_sched_low_latency(char **args, int section_type, struct proxy *curpx,
790 struct proxy *defpx, const char *file, int line,
791 char **err)
792{
793 if (too_many_args(1, args, err, NULL))
794 return -1;
795
796 if (strcmp(args[1], "on") == 0)
797 global.tune.options |= GTUNE_SCHED_LOW_LATENCY;
798 else if (strcmp(args[1], "off") == 0)
799 global.tune.options &= ~GTUNE_SCHED_LOW_LATENCY;
800 else {
801 memprintf(err, "'%s' expects either 'on' or 'off' but got '%s'.", args[0], args[1]);
802 return -1;
803 }
804 return 0;
805}
806
807/* config keyword parsers */
808static struct cfg_kw_list cfg_kws = {ILH, {
809 { CFG_GLOBAL, "tune.sched.low-latency", cfg_parse_tune_sched_low_latency },
810 { 0, NULL, NULL }
811}};
812
813INITCALL1(STG_REGISTER, cfg_register_keywords, &cfg_kws);
Willy Tarreaub6b3df32018-11-26 16:31:20 +0100814INITCALL0(STG_PREPARE, init_task);
815
Willy Tarreaubaaee002006-06-26 02:48:02 +0200816/*
817 * Local variables:
818 * c-indent-level: 8
819 * c-basic-offset: 8
820 * End:
821 */