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TOMOYO Linux Cross Reference
Linux/kernel/smpboot.c

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  1 // SPDX-License-Identifier: GPL-2.0-only
  2 /*
  3  * Common SMP CPU bringup/teardown functions
  4  */
  5 #include <linux/cpu.h>
  6 #include <linux/err.h>
  7 #include <linux/smp.h>
  8 #include <linux/delay.h>
  9 #include <linux/init.h>
 10 #include <linux/list.h>
 11 #include <linux/slab.h>
 12 #include <linux/sched.h>
 13 #include <linux/sched/task.h>
 14 #include <linux/export.h>
 15 #include <linux/percpu.h>
 16 #include <linux/kthread.h>
 17 #include <linux/smpboot.h>
 18 
 19 #include "smpboot.h"
 20 
 21 #ifdef CONFIG_SMP
 22 
 23 #ifdef CONFIG_GENERIC_SMP_IDLE_THREAD
 24 /*
 25  * For the hotplug case we keep the task structs around and reuse
 26  * them.
 27  */
 28 static DEFINE_PER_CPU(struct task_struct *, idle_threads);
 29 
 30 struct task_struct *idle_thread_get(unsigned int cpu)
 31 {
 32         struct task_struct *tsk = per_cpu(idle_threads, cpu);
 33 
 34         if (!tsk)
 35                 return ERR_PTR(-ENOMEM);
 36         return tsk;
 37 }
 38 
 39 void __init idle_thread_set_boot_cpu(void)
 40 {
 41         per_cpu(idle_threads, smp_processor_id()) = current;
 42 }
 43 
 44 /**
 45  * idle_init - Initialize the idle thread for a cpu
 46  * @cpu:        The cpu for which the idle thread should be initialized
 47  *
 48  * Creates the thread if it does not exist.
 49  */
 50 static __always_inline void idle_init(unsigned int cpu)
 51 {
 52         struct task_struct *tsk = per_cpu(idle_threads, cpu);
 53 
 54         if (!tsk) {
 55                 tsk = fork_idle(cpu);
 56                 if (IS_ERR(tsk))
 57                         pr_err("SMP: fork_idle() failed for CPU %u\n", cpu);
 58                 else
 59                         per_cpu(idle_threads, cpu) = tsk;
 60         }
 61 }
 62 
 63 /**
 64  * idle_threads_init - Initialize idle threads for all cpus
 65  */
 66 void __init idle_threads_init(void)
 67 {
 68         unsigned int cpu, boot_cpu;
 69 
 70         boot_cpu = smp_processor_id();
 71 
 72         for_each_possible_cpu(cpu) {
 73                 if (cpu != boot_cpu)
 74                         idle_init(cpu);
 75         }
 76 }
 77 #endif
 78 
 79 #endif /* #ifdef CONFIG_SMP */
 80 
 81 static LIST_HEAD(hotplug_threads);
 82 static DEFINE_MUTEX(smpboot_threads_lock);
 83 
 84 struct smpboot_thread_data {
 85         unsigned int                    cpu;
 86         unsigned int                    status;
 87         struct smp_hotplug_thread       *ht;
 88 };
 89 
 90 enum {
 91         HP_THREAD_NONE = 0,
 92         HP_THREAD_ACTIVE,
 93         HP_THREAD_PARKED,
 94 };
 95 
 96 /**
 97  * smpboot_thread_fn - percpu hotplug thread loop function
 98  * @data:       thread data pointer
 99  *
100  * Checks for thread stop and park conditions. Calls the necessary
101  * setup, cleanup, park and unpark functions for the registered
102  * thread.
103  *
104  * Returns 1 when the thread should exit, 0 otherwise.
105  */
106 static int smpboot_thread_fn(void *data)
107 {
108         struct smpboot_thread_data *td = data;
109         struct smp_hotplug_thread *ht = td->ht;
110 
111         while (1) {
112                 set_current_state(TASK_INTERRUPTIBLE);
113                 preempt_disable();
114                 if (kthread_should_stop()) {
115                         __set_current_state(TASK_RUNNING);
116                         preempt_enable();
117                         /* cleanup must mirror setup */
118                         if (ht->cleanup && td->status != HP_THREAD_NONE)
119                                 ht->cleanup(td->cpu, cpu_online(td->cpu));
120                         kfree(td);
121                         return 0;
122                 }
123 
124                 if (kthread_should_park()) {
125                         __set_current_state(TASK_RUNNING);
126                         preempt_enable();
127                         if (ht->park && td->status == HP_THREAD_ACTIVE) {
128                                 BUG_ON(td->cpu != smp_processor_id());
129                                 ht->park(td->cpu);
130                                 td->status = HP_THREAD_PARKED;
131                         }
132                         kthread_parkme();
133                         /* We might have been woken for stop */
134                         continue;
135                 }
136 
137                 BUG_ON(td->cpu != smp_processor_id());
138 
139                 /* Check for state change setup */
140                 switch (td->status) {
141                 case HP_THREAD_NONE:
142                         __set_current_state(TASK_RUNNING);
143                         preempt_enable();
144                         if (ht->setup)
145                                 ht->setup(td->cpu);
146                         td->status = HP_THREAD_ACTIVE;
147                         continue;
148 
149                 case HP_THREAD_PARKED:
150                         __set_current_state(TASK_RUNNING);
151                         preempt_enable();
152                         if (ht->unpark)
153                                 ht->unpark(td->cpu);
154                         td->status = HP_THREAD_ACTIVE;
155                         continue;
156                 }
157 
158                 if (!ht->thread_should_run(td->cpu)) {
159                         preempt_enable_no_resched();
160                         schedule();
161                 } else {
162                         __set_current_state(TASK_RUNNING);
163                         preempt_enable();
164                         ht->thread_fn(td->cpu);
165                 }
166         }
167 }
168 
169 static int
170 __smpboot_create_thread(struct smp_hotplug_thread *ht, unsigned int cpu)
171 {
172         struct task_struct *tsk = *per_cpu_ptr(ht->store, cpu);
173         struct smpboot_thread_data *td;
174 
175         if (tsk)
176                 return 0;
177 
178         td = kzalloc_node(sizeof(*td), GFP_KERNEL, cpu_to_node(cpu));
179         if (!td)
180                 return -ENOMEM;
181         td->cpu = cpu;
182         td->ht = ht;
183 
184         tsk = kthread_create_on_cpu(smpboot_thread_fn, td, cpu,
185                                     ht->thread_comm);
186         if (IS_ERR(tsk)) {
187                 kfree(td);
188                 return PTR_ERR(tsk);
189         }
190         kthread_set_per_cpu(tsk, cpu);
191         /*
192          * Park the thread so that it could start right on the CPU
193          * when it is available.
194          */
195         kthread_park(tsk);
196         get_task_struct(tsk);
197         *per_cpu_ptr(ht->store, cpu) = tsk;
198         if (ht->create) {
199                 /*
200                  * Make sure that the task has actually scheduled out
201                  * into park position, before calling the create
202                  * callback. At least the migration thread callback
203                  * requires that the task is off the runqueue.
204                  */
205                 if (!wait_task_inactive(tsk, TASK_PARKED))
206                         WARN_ON(1);
207                 else
208                         ht->create(cpu);
209         }
210         return 0;
211 }
212 
213 int smpboot_create_threads(unsigned int cpu)
214 {
215         struct smp_hotplug_thread *cur;
216         int ret = 0;
217 
218         mutex_lock(&smpboot_threads_lock);
219         list_for_each_entry(cur, &hotplug_threads, list) {
220                 ret = __smpboot_create_thread(cur, cpu);
221                 if (ret)
222                         break;
223         }
224         mutex_unlock(&smpboot_threads_lock);
225         return ret;
226 }
227 
228 static void smpboot_unpark_thread(struct smp_hotplug_thread *ht, unsigned int cpu)
229 {
230         struct task_struct *tsk = *per_cpu_ptr(ht->store, cpu);
231 
232         if (!ht->selfparking)
233                 kthread_unpark(tsk);
234 }
235 
236 int smpboot_unpark_threads(unsigned int cpu)
237 {
238         struct smp_hotplug_thread *cur;
239 
240         mutex_lock(&smpboot_threads_lock);
241         list_for_each_entry(cur, &hotplug_threads, list)
242                 smpboot_unpark_thread(cur, cpu);
243         mutex_unlock(&smpboot_threads_lock);
244         return 0;
245 }
246 
247 static void smpboot_park_thread(struct smp_hotplug_thread *ht, unsigned int cpu)
248 {
249         struct task_struct *tsk = *per_cpu_ptr(ht->store, cpu);
250 
251         if (tsk && !ht->selfparking)
252                 kthread_park(tsk);
253 }
254 
255 int smpboot_park_threads(unsigned int cpu)
256 {
257         struct smp_hotplug_thread *cur;
258 
259         mutex_lock(&smpboot_threads_lock);
260         list_for_each_entry_reverse(cur, &hotplug_threads, list)
261                 smpboot_park_thread(cur, cpu);
262         mutex_unlock(&smpboot_threads_lock);
263         return 0;
264 }
265 
266 static void smpboot_destroy_threads(struct smp_hotplug_thread *ht)
267 {
268         unsigned int cpu;
269 
270         /* We need to destroy also the parked threads of offline cpus */
271         for_each_possible_cpu(cpu) {
272                 struct task_struct *tsk = *per_cpu_ptr(ht->store, cpu);
273 
274                 if (tsk) {
275                         kthread_stop_put(tsk);
276                         *per_cpu_ptr(ht->store, cpu) = NULL;
277                 }
278         }
279 }
280 
281 /**
282  * smpboot_register_percpu_thread - Register a per_cpu thread related
283  *                                          to hotplug
284  * @plug_thread:        Hotplug thread descriptor
285  *
286  * Creates and starts the threads on all online cpus.
287  */
288 int smpboot_register_percpu_thread(struct smp_hotplug_thread *plug_thread)
289 {
290         unsigned int cpu;
291         int ret = 0;
292 
293         cpus_read_lock();
294         mutex_lock(&smpboot_threads_lock);
295         for_each_online_cpu(cpu) {
296                 ret = __smpboot_create_thread(plug_thread, cpu);
297                 if (ret) {
298                         smpboot_destroy_threads(plug_thread);
299                         goto out;
300                 }
301                 smpboot_unpark_thread(plug_thread, cpu);
302         }
303         list_add(&plug_thread->list, &hotplug_threads);
304 out:
305         mutex_unlock(&smpboot_threads_lock);
306         cpus_read_unlock();
307         return ret;
308 }
309 EXPORT_SYMBOL_GPL(smpboot_register_percpu_thread);
310 
311 /**
312  * smpboot_unregister_percpu_thread - Unregister a per_cpu thread related to hotplug
313  * @plug_thread:        Hotplug thread descriptor
314  *
315  * Stops all threads on all possible cpus.
316  */
317 void smpboot_unregister_percpu_thread(struct smp_hotplug_thread *plug_thread)
318 {
319         cpus_read_lock();
320         mutex_lock(&smpboot_threads_lock);
321         list_del(&plug_thread->list);
322         smpboot_destroy_threads(plug_thread);
323         mutex_unlock(&smpboot_threads_lock);
324         cpus_read_unlock();
325 }
326 EXPORT_SYMBOL_GPL(smpboot_unregister_percpu_thread);
327 

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