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SubjectRe: [PATCH v8 -tip 17/26] sched: Split the cookie and setup per-task cookie on fork
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On 10/19/20 9:43 PM, Joel Fernandes (Google) wrote:
> In order to prevent interference and clearly support both per-task and CGroup
> APIs, split the cookie into 2 and allow it to be set from either per-task, or
> CGroup API. The final cookie is the combined value of both and is computed when
> the stop-machine executes during a change of cookie.
>
> Also, for the per-task cookie, it will get weird if we use pointers of any
> emphemeral objects. For this reason, introduce a refcounted object who's sole
> purpose is to assign unique cookie value by way of the object's pointer.
>
> While at it, refactor the CGroup code a bit. Future patches will introduce more
> APIs and support.
>
> Tested-by: Julien Desfossez <jdesfossez@digitalocean.com>
> Signed-off-by: Joel Fernandes (Google) <joel@joelfernandes.org>
> ---
> include/linux/sched.h | 2 +
> kernel/sched/core.c | 241 ++++++++++++++++++++++++++++++++++++++++--
> kernel/sched/debug.c | 4 +
> 3 files changed, 236 insertions(+), 11 deletions(-)
>
> diff --git a/include/linux/sched.h b/include/linux/sched.h
> index fe6f225bfbf9..c6034c00846a 100644
> --- a/include/linux/sched.h
> +++ b/include/linux/sched.h
> @@ -688,6 +688,8 @@ struct task_struct {
> #ifdef CONFIG_SCHED_CORE
> struct rb_node core_node;
> unsigned long core_cookie;
> + unsigned long core_task_cookie;
> + unsigned long core_group_cookie;
> unsigned int core_occupation;
> #endif
>
> diff --git a/kernel/sched/core.c b/kernel/sched/core.c
> index bab4ea2f5cd8..30a9e4cb5ce1 100644
> --- a/kernel/sched/core.c
> +++ b/kernel/sched/core.c
> @@ -346,11 +346,14 @@ void sched_core_put(void)
> mutex_unlock(&sched_core_mutex);
> }
>
> +static int sched_core_share_tasks(struct task_struct *t1, struct task_struct *t2);
> +
> #else /* !CONFIG_SCHED_CORE */
>
> static inline void sched_core_enqueue(struct rq *rq, struct task_struct *p) { }
> static inline void sched_core_dequeue(struct rq *rq, struct task_struct *p) { }
> static bool sched_core_enqueued(struct task_struct *task) { return false; }
> +static int sched_core_share_tasks(struct task_struct *t1, struct task_struct *t2) { }
>
> #endif /* CONFIG_SCHED_CORE */
>
> @@ -3583,6 +3586,20 @@ int sched_fork(unsigned long clone_flags, struct task_struct *p)
> #endif
> #ifdef CONFIG_SCHED_CORE
> RB_CLEAR_NODE(&p->core_node);
> +
> + /*
> + * Tag child via per-task cookie only if parent is tagged via per-task
> + * cookie. This is independent of, but can be additive to the CGroup tagging.
> + */
> + if (current->core_task_cookie) {
> +
> + /* If it is not CLONE_THREAD fork, assign a unique per-task tag. */
> + if (!(clone_flags & CLONE_THREAD)) {
> + return sched_core_share_tasks(p, p);
> + }
> + /* Otherwise share the parent's per-task tag. */
> + return sched_core_share_tasks(p, current);
> + }
> #endif
> return 0;
> }
> @@ -9177,6 +9194,217 @@ static u64 cpu_rt_period_read_uint(struct cgroup_subsys_state *css,
> #endif /* CONFIG_RT_GROUP_SCHED */
>
> #ifdef CONFIG_SCHED_CORE
> +/*
> + * A simple wrapper around refcount. An allocated sched_core_cookie's
> + * address is used to compute the cookie of the task.
> + */
> +struct sched_core_cookie {
> + refcount_t refcnt;
> +};
> +
> +/*
> + * sched_core_tag_requeue - Common helper for all interfaces to set a cookie.
> + * @p: The task to assign a cookie to.
> + * @cookie: The cookie to assign.
> + * @group: is it a group interface or a per-task interface.
> + *
> + * This function is typically called from a stop-machine handler.
> + */
> +void sched_core_tag_requeue(struct task_struct *p, unsigned long cookie, bool group)
> +{
> + if (!p)
> + return;
> +
> + if (group)
> + p->core_group_cookie = cookie;
> + else
> + p->core_task_cookie = cookie;
> +
> + /* Use up half of the cookie's bits for task cookie and remaining for group cookie. */
> + p->core_cookie = (p->core_task_cookie <<
> + (sizeof(unsigned long) * 4)) + p->core_group_cookie;
> +
> + if (sched_core_enqueued(p)) {
> + sched_core_dequeue(task_rq(p), p);
> + if (!p->core_task_cookie)
> + return;
> + }
> +
> + if (sched_core_enabled(task_rq(p)) &&
> + p->core_cookie && task_on_rq_queued(p))
> + sched_core_enqueue(task_rq(p), p);
> +}
> +
> +/* Per-task interface */
> +static unsigned long sched_core_alloc_task_cookie(void)
> +{
> + struct sched_core_cookie *ptr =
> + kmalloc(sizeof(struct sched_core_cookie), GFP_KERNEL);
> +
> + if (!ptr)
> + return 0;
> + refcount_set(&ptr->refcnt, 1);
> +
> + /*
> + * NOTE: sched_core_put() is not done by put_task_cookie(). Instead, it
> + * is done after the stopper runs.
> + */
> + sched_core_get();
> + return (unsigned long)ptr;
> +}
> +
> +static bool sched_core_get_task_cookie(unsigned long cookie)
> +{
> + struct sched_core_cookie *ptr = (struct sched_core_cookie *)cookie;
> +
> + /*
> + * NOTE: sched_core_put() is not done by put_task_cookie(). Instead, it
> + * is done after the stopper runs.
> + */
> + sched_core_get();
> + return refcount_inc_not_zero(&ptr->refcnt);
> +}
> +
> +static void sched_core_put_task_cookie(unsigned long cookie)
> +{
> + struct sched_core_cookie *ptr = (struct sched_core_cookie *)cookie;
> +
> + if (refcount_dec_and_test(&ptr->refcnt))
> + kfree(ptr);
> +}
> +
> +struct sched_core_task_write_tag {
> + struct task_struct *tasks[2];
> + unsigned long cookies[2];
> +};
> +
> +/*
> + * Ensure that the task has been requeued. The stopper ensures that the task cannot
> + * be migrated to a different CPU while its core scheduler queue state is being updated.
> + * It also makes sure to requeue a task if it was running actively on another CPU.
> + */
> +static int sched_core_task_join_stopper(void *data)
> +{
> + struct sched_core_task_write_tag *tag = (struct sched_core_task_write_tag *)data;
> + int i;
> +
> + for (i = 0; i < 2; i++)
> + sched_core_tag_requeue(tag->tasks[i], tag->cookies[i], false /* !group */);
> +
> + return 0;
> +}
> +
> +static int sched_core_share_tasks(struct task_struct *t1, struct task_struct *t2)
> +{
> + struct sched_core_task_write_tag wr = {}; /* for stop machine. */
> + bool sched_core_put_after_stopper = false;
> + unsigned long cookie;
> + int ret = -ENOMEM;
> +
> + mutex_lock(&sched_core_mutex);
> +
> + /*
> + * NOTE: sched_core_get() is done by sched_core_alloc_task_cookie() or
> + * sched_core_put_task_cookie(). However, sched_core_put() is done
> + * by this function *after* the stopper removes the tasks from the
> + * core queue, and not before. This is just to play it safe.
> + */
> + if (t2 == NULL) {
> + if (t1->core_task_cookie) {
> + sched_core_put_task_cookie(t1->core_task_cookie);
> + sched_core_put_after_stopper = true;
> + wr.tasks[0] = t1; /* Keep wr.cookies[0] reset for t1. */
> + }
> + } else if (t1 == t2) {
> + /* Assign a unique per-task cookie solely for t1. */
> +
> + cookie = sched_core_alloc_task_cookie();
> + if (!cookie)
> + goto out_unlock;
> +
> + if (t1->core_task_cookie) {
> + sched_core_put_task_cookie(t1->core_task_cookie);
> + sched_core_put_after_stopper = true;
> + }
> + wr.tasks[0] = t1;
> + wr.cookies[0] = cookie;
> + } else
> + /*
> + * t1 joining t2
> + * CASE 1:
> + * before 0 0
> + * after new cookie new cookie
> + *
> + * CASE 2:
> + * before X (non-zero) 0
> + * after 0 0
> + *
> + * CASE 3:
> + * before 0 X (non-zero)
> + * after X X
> + *
> + * CASE 4:
> + * before Y (non-zero) X (non-zero)
> + * after X X
> + */
> + if (!t1->core_task_cookie && !t2->core_task_cookie) {
> + /* CASE 1. */
> + cookie = sched_core_alloc_task_cookie();
> + if (!cookie)
> + goto out_unlock;
> +
> + /* Add another reference for the other task. */
> + if (!sched_core_get_task_cookie(cookie)) {
> + return -EINVAL;

should be: ret = -EINVAL;

> + goto out_unlock;
> + }
> +
> + wr.tasks[0] = t1;
> + wr.tasks[1] = t2;
> + wr.cookies[0] = wr.cookies[1] = cookie;
> +
> + } else if (t1->core_task_cookie && !t2->core_task_cookie) {
> + /* CASE 2. */
> + sched_core_put_task_cookie(t1->core_task_cookie);
> + sched_core_put_after_stopper = true;
> +
> + wr.tasks[0] = t1; /* Reset cookie for t1. */
> +
> + } else if (!t1->core_task_cookie && t2->core_task_cookie) {
> + /* CASE 3. */
> + if (!sched_core_get_task_cookie(t2->core_task_cookie)) {
> + ret = -EINVAL;
> + goto out_unlock;
> + }
> +
> + wr.tasks[0] = t1;
> + wr.cookies[0] = t2->core_task_cookie;
> +
> + } else {
> + /* CASE 4. */
> + if (!sched_core_get_task_cookie(t2->core_task_cookie)) {
> + ret = -EINVAL;
> + goto out_unlock;
> + }
> + sched_core_put_task_cookie(t1->core_task_cookie);
> + sched_core_put_after_stopper = true;
> +
> + wr.tasks[0] = t1;
> + wr.cookies[0] = t2->core_task_cookie;
> + }
> +
> + stop_machine(sched_core_task_join_stopper, (void *)&wr, NULL);
> +
> + if (sched_core_put_after_stopper)
> + sched_core_put();
> +
> + ret = 0;
> +out_unlock:
> + mutex_unlock(&sched_core_mutex);
> + return ret;
> +}
> +
> +/* CGroup interface */
> static u64 cpu_core_tag_read_u64(struct cgroup_subsys_state *css, struct cftype *cft)
> {
> struct task_group *tg = css_tg(css);
> @@ -9207,18 +9435,9 @@ static int __sched_write_tag(void *data)
> * when we set cgroup tag to 0 when the loop is done below.
> */
> while ((p = css_task_iter_next(&it))) {
> - p->core_cookie = !!val ? (unsigned long)tg : 0UL;
> -
> - if (sched_core_enqueued(p)) {
> - sched_core_dequeue(task_rq(p), p);
> - if (!p->core_cookie)
> - continue;
> - }
> -
> - if (sched_core_enabled(task_rq(p)) &&
> - p->core_cookie && task_on_rq_queued(p))
> - sched_core_enqueue(task_rq(p), p);
> + unsigned long cookie = !!val ? (unsigned long)tg : 0UL;
>
> + sched_core_tag_requeue(p, cookie, true /* group */);
> }
> css_task_iter_end(&it);
>
> diff --git a/kernel/sched/debug.c b/kernel/sched/debug.c
> index c8fee8d9dfd4..88bf45267672 100644
> --- a/kernel/sched/debug.c
> +++ b/kernel/sched/debug.c
> @@ -1024,6 +1024,10 @@ void proc_sched_show_task(struct task_struct *p, struct pid_namespace *ns,
> __PS("clock-delta", t1-t0);
> }
>
> +#ifdef CONFIG_SCHED_CORE
> + __PS("core_cookie", p->core_cookie);
> +#endif
> +
> sched_show_numa(p, m);
> }
>
>

-chrish

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