c58632b363
stat is too generic a name and ends up causing subtle confusions. It'll be made generic so that controllers can plug into it, which will make the problem worse. Let's rename it to something more specific - cgroup_rstat for cgroup recursive stat. This patch does the following renames. No other changes. * cpu_stat -> rstat_cpu * stat -> rstat * ?cstat -> ?rstatc Note that the renames are selective. The unrenamed are the ones which implement basic resource statistics on top of rstat. This will be further cleaned up in the following patches. Signed-off-by: Tejun Heo <tj@kernel.org>
341 lines
8.9 KiB
C
341 lines
8.9 KiB
C
#include "cgroup-internal.h"
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#include <linux/sched/cputime.h>
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static DEFINE_MUTEX(cgroup_rstat_mutex);
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static DEFINE_PER_CPU(raw_spinlock_t, cgroup_rstat_cpu_lock);
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static struct cgroup_rstat_cpu *cgroup_rstat_cpu(struct cgroup *cgrp, int cpu)
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{
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return per_cpu_ptr(cgrp->rstat_cpu, cpu);
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}
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/**
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* cgroup_rstat_cpu_updated - keep track of updated rstat_cpu
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* @cgrp: target cgroup
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* @cpu: cpu on which rstat_cpu was updated
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*
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* @cgrp's rstat_cpu on @cpu was updated. Put it on the parent's matching
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* rstat_cpu->updated_children list. See the comment on top of
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* cgroup_rstat_cpu definition for details.
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*/
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static void cgroup_rstat_cpu_updated(struct cgroup *cgrp, int cpu)
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{
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raw_spinlock_t *cpu_lock = per_cpu_ptr(&cgroup_rstat_cpu_lock, cpu);
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struct cgroup *parent;
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unsigned long flags;
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/*
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* Speculative already-on-list test. This may race leading to
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* temporary inaccuracies, which is fine.
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*
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* Because @parent's updated_children is terminated with @parent
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* instead of NULL, we can tell whether @cgrp is on the list by
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* testing the next pointer for NULL.
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*/
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if (cgroup_rstat_cpu(cgrp, cpu)->updated_next)
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return;
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raw_spin_lock_irqsave(cpu_lock, flags);
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/* put @cgrp and all ancestors on the corresponding updated lists */
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for (parent = cgroup_parent(cgrp); parent;
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cgrp = parent, parent = cgroup_parent(cgrp)) {
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struct cgroup_rstat_cpu *rstatc = cgroup_rstat_cpu(cgrp, cpu);
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struct cgroup_rstat_cpu *prstatc = cgroup_rstat_cpu(parent, cpu);
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/*
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* Both additions and removals are bottom-up. If a cgroup
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* is already in the tree, all ancestors are.
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*/
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if (rstatc->updated_next)
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break;
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rstatc->updated_next = prstatc->updated_children;
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prstatc->updated_children = cgrp;
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}
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raw_spin_unlock_irqrestore(cpu_lock, flags);
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}
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/**
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* cgroup_rstat_cpu_pop_updated - iterate and dismantle rstat_cpu updated tree
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* @pos: current position
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* @root: root of the tree to traversal
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* @cpu: target cpu
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*
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* Walks the udpated rstat_cpu tree on @cpu from @root. %NULL @pos starts
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* the traversal and %NULL return indicates the end. During traversal,
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* each returned cgroup is unlinked from the tree. Must be called with the
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* matching cgroup_rstat_cpu_lock held.
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*
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* The only ordering guarantee is that, for a parent and a child pair
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* covered by a given traversal, if a child is visited, its parent is
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* guaranteed to be visited afterwards.
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*/
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static struct cgroup *cgroup_rstat_cpu_pop_updated(struct cgroup *pos,
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struct cgroup *root, int cpu)
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{
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struct cgroup_rstat_cpu *rstatc;
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struct cgroup *parent;
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if (pos == root)
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return NULL;
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/*
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* We're gonna walk down to the first leaf and visit/remove it. We
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* can pick whatever unvisited node as the starting point.
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*/
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if (!pos)
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pos = root;
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else
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pos = cgroup_parent(pos);
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/* walk down to the first leaf */
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while (true) {
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rstatc = cgroup_rstat_cpu(pos, cpu);
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if (rstatc->updated_children == pos)
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break;
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pos = rstatc->updated_children;
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}
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/*
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* Unlink @pos from the tree. As the updated_children list is
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* singly linked, we have to walk it to find the removal point.
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* However, due to the way we traverse, @pos will be the first
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* child in most cases. The only exception is @root.
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*/
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parent = cgroup_parent(pos);
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if (parent && rstatc->updated_next) {
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struct cgroup_rstat_cpu *prstatc = cgroup_rstat_cpu(parent, cpu);
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struct cgroup_rstat_cpu *nrstatc;
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struct cgroup **nextp;
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nextp = &prstatc->updated_children;
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while (true) {
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nrstatc = cgroup_rstat_cpu(*nextp, cpu);
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if (*nextp == pos)
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break;
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WARN_ON_ONCE(*nextp == parent);
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nextp = &nrstatc->updated_next;
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}
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*nextp = rstatc->updated_next;
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rstatc->updated_next = NULL;
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}
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return pos;
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}
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static void cgroup_stat_accumulate(struct cgroup_stat *dst_stat,
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struct cgroup_stat *src_stat)
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{
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dst_stat->cputime.utime += src_stat->cputime.utime;
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dst_stat->cputime.stime += src_stat->cputime.stime;
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dst_stat->cputime.sum_exec_runtime += src_stat->cputime.sum_exec_runtime;
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}
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static void cgroup_cpu_stat_flush_one(struct cgroup *cgrp, int cpu)
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{
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struct cgroup *parent = cgroup_parent(cgrp);
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struct cgroup_rstat_cpu *rstatc = cgroup_rstat_cpu(cgrp, cpu);
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struct task_cputime *last_cputime = &rstatc->last_cputime;
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struct task_cputime cputime;
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struct cgroup_stat delta;
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unsigned seq;
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lockdep_assert_held(&cgroup_rstat_mutex);
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/* fetch the current per-cpu values */
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do {
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seq = __u64_stats_fetch_begin(&rstatc->sync);
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cputime = rstatc->cputime;
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} while (__u64_stats_fetch_retry(&rstatc->sync, seq));
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/* accumulate the deltas to propgate */
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delta.cputime.utime = cputime.utime - last_cputime->utime;
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delta.cputime.stime = cputime.stime - last_cputime->stime;
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delta.cputime.sum_exec_runtime = cputime.sum_exec_runtime -
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last_cputime->sum_exec_runtime;
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*last_cputime = cputime;
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/* transfer the pending stat into delta */
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cgroup_stat_accumulate(&delta, &cgrp->pending_stat);
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memset(&cgrp->pending_stat, 0, sizeof(cgrp->pending_stat));
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/* propagate delta into the global stat and the parent's pending */
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cgroup_stat_accumulate(&cgrp->stat, &delta);
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if (parent)
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cgroup_stat_accumulate(&parent->pending_stat, &delta);
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}
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/* see cgroup_rstat_flush() */
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static void cgroup_rstat_flush_locked(struct cgroup *cgrp)
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{
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int cpu;
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lockdep_assert_held(&cgroup_rstat_mutex);
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for_each_possible_cpu(cpu) {
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raw_spinlock_t *cpu_lock = per_cpu_ptr(&cgroup_rstat_cpu_lock,
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cpu);
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struct cgroup *pos = NULL;
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raw_spin_lock_irq(cpu_lock);
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while ((pos = cgroup_rstat_cpu_pop_updated(pos, cgrp, cpu)))
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cgroup_cpu_stat_flush_one(pos, cpu);
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raw_spin_unlock_irq(cpu_lock);
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}
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}
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/**
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* cgroup_rstat_flush - flush stats in @cgrp's subtree
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* @cgrp: target cgroup
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*
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* Collect all per-cpu stats in @cgrp's subtree into the global counters
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* and propagate them upwards. After this function returns, all cgroups in
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* the subtree have up-to-date ->stat.
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*
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* This also gets all cgroups in the subtree including @cgrp off the
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* ->updated_children lists.
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*/
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void cgroup_rstat_flush(struct cgroup *cgrp)
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{
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mutex_lock(&cgroup_rstat_mutex);
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cgroup_rstat_flush_locked(cgrp);
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mutex_unlock(&cgroup_rstat_mutex);
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}
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static struct cgroup_rstat_cpu *
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cgroup_cpu_stat_account_begin(struct cgroup *cgrp)
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{
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struct cgroup_rstat_cpu *rstatc;
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rstatc = get_cpu_ptr(cgrp->rstat_cpu);
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u64_stats_update_begin(&rstatc->sync);
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return rstatc;
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}
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static void cgroup_cpu_stat_account_end(struct cgroup *cgrp,
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struct cgroup_rstat_cpu *rstatc)
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{
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u64_stats_update_end(&rstatc->sync);
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cgroup_rstat_cpu_updated(cgrp, smp_processor_id());
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put_cpu_ptr(rstatc);
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}
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void __cgroup_account_cputime(struct cgroup *cgrp, u64 delta_exec)
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{
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struct cgroup_rstat_cpu *rstatc;
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rstatc = cgroup_cpu_stat_account_begin(cgrp);
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rstatc->cputime.sum_exec_runtime += delta_exec;
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cgroup_cpu_stat_account_end(cgrp, rstatc);
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}
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void __cgroup_account_cputime_field(struct cgroup *cgrp,
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enum cpu_usage_stat index, u64 delta_exec)
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{
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struct cgroup_rstat_cpu *rstatc;
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rstatc = cgroup_cpu_stat_account_begin(cgrp);
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switch (index) {
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case CPUTIME_USER:
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case CPUTIME_NICE:
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rstatc->cputime.utime += delta_exec;
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break;
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case CPUTIME_SYSTEM:
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case CPUTIME_IRQ:
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case CPUTIME_SOFTIRQ:
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rstatc->cputime.stime += delta_exec;
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break;
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default:
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break;
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}
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cgroup_cpu_stat_account_end(cgrp, rstatc);
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}
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void cgroup_stat_show_cputime(struct seq_file *seq)
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{
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struct cgroup *cgrp = seq_css(seq)->cgroup;
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u64 usage, utime, stime;
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if (!cgroup_parent(cgrp))
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return;
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mutex_lock(&cgroup_rstat_mutex);
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cgroup_rstat_flush_locked(cgrp);
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usage = cgrp->stat.cputime.sum_exec_runtime;
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cputime_adjust(&cgrp->stat.cputime, &cgrp->stat.prev_cputime,
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&utime, &stime);
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mutex_unlock(&cgroup_rstat_mutex);
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do_div(usage, NSEC_PER_USEC);
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do_div(utime, NSEC_PER_USEC);
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do_div(stime, NSEC_PER_USEC);
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seq_printf(seq, "usage_usec %llu\n"
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"user_usec %llu\n"
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"system_usec %llu\n",
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usage, utime, stime);
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}
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int cgroup_rstat_init(struct cgroup *cgrp)
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{
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int cpu;
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/* the root cgrp has rstat_cpu preallocated */
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if (!cgrp->rstat_cpu) {
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cgrp->rstat_cpu = alloc_percpu(struct cgroup_rstat_cpu);
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if (!cgrp->rstat_cpu)
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return -ENOMEM;
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}
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/* ->updated_children list is self terminated */
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for_each_possible_cpu(cpu) {
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struct cgroup_rstat_cpu *rstatc = cgroup_rstat_cpu(cgrp, cpu);
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rstatc->updated_children = cgrp;
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u64_stats_init(&rstatc->sync);
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}
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prev_cputime_init(&cgrp->stat.prev_cputime);
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return 0;
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}
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void cgroup_rstat_exit(struct cgroup *cgrp)
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{
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int cpu;
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cgroup_rstat_flush(cgrp);
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/* sanity check */
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for_each_possible_cpu(cpu) {
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struct cgroup_rstat_cpu *rstatc = cgroup_rstat_cpu(cgrp, cpu);
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if (WARN_ON_ONCE(rstatc->updated_children != cgrp) ||
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WARN_ON_ONCE(rstatc->updated_next))
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return;
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}
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free_percpu(cgrp->rstat_cpu);
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cgrp->rstat_cpu = NULL;
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}
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void __init cgroup_rstat_boot(void)
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{
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int cpu;
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for_each_possible_cpu(cpu)
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raw_spin_lock_init(per_cpu_ptr(&cgroup_rstat_cpu_lock, cpu));
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BUG_ON(cgroup_rstat_init(&cgrp_dfl_root.cgrp));
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}
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