kernel/time/timer_migration.c

7ee98877SAnna-Maria Behnsen// SPDX-License-Identifier: GPL-2.0-only
7ee98877SAnna-Maria Behnsen/*
7ee98877SAnna-Maria Behnsen * Infrastructure for migratable timers
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Copyright(C) 2022 linutronix GmbH
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsen#include <linux/cpuhotplug.h>
7ee98877SAnna-Maria Behnsen#include <linux/slab.h>
7ee98877SAnna-Maria Behnsen#include <linux/smp.h>
7ee98877SAnna-Maria Behnsen#include <linux/spinlock.h>
7ee98877SAnna-Maria Behnsen#include <linux/timerqueue.h>
7ee98877SAnna-Maria Behnsen#include <trace/events/ipi.h>
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen#include "timer_migration.h"
7ee98877SAnna-Maria Behnsen#include "tick-internal.h"
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen#define CREATE_TRACE_POINTS
36e40df3SAnna-Maria Behnsen#include <trace/events/timer_migration.h>
36e40df3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/*
7ee98877SAnna-Maria Behnsen * The timer migration mechanism is built on a hierarchy of groups. The
7ee98877SAnna-Maria Behnsen * lowest level group contains CPUs, the next level groups of CPU groups
7ee98877SAnna-Maria Behnsen * and so forth. The CPU groups are kept per node so for the normal case
7ee98877SAnna-Maria Behnsen * lock contention won't happen across nodes. Depending on the number of
7ee98877SAnna-Maria Behnsen * CPUs per node even the next level might be kept as groups of CPU groups
7ee98877SAnna-Maria Behnsen * per node and only the levels above cross the node topology.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Example topology for a two node system with 24 CPUs each.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * LVL 2                           [GRP2:0]
7ee98877SAnna-Maria Behnsen *                              GRP1:0 = GRP1:M
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * LVL 1            [GRP1:0]                      [GRP1:1]
7ee98877SAnna-Maria Behnsen *               GRP0:0 - GRP0:2               GRP0:3 - GRP0:5
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * LVL 0  [GRP0:0]  [GRP0:1]  [GRP0:2]  [GRP0:3]  [GRP0:4]  [GRP0:5]
7ee98877SAnna-Maria Behnsen * CPUS     0-7       8-15      16-23     24-31     32-39     40-47
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * The groups hold a timer queue of events sorted by expiry time. These
7ee98877SAnna-Maria Behnsen * queues are updated when CPUs go in idle. When they come out of idle
7ee98877SAnna-Maria Behnsen * ignore flag of events is set.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Each group has a designated migrator CPU/group as long as a CPU/group is
7ee98877SAnna-Maria Behnsen * active in the group. This designated role is necessary to avoid that all
7ee98877SAnna-Maria Behnsen * active CPUs in a group try to migrate expired timers from other CPUs,
7ee98877SAnna-Maria Behnsen * which would result in massive lock bouncing.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * When a CPU is awake, it checks in it's own timer tick the group
7ee98877SAnna-Maria Behnsen * hierarchy up to the point where it is assigned the migrator role or if
7ee98877SAnna-Maria Behnsen * no CPU is active, it also checks the groups where no migrator is set
7ee98877SAnna-Maria Behnsen * (TMIGR_NONE).
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * If it finds expired timers in one of the group queues it pulls them over
7ee98877SAnna-Maria Behnsen * from the idle CPU and runs the timer function. After that it updates the
7ee98877SAnna-Maria Behnsen * group and the parent groups if required.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * CPUs which go idle arm their CPU local timer hardware for the next local
7ee98877SAnna-Maria Behnsen * (pinned) timer event. If the next migratable timer expires after the
7ee98877SAnna-Maria Behnsen * next local timer or the CPU has no migratable timer pending then the
7ee98877SAnna-Maria Behnsen * CPU does not queue an event in the LVL0 group. If the next migratable
7ee98877SAnna-Maria Behnsen * timer expires before the next local timer then the CPU queues that timer
7ee98877SAnna-Maria Behnsen * in the LVL0 group. In both cases the CPU marks itself idle in the LVL0
7ee98877SAnna-Maria Behnsen * group.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * When CPU comes out of idle and when a group has at least a single active
7ee98877SAnna-Maria Behnsen * child, the ignore flag of the tmigr_event is set. This indicates, that
7ee98877SAnna-Maria Behnsen * the event is ignored even if it is still enqueued in the parent groups
7ee98877SAnna-Maria Behnsen * timer queue. It will be removed when touching the timer queue the next
7ee98877SAnna-Maria Behnsen * time. This spares locking in active path as the lock protects (after
7ee98877SAnna-Maria Behnsen * setup) only event information. For more information about locking,
7ee98877SAnna-Maria Behnsen * please read the section "Locking rules".
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * If the CPU is the migrator of the group then it delegates that role to
7ee98877SAnna-Maria Behnsen * the next active CPU in the group or sets migrator to TMIGR_NONE when
7ee98877SAnna-Maria Behnsen * there is no active CPU in the group. This delegation needs to be
7ee98877SAnna-Maria Behnsen * propagated up the hierarchy so hand over from other leaves can happen at
7ee98877SAnna-Maria Behnsen * all hierarchy levels w/o doing a search.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * When the last CPU in the system goes idle, then it drops all migrator
7ee98877SAnna-Maria Behnsen * duties up to the top level of the hierarchy (LVL2 in the example). It
7ee98877SAnna-Maria Behnsen * then has to make sure, that it arms it's own local hardware timer for
7ee98877SAnna-Maria Behnsen * the earliest event in the system.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Lifetime rules:
7ee98877SAnna-Maria Behnsen * ---------------
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * The groups are built up at init time or when CPUs come online. They are
7ee98877SAnna-Maria Behnsen * not destroyed when a group becomes empty due to offlining. The group
7ee98877SAnna-Maria Behnsen * just won't participate in the hierarchy management anymore. Destroying
7ee98877SAnna-Maria Behnsen * groups would result in interesting race conditions which would just make
7ee98877SAnna-Maria Behnsen * the whole mechanism slow and complex.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Locking rules:
7ee98877SAnna-Maria Behnsen * --------------
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * For setting up new groups and handling events it's required to lock both
7ee98877SAnna-Maria Behnsen * child and parent group. The lock ordering is always bottom up. This also
7ee98877SAnna-Maria Behnsen * includes the per CPU locks in struct tmigr_cpu. For updating the migrator and
7ee98877SAnna-Maria Behnsen * active CPU/group information atomic_try_cmpxchg() is used instead and only
7ee98877SAnna-Maria Behnsen * the per CPU tmigr_cpu->lock is held.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * During the setup of groups tmigr_level_list is required. It is protected by
7ee98877SAnna-Maria Behnsen * @tmigr_mutex.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * When @timer_base->lock as well as tmigr related locks are required, the lock
7ee98877SAnna-Maria Behnsen * ordering is: first @timer_base->lock, afterwards tmigr related locks.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Protection of the tmigr group state information:
7ee98877SAnna-Maria Behnsen * ------------------------------------------------
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * The state information with the list of active children and migrator needs to
7ee98877SAnna-Maria Behnsen * be protected by a sequence counter. It prevents a race when updates in child
7ee98877SAnna-Maria Behnsen * groups are propagated in changed order. The state update is performed
7ee98877SAnna-Maria Behnsen * lockless and group wise. The following scenario describes what happens
7ee98877SAnna-Maria Behnsen * without updating the sequence counter:
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Therefore, let's take three groups and four CPUs (CPU2 and CPU3 as well
7ee98877SAnna-Maria Behnsen * as GRP0:1 will not change during the scenario):
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                     active   = GRP0:0, GRP0:1
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = CPU0           migrator = CPU2
7ee98877SAnna-Maria Behnsen *           active   = CPU0           active   = CPU2
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             active      idle           active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 1. CPU0 goes idle. As the update is performed group wise, in the first step
7ee98877SAnna-Maria Behnsen *    only GRP0:0 is updated. The update of GRP1:0 is pending as CPU0 has to
7ee98877SAnna-Maria Behnsen *    walk the hierarchy.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                     active   = GRP0:0, GRP0:1
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *       --> migrator = TMIGR_NONE     migrator = CPU2
7ee98877SAnna-Maria Behnsen *       --> active   =                active   = CPU2
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *         --> idle        idle           active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 2. While CPU0 goes idle and continues to update the state, CPU1 comes out of
7ee98877SAnna-Maria Behnsen *    idle. CPU1 updates GRP0:0. The update for GRP1:0 is pending as CPU1 also
7ee98877SAnna-Maria Behnsen *    has to walk the hierarchy. Both CPUs (CPU0 and CPU1) now walk the
7ee98877SAnna-Maria Behnsen *    hierarchy to perform the needed update from their point of view. The
7ee98877SAnna-Maria Behnsen *    currently visible state looks the following:
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                     active   = GRP0:0, GRP0:1
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *       --> migrator = CPU1           migrator = CPU2
7ee98877SAnna-Maria Behnsen *       --> active   = CPU1           active   = CPU2
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle    --> active         active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 3. Here is the race condition: CPU1 managed to propagate its changes (from
7ee98877SAnna-Maria Behnsen *    step 2) through the hierarchy to GRP1:0 before CPU0 (step 1) did. The
7ee98877SAnna-Maria Behnsen *    active members of GRP1:0 remain unchanged after the update since it is
7ee98877SAnna-Maria Behnsen *    still valid from CPU1 current point of view:
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                 --> migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                 --> active   = GRP0:0, GRP0:1
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = CPU1           migrator = CPU2
7ee98877SAnna-Maria Behnsen *           active   = CPU1           active   = CPU2
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        active         active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 4. Now CPU0 finally propagates its changes (from step 1) to GRP1:0.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                 --> migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                 --> active   = GRP0:1
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = CPU1           migrator = CPU2
7ee98877SAnna-Maria Behnsen *           active   = CPU1           active   = CPU2
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        active         active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * The race of CPU0 vs. CPU1 led to an inconsistent state in GRP1:0. CPU1 is
7ee98877SAnna-Maria Behnsen * active and is correctly listed as active in GRP0:0. However GRP1:0 does not
7ee98877SAnna-Maria Behnsen * have GRP0:0 listed as active, which is wrong. The sequence counter has been
7ee98877SAnna-Maria Behnsen * added to avoid inconsistent states during updates. The state is updated
7ee98877SAnna-Maria Behnsen * atomically only if all members, including the sequence counter, match the
7ee98877SAnna-Maria Behnsen * expected value (compare-and-exchange).
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Looking back at the previous example with the addition of the sequence
7ee98877SAnna-Maria Behnsen * counter: The update as performed by CPU0 in step 4 will fail. CPU1 changed
7ee98877SAnna-Maria Behnsen * the sequence number during the update in step 3 so the expected old value (as
7ee98877SAnna-Maria Behnsen * seen by CPU0 before starting the walk) does not match.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Prevent race between new event and last CPU going inactive
7ee98877SAnna-Maria Behnsen * ----------------------------------------------------------
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * When the last CPU is going idle and there is a concurrent update of a new
7ee98877SAnna-Maria Behnsen * first global timer of an idle CPU, the group and child states have to be read
7ee98877SAnna-Maria Behnsen * while holding the lock in tmigr_update_events(). The following scenario shows
7ee98877SAnna-Maria Behnsen * what happens, when this is not done.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 1. Only CPU2 is active:
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                     active   = GRP0:1
7ee98877SAnna-Maria Behnsen *                     next_expiry = KTIME_MAX
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = TMIGR_NONE     migrator = CPU2
7ee98877SAnna-Maria Behnsen *           active   =                active   = CPU2
7ee98877SAnna-Maria Behnsen *           next_expiry = KTIME_MAX   next_expiry = KTIME_MAX
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        idle           active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 2. Now CPU 2 goes idle (and has no global timer, that has to be handled) and
7ee98877SAnna-Maria Behnsen *    propagates that to GRP0:1:
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                     active   = GRP0:1
7ee98877SAnna-Maria Behnsen *                     next_expiry = KTIME_MAX
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = TMIGR_NONE --> migrator = TMIGR_NONE
7ee98877SAnna-Maria Behnsen *           active   =            --> active   =
7ee98877SAnna-Maria Behnsen *           next_expiry = KTIME_MAX   next_expiry = KTIME_MAX
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        idle       --> idle        idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 3. Now the idle state is propagated up to GRP1:0. As this is now the last
7ee98877SAnna-Maria Behnsen *    child going idle in top level group, the expiry of the next group event
7ee98877SAnna-Maria Behnsen *    has to be handed back to make sure no event is lost. As there is no event
7ee98877SAnna-Maria Behnsen *    enqueued, KTIME_MAX is handed back to CPU2.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                 --> migrator = TMIGR_NONE
7ee98877SAnna-Maria Behnsen *                 --> active   =
7ee98877SAnna-Maria Behnsen *                     next_expiry = KTIME_MAX
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = TMIGR_NONE     migrator = TMIGR_NONE
7ee98877SAnna-Maria Behnsen *           active   =                active   =
7ee98877SAnna-Maria Behnsen *           next_expiry = KTIME_MAX   next_expiry = KTIME_MAX
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        idle       --> idle        idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 4. CPU 0 has a new timer queued from idle and it expires at TIMER0. CPU0
7ee98877SAnna-Maria Behnsen *    propagates that to GRP0:0:
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = TMIGR_NONE
7ee98877SAnna-Maria Behnsen *                     active   =
7ee98877SAnna-Maria Behnsen *                     next_expiry = KTIME_MAX
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = TMIGR_NONE     migrator = TMIGR_NONE
7ee98877SAnna-Maria Behnsen *           active   =                active   =
7ee98877SAnna-Maria Behnsen *       --> next_expiry = TIMER0      next_expiry  = KTIME_MAX
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        idle           idle        idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 5. GRP0:0 is not active, so the new timer has to be propagated to
7ee98877SAnna-Maria Behnsen *    GRP1:0. Therefore the GRP1:0 state has to be read. When the stalled value
7ee98877SAnna-Maria Behnsen *    (from step 2) is read, the timer is enqueued into GRP1:0, but nothing is
7ee98877SAnna-Maria Behnsen *    handed back to CPU0, as it seems that there is still an active child in
7ee98877SAnna-Maria Behnsen *    top level group.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = TMIGR_NONE
7ee98877SAnna-Maria Behnsen *                     active   =
7ee98877SAnna-Maria Behnsen *                 --> next_expiry = TIMER0
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = TMIGR_NONE     migrator = TMIGR_NONE
7ee98877SAnna-Maria Behnsen *           active   =                active   =
7ee98877SAnna-Maria Behnsen *           next_expiry = TIMER0      next_expiry  = KTIME_MAX
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        idle           idle        idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * This is prevented by reading the state when holding the lock (when a new
7ee98877SAnna-Maria Behnsen * timer has to be propagated from idle path)::
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *   CPU2 (tmigr_inactive_up())          CPU0 (tmigr_new_timer_up())
7ee98877SAnna-Maria Behnsen *   --------------------------          ---------------------------
7ee98877SAnna-Maria Behnsen *   // step 3:
7ee98877SAnna-Maria Behnsen *   cmpxchg(&GRP1:0->state);
7ee98877SAnna-Maria Behnsen *   tmigr_update_events() {
7ee98877SAnna-Maria Behnsen *       spin_lock(&GRP1:0->lock);
7ee98877SAnna-Maria Behnsen *       // ... update events ...
7ee98877SAnna-Maria Behnsen *       // hand back first expiry when GRP1:0 is idle
7ee98877SAnna-Maria Behnsen *       spin_unlock(&GRP1:0->lock);
7ee98877SAnna-Maria Behnsen *       // ^^^ release state modification
7ee98877SAnna-Maria Behnsen *   }
7ee98877SAnna-Maria Behnsen *                                       tmigr_update_events() {
7ee98877SAnna-Maria Behnsen *                                           spin_lock(&GRP1:0->lock)
7ee98877SAnna-Maria Behnsen *                                           // ^^^ acquire state modification
7ee98877SAnna-Maria Behnsen *                                           group_state = atomic_read(&GRP1:0->state)
7ee98877SAnna-Maria Behnsen *                                           // .... update events ...
7ee98877SAnna-Maria Behnsen *                                           // hand back first expiry when GRP1:0 is idle
7ee98877SAnna-Maria Behnsen *                                           spin_unlock(&GRP1:0->lock) <3>
7ee98877SAnna-Maria Behnsen *                                           // ^^^ makes state visible for other
7ee98877SAnna-Maria Behnsen *                                           // callers of tmigr_new_timer_up()
7ee98877SAnna-Maria Behnsen *                                       }
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * When CPU0 grabs the lock directly after cmpxchg, the first timer is reported
7ee98877SAnna-Maria Behnsen * back to CPU0 and also later on to CPU2. So no timer is missed. A concurrent
7ee98877SAnna-Maria Behnsen * update of the group state from active path is no problem, as the upcoming CPU
7ee98877SAnna-Maria Behnsen * will take care of the group events.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Required event and timerqueue update after a remote expiry:
7ee98877SAnna-Maria Behnsen * -----------------------------------------------------------
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * After expiring timers of a remote CPU, a walk through the hierarchy and
7ee98877SAnna-Maria Behnsen * update of events and timerqueues is required. It is obviously needed if there
7ee98877SAnna-Maria Behnsen * is a 'new' global timer but also if there is no new global timer but the
7ee98877SAnna-Maria Behnsen * remote CPU is still idle.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 1. CPU0 and CPU1 are idle and have both a global timer expiring at the same
7ee98877SAnna-Maria Behnsen *    time. So both have an event enqueued in the timerqueue of GRP0:0. CPU3 is
7ee98877SAnna-Maria Behnsen *    also idle and has no global timer pending. CPU2 is the only active CPU and
7ee98877SAnna-Maria Behnsen *    thus also the migrator:
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                     active   = GRP0:1
7ee98877SAnna-Maria Behnsen *                 --> timerqueue = evt-GRP0:0
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = TMIGR_NONE     migrator = CPU2
7ee98877SAnna-Maria Behnsen *           active   =                active   = CPU2
7ee98877SAnna-Maria Behnsen *           groupevt.ignore = false   groupevt.ignore = true
7ee98877SAnna-Maria Behnsen *           groupevt.cpu = CPU0       groupevt.cpu =
7ee98877SAnna-Maria Behnsen *           timerqueue = evt-CPU0,    timerqueue =
7ee98877SAnna-Maria Behnsen *                        evt-CPU1
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        idle           active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 2. CPU2 starts to expire remote timers. It starts with LVL0 group
7ee98877SAnna-Maria Behnsen *    GRP0:1. There is no event queued in the timerqueue, so CPU2 continues with
7ee98877SAnna-Maria Behnsen *    the parent of GRP0:1: GRP1:0. In GRP1:0 it dequeues the first event. It
7ee98877SAnna-Maria Behnsen *    looks at tmigr_event::cpu struct member and expires the pending timer(s)
7ee98877SAnna-Maria Behnsen *    of CPU0.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                     active   = GRP0:1
7ee98877SAnna-Maria Behnsen *                 --> timerqueue =
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = TMIGR_NONE     migrator = CPU2
7ee98877SAnna-Maria Behnsen *           active   =                active   = CPU2
7ee98877SAnna-Maria Behnsen *           groupevt.ignore = false   groupevt.ignore = true
7ee98877SAnna-Maria Behnsen *       --> groupevt.cpu = CPU0       groupevt.cpu =
7ee98877SAnna-Maria Behnsen *           timerqueue = evt-CPU0,    timerqueue =
7ee98877SAnna-Maria Behnsen *                        evt-CPU1
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        idle           active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * 3. Some work has to be done after expiring the timers of CPU0. If we stop
7ee98877SAnna-Maria Behnsen *    here, then CPU1's pending global timer(s) will not expire in time and the
7ee98877SAnna-Maria Behnsen *    timerqueue of GRP0:0 has still an event for CPU0 enqueued which has just
7ee98877SAnna-Maria Behnsen *    been processed. So it is required to walk the hierarchy from CPU0's point
7ee98877SAnna-Maria Behnsen *    of view and update it accordingly. CPU0's event will be removed from the
7ee98877SAnna-Maria Behnsen *    timerqueue because it has no pending timer. If CPU0 would have a timer
7ee98877SAnna-Maria Behnsen *    pending then it has to expire after CPU1's first timer because all timers
7ee98877SAnna-Maria Behnsen *    from this period were just expired. Either way CPU1's event will be first
7ee98877SAnna-Maria Behnsen *    in GRP0:0's timerqueue and therefore set in the CPU field of the group
7ee98877SAnna-Maria Behnsen *    event which is then enqueued in GRP1:0's timerqueue as GRP0:0 is still not
7ee98877SAnna-Maria Behnsen *    active:
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen *    LVL 1            [GRP1:0]
7ee98877SAnna-Maria Behnsen *                     migrator = GRP0:1
7ee98877SAnna-Maria Behnsen *                     active   = GRP0:1
7ee98877SAnna-Maria Behnsen *                 --> timerqueue = evt-GRP0:0
7ee98877SAnna-Maria Behnsen *                   /                \
7ee98877SAnna-Maria Behnsen *    LVL 0  [GRP0:0]                  [GRP0:1]
7ee98877SAnna-Maria Behnsen *           migrator = TMIGR_NONE     migrator = CPU2
7ee98877SAnna-Maria Behnsen *           active   =                active   = CPU2
7ee98877SAnna-Maria Behnsen *           groupevt.ignore = false   groupevt.ignore = true
7ee98877SAnna-Maria Behnsen *       --> groupevt.cpu = CPU1       groupevt.cpu =
7ee98877SAnna-Maria Behnsen *       --> timerqueue = evt-CPU1     timerqueue =
7ee98877SAnna-Maria Behnsen *              /         \                /         \
7ee98877SAnna-Maria Behnsen *    CPUs     0           1              2           3
7ee98877SAnna-Maria Behnsen *             idle        idle           active      idle
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Now CPU2 (migrator) will continue step 2 at GRP1:0 and will expire the
7ee98877SAnna-Maria Behnsen * timer(s) of CPU1.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * The hierarchy walk in step 3 can be skipped if the migrator notices that a
7ee98877SAnna-Maria Behnsen * CPU of GRP0:0 is active again. The CPU will mark GRP0:0 active and take care
7ee98877SAnna-Maria Behnsen * of the group as migrator and any needed updates within the hierarchy.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic DEFINE_MUTEX(tmigr_mutex);
7ee98877SAnna-Maria Behnsenstatic struct list_head *tmigr_level_list __read_mostly;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic unsigned int tmigr_hierarchy_levels __read_mostly;
7ee98877SAnna-Maria Behnsenstatic unsigned int tmigr_crossnode_level __read_mostly;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic DEFINE_PER_CPU(struct tmigr_cpu, tmigr_cpu);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen#define TMIGR_NONE	0xFF
7ee98877SAnna-Maria Behnsen#define BIT_CNT		8
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic inline bool tmigr_is_not_available(struct tmigr_cpu *tmc)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	return !(tmc->tmgroup && tmc->online);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/*
7ee98877SAnna-Maria Behnsen * Returns true, when @childmask corresponds to the group migrator or when the
7ee98877SAnna-Maria Behnsen * group is not active - so no migrator is set.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenstatic bool tmigr_check_migrator(struct tmigr_group *group, u8 childmask)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	union tmigr_state s;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	s.state = atomic_read(&group->migr_state);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if ((s.migrator == childmask) || (s.migrator == TMIGR_NONE))
7ee98877SAnna-Maria Behnsen		return true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return false;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic bool tmigr_check_migrator_and_lonely(struct tmigr_group *group, u8 childmask)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	bool lonely, migrator = false;
7ee98877SAnna-Maria Behnsen	unsigned long active;
7ee98877SAnna-Maria Behnsen	union tmigr_state s;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	s.state = atomic_read(&group->migr_state);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if ((s.migrator == childmask) || (s.migrator == TMIGR_NONE))
7ee98877SAnna-Maria Behnsen		migrator = true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	active = s.active;
7ee98877SAnna-Maria Behnsen	lonely = bitmap_weight(&active, BIT_CNT) <= 1;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return (migrator && lonely);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic bool tmigr_check_lonely(struct tmigr_group *group)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	unsigned long active;
7ee98877SAnna-Maria Behnsen	union tmigr_state s;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	s.state = atomic_read(&group->migr_state);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	active = s.active;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return bitmap_weight(&active, BIT_CNT) <= 1;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
3ba11103SAnna-Maria Behnsen/**
3ba11103SAnna-Maria Behnsen * struct tmigr_walk - data required for walking the hierarchy
3ba11103SAnna-Maria Behnsen * @nextexp:		Next CPU event expiry information which is handed into
3ba11103SAnna-Maria Behnsen *			the timer migration code by the timer code
3ba11103SAnna-Maria Behnsen *			(get_next_timer_interrupt())
3ba11103SAnna-Maria Behnsen * @firstexp:		Contains the first event expiry information when
3ba11103SAnna-Maria Behnsen *			hierarchy is completely idle.  When CPU itself was the
3ba11103SAnna-Maria Behnsen *			last going idle, information makes sure, that CPU will
3ba11103SAnna-Maria Behnsen *			be back in time. When using this value in the remote
3ba11103SAnna-Maria Behnsen *			expiry case, firstexp is stored in the per CPU tmigr_cpu
3ba11103SAnna-Maria Behnsen *			struct of CPU which expires remote timers. It is updated
3ba11103SAnna-Maria Behnsen *			in top level group only. Be aware, there could occur a
3ba11103SAnna-Maria Behnsen *			new top level of the hierarchy between the 'top level
3ba11103SAnna-Maria Behnsen *			call' in tmigr_update_events() and the check for the
3ba11103SAnna-Maria Behnsen *			parent group in walk_groups(). Then @firstexp might
3ba11103SAnna-Maria Behnsen *			contain a value != KTIME_MAX even if it was not the
3ba11103SAnna-Maria Behnsen *			final top level. This is not a problem, as the worst
3ba11103SAnna-Maria Behnsen *			outcome is a CPU which might wake up a little early.
3ba11103SAnna-Maria Behnsen * @evt:		Pointer to tmigr_event which needs to be queued (of idle
3ba11103SAnna-Maria Behnsen *			child group)
835a9a67SAnna-Maria Behnsen * @childmask:		groupmask of child group
3ba11103SAnna-Maria Behnsen * @remote:		Is set, when the new timer path is executed in
3ba11103SAnna-Maria Behnsen *			tmigr_handle_remote_cpu()
3ba11103SAnna-Maria Behnsen * @basej:		timer base in jiffies
3ba11103SAnna-Maria Behnsen * @now:		timer base monotonic
3ba11103SAnna-Maria Behnsen * @check:		is set if there is the need to handle remote timers;
3ba11103SAnna-Maria Behnsen *			required in tmigr_requires_handle_remote() only
3ba11103SAnna-Maria Behnsen * @tmc_active:		this flag indicates, whether the CPU which triggers
3ba11103SAnna-Maria Behnsen *			the hierarchy walk is !idle in the timer migration
3ba11103SAnna-Maria Behnsen *			hierarchy. When the CPU is idle and the whole hierarchy is
3ba11103SAnna-Maria Behnsen *			idle, only the first event of the top level has to be
3ba11103SAnna-Maria Behnsen *			considered.
3ba11103SAnna-Maria Behnsen */
3ba11103SAnna-Maria Behnsenstruct tmigr_walk {
3ba11103SAnna-Maria Behnsen	u64			nextexp;
3ba11103SAnna-Maria Behnsen	u64			firstexp;
3ba11103SAnna-Maria Behnsen	struct tmigr_event	*evt;
3ba11103SAnna-Maria Behnsen	u8			childmask;
3ba11103SAnna-Maria Behnsen	bool			remote;
3ba11103SAnna-Maria Behnsen	unsigned long		basej;
3ba11103SAnna-Maria Behnsen	u64			now;
3ba11103SAnna-Maria Behnsen	bool			check;
3ba11103SAnna-Maria Behnsen	bool			tmc_active;
3ba11103SAnna-Maria Behnsen};
7ee98877SAnna-Maria Behnsen
3ba11103SAnna-Maria Behnsentypedef bool (*up_f)(struct tmigr_group *, struct tmigr_group *, struct tmigr_walk *);
3ba11103SAnna-Maria Behnsen
3ba11103SAnna-Maria Behnsenstatic void __walk_groups(up_f up, struct tmigr_walk *data,
7ee98877SAnna-Maria Behnsen			  struct tmigr_cpu *tmc)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_group *child = NULL, *group = tmc->tmgroup;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	do {
7ee98877SAnna-Maria Behnsen		WARN_ON_ONCE(group->level >= tmigr_hierarchy_levels);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		if (up(group, child, data))
7ee98877SAnna-Maria Behnsen			break;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		child = group;
de3ced72SFrederic Weisbecker		/*
de3ced72SFrederic Weisbecker		 * Pairs with the store release on group connection
de3ced72SFrederic Weisbecker		 * to make sure group initialization is visible.
de3ced72SFrederic Weisbecker		 */
de3ced72SFrederic Weisbecker		group = READ_ONCE(group->parent);
835a9a67SAnna-Maria Behnsen		data->childmask = child->groupmask;
de3ced72SFrederic Weisbecker		WARN_ON_ONCE(!data->childmask);
7ee98877SAnna-Maria Behnsen	} while (group);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
3ba11103SAnna-Maria Behnsenstatic void walk_groups(up_f up, struct tmigr_walk *data, struct tmigr_cpu *tmc)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	lockdep_assert_held(&tmc->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	__walk_groups(up, data, tmc);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/*
7ee98877SAnna-Maria Behnsen * Returns the next event of the timerqueue @group->events
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Removes timers with ignore flag and update next_expiry of the group. Values
7ee98877SAnna-Maria Behnsen * of the group event are updated in tmigr_update_events() only.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenstatic struct tmigr_event *tmigr_next_groupevt(struct tmigr_group *group)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct timerqueue_node *node = NULL;
7ee98877SAnna-Maria Behnsen	struct tmigr_event *evt = NULL;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	lockdep_assert_held(&group->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	WRITE_ONCE(group->next_expiry, KTIME_MAX);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	while ((node = timerqueue_getnext(&group->events))) {
7ee98877SAnna-Maria Behnsen		evt = container_of(node, struct tmigr_event, nextevt);
7ee98877SAnna-Maria Behnsen
922efd29SFrederic Weisbecker		if (!READ_ONCE(evt->ignore)) {
7ee98877SAnna-Maria Behnsen			WRITE_ONCE(group->next_expiry, evt->nextevt.expires);
7ee98877SAnna-Maria Behnsen			return evt;
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * Remove next timers with ignore flag, because the group lock
7ee98877SAnna-Maria Behnsen		 * is held anyway
7ee98877SAnna-Maria Behnsen		 */
7ee98877SAnna-Maria Behnsen		if (!timerqueue_del(&group->events, node))
7ee98877SAnna-Maria Behnsen			break;
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return NULL;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/*
7ee98877SAnna-Maria Behnsen * Return the next event (with the expiry equal or before @now)
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Event, which is returned, is also removed from the queue.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenstatic struct tmigr_event *tmigr_next_expired_groupevt(struct tmigr_group *group,
7ee98877SAnna-Maria Behnsen						       u64 now)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_event *evt = tmigr_next_groupevt(group);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (!evt || now < evt->nextevt.expires)
7ee98877SAnna-Maria Behnsen		return NULL;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * The event is ready to expire. Remove it and update next group event.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	timerqueue_del(&group->events, &evt->nextevt);
7ee98877SAnna-Maria Behnsen	tmigr_next_groupevt(group);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return evt;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic u64 tmigr_next_groupevt_expires(struct tmigr_group *group)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_event *evt;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	evt = tmigr_next_groupevt(group);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (!evt)
7ee98877SAnna-Maria Behnsen		return KTIME_MAX;
7ee98877SAnna-Maria Behnsen	else
7ee98877SAnna-Maria Behnsen		return evt->nextevt.expires;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic bool tmigr_active_up(struct tmigr_group *group,
7ee98877SAnna-Maria Behnsen			    struct tmigr_group *child,
3ba11103SAnna-Maria Behnsen			    struct tmigr_walk *data)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	union tmigr_state curstate, newstate;
7ee98877SAnna-Maria Behnsen	bool walk_done;
7ee98877SAnna-Maria Behnsen	u8 childmask;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	childmask = data->childmask;
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * No memory barrier is required here in contrast to
7ee98877SAnna-Maria Behnsen	 * tmigr_inactive_up(), as the group state change does not depend on the
7ee98877SAnna-Maria Behnsen	 * child state.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	curstate.state = atomic_read(&group->migr_state);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	do {
7ee98877SAnna-Maria Behnsen		newstate = curstate;
7ee98877SAnna-Maria Behnsen		walk_done = true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		if (newstate.migrator == TMIGR_NONE) {
7ee98877SAnna-Maria Behnsen			newstate.migrator = childmask;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen			/* Changes need to be propagated */
7ee98877SAnna-Maria Behnsen			walk_done = false;
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		newstate.active |= childmask;
7ee98877SAnna-Maria Behnsen		newstate.seq++;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	} while (!atomic_try_cmpxchg(&group->migr_state, &curstate.state, newstate.state));
7ee98877SAnna-Maria Behnsen
92506741SAnna-Maria Behnsen	trace_tmigr_group_set_cpu_active(group, newstate, childmask);
92506741SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * The group is active (again). The group event might be still queued
7ee98877SAnna-Maria Behnsen	 * into the parent group's timerqueue but can now be handled by the
7ee98877SAnna-Maria Behnsen	 * migrator of this group. Therefore the ignore flag for the group event
7ee98877SAnna-Maria Behnsen	 * is updated to reflect this.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * The update of the ignore flag in the active path is done lockless. In
7ee98877SAnna-Maria Behnsen	 * worst case the migrator of the parent group observes the change too
7ee98877SAnna-Maria Behnsen	 * late and expires remotely all events belonging to this group. The
7ee98877SAnna-Maria Behnsen	 * lock is held while updating the ignore flag in idle path. So this
7ee98877SAnna-Maria Behnsen	 * state change will not be lost.
7ee98877SAnna-Maria Behnsen	 */
922efd29SFrederic Weisbecker	WRITE_ONCE(group->groupevt.ignore, true);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return walk_done;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic void __tmigr_cpu_activate(struct tmigr_cpu *tmc)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_walk data;
7ee98877SAnna-Maria Behnsen
835a9a67SAnna-Maria Behnsen	data.childmask = tmc->groupmask;
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen	trace_tmigr_cpu_active(tmc);
36e40df3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	tmc->cpuevt.ignore = true;
7ee98877SAnna-Maria Behnsen	WRITE_ONCE(tmc->wakeup, KTIME_MAX);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	walk_groups(&tmigr_active_up, &data, tmc);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/**
7ee98877SAnna-Maria Behnsen * tmigr_cpu_activate() - set this CPU active in timer migration hierarchy
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Call site timer_clear_idle() is called with interrupts disabled.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenvoid tmigr_cpu_activate(void)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (tmigr_is_not_available(tmc))
7ee98877SAnna-Maria Behnsen		return;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (WARN_ON_ONCE(!tmc->idle))
7ee98877SAnna-Maria Behnsen		return;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock(&tmc->lock);
7ee98877SAnna-Maria Behnsen	tmc->idle = false;
7ee98877SAnna-Maria Behnsen	__tmigr_cpu_activate(tmc);
7ee98877SAnna-Maria Behnsen	raw_spin_unlock(&tmc->lock);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/*
7ee98877SAnna-Maria Behnsen * Returns true, if there is nothing to be propagated to the next level
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * @data->firstexp is set to expiry of first gobal event of the (top level of
7ee98877SAnna-Maria Behnsen * the) hierarchy, but only when hierarchy is completely idle.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * The child and group states need to be read under the lock, to prevent a race
7ee98877SAnna-Maria Behnsen * against a concurrent tmigr_inactive_up() run when the last CPU goes idle. See
7ee98877SAnna-Maria Behnsen * also section "Prevent race between new event and last CPU going inactive" in
7ee98877SAnna-Maria Behnsen * the documentation at the top.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * This is the only place where the group event expiry value is set.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenstatic
7ee98877SAnna-Maria Behnsenbool tmigr_update_events(struct tmigr_group *group, struct tmigr_group *child,
7ee98877SAnna-Maria Behnsen			 struct tmigr_walk *data)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_event *evt, *first_childevt;
7ee98877SAnna-Maria Behnsen	union tmigr_state childstate, groupstate;
7ee98877SAnna-Maria Behnsen	bool remote = data->remote;
7ee98877SAnna-Maria Behnsen	bool walk_done = false;
922efd29SFrederic Weisbecker	bool ignore;
7ee98877SAnna-Maria Behnsen	u64 nextexp;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (child) {
7ee98877SAnna-Maria Behnsen		raw_spin_lock(&child->lock);
7ee98877SAnna-Maria Behnsen		raw_spin_lock_nested(&group->lock, SINGLE_DEPTH_NESTING);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		childstate.state = atomic_read(&child->migr_state);
7ee98877SAnna-Maria Behnsen		groupstate.state = atomic_read(&group->migr_state);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		if (childstate.active) {
7ee98877SAnna-Maria Behnsen			walk_done = true;
7ee98877SAnna-Maria Behnsen			goto unlock;
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		first_childevt = tmigr_next_groupevt(child);
7ee98877SAnna-Maria Behnsen		nextexp = child->next_expiry;
7ee98877SAnna-Maria Behnsen		evt = &child->groupevt;
7ee98877SAnna-Maria Behnsen
922efd29SFrederic Weisbecker		/*
922efd29SFrederic Weisbecker		 * This can race with concurrent idle exit (activate).
922efd29SFrederic Weisbecker		 * If the current writer wins, a useless remote expiration may
922efd29SFrederic Weisbecker		 * be scheduled. If the activate wins, the event is properly
922efd29SFrederic Weisbecker		 * ignored.
922efd29SFrederic Weisbecker		 */
922efd29SFrederic Weisbecker		ignore = (nextexp == KTIME_MAX) ? true : false;
922efd29SFrederic Weisbecker		WRITE_ONCE(evt->ignore, ignore);
7ee98877SAnna-Maria Behnsen	} else {
7ee98877SAnna-Maria Behnsen		nextexp = data->nextexp;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		first_childevt = evt = data->evt;
922efd29SFrederic Weisbecker		ignore = evt->ignore;
7ee98877SAnna-Maria Behnsen
7a96a84bSAnna-Maria Behnsen		/*
7a96a84bSAnna-Maria Behnsen		 * Walking the hierarchy is required in any case when a
7a96a84bSAnna-Maria Behnsen		 * remote expiry was done before. This ensures to not lose
7a96a84bSAnna-Maria Behnsen		 * already queued events in non active groups (see section
7a96a84bSAnna-Maria Behnsen		 * "Required event and timerqueue update after a remote
7a96a84bSAnna-Maria Behnsen		 * expiry" in the documentation at the top).
7a96a84bSAnna-Maria Behnsen		 *
7a96a84bSAnna-Maria Behnsen		 * The two call sites which are executed without a remote expiry
7a96a84bSAnna-Maria Behnsen		 * before, are not prevented from propagating changes through
7a96a84bSAnna-Maria Behnsen		 * the hierarchy by the return:
7a96a84bSAnna-Maria Behnsen		 *  - When entering this path by tmigr_new_timer(), @evt->ignore
7a96a84bSAnna-Maria Behnsen		 *    is never set.
7a96a84bSAnna-Maria Behnsen		 *  - tmigr_inactive_up() takes care of the propagation by
7a96a84bSAnna-Maria Behnsen		 *    itself and ignores the return value. But an immediate
7a96a84bSAnna-Maria Behnsen		 *    return is possible if there is a parent, sparing group
7a96a84bSAnna-Maria Behnsen		 *    locking at this level, because the upper walking call to
7a96a84bSAnna-Maria Behnsen		 *    the parent will take care about removing this event from
7a96a84bSAnna-Maria Behnsen		 *    within the group and update next_expiry accordingly.
7a96a84bSAnna-Maria Behnsen		 *
7a96a84bSAnna-Maria Behnsen		 * However if there is no parent, ie: the hierarchy has only a
7a96a84bSAnna-Maria Behnsen		 * single level so @group is the top level group, make sure the
7a96a84bSAnna-Maria Behnsen		 * first event information of the group is updated properly and
7a96a84bSAnna-Maria Behnsen		 * also handled properly, so skip this fast return path.
7a96a84bSAnna-Maria Behnsen		 */
922efd29SFrederic Weisbecker		if (ignore && !remote && group->parent)
7a96a84bSAnna-Maria Behnsen			return true;
7a96a84bSAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		raw_spin_lock(&group->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		childstate.state = 0;
7ee98877SAnna-Maria Behnsen		groupstate.state = atomic_read(&group->migr_state);
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * If the child event is already queued in the group, remove it from the
7ee98877SAnna-Maria Behnsen	 * queue when the expiry time changed only or when it could be ignored.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (timerqueue_node_queued(&evt->nextevt)) {
922efd29SFrederic Weisbecker		if ((evt->nextevt.expires == nextexp) && !ignore) {
61f7fdf8SFrederic Weisbecker			/* Make sure not to miss a new CPU event with the same expiry */
61f7fdf8SFrederic Weisbecker			evt->cpu = first_childevt->cpu;
7ee98877SAnna-Maria Behnsen			goto check_toplvl;
61f7fdf8SFrederic Weisbecker		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		if (!timerqueue_del(&group->events, &evt->nextevt))
7ee98877SAnna-Maria Behnsen			WRITE_ONCE(group->next_expiry, KTIME_MAX);
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
922efd29SFrederic Weisbecker	if (ignore) {
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * When the next child event could be ignored (nextexp is
7ee98877SAnna-Maria Behnsen		 * KTIME_MAX) and there was no remote timer handling before or
7ee98877SAnna-Maria Behnsen		 * the group is already active, there is no need to walk the
7ee98877SAnna-Maria Behnsen		 * hierarchy even if there is a parent group.
7ee98877SAnna-Maria Behnsen		 *
7ee98877SAnna-Maria Behnsen		 * The other way round: even if the event could be ignored, but
7ee98877SAnna-Maria Behnsen		 * if a remote timer handling was executed before and the group
7ee98877SAnna-Maria Behnsen		 * is not active, walking the hierarchy is required to not miss
7ee98877SAnna-Maria Behnsen		 * an enqueued timer in the non active group. The enqueued timer
7ee98877SAnna-Maria Behnsen		 * of the group needs to be propagated to a higher level to
7ee98877SAnna-Maria Behnsen		 * ensure it is handled.
7ee98877SAnna-Maria Behnsen		 */
7ee98877SAnna-Maria Behnsen		if (!remote || groupstate.active)
7ee98877SAnna-Maria Behnsen			walk_done = true;
7ee98877SAnna-Maria Behnsen	} else {
7ee98877SAnna-Maria Behnsen		evt->nextevt.expires = nextexp;
7ee98877SAnna-Maria Behnsen		evt->cpu = first_childevt->cpu;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		if (timerqueue_add(&group->events, &evt->nextevt))
7ee98877SAnna-Maria Behnsen			WRITE_ONCE(group->next_expiry, nextexp);
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsencheck_toplvl:
7ee98877SAnna-Maria Behnsen	if (!group->parent && (groupstate.migrator == TMIGR_NONE)) {
7ee98877SAnna-Maria Behnsen		walk_done = true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * Nothing to do when update was done during remote timer
7ee98877SAnna-Maria Behnsen		 * handling. First timer in top level group which needs to be
7ee98877SAnna-Maria Behnsen		 * handled when top level group is not active, is calculated
7ee98877SAnna-Maria Behnsen		 * directly in tmigr_handle_remote_up().
7ee98877SAnna-Maria Behnsen		 */
7ee98877SAnna-Maria Behnsen		if (remote)
7ee98877SAnna-Maria Behnsen			goto unlock;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * The top level group is idle and it has to be ensured the
7ee98877SAnna-Maria Behnsen		 * global timers are handled in time. (This could be optimized
7ee98877SAnna-Maria Behnsen		 * by keeping track of the last global scheduled event and only
7ee98877SAnna-Maria Behnsen		 * arming it on the CPU if the new event is earlier. Not sure if
7ee98877SAnna-Maria Behnsen		 * its worth the complexity.)
7ee98877SAnna-Maria Behnsen		 */
7ee98877SAnna-Maria Behnsen		data->firstexp = tmigr_next_groupevt_expires(group);
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen	trace_tmigr_update_events(child, group, childstate, groupstate,
36e40df3SAnna-Maria Behnsen				  nextexp);
36e40df3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenunlock:
7ee98877SAnna-Maria Behnsen	raw_spin_unlock(&group->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (child)
7ee98877SAnna-Maria Behnsen		raw_spin_unlock(&child->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return walk_done;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic bool tmigr_new_timer_up(struct tmigr_group *group,
7ee98877SAnna-Maria Behnsen			       struct tmigr_group *child,
3ba11103SAnna-Maria Behnsen			       struct tmigr_walk *data)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	return tmigr_update_events(group, child, data);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/*
7ee98877SAnna-Maria Behnsen * Returns the expiry of the next timer that needs to be handled. KTIME_MAX is
7ee98877SAnna-Maria Behnsen * returned, if an active CPU will handle all the timer migration hierarchy
7ee98877SAnna-Maria Behnsen * timers.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenstatic u64 tmigr_new_timer(struct tmigr_cpu *tmc, u64 nextexp)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_walk data = { .nextexp = nextexp,
7ee98877SAnna-Maria Behnsen				   .firstexp = KTIME_MAX,
7ee98877SAnna-Maria Behnsen				   .evt = &tmc->cpuevt };
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	lockdep_assert_held(&tmc->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (tmc->remote)
7ee98877SAnna-Maria Behnsen		return KTIME_MAX;
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen	trace_tmigr_cpu_new_timer(tmc);
36e40df3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	tmc->cpuevt.ignore = false;
7ee98877SAnna-Maria Behnsen	data.remote = false;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	walk_groups(&tmigr_new_timer_up, &data, tmc);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* If there is a new first global event, make sure it is handled */
7ee98877SAnna-Maria Behnsen	return data.firstexp;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic void tmigr_handle_remote_cpu(unsigned int cpu, u64 now,
7ee98877SAnna-Maria Behnsen				    unsigned long jif)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct timer_events tevt;
7ee98877SAnna-Maria Behnsen	struct tmigr_walk data;
7ee98877SAnna-Maria Behnsen	struct tmigr_cpu *tmc;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	tmc = per_cpu_ptr(&tmigr_cpu, cpu);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock_irq(&tmc->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * If the remote CPU is offline then the timers have been migrated to
7ee98877SAnna-Maria Behnsen	 * another CPU.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * If tmigr_cpu::remote is set, at the moment another CPU already
7ee98877SAnna-Maria Behnsen	 * expires the timers of the remote CPU.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * If tmigr_event::ignore is set, then the CPU returns from idle and
7ee98877SAnna-Maria Behnsen	 * takes care of its timers.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * If the next event expires in the future, then the event has been
7ee98877SAnna-Maria Behnsen	 * updated and there are no timers to expire right now. The CPU which
7ee98877SAnna-Maria Behnsen	 * updated the event takes care when hierarchy is completely
7ee98877SAnna-Maria Behnsen	 * idle. Otherwise the migrator does it as the event is enqueued.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (!tmc->online || tmc->remote || tmc->cpuevt.ignore ||
7ee98877SAnna-Maria Behnsen	    now < tmc->cpuevt.nextevt.expires) {
7ee98877SAnna-Maria Behnsen		raw_spin_unlock_irq(&tmc->lock);
7ee98877SAnna-Maria Behnsen		return;
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen	trace_tmigr_handle_remote_cpu(tmc);
36e40df3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	tmc->remote = true;
7ee98877SAnna-Maria Behnsen	WRITE_ONCE(tmc->wakeup, KTIME_MAX);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* Drop the lock to allow the remote CPU to exit idle */
7ee98877SAnna-Maria Behnsen	raw_spin_unlock_irq(&tmc->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (cpu != smp_processor_id())
7ee98877SAnna-Maria Behnsen		timer_expire_remote(cpu);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * Lock ordering needs to be preserved - timer_base locks before tmigr
7ee98877SAnna-Maria Behnsen	 * related locks (see section "Locking rules" in the documentation at
7ee98877SAnna-Maria Behnsen	 * the top). During fetching the next timer interrupt, also tmc->lock
7ee98877SAnna-Maria Behnsen	 * needs to be held. Otherwise there is a possible race window against
7ee98877SAnna-Maria Behnsen	 * the CPU itself when it comes out of idle, updates the first timer in
7ee98877SAnna-Maria Behnsen	 * the hierarchy and goes back to idle.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * timer base locks are dropped as fast as possible: After checking
7ee98877SAnna-Maria Behnsen	 * whether the remote CPU went offline in the meantime and after
7ee98877SAnna-Maria Behnsen	 * fetching the next remote timer interrupt. Dropping the locks as fast
7ee98877SAnna-Maria Behnsen	 * as possible keeps the locking region small and prevents holding
7ee98877SAnna-Maria Behnsen	 * several (unnecessary) locks during walking the hierarchy for updating
7ee98877SAnna-Maria Behnsen	 * the timerqueue and group events.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	local_irq_disable();
7ee98877SAnna-Maria Behnsen	timer_lock_remote_bases(cpu);
7ee98877SAnna-Maria Behnsen	raw_spin_lock(&tmc->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * When the CPU went offline in the meantime, no hierarchy walk has to
7ee98877SAnna-Maria Behnsen	 * be done for updating the queued events, because the walk was
7ee98877SAnna-Maria Behnsen	 * already done during marking the CPU offline in the hierarchy.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * When the CPU is no longer idle, the CPU takes care of the timers and
7ee98877SAnna-Maria Behnsen	 * also of the timers in the hierarchy.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * (See also section "Required event and timerqueue update after a
7ee98877SAnna-Maria Behnsen	 * remote expiry" in the documentation at the top)
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (!tmc->online || !tmc->idle) {
7ee98877SAnna-Maria Behnsen		timer_unlock_remote_bases(cpu);
7ee98877SAnna-Maria Behnsen		goto unlock;
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* next	event of CPU */
7ee98877SAnna-Maria Behnsen	fetch_next_timer_interrupt_remote(jif, now, &tevt, cpu);
7ee98877SAnna-Maria Behnsen	timer_unlock_remote_bases(cpu);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	data.nextexp = tevt.global;
7ee98877SAnna-Maria Behnsen	data.firstexp = KTIME_MAX;
7ee98877SAnna-Maria Behnsen	data.evt = &tmc->cpuevt;
7ee98877SAnna-Maria Behnsen	data.remote = true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * The update is done even when there is no 'new' global timer pending
7ee98877SAnna-Maria Behnsen	 * on the remote CPU (see section "Required event and timerqueue update
7ee98877SAnna-Maria Behnsen	 * after a remote expiry" in the documentation at the top)
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	walk_groups(&tmigr_new_timer_up, &data, tmc);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenunlock:
7ee98877SAnna-Maria Behnsen	tmc->remote = false;
7ee98877SAnna-Maria Behnsen	raw_spin_unlock_irq(&tmc->lock);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic bool tmigr_handle_remote_up(struct tmigr_group *group,
7ee98877SAnna-Maria Behnsen				   struct tmigr_group *child,
3ba11103SAnna-Maria Behnsen				   struct tmigr_walk *data)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_event *evt;
7ee98877SAnna-Maria Behnsen	unsigned long jif;
7ee98877SAnna-Maria Behnsen	u8 childmask;
7ee98877SAnna-Maria Behnsen	u64 now;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	jif = data->basej;
7ee98877SAnna-Maria Behnsen	now = data->now;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	childmask = data->childmask;
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen	trace_tmigr_handle_remote(group);
7ee98877SAnna-Maria Behnsenagain:
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * Handle the group only if @childmask is the migrator or if the
7ee98877SAnna-Maria Behnsen	 * group has no migrator. Otherwise the group is active and is
7ee98877SAnna-Maria Behnsen	 * handled by its own migrator.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (!tmigr_check_migrator(group, childmask))
7ee98877SAnna-Maria Behnsen		return true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock_irq(&group->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	evt = tmigr_next_expired_groupevt(group, now);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (evt) {
7ee98877SAnna-Maria Behnsen		unsigned int remote_cpu = evt->cpu;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		raw_spin_unlock_irq(&group->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		tmigr_handle_remote_cpu(remote_cpu, now, jif);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/* check if there is another event, that needs to be handled */
7ee98877SAnna-Maria Behnsen		goto again;
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
d47be589SAnna-Maria Behnsen	 * Keep track of the expiry of the first event that needs to be handled
d47be589SAnna-Maria Behnsen	 * (group->next_expiry was updated by tmigr_next_expired_groupevt(),
d47be589SAnna-Maria Behnsen	 * next was set by tmigr_handle_remote_cpu()).
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	data->firstexp = group->next_expiry;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_unlock_irq(&group->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return false;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/**
7ee98877SAnna-Maria Behnsen * tmigr_handle_remote() - Handle global timers of remote idle CPUs
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Called from the timer soft interrupt with interrupts enabled.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenvoid tmigr_handle_remote(void)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
3ba11103SAnna-Maria Behnsen	struct tmigr_walk data;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (tmigr_is_not_available(tmc))
7ee98877SAnna-Maria Behnsen		return;
7ee98877SAnna-Maria Behnsen
835a9a67SAnna-Maria Behnsen	data.childmask = tmc->groupmask;
7ee98877SAnna-Maria Behnsen	data.firstexp = KTIME_MAX;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * NOTE: This is a doubled check because the migrator test will be done
7ee98877SAnna-Maria Behnsen	 * in tmigr_handle_remote_up() anyway. Keep this check to speed up the
7ee98877SAnna-Maria Behnsen	 * return when nothing has to be done.
7ee98877SAnna-Maria Behnsen	 */
835a9a67SAnna-Maria Behnsen	if (!tmigr_check_migrator(tmc->tmgroup, tmc->groupmask)) {
f55acb1eSFrederic Weisbecker		/*
f55acb1eSFrederic Weisbecker		 * If this CPU was an idle migrator, make sure to clear its wakeup
f55acb1eSFrederic Weisbecker		 * value so it won't chase timers that have already expired elsewhere.
f55acb1eSFrederic Weisbecker		 * This avoids endless requeue from tmigr_new_timer().
f55acb1eSFrederic Weisbecker		 */
f55acb1eSFrederic Weisbecker		if (READ_ONCE(tmc->wakeup) == KTIME_MAX)
7ee98877SAnna-Maria Behnsen			return;
f55acb1eSFrederic Weisbecker	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	data.now = get_jiffies_update(&data.basej);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * Update @tmc->wakeup only at the end and do not reset @tmc->wakeup to
7ee98877SAnna-Maria Behnsen	 * KTIME_MAX. Even if tmc->lock is not held during the whole remote
7ee98877SAnna-Maria Behnsen	 * handling, tmc->wakeup is fine to be stale as it is called in
7ee98877SAnna-Maria Behnsen	 * interrupt context and tick_nohz_next_event() is executed in interrupt
7ee98877SAnna-Maria Behnsen	 * exit path only after processing the last pending interrupt.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	__walk_groups(&tmigr_handle_remote_up, &data, tmc);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock_irq(&tmc->lock);
7ee98877SAnna-Maria Behnsen	WRITE_ONCE(tmc->wakeup, data.firstexp);
7ee98877SAnna-Maria Behnsen	raw_spin_unlock_irq(&tmc->lock);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic bool tmigr_requires_handle_remote_up(struct tmigr_group *group,
7ee98877SAnna-Maria Behnsen					    struct tmigr_group *child,
3ba11103SAnna-Maria Behnsen					    struct tmigr_walk *data)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	u8 childmask;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	childmask = data->childmask;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * Handle the group only if the child is the migrator or if the group
7ee98877SAnna-Maria Behnsen	 * has no migrator. Otherwise the group is active and is handled by its
7ee98877SAnna-Maria Behnsen	 * own migrator.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (!tmigr_check_migrator(group, childmask))
7ee98877SAnna-Maria Behnsen		return true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * When there is a parent group and the CPU which triggered the
7ee98877SAnna-Maria Behnsen	 * hierarchy walk is not active, proceed the walk to reach the top level
7ee98877SAnna-Maria Behnsen	 * group before reading the next_expiry value.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (group->parent && !data->tmc_active)
d47be589SAnna-Maria Behnsen		return false;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * The lock is required on 32bit architectures to read the variable
7ee98877SAnna-Maria Behnsen	 * consistently with a concurrent writer. On 64bit the lock is not
7ee98877SAnna-Maria Behnsen	 * required because the read operation is not split and so it is always
7ee98877SAnna-Maria Behnsen	 * consistent.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (IS_ENABLED(CONFIG_64BIT)) {
7ee98877SAnna-Maria Behnsen		data->firstexp = READ_ONCE(group->next_expiry);
7ee98877SAnna-Maria Behnsen		if (data->now >= data->firstexp) {
7ee98877SAnna-Maria Behnsen			data->check = true;
7ee98877SAnna-Maria Behnsen			return true;
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen	} else {
7ee98877SAnna-Maria Behnsen		raw_spin_lock(&group->lock);
7ee98877SAnna-Maria Behnsen		data->firstexp = group->next_expiry;
7ee98877SAnna-Maria Behnsen		if (data->now >= group->next_expiry) {
7ee98877SAnna-Maria Behnsen			data->check = true;
7ee98877SAnna-Maria Behnsen			raw_spin_unlock(&group->lock);
7ee98877SAnna-Maria Behnsen			return true;
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen		raw_spin_unlock(&group->lock);
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return false;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/**
7ee98877SAnna-Maria Behnsen * tmigr_requires_handle_remote() - Check the need of remote timer handling
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Must be called with interrupts disabled.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenbool tmigr_requires_handle_remote(void)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
3ba11103SAnna-Maria Behnsen	struct tmigr_walk data;
7ee98877SAnna-Maria Behnsen	unsigned long jif;
7ee98877SAnna-Maria Behnsen	bool ret = false;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (tmigr_is_not_available(tmc))
7ee98877SAnna-Maria Behnsen		return ret;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	data.now = get_jiffies_update(&jif);
835a9a67SAnna-Maria Behnsen	data.childmask = tmc->groupmask;
7ee98877SAnna-Maria Behnsen	data.firstexp = KTIME_MAX;
7ee98877SAnna-Maria Behnsen	data.tmc_active = !tmc->idle;
7ee98877SAnna-Maria Behnsen	data.check = false;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * If the CPU is active, walk the hierarchy to check whether a remote
7ee98877SAnna-Maria Behnsen	 * expiry is required.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * Check is done lockless as interrupts are disabled and @tmc->idle is
7ee98877SAnna-Maria Behnsen	 * set only by the local CPU.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (!tmc->idle) {
7ee98877SAnna-Maria Behnsen		__walk_groups(&tmigr_requires_handle_remote_up, &data, tmc);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		return data.check;
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * When the CPU is idle, compare @tmc->wakeup with @data.now. The lock
7ee98877SAnna-Maria Behnsen	 * is required on 32bit architectures to read the variable consistently
7ee98877SAnna-Maria Behnsen	 * with a concurrent writer. On 64bit the lock is not required because
7ee98877SAnna-Maria Behnsen	 * the read operation is not split and so it is always consistent.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (IS_ENABLED(CONFIG_64BIT)) {
7ee98877SAnna-Maria Behnsen		if (data.now >= READ_ONCE(tmc->wakeup))
7ee98877SAnna-Maria Behnsen			return true;
7ee98877SAnna-Maria Behnsen	} else {
7ee98877SAnna-Maria Behnsen		raw_spin_lock(&tmc->lock);
7ee98877SAnna-Maria Behnsen		if (data.now >= tmc->wakeup)
7ee98877SAnna-Maria Behnsen			ret = true;
7ee98877SAnna-Maria Behnsen		raw_spin_unlock(&tmc->lock);
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return ret;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/**
7ee98877SAnna-Maria Behnsen * tmigr_cpu_new_timer() - enqueue next global timer into hierarchy (idle tmc)
7ee98877SAnna-Maria Behnsen * @nextexp:	Next expiry of global timer (or KTIME_MAX if not)
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * The CPU is already deactivated in the timer migration
7ee98877SAnna-Maria Behnsen * hierarchy. tick_nohz_get_sleep_length() calls tick_nohz_next_event()
7ee98877SAnna-Maria Behnsen * and thereby the timer idle path is executed once more. @tmc->wakeup
7ee98877SAnna-Maria Behnsen * holds the first timer, when the timer migration hierarchy is
7ee98877SAnna-Maria Behnsen * completely idle.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Returns the first timer that needs to be handled by this CPU or KTIME_MAX if
7ee98877SAnna-Maria Behnsen * nothing needs to be done.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenu64 tmigr_cpu_new_timer(u64 nextexp)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
7ee98877SAnna-Maria Behnsen	u64 ret;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (tmigr_is_not_available(tmc))
7ee98877SAnna-Maria Behnsen		return nextexp;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock(&tmc->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	ret = READ_ONCE(tmc->wakeup);
7ee98877SAnna-Maria Behnsen	if (nextexp != KTIME_MAX) {
7ee98877SAnna-Maria Behnsen		if (nextexp != tmc->cpuevt.nextevt.expires ||
7ee98877SAnna-Maria Behnsen		    tmc->cpuevt.ignore) {
7ee98877SAnna-Maria Behnsen			ret = tmigr_new_timer(tmc, nextexp);
7ee98877SAnna-Maria Behnsen			/*
2367e28eSAnna-Maria Behnsen			 * Make sure the reevaluation of timers in idle path
2367e28eSAnna-Maria Behnsen			 * will not miss an event.
7ee98877SAnna-Maria Behnsen			 */
7ee98877SAnna-Maria Behnsen			WRITE_ONCE(tmc->wakeup, ret);
2367e28eSAnna-Maria Behnsen		}
2367e28eSAnna-Maria Behnsen	}
36e40df3SAnna-Maria Behnsen	trace_tmigr_cpu_new_timer_idle(tmc, nextexp);
7ee98877SAnna-Maria Behnsen	raw_spin_unlock(&tmc->lock);
7ee98877SAnna-Maria Behnsen	return ret;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic bool tmigr_inactive_up(struct tmigr_group *group,
7ee98877SAnna-Maria Behnsen			      struct tmigr_group *child,
3ba11103SAnna-Maria Behnsen			      struct tmigr_walk *data)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	union tmigr_state curstate, newstate, childstate;
7ee98877SAnna-Maria Behnsen	bool walk_done;
7ee98877SAnna-Maria Behnsen	u8 childmask;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	childmask = data->childmask;
7ee98877SAnna-Maria Behnsen	childstate.state = 0;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * The memory barrier is paired with the cmpxchg() in tmigr_active_up()
7ee98877SAnna-Maria Behnsen	 * to make sure the updates of child and group states are ordered. The
7ee98877SAnna-Maria Behnsen	 * ordering is mandatory, as the group state change depends on the child
7ee98877SAnna-Maria Behnsen	 * state.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	curstate.state = atomic_read_acquire(&group->migr_state);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	for (;;) {
7ee98877SAnna-Maria Behnsen		if (child)
7ee98877SAnna-Maria Behnsen			childstate.state = atomic_read(&child->migr_state);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		newstate = curstate;
7ee98877SAnna-Maria Behnsen		walk_done = true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/* Reset active bit when the child is no longer active */
7ee98877SAnna-Maria Behnsen		if (!childstate.active)
7ee98877SAnna-Maria Behnsen			newstate.active &= ~childmask;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		if (newstate.migrator == childmask) {
7ee98877SAnna-Maria Behnsen			/*
7ee98877SAnna-Maria Behnsen			 * Find a new migrator for the group, because the child
7ee98877SAnna-Maria Behnsen			 * group is idle!
7ee98877SAnna-Maria Behnsen			 */
7ee98877SAnna-Maria Behnsen			if (!childstate.active) {
7ee98877SAnna-Maria Behnsen				unsigned long new_migr_bit, active = newstate.active;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen				new_migr_bit = find_first_bit(&active, BIT_CNT);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen				if (new_migr_bit != BIT_CNT) {
7ee98877SAnna-Maria Behnsen					newstate.migrator = BIT(new_migr_bit);
7ee98877SAnna-Maria Behnsen				} else {
7ee98877SAnna-Maria Behnsen					newstate.migrator = TMIGR_NONE;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen					/* Changes need to be propagated */
7ee98877SAnna-Maria Behnsen					walk_done = false;
7ee98877SAnna-Maria Behnsen				}
7ee98877SAnna-Maria Behnsen			}
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		newstate.seq++;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		WARN_ON_ONCE((newstate.migrator != TMIGR_NONE) && !(newstate.active));
7ee98877SAnna-Maria Behnsen
92506741SAnna-Maria Behnsen		if (atomic_try_cmpxchg(&group->migr_state, &curstate.state, newstate.state)) {
92506741SAnna-Maria Behnsen			trace_tmigr_group_set_cpu_inactive(group, newstate, childmask);
7ee98877SAnna-Maria Behnsen			break;
92506741SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * The memory barrier is paired with the cmpxchg() in
7ee98877SAnna-Maria Behnsen		 * tmigr_active_up() to make sure the updates of child and group
7ee98877SAnna-Maria Behnsen		 * states are ordered. It is required only when the above
7ee98877SAnna-Maria Behnsen		 * try_cmpxchg() fails.
7ee98877SAnna-Maria Behnsen		 */
7ee98877SAnna-Maria Behnsen		smp_mb__after_atomic();
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	data->remote = false;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* Event Handling */
7ee98877SAnna-Maria Behnsen	tmigr_update_events(group, child, data);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return walk_done;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic u64 __tmigr_cpu_deactivate(struct tmigr_cpu *tmc, u64 nextexp)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_walk data = { .nextexp = nextexp,
7ee98877SAnna-Maria Behnsen				   .firstexp = KTIME_MAX,
7ee98877SAnna-Maria Behnsen				   .evt = &tmc->cpuevt,
835a9a67SAnna-Maria Behnsen				   .childmask = tmc->groupmask };
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * If nextexp is KTIME_MAX, the CPU event will be ignored because the
7ee98877SAnna-Maria Behnsen	 * local timer expires before the global timer, no global timer is set
7ee98877SAnna-Maria Behnsen	 * or CPU goes offline.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	if (nextexp != KTIME_MAX)
7ee98877SAnna-Maria Behnsen		tmc->cpuevt.ignore = false;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	walk_groups(&tmigr_inactive_up, &data, tmc);
7ee98877SAnna-Maria Behnsen	return data.firstexp;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/**
7ee98877SAnna-Maria Behnsen * tmigr_cpu_deactivate() - Put current CPU into inactive state
7ee98877SAnna-Maria Behnsen * @nextexp:	The next global timer expiry of the current CPU
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Must be called with interrupts disabled.
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Return: the next event expiry of the current CPU or the next event expiry
7ee98877SAnna-Maria Behnsen * from the hierarchy if this CPU is the top level migrator or the hierarchy is
7ee98877SAnna-Maria Behnsen * completely idle.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenu64 tmigr_cpu_deactivate(u64 nextexp)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
7ee98877SAnna-Maria Behnsen	u64 ret;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (tmigr_is_not_available(tmc))
7ee98877SAnna-Maria Behnsen		return nextexp;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock(&tmc->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	ret = __tmigr_cpu_deactivate(tmc, nextexp);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	tmc->idle = true;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * Make sure the reevaluation of timers in idle path will not miss an
7ee98877SAnna-Maria Behnsen	 * event.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	WRITE_ONCE(tmc->wakeup, ret);
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen	trace_tmigr_cpu_idle(tmc, nextexp);
7ee98877SAnna-Maria Behnsen	raw_spin_unlock(&tmc->lock);
7ee98877SAnna-Maria Behnsen	return ret;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen/**
7ee98877SAnna-Maria Behnsen * tmigr_quick_check() - Quick forecast of next tmigr event when CPU wants to
7ee98877SAnna-Maria Behnsen *			 go idle
7ee98877SAnna-Maria Behnsen * @nextevt:	The next global timer expiry of the current CPU
7ee98877SAnna-Maria Behnsen *
7ee98877SAnna-Maria Behnsen * Return:
7ee98877SAnna-Maria Behnsen * * KTIME_MAX		- when it is probable that nothing has to be done (not
7ee98877SAnna-Maria Behnsen *			  the only one in the level 0 group; and if it is the
7ee98877SAnna-Maria Behnsen *			  only one in level 0 group, but there are more than a
7ee98877SAnna-Maria Behnsen *			  single group active on the way to top level)
f004bf9dSAnna-Maria Behnsen * * nextevt		- when CPU is offline and has to handle timer on its own
7ee98877SAnna-Maria Behnsen *			  or when on the way to top in every group only a single
8ca18367SFrederic Weisbecker *			  child is active but @nextevt is before the lowest
8ca18367SFrederic Weisbecker *			  next_expiry encountered while walking up to top level.
8ca18367SFrederic Weisbecker * * next_expiry	- value of lowest expiry encountered while walking groups
8ca18367SFrederic Weisbecker *			  if only a single child is active on each and @nextevt
8ca18367SFrederic Weisbecker *			  is after this lowest expiry.
7ee98877SAnna-Maria Behnsen */
7ee98877SAnna-Maria Behnsenu64 tmigr_quick_check(u64 nextevt)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
7ee98877SAnna-Maria Behnsen	struct tmigr_group *group = tmc->tmgroup;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (tmigr_is_not_available(tmc))
7ee98877SAnna-Maria Behnsen		return nextevt;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (WARN_ON_ONCE(tmc->idle))
7ee98877SAnna-Maria Behnsen		return nextevt;
7ee98877SAnna-Maria Behnsen
835a9a67SAnna-Maria Behnsen	if (!tmigr_check_migrator_and_lonely(tmc->tmgroup, tmc->groupmask))
7ee98877SAnna-Maria Behnsen		return KTIME_MAX;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	do {
7ee98877SAnna-Maria Behnsen		if (!tmigr_check_lonely(group)) {
7ee98877SAnna-Maria Behnsen			return KTIME_MAX;
8ca18367SFrederic Weisbecker		} else {
8ca18367SFrederic Weisbecker			/*
8ca18367SFrederic Weisbecker			 * Since current CPU is active, events may not be sorted
8ca18367SFrederic Weisbecker			 * from bottom to the top because the CPU's event is ignored
8ca18367SFrederic Weisbecker			 * up to the top and its sibling's events not propagated upwards.
8ca18367SFrederic Weisbecker			 * Thus keep track of the lowest observed expiry.
8ca18367SFrederic Weisbecker			 */
8ca18367SFrederic Weisbecker			nextevt = min_t(u64, nextevt, READ_ONCE(group->next_expiry));
8ca18367SFrederic Weisbecker			if (!group->parent)
8ca18367SFrederic Weisbecker				return nextevt;
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen		group = group->parent;
7ee98877SAnna-Maria Behnsen	} while (group);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return KTIME_MAX;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen/*
10a0e6f3SAnna-Maria Behnsen * tmigr_trigger_active() - trigger a CPU to become active again
10a0e6f3SAnna-Maria Behnsen *
10a0e6f3SAnna-Maria Behnsen * This function is executed on a CPU which is part of cpu_online_mask, when the
10a0e6f3SAnna-Maria Behnsen * last active CPU in the hierarchy is offlining. With this, it is ensured that
10a0e6f3SAnna-Maria Behnsen * the other CPU is active and takes over the migrator duty.
10a0e6f3SAnna-Maria Behnsen */
10a0e6f3SAnna-Maria Behnsenstatic long tmigr_trigger_active(void *unused)
10a0e6f3SAnna-Maria Behnsen{
10a0e6f3SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	WARN_ON_ONCE(!tmc->online || tmc->idle);
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	return 0;
10a0e6f3SAnna-Maria Behnsen}
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsenstatic int tmigr_cpu_offline(unsigned int cpu)
10a0e6f3SAnna-Maria Behnsen{
10a0e6f3SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
10a0e6f3SAnna-Maria Behnsen	int migrator;
10a0e6f3SAnna-Maria Behnsen	u64 firstexp;
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	raw_spin_lock_irq(&tmc->lock);
10a0e6f3SAnna-Maria Behnsen	tmc->online = false;
10a0e6f3SAnna-Maria Behnsen	WRITE_ONCE(tmc->wakeup, KTIME_MAX);
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	/*
10a0e6f3SAnna-Maria Behnsen	 * CPU has to handle the local events on his own, when on the way to
10a0e6f3SAnna-Maria Behnsen	 * offline; Therefore nextevt value is set to KTIME_MAX
10a0e6f3SAnna-Maria Behnsen	 */
10a0e6f3SAnna-Maria Behnsen	firstexp = __tmigr_cpu_deactivate(tmc, KTIME_MAX);
10a0e6f3SAnna-Maria Behnsen	trace_tmigr_cpu_offline(tmc);
10a0e6f3SAnna-Maria Behnsen	raw_spin_unlock_irq(&tmc->lock);
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	if (firstexp != KTIME_MAX) {
10a0e6f3SAnna-Maria Behnsen		migrator = cpumask_any_but(cpu_online_mask, cpu);
10a0e6f3SAnna-Maria Behnsen		work_on_cpu(migrator, tmigr_trigger_active, NULL);
10a0e6f3SAnna-Maria Behnsen	}
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	return 0;
10a0e6f3SAnna-Maria Behnsen}
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsenstatic int tmigr_cpu_online(unsigned int cpu)
10a0e6f3SAnna-Maria Behnsen{
10a0e6f3SAnna-Maria Behnsen	struct tmigr_cpu *tmc = this_cpu_ptr(&tmigr_cpu);
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	/* Check whether CPU data was successfully initialized */
10a0e6f3SAnna-Maria Behnsen	if (WARN_ON_ONCE(!tmc->tmgroup))
10a0e6f3SAnna-Maria Behnsen		return -EINVAL;
10a0e6f3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	raw_spin_lock_irq(&tmc->lock);
10a0e6f3SAnna-Maria Behnsen	trace_tmigr_cpu_online(tmc);
10a0e6f3SAnna-Maria Behnsen	tmc->idle = timer_base_is_idle();
10a0e6f3SAnna-Maria Behnsen	if (!tmc->idle)
10a0e6f3SAnna-Maria Behnsen		__tmigr_cpu_activate(tmc);
10a0e6f3SAnna-Maria Behnsen	tmc->online = true;
10a0e6f3SAnna-Maria Behnsen	raw_spin_unlock_irq(&tmc->lock);
10a0e6f3SAnna-Maria Behnsen	return 0;
10a0e6f3SAnna-Maria Behnsen}
10a0e6f3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic void tmigr_init_group(struct tmigr_group *group, unsigned int lvl,
7ee98877SAnna-Maria Behnsen			     int node)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	union tmigr_state s;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock_init(&group->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	group->level = lvl;
7ee98877SAnna-Maria Behnsen	group->numa_node = lvl < tmigr_crossnode_level ? node : NUMA_NO_NODE;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	group->num_children = 0;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	s.migrator = TMIGR_NONE;
7ee98877SAnna-Maria Behnsen	s.active = 0;
7ee98877SAnna-Maria Behnsen	s.seq = 0;
7ee98877SAnna-Maria Behnsen	atomic_set(&group->migr_state, s.state);
7ee98877SAnna-Maria Behnsen
b729cc1eSFrederic Weisbecker	/*
b729cc1eSFrederic Weisbecker	 * If this is a new top-level, prepare its groupmask in advance.
b729cc1eSFrederic Weisbecker	 * This avoids accidents where yet another new top-level is
b729cc1eSFrederic Weisbecker	 * created in the future and made visible before the current groupmask.
b729cc1eSFrederic Weisbecker	 */
b729cc1eSFrederic Weisbecker	if (list_empty(&tmigr_level_list[lvl])) {
b729cc1eSFrederic Weisbecker		group->groupmask = BIT(0);
b729cc1eSFrederic Weisbecker		/*
b729cc1eSFrederic Weisbecker		 * The previous top level has prepared its groupmask already,
b729cc1eSFrederic Weisbecker		 * simply account it as the first child.
b729cc1eSFrederic Weisbecker		 */
b729cc1eSFrederic Weisbecker		if (lvl > 0)
b729cc1eSFrederic Weisbecker			group->num_children = 1;
b729cc1eSFrederic Weisbecker	}
b729cc1eSFrederic Weisbecker
7ee98877SAnna-Maria Behnsen	timerqueue_init_head(&group->events);
7ee98877SAnna-Maria Behnsen	timerqueue_init(&group->groupevt.nextevt);
7ee98877SAnna-Maria Behnsen	group->groupevt.nextevt.expires = KTIME_MAX;
7ee98877SAnna-Maria Behnsen	WRITE_ONCE(group->next_expiry, KTIME_MAX);
7ee98877SAnna-Maria Behnsen	group->groupevt.ignore = true;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic struct tmigr_group *tmigr_get_group(unsigned int cpu, int node,
7ee98877SAnna-Maria Behnsen					   unsigned int lvl)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_group *tmp, *group = NULL;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	lockdep_assert_held(&tmigr_mutex);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* Try to attach to an existing group first */
7ee98877SAnna-Maria Behnsen	list_for_each_entry(tmp, &tmigr_level_list[lvl], list) {
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * If @lvl is below the cross NUMA node level, check whether
7ee98877SAnna-Maria Behnsen		 * this group belongs to the same NUMA node.
7ee98877SAnna-Maria Behnsen		 */
7ee98877SAnna-Maria Behnsen		if (lvl < tmigr_crossnode_level && tmp->numa_node != node)
7ee98877SAnna-Maria Behnsen			continue;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/* Capacity left? */
7ee98877SAnna-Maria Behnsen		if (tmp->num_children >= TMIGR_CHILDREN_PER_GROUP)
7ee98877SAnna-Maria Behnsen			continue;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * TODO: A possible further improvement: Make sure that all CPU
7ee98877SAnna-Maria Behnsen		 * siblings end up in the same group of the lowest level of the
7ee98877SAnna-Maria Behnsen		 * hierarchy. Rely on the topology sibling mask would be a
7ee98877SAnna-Maria Behnsen		 * reasonable solution.
7ee98877SAnna-Maria Behnsen		 */
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		group = tmp;
7ee98877SAnna-Maria Behnsen		break;
7ee98877SAnna-Maria Behnsen	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	if (group)
7ee98877SAnna-Maria Behnsen		return group;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* Allocate and	set up a new group */
7ee98877SAnna-Maria Behnsen	group = kzalloc_node(sizeof(*group), GFP_KERNEL, node);
7ee98877SAnna-Maria Behnsen	if (!group)
7ee98877SAnna-Maria Behnsen		return ERR_PTR(-ENOMEM);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	tmigr_init_group(group, lvl, node);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* Setup successful. Add it to the hierarchy */
7ee98877SAnna-Maria Behnsen	list_add(&group->list, &tmigr_level_list[lvl]);
36e40df3SAnna-Maria Behnsen	trace_tmigr_group_set(group);
7ee98877SAnna-Maria Behnsen	return group;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic void tmigr_connect_child_parent(struct tmigr_group *child,
10a0e6f3SAnna-Maria Behnsen				       struct tmigr_group *parent,
10a0e6f3SAnna-Maria Behnsen				       bool activate)
7ee98877SAnna-Maria Behnsen{
10a0e6f3SAnna-Maria Behnsen	struct tmigr_walk data;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock_irq(&child->lock);
7ee98877SAnna-Maria Behnsen	raw_spin_lock_nested(&parent->lock, SINGLE_DEPTH_NESTING);
7ee98877SAnna-Maria Behnsen
b729cc1eSFrederic Weisbecker	if (activate) {
b729cc1eSFrederic Weisbecker		/*
b729cc1eSFrederic Weisbecker		 * @child is the old top and @parent the new one. In this
b729cc1eSFrederic Weisbecker		 * case groupmask is pre-initialized and @child already
b729cc1eSFrederic Weisbecker		 * accounted, along with its new sibling corresponding to the
b729cc1eSFrederic Weisbecker		 * CPU going up.
b729cc1eSFrederic Weisbecker		 */
b729cc1eSFrederic Weisbecker		WARN_ON_ONCE(child->groupmask != BIT(0) || parent->num_children != 2);
b729cc1eSFrederic Weisbecker	} else {
b729cc1eSFrederic Weisbecker		/* Adding @child for the CPU going up to @parent. */
835a9a67SAnna-Maria Behnsen		child->groupmask = BIT(parent->num_children++);
b729cc1eSFrederic Weisbecker	}
b729cc1eSFrederic Weisbecker
de3ced72SFrederic Weisbecker	/*
de3ced72SFrederic Weisbecker	 * Make sure parent initialization is visible before publishing it to a
de3ced72SFrederic Weisbecker	 * racing CPU entering/exiting idle. This RELEASE barrier enforces an
de3ced72SFrederic Weisbecker	 * address dependency that pairs with the READ_ONCE() in __walk_groups().
de3ced72SFrederic Weisbecker	 */
de3ced72SFrederic Weisbecker	smp_store_release(&child->parent, parent);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_unlock(&parent->lock);
7ee98877SAnna-Maria Behnsen	raw_spin_unlock_irq(&child->lock);
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen	trace_tmigr_connect_child_parent(child);
36e40df3SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	if (!activate)
10a0e6f3SAnna-Maria Behnsen		return;
10a0e6f3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * To prevent inconsistent states, active children need to be active in
7ee98877SAnna-Maria Behnsen	 * the new parent as well. Inactive children are already marked inactive
7ee98877SAnna-Maria Behnsen	 * in the parent group:
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * * When new groups were created by tmigr_setup_groups() starting from
7ee98877SAnna-Maria Behnsen	 *   the lowest level (and not higher then one level below the current
7ee98877SAnna-Maria Behnsen	 *   top level), then they are not active. They will be set active when
7ee98877SAnna-Maria Behnsen	 *   the new online CPU comes active.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * * But if a new group above the current top level is required, it is
7ee98877SAnna-Maria Behnsen	 *   mandatory to propagate the active state of the already existing
7ee98877SAnna-Maria Behnsen	 *   child to the new parent. So tmigr_connect_child_parent() is
7ee98877SAnna-Maria Behnsen	 *   executed with the formerly top level group (child) and the newly
7ee98877SAnna-Maria Behnsen	 *   created group (parent).
10a0e6f3SAnna-Maria Behnsen	 *
10a0e6f3SAnna-Maria Behnsen	 * * It is ensured that the child is active, as this setup path is
10a0e6f3SAnna-Maria Behnsen	 *   executed in hotplug prepare callback. This is exectued by an
10a0e6f3SAnna-Maria Behnsen	 *   already connected and !idle CPU. Even if all other CPUs go idle,
10a0e6f3SAnna-Maria Behnsen	 *   the CPU executing the setup will be responsible up to current top
10a0e6f3SAnna-Maria Behnsen	 *   level group. And the next time it goes inactive, it will release
10a0e6f3SAnna-Maria Behnsen	 *   the new childmask and parent to subsequent walkers through this
10a0e6f3SAnna-Maria Behnsen	 *   @child. Therefore propagate active state unconditionally.
7ee98877SAnna-Maria Behnsen	 */
835a9a67SAnna-Maria Behnsen	data.childmask = child->groupmask;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
facd40aaSAnna-Maria Behnsen	 * There is only one new level per time (which is protected by
10a0e6f3SAnna-Maria Behnsen	 * tmigr_mutex). When connecting the child and the parent and set the
10a0e6f3SAnna-Maria Behnsen	 * child active when the parent is inactive, the parent needs to be the
10a0e6f3SAnna-Maria Behnsen	 * uppermost level. Otherwise there went something wrong!
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	WARN_ON(!tmigr_active_up(parent, child, &data) && parent->parent);
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic int tmigr_setup_groups(unsigned int cpu, unsigned int node)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	struct tmigr_group *group, *child, **stack;
7ee98877SAnna-Maria Behnsen	int top = 0, err = 0, i = 0;
7ee98877SAnna-Maria Behnsen	struct list_head *lvllist;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	stack = kcalloc(tmigr_hierarchy_levels, sizeof(*stack), GFP_KERNEL);
7ee98877SAnna-Maria Behnsen	if (!stack)
7ee98877SAnna-Maria Behnsen		return -ENOMEM;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	do {
7ee98877SAnna-Maria Behnsen		group = tmigr_get_group(cpu, node, i);
7ee98877SAnna-Maria Behnsen		if (IS_ERR(group)) {
7ee98877SAnna-Maria Behnsen			err = PTR_ERR(group);
7ee98877SAnna-Maria Behnsen			break;
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		top = i;
7ee98877SAnna-Maria Behnsen		stack[i++] = group;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * When booting only less CPUs of a system than CPUs are
7ee98877SAnna-Maria Behnsen		 * available, not all calculated hierarchy levels are required.
7ee98877SAnna-Maria Behnsen		 *
7ee98877SAnna-Maria Behnsen		 * The loop is aborted as soon as the highest level, which might
7ee98877SAnna-Maria Behnsen		 * be different from tmigr_hierarchy_levels, contains only a
7ee98877SAnna-Maria Behnsen		 * single group.
7ee98877SAnna-Maria Behnsen		 */
dcf62305SFrederic Weisbecker		if (group->parent || list_is_singular(&tmigr_level_list[i - 1]))
7ee98877SAnna-Maria Behnsen			break;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	} while (i < tmigr_hierarchy_levels);
7ee98877SAnna-Maria Behnsen
*868c9037SFrederic Weisbecker	/* Assert single root */
*868c9037SFrederic Weisbecker	WARN_ON_ONCE(!err && !group->parent && !list_is_singular(&tmigr_level_list[top]));
*868c9037SFrederic Weisbecker
d7ad05c8SLevi Yun	while (i > 0) {
7ee98877SAnna-Maria Behnsen		group = stack[--i];
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		if (err < 0) {
7ee98877SAnna-Maria Behnsen			list_del(&group->list);
7ee98877SAnna-Maria Behnsen			kfree(group);
7ee98877SAnna-Maria Behnsen			continue;
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		WARN_ON_ONCE(i != group->level);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/*
7ee98877SAnna-Maria Behnsen		 * Update tmc -> group / child -> group connection
7ee98877SAnna-Maria Behnsen		 */
7ee98877SAnna-Maria Behnsen		if (i == 0) {
10a0e6f3SAnna-Maria Behnsen			struct tmigr_cpu *tmc = per_cpu_ptr(&tmigr_cpu, cpu);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen			raw_spin_lock_irq(&group->lock);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen			tmc->tmgroup = group;
835a9a67SAnna-Maria Behnsen			tmc->groupmask = BIT(group->num_children++);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen			raw_spin_unlock_irq(&group->lock);
7ee98877SAnna-Maria Behnsen
36e40df3SAnna-Maria Behnsen			trace_tmigr_connect_cpu_parent(tmc);
36e40df3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen			/* There are no children that need to be connected */
7ee98877SAnna-Maria Behnsen			continue;
7ee98877SAnna-Maria Behnsen		} else {
7ee98877SAnna-Maria Behnsen			child = stack[i - 1];
10a0e6f3SAnna-Maria Behnsen			/* Will be activated at online time */
10a0e6f3SAnna-Maria Behnsen			tmigr_connect_child_parent(child, group, false);
7ee98877SAnna-Maria Behnsen		}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		/* check if uppermost level was newly created */
7ee98877SAnna-Maria Behnsen		if (top != i)
7ee98877SAnna-Maria Behnsen			continue;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		WARN_ON_ONCE(top == 0);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen		lvllist = &tmigr_level_list[top];
*868c9037SFrederic Weisbecker
*868c9037SFrederic Weisbecker		/*
*868c9037SFrederic Weisbecker		 * Newly created root level should have accounted the upcoming
*868c9037SFrederic Weisbecker		 * CPU's child group and pre-accounted the old root.
*868c9037SFrederic Weisbecker		 */
*868c9037SFrederic Weisbecker		if (group->num_children == 2 && list_is_singular(lvllist)) {
10a0e6f3SAnna-Maria Behnsen			/*
10a0e6f3SAnna-Maria Behnsen			 * The target CPU must never do the prepare work, except
10a0e6f3SAnna-Maria Behnsen			 * on early boot when the boot CPU is the target. Otherwise
10a0e6f3SAnna-Maria Behnsen			 * it may spuriously activate the old top level group inside
10a0e6f3SAnna-Maria Behnsen			 * the new one (nevertheless whether old top level group is
10a0e6f3SAnna-Maria Behnsen			 * active or not) and/or release an uninitialized childmask.
10a0e6f3SAnna-Maria Behnsen			 */
10a0e6f3SAnna-Maria Behnsen			WARN_ON_ONCE(cpu == raw_smp_processor_id());
10a0e6f3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen			lvllist = &tmigr_level_list[top - 1];
7ee98877SAnna-Maria Behnsen			list_for_each_entry(child, lvllist, list) {
7ee98877SAnna-Maria Behnsen				if (child->parent)
7ee98877SAnna-Maria Behnsen					continue;
7ee98877SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen				tmigr_connect_child_parent(child, group, true);
7ee98877SAnna-Maria Behnsen			}
7ee98877SAnna-Maria Behnsen		}
d7ad05c8SLevi Yun	}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	kfree(stack);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return err;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic int tmigr_add_cpu(unsigned int cpu)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	int node = cpu_to_node(cpu);
7ee98877SAnna-Maria Behnsen	int ret;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	mutex_lock(&tmigr_mutex);
7ee98877SAnna-Maria Behnsen	ret = tmigr_setup_groups(cpu, node);
7ee98877SAnna-Maria Behnsen	mutex_unlock(&tmigr_mutex);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return ret;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsenstatic int tmigr_cpu_prepare(unsigned int cpu)
7ee98877SAnna-Maria Behnsen{
10a0e6f3SAnna-Maria Behnsen	struct tmigr_cpu *tmc = per_cpu_ptr(&tmigr_cpu, cpu);
10a0e6f3SAnna-Maria Behnsen	int ret = 0;
7ee98877SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	/* Not first online attempt? */
10a0e6f3SAnna-Maria Behnsen	if (tmc->tmgroup)
10a0e6f3SAnna-Maria Behnsen		return ret;
10a0e6f3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	raw_spin_lock_init(&tmc->lock);
10a0e6f3SAnna-Maria Behnsen	timerqueue_init(&tmc->cpuevt.nextevt);
10a0e6f3SAnna-Maria Behnsen	tmc->cpuevt.nextevt.expires = KTIME_MAX;
10a0e6f3SAnna-Maria Behnsen	tmc->cpuevt.ignore = true;
10a0e6f3SAnna-Maria Behnsen	tmc->cpuevt.cpu = cpu;
10a0e6f3SAnna-Maria Behnsen	tmc->remote = false;
10a0e6f3SAnna-Maria Behnsen	WRITE_ONCE(tmc->wakeup, KTIME_MAX);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	ret = tmigr_add_cpu(cpu);
7ee98877SAnna-Maria Behnsen	if (ret < 0)
7ee98877SAnna-Maria Behnsen		return ret;
7ee98877SAnna-Maria Behnsen
835a9a67SAnna-Maria Behnsen	if (tmc->groupmask == 0)
7ee98877SAnna-Maria Behnsen		return -EINVAL;
7ee98877SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	return ret;
7ee98877SAnna-Maria Behnsen}
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenstatic int __init tmigr_init(void)
7ee98877SAnna-Maria Behnsen{
7ee98877SAnna-Maria Behnsen	unsigned int cpulvl, nodelvl, cpus_per_node, i;
7ee98877SAnna-Maria Behnsen	unsigned int nnodes = num_possible_nodes();
7ee98877SAnna-Maria Behnsen	unsigned int ncpus = num_possible_cpus();
7ee98877SAnna-Maria Behnsen	int ret = -ENOMEM;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	BUILD_BUG_ON_NOT_POWER_OF_2(TMIGR_CHILDREN_PER_GROUP);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* Nothing to do if running on UP */
7ee98877SAnna-Maria Behnsen	if (ncpus == 1)
7ee98877SAnna-Maria Behnsen		return 0;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * Calculate the required hierarchy levels. Unfortunately there is no
7ee98877SAnna-Maria Behnsen	 * reliable information available, unless all possible CPUs have been
7ee98877SAnna-Maria Behnsen	 * brought up and all NUMA nodes are populated.
7ee98877SAnna-Maria Behnsen	 *
7ee98877SAnna-Maria Behnsen	 * Estimate the number of levels with the number of possible nodes and
7ee98877SAnna-Maria Behnsen	 * the number of possible CPUs. Assume CPUs are spread evenly across
7ee98877SAnna-Maria Behnsen	 * nodes. We cannot rely on cpumask_of_node() because it only works for
7ee98877SAnna-Maria Behnsen	 * online CPUs.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	cpus_per_node = DIV_ROUND_UP(ncpus, nnodes);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* Calc the hierarchy levels required to hold the CPUs of a node */
7ee98877SAnna-Maria Behnsen	cpulvl = DIV_ROUND_UP(order_base_2(cpus_per_node),
7ee98877SAnna-Maria Behnsen			      ilog2(TMIGR_CHILDREN_PER_GROUP));
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/* Calculate the extra levels to connect all nodes */
7ee98877SAnna-Maria Behnsen	nodelvl = DIV_ROUND_UP(order_base_2(nnodes),
7ee98877SAnna-Maria Behnsen			       ilog2(TMIGR_CHILDREN_PER_GROUP));
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	tmigr_hierarchy_levels = cpulvl + nodelvl;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	/*
7ee98877SAnna-Maria Behnsen	 * If a NUMA node spawns more than one CPU level group then the next
7ee98877SAnna-Maria Behnsen	 * level(s) of the hierarchy contains groups which handle all CPU groups
7ee98877SAnna-Maria Behnsen	 * of the same NUMA node. The level above goes across NUMA nodes. Store
7ee98877SAnna-Maria Behnsen	 * this information for the setup code to decide in which level node
7ee98877SAnna-Maria Behnsen	 * matching is no longer required.
7ee98877SAnna-Maria Behnsen	 */
7ee98877SAnna-Maria Behnsen	tmigr_crossnode_level = cpulvl;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	tmigr_level_list = kcalloc(tmigr_hierarchy_levels, sizeof(struct list_head), GFP_KERNEL);
7ee98877SAnna-Maria Behnsen	if (!tmigr_level_list)
7ee98877SAnna-Maria Behnsen		goto err;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	for (i = 0; i < tmigr_hierarchy_levels; i++)
7ee98877SAnna-Maria Behnsen		INIT_LIST_HEAD(&tmigr_level_list[i]);
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	pr_info("Timer migration: %d hierarchy levels; %d children per group;"
7ee98877SAnna-Maria Behnsen		" %d crossnode level\n",
7ee98877SAnna-Maria Behnsen		tmigr_hierarchy_levels, TMIGR_CHILDREN_PER_GROUP,
7ee98877SAnna-Maria Behnsen		tmigr_crossnode_level);
7ee98877SAnna-Maria Behnsen
10a0e6f3SAnna-Maria Behnsen	ret = cpuhp_setup_state(CPUHP_TMIGR_PREPARE, "tmigr:prepare",
10a0e6f3SAnna-Maria Behnsen				tmigr_cpu_prepare, NULL);
10a0e6f3SAnna-Maria Behnsen	if (ret)
10a0e6f3SAnna-Maria Behnsen		goto err;
10a0e6f3SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	ret = cpuhp_setup_state(CPUHP_AP_TMIGR_ONLINE, "tmigr:online",
7ee98877SAnna-Maria Behnsen				tmigr_cpu_online, tmigr_cpu_offline);
7ee98877SAnna-Maria Behnsen	if (ret)
7ee98877SAnna-Maria Behnsen		goto err;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsen	return 0;
7ee98877SAnna-Maria Behnsen
7ee98877SAnna-Maria Behnsenerr:
7ee98877SAnna-Maria Behnsen	pr_err("Timer migration setup failed\n");
7ee98877SAnna-Maria Behnsen	return ret;
7ee98877SAnna-Maria Behnsen}
10a0e6f3SAnna-Maria Behnsenearly_initcall(tmigr_init);