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/* SPDX-License-Identifier: GPL-2.0-only */
#ifndef _KERNEL_TIME_MIGRATION_H
#define _KERNEL_TIME_MIGRATION_H
/* Per group capacity. Must be a power of 2! */
#define TMIGR_CHILDREN_PER_GROUP 8
/**
* struct tmigr_event - a timer event associated to a CPU
* @nextevt: The node to enqueue an event in the parent group queue
* @cpu: The CPU to which this event belongs
* @ignore: Hint whether the event could be ignored; it is set when
* CPU or group is active;
*/
struct tmigr_event {
struct timerqueue_node nextevt;
unsigned int cpu;
bool ignore;
};
/**
* struct tmigr_group - timer migration hierarchy group
* @lock: Lock protecting the event information and group hierarchy
* information during setup
* @parent: Pointer to the parent group. Pointer is updated when a
* new hierarchy level is added because of a CPU coming
* online the first time. Once it is set, the pointer will
* not be removed or updated. When accessing parent pointer
* lock less to decide whether to abort a propagation or
* not, it is not a problem. The worst outcome is an
* unnecessary/early CPU wake up. But do not access parent
* pointer several times in the same 'action' (like
* activation, deactivation, check for remote expiry,...)
* without holding the lock as it is not ensured that value
* will not change.
* @groupevt: Next event of the group which is only used when the
* group is !active. The group event is then queued into
* the parent timer queue.
* Ignore bit of @groupevt is set when the group is active.
* @next_expiry: Base monotonic expiry time of the next event of the
* group; It is used for the racy lockless check whether a
* remote expiry is required; it is always reliable
* @events: Timer queue for child events queued in the group
* @migr_state: State of the group (see union tmigr_state)
* @level: Hierarchy level of the group; Required during setup
* @numa_node: Required for setup only to make sure CPU and low level
* group information is NUMA local. It is set to NUMA node
* as long as the group level is per NUMA node (level <
* tmigr_crossnode_level); otherwise it is set to
* NUMA_NO_NODE
* @num_children: Counter of group children to make sure the group is only
* filled with TMIGR_CHILDREN_PER_GROUP; Required for setup
* only
* @groupmask: mask of the group in the parent group; is set during
* setup and will never change; can be read lockless
* @list: List head that is added to the per level
* tmigr_level_list; is required during setup when a
* new group needs to be connected to the existing
* hierarchy groups
*/
struct tmigr_group {
raw_spinlock_t lock;
struct tmigr_group *parent;
struct tmigr_event groupevt;
u64 next_expiry;
struct timerqueue_head events;
atomic_t migr_state;
unsigned int level;
int numa_node;
unsigned int num_children;
u8 groupmask;
struct list_head list;
};
/**
* struct tmigr_cpu - timer migration per CPU group
* @lock: Lock protecting the tmigr_cpu group information
* @online: Indicates whether the CPU is online; In deactivate path
* it is required to know whether the migrator in the top
* level group is to be set offline, while a timer is
* pending. Then another online CPU needs to be notified to
* take over the migrator role. Furthermore the information
* is required in CPU hotplug path as the CPU is able to go
* idle before the timer migration hierarchy hotplug AP is
* reached. During this phase, the CPU has to handle the
* global timers on its own and must not act as a migrator.
* @idle: Indicates whether the CPU is idle in the timer migration
* hierarchy
* @remote: Is set when timers of the CPU are expired remotely
* @tmgroup: Pointer to the parent group
* @groupmask: mask of tmigr_cpu in the parent group
* @wakeup: Stores the first timer when the timer migration
* hierarchy is completely idle and remote expiry was done;
* is returned to timer code in the idle path and is only
* used in idle path.
* @cpuevt: CPU event which could be enqueued into the parent group
*/
struct tmigr_cpu {
raw_spinlock_t lock;
bool online;
bool idle;
bool remote;
struct tmigr_group *tmgroup;
u8 groupmask;
u64 wakeup;
struct tmigr_event cpuevt;
};
/**
* union tmigr_state - state of tmigr_group
* @state: Combined version of the state - only used for atomic
* read/cmpxchg function
* @struct: Split version of the state - only use the struct members to
* update information to stay independent of endianness
*/
union tmigr_state {
u32 state;
/**
* struct - split state of tmigr_group
* @active: Contains each mask bit of the active children
* @migrator: Contains mask of the child which is migrator
* @seq: Sequence counter needs to be increased when an update
* to the tmigr_state is done. It prevents a race when
* updates in the child groups are propagated in changed
* order. Detailed information about the scenario is
* given in the documentation at the begin of
* timer_migration.c.
*/
struct {
u8 active;
u8 migrator;
u16 seq;
} __packed;
};
#if defined(CONFIG_SMP) && defined(CONFIG_NO_HZ_COMMON)
extern void tmigr_handle_remote(void);
extern bool tmigr_requires_handle_remote(void);
extern void tmigr_cpu_activate(void);
extern u64 tmigr_cpu_deactivate(u64 nextevt);
extern u64 tmigr_cpu_new_timer(u64 nextevt);
extern u64 tmigr_quick_check(u64 nextevt);
#else
static inline void tmigr_handle_remote(void) { }
static inline bool tmigr_requires_handle_remote(void) { return false; }
static inline void tmigr_cpu_activate(void) { }
#endif
#endif