include/linux/sched/ext.h - third_party/kernel - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 */
 /*
  * BPF extensible scheduler class: Documentation/scheduler/sched-ext.rst
  *
  * Copyright (c) 2022 Meta Platforms, Inc. and affiliates.
  * Copyright (c) 2022 Tejun Heo <tj@kernel.org>
  * Copyright (c) 2022 David Vernet <dvernet@meta.com>
  */
 #ifndef _LINUX_SCHED_EXT_H
 #define _LINUX_SCHED_EXT_H

 #ifdef CONFIG_SCHED_CLASS_EXT

 #include <linux/llist.h>
 #include <linux/rhashtable-types.h>

 enum scx_public_consts {
 	SCX_OPS_NAME_LEN	= 128,

 	SCX_SLICE_DFL		= 20 * 1000000,	/* 20ms */
 	SCX_SLICE_INF		= U64_MAX,	/* infinite, implies nohz */
 };

 /*
  * DSQ (dispatch queue) IDs are 64bit of the format:
  *
  *   Bits: [63] [62 ..  0]
  *         [ B] [   ID   ]
  *
  *    B: 1 for IDs for built-in DSQs, 0 for ops-created user DSQs
  *   ID: 63 bit ID
  *
  * Built-in IDs:
  *
  *   Bits: [63] [62] [61..32] [31 ..  0]
  *         [ 1] [ L] [   R  ] [    V   ]
  *
  *    1: 1 for built-in DSQs.
  *    L: 1 for LOCAL_ON DSQ IDs, 0 for others
  *    V: For LOCAL_ON DSQ IDs, a CPU number. For others, a pre-defined value.
  */
 enum scx_dsq_id_flags {
 	SCX_DSQ_FLAG_BUILTIN	= 1LLU << 63,
 	SCX_DSQ_FLAG_LOCAL_ON	= 1LLU << 62,

 	SCX_DSQ_INVALID		= SCX_DSQ_FLAG_BUILTIN | 0,
 	SCX_DSQ_GLOBAL		= SCX_DSQ_FLAG_BUILTIN | 1,
 	SCX_DSQ_LOCAL		= SCX_DSQ_FLAG_BUILTIN | 2,
 	SCX_DSQ_LOCAL_ON	= SCX_DSQ_FLAG_BUILTIN | SCX_DSQ_FLAG_LOCAL_ON,
 	SCX_DSQ_LOCAL_CPU_MASK	= 0xffffffffLLU,
 };

 /*
  * A dispatch queue (DSQ) can be either a FIFO or p->scx.dsq_vtime ordered
  * queue. A built-in DSQ is always a FIFO. The built-in local DSQs are used to
  * buffer between the scheduler core and the BPF scheduler. See the
  * documentation for more details.
  */
 struct scx_dispatch_q {
 	raw_spinlock_t		lock;
 	struct list_head	list;	/* tasks in dispatch order */
 	struct rb_root		priq;	/* used to order by p->scx.dsq_vtime */
 	u32			nr;
 	u32			seq;	/* used by BPF iter */
 	u64			id;
 	struct rhash_head	hash_node;
 	struct llist_node	free_node;
 	struct rcu_head		rcu;
 };

 /* scx_entity.flags */
 enum scx_ent_flags {
 	SCX_TASK_QUEUED		= 1 << 0, /* on ext runqueue */
 	SCX_TASK_RESET_RUNNABLE_AT = 1 << 2, /* runnable_at should be reset */
 	SCX_TASK_DEQD_FOR_SLEEP	= 1 << 3, /* last dequeue was for SLEEP */

 	SCX_TASK_STATE_SHIFT	= 8,	  /* bit 8 and 9 are used to carry scx_task_state */
 	SCX_TASK_STATE_BITS	= 2,
 	SCX_TASK_STATE_MASK	= ((1 << SCX_TASK_STATE_BITS) - 1) << SCX_TASK_STATE_SHIFT,

 	SCX_TASK_CURSOR		= 1 << 31, /* iteration cursor, not a task */
 };

 /* scx_entity.flags & SCX_TASK_STATE_MASK */
 enum scx_task_state {
 	SCX_TASK_NONE,		/* ops.init_task() not called yet */
 	SCX_TASK_INIT,		/* ops.init_task() succeeded, but task can be cancelled */
 	SCX_TASK_READY,		/* fully initialized, but not in sched_ext */
 	SCX_TASK_ENABLED,	/* fully initialized and in sched_ext */

 	SCX_TASK_NR_STATES,
 };

 /* scx_entity.dsq_flags */
 enum scx_ent_dsq_flags {
 	SCX_TASK_DSQ_ON_PRIQ	= 1 << 0, /* task is queued on the priority queue of a dsq */
 };

 /*
  * Mask bits for scx_entity.kf_mask. Not all kfuncs can be called from
  * everywhere and the following bits track which kfunc sets are currently
  * allowed for %current. This simple per-task tracking works because SCX ops
  * nest in a limited way. BPF will likely implement a way to allow and disallow
  * kfuncs depending on the calling context which will replace this manual
  * mechanism. See scx_kf_allow().
  */
 enum scx_kf_mask {
 	SCX_KF_UNLOCKED		= 0,	  /* sleepable and not rq locked */
 	/* ENQUEUE and DISPATCH may be nested inside CPU_RELEASE */
 	SCX_KF_CPU_RELEASE	= 1 << 0, /* ops.cpu_release() */
 	/* ops.dequeue (in REST) may be nested inside DISPATCH */
 	SCX_KF_DISPATCH		= 1 << 1, /* ops.dispatch() */
 	SCX_KF_ENQUEUE		= 1 << 2, /* ops.enqueue() and ops.select_cpu() */
 	SCX_KF_SELECT_CPU	= 1 << 3, /* ops.select_cpu() */
 	SCX_KF_REST		= 1 << 4, /* other rq-locked operations */

 	__SCX_KF_RQ_LOCKED	= SCX_KF_CPU_RELEASE | SCX_KF_DISPATCH |
 				  SCX_KF_ENQUEUE | SCX_KF_SELECT_CPU | SCX_KF_REST,
 	__SCX_KF_TERMINAL	= SCX_KF_ENQUEUE | SCX_KF_SELECT_CPU | SCX_KF_REST,
 };

 enum scx_dsq_lnode_flags {
 	SCX_DSQ_LNODE_ITER_CURSOR = 1 << 0,

 	/* high 16 bits can be for iter cursor flags */
 	__SCX_DSQ_LNODE_PRIV_SHIFT = 16,
 };

 struct scx_dsq_list_node {
 	struct list_head	node;
 	u32			flags;
 	u32			priv;		/* can be used by iter cursor */
 };

 /*
  * The following is embedded in task_struct and contains all fields necessary
  * for a task to be scheduled by SCX.
  */
 struct sched_ext_entity {
 	struct scx_dispatch_q	*dsq;
 	struct scx_dsq_list_node dsq_list;	/* dispatch order */
 	struct rb_node		dsq_priq;	/* p->scx.dsq_vtime order */
 	u32			dsq_seq;
 	u32			dsq_flags;	/* protected by DSQ lock */
 	u32			flags;		/* protected by rq lock */
 	u32			weight;
 	s32			sticky_cpu;
 	s32			holding_cpu;
 	u32			kf_mask;	/* see scx_kf_mask above */
 	struct task_struct	*kf_tasks[2];	/* see SCX_CALL_OP_TASK() */
 	atomic_long_t		ops_state;

 	struct list_head	runnable_node;	/* rq->scx.runnable_list */
 	unsigned long		runnable_at;

 #ifdef CONFIG_SCHED_CORE
 	u64			core_sched_at;	/* see scx_prio_less() */
 #endif
 	u64			ddsp_dsq_id;
 	u64			ddsp_enq_flags;

 	/* BPF scheduler modifiable fields */

 	/*
 	 * Runtime budget in nsecs. This is usually set through
 	 * scx_bpf_dispatch() but can also be modified directly by the BPF
 	 * scheduler. Automatically decreased by SCX as the task executes. On
 	 * depletion, a scheduling event is triggered.
 	 *
 	 * This value is cleared to zero if the task is preempted by
 	 * %SCX_KICK_PREEMPT and shouldn't be used to determine how long the
 	 * task ran. Use p->se.sum_exec_runtime instead.
 	 */
 	u64			slice;

 	/*
 	 * Used to order tasks when dispatching to the vtime-ordered priority
 	 * queue of a dsq. This is usually set through scx_bpf_dispatch_vtime()
 	 * but can also be modified directly by the BPF scheduler. Modifying it
 	 * while a task is queued on a dsq may mangle the ordering and is not
 	 * recommended.
 	 */
 	u64			dsq_vtime;

 	/*
 	 * If set, reject future sched_setscheduler(2) calls updating the policy
 	 * to %SCHED_EXT with -%EACCES.
 	 *
 	 * Can be set from ops.init_task() while the BPF scheduler is being
 	 * loaded (!scx_init_task_args->fork). If set and the task's policy is
 	 * already %SCHED_EXT, the task's policy is rejected and forcefully
 	 * reverted to %SCHED_NORMAL. The number of such events are reported
 	 * through /sys/kernel/debug/sched_ext::nr_rejected. Setting this flag
 	 * during fork is not allowed.
 	 */
 	bool			disallow;	/* reject switching into SCX */

 	/* cold fields */
 #ifdef CONFIG_EXT_GROUP_SCHED
 	struct cgroup		*cgrp_moving_from;
 #endif
 	struct list_head	tasks_node;
 };

 void sched_ext_free(struct task_struct *p);
 void print_scx_info(const char *log_lvl, struct task_struct *p);

 #else	/* !CONFIG_SCHED_CLASS_EXT */

 static inline void sched_ext_free(struct task_struct *p) {}
 static inline void print_scx_info(const char *log_lvl, struct task_struct *p) {}

 #endif	/* CONFIG_SCHED_CLASS_EXT */
 #endif	/* _LINUX_SCHED_EXT_H */
	/* SPDX-License-Identifier: GPL-2.0 */
	/*
	* BPF extensible scheduler class: Documentation/scheduler/sched-ext.rst
	*
	* Copyright (c) 2022 Meta Platforms, Inc. and affiliates.
	* Copyright (c) 2022 Tejun Heo <tj@kernel.org>
	* Copyright (c) 2022 David Vernet <dvernet@meta.com>
	*/
	#ifndef _LINUX_SCHED_EXT_H
	#define _LINUX_SCHED_EXT_H

	#ifdef CONFIG_SCHED_CLASS_EXT

	#include <linux/llist.h>
	#include <linux/rhashtable-types.h>

	enum scx_public_consts {
	SCX_OPS_NAME_LEN = 128,

	SCX_SLICE_DFL = 20 * 1000000, /* 20ms */
	SCX_SLICE_INF = U64_MAX, /* infinite, implies nohz */
	};

	/*
	* DSQ (dispatch queue) IDs are 64bit of the format:
	*
	* Bits: [63] [62 .. 0]
	* [ B] [ ID ]
	*
	* B: 1 for IDs for built-in DSQs, 0 for ops-created user DSQs
	* ID: 63 bit ID
	*
	* Built-in IDs:
	*
	* Bits: [63] [62] [61..32] [31 .. 0]
	* [ 1] [ L] [ R ] [ V ]
	*
	* 1: 1 for built-in DSQs.
	* L: 1 for LOCAL_ON DSQ IDs, 0 for others
	* V: For LOCAL_ON DSQ IDs, a CPU number. For others, a pre-defined value.
	*/
	enum scx_dsq_id_flags {
	SCX_DSQ_FLAG_BUILTIN = 1LLU << 63,
	SCX_DSQ_FLAG_LOCAL_ON = 1LLU << 62,

	SCX_DSQ_INVALID = SCX_DSQ_FLAG_BUILTIN \| 0,
	SCX_DSQ_GLOBAL = SCX_DSQ_FLAG_BUILTIN \| 1,
	SCX_DSQ_LOCAL = SCX_DSQ_FLAG_BUILTIN \| 2,
	SCX_DSQ_LOCAL_ON = SCX_DSQ_FLAG_BUILTIN \| SCX_DSQ_FLAG_LOCAL_ON,
	SCX_DSQ_LOCAL_CPU_MASK = 0xffffffffLLU,
	};

	/*
	* A dispatch queue (DSQ) can be either a FIFO or p->scx.dsq_vtime ordered
	* queue. A built-in DSQ is always a FIFO. The built-in local DSQs are used to
	* buffer between the scheduler core and the BPF scheduler. See the
	* documentation for more details.
	*/
	struct scx_dispatch_q {
	raw_spinlock_t lock;
	struct list_head list; /* tasks in dispatch order */
	struct rb_root priq; /* used to order by p->scx.dsq_vtime */
	u32 nr;
	u32 seq; /* used by BPF iter */
	u64 id;
	struct rhash_head hash_node;
	struct llist_node free_node;
	struct rcu_head rcu;
	};

	/* scx_entity.flags */
	enum scx_ent_flags {
	SCX_TASK_QUEUED = 1 << 0, /* on ext runqueue */
	SCX_TASK_RESET_RUNNABLE_AT = 1 << 2, /* runnable_at should be reset */
	SCX_TASK_DEQD_FOR_SLEEP = 1 << 3, /* last dequeue was for SLEEP */

	SCX_TASK_STATE_SHIFT = 8, /* bit 8 and 9 are used to carry scx_task_state */
	SCX_TASK_STATE_BITS = 2,
	SCX_TASK_STATE_MASK = ((1 << SCX_TASK_STATE_BITS) - 1) << SCX_TASK_STATE_SHIFT,

	SCX_TASK_CURSOR = 1 << 31, /* iteration cursor, not a task */
	};

	/* scx_entity.flags & SCX_TASK_STATE_MASK */
	enum scx_task_state {
	SCX_TASK_NONE, /* ops.init_task() not called yet */
	SCX_TASK_INIT, /* ops.init_task() succeeded, but task can be cancelled */
	SCX_TASK_READY, /* fully initialized, but not in sched_ext */
	SCX_TASK_ENABLED, /* fully initialized and in sched_ext */

	SCX_TASK_NR_STATES,
	};

	/* scx_entity.dsq_flags */
	enum scx_ent_dsq_flags {
	SCX_TASK_DSQ_ON_PRIQ = 1 << 0, /* task is queued on the priority queue of a dsq */
	};

	/*
	* Mask bits for scx_entity.kf_mask. Not all kfuncs can be called from
	* everywhere and the following bits track which kfunc sets are currently
	* allowed for %current. This simple per-task tracking works because SCX ops
	* nest in a limited way. BPF will likely implement a way to allow and disallow
	* kfuncs depending on the calling context which will replace this manual
	* mechanism. See scx_kf_allow().
	*/
	enum scx_kf_mask {
	SCX_KF_UNLOCKED = 0, /* sleepable and not rq locked */
	/* ENQUEUE and DISPATCH may be nested inside CPU_RELEASE */
	SCX_KF_CPU_RELEASE = 1 << 0, /* ops.cpu_release() */
	/* ops.dequeue (in REST) may be nested inside DISPATCH */
	SCX_KF_DISPATCH = 1 << 1, /* ops.dispatch() */
	SCX_KF_ENQUEUE = 1 << 2, /* ops.enqueue() and ops.select_cpu() */
	SCX_KF_SELECT_CPU = 1 << 3, /* ops.select_cpu() */
	SCX_KF_REST = 1 << 4, /* other rq-locked operations */

	__SCX_KF_RQ_LOCKED = SCX_KF_CPU_RELEASE \| SCX_KF_DISPATCH \|
	SCX_KF_ENQUEUE \| SCX_KF_SELECT_CPU \| SCX_KF_REST,
	__SCX_KF_TERMINAL = SCX_KF_ENQUEUE \| SCX_KF_SELECT_CPU \| SCX_KF_REST,
	};

	enum scx_dsq_lnode_flags {
	SCX_DSQ_LNODE_ITER_CURSOR = 1 << 0,

	/* high 16 bits can be for iter cursor flags */
	__SCX_DSQ_LNODE_PRIV_SHIFT = 16,
	};

	struct scx_dsq_list_node {
	struct list_head node;
	u32 flags;
	u32 priv; /* can be used by iter cursor */
	};

	/*
	* The following is embedded in task_struct and contains all fields necessary
	* for a task to be scheduled by SCX.
	*/
	struct sched_ext_entity {
	struct scx_dispatch_q *dsq;
	struct scx_dsq_list_node dsq_list; /* dispatch order */
	struct rb_node dsq_priq; /* p->scx.dsq_vtime order */
	u32 dsq_seq;
	u32 dsq_flags; /* protected by DSQ lock */
	u32 flags; /* protected by rq lock */
	u32 weight;
	s32 sticky_cpu;
	s32 holding_cpu;
	u32 kf_mask; /* see scx_kf_mask above */
	struct task_struct kf_tasks[2]; / see SCX_CALL_OP_TASK() */
	atomic_long_t ops_state;

	struct list_head runnable_node; /* rq->scx.runnable_list */
	unsigned long runnable_at;

	#ifdef CONFIG_SCHED_CORE
	u64 core_sched_at; /* see scx_prio_less() */
	#endif
	u64 ddsp_dsq_id;
	u64 ddsp_enq_flags;

	/* BPF scheduler modifiable fields */

	/*
	* Runtime budget in nsecs. This is usually set through
	* scx_bpf_dispatch() but can also be modified directly by the BPF
	* scheduler. Automatically decreased by SCX as the task executes. On
	* depletion, a scheduling event is triggered.
	*
	* This value is cleared to zero if the task is preempted by
	* %SCX_KICK_PREEMPT and shouldn't be used to determine how long the
	* task ran. Use p->se.sum_exec_runtime instead.
	*/
	u64 slice;

	/*
	* Used to order tasks when dispatching to the vtime-ordered priority
	* queue of a dsq. This is usually set through scx_bpf_dispatch_vtime()
	* but can also be modified directly by the BPF scheduler. Modifying it
	* while a task is queued on a dsq may mangle the ordering and is not
	* recommended.
	*/
	u64 dsq_vtime;

	/*
	* If set, reject future sched_setscheduler(2) calls updating the policy
	* to %SCHED_EXT with -%EACCES.
	*
	* Can be set from ops.init_task() while the BPF scheduler is being
	* loaded (!scx_init_task_args->fork). If set and the task's policy is
	* already %SCHED_EXT, the task's policy is rejected and forcefully
	* reverted to %SCHED_NORMAL. The number of such events are reported
	* through /sys/kernel/debug/sched_ext::nr_rejected. Setting this flag
	* during fork is not allowed.
	*/
	bool disallow; /* reject switching into SCX */

	/* cold fields */
	#ifdef CONFIG_EXT_GROUP_SCHED
	struct cgroup *cgrp_moving_from;
	#endif
	struct list_head tasks_node;
	};

	void sched_ext_free(struct task_struct *p);
	void print_scx_info(const char log_lvl, struct task_struct p);

	#else /* !CONFIG_SCHED_CLASS_EXT */

	static inline void sched_ext_free(struct task_struct *p) {}
	static inline void print_scx_info(const char log_lvl, struct task_struct p) {}

	#endif /* CONFIG_SCHED_CLASS_EXT */
	#endif /* _LINUX_SCHED_EXT_H */