[apple/xnu.git] / osfmk / kern / processor.h

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/*
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/* 
 * Mach Operating System
 * Copyright (c) 1991,1990,1989 Carnegie Mellon University
 * All Rights Reserved.
 * 
 * Permission to use, copy, modify and distribute this software and its
 * documentation is hereby granted, provided that both the copyright
 * notice and this permission notice appear in all copies of the
 * software, derivative works or modified versions, and any portions
 * thereof, and that both notices appear in supporting documentation.
 * 
 * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
 * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
 * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
 * 
 * Carnegie Mellon requests users of this software to return to
 * 
 *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
 *  School of Computer Science
 *  Carnegie Mellon University
 *  Pittsburgh PA 15213-3890
 * 
 * any improvements or extensions that they make and grant Carnegie Mellon
 * the rights to redistribute these changes.
 */
/*
 */

/*
 *      processor.h:    Processor and processor-related definitions.
 */

#ifndef _KERN_PROCESSOR_H_
#define _KERN_PROCESSOR_H_

#include <mach/boolean.h>
#include <mach/kern_return.h>
#include <kern/kern_types.h>

#include <sys/cdefs.h>

#ifdef  MACH_KERNEL_PRIVATE

#include <mach/mach_types.h>
#include <kern/ast.h>
#include <kern/cpu_number.h>
#include <kern/smp.h>
#include <kern/simple_lock.h>
#include <kern/locks.h>
#include <kern/queue.h>
#include <kern/sched.h>
#include <mach/sfi_class.h>
#include <kern/processor_data.h>

struct processor_set {
        queue_head_t            active_queue;   /* active processors */
        queue_head_t            idle_queue;             /* idle processors */
        queue_head_t            idle_secondary_queue;           /* idle secondary processors */

        int                                     online_processor_count;

        int                                     cpu_set_low, cpu_set_hi;
        int                                     cpu_set_count;

#if __SMP__
        decl_simple_lock_data(,sched_lock)      /* lock for above */
#endif

#if defined(CONFIG_SCHED_TRADITIONAL) || defined(CONFIG_SCHED_MULTIQ)
        struct run_queue        pset_runq;      /* runq for this processor set */
#endif

#if defined(CONFIG_SCHED_TRADITIONAL)
        int                                     pset_runq_bound_count;
                /* # of threads in runq bound to any processor in pset */
#endif

        /* CPUs that have been sent an unacknowledged remote AST for scheduling purposes */
        uint64_t                        pending_AST_cpu_mask;
#if defined(CONFIG_SCHED_DEFERRED_AST)
        /*
         * A seperate mask, for ASTs that we may be able to cancel.  This is dependent on
         * some level of support for requesting an AST on a processor, and then quashing
         * that request later.
         *
         * The purpose of this field (and the associated codepaths) is to infer when we
         * no longer need a processor that is DISPATCHING to come up, and to prevent it
         * from coming out of IDLE if possible.  This should serve to decrease the number
         * of spurious ASTs in the system, and let processors spend longer periods in
         * IDLE.
         */
        uint64_t                        pending_deferred_AST_cpu_mask;
#endif

        struct ipc_port *       pset_self;              /* port for operations */
        struct ipc_port *       pset_name_self; /* port for information */

        processor_set_t         pset_list;              /* chain of associated psets */
        pset_node_t                     node;
};

extern struct processor_set     pset0;

struct pset_node {
        processor_set_t         psets;                  /* list of associated psets */

        pset_node_t                     nodes;                  /* list of associated subnodes */
        pset_node_t                     node_list;              /* chain of associated nodes */

        pset_node_t                     parent;
};

extern struct pset_node pset_node0;

extern queue_head_t             tasks, terminated_tasks, threads; /* Terminated tasks are ONLY for stackshot */
extern int                              tasks_count, terminated_tasks_count, threads_count;
decl_lck_mtx_data(extern,tasks_threads_lock)

struct processor {
        queue_chain_t           processor_queue;/* idle/active queue link,
                                                                                 * MUST remain the first element */
        int                                     state;                  /* See below */
        boolean_t               is_SMT;
        boolean_t               is_recommended;
        struct thread
                                                *active_thread, /* thread running on processor */
                                                *next_thread,   /* next thread when dispatched */
                                                *idle_thread;   /* this processor's idle thread. */

        processor_set_t         processor_set;  /* assigned set */

        int                                     current_pri;    /* priority of current thread */
        sched_mode_t            current_thmode; /* sched mode of current thread */
        sfi_class_id_t          current_sfi_class;      /* SFI class of current thread */
        int                                     cpu_id;                 /* platform numeric id */

        timer_call_data_t       quantum_timer;  /* timer for quantum expiration */
        uint64_t                        quantum_end;    /* time when current quantum ends */
        uint64_t                        last_dispatch;  /* time of last dispatch */

        uint64_t                        deadline;               /* current deadline */
        boolean_t               first_timeslice;                /* has the quantum expired since context switch */

#if defined(CONFIG_SCHED_TRADITIONAL) || defined(CONFIG_SCHED_MULTIQ)
        struct run_queue        runq;                   /* runq for this processor */
#endif

#if defined(CONFIG_SCHED_TRADITIONAL)
        int                                     runq_bound_count; /* # of threads bound to this processor */
#endif
#if defined(CONFIG_SCHED_GRRR)
        struct grrr_run_queue   grrr_runq;      /* Group Ratio Round-Robin runq */
#endif

        processor_t                     processor_primary;      /* pointer to primary processor for
                                                                                         * secondary SMT processors, or a pointer
                                                                                         * to ourselves for primaries or non-SMT */
        processor_t             processor_secondary;
        struct ipc_port *       processor_self; /* port for operations */

        processor_t                     processor_list; /* all existing processors */
        processor_data_t        processor_data; /* per-processor data */
};

extern processor_t              processor_list;
extern unsigned int             processor_count;
decl_simple_lock_data(extern,processor_list_lock)

extern uint32_t                 processor_avail_count;

extern processor_t              master_processor;

extern boolean_t                sched_stats_active;

/*
 *      Processor state is accessed by locking the scheduling lock
 *      for the assigned processor set.
 *
 *           -------------------- SHUTDOWN
 *          /                     ^     ^
 *        _/                      |      \
 *  OFF_LINE ---> START ---> RUNNING ---> IDLE ---> DISPATCHING
 *         \_________________^   ^ ^______/           /
 *                                \__________________/
 *
 *  Most of these state transitions are externally driven as a
 *  a directive (for instance telling an IDLE processor to start
 *  coming out of the idle state to run a thread). However these
 *  are typically paired with a handshake by the processor itself
 *  to indicate that it has completed a transition of indeterminate
 *  length (for example, the DISPATCHING->RUNNING or START->RUNNING
 *  transitions must occur on the processor itself).
 *
 *  The boot processor has some special cases, and skips the START state,
 *  since it has already bootstrapped and is ready to context switch threads.
 *
 *  When a processor is in DISPATCHING or RUNNING state, the current_pri,
 *  current_thmode, and deadline fields should be set, so that other
 *  processors can evaluate if it is an appropriate candidate for preemption.
 */
#if defined(CONFIG_SCHED_DEFERRED_AST)
/*
 *           -------------------- SHUTDOWN
 *          /                     ^     ^
 *        _/                      |      \
 *  OFF_LINE ---> START ---> RUNNING ---> IDLE ---> DISPATCHING
 *         \_________________^   ^ ^______/ ^_____ /  /
 *                                \__________________/
 *
 *  A DISPATCHING processor may be put back into IDLE, if another
 *  processor determines that the target processor will have nothing to do
 *  upon reaching the RUNNING state.  This is racy, but if the target
 *  responds and becomes RUNNING, it will not break the processor state
 *  machine.
 *
 *  This change allows us to cancel an outstanding signal/AST on a processor
 *  (if such an operation is supported through hardware or software), and
 *  push the processor back into the IDLE state as a power optimization.
 */
#endif

#define PROCESSOR_OFF_LINE              0       /* Not available */
#define PROCESSOR_SHUTDOWN              1       /* Going off-line */
#define PROCESSOR_START                 2       /* Being started */
/*                                      3          Formerly Inactive (unavailable) */
#define PROCESSOR_IDLE                  4       /* Idle (available) */
#define PROCESSOR_DISPATCHING   5       /* Dispatching (idle -> active) */
#define PROCESSOR_RUNNING               6       /* Normal execution */

extern processor_t      current_processor(void);

/* Lock macros, always acquired and released with interrupts disabled (splsched()) */

#if __SMP__
#define pset_lock(p)                    simple_lock(&(p)->sched_lock)
#define pset_unlock(p)                  simple_unlock(&(p)->sched_lock)
#define pset_lock_init(p)               simple_lock_init(&(p)->sched_lock, 0)
#else
#define pset_lock(p)                    do { (void)p; } while(0)
#define pset_unlock(p)                  do { (void)p; } while(0)
#define pset_lock_init(p)               do { (void)p; } while(0)
#endif

extern void             processor_bootstrap(void);

extern void             processor_init(
                                        processor_t             processor,
                                        int                             cpu_id,
                                        processor_set_t processor_set);

extern void             processor_set_primary(
                                        processor_t             processor,
                                        processor_t             primary);

extern kern_return_t    processor_shutdown(
                                                        processor_t             processor);

extern void             processor_queue_shutdown(
                                        processor_t             processor);

extern processor_set_t  processor_pset(
                                                        processor_t             processor);

extern pset_node_t              pset_node_root(void);

extern processor_set_t  pset_create(
                                                        pset_node_t             node);

extern void             pset_init(
                                        processor_set_t         pset,
                                        pset_node_t                     node);

extern kern_return_t    processor_info_count(
                                                        processor_flavor_t              flavor,
                                                        mach_msg_type_number_t  *count);

#define pset_deallocate(x)
#define pset_reference(x)

extern void                             machine_run_count(
                                                        uint32_t        count);

extern processor_t              machine_choose_processor(
                                                        processor_set_t         pset,
                                                        processor_t                     processor);

#define next_pset(p)    (((p)->pset_list != PROCESSOR_SET_NULL)? (p)->pset_list: (p)->node->psets)

#define PSET_THING_TASK         0
#define PSET_THING_THREAD       1

extern kern_return_t    processor_set_things(
                        processor_set_t pset,
                        void **thing_list,
                        mach_msg_type_number_t *count,
                        int type);

#else   /* MACH_KERNEL_PRIVATE */

__BEGIN_DECLS

extern void             pset_deallocate(
                                        processor_set_t pset);

extern void             pset_reference(
                                        processor_set_t pset);

__END_DECLS

#endif  /* MACH_KERNEL_PRIVATE */

#ifdef KERNEL_PRIVATE
__BEGIN_DECLS
extern processor_t      cpu_to_processor(int cpu);
__END_DECLS

#endif /* KERNEL_PRIVATE */

#endif  /* _KERN_PROCESSOR_H_ */