xref: /illumos-gate/usr/src/uts/common/sys/cpuvar.h (revision cf74e62b28857cc7cf88dd0a34d34df9a7e26fe8)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _SYS_CPUVAR_H
28 #define	_SYS_CPUVAR_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #include <sys/thread.h>
33 #include <sys/sysinfo.h>	/* has cpu_stat_t definition */
34 #include <sys/disp.h>
35 #include <sys/processor.h>
36 
37 #if (defined(_KERNEL) || defined(_KMEMUSER)) && defined(_MACHDEP)
38 #include <sys/machcpuvar.h>
39 #endif
40 
41 #include <sys/types.h>
42 #include <sys/file.h>
43 #include <sys/bitmap.h>
44 #include <sys/rwlock.h>
45 #include <sys/msacct.h>
46 #if defined(__GNUC__) && defined(_ASM_INLINES) && defined(_KERNEL) && \
47 	(defined(__i386) || defined(__amd64))
48 #include <asm/cpuvar.h>
49 #endif
50 
51 #ifdef	__cplusplus
52 extern "C" {
53 #endif
54 
55 struct squeue_set_s;
56 
57 #define	CPU_CACHE_COHERENCE_SIZE	64
58 #define	S_LOADAVG_SZ	11
59 #define	S_MOVAVG_SZ	10
60 
61 struct loadavg_s {
62 	int lg_cur;		/* current loadavg entry */
63 	unsigned int lg_len;	/* number entries recorded */
64 	hrtime_t lg_total;	/* used to temporarily hold load totals */
65 	hrtime_t lg_loads[S_LOADAVG_SZ];	/* table of recorded entries */
66 };
67 
68 /*
69  * For fast event tracing.
70  */
71 struct ftrace_record;
72 typedef struct ftrace_data {
73 	int			ftd_state;	/* ftrace flags */
74 	kmutex_t		ftd_unused;	/* ftrace buffer lock, unused */
75 	struct ftrace_record	*ftd_cur;	/* current record */
76 	struct ftrace_record	*ftd_first;	/* first record */
77 	struct ftrace_record	*ftd_last;	/* last record */
78 } ftrace_data_t;
79 
80 struct cyc_cpu;
81 struct nvlist;
82 
83 /*
84  * Per-CPU data.
85  *
86  * Be careful adding new members: if they are not the same in all modules (e.g.
87  * change size depending on a #define), CTF uniquification can fail to work
88  * properly.  Furthermore, this is transitive in that it applies recursively to
89  * all types pointed to by cpu_t.
90  */
91 typedef struct cpu {
92 	processorid_t	cpu_id;			/* CPU number */
93 	processorid_t	cpu_seqid;	/* sequential CPU id (0..ncpus-1) */
94 	volatile cpu_flag_t cpu_flags;		/* flags indicating CPU state */
95 	struct cpu	*cpu_self;		/* pointer to itself */
96 	kthread_t	*cpu_thread;		/* current thread */
97 	kthread_t	*cpu_idle_thread;	/* idle thread for this CPU */
98 	kthread_t	*cpu_pause_thread;	/* pause thread for this CPU */
99 	klwp_id_t	cpu_lwp;		/* current lwp (if any) */
100 	klwp_id_t	cpu_fpowner;		/* currently loaded fpu owner */
101 	struct cpupart	*cpu_part;		/* partition with this CPU */
102 	struct lgrp_ld	*cpu_lpl;		/* pointer to this cpu's load */
103 	int		cpu_cache_offset;	/* see kmem.c for details */
104 
105 	/*
106 	 * Links to other CPUs.  It is safe to walk these lists if
107 	 * one of the following is true:
108 	 * 	- cpu_lock held
109 	 * 	- preemption disabled via kpreempt_disable
110 	 * 	- PIL >= DISP_LEVEL
111 	 * 	- acting thread is an interrupt thread
112 	 * 	- all other CPUs are paused
113 	 */
114 	struct cpu	*cpu_next;		/* next existing CPU */
115 	struct cpu	*cpu_prev;		/* prev existing CPU */
116 	struct cpu	*cpu_next_onln;		/* next online (enabled) CPU */
117 	struct cpu	*cpu_prev_onln;		/* prev online (enabled) CPU */
118 	struct cpu	*cpu_next_part;		/* next CPU in partition */
119 	struct cpu	*cpu_prev_part;		/* prev CPU in partition */
120 	struct cpu	*cpu_next_lgrp;		/* next CPU in latency group */
121 	struct cpu	*cpu_prev_lgrp;		/* prev CPU in latency group */
122 	struct cpu	*cpu_next_lpl;		/* next CPU in lgrp partition */
123 	struct cpu	*cpu_prev_lpl;
124 
125 	struct cpu_pg	*cpu_pg;		/* cpu's processor groups */
126 
127 	void		*cpu_reserved[4];	/* reserved for future use */
128 
129 	/*
130 	 * Scheduling variables.
131 	 */
132 	disp_t		*cpu_disp;		/* dispatch queue data */
133 	/*
134 	 * Note that cpu_disp is set before the CPU is added to the system
135 	 * and is never modified.  Hence, no additional locking is needed
136 	 * beyond what's necessary to access the cpu_t structure.
137 	 */
138 	char		cpu_runrun;	/* scheduling flag - set to preempt */
139 	char		cpu_kprunrun;		/* force kernel preemption */
140 	pri_t		cpu_chosen_level; 	/* priority at which cpu */
141 						/* was chosen for scheduling */
142 	kthread_t	*cpu_dispthread; /* thread selected for dispatch */
143 	disp_lock_t	cpu_thread_lock; /* dispatcher lock on current thread */
144 	uint8_t		cpu_disp_flags;	/* flags used by dispatcher */
145 	/*
146 	 * The following field is updated when ever the cpu_dispthread
147 	 * changes. Also in places, where the current thread(cpu_dispthread)
148 	 * priority changes. This is used in disp_lowpri_cpu()
149 	 */
150 	pri_t		cpu_dispatch_pri; /* priority of cpu_dispthread */
151 	clock_t		cpu_last_swtch;	/* last time switched to new thread */
152 
153 	/*
154 	 * Interrupt data.
155 	 */
156 	caddr_t		cpu_intr_stack;	/* interrupt stack */
157 	kthread_t	*cpu_intr_thread; /* interrupt thread list */
158 	uint_t		cpu_intr_actv;	/* interrupt levels active (bitmask) */
159 	int		cpu_base_spl;	/* priority for highest rupt active */
160 
161 	/*
162 	 * Statistics.
163 	 */
164 	cpu_stats_t	cpu_stats;		/* per-CPU statistics */
165 	struct kstat	*cpu_info_kstat;	/* kstat for cpu info */
166 
167 	uintptr_t	cpu_profile_pc;	/* kernel PC in profile interrupt */
168 	uintptr_t	cpu_profile_upc; /* user PC in profile interrupt */
169 	uintptr_t	cpu_profile_pil; /* PIL when profile interrupted */
170 
171 	ftrace_data_t	cpu_ftrace;		/* per cpu ftrace data */
172 
173 	clock_t		cpu_deadman_lbolt;	/* used by deadman() */
174 	uint_t		cpu_deadman_countdown;	/* used by deadman() */
175 
176 	kmutex_t	cpu_cpc_ctxlock; /* protects context for idle thread */
177 	kcpc_ctx_t	*cpu_cpc_ctx;	/* performance counter context */
178 
179 	/*
180 	 * Configuration information for the processor_info system call.
181 	 */
182 	processor_info_t cpu_type_info;	/* config info */
183 	time_t		cpu_state_begin; /* when CPU entered current state */
184 	char		cpu_cpr_flags;	/* CPR related info */
185 	struct cyc_cpu	*cpu_cyclic;	/* per cpu cyclic subsystem data */
186 	struct squeue_set_s *cpu_squeue_set;	/* per cpu squeue set */
187 	struct nvlist	*cpu_props;	/* pool-related properties */
188 
189 	krwlock_t	cpu_ft_lock;		/* DTrace: fasttrap lock */
190 	uintptr_t	cpu_dtrace_caller;	/* DTrace: caller, if any */
191 	hrtime_t	cpu_dtrace_chillmark;	/* DTrace: chill mark time */
192 	hrtime_t	cpu_dtrace_chilled;	/* DTrace: total chill time */
193 	volatile uint16_t cpu_mstate;		/* cpu microstate */
194 	volatile uint16_t cpu_mstate_gen;	/* generation counter */
195 	volatile hrtime_t cpu_mstate_start;	/* cpu microstate start time */
196 	volatile hrtime_t cpu_acct[NCMSTATES];	/* cpu microstate data */
197 	hrtime_t	cpu_intracct[NCMSTATES]; /* interrupt mstate data */
198 	hrtime_t	cpu_waitrq;		/* cpu run-queue wait time */
199 	struct loadavg_s cpu_loadavg;		/* loadavg info for this cpu */
200 
201 	char		*cpu_idstr;	/* for printing and debugging */
202 	char		*cpu_brandstr;	/* for printing */
203 
204 	/*
205 	 * Sum of all device interrupt weights that are currently directed at
206 	 * this cpu. Cleared at start of interrupt redistribution.
207 	 */
208 	int32_t		cpu_intr_weight;
209 	void		*cpu_vm_data;
210 
211 	struct cpu_physid *cpu_physid;	/* physical associations */
212 
213 	uint64_t	cpu_curr_clock;		/* current clock freq in Hz */
214 	char		*cpu_supp_freqs;	/* supported freqs in Hz */
215 
216 	/*
217 	 * New members must be added /before/ this member, as the CTF tools
218 	 * rely on this being the last field before cpu_m, so they can
219 	 * correctly calculate the offset when synthetically adding the cpu_m
220 	 * member in objects that do not have it.  This fixup is required for
221 	 * uniquification to work correctly.
222 	 */
223 	uintptr_t	cpu_m_pad;
224 
225 #if (defined(_KERNEL) || defined(_KMEMUSER)) && defined(_MACHDEP)
226 	struct machcpu	cpu_m;		/* per architecture info */
227 #endif
228 } cpu_t;
229 
230 /*
231  * The cpu_core structure consists of per-CPU state available in any context.
232  * On some architectures, this may mean that the page(s) containing the
233  * NCPU-sized array of cpu_core structures must be locked in the TLB -- it
234  * is up to the platform to assure that this is performed properly.  Note that
235  * the structure is sized to avoid false sharing.
236  */
237 #define	CPUC_SIZE		(sizeof (uint16_t) + sizeof (uintptr_t) + \
238 				sizeof (kmutex_t))
239 #define	CPUC_PADSIZE		CPU_CACHE_COHERENCE_SIZE - CPUC_SIZE
240 
241 typedef struct cpu_core {
242 	uint16_t	cpuc_dtrace_flags;	/* DTrace flags */
243 	uint8_t		cpuc_pad[CPUC_PADSIZE];	/* padding */
244 	uintptr_t	cpuc_dtrace_illval;	/* DTrace illegal value */
245 	kmutex_t	cpuc_pid_lock;		/* DTrace pid provider lock */
246 } cpu_core_t;
247 
248 #ifdef _KERNEL
249 extern cpu_core_t cpu_core[];
250 #endif /* _KERNEL */
251 
252 /*
253  * CPU_ON_INTR() macro. Returns non-zero if currently on interrupt stack.
254  * Note that this isn't a test for a high PIL.  For example, cpu_intr_actv
255  * does not get updated when we go through sys_trap from TL>0 at high PIL.
256  * getpil() should be used instead to check for PIL levels.
257  */
258 #define	CPU_ON_INTR(cpup) ((cpup)->cpu_intr_actv >> (LOCK_LEVEL + 1))
259 
260 #if defined(_KERNEL) || defined(_KMEMUSER)
261 
262 #define	INTR_STACK_SIZE	MAX(DEFAULTSTKSZ, PAGESIZE)
263 
264 /* MEMBERS PROTECTED BY "atomicity": cpu_flags */
265 
266 /*
267  * Flags in the CPU structure.
268  *
269  * These are protected by cpu_lock (except during creation).
270  *
271  * Offlined-CPUs have three stages of being offline:
272  *
273  * CPU_ENABLE indicates that the CPU is participating in I/O interrupts
274  * that can be directed at a number of different CPUs.  If CPU_ENABLE
275  * is off, the CPU will not be given interrupts that can be sent elsewhere,
276  * but will still get interrupts from devices associated with that CPU only,
277  * and from other CPUs.
278  *
279  * CPU_OFFLINE indicates that the dispatcher should not allow any threads
280  * other than interrupt threads to run on that CPU.  A CPU will not have
281  * CPU_OFFLINE set if there are any bound threads (besides interrupts).
282  *
283  * CPU_QUIESCED is set if p_offline was able to completely turn idle the
284  * CPU and it will not have to run interrupt threads.  In this case it'll
285  * stay in the idle loop until CPU_QUIESCED is turned off.
286  *
287  * CPU_FROZEN is used only by CPR to mark CPUs that have been successfully
288  * suspended (in the suspend path), or have yet to be resumed (in the resume
289  * case).
290  *
291  * On some platforms CPUs can be individually powered off.
292  * The following flags are set for powered off CPUs: CPU_QUIESCED,
293  * CPU_OFFLINE, and CPU_POWEROFF.  The following flags are cleared:
294  * CPU_RUNNING, CPU_READY, CPU_EXISTS, and CPU_ENABLE.
295  */
296 #define	CPU_RUNNING	0x001		/* CPU running */
297 #define	CPU_READY	0x002		/* CPU ready for cross-calls */
298 #define	CPU_QUIESCED	0x004		/* CPU will stay in idle */
299 #define	CPU_EXISTS	0x008		/* CPU is configured */
300 #define	CPU_ENABLE	0x010		/* CPU enabled for interrupts */
301 #define	CPU_OFFLINE	0x020		/* CPU offline via p_online */
302 #define	CPU_POWEROFF	0x040		/* CPU is powered off */
303 #define	CPU_FROZEN	0x080		/* CPU is frozen via CPR suspend */
304 #define	CPU_SPARE	0x100		/* CPU offline available for use */
305 #define	CPU_FAULTED	0x200		/* CPU offline diagnosed faulty */
306 
307 #define	FMT_CPU_FLAGS							\
308 	"\20\12fault\11spare\10frozen"					\
309 	"\7poweroff\6offline\5enable\4exist\3quiesced\2ready\1run"
310 
311 #define	CPU_ACTIVE(cpu)	(((cpu)->cpu_flags & CPU_OFFLINE) == 0)
312 
313 /*
314  * Flags for cpu_offline(), cpu_faulted(), and cpu_spare().
315  */
316 #define	CPU_FORCED	0x0001		/* Force CPU offline */
317 
318 /*
319  * DTrace flags.
320  */
321 #define	CPU_DTRACE_NOFAULT	0x0001	/* Don't fault */
322 #define	CPU_DTRACE_DROP		0x0002	/* Drop this ECB */
323 #define	CPU_DTRACE_BADADDR	0x0004	/* DTrace fault: bad address */
324 #define	CPU_DTRACE_BADALIGN	0x0008	/* DTrace fault: bad alignment */
325 #define	CPU_DTRACE_DIVZERO	0x0010	/* DTrace fault: divide by zero */
326 #define	CPU_DTRACE_ILLOP	0x0020	/* DTrace fault: illegal operation */
327 #define	CPU_DTRACE_NOSCRATCH	0x0040	/* DTrace fault: out of scratch */
328 #define	CPU_DTRACE_KPRIV	0x0080	/* DTrace fault: bad kernel access */
329 #define	CPU_DTRACE_UPRIV	0x0100	/* DTrace fault: bad user access */
330 #define	CPU_DTRACE_TUPOFLOW	0x0200	/* DTrace fault: tuple stack overflow */
331 #if defined(__sparc)
332 #define	CPU_DTRACE_FAKERESTORE	0x0400	/* pid provider hint to getreg */
333 #endif
334 #define	CPU_DTRACE_ENTRY	0x0800	/* pid provider hint to ustack() */
335 #define	CPU_DTRACE_BADSTACK	0x1000	/* DTrace fault: bad stack */
336 
337 #define	CPU_DTRACE_FAULT	(CPU_DTRACE_BADADDR | CPU_DTRACE_BADALIGN | \
338 				CPU_DTRACE_DIVZERO | CPU_DTRACE_ILLOP | \
339 				CPU_DTRACE_NOSCRATCH | CPU_DTRACE_KPRIV | \
340 				CPU_DTRACE_UPRIV | CPU_DTRACE_TUPOFLOW | \
341 				CPU_DTRACE_BADSTACK)
342 #define	CPU_DTRACE_ERROR	(CPU_DTRACE_FAULT | CPU_DTRACE_DROP)
343 
344 /*
345  * Dispatcher flags
346  * These flags must be changed only by the current CPU.
347  */
348 #define	CPU_DISP_DONTSTEAL	0x01	/* CPU undergoing context swtch */
349 #define	CPU_DISP_HALTED		0x02	/* CPU halted waiting for interrupt */
350 
351 
352 #endif /* _KERNEL || _KMEMUSER */
353 
354 #if (defined(_KERNEL) || defined(_KMEMUSER)) && defined(_MACHDEP)
355 
356 /*
357  * Macros for manipulating sets of CPUs as a bitmap.  Note that this
358  * bitmap may vary in size depending on the maximum CPU id a specific
359  * platform supports.  This may be different than the number of CPUs
360  * the platform supports, since CPU ids can be sparse.  We define two
361  * sets of macros; one for platforms where the maximum CPU id is less
362  * than the number of bits in a single word (32 in a 32-bit kernel,
363  * 64 in a 64-bit kernel), and one for platforms that require bitmaps
364  * of more than one word.
365  */
366 
367 #define	CPUSET_WORDS	BT_BITOUL(NCPU)
368 #define	CPUSET_NOTINSET	((uint_t)-1)
369 
370 #if	CPUSET_WORDS > 1
371 
372 typedef struct cpuset {
373 	ulong_t	cpub[CPUSET_WORDS];
374 } cpuset_t;
375 
376 /*
377  * Private functions for manipulating cpusets that do not fit in a
378  * single word.  These should not be used directly; instead the
379  * CPUSET_* macros should be used so the code will be portable
380  * across different definitions of NCPU.
381  */
382 extern	void	cpuset_all(cpuset_t *);
383 extern	void	cpuset_all_but(cpuset_t *, uint_t);
384 extern	int	cpuset_isnull(cpuset_t *);
385 extern	int	cpuset_cmp(cpuset_t *, cpuset_t *);
386 extern	void	cpuset_only(cpuset_t *, uint_t);
387 extern	uint_t	cpuset_find(cpuset_t *);
388 extern	void	cpuset_bounds(cpuset_t *, uint_t *, uint_t *);
389 
390 #define	CPUSET_ALL(set)			cpuset_all(&(set))
391 #define	CPUSET_ALL_BUT(set, cpu)	cpuset_all_but(&(set), cpu)
392 #define	CPUSET_ONLY(set, cpu)		cpuset_only(&(set), cpu)
393 #define	CPU_IN_SET(set, cpu)		BT_TEST((set).cpub, cpu)
394 #define	CPUSET_ADD(set, cpu)		BT_SET((set).cpub, cpu)
395 #define	CPUSET_DEL(set, cpu)		BT_CLEAR((set).cpub, cpu)
396 #define	CPUSET_ISNULL(set)		cpuset_isnull(&(set))
397 #define	CPUSET_ISEQUAL(set1, set2)	cpuset_cmp(&(set1), &(set2))
398 
399 /*
400  * Find one CPU in the cpuset.
401  * Sets "cpu" to the id of the found CPU, or CPUSET_NOTINSET if no cpu
402  * could be found. (i.e. empty set)
403  */
404 #define	CPUSET_FIND(set, cpu)		{		\
405 	cpu = cpuset_find(&(set));			\
406 }
407 
408 /*
409  * Determine the smallest and largest CPU id in the set. Returns
410  * CPUSET_NOTINSET in smallest and largest when set is empty.
411  */
412 #define	CPUSET_BOUNDS(set, smallest, largest)	{		\
413 	cpuset_bounds(&(set), &(smallest), &(largest));		\
414 }
415 
416 /*
417  * Atomic cpuset operations
418  * These are safe to use for concurrent cpuset manipulations.
419  * "xdel" and "xadd" are exclusive operations, that set "result" to "0"
420  * if the add or del was successful, or "-1" if not successful.
421  * (e.g. attempting to add a cpu to a cpuset that's already there, or
422  * deleting a cpu that's not in the cpuset)
423  */
424 
425 #define	CPUSET_ATOMIC_DEL(set, cpu)	BT_ATOMIC_CLEAR((set).cpub, (cpu))
426 #define	CPUSET_ATOMIC_ADD(set, cpu)	BT_ATOMIC_SET((set).cpub, (cpu))
427 
428 #define	CPUSET_ATOMIC_XADD(set, cpu, result) \
429 	BT_ATOMIC_SET_EXCL((set).cpub, cpu, result)
430 
431 #define	CPUSET_ATOMIC_XDEL(set, cpu, result) \
432 	BT_ATOMIC_CLEAR_EXCL((set).cpub, cpu, result)
433 
434 
435 #define	CPUSET_OR(set1, set2)		{		\
436 	int _i;						\
437 	for (_i = 0; _i < CPUSET_WORDS; _i++)		\
438 		(set1).cpub[_i] |= (set2).cpub[_i];	\
439 }
440 
441 #define	CPUSET_AND(set1, set2)		{		\
442 	int _i;						\
443 	for (_i = 0; _i < CPUSET_WORDS; _i++)		\
444 		(set1).cpub[_i] &= (set2).cpub[_i];	\
445 }
446 
447 #define	CPUSET_ZERO(set)		{		\
448 	int _i;						\
449 	for (_i = 0; _i < CPUSET_WORDS; _i++)		\
450 		(set).cpub[_i] = 0;			\
451 }
452 
453 #elif	CPUSET_WORDS == 1
454 
455 typedef	ulong_t	cpuset_t;	/* a set of CPUs */
456 
457 #define	CPUSET(cpu)			(1UL << (cpu))
458 
459 #define	CPUSET_ALL(set)			((void)((set) = ~0UL))
460 #define	CPUSET_ALL_BUT(set, cpu)	((void)((set) = ~CPUSET(cpu)))
461 #define	CPUSET_ONLY(set, cpu)		((void)((set) = CPUSET(cpu)))
462 #define	CPU_IN_SET(set, cpu)		((set) & CPUSET(cpu))
463 #define	CPUSET_ADD(set, cpu)		((void)((set) |= CPUSET(cpu)))
464 #define	CPUSET_DEL(set, cpu)		((void)((set) &= ~CPUSET(cpu)))
465 #define	CPUSET_ISNULL(set)		((set) == 0)
466 #define	CPUSET_ISEQUAL(set1, set2)	((set1) == (set2))
467 #define	CPUSET_OR(set1, set2)		((void)((set1) |= (set2)))
468 #define	CPUSET_AND(set1, set2)		((void)((set1) &= (set2)))
469 #define	CPUSET_ZERO(set)		((void)((set) = 0))
470 
471 #define	CPUSET_FIND(set, cpu)		{		\
472 	cpu = (uint_t)(lowbit(set) - 1);				\
473 }
474 
475 #define	CPUSET_BOUNDS(set, smallest, largest)	{	\
476 	smallest = (uint_t)(lowbit(set) - 1);		\
477 	largest = (uint_t)(highbit(set) - 1);		\
478 }
479 
480 #define	CPUSET_ATOMIC_DEL(set, cpu)	atomic_and_long(&(set), ~CPUSET(cpu))
481 #define	CPUSET_ATOMIC_ADD(set, cpu)	atomic_or_long(&(set), CPUSET(cpu))
482 
483 #define	CPUSET_ATOMIC_XADD(set, cpu, result) \
484 	{ result = atomic_set_long_excl(&(set), (cpu)); }
485 
486 #define	CPUSET_ATOMIC_XDEL(set, cpu, result) \
487 	{ result = atomic_clear_long_excl(&(set), (cpu)); }
488 
489 #else	/* CPUSET_WORDS <= 0 */
490 
491 #error NCPU is undefined or invalid
492 
493 #endif	/* CPUSET_WORDS	*/
494 
495 extern cpuset_t cpu_seqid_inuse;
496 
497 #endif	/* (_KERNEL || _KMEMUSER) && _MACHDEP */
498 
499 #define	CPU_CPR_OFFLINE		0x0
500 #define	CPU_CPR_ONLINE		0x1
501 #define	CPU_CPR_IS_OFFLINE(cpu)	(((cpu)->cpu_cpr_flags & CPU_CPR_ONLINE) == 0)
502 #define	CPU_SET_CPR_FLAGS(cpu, flag)	((cpu)->cpu_cpr_flags |= flag)
503 
504 #if defined(_KERNEL) || defined(_KMEMUSER)
505 
506 extern struct cpu	*cpu[];		/* indexed by CPU number */
507 extern cpu_t		*cpu_list;	/* list of CPUs */
508 extern int		ncpus;		/* number of CPUs present */
509 extern int		ncpus_online;	/* number of CPUs not quiesced */
510 extern int		max_ncpus;	/* max present before ncpus is known */
511 extern int		boot_max_ncpus;	/* like max_ncpus but for real */
512 extern processorid_t	max_cpuid;	/* maximum CPU number */
513 extern struct cpu	*cpu_inmotion;	/* offline or partition move target */
514 extern cpu_t		*clock_cpu_list;
515 
516 #if defined(__i386) || defined(__amd64)
517 extern struct cpu *curcpup(void);
518 #define	CPU		(curcpup())	/* Pointer to current CPU */
519 #else
520 #define	CPU		(curthread->t_cpu)	/* Pointer to current CPU */
521 #endif
522 
523 /*
524  * CPU_CURRENT indicates to thread_affinity_set to use CPU->cpu_id
525  * as the target and to grab cpu_lock instead of requiring the caller
526  * to grab it.
527  */
528 #define	CPU_CURRENT	-3
529 
530 /*
531  * Per-CPU statistics
532  *
533  * cpu_stats_t contains numerous system and VM-related statistics, in the form
534  * of gauges or monotonically-increasing event occurrence counts.
535  */
536 
537 #define	CPU_STATS_ENTER_K()	kpreempt_disable()
538 #define	CPU_STATS_EXIT_K()	kpreempt_enable()
539 
540 #define	CPU_STATS_ADD_K(class, stat, amount) \
541 	{	kpreempt_disable(); /* keep from switching CPUs */\
542 		CPU_STATS_ADDQ(CPU, class, stat, amount); \
543 		kpreempt_enable(); \
544 	}
545 
546 #define	CPU_STATS_ADDQ(cp, class, stat, amount)	{			\
547 	extern void __dtrace_probe___cpu_##class##info_##stat(uint_t,	\
548 	    uint64_t *, cpu_t *);					\
549 	uint64_t *stataddr = &((cp)->cpu_stats.class.stat);		\
550 	__dtrace_probe___cpu_##class##info_##stat((amount),		\
551 	    stataddr, cp);						\
552 	*(stataddr) += (amount);					\
553 }
554 
555 #define	CPU_STATS(cp, stat)                                       \
556 	((cp)->cpu_stats.stat)
557 
558 #endif /* _KERNEL || _KMEMUSER */
559 
560 /*
561  * CPU support routines.
562  */
563 #if	defined(_KERNEL) && defined(__STDC__)	/* not for genassym.c */
564 
565 struct zone;
566 
567 void	cpu_list_init(cpu_t *);
568 void	cpu_add_unit(cpu_t *);
569 void	cpu_del_unit(int cpuid);
570 void	cpu_add_active(cpu_t *);
571 void	cpu_kstat_init(cpu_t *);
572 void	cpu_visibility_add(cpu_t *, struct zone *);
573 void	cpu_visibility_remove(cpu_t *, struct zone *);
574 void	cpu_visibility_configure(cpu_t *, struct zone *);
575 void	cpu_visibility_unconfigure(cpu_t *, struct zone *);
576 void	cpu_visibility_online(cpu_t *, struct zone *);
577 void	cpu_visibility_offline(cpu_t *, struct zone *);
578 void	cpu_create_intrstat(cpu_t *);
579 void	cpu_delete_intrstat(cpu_t *);
580 int	cpu_kstat_intrstat_update(kstat_t *, int);
581 void	cpu_intr_swtch_enter(kthread_t *);
582 void	cpu_intr_swtch_exit(kthread_t *);
583 
584 void	mbox_lock_init(void);	 /* initialize cross-call locks */
585 void	mbox_init(int cpun);	 /* initialize cross-calls */
586 void	poke_cpu(int cpun);	 /* interrupt another CPU (to preempt) */
587 
588 /*
589  * values for safe_list.  Pause state that CPUs are in.
590  */
591 #define	PAUSE_IDLE	0		/* normal state */
592 #define	PAUSE_READY	1		/* paused thread ready to spl */
593 #define	PAUSE_WAIT	2		/* paused thread is spl-ed high */
594 #define	PAUSE_DIE	3		/* tell pause thread to leave */
595 #define	PAUSE_DEAD	4		/* pause thread has left */
596 
597 void	mach_cpu_pause(volatile char *);
598 
599 void	pause_cpus(cpu_t *off_cp);
600 void	start_cpus(void);
601 int	cpus_paused(void);
602 
603 void	cpu_pause_init(void);
604 cpu_t	*cpu_get(processorid_t cpun);	/* get the CPU struct associated */
605 
606 int	cpu_online(cpu_t *cp);			/* take cpu online */
607 int	cpu_offline(cpu_t *cp, int flags);	/* take cpu offline */
608 int	cpu_spare(cpu_t *cp, int flags);	/* take cpu to spare */
609 int	cpu_faulted(cpu_t *cp, int flags);	/* take cpu to faulted */
610 int	cpu_poweron(cpu_t *cp);		/* take powered-off cpu to offline */
611 int	cpu_poweroff(cpu_t *cp);	/* take offline cpu to powered-off */
612 
613 cpu_t	*cpu_intr_next(cpu_t *cp);	/* get next online CPU taking intrs */
614 int	cpu_intr_count(cpu_t *cp);	/* count # of CPUs handling intrs */
615 int	cpu_intr_on(cpu_t *cp);		/* CPU taking I/O interrupts? */
616 void	cpu_intr_enable(cpu_t *cp);	/* enable I/O interrupts */
617 int	cpu_intr_disable(cpu_t *cp);	/* disable I/O interrupts */
618 void	cpu_intr_alloc(cpu_t *cp, int n); /* allocate interrupt threads */
619 
620 /*
621  * Routines for checking CPU states.
622  */
623 int	cpu_is_online(cpu_t *);		/* check if CPU is online */
624 int	cpu_is_nointr(cpu_t *);		/* check if CPU can service intrs */
625 int	cpu_is_active(cpu_t *);		/* check if CPU can run threads */
626 int	cpu_is_offline(cpu_t *);	/* check if CPU is offline */
627 int	cpu_is_poweredoff(cpu_t *);	/* check if CPU is powered off */
628 
629 int	cpu_flagged_online(cpu_flag_t);	/* flags show CPU is online */
630 int	cpu_flagged_nointr(cpu_flag_t);	/* flags show CPU not handling intrs */
631 int	cpu_flagged_active(cpu_flag_t); /* flags show CPU scheduling threads */
632 int	cpu_flagged_offline(cpu_flag_t); /* flags show CPU is offline */
633 int	cpu_flagged_poweredoff(cpu_flag_t); /* flags show CPU is powered off */
634 
635 /*
636  * The processor_info(2) state of a CPU is a simplified representation suitable
637  * for use by an application program.  Kernel subsystems should utilize the
638  * internal per-CPU state as given by the cpu_flags member of the cpu structure,
639  * as this information may include platform- or architecture-specific state
640  * critical to a subsystem's disposition of a particular CPU.
641  */
642 void	cpu_set_state(cpu_t *);		/* record/timestamp current state */
643 int	cpu_get_state(cpu_t *);		/* get current cpu state */
644 const char *cpu_get_state_str(cpu_t *);	/* get current cpu state as string */
645 
646 int	cpu_configure(int);
647 int	cpu_unconfigure(int);
648 void	cpu_destroy_bound_threads(cpu_t *cp);
649 
650 extern int cpu_bind_thread(kthread_t *tp, processorid_t bind,
651     processorid_t *obind, int *error);
652 extern int cpu_unbind(processorid_t cpu_id);
653 extern void thread_affinity_set(kthread_t *t, int cpu_id);
654 extern void thread_affinity_clear(kthread_t *t);
655 extern void affinity_set(int cpu_id);
656 extern void affinity_clear(void);
657 extern void init_cpu_mstate(struct cpu *, int);
658 extern void term_cpu_mstate(struct cpu *);
659 extern void new_cpu_mstate(int, hrtime_t);
660 extern void get_cpu_mstate(struct cpu *, hrtime_t *);
661 extern void thread_nomigrate(void);
662 extern void thread_allowmigrate(void);
663 extern void weakbinding_stop(void);
664 extern void weakbinding_start(void);
665 
666 /*
667  * The following routines affect the CPUs participation in interrupt processing,
668  * if that is applicable on the architecture.  This only affects interrupts
669  * which aren't directed at the processor (not cross calls).
670  *
671  * cpu_disable_intr returns non-zero if interrupts were previously enabled.
672  */
673 int	cpu_disable_intr(struct cpu *cp); /* stop issuing interrupts to cpu */
674 void	cpu_enable_intr(struct cpu *cp); /* start issuing interrupts to cpu */
675 
676 /*
677  * The mutex cpu_lock protects cpu_flags for all CPUs, as well as the ncpus
678  * and ncpus_online counts.
679  */
680 extern kmutex_t	cpu_lock;	/* lock protecting CPU data */
681 
682 typedef enum {
683 	CPU_INIT,
684 	CPU_CONFIG,
685 	CPU_UNCONFIG,
686 	CPU_ON,
687 	CPU_OFF,
688 	CPU_CPUPART_IN,
689 	CPU_CPUPART_OUT
690 } cpu_setup_t;
691 
692 typedef int cpu_setup_func_t(cpu_setup_t, int, void *);
693 
694 /*
695  * Routines used to register interest in cpu's being added to or removed
696  * from the system.
697  */
698 extern void register_cpu_setup_func(cpu_setup_func_t *, void *);
699 extern void unregister_cpu_setup_func(cpu_setup_func_t *, void *);
700 extern void cpu_state_change_notify(int, cpu_setup_t);
701 
702 /*
703  * Create various strings that describe the given CPU for the
704  * processor_info system call and configuration-related kstats.
705  */
706 #define	CPU_IDSTRLEN	100
707 
708 extern void init_cpu_info(struct cpu *);
709 extern void cpu_vm_data_init(struct cpu *);
710 extern void cpu_vm_data_destroy(struct cpu *);
711 
712 #endif	/* _KERNEL */
713 
714 #ifdef	__cplusplus
715 }
716 #endif
717 
718 #endif /* _SYS_CPUVAR_H */
719