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

/*
 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
 *
 * @APPLE_LICENSE_HEADER_START@
 * 
 * The contents of this file constitute Original Code as defined in and
 * are subject to the Apple Public Source License Version 1.1 (the
 * "License").  You may not use this file except in compliance with the
 * License.  Please obtain a copy of the License at
 * http://www.apple.com/publicsource and read it before using this file.
 * 
 * This Original Code and all software distributed under the License are
 * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT.  Please see the
 * License for the specific language governing rights and limitations
 * under the License.
 * 
 * @APPLE_LICENSE_HEADER_END@
 */
/*
 * @OSF_COPYRIGHT@
 */
/*
 *	File:		kern/clock.h
 *	Purpose:	Data structures for the kernel alarm clock
 *			facility. This file is used only by kernel
 *			level clock facility routines.
 */

#ifndef	_KERN_CLOCK_H_
#define	_KERN_CLOCK_H_

#include <mach/message.h>
#include <mach/clock_types.h>
#include <mach/mach_time.h>

#include <sys/appleapiopts.h>

#ifdef	__APPLE_API_PRIVATE

#ifdef	MACH_KERNEL_PRIVATE

#include <ipc/ipc_port.h>

/*
 * Actual clock alarm structure. Used for user clock_sleep() and
 * clock_alarm() calls. Alarms are allocated from the alarm free
 * list and entered in time priority order into the active alarm
 * chain of the target clock.
 */
struct	alarm {
	struct	alarm	*al_next;		/* next alarm in chain */
	struct	alarm	*al_prev;		/* previous alarm in chain */
	int				al_status;		/* alarm status */
	mach_timespec_t	al_time;		/* alarm time */
	struct {				/* message alarm data */
		int				type;		/* alarm type */
		ipc_port_t		port;		/* alarm port */
		mach_msg_type_name_t
						port_type;	/* alarm port type */
		struct	clock	*clock;		/* alarm clock */
		void			*data;		/* alarm data */
	} al_alrm;
#define al_type		al_alrm.type
#define al_port		al_alrm.port
#define al_port_type	al_alrm.port_type
#define al_clock	al_alrm.clock
#define al_data		al_alrm.data
	long			al_seqno;		/* alarm sequence number */
};
typedef struct alarm	alarm_data_t;

/* alarm status */
#define ALARM_FREE	0		/* alarm is on free list */
#define	ALARM_SLEEP	1		/* active clock_sleep() */
#define ALARM_CLOCK	2		/* active clock_alarm() */
#define ALARM_DONE	4		/* alarm has expired */

/*
 * Clock operations list structure. Contains vectors to machine
 * dependent clock routines. The routines c_config, c_init, and
 * c_gettime must be implemented for every clock device.
 */
struct	clock_ops {
	int		(*c_config)(void);		/* configuration */

	int		(*c_init)(void);		/* initialize */

	kern_return_t	(*c_gettime)(	/* get time */
				mach_timespec_t			*cur_time);

	kern_return_t	(*c_settime)(	/* set time */
				mach_timespec_t			*clock_time);

	kern_return_t	(*c_getattr)(	/* get attributes */
				clock_flavor_t			flavor,
				clock_attr_t			attr,
				mach_msg_type_number_t	*count);

	kern_return_t	(*c_setattr)(	/* set attributes */
				clock_flavor_t			flavor,
				clock_attr_t			attr,
				mach_msg_type_number_t	count);

	void		(*c_setalrm)(		/* set next alarm */
				mach_timespec_t			*alarm_time);
};
typedef struct clock_ops	*clock_ops_t;
typedef struct clock_ops	clock_ops_data_t;

/*
 * Actual clock object data structure. Contains the machine
 * dependent operations list, clock operations ports, and a
 * chain of pending alarms.
 */
struct	clock {
	clock_ops_t			cl_ops;			/* operations list */
	struct ipc_port		*cl_service;	/* service port */
	struct ipc_port		*cl_control;	/* control port */
	struct	{							/* alarm chain head */
		struct alarm 	*al_next;
	} cl_alarm;
};
typedef struct clock		clock_data_t;

/*
 * Configure the clock system.
 */
extern void		clock_config(void);

/*
 * Initialize the clock system.
 */
extern void		clock_init(void);

extern void		clock_timebase_init(void);

/*
 * Initialize the clock ipc service facility.
 */
extern void		clock_service_create(void);

/*
 * Service clock alarm interrupts. Called from machine dependent
 * layer at splclock(). The clock_id argument specifies the clock,
 * and the clock_time argument gives that clock's current time.
 */
extern void		clock_alarm_intr(
					clock_id_t		clock_id,
					mach_timespec_t	*clock_time);

extern kern_return_t	clock_sleep_internal(
							clock_t			clock,
							sleep_type_t	sleep_type,
							mach_timespec_t	*sleep_time);

typedef void		(*clock_timer_func_t)(
						uint64_t			timestamp);

extern void			clock_set_timer_func(
						clock_timer_func_t	func);

extern void			clock_set_timer_deadline(
						uint64_t			deadline);

extern void			mk_timebase_info(
						uint32_t			*delta,
						uint32_t			*abs_to_ns_numer,
						uint32_t			*abs_to_ns_denom,
						uint32_t			*proc_to_abs_numer,
						uint32_t			*proc_to_abs_denom);

extern uint32_t		clock_set_calendar_adjtime(
						int32_t				*secs,
						int32_t				*microsecs);

extern uint32_t		clock_adjust_calendar(void);

#endif /* MACH_KERNEL_PRIVATE */

extern void			clock_get_calendar_microtime(
						uint32_t			*secs,
						uint32_t			*microsecs);

extern void			clock_get_calendar_nanotime(
						uint32_t			*secs,
						uint32_t			*nanosecs);

extern void			clock_set_calendar_microtime(
						uint32_t			secs,
						uint32_t			microsecs);

extern void			clock_get_system_microtime(
						uint32_t			*secs,
						uint32_t			*microsecs);

extern void			clock_get_system_nanotime(
						uint32_t			*secs,
						uint32_t			*nanosecs);

extern void			clock_adjtime(
						int32_t		*secs,
						int32_t		*microsecs);

extern void			clock_initialize_calendar(void);

extern void			clock_wakeup_calendar(void);

extern void			clock_gettimeofday(
                        uint32_t			*secs,
                        uint32_t			*microsecs);

#endif	/* __APPLE_API_PRIVATE */

#ifdef	__APPLE_API_UNSTABLE

#define MACH_TIMESPEC_SEC_MAX		(0 - 1)
#define MACH_TIMESPEC_NSEC_MAX		(NSEC_PER_SEC - 1)

#define MACH_TIMESPEC_MAX	((mach_timespec_t) {				\
									MACH_TIMESPEC_SEC_MAX,		\
									MACH_TIMESPEC_NSEC_MAX } )
#define MACH_TIMESPEC_ZERO	((mach_timespec_t) { 0, 0 } )

#define ADD_MACH_TIMESPEC_NSEC(t1, nsec)		\
  do {											\
	(t1)->tv_nsec += (clock_res_t)(nsec);		\
	if ((clock_res_t)(nsec) > 0 &&				\
			(t1)->tv_nsec >= NSEC_PER_SEC) {	\
		(t1)->tv_nsec -= NSEC_PER_SEC;			\
		(t1)->tv_sec += 1;						\
	}											\
	else if ((clock_res_t)(nsec) < 0 &&			\
				 (t1)->tv_nsec < 0) {			\
		(t1)->tv_nsec += NSEC_PER_SEC;			\
		(t1)->tv_sec -= 1;						\
	}											\
  } while (0)

#endif	/* __APPLE_API_UNSTABLE */

extern mach_timespec_t	clock_get_system_value(void);

extern mach_timespec_t	clock_get_calendar_value(void);

extern void				clock_timebase_info(
							mach_timebase_info_t	info);

extern void				clock_get_uptime(
							uint64_t		*result);

extern void				clock_interval_to_deadline(
							uint32_t		interval,
							uint32_t		scale_factor,
							uint64_t		*result);

extern void				clock_interval_to_absolutetime_interval(
							uint32_t		interval,
							uint32_t		scale_factor,
							uint64_t		*result);

extern void				clock_absolutetime_interval_to_deadline(
							uint64_t		abstime,
							uint64_t		*result);

extern void				clock_deadline_for_periodic_event(
							uint64_t		interval,
							uint64_t		abstime,
							uint64_t		*deadline);

extern void				clock_delay_for_interval(
							uint32_t		interval,
							uint32_t		scale_factor);

extern void				clock_delay_until(
							uint64_t		deadline);

extern void				absolutetime_to_nanoseconds(
							uint64_t		abstime,
							uint64_t		*result);

extern void             nanoseconds_to_absolutetime(
							uint64_t		nanoseconds,
							uint64_t		*result);

#if		!defined(MACH_KERNEL_PRIVATE) && !defined(ABSOLUTETIME_SCALAR_TYPE)

#include <libkern/OSBase.h>

#define clock_get_uptime(a)		\
	clock_get_uptime(__OSAbsoluteTimePtr(a))

#define clock_interval_to_deadline(a, b, c)		\
	clock_interval_to_deadline((a), (b), __OSAbsoluteTimePtr(c))

#define clock_interval_to_absolutetime_interval(a, b, c)	\
	clock_interval_to_absolutetime_interval((a), (b), __OSAbsoluteTimePtr(c))

#define clock_absolutetime_interval_to_deadline(a, b)	\
	clock_absolutetime_interval_to_deadline(__OSAbsoluteTime(a), __OSAbsoluteTimePtr(b))

#define clock_deadline_for_periodic_event(a, b, c)	\
	clock_deadline_for_periodic_event(__OSAbsoluteTime(a), __OSAbsoluteTime(b), __OSAbsoluteTimePtr(c))

#define clock_delay_until(a)	\
	clock_delay_until(__OSAbsoluteTime(a))

#define absolutetime_to_nanoseconds(a, b)	\
	absolutetime_to_nanoseconds(__OSAbsoluteTime(a), (b))

#define nanoseconds_to_absolutetime(a, b)	\
	nanoseconds_to_absolutetime((a), __OSAbsoluteTimePtr(b))

#define AbsoluteTime_to_scalar(x)	(*(uint64_t *)(x))

/* t1 < = > t2 */
#define CMP_ABSOLUTETIME(t1, t2)				\
	(AbsoluteTime_to_scalar(t1) >				\
		AbsoluteTime_to_scalar(t2)? (int)+1 :	\
	 (AbsoluteTime_to_scalar(t1) <				\
		AbsoluteTime_to_scalar(t2)? (int)-1 : 0))

/* t1 += t2 */
#define ADD_ABSOLUTETIME(t1, t2)				\
	(AbsoluteTime_to_scalar(t1) +=				\
				AbsoluteTime_to_scalar(t2))

/* t1 -= t2 */
#define SUB_ABSOLUTETIME(t1, t2)				\
	(AbsoluteTime_to_scalar(t1) -=				\
				AbsoluteTime_to_scalar(t2))

#define ADD_ABSOLUTETIME_TICKS(t1, ticks)		\
	(AbsoluteTime_to_scalar(t1) +=				\
						(int32_t)(ticks))

#endif

#endif	/* _KERN_CLOCK_H_ */
Commit	Line	Data
1c79356b A	1	/*
	2	* Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
	3	*
	4	* @APPLE_LICENSE_HEADER_START@
	5	*
e5568f75 A	6	* The contents of this file constitute Original Code as defined in and
	7	* are subject to the Apple Public Source License Version 1.1 (the
	8	* "License"). You may not use this file except in compliance with the
	9	* License. Please obtain a copy of the License at
	10	* http://www.apple.com/publicsource and read it before using this file.
1c79356b	11	*
e5568f75 A	12	* This Original Code and all software distributed under the License are
e5568f75 A	13	* distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
1c79356b A	14	* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
1c79356b A	15	* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
e5568f75 A	16	* FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
	17	* License for the specific language governing rights and limitations
	18	* under the License.
1c79356b A	19	*
	20	* @APPLE_LICENSE_HEADER_END@
	21	*/
	22	/*
	23	* @OSF_COPYRIGHT@
	24	*/
	25	/*
	26	* File: kern/clock.h
	27	* Purpose: Data structures for the kernel alarm clock
	28	* facility. This file is used only by kernel
	29	* level clock facility routines.
	30	*/
	31
	32	#ifndef _KERN_CLOCK_H_
	33	#define _KERN_CLOCK_H_
	34
1c79356b A	35	#include <mach/message.h>
	36	#include <mach/clock_types.h>
	37	#include <mach/mach_time.h>
	38
9bccf70c A	39	#include <sys/appleapiopts.h>
	40
	41	#ifdef __APPLE_API_PRIVATE
	42
	43	#ifdef MACH_KERNEL_PRIVATE
	44
1c79356b A	45	#include <ipc/ipc_port.h>
	46
	47	/*
	48	* Actual clock alarm structure. Used for user clock_sleep() and
	49	* clock_alarm() calls. Alarms are allocated from the alarm free
	50	* list and entered in time priority order into the active alarm
	51	* chain of the target clock.
	52	*/
	53	struct alarm {
	54	struct alarm al_next; / next alarm in chain */
	55	struct alarm al_prev; / previous alarm in chain */
	56	int al_status; /* alarm status */
	57	mach_timespec_t al_time; /* alarm time */
	58	struct { /* message alarm data */
	59	int type; /* alarm type */
	60	ipc_port_t port; /* alarm port */
	61	mach_msg_type_name_t
	62	port_type; /* alarm port type */
	63	struct clock clock; / alarm clock */
	64	void data; / alarm data */
	65	} al_alrm;
	66	#define al_type al_alrm.type
	67	#define al_port al_alrm.port
	68	#define al_port_type al_alrm.port_type
	69	#define al_clock al_alrm.clock
	70	#define al_data al_alrm.data
	71	long al_seqno; /* alarm sequence number */
	72	};
	73	typedef struct alarm alarm_data_t;
	74
	75	/* alarm status */
	76	#define ALARM_FREE 0 /* alarm is on free list */
	77	#define ALARM_SLEEP 1 /* active clock_sleep() */
	78	#define ALARM_CLOCK 2 /* active clock_alarm() */
	79	#define ALARM_DONE 4 /* alarm has expired */
	80
	81	/*
	82	* Clock operations list structure. Contains vectors to machine
	83	* dependent clock routines. The routines c_config, c_init, and
	84	* c_gettime must be implemented for every clock device.
	85	*/
	86	struct clock_ops {
	87	int (c_config)(void); / configuration */
	88
	89	int (c_init)(void); / initialize */
	90
	91	kern_return_t (c_gettime)( / get time */
	92	mach_timespec_t *cur_time);
	93
	94	kern_return_t (c_settime)( / set time */
	95	mach_timespec_t *clock_time);
	96
	97	kern_return_t (c_getattr)( / get attributes */
	98	clock_flavor_t flavor,
	99	clock_attr_t attr,
	100	mach_msg_type_number_t *count);
	101
	102	kern_return_t (c_setattr)( / set attributes */
	103	clock_flavor_t flavor,
	104	clock_attr_t attr,
	105	mach_msg_type_number_t count);
	106
	107	void (c_setalrm)( / set next alarm */
	108	mach_timespec_t *alarm_time);
109	};
110	typedef struct clock_ops *clock_ops_t;
111	typedef struct clock_ops clock_ops_data_t;
112
113	/*
114	* Actual clock object data structure. Contains the machine
115	* dependent operations list, clock operations ports, and a
116	* chain of pending alarms.
117	*/
118	struct clock {
119	clock_ops_t cl_ops; /* operations list */
120	struct ipc_port cl_service; / service port */
121	struct ipc_port cl_control; / control port */
122	struct { /* alarm chain head */
123	struct alarm *al_next;
124	} cl_alarm;
125	};
126	typedef struct clock clock_data_t;
127
128	/*
129	* Configure the clock system.
130	*/
131	extern void clock_config(void);
55e303ae	132
1c79356b A	133	/*
	134	* Initialize the clock system.
	135	*/
	136	extern void clock_init(void);
	137
55e303ae A	138	extern void clock_timebase_init(void);
55e303ae A	139
1c79356b A	140	/*
	141	* Initialize the clock ipc service facility.
	142	*/
	143	extern void clock_service_create(void);
	144
	145	/*
	146	* Service clock alarm interrupts. Called from machine dependent
	147	* layer at splclock(). The clock_id argument specifies the clock,
	148	* and the clock_time argument gives that clock's current time.
	149	*/
	150	extern void clock_alarm_intr(
	151	clock_id_t clock_id,
	152	mach_timespec_t *clock_time);
	153
	154	extern kern_return_t clock_sleep_internal(
	155	clock_t clock,
	156	sleep_type_t sleep_type,
	157	mach_timespec_t *sleep_time);
	158
	159	typedef void (*clock_timer_func_t)(
0b4e3aa0	160	uint64_t timestamp);
1c79356b A	161
	162	extern void clock_set_timer_func(
	163	clock_timer_func_t func);
	164
	165	extern void clock_set_timer_deadline(
0b4e3aa0	166	uint64_t deadline);
1c79356b A	167
	168	extern void mk_timebase_info(
	169	uint32_t *delta,
	170	uint32_t *abs_to_ns_numer,
	171	uint32_t *abs_to_ns_denom,
	172	uint32_t *proc_to_abs_numer,
	173	uint32_t *proc_to_abs_denom);
	174
55e303ae A	175	extern uint32_t clock_set_calendar_adjtime(
	176	int32_t *secs,
	177	int32_t *microsecs);
9bccf70c	178
55e303ae	179	extern uint32_t clock_adjust_calendar(void);
9bccf70c	180
1c79356b A	181	#endif /* MACH_KERNEL_PRIVATE */
1c79356b A	182
55e303ae A	183	extern void clock_get_calendar_microtime(
	184	uint32_t *secs,
	185	uint32_t *microsecs);
	186
	187	extern void clock_get_calendar_nanotime(
	188	uint32_t *secs,
	189	uint32_t *nanosecs);
	190
	191	extern void clock_set_calendar_microtime(
	192	uint32_t secs,
	193	uint32_t microsecs);
9bccf70c	194
55e303ae A	195	extern void clock_get_system_microtime(
	196	uint32_t *secs,
	197	uint32_t *microsecs);
	198
	199	extern void clock_get_system_nanotime(
	200	uint32_t *secs,
	201	uint32_t *nanosecs);
	202
	203	extern void clock_adjtime(
	204	int32_t *secs,
	205	int32_t *microsecs);
9bccf70c A	206
	207	extern void clock_initialize_calendar(void);
	208
55e303ae A	209	extern void clock_wakeup_calendar(void);
	210
	211	extern void clock_gettimeofday(
	212	uint32_t *secs,
	213	uint32_t *microsecs);
	214
9bccf70c A	215	#endif /* __APPLE_API_PRIVATE */
	216
	217	#ifdef __APPLE_API_UNSTABLE
	218
1c79356b A	219	#define MACH_TIMESPEC_SEC_MAX (0 - 1)
	220	#define MACH_TIMESPEC_NSEC_MAX (NSEC_PER_SEC - 1)
	221
	222	#define MACH_TIMESPEC_MAX ((mach_timespec_t) { \
	223	MACH_TIMESPEC_SEC_MAX, \
	224	MACH_TIMESPEC_NSEC_MAX } )
	225	#define MACH_TIMESPEC_ZERO ((mach_timespec_t) { 0, 0 } )
	226
	227	#define ADD_MACH_TIMESPEC_NSEC(t1, nsec) \
	228	do { \
	229	(t1)->tv_nsec += (clock_res_t)(nsec); \
	230	if ((clock_res_t)(nsec) > 0 && \
	231	(t1)->tv_nsec >= NSEC_PER_SEC) { \
	232	(t1)->tv_nsec -= NSEC_PER_SEC; \
	233	(t1)->tv_sec += 1; \
	234	} \
	235	else if ((clock_res_t)(nsec) < 0 && \
	236	(t1)->tv_nsec < 0) { \
	237	(t1)->tv_nsec += NSEC_PER_SEC; \
	238	(t1)->tv_sec -= 1; \
	239	} \
	240	} while (0)
	241
9bccf70c A	242	#endif /* __APPLE_API_UNSTABLE */
9bccf70c A	243
1c79356b A	244	extern mach_timespec_t clock_get_system_value(void);
	245
	246	extern mach_timespec_t clock_get_calendar_value(void);
	247
0b4e3aa0 A	248	extern void clock_timebase_info(
	249	mach_timebase_info_t info);
	250
	251	extern void clock_get_uptime(
	252	uint64_t *result);
	253
	254	extern void clock_interval_to_deadline(
	255	uint32_t interval,
	256	uint32_t scale_factor,
	257	uint64_t *result);
	258
	259	extern void clock_interval_to_absolutetime_interval(
	260	uint32_t interval,
	261	uint32_t scale_factor,
	262	uint64_t *result);
	263
	264	extern void clock_absolutetime_interval_to_deadline(
	265	uint64_t abstime,
	266	uint64_t *result);
	267
	268	extern void clock_deadline_for_periodic_event(
	269	uint64_t interval,
	270	uint64_t abstime,
	271	uint64_t *deadline);
	272
	273	extern void clock_delay_for_interval(
	274	uint32_t interval,
	275	uint32_t scale_factor);
	276
	277	extern void clock_delay_until(
	278	uint64_t deadline);
	279
	280	extern void absolutetime_to_nanoseconds(
	281	uint64_t abstime,
	282	uint64_t *result);
	283
	284	extern void nanoseconds_to_absolutetime(
	285	uint64_t nanoseconds,
	286	uint64_t *result);
	287
	288	#if !defined(MACH_KERNEL_PRIVATE) && !defined(ABSOLUTETIME_SCALAR_TYPE)
	289
	290	#include <libkern/OSBase.h>
	291
	292	#define clock_get_uptime(a) \
	293	clock_get_uptime(__OSAbsoluteTimePtr(a))
	294
	295	#define clock_interval_to_deadline(a, b, c) \
	296	clock_interval_to_deadline((a), (b), __OSAbsoluteTimePtr(c))
	297
	298	#define clock_interval_to_absolutetime_interval(a, b, c) \
	299	clock_interval_to_absolutetime_interval((a), (b), __OSAbsoluteTimePtr(c))
	300
	301	#define clock_absolutetime_interval_to_deadline(a, b) \
	302	clock_absolutetime_interval_to_deadline(__OSAbsoluteTime(a), __OSAbsoluteTimePtr(b))
	303
	304	#define clock_deadline_for_periodic_event(a, b, c) \
	305	clock_deadline_for_periodic_event(__OSAbsoluteTime(a), __OSAbsoluteTime(b), __OSAbsoluteTimePtr(c))
	306
	307	#define clock_delay_until(a) \
	308	clock_delay_until(__OSAbsoluteTime(a))
	309
	310	#define absolutetime_to_nanoseconds(a, b) \
	311	absolutetime_to_nanoseconds(__OSAbsoluteTime(a), (b))
312
313	#define nanoseconds_to_absolutetime(a, b) \
314	nanoseconds_to_absolutetime((a), __OSAbsoluteTimePtr(b))
315
1c79356b A	316	#define AbsoluteTime_to_scalar(x) ((uint64_t )(x))
	317
	318	/* t1 < = > t2 */
	319	#define CMP_ABSOLUTETIME(t1, t2) \
	320	(AbsoluteTime_to_scalar(t1) > \
	321	AbsoluteTime_to_scalar(t2)? (int)+1 : \
	322	(AbsoluteTime_to_scalar(t1) < \
	323	AbsoluteTime_to_scalar(t2)? (int)-1 : 0))
	324
	325	/* t1 += t2 */
	326	#define ADD_ABSOLUTETIME(t1, t2) \
	327	(AbsoluteTime_to_scalar(t1) += \
	328	AbsoluteTime_to_scalar(t2))
	329
	330	/* t1 -= t2 */
	331	#define SUB_ABSOLUTETIME(t1, t2) \
	332	(AbsoluteTime_to_scalar(t1) -= \
	333	AbsoluteTime_to_scalar(t2))
	334
	335	#define ADD_ABSOLUTETIME_TICKS(t1, ticks) \
	336	(AbsoluteTime_to_scalar(t1) += \
0b4e3aa0	337	(int32_t)(ticks))
1c79356b	338
0b4e3aa0	339	#endif
1c79356b A	340
1c79356b A	341	#endif /* _KERN_CLOCK_H_ */