2 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
4 * @APPLE_LICENSE_HEADER_START@
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
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10 * http://www.apple.com/publicsource and read it before using this file.
12 * This Original Code and all software distributed under the License are
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14 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
15 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
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22 /* Copyright (c) 1995 NeXT Computer, Inc. All Rights Reserved */
24 * Copyright (c) 1982, 1986, 1991, 1993
25 * The Regents of the University of California. All rights reserved.
26 * (c) UNIX System Laboratories, Inc.
27 * All or some portions of this file are derived from material licensed
28 * to the University of California by American Telephone and Telegraph
29 * Co. or Unix System Laboratories, Inc. and are reproduced herein with
30 * the permission of UNIX System Laboratories, Inc.
32 * Redistribution and use in source and binary forms, with or without
33 * modification, are permitted provided that the following conditions
35 * 1. Redistributions of source code must retain the above copyright
36 * notice, this list of conditions and the following disclaimer.
37 * 2. Redistributions in binary form must reproduce the above copyright
38 * notice, this list of conditions and the following disclaimer in the
39 * documentation and/or other materials provided with the distribution.
40 * 3. All advertising materials mentioning features or use of this software
41 * must display the following acknowledgement:
42 * This product includes software developed by the University of
43 * California, Berkeley and its contributors.
44 * 4. Neither the name of the University nor the names of its contributors
45 * may be used to endorse or promote products derived from this software
46 * without specific prior written permission.
48 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
49 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
50 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
51 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
52 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
53 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
54 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
55 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
56 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
57 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
60 * @(#)kern_clock.c 8.5 (Berkeley) 1/21/94
66 #include <machine/spl.h>
68 #include <sys/param.h>
69 #include <sys/systm.h>
71 #include <sys/resourcevar.h>
72 #include <sys/kernel.h>
73 #include <sys/resource.h>
74 #include <sys/proc_internal.h>
76 #include <sys/sysctl.h>
82 #include <kern/thread.h>
84 #include <kern/assert.h>
85 #include <mach/boolean.h>
87 #include <kern/thread_call.h>
89 void bsd_uprofil(struct time_value
*syst
, user_addr_t pc
);
90 void get_procrustime(time_value_t
*tv
);
91 int sysctl_clockrate(user_addr_t where
, size_t *sizep
);
92 int tvtohz(struct timeval
*tv
);
93 extern void psignal_sigprof(struct proc
*);
94 extern void psignal_vtalarm(struct proc
*);
95 extern void psignal_xcpu(struct proc
*);
98 * Clock handling routines.
100 * This code is written to operate with two timers which run
101 * independently of each other. The main clock, running at hz
102 * times per second, is used to do scheduling and timeout calculations.
103 * The second timer does resource utilization estimation statistically
104 * based on the state of the machine phz times a second. Both functions
105 * can be performed by a single clock (ie hz == phz), however the
106 * statistics will be much more prone to errors. Ideally a machine
107 * would have separate clocks measuring time spent in user state, system
108 * state, interrupt state, and idle state. These clocks would allow a non-
109 * approximate measure of resource utilization.
113 * The hz hardware interval timer.
114 * We update the events relating to real time.
115 * If this timer is also being used to gather statistics,
116 * we run through the statistics gathering routine as well.
119 int hz
= 100; /* GET RID OF THIS !!! */
120 int tick
= (1000000 / 100); /* GET RID OF THIS !!! */
122 int bsd_hardclockinit
= 0;
135 register struct proc
*p
;
136 register thread_t thread
;
137 int nusecs
= numticks
* tick
;
140 if (!bsd_hardclockinit
)
143 if (bsd_hardclockinit
< 0) {
147 thread
= current_thread();
149 * Charge the time out based on the mode the cpu is in.
150 * Here again we fudge for the lack of proper interval timers
151 * assuming that the current state has been around at least
154 p
= (struct proc
*)current_proc();
155 if (p
&& ((p
->p_flag
& P_WEXIT
) == 0)) {
157 if (p
->p_stats
&& p
->p_stats
->p_prof
.pr_scale
) {
158 p
->p_flag
|= P_OWEUPC
;
163 * CPU was in user state. Increment
164 * user time counter, and process process-virtual time
168 timerisset(&p
->p_stats
->p_timer
[ITIMER_VIRTUAL
].it_value
) &&
169 !itimerdecr(&p
->p_stats
->p_timer
[ITIMER_VIRTUAL
], nusecs
)) {
171 /* does psignal(p, SIGVTALRM) in a thread context */
172 thread_call_func((thread_call_func_t
)psignal_vtalarm
, p
, FALSE
);
177 * If the cpu is currently scheduled to a process, then
178 * charge it with resource utilization for a tick, updating
179 * statistics which run in (user+system) virtual time,
180 * such as the cpu time limit and profiling timers.
181 * This assumes that the current process has been running
182 * the entire last tick.
184 if (!is_thread_idle(thread
)) {
186 p
->p_limit
->pl_rlimit
[RLIMIT_CPU
].rlim_cur
!= RLIM_INFINITY
) {
187 time_value_t sys_time
, user_time
;
189 thread_read_times(thread
, &user_time
, &sys_time
);
190 if ((sys_time
.seconds
+ user_time
.seconds
+ 1) >
191 p
->p_limit
->pl_rlimit
[RLIMIT_CPU
].rlim_cur
) {
193 /* does psignal(p, SIGXCPU) in a thread context */
194 thread_call_func((thread_call_func_t
)psignal_xcpu
, p
, FALSE
);
196 if (p
->p_limit
->pl_rlimit
[RLIMIT_CPU
].rlim_cur
<
197 p
->p_limit
->pl_rlimit
[RLIMIT_CPU
].rlim_max
)
198 p
->p_limit
->pl_rlimit
[RLIMIT_CPU
].rlim_cur
+= 5;
201 if (timerisset(&p
->p_stats
->p_timer
[ITIMER_PROF
].it_value
) &&
202 !itimerdecr(&p
->p_stats
->p_timer
[ITIMER_PROF
], nusecs
)) {
204 /* does psignal(p, SIGPROF) in a thread context */
205 thread_call_func((thread_call_func_t
)psignal_sigprof
, p
, FALSE
);
212 * Gather some statistics.
214 gatherstats(usermode
, pc
);
219 * Gather some statistics.
228 __unused boolean_t usermode
,
236 struct gmonparam
*p
= &_gmonparam
;
238 if (p
->state
== GMON_PROF_ON
) {
242 if (s
< p
->textsize
) {
243 s
/= (HISTFRACTION
* sizeof(*p
->kcount
));
253 * Kernel timeout services.
259 * fcn: function to call
260 * param: parameter to pass to function
261 * interval: timeout interval, in hz.
271 clock_interval_to_deadline(interval
, NSEC_PER_SEC
/ hz
, &deadline
);
272 thread_call_func_delayed((thread_call_func_t
)fcn
, param
, deadline
);
280 register timeout_fcn_t fcn
,
281 register void *param
)
283 thread_call_func_cancel((thread_call_func_t
)fcn
, param
, FALSE
);
290 * fcn: function to call
291 * param: parameter to pass to function
292 * ts: timeout interval, in timespec
300 uint64_t deadline
= 0;
302 if (ts
&& (ts
->tv_sec
|| ts
->tv_nsec
)) {
303 nanoseconds_to_absolutetime((uint64_t)ts
->tv_sec
* NSEC_PER_SEC
+ ts
->tv_nsec
, &deadline
);
304 clock_absolutetime_interval_to_deadline( deadline
, &deadline
);
306 thread_call_func_delayed((thread_call_func_t
)fcn
, param
, deadline
);
314 register timeout_fcn_t fcn
,
315 register void *param
)
317 thread_call_func_cancel((thread_call_func_t
)fcn
, param
, FALSE
);
322 * Compute number of hz until specified time.
323 * Used to compute third argument to timeout() from an
336 * If number of milliseconds will fit in 32 bit arithmetic,
337 * then compute number of milliseconds to time and scale to
338 * ticks. Otherwise just compute number of hz in time, rounding
339 * times greater than representible to maximum value.
341 * Delta times less than 25 days can be computed ``exactly''.
342 * Maximum value for any timeout in 10ms ticks is 250 days.
344 sec
= tv
->tv_sec
- now
.tv_sec
;
345 if (sec
<= 0x7fffffff / 1000 - 1000)
346 ticks
= ((tv
->tv_sec
- now
.tv_sec
) * 1000 +
347 (tv
->tv_usec
- now
.tv_usec
) / 1000)
349 else if (sec
<= 0x7fffffff / hz
)
358 * Return information about system clocks.
361 sysctl_clockrate(user_addr_t where
, size_t *sizep
)
363 struct clockinfo clkinfo
;
366 * Construct clockinfo structure.
372 return sysctl_rdstruct(where
, sizep
, USER_ADDR_NULL
, &clkinfo
, sizeof(clkinfo
));
377 * Compute number of ticks in the specified amount of time.
380 tvtohz(struct timeval
*tv
)
382 register unsigned long ticks
;
383 register long sec
, usec
;
386 * If the number of usecs in the whole seconds part of the time
387 * difference fits in a long, then the total number of usecs will
388 * fit in an unsigned long. Compute the total and convert it to
389 * ticks, rounding up and adding 1 to allow for the current tick
390 * to expire. Rounding also depends on unsigned long arithmetic
393 * Otherwise, if the number of ticks in the whole seconds part of
394 * the time difference fits in a long, then convert the parts to
395 * ticks separately and add, using similar rounding methods and
396 * overflow avoidance. This method would work in the previous
397 * case but it is slightly slower and assumes that hz is integral.
399 * Otherwise, round the time difference down to the maximum
400 * representable value.
402 * If ints have 32 bits, then the maximum value for any timeout in
403 * 10ms ticks is 248 days.
417 printf("tvotohz: negative time difference %ld sec %ld usec\n",
421 } else if (sec
<= LONG_MAX
/ 1000000)
422 ticks
= (sec
* 1000000 + (unsigned long)usec
+ (tick
- 1))
424 else if (sec
<= LONG_MAX
/ hz
)
426 + ((unsigned long)usec
+ (tick
- 1)) / tick
+ 1;
436 * Start profiling on a process.
438 * Kernel profiling passes kernel_proc which never exits and hence
439 * keeps the profile clock running constantly.
443 register struct proc
*p
;
445 if ((p
->p_flag
& P_PROFIL
) == 0)
446 p
->p_flag
|= P_PROFIL
;
450 * Stop profiling on a process.
454 register struct proc
*p
;
456 if (p
->p_flag
& P_PROFIL
)
457 p
->p_flag
&= ~P_PROFIL
;
461 bsd_uprofil(struct time_value
*syst
, user_addr_t pc
)
463 struct proc
*p
= current_proc();
470 if ( !(p
->p_flag
& P_PROFIL
))
473 st
.tv_sec
= syst
->seconds
;
474 st
.tv_usec
= syst
->microseconds
;
476 tv
= &(p
->p_stats
->p_ru
.ru_stime
);
478 ticks
= ((tv
->tv_sec
- st
.tv_sec
) * 1000 +
479 (tv
->tv_usec
- st
.tv_usec
) / 1000) /
482 addupc_task(p
, pc
, ticks
);
486 get_procrustime(time_value_t
*tv
)
488 struct proc
*p
= current_proc();
493 if ( !(p
->p_flag
& P_PROFIL
))
496 st
= p
->p_stats
->p_ru
.ru_stime
;
498 tv
->seconds
= st
.tv_sec
;
499 tv
->microseconds
= st
.tv_usec
;
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