add memory filesystem initialization

[unix-history] / usr / src / sys / kern / kern_clock.c

diff --git a/usr/src/sys/kern/kern_clock.c b/usr/src/sys/kern/kern_clock.c
index 0af97d9..c8dfcce 100644 (file)
--- a/usr/src/sys/kern/kern_clock.c
+++ b/usr/src/sys/kern/kern_clock.c
@@ -1,27 +1,37 @@
-/*     kern_clock.c    4.57    83/07/01        */
-
-#include "../machine/reg.h"
-#include "../machine/psl.h"
-
-#include "../h/param.h"
-#include "../h/systm.h"
-#include "../h/dk.h"
-#include "../h/callout.h"
-#include "../h/dir.h"
-#include "../h/user.h"
-#include "../h/kernel.h"
-#include "../h/proc.h"
-#include "../h/vm.h"
-#include "../h/text.h"
+/*
+ * Copyright (c) 1982, 1986 Regents of the University of California.
+ * All rights reserved.  The Berkeley software License Agreement
+ * specifies the terms and conditions for redistribution.
+ *
+ *     @(#)kern_clock.c        7.5 (Berkeley) %G%
+ */

 
 

-#ifdef vax
-#include "../vax/mtpr.h"
+#include "param.h"
+#include "systm.h"
+#include "dkstat.h"
+#include "callout.h"
+#include "user.h"
+#include "kernel.h"
+#include "proc.h"
+#include "vm.h"
+#include "text.h"
+
+#include "machine/reg.h"
+#include "machine/psl.h"
+
+#if defined(vax) || defined(tahoe)
+#include "machine/mtpr.h"
+#include "machine/clock.h"

 #endif
 
 #ifdef GPROF
 #endif
 
 #ifdef GPROF

-#include "../h/gprof.h"
+#include "gprof.h"

 #endif
 
 #endif
 

+#define ADJTIME                /* For now... */
+#define        ADJ_TICK 1000
+int    adjtimedelta;
+

 /*
  * Clock handling routines.
  *
 /*
  * Clock handling routines.
  *


@@ -43,6 +53,19 @@
  *     allocate more timeout table slots when table overflows.
  */
 
  *     allocate more timeout table slots when table overflows.
  */
 

+/*
+ * Bump a timeval by a small number of usec's.
+ */
+#define BUMPTIME(t, usec) { \
+       register struct timeval *tp = (t); \
+ \
+       tp->tv_usec += (usec); \
+       if (tp->tv_usec >= 1000000) { \
+               tp->tv_usec -= 1000000; \
+               tp->tv_sec++; \
+       } \
+}
+

 /*
  * The hz hardware interval timer.
  * We update the events relating to real time.
 /*
  * The hz hardware interval timer.
  * We update the events relating to real time.


@@ -56,8 +79,7 @@ hardclock(pc, ps)
 {
        register struct callout *p1;
        register struct proc *p;
 {
        register struct callout *p1;
        register struct proc *p;

-       register int s, cpstate;
-       int needsoft = 0;
+       register int s;

 
        /*
         * Update real-time timeout queue.
 
        /*
         * Update real-time timeout queue.


@@ -73,7 +95,6 @@ hardclock(pc, ps)
        while (p1) {
                if (--p1->c_time > 0)
                        break;
        while (p1) {
                if (--p1->c_time > 0)
                        break;

-               needsoft = 1;

                if (p1->c_time == 0)
                        break;
                p1 = p1->c_next;
                if (p1->c_time == 0)
                        break;
                p1 = p1->c_next;


@@ -86,40 +107,21 @@ hardclock(pc, ps)
         * one tick.
         */
        if (USERMODE(ps)) {
         * one tick.
         */
        if (USERMODE(ps)) {

-               if (u.u_prof.pr_scale)
-                       needsoft = 1;

                /*
                 * CPU was in user state.  Increment
                 * user time counter, and process process-virtual time
                 * interval timer. 
                 */
                /*
                 * CPU was in user state.  Increment
                 * user time counter, and process process-virtual time
                 * interval timer. 
                 */

-               bumptime(&u.u_ru.ru_utime, tick);
+               BUMPTIME(&u.u_ru.ru_utime, tick);

                if (timerisset(&u.u_timer[ITIMER_VIRTUAL].it_value) &&
                    itimerdecr(&u.u_timer[ITIMER_VIRTUAL], tick) == 0)
                        psignal(u.u_procp, SIGVTALRM);
                if (timerisset(&u.u_timer[ITIMER_VIRTUAL].it_value) &&
                    itimerdecr(&u.u_timer[ITIMER_VIRTUAL], tick) == 0)
                        psignal(u.u_procp, SIGVTALRM);

-               if (u.u_procp->p_nice > NZERO)
-                       cpstate = CP_NICE;
-               else
-                       cpstate = CP_USER;

        } else {
                /*
        } else {
                /*

-                * CPU was in system state.  If profiling kernel
-                * increment a counter.  If no process is running
-                * then this is a system tick if we were running
-                * at a non-zero IPL (in a driver).  If a process is running,
-                * then we charge it with system time even if we were
-                * at a non-zero IPL, since the system often runs
-                * this way during processing of system calls.
-                * This is approximate, but the lack of true interval
-                * timers makes doing anything else difficult.
+                * CPU was in system state.

                 */
                 */

-               cpstate = CP_SYS;
-               if (noproc) {
-                       if (BASEPRI(ps))
-                               cpstate = CP_IDLE;
-               } else {
-                       bumptime(&u.u_ru.ru_stime, tick);
-               }
+               if (!noproc)
+                       BUMPTIME(&u.u_ru.ru_stime, tick);

        }
 
        /*
        }
 
        /*


@@ -130,7 +132,7 @@ hardclock(pc, ps)
         * This assumes that the current process has been running
         * the entire last tick.
         */
         * This assumes that the current process has been running
         * the entire last tick.
         */

-       if (noproc == 0 && cpstate != CP_IDLE) {
+       if (noproc == 0) {

                if ((u.u_ru.ru_utime.tv_sec+u.u_ru.ru_stime.tv_sec+1) >
                    u.u_rlimit[RLIMIT_CPU].rlim_cur) {
                        psignal(u.u_procp, SIGXCPU);
                if ((u.u_ru.ru_utime.tv_sec+u.u_ru.ru_stime.tv_sec+1) >
                    u.u_rlimit[RLIMIT_CPU].rlim_cur) {
                        psignal(u.u_procp, SIGXCPU);


@@ -142,7 +144,10 @@ hardclock(pc, ps)
                    itimerdecr(&u.u_timer[ITIMER_PROF], tick) == 0)
                        psignal(u.u_procp, SIGPROF);
                s = u.u_procp->p_rssize;
                    itimerdecr(&u.u_timer[ITIMER_PROF], tick) == 0)
                        psignal(u.u_procp, SIGPROF);
                s = u.u_procp->p_rssize;

-               u.u_ru.ru_idrss += s; u.u_ru.ru_isrss += 0;     /* XXX */
+               u.u_ru.ru_idrss += s;
+#ifdef notdef
+               u.u_ru.ru_isrss += 0;           /* XXX (haven't got this) */
+#endif

                if (u.u_procp->p_textp) {
                        register int xrss = u.u_procp->p_textp->x_rssize;
 
                if (u.u_procp->p_textp) {
                        register int xrss = u.u_procp->p_textp->x_rssize;
 


@@ -192,11 +197,38 @@ hardclock(pc, ps)
         * so we don't keep the relatively high clock interrupt
         * priority any longer than necessary.
         */
         * so we don't keep the relatively high clock interrupt
         * priority any longer than necessary.
         */

-       bumptime(&time, tick);
-       if (needsoft)
-               setsoftclock();
+#ifdef ADJTIME
+       if (adjtimedelta == 0)
+               bumptime(&time, tick);
+       else {
+               if (adjtimedelta < 0) {
+                       bumptime(&time, tick-ADJ_TICK);
+                       adjtimedelta++;
+               } else {
+                       bumptime(&time, tick+ADJ_TICK);
+                       adjtimedelta--;
+               }
+       }
+#else
+       if (timedelta == 0)
+               BUMPTIME(&time, tick)
+       else {
+               register delta;
+
+               if (timedelta < 0) {
+                       delta = tick - tickdelta;
+                       timedelta += tickdelta;
+               } else {
+                       delta = tick + tickdelta;
+                       timedelta -= tickdelta;
+               }
+               BUMPTIME(&time, delta);
+       }
+#endif
+       setsoftclock();

 }
 
 }
 

+int    dk_ndrive = DK_NDRIVE;

 /*
  * Gather statistics on resource utilization.
  *
 /*
  * Gather statistics on resource utilization.
  *


@@ -210,7 +242,7 @@ gatherstats(pc, ps)
        caddr_t pc;
        int ps;
 {
        caddr_t pc;
        int ps;
 {

-       int cpstate, s;
+       register int cpstate, s;

 
        /*
         * Determine what state the cpu is in.
 
        /*
         * Determine what state the cpu is in.


@@ -226,7 +258,14 @@ gatherstats(pc, ps)
        } else {
                /*
                 * CPU was in system state.  If profiling kernel
        } else {
                /*
                 * CPU was in system state.  If profiling kernel

-                * increment a counter.
+                * increment a counter.  If no process is running
+                * then this is a system tick if we were running
+                * at a non-zero IPL (in a driver).  If a process is running,
+                * then we charge it with system time even if we were
+                * at a non-zero IPL, since the system often runs
+                * this way during processing of system calls.
+                * This is approximate, but the lack of true interval
+                * timers makes doing anything else difficult.

                 */
                cpstate = CP_SYS;
                if (noproc && BASEPRI(ps))
                 */
                cpstate = CP_SYS;
                if (noproc && BASEPRI(ps))


@@ -264,7 +303,7 @@ softclock(pc, ps)
                register int (*func)();
                register int a, s;
 
                register int (*func)();
                register int a, s;
 

-               s = spl7();
+               s = splhigh();

                if ((p1 = calltodo.c_next) == 0 || p1->c_time > 0) {
                        splx(s);
                        break;
                if ((p1 = calltodo.c_next) == 0 || p1->c_time > 0) {
                        splx(s);
                        break;


@@ -301,21 +340,6 @@ softclock(pc, ps)
        }
 }
 
        }
 }
 

-/*
- * Bump a timeval by a small number of usec's.
- */
-bumptime(tp, usec)
-       register struct timeval *tp;
-       int usec;
-{
-
-       tp->tv_usec += usec;
-       if (tp->tv_usec >= 1000000) {
-               tp->tv_usec -= 1000000;
-               tp->tv_sec++;
-       }
-}
-

 /*
  * Arrange that (*fun)(arg) is called in t/hz seconds.
  */
 /*
  * Arrange that (*fun)(arg) is called in t/hz seconds.
  */


@@ -325,9 +349,9 @@ timeout(fun, arg, t)
        register int t;
 {
        register struct callout *p1, *p2, *pnew;
        register int t;
 {
        register struct callout *p1, *p2, *pnew;

-       register int s = spl7();
+       register int s = splhigh();

 
 

-       if (t == 0)
+       if (t <= 0)

                t = 1;
        pnew = callfree;
        if (pnew == NULL)
                t = 1;
        pnew = callfree;
        if (pnew == NULL)


@@ -357,7 +381,7 @@ untimeout(fun, arg)
        register struct callout *p1, *p2;
        register int s;
 
        register struct callout *p1, *p2;
        register int s;
 

-       s = spl7();
+       s = splhigh();

        for (p1 = &calltodo; (p2 = p1->c_next) != 0; p1 = p2) {
                if (p2->c_func == fun && p2->c_arg == arg) {
                        if (p2->c_next && p2->c_time > 0)
        for (p1 = &calltodo; (p2 = p1->c_next) != 0; p1 = p2) {
                if (p2->c_func == fun && p2->c_arg == arg) {
                        if (p2->c_next && p2->c_time > 0)


@@ -381,7 +405,7 @@ hzto(tv)
 {
        register long ticks;
        register long sec;
 {
        register long ticks;
        register long sec;

-       int s = spl7();
+       int s = splhigh();

 
        /*
         * If number of milliseconds will fit in 32 bit arithmetic,
 
        /*
         * If number of milliseconds will fit in 32 bit arithmetic,


@@ -419,10 +443,3 @@ profil()
        upp->pr_off = uap->pcoffset;
        upp->pr_scale = uap->pcscale;
 }
        upp->pr_off = uap->pcoffset;
        upp->pr_scale = uap->pcscale;
 }

-
-opause()
-{
-
-       for (;;)
-               sleep((caddr_t)&u, PSLEP);
-}