minix/servers/pm/time.c

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/* This file takes care of those system calls that deal with time.
*
* The entry points into this file are
* do_getres: perform the CLOCK_GETRES system call
* do_gettime: perform the CLOCK_GETTIME system call
* do_settime: perform the CLOCK_SETTIME system call
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* do_time: perform the TIME system call
* do_stime: perform the STIME system call
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* do_times: perform the TIMES system call
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*/
#include "pm.h"
#include <minix/callnr.h>
#include <minix/com.h>
#include <signal.h>
#include <sys/time.h>
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#include "mproc.h"
#include "param.h"
/*===========================================================================*
* do_gettime *
*===========================================================================*/
int do_gettime()
{
clock_t ticks, realtime, clock;
time_t boottime;
int s;
if ( (s=getuptime(&ticks, &realtime, &boottime)) != OK)
panic("do_time couldn't get uptime: %d", s);
switch (m_in.clk_id) {
case CLOCK_REALTIME:
clock = realtime;
break;
case CLOCK_MONOTONIC:
clock = ticks;
break;
default:
return EINVAL; /* invalid/unsupported clock_id */
}
mp->mp_reply.reply_time = (time_t) (boottime + (clock / system_hz));
mp->mp_reply.reply_ntime =
(long) ((clock % system_hz) * 1000000000ULL / system_hz);
return(OK);
}
/*===========================================================================*
* do_getres *
*===========================================================================*/
int do_getres()
{
switch (m_in.clk_id) {
case CLOCK_REALTIME:
case CLOCK_MONOTONIC:
/* tv_sec is always 0 since system_hz is an int */
mp->mp_reply.reply_time = (time_t) 0;
mp->mp_reply.reply_ntime = 1000000000 / system_hz;
return(OK);
default:
return EINVAL; /* invalid/unsupported clock_id */
}
}
/*===========================================================================*
* do_settime *
*===========================================================================*/
int do_settime()
{
int s;
if (mp->mp_effuid != SUPER_USER) {
return(EPERM);
}
switch (m_in.clk_id) {
case CLOCK_REALTIME:
s= sys_settime(m_in.settime_now, m_in.clk_id, m_in.time_sec,
m_in.time_nsec);
return(s);
case CLOCK_MONOTONIC: /* monotonic cannot be changed */
default:
return EINVAL; /* invalid/unsupported clock_id */
}
}
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/*===========================================================================*
* do_time *
*===========================================================================*/
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int do_time()
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{
/* Perform the time(tp) system call. This returns the time in seconds since
* 1.1.1970. MINIX is an astrophysically naive system that assumes the earth
* rotates at a constant rate and that such things as leap seconds do not
* exist.
*/
clock_t ticks, realtime;
time_t boottime;
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int s;
if ( (s=getuptime(&ticks, &realtime, &boottime)) != OK)
panic("do_time couldn't get uptime: %d", s);
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mp->mp_reply.reply_time = (time_t) (boottime + (realtime / system_hz));
mp->mp_reply.reply_utime =
(long) ((realtime % system_hz) * 1000000ULL / system_hz);
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return(OK);
}
/*===========================================================================*
* do_stime *
*===========================================================================*/
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int do_stime()
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{
/* Perform the stime(tp) system call. Retrieve the system's uptime (ticks
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* since boot) and pass the new time in seconds at system boot to the kernel.
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*/
clock_t uptime, realtime;
time_t boottime;
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int s;
if (mp->mp_effuid != SUPER_USER) {
return(EPERM);
}
if ( (s=getuptime(&uptime, &realtime, &boottime)) != OK)
panic("do_stime couldn't get uptime: %d", s);
boottime = (long) m_in.stime - (realtime/system_hz);
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s= sys_stime(boottime); /* Tell kernel about boottime */
if (s != OK)
panic("pm: sys_stime failed: %d", s);
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return(OK);
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}
/*===========================================================================*
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* do_times *
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*===========================================================================*/
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int do_times()
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{
/* Perform the times(buffer) system call. */
register struct mproc *rmp = mp;
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clock_t user_time, sys_time, uptime;
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int s;
Rewrite of boot process KERNEL CHANGES: - The kernel only knows about privileges of kernel tasks and the root system process (now RS). - Kernel tasks and the root system process are the only processes that are made schedulable by the kernel at startup. All the other processes in the boot image don't get their privileges set at startup and are inhibited from running by the RTS_NO_PRIV flag. - Removed the assumption on the ordering of processes in the boot image table. System processes can now appear in any order in the boot image table. - Privilege ids can now be assigned both statically or dynamically. The kernel assigns static privilege ids to kernel tasks and the root system process. Each id is directly derived from the process number. - User processes now all share the static privilege id of the root user process (now INIT). - sys_privctl split: we have more calls now to let RS set privileges for system processes. SYS_PRIV_ALLOW / SYS_PRIV_DISALLOW are only used to flip the RTS_NO_PRIV flag and allow / disallow a process from running. SYS_PRIV_SET_SYS / SYS_PRIV_SET_USER are used to set privileges for a system / user process. - boot image table flags split: PROC_FULLVM is the only flag that has been moved out of the privilege flags and is still maintained in the boot image table. All the other privilege flags are out of the kernel now. RS CHANGES: - RS is the only user-space process who gets to run right after in-kernel startup. - RS uses the boot image table from the kernel and three additional boot image info table (priv table, sys table, dev table) to complete the initialization of the system. - RS checks that the entries in the priv table match the entries in the boot image table to make sure that every process in the boot image gets schedulable. - RS only uses static privilege ids to set privileges for system services in the boot image. - RS includes basic memory management support to allocate the boot image buffer dynamically during initialization. The buffer shall contain the executable image of all the system services we would like to restart after a crash. - First step towards decoupling between resource provisioning and resource requirements in RS: RS must know what resources it needs to restart a process and what resources it has currently available. This is useful to tradeoff reliability and resource consumption. When required resources are missing, the process cannot be restarted. In that case, in the future, a system flag will tell RS what to do. For example, if CORE_PROC is set, RS should trigger a system-wide panic because the system can no longer function correctly without a core system process. PM CHANGES: - The process tree built at initialization time is changed to have INIT as root with pid 0, RS child of INIT and all the system services children of RS. This is required to make RS in control of all the system services. - PM no longer registers labels for system services in the boot image. This is now part of RS's initialization process.
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if (OK != (s=sys_times(who_e, &user_time, &sys_time, &uptime, NULL)))
panic("do_times couldn't get times: %d", s);
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rmp->mp_reply.reply_t1 = user_time; /* user time */
rmp->mp_reply.reply_t2 = sys_time; /* system time */
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rmp->mp_reply.reply_t3 = rmp->mp_child_utime; /* child user time */
rmp->mp_reply.reply_t4 = rmp->mp_child_stime; /* child system time */
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rmp->mp_reply.reply_t5 = uptime; /* uptime since boot */
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return(OK);
}