xref: /titanic_41/usr/src/man/man4/ts_dptbl.4 (revision fbe82215144da71ed02c3a920667472cc567fafd)
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TS_DPTBL 4 "Oct 15, 2002"
NAME
ts_dptbl - time-sharing dispatcher parameter table
DESCRIPTION

The process scheduler (or dispatcher) is the portion of the kernel that controls allocation of the CPU to processes. The scheduler supports the notion of scheduling classes where each class defines a scheduling policy, used to schedule processes within that class. Associated with each scheduling class is a set of priority queues on which ready to run processes are linked. These priority queues are mapped by the system configuration into a set of global scheduling priorities which are available to processes within the class. (The dispatcher always selects for execution the process with the highest global scheduling priority in the system.) The priority queues associated with a given class are viewed by that class as a contiguous set of priority levels numbered from 0 (lowest priority) to n (highest priority\(ema configuration-dependent value). The set of global scheduling priorities that the queues for a given class are mapped into might not start at zero and might not be contiguous (depending on the configuration).

Processes in the time-sharing class which are running in user mode (or in kernel mode before going to sleep) are scheduled according to the parameters in a time-sharing dispatcher parameter table (ts_dptbl). Processes in the inter-active scheduling class are also scheduled according to the parameters in the time-sharing dispatcher parameter table. (Time-sharing processes and inter-active processes running in kernel mode after sleeping are run within a special range of priorities reserved for such processes and are not affected by the parameters in the ts_dptbl until they return to user mode.) The ts_dptbl consists of an array (config_ts_dptbl[]) of parameter structures (struct tsdpent_t), one for each of the n priority levels used by time-sharing processes and inter-active processes in user mode. The structures are accessed via a pointer, (ts_dptbl), to the array. The properties of a given priority level i are specified by the ith parameter structure in this array (ts_dptbl[ i] ).

A parameter structure consists of the following members. These are also described in the /usr/include/sys/ts.h header. ts_globpri

The global scheduling priority associated with this priority level. The mapping between time-sharing priority levels and global scheduling priorities is determined at boot time by the system configuration. ts_globpri is the only member of the ts_dptbl which cannot be changed with dispadmin(1M).

ts_quantum

The length of the time quantum allocated to processes at this level in ticks (hz). In the high resolution clock mode (hires_tick set to 1), the value of hz is set to 1000. Increase quantums to maintain the same absolute time quantums.

ts_tqexp

Priority level of the new queue on which to place a process running at the current level if it exceeds its time quantum. Normally this field links to a lower priority time-sharing level that has a larger quantum.

ts_slpret

Priority level of the new queue on which to place a process, that was previously in user mode at this level, when it returns to user mode after sleeping. Normally this field links to a higher priority level that has a smaller quantum.

ts_maxwait

A per process counter, ts_dispwait is initialized to zero each time a time-sharing or inter-active process is placed back on the dispatcher queue after its time quantum has expired or when it is awakened (ts_dispwait is not reset to zero when a process is preempted by a higher priority process). This counter is incremented once per second for each process on a dispatcher or sleep queue. If a process' ts_dispwait value exceeds the ts_maxwait value for its level, the process' priority is changed to that indicated by ts_lwait. The purpose of this field is to prevent starvation.

ts_lwait

Move a process to this new priority level if ts_dispwait is greater than ts_maxwait.

An administrator can affect the behavior of the time-sharing portion of the scheduler by reconfiguring the ts_dptbl. Since processes in the time-sharing and inter-active scheduling classes share the same dispatch parameter table (ts_dptbl), changes to this table will affect both scheduling classes. There are two methods available for doing this: reconfigure with a loadable module at boot-time or by using dispadmin(1M) at run-time.

"ts_dptbl Loadable Module"

The ts_dptbl can be reconfigured with a loadable module which contains a new time sharing dispatch table. The module containing the dispatch table is separate from the TS loadable module which contains the rest of the time-sharing and inter-active software. This is the only method that can be used to change the number of time-sharing priority levels or the set of global scheduling priorities used by the time-sharing and inter-active classes. The relevant procedure and source code is described in the REPLACING THE TS_DPTBL LOADABLE MODULE section.

"dispadmin Configuration File"

With the exception of ts_globpri all of the members of the ts_dptbl can be examined and modified on a running system using the dispadmin(1M) command. Invoking dispadmin for the time-sharing or inter-active class allows the administrator to retrieve the current ts_dptbl configuration from the kernel's in-core table, or overwrite the in-core table with values from a configuration file. The configuration file used for input to dispadmin must conform to the specific format described below.

Blank lines are ignored and any part of a line to the right of a # symbol is treated as a comment. The first non-blank, non-comment line must indicate the resolution to be used for interpreting the ts_quantum time quantum values. The resolution is specified as

RES=res

where res is a positive integer between 1 and 1,000,000,000 inclusive and the resolution used is the reciprocal of res in seconds (for example, RES=1000 specifies millisecond resolution). Although very fine (nanosecond) resolution may be specified, the time quantum lengths are rounded up to the next integral multiple of the system clock's resolution.

The remaining lines in the file are used to specify the parameter values for each of the time-sharing priority levels. The first line specifies the parameters for time-sharing level 0, the second line specifies the parameters for time-sharing level 1, etc. There must be exactly one line for each configured time-sharing priority level.

EXAMPLES

Example 1 A Sample From a Configuration File

The following excerpt from a dispadmin configuration file illustrates the format. Note that for each line specifying a set of parameters there is a comment indicating the corresponding priority level. These level numbers indicate priority within the time-sharing and interactive classes, and the mapping between these time-sharing priorities and the corresponding global scheduling priorities is determined by the configuration specified in the ts master file. The level numbers are strictly for the convenience of the administrator reading the file and, as with any comment, they are ignored by dispadmin. dispadmin assumes that the lines in the file are ordered by consecutive, increasing priority level (from 0 to the maximum configured time-sharing priority). The level numbers in the comments should normally agree with this ordering; if for some reason they don't, however, dispadmin is unaffected.

# Time-Sharing Dispatcher Configuration File RES=1000


# ts_quantum ts_tqexp ts_slpret ts_maxwait ts_lwait PRIORITY
# LEVEL
500 0 10 5 10 # 0
500 0 11 5 11 # 1
500 1 12 5 12 # 2
500 1 13 5 13 # 3
500 2 14 5 14 # 4
500 2 15 5 15 # 5
450 3 16 5 16 # 6
450 3 17 5 17 # 7
. . . . . . .
. . . . . . .
. . . . . . .
50 48 59 5 59 # 58
50 49 59 5 59 # 59

Example 2 Replacing The ts_dptbl Loadable Module

In order to change the size of the time sharing dispatch table, the loadable module which contains the dispatch table information will have to be built. It is recommended that you save the existing module before using the following procedure.

1. Place the dispatch table code shown below in a file called ts_dptbl.c An example of this file follows.

2. Compile the code using the given compilation and link lines supplied.

cc -c -0 -D_KERNEL
ts_dptbl.c
ld -r -o TS_DPTBL ts_dptbl.o

3. Copy the current dispatch table in /kernel/sched to TS_DPTBL.bak.

4. Replace the current TS_DPTBL in /kernel/sched.

5. You will have to make changes in the /etc/system file to reflect the changes to the sizes of the tables. See system(4). The two variables affected are ts_maxupri and ts_maxkmdpri. The syntax for setting these is as follows:

set TS:ts_maxupri=(value for max time-sharing user priority)
set TS:ts_maxkmdpri=(number of kernel mode priorities - 1)

6. Reboot the system to use the new dispatch table.

Great care should be used in replacing the dispatch table using this method. If you do not get it right, panics may result, thus making the system unusable.

The following is an example of a ts_dptbl.c file used for building the new ts_dptbl.

/* BEGIN ts_dptbl.c */
#include <sys/proc.h>
#include <sys/priocntl.h>
#include <sys/class.h>
#include <sys/disp.h>
#include <sys/ts.h>
#include <sys/rtpriocntl.h>
/*
 * This is the loadable module wrapper.
 */
#include <sys/modctl.h>
extern struct mod_ops mod_miscops;
/*
 * Module linkage information for the kernel.
 */
static struct modlmisc modlmisc = {
 &mod_miscops, "Time sharing dispatch table"
};
static struct modlinkage modlinkage = {
 MODREV_1, &modlmisc, 0
};
_init()
{
 return (mod_install(&modlinkage));
}
_info(modinfop)
 struct modinfo *modinfop;
{
 return (mod_info(&modlinkage, modinfop));
}
/*
 * array of global priorities used by ts procs sleeping or
 * running in kernel mode after sleep. Must have at least
 * 40 values.
 */
pri_t config_ts_kmdpris[] = {
 60,61,62,63,64,65,66,67,68,69,
 70,71,72,73,74,75,76,77,78,79,
 80,81,82,83,84,85,86,87,88,89,
 90,91,92,93,94,95,96,97,98,99,
};
tsdpent_t config_ts_dptbl[] = {

/* glbpri qntm tqexp slprt mxwt lwt */

 0, 100, 0, 10, 5, 10,
 1, 100, 0, 11, 5, 11,
 2, 100, 1, 12, 5, 12,
 3, 100, 1, 13, 5, 13,
 4, 100, 2, 14, 5, 14
 5, 100, 2, 15, 5, 15,
 6, 100, 3, 16, 5, 16,
 7, 100, 3, 17, 5, 17,
 8, 100, 4, 18, 5, 18,
 9, 100, 4, 19, 5, 19,
 10, 80, 5, 20, 5, 20,
 11, 80, 5, 21, 5, 21,
 12, 80, 6, 22, 5, 22,
 13, 80, 6, 23, 5, 23,
 14, 80, 7, 24, 5, 24,
 15, 80, 7, 25, 5, 25,
 16, 80, 8, 26, 5, 26,
 17, 80, 8, 27, 5, 27,
 18, 80, 9, 28, 5, 28,
 19, 80, 9, 29, 5, 29,
 20, 60, 10, 30, 5, 30,
 21, 60, 11, 31, 5, 31,
 22, 60, 12, 32, 5, 33,
 24, 60, 14, 34, 5, 34,
 25, 60, 15, 35, 5, 35,
 26, 60, 16, 36, 5, 36,
 27, 60, 17, 37, 5, 37,
 28, 60, 18, 38, 5, 38,
 29, 60, 19, 39, 5, 39,
 30, 40, 20, 40, 5, 40,
 31, 40, 21, 41, 5, 41,
 32, 40, 22, 42, 5, 42,
 33, 40, 23, 43, 5, 43,
 34, 40, 24, 44, 5, 44,
 35, 40, 25, 45, 5, 45,
 36, 40, 26, 46, 5, 46,
 37, 40, 27, 47, 5, 47,
 38, 40, 28, 48, 5, 48,
 39, 40, 29, 49, 5, 49,
 40, 20, 30, 50, 5, 50,
 41, 20, 31, 50, 5, 50,
 42, 20, 32, 51, 5, 51,
 43, 20, 33, 51, 5, 51,
 44, 20, 34, 52, 5, 52,
 45, 20, 35, 52, 5, 52,
 46, 20, 36, 53, 5, 53,
 47, 20 37, 53, 5, 53,
 48, 20, 38, 54, 5, 54,
 49, 20, 39, 54, 5, 54,
 50, 10, 40, 55, 5, 55,
 51, 10, 41, 55, 5, 55,
 52, 10, 42, 56, 5, 56,
 53, 10, 43, 56, 5, 56,
 54, 10, 44, 57, 5, 57,
 55, 10, 45, 57, 5, 57,
 56, 10, 46, 58, 5, 58,
 57, 10, 47, 58, 5, 58,
 58, 10, 48, 59, 5, 59,
 59, 10, 49, 59, 5, 59,

};

short config_ts_maxumdpri = sizeof (config_ts_dptbl)/16 - 1;
/*
 * Return the address of config_ts_dptbl
 */
tsdpent_t *
ts_getdptbl()
{
 return (config_ts_dptbl);
}

/*
 * Return the address of config_ts_kmdpris
 */
 int *
 ts_getkmdpris()
{
 return (config_ts_kmdpris);
}

/*
 * Return the address of ts_maxumdpri
 */
short
ts_getmaxumdpri()
{
 return (config_ts_maxumdpri);
}

/* END ts_dptbl.c */
SEE ALSO

priocntl(1), dispadmin(1M), priocntl(2), system(4)

System Administration Guide: Basic Administration

Programming Interfaces Guide

NOTES

dispadmin does some limited sanity checking on the values supplied in the configuration file. The sanity checking is intended to ensure that the new ts_dptbl values do not cause the system to panic. The sanity checking does not attempt to analyze the effect that the new values will have on the performance of the system. Unusual ts_dptbl configurations may have a dramatic negative impact on the performance of the system.

No sanity checking is done on the ts_dptbl values specified in the TS_DPTBL loadable module. Specifying an inconsistent or nonsensical ts_dptbl configuration through the TS_DPTBL loadable module could cause serious performance problems and/or cause the system to panic.