xref: /freebsd/usr.bin/systat/systat.1 (revision fcb560670601b2a4d87bb31d7531c8dcc37ee71b)
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28.\"	@(#)systat.1	8.2 (Berkeley) 12/30/93
29.\" $FreeBSD$
30.\"
31.Dd July 15, 2013
32.Dt SYSTAT 1
33.Os
34.Sh NAME
35.Nm systat
36.Nd display system statistics
37.Sh SYNOPSIS
38.Nm
39.Op Fl display
40.Op Ar display-commands
41.Op Ar refresh-interval
42.Sh DESCRIPTION
43The
44.Nm
45utility displays various system statistics in a screen oriented fashion
46using the curses screen display library,
47.Xr ncurses 3 .
48.Pp
49While
50.Nm
51is running the screen is usually divided into two windows (an exception
52is the vmstat display which uses the entire screen).
53The
54upper window depicts the current system load average.
55The
56information displayed in the lower window may vary, depending on
57user commands.
58The last line on the screen is reserved for user
59input and error messages.
60.Pp
61By default
62.Nm
63displays the processes getting the largest percentage of the processor
64in the lower window.
65Other displays show swap space usage, disk
66.Tn I/O
67statistics (a la
68.Xr iostat 8 ) ,
69virtual memory statistics (a la
70.Xr vmstat 8 ) ,
71.Tn TCP/IP
72statistics,
73and network connections (a la
74.Xr netstat 1 ) .
75.Pp
76Input is interpreted at two different levels.
77A ``global'' command interpreter processes all keyboard input.
78If this command interpreter fails to recognize a command, the
79input line is passed to a per-display command interpreter.
80This
81allows each display to have certain display-specific commands.
82.Pp
83Command line options:
84.Bl -tag -width "refresh_interval"
85.It Fl Ns Ar display
86The
87.Fl
88flag expects
89.Ar display
90to be one of:
91.Ic icmp ,
92.Ic icmp6 ,
93.Ic ifstat ,
94.Ic iostat ,
95.Ic ip ,
96.Ic ip6 ,
97.Ic netstat ,
98.Ic pigs ,
99.Ic swap ,
100.Ic tcp ,
101or
102.Ic vmstat .
103These displays can also be requested interactively (without the
104.Dq Fl )
105and are described in
106full detail below.
107.It Ar refresh-interval
108The
109.Ar refresh-value
110specifies the screen refresh time interval in seconds.
111Time interval can be fractional.
112.It Ar display-commands
113A list of commands specific for this display. These commands can also
114be entered interactively and are described for each display separately
115below. If the command of the display requires an argument or arguments,
116it is possible to specify them as separate command line argument. To finish
117display commands it is possible to use double dash at the end
118of the list. For example:
119.Pp
120.Dl Nm Fl ifstat Fl match Ar bge0,em1 Fl pps
121.Pp
122This will display statistics of packets per second for network interfaces
123named as bge0 and em1.
124.Pp
125.Dl Nm Fl iostat Fl numeric Fl - Ar 2.1
126.Pp
127This will display all IO statistics in a numeric format and the information
128will be refreshed each 2.1 seconds.
129.El
130.Pp
131Certain characters cause immediate action by
132.Nm .
133These are
134.Bl -tag -width Fl
135.It Ic \&^L
136Refresh the screen.
137.It Ic \&^G
138Print the name of the current ``display'' being shown in
139the lower window and the refresh interval.
140.It Ic \&:
141Move the cursor to the command line and interpret the input
142line typed as a command.
143While entering a command the
144current character erase, word erase, and line kill characters
145may be used.
146.El
147.Pp
148The following commands are interpreted by the ``global''
149command interpreter.
150.Bl -tag -width Fl
151.It Ic help
152Print the names of the available displays on the command line.
153.It Ic load
154Print the load average over the past 1, 5, and 15 minutes
155on the command line.
156.It Ic stop
157Stop refreshing the screen.
158.It Xo
159.Op Ic start
160.Op Ar number
161.Xc
162Start (continue) refreshing the screen.
163If a second, numeric,
164argument is provided it is interpreted as a refresh interval
165(in seconds).
166Supplying only a number will set the refresh interval to this
167value.
168.It Ic quit
169Exit
170.Nm .
171(This may be abbreviated to
172.Ic q . )
173.El
174.Pp
175The available displays are:
176.Bl -tag -width Ic
177.It Ic pigs
178Display, in the lower window, those processes resident in main
179memory and getting the
180largest portion of the processor (the default display).
181When less than 100% of the
182processor is scheduled to user processes, the remaining time
183is accounted to the ``idle'' process.
184.It Ic icmp
185Display, in the lower window, statistics about messages received and
186transmitted by the Internet Control Message Protocol
187.Pq Dq Tn ICMP .
188The left half of the screen displays information about received
189packets, and the right half displays information regarding transmitted
190packets.
191.Pp
192The
193.Ic icmp
194display understands two commands:
195.Ic mode
196and
197.Ic reset .
198The
199.Ic mode
200command is used to select one of four display modes, given as its argument:
201.Bl -tag -width absoluteXX -compact
202.It Ic rate :
203show the rate of change of each value in packets (the default)
204per second
205.It Ic delta :
206show the rate of change of each value in packets per refresh interval
207.It Ic since :
208show the total change of each value since the display was last reset
209.It Ic absolute :
210show the absolute value of each statistic
211.El
212.Pp
213The
214.Ic reset
215command resets the baseline for
216.Ic since
217mode.
218The
219.Ic mode
220command with no argument will display the current mode in the command
221line.
222.It Ic icmp6
223This display is like the
224.Ic icmp
225display,
226but displays statistics for IPv6 ICMP.
227.It Ic ip
228Otherwise identical to the
229.Ic icmp
230display, except that it displays
231.Tn IP
232and
233.Tn UDP
234statistics.
235.It Ic ip6
236Like the
237.Ic ip
238display,
239except that it displays
240.Tn IPv6
241statistics.
242It does not display
243.Tn UDP statistics.
244.It Ic tcp
245Like
246.Ic icmp ,
247but with
248.Tn TCP
249statistics.
250.It Ic iostat
251Display, in the lower window, statistics about processor use
252and disk throughput.
253Statistics on processor use appear as
254bar graphs of the amount of time executing in user mode (``user''),
255in user mode running low priority processes (``nice''), in
256system mode (``system''), in interrupt mode (``interrupt''),
257and idle (``idle'').
258Statistics
259on disk throughput show, for each drive, megabytes per second,
260average number of disk transactions per second, and
261average kilobytes of data per transaction.
262This information may be
263displayed as bar graphs or as rows of numbers which scroll downward.
264Bar
265graphs are shown by default.
266.Pp
267The following commands are specific to the
268.Ic iostat
269display; the minimum unambiguous prefix may be supplied.
270.Pp
271.Bl -tag -width Fl -compact
272.It Cm numbers
273Show the disk
274.Tn I/O
275statistics in numeric form.
276Values are
277displayed in numeric columns which scroll downward.
278.It Cm bars
279Show the disk
280.Tn I/O
281statistics in bar graph form (default).
282.It Cm kbpt
283Toggle the display of kilobytes per transaction.
284(the default is to
285not display kilobytes per transaction).
286.El
287.It Ic swap
288Show information about swap space usage on all the
289swap areas compiled into the kernel.
290The first column is the device name of the partition.
291The next column is the total space available in the partition.
292The
293.Ar Used
294column indicates the total blocks used so far;
295the graph shows the percentage of space in use on each partition.
296If there are more than one swap partition in use,
297a total line is also shown.
298Areas known to the kernel, but not in use are shown as not available.
299.It Ic vmstat
300Take over the entire display and show a (rather crowded) compendium
301of statistics related to virtual memory usage, process scheduling,
302device interrupts, system name translation caching, disk
303.Tn I/O
304etc.
305.Pp
306The upper left quadrant of the screen shows the number
307of users logged in and the load average over the last one, five,
308and fifteen minute intervals.
309Below this line are statistics on memory utilization.
310The first row of the table reports memory usage only among
311active processes, that is processes that have run in the previous
312twenty seconds.
313The second row reports on memory usage of all processes.
314The first column reports on the number of kilobytes in physical pages
315claimed by processes.
316The second column reports the number of kilobytes in physical pages that
317are devoted to read only text pages.
318The third and fourth columns report the same two figures for
319virtual pages, that is the number of kilobytes in pages that would be
320needed if all processes had all of their pages.
321Finally the last column shows the number of kilobytes in physical pages
322on the free list.
323.Pp
324Below the memory display is a list of the
325average number of processes (over the last refresh interval)
326that are runnable (`r'), in page wait (`p'),
327in disk wait other than paging (`d'),
328sleeping (`s'), and swapped out but desiring to run (`w').
329The row also shows the average number of context switches
330(`Csw'), traps (`Trp'; includes page faults), system calls (`Sys'),
331interrupts (`Int'), network software interrupts (`Sof'), and page
332faults (`Flt').
333.Pp
334Below the process queue length listing is a numerical listing and
335a bar graph showing the amount of
336system (shown as `='), interrupt (shown as `+'), user (shown as `>'),
337nice (shown as `-'), and idle time (shown as ` ').
338.Pp
339Below the process display are statistics on name translations.
340It lists the number of names translated in the previous interval,
341the number and percentage of the translations that were
342handled by the system wide name translation cache, and
343the number and percentage of the translations that were
344handled by the per process name translation cache.
345.Pp
346To the right of the name translations display are lines showing
347the number of dirty buffers in the buffer cache (`dtbuf'),
348desired maximum size of vnode cache (`desvn'),
349number of vnodes actually allocated (`numvn'),
350and
351number of allocated vnodes that are free (`frevn').
352.Pp
353At the bottom left is the disk usage display.
354It reports the number of
355kilobytes per transaction, transactions per second, megabytes
356per second and the percentage of the time the disk was busy averaged
357over the refresh period of the display (by default, five seconds).
358The system keeps statistics on most every storage device.
359In general, up
360to seven devices are displayed.
361The devices displayed by default are the
362first devices in the kernel's device list.
363See
364.Xr devstat 3
365and
366.Xr devstat 9
367for details on the devstat system.
368.Pp
369Under the date in the upper right hand quadrant are statistics
370on paging and swapping activity.
371The first two columns report the average number of pages
372brought in and out per second over the last refresh interval
373due to page faults and the paging daemon.
374The third and fourth columns report the average number of pages
375brought in and out per second over the last refresh interval
376due to swap requests initiated by the scheduler.
377The first row of the display shows the average
378number of disk transfers per second over the last refresh interval;
379the second row of the display shows the average
380number of pages transferred per second over the last refresh interval.
381.Pp
382Below the paging statistics is a column of lines regarding the virtual
383memory system.
384The first few lines describe,
385in units (except as noted below)
386of pages per second averaged over the sampling interval,
387pages copied on write (`cow'),
388pages zero filled on demand (`zfod'),
389pages optimally zero filled on demand (`ozfod'),
390the ratio of the (average) ozfod / zfod as a percentage (`%ozfod'),
391pages freed by the page daemon (`daefr'),
392pages freed by exiting processes (`prcfr'),
393total pages freed (`totfr'),
394pages reactivated from the free list (`react'),
395the average number of
396times per second that the page daemon was awakened (`pdwak'),
397pages analyzed by the page daemon (`pdpgs'),
398and
399in-transit blocking page faults (`intrn').
400Note that the units are special for `%ozfod' and `pdwak'.
401The next few lines describe,
402as amounts of memory in kilobytes,
403pages wired down (`wire'),
404active pages (`act'),
405inactive pages (`inact'),
406pages on the cache queue (`cache'),
407and
408free pages (`free').
409Note that the values displayed are the current transient ones;
410they are not averages.
411.Pp
412At the bottom of this column is a line showing the
413amount of virtual memory, in kilobytes, mapped into the buffer cache (`buf').
414This statistic is not useful.
415It exists only as a placeholder for the corresponding useful statistic
416(the amount of real memory used to cache disks).
417The most important component of the latter (the amount of real memory
418used by the vm system to cache disks) is not available,
419but can be guessed from the `inact' amount under some system loads.
420.Pp
421Running down the right hand side of the display is a breakdown
422of the interrupts being handled by the system.
423At the top of the list is the total interrupts per second
424over the time interval.
425The rest of the column breaks down the total on a device
426by device basis.
427Only devices that have interrupted at least once since boot time are shown.
428.Pp
429The following commands are specific to the
430.Ic vmstat
431display; the minimum unambiguous prefix may be supplied.
432.Pp
433.Bl -tag -width Ar -compact
434.It Cm boot
435Display cumulative statistics since the system was booted.
436.It Cm run
437Display statistics as a running total from the point this
438command is given.
439.It Cm time
440Display statistics averaged over the refresh interval (the default).
441.It Cm zero
442Reset running statistics to zero.
443.El
444.It Ic netstat
445Display, in the lower window, network connections.
446By default,
447network servers awaiting requests are not displayed.
448Each address
449is displayed in the format ``host.port'', with each shown symbolically,
450when possible.
451It is possible to have addresses displayed numerically,
452limit the display to a set of ports, hosts, and/or protocols
453(the minimum unambiguous prefix may be supplied):
454.Pp
455.Bl -tag -width Ar -compact
456.It Cm all
457Toggle the displaying of server processes awaiting requests (this
458is the equivalent of the
459.Fl a
460flag to
461.Xr netstat 1 ) .
462.It Cm numbers
463Display network addresses numerically.
464.It Cm names
465Display network addresses symbolically.
466.It Cm proto Ar protocol
467Display only network connections using the indicated
468.Ar protocol .
469Supported protocols are ``tcp'', ``udp'', and ``all''.
470.It Cm ignore Op Ar items
471Do not display information about connections associated with
472the specified hosts or ports.
473Hosts and ports may be specified
474by name (``vangogh'', ``ftp''), or numerically.
475Host addresses
476use the Internet dot notation (``128.32.0.9'').
477Multiple items
478may be specified with a single command by separating them with
479spaces.
480.It Cm display Op Ar items
481Display information about the connections associated with the
482specified hosts or ports.
483As for
484.Ar ignore ,
485.Op Ar items
486may be names or numbers.
487.It Cm show Op Ar ports\&|hosts
488Show, on the command line, the currently selected protocols,
489hosts, and ports.
490Hosts and ports which are being ignored
491are prefixed with a `!'.
492If
493.Ar ports
494or
495.Ar hosts
496is supplied as an argument to
497.Cm show ,
498then only the requested information will be displayed.
499.It Cm reset
500Reset the port, host, and protocol matching mechanisms to the default
501(any protocol, port, or host).
502.El
503.It Ic ifstat
504Display the network traffic going through active interfaces on the
505system.
506Idle interfaces will not be displayed until they receive some
507traffic.
508.Pp
509For each interface being displayed, the current, peak and total
510statistics are displayed for incoming and outgoing traffic.
511By default,
512the
513.Ic ifstat
514display will automatically scale the units being used so that they are
515in a human-readable format.
516The scaling units used for the current and
517peak
518traffic columns can be altered by the
519.Ic scale
520command.
521.Bl -tag -width ".Cm scale Op Ar units"
522.It Cm scale Op Ar units
523Modify the scale used to display the current and peak traffic over all
524interfaces.
525The following units are recognised: kbit, kbyte, mbit,
526mbyte, gbit, gbyte and auto.
527.It Cm pps
528Show statistics in packets per second instead of bytes/bits per second.
529A subsequent call of
530.Ic pps
531switches this mode off.
532.It Cm match Op Ar patterns
533Display only interfaces that match pattern provided as an argument.
534Patterns should be in shell syntax separated by whitespaces or commas.
535If this command is called without arguments then all interfaces are displayed.
536For example:
537.Pp
538.Dl match em0, bge1
539.Pp
540This will display em0 and bge1 interfaces.
541.Pp
542.Dl match em*, bge*, lo0
543.Pp
544This will display all
545.Ic em
546interfaces, all
547.Ic bge
548interfaces and the loopback interface.
549.El
550.El
551.Pp
552Commands to switch between displays may be abbreviated to the
553minimum unambiguous prefix; for example, ``io'' for ``iostat''.
554Certain information may be discarded when the screen size is
555insufficient for display.
556For example, on a machine with 10
557drives the
558.Ic iostat
559bar graph displays only 3 drives on a 24 line terminal.
560When
561a bar graph would overflow the allotted screen space it is
562truncated and the actual value is printed ``over top'' of the bar.
563.Pp
564The following commands are common to each display which shows
565information about disk drives.
566These commands are used to
567select a set of drives to report on, should your system have
568more drives configured than can normally be displayed on the
569screen.
570.Pp
571.Bl -tag -width Ar -compact
572.It Cm ignore Op Ar drives
573Do not display information about the drives indicated.
574Multiple
575drives may be specified, separated by spaces.
576.It Cm display Op Ar drives
577Display information about the drives indicated.
578Multiple drives
579may be specified, separated by spaces.
580.It Cm only Op Ar drives
581Display only the specified drives.
582Multiple drives may be specified,
583separated by spaces.
584.It Cm drives
585Display a list of available devices.
586.It Cm match Xo
587.Ar type , Ns Ar if , Ns Ar pass
588.Op | Ar ...
589.Xc
590Display devices matching the given pattern.
591The basic matching
592expressions are the same as those used in
593.Xr iostat 8
594with one difference.
595Instead of specifying multiple
596.Fl t
597arguments which are then ORed together, the user instead specifies multiple
598matching expressions joined by the pipe
599.Pq Ql \&|
600character.
601The comma
602separated arguments within each matching expression are ANDed together, and
603then the pipe separated matching expressions are ORed together.
604Any
605device matching the combined expression will be displayed, if there is room
606to display it.
607For example:
608.Pp
609.Dl match da,scsi | cd,ide
610.Pp
611This will display all SCSI Direct Access devices and all IDE CDROM devices.
612.Pp
613.Dl match da | sa | cd,pass
614.Pp
615This will display all Direct Access devices, all Sequential Access devices,
616and all passthrough devices that provide access to CDROM drives.
617.El
618.Sh FILES
619.Bl -tag -width /boot/kernel/kernel -compact
620.It Pa /boot/kernel/kernel
621For the namelist.
622.It Pa /dev/kmem
623For information in main memory.
624.It Pa /etc/hosts
625For host names.
626.It Pa /etc/networks
627For network names.
628.It Pa /etc/services
629For port names.
630.El
631.Sh SEE ALSO
632.Xr netstat 1 ,
633.Xr kvm 3 ,
634.Xr icmp 4 ,
635.Xr icmp6 4 ,
636.Xr ip 4 ,
637.Xr ip6 4 ,
638.Xr tcp 4 ,
639.Xr udp 4 ,
640.Xr gstat 8 ,
641.Xr iostat 8 ,
642.Xr vmstat 8
643.Sh HISTORY
644The
645.Nm
646program appeared in
647.Bx 4.3 .
648The
649.Ic icmp ,
650.Ic ip ,
651and
652.Ic tcp
653displays appeared in
654.Fx 3.0 ;
655the notion of having different display modes for the
656.Tn ICMP ,
657.Tn IP ,
658.Tn TCP ,
659and
660.Tn UDP
661statistics was stolen from the
662.Fl C
663option to
664.Xr netstat 1
665in Silicon Graphics'
666.Tn IRIX
667system.
668.Sh BUGS
669Certain displays presume a minimum of 80 characters per line.
670The
671.Ic vmstat
672display looks out of place because it is (it was added in as
673a separate display rather than created as a new program).
674