systat — display system statistics on a crt
systat [−display] [refresh-interval]
The systat utility displays various system statistics in a screen oriented fashion using the curses screen display library, ncurses(3).
While systat is running the screen is usually divided into two windows (an exception is the vmstat display which uses the entire screen). The upper window depicts the current system load average. The information displayed in the lower window may vary, depending on user commands. The last line on the screen is reserved for user input and error messages.
By default systat displays the processes getting the largest percentage of the processor in the lower window. Other displays show swap space usage, disk I/O statistics (a la iostat(8)), virtual memory statistics (a la vmstat(8)), network ’’mbuf’’ utilization, TCP/IP statistics, and network connections (a la netstat(1)).
Input is interpreted at two different levels. A ’’global’’ command interpreter processes all keyboard input. If this command interpreter fails to recognize a command, the input line is passed to a per-display command interpreter. This allows each display to have certain display-specific commands.
Command line options:
The − flag expects display to be one of: icmp, icmp6, ifstat, iostat, ip, ip6, mbufs, netstat, pigs, swap, tcp, or vmstat. These displays can also be requested interactively (without the ’’−’’) and are described in full detail below.
The refresh-value specifies the screen refresh time interval in seconds.
Certain characters cause immediate action by systat. These are
Refresh the screen.
Print the name of the current ’’display’’ being shown in the lower window and the refresh interval.
Move the cursor to the command line and interpret the input line typed as a command. While entering a command the current character erase, word erase, and line kill characters may be used.
The following commands are interpreted by the ’’global’’ command interpreter.
Print the names of the available displays on the command line.
Print the load average over the past 1, 5, and 15 minutes on the command line.
Stop refreshing the screen.
Start (continue) refreshing the screen. If a second, numeric, argument is provided it is interpreted as a refresh interval (in seconds). Supplying only a number will set the refresh interval to this value.
Exit systat. (This may be abbreviated to q.)
The available displays are:
Display, in the lower window, those processes resident in main memory and getting the largest portion of the processor (the default display). When less than 100% of the processor is scheduled to user processes, the remaining time is accounted to the ’’idle’’ process.
Display, in the lower window, statistics about messages received and transmitted by the Internet Control Message Protocol (’’ICMP’’). The left half of the screen displays information about received packets, and the right half displays information regarding transmitted packets.
The icmp display understands two commands: mode and reset. The mode command is used to select one of four display modes, given as its argument:
show the rate of change of each value in packets (the default) per second
show the rate of change of each value in packets per refresh interval
show the total change of each value since the display was last reset
show the absolute value of each statistic
The reset command resets the baseline for since mode. The mode command with no argument will display the current mode in the command line.
This display is like the icmp display, but displays statistics for IPv6 ICMP.
Otherwise identical to the icmp display, except that it displays IP and UDP statistics.
Like the ip display, except that it displays IPv6 statics. It does not display UDP statistics.
Like icmp, but with TCP statistics.
Display, in the lower window, statistics about processor use and disk throughput. Statistics on processor use appear as bar graphs of the amount of time executing in user mode (’’user’’), in user mode running low priority processes (’’nice’’), in system mode (’’system’’), in interrupt mode (’’interrupt’’), and idle (’’idle’’). Statistics on disk throughput show, for each drive, megabytes per second, average number of disk transactions per second, and average kilobytes of data per transaction. This information may be displayed as bar graphs or as rows of numbers which scroll downward. Bar graphs are shown by default.
The following commands are specific to the iostat display; the minimum unambiguous prefix may be supplied.
Show the disk I/O statistics in numeric form. Values are displayed in numeric columns which scroll downward.
Show the disk I/O statistics in bar graph form (default).
Toggle the display of kilobytes per transaction. (the default is to not display kilobytes per transaction).
Show information about swap space usage on all the swap areas compiled into the kernel. The first column is the device name of the partition. The next column is the total space available in the partition. The Used column indicates the total blocks used so far; the graph shows the percentage of space in use on each partition. If there are more than one swap partition in use, a total line is also shown. Areas known to the kernel, but not in use are shown as not available.
Display, in the lower window, the number of mbufs allocated for particular uses, i.e., data, socket structures, etc.
Take over the entire display and show a (rather crowded) compendium of statistics related to virtual memory usage, process scheduling, device interrupts, system name translation cacheing, disk I/O etc.
The upper left quadrant of the screen shows the number of users logged in and the load average over the last one, five, and fifteen minute intervals. Below this line are statistics on memory utilization. The first row of the table reports memory usage only among active processes, that is processes that have run in the previous twenty seconds. The second row reports on memory usage of all processes. The first column reports on the number of physical pages claimed by processes. The second column reports the number of physical pages that are devoted to read only text pages. The third and fourth columns report the same two figures for virtual pages, that is the number of pages that would be needed if all processes had all of their pages. Finally the last column shows the number of physical pages on the free list.
Below the memory display is a list of the average number of processes (over the last refresh interval) that are runnable (’r’), in page wait (’p’), in disk wait other than paging (’d’), sleeping (’s’), and swapped out but desiring to run (’w’). The row also shows the average number of context switches (’Csw’), traps (’Trp’; includes page faults), system calls (’Sys’), interrupts (’Int’), network software interrupts (’Sof’), and page faults (’Flt’).
Below the process queue length listing is a numerical listing and a bar graph showing the amount of system (shown as ’=’), interrupt (shown as ’+’), user (shown as ’>’), nice (shown as ’-’), and idle time (shown as ’ ’).
Below the process display are statistics on name translations. It lists the number of names translated in the previous interval, the number and percentage of the translations that were handled by the system wide name translation cache, and the number and percentage of the translations that were handled by the per process name translation cache.
At the bottom left is the disk usage display. It reports the number of kilobytes per transaction, transactions per second, megabytes per second and the percentage of the time the disk was busy averaged over the refresh period of the display (by default, five seconds). The system keeps statistics on most every storage device. In general, up to seven devices are displayed. The devices displayed by default are the first devices in the kernel’s device list. See devstat(3) and devstat(9) for details on the devstat system.
Under the date in the upper right hand quadrant are statistics on paging and swapping activity. The first two columns report the average number of pages brought in and out per second over the last refresh interval due to page faults and the paging daemon. The third and fourth columns report the average number of pages brought in and out per second over the last refresh interval due to swap requests initiated by the scheduler. The first row of the display shows the average number of disk transfers per second over the last refresh interval; the second row of the display shows the average number of pages transferred per second over the last refresh interval.
Below the paging statistics is a column of lines regarding the virtual memory system which list the average number of pages copied on write (’cow’), pages zero filled on demand (’zfod’), slow (on-the-fly) zero fills percentage (’%slo-z’), pages wired down (’wire’), active pages (’act’), inactive pages (’inact’), pages on the buffer cache queue (’cache’), number of free pages (’free’), pages freed by the page daemon (’daefr’), pages freed by exiting processes (’prcfr’), pages reactivated from the free list (’react’), times the page daemon was awakened (’pdwak’), pages analyzed by the page daemon (’pdpgs’), and intransit blocking page faults (’intrn’) per second over the refresh interval.
At the bottom of this column are lines showing the amount of memory, in kilobytes, used for the buffer cache (’buf’), the number of dirty buffers in the buffer cache (’dirtybuf’), desired maximum size of vnode cache (’desiredvnodes’) (mostly unused, except to size the name cache), number of vnodes actually allocated (’numvnodes’), and number of allocated vnodes that are free (’freevnodes’).
Running down the right hand side of the display is a breakdown of the interrupts being handled by the system. At the top of the list is the total interrupts per second over the time interval. The rest of the column breaks down the total on a device by device basis. Only devices that have interrupted at least once since boot time are shown.
The following commands are specific to the vmstat display; the minimum unambiguous prefix may be supplied.
Display cumulative statistics since the system was booted.
Display statistics as a running total from the point this command is given.
Display statistics averaged over the refresh interval (the default).
Toggle the display of fd devices in the disk usage display.
Reset running statistics to zero.
Display, in the lower window, network connections. By default, network servers awaiting requests are not displayed. Each address is displayed in the format ’’host.port’’, with each shown symbolically, when possible. It is possible to have addresses displayed numerically, limit the display to a set of ports, hosts, and/or protocols (the minimum unambiguous prefix may be supplied):
Toggle the displaying of server processes awaiting requests (this is the equivalent of the −a flag to netstat(1)).
Display network addresses numerically.
Display network addresses symbolically.
Display only network connections using the indicated protocol. Supported protocols are ’’tcp’’, ’’udp’’, and ’’all’’.
Do not display information about connections associated with the specified hosts or ports. Hosts and ports may be specified by name (’’vangogh’’, ’’ftp’’), or numerically. Host addresses use the Internet dot notation (’’188.8.131.52’’). Multiple items may be specified with a single command by separating them with spaces.
Display information about the connections associated with the specified hosts or ports. As for ignore, [items] may be names or numbers.
Show, on the command line, the currently selected protocols, hosts, and ports. Hosts and ports which are being ignored are prefixed with a ’!’. If ports or hosts is supplied as an argument to show, then only the requested information will be displayed.
Reset the port, host, and protocol matching mechanisms to the default (any protocol, port, or host).
Display the network traffic going through active interfaces on the system. Idle interfaces will not be displayed until they receive some traffic.
For each interface being displayed, the current, peak and total statistics are displayed for incoming and outgoing traffic. By default, the ifstat display will automatically scale the units being used so that they are in a human-readable format. The scaling units used for the current and peak traffic columns can be altered by the scale command.
Modify the scale used to display the current and peak traffic over all interfaces. The following units are recognised: kbit, kbyte, mbit, mbyte, gbit, gbyte and auto.
Commands to switch between displays may be abbreviated to the minimum unambiguous prefix; for example, ’’io’’ for ’’iostat’’. Certain information may be discarded when the screen size is insufficient for display. For example, on a machine with 10 drives the iostat bar graph displays only 3 drives on a 24 line terminal. When a bar graph would overflow the allotted screen space it is truncated and the actual value is printed ’’over top’’ of the bar.
The following commands are common to each display which shows information about disk drives. These commands are used to select a set of drives to report on, should your system have more drives configured than can normally be displayed on the screen.
Do not display information about the drives indicated. Multiple drives may be specified, separated by spaces.
Display information about the drives indicated. Multiple drives may be specified, separated by spaces.
Display only the specified drives. Multiple drives may be specified, separated by spaces.
Display a list of available devices.
type,if,pass [| ...]
Display devices matching the given pattern. The basic matching expressions are the same as those used in iostat(8) with one difference. Instead of specifying multiple −t arguments which are then ORed together, the user instead specifies multiple matching expressions joined by the pipe (’|’) character. The comma separated arguments within each matching expression are ANDed together, and then the pipe separated matching expressions are ORed together. Any device matching the combined expression will be displayed, if there is room to display it. For example:
match da,scsi | cd,ide
This will display all SCSI Direct Access devices and all IDE CDROM devices.
match da | sa | cd,pass
This will display all Direct Access devices, all Sequential Access devices, and all passthrough devices that provide access to CDROM drives.
For the namelist.
For information in main memory.
For host names.
For network names.
For port names.
The systat program appeared in 4.3BSD. The icmp, ip, and tcp displays appeared in FreeBSD 3.0; the notion of having different display modes for the ICMP, IP, TCP, and UDP statistics was stolen from the −C option to netstat(1) in Silicon Graphics’ IRIX system.
Certain displays presume a minimum of 80 characters per line. The vmstat display looks out of place because it is (it was added in as a separate display rather than created as a new program).
BSD September 9, 1997 BSD