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1995-07-25
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1,321 lines
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
NNNNAAAAMMMMEEEE
xsw - X System Watcher
SSSSYYYYNNNNTTTTAAAAXXXX
_x_s_w [options]
DDDDEEEESSSSCCCCRRRRIIIIPPPPTTTTIIIIOOOONNNN
_x_s_w is a client/server based system resource monitoring
tool. _x_s_w , the client, is to be used in conjunction with
_x_s_w_s_r_v , the server.
When _x_s_w is invoked, a Main Control Panel (MCP) is
displayed. A menu bar is position on top with three pull
down menus:
FFFFiiiilllleeee
-Connect to a new server.
-Disconnet a server.
-Exit _x_s_w
OOOOppppttttiiiioooonnnnssss
-Change fonts on a per server basis.
-Change button actions.
HHHHeeeellllpppp
-General Display Information
-Options
Directly below the menu bar on the left side, is a box that
contains a list of server(s) which _x_s_w is currently
connected to. The active server will be highlighted. The MCP
will reflect the state of the active server. All connected
servers will be updated according to their TTTTaaaarrrrggggeeeetttt interval
time (See Below). Only one server can be viewed on the MCP
at a time. Directly below the menu bar and to the right of
the server list is a message box used for displaying
messages regaurding the active server. Directly below the
message box are:
TTTTaaaarrrrggggeeeetttt : What sampling interval is wanted for the active
server. Arrow buttons change the interval.
AAAAccccttttuuuuaaaallll : The actual sampling interval obtained for the
active server.
UUUUsssseeeerrrrssss : The number of users for the active server.
Below the TTTTaaaarrrrggggeeeetttt, AAAAccccttttuuuuaaaallll, and UUUUsssseeeerrrrssss boxes, are toggle
buttons used for displaying system resources. The resources
available for viewing are:
Page 1 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
CCCCPPPPUUUU: Displays cpu usage at actual interval, average
cpu usage at actual interval * 5 , and average
cpu usage at actual interval * 10. The cpu
usage is broken down into: user time, sytem
time, and break time.
WWWWAAAAIIIITTTT: Displays cpu wait usage at actual interval,
average cpu wait at actual interval * 5 , and
average cpu wait at actual interval * 10. The
cpu wait usage is broken down into: I/O time,
page I/O time, and swap I/O time.
CCCCaaaacccchhhheeee : Displays disk cache read/write hit/misses.
OOOOtttthhhheeeerrrr : Displays several tunable kernel structures:
NFILES The maximum number of open
files system-wide. Each entry
represents an open file.
NINODES The many inode table entries
to allocate. Each table entry
represents an in-core inode
that is an active file.
NPROC The many process tabel entries
to allocate. Each table entry
represents an active process.
The number of entries depends
on the number of terminal
lines available and the number
of prcesses spawned by each
user.
NREGION How many region table entries
are used.
CBLOCKS How many cfree table entries
are used.
CALLOUTS How many call-out table
entries are used.
NMOUNTS How many mount table entries
are used.
PPPPSSSS CCCCppppuuuu: Displays cpu usage on a per process basis. The
processes displayed can be those CCCCUUUURRRRrently
running and/or have run, or AAAALLLLLLLL process on the
system. If CCCCUUUURRRR is choosen, then time can be
shown as a percentage (%%%%) of the interval or in
TTTTicks for that interval. If AAAALLLLLLLL process is
Page 2 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
choosen, then time can be shown as a percentage
(%%%%) since boot or in MMMMinutes:seconds. The
following is displayed for PPPPSSSS CCCCppppuuuu:
SSSS The state of the process at
time of sampling. The follwing
states are shown:
ssss The process is currently
sleeping, waiting for an
event.
RRRR The process is currently
running.
UUUUSSSSEEEERRRR The user of the process. If
the process is "set uid", then
the "#" character will be
appended to the user name.
PPPPIIIIDDDD The Process IDentification of
the process.
CCCCPPPPUUUU The cpu usage for scheduling.
PPPPRRRRIIII The priority of the process.
NNNNIIII The nice value used for cpu
usage.
UUUUCCCCPPPPUUUU Tser time of the process.
SSSSCCCCPPPPUUUU System time of the process.
UUUU++++SSSS User + system time of the
process.
SSSSIIIIZZZZEEEE Size of the process, according
to the "proc" data structure..
TTTTTTTTYYYY Tty associated with the
process.
CCCCMMMMDDDD The arguments from the
execution of the process.
PPPPSSSS IIII////OOOO: Displays I/O on a per process basis. The
processes displayed can be those CCCCUUUURRRRrently
running and/or have run, or AAAALLLLLLLL process on the
system. If CCCCUUUURRRRrent is choosen, then time can be
shown as a percentage (%%%%) of the interval or in
TTTTicks for that interval. If AAAALLLLLLLL process is
Page 3 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
choosen, then time can be shown as a percentage
(%%%%) since boot or in MMMMinutes:seconds. The
following is displayed for PPPPSSSS IIII////OOOO:
UUUUSSSSEEEERRRR The user of the process. If
the process is "set uid", then
the "#" character will be
appended to the user name.
PPPPIIIIDDDD The Process IDentification of
the process.
SSSSWWWWAAAAPPPP The number of bytes to/from
swap for that process.
CCCCHHHHAAAARRRR The number of characters for
that process.
RRRREEEEAAAADDDD The number of reads for that
process.
WWWWRRRRIIIITTTTEEEE The number of writes for that
process.
TTTTOOOOTTTTAAAALLLL The number of read + writes
for that process.
CCCCMMMMDDDD The arguments from the
execution of the process.
PPPPSSSS MMMMeeeemmmm: Displays memory on a per process basis. Memory
is displayed in memory "pages" and can be in
AAAAccending or DDDDeccending order. There are
several different VVVVIIIIEEEEWWWWs of memory:
CCCCoooorrrreeee SSSSttttoooorrrraaaaggggeeee OOOOnnnnllllyyyy:::: PPPPrrrriiiivvvvaaaatttteeee &&&& SSSShhhhaaaarrrreeeedddd:
UUUUSSSSEEEERRRR The user of the process.
PPPPIIIIDDDD The Process
IDentification of the
process.
VVVVSSSSIIIIZZZZEEEE The virtual size of the
process. This is the
maximum size that the
process can grow to.
SSSSHHHHRRRRDDDD The number of pages that
are sharable.
Page 4 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
PPPPRRRRIIIIVVVV The number of pages that
are private.
WWWWTTTTDDDD The number of pages in a
region that are valid
divided by the number of
process referenceing the
region.
TTTTOOOOTTTTAAAALLLL The PPPPRRRRIIIIVVVV + WWWWTTTTDDDD.
CCCCMMMMDDDD The arguments from the
execution of the process.
CCCCoooorrrreeee SSSSttttoooorrrraaaaggggeeee OOOOnnnnllllyyyy:
UUUUSSSSEEEERRRR The user of the process.
PPPPIIIIDDDD The Process
IDentification of the
process.
VVVVSSSSIIIIZZZZEEEE The virtual size of the
process. This is the
maximum size that the
process can grow to.
NNNNOOOONNNNEEEE The number of pages that
are in core only.
SSSSWWWWAAAAPPPP The number of pages that
are in core, but with a
copy on swap.
FFFFIIIILLLLEEEE The number of pages that
are in core, but with a
copy on file.
LLLLSSSSTTTTFFFFIIIILLLLEEEE The number of pages that
are in core, but with a
copy on file.
TTTTOOOOTTTTAAAALLLL Is NNNNOOOONNNNEEEE + SSSSWWWWAAAAPPPP + FFFFIIIILLLLEEEE +
LLLLSSSSTTTTFFFFIIIILLLLEEEE.
CCCCMMMMDDDD The arguments from the
execution of the process.
AAAAllllllll SSSSttttoooorrrraaaaggggeeee :
Page 5 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
UUUUSSSSEEEERRRR The user of the process.
PPPPIIIIDDDD The Process
IDentification of the
process.
VVVVSSSSIIIIZZZZEEEE The virtual size of the
process. This is the
maximum size that the
process can grow to.
NNNNOOOONNNNEEEE The number of pages that
are in core only.
SSSSWWWWAAAAPPPP The number of pages that
on swap.
FFFFIIIILLLLEEEE The number of pages that
on file.
LLLLSSSSTTTTFFFFIIIILLLLEEEE The number of pages that
on file.
ZZZZEEEERRRROOOO The number of pages that
are zero filled.
FFFFIIIILLLLLLLL The number of pages that
are fill.
IIIIOOOOMMMMAAAAPPPP The number of pages that
are io mapped.
WWWWIIIINNNNDDDDOOOOWWWW The number of pages that
are window.
CCCCMMMMDDDD The arguments from the
execution of the process.
SSSSeeeeccccoooonnnnddddaaaarrrryyyy SSSSttttoooorrrraaaaggggeeee AAAAllllllll:
UUUUSSSSEEEERRRR The user of the process.
PPPPIIIIDDDD The Process
IDentification of the
process.
VVVVSSSSIIIIZZZZEEEE The virtual size of the
process. This is the
maximum size that the
process can grow to.
Page 6 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
SSSSWWWWAAAAPPPP The number of pages that
are on swap only.
FFFFIIIILLLLEEEE The number of pages that
on file only.
LLLLSSSSTTTTFFFFIIIILLLLEEEE The number of pages that
on file only.
ZZZZEEEERRRROOOO The number of pages that
have not been used yet.
FFFFIIIILLLLLLLL The number of pages that
are fill.
IIIIOOOOMMMMAAAAPPPP The number of pages that
are io mapped.
WWWWIIIINNNNDDDDOOOOWWWW The number of pages that
are window.
CCCCMMMMDDDD The arguments from the
execution of the process.
SSSSttttrrrreeeeaaaammmmssss: Displays streams statistics. The following
information:
Config What is currently configured
into the system.
Use The current item usage count.
%Use The percent of Config in use.
Total The total item usage count.
Max The maximum item usage count.
Fail The count of allocations
failures.
is shown for these streams sturcutres:
NSTREAM Stream allocation data.
NQUEUE Queue allocation data.
MBLOCK Message block allocation data.
DBLK TOT Total stream buffers.
DBLK4 4 byte stream buffer.
Page 7 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
BLK16 16 byte stream buffer.
BLK64 64 byte stream buffer.
BLK128 128 byte stream buffer.
BLK256 256 byte stream buffer.
BLK512 512 byte stream buffer.
BLK1024 1024 byte stream buffer.
BLK2048 2048 byte stream buffer.
BLK4096 4096 byte stream buffer.
NNNNFFFFSSSS SSSSttttaaaattttssss: Displays statistics on both the client and
server side of NFS.
NFS Client:
calls The total number of
calls.
badcalls The number of rejected
NFS calls.
nclget The number of times the
client had to request a
new handle for an NFS
call.
clsleep The number of times a NFS
call was blocked becasue
no client was currently
availble. Please see man
page on nfsclnt if this
number is greater than 0.
null Breakdown of NFS calls by
procedure.
NFS server:
calls The total number of
calls.
badcalls The number of rejected
NFS calls.
Page 8 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
null Breakdown of NFS calls by
procedure.
RPC client:
calls The total number of calls
made to all NFS servers.
badcalls The number of RPC calls
that returned an error.
retrans The number of calls that
were retransmitted
because not reponse was
recieved from the NFS
server within the timeout
period.
badxid Indicates that the server
is recieving some
retransmitted requests,
but is taking a long time
to reply to all NFS
requests.
timeout Number of calls that
timed out waiting for a
server response.
wait The number of calls that
had to wait on a busy
client handle to be
refreshed.
peekerrs The number of 'peek' into
call message that failed.
badresps The number of minimal
reply message size
failures.
RPC server:
calls The total number of NFS
RPC calls made to this
server, from all clients.
badcalls The number of RPC calls
that were rejected,
before the request was
Page 9 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
passed to the NFS service
routines.
nullrecv The number of times an
nfsd daemon is scheduled
to run but finds that
there is no packet on the
NFS service socket queue.
badlen The RPC request recieved
by the server was too
short.
xdrcall The XDR headers in the
packet are malformed.
SSSSyyyyssssiiiinnnnffffoooo: Displays the "sysinfo" data structure. The
following is displayed:
bread The number of block reads
during this interval.
bwrite The number of block writes
during this interval.
lread The number of logical reads
during this interval.
lwrite The number of logical writes
during this interval.
phread The number of physical reads
during this interval.
phwrite The number of physical writes
during this interval.
swapin The number of swap in's during
this interval.
swapout The number of swap out's
during this interval.
bswapin The number of block swap in's
during this interval.
bswapout The number of block swap out's
during this interval.
iget The number of iget's during
this interval.
Page 10 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
namei The number of namei's during
this interval.
dirblk The number of dirblk's during
this interval.
readch The number of character's read
during this interval.
writech The number of character's
written during this interval.
rawch The number of
????????????????????????????????????????.
canch The number of
????????????????????????????????????????.
outch The number of
????????????????????????????????????????.
msg The number of
????????????????????????????????????????.
sema The number of
????????????????????????????????????????.
maxmem The amount of memory that is
availble to user processes.
frmem The amount of memory that is
free to user processes.
mem used The percent of memory that is
being used.
nswap The amount of swap space
available.
frswp The amount of free swap space
available.
swp used The percent of swap being
used.
availswp The amount of available swap.
pswitch The number of context switches
during this interval.
syscall The number of system calls
during this interval.
Page 11 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
sysread The number of system reads
during this interval.
syswrit The number of system writes
during this interval.
sysfork The number of system forks
during this interval.
sysexec The number of system execs
during this interval.
runque The number of processes ready
to run.
runocc The number of processes
????????????.
swpque The number of processes
????????????.
swpocc The number of processes
????????????.
vfault The number of faults.
demand The number of demands.
pfault The number of page faults.
cw The number of ??????.
steal The number of ??????.
frdpgs The number of ??????.
vfpg The number of ??????.
sfpg The number of ??????.
vspg The number of ??????.
sspg The number of ??????.
pnpfault The number of ??????.
wrtfault The number of ??????.
unmodsw The number of ??????.
unmodfl The number of ??????.
Page 12 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
psoutok The number of ??????.
psinfai The number of ??????.
psinok The number of ??????.
rsout The number of ??????.
rsin The number of ??????.
pages from
swap
cache
file
VVVVBBBBTTTT: Displays the "v", "bootinfo", "tune",
"bs_bootstring", & "strgCfg" data structure.
The following is displayed:
Var
v_autoup Age (in seconds) before
bdflush writes delayed-
write buffer.
v_buf Number of I/O buffers
v_clist Number of clists
allocated
v_file Size of file table.
v_hbuf Hash buffers (power of 2)
v_inode Size of incore inode
table
v_maxpmem Maximum physical memory
to use (if 0, then use
all available physical
memory); in pages.
v_maxup Max processes per user
v_mount Size of mount table
v_pbuf Number of physical I/O
buffers.
Page 13 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
v_proc Size of proc table
v_region Number of regions
allocated.
v_vhndfrac Fraction of maxmem limits
vhand.
Bootinfo
basemem The base memory
available.
extmem The extended memory
available.
bflags The bootflags in
hexidecimal .
memory available The memory available and
what it is being used
for.
Tune
t_ageintvl Age process every so many
seconds
t_bdflushr The rate at which bdflush
is run in seconds.
t_gpgshi Once we start to steal
pages, don't stop until
freemem > t_getpgshi.
t_gpgslo If freemem < t_getpgslow,
then start to steal pages
from processes.
t_gpgsmsk Mask used by getpages to
determine whether a page
is stealable. The page is
stealable if pte &
t_gpgsmskis == 0.
t_maxfc The maximum number of
pages which will be saved
up and freed at once.
t_maxsc The maximum number of
pages which will be
swapped out in a single
Page 14 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
operation.
t_maxumem The maximum size of a
user's virtual address
space in pages.
t_minarmem The minimum available
resident (not swapable)
memory to maintain in
order to avoid deadlock.
In pages.
t_minasmem The minimum available
swapable memory to
maintain in order to
avoid deadlock. In
pages.
Boot String Displays the boot string of
the system.
Boot configuration Displays the device
configuration of the system.
DDDDiiiisssskkkk SSSSttttaaaattttssss....: Displays activity for block devices. e.g., disk
or tape drive. The activity reported is:
Device # The device.
%Busy Portion of time that the
device was busy servicing a
transfer request during the
interval.
AvQue Average number of requests
outstanding during the
interval.
r+w/s Number of data transfers from
or to the device per second
during the interval.
blks/s Number of bytes transferred in
512-byte units per second
during the interval.
AvWait Average time in milliseconds
that the transfer requests
wait idly on the queue.
AvServ Average time in miliseconds to
be serviced ( which for disks
Page 15 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
includes seek, rotational
latency, and data transfer
times).
MMMMEEEEMMMM: Displays the following:
% Memory Used Displays average and current
memory usages as a percent of
total memory.
% Swap Used Displays average and current
swap usages as a percent of
total swap.
% Avail. Swap Used Displays average and current
available swap usages as a
percent of total available
swap.
OOOOPPPPTTTTIIIIOOOONNNNSSSS
Command line options allow the user to set specific colors
and threshold values. _x_s_w can connect to an unlimited
number of servers.
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _
| _ lp-2 | lp-2 | lp-2. XXXXsssswwww SSSSttttaaaannnnddddaaaarrrrdddd OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----lllliiiinnnneeee
OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -display
_d_i_s_p_l_a_y_N_a_m_e - Alternate display -help - prints
out all options to stdout. -version - prints out the
version of _x_s_w. -server host:[window,window,...] - T{
connects to host and pops up appropriate resource window.
The follwing resource windows are available:
cpu,wait,cache,other,pscpu,psio,psmem,streams
nfs,sysinfo,vbt,disk,mem T} -geometry
_g_e_o_m_e_t_r_y - Geometry. -title _t_i_t_l_e - The title.
-bg _c_o_l_o_r background:_c_o_l_o_r Background color. -fg
_c_o_l_o_r foreground:_c_o_l_o_r Foreground color. -fn
_f_o_n_t font:_f_o_n_t Default font.
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _
| _ lp-2 | lp-2 | lp-2. XXXXsssswwww GGGGeeeennnneeeerrrriiiicccc OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----lllliiiinnnneeee
OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -labelc
_c_o_l_o_r labelColor:_c_o_l_o_r T{ The color of text labels. T}
-usersc _c_o_l_o_r userColor:_c_o_l_o_r T{ The color of the
user's window. T} -intervalc
_c_o_l_o_r IntervalColor:_c_o_l_o_r T{ The color of target window.
T} -actintervalc _c_o_l_o_r ActiveIntervalColor T{ The color of
actual window. T} -actintervalwc
_c_o_l_o_r ActualIntervalWarningColor:_c_o_l_o_r T{ The color of
actual window when its time is +/-10% of target. T}
-actintervalac
Page 16 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
_c_o_l_o_r ActualIntervalAlarmColor:_c_o_l_o_r T{ The color of
actual window when its time is +/-30% of target. T}
-titlebfg _c_o_l_o_r title_barfgColor:_c_o_l_o_r T{ The text
background color for window title bars. T} -titlebbg
_c_o_l_o_r title_barbgColor:_c_o_l_o_r T{ The text foreground
color for window title bars. T} -auxbtnonbgc
_c_o_l_o_r auxButtonOnBackground:_c_o_l_o_r T{ The Auxillary
Buttons' "ON" Background. T} -auxbtnonffgc
_c_o_l_o_r auxButtonOnForeground:_c_o_l_o_r T{ The Auxillary
Buttons' "ON" Foreground. T} -auxbtnoffbgc
_c_o_l_o_r auxButtonOffBackground:_c_o_l_o_r T{ The Auxillary
Buttons' "OFF" Background. T} -auxbtnofffgc
_c_o_l_o_r auxButtonOffForeground:_c_o_l_o_r T{ The Auxillary
Buttons' "OFF" Foreground. T} -numericc
_c_o_l_o_r numericColor:_c_o_l_o_r T{ The Numeric color. T}
-numericwc _c_o_l_o_r numericWarningColor:_c_o_l_o_r T{ The
Numeric Warning color. T} -numericac
_c_o_l_o_r numericAlarmColor:_c_o_l_o_r T{ The Numeric Alarm
color. T} -snumericc _c_o_l_o_r staticNumericColor:_c_o_l_o_r T{
The Static Numeric color T}
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _
| _ lp-2 | lp-2 | lp-2. XXXXsssswwww CCCCPPPPUUUU WWWWiiiinnnnddddoooowwww OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----lllliiiinnnneeee
OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -uc
_c_o_l_o_r userColor:_c_o_l_o_r T{ The User CPU percentage scale
color. T} -kc _c_o_l_o_r kernelColor:_c_o_l_o_r T{ The Kernel CPU
percentage scale color. T} -bc _c_o_l_o_r breakColor:_c_o_l_o_r T{
The Break CPU percentage scale color. T}
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _
| _ lp-2 | lp-2 | lp-2. XXXXsssswwww WWWWaaaaiiiitttt WWWWiiiinnnnddddoooowwww OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----
lllliiiinnnneeee OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -ic
_c_o_l_o_r ioColor:_c_o_l_o_r T{ The I/O WAIT percentage scale color.
T} -pc _c_o_l_o_r pioColor:_c_o_l_o_r T{ The Page I/O WAIT percentage
scale color. T} -sc _c_o_l_o_r swapColor:_c_o_l_o_r T{ The Swap
I/O WAIT percentage scale color. T}
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _ |
_ lp-2 | lp-2 | lp-2. XXXXsssswwww MMMMEEEEMMMM WWWWiiiinnnnddddoooowwww OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----lllliiiinnnneeee
OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -memusedc
_c_o_l_o_r memUsedColor:_c_o_l_o_r T{ The Memory percent used
scale color. T} -memusedwc
_c_o_l_o_r memUsedWarningColor:_c_o_l_o_r T{ The Memory percent
used warning scale color. T} -memusedac
_c_o_l_o_r memUsedAlarmColor:_c_o_l_o_r T{ The Memory percent used
alarm scale color. T} -muwt
_t_h_r_e_s_h_h_o_l_d memUsedWarningThreshhold:_t_h_r_e_s_h_h_o_l_d T{ The
Memory Warning percent Threshhold. T} -muat
_t_h_r_e_s_h_h_o_l_d memUsedAlarmThreshhold:_t_h_r_e_s_h_h_o_l_d T{ The
Memory Alarm percent Threshhold. T} -swapusedc
_c_o_l_o_r swapUsedColor:_c_o_l_o_r T{ The Swap memory percent used
scale color. T} -swapusedwc
Page 17 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
_c_o_l_o_r swapUsedWarningColor:_c_o_l_o_r T{ The Swap memory
percent used warning scale color. T} -swapusedac
_c_o_l_o_r swapUsedAlarmColor:_c_o_l_o_r T{ The Swap memory percent
used alarm scale color. T} -suwt
_t_h_r_e_s_h_h_o_l_d\_f_R _s_w_a_p_U_s_e_d_W_a_r_n_i_n_g_T_h_r_e_s_h_h_o_l_d:_t_h_r_e_s_h_h_o_l_d\_f_R _T{ _T_h_e
_S_w_a_p _W_a_r_n_i_n_g _p_e_r_c_e_n_t _T_h_r_e_s_h_h_o_l_d. _T} -_s_u_w_t
_t_h_r_e_s_h_h_o_l_d\_f_R _s_w_a_p_U_s_e_d_A_l_a_r_m_T_h_r_e_s_h_h_o_l_d:_t_h_r_e_s_h_h_o_l_d\_f_R _T{ _T_h_e
_S_w_a_p _A_l_a_r_m _p_e_r_c_e_n_t _T_h_r_e_s_h_h_o_l_d. _T} -_a_v_a_i_l_s_w_a_p_u_s_e_d_c
_c_o_l_o_r availSwapUsedColor:_c_o_l_o_r T{ The Avail. Swap memory
percent used scale color. T} -availswapusedwc
_c_o_l_o_r availSwapUsedWarningColor:_c_o_l_o_r T{ The Avail.
Swap memory percent used warning scale color. T}
-availswapusedac _c_o_l_o_r availSwapUsedAlarmColor:_c_o_l_o_r T{
The Avail. Swap memory percent used alarm scale color. T}
-asuwt
_t_h_r_e_s_h_h_o_l_d availSwapUsedWarningThreshhold:_t_h_r_e_s_h_h_o_l_d T{
The Avail. Swap Warning percent Threshhold. T} -asuat
_t_h_r_e_s_h_h_o_l_d availSwapUsedAlarmThreshhold:_t_h_r_e_s_h_h_o_l_d T{ The
Avail. Swap Alarm percent Threshhold. T}
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _
| _ lp-2 | lp-2 | lp-2. XXXXsssswwww CCCCaaaacccchhhheeee WWWWiiiinnnnddddoooowwww OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----
lllliiiinnnneeee OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -cachereadhitc
_c_o_l_o_r cacheReadHitColor:_c_o_l_o_r T{ The Read Cache Hit
scale color. T} -cachewritehitc
_c_o_l_o_r cacheWriteHitColor:_c_o_l_o_r T{ The Write Cache Hit
scale color. T} -cachereadmissc
_c_o_l_o_r cacheReadMissColor:_c_o_l_o_r T{ The Read Cache Miss
scale color. T} -cachewritemissc
_c_o_l_o_r cacheWriteMissColor:_c_o_l_o_r T{ The Write Cache
Miss scale color. T} -cachereadmisswc
_c_o_l_o_r cacheReadMissWarningColor:_c_o_l_o_r T{ The Read Cache
Miss Warning scale color. T} -cachewritemisswc
_c_o_l_o_r cacheWriteMissWarningColor:_c_o_l_o_r T{ The Write Cache
Miss Warning scale color. T} -cachereadmissac
_c_o_l_o_r cacheReadMissAlarmColor:_c_o_l_o_r T{ The Read Cache Miss
Alarm scale color. T} -cachewritemissac
_c_o_l_o_r cacheWriteMissAlarmColor:_c_o_l_o_r T{ The Write Cache
Miss Alarm scale color. T} -rca
_p_e_r_c_e_n_t readCacheAlarmThreshhold:_p_e_r_c_e_n_t T{ The Read
Cache Hit alarm percentage. T} -wca
_p_e_r_c_e_n_t writeCacheAlarmThreshhold:_p_e_r_c_e_n_t T{ The Write
Cache Hit alarm percentage. T} -rcw
_p_e_r_c_e_n_t readCacheWarningThreshhold:_p_e_r_c_e_n_t T{ The Read
Cache Hit warning percentage. T} -wcw
_p_e_r_c_e_n_t writeCacheWarningThreshhold:_p_e_r_c_e_n_t T{ The
Write Cache Hit warning percentage. T}
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _
| _ lp-2 | lp-2 | lp-2. XXXXsssswwww OOOOtttthhhheeeerrrr WWWWiiiinnnnddddoooowwww OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----
lllliiiinnnneeee OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -nfilec
_c_o_l_o_r nfileColor:_c_o_l_o_r T{ The NFILE percentage scale
Page 18 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
color. T} -ninodec _c_o_l_o_r ninodeColor:_c_o_l_o_r T{ The NINODE
percentage scale color. T} -nprocc
_c_o_l_o_r nprocColor:_c_o_l_o_r T{ The NPROC percentage scale
color. T} -nregionc _c_o_l_o_r nregionColor:_c_o_l_o_r T{ The
NREGION percentage scale color. T} -ncblocksc
_c_o_l_o_r ncblocksColor:_c_o_l_o_r T{ The NCBLOCKS percentage
scale color. T} -nfileac _c_o_l_o_r nfileAlarmColor:_c_o_l_o_r T{
The NFILE Alarm percentage scale color. T} -ninodeac
_c_o_l_o_r ninodeAlarmColor:_c_o_l_o_r T{ The NINODE Alarm
percentage scale color. T} -nprocac
_c_o_l_o_r nprocAlarmColor:_c_o_l_o_r T{ The NPROC Alarm percentage
scale color. T} -nregionac
_c_o_l_o_r nregionAlarmColor:_c_o_l_o_r T{ The NREGION Alarm
percentage scale color. T} -ncblocksac
_c_o_l_o_r ncblocksAlarmColor:_c_o_l_o_r T{ The NCBLOCKS Alarm
percentage scale color. T} -nfileat
_t_h_r_e_s_h_h_o_l_d nfileAlarmThreshhold:_t_h_r_e_s_h_h_o_l_d T{ The NFILE
Alarm percent Threshhold. T} -ninodeat
_t_h_r_e_s_h_h_o_l_d ninodeAlarmThreshhold:_t_h_r_e_s_h_h_o_l_d T{ The
NINODE Alarm percent Threshhold. T} -nprocat
_t_h_r_e_s_h_h_o_l_d nprocAlarmThreshhold:_t_h_r_e_s_h_h_o_l_d T{ The NPROC
Alarm percent Threshhold. T} -nregionat
_t_h_r_e_s_h_h_o_l_d nregionAlarmThreshhold:_t_h_r_e_s_h_h_o_l_d T{ The
NREGION Alarm percent Threshhold. T} -ncblocksat
_t_h_r_e_s_h_h_o_l_d ncblocksAlarmThreshhold:_t_h_r_e_s_h_h_o_l_d T{ The
NCBLOCKS Alarm percent Threshhold. T} -nfilewc
_c_o_l_o_r nfileWaringColor:_c_o_l_o_r T{ The NFILE Warning
percentage scale color. T} -ninodewc
_c_o_l_o_r ninodeWarningColor:_c_o_l_o_r T{ The NINODE Warning
percentage scale color. T} -nprocwc
_c_o_l_o_r nprocWarningColor:_c_o_l_o_r T{ The NPROC Warning
percentage scale color. T} -nregionwc
_c_o_l_o_r nregionWarningColor:_c_o_l_o_r T{ The NREGION
Warning percentage scale color. T} -ncblockswc
_c_o_l_o_r ncblocksWarningColor:_c_o_l_o_r T{ The NCBLOCKS
Warning percentage scale color. T} -nfilewt
_p_e_r_c_e_n_t nfileWarningThreshhold:_p_e_r_c_e_n_t T{ The NFILE
Warning percent Threshhold. T} -ninodewt
_p_e_r_c_e_n_t ninodeWarningThreshhold:_p_e_r_c_e_n_t T{ The NINODE
Warning percent Threshhold. T} -nprocwt
_p_e_r_c_e_n_t nprocWarningThreshhold:_p_e_r_c_e_n_t T{ The NPROC
Warning percent Threshhold. T} -ncblockswt
_p_e_r_c_e_n_t ncblocksWarningThreshhold:_p_e_r_c_e_n_t T{ The NCBLOCKS
Warning percent Threshhold. T}
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _ |
_ lp-2 | lp-2 | lp-2. XXXXsssswwww PPPPSSSS MMMMeeeemmmm WWWWiiiinnnnddddoooowwww OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----
lllliiiinnnneeee OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -psmemc
_c_o_l_o_r psMemColor:_c_o_l_o_r T{ The PS Memory color T}
-psmemgrowc _c_o_l_o_r psMemGrowingColor:_c_o_l_o_r T{ The PS
Memory growing color. T} -psmemshrinkc
_c_o_l_o_r psMemShrinkingColor:_c_o_l_o_r T{ The PS Memory
Page 19 (printed 3/9/94)
XXXXSSSSWWWW((((1111XXXX)))) UUUUNNNNIIIIXXXX SSSSyyyysssstttteeeemmmm VVVV XXXXSSSSWWWW((((1111XXXX))))
shrinking color. T} -psmemnewc
_c_o_l_o_r psMemNewColor:_c_o_l_o_r T{ The PS Memory new color. T}
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _ |
_ lp-2 | lp-2 | lp-2. XXXXsssswwww PPPPSSSS CCCCPPPPUUUU WWWWiiiinnnnddddoooowwww OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----
lllliiiinnnneeee OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -pscpuidlec
_c_o_l_o_r psCpuIdleColor:_c_o_l_o_r T{ The PS CPU idle color.
T} -pscpuactivec _c_o_l_o_r psCpuActiveColor:_c_o_l_o_r T{ The PS
CPU active color . T} -pscpunewc
_c_o_l_o_r psCpuNewColor:_c_o_l_o_r T{ The PS CPU new color. T}
-pscpurunc _c_o_l_o_r psCpuRunningColor:_c_o_l_o_r T{ The PS CPU
running color. T}
allbox doublebox; lw(1.25i) sw(2i) sw(2i) _ | _ |
_ lp-2 | lp-2 | lp-2. XXXXsssswwww PPPPSSSS IIIIOOOO WWWWiiiinnnnddddoooowwww OOOOppppttttiiiioooonnnnssss CCCCoooommmmmmmmaaaannnndddd----lllliiiinnnneeee
OOOOppppttttiiiioooonnnn RRRReeeessssoooouuuurrrrcccceeee NNNNaaaammmmeeee DDDDeeeessssccccrrrriiiippppttttiiiioooonnnn -psioidlec
_c_o_l_o_r psioidlec:_c_o_l_o_r T{ The PS IO idle color. T}
-psioactivec _c_o_l_o_r psioactivec:_c_o_l_o_r T{ The PS IO active
color. T} -psionewc _c_o_l_o_r psionewc:_c_o_l_o_r T{ The PS IO
new color. T}
LLLLIIIIMMMMIIIITTTTAAAATTTTIIIIOOOONNNNSSSS
FILL IN THE BLANK
AAAAUUUUTTTTHHHHOOOORRRR
doublebox; c. Rick Rasmussen The Santa Cruz Operation
_r_i_c_k_r_a@_s_c_o._c_o_m
SSSSEEEEEEEE AAAALLLLSSSSOOOO
X(1X), xswsrv(1X)
Page 20 (printed 3/9/94)
