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|
#!/usr/perl5/bin/perl -w
# The above invocation line was changed in 0.5 to allow for
# interoperability with linux.
#
# Print out ZFS ARC Statistics exported via kstat(1)
# For a definition of fields, or usage, use arctstat.pl -v
#
# This script is a fork of the original arcstat.pl (0.1) by
# Neelakanth Nadgir, originally published on his Sun blog on
# 09/18/2007
# http://blogs.sun.com/realneel/entry/zfs_arc_statistics
#
# This version aims to improve upon the original by adding features
# and fixing bugs as needed. This version is maintained by
# Mike Harsch and is hosted in a public open source repository:
# http://github.com/mharsch/arcstat
#
# Comments, Questions, or Suggestions are always welcome.
# Contact the maintainer at ( mike at harschsystems dot com )
#
# CDDL HEADER START
#
# The contents of this file are subject to the terms of the
# Common Development and Distribution License, Version 1.0 only
# (the "License"). You may not use this file except in compliance
# with the License.
#
# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
# or http://www.opensolaris.org/os/licensing.
# See the License for the specific language governing permissions
# and limitations under the License.
#
# When distributing Covered Code, include this CDDL HEADER in each
# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
# If applicable, add the following below this CDDL HEADER, with the
# fields enclosed by brackets "[]" replaced with your own identifying
# information: Portions Copyright [yyyy] [name of copyright owner]
#
# CDDL HEADER END
#
#
# Fields have a fixed width. Every interval, we fill the "v"
# hash with its corresponding value (v[field]=value) using calculate().
# @hdr is the array of fields that needs to be printed, so we
# just iterate over this array and print the values using our pretty printer.
#
# Copyright (c) 2015 by Delphix. All rights reserved.
#
use strict;
use warnings;
use POSIX qw(strftime);
use Sun::Solaris::Kstat;
use Getopt::Long;
use IO::Handle;
my %cols = (# HDR => [Size, Scale, Description]
"time" =>[8, -1, "Time"],
"hits" =>[4, 1000, "ARC reads per second"],
"miss" =>[4, 1000, "ARC misses per second"],
"read" =>[4, 1000, "Total ARC accesses per second"],
"hit%" =>[4, 100, "ARC Hit percentage"],
"miss%" =>[5, 100, "ARC miss percentage"],
"dhit" =>[4, 1000, "Demand Data hits per second"],
"dmis" =>[4, 1000, "Demand Data misses per second"],
"dh%" =>[3, 100, "Demand Data hit percentage"],
"dm%" =>[3, 100, "Demand Data miss percentage"],
"phit" =>[4, 1000, "Prefetch hits per second"],
"pmis" =>[4, 1000, "Prefetch misses per second"],
"ph%" =>[3, 100, "Prefetch hits percentage"],
"pm%" =>[3, 100, "Prefetch miss percentage"],
"mhit" =>[4, 1000, "Metadata hits per second"],
"mmis" =>[4, 1000, "Metadata misses per second"],
"mread" =>[4, 1000, "Metadata accesses per second"],
"mh%" =>[3, 100, "Metadata hit percentage"],
"mm%" =>[3, 100, "Metadata miss percentage"],
"arcsz" =>[5, 1024, "ARC Size"],
"c" =>[4, 1024, "ARC Target Size"],
"mfu" =>[4, 1000, "MFU List hits per second"],
"mru" =>[4, 1000, "MRU List hits per second"],
"mfug" =>[4, 1000, "MFU Ghost List hits per second"],
"mrug" =>[4, 1000, "MRU Ghost List hits per second"],
"eskip" =>[5, 1000, "evict_skip per second"],
"mtxmis" =>[6, 1000, "mutex_miss per second"],
"dread" =>[5, 1000, "Demand data accesses per second"],
"pread" =>[5, 1000, "Prefetch accesses per second"],
"l2hits" =>[6, 1000, "L2ARC hits per second"],
"l2miss" =>[6, 1000, "L2ARC misses per second"],
"l2read" =>[6, 1000, "Total L2ARC accesses per second"],
"l2hit%" =>[6, 100, "L2ARC access hit percentage"],
"l2miss%" =>[7, 100, "L2ARC access miss percentage"],
"l2asize" =>[7, 1024, "Actual (compressed) size of the L2ARC"],
"l2size" =>[6, 1024, "Size of the L2ARC"],
"l2bytes" =>[7, 1024, "bytes read per second from the L2ARC"],
);
my %v=();
my @hdr = qw(time read miss miss% dmis dm% pmis pm% mmis mm% arcsz c);
my @xhdr = qw(time mfu mru mfug mrug eskip mtxmis dread pread read);
my $int = 1; # Default interval is 1 second
my $count = 1; # Default count is 1
my $hdr_intr = 20; # Print header every 20 lines of output
my $opfile = "";
my $sep = " "; # Default separator is 2 spaces
my $raw_output;
my $version = "0.5";
my $l2exist = 0;
my $cmd = "Usage: arcstat [-hvxr] [-f fields] [-o file] [-s string] " .
"[interval [count]]\n";
my %cur;
my %d;
my $out;
my $kstat = Sun::Solaris::Kstat->new();
STDOUT->autoflush;
sub detailed_usage {
print STDERR "$cmd\n";
print STDERR "Field definitions are as follows:\n";
foreach my $hdr (keys %cols) {
print STDERR sprintf("%11s : %s\n", $hdr, $cols{$hdr}[2]);
}
exit(1);
}
sub usage {
print STDERR "$cmd\n";
print STDERR "\t -h : Print this help message\n";
print STDERR "\t -v : List all possible field headers " .
"and definitions\n";
print STDERR "\t -x : Print extended stats\n";
print STDERR "\t -r : Raw output mode (values not scaled)\n";
print STDERR "\t -f : Specify specific fields to print (see -v)\n";
print STDERR "\t -o : Redirect output to the specified file\n";
print STDERR "\t -s : Override default field separator with custom " .
"character or string\n";
print STDERR "\nExamples:\n";
print STDERR "\tarcstat -o /tmp/a.log 2 10\n";
print STDERR "\tarcstat -s \",\" -o /tmp/a.log 2 10\n";
print STDERR "\tarcstat -v\n";
print STDERR "\tarcstat -f time,hit%,dh%,ph%,mh% 1\n";
exit(1);
}
sub init {
my $desired_cols;
my $xflag = '';
my $hflag = '';
my $vflag;
my $res = GetOptions('x' => \$xflag,
'o=s' => \$opfile,
'help|h|?' => \$hflag,
'v' => \$vflag,
's=s' => \$sep,
'f=s' => \$desired_cols,
'r' => \$raw_output);
if (defined $ARGV[0] && defined $ARGV[1]) {
$int = $ARGV[0];
$count = $ARGV[1];
} elsif (defined $ARGV[0]) {
$int = $ARGV[0];
$count = 0;
}
usage() if !$res or $hflag or ($xflag and $desired_cols);
detailed_usage() if $vflag;
@hdr = @xhdr if $xflag; #reset headers to xhdr
# we want to capture the stats here, so that we can use them to check
# if an L2ARC device exists; but more importantly, so that we print
# the stats since boot as the first line of output from main().
snap_stats();
if (defined $cur{"l2_size"}) {
$l2exist = 1;
}
if ($desired_cols) {
@hdr = split(/[ ,]+/, $desired_cols);
# Now check if they are valid fields
my @invalid = ();
my @incompat = ();
foreach my $ele (@hdr) {
if (not exists($cols{$ele})) {
push(@invalid, $ele);
} elsif (($l2exist == 0) && ($ele =~ /^l2/)) {
printf("No L2ARC here\n", $ele);
push(@incompat, $ele);
}
}
if (scalar @invalid > 0) {
print STDERR "Invalid column definition! -- "
. "@invalid\n\n";
usage();
}
if (scalar @incompat > 0) {
print STDERR "Incompatible field specified -- "
. "@incompat\n\n";
usage();
}
}
if ($opfile) {
open($out, ">$opfile") ||die "Cannot open $opfile for writing";
$out->autoflush;
select $out;
}
}
# Capture kstat statistics. We maintain 3 hashes, prev, cur, and
# d (delta). As their names imply they maintain the previous, current,
# and delta (cur - prev) statistics.
sub snap_stats {
my %prev = %cur;
if ($kstat->update()) {
printf("<State Changed>\n");
}
my $hashref_cur = $kstat->{"zfs"}{0}{"arcstats"};
%cur = %$hashref_cur;
foreach my $key (keys %cur) {
next if $key =~ /class/;
if (defined $prev{$key}) {
$d{$key} = $cur{$key} - $prev{$key};
} else {
$d{$key} = $cur{$key};
}
}
}
# Pretty print num. Arguments are width, scale, and num
sub prettynum {
my @suffix = (' ', 'K', 'M', 'G', 'T');
my $num = $_[2] || 0;
my $scale = $_[1];
my $sz = $_[0];
my $index = 0;
my $save = 0;
if ($scale == -1) { #special case for date field
return sprintf("%s", $num);
} elsif (($num > 0) && ($num < 1)) { #rounding error. return 0
$num = 0;
}
while ($num > $scale and $index < 5) {
$save = $num;
$num = $num/$scale;
$index++;
}
return sprintf("%*d", $sz, $num) if ($index == 0);
if (($save / $scale) < 10) {
return sprintf("%*.1f%s", $sz - 1, $num,$suffix[$index]);
} else {
return sprintf("%*d%s", $sz - 1, $num,$suffix[$index]);
}
}
sub print_values {
foreach my $col (@hdr) {
if (not $raw_output) {
printf("%s%s", prettynum($cols{$col}[0], $cols{$col}[1],
$v{$col}), $sep);
} else {
printf("%d%s", $v{$col} || 0, $sep);
}
}
printf("\n");
}
sub print_header {
if (not $raw_output) {
foreach my $col (@hdr) {
printf("%*s%s", $cols{$col}[0], $col, $sep);
}
} else {
# Don't try to align headers in raw mode
foreach my $col (@hdr) {
printf("%s%s", $col, $sep);
}
}
printf("\n");
}
sub calculate {
%v = ();
if ($raw_output) {
$v{"time"} = strftime("%s", localtime);
} else {
$v{"time"} = strftime("%H:%M:%S", localtime);
}
$v{"hits"} = $d{"hits"}/$int;
$v{"miss"} = $d{"misses"}/$int;
$v{"read"} = $v{"hits"} + $v{"miss"};
$v{"hit%"} = 100 * ($v{"hits"} / $v{"read"}) if $v{"read"} > 0;
$v{"miss%"} = 100 - $v{"hit%"} if $v{"read"} > 0;
$v{"dhit"} = ($d{"demand_data_hits"} +
$d{"demand_metadata_hits"})/$int;
$v{"dmis"} = ($d{"demand_data_misses"} +
$d{"demand_metadata_misses"})/$int;
$v{"dread"} = $v{"dhit"} + $v{"dmis"};
$v{"dh%"} = 100 * ($v{"dhit"} / $v{"dread"}) if $v{"dread"} > 0;
$v{"dm%"} = 100 - $v{"dh%"} if $v{"dread"} > 0;
$v{"phit"} = ($d{"prefetch_data_hits"} +
$d{"prefetch_metadata_hits"})/$int;
$v{"pmis"} = ($d{"prefetch_data_misses"} +
$d{"prefetch_metadata_misses"})/$int;
$v{"pread"} = $v{"phit"} + $v{"pmis"};
$v{"ph%"} = 100 * ($v{"phit"} / $v{"pread"}) if $v{"pread"} > 0;
$v{"pm%"} = 100 - $v{"ph%"} if $v{"pread"} > 0;
$v{"mhit"} = ($d{"prefetch_metadata_hits"} +
$d{"demand_metadata_hits"})/$int;
$v{"mmis"} = ($d{"prefetch_metadata_misses"} +
$d{"demand_metadata_misses"})/$int;
$v{"mread"} = $v{"mhit"} + $v{"mmis"};
$v{"mh%"} = 100 * ($v{"mhit"} / $v{"mread"}) if $v{"mread"} > 0;
$v{"mm%"} = 100 - $v{"mh%"} if $v{"mread"} > 0;
$v{"arcsz"} = $cur{"size"};
$v{"c"} = $cur{"c"};
$v{"mfu"} = $d{"mfu_hits"}/$int;
$v{"mru"} = $d{"mru_hits"}/$int;
$v{"mrug"} = $d{"mru_ghost_hits"}/$int;
$v{"mfug"} = $d{"mfu_ghost_hits"}/$int;
$v{"eskip"} = $d{"evict_skip"}/$int;
$v{"mtxmis"} = $d{"mutex_miss"}/$int;
if ($l2exist) {
$v{"l2hits"} = $d{"l2_hits"}/$int;
$v{"l2miss"} = $d{"l2_misses"}/$int;
$v{"l2read"} = $v{"l2hits"} + $v{"l2miss"};
$v{"l2hit%"} = 100 * ($v{"l2hits"} / $v{"l2read"})
if $v{"l2read"} > 0;
$v{"l2miss%"} = 100 - $v{"l2hit%"} if $v{"l2read"} > 0;
$v{"l2size"} = $cur{"l2_size"};
$v{"l2asize"} = $cur{"l2_asize"};
$v{"l2bytes"} = $d{"l2_read_bytes"}/$int;
}
}
sub main {
my $i = 0;
my $count_flag = 0;
init();
if ($count > 0) { $count_flag = 1; }
while (1) {
print_header() if ($i == 0);
calculate();
print_values();
last if ($count_flag == 1 && $count-- <= 1);
$i = (($i == $hdr_intr) && (not $raw_output)) ? 0 : $i+1;
sleep($int);
snap_stats();
}
close($out) if defined $out;
}
&main;
|
