523 lines
No EOL
25 KiB
Perl
523 lines
No EOL
25 KiB
Perl
#!/usr/bin/perl -w
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use strict;
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use warnings;
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use diagnostics;
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# CONFIGURATION ITEMS
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my $revision = "1";
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my $good = "[\e[00;32mOK\e[00m]";
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my $bad = "[\e[00;31m!!\e[00m]";
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my $info = "[\e[00;34m--\e[00m]";
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my ($physical_memory,$swap_memory,$duflags);
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sub os_setup {
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my $os = `uname`;
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$duflags = '';
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if ($os =~ /Linux/) {
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$physical_memory = `free -b | grep Mem | awk '{print \$2}'`;
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$swap_memory = `free -b | grep Swap | awk '{print \$2}'`;
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$duflags = '-b';
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} elsif ($os =~ /Darwin/) {
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$physical_memory = `sysctl -n hw.memsize`;
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$swap_memory = `sysctl -n vm.swapusage | awk '{print \$3}' | sed 's/\..*\$//'`;
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} elsif ($os =~ /BSD/) {
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$physical_memory = `sysctl -n hw.realmem`;
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$swap_memory = `swapinfo | grep '^/' | awk '{ s+= \$2 } END { print s }'`;
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}
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chomp($physical_memory);
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}
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sub mysql_install_ok {
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my $command = `which mysqladmin`;
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chomp($command);
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if (! -e $command) {
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print $bad." Unable to find mysqladmin in your \$PATH. Is MySQL installed?\n";
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exit;
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}
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}
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my $mysqllogin;
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sub setup_mysql_login {
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if ( -f "/etc/psa/.psa.shadow" ) {
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# It's a Plesk box, use the available credentials
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$mysqllogin = "-u admin -p`cat /etc/psa/.psa.shadow`";
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my $loginstatus = `mysqladmin ping $mysqllogin 2>&1`;
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if ($loginstatus =~ /mysqld is alive/) {
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print $good." Successfully logged into MySQL using Plesk's credentials.\n";
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return 1;
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} else {
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print $bad." Attempted to use login credentials from Plesk, but they failed.\n";
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exit 0;
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}
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} else {
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# It's not Plesk, we should try a login
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my $loginstatus = `mysqladmin ping 2>&1`;
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if ($loginstatus =~ /mysqld is alive/) {
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# Login went just fine
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$mysqllogin = "";
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# Did this go well because of a .my.cnf file or is there no password set?
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my $userpath = `ls -d ~`;
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chomp($userpath);
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if ( -e "$userpath/.my.cnf" ) {
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# Login was successful, but we won't say anything to save space
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} else {
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print $bad." Successfully authenticated with no password - SECURITY RISK!\n";
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}
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return 1;
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} else {
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print "Please enter your MySQL login: ";
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my $name = <>;
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print "Please enter your MySQL password: ";
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system("stty -echo"); #don't show the password
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my $password = <>;
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system("stty echo"); #plz give echo back
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chomp($password);
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chomp($name);
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$mysqllogin = "-u $name -p'$password'";
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my $loginstatus = `mysqladmin ping $mysqllogin 2>&1`;
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if ($loginstatus =~ /mysqld is alive/) {
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print "\n".$good." Successfully logged into MySQL using provided credentials.\n";
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return 1;
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} else {
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print "\n".$bad." Attempted to use login credentials, but they were invalid.\n";
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exit 0;
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}
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exit 0;
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}
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}
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}
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my %mystat;
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my %myvar;
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sub get_all_vars {
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my @mysqlvarlist = `mysql $mysqllogin -Bse "SHOW /*!50000 GLOBAL */ VARIABLES;"`;
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foreach my $line (@mysqlvarlist) {
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$line =~ /([a-zA-Z_]*)\s*(.*)/;
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$myvar{$1} = $2;
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}
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my @mysqlstatlist = `mysql $mysqllogin -Bse "SHOW /*!50000 GLOBAL */ STATUS;"`;
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foreach my $line (@mysqlstatlist) {
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$line =~ /([a-zA-Z_]*)\s*(.*)/;
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$mystat{$1} = $2;
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}
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}
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my ($mysqlvermajor,$mysqlverminor);
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sub validate_mysql_version {
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($mysqlvermajor,$mysqlverminor) = $myvar{'version'} =~ /(\d)\.(\d)/;
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if ($mysqlvermajor < 4) {
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print $bad." This script will not work with MySQL < 4.0\n";
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exit 0;
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} elsif ($1 == 4 && $2 == 0) {
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print $bad." Your MySQL version ".$myvar{'version'}." is EOL software! Upgrade soon!\n";
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} elsif ($1 == 5 && $2 == 1) {
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print $bad." Currently running supported MySQL version ".$myvar{'version'}." (BETA - USE CAUTION)\n";
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} else {
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print $good." Currently running supported MySQL version ".$myvar{'version'}."\n";
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}
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}
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sub pretty_uptime {
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my $uptime = shift;
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my $seconds = $uptime % 60;
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my $minutes = int(($uptime % 3600) / 60);
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my $hours = int(($uptime % 86400) / (3600));
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my $days = int($uptime / (86400));
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my $uptimestring;
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if ($days > 0) {
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$uptimestring = "${days}d ${hours}h ${minutes}m ${seconds}s";
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} elsif ($hours > 0) {
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$uptimestring = "${hours}h ${minutes}m ${seconds}s";
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} elsif ($minutes > 0) {
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$uptimestring = "${minutes}m ${seconds}s";
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} else {
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$uptimestring = "${seconds}s";
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}
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return $uptimestring;
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}
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sub hr_bytes_rnd {
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my $num = shift;
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if ($num >= (1024**3)) { #GB
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return int(($num/(1024**3)))."G";
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} elsif ($num >= (1024**2)) { #MB
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return int(($num/(1024**2)))."M";
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} elsif ($num >= 1024) { #KB
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return int(($num/1024))."K";
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} else {
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return $num;
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}
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}
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sub hr_bytes {
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my $num = shift;
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if ($num >= (1024**3)) { #GB
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return sprintf("%.1f",($num/(1024**3)))."G";
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} elsif ($num >= (1024**2)) { #MB
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return sprintf("%.1f",($num/(1024**2)))."M";
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} elsif ($num >= 1024) { #KB
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return sprintf("%.1f",($num/1024))."K";
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} else {
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return $num;
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}
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}
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sub hr_num {
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my $num = shift;
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if ($num >= (1000**3)) { #GB
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return int(($num/(1000**3)))."G";
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} elsif ($num >= (1000**2)) { #MB
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return int(($num/(1000**2)))."M";
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} elsif ($num >= 1000) { #KB
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return int(($num/1000))."K";
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} else {
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return $num;
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}
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}
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sub mysql_initial_stats {
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# Show uptime, queries per second, connections, traffic stats
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my $qps = sprintf("%.3f",$mystat{'Questions'}/$mystat{'Uptime'});
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print $info." Up for: ".pretty_uptime($mystat{'Uptime'})." (".hr_num($mystat{'Questions'}).
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" q [".hr_num($qps)." qps], ".hr_num($mystat{'Connections'})." conn,".
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" TX: ".hr_num($mystat{'Bytes_sent'}).", RX: ".hr_num($mystat{'Bytes_received'}).")\n";
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}
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sub check_memory {
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print "------ MEMORY USAGE ------\n";
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# The purpose of this section is to make sure you're not going to end up in swap or crashing the box
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# by having buffers that are set too large
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#
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# PER-THREAD BUFFERS:
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# binlog_cache_size - only if log_bin is 'ON' (default 32K)
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my $binlog_cache_size = ($myvar{'log_bin'} =~ /ON/) ? $myvar{'binlog_cache_size'} : 0 ;
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# join_buffer_size - helps joins that don't use indexes (default 128M)
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my $join_buffer_size = $myvar{'join_buffer_size'};
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# read_buffer_size - for sequential scans (default 128K)
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my $read_buffer_size = $myvar{'read_buffer_size'};
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# read_rnd_buffer_size - helps ORDER BY (default 256K)
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my $read_rnd_buffer_size = $myvar{'read_rnd_buffer_size'};
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# sort_buffer_size - helps SORT/ORDER BY (default 2M)
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my $sort_buffer_size = $myvar{'sort_buffer_size'};
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# thread_stack - stack size per thread (default 192K) [MySQL says not to adjust this]
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my $thread_stack = $myvar{'thread_stack'};
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#
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# PER-THREAD BUFFER CALCULATIONS:
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my $thread_buffers = $read_buffer_size + $read_rnd_buffer_size + $sort_buffer_size + $thread_stack + $join_buffer_size + $binlog_cache_size;
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my $total_thread_buffers = $thread_buffers * $myvar{'max_connections'};
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my $max_thread_buffers = $thread_buffers * $mystat{'Max_used_connections'};
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#
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# GLOBAL BUFFERS:
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# innodb_buffer_pool_size - general buffer for InnoDB (default 8M)
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my $innodb_buffer_pool_size = (defined $myvar{'innodb_buffer_pool_size'}) ? $myvar{'innodb_buffer_pool_size'} : 0 ;
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# innodb_additional_mem_pool_size - stores internal InnoDB table data (default 1M)
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my $innodb_additional_mem_pool_size = (defined $myvar{'innodb_additional_mem_pool_size'}) ? $myvar{'innodb_additional_mem_pool_size'} : 0 ;
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# innodb_log_buffer_size - holds InnoDB log before writing to disk (default 1M)
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my $innodb_log_buffer_size = (defined $myvar{'innodb_log_buffer_size'}) ? $myvar{'innodb_log_buffer_size'} : 0 ;
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# key_buffer_size - holds all index data from MyISAM tables (default 8M)
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my $key_buffer_size = $myvar{'key_buffer_size'};
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# query_cache_size - holds query results (default 0) [still allocated when query_cache_type = 0]
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my $query_cache_size = (defined $myvar{'query_cache_size'}) ? $myvar{'query_cache_size'} : 0 ;
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#
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# GLOBAL BUFFER CALCULATIONS:
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my $global_buffers = $innodb_buffer_pool_size + $innodb_additional_mem_pool_size + $innodb_log_buffer_size + $key_buffer_size + $query_cache_size;
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#
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# FINAL BUFFER/MEMORY CALCULATIONS:
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my $max_memory = $global_buffers + $max_thread_buffers;
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my $total_memory = $global_buffers + $total_thread_buffers;
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my $pct_physical_memory = int(($total_memory * 100) / $physical_memory);
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print $info." Per-thread buffers are ".hr_bytes_rnd($thread_buffers).", total ".hr_bytes_rnd($total_thread_buffers).
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" ($myvar{'max_connections'} connections)\n";
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print $info." Max allocated is ".hr_bytes_rnd($max_memory)." (".hr_bytes_rnd($thread_buffers).
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" per-thread * $mystat{'Max_used_connections'} connections + ".hr_bytes_rnd($global_buffers)." global)\n";
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if ($pct_physical_memory > 85) {
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print $bad." DANGER - MySQL is configured to use $pct_physical_memory% (".hr_bytes($total_memory).
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") of physical memory (".hr_bytes($physical_memory).")\n";
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} else {
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print $good." MySQL is configured to use $pct_physical_memory% (".hr_bytes($total_memory).
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") of physical memory (".hr_bytes($physical_memory).")\n";
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}
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}
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sub check_slow_queries {
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print "------ SLOW QUERIES ------\n";
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# If the server hasn't received any queries, then we can't calculate a slow query percentage
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if ($mystat{'Questions'} > 0) {
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my $slowquerypct = int(($mystat{'Slow_queries'}/$mystat{'Questions'}) * 100);
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if ($slowquerypct > 5) {
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print $bad." $slowquerypct% of all queries take more than ".$myvar{'long_query_time'}." sec - optimization is recommended\n";
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} elsif ($slowquerypct <= 5 && $slowquerypct >= 1) {
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print $good." $slowquerypct% of all queries take more than ".$myvar{'long_query_time'}." sec\n";
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} else {
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print $good." Less than 1% of all queries take more than ".$myvar{'long_query_time'}." sec\n";
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}
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}
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# Best case scenario would be slow query log enabled with a long_query_time of 10 or less
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if ($myvar{'log_slow_queries'} =~ /ON/) {
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if ($myvar{'long_query_time'} <= 10) {
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print $good." Slow query log is enabled, and long_query_time is reasonable ($myvar{'long_query_time'} sec)\n";
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} else {
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print $bad. " Slow query log is enabled, but long_query_time is too long ($myvar{'long_query_time'} sec)\n";
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}
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} else {
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if ($myvar{'long_query_time'} <= 10) {
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print $bad." Slow query log is disabled, but long_query_time is reasonable ($myvar{'long_query_time'} sec)\n";
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} else {
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print $bad." Slow query log is disabled, and long_query_time is too long ($myvar{'long_query_time'} sec)\n";
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}
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}
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}
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sub check_connections {
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print "------ CONNECTION LIMITS ------\n";
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# We're looking at two things here:
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# How many connections have been used so far and how close is the connection limit?
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# How many connections can overflow into the back_log?
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#
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# If the maximum connections used is over 85% of the limit, that's a little close.
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# However, if the maximum connections used is less than 10%, that's just wasted memory.
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my $connpct = int(($mystat{'Max_used_connections'}/$myvar{'max_connections'}) * 100);
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if ($connpct > 85) {
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print $bad." $connpct% of connections have been used ".
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"(".$mystat{'Max_used_connections'}."/".$myvar{'max_connections'}.")".
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" - Increase the max_connections variable\n";
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} elsif ($connpct < 10) {
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print $bad." $connpct% of connections have been used ".
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"(".$mystat{'Max_used_connections'}."/".$myvar{'max_connections'}.")".
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" - Reduce max_connections\n";
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} else {
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print $good." $connpct% of connections have been used ".
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"(".$mystat{'Max_used_connections'}."/".$myvar{'max_connections'}.")\n";
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}
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# If the back_log is less than 50, there's a chance that connections will be forcefully rejected
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if ($myvar{'back_log'} < 50) {
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print $bad." Your listen queue back_log is too low - you should raise this to 50-256\n";
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} else {
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print $good." Your listen queue back_log is set to a reasonable level (".$myvar{'back_log'}.")\n";
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}
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}
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sub check_key_buffer {
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print "------ KEY BUFFER ------\n";
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my $myisamindexes;
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if ($mysqlvermajor < 5) {
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$myisamindexes = `find $myvar{'datadir'} -name '*.MYI' 2>&1 | xargs du $duflags '{}' 2>&1 | awk '{ s += \$1 } END { print s }'`;
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if ($myisamindexes =~ /^0\n$/) {
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print $bad." Unable to complete calculations - run this script with root privileges\n";
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return 0;
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}
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} else {
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$myisamindexes = `mysql $mysqllogin -Bse "/*!50000 SELECT SUM(INDEX_LENGTH) from information_schema.TABLES where ENGINE='MyISAM' */"`;
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}
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chomp($myisamindexes);
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# There's several variables that come into play with regards to key buffers
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# Key_blocks_unused - number of unused key blocks in the key cache (will decrease over time)
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# Key_blocks_used - number of used blocks in the key cache (will increase over time)
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# Key_read_requests - number of requests to read a key block from the cache (this should be high)
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# Key_reads - number of requests for a key that had to be read from a disk (this should be low)
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if ($mystat{'Key_reads'} == 0) {
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print $bad." Your queries are not using any indexes - no recommendations can be made\n";
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return 0;
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}
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# BUFFER CALCULATIONS:
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# key_buffer_use_pct - how much of the key buffer is being used
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# if this gets too high, and key_buffer_size is less than the total
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# size of the MyISAM indexes, then it should be raised
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# key_from_mem_pct - the percent of key requests that come from the cache (rather than the disk)
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# if this starts to increase, the key_buffer_size is too small and
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# keys are being thrown out and replaced by other keys
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my $key_buffer_use_pct = sprintf("%.1f",(1 - (($mystat{'Key_blocks_unused'} * $myvar{'key_cache_block_size'}) / $myvar{'key_buffer_size'})) * 100);
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my $key_from_mem_pct = sprintf("%.1f",(100 - (($mystat{'Key_reads'} / $mystat{'Key_read_requests'}) * 100)));
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my $raise_key_buffer = 0;
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if ($key_buffer_use_pct >= 85) {
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$raise_key_buffer = 1 # Key buffer is almost full - raise it
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} elsif ($key_buffer_use_pct < 85 && $key_buffer_use_pct >= 25) {
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$raise_key_buffer = 0; # Key buffer is reasonable
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} else {
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$raise_key_buffer = -1; # Key buffer is too big - lower it
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}
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if ($key_from_mem_pct < 95 && $key_from_mem_pct >= 80) {
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$raise_key_buffer += 1; # Key buffer is probably set to the default, should be raised
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} elsif ($key_from_mem_pct < 80) {
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$raise_key_buffer += 2; # This is really, really bad - raise the buffer!
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}
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print $info." The key buffer is $key_buffer_use_pct% used, and $key_from_mem_pct% of key requests come from memory\n";
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if ($myisamindexes < $myvar{'key_buffer_size'} && $raise_key_buffer >= 1) {
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print $bad." Your key_buffer_size (".hr_bytes_rnd($myvar{'key_buffer_size'}).") is higher than your total MyISAM indexes (".hr_bytes_rnd($myisamindexes).")\n";
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} else {
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print $info." Total MyISAM index size is ".hr_bytes_rnd($myisamindexes).
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" (current key_buffer_size ".hr_bytes_rnd($myvar{'key_buffer_size'}).")\n";
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}
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if ($raise_key_buffer >= 1) {
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print $bad." Raise the key_buffer_size for better indexing performance in MyISAM tables\n";
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} elsif ($raise_key_buffer == 0) {
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print $good." Your key_buffer_size is set to a reasonable level\n";
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} else {
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print $bad." Lower the key_buffer_size to use the resources elsewhere\n";
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}
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}
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sub check_query_cache {
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print "------ QUERY CACHE ------\n";
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# If query cache support isn't compiled into MySQL, we fail here
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if (!defined $myvar{'have_query_cache'}) {
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print $bad." Your MySQL server does not support query caching - upgrade MySQL\n";
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return 0;
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}
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# If the query cache is disabled, we fail here
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if ($myvar{'query_cache_size'} == 0) {
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print $bad." The query cache is disabled - set the query_cache_size > 0 to enable it\n";
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return 0;
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}
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# If there haven't been any selects, then we can't do much
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if ($mystat{'Com_select'} == 0) {
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print $info." No SELECT statements have been run - no recommendations can be made\n";
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return 0;
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}
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# QUERY CACHE VARIABLES/STATUS:
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# Com_select - number of SELECTS executed that didn't use the query cache
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# Qcache_free_memory - memory available for use in the query cache
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# Qcache_hits - number of queries that pulled a result from the query cache
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# Qcache_lowmem_prunes - amount of times MySQL has had to clear a full query cache
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# query_cache_limit - the biggest result allowed per query
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# query_cache_size - the size of the query cache (if it's 0, query cache is disabled)
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#
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# QUERY CACHE CALCULATIONS:
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# query_cache_efficiency - % of SELECTS that pull from query cache (should be > 20%)
|
|
my $query_cache_efficiency = sprintf("%.1f",($mystat{'Qcache_hits'} / ($mystat{'Com_select'} + $mystat{'Qcache_hits'})) * 100);
|
|
# qcache_pct_free - % of query cache free
|
|
my $qcache_pct_free = sprintf("%.1f",($mystat{'Qcache_free_memory'} / $myvar{'query_cache_size'}) * 100);
|
|
my $problem = 0;
|
|
print $info." $query_cache_efficiency% of SELECTS used query cache (Stats: $qcache_pct_free% free, "
|
|
.hr_bytes_rnd($myvar{'query_cache_size'})." total, $mystat{'Qcache_lowmem_prunes'} prunes)\n";
|
|
# When the prunes get to be pretty high, either too many queries are making it into the query cache
|
|
# that don't belong there, or the queries are too big and the query_cache_limit needs to be reduced.
|
|
if ($mystat{'Qcache_lowmem_prunes'} > 50) {
|
|
print $bad." Cache cleared $mystat{'Qcache_lowmem_prunes'} times due to low memory - increase query_cache_size\n";
|
|
$problem = 1;
|
|
}
|
|
# If the query_cache_efficiency is less than 20%, then too many selects are not being pulled from
|
|
# the query_cache. This could mean that the results exceed query_cache_limit, or the queries are
|
|
# using the SQL_NO_CACHE modifier (which throw these recommendations way off).
|
|
if ($query_cache_efficiency <= 20) {
|
|
print $bad." Very few queries used query cache - increase query_cache_limit or adjust queries\n";
|
|
$problem = 1;
|
|
}
|
|
# If the query_cache efficiency is over 20% and the prunes are under 50, then everything should be good.
|
|
if ($problem == 0) {
|
|
print $good." Your query cache is configured properly\n";
|
|
}
|
|
}
|
|
|
|
sub check_sort {
|
|
print "------ SORTING ------\n";
|
|
# SORTING VARIABLES/STATUS:
|
|
# read_rnd_buffer_size - sorts are read from this buffer after the sort is complete, helps ORDER BY
|
|
# sort_buffer_size - per-thread buffer used for sorting, helps ORDER/GROUP BY
|
|
# Sort_merge_passes - number of merge passes that the sort algorithm has had to do (bad if high, raise sort_buffer_size)
|
|
# Sort_range - sorts done using ranges
|
|
# Sort_scan - sorts done by scanning table
|
|
# LOGIC:
|
|
# If a SELECT does a sequential table scan, then Sort_scan gets incremented
|
|
# If a SELECT retrieves a range of rows, then Sort_range gets incremented
|
|
# If a sort is too big for the sort_buffer_size, temporary tables are made, sorted, and then Sort_merge_passes gets incremented
|
|
my $total_sorts = $mystat{'Sort_scan'} + $mystat{'Sort_range'};
|
|
if ($total_sorts == 0) {
|
|
print $info." No sorts have been performed - no recommendations can be made\n";
|
|
return 0;
|
|
}
|
|
my $temp_sort_table_pct = int(($mystat{'Sort_merge_passes'} / $total_sorts) * 100);
|
|
print $info." $total_sorts sorts have occurred with $temp_sort_table_pct% requiring temporary tables\n";
|
|
if ($temp_sort_table_pct > 10) {
|
|
print $bad." Increase sorting performance by raising sort_buffer_size and read_rnd_buffer_size\n";
|
|
} else {
|
|
print $good." Your sorting buffers are reasonable\n";
|
|
}
|
|
}
|
|
|
|
sub check_join {
|
|
print "------ JOINS ------\n";
|
|
# JOIN VARIABLES/STATUS:
|
|
# join_buffer_size - buffer used to join tables when indexes can't be utilized
|
|
# Select_full_join - number of joins not using indexes
|
|
# Select_range_check - number of joins where MySQL was uncertain on whether it could use indexes to find a range
|
|
# LOGIC:
|
|
# If Select_full_join or Select_range_check are greater than 0, then the join queries need to be fixed
|
|
# Technically, the performance hit of Select_range_check is as bad as Select_full_join, so they should be summed
|
|
my $joins_without_indexes = $mystat{'Select_range_check'} + $mystat{'Select_range_check'};
|
|
if ($joins_without_indexes > 0) {
|
|
print $info." $joins_without_indexes joins did not use indexes, join buffer is ".hr_bytes_rnd($myvar{'join_buffer_size'})."\n";
|
|
print $bad." Adjust your joins to utilize indexes (if impossible, increase join_buffer_size)\n";
|
|
print $bad." NOTE: This script will always suggest raising the join_buffer_size\n";
|
|
} else {
|
|
print $good." Your joins are using indexes appropriately, join buffer is not necessary\n";
|
|
}
|
|
}
|
|
|
|
sub check_temporary_tables {
|
|
print "------ TEMPORARY TABLES ------\n";
|
|
# TEMPORARY TABLE VARIABLES/STATUS:
|
|
# Created_tmp_disk_tables - number of temporary tables created on disk
|
|
# Created_tmp_tables - number of temporary tables created in memory
|
|
# max_heap_table_size - maximum size for MEMORY tables (also limits tmp_table_size)
|
|
# tmp_table_size - max size for all temporary tables in memory (limited by max_heap_table_size)
|
|
# LOGIC:
|
|
# If the ratio of Created_tmp_disk_tables to Created_tmp_tables increases, this is bad
|
|
# To reduce temporary tables on disk, the tmp_table_size needs to be increased (and possibly max_heap_table_size)
|
|
if ($mystat{'Created_tmp_tables'} == 0) {
|
|
print $info." No temporary tables have been created since the server started\n";
|
|
return 0;
|
|
}
|
|
my $tmp_disk_pct = int(($mystat{'Created_tmp_disk_tables'} / $mystat{'Created_tmp_tables'}) * 100);
|
|
if ($tmp_disk_pct > 25) {
|
|
print $bad." $tmp_disk_pct% of temp tables were created on disk\n";
|
|
print $bad." Increase tmp_table_size (which is limited by max_heap_table_size)\n";
|
|
} else {
|
|
print $good." $tmp_disk_pct% of temp tables were created on disk - this is reasonable\n";
|
|
}
|
|
}
|
|
|
|
sub check_other_buffers {
|
|
print "------ OTHER BUFFERS ------\n";
|
|
# bulk_insert_buffer_size = buffer for large inserts (default: 8M)
|
|
print $info." Your bulk_insert_buffer_size is ".hr_bytes_rnd($myvar{'bulk_insert_buffer_size'}).
|
|
" - increase this for large bulk inserts\n";
|
|
}
|
|
|
|
sub performance_options {
|
|
print "------ PERFORMANCE OPTIONS ------\n";
|
|
# concurrent_insert = enables simultaneous insert/select on MyISAM tables w/o holes
|
|
# It's ON/OFF in MySQL 4.1 and 0/1 in MySQL 5.x
|
|
if ($myvar{'concurrent_insert'} eq "ON" || $myvar{'concurrent_insert'} > 0) {
|
|
print $good." Concurrent inserts/selects in MyISAM tables are enabled\n";
|
|
} else {
|
|
print $bad." Concurrent inserts/selects in MyISAM tables are disabled - enable concurrent_insert\n";
|
|
}
|
|
}
|
|
|
|
# ---------------------------------------------------------------------------
|
|
# BEGIN 'MAIN'
|
|
# ---------------------------------------------------------------------------
|
|
print "------------------------------------------------------------------------------\n".
|
|
$info." MySQL High-Performance Tuner - Major Hayden <major.hayden\@rackspace.com>\n";
|
|
mysql_install_ok; # Check to see if MySQL is installed
|
|
os_setup; # Set up some OS variables
|
|
setup_mysql_login; # Gotta login first
|
|
get_all_vars; # Toss variables/status into hashes
|
|
validate_mysql_version; # Check current MySQL version
|
|
mysql_initial_stats; # Print some basic server stats
|
|
check_memory; # Check memory usage
|
|
check_slow_queries; # Check slow query percentage
|
|
check_connections; # Check connection limits/usage
|
|
check_key_buffer; # Check key buffer
|
|
check_query_cache; # Check query caching
|
|
check_sort; # Check sorting buffers
|
|
check_join; # Check join buffers
|
|
check_temporary_tables; # Check temporary table creation
|
|
check_other_buffers;
|
|
performance_options;
|
|
print "------------------------------------------------------------------------------\n";
|
|
# ---------------------------------------------------------------------------
|
|
# END 'MAIN'
|
|
# --------------------------------------------------------------------------- |