#!/usr/bin/env perl # This program is part of Percona Toolkit: http://www.percona.com/software/ # See "COPYRIGHT, LICENSE, AND WARRANTY" at the end of this file for legal # notices and disclaimers. use strict; use warnings FATAL => 'all'; use constant PTDEBUG => $ENV{PTDEBUG} || 0; # ########################################################################### # OptionParser package # This package is a copy without comments from the original. The original # with comments and its test file can be found in the Bazaar repository at, # lib/OptionParser.pm # t/lib/OptionParser.t # See https://launchpad.net/percona-toolkit for more information. # ########################################################################### { package OptionParser; use strict; use warnings FATAL => 'all'; use English qw(-no_match_vars); use constant PTDEBUG => $ENV{PTDEBUG} || 0; use List::Util qw(max); use Getopt::Long; my $POD_link_re = '[LC]<"?([^">]+)"?>'; sub new { my ( $class, %args ) = @_; my @required_args = qw(); foreach my $arg ( @required_args ) { die "I need a $arg argument" unless $args{$arg}; } my ($program_name) = $PROGRAM_NAME =~ m/([.A-Za-z-]+)$/; $program_name ||= $PROGRAM_NAME; my $home = $ENV{HOME} || $ENV{HOMEPATH} || $ENV{USERPROFILE} || '.'; my %attributes = ( 'type' => 1, 'short form' => 1, 'group' => 1, 'default' => 1, 'cumulative' => 1, 'negatable' => 1, ); my $self = { head1 => 'OPTIONS', # These args are used internally skip_rules => 0, # to instantiate another Option- item => '--(.*)', # Parser obj that parses the attributes => \%attributes, # DSN OPTIONS section. Tools parse_attributes => \&_parse_attribs, # don't tinker with these args. %args, strict => 1, # disabled by a special rule program_name => $program_name, opts => {}, got_opts => 0, short_opts => {}, defaults => {}, groups => {}, allowed_groups => {}, errors => [], rules => [], # desc of rules for --help mutex => [], # rule: opts are mutually exclusive atleast1 => [], # rule: at least one opt is required disables => {}, # rule: opt disables other opts defaults_to => {}, # rule: opt defaults to value of other opt DSNParser => undef, default_files => [ "/etc/percona-toolkit/percona-toolkit.conf", "/etc/percona-toolkit/$program_name.conf", "$home/.percona-toolkit.conf", "$home/.$program_name.conf", ], types => { string => 's', # standard Getopt type int => 'i', # standard Getopt type float => 'f', # standard Getopt type Hash => 'H', # hash, formed from a comma-separated list hash => 'h', # hash as above, but only if a value is given Array => 'A', # array, similar to Hash array => 'a', # array, similar to hash DSN => 'd', # DSN size => 'z', # size with kMG suffix (powers of 2^10) time => 'm', # time, with an optional suffix of s/h/m/d }, }; return bless $self, $class; } sub get_specs { my ( $self, $file ) = @_; $file ||= $self->{file} || __FILE__; my @specs = $self->_pod_to_specs($file); $self->_parse_specs(@specs); open my $fh, "<", $file or die "Cannot open $file: $OS_ERROR"; my $contents = do { local $/ = undef; <$fh> }; close $fh; if ( $contents =~ m/^=head1 DSN OPTIONS/m ) { PTDEBUG && _d('Parsing DSN OPTIONS'); my $dsn_attribs = { dsn => 1, copy => 1, }; my $parse_dsn_attribs = sub { my ( $self, $option, $attribs ) = @_; map { my $val = $attribs->{$_}; if ( $val ) { $val = $val eq 'yes' ? 1 : $val eq 'no' ? 0 : $val; $attribs->{$_} = $val; } } keys %$attribs; return { key => $option, %$attribs, }; }; my $dsn_o = new OptionParser( description => 'DSN OPTIONS', head1 => 'DSN OPTIONS', dsn => 0, # XXX don't infinitely recurse! item => '\* (.)', # key opts are a single character skip_rules => 1, # no rules before opts attributes => $dsn_attribs, parse_attributes => $parse_dsn_attribs, ); my @dsn_opts = map { my $opts = { key => $_->{spec}->{key}, dsn => $_->{spec}->{dsn}, copy => $_->{spec}->{copy}, desc => $_->{desc}, }; $opts; } $dsn_o->_pod_to_specs($file); $self->{DSNParser} = DSNParser->new(opts => \@dsn_opts); } if ( $contents =~ m/^=head1 VERSION\n\n^(.+)$/m ) { $self->{version} = $1; PTDEBUG && _d($self->{version}); } return; } sub DSNParser { my ( $self ) = @_; return $self->{DSNParser}; }; sub get_defaults_files { my ( $self ) = @_; return @{$self->{default_files}}; } sub _pod_to_specs { my ( $self, $file ) = @_; $file ||= $self->{file} || __FILE__; open my $fh, '<', $file or die "Cannot open $file: $OS_ERROR"; my @specs = (); my @rules = (); my $para; local $INPUT_RECORD_SEPARATOR = ''; while ( $para = <$fh> ) { next unless $para =~ m/^=head1 $self->{head1}/; last; } while ( $para = <$fh> ) { last if $para =~ m/^=over/; next if $self->{skip_rules}; chomp $para; $para =~ s/\s+/ /g; $para =~ s/$POD_link_re/$1/go; PTDEBUG && _d('Option rule:', $para); push @rules, $para; } die "POD has no $self->{head1} section" unless $para; do { if ( my ($option) = $para =~ m/^=item $self->{item}/ ) { chomp $para; PTDEBUG && _d($para); my %attribs; $para = <$fh>; # read next paragraph, possibly attributes if ( $para =~ m/: / ) { # attributes $para =~ s/\s+\Z//g; %attribs = map { my ( $attrib, $val) = split(/: /, $_); die "Unrecognized attribute for --$option: $attrib" unless $self->{attributes}->{$attrib}; ($attrib, $val); } split(/; /, $para); if ( $attribs{'short form'} ) { $attribs{'short form'} =~ s/-//; } $para = <$fh>; # read next paragraph, probably short help desc } else { PTDEBUG && _d('Option has no attributes'); } $para =~ s/\s+\Z//g; $para =~ s/\s+/ /g; $para =~ s/$POD_link_re/$1/go; $para =~ s/\.(?:\n.*| [A-Z].*|\Z)//s; PTDEBUG && _d('Short help:', $para); die "No description after option spec $option" if $para =~ m/^=item/; if ( my ($base_option) = $option =~ m/^\[no\](.*)/ ) { $option = $base_option; $attribs{'negatable'} = 1; } push @specs, { spec => $self->{parse_attributes}->($self, $option, \%attribs), desc => $para . (defined $attribs{default} ? " (default $attribs{default})" : ''), group => ($attribs{'group'} ? $attribs{'group'} : 'default'), }; } while ( $para = <$fh> ) { last unless $para; if ( $para =~ m/^=head1/ ) { $para = undef; # Can't 'last' out of a do {} block. last; } last if $para =~ m/^=item /; } } while ( $para ); die "No valid specs in $self->{head1}" unless @specs; close $fh; return @specs, @rules; } sub _parse_specs { my ( $self, @specs ) = @_; my %disables; # special rule that requires deferred checking foreach my $opt ( @specs ) { if ( ref $opt ) { # It's an option spec, not a rule. PTDEBUG && _d('Parsing opt spec:', map { ($_, '=>', $opt->{$_}) } keys %$opt); my ( $long, $short ) = $opt->{spec} =~ m/^([\w-]+)(?:\|([^!+=]*))?/; if ( !$long ) { die "Cannot parse long option from spec $opt->{spec}"; } $opt->{long} = $long; die "Duplicate long option --$long" if exists $self->{opts}->{$long}; $self->{opts}->{$long} = $opt; if ( length $long == 1 ) { PTDEBUG && _d('Long opt', $long, 'looks like short opt'); $self->{short_opts}->{$long} = $long; } if ( $short ) { die "Duplicate short option -$short" if exists $self->{short_opts}->{$short}; $self->{short_opts}->{$short} = $long; $opt->{short} = $short; } else { $opt->{short} = undef; } $opt->{is_negatable} = $opt->{spec} =~ m/!/ ? 1 : 0; $opt->{is_cumulative} = $opt->{spec} =~ m/\+/ ? 1 : 0; $opt->{is_required} = $opt->{desc} =~ m/required/ ? 1 : 0; $opt->{group} ||= 'default'; $self->{groups}->{ $opt->{group} }->{$long} = 1; $opt->{value} = undef; $opt->{got} = 0; my ( $type ) = $opt->{spec} =~ m/=(.)/; $opt->{type} = $type; PTDEBUG && _d($long, 'type:', $type); $opt->{spec} =~ s/=./=s/ if ( $type && $type =~ m/[HhAadzm]/ ); if ( (my ($def) = $opt->{desc} =~ m/default\b(?: ([^)]+))?/) ) { $self->{defaults}->{$long} = defined $def ? $def : 1; PTDEBUG && _d($long, 'default:', $def); } if ( $long eq 'config' ) { $self->{defaults}->{$long} = join(',', $self->get_defaults_files()); } if ( (my ($dis) = $opt->{desc} =~ m/(disables .*)/) ) { $disables{$long} = $dis; PTDEBUG && _d('Deferring check of disables rule for', $opt, $dis); } $self->{opts}->{$long} = $opt; } else { # It's an option rule, not a spec. PTDEBUG && _d('Parsing rule:', $opt); push @{$self->{rules}}, $opt; my @participants = $self->_get_participants($opt); my $rule_ok = 0; if ( $opt =~ m/mutually exclusive|one and only one/ ) { $rule_ok = 1; push @{$self->{mutex}}, \@participants; PTDEBUG && _d(@participants, 'are mutually exclusive'); } if ( $opt =~ m/at least one|one and only one/ ) { $rule_ok = 1; push @{$self->{atleast1}}, \@participants; PTDEBUG && _d(@participants, 'require at least one'); } if ( $opt =~ m/default to/ ) { $rule_ok = 1; $self->{defaults_to}->{$participants[0]} = $participants[1]; PTDEBUG && _d($participants[0], 'defaults to', $participants[1]); } if ( $opt =~ m/restricted to option groups/ ) { $rule_ok = 1; my ($groups) = $opt =~ m/groups ([\w\s\,]+)/; my @groups = split(',', $groups); %{$self->{allowed_groups}->{$participants[0]}} = map { s/\s+//; $_ => 1; } @groups; } if( $opt =~ m/accepts additional command-line arguments/ ) { $rule_ok = 1; $self->{strict} = 0; PTDEBUG && _d("Strict mode disabled by rule"); } die "Unrecognized option rule: $opt" unless $rule_ok; } } foreach my $long ( keys %disables ) { my @participants = $self->_get_participants($disables{$long}); $self->{disables}->{$long} = \@participants; PTDEBUG && _d('Option', $long, 'disables', @participants); } return; } sub _get_participants { my ( $self, $str ) = @_; my @participants; foreach my $long ( $str =~ m/--(?:\[no\])?([\w-]+)/g ) { die "Option --$long does not exist while processing rule $str" unless exists $self->{opts}->{$long}; push @participants, $long; } PTDEBUG && _d('Participants for', $str, ':', @participants); return @participants; } sub opts { my ( $self ) = @_; my %opts = %{$self->{opts}}; return %opts; } sub short_opts { my ( $self ) = @_; my %short_opts = %{$self->{short_opts}}; return %short_opts; } sub set_defaults { my ( $self, %defaults ) = @_; $self->{defaults} = {}; foreach my $long ( keys %defaults ) { die "Cannot set default for nonexistent option $long" unless exists $self->{opts}->{$long}; $self->{defaults}->{$long} = $defaults{$long}; PTDEBUG && _d('Default val for', $long, ':', $defaults{$long}); } return; } sub get_defaults { my ( $self ) = @_; return $self->{defaults}; } sub get_groups { my ( $self ) = @_; return $self->{groups}; } sub _set_option { my ( $self, $opt, $val ) = @_; my $long = exists $self->{opts}->{$opt} ? $opt : exists $self->{short_opts}->{$opt} ? $self->{short_opts}->{$opt} : die "Getopt::Long gave a nonexistent option: $opt"; $opt = $self->{opts}->{$long}; if ( $opt->{is_cumulative} ) { $opt->{value}++; } else { $opt->{value} = $val; } $opt->{got} = 1; PTDEBUG && _d('Got option', $long, '=', $val); } sub get_opts { my ( $self ) = @_; foreach my $long ( keys %{$self->{opts}} ) { $self->{opts}->{$long}->{got} = 0; $self->{opts}->{$long}->{value} = exists $self->{defaults}->{$long} ? $self->{defaults}->{$long} : $self->{opts}->{$long}->{is_cumulative} ? 0 : undef; } $self->{got_opts} = 0; $self->{errors} = []; if ( @ARGV && $ARGV[0] eq "--config" ) { shift @ARGV; $self->_set_option('config', shift @ARGV); } if ( $self->has('config') ) { my @extra_args; foreach my $filename ( split(',', $self->get('config')) ) { eval { push @extra_args, $self->_read_config_file($filename); }; if ( $EVAL_ERROR ) { if ( $self->got('config') ) { die $EVAL_ERROR; } elsif ( PTDEBUG ) { _d($EVAL_ERROR); } } } unshift @ARGV, @extra_args; } Getopt::Long::Configure('no_ignore_case', 'bundling'); GetOptions( map { $_->{spec} => sub { $self->_set_option(@_); } } grep { $_->{long} ne 'config' } # --config is handled specially above. values %{$self->{opts}} ) or $self->save_error('Error parsing options'); if ( exists $self->{opts}->{version} && $self->{opts}->{version}->{got} ) { if ( $self->{version} ) { print $self->{version}, "\n"; } else { print "Error parsing version. See the VERSION section of the tool's documentation.\n"; } exit 0; } if ( @ARGV && $self->{strict} ) { $self->save_error("Unrecognized command-line options @ARGV"); } foreach my $mutex ( @{$self->{mutex}} ) { my @set = grep { $self->{opts}->{$_}->{got} } @$mutex; if ( @set > 1 ) { my $err = join(', ', map { "--$self->{opts}->{$_}->{long}" } @{$mutex}[ 0 .. scalar(@$mutex) - 2] ) . ' and --'.$self->{opts}->{$mutex->[-1]}->{long} . ' are mutually exclusive.'; $self->save_error($err); } } foreach my $required ( @{$self->{atleast1}} ) { my @set = grep { $self->{opts}->{$_}->{got} } @$required; if ( @set == 0 ) { my $err = join(', ', map { "--$self->{opts}->{$_}->{long}" } @{$required}[ 0 .. scalar(@$required) - 2] ) .' or --'.$self->{opts}->{$required->[-1]}->{long}; $self->save_error("Specify at least one of $err"); } } $self->_check_opts( keys %{$self->{opts}} ); $self->{got_opts} = 1; return; } sub _check_opts { my ( $self, @long ) = @_; my $long_last = scalar @long; while ( @long ) { foreach my $i ( 0..$#long ) { my $long = $long[$i]; next unless $long; my $opt = $self->{opts}->{$long}; if ( $opt->{got} ) { if ( exists $self->{disables}->{$long} ) { my @disable_opts = @{$self->{disables}->{$long}}; map { $self->{opts}->{$_}->{value} = undef; } @disable_opts; PTDEBUG && _d('Unset options', @disable_opts, 'because', $long,'disables them'); } if ( exists $self->{allowed_groups}->{$long} ) { my @restricted_groups = grep { !exists $self->{allowed_groups}->{$long}->{$_} } keys %{$self->{groups}}; my @restricted_opts; foreach my $restricted_group ( @restricted_groups ) { RESTRICTED_OPT: foreach my $restricted_opt ( keys %{$self->{groups}->{$restricted_group}} ) { next RESTRICTED_OPT if $restricted_opt eq $long; push @restricted_opts, $restricted_opt if $self->{opts}->{$restricted_opt}->{got}; } } if ( @restricted_opts ) { my $err; if ( @restricted_opts == 1 ) { $err = "--$restricted_opts[0]"; } else { $err = join(', ', map { "--$self->{opts}->{$_}->{long}" } grep { $_ } @restricted_opts[0..scalar(@restricted_opts) - 2] ) . ' or --'.$self->{opts}->{$restricted_opts[-1]}->{long}; } $self->save_error("--$long is not allowed with $err"); } } } elsif ( $opt->{is_required} ) { $self->save_error("Required option --$long must be specified"); } $self->_validate_type($opt); if ( $opt->{parsed} ) { delete $long[$i]; } else { PTDEBUG && _d('Temporarily failed to parse', $long); } } die "Failed to parse options, possibly due to circular dependencies" if @long == $long_last; $long_last = @long; } return; } sub _validate_type { my ( $self, $opt ) = @_; return unless $opt; if ( !$opt->{type} ) { $opt->{parsed} = 1; return; } my $val = $opt->{value}; if ( $val && $opt->{type} eq 'm' ) { # type time PTDEBUG && _d('Parsing option', $opt->{long}, 'as a time value'); my ( $prefix, $num, $suffix ) = $val =~ m/([+-]?)(\d+)([a-z])?$/; if ( !$suffix ) { my ( $s ) = $opt->{desc} =~ m/\(suffix (.)\)/; $suffix = $s || 's'; PTDEBUG && _d('No suffix given; using', $suffix, 'for', $opt->{long}, '(value:', $val, ')'); } if ( $suffix =~ m/[smhd]/ ) { $val = $suffix eq 's' ? $num # Seconds : $suffix eq 'm' ? $num * 60 # Minutes : $suffix eq 'h' ? $num * 3600 # Hours : $num * 86400; # Days $opt->{value} = ($prefix || '') . $val; PTDEBUG && _d('Setting option', $opt->{long}, 'to', $val); } else { $self->save_error("Invalid time suffix for --$opt->{long}"); } } elsif ( $val && $opt->{type} eq 'd' ) { # type DSN PTDEBUG && _d('Parsing option', $opt->{long}, 'as a DSN'); my $prev = {}; my $from_key = $self->{defaults_to}->{ $opt->{long} }; if ( $from_key ) { PTDEBUG && _d($opt->{long}, 'DSN copies from', $from_key, 'DSN'); if ( $self->{opts}->{$from_key}->{parsed} ) { $prev = $self->{opts}->{$from_key}->{value}; } else { PTDEBUG && _d('Cannot parse', $opt->{long}, 'until', $from_key, 'parsed'); return; } } my $defaults = $self->{DSNParser}->parse_options($self); $opt->{value} = $self->{DSNParser}->parse($val, $prev, $defaults); } elsif ( $val && $opt->{type} eq 'z' ) { # type size PTDEBUG && _d('Parsing option', $opt->{long}, 'as a size value'); $self->_parse_size($opt, $val); } elsif ( $opt->{type} eq 'H' || (defined $val && $opt->{type} eq 'h') ) { $opt->{value} = { map { $_ => 1 } split(/(?{type} eq 'A' || (defined $val && $opt->{type} eq 'a') ) { $opt->{value} = [ split(/(?{long}, 'type', $opt->{type}, 'value', $val); } $opt->{parsed} = 1; return; } sub get { my ( $self, $opt ) = @_; my $long = (length $opt == 1 ? $self->{short_opts}->{$opt} : $opt); die "Option $opt does not exist" unless $long && exists $self->{opts}->{$long}; return $self->{opts}->{$long}->{value}; } sub got { my ( $self, $opt ) = @_; my $long = (length $opt == 1 ? $self->{short_opts}->{$opt} : $opt); die "Option $opt does not exist" unless $long && exists $self->{opts}->{$long}; return $self->{opts}->{$long}->{got}; } sub has { my ( $self, $opt ) = @_; my $long = (length $opt == 1 ? $self->{short_opts}->{$opt} : $opt); return defined $long ? exists $self->{opts}->{$long} : 0; } sub set { my ( $self, $opt, $val ) = @_; my $long = (length $opt == 1 ? $self->{short_opts}->{$opt} : $opt); die "Option $opt does not exist" unless $long && exists $self->{opts}->{$long}; $self->{opts}->{$long}->{value} = $val; return; } sub save_error { my ( $self, $error ) = @_; push @{$self->{errors}}, $error; return; } sub errors { my ( $self ) = @_; return $self->{errors}; } sub usage { my ( $self ) = @_; warn "No usage string is set" unless $self->{usage}; # XXX return "Usage: " . ($self->{usage} || '') . "\n"; } sub descr { my ( $self ) = @_; warn "No description string is set" unless $self->{description}; # XXX my $descr = ($self->{description} || $self->{program_name} || '') . " For more details, please use the --help option, " . "or try 'perldoc $PROGRAM_NAME' " . "for complete documentation."; $descr = join("\n", $descr =~ m/(.{0,80})(?:\s+|$)/g) unless $ENV{DONT_BREAK_LINES}; $descr =~ s/ +$//mg; return $descr; } sub usage_or_errors { my ( $self, $file, $return ) = @_; $file ||= $self->{file} || __FILE__; if ( !$self->{description} || !$self->{usage} ) { PTDEBUG && _d("Getting description and usage from SYNOPSIS in", $file); my %synop = $self->_parse_synopsis($file); $self->{description} ||= $synop{description}; $self->{usage} ||= $synop{usage}; PTDEBUG && _d("Description:", $self->{description}, "\nUsage:", $self->{usage}); } if ( $self->{opts}->{help}->{got} ) { print $self->print_usage() or die "Cannot print usage: $OS_ERROR"; exit 0 unless $return; } elsif ( scalar @{$self->{errors}} ) { print $self->print_errors() or die "Cannot print errors: $OS_ERROR"; exit 0 unless $return; } return; } sub print_errors { my ( $self ) = @_; my $usage = $self->usage() . "\n"; if ( (my @errors = @{$self->{errors}}) ) { $usage .= join("\n * ", 'Errors in command-line arguments:', @errors) . "\n"; } return $usage . "\n" . $self->descr(); } sub print_usage { my ( $self ) = @_; die "Run get_opts() before print_usage()" unless $self->{got_opts}; my @opts = values %{$self->{opts}}; my $maxl = max( map { length($_->{long}) # option long name + ($_->{is_negatable} ? 4 : 0) # "[no]" if opt is negatable + ($_->{type} ? 2 : 0) # "=x" where x is the opt type } @opts); my $maxs = max(0, map { length($_) + ($self->{opts}->{$_}->{is_negatable} ? 4 : 0) + ($self->{opts}->{$_}->{type} ? 2 : 0) } values %{$self->{short_opts}}); my $lcol = max($maxl, ($maxs + 3)); my $rcol = 80 - $lcol - 6; my $rpad = ' ' x ( 80 - $rcol ); $maxs = max($lcol - 3, $maxs); my $usage = $self->descr() . "\n" . $self->usage(); my @groups = reverse sort grep { $_ ne 'default'; } keys %{$self->{groups}}; push @groups, 'default'; foreach my $group ( reverse @groups ) { $usage .= "\n".($group eq 'default' ? 'Options' : $group).":\n\n"; foreach my $opt ( sort { $a->{long} cmp $b->{long} } grep { $_->{group} eq $group } @opts ) { my $long = $opt->{is_negatable} ? "[no]$opt->{long}" : $opt->{long}; my $short = $opt->{short}; my $desc = $opt->{desc}; $long .= $opt->{type} ? "=$opt->{type}" : ""; if ( $opt->{type} && $opt->{type} eq 'm' ) { my ($s) = $desc =~ m/\(suffix (.)\)/; $s ||= 's'; $desc =~ s/\s+\(suffix .\)//; $desc .= ". Optional suffix s=seconds, m=minutes, h=hours, " . "d=days; if no suffix, $s is used."; } $desc = join("\n$rpad", grep { $_ } $desc =~ m/(.{0,$rcol})(?:\s+|$)/g); $desc =~ s/ +$//mg; if ( $short ) { $usage .= sprintf(" --%-${maxs}s -%s %s\n", $long, $short, $desc); } else { $usage .= sprintf(" --%-${lcol}s %s\n", $long, $desc); } } } $usage .= "\nOption types: s=string, i=integer, f=float, h/H/a/A=comma-separated list, d=DSN, z=size, m=time\n"; if ( (my @rules = @{$self->{rules}}) ) { $usage .= "\nRules:\n\n"; $usage .= join("\n", map { " $_" } @rules) . "\n"; } if ( $self->{DSNParser} ) { $usage .= "\n" . $self->{DSNParser}->usage(); } $usage .= "\nOptions and values after processing arguments:\n\n"; foreach my $opt ( sort { $a->{long} cmp $b->{long} } @opts ) { my $val = $opt->{value}; my $type = $opt->{type} || ''; my $bool = $opt->{spec} =~ m/^[\w-]+(?:\|[\w-])?!?$/; $val = $bool ? ( $val ? 'TRUE' : 'FALSE' ) : !defined $val ? '(No value)' : $type eq 'd' ? $self->{DSNParser}->as_string($val) : $type =~ m/H|h/ ? join(',', sort keys %$val) : $type =~ m/A|a/ ? join(',', @$val) : $val; $usage .= sprintf(" --%-${lcol}s %s\n", $opt->{long}, $val); } return $usage; } sub prompt_noecho { shift @_ if ref $_[0] eq __PACKAGE__; my ( $prompt ) = @_; local $OUTPUT_AUTOFLUSH = 1; print $prompt or die "Cannot print: $OS_ERROR"; my $response; eval { require Term::ReadKey; Term::ReadKey::ReadMode('noecho'); chomp($response = ); Term::ReadKey::ReadMode('normal'); print "\n" or die "Cannot print: $OS_ERROR"; }; if ( $EVAL_ERROR ) { die "Cannot read response; is Term::ReadKey installed? $EVAL_ERROR"; } return $response; } sub _read_config_file { my ( $self, $filename ) = @_; open my $fh, "<", $filename or die "Cannot open $filename: $OS_ERROR\n"; my @args; my $prefix = '--'; my $parse = 1; LINE: while ( my $line = <$fh> ) { chomp $line; next LINE if $line =~ m/^\s*(?:\#|\;|$)/; $line =~ s/\s+#.*$//g; $line =~ s/^\s+|\s+$//g; if ( $line eq '--' ) { $prefix = ''; $parse = 0; next LINE; } if ( $parse && (my($opt, $arg) = $line =~ m/^\s*([^=\s]+?)(?:\s*=\s*(.*?)\s*)?$/) ) { push @args, grep { defined $_ } ("$prefix$opt", $arg); } elsif ( $line =~ m/./ ) { push @args, $line; } else { die "Syntax error in file $filename at line $INPUT_LINE_NUMBER"; } } close $fh; return @args; } sub read_para_after { my ( $self, $file, $regex ) = @_; open my $fh, "<", $file or die "Can't open $file: $OS_ERROR"; local $INPUT_RECORD_SEPARATOR = ''; my $para; while ( $para = <$fh> ) { next unless $para =~ m/^=pod$/m; last; } while ( $para = <$fh> ) { next unless $para =~ m/$regex/; last; } $para = <$fh>; chomp($para); close $fh or die "Can't close $file: $OS_ERROR"; return $para; } sub clone { my ( $self ) = @_; my %clone = map { my $hashref = $self->{$_}; my $val_copy = {}; foreach my $key ( keys %$hashref ) { my $ref = ref $hashref->{$key}; $val_copy->{$key} = !$ref ? $hashref->{$key} : $ref eq 'HASH' ? { %{$hashref->{$key}} } : $ref eq 'ARRAY' ? [ @{$hashref->{$key}} ] : $hashref->{$key}; } $_ => $val_copy; } qw(opts short_opts defaults); foreach my $scalar ( qw(got_opts) ) { $clone{$scalar} = $self->{$scalar}; } return bless \%clone; } sub _parse_size { my ( $self, $opt, $val ) = @_; if ( lc($val || '') eq 'null' ) { PTDEBUG && _d('NULL size for', $opt->{long}); $opt->{value} = 'null'; return; } my %factor_for = (k => 1_024, M => 1_048_576, G => 1_073_741_824); my ($pre, $num, $factor) = $val =~ m/^([+-])?(\d+)([kMG])?$/; if ( defined $num ) { if ( $factor ) { $num *= $factor_for{$factor}; PTDEBUG && _d('Setting option', $opt->{y}, 'to num', $num, '* factor', $factor); } $opt->{value} = ($pre || '') . $num; } else { $self->save_error("Invalid size for --$opt->{long}"); } return; } sub _parse_attribs { my ( $self, $option, $attribs ) = @_; my $types = $self->{types}; return $option . ($attribs->{'short form'} ? '|' . $attribs->{'short form'} : '' ) . ($attribs->{'negatable'} ? '!' : '' ) . ($attribs->{'cumulative'} ? '+' : '' ) . ($attribs->{'type'} ? '=' . $types->{$attribs->{type}} : '' ); } sub _parse_synopsis { my ( $self, $file ) = @_; $file ||= $self->{file} || __FILE__; PTDEBUG && _d("Parsing SYNOPSIS in", $file); local $INPUT_RECORD_SEPARATOR = ''; # read paragraphs open my $fh, "<", $file or die "Cannot open $file: $OS_ERROR"; my $para; 1 while defined($para = <$fh>) && $para !~ m/^=head1 SYNOPSIS/; die "$file does not contain a SYNOPSIS section" unless $para; my @synop; for ( 1..2 ) { # 1 for the usage, 2 for the description my $para = <$fh>; push @synop, $para; } close $fh; PTDEBUG && _d("Raw SYNOPSIS text:", @synop); my ($usage, $desc) = @synop; die "The SYNOPSIS section in $file is not formatted properly" unless $usage && $desc; $usage =~ s/^\s*Usage:\s+(.+)/$1/; chomp $usage; $desc =~ s/\n/ /g; $desc =~ s/\s{2,}/ /g; $desc =~ s/\. ([A-Z][a-z])/. $1/g; $desc =~ s/\s+$//; return ( description => $desc, usage => $usage, ); }; sub _d { my ($package, undef, $line) = caller 0; @_ = map { (my $temp = $_) =~ s/\n/\n# /g; $temp; } map { defined $_ ? $_ : 'undef' } @_; print STDERR "# $package:$line $PID ", join(' ', @_), "\n"; } if ( PTDEBUG ) { print '# ', $^X, ' ', $], "\n"; if ( my $uname = `uname -a` ) { $uname =~ s/\s+/ /g; print "# $uname\n"; } print '# Arguments: ', join(' ', map { my $a = "_[$_]_"; $a =~ s/\n/\n# /g; $a; } @ARGV), "\n"; } 1; } # ########################################################################### # End OptionParser package # ########################################################################### # ########################################################################### # VersionParser package # This package is a copy without comments from the original. The original # with comments and its test file can be found in the Bazaar repository at, # lib/VersionParser.pm # t/lib/VersionParser.t # See https://launchpad.net/percona-toolkit for more information. # ########################################################################### { package VersionParser; use strict; use warnings FATAL => 'all'; use English qw(-no_match_vars); use constant PTDEBUG => $ENV{PTDEBUG} || 0; sub new { my ( $class ) = @_; bless {}, $class; } sub parse { my ( $self, $str ) = @_; my $result = sprintf('%03d%03d%03d', $str =~ m/(\d+)/g); PTDEBUG && _d($str, 'parses to', $result); return $result; } sub version_ge { my ( $self, $dbh, $target ) = @_; if ( !$self->{$dbh} ) { $self->{$dbh} = $self->parse( $dbh->selectrow_array('SELECT VERSION()')); } my $result = $self->{$dbh} ge $self->parse($target) ? 1 : 0; PTDEBUG && _d($self->{$dbh}, 'ge', $target, ':', $result); return $result; } sub innodb_version { my ( $self, $dbh ) = @_; return unless $dbh; my $innodb_version = "NO"; my ($innodb) = grep { $_->{engine} =~ m/InnoDB/i } map { my %hash; @hash{ map { lc $_ } keys %$_ } = values %$_; \%hash; } @{ $dbh->selectall_arrayref("SHOW ENGINES", {Slice=>{}}) }; if ( $innodb ) { PTDEBUG && _d("InnoDB support:", $innodb->{support}); if ( $innodb->{support} =~ m/YES|DEFAULT/i ) { my $vars = $dbh->selectrow_hashref( "SHOW VARIABLES LIKE 'innodb_version'"); $innodb_version = !$vars ? "BUILTIN" : ($vars->{Value} || $vars->{value}); } else { $innodb_version = $innodb->{support}; # probably DISABLED or NO } } PTDEBUG && _d("InnoDB version:", $innodb_version); return $innodb_version; } sub _d { my ($package, undef, $line) = caller 0; @_ = map { (my $temp = $_) =~ s/\n/\n# /g; $temp; } map { defined $_ ? $_ : 'undef' } @_; print STDERR "# $package:$line $PID ", join(' ', @_), "\n"; } 1; } # ########################################################################### # End VersionParser package # ########################################################################### # ########################################################################### # Quoter package # This package is a copy without comments from the original. The original # with comments and its test file can be found in the Bazaar repository at, # lib/Quoter.pm # t/lib/Quoter.t # See https://launchpad.net/percona-toolkit for more information. # ########################################################################### { package Quoter; use strict; use warnings FATAL => 'all'; use English qw(-no_match_vars); use constant PTDEBUG => $ENV{PTDEBUG} || 0; sub new { my ( $class, %args ) = @_; return bless {}, $class; } sub quote { my ( $self, @vals ) = @_; foreach my $val ( @vals ) { $val =~ s/`/``/g; } return join('.', map { '`' . $_ . '`' } @vals); } sub quote_val { my ( $self, $val ) = @_; return 'NULL' unless defined $val; # undef = NULL return "''" if $val eq ''; # blank string = '' return $val if $val =~ m/^0x[0-9a-fA-F]+$/; # hex data $val =~ s/(['\\])/\\$1/g; return "'$val'"; } sub split_unquote { my ( $self, $db_tbl, $default_db ) = @_; $db_tbl =~ s/`//g; my ( $db, $tbl ) = split(/[.]/, $db_tbl); if ( !$tbl ) { $tbl = $db; $db = $default_db; } return ($db, $tbl); } sub literal_like { my ( $self, $like ) = @_; return unless $like; $like =~ s/([%_])/\\$1/g; return "'$like'"; } sub join_quote { my ( $self, $default_db, $db_tbl ) = @_; return unless $db_tbl; my ($db, $tbl) = split(/[.]/, $db_tbl); if ( !$tbl ) { $tbl = $db; $db = $default_db; } $db = "`$db`" if $db && $db !~ m/^`/; $tbl = "`$tbl`" if $tbl && $tbl !~ m/^`/; return $db ? "$db.$tbl" : $tbl; } 1; } # ########################################################################### # End Quoter package # ########################################################################### # ########################################################################### # DSNParser package # This package is a copy without comments from the original. The original # with comments and its test file can be found in the Bazaar repository at, # lib/DSNParser.pm # t/lib/DSNParser.t # See https://launchpad.net/percona-toolkit for more information. # ########################################################################### { package DSNParser; use strict; use warnings FATAL => 'all'; use English qw(-no_match_vars); use constant PTDEBUG => $ENV{PTDEBUG} || 0; use Data::Dumper; $Data::Dumper::Indent = 0; $Data::Dumper::Quotekeys = 0; eval { require DBI; }; my $have_dbi = $EVAL_ERROR ? 0 : 1; sub new { my ( $class, %args ) = @_; foreach my $arg ( qw(opts) ) { die "I need a $arg argument" unless $args{$arg}; } my $self = { opts => {} # h, P, u, etc. Should come from DSN OPTIONS section in POD. }; foreach my $opt ( @{$args{opts}} ) { if ( !$opt->{key} || !$opt->{desc} ) { die "Invalid DSN option: ", Dumper($opt); } PTDEBUG && _d('DSN option:', join(', ', map { "$_=" . (defined $opt->{$_} ? ($opt->{$_} || '') : 'undef') } keys %$opt ) ); $self->{opts}->{$opt->{key}} = { dsn => $opt->{dsn}, desc => $opt->{desc}, copy => $opt->{copy} || 0, }; } return bless $self, $class; } sub prop { my ( $self, $prop, $value ) = @_; if ( @_ > 2 ) { PTDEBUG && _d('Setting', $prop, 'property'); $self->{$prop} = $value; } return $self->{$prop}; } sub parse { my ( $self, $dsn, $prev, $defaults ) = @_; if ( !$dsn ) { PTDEBUG && _d('No DSN to parse'); return; } PTDEBUG && _d('Parsing', $dsn); $prev ||= {}; $defaults ||= {}; my %given_props; my %final_props; my $opts = $self->{opts}; foreach my $dsn_part ( split(/,/, $dsn) ) { if ( my ($prop_key, $prop_val) = $dsn_part =~ m/^(.)=(.*)$/ ) { $given_props{$prop_key} = $prop_val; } else { PTDEBUG && _d('Interpreting', $dsn_part, 'as h=', $dsn_part); $given_props{h} = $dsn_part; } } foreach my $key ( keys %$opts ) { PTDEBUG && _d('Finding value for', $key); $final_props{$key} = $given_props{$key}; if ( !defined $final_props{$key} && defined $prev->{$key} && $opts->{$key}->{copy} ) { $final_props{$key} = $prev->{$key}; PTDEBUG && _d('Copying value for', $key, 'from previous DSN'); } if ( !defined $final_props{$key} ) { $final_props{$key} = $defaults->{$key}; PTDEBUG && _d('Copying value for', $key, 'from defaults'); } } foreach my $key ( keys %given_props ) { die "Unknown DSN option '$key' in '$dsn'. For more details, " . "please use the --help option, or try 'perldoc $PROGRAM_NAME' " . "for complete documentation." unless exists $opts->{$key}; } if ( (my $required = $self->prop('required')) ) { foreach my $key ( keys %$required ) { die "Missing required DSN option '$key' in '$dsn'. For more details, " . "please use the --help option, or try 'perldoc $PROGRAM_NAME' " . "for complete documentation." unless $final_props{$key}; } } return \%final_props; } sub parse_options { my ( $self, $o ) = @_; die 'I need an OptionParser object' unless ref $o eq 'OptionParser'; my $dsn_string = join(',', map { "$_=".$o->get($_); } grep { $o->has($_) && $o->get($_) } keys %{$self->{opts}} ); PTDEBUG && _d('DSN string made from options:', $dsn_string); return $self->parse($dsn_string); } sub as_string { my ( $self, $dsn, $props ) = @_; return $dsn unless ref $dsn; my %allowed = $props ? map { $_=>1 } @$props : (); return join(',', map { "$_=" . ($_ eq 'p' ? '...' : $dsn->{$_}) } grep { defined $dsn->{$_} && $self->{opts}->{$_} } grep { !$props || $allowed{$_} } sort keys %$dsn ); } sub usage { my ( $self ) = @_; my $usage = "DSN syntax is key=value[,key=value...] Allowable DSN keys:\n\n" . " KEY COPY MEANING\n" . " === ==== =============================================\n"; my %opts = %{$self->{opts}}; foreach my $key ( sort keys %opts ) { $usage .= " $key " . ($opts{$key}->{copy} ? 'yes ' : 'no ') . ($opts{$key}->{desc} || '[No description]') . "\n"; } $usage .= "\n If the DSN is a bareword, the word is treated as the 'h' key.\n"; return $usage; } sub get_cxn_params { my ( $self, $info ) = @_; my $dsn; my %opts = %{$self->{opts}}; my $driver = $self->prop('dbidriver') || ''; if ( $driver eq 'Pg' ) { $dsn = 'DBI:Pg:dbname=' . ( $info->{D} || '' ) . ';' . join(';', map { "$opts{$_}->{dsn}=$info->{$_}" } grep { defined $info->{$_} } qw(h P)); } else { $dsn = 'DBI:mysql:' . ( $info->{D} || '' ) . ';' . join(';', map { "$opts{$_}->{dsn}=$info->{$_}" } grep { defined $info->{$_} } qw(F h P S A)) . ';mysql_read_default_group=client'; } PTDEBUG && _d($dsn); return ($dsn, $info->{u}, $info->{p}); } sub fill_in_dsn { my ( $self, $dbh, $dsn ) = @_; my $vars = $dbh->selectall_hashref('SHOW VARIABLES', 'Variable_name'); my ($user, $db) = $dbh->selectrow_array('SELECT USER(), DATABASE()'); $user =~ s/@.*//; $dsn->{h} ||= $vars->{hostname}->{Value}; $dsn->{S} ||= $vars->{'socket'}->{Value}; $dsn->{P} ||= $vars->{port}->{Value}; $dsn->{u} ||= $user; $dsn->{D} ||= $db; } sub get_dbh { my ( $self, $cxn_string, $user, $pass, $opts ) = @_; $opts ||= {}; my $defaults = { AutoCommit => 0, RaiseError => 1, PrintError => 0, ShowErrorStatement => 1, mysql_enable_utf8 => ($cxn_string =~ m/charset=utf8/i ? 1 : 0), }; @{$defaults}{ keys %$opts } = values %$opts; if ( $opts->{mysql_use_result} ) { $defaults->{mysql_use_result} = 1; } if ( !$have_dbi ) { die "Cannot connect to MySQL because the Perl DBI module is not " . "installed or not found. Run 'perl -MDBI' to see the directories " . "that Perl searches for DBI. If DBI is not installed, try:\n" . " Debian/Ubuntu apt-get install libdbi-perl\n" . " RHEL/CentOS yum install perl-DBI\n" . " OpenSolaris pgk install pkg:/SUNWpmdbi\n"; } my $dbh; my $tries = 2; while ( !$dbh && $tries-- ) { PTDEBUG && _d($cxn_string, ' ', $user, ' ', $pass, join(', ', map { "$_=>$defaults->{$_}" } keys %$defaults )); eval { $dbh = DBI->connect($cxn_string, $user, $pass, $defaults); if ( $cxn_string =~ m/mysql/i ) { my $sql; $sql = 'SELECT @@SQL_MODE'; PTDEBUG && _d($dbh, $sql); my ($sql_mode) = $dbh->selectrow_array($sql); $sql = 'SET @@SQL_QUOTE_SHOW_CREATE = 1' . '/*!40101, @@SQL_MODE=\'NO_AUTO_VALUE_ON_ZERO' . ($sql_mode ? ",$sql_mode" : '') . '\'*/'; PTDEBUG && _d($dbh, $sql); $dbh->do($sql); if ( my ($charset) = $cxn_string =~ m/charset=(\w+)/ ) { $sql = "/*!40101 SET NAMES $charset*/"; PTDEBUG && _d($dbh, ':', $sql); $dbh->do($sql); PTDEBUG && _d('Enabling charset for STDOUT'); if ( $charset eq 'utf8' ) { binmode(STDOUT, ':utf8') or die "Can't binmode(STDOUT, ':utf8'): $OS_ERROR"; } else { binmode(STDOUT) or die "Can't binmode(STDOUT): $OS_ERROR"; } } if ( $self->prop('set-vars') ) { $sql = "SET " . $self->prop('set-vars'); PTDEBUG && _d($dbh, ':', $sql); $dbh->do($sql); } } }; if ( !$dbh && $EVAL_ERROR ) { PTDEBUG && _d($EVAL_ERROR); if ( $EVAL_ERROR =~ m/not a compiled character set|character set utf8/ ) { PTDEBUG && _d('Going to try again without utf8 support'); delete $defaults->{mysql_enable_utf8}; } elsif ( $EVAL_ERROR =~ m/locate DBD\/mysql/i ) { die "Cannot connect to MySQL because the Perl DBD::mysql module is " . "not installed or not found. Run 'perl -MDBD::mysql' to see " . "the directories that Perl searches for DBD::mysql. If " . "DBD::mysql is not installed, try:\n" . " Debian/Ubuntu apt-get install libdbd-mysql-perl\n" . " RHEL/CentOS yum install perl-DBD-MySQL\n" . " OpenSolaris pgk install pkg:/SUNWapu13dbd-mysql\n"; } if ( !$tries ) { die $EVAL_ERROR; } } } PTDEBUG && _d('DBH info: ', $dbh, Dumper($dbh->selectrow_hashref( 'SELECT DATABASE(), CONNECTION_ID(), VERSION()/*!50038 , @@hostname*/')), 'Connection info:', $dbh->{mysql_hostinfo}, 'Character set info:', Dumper($dbh->selectall_arrayref( 'SHOW VARIABLES LIKE "character_set%"', { Slice => {}})), '$DBD::mysql::VERSION:', $DBD::mysql::VERSION, '$DBI::VERSION:', $DBI::VERSION, ); return $dbh; } sub get_hostname { my ( $self, $dbh ) = @_; if ( my ($host) = ($dbh->{mysql_hostinfo} || '') =~ m/^(\w+) via/ ) { return $host; } my ( $hostname, $one ) = $dbh->selectrow_array( 'SELECT /*!50038 @@hostname, */ 1'); return $hostname; } sub disconnect { my ( $self, $dbh ) = @_; PTDEBUG && $self->print_active_handles($dbh); $dbh->disconnect; } sub print_active_handles { my ( $self, $thing, $level ) = @_; $level ||= 0; printf("# Active %sh: %s %s %s\n", ($thing->{Type} || 'undef'), "\t" x $level, $thing, (($thing->{Type} || '') eq 'st' ? $thing->{Statement} || '' : '')) or die "Cannot print: $OS_ERROR"; foreach my $handle ( grep {defined} @{ $thing->{ChildHandles} } ) { $self->print_active_handles( $handle, $level + 1 ); } } sub copy { my ( $self, $dsn_1, $dsn_2, %args ) = @_; die 'I need a dsn_1 argument' unless $dsn_1; die 'I need a dsn_2 argument' unless $dsn_2; my %new_dsn = map { my $key = $_; my $val; if ( $args{overwrite} ) { $val = defined $dsn_1->{$key} ? $dsn_1->{$key} : $dsn_2->{$key}; } else { $val = defined $dsn_2->{$key} ? $dsn_2->{$key} : $dsn_1->{$key}; } $key => $val; } keys %{$self->{opts}}; return \%new_dsn; } sub _d { my ($package, undef, $line) = caller 0; @_ = map { (my $temp = $_) =~ s/\n/\n# /g; $temp; } map { defined $_ ? $_ : 'undef' } @_; print STDERR "# $package:$line $PID ", join(' ', @_), "\n"; } 1; } # ########################################################################### # End DSNParser package # ########################################################################### # ########################################################################### # Daemon package # This package is a copy without comments from the original. The original # with comments and its test file can be found in the Bazaar repository at, # lib/Daemon.pm # t/lib/Daemon.t # See https://launchpad.net/percona-toolkit for more information. # ########################################################################### { package Daemon; use strict; use warnings FATAL => 'all'; use English qw(-no_match_vars); use constant PTDEBUG => $ENV{PTDEBUG} || 0; use POSIX qw(setsid); sub new { my ( $class, %args ) = @_; foreach my $arg ( qw(o) ) { die "I need a $arg argument" unless $args{$arg}; } my $o = $args{o}; my $self = { o => $o, log_file => $o->has('log') ? $o->get('log') : undef, PID_file => $o->has('pid') ? $o->get('pid') : undef, }; check_PID_file(undef, $self->{PID_file}); PTDEBUG && _d('Daemonized child will log to', $self->{log_file}); return bless $self, $class; } sub daemonize { my ( $self ) = @_; PTDEBUG && _d('About to fork and daemonize'); defined (my $pid = fork()) or die "Cannot fork: $OS_ERROR"; if ( $pid ) { PTDEBUG && _d('Parent PID', $PID, 'exiting after forking child PID',$pid); exit; } PTDEBUG && _d('Daemonizing child PID', $PID); $self->{PID_owner} = $PID; $self->{child} = 1; POSIX::setsid() or die "Cannot start a new session: $OS_ERROR"; chdir '/' or die "Cannot chdir to /: $OS_ERROR"; $self->_make_PID_file(); $OUTPUT_AUTOFLUSH = 1; PTDEBUG && _d('Redirecting STDIN to /dev/null'); close STDIN; open STDIN, '/dev/null' or die "Cannot reopen STDIN to /dev/null: $OS_ERROR"; if ( $self->{log_file} ) { PTDEBUG && _d('Redirecting STDOUT and STDERR to', $self->{log_file}); close STDOUT; open STDOUT, '>>', $self->{log_file} or die "Cannot open log file $self->{log_file}: $OS_ERROR"; close STDERR; open STDERR, ">&STDOUT" or die "Cannot dupe STDERR to STDOUT: $OS_ERROR"; } else { if ( -t STDOUT ) { PTDEBUG && _d('No log file and STDOUT is a terminal;', 'redirecting to /dev/null'); close STDOUT; open STDOUT, '>', '/dev/null' or die "Cannot reopen STDOUT to /dev/null: $OS_ERROR"; } if ( -t STDERR ) { PTDEBUG && _d('No log file and STDERR is a terminal;', 'redirecting to /dev/null'); close STDERR; open STDERR, '>', '/dev/null' or die "Cannot reopen STDERR to /dev/null: $OS_ERROR"; } } return; } sub check_PID_file { my ( $self, $file ) = @_; my $PID_file = $self ? $self->{PID_file} : $file; PTDEBUG && _d('Checking PID file', $PID_file); if ( $PID_file && -f $PID_file ) { my $pid; eval { chomp($pid = `cat $PID_file`); }; die "Cannot cat $PID_file: $OS_ERROR" if $EVAL_ERROR; PTDEBUG && _d('PID file exists; it contains PID', $pid); if ( $pid ) { my $pid_is_alive = kill 0, $pid; if ( $pid_is_alive ) { die "The PID file $PID_file already exists " . " and the PID that it contains, $pid, is running"; } else { warn "Overwriting PID file $PID_file because the PID that it " . "contains, $pid, is not running"; } } else { die "The PID file $PID_file already exists but it does not " . "contain a PID"; } } else { PTDEBUG && _d('No PID file'); } return; } sub make_PID_file { my ( $self ) = @_; if ( exists $self->{child} ) { die "Do not call Daemon::make_PID_file() for daemonized scripts"; } $self->_make_PID_file(); $self->{PID_owner} = $PID; return; } sub _make_PID_file { my ( $self ) = @_; my $PID_file = $self->{PID_file}; if ( !$PID_file ) { PTDEBUG && _d('No PID file to create'); return; } $self->check_PID_file(); open my $PID_FH, '>', $PID_file or die "Cannot open PID file $PID_file: $OS_ERROR"; print $PID_FH $PID or die "Cannot print to PID file $PID_file: $OS_ERROR"; close $PID_FH or die "Cannot close PID file $PID_file: $OS_ERROR"; PTDEBUG && _d('Created PID file:', $self->{PID_file}); return; } sub _remove_PID_file { my ( $self ) = @_; if ( $self->{PID_file} && -f $self->{PID_file} ) { unlink $self->{PID_file} or warn "Cannot remove PID file $self->{PID_file}: $OS_ERROR"; PTDEBUG && _d('Removed PID file'); } else { PTDEBUG && _d('No PID to remove'); } return; } sub DESTROY { my ( $self ) = @_; $self->_remove_PID_file() if ($self->{PID_owner} || 0) == $PID; return; } sub _d { my ($package, undef, $line) = caller 0; @_ = map { (my $temp = $_) =~ s/\n/\n# /g; $temp; } map { defined $_ ? $_ : 'undef' } @_; print STDERR "# $package:$line $PID ", join(' ', @_), "\n"; } 1; } # ########################################################################### # End Daemon package # ########################################################################### # ########################################################################### # This is a combination of modules and programs in one -- a runnable module. # http://www.perl.com/pub/a/2006/07/13/lightning-articles.html?page=last # Or, look it up in the Camel book on pages 642 and 643 in the 3rd edition. # # Check at the end of this package for the call to main() which actually runs # the program. # ########################################################################### package pt_deadlock_logger; use English qw(-no_match_vars); use List::Util qw(max); use Socket qw(inet_aton); use sigtrap qw(handler finish untrapped normal-signals); use constant PTDEBUG => $ENV{PTDEBUG} || 0; my $o; my $oktorun; my $dp; # ######################################################################## # Configuration info. # ######################################################################## my $source_dsn; my $dest_dsn; # Some common patterns and variables my $d = qr/(\d+)/; # Digit my $t = qr/(\d+ \d+)/; # Transaction ID my $i = qr/((?:\d{1,3}\.){3}\d+)/; # IP address my $n = qr/([^`\s]+)/; # MySQL object name my $w = qr/(\w+)/; # Words my $s = qr/(\d{6} .\d:\d\d:\d\d)/; # InnoDB timestamp # A thread's proc_info can be at least 98 different things I've found in the # source. Fortunately, most of them begin with a gerunded verb. These are # the ones that don't. my %is_proc_info = ( 'After create' => 1, 'Execution of init_command' => 1, 'FULLTEXT initialization' => 1, 'Reopen tables' => 1, 'Repair done' => 1, 'Repair with keycache' => 1, 'System lock' => 1, 'Table lock' => 1, 'Thread initialized' => 1, 'User lock' => 1, 'copy to tmp table' => 1, 'discard_or_import_tablespace' => 1, 'end' => 1, 'got handler lock' => 1, 'got old table' => 1, 'init' => 1, 'key cache' => 1, 'locks' => 1, 'malloc' => 1, 'query end' => 1, 'rename result table' => 1, 'rename' => 1, 'setup' => 1, 'statistics' => 1, 'status' => 1, 'table cache' => 1, 'update' => 1, ); sub main { @ARGV = @_; # set global ARGV for this package my $q = new Quoter(); my $vp = new VersionParser(); # ######################################################################## # Get configuration information. # ######################################################################## $o = new OptionParser(); $o->get_specs(); $o->get_opts(); $o->set('collapse', $o->get('print')) unless $o->got('collapse'); $dp = $o->DSNParser(); my $dsn_defaults = $dp->parse_options($o); $source_dsn = @ARGV ? $dp->parse(shift @ARGV,$dsn_defaults) : $dsn_defaults; $dest_dsn = $o->get('dest'); # The source dsn is not an option so --dest cannot use OptionParser # to inherit values from it. Thus, we do it manually. --dest will # inherit from --user, --port, etc. if ( $source_dsn && $dest_dsn ) { # If dest DSN only has D and t, this will copy h, P, S, etc. # from the source DSN. $dest_dsn = $dp->copy($source_dsn, $dest_dsn); } if ( !$o->get('help') ) { if ( !$source_dsn ) { $o->save_error('Missing or invalid source host'); } if ( $dest_dsn && !$dest_dsn->{D} ) { $o->save_error("--dest requires a 'D' (database) part"); } if ( $dest_dsn && !$dest_dsn->{t} ) { $o->save_error("--dest requires a 't' (table) part"); } # Avoid running forever with zero second interval. if ( $o->get('run-time') && !$o->get('interval') ) { $o->set('interval', 1); } } $o->usage_or_errors(); # ######################################################################## # Start working. # ######################################################################## my $dbh = get_cxn($source_dsn, 1); my $dest_dbh; my $sth; my $ins_sth; # Since the user might not have specified a hostname for the connection, # try to extract it from the $dbh if ( !$source_dsn->{h} ) { ($source_dsn->{h}) = $dbh->{mysql_hostinfo} =~ m/(\w+) via/; PTDEBUG && _d('Got source host from dbh:', $source_dsn->{h}); } my @cols = qw( server ts thread txn_id txn_time user hostname ip db tbl idx lock_type lock_mode wait_hold victim query ); if ( $o->got('columns') ) { @cols = grep { $o->get('columns')->{$_} } @cols; } if ( $dest_dsn ) { my $db_tbl = join('.', map { $q->quote($_) } grep { $_ } ( $dest_dsn->{D}, $dest_dsn->{t} )); $dest_dbh = get_cxn($dest_dsn, 0); my $cols = join(',', map { $q->quote($_) } @cols); my $parms = join(',', map { '?' } @cols); my $sql = "INSERT IGNORE INTO $db_tbl($cols) VALUES($parms)"; PTDEBUG && _d($sql); $ins_sth = $dest_dbh->prepare($sql); if ( $o->get('create-dest-table') ) { my $db_tbl = $q->quote($dest_dsn->{D}, $dest_dsn->{t}); $sql = $o->read_para_after(__FILE__, qr/MAGIC_dest_table/); $sql =~ s/deadlocks/IF NOT EXISTS $db_tbl/; PTDEBUG && _d($sql); $dest_dbh->do($sql); } } # Daemonize only after (potentially) asking for passwords for --ask-pass. my $daemon; if ( $o->get('daemonize') ) { $daemon = new Daemon(o=>$o); $daemon->daemonize(); PTDEBUG && _d('I am a daemon now'); } elsif ( $o->get('pid') ) { # We're not daemoninzing, it just handles PID stuff. $daemon = new Daemon(o=>$o); $daemon->make_PID_file(); } my $last_fingerprint = ''; $oktorun = 1; my $start = time(); my $end = $start + ($o->get('run-time') || 0); # When we should exit my $now = $start; while ( # Quit if: ($start == $end || $now < $end) # time is exceeded && $oktorun # or instructed to quit ) { my $text = $dbh->selectrow_hashref("SHOW /*!40100 ENGINE*/ INNODB STATUS")->{Status}; my %txns = %{parse_deadlocks($text)}; my $fingerprint = fingerprint(\%txns); if ( $ins_sth ) { foreach my $txn (sort { $a->{thread} <=> $b->{thread} } values %txns) { $ins_sth->execute(@{$txn}{@cols}); } $dest_dbh->commit(); } if ( $fingerprint ne $last_fingerprint ) { PTDEBUG && _d('New deadlock'); if ( $o->got('print') || !$o->got('dest') ) { my $sep = $o->get('tab') ? "\t" : ' '; print join($sep, @cols), "\n"; foreach my $txn (sort {$a->{thread}<=>$b->{thread}} values %txns) { # If 'collapse' is on, it's already been taken care of, # but if it's unset, by default strip whitespace. if ( !$o->got('collapse') ) { $txn->{query} =~ s/\s+/ /g; } print join($sep, map { $txn->{$_} } @cols), "\n"; } } } else { PTDEBUG && _d('Same deadlock, not printing'); } # Save deadlock's fingerprint for next interval. $last_fingerprint = $fingerprint; # If specified, clear the deadlock... if ( my $db_tbl = $o->get('clear-deadlocks') ) { PTDEBUG && _d('Creating --clear-deadlocks table', $db_tbl); $dbh->{AutoCommit} = 0; my $sql = $o->read_para_after(__FILE__, qr/MAGIC_clear_deadlocks/); if ( !$vp->version_ge($dbh, '4.1.2') ) { $sql =~ s/ENGINE=/TYPE=/; } $sql =~ s/test.deadlock_maker/$db_tbl/; PTDEBUG && _d($sql); $dbh->do($sql); $sql = "INSERT INTO $db_tbl(a) VALUES(1)"; PTDEBUG && _d($sql); $dbh->do($sql); # I'm holding locks on the table now. # Fork off a child to try to take a lock on the table. my $pid = fork(); if ( defined($pid) && $pid == 0 ) { # I am a child my $dbh_child = get_cxn($source_dsn, 0); $sql = "SELECT * FROM $db_tbl FOR UPDATE"; PTDEBUG && _d($sql); eval { $dbh_child->do($sql); }; # Should block against parent. PTDEBUG && _d($EVAL_ERROR); # Parent inserted value 0. $sql = "DROP TABLE $db_tbl"; PTDEBUG && _d($sql); $dbh_child->do($sql); exit; } elsif ( !defined($pid) ) { die("Unable to fork for clearing deadlocks!\n"); } sleep 1; $sql = "INSERT INTO $db_tbl(a) VALUES(0)";# Will make child deadlock PTDEBUG && _d($sql); eval { $dbh->do($sql); }; PTDEBUG && _d($EVAL_ERROR); waitpid($pid, 0); } # If there's an --interval argument, run forever or till specified. # Otherwise just run once. if ( $o->get('interval') ) { sleep($o->get('interval')); $now = time(); } else { $oktorun = 0; } } return 0; } # ############################################################################ # Subroutines # ############################################################################ sub parse_deadlocks { my ( $text ) = @_; # Pull out the deadlock section my $dl_text; my @matches = $text =~ m#\n(---+)\n([A-Z /]+)\n\1\n(.*?)(?=\n(---+)\n[A-Z /]+\n\4\n|$)#gs; while ( my ( $start, $name, $text, $end ) = splice(@matches, 0, 4) ) { next unless $name eq 'LATEST DETECTED DEADLOCK'; $dl_text = $text; } return {} unless $dl_text; my @sections = $dl_text =~ m{ ^\*{3}\s([^\n]*) # *** (1) WAITING FOR THIS... (.*?) # Followed by anything, non-greedy (?=(?:^\*{3})|\z) # Followed by another three-stars or EOF }gmsx; # Loop through each section. There are no assumptions about how many # there are, who holds and wants what locks, and who gets rolled back. my %txns; while ( my ($header, $body) = splice(@sections, 0, 2) ) { my ( $txn_id, $what ) = $header =~ m/^\($d\) (.*):$/m; next unless $txn_id; $txns{$txn_id} ||= { id => $txn_id }; my $hash = $txns{$txn_id}; if ( $what eq 'TRANSACTION' ) { @{$hash}{qw(txn_time)} = $body =~ m/ACTIVE $d sec/; # Parsing the line that begins 'MySQL thread id' is complicated. # The only thing always in the line is the thread and query id. # See function innobase_mysql_print_thd in InnoDB source file # sql/ha_innodb.cc. my ( $thread_line ) = $body =~ m/^(MySQL thread id .*)$/m; my ($mysql_thread_id, $query_id, $hostname, $ip, $user, $query_status); if ( $thread_line ) { # These parts can always be gotten. ( $mysql_thread_id, $query_id ) = $thread_line =~ m/^MySQL thread id $d, query id $d/m; # If it's a master/slave thread, "Has (read|sent) all" may be the # thread's proc_info. In these cases, there won't be any # host/ip/user info. ( $query_status ) = $thread_line =~ m/(Has (?:read|sent) all .*$)/m; if ( defined($query_status) ) { $user = 'system user'; } # The query id might be the last thing in the line. elsif ( $thread_line =~ m/query id \d+ / ) { # The IP address is the only non-word thing left, so it's # the most useful marker for where I have to start guessing. ( $hostname, $ip ) = $thread_line =~ m/query id \d+(?: ([A-Za-z]\S+))? $i/m; if ( defined $ip ) { ($user, $query_status) = $thread_line =~ m/$ip $w(?: (.*))?$/; } else { # OK, there wasn't an IP address. # There might not be ANYTHING except the query status. ( $query_status ) = $thread_line =~ m/query id \d+ (.*)$/; if ( $query_status !~ m/^\w+ing/ && !exists($is_proc_info{$query_status}) ) { # The remaining tokens are, in order: hostname, user, # query_status. # It's basically impossible to know which is which. ( $hostname, $user, $query_status ) = $thread_line =~ m/query id \d+(?: ([A-Za-z]\S+))?(?: $w(?: (.*))?)?$/m; } else { $user = 'system user'; } } } } my ( $query_text ) = $body =~ m/\nMySQL thread id .*\n((?s).*)/; $query_text =~ s/\s+$//; $query_text =~ s/\s+/ /g if $o->got('collapse'); @{$hash}{qw(thread hostname ip user query)} = ($mysql_thread_id, $hostname, $ip, $user, $query_text); foreach my $key ( keys %$hash ) { if ( !defined $hash->{$key} ) { $hash->{$key} = ''; } } } else { # Prefer information about locks waited-for over locks-held. if ( $what eq 'WAITING FOR THIS LOCK TO BE GRANTED' || !$hash->{lock_type} ) { $hash->{wait_hold} = $what eq 'WAITING FOR THIS LOCK TO BE GRANTED' ? 'w' : 'h'; @{$hash}{ qw(lock_type idx db tbl txn_id lock_mode) } = $body =~ m{^(RECORD|TABLE) LOCKS? (?:space id \d+ page no \d+ n bits \d+ index `?$n`? of )?table `$n(?:/|`\.`)$n` trx id $t lock.mode (\S+)}m; if ( $hash->{txn_id} ) { my ( $high, $low ) = $hash->{txn_id} =~ m/^(\d+) (\d+)$/; $hash->{txn_id} = $high ? ( $low + ($high << 32) ) : $low; } } } # Ensure all values are defined map { $hash->{$_} = 0 unless defined $hash->{$_} } qw(thread txn_id txn_time); map { $hash->{$_} = '' unless defined $hash->{$_} } qw(user hostname db tbl idx lock_type lock_mode query); } # Extract some miscellaneous data from the deadlock. my ( $ts ) = $dl_text =~ m/^$s$/m; my ( $year, $mon, $day, $hour, $min, $sec ) = $ts =~ m/^(\d\d)(\d\d)(\d\d) +(\d+):(\d+):(\d+)$/; $ts = sprintf('%02d-%02d-%02dT%02d:%02d:%02d', $year + 2000, $mon, $day, $hour, $min, $sec); my ( $victim ) = $dl_text =~ m/^\*\*\* WE ROLL BACK TRANSACTION \((\d+)\)$/m; $victim ||= 0; # Stick the misc data into the transactions. foreach my $txn ( values %txns ) { $txn->{victim} = $txn->{id} == $victim ? 1 : 0; $txn->{ts} = $ts; $txn->{server} = $source_dsn->{h} || ''; $txn->{ip} = inet_aton($txn->{ip}) if $o->got('numeric-ip'); } return \%txns; } sub fingerprint { my ( $txns ) = @_; my $fingerprint = ''; foreach my $txn ( sort { $a->{thread} <=> $b->{thread} } values %$txns ) { $fingerprint = $fingerprint . join('', map { $txn->{$_} } qw(server ts thread) ); } PTDEBUG && _d('Deadlock fingerprint:', $fingerprint); return $fingerprint; } # Catches signals so the program can exit gracefully. sub finish { my ($signal) = @_; print STDERR "Exiting on SIG$signal.\n"; $oktorun = 0; } sub get_cxn { my ( $dsn, $ac ) = @_; if ( $o->get('ask-pass') ) { $dsn->{p} = OptionParser::prompt_noecho("Enter password: "); } my $dbh = $dp->get_dbh($dp->get_cxn_params($dsn), {AutoCommit => $ac}); $dbh->{InactiveDestroy} = 1; # Because of forking. return $dbh; } sub _d { my ($package, undef, $line) = caller 0; @_ = map { (my $temp = $_) =~ s/\n/\n# /g; $temp; } map { defined $_ ? $_ : 'undef' } @_; print STDERR "# $package:$line $PID ", join(' ', @_), "\n"; } # ############################################################################ # Run the program. # ############################################################################ if ( !caller ) { exit main(@ARGV); } 1; # Because this is a module as well as a script. # ############################################################################ # Documentation # ############################################################################ =pod =head1 NAME pt-deadlock-logger - Extract and log MySQL deadlock information. =head1 SYNOPSIS Usage: pt-deadlock-logger [OPTION...] SOURCE_DSN pt-deadlock-logger extracts and saves information about the most recent deadlock in a MySQL server. Print deadlocks on SOURCE_DSN: pt-deadlock-logger SOURCE_DSN Store deadlock information from SOURCE_DSN in test.deadlocks table on SOURCE_DSN (source and destination are the same host): pt-deadlock-logger SOURCE_DSN --dest D=test,t=deadlocks Store deadlock information from SOURCE_DSN in test.deadlocks table on DEST_DSN (source and destination are different hosts): pt-deadlock-logger SOURCE_DSN --dest DEST_DSN,D=test,t=deadlocks Daemonize and check for deadlocks on SOURCE_DSN every 30 seconds for 4 hours: pt-deadlock-logger SOURCE_DSN --dest D=test,t=deadlocks --daemonize --run-time 4h --interval 30s =head1 RISKS The following section is included to inform users about the potential risks, whether known or unknown, of using this tool. The two main categories of risks are those created by the nature of the tool (e.g. read-only tools vs. read-write tools) and those created by bugs. pt-deadlock-logger is a read-only tool unless you specify a L<"--dest"> table. In some cases polling SHOW INNODB STATUS too rapidly can cause extra load on the server. If you're using it on a production server under very heavy load, you might want to set L<"--interval"> to 30 seconds or more. At the time of this release, we know of no bugs that could cause serious harm to users. The authoritative source for updated information is always the online issue tracking system. Issues that affect this tool will be marked as such. You can see a list of such issues at the following URL: L. See also L<"BUGS"> for more information on filing bugs and getting help. =head1 DESCRIPTION pt-deadlock-logger extracts deadlock data from a MySQL server. Currently only InnoDB deadlock information is available. You can print the information to standard output, store it in a database table, or both. If neither L<"--print"> nor L<"--dest"> are given, then the deadlock information is printed by default. If only L<"--dest"> is given, then the deadlock information is only stored. If both options are given, then the deadlock information is printed and stored. The source host can be specified using one of two methods. The first method is to use at least one of the standard connection-related command line options: L<"--defaults-file">, L<"--password">, L<"--host">, L<"--port">, L<"--socket"> or L<"--user">. These options only apply to the source host; they cannot be used to specify the destination host. The second method to specify the source host, or the optional destination host using L<"--dest">, is a DSN. A DSN is a special syntax that can be either just a hostname (like C or C<1.2.3.4>), or a C string. Keys are a single letter: KEY MEANING === ======= h Connect to host P Port number to use for connection S Socket file to use for connection u User for login if not current user p Password to use when connecting F Only read default options from the given file If you omit any values from the destination host DSN, they are filled in with values from the source host, so you don't need to specify them in both places. C reads all normal MySQL option files, such as ~/.my.cnf, so you may not need to specify username, password and other common options at all. =head1 OUTPUT You can choose which columns are output and/or saved to L<"--dest"> with the L<"--columns"> argument. The default columns are as follows: =over =item server The (source) server on which the deadlock occurred. This might be useful if you're tracking deadlocks on many servers. =item ts The date and time of the last detected deadlock. =item thread The MySQL thread number, which is the same as the connection ID in SHOW FULL PROCESSLIST. =item txn_id The InnoDB transaction ID, which InnoDB expresses as two unsigned integers. I have multiplied them out to be one number. =item txn_time How long the transaction was active when the deadlock happened. =item user The connection's database username. =item hostname The connection's host. =item ip The connection's IP address. If you specify L<"--numeric-ip">, this is converted to an unsigned integer. =item db The database in which the deadlock occurred. =item tbl The table on which the deadlock occurred. =item idx The index on which the deadlock occurred. =item lock_type The lock type the transaction held on the lock that caused the deadlock. =item lock_mode The lock mode of the lock that caused the deadlock. =item wait_hold Whether the transaction was waiting for the lock or holding the lock. Usually you will see the two waited-for locks. =item victim Whether the transaction was selected as the deadlock victim and rolled back. =item query The query that caused the deadlock. =back =head1 INNODB CAVEATS AND DETAILS InnoDB's output is hard to parse and sometimes there's no way to do it right. Sometimes not all information (for example, username or IP address) is included in the deadlock information. In this case there's nothing for the script to put in those columns. It may also be the case that the deadlock output is so long (because there were a lot of locks) that the whole thing is truncated. Though there are usually two transactions involved in a deadlock, there are more locks than that; at a minimum, one more lock than transactions is necessary to create a cycle in the waits-for graph. pt-deadlock-logger prints the transactions (always two in the InnoDB output, even when there are more transactions in the waits-for graph than that) and fills in locks. It prefers waited-for over held when choosing lock information to output, but you can figure out the rest with a moment's thought. If you see one wait-for and one held lock, you're looking at the same lock, so of course you'd prefer to see both wait-for locks and get more information. If the two waited-for locks are not on the same table, more than two transactions were involved in the deadlock. =head1 OPTIONS This tool accepts additional command-line arguments. Refer to the L<"SYNOPSIS"> and usage information for details. =over =item --ask-pass Prompt for a password when connecting to MySQL. =item --charset short form: -A; type: string Default character set. If the value is utf8, sets Perl's binmode on STDOUT to utf8, passes the mysql_enable_utf8 option to DBD::mysql, and runs SET NAMES UTF8 after connecting to MySQL. Any other value sets binmode on STDOUT without the utf8 layer, and runs SET NAMES after connecting to MySQL. =item --clear-deadlocks type: string Use this table to create a small deadlock. This usually has the effect of clearing out a huge deadlock, which otherwise consumes the entire output of C. The table must not exist. pt-deadlock-logger will create it with the following MAGIC_clear_deadlocks structure: CREATE TABLE test.deadlock_maker(a INT PRIMARY KEY) ENGINE=InnoDB; After creating the table and causing a small deadlock, the tool will drop the table again. =item --[no]collapse Collapse whitespace in queries to a single space. This might make it easier to inspect on the command line or in a query. By default, whitespace is collapsed when printing with L<"--print">, but not modified when storing to L<"--dest">. (That is, the default is different for each action). =item --columns type: hash Output only this comma-separated list of columns. See L<"OUTPUT"> for more details on columns. =item --config type: Array Read this comma-separated list of config files; if specified, this must be the first option on the command line. =item --create-dest-table Create the table specified by L<"--dest">. Normally the L<"--dest"> table is expected to exist already. This option causes pt-deadlock-logger to create the table automatically using the suggested table structure. =item --daemonize Fork to the background and detach from the shell. POSIX operating systems only. =item --defaults-file short form: -F; type: string Only read mysql options from the given file. You must give an absolute pathname. =item --dest type: DSN DSN for where to store deadlocks; specify at least a database (D) and table (t). Missing values are filled in with the same values from the source host, so you can usually omit most parts of this argument if you're storing deadlocks on the same server on which they happen. By default, whitespace in the query column is left intact; use L<"--[no]collapse"> if you want whitespace collapsed. The following MAGIC_dest_table is suggested if you want to store all the information pt-deadlock-logger can extract about deadlocks: CREATE TABLE deadlocks ( server char(20) NOT NULL, ts datetime NOT NULL, thread int unsigned NOT NULL, txn_id bigint unsigned NOT NULL, txn_time smallint unsigned NOT NULL, user char(16) NOT NULL, hostname char(20) NOT NULL, ip char(15) NOT NULL, -- alternatively, ip int unsigned NOT NULL db char(64) NOT NULL, tbl char(64) NOT NULL, idx char(64) NOT NULL, lock_type char(16) NOT NULL, lock_mode char(1) NOT NULL, wait_hold char(1) NOT NULL, victim tinyint unsigned NOT NULL, query text NOT NULL, PRIMARY KEY (server,ts,thread) ) ENGINE=InnoDB If you use L<"--columns">, you can omit whichever columns you don't want to store. =item --help Show help and exit. =item --host short form: -h; type: string Connect to host. =item --interval type: time How often to check for deadlocks. If no L<"--run-time"> is specified, pt-deadlock-logger runs forever, checking for deadlocks at every interval. See also L<"--run-time">. =item --log type: string Print all output to this file when daemonized. =item --numeric-ip Express IP addresses as integers. =item --password short form: -p; type: string Password to use when connecting. =item --pid type: string Create the given PID file when daemonized. The file contains the process ID of the daemonized instance. The PID file is removed when the daemonized instance exits. The program checks for the existence of the PID file when starting; if it exists and the process with the matching PID exists, the program exits. =item --port short form: -P; type: int Port number to use for connection. =item --print Print results on standard output. See L<"OUTPUT"> for more. By default, enables L<"--[no]collapse"> unless you explicitly disable it. If L<"--interval"> or L<"--run-time"> is specified, only new deadlocks are printed at each interval. A fingerprint for each deadlock is created using L<"--columns"> server, ts and thread (even if those columns were not specified by L<"--columns">) and if the current deadlock's fingerprint is different from the last deadlock's fingerprint, then it is printed. =item --run-time type: time How long to run before exiting. By default pt-deadlock-logger runs once, checks for deadlocks, and exits. If L<"--run-time"> is specified but no L<"--interval"> is specified, a default 1 second interval will be used. =item --set-vars type: string; default: wait_timeout=10000 Set these MySQL variables. Immediately after connecting to MySQL, this string will be appended to SET and executed. =item --socket short form: -S; type: string Socket file to use for connection. =item --tab Print tab-separated columns, instead of aligned. =item --user short form: -u; type: string User for login if not current user. =item --version Show version and exit. =back =head1 DSN OPTIONS These DSN options are used to create a DSN. Each option is given like C. The options are case-sensitive, so P and p are not the same option. There cannot be whitespace before or after the C<=> and if the value contains whitespace it must be quoted. DSN options are comma-separated. See the L manpage for full details. =over =item * A dsn: charset; copy: yes Default character set. =item * D dsn: database; copy: yes Default database. =item * F dsn: mysql_read_default_file; copy: yes Only read default options from the given file =item * h dsn: host; copy: yes Connect to host. =item * p dsn: password; copy: yes Password to use when connecting. =item * P dsn: port; copy: yes Port number to use for connection. =item * S dsn: mysql_socket; copy: yes Socket file to use for connection. =item * t Table in which to store deadlock information. =item * u dsn: user; copy: yes User for login if not current user. =back =head1 ENVIRONMENT The environment variable C enables verbose debugging output to STDERR. To enable debugging and capture all output to a file, run the tool like: PTDEBUG=1 pt-deadlock-logger ... > FILE 2>&1 Be careful: debugging output is voluminous and can generate several megabytes of output. =head1 SYSTEM REQUIREMENTS You need Perl, DBI, DBD::mysql, and some core packages that ought to be installed in any reasonably new version of Perl. =head1 BUGS For a list of known bugs, see L. Please report bugs at L. Include the following information in your bug report: =over =item * Complete command-line used to run the tool =item * Tool L<"--version"> =item * MySQL version of all servers involved =item * Output from the tool including STDERR =item * Input files (log/dump/config files, etc.) =back If possible, include debugging output by running the tool with C; see L<"ENVIRONMENT">. =head1 DOWNLOADING Visit L to download the latest release of Percona Toolkit. Or, get the latest release from the command line: wget percona.com/get/percona-toolkit.tar.gz wget percona.com/get/percona-toolkit.rpm wget percona.com/get/percona-toolkit.deb You can also get individual tools from the latest release: wget percona.com/get/TOOL Replace C with the name of any tool. =head1 AUTHORS Baron Schwartz =head1 ABOUT PERCONA TOOLKIT This tool is part of Percona Toolkit, a collection of advanced command-line tools developed by Percona for MySQL support and consulting. Percona Toolkit was forked from two projects in June, 2011: Maatkit and Aspersa. Those projects were created by Baron Schwartz and developed primarily by him and Daniel Nichter, both of whom are employed by Percona. Visit L for more software developed by Percona. =head1 COPYRIGHT, LICENSE, AND WARRANTY This program is copyright 2007-2011 Baron Schwartz, 2011-2012 Percona Inc. Feedback and improvements are welcome. THIS PROGRAM IS PROVIDED "AS IS" AND WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2; OR the Perl Artistic License. On UNIX and similar systems, you can issue `man perlgpl' or `man perlartistic' to read these licenses. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. =head1 VERSION pt-deadlock-logger 2.1.1 =cut