/usr/bin/pt-visual-explain is in percona-toolkit 2.2.11-1~dfsg1.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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3222 3223 3224 3225 3226 3227 3228 3229 3230 3231 3232 3233 3234 3235 3236 3237 3238 3239 3240 3241 3242 3243 3244 3245 3246 3247 3248 | #!/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';
# This tool is "fat-packed": most of its dependent modules are embedded
# in this file. Setting %INC to this file for each module makes Perl aware
# of this so it will not try to load the module from @INC. See the tool's
# documentation for a full list of dependencies.
BEGIN {
$INC{$_} = __FILE__ for map { (my $pkg = "$_.pm") =~ s!::!/!g; $pkg } (qw(
ExplainParser
ExplainTree
OptionParser
DSNParser
Daemon
));
}
# ###########################################################################
# Converts text (e.g. saved output) to a "recordset" -- an array of hashrefs
# -- just like EXPLAIN does for selectall_arrayref({}).
# ###########################################################################
package ExplainParser;
use strict;
use warnings FATAL => 'all';
sub new {
bless {}, shift;
}
sub parse_tabular {
my ( $text, @cols ) = @_;
my %row;
my @vals = $text =~ m/\| +([^\|]*?)(?= +\|)/msg;
return (undef, \@vals) unless @cols;
@row{@cols} = @vals;
return (\%row, undef);
}
sub parse_tab_sep {
my ( $text, @cols ) = @_;
my %row;
my @vals = split(/\t/, $text);
return (undef, \@vals) unless @cols;
@row{@cols} = @vals;
return (\%row, undef);
}
sub parse_vertical {
my ( $text, @cols ) = @_;
my %row = $text =~ m/^ *(\w+): ([^\n]*) *$/msg;
return (\%row, undef);
}
sub parse {
my ($self, $text) = @_;
my $started = 0;
my $lines = 0;
my @cols = ();
my @result = ();
# Detect which kind of input it is
my ( $line_re, $vals_sub );
if ( $text =~ m/^\+---/m ) { # standard "tabular" output
$line_re = qr/^(\| .*)[\r\n]+/m;
$vals_sub = \&parse_tabular;
}
elsif ( $text =~ m/^id\tselect_type\t/m ) { # tab-separated
$line_re = qr/^(.*?\t.*)[\r\n]+/m;
$vals_sub = \&parse_tab_sep;
}
elsif ( $text =~ m/\*\*\* 1. row/ ) { # "vertical" output
$line_re = qr/^( *.*?^ *Extra:[^\n]*$)/ms;
$vals_sub = \&parse_vertical;
}
if ( $line_re ) {
# Pull it apart into lines and parse them.
LINE:
foreach my $line ( $text =~ m/$line_re/g ) {
my ($row, $cols) = $vals_sub->($line, @cols);
if ( $row ) {
foreach my $key ( keys %$row ) {
if ( !$row->{$key} || $row->{$key} eq 'NULL' ) {
$row->{$key} = undef;
}
}
push @result, $row;
}
else {
@cols = @$cols;
}
}
}
return \@result;
}
# ###########################################################################
# Converts output of EXPLAIN into a human-readable tree.
# ###########################################################################
package ExplainTree;
use List::Util qw(max);
use Data::Dumper;
sub new {
my ( $class, $options ) = @_;
my $self = bless {}, $class;
$self->load_options($options);
return $self;
}
sub load_options {
my ( $self, $options ) = @_;
if ( $options && ref $options eq 'HASH' ) {
@{$self}{keys %$options} = values %$options;
}
else {
delete @{$self}{keys %$self};
}
}
sub parse {
my ( $self, $text, $options ) = @_;
return $self->process(ExplainParser->new->parse($text), $options);
}
# The main method that turns a result set into a tree. Accepts an arrayref of
# hashrefs which correspond to the rows in EXPLAIN. See the ALGORITHM in the
# documentation for a small novel about this process.
sub process {
my ( $self, $rows, $options ) = @_;
$self->load_options($options);
return unless ref $rows eq 'ARRAY' && @$rows;
# Pre-process and sanity check the rows.
my @rows = @$rows;
foreach my $i ( 0 .. $#rows ) {
my $row = $rows[$i];
$row->{rowid} = $i;
$row->{Extra} ||= '';
# The source code says if there are too many tables unioned together, the
# table column will get truncated, like "<union1,2,3,4...>". If this
# happens, I've got to bail out. I'm not going to check all the source
# code for all versions, but in 5.0 it looks like I can get this to happen
# around table 20.
die "UNION has too many tables: $row->{table}"
if $row->{table} && $row->{table} =~ m/\./;
if ( !defined $row->{id} ) {
if ( $row->{table} && (my ($id) = $row->{table} =~ m/^<union(\d+)/) ) {
$row->{id} = $id;
}
else {
die "Unexpected NULL in id column, please report as a bug";
}
}
}
# Re-order the rows so all references are forward.
my %union_for
= map { $_->{id} => $_ }
grep { $_->{select_type} eq 'UNION RESULT' }
@rows;
my $last_id = 0;
my @reordered;
foreach my $row ( grep { $_->{select_type} ne 'UNION RESULT' } @rows ) {
if ( $last_id != $row->{id} && $union_for{$row->{id}} ) {
push @reordered, $union_for{$row->{id}};
}
push @reordered, $row;
$last_id = $row->{id};
}
# Process the rows recursively.
my $tree = $self->build_query_plan(@reordered);
return $tree;
}
sub build_query_plan {
my ( $self, @rows ) = @_;
if ( !@rows ) {
die "I got no rows";
}
# Is it a UNION RESULT? Split it up into sub-scopes and recurse.
if ( $rows[0]->{select_type} eq 'UNION RESULT' ) {
my $row = shift @rows;
my @kids;
my @ids = $row->{table} =~ m/(\d+)/g;
my $enclosing_scope;
if ( $rows[0]->{select_type} =~ m/SUBQUERY/ ) {
$enclosing_scope = $rows[0];
}
foreach my $i ( 0 .. $#ids ) {
my $start = $self->index_of($ids[$i], @rows);
my $end = $i < $#ids ? $self->index_of($ids[$i + 1], @rows) : @rows;
push @kids, $self->build_query_plan(splice(@rows, $start, $end - $start));
}
$row->{children} = [ @kids ];
$row->{table} = "union("
. join(',', map { $self->recursive_table_name($_) || '<none>' } @kids)
. ")";
my $tree = $self->transform($row);
if ( $enclosing_scope ) {
my $node = $self->transform($enclosing_scope);
$node->{children} = [ $tree ];
$tree = $node;
}
return $tree;
}
# Are there DERIVED tables? If so, find its children and pull them out of the
# list under it.
while ( my ($der) = grep { $_->{table} && $_->{table} =~ m/^<derived\d+>$/ } @rows ) {
# Figure out the start and end of the derived scope.
my ($der_id) = $der->{table} =~ m/^<derived(\d+)>$/;
my $start = $self->index_of($der_id, @rows);
my $end = $start;
while ( $end < @rows && $rows[$end]->{id} >= $der_id ) {
$end++;
}
# Get the rows that belong to this scope and recurse.
my @enclosed_scope = splice(@rows, $start, $end - $start);
my $kids = $self->build_query_plan(@enclosed_scope);
$der->{children} = [$kids];
$der->{table} = "derived(" . ($self->recursive_table_name($kids) || '<none>') . ")";
}
# Handle the "normal case." For each node, if the id is the same as the last
# one, JOIN and continue. If the id is greater, it's a subquery, so should
# be recursed.
# But, filesort/temporary have to be handled specially, because they appear
# in the first row, even if they are done later. Here are the cases,
# according to http://s.petrunia.net/blog/?p=24:
# ... MySQL has three ways to run a join and produce ordered output:
# Method EXPLAIN output
# ################################## ####################################
# Use index-based access method that no mention of filesort
# produces ordered output
# ---------------------------------- ------------------------------------
# Use filesort() on 1st non-constant "Using filesort" in the first row
# table
# ---------------------------------- ------------------------------------
# Put join result into a temporary "Using temporary; Using filesort" in
# table and use filesort() on it the first row
# ---------------------------------- ------------------------------------
my $first = shift(@rows);
# This is "case three" above.
my $is_temp_filesort;
if ( $first->{Extra} =~ m/Using temporary; Using filesort/ ) {
# The entire join is being placed into a temporary table and filesorted,
# so I'll make a note of that and apply it afterwards. In the meantime I
# must remove mention of it from the node so the node doesn't get extra
# transformations in transform().
$is_temp_filesort = 1;
$first->{Extra} =~ s/Using temporary; Using filesort(?:; )?//;
}
# This is "case two" above. Must find first non-constant table and move
# the filesort() there.
elsif ( $first->{Extra} =~ m/Using filesort/ && $first->{type} =~ m/^(?:system|const)$/ ) {
my ( $first_non_const ) = grep { $_->{type} !~ m/^(?:system|const)$/ } @rows;
if ( $first_non_const ) {
$first->{Extra} =~ s/Using filesort(?:; )?//;
$first_non_const->{Extra} .= '; Using filesort';
}
}
my $scope = $first->{id};
my $tree = $self->transform($first);
my $i = 0;
while ( $i < @rows ) {
my $row = $rows[$i];
if ( $row->{id} == $scope ) {
$tree = {
type => 'JOIN',
children => [ $tree, $self->transform($row) ],
};
$i++;
}
else {
# It's another kind of "join". Find the enclosing scope boundaries and
# recurse. The scope starts at $i.
my $end = $i;
while ( $end < @rows && $rows[$end]->{id} >= $row->{id} ) {
$end++;
}
my @enclosed_scope = splice(@rows, $i, $end - $i);
$tree = {
type => $row->{select_type},
children => [ $tree, $self->build_query_plan(@enclosed_scope) ],
};
# Don't increment the pointer because I just removed rows from @rows.
# $i++
}
}
if ( $is_temp_filesort ) {
$tree = $self->filesort(
$self->temporary($tree, $self->recursive_table_name($tree)));
}
return $tree;
}
sub transform {
my ( $self, $row ) = @_;
my $sub = $row->{type};
# ##################################################################
# Dispatch to a class method to generate the tree.
# ##################################################################
my $no_matching_row = join('|',
"Impossible (?:WHERE|HAVING)(?: noticed after reading const tables)?",
'No matching.*row',
'(?:unique|const) row not found',
);
my $node
= $sub
? $self->$sub($row)
: $row->{Extra} =~ m/No tables/
? { type => ( $row->{select_type} !~ m/^(?:PRIMARY|SIMPLE)$/
? $row->{select_type}
: 'DUAL') }
: $row->{Extra} =~ m/(?:$no_matching_row)/i
? { type => 'IMPOSSIBLE' }
: $row->{Extra} =~ m/optimized away/
? { type => 'CONSTANT' }
: die "Can't handle " . Dumper($row);
my ($warn) = $row->{Extra} =~ m/($no_matching_row)/;
if ( $warn ) {
$node->{warning} = $warn;
}
# ##################################################################
# Apply other tree transformations.
# ##################################################################
if ( $row->{Extra} =~ m/Using where/ ) {
$node = {
type => 'Filter with WHERE',
children => [$node],
};
}
if ( $row->{Extra} =~ m/Using join buffer/ ) {
$node = {
type => 'Join buffer',
children => [$node],
};
}
if ( $row->{Extra} =~ m/Distinct|Not exists/ ) {
$node = {
type => 'Distinct/Not-Exists',
children => [$node],
};
}
if ( $row->{Extra} =~ m/Range checked for each record \(\w+ map: ([^\)]+)\)/ ) {
# (index map: N) is a bitmap of which indexes are used. For example:
# 0x5 base 16 (or base 10)
# 0101 base 2
# 4321 position of bits
# 3 1 indexes used
my $bitmap = eval "int($1)"; # Hex to decimal if it begins with '0x'
$bitmap = unpack("B32", pack("N", $bitmap)); # Convert into binary string of 1/0
$bitmap =~ s/^0+//; # Remove leading zeros
$bitmap = reverse $bitmap; # Iterate from left-to-right
my $possible_keys = join(',',
grep { substr($bitmap, $_ - 1, 1) }
( 1 .. length($bitmap) ));
$node = {
type => 'Re-evaluate indexes each row',
possible_keys => $possible_keys,
children => [$node],
};
}
if ( $row->{Extra} =~ m/Using filesort/ ) {
$node = $self->filesort($node);
}
if ( $row->{Extra} =~ m/Using temporary/ ) {
$node = $self->temporary($node, $row->{table}, 1);
}
# Add some data that will help me keep track of nodes as I manipulate
# them later
$node->{id} = $row->{id};
$node->{rowid} = $row->{rowid};
return $node;
}
sub index_of {
my ( $self, $id, @rows ) = @_;
my $i = 0;
foreach my $row ( @rows ) {
if ( $row->{id} && $row->{id} == $id ) {
return $i;
}
$i++;
}
die "Can't find row $id in "
. join(',', map { $_->{id} || '' } @rows);
}
sub pretty_print {
my ( $self, $node, $prefix ) = @_;
$prefix ||= '';
my $branch = $prefix ? substr($prefix, 0, length($prefix) -3) . '+- ' : '';
my $output = $branch . $node->{type} . "\n";
my @kids;
if ( $node->{children} ) {
@kids = reverse @{$node->{children}};
}
my $suffix = (@kids > 1) ? '| ' : ' ';
foreach my $thing ( qw(table key partitions possible_keys method key_len ref rows warning) ) {
if ( defined $node->{$thing} ) {
$output .= $prefix . sprintf('%-14s %s', $thing, $node->{$thing}) . "\n";
}
}
my $last_child = pop @kids;
foreach my $child ( @kids ) {
$output .= $self->pretty_print($child, $prefix . $suffix);
}
if ( $last_child ) {
$output .= $self->pretty_print($last_child, $prefix . ' ');
}
return $output;
}
#############################################################################
# Each method in this section corresponds to a value you will find in the 'type'
# column in EXPLAIN.
#############################################################################
sub ALL {
my ( $self, $row ) = @_;
return {
type => 'Table scan',
rows => $row->{rows},
children => [$self->table($row)],
};
}
sub fulltext {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Fulltext scan');
}
sub range {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Index range scan');
}
sub index {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Index scan');
}
sub eq_ref {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Unique index lookup');
}
sub ref {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Index lookup');
}
sub ref_or_null {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Index lookup with extra null lookup');
}
sub const {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Constant index lookup');
}
sub system {
my ( $self, $row ) = @_;
return {
type => 'Constant table access',
rows => $row->{rows},
children => [$self->table($row)],
};
}
sub unique_subquery {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Unique subquery');
}
sub index_subquery {
my ( $self, $row ) = @_;
return $self->index_access($row, 'Index subquery');
}
# From the manual: "The Index Merge method is used to retrieve rows with
# several range scans and to merge their results into one." Therefore each
# index access should be shown as an index range scan. The unions and
# intersections can be recursive, as in
# union(intersect(key1,key2),intersect(key3,key4))
sub index_merge {
my ( $self, $row ) = @_;
my ( $merge_spec )
= $row->{Extra} =~ m/Using ((?:intersect|union|sort_union)\(.*?\))(?=;|$)/;
my ($merge, $num) = $self->recurse_index_merge($row, $merge_spec, 0);
# index_merge_bookmark_lookup note:
# From the manual, "If the used indexes don't cover all columns used in the
# query, full rows are retrieved only when the range conditions for all
# used keys are satisfied." So a bookmark lookup shouldn't be shown for
# all indexes; it should be shown from the merge results.
return $self->bookmark_lookup($merge, $row);
}
# ###########################################################################
# Helper subroutines.
# ###########################################################################
sub recursive_table_name {
my ( $self, $node ) = @_;
if ( $node->{table} ) {
return $node->{table};
}
if ( $node->{key} ) {
my ( $table ) = $node->{key} =~ m/(.*?)->/;
return $table;
}
if ( $node->{type} eq 'Bookmark lookup' ) {
return $node->{children}->[1]->{table};
}
if ( $node->{type} eq 'IMPOSSIBLE' ) {
return '<none>';
}
if ( $node->{children} ) {
return join(',',
grep { $_ }
map { $self->recursive_table_name($_) }
@{$node->{children}});
}
}
# $num is the number of nodes to the left of this node in a depth-first
# traversal. It lets me figure out which value goes in key_len.
my $bal; # Workaround for issue 90 (Variable "$bal" will not stay shared).
sub recurse_index_merge {
my ( $self, $row, $spec, $num ) = @_;
my ($type, $args) = $spec =~ m/(intersect|union|sort_union)\((.*)\)$/;
my @children;
# See 'man perlre' and search for 'matches a parenthesized group'.
$bal = qr/
\(
(?:
(?> [^()]+ ) # Non-parens without backtracking
|
(??{ $bal }) # Group with matching parens
)*
\)
/x;
# Extract a thing, followed by balanced parentheses.
foreach my $child ( $args =~ m/(\w+$bal)/g ) {
my ( $subtree, $num ) = $self->recurse_index_merge($row, $child, $num);
push @children, $subtree;
}
if ( !@children ) { # Recursion base case; $args is an index list
foreach my $idx ( split(/,/, $args) ) {
my $index_scan = $self->index_access($row, 'Index range scan', $idx);
$index_scan->{key_len} = ($row->{key_len} =~ m/(\d+)/g)[$num++];
push @children, $index_scan;
}
}
return (
{
type => 'Index merge',
method => $type,
rows => $row->{rows},
children => \@children,
},
$num
);
}
sub table {
my ( $self, $row ) = @_;
my $node = {
type => ($row->{table} && $row->{table} =~ m/^(derived|union)\(/)
? uc $1
: 'Table',
table => $row->{table},
possible_keys => $row->{possible_keys},
partitions => $row->{partitions},
};
if ( $row->{children} ) {
$node->{children} = $row->{children};
}
return $node;
}
sub bookmark_lookup {
my ( $self, $node, $row ) = @_;
if ( $row->{Extra} =~ m/Using index/
|| ( $self->{clustered} && $row->{key} && $row->{key} eq 'PRIMARY' ))
{
return $node;
}
return {
type => 'Bookmark lookup',
children => [ $node, $self->table($row) ],
};
}
sub filesort {
my ( $self, $node ) = @_;
return {
type => 'Filesort',
children => [$node],
};
}
sub temporary {
my ( $self, $node, $table_name, $is_scan ) = @_;
$node = {
type => 'TEMPORARY',
table => "temporary($table_name)",
possible_keys => undef,
partitions => undef,
children => [$node],
};
if ( $is_scan ) {
$node = {
type => 'Table scan',
rows => undef,
children => [ $node ],
};
}
return $node;
}
sub index_access {
my ( $self, $row, $type, $key ) = @_;
my $node = {
type => $type,
key => $row->{table} . '->' . ( $key || $row->{key} ),
possible_keys => $row->{possible_keys},
partitions => $row->{partitions},
key_len => $row->{key_len},
'ref' => $row->{ref},
rows => $row->{rows},
};
if ( $row->{Extra} =~ m/Full scan on NULL key/ ) {
$node->{warning} = 'Full scan on NULL key';
}
if ( $row->{Extra} =~ m/Using index for group-by/ ) {
$node->{type} = 'Loose index scan';
}
# See index_merge_bookmark_lookup note above.
if ( $row->{type} ne 'index_merge' ) {
$node = $self->bookmark_lookup($node, $row);
}
return $node;
}
# ###########################################################################
# 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;
use Data::Dumper;
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} ) {
$opt->{value}++;
}
elsif ( ($opt->{type} || '') eq 's' && $val =~ m/^--?(.+)/ ) {
my $next_opt = $1;
if ( exists $self->{opts}->{$next_opt}
|| exists $self->{short_opts}->{$next_opt} ) {
$self->save_error("--$long requires a string value");
return;
}
else {
$opt->{value} = $val;
}
}
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 1;
}
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 { $_ => 1 } split(/(?<!\\),\s*/, ($val || '')) };
}
elsif ( $opt->{type} eq 'A' || (defined $val && $opt->{type} eq 'a') ) {
$opt->{value} = [ split(/(?<!\\),\s*/, ($val || '')) ];
}
else {
PTDEBUG && _d('Nothing to validate for option',
$opt->{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 1 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}(?!\W))(?:\s+|(?<=\W)|$)/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 STDERR $prompt
or die "Cannot print: $OS_ERROR";
my $response;
eval {
require Term::ReadKey;
Term::ReadKey::ReadMode('noecho');
chomp($response = <STDIN>);
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}: $val");
}
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 => $usage,
);
};
sub set_vars {
my ($self, $file) = @_;
$file ||= $self->{file} || __FILE__;
my %user_vars;
my $user_vars = $self->has('set-vars') ? $self->get('set-vars') : undef;
if ( $user_vars ) {
foreach my $var_val ( @$user_vars ) {
my ($var, $val) = $var_val =~ m/([^\s=]+)=(\S+)/;
die "Invalid --set-vars value: $var_val\n" unless $var && defined $val;
$user_vars{$var} = {
val => $val,
default => 0,
};
}
}
my %default_vars;
my $default_vars = $self->read_para_after($file, qr/MAGIC_set_vars/);
if ( $default_vars ) {
%default_vars = map {
my $var_val = $_;
my ($var, $val) = $var_val =~ m/([^\s=]+)=(\S+)/;
die "Invalid --set-vars value: $var_val\n" unless $var && defined $val;
$var => {
val => $val,
default => 1,
};
} split("\n", $default_vars);
}
my %vars = (
%default_vars, # first the tool's defaults
%user_vars, # then the user's which overwrite the defaults
);
PTDEBUG && _d('--set-vars:', Dumper(\%vars));
return \%vars;
}
sub _d {
my ($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 STDERR '# ', $^X, ' ', $], "\n";
if ( my $uname = `uname -a` ) {
$uname =~ s/\s+/ /g;
print STDERR "# $uname\n";
}
print STDERR '# Arguments: ',
join(' ', map { my $a = "_[$_]_"; $a =~ s/\n/\n# /g; $a; } @ARGV), "\n";
}
1;
}
# ###########################################################################
# End OptionParser 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;
my $dsn_sep = qr/(?<!\\),/;
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_sep, $dsn) ) {
$dsn_part =~ s/\\,/,/g;
if ( my ($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 @keys = $props ? @$props : sort keys %$dsn;
return join(',',
map { "$_=" . ($_ eq 'p' ? '...' : $dsn->{$_}) }
grep {
exists $self->{opts}->{$_}
&& exists $dsn->{$_}
&& defined $dsn->{$_}
} @keys);
}
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'
. ($info->{L} ? ';mysql_local_infile=1' : '');
}
PTDEBUG && _d($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 (delete $defaults->{L}) { # L for LOAD DATA LOCAL INFILE, our own extension
$defaults->{mysql_local_infile} = 1;
}
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 pkg install pkg:/SUNWpmdbi\n";
}
my $dbh;
my $tries = 2;
while ( !$dbh && $tries-- ) {
PTDEBUG && _d($cxn_string, ' ', $user, ' ', $pass,
join(', ', map { "$_=>$defaults->{$_}" } keys %$defaults ));
$dbh = eval { DBI->connect($cxn_string, $user, $pass, $defaults) };
if ( !$dbh && $EVAL_ERROR ) {
if ( $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";
}
elsif ( $EVAL_ERROR =~ m/not a compiled character set|character set utf8/ ) {
PTDEBUG && _d('Going to try again without utf8 support');
delete $defaults->{mysql_enable_utf8};
}
if ( !$tries ) {
die $EVAL_ERROR;
}
}
}
if ( $cxn_string =~ m/mysql/i ) {
my $sql;
$sql = 'SELECT @@SQL_MODE';
PTDEBUG && _d($dbh, $sql);
my ($sql_mode) = eval { $dbh->selectrow_array($sql) };
if ( $EVAL_ERROR ) {
die "Error getting the current SQL_MODE: $EVAL_ERROR";
}
if ( my ($charset) = $cxn_string =~ m/charset=([\w]+)/ ) {
$sql = qq{/*!40101 SET NAMES "$charset"*/};
PTDEBUG && _d($dbh, $sql);
eval { $dbh->do($sql) };
if ( $EVAL_ERROR ) {
die "Error setting NAMES to $charset: $EVAL_ERROR";
}
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 ( my $vars = $self->prop('set-vars') ) {
$self->set_vars($dbh, $vars);
}
$sql = 'SET @@SQL_QUOTE_SHOW_CREATE = 1'
. '/*!40101, @@SQL_MODE=\'NO_AUTO_VALUE_ON_ZERO'
. ($sql_mode ? ",$sql_mode" : '')
. '\'*/';
PTDEBUG && _d($dbh, $sql);
eval { $dbh->do($sql) };
if ( $EVAL_ERROR ) {
die "Error setting SQL_QUOTE_SHOW_CREATE, SQL_MODE"
. ($sql_mode ? " and $sql_mode" : '')
. ": $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 set_vars {
my ($self, $dbh, $vars) = @_;
return unless $vars;
foreach my $var ( sort keys %$vars ) {
my $val = $vars->{$var}->{val};
(my $quoted_var = $var) =~ s/_/\\_/;
my ($var_exists, $current_val);
eval {
($var_exists, $current_val) = $dbh->selectrow_array(
"SHOW VARIABLES LIKE '$quoted_var'");
};
my $e = $EVAL_ERROR;
if ( $e ) {
PTDEBUG && _d($e);
}
if ( $vars->{$var}->{default} && !$var_exists ) {
PTDEBUG && _d('Not setting default var', $var,
'because it does not exist');
next;
}
if ( $current_val && $current_val eq $val ) {
PTDEBUG && _d('Not setting var', $var, 'because its value',
'is already', $val);
next;
}
my $sql = "SET SESSION $var=$val";
PTDEBUG && _d($dbh, $sql);
eval { $dbh->do($sql) };
if ( my $set_error = $EVAL_ERROR ) {
chomp($set_error);
$set_error =~ s/ at \S+ line \d+//;
my $msg = "Error setting $var: $set_error";
if ( $current_val ) {
$msg .= " The current value for $var is $current_val. "
. "If the variable is read only (not dynamic), specify "
. "--set-vars $var=$current_val to avoid this warning, "
. "else manually set the variable and restart MySQL.";
}
warn $msg . "\n\n";
}
}
return;
}
sub _d {
my ($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 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 = (slurp_file($PID_file) || ''));
};
if ( $EVAL_ERROR ) {
die "The PID file $PID_file already exists but it cannot be read: "
. $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) == $PID;
return;
}
sub slurp_file {
my ($file) = @_;
return unless $file;
open my $fh, "<", $file or die "Cannot open $file: $OS_ERROR";
return do { local $/; <$fh> };
}
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_visual_explain;
use English qw(-no_match_vars);
use Getopt::Long;
use Data::Dumper;
$Data::Dumper::Indent = 1;
$Data::Dumper::Quotekeys = 0;
use constant PTDEBUG => $ENV{PTDEBUG} || 0;
sub main {
@ARGV = @_; # set global ARGV for this package
# #######################################################################
# Get configuration information and parse command line options.
# #######################################################################
my $o = new OptionParser();
$o->get_specs();
$o->get_opts();
my $dp = $o->DSNParser();
$dp->prop('set-vars', $o->set_vars());
$o->usage_or_errors();
# ########################################################################
# If --pid, check it first since we'll die if it already exits.
# ########################################################################
my $daemon;
if ( $o->get('pid') ) {
# We're not daemoninzing, it just handles PID stuff. Keep $daemon
# in the the scope of main() because when it's destroyed it automatically
# removes the PID file.
$daemon = new Daemon(o=>$o);
$daemon->make_PID_file();
}
# #######################################################################
# Get ready to do the main work.
# #######################################################################
# Magically read STDIN or files in @ARGV
my $text = do { local $INPUT_RECORD_SEPARATOR = undef; <>; };
my $rows;
if ( $o->got('connect') ) { # Connect to the database.
if ( $o->got('ask-pass') && !$o->got('password') ) {
$o->set('password', OptionParser::prompt_noecho("Enter password: "));
}
my $dsn = $dp->parse_options($o);
my $dbh = $dp->get_dbh($dp->get_cxn_params($dsn), { AutoCommit => 1 } );
$text =~ s{^.*?select}{EXPLAIN /*!50115 PARTITIONS*/ SELECT}is;
$rows = $dbh->selectall_arrayref($text, { Slice => {} } );
$dbh->disconnect();
}
else {
$rows = ExplainParser->new->parse($text);
}
# #######################################################################
# Do the main work.
# #######################################################################
my $et = ExplainTree->new();
my $tree = $et->process($rows, { clustered => $o->get('clustered-pk') });
if ( $tree ) {
print $o->get('format') eq 'dump' ? Dumper($tree)
: $et->pretty_print($tree);
}
return 0;
}
# ############################################################################
# Run the program.
# ############################################################################
if ( !caller ) { exit main(@ARGV); }
1; # Because this is a module as well as a script.
# ############################################################################
# Documentation.
# ############################################################################
=pod
=head1 NAME
pt-visual-explain - Format EXPLAIN output as a tree.
=head1 SYNOPSIS
Usage: pt-visual-explain [OPTIONS] [FILES]
pt-visual-explain transforms EXPLAIN output into a tree representation of
the query plan. If FILE is given, input is read from the file(s). With no
FILE, or when FILE is -, read standard input.
Examples:
pt-visual-explain <file_containing_explain_output>
pt-visual-explain -c <file_containing_query>
mysql -e "explain select * from mysql.user" | pt-visual-explain
=head1 RISKS
Percona Toolkit is mature, proven in the real world, and well tested,
but all database tools can pose a risk to the system and the database
server. Before using this tool, please:
=over
=item * Read the tool's documentation
=item * Review the tool's known L<"BUGS">
=item * Test the tool on a non-production server
=item * Backup your production server and verify the backups
=back
=head1 DESCRIPTION
pt-visual-explain reverse-engineers MySQL's EXPLAIN output into a query
execution plan, which it then formats as a left-deep tree -- the same way the
plan is represented inside MySQL. It is possible to do this by hand, or to read
EXPLAIN's output directly, but it requires patience and expertise. Many people
find a tree representation more understandable.
You can pipe input into pt-visual-explain or specify a filename at the
command line, including the magical '-' filename, which will read from standard
input. It can do two things with the input: parse it for something that looks
like EXPLAIN output, or connect to a MySQL instance and run EXPLAIN on the
input.
When parsing its input, pt-visual-explain understands three formats: tabular
like that shown in the mysql command-line client, vertical like that created by
using the \G line terminator in the mysql command-line client, and tab
separated. It ignores any lines it doesn't know how to parse.
When executing the input, pt-visual-explain replaces everything in the input
up to the first SELECT keyword with 'EXPLAIN SELECT,' and then executes the
result. You must specify L<"--connect"> to execute the input as a query.
Either way, it builds a tree from the result set and prints it to standard
output. For the following query,
select * from sakila.film_actor join sakila.film using(film_id);
pt-visual-explain generates this query plan:
JOIN
+- Bookmark lookup
| +- Table
| | table film_actor
| | possible_keys idx_fk_film_id
| +- Index lookup
| key film_actor->idx_fk_film_id
| possible_keys idx_fk_film_id
| key_len 2
| ref sakila.film.film_id
| rows 2
+- Table scan
rows 952
+- Table
table film
possible_keys PRIMARY
The query plan is left-deep, depth-first search, and the tree's root is the
output node -- the last step in the execution plan. In other words, read it
like this:
=over
=item 1
Table scan the 'film' table, which accesses an estimated 952 rows.
=item 2
For each row, find matching rows by doing an index lookup into the
film_actor->idx_fk_film_id index with the value from sakila.film.film_id, then a
bookmark lookup into the film_actor table.
=back
For more information on how to read EXPLAIN output, please see
L<http://dev.mysql.com/doc/en/explain.html>, and this talk titled
"MySQL query optimizer internals and upcoming features in v. 5.2":
from Timour Katchaounov, one of the MySQL developers: L<http://goo.gl/VIWvo>
=head1 MODULES
This program is actually a runnable module, not just an ordinary Perl script.
In fact, there are two modules embedded in it. This makes unit testing easy,
but it also makes it easy for you to use the parsing and tree-building
functionality if you want.
The ExplainParser package accepts a string and parses whatever it thinks looks
like EXPLAIN output from it. The synopsis is as follows:
require "pt-visual-explain";
my $p = ExplainParser->new();
my $rows = $p->parse("some text");
# $rows is an arrayref of hashrefs.
The ExplainTree package accepts a set of rows and turns it into a tree. For
convenience, you can also have it delegate to ExplainParser and parse text for
you. Here's the synopsis:
require "pt-visual-explain";
my $e = ExplainTree->new();
my $tree = $e->parse("some text", \%options);
my $output = $e->pretty_print($tree);
print $tree;
=head1 ALGORITHM
This section explains the algorithm that converts EXPLAIN into a tree. You may
be interested in reading this if you want to understand EXPLAIN more fully, or
trying to figure out how this works, but otherwise this section will probably
not make your life richer.
The tree can be built by examining the id, select_type, and table columns of
each row. Here's what I know about them:
The id column is the sequential number of the select. This does not indicate
nesting; it just comes from counting SELECT from the left of the SQL statement.
It's like capturing parentheses in a regular expression. A UNION RESULT row
doesn't have an id, because it isn't a SELECT. The source code actually refers
to UNIONs as a fake_lex, as I recall.
If two adjacent rows have the same id value, they are joined with the standard
single-sweep multi-join method.
The select_type column tells a) that a new sub-scope has opened b) what kind
of relationship the row has to the previous row c) what kind of operation the
row represents.
=over
=item *
SIMPLE means there are no subqueries or unions in the whole query.
=item *
PRIMARY means there are, but this is the outermost SELECT.
=item *
[DEPENDENT] UNION means this result is UNIONed with the previous result (not
row; a result might encompass more than one row).
=item *
UNION RESULT terminates a set of UNIONed results.
=item *
[DEPENDENT|UNCACHEABLE] SUBQUERY means a new sub-scope is opening. This is the
kind of subquery that happens in a WHERE clause, SELECT list or whatnot; it does
not return a so-called "derived table."
=item *
DERIVED is a subquery in the FROM clause.
=back
Tables that are JOINed all have the same select_type. For example, if you JOIN
three tables inside a dependent subquery, they'll all say the same thing:
DEPENDENT SUBQUERY.
The table column usually specifies the table name or alias, but may also say
<derivedN> or <unionN,N...N>. If it says <derivedN>, the row represents an
access to the temporary table that holds the result of the subquery whose id is
N. If it says <unionN,..N> it's the same thing, but it refers to the results it
UNIONs together.
Finally, order matters. If a row's id is less than the one before it, I think
that means it is dependent on something other than the one before it. For
example,
explain select
(select 1 from sakila.film),
(select 2 from sakila.film_actor),
(select 3 from sakila.actor);
| id | select_type | table |
+----+-------------+------------+
| 1 | PRIMARY | NULL |
| 4 | SUBQUERY | actor |
| 3 | SUBQUERY | film_actor |
| 2 | SUBQUERY | film |
If the results were in order 2-3-4, I think that would mean 3 is a subquery of
2, 4 is a subquery of 3. As it is, this means 4 is a subquery of the nearest
previous recent row with a smaller id, which is 1. Likewise for 3 and 2.
This structure is hard to programmatically build into a tree for the same reason
it's hard to understand by inspection: there are both forward and backward
references. <derivedN> is a forward reference to selectN, while <unionM,N> is a
backward reference to selectM and selectN. That makes recursion and other
tree-building algorithms hard to get right (NOTE: after implementation, I now
see how it would be possible to deal with both forward and backward references,
but I have no motivation to change something that works). Consider the
following:
select * from (
select 1 from sakila.actor as actor_1
union
select 1 from sakila.actor as actor_2
) as der_1
union
select * from (
select 1 from sakila.actor as actor_3
union all
select 1 from sakila.actor as actor_4
) as der_2;
| id | select_type | table |
+------+--------------+------------+
| 1 | PRIMARY | <derived2> |
| 2 | DERIVED | actor_1 |
| 3 | UNION | actor_2 |
| NULL | UNION RESULT | <union2,3> |
| 4 | UNION | <derived5> |
| 5 | DERIVED | actor_3 |
| 6 | UNION | actor_4 |
| NULL | UNION RESULT | <union5,6> |
| NULL | UNION RESULT | <union1,4> |
This would be a lot easier to work with if it looked like this (I've
bracketed the id on rows I moved):
| id | select_type | table |
+------+--------------+------------+
| [1] | UNION RESULT | <union1,4> |
| 1 | PRIMARY | <derived2> |
| [2] | UNION RESULT | <union2,3> |
| 2 | DERIVED | actor_1 |
| 3 | UNION | actor_2 |
| 4 | UNION | <derived5> |
| [5] | UNION RESULT | <union5,6> |
| 5 | DERIVED | actor_3 |
| 6 | UNION | actor_4 |
In fact, why not re-number all the ids, so the PRIMARY row becomes 2, and so on?
That would make it even easier to read. Unfortunately that would also have the
effect of destroying the meaning of the id column, which I think is important to
preserve in the final tree. Also, though it makes it easier to read, it doesn't
make it easier to manipulate programmatically; so it's fine to leave them
numbered as they are.
The goal of re-ordering is to make it easier to figure out which rows are
children of which rows in the execution plan. Given the reordered list and some
row whose table is <union...> or <derived>, it is easy to find the beginning of
the slice of rows that should be child nodes in the tree: you just look for the
first row whose ID is the same as the first number in the table.
The next question is how to find the last row that should be a child node of a
UNION or DERIVED. I'll start with DERIVED, because the solution makes UNION
easy.
Consider how MySQL numbers the SELECTs sequentially according to their position
in the SQL, left-to-right. Since a DERIVED table encloses everything within it
in a scope, which becomes a temporary table, there are only two things to think
about: its child subqueries and unions (if any), and its next siblings in the
scope that encloses it. Its children will all have an id greater than it does,
by definition, so any later rows with a smaller id terminate the scope.
Here's an example. The middle derived table here has a subquery and a UNION to
make it a little more complex for the example.
explain select 1
from (
select film_id from sakila.film limit 1
) as der_1
join (
select film_id, actor_id, (select count(*) from sakila.rental) as r
from sakila.film_actor limit 1
union all
select 1, 1, 1 from sakila.film_actor as dummy
) as der_2 using (film_id)
join (
select actor_id from sakila.actor limit 1
) as der_3 using (actor_id);
Here's the output of EXPLAIN:
| id | select_type | table |
| 1 | PRIMARY | <derived2> |
| 1 | PRIMARY | <derived6> |
| 1 | PRIMARY | <derived3> |
| 6 | DERIVED | actor |
| 3 | DERIVED | film_actor |
| 4 | SUBQUERY | rental |
| 5 | UNION | dummy |
| NULL | UNION RESULT | <union3,5> |
| 2 | DERIVED | film |
The siblings all have id 1, and the middle one I care about is derived3.
(Notice MySQL doesn't execute them in the order I defined them, which is fine).
Now notice that MySQL prints out the rows in the opposite order I defined the
subqueries: 6, 3, 2. It always seems to do this, and there might be other
methods of finding the scope boundaries including looking for the lower boundary
of the next largest sibling, but this is a good enough heuristic. I am forced
to rely on it for non-DERIVED subqueries, so I rely on it here too. Therefore,
I decide that everything greater than or equal to 3 belongs to the DERIVED
scope.
The rule for UNION is simple: they consume the entire enclosing scope, and to
find the component parts of each one, you find each part's beginning as referred
to in the <unionN,...> definition, and its end is either just before the next
one, or if it's the last part, the end is the end of the scope.
This is only simple because UNION consumes the entire scope, which is either the
entire statement, or the scope of a DERIVED table. This is because a UNION
cannot be a sibling of another UNION or a table, DERIVED or not. (Try writing
such a statement if you don't see it intuitively). Therefore, you can just find
the enclosing scope's boundaries, and the rest is easy. Notice in the example
above, the UNION is over <union3,5>, which includes the row with id 4 -- it
includes every row between 3 and 5.
Finally, there are non-derived subqueries to deal with as well. In this case I
can't look at siblings to find the end of the scope as I did for DERIVED. I
have to trust that MySQL executes depth-first. Here's an example:
explain
select actor_id,
(
select count(film_id)
+ (select count(*) from sakila.film)
from sakila.film join sakila.film_actor using(film_id)
where exists(
select * from sakila.actor
where sakila.actor.actor_id = sakila.film_actor.actor_id
)
)
from sakila.actor;
| id | select_type | table |
| 1 | PRIMARY | actor |
| 2 | SUBQUERY | film |
| 2 | SUBQUERY | film_actor |
| 4 | DEPENDENT SUBQUERY | actor |
| 3 | SUBQUERY | film |
In order, the tree should be built like this:
=over
=item *
See row 1.
=item *
See row 2. It's a higher id than 1, so it's a subquery, along with every other
row whose id is greater than 2.
=item *
Inside this scope, see 2 and 2 and JOIN them. See 4. It's a higher id than 2,
so it's again a subquery; recurse. After that, see 3, which is also higher;
recurse.
=back
But the only reason the nested subquery didn't include select 3 is because
select 4 came first. In other words, if EXPLAIN looked like this,
| id | select_type | table |
| 1 | PRIMARY | actor |
| 2 | SUBQUERY | film |
| 2 | SUBQUERY | film_actor |
| 3 | SUBQUERY | film |
| 4 | DEPENDENT SUBQUERY | actor |
I would be forced to assume upon seeing select 3 that select 4 is a subquery
of it, rather than just being the next sibling in the enclosing scope. If this
is ever wrong, then the algorithm is wrong, and I don't see what could be done
about it.
UNION is a little more complicated than just "the entire scope is a UNION,"
because the UNION might itself be inside an enclosing scope that's only
indicated by the first item inside the UNION. There are only three kinds of
enclosing scopes: UNION, DERIVED, and SUBQUERY. A UNION can't enclose a UNION,
and a DERIVED has its own "scope markers," but a SUBQUERY can wholly enclose a
UNION, like this strange example on the empty table t1:
explain select * from t1 where not exists(
(select t11.i from t1 t11) union (select t12.i from t1 t12));
| id | select_type | table | Extra |
+------+--------------+------------+--------------------------------+
| 1 | PRIMARY | t1 | const row not found |
| 2 | SUBQUERY | NULL | No tables used |
| 3 | SUBQUERY | NULL | no matching row in const table |
| 4 | UNION | t12 | const row not found |
| NULL | UNION RESULT | <union2,4> | |
The UNION's backward references might make it look like the UNION encloses the
subquery, but studying the query makes it clear this isn't the case. So when a
UNION's first row says SUBQUERY, it is this special case.
By the way, I don't fully understand this query plan; there are 4 numbered
SELECT in the plan, but only 3 in the query. The parens around the UNIONs are
meaningful. Removing them will make the EXPLAIN different. Please tell me how
and why this works if you know.
Armed with this knowledge, it's possible to use recursion to turn the
parent-child relationship between all the rows into a tree representing the
execution plan.
MySQL prints the rows in execution order, even the forward and backward
references. At any given scope, the rows are processed as a left-deep tree.
MySQL does not do "bushy" execution plans. It begins with a table, finds a
matching row in the next table, and continues till the last table, when it emits
a row. When it runs out, it backtracks till it can find the next row and
repeats. There are subtleties of course, but this is the basic plan. This is
why MySQL transforms all RIGHT OUTER JOINs into LEFT OUTER JOINs and cannot do
FULL OUTER JOIN.
This means in any given scope, say
| id | select_type | table |
| 1 | SIMPLE | tbl1 |
| 1 | SIMPLE | tbl2 |
| 1 | SIMPLE | tbl3 |
The execution plan looks like a depth-first traversal of this tree:
JOIN
/ \
JOIN tbl3
/ \
tbl1 tbl2
The JOIN might not be a JOIN. It might be a subquery, for example. This comes
from the type column of EXPLAIN. The documentation says this is a "join type,"
but I think "access type" is more accurate, because it's "how MySQL accesses
rows."
pt-visual-explain decorates the tree significantly more than just turning
rows into nodes. Each node may get a series of transformations that turn it
into a subtree of more than one node. For example, an index scan not marked
with 'Using index' must do a bookmark lookup into the table rows; that is a
three-node subtree. However, after the above node-ordering and scoping stuff,
the rest of the process is pretty simple.
=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 --clustered-pk
Assume that PRIMARY KEY index accesses don't need to do a bookmark lookup to
retrieve rows. This is the case for InnoDB.
=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 --connect
Treat input as a query, and obtain EXPLAIN output by connecting to a MySQL
instance and running EXPLAIN on the query. When this option is given,
pt-visual-explain uses the other connection-specific options such as
L<"--user"> to connect to the MySQL instance. If you have a .my.cnf file,
it will read it, so you may not need to specify any connection-specific
options.
=item --database
short form: -D; type: string
Connect to this database.
=item --defaults-file
short form: -F; type: string
Only read mysql options from the given file. You must give an absolute
pathname.
=item --format
type: string; default: tree
Set output format.
The default is a terse pretty-printed tree. The valid values are:
Value Meaning
===== ================================================
tree Pretty-printed terse tree.
dump Data::Dumper output (see Data::Dumper for more).
=item --help
Show help and exit.
=item --host
short form: -h; type: string
Connect to host.
=item --password
short form: -p; type: string
Password to use when connecting.
=item --pid
type: string
Create the given PID file. The tool won't start if the PID file already
exists and the PID it contains is different than the current PID. However,
if the PID file exists and the PID it contains is no longer running, the
tool will overwrite the PID file with the current PID. The PID file is
removed automatically when the tool exits.
=item --port
short form: -P; type: int
Port number to use for connection.
=item --set-vars
type: Array
Set the MySQL variables in this comma-separated list of C<variable=value> pairs.
By default, the tool sets:
=for comment ignore-pt-internal-value
MAGIC_set_vars
wait_timeout=10000
Variables specified on the command line override these defaults. For
example, specifying C<--set-vars wait_timeout=500> overrides the defaultvalue of C<10000>.
The tool prints a warning and continues if a variable cannot be set.
=item --socket
short form: -S; type: string
Socket file to use for connection.
=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<option=value>. 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<percona-toolkit> 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 * u
dsn: user; copy: yes
User for login if not current user.
=back
=head1 ENVIRONMENT
The environment variable C<PTDEBUG> enables verbose debugging output to STDERR.
To enable debugging and capture all output to a file, run the tool like:
PTDEBUG=1 pt-visual-explain ... > 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<http://www.percona.com/bugs/pt-visual-explain>.
Please report bugs at L<https://bugs.launchpad.net/percona-toolkit>.
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<PTDEBUG>;
see L<"ENVIRONMENT">.
=head1 DOWNLOADING
Visit L<http://www.percona.com/software/percona-toolkit/> 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<TOOL> 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 for MySQL developed by Percona. Percona Toolkit was forked from two
projects in June, 2011: Maatkit and Aspersa. Those projects were created by
Baron Schwartz and primarily developed by him and Daniel Nichter. Visit
L<http://www.percona.com/software/> to learn about other free, open-source
software from Percona.
=head1 COPYRIGHT, LICENSE, AND WARRANTY
This program is copyright 2011-2014 Percona LLC and/or its affiliates,
2007-2011 Baron Schwartz.
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-visual-explain 2.2.11
=cut
|