#
# Config::General.pm - Generic Config Module
#
# Purpose: Provide a convenient way for loading
# config values from a given file and
# return it as hash structure
#
# Copyright (c) 2000-2002 Thomas Linden <tom@daemon.de>.
# All Rights Reserved. Std. disclaimer applies.
# Artificial License, same as perl itself. Have fun.
#
# namespace
package Config::General;
use FileHandle;
use File::Spec::Functions qw(catfile catpath splitpath file_name_is_absolute);
use strict;
use Carp;
use Exporter;
$Config::General::VERSION = "2.18";
use vars qw(@ISA @EXPORT);
@ISA = qw(Exporter);
@EXPORT = qw(ParseConfig SaveConfig SaveConfigString);
sub new {
#
# create new Config::General object
#
my($this, @param ) = @_;
my $class = ref($this) || $this;
# define default options
my $self = {
AllowMultiOptions => 1,
MergeDuplicateOptions => 0,
MergeDuplicateBlocks => 0,
LowerCaseNames => 0,
UseApacheInclude => 0,
IncludeRelative => 0,
AutoTrue => 0,
AutoTrueFlags => {
true => '^(on|yes|true|1)$',
false => '^(off|no|false|0)$',
},
DefaultConfig => {},
level => 1,
InterPolateVars => 0,
ExtendedAccess => 0,
SplitPolicy => 'guess', # also possible: whitespace, equalsign and custom
SplitDelimiter => 0, # must be set by the user if SplitPolicy is 'custom'
StoreDelimiter => 0, # will be set by me unless user uses 'custom' policy
CComments => 1, # by default turned on
StrictObjects => 1, # be strict on non-existent keys in OOP mode
StrictVars => 1, # be strict on undefined variables in Interpolate mode
parsed => 0,
upperkey => "",
lastkey => "",
prevkey => " ",
};
# create the class instance
bless($self,$class);
if ($#param >= 1) {
# use of the new hash interface!
my %conf = @param;
# save the parameter list for ::Extended's new() calls
$self->{Params} = \%conf;
# be backwards compatible
$self->{ConfigFile} = delete $conf{-file} if(exists $conf{-file});
$self->{ConfigHash} = delete $conf{-hash} if(exists $conf{-hash});
# store input, file, handle, or array
$self->{ConfigFile} = delete $conf{-ConfigFile} if(exists $conf{-ConfigFile});
$self->{ConfigPath} = delete $conf{-ConfigPath} if(exists $conf{-ConfigPath});
$self->{ConfigHash} = delete $conf{-ConfigHash} if(exists $conf{-ConfigHash});
# handle options which contains values we are needing (strings, hashrefs or the like)
if (exists $conf{-String} ) {
if ($conf{-String}) {
$self->{StringContent} = $conf{-String};
}
delete $conf{-String};
}
if (exists $conf{-FlagBits}) {
if ($conf{-FlagBits} && ref($conf{-FlagBits}) eq "HASH") {
$self->{FlagBits} = 1;
$self->{FlagBitsFlags} = $conf{-FlagBits};
}
delete $conf{-FlagBits};
}
if (exists $conf{-DefaultConfig}) {
if ($conf{-DefaultConfig} && ref($conf{-DefaultConfig}) eq "HASH") {
$self->{DefaultConfig} = $conf{-DefaultConfig};
}
elsif ($conf{-DefaultConfig} && ref($conf{-DefaultConfig}) eq "") {
$self->_read($conf{-DefaultConfig}, "SCALAR");
$self->{DefaultConfig} = $self->_parse({}, $self->{content});
$self->{content} = ();
}
delete $conf{-DefaultConfig};
delete $conf{-BaseHash}; # ignore BaseHash if a default one was given
}
# handle options which may either be true or false
# allowing "human" logic about what is true and what is not
foreach my $entry (keys %conf) {
my $key = $entry;
$key =~ s/^\-//;
if (! exists $self->{$key}) {
croak "Unknown parameter: $entry => \"$conf{$entry}\" (key: <$key>)\n";
}
if ($conf{$entry} =~ /$self->{AutoTrueFlags}->{true}/io) {
$self->{$key} = 1;
}
elsif ($conf{$entry} =~ /$self->{AutoTrueFlags}->{false}/io) {
$self->{$key} = 0;
}
else {
# keep it untouched
$self->{$key} = $conf{$entry};
}
}
if ($self->{MergeDuplicateOptions}) {
# override if not set by user
if (! exists $conf{-AllowMultiOptions}) {
$self->{AllowMultiOptions} = 0;
}
}
}
elsif ($#param == 0) {
# use of the old style
$self->{ConfigFile} = $param[0];
}
else {
# this happens if $#param == -1,1 thus no param was given to new!
$self->{config} = {};
$self->{parsed} = 1;
}
# prepare the split delimiter if needed
if ($self->{SplitPolicy} ne 'guess') {
if ($self->{SplitPolicy} eq 'whitespace') {
$self->{SplitDelimiter} = '\s+';
$self->{StoreDelimiter} = " " if(!$self->{StoreDelimiter});
}
elsif ($self->{SplitPolicy} eq 'equalsign') {
$self->{SplitDelimiter} = '\s*=\s*';
$self->{StoreDelimiter} = " = " if(!$self->{StoreDelimiter});
}
elsif ($self->{SplitPolicy} eq 'custom') {
if (! $self->{SplitDelimiter} ) {
croak "SplitPolicy set to 'custom' but no SplitDelimiter set.\n";
}
}
else {
croak "Unsupported SplitPolicy: $self->{SplitPolicy}.\n";
}
}
else {
$self->{StoreDelimiter} = " " if(!$self->{StoreDelimiter});
}
if ($self->{InterPolateVars}) {
#
# we are blessing here again, to get into the ::InterPolated namespace
# for inheriting the methods available overthere, which we doesn't have.
#
bless($self, "Config::General::Interpolated");
eval {
require Config::General::Interpolated;
};
if ($@) {
croak $@;
}
# pre-compile the variable regexp
$self->{regex} = $self->_set_regex();
}
# process as usual
if (!$self->{parsed}) {
if ($self->{DefaultConfig} && $self->{InterPolateVars}) {
$self->{DefaultConfig} = $self->_interpolate_hash($self->{DefaultConfig});
}
if (exists $self->{StringContent}) {
# consider the supplied string as config file
$self->_read($self->{StringContent}, "SCALAR");
$self->{config} = $self->_parse($self->{DefaultConfig}, $self->{content});
}
elsif (exists $self->{ConfigHash}) {
if (ref($self->{ConfigHash}) eq "HASH") {
# initialize with given hash
$self->{config} = $self->{ConfigHash};
$self->{parsed} = 1;
}
else {
croak "Parameter -ConfigHash must be a hash reference!\n";
}
}
elsif (ref($self->{ConfigFile}) eq "GLOB" || ref($self->{ConfigFile}) eq "FileHandle") {
# use the file the glob points to
$self->_read($self->{ConfigFile});
$self->{config} = $self->_parse($self->{DefaultConfig}, $self->{content});
}
else {
if ($self->{ConfigFile}) {
# open the file and read the contents in
$self->{configfile} = $self->{ConfigFile};
if ( file_name_is_absolute($self->{ConfigFile}) ) {
# look if is is an absolute path and save the basename if it is absolute
my ($volume, $path, undef) = splitpath($self->{ConfigFile});
$path =~ s#/$##; # remove eventually existing trailing slash
# $self->{configpath} = $path;
$self->{ConfigPath} = [] unless $self->{ConfigPath};
unshift @{$self->{ConfigPath}}, catpath($volume, $path, '');
}
$self->_open($self->{configfile});
# now, we parse immdediately, getall simply returns the whole hash
$self->{config} = $self->_parse($self->{DefaultConfig}, $self->{content});
}
else {
# hm, no valid config file given, so try it as an empty object
$self->{config} = {};
$self->{parsed} = 1;
}
}
}
#
# Submodule handling. Parsing is already done at this point.
#
if ($self->{ExtendedAccess}) {
#
# we are blessing here again, to get into the ::Extended namespace
# for inheriting the methods available overthere, which we doesn't have.
#
bless($self, "Config::General::Extended");
eval {
require Config::General::Extended;
};
if ($@) {
croak $@;
}
}
return $self;
}
sub getall {
#
# just return the whole config hash
#
my($this) = @_;
return (exists $this->{config} ? %{$this->{config}} : () );
}
sub _open {
#
# open the config file
#
my($this, $configfile) = @_;
my $fh = new FileHandle;
## added by ptandler, 03-04-16
if( ! -e $configfile && defined($this->{ConfigPath}) ) {
foreach my $dir (@{$this->{ConfigPath}}) {
if( -e catfile($dir, $configfile) ) {
$configfile = catfile($dir, $configfile);
last;
};
}
}
if (-e $configfile) {
open $fh, "<$configfile" or croak "Could not open $configfile!($!)\n";
$this->_read($fh);
}
else {
croak "The file \"$configfile\" does not exist!\n";
}
}
sub _read {
#
# store the config contents in @content
#
my($this, $fh, $flag) = @_;
my(@stuff, @content, $c_comment, $longline, $hier, $hierend, @hierdoc);
local $_;
if ($flag && $flag eq "SCALAR") {
if (ref($fh) eq "ARRAY") {
@stuff = @{$fh};
}
else {
@stuff = split "\n", $fh;
}
}
else {
@stuff = <$fh>;
}
foreach (@stuff) {
chomp;
if ($this->{CComments}) {
# look for C-Style comments, if activated
if (/(\s*\/\*.*\*\/\s*)/) {
# single c-comment on one line
s/\s*\/\*.*\*\/\s*//;
}
elsif (/^\s*\/\*/) {
# the beginning of a C-comment ("/*"), from now on ignore everything.
if (/\*\/\s*$/) {
# C-comment end is already there, so just ignore this line!
$c_comment = 0;
}
else {
$c_comment = 1;
}
}
elsif (/\*\//) {
if (!$c_comment) {
warn "invalid syntax: found end of C-comment without previous start!\n";
}
$c_comment = 0; # the current C-comment ends here, go on
s/^.*\*\///; # if there is still stuff, it will be read
}
next if($c_comment); # ignore EVERYTHING from now on, IF it IS a C-Comment
}
if ($hier) {
# inside here-doc, only look for $hierend marker
if (/^(\s*)\Q$hierend\E\s*$/) {
my $indent = $1; # preserve indentation
$hier .= " " . chr(182); # append a "¶" to the here-doc-name, so
# _parse will also preserver indentation
if ($indent) {
foreach (@hierdoc) {
s/^$indent//; # i.e. the end was: " EOF" then we remove " " from every here-doc line
$hier .= $_ . "\n"; # and store it in $hier
}
}
else {
$hier .= join "\n", @hierdoc; # there was no indentation of the end-string, so join it 1:1
}
push @{$this->{content}}, $hier; # push it onto the content stack
@hierdoc = ();
undef $hier;
undef $hierend;
}
else {
# everything else onto the stack
push @hierdoc, $_;
}
next;
}
###
### non-heredoc entries from now on
##
# Remove comments and empty lines
s/(?<!\\)#.+$//;
next if /^\s*#/;
next if /^\s*$/;
# remove the \ char in front of masked "#", if any
s/\\#/#/g;
# look for here-doc identifier
if ($this->{SplitPolicy} eq 'guess') {
if (/^\s*(\S+?)(\s*=\s*|\s+)<<\s*(.+?)\s*$/) {
$hier = $1; # the actual here-doc variable name
$hierend = $3; # the here-doc identifier, i.e. "EOF"
next;
}
}
else {
# no guess, use one of the configured strict split policies
if (/^\s*(\S+?)($this->{SplitDelimiter})<<\s*(.+?)\s*$/) {
$hier = $1; # the actual here-doc variable name
$hierend = $3; # the here-doc identifier, i.e. "EOF"
next;
}
}
# look for multiline option, indicated by a trailing backslash
if (/\\$/) {
chop;
s/^\s*//;
$longline .= $_;
next;
}
###
### any "normal" config lines from now on
###
if ($longline) {
# previous stuff was a longline and this is the last line of the longline
s/^\s*//;
$longline .= $_;
push @{$this->{content}}, $longline; # push it onto the content stack
undef $longline;
next;
}
else {
# look for include statement(s)
my $incl_file;
if (/^\s*<<include\s+(.+?)>>\s*$/i || (/^\s*include\s+(.+?)\s*$/i && $this->{UseApacheInclude})) {
$incl_file = $1;
if ( $this->{IncludeRelative} && $this->{configpath} && !file_name_is_absolute($incl_file) ) {
# include the file from within location of $this->{configfile}
$this->_open($incl_file);
}
else {
# include the file from within pwd, or absolute
$this->_open($incl_file);
}
}
else {
# standard entry, (option = value)
push @{$this->{content}}, $_;
}
}
}
return 1;
}
sub _parse {
#
# parse the contents of the file
#
my($this, $config, $content) = @_;
my(@newcontent, $block, $blockname, $grab, $chunk,$block_level);
local $_;
my $indichar = chr(182); # ¶, inserted by _open, our here-doc indicator
foreach (@{$content}) { # loop over content stack
chomp;
$chunk++;
$_ =~ s/^\s*//; # strip spaces @ end and begin
$_ =~ s/\s*$//;
#
# build option value assignment, split current input
# using whitespace, equal sign or optionally here-doc
# separator (ascii 182).
my ($option,$value);
if (/$indichar/) {
($option,$value) = split /\s*$indichar\s*/, $_, 2; # separated by heredoc-finding in _open()
}
else {
if ($this->{SplitPolicy} eq 'guess') {
# again the old regex. use equalsign SplitPolicy to get the
# 2.00 behavior. the new regexes were too odd.
($option,$value) = split /\s*=\s*|\s+/, $_, 2;
}
else {
# no guess, use one of the configured strict split policies
($option,$value) = split /$this->{SplitDelimiter}/, $_, 2;
}
}
if ($value && $value =~ /^"/ && $value =~ /"$/) {
$value =~ s/^"//; # remove leading and trailing "
$value =~ s/"$//;
}
if (! defined $block) { # not inside a block @ the moment
if (/^<([^\/]+?.*?)>$/) { # look if it is a block
$block = $1; # store block name
($grab, $blockname) = split /\s\s*/, $block, 2; # is it a named block? if yes, store the name separately
if ($blockname) {
$block = $grab;
}
if ($this->{InterPolateVars}) {
# interpolate block(name), add "<" and ">" to the key, because
# it is sure that such keys does not exist otherwise.
$block = $this->_interpolate("<$block>", $block);
if ($blockname) {
$blockname = $this->_interpolate("<$blockname>", $blockname);
}
}
$block = lc($block) if $this->{LowerCaseNames}; # only for blocks lc(), if configured via new()
$this->{level} += 1;
undef @newcontent;
next;
}
elsif (/^<\/(.+?)>$/) { # it is an end block, but we don't have a matching block!
croak "EndBlock \"<\/$1>\" has no StartBlock statement (level: $this->{level}, chunk $chunk)!\n";
}
else { # insert key/value pair into actual node
$option = lc($option) if $this->{LowerCaseNames};
if (exists $config->{$option}) {
if ($this->{MergeDuplicateOptions}) {
$config->{$option} = $this->_parse_value($option, $value);
}
else {
if (! $this->{AllowMultiOptions} ) {
# no, duplicates not allowed
croak "Option \"$option\" occurs more than once (level: $this->{level}, chunk $chunk)!\n";
}
else {
# yes, duplicates allowed
if (ref($config->{$option}) ne "ARRAY") { # convert scalar to array
my $savevalue = $config->{$option};
delete $config->{$option};
push @{$config->{$option}}, $savevalue;
}
eval {
# check if arrays are supported by the underlying hash
my $i = scalar @{$config->{$option}};
};
if ($@) {
$config->{$option} = $this->_parse_value($option, $value);
}
else {
push @{$config->{$option}}, $this->_parse_value($option, $value); # it's already an array, just push
}
}
}
}
else {
$config->{$option} = $this->_parse_value($option, $value); # standard config option, insert key/value pair into node
}
}
}
elsif (/^<([^\/]+?.*?)>$/) { # found a start block inside a block, don't forget it
$block_level++; # $block_level indicates wether we are still inside a node
push @newcontent, $_; # push onto new content stack for later recursive call of _parse()
}
elsif (/^<\/(.+?)>$/) {
if ($block_level) { # this endblock is not the one we are searching for, decrement and push
$block_level--; # if it is 0, then the endblock was the one we searched for, see below
push @newcontent, $_; # push onto new content stack
}
else { # calling myself recursively, end of $block reached, $block_level is 0
if ($blockname) { # a named block, make it a hashref inside a hash within the current node
$this->_savelast($blockname);
if (exists $config->{$block}->{$blockname}) { # the named block already exists, make it an array
if ($this->{MergeDuplicateBlocks}) {
# just merge the new block with the same name as an existing one into
# this one.
$config->{$block}->{$blockname} = $this->_parse($config->{$block}->{$blockname}, \@newcontent);
}
else {
if (! $this->{AllowMultiOptions}) {
croak "Named block \"<$block $blockname>\" occurs more than once (level: $this->{level}, chunk $chunk)!\n";
}
else { # preserve existing data
my $savevalue = $config->{$block}->{$blockname};
delete $config->{$block}->{$blockname};
my @ar;
if (ref $savevalue eq "ARRAY") {
push @ar, @{$savevalue}; # preserve array if any
}
else {
push @ar, $savevalue;
}
push @ar, $this->_parse( {}, \@newcontent); # append it
$config->{$block}->{$blockname} = \@ar;
}
}
}
elsif (ref($config->{$block}) eq "ARRAY") {
croak "Cannot add named block <$block $blockname> to hash! Block <$block> occurs more than once.\n"
."Turn on -MergeDuplicateBlocks or make sure <$block> occurs only once in the config.\n";
}
else {
# the first occurence of this particular named block
$config->{$block}->{$blockname} = $this->_parse($config->{$block}->{$blockname}, \@newcontent);
}
$this->_backlast($blockname);
}
else { # standard block
$this->_savelast($block);
if (exists $config->{$block}) { # the block already exists, make it an array
if ($this->{MergeDuplicateBlocks}) {
# just merge the new block with the same name as an existing one into
# this one.
$config->{$block} = $this->_parse($config->{$block}, \@newcontent);
}
else {
if (! $this->{AllowMultiOptions}) {
croak "Block \"<$block>\" occurs more than once (level: $this->{level}, chunk $chunk)!\n";
}
else {
my $savevalue = $config->{$block};
delete $config->{$block};
my @ar;
if (ref $savevalue eq "ARRAY") {
push @ar, @{$savevalue};
}
else {
push @ar, $savevalue;
}
push @ar, $this->_parse( {}, \@newcontent);
$config->{$block} = \@ar;
}
}
}
else {
# the first occurence of this particular block
$config->{$block} = $this->_parse($config->{$block}, \@newcontent);
}
$this->_backlast($block);
}
undef $blockname;
undef $block;
$this->{level} -= 1;
next;
}
}
else { # inside $block, just push onto new content stack
push @newcontent, $_;
}
}
if ($block) {
# $block is still defined, which means, that it had
# no matching endblock!
croak "Block \"<$block>\" has no EndBlock statement (level: $this->{level}, chunk $chunk)!\n";
}
return $config;
}
sub _savelast {
my($this, $key) = @_;
$this->{upperkey} = $this->{lastkey};
$this->{lastkey} = $this->{prevkey};
$this->{prevkey} = $key;
}
sub _backlast {
my($this, $key) = @_;
$this->{prevkey} = $this->{lastkey};
$this->{lastkey} = $this->{upperkey};
}
sub _parse_value {
#
# parse the value if value parsing is turned on
# by either -AutoTrue and/or -FlagBits
# otherwise just return the given value unchanged
#
my($this, $option, $value) =@_;
# avoid "Use of uninitialized value"
$value = '' unless defined $value;
if ($this->{InterPolateVars}) {
$value = $this->_interpolate($option, $value);
}
# make true/false values to 1 or 0 (-AutoTrue)
if ($this->{AutoTrue}) {
if ($value =~ /$this->{AutoTrueFlags}->{true}/io) {
$value = 1;
}
elsif ($value =~ /$this->{AutoTrueFlags}->{false}/io) {
$value = 0;
}
}
# assign predefined flags or undef for every flag | flag ... (-FlagBits)
if ($this->{FlagBits}) {
if (exists $this->{FlagBitsFlags}->{$option}) {
my %__flags = map { $_ => 1 } split /\s*\|\s*/, $value;
foreach my $flag (keys %{$this->{FlagBitsFlags}->{$option}}) {
if (exists $__flags{$flag}) {
$__flags{$flag} = $this->{FlagBitsFlags}->{$option}->{$flag};
}
else {
$__flags{$flag} = undef;
}
}
$value = \%__flags;
}
}
return $value;
}
sub NoMultiOptions {
#
# turn AllowMultiOptions off, still exists for backward compatibility.
# Since we do parsing from within new(), we must
# call it again if one turns NoMultiOptions on!
#
croak "The NoMultiOptions() method is deprecated. Set 'AllowMultiOptions' to 'no' instead!";
}
sub save {
#
# this is the old version of save() whose API interface
# has been changed. I'm very sorry 'bout this.
#
# I'll try to figure out, if it has been called correctly
# and if yes, feed the call to Save(), otherwise croak.
#
my($this, $one, @two) = @_;
if ( (@two && $one) && ( (scalar @two) % 2 == 0) ) {
# @two seems to be a hash
my %h = @two;
$this->save_file($one, \%h);
}
else {
croak "The save() method is deprecated. Use the new save_file() method instead!";
}
}
sub save_file {
#
# save the config back to disk
#
my($this, $file, $config) = @_;
my $fh = new FileHandle;
my $config_string;
if (!$file) {
croak "Filename is required!";
}
else {
open $fh, ">$file" or croak "Could not open $file!($!)\n";
if (!$config) {
if (exists $this->{config}) {
$config_string = $this->_store(0, %{$this->{config}});
}
else {
croak "No config hash supplied which could be saved to disk!\n";
}
}
else {
$config_string = $this->_store(0,%{$config});
}
if ($config_string) {
print $fh $config_string;
}
else {
# empty config for whatever reason, I don't care
print $fh "";
}
close $fh;
}
}
sub save_string {
#
# return the saved config as a string
#
my($this, $config) = @_;
if (!$config || ref($config) ne "HASH") {
if (exists $this->{config}) {
return $this->_store(0, %{$this->{config}});
}
else {
croak "No config hash supplied which could be saved to disk!\n";
}
}
else {
return $this->_store(0, %{$config});
}
}
sub _store {
#
# internal sub for saving a block
#
my($this, $level, %config) = @_;
local $_;
my $indent = " " x $level;
my $config_string;
foreach my $entry (sort keys %config) {
if (ref($config{$entry}) eq "ARRAY") {
foreach my $line (@{$config{$entry}}) {
if (ref($line) eq "HASH") {
$config_string .= $this->_write_hash($level, $entry, $line);
}
else {
$config_string .= $this->_write_scalar($level, $entry, $line);
}
}
}
elsif (ref($config{$entry}) eq "HASH") {
$config_string .= $this->_write_hash($level, $entry, $config{$entry});
}
else {
$config_string .= $this->_write_scalar($level, $entry, $config{$entry});
}
}
return $config_string;
}
sub _write_scalar {
#
# internal sub, which writes a scalar
# it returns it, in fact
#
my($this, $level, $entry, $line) = @_;
my $indent = " " x $level;
my $config_string;
if ($line =~ /\n/) {
# it is a here doc
my $delimiter;
my $tmplimiter = "EOF";
while (!$delimiter) {
# create a unique here-doc identifier
if ($line =~ /$tmplimiter/s) {
$tmplimiter .= "%";
}
else {
$delimiter = $tmplimiter;
}
}
my @lines = split /\n/, $line;
$config_string .= $indent . $entry . $this->{StoreDelimiter} . "<<$delimiter\n";
foreach (@lines) {
$config_string .= $indent . $_ . "\n";
}
$config_string .= $indent . "$delimiter\n";
}
else {
# a simple stupid scalar entry
$line =~ s/#/\\#/g;
$config_string .= $indent . $entry . $this->{StoreDelimiter} . $line . "\n";
}
return $config_string;
}
sub _write_hash {
#
# internal sub, which writes a hash (block)
# it returns it, in fact
#
my($this, $level, $entry, $line) = @_;
my $indent = " " x $level;
my $config_string;
$config_string .= $indent . "<" . $entry . ">\n";
$config_string .= $this->_store($level + 1, %{$line});
$config_string .= $indent . "</" . $entry . ">\n";
return $config_string
}
#
# Procedural interface
#
sub ParseConfig {
#
# @_ may contain everything which is allowed for new()
#
return (new Config::General(@_))->getall();
}
sub SaveConfig {
#
# 2 parameters are required, filename and hash ref
#
my ($file, $hash) = @_;
if (!$file || !$hash) {
croak "SaveConfig(): filename and hash argument required.";
}
else {
if (ref($hash) ne "HASH") {
croak "The second parameter must be a reference to a hash!";
}
else {
(new Config::General(-ConfigHash => $hash))->save_file($file);
}
}
}
sub SaveConfigString {
#
# same as SaveConfig, but return the config,
# instead of saving it
#
my ($hash) = @_;
if (!$hash) {
croak "SaveConfigString(): Hash argument required.";
}
else {
if (ref($hash) ne "HASH") {
croak "The parameter must be a reference to a hash!";
}
else {
return (new Config::General(-ConfigHash => $hash))->save_string();
}
}
}
# keep this one
1;
=head1 NAME
Config::General - Generic Config Module
=head1 SYNOPSIS
#
# the OOP way
use Config::General;
$conf = new Config::General("rcfile");
my %config = $conf->getall;
#
# the procedural way
use Config::General;
my %config = ParseConfig("rcfile");
=head1 DESCRIPTION
This module opens a config file and parses it's contents for you. The B<new> method
requires one parameter which needs to be a filename. The method B<getall> returns a hash
which contains all options and it's associated values of your config file.
The format of config files supported by B<Config::General> is inspired by the well known apache config
format, in fact, this module is 100% compatible to apache configs, but you can also just use simple
name/value pairs in your config files.
In addition to the capabilities of an apache config file it supports some enhancements such as here-documents,
C-style comments or multiline options.
=head1 METHODS
=over
=item new()
Possible ways to call B<new()>:
$conf = new Config::General("rcfile");
$conf = new Config::General(\%somehash);
$conf = new Config::General( %options ); # see below for description of possible options
This method returns a B<Config::General> object (a hash blessed into "Config::General" namespace.
All further methods must be used from that returned object. see below.
You can use the new style with hash parameters or the old style which is of course
still supported. Possible parameters to B<new()> are:
* a filename of a configfile, which will be opened and parsed by the parser
or
* a hash reference, which will be used as the config.
An alternative way to call B<new()> is supplying an option- hash with one or more of
the following keys set:
=over
=item B<-ConfigFile>
A filename or a filehandle, i.e.:
-ConfigFile => "rcfile" or -ConfigFile => \$FileHandle
=item B<-ConfigHash>
A hash reference, which will be used as the config, i.e.:
-ConfigHash => \%somehash
=item B<-String>
A string which contains a whole config, or an arrayref
containing the whole config line by line.
The parser will parse the contents of the string instead
of a file. i.e:
-String => $complete_config
it is also possible to feed an array reference to -String:
-String => \@config_lines
=item B<-AllowMultiOptions>
If the value is "no", then multiple identical options are disallowed.
The default is "yes".
i.e.:
-AllowMultiOptions => "no"
see B<IDENTICAL OPTIONS> for details.
=item B<-LowerCaseNames>
If set to a true value, then all options found in the config will be converted
to lowercase. This allows you to provide case-in-sensitive configs. The
values of the options will B<not> lowercased.
=item B<-UseApacheInclude>
If set to a true value, the parser will consider "include ..." as valid include
statement (just like the well known apache include statement).
=item B<-IncludeRelative>
If set to a true value, included files with a relative path (i.e. "cfg/blah.conf")
will be opened from within the location of the configfile instead from within the
location of the script($0). This works only if the configfile has a absolute pathname
(i.e. "/etc/main.conf").
=item B<-MergeDuplicateBlocks>
If set to a true value, then duplicate blocks, that means blocks and named blocks,
will be merged into a single one (see below for more details on this).
The default behavior of Config::General is to create an array if some junk in a
config appears more than once.
=item B<-MergeDuplicateOptions>
If set to a true value, then duplicate options will be merged. That means, if the
same option occurs more than once, the last one will be used in the resulting
config hash.
Setting this option implies B<-AllowMultiOptions == false> unless you set
B<-AllowMultiOptions> explicit to 'true'. In this case duplicate blocks are
allowed and put into an array but dupclicate options will be merged.
=item B<-AutoTrue>
If set to a true value, then options in your config file, whose values are set to
true or false values, will be normalised to 1 or 0 respectively.
The following values will be considered as B<true>:
yes, on, 1, true
The following values will be considered as B<false>:
no, off, 0, false
This effect is case-insensitive, i.e. both "Yes" or "oN" will result in 1.
=item B<-FlagBits>
This option takes one required parameter, which must be a hash reference.
The supplied hash reference needs to define variables for which you
want to preset values. Each variable you have defined in this hash-ref
and which occurs in your config file, will cause this variable being
set to the preset values to which the value in the config file refers to.
Multiple flags can be used, separated by the pipe character |.
Well, an example will clarify things:
my $conf = new Config::General(
-ConfigFile => "rcfile",
-FlagBits => {
Mode => {
CLEAR => 1,
STRONG => 1,
UNSECURE => "32bit" }
}
);
In this example we are defining a variable named I<"Mode"> which
may contain one or more of "CLEAR", "STRONG" and "UNSECURE" as value.
The appropriate config entry may look like this:
# rcfile
Mode = CLEAR | UNSECURE
The parser will create a hash which will be the value of the key "Mode". This
hash will contain B<all> flags which you have pre-defined, but only those
which were set in the config will contain the pre-defined value, the other
ones will be undefined.
The resulting config structure would look like this after parsing:
%config = (
Mode => {
CLEAR => 1,
UNSECURE => "32bit",
STRONG => undef,
}
);
This method allows the user (or, the "maintainer" of the configfile for your
application) to set multiple pre-defined values for one option.
Please beware, that all occurencies of those variables will be handled this
way, there is no way to distinguish between variables in different scopes.
That means, if "Mode" would also occur inside a named block, it would
also parsed this way.
Values which are not defined in the hash-ref supplied to the parameter B<-FlagBits>
and used in the corresponding variable in the config will be ignored.
Example:
# rcfile
Mode = BLAH | CLEAR
would result in this hash structure:
%config = (
Mode => {
CLEAR => 1,
UNSECURE => undef,
STRONG => undef,
}
);
"BLAH" will be ignored silently.
=item B<-DefaultConfig>
This can be a hash reference or a simple scalar (string) of a config. This
causes the module to preset the resulting config hash with the given values,
which allows you to set default values for particular config options directly.
This hash will be used as the 'backing hash' instead of a standard perl hash,
which allows you to affect the way, variable storing will be done. You could, for
example supply a tied hash, say Tie::DxHash, which preserves ordering of the
keys in the config (which a standard perl hash won't do). Or, you could supply
a hash tied to a DBM file to save the parsed variables to disk.
There are many more things to do in tie-land, see L<tie> to get some interesting
ideas.
=item B<-InterPolateVars>
If set to a true value, variable interpolation will be done on your config
input. See L<Config::General::Interpolated> for more informations.
=item B<-ExtendedAccess>
If set to a true value, you can use object oriented (extended) methods to
access the parsed config. See L<Config::General::Extended> for more informations.
=item B<-StrictObjects>
By default this is turned on, which causes Config::General to croak with an
error if you try to access a non-existent key using the oop-way (B<-ExtendedAcess>
enabled). If you turn B<-StrictObjects> off (by setting to 0 or "no") it will
just return an empty object/hash/scalar. This is valid for OOP-access 8via AUTOLOAD
and for the methods obj(), hash() and value().
=item B<-StrictVars>
By default this is turned on, which causes Config::General to croak with an
error if an undefined variable with B<InterPolateVars> turned on occurs
in a config. Set to I<false> (i.e. 0) to avoid such error messages.
=item B<-SplitPolicy>
You can influence the way how Config::General decides which part of a line
in a config file is the key and which one is the value. By default it tries
it's best to guess. That means you can mix equalsign assignments and whitespace
assignments.
However, somtimes you may wish to make it more strictly for some reason. In
this case you can set B<-SplitPolicy>. The possible values are: 'guess' which
is the default, 'whitespace' which causes the module to split by whitespace,
'equalsign' which causes it to split strictly by equal sign, or 'custom'. In the
latter case you must also set B<-SplitDelimiter> to some regular expression
of your choice. For example:
-SplitDelimiter => '\s*:\s*'
will cause the module to split by colon while whitespaces which surrounds
the delimiter will be removed.
Please note that the delimiter used when saving a config (save_file() or save_string())
will be choosen accordingto the current B<-SplitPolicy>. If -SplitPolicy is
set to 'guess' or 'whitespace', 3 whitespaces will be used to delimit saved
options. If 'custom' is set, then you need to set B<-StoreDelimiter>.
=item B<-SplitDelimiter>
Set this to any arbitrary regular expression which will be used for option/value
splitting. B<-SplitPolicy> must be set to 'custom' to make this work.
=item B<-StoreDelimiter>
You can use this parameter to specify a custom delimiter to use when saving
configs to a file or string. You only need to set it if you want to store
the config back to disk and if you have B<-SplitPolicy> set to 'custom'.
Be very carefull with this parameter.
=item B<-CComments>
Config::General is able to notice c-style comments (see section COMMENTS).
But for some reason you might no need this. In this case you can turn
this feature off by setting B<-CComments> to a false value('no', 0, 'off').
By default B<-CComments> is turned on.
=back
=item getall()
Returns a hash structure which represents the whole config.
=item save_file()
Writes the config hash back to the harddisk. This method takes one or two
parameters. The first parameter must be the filename where the config
should be written to. The second parameter is optional, it must be a
reference to a hash structure, if you set it. If you do not supply this second parameter
then the internal config hash, which has already been parsed, will be
used.
Please note, that any occurence of comments will be ignored by getall()
and thus be lost after you call this method.
You need also to know that named blocks will be converted to nested blocks
(which is the same from the perl point of view). An example:
<user hans>
id 13
</user>
will become the following after saving:
<user>
<hans>
id 13
</hans>
</user>
Example:
$conf_obj->save_file("newrcfile", \%config);
or, if the config has already been parsed, or if it didn't change:
$conf_obj->save_file("newrcfile");
=item save_string()
This method is equivalent to the previous save_file(), but it does not
store the generated config to a file. Instead it returns it as a string,
which you can save yourself afterwards.
It takes one optional parameter, which must be a reference to a hash structure.
If you omit this parameter, the internal config hash, which has already been parsed,
will be used.
Example:
my $content = $conf_obj->save_string(\%config);
or:
my $content = $conf_obj->save_string();
=back
=head1 CONFIG FILE FORMAT
Lines begining with B<#> and empty lines will be ignored. (see section COMMENTS!)
Spaces at the begining and the end of a line will also be ignored as well as tabulators.
If you need spaces at the end or the beginning of a value you can use
apostrophs B<">.
An optionline starts with it's name followed by a value. An equalsign is optional.
Some possible examples:
user max
user = max
user max
If there are more than one statements with the same name, it will create an array
instead of a scalar. See the example below.
The method B<getall> returns a hash of all values.
=head1 BLOCKS
You can define a B<block> of options. A B<block> looks much like a block
in the wellknown apache config format. It starts with E<lt>B<blockname>E<gt> and ends
with E<lt>/B<blockname>E<gt>. An example:
<database>
host = muli
user = moare
dbname = modb
dbpass = D4r_9Iu
</database>
Blocks can also be nested. Here is a more complicated example:
user = hans
server = mc200
db = maxis
passwd = D3rf$
<jonas>
user = tom
db = unknown
host = mila
<tablestructure>
index int(100000)
name char(100)
prename char(100)
city char(100)
status int(10)
allowed moses
allowed ingram
allowed joice
</tablestructure>
</jonas>
The hash which the method B<getall> returns look like that:
print Data::Dumper(\%hash);
$VAR1 = {
'passwd' => 'D3rf$',
'jonas' => {
'tablestructure' => {
'prename' => 'char(100)',
'index' => 'int(100000)',
'city' => 'char(100)',
'name' => 'char(100)',
'status' => 'int(10)',
'allowed' => [
'moses',
'ingram',
'joice',
]
},
'host' => 'mila',
'db' => 'unknown',
'user' => 'tom'
},
'db' => 'maxis',
'server' => 'mc200',
'user' => 'hans'
};
If you have turned on B<-LowerCaseNames> (see new()) then blocks as in the
following example:
<Dir>
<AttriBUTES>
Owner root
</attributes>
</dir>
would produce the following hash structure:
$VAR1 = {
'dir' => {
'attributes' => {
'owner => "root",
}
}
};
As you can see, the keys inside the config hash are normalized.
Please note, that the above config block would result in a
valid hash structure, even if B<-LowerCaseNames> is not set!
This is because I<Config::General> does not
use the blocknames to check if a block ends, instead it uses an internal
state counter, which indicates a block end.
If the module cannot find an end-block statement, then this block will be ignored.
=head1 NAMED BLOCKS
If you need multiple blocks of the same name, then you have to name every block.
This works much like apache config. If the module finds a named block, it will
create a hashref with the left part of the named block as the key containing
one or more hashrefs with the right part of the block as key containing everything
inside the block(which may again be nested!). As examples says more than words:
# given the following sample
<Directory /usr/frisco>
Limit Deny
Options ExecCgi Index
</Directory>
<Directory /usr/frik>
Limit DenyAll
Options None
</Directory>
# you will get:
$VAR1 = {
'Directory' => {
'/usr/frik' => {
'Options' => 'None',
'Limit' => 'DenyAll'
},
'/usr/frisco' => {
'Options' => 'ExecCgi Index',
'Limit' => 'Deny'
}
}
};
You cannot have more than one named block with the same name because it will
be stored in a hashref and therefore be overwritten if a block occurs once more.
=head1 IDENTICAL OPTIONS
You may have more than one line of the same option with different values.
Example:
log log1
log log2
log log2
You will get a scalar if the option occured only once or an array if it occured
more than once. If you expect multiple identical options, then you may need to
check if an option occured more than once:
$allowed = $hash{jonas}->{tablestructure}->{allowed};
if(ref($allowed) eq "ARRAY") {
@ALLOWED = @{$allowed};
else {
@ALLOWED = ($allowed);
}
The same applies to blocks and named blocks too (they are described in more detail
below). For example, if you have the following config:
<dir blah>
user max
</dir>
<dir blah>
user hannes
</dir>
then you would end up with a data structure like this:
$VAR1 = {
'dir' => {
'blah' => [
{
'user' => 'max'
},
{
'user' => 'hannes'
}
]
}
};
As you can see, the two identical blocks are stored in a hash which contains
an array(-reference) of hashes.
Under some rare conditions you might not want this behavior with blocks (and
named blocks too). If you want to get one single hash with the contents of
both identical blocks, then you need to turn the B<new()> parameter B<-MergeDuplicateBlocks>
on (see above). The parsed structure of the example above would then look like
this:
$VAR1 = {
'dir' => {
'blah' => [
'user' => 'max',
'user' => 'hannes'
]
}
};
As you can see, there is only one hash "dir->{blah}" containing multiple
"user" entries. As you can also see, turning on B<-MergeDuplicateBlocks>
does not affect scalar options (i.e. "option = value"). In fact you can
tune merging of duplicate blocks and options independent from each other.
If you don't want to allow more than one identical options, you may turn it off
by setting the flag I<AllowMultiOptions> in the B<new()> method to "no".
If turned off, Config::General will complain about multiple occuring options
with identical names!
=head1 LONG LINES
If you have a config value, which is too long and would take more than one line,
you can break it into multiple lines by using the backslash character at the end
of the line. The Config::General module will concatenate those lines to one single-value.
Example:
command = cat /var/log/secure/tripwire | \
mail C<-s> "report from tripwire" \
honey@myotherhost.nl
command will become:
"cat /var/log/secure/tripwire | mail C<-s> 'report from twire' honey@myotherhost.nl"
=head1 HERE DOCUMENTS
You can also define a config value as a so called "here-document". You must tell
the module an identifier which identicates the end of a here document. An
identifier must follow a "<<".
Example:
message <<EOF
we want to
remove the
homedir of
root.
EOF
Everything between the two "EOF" strings will be in the option I<message>.
There is a special feature which allows you to use indentation with here documents.
You can have any amount of whitespaces or tabulators in front of the end
identifier. If the module finds spaces or tabs then it will remove exactly those
amount of spaces from every line inside the here-document.
Example:
message <<EOF
we want to
remove the
homedir of
root.
EOF
After parsing, message will become:
we want to
remove the
homedir of
root.
because there were the string " " in front of EOF, which were cutted from every
line inside the here-document.
=head1 INCLUDES
You can include an external file at any posision in your config file using the following statement
in your config file:
<<include externalconfig.rc>>
If you turned on B<-UseApacheInclude> (see B<new()>), then you can also use the following
statement to include an external file:
include externalconfig.rc
This file will be inserted at the position where it was found as if the contents of this file
were directly at this position.
You can also recurively include files, so an included file may include another one and so on.
Beware that you do not recursively load the same file, you will end with an errormessage like
"too many open files in system!".
By default included files with a relative pathname will be opened from within the current
working directory. Under some circumstances it maybe possible to
open included files from the directory, where the configfile resides. You need to turn on
the option B<-IncludeRelative> (see B<new()>) if you want that. An example:
my $conf = Config::General(
-ConfigFile => "/etc/crypt.d/server.cfg"
-IncludeRelative => 1
);
/etc/crypt.d/server.cfg:
<<include acl.cfg>>
In this example Config::General will try to include I<acl.cfg> from I</etc/crypt.d>:
/etc/crypt.d/acl.cfg
The default behavior (if B<-IncludeRelative> is B<not> set!) will be to open just I<acl.cfg>,
whereever it is, i.e. if you did a chdir("/usr/local/etc"), then Config::General will include:
/usr/local/etc/acl.cfg
Include statements can be case insensitive (added in version 1.25).
Include statements will be ignored within C-Comments and here-documents.
=head1 COMMENTS
A comment starts with the number sign B<#>, there can be any number of spaces and/or
tabstops in front of the #.
A comment can also occur after a config statement. Example:
username = max # this is the comment
If you want to comment out a large block you can use C-style comments. A B</*> signals
the begin of a comment block and the B<*/> signals the end of the comment block.
Example:
user = max # valid option
db = tothemax
/*
user = andors
db = toand
*/
In this example the second options of user and db will be ignored. Please beware of the fact,
if the Module finds a B</*> string which is the start of a comment block, but no matching
end block, it will ignore the whole rest of the config file!
B<NOTE:> If you require the B<#> character (number sign) to remain in the option value, then
you can use a backlsash in front of it, to escape it. Example:
bgcolor = \#ffffcc
In this example the value of $config{bgcolor} will be "#ffffcc", Config::General will not treat
the number sign as the begin of a comment because of the leading backslash.
Inside here-documents escaping of number signs is NOT required!
=head1 OBJECT ORIENTED INTERFACE
There is a way to access a parsed config the OO-way.
Use the module B<Config::General::Extended>, which is
supplied with the Config::General distribution.
=head1 VARIABLE INTERPOLATION
You can use variables inside your configfiles if you like. To do
that you have to use the module B<Config::General::Interpolated>,
which is supplied with the Config::General distribution.
=head1 EXPORTED FUNCTIONS
Config::General exports some functions too, which makes it somewhat
easier to use it, if you like this.
=over
=item B<ParseConfig()>
This function takes exactly all those parameters, which are
allowed to the B<new()> method of the standard interface.
Example:
use Config::General;
my %config = ParseConfig(-ConfigFile => "rcfile", -AutoTrue => 1);
=item B<SaveConfig()>
This function requires two arguments, a filename and a reference
to a hash structure.
Example:
use Config::General;
..
SaveConfig("rcfile", \%some_hash);
=item B<SaveConfigString()>
This function requires a reference to a config hash as parameter.
It generates a configuration based on this hash as the object-interface
method B<save_string()> does.
Example:
use Config::General;
my %config = ParseConfig(-ConfigFile => "rcfile");
.. # change %config something
my $content = SaveConfigString(\%config);
=back
=head1 SEE ALSO
I recommend you to read the following documentations, which are supplied with perl:
perlreftut Perl references short introduction
perlref Perl references, the rest of the story
perldsc Perl data structures intro
perllol Perl data structures: arrays of arrays
Config::General::Extended Object oriented interface to parsed configs
Config::General::Interpolated Allows to use variables inside config files
=head1 COPYRIGHT
Copyright (c) 2000-2003 Thomas Linden
This library is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.
=head1 BUGS
none known yet.
=head1 AUTHOR
Thomas Linden <tom@daemon.de>
=head1 VERSION
2.18
=cut