Mini Shell
package Archive::Tar::File;
use strict;
use Carp ();
use IO::File;
use File::Spec::Unix ();
use File::Spec ();
use File::Basename ();
### avoid circular use, so only require;
require Archive::Tar;
use Archive::Tar::Constant;
use vars qw[@ISA $VERSION];
#@ISA = qw[Archive::Tar];
$VERSION = '2.30';
### set value to 1 to oct() it during the unpack ###
my $tmpl = [
name => 0, # string A100
mode => 1, # octal A8
uid => 1, # octal A8
gid => 1, # octal A8
size => 0, # octal # cdrake - not *always* octal.. A12
mtime => 1, # octal A12
chksum => 1, # octal A8
type => 0, # character A1
linkname => 0, # string A100
magic => 0, # string A6
version => 0, # 2 bytes A2
uname => 0, # string A32
gname => 0, # string A32
devmajor => 1, # octal A8
devminor => 1, # octal A8
prefix => 0, # A155 x 12
### end UNPACK items ###
raw => 0, # the raw data chunk
data => 0, # the data associated with the file --
# This might be very memory intensive
];
### install get/set accessors for this object.
for ( my $i=0; $i<scalar @$tmpl ; $i+=2 ) {
my $key = $tmpl->[$i];
no strict 'refs';
*{__PACKAGE__."::$key"} = sub {
my $self = shift;
$self->{$key} = $_[0] if @_;
### just in case the key is not there or undef or something ###
{ local $^W = 0;
return $self->{$key};
}
}
}
=head1 NAME
Archive::Tar::File - a subclass for in-memory extracted file from Archive::Tar
=head1 SYNOPSIS
my @items = $tar->get_files;
print $_->name, ' ', $_->size, "\n" for @items;
print $object->get_content;
$object->replace_content('new content');
$object->rename( 'new/full/path/to/file.c' );
=head1 DESCRIPTION
Archive::Tar::Files provides a neat little object layer for in-memory
extracted files. It's mostly used internally in Archive::Tar to tidy
up the code, but there's no reason users shouldn't use this API as
well.
=head2 Accessors
A lot of the methods in this package are accessors to the various
fields in the tar header:
=over 4
=item name
The file's name
=item mode
The file's mode
=item uid
The user id owning the file
=item gid
The group id owning the file
=item size
File size in bytes
=item mtime
Modification time. Adjusted to mac-time on MacOS if required
=item chksum
Checksum field for the tar header
=item type
File type -- numeric, but comparable to exported constants -- see
Archive::Tar's documentation
=item linkname
If the file is a symlink, the file it's pointing to
=item magic
Tar magic string -- not useful for most users
=item version
Tar version string -- not useful for most users
=item uname
The user name that owns the file
=item gname
The group name that owns the file
=item devmajor
Device major number in case of a special file
=item devminor
Device minor number in case of a special file
=item prefix
Any directory to prefix to the extraction path, if any
=item raw
Raw tar header -- not useful for most users
=back
=head1 Methods
=head2 Archive::Tar::File->new( file => $path )
Returns a new Archive::Tar::File object from an existing file.
Returns undef on failure.
=head2 Archive::Tar::File->new( data => $path, $data, $opt )
Returns a new Archive::Tar::File object from data.
C<$path> defines the file name (which need not exist), C<$data> the
file contents, and C<$opt> is a reference to a hash of attributes
which may be used to override the default attributes (fields in the
tar header), which are described above in the Accessors section.
Returns undef on failure.
=head2 Archive::Tar::File->new( chunk => $chunk )
Returns a new Archive::Tar::File object from a raw 512-byte tar
archive chunk.
Returns undef on failure.
=cut
sub new {
my $class = shift;
my $what = shift;
my $obj = ($what eq 'chunk') ? __PACKAGE__->_new_from_chunk( @_ ) :
($what eq 'file' ) ? __PACKAGE__->_new_from_file( @_ ) :
($what eq 'data' ) ? __PACKAGE__->_new_from_data( @_ ) :
undef;
return $obj;
}
### copies the data, creates a clone ###
sub clone {
my $self = shift;
return bless { %$self }, ref $self;
}
sub _new_from_chunk {
my $class = shift;
my $chunk = shift or return; # 512 bytes of tar header
my %hash = @_;
### filter any arguments on defined-ness of values.
### this allows overriding from what the tar-header is saying
### about this tar-entry. Particularly useful for @LongLink files
my %args = map { $_ => $hash{$_} } grep { defined $hash{$_} } keys %hash;
### makes it start at 0 actually... :) ###
my $i = -1;
my %entry = map {
my ($s,$v)=($tmpl->[++$i],$tmpl->[++$i]); # cdrake
($_)=($_=~/^([^\0]*)/) unless($s eq 'size'); # cdrake
$s=> $v ? oct $_ : $_ # cdrake
# $tmpl->[++$i] => $tmpl->[++$i] ? oct $_ : $_ # removed by cdrake - mucks up binary sizes >8gb
} unpack( UNPACK, $chunk ); # cdrake
# } map { /^([^\0]*)/ } unpack( UNPACK, $chunk ); # old - replaced now by cdrake
if(substr($entry{'size'}, 0, 1) eq "\x80") { # binary size extension for files >8gigs (> octal 77777777777777) # cdrake
my @sz=unpack("aCSNN",$entry{'size'}); $entry{'size'}=$sz[4]+(2**32)*$sz[3]+$sz[2]*(2**64); # Use the low 80 bits (should use the upper 15 as well, but as at year 2011, that seems unlikely to ever be needed - the numbers are just too big...) # cdrake
} else { # cdrake
($entry{'size'})=($entry{'size'}=~/^([^\0]*)/); $entry{'size'}=oct $entry{'size'}; # cdrake
} # cdrake
my $obj = bless { %entry, %args }, $class;
### magic is a filetype string.. it should have something like 'ustar' or
### something similar... if the chunk is garbage, skip it
return unless $obj->magic !~ /\W/;
### store the original chunk ###
$obj->raw( $chunk );
$obj->type(FILE) if ( (!length $obj->type) or ($obj->type =~ /\W/) );
$obj->type(DIR) if ( ($obj->is_file) && ($obj->name =~ m|/$|) );
return $obj;
}
sub _new_from_file {
my $class = shift;
my $path = shift;
### path has to at least exist
return unless defined $path;
my $type = __PACKAGE__->_filetype($path);
my $data = '';
READ: {
unless ($type == DIR ) {
my $fh = IO::File->new;
unless( $fh->open($path) ) {
### dangling symlinks are fine, stop reading but continue
### creating the object
last READ if $type == SYMLINK;
### otherwise, return from this function --
### anything that's *not* a symlink should be
### resolvable
return;
}
### binmode needed to read files properly on win32 ###
binmode $fh;
$data = do { local $/; <$fh> };
close $fh;
}
}
my @items = qw[mode uid gid size mtime];
my %hash = map { shift(@items), $_ } (lstat $path)[2,4,5,7,9];
if (ON_VMS) {
### VMS has two UID modes, traditional and POSIX. Normally POSIX is
### not used. We currently do not have an easy way to see if we are in
### POSIX mode. In traditional mode, the UID is actually the VMS UIC.
### The VMS UIC has the upper 16 bits is the GID, which in many cases
### the VMS UIC will be larger than 209715, the largest that TAR can
### handle. So for now, assume it is traditional if the UID is larger
### than 0x10000.
if ($hash{uid} > 0x10000) {
$hash{uid} = $hash{uid} & 0xFFFF;
}
### The file length from stat() is the physical length of the file
### However the amount of data read in may be more for some file types.
### Fixed length files are read past the logical EOF to end of the block
### containing. Other file types get expanded on read because record
### delimiters are added.
my $data_len = length $data;
$hash{size} = $data_len if $hash{size} < $data_len;
}
### you *must* set size == 0 on symlinks, or the next entry will be
### though of as the contents of the symlink, which is wrong.
### this fixes bug #7937
$hash{size} = 0 if ($type == DIR or $type == SYMLINK);
$hash{mtime} -= TIME_OFFSET;
### strip the high bits off the mode, which we don't need to store
$hash{mode} = STRIP_MODE->( $hash{mode} );
### probably requires some file path munging here ... ###
### name and prefix are set later
my $obj = {
%hash,
name => '',
chksum => CHECK_SUM,
type => $type,
linkname => ($type == SYMLINK and CAN_READLINK)
? readlink $path
: '',
magic => MAGIC,
version => TAR_VERSION,
uname => UNAME->( $hash{uid} ),
gname => GNAME->( $hash{gid} ),
devmajor => 0, # not handled
devminor => 0, # not handled
prefix => '',
data => $data,
};
bless $obj, $class;
### fix up the prefix and file from the path
my($prefix,$file) = $obj->_prefix_and_file( $path );
$obj->prefix( $prefix );
$obj->name( $file );
return $obj;
}
sub _new_from_data {
my $class = shift;
my $path = shift; return unless defined $path;
my $data = shift; return unless defined $data;
my $opt = shift;
my $obj = {
data => $data,
name => '',
mode => MODE,
uid => UID,
gid => GID,
size => length $data,
mtime => time - TIME_OFFSET,
chksum => CHECK_SUM,
type => FILE,
linkname => '',
magic => MAGIC,
version => TAR_VERSION,
uname => UNAME->( UID ),
gname => GNAME->( GID ),
devminor => 0,
devmajor => 0,
prefix => '',
};
### overwrite with user options, if provided ###
if( $opt and ref $opt eq 'HASH' ) {
for my $key ( keys %$opt ) {
### don't write bogus options ###
next unless exists $obj->{$key};
$obj->{$key} = $opt->{$key};
}
}
bless $obj, $class;
### fix up the prefix and file from the path
my($prefix,$file) = $obj->_prefix_and_file( $path );
$obj->prefix( $prefix );
$obj->name( $file );
return $obj;
}
sub _prefix_and_file {
my $self = shift;
my $path = shift;
my ($vol, $dirs, $file) = File::Spec->splitpath( $path, $self->is_dir );
my @dirs = File::Spec->splitdir( File::Spec->canonpath($dirs) );
### if it's a directory, then $file might be empty
$file = pop @dirs if $self->is_dir and not length $file;
### splitting ../ gives you the relative path in native syntax
map { $_ = '..' if $_ eq '-' } @dirs if ON_VMS;
my $prefix = File::Spec::Unix->catdir(@dirs);
return( $prefix, $file );
}
sub _filetype {
my $self = shift;
my $file = shift;
return unless defined $file;
return SYMLINK if (-l $file); # Symlink
return FILE if (-f _); # Plain file
return DIR if (-d _); # Directory
return FIFO if (-p _); # Named pipe
return SOCKET if (-S _); # Socket
return BLOCKDEV if (-b _); # Block special
return CHARDEV if (-c _); # Character special
### shouldn't happen, this is when making archives, not reading ###
return LONGLINK if ( $file eq LONGLINK_NAME );
return UNKNOWN; # Something else (like what?)
}
### this method 'downgrades' a file to plain file -- this is used for
### symlinks when FOLLOW_SYMLINKS is true.
sub _downgrade_to_plainfile {
my $entry = shift;
$entry->type( FILE );
$entry->mode( MODE );
$entry->linkname('');
return 1;
}
=head2 $bool = $file->extract( [ $alternative_name ] )
Extract this object, optionally to an alternative name.
See C<< Archive::Tar->extract_file >> for details.
Returns true on success and false on failure.
=cut
sub extract {
my $self = shift;
local $Carp::CarpLevel += 1;
return Archive::Tar->_extract_file( $self, @_ );
}
=head2 $path = $file->full_path
Returns the full path from the tar header; this is basically a
concatenation of the C<prefix> and C<name> fields.
=cut
sub full_path {
my $self = shift;
### if prefix field is empty
return $self->name unless defined $self->prefix and length $self->prefix;
### or otherwise, catfile'd
return File::Spec::Unix->catfile( $self->prefix, $self->name );
}
=head2 $bool = $file->validate
Done by Archive::Tar internally when reading the tar file:
validate the header against the checksum to ensure integer tar file.
Returns true on success, false on failure
=cut
sub validate {
my $self = shift;
my $raw = $self->raw;
### don't know why this one is different from the one we /write/ ###
substr ($raw, 148, 8) = " ";
### bug #43513: [PATCH] Accept wrong checksums from SunOS and HP-UX tar
### like GNU tar does. See here for details:
### http://www.gnu.org/software/tar/manual/tar.html#SEC139
### so we do both a signed AND unsigned validate. if one succeeds, that's
### good enough
return ( (unpack ("%16C*", $raw) == $self->chksum)
or (unpack ("%16c*", $raw) == $self->chksum)) ? 1 : 0;
}
=head2 $bool = $file->has_content
Returns a boolean to indicate whether the current object has content.
Some special files like directories and so on never will have any
content. This method is mainly to make sure you don't get warnings
for using uninitialized values when looking at an object's content.
=cut
sub has_content {
my $self = shift;
return defined $self->data() && length $self->data() ? 1 : 0;
}
=head2 $content = $file->get_content
Returns the current content for the in-memory file
=cut
sub get_content {
my $self = shift;
$self->data( );
}
=head2 $cref = $file->get_content_by_ref
Returns the current content for the in-memory file as a scalar
reference. Normal users won't need this, but it will save memory if
you are dealing with very large data files in your tar archive, since
it will pass the contents by reference, rather than make a copy of it
first.
=cut
sub get_content_by_ref {
my $self = shift;
return \$self->{data};
}
=head2 $bool = $file->replace_content( $content )
Replace the current content of the file with the new content. This
only affects the in-memory archive, not the on-disk version until
you write it.
Returns true on success, false on failure.
=cut
sub replace_content {
my $self = shift;
my $data = shift || '';
$self->data( $data );
$self->size( length $data );
return 1;
}
=head2 $bool = $file->rename( $new_name )
Rename the current file to $new_name.
Note that you must specify a Unix path for $new_name, since per tar
standard, all files in the archive must be Unix paths.
Returns true on success and false on failure.
=cut
sub rename {
my $self = shift;
my $path = shift;
return unless defined $path;
my ($prefix,$file) = $self->_prefix_and_file( $path );
$self->name( $file );
$self->prefix( $prefix );
return 1;
}
=head2 $bool = $file->chmod $mode)
Change mode of $file to $mode. The mode can be a string or a number
which is interpreted as octal whether or not a leading 0 is given.
Returns true on success and false on failure.
=cut
sub chmod {
my $self = shift;
my $mode = shift; return unless defined $mode && $mode =~ /^[0-7]{1,4}$/;
$self->{mode} = oct($mode);
return 1;
}
=head2 $bool = $file->chown( $user [, $group])
Change owner of $file to $user. If a $group is given that is changed
as well. You can also pass a single parameter with a colon separating the
use and group as in 'root:wheel'.
Returns true on success and false on failure.
=cut
sub chown {
my $self = shift;
my $uname = shift;
return unless defined $uname;
my $gname;
if (-1 != index($uname, ':')) {
($uname, $gname) = split(/:/, $uname);
} else {
$gname = shift if @_ > 0;
}
$self->uname( $uname );
$self->gname( $gname ) if $gname;
return 1;
}
=head1 Convenience methods
To quickly check the type of a C<Archive::Tar::File> object, you can
use the following methods:
=over 4
=item $file->is_file
Returns true if the file is of type C<file>
=item $file->is_dir
Returns true if the file is of type C<dir>
=item $file->is_hardlink
Returns true if the file is of type C<hardlink>
=item $file->is_symlink
Returns true if the file is of type C<symlink>
=item $file->is_chardev
Returns true if the file is of type C<chardev>
=item $file->is_blockdev
Returns true if the file is of type C<blockdev>
=item $file->is_fifo
Returns true if the file is of type C<fifo>
=item $file->is_socket
Returns true if the file is of type C<socket>
=item $file->is_longlink
Returns true if the file is of type C<LongLink>.
Should not happen after a successful C<read>.
=item $file->is_label
Returns true if the file is of type C<Label>.
Should not happen after a successful C<read>.
=item $file->is_unknown
Returns true if the file type is C<unknown>
=back
=cut
#stupid perl5.5.3 needs to warn if it's not numeric
sub is_file { local $^W; FILE == $_[0]->type }
sub is_dir { local $^W; DIR == $_[0]->type }
sub is_hardlink { local $^W; HARDLINK == $_[0]->type }
sub is_symlink { local $^W; SYMLINK == $_[0]->type }
sub is_chardev { local $^W; CHARDEV == $_[0]->type }
sub is_blockdev { local $^W; BLOCKDEV == $_[0]->type }
sub is_fifo { local $^W; FIFO == $_[0]->type }
sub is_socket { local $^W; SOCKET == $_[0]->type }
sub is_unknown { local $^W; UNKNOWN == $_[0]->type }
sub is_longlink { local $^W; LONGLINK eq $_[0]->type }
sub is_label { local $^W; LABEL eq $_[0]->type }
1;
Zerion Mini Shell 1.0