/usr/share/perl5/Net/Frame/Layer/IPv4.pm is in libnet-frame-perl 1.11-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# $Id: IPv4.pm 356 2014-04-08 13:15:27Z gomor $
#
package Net::Frame::Layer::IPv4;
use strict;
use warnings;
use Net::Frame::Layer qw(:consts :subs);
require Exporter;
our @ISA = qw(Net::Frame::Layer Exporter);
our %EXPORT_TAGS = (
consts => [qw(
NF_IPv4_HDR_LEN
NF_IPv4_PROTOCOL_ICMPv4
NF_IPv4_PROTOCOL_IGMP
NF_IPv4_PROTOCOL_IPIP
NF_IPv4_PROTOCOL_TCP
NF_IPv4_PROTOCOL_EGP
NF_IPv4_PROTOCOL_IGRP
NF_IPv4_PROTOCOL_CHAOS
NF_IPv4_PROTOCOL_UDP
NF_IPv4_PROTOCOL_IDP
NF_IPv4_PROTOCOL_DCCP
NF_IPv4_PROTOCOL_IPv6
NF_IPv4_PROTOCOL_IPv6ROUTING
NF_IPv4_PROTOCOL_IPv6FRAGMENT
NF_IPv4_PROTOCOL_IDRP
NF_IPv4_PROTOCOL_RSVP
NF_IPv4_PROTOCOL_GRE
NF_IPv4_PROTOCOL_ESP
NF_IPv4_PROTOCOL_AH
NF_IPv4_PROTOCOL_ICMPv6
NF_IPv4_PROTOCOL_EIGRP
NF_IPv4_PROTOCOL_OSPF
NF_IPv4_PROTOCOL_ETHERIP
NF_IPv4_PROTOCOL_PIM
NF_IPv4_PROTOCOL_VRRP
NF_IPv4_PROTOCOL_STP
NF_IPv4_PROTOCOL_SCTP
NF_IPv4_PROTOCOL_UDPLITE
NF_IPv4_MORE_FRAGMENT
NF_IPv4_DONT_FRAGMENT
NF_IPv4_RESERVED_FRAGMENT
)],
);
our @EXPORT_OK = (
@{$EXPORT_TAGS{consts}},
);
use constant NF_IPv4_HDR_LEN => 20;
use constant NF_IPv4_PROTOCOL_ICMPv4 => 0x01;
use constant NF_IPv4_PROTOCOL_IGMP => 0x02;
use constant NF_IPv4_PROTOCOL_IPIP => 0x04;
use constant NF_IPv4_PROTOCOL_TCP => 0x06;
use constant NF_IPv4_PROTOCOL_EGP => 0x08;
use constant NF_IPv4_PROTOCOL_IGRP => 0x09;
use constant NF_IPv4_PROTOCOL_CHAOS => 0x10;
use constant NF_IPv4_PROTOCOL_UDP => 0x11;
use constant NF_IPv4_PROTOCOL_IDP => 0x16;
use constant NF_IPv4_PROTOCOL_DCCP => 0x21;
use constant NF_IPv4_PROTOCOL_IPv6 => 0x29;
use constant NF_IPv4_PROTOCOL_IPv6ROUTING => 0x2b;
use constant NF_IPv4_PROTOCOL_IPv6FRAGMENT => 0x2c;
use constant NF_IPv4_PROTOCOL_IDRP => 0x2d;
use constant NF_IPv4_PROTOCOL_RSVP => 0x2e;
use constant NF_IPv4_PROTOCOL_GRE => 0x2f;
use constant NF_IPv4_PROTOCOL_ESP => 0x32;
use constant NF_IPv4_PROTOCOL_AH => 0x33;
use constant NF_IPv4_PROTOCOL_ICMPv6 => 0x3a;
use constant NF_IPv4_PROTOCOL_EIGRP => 0x58;
use constant NF_IPv4_PROTOCOL_OSPF => 0x59;
use constant NF_IPv4_PROTOCOL_ETHERIP => 0x61;
use constant NF_IPv4_PROTOCOL_PIM => 0x67;
use constant NF_IPv4_PROTOCOL_VRRP => 0x70;
use constant NF_IPv4_PROTOCOL_STP => 0x76;
use constant NF_IPv4_PROTOCOL_SCTP => 0x84;
use constant NF_IPv4_PROTOCOL_UDPLITE => 0x88;
use constant NF_IPv4_MORE_FRAGMENT => 1;
use constant NF_IPv4_DONT_FRAGMENT => 2;
use constant NF_IPv4_RESERVED_FRAGMENT => 4;
our @AS = qw(
id
ttl
src
dst
protocol
checksum
flags
offset
version
tos
length
hlen
options
noFixLen
);
__PACKAGE__->cgBuildIndices;
__PACKAGE__->cgBuildAccessorsScalar(\@AS);
BEGIN {
my $osname = {
freebsd => [ \&_fixLenBsd, ],
netbsd => [ \&_fixLenBsd, ],
};
*_fixLen = $osname->{$^O}->[0] || \&_fixLenOther;
}
no strict 'vars';
use Carp;
use Bit::Vector;
sub _fixLenBsd { pack('v', shift) }
sub _fixLenOther { pack('n', shift) }
sub new {
shift->SUPER::new(
version => 4,
tos => 0,
id => getRandom16bitsInt(),
length => NF_IPv4_HDR_LEN,
hlen => 5,
flags => 0,
offset => 0,
ttl => 128,
protocol => NF_IPv4_PROTOCOL_TCP,
checksum => 0,
src => '127.0.0.1',
dst => '127.0.0.1',
options => '',
noFixLen => 0,
@_,
);
}
sub pack {
my $self = shift;
# Here, we pack in this order: version, hlen (4 bits each)
my $version = Bit::Vector->new_Dec(4, $self->[$__version]);
my $hlen = Bit::Vector->new_Dec(4, $self->[$__hlen]);
my $v8 = $version->Concat_List($hlen);
# Here, we pack in this order: flags (3 bits), offset (13 bits)
my $flags = Bit::Vector->new_Dec(3, $self->[$__flags]);
my $offset = Bit::Vector->new_Dec(13, $self->[$__offset]);
my $v16 = $flags->Concat_List($offset);
my $len = ($self->[$__noFixLen] ? _fixLenOther($self->[$__length])
: _fixLen($self->[$__length]));
$self->[$__raw] = $self->SUPER::pack('CCa*nnCCna4a4',
$v8->to_Dec,
$self->[$__tos],
$len,
$self->[$__id],
$v16->to_Dec,
$self->[$__ttl],
$self->[$__protocol],
$self->[$__checksum],
inetAton($self->[$__src]),
inetAton($self->[$__dst]),
) or return undef;
my $opt;
if ($self->[$__options]) {
$opt = $self->SUPER::pack('a*', $self->[$__options])
or return undef;
$self->[$__raw] = $self->[$__raw].$opt;
}
$self->[$__raw];
}
sub unpack {
my $self = shift;
my ($verHlen, $tos, $len, $id, $flagsOffset, $ttl, $proto, $cksum, $src,
$dst, $payload) = $self->SUPER::unpack('CCnnnCCna4a4 a*', $self->[$__raw])
or return undef;
my $v8 = Bit::Vector->new_Dec(8, $verHlen);
my $v16 = Bit::Vector->new_Dec(16, $flagsOffset);
# Here, we unpack in this order: hlen, version (4 bits each)
$self->[$__hlen] = $v8->Chunk_Read(4, 0);
$self->[$__version] = $v8->Chunk_Read(4, 4);
$self->[$__tos] = $tos;
$self->[$__length] = $len;
$self->[$__id] = $id;
# Here, we unpack in this order: offset (13 bits), flags (3 bits)
$self->[$__offset] = $v16->Chunk_Read(13, 0);
$self->[$__flags] = $v16->Chunk_Read( 3, 13);
$self->[$__ttl] = $ttl;
$self->[$__protocol] = $proto;
$self->[$__checksum] = $cksum;
$self->[$__src] = inetNtoa($src);
$self->[$__dst] = inetNtoa($dst);
$self->[$__payload] = $payload;
my ($options, $payload2) = $self->SUPER::unpack(
'a'. $self->getOptionsLength. 'a*', $self->[$__payload]
) or return undef;
$self->[$__options] = $options;
$self->[$__payload] = $payload2;
$self;
}
sub getLength {
my $self = shift;
$self->[$__hlen] > 0 ? $self->[$__hlen] * 4 : 0;
}
sub getPayloadLength {
my $self = shift;
my $gLen = $self->getLength;
$self->[$__length] > $gLen ? $self->[$__length] - $gLen : 0;
}
sub getOptionsLength {
my $self = shift;
my $gLen = $self->getLength;
my $hLen = NF_IPv4_HDR_LEN;
$gLen > $hLen ? $gLen - $hLen : 0;
}
sub computeLengths {
my $self = shift;
my ($layers) = @_;
my $hLen = NF_IPv4_HDR_LEN;
$hLen += length($self->[$__options]) if $self->[$__options];
$self->[$__hlen] = $hLen / 4;
my $len = $hLen;
my $last;
my $start;
for my $l (@$layers) {
if (! $start) {
$start++ if $l->layer eq 'IPv4';
next;
}
$len += $l->getLength;
$last = $l;
}
if (defined($last->payload)) {
$len += length($last->payload);
}
$self->length($len);
return 1;
}
sub computeChecksums {
my $self = shift;
my ($layers) = @_;
# Reset the checksum if already filled by a previous pack
if ($self->[$__checksum]) {
$self->[$__checksum] = 0;
}
$self->[$__checksum] = inetChecksum($self->pack);
return 1;
}
our $Next = {
NF_IPv4_PROTOCOL_ICMPv4() => 'ICMPv4',
NF_IPv4_PROTOCOL_IGMP() => 'IGMP',
NF_IPv4_PROTOCOL_IPIP() => 'IPIP',
NF_IPv4_PROTOCOL_TCP() => 'TCP',
NF_IPv4_PROTOCOL_EGP() => 'EGP',
NF_IPv4_PROTOCOL_IGRP() => 'IGRP',
NF_IPv4_PROTOCOL_CHAOS() => 'CHAOS',
NF_IPv4_PROTOCOL_UDP() => 'UDP',
NF_IPv4_PROTOCOL_IDP() => 'IDP',
NF_IPv4_PROTOCOL_DCCP() => 'DCCP',
NF_IPv4_PROTOCOL_IPv6() => 'IPv6',
NF_IPv4_PROTOCOL_IPv6ROUTING() => 'IPv6Routing',
NF_IPv4_PROTOCOL_IPv6FRAGMENT() => 'IPv6Fragment',
NF_IPv4_PROTOCOL_IDRP() => 'IDRP',
NF_IPv4_PROTOCOL_RSVP() => 'RSVP',
NF_IPv4_PROTOCOL_GRE() => 'GRE',
NF_IPv4_PROTOCOL_ESP() => 'ESP',
NF_IPv4_PROTOCOL_AH() => 'AH',
NF_IPv4_PROTOCOL_ICMPv6() => 'ICMPv6',
NF_IPv4_PROTOCOL_EIGRP() => 'EIGRP',
NF_IPv4_PROTOCOL_OSPF() => 'OSPF',
NF_IPv4_PROTOCOL_ETHERIP() => 'ETHERIP',
NF_IPv4_PROTOCOL_PIM() => 'PIM',
NF_IPv4_PROTOCOL_VRRP() => 'VRRP',
NF_IPv4_PROTOCOL_STP() => 'STP',
NF_IPv4_PROTOCOL_SCTP() => 'SCTP',
NF_IPv4_PROTOCOL_UDPLITE() => 'UDPLite',
};
sub encapsulate {
my $self = shift;
return $self->[$__nextLayer] if $self->[$__nextLayer];
return $Next->{$self->[$__protocol]} || NF_LAYER_UNKNOWN;
}
sub print {
my $self = shift;
my $l = $self->layer;
my $buf = sprintf
"$l: version:%d hlen:%d tos:0x%02x length:%d id:%d\n".
"$l: flags:0x%02x offset:%d ttl:%d protocol:0x%02x checksum:0x%04x\n".
"$l: src:%s dst:%s",
$self->[$__version], $self->[$__hlen], $self->[$__tos],
$self->[$__length], $self->[$__id], $self->[$__flags],
$self->[$__offset], $self->[$__ttl], $self->[$__protocol],
$self->[$__checksum], $self->[$__src], $self->[$__dst];
if ($self->[$__options]) {
$buf .= sprintf "\n$l: optionsLength:%d options:%s",
$self->getOptionsLength,
CORE::unpack('H*', $self->[$__options]);
}
$buf;
}
1;
__END__
=head1 NAME
Net::Frame::Layer::IPv4 - Internet Protocol v4 layer object
=head1 SYNOPSIS
use Net::Frame::Layer::IPv4 qw(:consts);
# Build a layer
my $layer = Net::Frame::Layer::IPv4->new(
version => 4,
tos => 0,
id => getRandom16bitsInt(),
length => NF_IPv4_HDR_LEN,
hlen => 5,
flags => 0,
offset => 0,
ttl => 128,
protocol => NF_IPv4_PROTOCOL_TCP,
checksum => 0,
src => '127.0.0.1',
dst => '127.0.0.1',
options => '',
noFixLen => 0,
);
$layer->pack;
print 'RAW: '.$layer->dump."\n";
# Read a raw layer
my $layer = Net::Frame::Layer::IPv4->new(raw => $raw);
print $layer->print."\n";
print 'PAYLOAD: '.unpack('H*', $layer->payload)."\n"
if $layer->payload;
=head1 DESCRIPTION
This modules implements the encoding and decoding of the IPv4 layer.
RFC: ftp://ftp.rfc-editor.org/in-notes/rfc791.txt
See also B<Net::Frame::Layer> for other attributes and methods.
=head1 ATTRIBUTES
=over 4
=item B<id>
IP ID of the datagram.
=item B<ttl>
Time to live.
=item B<src>
=item B<dst>
Source and destination IP addresses.
=item B<protocol>
Of which type the layer 4 is.
=item B<checksum>
IP checksum.
=item B<flags>
IP Flags.
=item B<offset>
IP fragment offset.
=item B<version>
IP version, here it is 4.
=item B<tos>
Type of service flag.
=item B<length>
Total length in bytes of the packet, including IP headers (that is, layer 3 + layer 4 + layer 7).
=item B<hlen>
Header length in number of words, including IP options.
=item B<options>
IP options, as a hexadecimal string.
=item B<noFixLen>
Since the byte ordering of B<length> attribute varies from system to system, a subroutine inside this module detects which byte order to use. Sometimes, like when you build B<Net::Frame::Layer::8021Q> layers, you may have the need to avoid this. So set it to 1 in order to avoid fixing. Default is 0 (that is to fix).
=back
The following are inherited attributes. See B<Net::Frame::Layer> for more information.
=over 4
=item B<raw>
=item B<payload>
=item B<nextLayer>
=back
=head1 METHODS
=over 4
=item B<new>
=item B<new> (hash)
Object constructor. You can pass attributes that will overwrite default ones. See B<SYNOPSIS> for default values.
=item B<getHeaderLength>
Returns the header length in bytes, not including IP options.
=item B<getOptionsLength>
Returns the length in bytes of IP options. 0 if none.
=item B<computeLengths> ({ payloadLength => VALUE })
In order to compute lengths attributes within IPv4 header, you need to pass via a hashref the number of bytes contained in IPv4 payload (that is, the sum of all layers after the IPv4 one).
=item B<computeChecksums>
Computes the IPv4 checksum.
=back
The following are inherited methods. Some of them may be overridden in this layer, and some others may not be meaningful in this layer. See B<Net::Frame::Layer> for more information.
=over 4
=item B<layer>
=item B<computeLengths>
=item B<computeChecksums>
=item B<pack>
=item B<unpack>
=item B<encapsulate>
=item B<getLength>
=item B<getPayloadLength>
=item B<print>
=item B<dump>
=back
=head1 CONSTANTS
Load them: use Net::Frame::Layer::IPv4 qw(:consts);
=over 4
=item B<NF_IPv4_PROTOCOL_ICMPv4>
=item B<NF_IPv4_PROTOCOL_IGMP>
=item B<NF_IPv4_PROTOCOL_IPIP>
=item B<NF_IPv4_PROTOCOL_TCP>
=item B<NF_IPv4_PROTOCOL_EGP>
=item B<NF_IPv4_PROTOCOL_IGRP>
=item B<NF_IPv4_PROTOCOL_CHAOS>
=item B<NF_IPv4_PROTOCOL_UDP>
=item B<NF_IPv4_PROTOCOL_IDP>
=item B<NF_IPv4_PROTOCOL_DCCP>
=item B<NF_IPv4_PROTOCOL_IPv6>
=item B<NF_IPv4_PROTOCOL_IPv6ROUTING>
=item B<NF_IPv4_PROTOCOL_IPv6FRAGMENT>
=item B<NF_IPv4_PROTOCOL_IDRP>
=item B<NF_IPv4_PROTOCOL_RSVP>
=item B<NF_IPv4_PROTOCOL_GRE>
=item B<NF_IPv4_PROTOCOL_ESP>
=item B<NF_IPv4_PROTOCOL_AH>
=item B<NF_IPv4_PROTOCOL_ICMPv6>
=item B<NF_IPv4_PROTOCOL_EIGRP>
=item B<NF_IPv4_PROTOCOL_OSPF>
=item B<NF_IPv4_PROTOCOL_ETHERIP>
=item B<NF_IPv4_PROTOCOL_PIM>
=item B<NF_IPv4_PROTOCOL_VRRP>
=item B<NF_IPv4_PROTOCOL_STP>
=item B<NF_IPv4_PROTOCOL_SCTP>
=item B<NF_IPv4_PROTOCOL_UDPLITE>
Various protocol type constants.
=item B<NF_IPv4_MORE_FRAGMENT>
=item B<NF_IPv4_DONT_FRAGMENT>
=item B<NF_IPv4_RESERVED_FRAGMENT>
Various possible flags.
=back
=head1 SEE ALSO
L<Net::Frame::Layer>
=head1 AUTHOR
Patrice E<lt>GomoRE<gt> Auffret
=head1 COPYRIGHT AND LICENSE
Copyright (c) 2006-2014, Patrice E<lt>GomoRE<gt> Auffret
You may distribute this module under the terms of the Artistic license.
See LICENSE.Artistic file in the source distribution archive.
=cut
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