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package Net::DNS::RR::LOC; # # $Id: LOC.pm 1597 2017-09-22 08:04:02Z willem $ # our $VERSION = (qw$LastChangedRevision: 1597 $)[1]; use strict; use warnings; use base qw(Net::DNS::RR); =head1 NAME Net::DNS::RR::LOC - DNS LOC resource record =cut use integer; use Carp; sub _decode_rdata { ## decode rdata from wire-format octet string my $self = shift; my ( $data, $offset ) = @_; my $version = $self->{version} = unpack "\@$offset C", $$data; @{$self}{qw(size hp vp latitude longitude altitude)} = unpack "\@$offset xC3N3", $$data; } sub _encode_rdata { ## encode rdata as wire-format octet string my $self = shift; pack 'C4N3', @{$self}{qw(version size hp vp latitude longitude altitude)}; } sub _format_rdata { ## format rdata portion of RR string. my $self = shift; my ( $altitude, @precision ) = map $self->$_() . 'm', qw(altitude size hp vp); my $precision = join ' ', @precision; for ($precision) { s/\s+10m$//; s/\s+10000m$//; s/\s*1m$//; } my @rdata = ( $self->latitude, '', $self->longitude, '', $altitude, $precision ); } sub _parse_rdata { ## populate RR from rdata in argument list my $self = shift; my @lat; while ( scalar @_ ) { my $this = shift; push( @lat, $this ); last if $this =~ /[NSns]/; } $self->latitude(@lat); my @long; while ( scalar @_ ) { my $this = shift; push( @long, $this ); last if $this =~ /[EWew]/; } $self->longitude(@long); foreach my $attr (qw(altitude size hp vp)) { $self->$attr(@_); shift; } } sub _defaults { ## specify RR attribute default values my $self = shift; $self->{version} = 0; $self->size(1); $self->hp(10000); $self->vp(10); } sub latitude { my $self = shift; $self->{latitude} = _encode_lat(@_) if scalar @_; return _decode_lat( $self->{latitude} ) if defined wantarray; } sub longitude { my $self = shift; $self->{longitude} = _encode_lat(@_) if scalar @_; return undef unless defined wantarray; return _decode_lat( $self->{longitude} ) unless wantarray; my @long = map { s/N/E/; s/S/W/; $_ } _decode_lat( $self->{longitude} ); } sub altitude { my $self = shift; $self->{altitude} = _encode_alt(shift) if scalar @_; _decode_alt( $self->{altitude} ) if defined wantarray; } sub size { my $self = shift; $self->{size} = _encode_prec(shift) if scalar @_; _decode_prec( $self->{size} ) if defined wantarray; } sub hp { my $self = shift; $self->{hp} = _encode_prec(shift) if scalar @_; _decode_prec( $self->{hp} ) if defined wantarray; } sub horiz_pre { &hp; } # uncoverable pod sub vp { my $self = shift; $self->{vp} = _encode_prec(shift) if scalar @_; _decode_prec( $self->{vp} ) if defined wantarray; } sub vert_pre { &vp; } # uncoverable pod sub latlon { my $self = shift; my ( $lat, @lon ) = @_; my @pair = scalar $self->latitude(@_), scalar $self->longitude(@lon); } sub version { shift->{version}; } ######################################## no integer; use constant ALTITUDE0 => 10000000; use constant LATITUDE0 => 0x80000000; sub _decode_lat { my $msec = shift || LATITUDE0; return int( 0.5 + ( $msec - LATITUDE0 ) / 0.36 ) / 10000000 unless wantarray; use integer; my $abs = abs( $msec - LATITUDE0 ); my $deg = int( $abs / 3600000 ); my $min = int( $abs / 60000 ) % 60; no integer; my $sec = ( $abs % 60000 ) / 1000; return ( $deg, $min, $sec, ( $msec < LATITUDE0 ? 'S' : 'N' ) ); } sub _encode_lat { my @ang = scalar @_ > 1 ? (@_) : ( split /[\s\260'"]+/, shift ); my $ang = ( 0 + shift @ang ) * 3600000; my $neg = ( @ang ? pop @ang : '' ) =~ /[SWsw]/; $ang += ( @ang ? shift @ang : 0 ) * 60000; $ang += ( @ang ? shift @ang : 0 ) * 1000; return int( 0.5 + ( $neg ? LATITUDE0 - $ang : LATITUDE0 + $ang ) ); } sub _decode_alt { my $cm = ( shift || ALTITUDE0 ) - ALTITUDE0; return 0.01 * $cm; } sub _encode_alt { ( my $argument = shift ) =~ s/[Mm]$//; $argument += 0; return int( 0.5 + ALTITUDE0 + 100 * $argument ); } my @power10 = ( 0.01, 0.1, 1, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7, 1e8, 0, 0, 0, 0, 0 ); sub _decode_prec { my $argument = shift || 0; my $mantissa = $argument >> 4; return $mantissa * $power10[$argument & 0x0F]; } sub _encode_prec { ( my $argument = shift ) =~ s/[Mm]$//; foreach my $exponent ( 0 .. 9 ) { next unless $argument < $power10[1 + $exponent]; my $mantissa = int( 0.5 + $argument / $power10[$exponent] ); return ( $mantissa & 0xF ) << 4 | $exponent; } } 1; __END__ =head1 SYNOPSIS use Net::DNS; $rr = new Net::DNS::RR('name LOC latitude longitude altitude size hp vp'); =head1 DESCRIPTION DNS geographical location (LOC) resource records. =head1 METHODS The available methods are those inherited from the base class augmented by the type-specific methods defined in this package. Use of undocumented package features or direct access to internal data structures is discouraged and could result in program termination or other unpredictable behaviour. =head2 latitude $latitude = $rr->latitude; ($deg, $min, $sec, $ns ) = $rr->latitude; $rr->latitude( 42.357990 ); $rr->latitude( 42, 21, 28.764, 'N' ); $rr->latitude( '42 21 28.764 N' ); When invoked in scalar context, latitude is returned in degrees, a negative ordinate being south of the equator. When invoked in list context, latitude is returned as a list of separate degree, minute, and second values followed by N or S as appropriate. Optional replacement values may be represented as single value, list or formatted string. Trailing zero values are optional. =head2 longitude $longitude = $rr->longitude; ($deg, $min, $sec, $ew ) = $rr->longitude; $rr->longitude( -71.014338 ); $rr->longitude( 71, 0, 51.617, 'W' ); $rr->longitude( '71 0 51.617 W' ); When invoked in scalar context, longitude is returned in degrees, a negative ordinate being west of the prime meridian. When invoked in list context, longitude is returned as a list of separate degree, minute, and second values followed by E or W as appropriate. =head2 altitude $altitude = $rr->altitude; Represents altitude, in metres, relative to the WGS 84 reference spheroid used by GPS. =head2 size $size = $rr->size; Represents the diameter, in metres, of a sphere enclosing the described entity. =head2 hp $hp = $rr->hp; Represents the horizontal precision of the data expressed as the diameter, in metres, of the circle of error. =head2 vp $vp = $rr->vp; Represents the vertical precision of the data expressed as the total spread, in metres, of the distribution of possible values. =head2 latlon ($lat, $lon) = $rr->latlon; $rr->latlon($lat, $lon); Representation of the latitude and longitude coordinate pair as signed floating-point degrees. =head2 version $version = $rr->version; Version of LOC protocol. =head1 COPYRIGHT Copyright (c)1997 Michael Fuhr. Portions Copyright (c)2011 Dick Franks. All rights reserved. Package template (c)2009,2012 O.M.Kolkman and R.W.Franks. =head1 LICENSE Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of the author not be used in advertising or publicity pertaining to distribution of the software without specific prior written permission. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. =head1 SEE ALSO L, L, L, RFC1876 =cut