# SNMP::Info::Layer1::S3000
#
# Copyright (c) 2008 Eric Miller
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
#     * Redistributions of source code must retain the above copyright notice,
#       this list of conditions and the following disclaimer.
#     * Redistributions in binary form must reproduce the above copyright
#       notice, this list of conditions and the following disclaimer in the
#       documentation and/or other materials provided with the distribution.
#     * Neither the name of the University of California, Santa Cruz nor the
#       names of its contributors may be used to endorse or promote products
#       derived from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
# LIABLE FOR # ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.

package SNMP::Info::Layer1::S3000;

use strict;
use warnings;
use Exporter;
use SNMP::Info::Layer2;

@SNMP::Info::Layer1::S3000::ISA       = qw/SNMP::Info::Layer2 Exporter/;
@SNMP::Info::Layer1::S3000::EXPORT_OK = qw//;

our ($VERSION, %FUNCS, %GLOBALS, %MIBS, %MUNGE);

$VERSION = '3.71';

%MIBS = (
    %SNMP::Info::Layer2::MIBS,
    'SYNOPTICS-ETHERNET-MIB' => 's3EnetPortTable',
    'SYNOPTICS-COMMON-MIB'   => 's3AgentType',
);

%GLOBALS = (
    %SNMP::Info::Layer2::GLOBALS,

    # From SYNOPTICS-COMMON-MIB
    'os_bin'          => 's3AgentFwVer',
    's3000_major_ver' => 's3AgentSwMajorVer',
    's3000_minor_ver' => 's3AgentSwMinorVer',
    's3000_maint_ver' => 's3AgentSwMaintVer',
);

%FUNCS = (
    %SNMP::Info::Layer2::FUNCS,

    # SYNOPTICS-ETHERNET-MIB::s3EnetPortTable
    's3000_pb_index' => 's3EnetPortBoardIndex',
    's3000_pp_index' => 's3EnetPortIndex',
    's3000_up_admin' => 's3EnetPortPartStatus',
    's3000_up'       => 's3EnetPortLinkStatus',

    # SYNOPTICS-ETHERNET-MIB::s3EnetShowNodesTable
    's3000_nb_index' => 's3EnetShowNodesSlotIndex',
    's3000_np_index' => 's3EnetShowNodesPortIndex',
    'fw_mac'         => 's3EnetShowNodesMacAddress',

    # SYNOPTICS-ETHERNET-MIB::s3EnetTopNmmTable
    's3000_topo_port' => 's3EnetTopNmmPort',
    's3000_topo_mac'  => 's3EnetTopNmmMacAddr',
);

%MUNGE = (
    %SNMP::Info::Layer2::MUNGE, 's3000_topo_mac' => \&SNMP::Info::munge_mac
);

sub layers {
    return '00000011';
}

sub os {
    return 'synoptics';
}

sub vendor {
    return 'nortel';
}

sub model {
    my $s3000 = shift;
    my $id    = $s3000->id();
    return unless defined $id;
    my $model = &SNMP::translateObj($id);
    return $id unless defined $model;
    $model =~ s/^s3reg-//i;

    return $1 if ( $model =~ /((\d+){3}[\dX])/ );
    return $model;
}

sub os_ver {
    my $s3000     = shift;
    my $major_ver = $s3000->s3000_major_ver() || 0;
    my $minor_ver = $s3000->s3000_minor_ver() || 0;
    my $maint_ver = $s3000->s3000_maint_ver() || 0;

    my $ver = "$major_ver.$minor_ver.$maint_ver";
    return $ver;
}

sub mac {
    my $s3000     = shift;
    my $topo_port = $s3000->s3000_topo_port();
    my $topo_mac  = $s3000->s3000_topo_mac();

    foreach my $entry ( keys %$topo_port ) {
        my $port = $topo_port->{$entry};
        next unless $port == 0;
        my $mac = $topo_mac->{$entry};
        return $mac;
    }

    # Topology turned off, not supported.
    return;
}

# Hubs do not support ifMIB requirements for get MAC
# and port status

sub i_index {
    my $s3000   = shift;
    my $partial = shift;

    my $b_index = $s3000->s3000_pb_index($partial) || {};
    my $p_index = $s3000->s3000_pp_index($partial) || {};

    my %i_index;
    foreach my $iid ( keys %$b_index ) {
        my $board = $b_index->{$iid};
        next unless defined $board;
        my $port = $p_index->{$iid} || 0;

        # We need to make up an index for multiple board instances.
        my $index = ( $board * 256 ) + $port;

        $i_index{$iid} = $index;
    }
    return \%i_index;
}

# Partials don't really help in this class, but implemented
# for consistency

sub interfaces {
    my $s3000   = shift;
    my $partial = shift;

    my $i_index = $s3000->i_index() || {};

    my %if;
    foreach my $iid ( keys %$i_index ) {
        my $index = $i_index->{$iid};
        next unless defined $index;
        next if ( defined $partial and $index !~ /^$partial$/ );

        # Index numbers are deterministic slot * 256 + port - see i_index()
        my $port = $index % 256;
        my $slot = int( $index / 256 );

        my $slotport = "$slot.$port";

        $if{$index} = $slotport;
    }

    return \%if;
}

sub i_duplex {
    my $s3000   = shift;
    my $partial = shift;

    my $port_index = $s3000->i_index() || {};

    my %i_duplex;
    foreach my $iid ( keys %$port_index ) {
        my $index = $port_index->{$iid};
        next unless defined $index;
        next if ( defined $partial and $index !~ /^$partial$/ );

        # Hubs only function half duplex
        my $duplex = 'half';
        $i_duplex{$index} = $duplex;
    }
    return \%i_duplex;
}

sub i_duplex_admin {
    my $s3000   = shift;
    my $partial = shift;

    my $port_index = $s3000->i_index() || {};

    my %i_duplex_admin;
    foreach my $iid ( keys %$port_index ) {
        my $index = $port_index->{$iid};
        next unless defined $index;
        next if ( defined $partial and $index !~ /^$partial$/ );

        # Hubs only function half duplex
        my $duplex = 'half';
        $i_duplex_admin{$index} = $duplex;
    }
    return \%i_duplex_admin;
}

sub i_speed {
    my $s3000   = shift;
    my $partial = shift;

    my $port_index = $s3000->i_index() || {};

    my %i_speed;
    foreach my $iid ( keys %$port_index ) {
        my $index = $port_index->{$iid};
        next unless defined $index;
        next if ( defined $partial and $index !~ /^$partial$/ );

        # These hubs only support 10 Mbs
        my $speed = '10000000';
        $i_speed{$index} = $speed;
    }
    return \%i_speed;
}

sub i_up {
    my $s3000   = shift;
    my $partial = shift;

    my $port_index = $s3000->i_index()  || {};
    my $link_stat  = $s3000->s3000_up() || {};

    my %i_up;
    foreach my $iid ( keys %$port_index ) {
        my $index = $port_index->{$iid};
        next unless defined $index;
        next if ( defined $partial and $index !~ /^$partial$/ );
        my $link_stat = $link_stat->{$iid};
        next unless defined $link_stat;

        $link_stat = 'up'   if $link_stat =~ /on/i;
        $link_stat = 'down' if $link_stat =~ /off/i;

        $i_up{$index} = $link_stat;
    }
    return \%i_up;
}

sub i_up_admin {
    my $s3000   = shift;
    my $partial = shift;

    my $i_index   = $s3000->i_index()        || {};
    my $link_stat = $s3000->s3000_up_admin() || {};

    my %i_up_admin;
    foreach my $iid ( keys %$i_index ) {
        my $index = $i_index->{$iid};
        next unless defined $index;
        next if ( defined $partial and $index !~ /^$partial$/ );
        my $link_stat = $link_stat->{$iid};
        next unless defined $link_stat;

        $i_up_admin{$index} = $link_stat;
    }
    return \%i_up_admin;
}

sub set_i_up_admin {

    # map setting to those the hub will understand
    my %setting = qw/up 2 down 3/;

    my $s3000 = shift;
    my ( $setting, $iid ) = @_;

    my $i_index = $s3000->i_index() || {};
    my %reverse_i_index = reverse %$i_index;

    $setting = lc($setting);

    return 0 unless defined $setting{$setting};

    $iid = $reverse_i_index{$iid};

    return $s3000->set_s3000_up_admin( $setting{$setting}, $iid );
}

# Hubs do not support the standard Bridge MIB
sub bp_index {
    my $s3000   = shift;
    my $partial = shift;

    my $b_index = $s3000->s3000_nb_index() || {};
    my $p_index = $s3000->s3000_np_index() || {};
    my $model   = $s3000->model();

    my %bp_index;
    foreach my $iid ( keys %$b_index ) {
        my $board = $b_index->{$iid};
        next unless defined $board;
        my $port = $p_index->{$iid} || 0;

        my $index = ( $board * 256 ) + $port;
        next if ( defined $partial and $index !~ /^$partial$/ );

        $bp_index{$index} = $index;
    }
    return \%bp_index;
}

sub fw_mac {
    my $s3000 = shift;
    my $partial   = shift;

    return $s3000->SUPER::fw_mac($partial);
}

sub fw_port {
    my $s3000   = shift;
    my $partial = shift;

    my $b_index = $s3000->s3000_nb_index($partial) || {};
    my $p_index = $s3000->s3000_np_index($partial) || {};
    my $model   = $s3000->model();

    my %fw_port;
    foreach my $iid ( keys %$b_index ) {
        my $board = $b_index->{$iid};
        next unless defined $board;
        my $port = $p_index->{$iid} || 0;

        my $index = ( $board * 256 ) + $port;

        $fw_port{$iid} = $index;
    }
    return \%fw_port;
}

1;
__END__

=head1 NAME

SNMP::Info::Layer1::S3000 - SNMP Interface to Synoptics / Nortel Hubs

=head1 AUTHOR

Eric Miller

=head1 SYNOPSIS

    #Let SNMP::Info determine the correct subclass for you.

    my $s3000 = new SNMP::Info(
                          AutoSpecify => 1,
                          Debug       => 1,
                          DestHost    => 'myswitch',
                          Community   => 'public',
                          Version     => 2
                        )

    or die "Can't connect to DestHost.\n";

    my $class = $s3000->class();
    print "SNMP::Info determined this device to fall under subclass : $class\n";

=head1 DESCRIPTION

Provides abstraction to the configuration information obtainable from a
Bay hub device through SNMP.  Also provides device MAC to port mapping through
the proprietary MIB.

=head2 Inherited Classes

=over

=item SNMP::Info::Layer2

=back

=head2 Required MIBs

=over

=item F<SYNOPTICS-COMMON-MIB>

=item F<SYNOPTICS-ETHERNET-MIB>

=back

=head2 Inherited MIBs

See L<SNMP::Info::Layer2/"Required MIBs"> for its MIB requirements.

=head1 GLOBALS

These are methods that return scalar value from SNMP

=over

=item $s3000->vendor()

Returns 'nortel'

=item $s3000->os()

Returns 'synoptics'

=item $s3000->model()

Cross references $s3000->id() to the F<SYNOPTICS-MIB> and returns
the results.

Removes C<sreg-> from the model name and returns only the numeric model
identifier.

=item $stack->os_ver()

Returns the software version specified as major.minor.maint.

(C<s3AgentSwMajorVer>).(C<s3AgentSwMinorVer>).(C<s3AgentSwMaintVer>)

=item $stack->os_bin()

Returns the firmware version. (C<s3AgentFwVer>)

=item $s3000->mac()

Returns MAC of the advertised IP address of the device.

=back

=head2 Overrides

=over

=item $s3000->layers()

Returns 00000011.  Class emulates Layer 2 functionality through proprietary
MIBs.

=back

=head2 Globals imported from SNMP::Info::Layer2

See L<SNMP::Info::Layer2/"GLOBALS"> for details.

=head1 TABLE METHODS

These are methods that return tables of information in the form of a reference
to a hash.

=head2 Overrides

=over

=item $s3000->i_index()

Returns reference to map of IIDs to Interface index.

Since hubs do not support C<ifIndex>, the interface index is created using the
formula (board * 256 + port).  This is required to support devices with more
than one module.

=item $s3000->interfaces()

Returns reference to map of IIDs to physical ports.

=item $s3000->i_duplex()

Returns half, hubs do not support full duplex.

=item $s3000->i_duplex_admin()

Returns half, hubs do not support full duplex.

=item $s3000->i_speed()

Returns 10000000.  The hubs only support 10 Mbs Ethernet.

=item $s3000->i_up()

Returns (C<s3EnetPortLinkStatus>) for each port.  Translates on/off to
up/down.

=item $s3000->i_up_admin()

Returns (C<s3EnetPortPartStatus>) for each port.

=item $s3000->set_i_up_admin(state, ifIndex)

Sets port state, must be supplied with state and port C<ifIndex>

State choices are 'up' or 'down'

Example:
  my %if_map = reverse %{$s3000->interfaces()};
  $s3000->set_i_up_admin('down', $if_map{'1.1'})
      or die "Couldn't change port state. ",$s3000->error(1);

=item $s3000->bp_index()

Simulates bridge MIB by returning reference to a hash containing the index for
both the keys and values.

=item $s3000->fw_port()

Returns reference to map of IIDs of the
C<SYNOPTICS-ETHERNET-MIB::s3EnetShowNodesTable> to the Interface index.

=item $s3000->fw_mac()

(C<s3EnetShowNodesMacAddress>)

=item $s3000->s3000_topo_port()

Returns reference to hash.  Key: Table entry, Value:Port Number
(interface iid)

(C<s3EnetTopNmmPort>)

=item $s3000->s3000_topo_mac()

(C<s3EnetTopNmmMacAddr>)

Returns reference to hash.  Key: Table entry, Value:Remote MAC address

=back

=head2 Table Methods imported from SNMP::Info::Layer2

See L<SNMP::Info::Layer2/"TABLE METHODS"> for details.

=cut