xcat-core/perl-xCAT-2.0/xCAT/MacMap.pm

301 lines
10 KiB
Perl
Executable File

#!/usr/bin/perl
# IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html
package xCAT::MacMap;
use xCAT::Table;
use xCAT::Utils;
use IO::Select;
use IO::Handle;
use Sys::Syslog;
use Data::Dumper;
use SNMP;
my %cisco_vlans; #Special hash structure to reflect discovered VLANS on Cisco equip
#use IF-MIB (1.3.6.1.2.1.2) for all switches
# 1.3.6.1.2.1.31.1.1 - ifXtable
# 1.3.6.1.2.1.31.1.1.1.1.N = name - ifName
#Using BRIDGE-MIB for most switches( 1.3.6.1.2.1.17 )
# 1.3.6.1.2.1.17.1.4 - dot1dBasePortTable
# 1.3.6.1.2.1.17.1.4.1.1.X = N - dot1dBasePort
# 1.3.6.1.2.1.17.4.3 - dot1dTpFdbTable #FAILS on FORCE10,
#
#If particular result fails, fallback to Q-BRIDGE-MIB for Force10 (1.3.6.1.2.1.17.7)
# 1.3.6.1.2.1.17.7.1.2.2 - dot1qTpFdbTable
sub namesmatch {
=pod
MacMap attempts to do it's best to determine whether or not a particular SNMP description of
a port matches the user specified value in the configuration. Generally, if the configuration
consists of non-stacked switches without line cards, the user should only need to specify the
port number without any characters or / characters. If the configuration contains line cards
or stacked switches, use of that particular switch's appropriate / syntax in generally called
for. The exception being stacked SMC 8848 switches, in which all ports are still single
numbers, and the ports on the second switch begin at 57.
If difficulty is encountered, or a switch is attempted with a format that doesn't match any
existing rule, it is recommended to use snmpwalk on the switch with the .1.3.6.1.2.1.31.1.1.1.1
OID, and have the switch table port value match exactly the format suggested by that OID.
=cut
my $namepercfg = shift;
my $namepersnmp = shift;
if ($namepercfg eq $namepersnmp) {
return 1; # They matched perfectly
}
#Begin guessing, first off, all tested scenarios have likely correct guesses ending
#in the cfg string, with some non-numeric prefix before it.
unless ($namepersnmp =~ /[^0123456789]$namepercfg\z/) {
#Most common case, won't match at all
return 0;
}
#stop contemplating vlan, Nu, and console interfaces
if (($namepersnmp =~ /vl/i) or ($namepersnmp =~ /Nu/) or ($namepersnmp =~ /onsole/)) {
return 0;
}
#broken up for code readablitiy, don't check port channel numbers or CPU
#have to distinguish betweer Port and Po and PortChannel
if (($namepersnmp !~ /Port #/) and ($namepersnmp !~ /Port\d/) and ($namepersnmp =~ /Po/) or ($namepersnmp =~ /LAG/) or ($namepersnmp =~ /CPU/)) {
return 0;
}
#don't contemplate ManagementEthernet
if (($namepersnmp =~ /Management/)) {
return 0;
}
#The blacklist approach has been exhausted. For now, assuming that means good,
#if something ambiguous happens, the whitelist would have been:
#'Port','Port #','/' (if namepercfg has no /, then / would be...),
#'Gi','Te','GigabitEthernet','TenGigabitEthernet'
return 1;
}
sub new {
my $self = {};
my $proto = shift;
my $class = ref($proto) || $proto;
bless ($self, $class);
return $self;
}
sub find_mac {
# This function is given a mac address, checks for given mac address
# and returns undef if unable to find the node, and the nodename otherwise
my $self = shift;
my $mac = shift;
my $cachedonly = shift;
# For now HARDCODE (TODO, configurable?) a cache as stale after five minutes
# Also, if things are changed in the config, our cache could be wrong,
# invalidate on switch table write?
if ($self->{mactable}->{lc($mac)} and ($self->{timestamp} > (time() - 300))) {
my $reftbl = 0;
foreach (keys %{$self->{mactable}}) {
if ((lc($mac) ne $_) and ($self->{mactable}->{lc($mac)} eq $self->{mactable}->{$_})) {
#$reftbl = 1;
#Delete *possibly* stale data, without being heavy handed..
delete $self->{mactable}->{$_};
}
}
unless ($reftbl) { return $self->{mactable}->{lc($mac)};}
}
#If requesting a cache only check or the cache is a mere 20 seconds old
#don't bother querying switches
if ($cachedonly or ($self->{timestamp} > (time() - 20))) { return undef; }
$self->refresh_table; #not cached or stale cache, refresh
if ($self->{mactable}->{lc($mac)}) {
return $self->{mactable}->{lc($mac)};
}
return undef;
}
sub refresh_table {
my $self = shift;
$self->{mactable}={};
$self->{switchtab} = xCAT::Table->new('switch', -create => 1);
$self->{sitetab} = xCAT::Table->new('site');
my $community = "public";
my $tmp = $self->{sitetab}->getAttribs({key=>'snmpc'},'value');
if ($tmp and $tmp->{value}) { $community = $tmp->{value} }
else { #Would warn here..
}
my %checked_pairs;
my @entries = $self->{switchtab}->getAllNodeAttribs(['node','port','switch']);
#Build hash of switch port names per switch
$self->{switches} = {};
foreach $entry (@entries) {
if (defined($entry->{switch}) and $entry->{switch} ne "" and defined($entry->{port}) and $entry->{port} ne "") {
$self->{switches}->{$entry->{switch}}->{$entry->{port}}=$entry->{node};
} else {
syslog("local4|err","xCAT Table error:".$entry->{node}."Has missing or invalid switch.switch and/or switch.port fields");
}
}
my $children = 0;
my $inputs = new IO::Select;
$SIG{CHLD}= sub { while(waitpid(-1,WNOHANG) > 0) { $children-- } };
foreach $entry (@entries) {
if ($checked_pairs{$entry->{switch}}) {
next;
}
$checked_pairs{$entry->{switch}}=1;
pipe my $child,my $parent;
$child->autoflush(1);
$parent->autoflush(1);
$children++;
$cpid = xCAT::Utils->xfork;
unless (defined $cpid) { die "Cannot fork" };
if ($cpid == 0) {
close($child);
$self->refresh_switch($parent,$community,$entry->{switch});
exit(0);
}
close($parent);
$inputs->add($child);
}
while($children) {
$self->handle_output($inputs);
}
while ($self->handle_output($inputs)) {}; #Drain the pipes
$self->{timestamp}=time;
}
sub handle_output {
my $self = shift;
my $inputs = shift;
my @readied = $inputs->can_read(1);
my $rc = @readied;
my $ready;
foreach $ready (@readied) {
my $line = <$ready>;
unless ($line) {
$inputs->remove($ready);
close($ready);
next;
}
$line =~ m/^([^|]*)\|(.*)/;
$self->{mactable}->{$1}=$2;
}
return $rc;
}
sub walkoid {
my $session = shift;
my $oid = shift;
my $retmap = undef;
my $varbind = new SNMP::Varbind([$oid,'']);
$session->getnext($varbind);
if ($session->{ErrorStr}) {
syslog("local6|err","Error communicating with ".$session->{DestHost}.": ".$session->{ErrorStr});
return undef;
}
my $count=0;
while ($varbind->[0] =~ /^$oid\.?(.*)/) {
$count++;
if ($1) {
$retmap->{$1.".".$varbind->[1]}=$varbind->[2]; #If $1 is set, means key should
} else {
$retmap->{$varbind->[1]}=$varbind->[2]; #If $1 is set, means key should
}
$session->getnext($varbind);
}
return $retmap;
}
sub refresh_switch {
my $self = shift;
my $output = shift;
my $community = shift;
my $switch = shift;
$session = new SNMP::Session(
DestHost => $switch,
Version => '1',
Community => $community,
UseNumeric => 1
);
#if ($error) { die $error; }
unless ($session) { syslog("err","Failed to communicate with $switch"); return; }
my $namemap = walkoid($session,'.1.3.6.1.2.1.31.1.1.1.1');
if ($namemap) {
my $ifnamesupport=0; #Assume broken ifnamesupport until proven good... (Nortel switch)
foreach (keys %{$namemap}) {
if ($namemap->{$_}) {
$ifnamesupport=1;
last;
}
}
unless ($ifnamesupport) {
$namemap=0;
}
}
unless ($namemap) { #Failback to ifDescr. ifDescr is close, but not perfect on some switches
$namemap = walkoid($session,'.1.3.6.1.2.1.2.2.1.2');
}
unless ($namemap) {
return;
}
#Above is valid without community string indexing, on cisco, we need it on the next one and onward
my $iftovlanmap = walkoid($session,'.1.3.6.1.4.1.9.9.68.1.2.2.1.2');
my %vlans_to_check;
if (defined($iftovlanmap)) { #We have a cisco, the intelligent thing is to do SNMP gets on the ports
# that we can verify are populated per switch table
my $portid;
foreach $portid (keys %{$namemap}) {
my $portname;
my $switchport = $namemap->{$portid};
foreach $portname (keys %{$self->{switches}->{$switch}}) {
unless (namesmatch($portname,$switchport)) { next }
$vlans_to_check{$iftovlanmap->{$portid}} = 1;
}
}
} else {
$vlans_to_check{'NA'}=1;
}
my $vlan;
foreach $vlan (keys %vlans_to_check) {
unless ($vlan eq 'NA') {
$session = new SNMP::Session(
DestHost => $switch,
Version => '1',
Community => $community."@".$vlan,
UseNumeric => 1
);
}
unless ($session) { return; }
my $bridgetoifmap = walkoid($session,'.1.3.6.1.2.1.17.1.4.1.2'); # Good for all switches
# my $mactoindexmap = walkoid($session,'.1.3.6.1.2.1.17.4.3.1.2');
my $mactoindexmap = walkoid($session,'.1.3.6.1.2.1.17.7.1.2.2.1.2');
unless (defined($mactoindexmap)) { #if no qbridge defined, try bridge mib, probably cisco
#$mactoindexmap = walkoid($session,'.1.3.6.1.2.1.17.7.1.2.2.1.2');
$mactoindexmap = walkoid($session,'.1.3.6.1.2.1.17.4.3.1.2');
} #Ok, time to process the data
foreach my $oid (keys %$namemap) {
#$oid =~ m/1.3.6.1.2.1.31.1.1.1.1.(.*)/;
my $ifindex = $oid;
my $portname;
my $switchport = $namemap->{$oid};
foreach $portname (keys %{$self->{switches}->{$switch}}) { # a little redundant, but
# computationally trivial
unless (namesmatch($portname,$switchport)) { next }
#if still running, we have match
foreach my $boid (keys %$bridgetoifmap) {
unless ($bridgetoifmap->{$boid} == $ifindex) { next; }
my $bridgeport = $boid;
foreach (keys %$mactoindexmap) {
if ($mactoindexmap->{$_} == $bridgeport) {
my @tmp = split /\./, $_;
my @mac = @tmp[-6 .. -1];
printf $output "%02x:%02x:%02x:%02x:%02x:%02x|%s\n",@mac,$self->{switches}->{$switch}->{$portname};
}
}
}
}
}
}
}
1;