xcat-core/xCAT-server/lib/xcat/plugins/credentials.pm

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# IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html
#-------------------------------------------------------
=head1
Plugin to handle credentials with good old fashioned priveleged port/host based authentication
May also include xCAT state-sensitive denial/allow
Also controlled by policy table (SECURITY: must document how to harden and make more convenient
through policy table).
This sounds horrible and most of the time it would be. However, when dealing with unattended
installs, it is better than nothing. Apache does not appear to be able to give credence to
privileged ports vs. non-privileged ports on the client, so simple nfs-style authentication is
not possible.
The problem with more secure methods and unattended installs is that all rely upon the client to
have a blessed credential, and giving that credential or blessing a credential I can't think of a
way to feasibly do unattended truly securely, so here we try to mitigate the exposure and
implement nfs-like security (with the plus of encryption, hopefully)
Supported command:
getcredentials
=cut
#-------------------------------------------------------
package xCAT_plugin::credentials;
use strict;
use xCAT::Table;
use Data::Dumper;
use xCAT::NodeRange;
use IO::Socket::INET;
use Time::HiRes qw(sleep);
use xCAT::Utils;
use xCAT::MsgUtils;
use Getopt::Long;
#-------------------------------------------------------
=head3 handled_commands
Return list of commands handled by this plugin
=cut
#-------------------------------------------------------
sub handled_commands
{
return {getcredentials => "credentials" };
}
#-------------------------------------------------------
=head3 process_request
Process the command
=cut
#-------------------------------------------------------
my $callback;
sub process_request
{
my $request = shift;
$callback = shift;
my $command = $request->{command}->[0];
my $args = $request->{arg};
my $envs = $request->{env};
my $client;
#Because clients may be stuck with stunnel, we cannot presume they
#can explicitly bind to a low port number as a client
#unless ($request and $request->{'_xcat_clientport'} and $request->{'_xcat_clientport'}->[0] and $request->{'_xcat_clientport'}->[0] < 1000) {
# print Dumper($request);
# return; #only accept requests from privileged ports
#}
if ($request->{'_xcat_clienthost'}) {
$client = $request->{'_xcat_clienthost'}->[0];
}
my $rsp;
# do your processing here
# return info
if ($client) { ($client) = noderange($client) };
unless ($client) { #Not able to do host authentication, abort
return;
}
my $credcheck;
if ($request->{'callback_port'} and $request->{'callback_port'}->[0] and $request->{'callback_port'}->[0] < 1024) {
$credcheck=[0,$request->{'callback_port'}->[0]];
} elsif ($request->{'callback_https_port'} and $request->{'callback_https_port'}->[0] and $request->{'callback_https_port'}->[0] < 1024) {
$credcheck=[1,$request->{'callback_https_port'}->[0]];
} else {
return;
}
unless (ok_with_node($client,$credcheck)) {
return;
}
my @params_to_return = @{$request->{arg}};
$rsp->{data}=[];
my $tmpfile;
my @filecontent;
my $retdata;
my $tfilename;
my $root;
if (xCAT::Utils->isAIX()) {
$root = "";
} else {
$root = "/root";
}
foreach (@params_to_return) {
if (/ssh_root_key/) {
unless (-r "$root/.ssh/id_rsa") {
push @{$rsp->{'error'}},"Unable to read root's private ssh key";
next;
}
$tfilename = "$root/.ssh/id_rsa";
} elsif (/xcat_server_cred/) {
unless (-r "/etc/xcat/cert/server-cred.pem") {
push @{$rsp->{'error'}},"Unable to read root's private xCAT key";
next;
}
$tfilename = "/etc/xcat/cert/server-cred.pem";
} elsif (/xcat_client_cred/ or /xcat_root_cred/) {
unless (-r "$root/.xcat/client-cred.pem") {
push @{$rsp->{'error'}},"Unable to read root's private xCAT key";
next;
}
$tfilename = "$root/.xcat/client-cred.pem";
} elsif (/ssh_dsa_hostkey/) {
if (-r "/etc/xcat/hostkeys/$client/ssh_host_dsa_key") {
$tfilename="/etc/xcat/hostkeys/$client/ssh_host_rsa_key";
} elsif (-r "/etc/xcat/hostkeys/ssh_host_dsa_key") {
$tfilename="/etc/xcat/hostkeys/ssh_host_dsa_key";
} else {
push @{$rsp->{'error'}},"Unable to read private DSA key from /etc/xcat/hostkeys";
next;
}
} elsif (/ssh_rsa_hostkey/) {
if (-r "/etc/xcat/hostkeys/$client/ssh_host_rsa_key") {
$tfilename="/etc/xcat/hostkeys/$client/ssh_host_rsa_key";
} elsif (-r "/etc/xcat/hostkeys/ssh_host_rsa_key") {
$tfilename="/etc/xcat/hostkeys/ssh_host_rsa_key";
} else {
push @{$rsp->{'error'}},"Unable to read private RSA key from /etc/xcat/hostkeys";
next;
}
} elsif (/xcat_cfgloc/) {
unless (-r "/etc/xcat/cfgloc") {
push @{$rsp->{'error'}},"Unable to read xCAT database location";
next;
}
$tfilename = "/etc/xcat/cfgloc";
} elsif (/krb5_keytab/) { #TODO: MUST RELAY TO MASTER
my $princsuffix=$request->{'_xcat_clientfqdn'}->[0];
$ENV{KRB5CCNAME}="/tmp/xcat/krb5cc_xcat_$$";
system('kinit -S kadmin/admin -k -t /etc/xcat/krb5_pass xcat/admin');
system("kadmin -p xcat/admin -c /tmp/xcat/krb5cc_xcat_$$ -q 'delprinc -force host/$princsuffix'");
system("kadmin -p xcat/admin -c /tmp/xcat/krb5cc_xcat_$$ -q 'delprinc -force nfs/$princsuffix'");
system("kadmin -p xcat/admin -c /tmp/xcat/krb5cc_xcat_$$ -q 'addprinc -randkey host/$princsuffix'");
system("kadmin -p xcat/admin -c /tmp/xcat/krb5cc_xcat_$$ -q 'addprinc -randkey nfs/$princsuffix'");
unlink "/tmp/xcat/keytab.$$";
system("kadmin -p xcat/admin -c /tmp/xcat/krb5cc_xcat_$$ -q 'ktadd -k /tmp/xcat/keytab.$$ nfs/$princsuffix'");
system("kadmin -p xcat/admin -c /tmp/xcat/krb5cc_xcat_$$ -q 'ktadd -k /tmp/xcat/keytab.$$ host/$princsuffix'");
system("kdestroy -c /tmp/xcat/krb5cc_xcat_$$");
unlink("/tmp/xcat/krb5cc_xcat_$$");
my $keytab;
open($keytab, "/tmp/xcat/keytab.$$");
my $tabdata="\n";
my $buf;
require MIME::Base64;
while (read($keytab,$buf,1140)) {
$tabdata.=MIME::Base64::encode_base64($buf);
}
push @{$rsp->{'data'}},{content=>[$tabdata],desc=>[$_]};
unlink "/tmp/xcat/keytab.$$";
next;
} elsif (/x509cert/) {
my $csr = $request->{'csr'}->[0];
my $csrfile;
my $oldumask = umask 0077;
if (-e "/tmp/xcat/client.csr.$$") { unlink "/tmp/xcat/client.csr.$$"; }
open($csrfile,">","/tmp/xcat/client.csr.$$");
unless($csrfile) { next; }
my @statdat = stat $csrfile;
while ($statdat[4] != 0 or $statdat[2] & 020 or $statdat[2] & 002) { #try to be paranoid, root better own the file, and it better not be writable by anyone but owner
#this means to assure the filehandle is not write-accessible to others who may insert their malicious CSR
close($csrfile);
unlink("/tmp/xcat/client.csr.$$");
open($csrfile,">","/tmp/xcat/client.csr.$$");
@statdat = stat $csrfile;
}
print $csrfile $csr;
close($csrfile);
#ok, at this point, we can verify that the subject is one we wouldn't mind signing...
my $subject=`openssl req -in /tmp/xcat/client.csr.$$ -subject -noout`;
chomp($subject);
unless ($subject =~ /CN=$client\z/) { unlink("/tmp/xcat/client.csr.$$"); next; }
unlink "/tmp/xcat/client.cert.$$";
open($csrfile,">","/tmp/xcat/client.cert.$$");
@statdat = stat $csrfile;
while ($statdat[4] != 0 or $statdat[2] & 020 or $statdat[2] & 002) { #try to be paranoid, root better own the file, and it better not be writable by anyone but owner
#this prevents an attacker from predicting pid and pre-setting up a file that they can corrupt for DoS
close($csrfile);
unlink("/tmp/xcat/client.csr.$$");
open($csrfile,">","/tmp/xcat/client.csr.$$");
@statdat = stat $csrfile;
}
close($csrfile);
open($csrfile,"<","/etc/xcat/ca/index");
my @caindex = <$csrfile>;
close($csrfile);
foreach (@caindex) {
chomp;
my ($type, $expiry, $revoke, $serial, $fname, $subject) = split /\t/;
if ($type eq 'V' and $subject =~ /CN=$client\z/) { #we already have a valid certificate, new request replaces it, revoke old
print "The time of replacing is at hand for $client\n";
system("openssl ca -config /etc/xcat/ca/openssl.cnf -revoke /etc/xcat/ca/certs/$serial.pem");
}
}
my $rc = system("openssl ca -config /etc/xcat/ca/openssl.cnf -in /tmp/xcat/client.csr.$$ -out /tmp/xcat/client.cert.$$ -batch");
unlink("/tmp/xcat/client.csr.$$");
umask ($oldumask);
if ($rc) { next; }
open ($csrfile,"<","/tmp/xcat/client.cert.$$");
my @certdata = <$csrfile>;
close($csrfile);
unlink "/tmp/xcat/client.cert.$$";
my $certcontents = join('',@certdata);
push @{$rsp->{'data'}},{content=>[$certcontents],desc=>[$_]};
} else {
next;
}
#check if the file exists or not
if (defined $tfilename && -r $tfilename) {
open($tmpfile,$tfilename);
@filecontent=<$tmpfile>;
close($tmpfile);
$retdata = "\n".join('',@filecontent);
push @{$rsp->{'data'}},{content=>[$retdata],desc=>[$_]};
$retdata="";
@filecontent=();
}
}
if (defined $rsp->{data}->[0]) {
#if we got the data from the file, send the data message to the client
xCAT::MsgUtils->message("D", $rsp, $callback, 0);
}else {
#if the file doesn't exist, send the error message to the client
delete $rsp->{'data'};
xCAT::MsgUtils->message("E", $rsp, $callback, 0);
}
return;
}
sub ok_with_node {
my $node = shift;
#Here we connect to the node on a privileged port and ask the
#node if it just asked us for credential. It's convoluted, but it is
#a convenient way to see if root on the ip has approved requests for
#credential retrieval. Given the nature of the situation, it is only ok
#to assent to such requests before users can log in. During postscripts
#stage in stateful nodes and during the rc scripts of stateless boot
#This is about equivalent to host-based authentication in Unix world
#Generally good to move on to more robust mechanisms, but in an unattended context
#this proves difficult to do robustly.
#one TODO would be a secure mode where we make use of TPM modules to enhance in some way
my $select = new IO::Select;
#sleep 0.5; # gawk script race condition might exist, try to lose just in case
my $parms = shift;
my $method=$parms->[0];
my $port = $parms->[1];
if ($method == 0) { #PLAIN
my $sock = new IO::Socket::INET(PeerAddr=>$node,
Proto => "tcp",
PeerPort => $port);
my $rsp;
unless ($sock) {return 0};
$select->add($sock);
print $sock "CREDOKBYYOU?\n";
unless ($select->can_read(5)) { #wait for data for up to five seconds
return 0;
}
my $response = <$sock>;
chomp($response);
if ($response eq "CREDOKBYME") {
return 1;
}
} elsif ($method == 1) { #HTTPS
use LWP;
use HTTP::Request::Common;
my $browser = LWP::UserAgent->new();
$browser->timeout(10);
$SIG{ALRM} = sub {}; #just need to interrupt the system call
alarm(10);
my $response = $browser->request(GET "https://$node:$port/");
alarm(0);
if ($response->is_success and $response->{'_content'} =~ /Ciphers supported in s_server binary/) {
#We are looking for openssl s_server running with -http, not settling for just any https response
return 1;
}
}
return 0;#if here, something wrong happened, return false
}
1;