Diff for /loncom/LondConnection.pm between versions 1.7 and 1.61

version 1.7, 2003/07/02 01:12:35 version 1.61, 2018/12/11 20:51:08
Line 25 Line 25
 #  #
 # http://www.lon-capa.org/  # http://www.lon-capa.org/
 #  #
   
 package LondConnection;  package LondConnection;
   
   use strict;
 use IO::Socket;  use IO::Socket;
 use IO::Socket::INET;  use IO::Socket::INET;
 use IO::Handle;  use IO::Handle;
Line 34  use IO::File; Line 36  use IO::File;
 use Fcntl;  use Fcntl;
 use POSIX;  use POSIX;
 use Crypt::IDEA;  use Crypt::IDEA;
 use LONCAPA::Configuration;  use LONCAPA::lonlocal;
 use LONCAPA::HashIterator;  use LONCAPA::lonssl;
   
   
 my $DebugLevel=0;  my $DebugLevel=0;
   my %perlvar;
   my %secureconf;
   my %badcerts;
   my %hosttypes;
   my %crlchecked;
   my $InsecureOk;
   
   #
   #  Set debugging level
   #
   sub SetDebug {
       $DebugLevel = shift;
   }
   
   #
   #   The config read is done in this way to support the read of
   #   the non-default configuration file in the
   #   event we are being used outside of loncapa.
   #
   
   my $ConfigRead = 0;
   
 #   Read the configuration file for apache to get the perl  #   Read the configuration file for apache to get the perl
 #   variable set.  #   variables set.
   
   sub ReadConfig {
       Debug(8, "ReadConfig called");
   
 my $perlvarref = LONCAPA::Configuration::read_conf('loncapa.conf');      my $perlvarref = read_conf('loncapa.conf');
 my %perlvar    = %{$perlvarref};      %perlvar    = %{$perlvarref};
 my $hoststab   =       $ConfigRead = 1;
     LONCAPA::Configuration::read_hosts(  
             "$perlvar{'lonTabDir'}/hosts.tab") ||   
     die "Can't read host table!!";  
 my %hostshash  = %{$hoststab};  
   
 close(CONFIG);      $InsecureOk = $perlvar{loncAllowInsecure};
   
       unless (lonssl::Read_Connect_Config(\%secureconf,\%perlvar) eq 'ok') {
           Debug(1,"Failed to retrieve secureconf hash.\n");
       }
       unless (lonssl::Read_Host_Types(\%hosttypes,\%perlvar) eq 'ok') {
           Debug(1,"Failed to retrieve hosttypes hash.\n");
       }
       %badcerts = ();
       %crlchecked = ();
   }
   
   sub ResetReadConfig {
       $ConfigRead = 0;
   }
   
 sub Debug {  sub Debug {
     my $level   = shift;  
     my $message = shift;      my ($level, $message) = @_;
   
     if ($level < $DebugLevel) {      if ($level < $DebugLevel) {
  print($message."\n");   print STDERR ($message."\n");
     }      }
 }  }
   
Line 64  sub Debug { Line 102  sub Debug {
   
 =head2 Dump  =head2 Dump
   
 Dump the internal state of the object: For debugging purposes.  Dump the internal state of the object: For debugging purposes, to stderr.
   
 =cut  =cut
   
 sub Dump {  sub Dump {
     my $self   = shift;      my $self   = shift;
     print "Dumping LondConnectionObject:\n";      my $level  = shift;
       my $now    = time;
       my $local  = localtime($now);
       
       if ($level >= $DebugLevel) {
    return;
       }
   
       
       my $key;
       my $value;
       print STDERR "[ $local ] Dumping LondConnectionObject:\n";
       print STDERR join(':',caller(1))."\n";
     while(($key, $value) = each %$self) {      while(($key, $value) = each %$self) {
  print "$key -> $value\n";   print STDERR "$key -> $value\n";
     }      }
     print "-------------------------------\n";      print STDERR "-------------------------------\n";
 }  }
   
 =pod  =pod
Line 86  old state. Line 136  old state.
 =cut  =cut
   
 sub Transition {  sub Transition {
     my $self     = shift;  
     my $newstate = shift;      my ($self, $newstate) = @_;
   
     my $oldstate = $self->{State};      my $oldstate = $self->{State};
     $self->{State} = $newstate;      $self->{State} = $newstate;
     $self->{TimeoutRemaining} = $self->{TimeoutValue};      $self->{TimeoutRemaining} = $self->{TimeoutValue};
Line 97  sub Transition { Line 148  sub Transition {
 }  }
   
   
   
 =pod  =pod
   
 =head2 new  =head2 new
Line 113  host the remote lond is on. This host is Line 165  host the remote lond is on. This host is
   
  port number the remote lond is listening on.   port number the remote lond is listening on.
   
   =item lonid
   
    lonid of the remote lond is listening on.
   
   =item deflonid
   
    default lonhostID of the remote lond is listening on.
   
 =cut  =cut
   
 sub new {  sub new {
     my $class    = shift; # class name.      my ($class, $DnsName, $Port, $lonid, $deflonid) = @_;
     my $Hostname = shift; # Name of host to connect to.  
     my $Port     = shift; # Port to connect       if (!$ConfigRead) {
     &Debug(4,$class."::new( ".$Hostname.",".$Port.")\n");   ReadConfig();
    $ConfigRead = 1;
       }
       &Debug(4,$class."::new( ".$DnsName.",".$Port.",".$lonid.",".$deflonid.")\n");
   
       my ($conntype,$gotconninfo,$allowinsecure);
       if ((ref($secureconf{'connto'}) eq 'HASH') &&
           (exists($hosttypes{$lonid}))) {
           $conntype = $secureconf{'connto'}{$hosttypes{$lonid}};
           if ($conntype ne '') {
               if ($conntype ne 'req') {
                   $allowinsecure = 1;
               }
               $gotconninfo = 1;
           }
       }
       unless ($gotconninfo) {
           $allowinsecure = $InsecureOk;
       }
   
     # The host must map to an entry in the hosts table:      # The host must map to an entry in the hosts table:
     #  We connect to the dns host that corresponds to that      #  We connect to the dns host that corresponds to that
Line 127  sub new { Line 205  sub new {
     #  negotion.  In the objec these become the Host and      #  negotion.  In the objec these become the Host and
     #  LoncapaHim fields of the object respectively.      #  LoncapaHim fields of the object respectively.
     #      #
     if (!exists $hostshash{$Hostname}) {      # if it is me use loopback for connection
  return undef; # No such host!!!      if ($DnsName eq &main::my_hostname()) { $DnsName="127.0.0.1"; }
     }      Debug(9, "Connecting to $DnsName");
     my @ConfigLine = @{$hostshash{$Hostname}};  
     my $DnsName    = $ConfigLine[3]; # 4'th item is dns of host.  
     Debug(5, "Connecting to ".$DnsName);  
     # Now create the object...      # Now create the object...
     my $self     = { Host               => $DnsName,      my $self     = { Host               => $DnsName,
      LoncapaHim         => $Hostname,                       LoncapaHim         => $lonid,
              Port               => $Port,                       LoncapaDefid       => $deflonid,
              State              => "Initialized",                       Port               => $Port,
              TransactionRequest => "",                       State              => "Initialized",
              TransactionReply   => "",       AuthenticationMode => "",
              InformReadable     => 0,       InsecureOK         => $allowinsecure,
              InformWritable     => 0,                       TransactionRequest => "",
      TimeoutCallback    => undef,                       TransactionReply   => "",
      TransitionCallback => undef,                       NextRequest        => "",
              Timeoutable        => 0,                       InformReadable     => 0,
              TimeoutValue       => 60,                       InformWritable     => 0,
              TimeoutRemaining   => 0,                       TimeoutCallback    => undef,
      CipherKey          => "",                       TransitionCallback => undef,
      Cipher             => undef};                       Timeoutable        => 0,
                        TimeoutValue       => 30,
                        TimeoutRemaining   => 0,
        LocalKeyFile       => "",
                        CipherKey          => "",
                        LondVersion        => "Unknown",
                        Cipher             => undef,
        ClientData         => undef};
     bless($self, $class);      bless($self, $class);
     unless ($self->{Socket} = IO::Socket::INET->new(PeerHost => $self->{Host},      unless ($self->{Socket} = IO::Socket::INET->new(PeerHost => $self->{Host},
        PeerPort => $self->{Port},         PeerPort => $self->{Port},
        Type     => SOCK_STREAM,         Type     => SOCK_STREAM,
        Proto    => "tcp")) {         Proto    => "tcp",
          Timeout  => 3)) {
    Debug(8, "Error? \n$@ \n$!");
  return undef; # Inidicates the socket could not be made.   return undef; # Inidicates the socket could not be made.
     }      }
       my $socket = $self->{Socket}; # For local use only.
       $socket->sockopt(SO_KEEPALIVE, 1); # Turn on keepalive probes when idle.
       #  If we are local, we'll first try local auth mode, otherwise, we'll try
       #  the ssl auth mode:
   
       my $key;
       my $keyfile;
       if ($DnsName eq '127.0.0.1') {
    $self->{AuthenticationMode} = "local";
    ($key, $keyfile)         = lonlocal::CreateKeyFile();
    Debug(8, "Local key: $key, stored in $keyfile");
      
    #  If I can't make the key file fall back to insecure if 
    #  allowed...else give up right away.
   
    if(!(defined $key) || !(defined $keyfile)) {
               my $canconnect = 0;
               if (ref($secureconf{'connto'}) eq 'HASH') {
                   unless ($secureconf{'connto'}->{'dom'} eq 'req') {
                       $canconnect = 1;
                   }
               } else {
                   $canconnect = $InsecureOk;
               }
       if ($canconnect) {
    $self->{AuthenticationMode} = "insecure";
    $self->{TransactionRequest} = "init\n";
       } 
       else {
    $socket->close;
    return undef;
       }
    }
    $self->{TransactionRequest} = "init:local:$keyfile\n";
    Debug(9, "Init string is init:local:$keyfile");
    if(!$self->CreateCipher($key)) { # Nothing's going our way...
       $socket->close;
       return undef;
    }
   
       } else {
    #  Remote peer:  I'd like to do ssl, but if my host key or certificates
    #  are not all installed, my only choice is insecure, if that's 
    #  allowed:
   
    my ($ca, $cert) = lonssl::CertificateFile;
    my $sslkeyfile  = lonssl::KeyFile;
           my $badcertfile = lonssl::has_badcert_file($self->{LoncapaHim});
           my ($loncaparev) = ($perlvar{'lonVersion'} =~ /^[\'\"]?([\w.\-]+)[\'\"]?$/);
   
    if (($conntype ne 'no') && (defined($ca)) && (defined($cert)) && (defined($sslkeyfile)) &&
               (!exists($badcerts{$self->{LoncapaHim}})) && !$badcertfile) {
       $self->{AuthenticationMode} = "ssl";
       $self->{TransactionRequest} = "init:ssl:$loncaparev\n";
    } elsif ($self->{InsecureOK}) {
       # Allowed to do insecure:
       $self->{AuthenticationMode} = "insecure";
       $self->{TransactionRequest} = "init::$loncaparev\n";
    } else {
       # Not allowed to do insecure...
       $socket->close;
       return undef;
    }
       }
   
     #      #
     # We're connected.  Set the state, and the events we'll accept:      # We're connected.  Set the state, and the events we'll accept:
     #      #
     $self->Transition("Connected");      $self->Transition("Connected");
     $self->{InformWritable}     = 1;    # When  socket is writable we send init      $self->{InformWritable}     = 1;    # When  socket is writable we send init
     $self->{TransactionRequest} = "init\n";      $self->{Timeoutable}        = 1;    # Timeout allowed during startup negotiation. 
   
           
     #      #
     # Set socket to nonblocking I/O.      # Set socket to nonblocking I/O.
     #      #
     my $socket = $self->{Socket};      my $flags    = fcntl($socket, F_GETFL,0);
     $flags    = fcntl($socket->fileno, F_GETFL,0);      if(!$flags) {
     if($flags == -1) {  
  $socket->close;   $socket->close;
  return undef;   return undef;
     }      }
     if(fcntl($socket, F_SETFL, $flags | O_NONBLOCK) == -1) {      if(!fcntl($socket, F_SETFL, $flags | O_NONBLOCK)) {
  $socket->close;   $socket->close;
  return undef;   return undef;
     }      }
   
     # return the object :      # return the object :
   
       Debug(9, "Initial object state: ");
       $self->Dump(9);
   
     return $self;      return $self;
 }  }
   
Line 212  sub Readable { Line 364  sub Readable {
     my $self    = shift;      my $self    = shift;
     my $socket  = $self->{Socket};      my $socket  = $self->{Socket};
     my $data    = '';      my $data    = '';
     my $rv      = $socket->recv($data, POSIX::BUFSIZ,  0);      my $rv;
       my $ConnectionMode = $self->{AuthenticationMode};
   
       if ($socket) {
    eval {
       $rv = $socket->recv($data, POSIX::BUFSIZ, 0);
    }
       } else {
    $self->Transition("Disconnected");
    return -1;
       }
     my $errno   = $! + 0;             # Force numeric context.      my $errno   = $! + 0;             # Force numeric context.
   
     unless (defined($rv) && (length($data)> 0)) {# Read failed,      unless (defined($rv) && length $data) {# Read failed,
  if(($errno == POSIX::EWOULDBLOCK)   ||   if(($errno == POSIX::EWOULDBLOCK)   ||
    ($errno == POSIX::EAGAIN)        ||     ($errno == POSIX::EAGAIN)        ||
    ($errno == POSIX::EINTR)         ||     ($errno == POSIX::EINTR)) {
    ($errno == 0)) {  
     return 0;      return 0;
  }   }
   
Line 230  sub Readable { Line 391  sub Readable {
  $self->Transition("Disconnected");   $self->Transition("Disconnected");
  return -1;   return -1;
     }      }
       # If we actually got data, reset the timeout.
   
       if (length $data) {
    $self->{TimeoutRemaining}   = $self->{TimeoutValue}; # getting data resets the timeout period.
       }
     #  Append the data to the buffer.  And figure out if the read is done:      #  Append the data to the buffer.  And figure out if the read is done:
   
     &Debug(9,"Received from host: ".$data);      &Debug(9,"Received from host: ".$data);
     $self->{TransactionReply} .= $data;      $self->{TransactionReply} .= $data;
     if($self->{TransactionReply} =~ /(.*\n)/) {      if($self->{TransactionReply} =~ m/\n$/) {
  &Debug(8,"Readable End of line detected");   &Debug(8,"Readable End of line detected");
   
   
  if ($self->{State}  eq "Initialized") { # We received the challenge:   if ($self->{State}  eq "Initialized") { # We received the challenge:
     if($self->{TransactionReply} eq "refused") { # Remote doesn't have      #   Our init was replied to. What happens next depends both on
       #  the actual init we sent (AuthenticationMode member data)
  $self->Transition("Disconnected"); # in host tables.      #  and the response:
       #     AuthenticationMode == local:
       #       Response ok:   The key has been exchanged and
       #                      the key file destroyed. We can jump
       #                      into setting the host and requesting the
       #                      Later we'll also bypass key exchange.
       #       Response digits: 
       #                      Old style lond. Delete the keyfile.
       #                      If allowed fall back to insecure mode.
       #                      else close connection and fail.
       #       Response other:
       #                      Failed local auth 
       #                      Close connection and fail.
       #
       #    AuthenticationMode == ssl:
       #        Response ok:ssl
       #        Response digits:
       #        Response other:
       #    Authentication mode == insecure
       #        Response digits
       #        Response other:
       
       my $Response = $self->{TransactionReply};
       if($ConnectionMode eq "local") {
    if($Response =~ /^ok:local/) { #  Good local auth.
       $self->ToVersionRequest();
       return 0;
    }
    elsif ($Response =~/^[0-9]+/) { # Old style lond.
       return $self->CompleteInsecure();
   
    }
    else {                # Complete flop
       &Debug(3, "init:local : unrecognized reply");
       $self->Transition("Disconnected");
       $socket->close;
       return -1;
    }
       }
       elsif ($ConnectionMode eq "ssl") {
    if($Response =~ /^ok:ssl/) {     # Good ssl...
       my $sslresult = $self->ExchangeKeysViaSSL();
                       if ($sslresult == 1) { # Success skip to vsn stuff
    # Need to reset to non blocking:
   
    my $flags = fcntl($socket, F_GETFL, 0);
    fcntl($socket, F_SETFL, $flags | O_NONBLOCK);
    $self->ToVersionRequest();
    return 0;
       } 
       else { # Failed in ssl exchange.
           if (($sslresult == -1) && (lonssl::LastError == -1) && ($self->{InsecureOK})) {
                               my $badcertdir = &lonssl::BadCertDir();
                               if (($badcertdir) && $self->{LoncapaHim}) {
                                   if (open(my $fh,'>',"$badcertdir/".$self->{LoncapaHim})) {
                                       close($fh);
                                   }
                               }
       $badcerts{$self->{LoncapaHim}} = 1;
                               &Debug(3,"SSL verification failed: close socket and initiate insecure connection");
                               $self->Transition("ReInitNoSSL");
                               $socket->close;
                               return -1;
    }
    &Debug(3,"init:ssl failed key negotiation!");
    $self->Transition("Disconnected");
    $socket->close;
    return -1;
                       }
    } 
    elsif ($Response =~ /^[0-9]+/) { # Old style lond.
       return $self->CompleteInsecure();
    }
    else {                 # Complete flop
    }
       }
       elsif ($ConnectionMode eq "insecure") {
    if($self->{TransactionReply} eq "refused\n") { # Remote doesn't have
       
       $self->Transition("Disconnected"); # in host tables.
       $socket->close();
       return -1;
   
    }
    return $self->CompleteInsecure();
       }
       else {
    &Debug(1,"Authentication mode incorrect");
    die "BUG!!! LondConnection::Readable invalid authmode";
       }
   
   
    }  elsif ($self->{State} eq "ChallengeReplied") {
       if($self->{TransactionReply} ne "ok\n") {
    $self->Transition("Disconnected");
  $socket->close();   $socket->close();
  return -1;   return -1;
     }      }
       $self->ToVersionRequest();
       return 0;
   
     &Debug(8," Transition out of Initialized");   } elsif ($self->{State} eq "ReadingVersionString") {
     $self->{TransactionRequest} = $self->{TransactionReply};      chomp($self->{TransactionReply});
     $self->{InformWritable}     = 1;      $self->{LondVersion}       = $self->{TransactionReply};
     $self->{InformReadable}     = 0;      $self->Transition("SetHost");
     $self->Transition("ChallengeReceived");      $self->{InformReadable}    = 0;
     $self->{TimeoutRemaining}   = $self->{TimeoutValue};      $self->{InformWritable}    = 1;
       my $peer = $self->{LoncapaHim};
       $self->{TransactionRequest}= "sethost:$peer\n";
     return 0;      return 0;
  } elsif ($self->{State} eq "ChallengeReplied") { # should be ok.   } elsif ($self->{State} eq "HostSet") { # should be ok.
     if($self->{TransactionReply} != "ok\n") {      if($self->{TransactionReply} ne "ok\n") {
  $self->Transition("Disconnected");   $self->Transition("Disconnected");
  $socket->close();   $socket->close();
  return -1;   return -1;
     }      }
     $self->Transition("RequestingKey");      #  If the auth mode is insecure we must still
     $self->{InformReadable}  = 0;      #  exchange session keys. Otherwise,
     $self->{InformWritable}  = 1;      #  we can just transition to idle.
     $self->{TransactionRequest} = "ekey\n";  
     return 0;      if($ConnectionMode eq "insecure") {
    $self->Transition("RequestingKey");
    $self->{InformReadable}  = 0;
    $self->{InformWritable}  = 1;
    $self->{TransactionRequest} = "ekey\n";
    return 0;
       }
       else {
    $self->ToIdle();
    return 0;
       }
  } elsif ($self->{State}  eq "ReceivingKey") {   } elsif ($self->{State}  eq "ReceivingKey") {
     my $buildkey = $self->{TransactionReply};      my $buildkey = $self->{TransactionReply};
               chomp($buildkey);
     my $key = $self->{LoncapaHim}.$perlvar{'lonHostID'};      my $key = $self->{LoncapaHim}.$perlvar{'lonHostID'};
     $key=~tr/a-z/A-Z/;      $key=~tr/a-z/A-Z/;
     $key=~tr/G-P/0-9/;      $key=~tr/G-P/0-9/;
     $key=~tr/Q-Z/0-9/;      $key=~tr/Q-Z/0-9/;
     $key=$key.$buildkey.$key.$buildkey.$key.$buildkey;      $key =$key.$buildkey.$key.$buildkey.$key.$buildkey;
     $key=substr($key,0,32);      $key               = substr($key,0,32);
     my $cipherkey=pack("H32",$key);      if(!$self->CreateCipher($key)) {
     $self->{Cipher} = new IDEA $cipherkey;  
     if($self->{Cipher} == undef) {  
  $self->Transition("Disconnected");   $self->Transition("Disconnected");
  $socket->close();   $socket->close();
  return -1;   return -1;
     } else {      } else {
  $self->Transition("Idle");   $self->ToIdle();
  $self->{InformWritable}  =  0;  
  $self->{InformReadable}  =  0;  
  $self->{Timeoutable}     = 0;  
  return 0;   return 0;
     }      }
  } elsif ($self->{State}  eq "ReceivingReply") {   } elsif ($self->{State}  eq "ReceivingReply") {
Line 290  sub Readable { Line 562  sub Readable {
     my $answer = $self->{TransactionReply};      my $answer = $self->{TransactionReply};
     if($answer =~ /^enc\:/) {      if($answer =~ /^enc\:/) {
  $answer = $self->Decrypt($answer);   $answer = $self->Decrypt($answer);
  $self->{TransactionReply} = $answer;   $self->{TransactionReply} = "$answer\n";
     }      }
       # if we have a NextRequest do it immeadiately
       if ($self->{NextRequest}) {
    $self->{TransactionRequest} = $self->{NextRequest};
    undef( $self->{NextRequest} );
    $self->{TransactionReply}   = "";
    $self->{InformWritable}     = 1;
    $self->{InformReadable}     = 0;
    $self->{Timeoutable}        = 1;
    $self->Transition("SendingRequest");
    return 0;
       } else {
     # finish the transaction      # finish the transaction
   
     $self->{InformWritable}     = 0;   $self->ToIdle();
     $self->{InformReadable}     = 0;   return 0;
     $self->{Timeoutable}        = 0;      }
     $self->Transition("Idle");  
     return 0;  
  } elsif ($self->{State} eq "Disconnected") { # No connection.   } elsif ($self->{State} eq "Disconnected") { # No connection.
     return -1;      return -1;
  } else { # Internal error: Invalid state.   } else { # Internal error: Invalid state.
Line 328  Returns  0 if successful, or -1 if not. Line 608  Returns  0 if successful, or -1 if not.
 sub Writable {  sub Writable {
     my $self     = shift; # Get reference to the object.      my $self     = shift; # Get reference to the object.
     my $socket   = $self->{Socket};      my $socket   = $self->{Socket};
     my $nwritten = $socket->send($self->{TransactionRequest}, 0);      my $nwritten;
       if ($socket) {
    eval {
       $nwritten = $socket->send($self->{TransactionRequest}, 0);
    }
       } else {
    # For whatever reason, there's no longer a socket left.
   
   
    $self->Transition("Disconnected");
    return -1;
       }
     my $errno    = $! + 0;      my $errno    = $! + 0;
     unless (defined $nwritten) {      unless (defined $nwritten) {
  if($errno != POSIX::EINTR) {   if($errno != POSIX::EINTR) {
Line 337  sub Writable { Line 628  sub Writable {
  }   }
               
     }      }
     if (($rv >= 0)                        ||      if (($nwritten >= 0)                        ||
         ($errno == POSIX::EWOULDBLOCK)    ||          ($errno == POSIX::EWOULDBLOCK)    ||
  ($errno == POSIX::EAGAIN)         ||   ($errno == POSIX::EAGAIN)         ||
  ($errno == POSIX::EINTR)          ||   ($errno == POSIX::EINTR)          ||
  ($errno ==  0)) {   ($errno ==  0)) {
    $self->{TimeoutRemaining} = $self->{TimeoutValue};
  substr($self->{TransactionRequest}, 0, $nwritten) = ""; # rmv written part   substr($self->{TransactionRequest}, 0, $nwritten) = ""; # rmv written part
  if(length $self->{TransactionRequest} == 0) {   if(length $self->{TransactionRequest} == 0) {
     $self->{InformWritable} = 0;      $self->{InformWritable} = 0;
Line 354  sub Writable { Line 646  sub Writable {
  $self->Transition("Initialized");   $self->Transition("Initialized");
     } elsif($self->{State} eq "ChallengeReceived") {      } elsif($self->{State} eq "ChallengeReceived") {
  $self->Transition("ChallengeReplied");   $self->Transition("ChallengeReplied");
       } elsif($self->{State} eq "RequestingVersion") {
    $self->Transition("ReadingVersionString");
       } elsif ($self->{State} eq "SetHost") {
    $self->Transition("HostSet");
     } elsif($self->{State} eq "RequestingKey") {      } elsif($self->{State} eq "RequestingKey") {
  $self->Transition("ReceivingKey");   $self->Transition("ReceivingKey");
  $self->{InformWritable} = 0;  #            $self->{InformWritable} = 0;
  $self->{InformReadable} = 1;  #            $self->{InformReadable} = 1;
  $self->{TransactionReply} = '';  #            $self->{TransactionReply} = '';
     } elsif ($self->{State} eq "SendingRequest") {      } elsif ($self->{State} eq "SendingRequest") {
  $self->Transition("ReceivingReply");   $self->Transition("ReceivingReply");
  $self->{TimeoutRemaining} = $self->{TimeoutValue};   $self->{TimeoutRemaining} = $self->{TimeoutValue};
Line 372  sub Writable { Line 668  sub Writable {
  $socket->close();   $socket->close();
  return -1;   return -1;
     }      }
       
 }  }
 =pod  =pod
   
Line 427  timout, and to request writability notif Line 723  timout, and to request writability notif
 =cut  =cut
   
 sub InitiateTransaction {  sub InitiateTransaction {
     my $self   = shift;  
     my $data   = shift;      my ($self, $data) = @_;
   
     Debug(1, "initiating transaction: ".$data);      Debug(1, "initiating transaction: ".$data);
     if($self->{State} ne "Idle") {      if($self->{State} ne "Idle") {
Line 436  sub InitiateTransaction { Line 732  sub InitiateTransaction {
  return -1; # Error indicator.   return -1; # Error indicator.
     }      }
     # if the transaction is to be encrypted encrypt the data:      # if the transaction is to be encrypted encrypt the data:
       (my $sethost, my $server,$data)=split(/:/,$data,3);
   
     if($data =~ /^encrypt\:/) {      if($data =~ /^encrypt\:/) {
  $data = $self->Encrypt($data);   $data = $self->Encrypt($data);
     }      }
   
     # Setup the trasaction      # Setup the trasaction
       # currently no version of lond supports inlining the sethost
     $self->{TransactionRequest} = $data;      if ($self->PeerVersion() <= 321) {
    if ($server ne $self->{LoncapaHim}) {
       $self->{NextRequest}        = $data;
       $self->{TransactionRequest} = "$sethost:$server\n";
       $self->{LoncapaHim}         = $server;
    } else {
       $self->{TransactionRequest}        = $data;
    }
       } else {
    $self->{LoncapaHim}         = $server;
    $self->{TransactionRequest} = "$sethost:$server:$data";
       }
     $self->{TransactionReply}   = "";      $self->{TransactionReply}   = "";
     $self->{InformWritable}     = 1;      $self->{InformWritable}     = 1;
     $self->{InformReadable}     = 0;      $self->{InformReadable}     = 0;
Line 479  established callback or undef if there w Line 787  established callback or undef if there w
 =cut  =cut
   
 sub SetTimeoutCallback {  sub SetTimeoutCallback {
     my $self                 = shift;  
     my $callback             = shift;      my ($self, $callback) = @_;
   
     my $oldCallback          = $self->{TimeoutCallback};      my $oldCallback          = $self->{TimeoutCallback};
     $self->{TimeoutCallback} = $callback;      $self->{TimeoutCallback} = $callback;
     return $oldCallback;      return $oldCallback;
Line 497  Shuts down the socket. Line 806  Shuts down the socket.
 sub Shutdown {  sub Shutdown {
     my $self = shift;      my $self = shift;
     my $socket = $self->GetSocket();      my $socket = $self->GetSocket();
     $socket->shutdown(2);      Debug(5,"socket is -$socket-");
       if ($socket) {
    # Ask lond to exit too.  Non blocking so
    # there is no cost for failure.
    eval {
       $socket->send("exit\n", 0);
       $socket->shutdown(2);
    }
       }
       $self->{Timeoutable}   = 0; # Shutdown sockets can't timeout.
 }  }
   
 =pod  =pod
Line 600  The output string can be directly sent t Line 918  The output string can be directly sent t
 =cut  =cut
   
 sub Encrypt {  sub Encrypt {
     my $self    = shift; # Reference to the object.      
     my $request = shift;        # Text to send.      my ($self, $request) = @_;
   
         
     # Split the encrypt: off the request and figure out it's length.      # Split the encrypt: off the request and figure out it's length.
Line 643  Decrypt a response from the server.  The Line 961  Decrypt a response from the server.  The
 =cut  =cut
   
 sub Decrypt {  sub Decrypt {
     my $self      = shift; # Recover reference to object  
     my $encrypted = shift; # This is the encrypted data.      my ($self, $encrypted) = @_;
   
     #  Bust up the response into length, and encryptedstring:      #  Bust up the response into length, and encryptedstring:
   
Line 654  sub Decrypt { Line 972  sub Decrypt {
     # Decode the data in 8 byte blocks.  The string is encoded      # Decode the data in 8 byte blocks.  The string is encoded
     # as hex digits so there are two characters per byte:      # as hex digits so there are two characters per byte:
   
     $decrpyted = "";      my $decrypted = "";
     for(my $index = 0; $index < length($EncryptedString);      for(my $index = 0; $index < length($EncryptedString);
  $index += 16) {   $index += 16) {
  $decrypted .= $self->{Cipher}->decrypt(   $decrypted .= $self->{Cipher}->decrypt(
Line 667  sub Decrypt { Line 985  sub Decrypt {
     #  $length tells us the actual length of the decrypted string:      #  $length tells us the actual length of the decrypted string:
   
     $decrypted = substr($decrypted, 0, $length);      $decrypted = substr($decrypted, 0, $length);
       Debug(9, "Decrypted $EncryptedString to $decrypted");
   
     return $decrypted;      return $decrypted;
   
 }  }
   # ToIdle
   #     Called to transition to idle... done enough it's worth subbing
   #     off to ensure it's always done right!!
   #
   sub ToIdle {
       my $self   = shift;
   
 =pod      $self->Transition("Idle");
       $self->{InformWritiable} = 0;
       $self->{InformReadable}  = 0;
       $self->{Timeoutable}     = 0;
   }
   
   #  ToVersionRequest
   #    Called to transition to "RequestVersion"  also done a few times
   #    so worth subbing out.
   #
   sub ToVersionRequest {
       my $self   = shift;
       
       $self->Transition("RequestingVersion");
       $self->{InformReadable}   = 0;
       $self->{InformWritable}   = 1;
       $self->{TransactionRequest} = "version\n";
       
   }
   #
   #  CreateCipher
   #    Given a cipher key stores the key in the object context,
   #    creates the cipher object, (stores that in object context),
   #    This is done a couple of places, so it's worth factoring it out.
   #
   # Parameters:
   #    (self)
   #    key - The Cipher key.
   #
   # Returns:
   #    0   - Failure to create IDEA cipher.
   #    1   - Success.
   #
   sub CreateCipher {
       my ($self, $key)   = @_; # According to coding std.
   
       $self->{CipherKey} = $key; # Save the text key...
       my $packedkey = pack ("H32", $key);
       my $cipher            = new IDEA $packedkey;
       if($cipher) {
    $self->{Cipher} = $cipher;
    Debug("Cipher created  dumping socket: ");
    $self->Dump(9);
    return 1;
       }
       else {
    return 0;
       }
   }
   # ExchangeKeysViaSSL
   #     Called to do cipher key exchange via SSL.
   #     The socket is promoted to an SSL socket. If that's successful,
   #     we read out cipher key through the socket and create an IDEA
   #     cipher object.
   # Parameters:
   #    (self)
   # Returns:
   #      true    - Success.
   #      false   - Failure.
   #
   # Assumptions:
   #  1.   The ssl session setup has timeout logic built in so we don't
   #     have to worry about DOS attacks at that stage.
   #  2.   If the ssl session gets set up we are talking to a legitimate
   #     lond so again we don't have to worry about DOS attacks.
   #  All this allows us just to call 
   sub ExchangeKeysViaSSL {
       my $self   = shift;
       my $socket = $self->{Socket};
       my $peer = $self->{LoncapaHim};
       my $peerdef = $self->{LoncapaDefid};
   
       #  Get our signed certificate, the certificate authority's 
       #  certificate and our private key file.  All of these
       #  are needed to create the ssl connection.
   
       my ($SSLCACertificate,
    $SSLCertificate) = lonssl::CertificateFile();
       my $SSLKey             = lonssl::KeyFile();
       my $CRLFile;
       unless ($crlchecked{$peerdef}) {
           $CRLFile = lonssl::CRLFile();
           $crlchecked{$peerdef} = 1;
       }
       #  Promote our connection to ssl and read the key from lond.
   
       my $SSLSocket = lonssl::PromoteClientSocket($socket,
    $SSLCACertificate,
    $SSLCertificate,
    $SSLKey,
                                                   $peer,
                                                   $peerdef,
                                                   $CRLFile);
       if(defined $SSLSocket) {
    my $key  = <$SSLSocket>;
    lonssl::Close($SSLSocket);
    if($key) {
       chomp($key); # \n is not part of the key.
       return $self->CreateCipher($key);
    } 
    else {
       Debug(3, "Failed to read ssl key");
       return 0;
    }
       }
       else {
    # Failed!!
    Debug(3, "Failed to negotiate SSL connection!");
    return -1;
       }
       # should not get here
       return 0;
   
 =head2 GetHostIterator  }
   
 Returns a hash iterator to the host information.  Each get from   
 this iterator returns a reference to an array that contains   
 information read from the hosts configuration file.  Array elements  
 are used as follows:  
   
  [0]   - LonCapa host name.  
  [1]   - LonCapa domain name.  
  [2]   - Loncapa role (e.g. library or access).  
  [3]   - DNS name server hostname.  
  [4]   - IP address (result of e.g. nslooup [3]).  
  [5]   - Maximum connection count.  
  [6]   - Idle timeout for reducing connection count.  
  [7]   - Minimum connection count.  
   
 =cut  #
   #  CompleteInsecure:
   #      This function is called to initiate the completion of
   #      insecure challenge response negotiation.
   #      To do this, we copy the challenge string to the transaction
   #      request, flip to writability and state transition to 
   #      ChallengeReceived..
   #      All this is only possible if InsecureOk is true.
   # Parameters:
   #      (self)    - This object's context hash.
   #  Return:
   #      0   - Ok to transition.
   #     -1   - Not ok to transition (InsecureOk not ok).
   #
   sub CompleteInsecure {
       my $self = shift;
       if ($self->{InsecureOK}) {
    $self->{AuthenticationMode} = "insecure";
    &Debug(8," Transition out of Initialized:insecure");
    $self->{TransactionRequest} = $self->{TransactionReply};
    $self->{InformWritable}     = 1;
    $self->{InformReadable}     = 0;
    $self->Transition("ChallengeReceived");
    $self->{TimeoutRemaining}   = $self->{TimeoutValue};
    return 0;
   
   
       }
       else {
    &Debug(3, "Insecure key negotiation disabled!");
    my $socket = $self->{Socket};
    $socket->close;
    return -1;
       }
   }
   
   ###########################################################
   #
   #  The following is an unashamed kludge that is here to
   # allow LondConnection to be used outside of the
   # loncapa environment (e.g. by lonManage).
   # 
   #   This is a textual inclusion of pieces of the
   #   Configuration.pm module.
   #
   
   
   my @confdirs=('/etc/httpd/conf/','/etc/apache2/');
   
   # ------------------- Subroutine read_conf: read LON-CAPA server configuration.
   # This subroutine reads PerlSetVar values out of specified web server
   # configuration files.
   sub read_conf
     {
       my (@conf_files)=@_;
       my (%perlvar,%configdirs);
       foreach my $filename (@conf_files,'loncapa_apache.conf') {
           my $configdir = '';
           $configdirs{$filename} = [@confdirs];
           while ($configdir eq '' && @{$configdirs{$filename}} > 0) {
               my $testdir = shift(@{$configdirs{$filename}});
               if (-e $testdir.$filename) {
                   $configdir = $testdir;
               }
           }
           if ($configdir eq '') {
               die("Couldn't find a directory containing $filename");
           }
    if($DebugLevel > 3) {
       print STDERR ("Going to read $configdir.$filename\n");
    }
    open(CONFIG,'<'.$configdir.$filename) or
       die("Can't read $configdir$filename");
    while (my $configline=<CONFIG>) {
       if ($configline =~ /^[^\#]*PerlSetVar/) {
           my ($unused,$varname,$varvalue)=split(/\s+/,$configline);
    chomp($varvalue);
    $perlvar{$varname}=$varvalue;
       }
    }
    close(CONFIG);
       }
       if($DebugLevel > 3) {
    print STDERR "Dumping perlvar:\n";
    foreach my $var (keys %perlvar) {
       print STDERR "$var = $perlvar{$var}\n";
    }
       }
       my $perlvarref=\%perlvar;
       return $perlvarref;
   }
   
   #
   #   Get the version of our peer.  Note that this is only well
   #   defined if the state machine has hit the idle state at least
   #   once (well actually if it has transitioned out of 
   #   ReadingVersionString   The member data LondVersion is returned.
   #
   sub PeerVersion {
      my $self = shift;
      my ($version) = ($self->{LondVersion} =~ /Revision: 1\.(\d+)/);
      return $version;
   }
   
   #
   #  Manipulate the client data field
   #
   sub SetClientData {
       my ($self, $newData) = @_;
       $self->{ClientData} = $newData;
   }
   #
   #  Get the current client data field.
   #
   sub GetClientData {
       my $self = shift;
       return $self->{ClientData};
   }
   
   #
   # Get the HostID of our peer 
   #
   
   sub PeerLoncapaHim {
       my $self = shift;
       return $self->{LoncapaHim};
   }
   
 sub GetHostIterator {  #
   # Get the Authentication mode
   #
   
     return HashIterator->new(\%hostshash);      sub GetKeyMode {
       my $self = shift;
       return $self->{AuthenticationMode};
 }  }
   
 1;  1;
Line 770  Socket open on the connection. Line 1324  Socket open on the connection.
   
 The current state.  The current state.
   
   =item AuthenticationMode
   
   How authentication is being done. This can be any of:
   
       o local - Authenticate via a key exchanged in a file.
       o ssl   - Authenticate via a key exchaned through a temporary ssl tunnel.
       o insecure - Exchange keys in an insecure manner.
   
   insecure is only allowed if the configuration parameter loncAllowInsecure 
   is nonzero.
   
 =item TransactionRequest  =item TransactionRequest
   
 The request being transmitted.  The request being transmitted.
Line 879  true if the current state requires a wri Line 1444  true if the current state requires a wri
   
 true if the current state requires timeout support.  true if the current state requires timeout support.
   
 =item GetHostIterator:  
   
 Returns an iterator into the host file hash.  
   
 =cut  =cut

Removed from v.1.7  
changed lines
  Added in v.1.61


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