Diff for /loncom/loncnew between versions 1.77 and 1.109

version 1.77, 2007/03/27 19:38:36 version 1.109, 2020/01/12 01:21:33
Line 26 Line 26
 # http://www.lon-capa.org/  # http://www.lon-capa.org/
 #  #
 #  #
 # new lonc handles n request out bver m connections to londs.  # new lonc handles n request out over m connections to londs.
 # This module is based on the Event class.  # This module is based on the Event class.
 #   Development iterations:  #   Development iterations:
 #    - Setup basic event loop.   (done)  #    - Setup basic event loop.   (done)
Line 60  use LONCAPA::Stack; Line 60  use LONCAPA::Stack;
 use LONCAPA::LondConnection;  use LONCAPA::LondConnection;
 use LONCAPA::LondTransaction;  use LONCAPA::LondTransaction;
 use LONCAPA::Configuration;  use LONCAPA::Configuration;
 use LONCAPA::HashIterator;  
 use Fcntl qw(:flock);  use Fcntl qw(:flock);
   
   
Line 73  my %perlvar    = %{$perlvarref}; Line 72  my %perlvar    = %{$perlvarref};
 #  #
 #  parent and shared variables.  #  parent and shared variables.
   
 my %ChildHash; # by pid -> host.  my %ChildPid; # by pid -> host.
 my %HostToPid; # By host -> pid.  my %ChildHost; # by host.
 my %HostHash; # by loncapaname -> IP.  my %ChildKeyMode;               # by pid -> keymode
 my %listening_to; # Socket->host table for who the parent  my %listening_to; # Socket->host table for who the parent
                                 # is listening to.                                  # is listening to.
 my %parent_dispatchers;         # host-> listener watcher events.   my %parent_dispatchers;         # host-> listener watcher events. 
Line 87  my $ClientConnection = 0; # Uniquifier f Line 86  my $ClientConnection = 0; # Uniquifier f
   
 my $DebugLevel = 0;  my $DebugLevel = 0;
 my $NextDebugLevel= 2; # So Sigint can toggle this.  my $NextDebugLevel= 2; # So Sigint can toggle this.
 my $IdleTimeout= 600; # Wait 10 minutes before pruning connections.  my $IdleTimeout= 5*60; # Seconds to wait prior to pruning connections.
   
 my $LogTransactions = 0; # When True, all transactions/replies get logged.  my $LogTransactions = 0; # When True, all transactions/replies get logged.
 my $executable      = $0; # Get the full path to me.  my $executable      = $0; # Get the full path to me.
Line 95  my $executable      = $0; # Get the full Line 94  my $executable      = $0; # Get the full
 #  #
 #  The variables below are only used by the child processes.  #  The variables below are only used by the child processes.
 #  #
 my $RemoteHost; # Name of host child is talking to.  my $RemoteHost; # Hostname of host child is talking to.
   my $RemoteHostId; # lonid of host child is talking to.
   my $RemoteDefHostId; # default lonhostID of host child is talking to.
   my $RemoteLoncapaRev;           # LON-CAPA version of host child is talking to.
   my @all_host_ids;
 my $UnixSocketDir= $perlvar{'lonSockDir'};  my $UnixSocketDir= $perlvar{'lonSockDir'};
 my $IdleConnections = Stack->new(); # Set of idle connections  my $IdleConnections = Stack->new(); # Set of idle connections
 my %ActiveConnections; # Connections to the remote lond.  my %ActiveConnections; # Connections to the remote lond.
Line 114  my $LondConnecting  = 0;       # True wh Line 117  my $LondConnecting  = 0;       # True wh
   
   
   
 my $DieWhenIdle     = 1; # When true children die when trimmed -> 0.  
 my $hosts_tab       = 1;        # True if we are using a static hosts.tab  
 my $I_am_child      = 0; # True if this is the child process.  my $I_am_child      = 0; # True if this is the child process.
   
 #  #
Line 160  sub LogPerm { Line 161  sub LogPerm {
     my $now=time;      my $now=time;
     my $local=localtime($now);      my $local=localtime($now);
     my $fh=IO::File->new(">>$execdir/logs/lonnet.perm.log");      my $fh=IO::File->new(">>$execdir/logs/lonnet.perm.log");
       chomp($message);
     print $fh "$now:$message:$local\n";      print $fh "$now:$message:$local\n";
 }  }
   
Line 309  sub SocketTimeout { Line 311  sub SocketTimeout {
     }      }
   
 }  }
   
 #  #
 #   This function should be called by the child in all cases where it must  #   This function should be called by the child in all cases where it must
 #   exit.  If the child process is running with the DieWhenIdle turned on  #   exit.  The child process must create a lock file for the AF_UNIX socket
 #   it must create a lock file for the AF_UNIX socket in order to prevent  #   in order to prevent connection requests from lonnet in the time between
 #   connection requests from lonnet in the time between process exit  #   process exit and the parent picking up the listen again.
 #   and the parent picking up the listen again.  #
 # Parameters:  # Parameters:
 #     exit_code           - Exit status value, however see the next parameter.  #     exit_code           - Exit status value, however see the next parameter.
 #     message             - If this optional parameter is supplied, the exit  #     message             - If this optional parameter is supplied, the exit
Line 325  sub child_exit { Line 328  sub child_exit {
   
     # Regardless of how we exit, we may need to do the lock thing:      # Regardless of how we exit, we may need to do the lock thing:
   
     if($DieWhenIdle) {      #
  #      #  Create a lock file since there will be a time window
  #  Create a lock file since there will be a time window      #  between our exit and the parent's picking up the listen
  #  between our exit and the parent's picking up the listen      #  during which no listens will be done on the
  #  during which no listens will be done on the      #  lonnet client socket.
  #  lonnet client socket.      #
  #      my $lock_file = &GetLoncSocketPath().".lock";
  my $lock_file = &GetLoncSocketPath().".lock";      open(LOCK,">$lock_file");
  open(LOCK,">$lock_file");      print LOCK "Contents not important";
  print LOCK "Contents not important";      close(LOCK);
  close(LOCK);      unlink(&GetLoncSocketPath());
  if ($hosts_tab) {  
     unlink(&GetLoncSocketPath());  
  }  
  exit(0);  
     }  
     #  Now figure out how we exit:  
   
     if($message) {      if ($message) {
  die $message;   die($message);
     } else {      } else {
  exit($exit_code);   exit($exit_code);
     }      }
Line 355  sub child_exit { Line 352  sub child_exit {
   
 =head2 Tick  =head2 Tick
   
 Invoked  each timer tick.  Invoked each timer tick.
   
 =cut  =cut
   
Line 378  sub Tick { Line 375  sub Tick {
     KillSocket($Socket);      KillSocket($Socket);
     $IdleSeconds = 0; # Otherwise all connections get trimmed to fast.      $IdleSeconds = 0; # Otherwise all connections get trimmed to fast.
     UpdateStatus();      UpdateStatus();
     if(($ConnectionCount == 0) && $DieWhenIdle) {      if(($ConnectionCount == 0)) {
  &child_exit(0);   &child_exit(0);
   
     }      }
Line 447  Trigger disconnections of idle sockets. Line 444  Trigger disconnections of idle sockets.
   
 sub SetupTimer {  sub SetupTimer {
     Debug(6, "SetupTimer");      Debug(6, "SetupTimer");
     Event->timer(interval => 1, cb => \&Tick );      Event->timer(interval => 1, cb => \&Tick,
    hard => 1);
 }  }
   
 =pod  =pod
Line 493  sub ServerToIdle { Line 491  sub ServerToIdle {
   
 Event callback for when a client socket is writable.  Event callback for when a client socket is writable.
   
 This callback is established when a transaction reponse is  This callback is established when a transaction response is
 avaiable from lond.  The response is forwarded to the unix socket  available from lond.  The response is forwarded to the unix socket
 as it becomes writable in this sub.  as it becomes writable in this sub.
   
 Parameters:  Parameters:
Line 509  the data and Event->w->fd is the socket Line 507  the data and Event->w->fd is the socket
 sub ClientWritable {  sub ClientWritable {
     my $Event    = shift;      my $Event    = shift;
     my $Watcher  = $Event->w;      my $Watcher  = $Event->w;
       if (!defined($Watcher)) {
    &child_exit(-1,'No watcher for event in ClientWritable');
       }
     my $Data     = $Watcher->data;      my $Data     = $Watcher->data;
     my $Socket   = $Watcher->fd;      my $Socket   = $Watcher->fd;
   
Line 561  sub ClientWritable { Line 562  sub ClientWritable {
     if($errno == POSIX::EWOULDBLOCK   ||      if($errno == POSIX::EWOULDBLOCK   ||
        $errno == POSIX::EAGAIN        ||         $errno == POSIX::EAGAIN        ||
        $errno == POSIX::EINTR) {         $errno == POSIX::EINTR) {
  # No action taken?   # No action taken...the socket will be writable firing the event again
    # which will result in a retry of the write.
     } else { # Unanticipated errno.      } else { # Unanticipated errno.
  &Debug(5,"ClientWritable error or peer shutdown".$RemoteHost);   &Debug(5,"ClientWritable error or peer shutdown".$RemoteHost);
  $Watcher->cancel; # Stop the watcher.   $Watcher->cancel; # Stop the watcher.
Line 572  sub ClientWritable { Line 574  sub ClientWritable {
  }   }
     } else {      } else {
  $Watcher->cancel(); # A delayed request...just cancel.   $Watcher->cancel(); # A delayed request...just cancel.
    return;
     }      }
 }  }
   
Line 589  Parameters: Line 592  Parameters:
   
 =item Socket  =item Socket
   
 Socket on which the lond transaction occured.  This is a  Socket on which the lond transaction occurred.  This is a
 LondConnection. The data received is in the TransactionReply member.  LondConnection. The data received are in the TransactionReply member.
   
 =item Transaction  =item Transaction
   
Line 611  sub CompleteTransaction { Line 614  sub CompleteTransaction {
  StartClientReply($Transaction, $data);   StartClientReply($Transaction, $data);
     } else { # Delete deferred transaction file.      } else { # Delete deferred transaction file.
  Log("SUCCESS", "A delayed transaction was completed");   Log("SUCCESS", "A delayed transaction was completed");
  LogPerm("S:$Transaction->getClient() :".$Transaction->getRequest());   LogPerm("S:".$Transaction->getClient().":".$Transaction->getRequest());
  unlink $Transaction->getFile();   unlink($Transaction->getFile());
     }      }
 }  }
   
Line 630  sub CompleteTransaction { Line 633  sub CompleteTransaction {
   
 =item data  =item data
   
     The data to send to apached client.      The data to send to apache client.
   
 =cut  =cut
   
Line 669  Parameters: Line 672  Parameters:
 =item client    =item client  
     
    The LondTransaction we are failing.     The LondTransaction we are failing.
    
   
 =cut  =cut
   
Line 741  Parameters: Line 743  Parameters:
     
   The socket to kill off.    The socket to kill off.
   
 =item Restart  =item restart
   
 nonzero if we are allowed to create a new connection.  non-zero if we are allowed to create a new connection.
   
 =cut  =cut
   
 sub KillSocket {  sub KillSocket {
     my $Socket = shift;      my $Socket = shift;
       my $restart = shift;
   
     Log("WARNING", "Shutting down a socket");      Log("WARNING", "Shutting down a socket");
     $Socket->Shutdown();      $Socket->Shutdown();
Line 763  sub KillSocket { Line 766  sub KillSocket {
  delete ($ActiveTransactions{$Socket});   delete ($ActiveTransactions{$Socket});
     }      }
     if(exists($ActiveConnections{$Socket})) {      if(exists($ActiveConnections{$Socket})) {
    $ActiveConnections{$Socket}->cancel;
  delete($ActiveConnections{$Socket});   delete($ActiveConnections{$Socket});
  $ConnectionCount--;          # Decrement ConnectionCount unless we will immediately
           # re-connect (i.e., $restart is true), because this was
           # a connection where the SSL channel for exchange of the
           # shared key failed, and we may use an insecure channel.
           unless ($restart) {
       $ConnectionCount--;
           }
  if ($ConnectionCount < 0) { $ConnectionCount = 0; }   if ($ConnectionCount < 0) { $ConnectionCount = 0; }
     }      }
     #  If the connection count has gone to zero and there is work in the      #  If the connection count has gone to zero and there is work in the
     #  work queue, the work all gets failed with con_lost.      #  work queue, the work all gets failed with con_lost.
     #      #
     
     if($ConnectionCount == 0) {      if($ConnectionCount == 0) {
    $LondConnecting = 0; # No connections so also not connecting.
  EmptyQueue();   EmptyQueue();
  CloseAllLondConnections; # Should all already be closed but...   CloseAllLondConnections(); # Should all already be closed but...
           &clear_childpid($$);
     }      }
       UpdateStatus();
 }  }
   
 =pod  =pod
Line 785  is readable.  The action is state depend Line 799  is readable.  The action is state depend
   
 =head3 State=Initialized  =head3 State=Initialized
   
 We''re waiting for the challenge, this is a no-op until the  We are waiting for the challenge, this is a no-op until the
 state changes.  state changes.
   
 =head3 State=Challenged   =head3 State=Challenged 
Line 795  The connection must echo the challenge b Line 809  The connection must echo the challenge b
   
 =head3 State=ChallengeReplied  =head3 State=ChallengeReplied
   
 The challenge has been replied to.  The we are receiveing the   The challenge has been replied to.  Then we are receiving the 
 'ok' from the partner.  'ok' from the partner.
   
 =head3  State=ReadingVersionString  =head3  State=ReadingVersionString
Line 821  The the key has been requested, now we a Line 835  The the key has been requested, now we a
 =head3 State=Idle   =head3 State=Idle 
   
 The encryption key has been negotiated or we have finished   The encryption key has been negotiated or we have finished 
 reading data from the a transaction.   If the callback data has  reading data from the a transaction.   If the callback data have
 a client as well as the socket iformation, then we are   a client as well as the socket information, then we are 
 doing a transaction and the data received is relayed to the client  doing a transaction and the data received are relayed to the client
 before the socket is put on the idle list.  before the socket is put on the idle list.
   
 =head3 State=SendingRequest  =head3 State=SendingRequest
Line 840  to readable to receive the reply. Line 854  to readable to receive the reply.
 The parameter to this function are:  The parameter to this function are:
   
 The event. Implicit in this is the watcher and its data.  The data   The event. Implicit in this is the watcher and its data.  The data 
 contains at least the lond connection object and, if a   contain at least the lond connection object and, if a 
 transaction is in progress, the socket attached to the local client.  transaction is in progress, the socket attached to the local client.
   
 =cut  =cut
Line 868  sub LondReadable { Line 882  sub LondReadable {
   
  Log("WARNING",   Log("WARNING",
     "Lond connection lost.");      "Lond connection lost.");
           my $state_on_exit = $Socket->GetState();
  if(exists($ActiveTransactions{$Socket})) {   if(exists($ActiveTransactions{$Socket})) {
     FailTransaction($ActiveTransactions{$Socket});      FailTransaction($ActiveTransactions{$Socket});
  } else {   } else {
     #  Socket is connecting and failed... need to mark      #  Socket is connecting and failed... need to mark
     #  no longer connecting.      #  no longer connecting.
      
     $LondConnecting = 0;      $LondConnecting = 0;
  }   }
  $Watcher->cancel();   $Watcher->cancel();
  KillSocket($Socket);          if ($state_on_exit eq 'ReInitNoSSL') {
  $ConnectionRetriesLeft--;       # Counts as connection failure              # SSL certificate verification failed, and insecure connection
               # allowed. Send restart arg to KillSocket(), so EmptyQueue() 
               # is not called, as we still hope to process queued request.
   
               KillSocket($Socket,1);
   
               # Re-initiate creation of Lond Connection for use with queued
               # request.
   
               ShowStatus("Connected to ".$RemoteHost);
               Log("WARNING","No SSL channel (verification failed), will try with insecure channel");
               &MakeLondConnection(1);
   
           } else {
       KillSocket($Socket);
       $ConnectionRetriesLeft--;       # Counts as connection failure         
           }
  return;   return;
     }      }
     SocketDump(6,$Socket);      SocketDump(6,$Socket);
Line 889  sub LondReadable { Line 919  sub LondReadable {
     if($State eq "Initialized") {      if($State eq "Initialized") {
   
   
       } elsif ($State eq "ReInitNoSSL") {
   
     } elsif ($State eq "ChallengeReceived") {      } elsif ($State eq "ChallengeReceived") {
  #  The challenge must be echoed back;  The state machine   #  The challenge must be echoed back;  The state machine
  # in the connection takes care of setting that up.  Just   # in the connection takes care of setting that up.  Just
Line 925  sub LondReadable { Line 957  sub LondReadable {
     } elsif ($State eq "ReceivingKey") {      } elsif ($State eq "ReceivingKey") {
   
     } elsif ($State eq "Idle") {      } elsif ($State eq "Idle") {
      
           if ($ConnectionCount == 1) { 
               # Write child Pid file to keep track of ssl and insecure
               # connections
   
               &record_childpid($Socket);
           }
   
  # This is as good a spot as any to get the peer version   # This is as good a spot as any to get the peer version
  # string:   # string:
         
Line 945  sub LondReadable { Line 984  sub LondReadable {
     CompleteTransaction($Socket,       CompleteTransaction($Socket, 
  $ActiveTransactions{$Socket});   $ActiveTransactions{$Socket});
  } else {   } else {
     Log("SUCCESS", "Connection ".$ConnectionCount." to "      my $count = $Socket->GetClientData();
       Log("SUCCESS", "Connection ".$count." to "
  .$RemoteHost." now ready for action");   .$RemoteHost." now ready for action");
  }   }
  ServerToIdle($Socket); # Next work unit or idle.   ServerToIdle($Socket); # Next work unit or idle.
Line 982  event.  The action taken is very state d Line 1022  event.  The action taken is very state d
 =head3 State = Connected   =head3 State = Connected 
   
 The connection is in the process of sending the 'init' hailing to the  The connection is in the process of sending the 'init' hailing to the
 lond on the remote end.  The connection object''s Writable member is  lond on the remote end.  The Writable member of the connection object
 called.  On error, ConnectionError is called to destroy the connection  is called.  On error, call ConnectionError to destroy the connection
 and remove it from the ActiveConnections hash  and remove it from the ActiveConnections hash.
   
 =head3 Initialized  =head3 Initialized
   
Line 1089  sub LondWritable { Line 1129  sub LondWritable {
   
  $Watcher->cb(\&LondReadable);   $Watcher->cb(\&LondReadable);
  $Watcher->poll("r");   $Watcher->poll("r");
   
       } elsif ($State eq "ReInitNoSSL") {
   
     } elsif ($State eq "ChallengeReceived") {      } elsif ($State eq "ChallengeReceived") {
  # We received the challenge, now we    # We received the challenge, now we 
  # are echoing it back. This is a no-op,   # are echoing it back. This is a no-op,
Line 1156  sub LondWritable { Line 1198  sub LondWritable {
     }      }
           
 }  }
   
 =pod  =pod
           
 =cut  =cut
   
   
 sub QueueDelayed {  sub QueueDelayed {
     Debug(3,"QueueDelayed called");      Debug(3,"QueueDelayed called");
   
Line 1168  sub QueueDelayed { Line 1212  sub QueueDelayed {
     Debug(4, "Delayed path: ".$path);      Debug(4, "Delayed path: ".$path);
     opendir(DIRHANDLE, $path);      opendir(DIRHANDLE, $path);
   
     my @all_host_ids;      my $host_id_re = '(?:'.join('|',map {quotemeta($_)} (@all_host_ids)).')';
     my $host_iterator =   &LondConnection::GetHostIterator();  
     while (!$host_iterator->end()) {  
  my ($host_id,$host_name) = @{$host_iterator->get()}[0,3];  
  if ($host_name eq $RemoteHost) {  
     push(@all_host_ids, $host_id);  
  }  
  $host_iterator->next();  
     }  
     my $host_id_re = '(?:'.join('|',@all_host_ids).')';  
     my @alldelayed = grep(/\.$host_id_re$/, readdir(DIRHANDLE));      my @alldelayed = grep(/\.$host_id_re$/, readdir(DIRHANDLE));
     closedir(DIRHANDLE);      closedir(DIRHANDLE);
     foreach my $dfname (sort(@alldelayed)) {      foreach my $dfname (sort(@alldelayed)) {
Line 1200  sub QueueDelayed { Line 1235  sub QueueDelayed {
 =head2 MakeLondConnection  =head2 MakeLondConnection
   
 Create a new lond connection object, and start it towards its initial  Create a new lond connection object, and start it towards its initial
 idleness.  Once idle, it becomes elligible to receive transactions  idleness.  Once idle, it becomes eligible to receive transactions
 from the work queue.  If the work queue is not empty when the  from the work queue.  If the work queue is not empty when the
 connection is completed and becomes idle, it will dequeue an entry and  connection is completed and becomes idle, it will dequeue an entry and
 start off on it.  start off on it.
   
 =cut  =cut
   
 sub MakeLondConnection {       sub MakeLondConnection {
       my ($restart) = @_;
     Debug(4,"MakeLondConnection to ".GetServerHost()." on port "      Debug(4,"MakeLondConnection to ".GetServerHost()." on port "
   .GetServerPort());    .GetServerPort());
   
     my $Connection = LondConnection->new(&GetServerHost(),      my $Connection = LondConnection->new(&GetServerHost(),
  &GetServerPort());   &GetServerPort(),
    &GetHostId(),
    &GetDefHostId(),
    &GetLoncapaRev());
   
     if($Connection eq undef) { # Needs to be more robust later.      if($Connection eq undef) {
  Log("CRITICAL","Failed to make a connection with lond.");   Log("CRITICAL","Failed to make a connection with lond.");
  $ConnectionRetriesLeft--;   $ConnectionRetriesLeft--;
  return 0; # Failure.   return 0; # Failure.
     }  else {      }  else {
    $LondConnecting = 1; # Connection in progress.
  # The connection needs to have writability    # The connection needs to have writability 
  # monitored in order to send the init sequence   # monitored in order to send the init sequence
  # that starts the whole authentication/key   # that starts the whole authentication/key
Line 1243  sub MakeLondConnection { Line 1282  sub MakeLondConnection {
  if ($ConnectionCount == 0) {   if ($ConnectionCount == 0) {
     &SetupTimer; # Need to handle timeouts with connections...      &SetupTimer; # Need to handle timeouts with connections...
  }   }
  $ConnectionCount++;          unless ($restart) {
       $ConnectionCount++;
           }
    $Connection->SetClientData($ConnectionCount);
  Debug(4, "Connection count = ".$ConnectionCount);   Debug(4, "Connection count = ".$ConnectionCount);
  if($ConnectionCount == 1) { # First Connection:   if($ConnectionCount == 1) { # First Connection:
     QueueDelayed;      QueueDelayed;
  }   }
  Log("SUCESS", "Created connection ".$ConnectionCount   Log("SUCCESS", "Created connection ".$ConnectionCount
     ." to host ".GetServerHost());      ." to host ".GetServerHost());
  $LondConnecting = 1; # Connection in progress.  
  return 1; # Return success.   return 1; # Return success.
     }      }
           
Line 1270  reply. Line 1311  reply.
   
 =item $Client  =item $Client
   
 Connection to the client that is making this request We got the  Connection to the client that is making this request. We got the
 request from this socket, and when the request has been relayed to  request from this socket, and when the request has been relayed to
 lond and we get a reply back from lond it will get sent to this  lond and we get a reply back from lond it will get sent to this
 socket.  socket.
Line 1356  sub QueueTransaction { Line 1397  sub QueueTransaction {
     }      }
 }  }
   
 #-------------------------- Lonc UNIX socket handling ---------------------  #-------------------------- Lonc UNIX socket handling -------------------
   
 =pod  =pod
   
 =head2 ClientRequest  =head2 ClientRequest
   
 Callback that is called when data can be read from the UNIX domain  Callback that is called when data can be read from the UNIX domain
 socket connecting us with an apache server process.  socket connecting us with an apache server process.
   
Line 1391  sub ClientRequest { Line 1432  sub ClientRequest {
     $data = $data.$thisread; # Append new data.      $data = $data.$thisread; # Append new data.
     $watcher->data($data);      $watcher->data($data);
     if($data =~ /\n$/) { # Request entirely read.      if($data =~ /\n$/) { # Request entirely read.
  if($data eq "close_connection_exit\n") {   if ($data eq "close_connection_exit\n") {
     Log("CRITICAL",      Log("CRITICAL",
  "Request Close Connection ... exiting");   "Request Close Connection ... exiting");
     CloseAllLondConnections();      CloseAllLondConnections();
     exit;      exit;
    } elsif ($data eq "reset_retries\n") {
       Log("INFO", "Resetting Connection Retries.");
       $ConnectionRetriesLeft = $ConnectionRetries;
       &UpdateStatus();
       my $Transaction = LondTransaction->new($data);
       $Transaction->SetClient($socket);
       StartClientReply($Transaction, "ok\n");
       $watcher->cancel();
       return;
  }   }
  Debug(8, "Complete transaction received: ".$data);   Debug(8, "Complete transaction received: ".$data);
  if($LogTransactions) {   if ($LogTransactions) {
     Log("SUCCESS", "Transaction: '$data'"); # Transaction has \n.      Log("SUCCESS", "Transaction: '$data'"); # Transaction has \n.
  }   }
  my $Transaction = LondTransaction->new($data);   my $Transaction = LondTransaction->new($data);
Line 1413  sub ClientRequest { Line 1463  sub ClientRequest {
 #     Accept a connection request for a client (lonc child) and  #     Accept a connection request for a client (lonc child) and
 #    start up an event watcher to keep an eye on input from that   #    start up an event watcher to keep an eye on input from that 
 #    Event.  This can be called both from NewClient and from  #    Event.  This can be called both from NewClient and from
 #    ChildProcess if we are started in DieWhenIdle mode.  #    ChildProcess.
 # Parameters:  # Parameters:
 #    $socket       - The listener socket.  #    $socket       - The listener socket.
 # Returns:  # Returns:
Line 1451  sub accept_client { Line 1501  sub accept_client {
 Callback that is called when a connection is received on the unix  Callback that is called when a connection is received on the unix
 socket for a new client of lonc.  The callback is parameterized by the  socket for a new client of lonc.  The callback is parameterized by the
 event.. which is a-priori assumed to be an io event, and therefore has  event.. which is a-priori assumed to be an io event, and therefore has
 an fd member that is the Listener socket.  We Accept the connection  an fd member that is the Listener socket.  We accept the connection
 and register a new event on the readability of that socket:  and register a new event on the readability of that socket:
   
 =cut  =cut
Line 1502  sub GetServerHost { Line 1552  sub GetServerHost {
   
 =pod  =pod
   
   =head2 GetHostId
   
   Returns the hostid whose lond we talk with.
   
   =cut
   
   sub GetHostId {
       return $RemoteHostId; # Setup by the fork.
   }
   
   =pod
   
   =head2 GetDefHostId
   
   Returns the default hostid for the node whose lond we talk with.
   
   =cut
   
   sub GetDefHostId {                      # Setup by the fork.
       return $RemoteDefHostId;
   }
   
   =pod
   
   =head2 GetLoncapaRev
   
   Returns the LON-CAPA version for the node whose lond we talk with.
   
   =cut
   
   sub GetLoncapaRev {
       return $RemoteLoncapaRev;           # Setup by the fork.
   }
   
   =pod
   
 =head2 GetServerPort  =head2 GetServerPort
   
 Returns the lond port number.  Returns the lond port number.
Line 1519  sub GetServerPort { Line 1605  sub GetServerPort {
 Setup a lonc listener event.  The event is called when the socket  Setup a lonc listener event.  The event is called when the socket
 becomes readable.. that corresponds to the receipt of a new  becomes readable.. that corresponds to the receipt of a new
 connection.  The event handler established will accept the connection  connection.  The event handler established will accept the connection
 (creating a communcations channel), that int turn will establish  (creating a communications channel), that in turn will establish
 another event handler to subess requests.  another event handler to subess requests.
   
 =head2  Parameters:  =head2  Parameters:
Line 1529  another event handler to subess requests Line 1615  another event handler to subess requests
 =cut  =cut
   
 sub SetupLoncListener {  sub SetupLoncListener {
       my ($host,$SocketName) = @_;
       if (!$host) { $host = &GetServerHost(); }
       if (!$SocketName) { $SocketName = &GetLoncSocketPath($host); }
   
     my $host       = GetServerHost(); # Default host.  
     if (@_) {  
  ($host)    = @_ # Override host with parameter.  
     }  
   
     my $socket;  
     my $SocketName = GetLoncSocketPath($host);  
     unlink($SocketName);      unlink($SocketName);
   
       my $socket;
     unless ($socket =IO::Socket::UNIX->new(Local  => $SocketName,      unless ($socket =IO::Socket::UNIX->new(Local  => $SocketName,
     Listen => 250,       Listen => 250, 
     Type   => SOCK_STREAM)) {      Type   => SOCK_STREAM)) {
Line 1633  sub SignalledToDeath { Line 1718  sub SignalledToDeath {
  ."died through "."\"$signal\"");   ."died through "."\"$signal\"");
     #LogPerm("F:lonc: $$ on $RemoteHost signalled to death: "      #LogPerm("F:lonc: $$ on $RemoteHost signalled to death: "
 #    ."\"$signal\"");  #    ."\"$signal\"");
       &clear_childpid($$);
     exit 0;      exit 0;
   
 }  }
Line 1660  sub ToggleDebug { Line 1746  sub ToggleDebug {
   
 This sub implements a child process for a single lonc daemon.  This sub implements a child process for a single lonc daemon.
 Optional parameter:  Optional parameter:
    $socket  - if provided, this is a socket already open for listen     $socket  - if provided, this is a socket already open for listening
               on the client socket. Otherwise, a new listen is set up.                on the client socket. Otherwise, a new listener is set up.
   
 =cut  =cut
   
 sub ChildProcess {  sub ChildProcess {
     #  If we are in DieWhenIdle mode, we've inherited all the      #  We've inherited all the
     #  events of our parent and those have to be cancelled or else      #  events of our parent and those have to be cancelled or else
     #  all holy bloody chaos will result.. trust me, I already made      #  all holy bloody chaos will result.. trust me, I already made
     #  >that< mistake.      #  >that< mistake.
Line 1718  sub ChildProcess { Line 1804  sub ChildProcess {
   cb       => \&ToggleDebug,    cb       => \&ToggleDebug,
   data     => "INT");    data     => "INT");
   
       # Block the pipe signal we'll get when the socket disconnects.  We detect 
       # socket disconnection via send/receive failures. On disconnect, the
       # socket becomes readable .. which will force the disconnect detection.
   
       my $set = POSIX::SigSet->new(SIGPIPE);
       sigprocmask(SIG_BLOCK, $set);
   
     #  Figure out if we got passed a socket or need to open one to listen for      #  Figure out if we got passed a socket or need to open one to listen for
     #  client requests.      #  client requests.
   
Line 1742  sub ChildProcess { Line 1835  sub ChildProcess {
           
      # &MakeLondConnection(); // let first work request do it.       # &MakeLondConnection(); // let first work request do it.
   
     #  If We are in diwhenidle, need to accept the connection since the      #  need to accept the connection since the event may  not fire.
     #  event may  not fire.  
   
     if ($DieWhenIdle) {      &accept_client($socket);
  &accept_client($socket);  
     }  
   
     Debug(9,"Entering event loop");      Debug(9,"Entering event loop");
     my $ret = Event::loop(); #  Start the main event loop.      my $ret = Event::loop(); #  Start the main event loop.
Line 1759  sub ChildProcess { Line 1849  sub ChildProcess {
 #  Create a new child for host passed in:  #  Create a new child for host passed in:
   
 sub CreateChild {  sub CreateChild {
     my ($host, $socket) = @_;      my ($host, $hostid, $defhostid, $loncaparev) = @_;
   
     my $sigset = POSIX::SigSet->new(SIGINT);      my $sigset = POSIX::SigSet->new(SIGINT);
     sigprocmask(SIG_BLOCK, $sigset);      sigprocmask(SIG_BLOCK, $sigset);
     $RemoteHost = $host;      $RemoteHost = $host;
       ShowStatus('Parent keeping the flock'); # Update time in status message.
     Log("CRITICAL", "Forking server for ".$host);      Log("CRITICAL", "Forking server for ".$host);
     my $pid          = fork;      my $pid          = fork;
     if($pid) { # Parent      if($pid) { # Parent
  $RemoteHost = "Parent";   $RemoteHost = "Parent";
  $ChildHash{$pid} = $host;   $ChildPid{$pid} = $host;
  $HostToPid{$host}= $pid;  
  sigprocmask(SIG_UNBLOCK, $sigset);   sigprocmask(SIG_UNBLOCK, $sigset);
    undef(@all_host_ids);
     } else { # child.      } else { # child.
    $RemoteHostId = $hostid;
    $RemoteDefHostId = $defhostid;
           $RemoteLoncapaRev = $loncaparev;
  ShowStatus("Connected to ".$RemoteHost);   ShowStatus("Connected to ".$RemoteHost);
  $SIG{INT} = 'DEFAULT';   $SIG{INT} = 'DEFAULT';
  sigprocmask(SIG_UNBLOCK, $sigset);   sigprocmask(SIG_UNBLOCK, $sigset);
  if(defined $socket) {   &ChildProcess(); # Does not return.
     &ChildProcess($socket);  
  } else {  
     ChildProcess; # Does not return.  
  }  
     }      }
 }  }
   
Line 1808  sub parent_client_connection { Line 1897  sub parent_client_connection {
  my ($event)   = @_;   my ($event)   = @_;
  my $watcher   = $event->w;   my $watcher   = $event->w;
  my $socket    = $watcher->fd;   my $socket    = $watcher->fd;
  if ($hosts_tab) {   my $connection = $socket->accept(); # Accept the client connection.
    Event->io(cb      => \&get_remote_hostname,
     # Lookup the host associated with this socket:    poll    => 'r',
     data    => "",
     my $host = $listening_to{$socket};    fd      => $connection);
   
     # Start the child:  
   
   
   
     &Debug(9,"Creating child for $host (parent_client_connection)");  
     &CreateChild($host, $socket);  
       
     # Clean up the listen since now the child takes over until it exits.  
   
     $watcher->cancel(); # Nolonger listening to this event  
     delete($listening_to{$socket});  
     delete($parent_dispatchers{$host});  
     $socket->close();  
   
  } else {  
     my $connection = $socket->accept(); # Accept the client connection.  
     Event->io(cb      => \&get_remote_hostname,  
       poll    => 'r',  
       data    => "",  
       fd      => $connection);  
  }  
     }      }
 }  }
   
 sub get_remote_hostname {  sub get_remote_hostname {
  my ($event)   = @_;      my ($event)   = @_;
  my $watcher   = $event->w;      my $watcher   = $event->w;
  my $socket    = $watcher->fd;      my $socket    = $watcher->fd;
   
  my $thisread;  
  my $rv = $socket->recv($thisread, 1, 0);  
  Debug(8, "rcv:  data length = ".length($thisread)." read =".$thisread);  
  if (!defined($rv) || length($thisread) == 0) {  
     # Likely eof on socket.  
     Debug(5,"Client Socket closed on lonc for p_c_c");  
     close($socket);  
     $watcher->cancel();  
     return;  
  }  
   
  my $data    = $watcher->data().$thisread;      my $thisread;
  $watcher->data($data);      my $rv = $socket->recv($thisread, POSIX::BUFSIZ, 0);
  if($data =~ /\n$/) { # Request entirely read.      Debug(8, "rcv:  data length = ".length($thisread)." read =".$thisread);
     chomp($data);      if (!defined($rv) || length($thisread) == 0) {
  } else {   # Likely eof on socket.
     return;   Debug(5,"Client Socket closed on lonc for p_c_c");
  }   close($socket);
    $watcher->cancel();
  &Debug(5,"Creating child for $data (parent_client_connection)");   return;
  &CreateChild($data);      }
   
  # Clean up the listen since now the child takes over until it exits.      my $data    = $watcher->data().$thisread;
  $watcher->cancel(); # Nolonger listening to this event      $watcher->data($data);
  $socket->send("done\n");      if($data =~ /\n$/) { # Request entirely read.
  $socket->close();   chomp($data);
       } else {
    return;
       }
   
       &Debug(5,"Creating child for $data (parent_client_connection)");
       (my $hostname,my $lonid,@all_host_ids) = split(':',$data);
       $ChildHost{$hostname}++;
       if ($ChildHost{$hostname} == 1) {
    &CreateChild($hostname,$lonid,$all_host_ids[-1]);
       } else {
    &Log('WARNING',"Request for a second child on $hostname");
       }
       # Clean up the listen since now the child takes over until it exits.
       $watcher->cancel(); # Nolonger listening to this event
       $socket->send("done\n");
       $socket->close();
 }  }
   
 # parent_listen:  # parent_listen:
Line 1890  sub parent_listen { Line 1962  sub parent_listen {
     my ($loncapa_host) = @_;      my ($loncapa_host) = @_;
     Debug(5, "parent_listen: $loncapa_host");      Debug(5, "parent_listen: $loncapa_host");
   
     my $socket   = &SetupLoncListener($loncapa_host);      my ($socket,$file);
       if (!$loncapa_host) {
    $loncapa_host = 'common_parent';
    $file         = $perlvar{'lonSockCreate'};
       } else {
    $file         = &GetLoncSocketPath($loncapa_host);
       }
       $socket = &SetupLoncListener($loncapa_host,$file);
   
     $listening_to{$socket} = $loncapa_host;      $listening_to{$socket} = $loncapa_host;
     if (!$socket) {      if (!$socket) {
  die "Unable to create a listen socket for $loncapa_host";   die "Unable to create a listen socket for $loncapa_host";
     }      }
           
     my $lock_file = &GetLoncSocketPath($loncapa_host).".lock";      my $lock_file = $file.".lock";
     unlink($lock_file); # No problem if it doesn't exist yet [startup e.g.]      unlink($lock_file); # No problem if it doesn't exist yet [startup e.g.]
   
     my $watcher =       my $watcher = 
Line 1911  sub parent_listen { Line 1991  sub parent_listen {
   
 sub parent_clean_up {  sub parent_clean_up {
     my ($loncapa_host) = @_;      my ($loncapa_host) = @_;
     Debug(5, "parent_clean_up: $loncapa_host");      Debug(1, "parent_clean_up: $loncapa_host");
   
     my $socket_file = &GetLoncSocketPath($loncapa_host);      my $socket_file = &GetLoncSocketPath($loncapa_host);
     unlink($socket_file); # No problem if it doesn't exist yet [startup e.g.]      unlink($socket_file); # No problem if it doesn't exist yet [startup e.g.]
Line 1920  sub parent_clean_up { Line 2000  sub parent_clean_up {
 }  }
   
   
 # listen_on_all_unix_sockets:  
 #    This sub initiates a listen on all unix domain lonc client sockets.  #    This sub initiates a listen on the common unix domain lonc client socket.
 #    This will be called in the case where we are trimming idle processes.  #    loncnew starts up with no children, and only spawns off children when a
 #    When idle processes are trimmed, loncnew starts up with no children,  #    connection request occurs on the common client unix socket.  The spawned
 #    and only spawns off children when a connection request occurs on the  #    child continues to run until it has been idle a while at which point it
 #    client unix socket.  The spawned child continues to run until it has  #    eventually exits and once more the parent picks up the listen.
 #    been idle a while at which point it eventually exits and once more  
 #    the parent picks up the listen.  
 #  #
 #  Parameters:  #  Parameters:
 #      NONE  #      NONE
Line 1936  sub parent_clean_up { Line 2014  sub parent_clean_up {
 #  Returns:  #  Returns:
 #     NONE  #     NONE
 #  #
 sub listen_on_all_unix_sockets {  
     Debug(5, "listen_on_all_unix_sockets");  
     my $host_iterator      =   &LondConnection::GetHostIterator();  
     while (!$host_iterator->end()) {  
  my $host_entry_ref =   $host_iterator->get();  
  my $host_name      = $host_entry_ref->[3];  
  Debug(9, "Listen for $host_name");  
  &parent_listen($host_name);  
  $host_iterator->next();  
     }  
 }  
   
 sub listen_on_common_socket {  sub listen_on_common_socket {
     Debug(5, "listen_on_common_socket");      Debug(5, "listen_on_common_socket");
     &parent_listen('common');      &parent_listen();
 }  }
   
 #   server_died is called whenever a child process exits.  #   server_died is called whenever a child process exits.
Line 1972  sub server_died { Line 2038  sub server_died {
  }   }
  # need the host to restart:   # need the host to restart:
   
  my $host = $ChildHash{$pid};   my $host = $ChildPid{$pid};
  if($host) { # It's for real...   if($host) { # It's for real...
     &Debug(9, "Caught sigchild for $host");      &Debug(9, "Caught sigchild for $host");
     delete($ChildHash{$pid});              &clear_childpid($pid);
     delete($HostToPid{$host});      delete($ChildPid{$pid});
     if ($hosts_tab) {      delete($ChildHost{$host});
  &parent_listen($host);      &parent_clean_up($host);
     } else {  
  &parent_clean_up($host);  
     }  
       
  } else {   } else {
     &Debug(5, "Caught sigchild for pid not in hosts hash: $pid");      &Debug(5, "Caught sigchild for pid not in hosts hash: $pid");
  }   }
Line 2038  ShowStatus("Forking node servers"); Line 2101  ShowStatus("Forking node servers");
 Log("CRITICAL", "--------------- Starting children ---------------");  Log("CRITICAL", "--------------- Starting children ---------------");
   
 LondConnection::ReadConfig;               # Read standard config files.  LondConnection::ReadConfig;               # Read standard config files.
 my $HostIterator = LondConnection::GetHostIterator;  
   
 if ($DieWhenIdle) {  $RemoteHost = "[parent]";
     $RemoteHost = "[parent]";  &listen_on_common_socket();
     if ($hosts_tab) {  
  &listen_on_all_unix_sockets();  
     } else {  
  &listen_on_common_socket();  
     }  
 } else {  
       
     while (! $HostIterator->end()) {  
   
  my $hostentryref = $HostIterator->get();  
  CreateChild($hostentryref->[0]);  
  $HostHash{$hostentryref->[0]} = $hostentryref->[4];  
  $HostIterator->next();  
     }  
 }  
   
 $RemoteHost = "Parent Server";  $RemoteHost = "Parent Server";
   
Line 2065  $RemoteHost = "Parent Server"; Line 2112  $RemoteHost = "Parent Server";
 ShowStatus("Parent keeping the flock");  ShowStatus("Parent keeping the flock");
   
   
 if ($DieWhenIdle) {  # We need to setup a SIGChild event to handle the exit (natural or otherwise)
     # We need to setup a SIGChild event to handle the exit (natural or otherwise)  # of the children.
     # of the children.  
   
     Event->signal(cb       => \&server_died,  
    desc     => "Child exit handler",  
    signal   => "CHLD");  
   
   
     # Set up all the other signals we set up.  We'll vector them off to the  
     # same subs as we would for DieWhenIdle false and, if necessary, conditionalize  
     # the code there.  
   
     $parent_handlers{INT} = Event->signal(cb       => \&Terminate,  
   desc     => "Parent INT handler",  
   signal   => "INT");  
     $parent_handlers{TERM} = Event->signal(cb       => \&Terminate,  
    desc     => "Parent TERM handler",  
    signal   => "TERM");  
     if ($hosts_tab) {  
  $parent_handlers{HUP}  = Event->signal(cb       => \&Restart,  
        desc     => "Parent HUP handler.",  
        signal   => "HUP");  
     } else {  
  $parent_handlers{HUP}  = Event->signal(cb       => \&KillThemAll,  
        desc     => "Parent HUP handler.",  
        signal   => "HUP");  
     }  
     $parent_handlers{USR1} = Event->signal(cb       => \&CheckKids,  
    desc     => "Parent USR1 handler",  
    signal   => "USR1");  
     $parent_handlers{USR2} = Event->signal(cb       => \&UpdateKids,  
    desc     => "Parent USR2 handler.",  
    signal   => "USR2");  
       
     #  Start procdesing events.  
   
     $Event::DebugLevel = $DebugLevel;  
     Debug(9, "Parent entering event loop");  
     my $ret = Event::loop();  
     die "Main Event loop exited: $ret";  
   
   
 } else {  
     #  
     #   Set up parent signals:  
     #  
       
     $SIG{INT}  = \&Terminate;  
     $SIG{TERM} = \&Terminate;   
     if ($hosts_tab) {  
  $SIG{HUP}  = \&Restart;  
     } else {  
  $SIG{HUP}  = \&KillThemAll;  
     }  
     $SIG{USR1} = \&CheckKids;   
     $SIG{USR2} = \&UpdateKids; # LonManage update request.  
       
     while(1) {  
  my $deadchild = wait();  
  if(exists $ChildHash{$deadchild}) { # need to restart.  
     my $deadhost = $ChildHash{$deadchild};  
     delete($HostToPid{$deadhost});  
     delete($ChildHash{$deadchild});  
     Log("WARNING","Lost child pid= ".$deadchild.  
  "Connected to host ".$deadhost);  
     Log("INFO", "Restarting child procesing ".$deadhost);  
     CreateChild($deadhost);  
  }  
     }  
 }  
   
   Event->signal(cb       => \&server_died,
         desc     => "Child exit handler",
         signal   => "CHLD");
   
   
   # Set up all the other signals we set up.
   
   $parent_handlers{INT} = Event->signal(cb       => \&Terminate,
         desc     => "Parent INT handler",
         signal   => "INT");
   $parent_handlers{TERM} = Event->signal(cb       => \&Terminate,
          desc     => "Parent TERM handler",
          signal   => "TERM");
   $parent_handlers{HUP}  = Event->signal(cb       => \&KillThemAll,
          desc     => "Parent HUP handler.",
          signal   => "HUP");
   $parent_handlers{USR1} = Event->signal(cb       => \&CheckKids,
          desc     => "Parent USR1 handler",
          signal   => "USR1");
   $parent_handlers{USR2} = Event->signal(cb       => \&UpdateKids,
          desc     => "Parent USR2 handler.",
          signal   => "USR2");
   
   #  Start procdesing events.
   
   $Event::DebugLevel = $DebugLevel;
   Debug(9, "Parent entering event loop");
   my $ret = Event::loop();
   die "Main Event loop exited: $ret";
   
 =pod  =pod
   
 =head1 CheckKids  =head1 CheckKids
   
   Since kids do not die as easily in this implementation    Since kids do not die as easily in this implementation
 as the previous one, there  is no need to restart the  as the previous one, there is no need to restart the
 dead ones (all dead kids get restarted when they die!!)  dead ones (all dead kids get restarted when they die!!)
 The only thing this function does is to pass USR1 to the  The only thing this function does is to pass USR1 to the
 kids so that they report their status.  kids so that they report their status.
Line 2160  sub CheckKids { Line 2167  sub CheckKids {
     foreach my $host (keys %parent_dispatchers) {      foreach my $host (keys %parent_dispatchers) {
  print $fh "LONC Parent process listening for $host\n";   print $fh "LONC Parent process listening for $host\n";
     }      }
     foreach my $pid (keys %ChildHash) {      foreach my $pid (keys %ChildPid) {
  Debug(2, "Sending USR1 -> $pid");   Debug(2, "Sending USR1 -> $pid");
  kill 'USR1' => $pid; # Tell Child to report status.   kill 'USR1' => $pid; # Tell Child to report status.
     }      }
Line 2204  sub UpdateKids { Line 2211  sub UpdateKids {
     # The down side is transactions that are in flight will get timed out      # The down side is transactions that are in flight will get timed out
     # (lost unless they are critical).      # (lost unless they are critical).
   
     if ($hosts_tab) {      &KillThemAll();
  &Restart();      LondConnection->ResetReadConfig();
     } else {      ShowStatus('Parent keeping the flock');
  &KillThemAll();  
     }  
 }  }
   
   
Line 2217  sub UpdateKids { Line 2222  sub UpdateKids {
 =head1 Restart  =head1 Restart
   
 Signal handler for HUP... all children are killed and  Signal handler for HUP... all children are killed and
 we self restart.  This is an el-cheapo way to re read  we self restart.  This is an el-cheapo way to re-read
 the config file.  the config file.
   
 =cut  =cut
   
 sub Restart {  sub Restart {
     &KillThemAll; # First kill all the children.      &KillThemAll; # First kill all the children.
       LondConnection->ResetReadConfig();
     Log("CRITICAL", "Restarting");      Log("CRITICAL", "Restarting");
     my $execdir = $perlvar{'lonDaemons'};      my $execdir = $perlvar{'lonDaemons'};
     unlink("$execdir/logs/lonc.pid");      unlink("$execdir/logs/lonc.pid");
Line 2241  SIGHUP.  Responds to sigint and sigterm. Line 2247  SIGHUP.  Responds to sigint and sigterm.
   
 sub KillThemAll {  sub KillThemAll {
     Debug(2, "Kill them all!!");      Debug(2, "Kill them all!!");
     local($SIG{CHLD}) = 'IGNORE';      # Our children >will< die.      
     foreach my $pid (keys %ChildHash) {      #local($SIG{CHLD}) = 'IGNORE';
  my $serving = $ChildHash{$pid};      # Our children >will< die.
       # but we need to catch their death and cleanup after them in case this is 
       # a restart set of kills
       my @allpids = keys(%ChildPid);
       foreach my $pid (@allpids) {
    my $serving = $ChildPid{$pid};
  ShowStatus("Nicely Killing lonc for $serving pid = $pid");   ShowStatus("Nicely Killing lonc for $serving pid = $pid");
  Log("CRITICAL", "Nicely Killing lonc for $serving pid = $pid");   Log("CRITICAL", "Nicely Killing lonc for $serving pid = $pid");
  kill 'QUIT' => $pid;   kill 'QUIT' => $pid;
           &clear_childpid($pid);
     }      }
       ShowStatus("Finished killing child processes off.");
 }  }
   
   
Line 2259  sub really_kill_them_all_dammit Line 2272  sub really_kill_them_all_dammit
 {  {
     Debug(2, "Kill them all Dammit");      Debug(2, "Kill them all Dammit");
     local($SIG{CHLD} = 'IGNORE'); # In case some purist reenabled them.      local($SIG{CHLD} = 'IGNORE'); # In case some purist reenabled them.
     foreach my $pid (keys %ChildHash) {      foreach my $pid (keys %ChildPid) {
  my $serving = $ChildHash{$pid};   my $serving = $ChildPid{$pid};
  &ShowStatus("Nastily killing lonc for $serving pid = $pid");   &ShowStatus("Nastily killing lonc for $serving pid = $pid");
  Log("CRITICAL", "Nastily killing lonc for $serving pid = $pid");   Log("CRITICAL", "Nastily killing lonc for $serving pid = $pid");
  kill 'KILL' => $pid;   kill 'KILL' => $pid;
  delete($ChildHash{$pid});   delete($ChildPid{$pid});
           delete($ChildKeyMode{$pid});
  my $execdir = $perlvar{'lonDaemons'};   my $execdir = $perlvar{'lonDaemons'};
  unlink("$execdir/logs/lonc.pid");   unlink("$execdir/logs/lonc.pid");
     }      }
Line 2292  sub Terminate { Line 2306  sub Terminate {
     exit 0;      exit 0;
   
 }  }
   
   =pod
   
   =cut
   
   sub my_hostname {
       use Sys::Hostname::FQDN();
       my $name = Sys::Hostname::FQDN::fqdn();
       &Debug(9,"Name is $name");
       return $name;
   }
   
   sub record_childpid {
       my ($Socket) = @_;
       my $docdir = $perlvar{'lonDocRoot'};
       my $authmode = $Socket->GetKeyMode();
       my $peer = $Socket->PeerLoncapaHim();
       if (($authmode eq 'ssl') || ($authmode eq 'insecure')) {
           my $childpid = $$;
           if ($childpid) {
               unless (exists($ChildKeyMode{$childpid})) {
                   $ChildKeyMode{$childpid} = $authmode;
               }
               if (-d "$docdir/lon-status/loncchld") {
                   unless (-e "$docdir/lon-status/loncchld/$childpid") {
                       if (open (my $pidfh,'>',"$docdir/lon-status/loncchld/$childpid")) {
                           print $pidfh "$peer:$authmode\n";
                           close($pidfh);
                       }
                   }
               }
           }
       }
       return;
   }
   
   sub clear_childpid {
       my ($childpid) = @_; 
       my $docdir = $perlvar{'lonDocRoot'};
       if (-d "$docdir/lon-status/loncchld") {
           if ($childpid =~ /^\d+$/) {
               if (($ChildKeyMode{$childpid} eq 'insecure') ||
                   ($ChildKeyMode{$childpid} eq 'ssl')) {
                   if (-e "$docdir/lon-status/loncchld/$childpid") {
                       unlink("$docdir/lon-status/loncchld/$childpid");
                   }
               }
           }
       }
       if (exists($ChildKeyMode{$childpid})) {
           delete($ChildKeyMode{$childpid});
       }
       return;
   }
   
 =pod  =pod
   
 =head1 Theory  =head1 Theory
Line 2333  A hash of lond connections that have no Line 2402  A hash of lond connections that have no
 can be closed if they are idle for a long enough time.  can be closed if they are idle for a long enough time.
   
 =cut  =cut
   
   =pod
   
   =head1 Log messages
   
   The following is a list of log messages that can appear in the 
   lonc.log file.  Each log file has a severity and a message.
   
   =over 2
   
   =item Warning  A socket timeout was detected
   
   If there are pending transactions in the socket's queue,
   they are failed (saved if critical).  If the connection
   retry count gets exceeded by this, the
   remote host is marked as dead.
   Called when timeouts occurred during the connection and
   connection dialog with a remote host.
   
   =item Critical Host makred DEAD <hostname>   
   
   The numer of retry counts for contacting a host was
   exceeded. The host is marked dead an no 
   further attempts will be made by that child.
   
   =item Info lonc pipe client hung up on us     
   
   Write to the client pipe indicated no data transferred
   Socket to remote host is shut down.  Reply to the client 
   is discarded.  Note: This is commented out in &ClientWriteable
   
   =item Success  Reply from lond: <data>   
   
   Can be enabled for debugging by setting LogTransactions to nonzero.
   Indicates a successful transaction with lond, <data> is the data received
   from the remote lond.
   
   =item Success A delayed transaction was completed  
   
   A transaction that must be reliable was executed and completed
   as lonc restarted.  This is followed by a mesage of the form
   
     S: client-name : request
   
   =item WARNING  Failing transaction <cmd>:<subcmd>  
   
   Transaction failed on a socket, but the failure retry count for the remote
   node has not yet been exhausted (the node is not yet marked dead).
   cmd is the command, subcmd is the subcommand.  This results from a con_lost
   when communicating with lond.
   
   =item WARNING Shutting down a socket     
   
   Called when a socket is being closed to lond.  This is emitted both when 
   idle pruning is being done and when the socket has been disconnected by the remote.
   
   =item WARNING Lond connection lost.
   
   Called when a read from lond's socket failed indicating lond has closed the 
   connection or died.  This should be followed by one or more
   
    "WARNING Failing transaction..." msgs for each in-flight or queued transaction.
   
   =item WARNING No SSL channel (verification failed), will try with insecure channel.
   
   Called when promotion of a socket to SSL failed because SSL certificate verification failed.
   Domain configuration must also permit insecure channel use for key exchange. Connection
   negotiation will start again from the beginning, but with Authentication Mode not set to ssl.
   
   =item INFO Connected to lond version:  <version> 
   
   When connection negotiation is complete, the lond version is requested and logged here.
   
   =item SUCCESS Connection n to host now ready for action
   
   Emitted when connection has been completed with lond. n is then number of 
   concurrent connections and host, the host to which the connection has just
   been established.
   
   =item WARNING Connection to host has been disconnected
   
   Write to a lond resulted in failure status.  Connection to lond is dropped.
   
   =item SUCCESS Created connection n to host host 
   
   Initial connection request to host..(before negotiation).
   
   =item CRITICAL Request Close Connection ... exiting
   
   Client has sent "close_connection_exit"   The loncnew server is exiting.
   
   =item INFO Resetting Connection Retries 
   
   Client has sent "reset_retries" The lond connection retries are reset to zero for the
   corresponding lond.
   
   =item SUCCESS Transaction <data>
   
   Only emitted if the global variable $LogTransactions was set to true.
   A client has requested a lond transaction <data> is the contents of the request.
   
   =item SUCCESS Toggled transaction logging <LogTransactions>
                                       
   The state of the $LogTransactions global has been toggled, and its current value
   (after being toggled) is displayed.  When non zero additional logging of transactions
   is enabled for debugging purposes.  Transaction logging is toggled on receipt of a USR2
   signal.
   
   =item CRITICAL Abnormal exit. Child <pid> for <host> died thorugh signal.
   
   QUIT signal received.  lonc child process is exiting.
   
   =item SUCCESS New debugging level for <RemoteHost> now <DebugLevel>
                                       
   Debugging toggled for the host loncnew is talking with.
   Currently debugging is a level based scheme with higher number 
   conveying more information.  The daemon starts out at
   DebugLevel 0 and can toggle back and forth between that and
   DebugLevel 2  These are controlled by
   the global variables $DebugLevel and $NextDebugLevel
   The debug level can go up to 9.
   SIGINT toggles the debug level.  The higher the debug level the 
   more debugging information is spewed.  See the Debug
   sub in loncnew.
   
   =item CRITICAL Forking server for host  
   
   A child is being created to service requests for the specified host.
   
   
   =item WARNING Request for a second child on hostname
                                       
   Somehow loncnew was asked to start a second child on a host that already had a child
   servicing it.  This request is not honored, but themessage is emitted.  This could happen
   due to a race condition.  When a client attempts to contact loncnew for a new host, a child
   is forked off to handle the requests for that server.  The parent then backs off the Unix
   domain socket leaving it for the child to service all requests.  If in the time between
   creating the child, and backing off, a new connection request comes in to the unix domain
   socket, this could trigger (unlikely but remotely possible),.
   
   =item CRITICAL ------ Starting Children ----
   
   This message should probably be changed to "Entering event loop"  as the loncnew only starts
   children as needed.  This message is emitted as new events are established and
   the event processing loop is entered.
   
   =item INFO Updating connections via SIGUSR2
                                       
   SIGUSR2 received. The original code would kill all clients, re-read the host file,
   then restart children for each host.  Now that children are started on demand, this
   just kills all child processes and lets requests start them as needed again.
   
   
   =item CRITICAL Restarting
   
   SigHUP received.  all the children are killed and the script exec's itself to start again.
   
   =item CRITICAL Nicely killing lonc for host pid = <pid>
   
   Attempting to kill the child that is serving the specified host (pid given) cleanly via
   SIGQUIT.  The child should handle that, clean up nicely and exit.
   
   =item CRITICAL Nastily killing lonc for host pid = <pid>
   
   The child specified did not die when requested via SIGQUIT.  Therefore it is killed
   via SIGKILL.
   
   =item CRITICAL Asked to kill children.. first be nice..
   
   In the parent's INT handler.  INT kills the child processes.  This inidicate loncnew
   is about to attempt to kill all known children via SIGQUIT.  This message should be followed 
   by one "Nicely killing" message for each extant child.
   
   =item CRITICAL Now kill children nasty 
   
   In the parent's INT handler. remaining children are about to be killed via
   SIGKILL. Should be followed by a Nastily killing... for each lonc child that 
   refused to die.
   
   =item CRITICAL Master process exiting
   
   In the parent's INT handler. just prior to the exit 0 call.
   
   =back
   
   =cut

Removed from v.1.77  
changed lines
  Added in v.1.109


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