Annotation of loncom/lond, revision 1.266
1.1 albertel 1: #!/usr/bin/perl
2: # The LearningOnline Network
3: # lond "LON Daemon" Server (port "LOND" 5663)
1.60 www 4: #
1.266 ! raeburn 5: # $Id: lond,v 1.265 2004/11/02 23:13:18 albertel Exp $
1.60 www 6: #
7: # Copyright Michigan State University Board of Trustees
8: #
9: # This file is part of the LearningOnline Network with CAPA (LON-CAPA).
10: #
11: # LON-CAPA is free software; you can redistribute it and/or modify
12: # it under the terms of the GNU General Public License as published by
1.167 foxr 13: # the Free Software Foundation; either version 2 of the License, or
1.60 www 14: # (at your option) any later version.
15: #
16: # LON-CAPA is distributed in the hope that it will be useful,
17: # but WITHOUT ANY WARRANTY; without even the implied warranty of
18: # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19: # GNU General Public License for more details.
20: #
21: # You should have received a copy of the GNU General Public License
22: # along with LON-CAPA; if not, write to the Free Software
1.178 foxr 23: # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
1.60 www 24: #
25: # /home/httpd/html/adm/gpl.txt
26: #
1.161 foxr 27:
28:
1.60 www 29: # http://www.lon-capa.org/
30: #
1.54 harris41 31:
1.134 albertel 32: use strict;
1.80 harris41 33: use lib '/home/httpd/lib/perl/';
34: use LONCAPA::Configuration;
35:
1.1 albertel 36: use IO::Socket;
37: use IO::File;
1.126 albertel 38: #use Apache::File;
1.1 albertel 39: use Symbol;
40: use POSIX;
41: use Crypt::IDEA;
42: use LWP::UserAgent();
1.3 www 43: use GDBM_File;
44: use Authen::Krb4;
1.91 albertel 45: use Authen::Krb5;
1.49 albertel 46: use lib '/home/httpd/lib/perl/';
47: use localauth;
1.193 raeburn 48: use localenroll;
1.265 albertel 49: use localstudentphoto;
1.143 foxr 50: use File::Copy;
1.169 foxr 51: use LONCAPA::ConfigFileEdit;
1.200 matthew 52: use LONCAPA::lonlocal;
53: use LONCAPA::lonssl;
1.221 albertel 54: use Fcntl qw(:flock);
1.1 albertel 55:
1.239 foxr 56: my $DEBUG = 0; # Non zero to enable debug log entries.
1.77 foxr 57:
1.57 www 58: my $status='';
59: my $lastlog='';
60:
1.266 ! raeburn 61: my $VERSION='$Revision: 1.265 $'; #' stupid emacs
1.121 albertel 62: my $remoteVERSION;
1.214 foxr 63: my $currenthostid="default";
1.115 albertel 64: my $currentdomainid;
1.134 albertel 65:
66: my $client;
1.200 matthew 67: my $clientip; # IP address of client.
68: my $clientdns; # DNS name of client.
69: my $clientname; # LonCAPA name of client.
1.140 foxr 70:
1.134 albertel 71: my $server;
1.200 matthew 72: my $thisserver; # DNS of us.
73:
74: my $keymode;
1.198 foxr 75:
1.207 foxr 76: my $cipher; # Cipher key negotiated with client
77: my $tmpsnum = 0; # Id of tmpputs.
78:
1.178 foxr 79: #
80: # Connection type is:
81: # client - All client actions are allowed
82: # manager - only management functions allowed.
83: # both - Both management and client actions are allowed
84: #
1.161 foxr 85:
1.178 foxr 86: my $ConnectionType;
1.161 foxr 87:
1.200 matthew 88: my %hostid; # ID's for hosts in cluster by ip.
89: my %hostdom; # LonCAPA domain for hosts in cluster.
90: my %hostip; # IPs for hosts in cluster.
91: my %hostdns; # ID's of hosts looked up by DNS name.
1.161 foxr 92:
1.178 foxr 93: my %managers; # Ip -> manager names
1.161 foxr 94:
1.178 foxr 95: my %perlvar; # Will have the apache conf defined perl vars.
1.134 albertel 96:
1.178 foxr 97: #
1.207 foxr 98: # The hash below is used for command dispatching, and is therefore keyed on the request keyword.
99: # Each element of the hash contains a reference to an array that contains:
100: # A reference to a sub that executes the request corresponding to the keyword.
101: # A flag that is true if the request must be encoded to be acceptable.
102: # A mask with bits as follows:
103: # CLIENT_OK - Set when the function is allowed by ordinary clients
104: # MANAGER_OK - Set when the function is allowed to manager clients.
105: #
106: my $CLIENT_OK = 1;
107: my $MANAGER_OK = 2;
108: my %Dispatcher;
109:
110:
111: #
1.178 foxr 112: # The array below are password error strings."
113: #
114: my $lastpwderror = 13; # Largest error number from lcpasswd.
115: my @passwderrors = ("ok",
116: "lcpasswd must be run as user 'www'",
117: "lcpasswd got incorrect number of arguments",
118: "lcpasswd did not get the right nubmer of input text lines",
119: "lcpasswd too many simultaneous pwd changes in progress",
120: "lcpasswd User does not exist.",
121: "lcpasswd Incorrect current passwd",
122: "lcpasswd Unable to su to root.",
123: "lcpasswd Cannot set new passwd.",
124: "lcpasswd Username has invalid characters",
125: "lcpasswd Invalid characters in password",
1.223 foxr 126: "lcpasswd User already exists",
127: "lcpasswd Something went wrong with user addition.",
128: "lcpasswd Password mismatch",
129: "lcpasswd Error filename is invalid");
1.97 foxr 130:
131:
1.178 foxr 132: # The array below are lcuseradd error strings.:
1.97 foxr 133:
1.178 foxr 134: my $lastadderror = 13;
135: my @adderrors = ("ok",
136: "User ID mismatch, lcuseradd must run as user www",
137: "lcuseradd Incorrect number of command line parameters must be 3",
138: "lcuseradd Incorrect number of stdinput lines, must be 3",
139: "lcuseradd Too many other simultaneous pwd changes in progress",
140: "lcuseradd User does not exist",
141: "lcuseradd Unable to make www member of users's group",
142: "lcuseradd Unable to su to root",
143: "lcuseradd Unable to set password",
144: "lcuseradd Usrname has invalid characters",
145: "lcuseradd Password has an invalid character",
146: "lcuseradd User already exists",
147: "lcuseradd Could not add user.",
148: "lcuseradd Password mismatch");
1.97 foxr 149:
1.96 foxr 150:
1.207 foxr 151:
152: #
153: # Statistics that are maintained and dislayed in the status line.
154: #
1.212 foxr 155: my $Transactions = 0; # Number of attempted transactions.
156: my $Failures = 0; # Number of transcations failed.
1.207 foxr 157:
158: # ResetStatistics:
159: # Resets the statistics counters:
160: #
161: sub ResetStatistics {
162: $Transactions = 0;
163: $Failures = 0;
164: }
165:
1.200 matthew 166: #------------------------------------------------------------------------
167: #
168: # LocalConnection
169: # Completes the formation of a locally authenticated connection.
170: # This function will ensure that the 'remote' client is really the
171: # local host. If not, the connection is closed, and the function fails.
172: # If so, initcmd is parsed for the name of a file containing the
173: # IDEA session key. The fie is opened, read, deleted and the session
174: # key returned to the caller.
175: #
176: # Parameters:
177: # $Socket - Socket open on client.
178: # $initcmd - The full text of the init command.
179: #
180: # Implicit inputs:
181: # $clientdns - The DNS name of the remote client.
182: # $thisserver - Our DNS name.
183: #
184: # Returns:
185: # IDEA session key on success.
186: # undef on failure.
187: #
188: sub LocalConnection {
189: my ($Socket, $initcmd) = @_;
190: Debug("Attempting local connection: $initcmd client: $clientdns me: $thisserver");
191: if($clientdns ne $thisserver) {
192: &logthis('<font color="red"> LocalConnection rejecting non local: '
193: ."$clientdns ne $thisserver </font>");
194: close $Socket;
195: return undef;
1.224 foxr 196: } else {
1.200 matthew 197: chomp($initcmd); # Get rid of \n in filename.
198: my ($init, $type, $name) = split(/:/, $initcmd);
199: Debug(" Init command: $init $type $name ");
200:
201: # Require that $init = init, and $type = local: Otherwise
202: # the caller is insane:
203:
204: if(($init ne "init") && ($type ne "local")) {
205: &logthis('<font color = "red"> LocalConnection: caller is insane! '
206: ."init = $init, and type = $type </font>");
207: close($Socket);;
208: return undef;
209:
210: }
211: # Now get the key filename:
212:
213: my $IDEAKey = lonlocal::ReadKeyFile($name);
214: return $IDEAKey;
215: }
216: }
217: #------------------------------------------------------------------------------
218: #
219: # SSLConnection
220: # Completes the formation of an ssh authenticated connection. The
221: # socket is promoted to an ssl socket. If this promotion and the associated
222: # certificate exchange are successful, the IDEA key is generated and sent
223: # to the remote peer via the SSL tunnel. The IDEA key is also returned to
224: # the caller after the SSL tunnel is torn down.
225: #
226: # Parameters:
227: # Name Type Purpose
228: # $Socket IO::Socket::INET Plaintext socket.
229: #
230: # Returns:
231: # IDEA key on success.
232: # undef on failure.
233: #
234: sub SSLConnection {
235: my $Socket = shift;
236:
237: Debug("SSLConnection: ");
238: my $KeyFile = lonssl::KeyFile();
239: if(!$KeyFile) {
240: my $err = lonssl::LastError();
241: &logthis("<font color=\"red\"> CRITICAL"
242: ."Can't get key file $err </font>");
243: return undef;
244: }
245: my ($CACertificate,
246: $Certificate) = lonssl::CertificateFile();
247:
248:
249: # If any of the key, certificate or certificate authority
250: # certificate filenames are not defined, this can't work.
251:
252: if((!$Certificate) || (!$CACertificate)) {
253: my $err = lonssl::LastError();
254: &logthis("<font color=\"red\"> CRITICAL"
255: ."Can't get certificates: $err </font>");
256:
257: return undef;
258: }
259: Debug("Key: $KeyFile CA: $CACertificate Cert: $Certificate");
260:
261: # Indicate to our peer that we can procede with
262: # a transition to ssl authentication:
263:
264: print $Socket "ok:ssl\n";
265:
266: Debug("Approving promotion -> ssl");
267: # And do so:
268:
269: my $SSLSocket = lonssl::PromoteServerSocket($Socket,
270: $CACertificate,
271: $Certificate,
272: $KeyFile);
273: if(! ($SSLSocket) ) { # SSL socket promotion failed.
274: my $err = lonssl::LastError();
275: &logthis("<font color=\"red\"> CRITICAL "
276: ."SSL Socket promotion failed: $err </font>");
277: return undef;
278: }
279: Debug("SSL Promotion successful");
280:
281: #
282: # The only thing we'll use the socket for is to send the IDEA key
283: # to the peer:
284:
285: my $Key = lonlocal::CreateCipherKey();
286: print $SSLSocket "$Key\n";
287:
288: lonssl::Close($SSLSocket);
289:
290: Debug("Key exchange complete: $Key");
291:
292: return $Key;
293: }
294: #
295: # InsecureConnection:
296: # If insecure connections are allowd,
297: # exchange a challenge with the client to 'validate' the
298: # client (not really, but that's the protocol):
299: # We produce a challenge string that's sent to the client.
300: # The client must then echo the challenge verbatim to us.
301: #
302: # Parameter:
303: # Socket - Socket open on the client.
304: # Returns:
305: # 1 - success.
306: # 0 - failure (e.g.mismatch or insecure not allowed).
307: #
308: sub InsecureConnection {
309: my $Socket = shift;
310:
311: # Don't even start if insecure connections are not allowed.
312:
313: if(! $perlvar{londAllowInsecure}) { # Insecure connections not allowed.
314: return 0;
315: }
316:
317: # Fabricate a challenge string and send it..
318:
319: my $challenge = "$$".time; # pid + time.
320: print $Socket "$challenge\n";
321: &status("Waiting for challenge reply");
322:
323: my $answer = <$Socket>;
324: $answer =~s/\W//g;
325: if($challenge eq $answer) {
326: return 1;
1.224 foxr 327: } else {
1.200 matthew 328: logthis("<font color='blue'>WARNING client did not respond to challenge</font>");
329: &status("No challenge reqply");
330: return 0;
331: }
332:
333:
334: }
1.251 foxr 335: #
336: # Safely execute a command (as long as it's not a shel command and doesn
337: # not require/rely on shell escapes. The function operates by doing a
338: # a pipe based fork and capturing stdout and stderr from the pipe.
339: #
340: # Formal Parameters:
341: # $line - A line of text to be executed as a command.
342: # Returns:
343: # The output from that command. If the output is multiline the caller
344: # must know how to split up the output.
345: #
346: #
347: sub execute_command {
348: my ($line) = @_;
349: my @words = split(/\s/, $line); # Bust the command up into words.
350: my $output = "";
351:
352: my $pid = open(CHILD, "-|");
353:
354: if($pid) { # Parent process
355: Debug("In parent process for execute_command");
356: my @data = <CHILD>; # Read the child's outupt...
357: close CHILD;
358: foreach my $output_line (@data) {
359: Debug("Adding $output_line");
360: $output .= $output_line; # Presumably has a \n on it.
361: }
362:
363: } else { # Child process
364: close (STDERR);
365: open (STDERR, ">&STDOUT");# Combine stderr, and stdout...
366: exec(@words); # won't return.
367: }
368: return $output;
369: }
370:
1.200 matthew 371:
1.140 foxr 372: # GetCertificate: Given a transaction that requires a certificate,
373: # this function will extract the certificate from the transaction
374: # request. Note that at this point, the only concept of a certificate
375: # is the hostname to which we are connected.
376: #
377: # Parameter:
378: # request - The request sent by our client (this parameterization may
379: # need to change when we really use a certificate granting
380: # authority.
381: #
382: sub GetCertificate {
383: my $request = shift;
384:
385: return $clientip;
386: }
1.161 foxr 387:
1.178 foxr 388: #
389: # Return true if client is a manager.
390: #
391: sub isManager {
392: return (($ConnectionType eq "manager") || ($ConnectionType eq "both"));
393: }
394: #
395: # Return tru if client can do client functions
396: #
397: sub isClient {
398: return (($ConnectionType eq "client") || ($ConnectionType eq "both"));
399: }
1.161 foxr 400:
401:
1.156 foxr 402: #
403: # ReadManagerTable: Reads in the current manager table. For now this is
404: # done on each manager authentication because:
405: # - These authentications are not frequent
406: # - This allows dynamic changes to the manager table
407: # without the need to signal to the lond.
408: #
409: sub ReadManagerTable {
410:
411: # Clean out the old table first..
412:
1.166 foxr 413: foreach my $key (keys %managers) {
414: delete $managers{$key};
415: }
416:
417: my $tablename = $perlvar{'lonTabDir'}."/managers.tab";
418: if (!open (MANAGERS, $tablename)) {
419: logthis('<font color="red">No manager table. Nobody can manage!!</font>');
420: return;
421: }
422: while(my $host = <MANAGERS>) {
423: chomp($host);
424: if ($host =~ "^#") { # Comment line.
425: next;
426: }
427: if (!defined $hostip{$host}) { # This is a non cluster member
1.161 foxr 428: # The entry is of the form:
429: # cluname:hostname
430: # cluname - A 'cluster hostname' is needed in order to negotiate
431: # the host key.
432: # hostname- The dns name of the host.
433: #
1.166 foxr 434: my($cluname, $dnsname) = split(/:/, $host);
435:
436: my $ip = gethostbyname($dnsname);
437: if(defined($ip)) { # bad names don't deserve entry.
438: my $hostip = inet_ntoa($ip);
439: $managers{$hostip} = $cluname;
440: logthis('<font color="green"> registering manager '.
441: "$dnsname as $cluname with $hostip </font>\n");
442: }
443: } else {
444: logthis('<font color="green"> existing host'." $host</font>\n");
445: $managers{$hostip{$host}} = $host; # Use info from cluster tab if clumemeber
446: }
447: }
1.156 foxr 448: }
1.140 foxr 449:
450: #
451: # ValidManager: Determines if a given certificate represents a valid manager.
452: # in this primitive implementation, the 'certificate' is
453: # just the connecting loncapa client name. This is checked
454: # against a valid client list in the configuration.
455: #
456: #
457: sub ValidManager {
458: my $certificate = shift;
459:
1.163 foxr 460: return isManager;
1.140 foxr 461: }
462: #
1.143 foxr 463: # CopyFile: Called as part of the process of installing a
464: # new configuration file. This function copies an existing
465: # file to a backup file.
466: # Parameters:
467: # oldfile - Name of the file to backup.
468: # newfile - Name of the backup file.
469: # Return:
470: # 0 - Failure (errno has failure reason).
471: # 1 - Success.
472: #
473: sub CopyFile {
1.192 foxr 474:
475: my ($oldfile, $newfile) = @_;
1.143 foxr 476:
477: # The file must exist:
478:
479: if(-e $oldfile) {
480:
481: # Read the old file.
482:
483: my $oldfh = IO::File->new("< $oldfile");
484: if(!$oldfh) {
485: return 0;
486: }
487: my @contents = <$oldfh>; # Suck in the entire file.
488:
489: # write the backup file:
490:
491: my $newfh = IO::File->new("> $newfile");
492: if(!(defined $newfh)){
493: return 0;
494: }
495: my $lines = scalar @contents;
496: for (my $i =0; $i < $lines; $i++) {
497: print $newfh ($contents[$i]);
498: }
499:
500: $oldfh->close;
501: $newfh->close;
502:
503: chmod(0660, $newfile);
504:
505: return 1;
506:
507: } else {
508: return 0;
509: }
510: }
1.157 foxr 511: #
512: # Host files are passed out with externally visible host IPs.
513: # If, for example, we are behind a fire-wall or NAT host, our
514: # internally visible IP may be different than the externally
515: # visible IP. Therefore, we always adjust the contents of the
516: # host file so that the entry for ME is the IP that we believe
517: # we have. At present, this is defined as the entry that
518: # DNS has for us. If by some chance we are not able to get a
519: # DNS translation for us, then we assume that the host.tab file
520: # is correct.
521: # BUGBUGBUG - in the future, we really should see if we can
522: # easily query the interface(s) instead.
523: # Parameter(s):
524: # contents - The contents of the host.tab to check.
525: # Returns:
526: # newcontents - The adjusted contents.
527: #
528: #
529: sub AdjustHostContents {
530: my $contents = shift;
531: my $adjusted;
532: my $me = $perlvar{'lonHostID'};
533:
1.166 foxr 534: foreach my $line (split(/\n/,$contents)) {
1.157 foxr 535: if(!(($line eq "") || ($line =~ /^ *\#/) || ($line =~ /^ *$/))) {
536: chomp($line);
537: my ($id,$domain,$role,$name,$ip,$maxcon,$idleto,$mincon)=split(/:/,$line);
538: if ($id eq $me) {
1.166 foxr 539: my $ip = gethostbyname($name);
540: my $ipnew = inet_ntoa($ip);
541: $ip = $ipnew;
1.157 foxr 542: # Reconstruct the host line and append to adjusted:
543:
1.166 foxr 544: my $newline = "$id:$domain:$role:$name:$ip";
545: if($maxcon ne "") { # Not all hosts have loncnew tuning params
546: $newline .= ":$maxcon:$idleto:$mincon";
547: }
548: $adjusted .= $newline."\n";
1.157 foxr 549:
1.166 foxr 550: } else { # Not me, pass unmodified.
551: $adjusted .= $line."\n";
552: }
1.157 foxr 553: } else { # Blank or comment never re-written.
554: $adjusted .= $line."\n"; # Pass blanks and comments as is.
555: }
1.166 foxr 556: }
557: return $adjusted;
1.157 foxr 558: }
1.143 foxr 559: #
560: # InstallFile: Called to install an administrative file:
561: # - The file is created with <name>.tmp
562: # - The <name>.tmp file is then mv'd to <name>
563: # This lugubrious procedure is done to ensure that we are never without
564: # a valid, even if dated, version of the file regardless of who crashes
565: # and when the crash occurs.
566: #
567: # Parameters:
568: # Name of the file
569: # File Contents.
570: # Return:
571: # nonzero - success.
572: # 0 - failure and $! has an errno.
573: #
574: sub InstallFile {
1.192 foxr 575:
576: my ($Filename, $Contents) = @_;
1.143 foxr 577: my $TempFile = $Filename.".tmp";
578:
579: # Open the file for write:
580:
581: my $fh = IO::File->new("> $TempFile"); # Write to temp.
582: if(!(defined $fh)) {
583: &logthis('<font color="red"> Unable to create '.$TempFile."</font>");
584: return 0;
585: }
586: # write the contents of the file:
587:
588: print $fh ($Contents);
589: $fh->close; # In case we ever have a filesystem w. locking
590:
591: chmod(0660, $TempFile);
592:
593: # Now we can move install the file in position.
594:
595: move($TempFile, $Filename);
596:
597: return 1;
598: }
1.200 matthew 599:
600:
1.169 foxr 601: #
602: # ConfigFileFromSelector: converts a configuration file selector
603: # (one of host or domain at this point) into a
604: # configuration file pathname.
605: #
606: # Parameters:
607: # selector - Configuration file selector.
608: # Returns:
609: # Full path to the file or undef if the selector is invalid.
610: #
611: sub ConfigFileFromSelector {
612: my $selector = shift;
613: my $tablefile;
614:
615: my $tabledir = $perlvar{'lonTabDir'}.'/';
616: if ($selector eq "hosts") {
617: $tablefile = $tabledir."hosts.tab";
618: } elsif ($selector eq "domain") {
619: $tablefile = $tabledir."domain.tab";
620: } else {
621: return undef;
622: }
623: return $tablefile;
1.143 foxr 624:
1.169 foxr 625: }
1.143 foxr 626: #
1.141 foxr 627: # PushFile: Called to do an administrative push of a file.
628: # - Ensure the file being pushed is one we support.
629: # - Backup the old file to <filename.saved>
630: # - Separate the contents of the new file out from the
631: # rest of the request.
632: # - Write the new file.
633: # Parameter:
634: # Request - The entire user request. This consists of a : separated
635: # string pushfile:tablename:contents.
636: # NOTE: The contents may have :'s in it as well making things a bit
637: # more interesting... but not much.
638: # Returns:
639: # String to send to client ("ok" or "refused" if bad file).
640: #
641: sub PushFile {
642: my $request = shift;
643: my ($command, $filename, $contents) = split(":", $request, 3);
644:
645: # At this point in time, pushes for only the following tables are
646: # supported:
647: # hosts.tab ($filename eq host).
648: # domain.tab ($filename eq domain).
649: # Construct the destination filename or reject the request.
650: #
651: # lonManage is supposed to ensure this, however this session could be
652: # part of some elaborate spoof that managed somehow to authenticate.
653: #
654:
1.169 foxr 655:
656: my $tablefile = ConfigFileFromSelector($filename);
657: if(! (defined $tablefile)) {
1.141 foxr 658: return "refused";
659: }
660: #
661: # >copy< the old table to the backup table
662: # don't rename in case system crashes/reboots etc. in the time
663: # window between a rename and write.
664: #
665: my $backupfile = $tablefile;
666: $backupfile =~ s/\.tab$/.old/;
1.143 foxr 667: if(!CopyFile($tablefile, $backupfile)) {
668: &logthis('<font color="green"> CopyFile from '.$tablefile." to ".$backupfile." failed </font>");
669: return "error:$!";
670: }
1.141 foxr 671: &logthis('<font color="green"> Pushfile: backed up '
672: .$tablefile." to $backupfile</font>");
673:
1.157 foxr 674: # If the file being pushed is the host file, we adjust the entry for ourself so that the
675: # IP will be our current IP as looked up in dns. Note this is only 99% good as it's possible
676: # to conceive of conditions where we don't have a DNS entry locally. This is possible in a
677: # network sense but it doesn't make much sense in a LonCAPA sense so we ignore (for now)
678: # that possibilty.
679:
680: if($filename eq "host") {
681: $contents = AdjustHostContents($contents);
682: }
683:
1.141 foxr 684: # Install the new file:
685:
1.143 foxr 686: if(!InstallFile($tablefile, $contents)) {
687: &logthis('<font color="red"> Pushfile: unable to install '
1.145 foxr 688: .$tablefile." $! </font>");
1.143 foxr 689: return "error:$!";
1.224 foxr 690: } else {
1.143 foxr 691: &logthis('<font color="green"> Installed new '.$tablefile
692: ."</font>");
693:
694: }
695:
1.141 foxr 696:
697: # Indicate success:
698:
699: return "ok";
700:
701: }
1.145 foxr 702:
703: #
704: # Called to re-init either lonc or lond.
705: #
706: # Parameters:
707: # request - The full request by the client. This is of the form
708: # reinit:<process>
709: # where <process> is allowed to be either of
710: # lonc or lond
711: #
712: # Returns:
713: # The string to be sent back to the client either:
714: # ok - Everything worked just fine.
715: # error:why - There was a failure and why describes the reason.
716: #
717: #
718: sub ReinitProcess {
719: my $request = shift;
720:
1.146 foxr 721:
722: # separate the request (reinit) from the process identifier and
723: # validate it producing the name of the .pid file for the process.
724: #
725: #
726: my ($junk, $process) = split(":", $request);
1.147 foxr 727: my $processpidfile = $perlvar{'lonDaemons'}.'/logs/';
1.146 foxr 728: if($process eq 'lonc') {
729: $processpidfile = $processpidfile."lonc.pid";
1.147 foxr 730: if (!open(PIDFILE, "< $processpidfile")) {
731: return "error:Open failed for $processpidfile";
732: }
733: my $loncpid = <PIDFILE>;
734: close(PIDFILE);
735: logthis('<font color="red"> Reinitializing lonc pid='.$loncpid
736: ."</font>");
737: kill("USR2", $loncpid);
1.146 foxr 738: } elsif ($process eq 'lond') {
1.147 foxr 739: logthis('<font color="red"> Reinitializing self (lond) </font>');
740: &UpdateHosts; # Lond is us!!
1.146 foxr 741: } else {
742: &logthis('<font color="yellow" Invalid reinit request for '.$process
743: ."</font>");
744: return "error:Invalid process identifier $process";
745: }
1.145 foxr 746: return 'ok';
747: }
1.168 foxr 748: # Validate a line in a configuration file edit script:
749: # Validation includes:
750: # - Ensuring the command is valid.
751: # - Ensuring the command has sufficient parameters
752: # Parameters:
753: # scriptline - A line to validate (\n has been stripped for what it's worth).
1.167 foxr 754: #
1.168 foxr 755: # Return:
756: # 0 - Invalid scriptline.
757: # 1 - Valid scriptline
758: # NOTE:
759: # Only the command syntax is checked, not the executability of the
760: # command.
761: #
762: sub isValidEditCommand {
763: my $scriptline = shift;
764:
765: # Line elements are pipe separated:
766:
767: my ($command, $key, $newline) = split(/\|/, $scriptline);
768: &logthis('<font color="green"> isValideditCommand checking: '.
769: "Command = '$command', Key = '$key', Newline = '$newline' </font>\n");
770:
771: if ($command eq "delete") {
772: #
773: # key with no newline.
774: #
775: if( ($key eq "") || ($newline ne "")) {
776: return 0; # Must have key but no newline.
777: } else {
778: return 1; # Valid syntax.
779: }
1.169 foxr 780: } elsif ($command eq "replace") {
1.168 foxr 781: #
782: # key and newline:
783: #
784: if (($key eq "") || ($newline eq "")) {
785: return 0;
786: } else {
787: return 1;
788: }
1.169 foxr 789: } elsif ($command eq "append") {
790: if (($key ne "") && ($newline eq "")) {
791: return 1;
792: } else {
793: return 0;
794: }
1.168 foxr 795: } else {
796: return 0; # Invalid command.
797: }
798: return 0; # Should not get here!!!
799: }
1.169 foxr 800: #
801: # ApplyEdit - Applies an edit command to a line in a configuration
802: # file. It is the caller's responsiblity to validate the
803: # edit line.
804: # Parameters:
805: # $directive - A single edit directive to apply.
806: # Edit directives are of the form:
807: # append|newline - Appends a new line to the file.
808: # replace|key|newline - Replaces the line with key value 'key'
809: # delete|key - Deletes the line with key value 'key'.
810: # $editor - A config file editor object that contains the
811: # file being edited.
812: #
813: sub ApplyEdit {
1.192 foxr 814:
815: my ($directive, $editor) = @_;
1.169 foxr 816:
817: # Break the directive down into its command and its parameters
818: # (at most two at this point. The meaning of the parameters, if in fact
819: # they exist depends on the command).
820:
821: my ($command, $p1, $p2) = split(/\|/, $directive);
822:
823: if($command eq "append") {
824: $editor->Append($p1); # p1 - key p2 null.
825: } elsif ($command eq "replace") {
826: $editor->ReplaceLine($p1, $p2); # p1 - key p2 = newline.
827: } elsif ($command eq "delete") {
828: $editor->DeleteLine($p1); # p1 - key p2 null.
829: } else { # Should not get here!!!
830: die "Invalid command given to ApplyEdit $command"
831: }
832: }
833: #
834: # AdjustOurHost:
835: # Adjusts a host file stored in a configuration file editor object
836: # for the true IP address of this host. This is necessary for hosts
837: # that live behind a firewall.
838: # Those hosts have a publicly distributed IP of the firewall, but
839: # internally must use their actual IP. We assume that a given
840: # host only has a single IP interface for now.
841: # Formal Parameters:
842: # editor - The configuration file editor to adjust. This
843: # editor is assumed to contain a hosts.tab file.
844: # Strategy:
845: # - Figure out our hostname.
846: # - Lookup the entry for this host.
847: # - Modify the line to contain our IP
848: # - Do a replace for this host.
849: sub AdjustOurHost {
850: my $editor = shift;
851:
852: # figure out who I am.
853:
854: my $myHostName = $perlvar{'lonHostID'}; # LonCAPA hostname.
855:
856: # Get my host file entry.
857:
858: my $ConfigLine = $editor->Find($myHostName);
859: if(! (defined $ConfigLine)) {
860: die "AdjustOurHost - no entry for me in hosts file $myHostName";
861: }
862: # figure out my IP:
863: # Use the config line to get my hostname.
864: # Use gethostbyname to translate that into an IP address.
865: #
866: my ($id,$domain,$role,$name,$ip,$maxcon,$idleto,$mincon) = split(/:/,$ConfigLine);
867: my $BinaryIp = gethostbyname($name);
868: my $ip = inet_ntoa($ip);
869: #
870: # Reassemble the config line from the elements in the list.
871: # Note that if the loncnew items were not present before, they will
872: # be now even if they would be empty
873: #
874: my $newConfigLine = $id;
875: foreach my $item ($domain, $role, $name, $ip, $maxcon, $idleto, $mincon) {
876: $newConfigLine .= ":".$item;
877: }
878: # Replace the line:
879:
880: $editor->ReplaceLine($id, $newConfigLine);
881:
882: }
883: #
884: # ReplaceConfigFile:
885: # Replaces a configuration file with the contents of a
886: # configuration file editor object.
887: # This is done by:
888: # - Copying the target file to <filename>.old
889: # - Writing the new file to <filename>.tmp
890: # - Moving <filename.tmp> -> <filename>
891: # This laborious process ensures that the system is never without
892: # a configuration file that's at least valid (even if the contents
893: # may be dated).
894: # Parameters:
895: # filename - Name of the file to modify... this is a full path.
896: # editor - Editor containing the file.
897: #
898: sub ReplaceConfigFile {
1.192 foxr 899:
900: my ($filename, $editor) = @_;
1.168 foxr 901:
1.169 foxr 902: CopyFile ($filename, $filename.".old");
903:
904: my $contents = $editor->Get(); # Get the contents of the file.
905:
906: InstallFile($filename, $contents);
907: }
1.168 foxr 908: #
909: #
910: # Called to edit a configuration table file
1.167 foxr 911: # Parameters:
912: # request - The entire command/request sent by lonc or lonManage
913: # Return:
914: # The reply to send to the client.
1.168 foxr 915: #
1.167 foxr 916: sub EditFile {
917: my $request = shift;
918:
919: # Split the command into it's pieces: edit:filetype:script
920:
1.168 foxr 921: my ($request, $filetype, $script) = split(/:/, $request,3); # : in script
1.167 foxr 922:
923: # Check the pre-coditions for success:
924:
925: if($request != "edit") { # Something is amiss afoot alack.
926: return "error:edit request detected, but request != 'edit'\n";
927: }
928: if( ($filetype ne "hosts") &&
929: ($filetype ne "domain")) {
930: return "error:edit requested with invalid file specifier: $filetype \n";
931: }
932:
933: # Split the edit script and check it's validity.
1.168 foxr 934:
935: my @scriptlines = split(/\n/, $script); # one line per element.
936: my $linecount = scalar(@scriptlines);
937: for(my $i = 0; $i < $linecount; $i++) {
938: chomp($scriptlines[$i]);
939: if(!isValidEditCommand($scriptlines[$i])) {
940: return "error:edit with bad script line: '$scriptlines[$i]' \n";
941: }
942: }
1.145 foxr 943:
1.167 foxr 944: # Execute the edit operation.
1.169 foxr 945: # - Create a config file editor for the appropriate file and
946: # - execute each command in the script:
947: #
948: my $configfile = ConfigFileFromSelector($filetype);
949: if (!(defined $configfile)) {
950: return "refused\n";
951: }
952: my $editor = ConfigFileEdit->new($configfile);
1.167 foxr 953:
1.169 foxr 954: for (my $i = 0; $i < $linecount; $i++) {
955: ApplyEdit($scriptlines[$i], $editor);
956: }
957: # If the file is the host file, ensure that our host is
958: # adjusted to have our ip:
959: #
960: if($filetype eq "host") {
961: AdjustOurHost($editor);
962: }
963: # Finally replace the current file with our file.
964: #
965: ReplaceConfigFile($configfile, $editor);
1.167 foxr 966:
967: return "ok\n";
968: }
1.207 foxr 969:
970: #---------------------------------------------------------------
971: #
972: # Manipulation of hash based databases (factoring out common code
973: # for later use as we refactor.
974: #
975: # Ties a domain level resource file to a hash.
976: # If requested a history entry is created in the associated hist file.
977: #
978: # Parameters:
979: # domain - Name of the domain in which the resource file lives.
980: # namespace - Name of the hash within that domain.
981: # how - How to tie the hash (e.g. GDBM_WRCREAT()).
982: # loghead - Optional parameter, if present a log entry is created
983: # in the associated history file and this is the first part
984: # of that entry.
985: # logtail - Goes along with loghead, The actual logentry is of the
986: # form $loghead:<timestamp>:logtail.
987: # Returns:
988: # Reference to a hash bound to the db file or alternatively undef
989: # if the tie failed.
990: #
1.209 albertel 991: sub tie_domain_hash {
1.210 albertel 992: my ($domain,$namespace,$how,$loghead,$logtail) = @_;
1.207 foxr 993:
994: # Filter out any whitespace in the domain name:
995:
996: $domain =~ s/\W//g;
997:
998: # We have enough to go on to tie the hash:
999:
1000: my $user_top_dir = $perlvar{'lonUsersDir'};
1001: my $domain_dir = $user_top_dir."/$domain";
1002: my $resource_file = $domain_dir."/$namespace.db";
1003: my %hash;
1004: if(tie(%hash, 'GDBM_File', $resource_file, $how, 0640)) {
1.211 albertel 1005: if (defined($loghead)) { # Need to log the operation.
1.210 albertel 1006: my $logFh = IO::File->new(">>$domain_dir/$namespace.hist");
1.207 foxr 1007: if($logFh) {
1008: my $timestamp = time;
1009: print $logFh "$loghead:$timestamp:$logtail\n";
1010: }
1.210 albertel 1011: $logFh->close;
1.207 foxr 1012: }
1013: return \%hash; # Return the tied hash.
1.210 albertel 1014: } else {
1.207 foxr 1015: return undef; # Tie failed.
1016: }
1017: }
1018:
1019: #
1020: # Ties a user's resource file to a hash.
1021: # If necessary, an appropriate history
1022: # log file entry is made as well.
1023: # This sub factors out common code from the subs that manipulate
1024: # the various gdbm files that keep keyword value pairs.
1025: # Parameters:
1026: # domain - Name of the domain the user is in.
1027: # user - Name of the 'current user'.
1028: # namespace - Namespace representing the file to tie.
1029: # how - What the tie is done to (e.g. GDBM_WRCREAT().
1030: # loghead - Optional first part of log entry if there may be a
1031: # history file.
1032: # what - Optional tail of log entry if there may be a history
1033: # file.
1034: # Returns:
1035: # hash to which the database is tied. It's up to the caller to untie.
1036: # undef if the has could not be tied.
1037: #
1.210 albertel 1038: sub tie_user_hash {
1039: my ($domain,$user,$namespace,$how,$loghead,$what) = @_;
1.207 foxr 1040:
1041: $namespace=~s/\//\_/g; # / -> _
1042: $namespace=~s/\W//g; # whitespace eliminated.
1043: my $proname = propath($domain, $user);
1044:
1045: # Tie the database.
1046:
1047: my %hash;
1048: if(tie(%hash, 'GDBM_File', "$proname/$namespace.db",
1049: $how, 0640)) {
1.209 albertel 1050: # If this is a namespace for which a history is kept,
1051: # make the history log entry:
1.252 albertel 1052: if (($namespace !~/^nohist\_/) && (defined($loghead))) {
1.209 albertel 1053: my $args = scalar @_;
1054: Debug(" Opening history: $namespace $args");
1055: my $hfh = IO::File->new(">>$proname/$namespace.hist");
1056: if($hfh) {
1057: my $now = time;
1058: print $hfh "$loghead:$now:$what\n";
1059: }
1.210 albertel 1060: $hfh->close;
1.209 albertel 1061: }
1.207 foxr 1062: return \%hash;
1.209 albertel 1063: } else {
1.207 foxr 1064: return undef;
1065: }
1066:
1067: }
1.214 foxr 1068:
1.255 foxr 1069: # read_profile
1070: #
1071: # Returns a set of specific entries from a user's profile file.
1072: # this is a utility function that is used by both get_profile_entry and
1073: # get_profile_entry_encrypted.
1074: #
1075: # Parameters:
1076: # udom - Domain in which the user exists.
1077: # uname - User's account name (loncapa account)
1078: # namespace - The profile namespace to open.
1079: # what - A set of & separated queries.
1080: # Returns:
1081: # If all ok: - The string that needs to be shipped back to the user.
1082: # If failure - A string that starts with error: followed by the failure
1083: # reason.. note that this probabyl gets shipped back to the
1084: # user as well.
1085: #
1086: sub read_profile {
1087: my ($udom, $uname, $namespace, $what) = @_;
1088:
1089: my $hashref = &tie_user_hash($udom, $uname, $namespace,
1090: &GDBM_READER());
1091: if ($hashref) {
1092: my @queries=split(/\&/,$what);
1093: my $qresult='';
1094:
1095: for (my $i=0;$i<=$#queries;$i++) {
1096: $qresult.="$hashref->{$queries[$i]}&"; # Presumably failure gives empty string.
1097: }
1098: $qresult=~s/\&$//; # Remove trailing & from last lookup.
1099: if (untie %$hashref) {
1100: return $qresult;
1101: } else {
1102: return "error: ".($!+0)." untie (GDBM) Failed";
1103: }
1104: } else {
1105: if ($!+0 == 2) {
1106: return "error:No such file or GDBM reported bad block error";
1107: } else {
1108: return "error: ".($!+0)." tie (GDBM) Failed";
1109: }
1110: }
1111:
1112: }
1.214 foxr 1113: #--------------------- Request Handlers --------------------------------------------
1114: #
1.215 foxr 1115: # By convention each request handler registers itself prior to the sub
1116: # declaration:
1.214 foxr 1117: #
1118:
1.216 foxr 1119: #++
1120: #
1.214 foxr 1121: # Handles ping requests.
1122: # Parameters:
1123: # $cmd - the actual keyword that invoked us.
1124: # $tail - the tail of the request that invoked us.
1125: # $replyfd- File descriptor connected to the client
1126: # Implicit Inputs:
1127: # $currenthostid - Global variable that carries the name of the host we are
1128: # known as.
1129: # Returns:
1130: # 1 - Ok to continue processing.
1131: # 0 - Program should exit.
1132: # Side effects:
1133: # Reply information is sent to the client.
1134: sub ping_handler {
1135: my ($cmd, $tail, $client) = @_;
1136: Debug("$cmd $tail $client .. $currenthostid:");
1137:
1138: Reply( $client,"$currenthostid\n","$cmd:$tail");
1139:
1140: return 1;
1141: }
1142: ®ister_handler("ping", \&ping_handler, 0, 1, 1); # Ping unencoded, client or manager.
1143:
1.216 foxr 1144: #++
1.215 foxr 1145: #
1146: # Handles pong requests. Pong replies with our current host id, and
1147: # the results of a ping sent to us via our lonc.
1148: #
1149: # Parameters:
1150: # $cmd - the actual keyword that invoked us.
1151: # $tail - the tail of the request that invoked us.
1152: # $replyfd- File descriptor connected to the client
1153: # Implicit Inputs:
1154: # $currenthostid - Global variable that carries the name of the host we are
1155: # connected to.
1156: # Returns:
1157: # 1 - Ok to continue processing.
1158: # 0 - Program should exit.
1159: # Side effects:
1160: # Reply information is sent to the client.
1161: sub pong_handler {
1162: my ($cmd, $tail, $replyfd) = @_;
1163:
1164: my $reply=&reply("ping",$clientname);
1165: &Reply( $replyfd, "$currenthostid:$reply\n", "$cmd:$tail");
1166: return 1;
1167: }
1168: ®ister_handler("pong", \&pong_handler, 0, 1, 1); # Pong unencoded, client or manager
1169:
1.216 foxr 1170: #++
1171: # Called to establish an encrypted session key with the remote client.
1172: # Note that with secure lond, in most cases this function is never
1173: # invoked. Instead, the secure session key is established either
1174: # via a local file that's locked down tight and only lives for a short
1175: # time, or via an ssl tunnel...and is generated from a bunch-o-random
1176: # bits from /dev/urandom, rather than the predictable pattern used by
1177: # by this sub. This sub is only used in the old-style insecure
1178: # key negotiation.
1179: # Parameters:
1180: # $cmd - the actual keyword that invoked us.
1181: # $tail - the tail of the request that invoked us.
1182: # $replyfd- File descriptor connected to the client
1183: # Implicit Inputs:
1184: # $currenthostid - Global variable that carries the name of the host
1185: # known as.
1186: # $clientname - Global variable that carries the name of the hsot we're connected to.
1187: # Returns:
1188: # 1 - Ok to continue processing.
1189: # 0 - Program should exit.
1190: # Implicit Outputs:
1191: # Reply information is sent to the client.
1192: # $cipher is set with a reference to a new IDEA encryption object.
1193: #
1194: sub establish_key_handler {
1195: my ($cmd, $tail, $replyfd) = @_;
1196:
1197: my $buildkey=time.$$.int(rand 100000);
1198: $buildkey=~tr/1-6/A-F/;
1199: $buildkey=int(rand 100000).$buildkey.int(rand 100000);
1200: my $key=$currenthostid.$clientname;
1201: $key=~tr/a-z/A-Z/;
1202: $key=~tr/G-P/0-9/;
1203: $key=~tr/Q-Z/0-9/;
1204: $key=$key.$buildkey.$key.$buildkey.$key.$buildkey;
1205: $key=substr($key,0,32);
1206: my $cipherkey=pack("H32",$key);
1207: $cipher=new IDEA $cipherkey;
1208: &Reply($replyfd, "$buildkey\n", "$cmd:$tail");
1209:
1210: return 1;
1211:
1212: }
1213: ®ister_handler("ekey", \&establish_key_handler, 0, 1,1);
1214:
1.217 foxr 1215: # Handler for the load command. Returns the current system load average
1216: # to the requestor.
1217: #
1218: # Parameters:
1219: # $cmd - the actual keyword that invoked us.
1220: # $tail - the tail of the request that invoked us.
1221: # $replyfd- File descriptor connected to the client
1222: # Implicit Inputs:
1223: # $currenthostid - Global variable that carries the name of the host
1224: # known as.
1225: # $clientname - Global variable that carries the name of the hsot we're connected to.
1226: # Returns:
1227: # 1 - Ok to continue processing.
1228: # 0 - Program should exit.
1229: # Side effects:
1230: # Reply information is sent to the client.
1231: sub load_handler {
1232: my ($cmd, $tail, $replyfd) = @_;
1233:
1234: # Get the load average from /proc/loadavg and calculate it as a percentage of
1235: # the allowed load limit as set by the perl global variable lonLoadLim
1236:
1237: my $loadavg;
1238: my $loadfile=IO::File->new('/proc/loadavg');
1239:
1240: $loadavg=<$loadfile>;
1241: $loadavg =~ s/\s.*//g; # Extract the first field only.
1242:
1243: my $loadpercent=100*$loadavg/$perlvar{'lonLoadLim'};
1244:
1245: &Reply( $replyfd, "$loadpercent\n", "$cmd:$tail");
1246:
1247: return 1;
1248: }
1.263 albertel 1249: ®ister_handler("load", \&load_handler, 0, 1, 0);
1.217 foxr 1250:
1251: #
1252: # Process the userload request. This sub returns to the client the current
1253: # user load average. It can be invoked either by clients or managers.
1254: #
1255: # Parameters:
1256: # $cmd - the actual keyword that invoked us.
1257: # $tail - the tail of the request that invoked us.
1258: # $replyfd- File descriptor connected to the client
1259: # Implicit Inputs:
1260: # $currenthostid - Global variable that carries the name of the host
1261: # known as.
1262: # $clientname - Global variable that carries the name of the hsot we're connected to.
1263: # Returns:
1264: # 1 - Ok to continue processing.
1265: # 0 - Program should exit
1266: # Implicit inputs:
1267: # whatever the userload() function requires.
1268: # Implicit outputs:
1269: # the reply is written to the client.
1270: #
1271: sub user_load_handler {
1272: my ($cmd, $tail, $replyfd) = @_;
1273:
1274: my $userloadpercent=&userload();
1275: &Reply($replyfd, "$userloadpercent\n", "$cmd:$tail");
1276:
1277: return 1;
1278: }
1.263 albertel 1279: ®ister_handler("userload", \&user_load_handler, 0, 1, 0);
1.217 foxr 1280:
1.218 foxr 1281: # Process a request for the authorization type of a user:
1282: # (userauth).
1283: #
1284: # Parameters:
1285: # $cmd - the actual keyword that invoked us.
1286: # $tail - the tail of the request that invoked us.
1287: # $replyfd- File descriptor connected to the client
1288: # Returns:
1289: # 1 - Ok to continue processing.
1290: # 0 - Program should exit
1291: # Implicit outputs:
1292: # The user authorization type is written to the client.
1293: #
1294: sub user_authorization_type {
1295: my ($cmd, $tail, $replyfd) = @_;
1296:
1297: my $userinput = "$cmd:$tail";
1298:
1299: # Pull the domain and username out of the command tail.
1.222 foxr 1300: # and call get_auth_type to determine the authentication type.
1.218 foxr 1301:
1302: my ($udom,$uname)=split(/:/,$tail);
1.222 foxr 1303: my $result = &get_auth_type($udom, $uname);
1.218 foxr 1304: if($result eq "nouser") {
1305: &Failure( $replyfd, "unknown_user\n", $userinput);
1306: } else {
1307: #
1.222 foxr 1308: # We only want to pass the second field from get_auth_type
1.218 foxr 1309: # for ^krb.. otherwise we'll be handing out the encrypted
1310: # password for internals e.g.
1311: #
1312: my ($type,$otherinfo) = split(/:/,$result);
1313: if($type =~ /^krb/) {
1314: $type = $result;
1315: }
1.222 foxr 1316: &Reply( $replyfd, "$type:\n", $userinput);
1.218 foxr 1317: }
1318:
1319: return 1;
1320: }
1321: ®ister_handler("currentauth", \&user_authorization_type, 1, 1, 0);
1322:
1323: # Process a request by a manager to push a hosts or domain table
1324: # to us. We pick apart the command and pass it on to the subs
1325: # that already exist to do this.
1326: #
1327: # Parameters:
1328: # $cmd - the actual keyword that invoked us.
1329: # $tail - the tail of the request that invoked us.
1330: # $client - File descriptor connected to the client
1331: # Returns:
1332: # 1 - Ok to continue processing.
1333: # 0 - Program should exit
1334: # Implicit Output:
1335: # a reply is written to the client.
1336: sub push_file_handler {
1337: my ($cmd, $tail, $client) = @_;
1338:
1339: my $userinput = "$cmd:$tail";
1340:
1341: # At this time we only know that the IP of our partner is a valid manager
1342: # the code below is a hook to do further authentication (e.g. to resolve
1343: # spoofing).
1344:
1345: my $cert = &GetCertificate($userinput);
1346: if(&ValidManager($cert)) {
1347:
1348: # Now presumably we have the bona fides of both the peer host and the
1349: # process making the request.
1350:
1351: my $reply = &PushFile($userinput);
1352: &Reply($client, "$reply\n", $userinput);
1353:
1354: } else {
1355: &Failure( $client, "refused\n", $userinput);
1356: }
1.219 foxr 1357: return 1;
1.218 foxr 1358: }
1359: ®ister_handler("pushfile", \&push_file_handler, 1, 0, 1);
1360:
1.243 banghart 1361: #
1362: # du - list the disk usuage of a directory recursively.
1363: #
1364: # note: stolen code from the ls file handler
1365: # under construction by Rick Banghart
1366: # .
1367: # Parameters:
1368: # $cmd - The command that dispatched us (du).
1369: # $ududir - The directory path to list... I'm not sure what this
1370: # is relative as things like ls:. return e.g.
1371: # no_such_dir.
1372: # $client - Socket open on the client.
1373: # Returns:
1374: # 1 - indicating that the daemon should not disconnect.
1375: # Side Effects:
1376: # The reply is written to $client.
1377: #
1378: sub du_handler {
1379: my ($cmd, $ududir, $client) = @_;
1.251 foxr 1380: my ($ududir) = split(/:/,$ududir); # Make 'telnet' testing easier.
1381: my $userinput = "$cmd:$ududir";
1382:
1.245 albertel 1383: if ($ududir=~/\.\./ || $ududir!~m|^/home/httpd/|) {
1384: &Failure($client,"refused\n","$cmd:$ududir");
1385: return 1;
1386: }
1.249 foxr 1387: # Since $ududir could have some nasties in it,
1388: # we will require that ududir is a valid
1389: # directory. Just in case someone tries to
1390: # slip us a line like .;(cd /home/httpd rm -rf*)
1391: # etc.
1392: #
1393: if (-d $ududir) {
1394: # And as Shakespeare would say to make
1.251 foxr 1395: # assurance double sure,
1396: # use execute_command to ensure that the command is not executed in
1397: # a shell that can screw us up.
1398:
1399: my $duout = execute_command("du -ks $ududir");
1.249 foxr 1400: $duout=~s/[^\d]//g; #preserve only the numbers
1401: &Reply($client,"$duout\n","$cmd:$ududir");
1402: } else {
1.251 foxr 1403:
1404: &Failure($client, "bad_directory:$ududir\n","$cmd:$ududir");
1405:
1.249 foxr 1406: }
1.243 banghart 1407: return 1;
1408: }
1409: ®ister_handler("du", \&du_handler, 0, 1, 0);
1.218 foxr 1410:
1.239 foxr 1411: #
1412: # ls - list the contents of a directory. For each file in the
1413: # selected directory the filename followed by the full output of
1414: # the stat function is returned. The returned info for each
1415: # file are separated by ':'. The stat fields are separated by &'s.
1416: # Parameters:
1417: # $cmd - The command that dispatched us (ls).
1418: # $ulsdir - The directory path to list... I'm not sure what this
1419: # is relative as things like ls:. return e.g.
1420: # no_such_dir.
1421: # $client - Socket open on the client.
1422: # Returns:
1423: # 1 - indicating that the daemon should not disconnect.
1424: # Side Effects:
1425: # The reply is written to $client.
1426: #
1427: sub ls_handler {
1428: my ($cmd, $ulsdir, $client) = @_;
1429:
1430: my $userinput = "$cmd:$ulsdir";
1431:
1432: my $obs;
1433: my $rights;
1434: my $ulsout='';
1435: my $ulsfn;
1436: if (-e $ulsdir) {
1437: if(-d $ulsdir) {
1438: if (opendir(LSDIR,$ulsdir)) {
1439: while ($ulsfn=readdir(LSDIR)) {
1440: undef $obs, $rights;
1441: my @ulsstats=stat($ulsdir.'/'.$ulsfn);
1442: #We do some obsolete checking here
1443: if(-e $ulsdir.'/'.$ulsfn.".meta") {
1444: open(FILE, $ulsdir.'/'.$ulsfn.".meta");
1445: my @obsolete=<FILE>;
1446: foreach my $obsolete (@obsolete) {
1447: if($obsolete =~ m|(<obsolete>)(on)|) { $obs = 1; }
1448: if($obsolete =~ m|(<copyright>)(default)|) { $rights = 1; }
1449: }
1450: }
1451: $ulsout.=$ulsfn.'&'.join('&',@ulsstats);
1452: if($obs eq '1') { $ulsout.="&1"; }
1453: else { $ulsout.="&0"; }
1454: if($rights eq '1') { $ulsout.="&1:"; }
1455: else { $ulsout.="&0:"; }
1456: }
1457: closedir(LSDIR);
1458: }
1459: } else {
1460: my @ulsstats=stat($ulsdir);
1461: $ulsout.=$ulsfn.'&'.join('&',@ulsstats).':';
1462: }
1463: } else {
1464: $ulsout='no_such_dir';
1465: }
1466: if ($ulsout eq '') { $ulsout='empty'; }
1.249 foxr 1467: &Reply($client, "$ulsout\n", $userinput); # This supports debug logging.
1.239 foxr 1468:
1469: return 1;
1470:
1471: }
1472: ®ister_handler("ls", \&ls_handler, 0, 1, 0);
1473:
1.218 foxr 1474: # Process a reinit request. Reinit requests that either
1475: # lonc or lond be reinitialized so that an updated
1476: # host.tab or domain.tab can be processed.
1477: #
1478: # Parameters:
1479: # $cmd - the actual keyword that invoked us.
1480: # $tail - the tail of the request that invoked us.
1481: # $client - File descriptor connected to the client
1482: # Returns:
1483: # 1 - Ok to continue processing.
1484: # 0 - Program should exit
1485: # Implicit output:
1486: # a reply is sent to the client.
1487: #
1488: sub reinit_process_handler {
1489: my ($cmd, $tail, $client) = @_;
1490:
1491: my $userinput = "$cmd:$tail";
1492:
1493: my $cert = &GetCertificate($userinput);
1494: if(&ValidManager($cert)) {
1495: chomp($userinput);
1496: my $reply = &ReinitProcess($userinput);
1497: &Reply( $client, "$reply\n", $userinput);
1498: } else {
1499: &Failure( $client, "refused\n", $userinput);
1500: }
1501: return 1;
1502: }
1503: ®ister_handler("reinit", \&reinit_process_handler, 1, 0, 1);
1504:
1505: # Process the editing script for a table edit operation.
1506: # the editing operation must be encrypted and requested by
1507: # a manager host.
1508: #
1509: # Parameters:
1510: # $cmd - the actual keyword that invoked us.
1511: # $tail - the tail of the request that invoked us.
1512: # $client - File descriptor connected to the client
1513: # Returns:
1514: # 1 - Ok to continue processing.
1515: # 0 - Program should exit
1516: # Implicit output:
1517: # a reply is sent to the client.
1518: #
1519: sub edit_table_handler {
1520: my ($command, $tail, $client) = @_;
1521:
1522: my $userinput = "$command:$tail";
1523:
1524: my $cert = &GetCertificate($userinput);
1525: if(&ValidManager($cert)) {
1526: my($filetype, $script) = split(/:/, $tail);
1527: if (($filetype eq "hosts") ||
1528: ($filetype eq "domain")) {
1529: if($script ne "") {
1530: &Reply($client, # BUGBUG - EditFile
1531: &EditFile($userinput), # could fail.
1532: $userinput);
1533: } else {
1534: &Failure($client,"refused\n",$userinput);
1535: }
1536: } else {
1537: &Failure($client,"refused\n",$userinput);
1538: }
1539: } else {
1540: &Failure($client,"refused\n",$userinput);
1541: }
1542: return 1;
1543: }
1.263 albertel 1544: ®ister_handler("edit", \&edit_table_handler, 1, 0, 1);
1.218 foxr 1545:
1.220 foxr 1546: #
1547: # Authenticate a user against the LonCAPA authentication
1548: # database. Note that there are several authentication
1549: # possibilities:
1550: # - unix - The user can be authenticated against the unix
1551: # password file.
1552: # - internal - The user can be authenticated against a purely
1553: # internal per user password file.
1554: # - kerberos - The user can be authenticated against either a kerb4 or kerb5
1555: # ticket granting authority.
1556: # - user - The person tailoring LonCAPA can supply a user authentication
1557: # mechanism that is per system.
1558: #
1559: # Parameters:
1560: # $cmd - The command that got us here.
1561: # $tail - Tail of the command (remaining parameters).
1562: # $client - File descriptor connected to client.
1563: # Returns
1564: # 0 - Requested to exit, caller should shut down.
1565: # 1 - Continue processing.
1566: # Implicit inputs:
1567: # The authentication systems describe above have their own forms of implicit
1568: # input into the authentication process that are described above.
1569: #
1570: sub authenticate_handler {
1571: my ($cmd, $tail, $client) = @_;
1572:
1573:
1574: # Regenerate the full input line
1575:
1576: my $userinput = $cmd.":".$tail;
1577:
1578: # udom - User's domain.
1579: # uname - Username.
1580: # upass - User's password.
1581:
1582: my ($udom,$uname,$upass)=split(/:/,$tail);
1583: &Debug(" Authenticate domain = $udom, user = $uname, password = $upass");
1584: chomp($upass);
1585: $upass=&unescape($upass);
1586:
1587: my $pwdcorrect = &validate_user($udom, $uname, $upass);
1588: if($pwdcorrect) {
1589: &Reply( $client, "authorized\n", $userinput);
1590: #
1591: # Bad credentials: Failed to authorize
1592: #
1593: } else {
1594: &Failure( $client, "non_authorized\n", $userinput);
1595: }
1596:
1597: return 1;
1598: }
1.263 albertel 1599: ®ister_handler("auth", \&authenticate_handler, 1, 1, 0);
1.214 foxr 1600:
1.222 foxr 1601: #
1602: # Change a user's password. Note that this function is complicated by
1603: # the fact that a user may be authenticated in more than one way:
1604: # At present, we are not able to change the password for all types of
1605: # authentication methods. Only for:
1606: # unix - unix password or shadow passoword style authentication.
1607: # local - Locally written authentication mechanism.
1608: # For now, kerb4 and kerb5 password changes are not supported and result
1609: # in an error.
1610: # FUTURE WORK:
1611: # Support kerberos passwd changes?
1612: # Parameters:
1613: # $cmd - The command that got us here.
1614: # $tail - Tail of the command (remaining parameters).
1615: # $client - File descriptor connected to client.
1616: # Returns
1617: # 0 - Requested to exit, caller should shut down.
1618: # 1 - Continue processing.
1619: # Implicit inputs:
1620: # The authentication systems describe above have their own forms of implicit
1621: # input into the authentication process that are described above.
1622: sub change_password_handler {
1623: my ($cmd, $tail, $client) = @_;
1624:
1625: my $userinput = $cmd.":".$tail; # Reconstruct client's string.
1626:
1627: #
1628: # udom - user's domain.
1629: # uname - Username.
1630: # upass - Current password.
1631: # npass - New password.
1632:
1633: my ($udom,$uname,$upass,$npass)=split(/:/,$tail);
1634:
1635: $upass=&unescape($upass);
1636: $npass=&unescape($npass);
1637: &Debug("Trying to change password for $uname");
1638:
1639: # First require that the user can be authenticated with their
1640: # old password:
1641:
1642: my $validated = &validate_user($udom, $uname, $upass);
1643: if($validated) {
1644: my $realpasswd = &get_auth_type($udom, $uname); # Defined since authd.
1645:
1646: my ($howpwd,$contentpwd)=split(/:/,$realpasswd);
1647: if ($howpwd eq 'internal') {
1648: &Debug("internal auth");
1649: my $salt=time;
1650: $salt=substr($salt,6,2);
1651: my $ncpass=crypt($npass,$salt);
1652: if(&rewrite_password_file($udom, $uname, "internal:$ncpass")) {
1653: &logthis("Result of password change for "
1654: ."$uname: pwchange_success");
1655: &Reply($client, "ok\n", $userinput);
1656: } else {
1657: &logthis("Unable to open $uname passwd "
1658: ."to change password");
1659: &Failure( $client, "non_authorized\n",$userinput);
1660: }
1661: } elsif ($howpwd eq 'unix') {
1662: # Unix means we have to access /etc/password
1663: &Debug("auth is unix");
1664: my $execdir=$perlvar{'lonDaemons'};
1665: &Debug("Opening lcpasswd pipeline");
1666: my $pf = IO::File->new("|$execdir/lcpasswd > "
1667: ."$perlvar{'lonDaemons'}"
1668: ."/logs/lcpasswd.log");
1669: print $pf "$uname\n$npass\n$npass\n";
1670: close $pf;
1671: my $err = $?;
1672: my $result = ($err>0 ? 'pwchange_failure' : 'ok');
1673: &logthis("Result of password change for $uname: ".
1674: &lcpasswdstrerror($?));
1675: &Reply($client, "$result\n", $userinput);
1676: } else {
1677: # this just means that the current password mode is not
1678: # one we know how to change (e.g the kerberos auth modes or
1679: # locally written auth handler).
1680: #
1681: &Failure( $client, "auth_mode_error\n", $userinput);
1682: }
1683:
1.224 foxr 1684: } else {
1.222 foxr 1685: &Failure( $client, "non_authorized\n", $userinput);
1686: }
1687:
1688: return 1;
1689: }
1.263 albertel 1690: ®ister_handler("passwd", \&change_password_handler, 1, 1, 0);
1.222 foxr 1691:
1.225 foxr 1692: #
1693: # Create a new user. User in this case means a lon-capa user.
1694: # The user must either already exist in some authentication realm
1695: # like kerberos or the /etc/passwd. If not, a user completely local to
1696: # this loncapa system is created.
1697: #
1698: # Parameters:
1699: # $cmd - The command that got us here.
1700: # $tail - Tail of the command (remaining parameters).
1701: # $client - File descriptor connected to client.
1702: # Returns
1703: # 0 - Requested to exit, caller should shut down.
1704: # 1 - Continue processing.
1705: # Implicit inputs:
1706: # The authentication systems describe above have their own forms of implicit
1707: # input into the authentication process that are described above.
1708: sub add_user_handler {
1709:
1710: my ($cmd, $tail, $client) = @_;
1711:
1712:
1713: my ($udom,$uname,$umode,$npass)=split(/:/,$tail);
1714: my $userinput = $cmd.":".$tail; # Reconstruct the full request line.
1715:
1716: &Debug("cmd =".$cmd." $udom =".$udom." uname=".$uname);
1717:
1718:
1719: if($udom eq $currentdomainid) { # Reject new users for other domains...
1720:
1721: my $oldumask=umask(0077);
1722: chomp($npass);
1723: $npass=&unescape($npass);
1724: my $passfilename = &password_path($udom, $uname);
1725: &Debug("Password file created will be:".$passfilename);
1726: if (-e $passfilename) {
1727: &Failure( $client, "already_exists\n", $userinput);
1728: } else {
1729: my $fperror='';
1.264 albertel 1730: if (!&mkpath($passfilename)) {
1731: $fperror="error: ".($!+0)." mkdir failed while attempting "
1732: ."makeuser";
1.225 foxr 1733: }
1734: unless ($fperror) {
1735: my $result=&make_passwd_file($uname, $umode,$npass, $passfilename);
1736: &Reply($client, $result, $userinput); #BUGBUG - could be fail
1737: } else {
1738: &Failure($client, "$fperror\n", $userinput);
1739: }
1740: }
1741: umask($oldumask);
1742: } else {
1743: &Failure($client, "not_right_domain\n",
1744: $userinput); # Even if we are multihomed.
1745:
1746: }
1747: return 1;
1748:
1749: }
1750: ®ister_handler("makeuser", \&add_user_handler, 1, 1, 0);
1751:
1752: #
1753: # Change the authentication method of a user. Note that this may
1754: # also implicitly change the user's password if, for example, the user is
1755: # joining an existing authentication realm. Known authentication realms at
1756: # this time are:
1757: # internal - Purely internal password file (only loncapa knows this user)
1758: # local - Institutionally written authentication module.
1759: # unix - Unix user (/etc/passwd with or without /etc/shadow).
1760: # kerb4 - kerberos version 4
1761: # kerb5 - kerberos version 5
1762: #
1763: # Parameters:
1764: # $cmd - The command that got us here.
1765: # $tail - Tail of the command (remaining parameters).
1766: # $client - File descriptor connected to client.
1767: # Returns
1768: # 0 - Requested to exit, caller should shut down.
1769: # 1 - Continue processing.
1770: # Implicit inputs:
1771: # The authentication systems describe above have their own forms of implicit
1772: # input into the authentication process that are described above.
1773: #
1774: sub change_authentication_handler {
1775:
1776: my ($cmd, $tail, $client) = @_;
1777:
1778: my $userinput = "$cmd:$tail"; # Reconstruct user input.
1779:
1780: my ($udom,$uname,$umode,$npass)=split(/:/,$tail);
1781: &Debug("cmd = ".$cmd." domain= ".$udom."uname =".$uname." umode= ".$umode);
1782: if ($udom ne $currentdomainid) {
1783: &Failure( $client, "not_right_domain\n", $client);
1784: } else {
1785:
1786: chomp($npass);
1787:
1788: $npass=&unescape($npass);
1.261 foxr 1789: my $oldauth = &get_auth_type($udom, $uname); # Get old auth info.
1.225 foxr 1790: my $passfilename = &password_path($udom, $uname);
1791: if ($passfilename) { # Not allowed to create a new user!!
1792: my $result=&make_passwd_file($uname, $umode,$npass,$passfilename);
1.261 foxr 1793: #
1794: # If the current auth mode is internal, and the old auth mode was
1795: # unix, or krb*, and the user is an author for this domain,
1796: # re-run manage_permissions for that role in order to be able
1797: # to take ownership of the construction space back to www:www
1798: #
1799:
1800: if( ($oldauth =~ /^unix/) && ($umode eq "internal")) { # unix -> internal
1801: if(&is_author($udom, $uname)) {
1802: &Debug(" Need to manage author permissions...");
1803: &manage_permissions("/$udom/_au", $udom, $uname, "internal:");
1804: }
1805: }
1806:
1807:
1.225 foxr 1808: &Reply($client, $result, $userinput);
1809: } else {
1.251 foxr 1810: &Failure($client, "non_authorized\n", $userinput); # Fail the user now.
1.225 foxr 1811: }
1812: }
1813: return 1;
1814: }
1815: ®ister_handler("changeuserauth", \&change_authentication_handler, 1,1, 0);
1816:
1817: #
1818: # Determines if this is the home server for a user. The home server
1819: # for a user will have his/her lon-capa passwd file. Therefore all we need
1820: # to do is determine if this file exists.
1821: #
1822: # Parameters:
1823: # $cmd - The command that got us here.
1824: # $tail - Tail of the command (remaining parameters).
1825: # $client - File descriptor connected to client.
1826: # Returns
1827: # 0 - Requested to exit, caller should shut down.
1828: # 1 - Continue processing.
1829: # Implicit inputs:
1830: # The authentication systems describe above have their own forms of implicit
1831: # input into the authentication process that are described above.
1832: #
1833: sub is_home_handler {
1834: my ($cmd, $tail, $client) = @_;
1835:
1836: my $userinput = "$cmd:$tail";
1837:
1838: my ($udom,$uname)=split(/:/,$tail);
1839: chomp($uname);
1840: my $passfile = &password_filename($udom, $uname);
1841: if($passfile) {
1842: &Reply( $client, "found\n", $userinput);
1843: } else {
1844: &Failure($client, "not_found\n", $userinput);
1845: }
1846: return 1;
1847: }
1848: ®ister_handler("home", \&is_home_handler, 0,1,0);
1849:
1850: #
1851: # Process an update request for a resource?? I think what's going on here is
1852: # that a resource has been modified that we hold a subscription to.
1853: # If the resource is not local, then we must update, or at least invalidate our
1854: # cached copy of the resource.
1855: # FUTURE WORK:
1856: # I need to look at this logic carefully. My druthers would be to follow
1857: # typical caching logic, and simple invalidate the cache, drop any subscription
1858: # an let the next fetch start the ball rolling again... however that may
1859: # actually be more difficult than it looks given the complex web of
1860: # proxy servers.
1861: # Parameters:
1862: # $cmd - The command that got us here.
1863: # $tail - Tail of the command (remaining parameters).
1864: # $client - File descriptor connected to client.
1865: # Returns
1866: # 0 - Requested to exit, caller should shut down.
1867: # 1 - Continue processing.
1868: # Implicit inputs:
1869: # The authentication systems describe above have their own forms of implicit
1870: # input into the authentication process that are described above.
1871: #
1872: sub update_resource_handler {
1873:
1874: my ($cmd, $tail, $client) = @_;
1875:
1876: my $userinput = "$cmd:$tail";
1877:
1878: my $fname= $tail; # This allows interactive testing
1879:
1880:
1881: my $ownership=ishome($fname);
1882: if ($ownership eq 'not_owner') {
1883: if (-e $fname) {
1884: my ($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,
1885: $atime,$mtime,$ctime,$blksize,$blocks)=stat($fname);
1886: my $now=time;
1887: my $since=$now-$atime;
1888: if ($since>$perlvar{'lonExpire'}) {
1889: my $reply=&reply("unsub:$fname","$clientname");
1890: unlink("$fname");
1891: } else {
1892: my $transname="$fname.in.transfer";
1893: my $remoteurl=&reply("sub:$fname","$clientname");
1894: my $response;
1895: alarm(120);
1896: {
1897: my $ua=new LWP::UserAgent;
1898: my $request=new HTTP::Request('GET',"$remoteurl");
1899: $response=$ua->request($request,$transname);
1900: }
1901: alarm(0);
1902: if ($response->is_error()) {
1903: unlink($transname);
1904: my $message=$response->status_line;
1905: &logthis("LWP GET: $message for $fname ($remoteurl)");
1906: } else {
1907: if ($remoteurl!~/\.meta$/) {
1908: alarm(120);
1909: {
1910: my $ua=new LWP::UserAgent;
1911: my $mrequest=new HTTP::Request('GET',$remoteurl.'.meta');
1912: my $mresponse=$ua->request($mrequest,$fname.'.meta');
1913: if ($mresponse->is_error()) {
1914: unlink($fname.'.meta');
1915: }
1916: }
1917: alarm(0);
1918: }
1919: rename($transname,$fname);
1920: }
1921: }
1922: &Reply( $client, "ok\n", $userinput);
1923: } else {
1924: &Failure($client, "not_found\n", $userinput);
1925: }
1926: } else {
1927: &Failure($client, "rejected\n", $userinput);
1928: }
1929: return 1;
1930: }
1931: ®ister_handler("update", \&update_resource_handler, 0 ,1, 0);
1932:
1933: #
1.226 foxr 1934: # Fetch a user file from a remote server to the user's home directory
1935: # userfiles subdir.
1.225 foxr 1936: # Parameters:
1937: # $cmd - The command that got us here.
1938: # $tail - Tail of the command (remaining parameters).
1939: # $client - File descriptor connected to client.
1940: # Returns
1941: # 0 - Requested to exit, caller should shut down.
1942: # 1 - Continue processing.
1943: #
1944: sub fetch_user_file_handler {
1945:
1946: my ($cmd, $tail, $client) = @_;
1947:
1948: my $userinput = "$cmd:$tail";
1949: my $fname = $tail;
1.232 foxr 1950: my ($udom,$uname,$ufile) = ($fname =~ m|^([^/]+)/([^/]+)/(.+)$|);
1.225 foxr 1951: my $udir=&propath($udom,$uname).'/userfiles';
1952: unless (-e $udir) {
1953: mkdir($udir,0770);
1954: }
1.232 foxr 1955: Debug("fetch user file for $fname");
1.225 foxr 1956: if (-e $udir) {
1957: $ufile=~s/^[\.\~]+//;
1.232 foxr 1958:
1959: # IF necessary, create the path right down to the file.
1960: # Note that any regular files in the way of this path are
1961: # wiped out to deal with some earlier folly of mine.
1962:
1.264 albertel 1963: if (!&mkpath($udir.'/')) {
1964: &Failure($client, "unable_to_create\n", $userinput);
1.232 foxr 1965: }
1966:
1.225 foxr 1967: my $destname=$udir.'/'.$ufile;
1968: my $transname=$udir.'/'.$ufile.'.in.transit';
1969: my $remoteurl='http://'.$clientip.'/userfiles/'.$fname;
1970: my $response;
1.232 foxr 1971: Debug("Remote URL : $remoteurl Transfername $transname Destname: $destname");
1.225 foxr 1972: alarm(120);
1973: {
1974: my $ua=new LWP::UserAgent;
1975: my $request=new HTTP::Request('GET',"$remoteurl");
1976: $response=$ua->request($request,$transname);
1977: }
1978: alarm(0);
1979: if ($response->is_error()) {
1980: unlink($transname);
1981: my $message=$response->status_line;
1982: &logthis("LWP GET: $message for $fname ($remoteurl)");
1983: &Failure($client, "failed\n", $userinput);
1984: } else {
1.232 foxr 1985: Debug("Renaming $transname to $destname");
1.225 foxr 1986: if (!rename($transname,$destname)) {
1987: &logthis("Unable to move $transname to $destname");
1988: unlink($transname);
1989: &Failure($client, "failed\n", $userinput);
1990: } else {
1991: &Reply($client, "ok\n", $userinput);
1992: }
1993: }
1994: } else {
1995: &Failure($client, "not_home\n", $userinput);
1996: }
1997: return 1;
1998: }
1999: ®ister_handler("fetchuserfile", \&fetch_user_file_handler, 0, 1, 0);
2000:
1.226 foxr 2001: #
2002: # Remove a file from a user's home directory userfiles subdirectory.
2003: # Parameters:
2004: # cmd - the Lond request keyword that got us here.
2005: # tail - the part of the command past the keyword.
2006: # client- File descriptor connected with the client.
2007: #
2008: # Returns:
2009: # 1 - Continue processing.
2010: sub remove_user_file_handler {
2011: my ($cmd, $tail, $client) = @_;
2012:
2013: my ($fname) = split(/:/, $tail); # Get rid of any tailing :'s lonc may have sent.
2014:
2015: my ($udom,$uname,$ufile) = ($fname =~ m|^([^/]+)/([^/]+)/(.+)$|);
2016: if ($ufile =~m|/\.\./|) {
2017: # any files paths with /../ in them refuse
2018: # to deal with
2019: &Failure($client, "refused\n", "$cmd:$tail");
2020: } else {
2021: my $udir = &propath($udom,$uname);
2022: if (-e $udir) {
2023: my $file=$udir.'/userfiles/'.$ufile;
2024: if (-e $file) {
1.253 foxr 2025: #
2026: # If the file is a regular file unlink is fine...
2027: # However it's possible the client wants a dir.
2028: # removed, in which case rmdir is more approprate:
2029: #
1.240 banghart 2030: if (-f $file){
1.241 albertel 2031: unlink($file);
2032: } elsif(-d $file) {
2033: rmdir($file);
1.240 banghart 2034: }
1.226 foxr 2035: if (-e $file) {
1.253 foxr 2036: # File is still there after we deleted it ?!?
2037:
1.226 foxr 2038: &Failure($client, "failed\n", "$cmd:$tail");
2039: } else {
2040: &Reply($client, "ok\n", "$cmd:$tail");
2041: }
2042: } else {
2043: &Failure($client, "not_found\n", "$cmd:$tail");
2044: }
2045: } else {
2046: &Failure($client, "not_home\n", "$cmd:$tail");
2047: }
2048: }
2049: return 1;
2050: }
2051: ®ister_handler("removeuserfile", \&remove_user_file_handler, 0,1,0);
2052:
1.236 albertel 2053: #
2054: # make a directory in a user's home directory userfiles subdirectory.
2055: # Parameters:
2056: # cmd - the Lond request keyword that got us here.
2057: # tail - the part of the command past the keyword.
2058: # client- File descriptor connected with the client.
2059: #
2060: # Returns:
2061: # 1 - Continue processing.
2062: sub mkdir_user_file_handler {
2063: my ($cmd, $tail, $client) = @_;
2064:
2065: my ($dir) = split(/:/, $tail); # Get rid of any tailing :'s lonc may have sent.
2066: $dir=&unescape($dir);
2067: my ($udom,$uname,$ufile) = ($dir =~ m|^([^/]+)/([^/]+)/(.+)$|);
2068: if ($ufile =~m|/\.\./|) {
2069: # any files paths with /../ in them refuse
2070: # to deal with
2071: &Failure($client, "refused\n", "$cmd:$tail");
2072: } else {
2073: my $udir = &propath($udom,$uname);
2074: if (-e $udir) {
1.264 albertel 2075: my $newdir=$udir.'/userfiles/'.$ufile.'/';
2076: if (!&mkpath($newdir)) {
2077: &Failure($client, "failed\n", "$cmd:$tail");
1.236 albertel 2078: }
1.264 albertel 2079: &Reply($client, "ok\n", "$cmd:$tail");
1.236 albertel 2080: } else {
2081: &Failure($client, "not_home\n", "$cmd:$tail");
2082: }
2083: }
2084: return 1;
2085: }
2086: ®ister_handler("mkdiruserfile", \&mkdir_user_file_handler, 0,1,0);
2087:
1.237 albertel 2088: #
2089: # rename a file in a user's home directory userfiles subdirectory.
2090: # Parameters:
2091: # cmd - the Lond request keyword that got us here.
2092: # tail - the part of the command past the keyword.
2093: # client- File descriptor connected with the client.
2094: #
2095: # Returns:
2096: # 1 - Continue processing.
2097: sub rename_user_file_handler {
2098: my ($cmd, $tail, $client) = @_;
2099:
2100: my ($udom,$uname,$old,$new) = split(/:/, $tail);
2101: $old=&unescape($old);
2102: $new=&unescape($new);
2103: if ($new =~m|/\.\./| || $old =~m|/\.\./|) {
2104: # any files paths with /../ in them refuse to deal with
2105: &Failure($client, "refused\n", "$cmd:$tail");
2106: } else {
2107: my $udir = &propath($udom,$uname);
2108: if (-e $udir) {
2109: my $oldfile=$udir.'/userfiles/'.$old;
2110: my $newfile=$udir.'/userfiles/'.$new;
2111: if (-e $newfile) {
2112: &Failure($client, "exists\n", "$cmd:$tail");
2113: } elsif (! -e $oldfile) {
2114: &Failure($client, "not_found\n", "$cmd:$tail");
2115: } else {
2116: if (!rename($oldfile,$newfile)) {
2117: &Failure($client, "failed\n", "$cmd:$tail");
2118: } else {
2119: &Reply($client, "ok\n", "$cmd:$tail");
2120: }
2121: }
2122: } else {
2123: &Failure($client, "not_home\n", "$cmd:$tail");
2124: }
2125: }
2126: return 1;
2127: }
2128: ®ister_handler("renameuserfile", \&rename_user_file_handler, 0,1,0);
2129:
1.227 foxr 2130: #
1.263 albertel 2131: # Authenticate access to a user file by checking that the token the user's
2132: # passed also exists in their session file
1.227 foxr 2133: #
2134: # Parameters:
2135: # cmd - The request keyword that dispatched to tus.
2136: # tail - The tail of the request (colon separated parameters).
2137: # client - Filehandle open on the client.
2138: # Return:
2139: # 1.
2140: sub token_auth_user_file_handler {
2141: my ($cmd, $tail, $client) = @_;
2142:
2143: my ($fname, $session) = split(/:/, $tail);
2144:
2145: chomp($session);
1.251 foxr 2146: my $reply="non_auth\n";
1.227 foxr 2147: if (open(ENVIN,$perlvar{'lonIDsDir'}.'/'.
2148: $session.'.id')) {
2149: while (my $line=<ENVIN>) {
1.251 foxr 2150: if ($line=~ m|userfile\.\Q$fname\E\=|) { $reply="ok\n"; }
1.227 foxr 2151: }
2152: close(ENVIN);
1.251 foxr 2153: &Reply($client, $reply, "$cmd:$tail");
1.227 foxr 2154: } else {
2155: &Failure($client, "invalid_token\n", "$cmd:$tail");
2156: }
2157: return 1;
2158:
2159: }
2160: ®ister_handler("tokenauthuserfile", \&token_auth_user_file_handler, 0,1,0);
1.229 foxr 2161:
2162: #
2163: # Unsubscribe from a resource.
2164: #
2165: # Parameters:
2166: # $cmd - The command that got us here.
2167: # $tail - Tail of the command (remaining parameters).
2168: # $client - File descriptor connected to client.
2169: # Returns
2170: # 0 - Requested to exit, caller should shut down.
2171: # 1 - Continue processing.
2172: #
2173: sub unsubscribe_handler {
2174: my ($cmd, $tail, $client) = @_;
2175:
2176: my $userinput= "$cmd:$tail";
2177:
2178: my ($fname) = split(/:/,$tail); # Split in case there's extrs.
2179:
2180: &Debug("Unsubscribing $fname");
2181: if (-e $fname) {
2182: &Debug("Exists");
2183: &Reply($client, &unsub($fname,$clientip), $userinput);
2184: } else {
2185: &Failure($client, "not_found\n", $userinput);
2186: }
2187: return 1;
2188: }
2189: ®ister_handler("unsub", \&unsubscribe_handler, 0, 1, 0);
1.263 albertel 2190:
1.230 foxr 2191: # Subscribe to a resource
2192: #
2193: # Parameters:
2194: # $cmd - The command that got us here.
2195: # $tail - Tail of the command (remaining parameters).
2196: # $client - File descriptor connected to client.
2197: # Returns
2198: # 0 - Requested to exit, caller should shut down.
2199: # 1 - Continue processing.
2200: #
2201: sub subscribe_handler {
2202: my ($cmd, $tail, $client)= @_;
2203:
2204: my $userinput = "$cmd:$tail";
2205:
2206: &Reply( $client, &subscribe($userinput,$clientip), $userinput);
2207:
2208: return 1;
2209: }
2210: ®ister_handler("sub", \&subscribe_handler, 0, 1, 0);
2211:
2212: #
2213: # Determine the version of a resource (?) Or is it return
2214: # the top version of the resource? Not yet clear from the
2215: # code in currentversion.
2216: #
2217: # Parameters:
2218: # $cmd - The command that got us here.
2219: # $tail - Tail of the command (remaining parameters).
2220: # $client - File descriptor connected to client.
2221: # Returns
2222: # 0 - Requested to exit, caller should shut down.
2223: # 1 - Continue processing.
2224: #
2225: sub current_version_handler {
2226: my ($cmd, $tail, $client) = @_;
2227:
2228: my $userinput= "$cmd:$tail";
2229:
2230: my $fname = $tail;
2231: &Reply( $client, ¤tversion($fname)."\n", $userinput);
2232: return 1;
2233:
2234: }
2235: ®ister_handler("currentversion", \¤t_version_handler, 0, 1, 0);
2236:
2237: # Make an entry in a user's activity log.
2238: #
2239: # Parameters:
2240: # $cmd - The command that got us here.
2241: # $tail - Tail of the command (remaining parameters).
2242: # $client - File descriptor connected to client.
2243: # Returns
2244: # 0 - Requested to exit, caller should shut down.
2245: # 1 - Continue processing.
2246: #
2247: sub activity_log_handler {
2248: my ($cmd, $tail, $client) = @_;
2249:
2250:
2251: my $userinput= "$cmd:$tail";
2252:
2253: my ($udom,$uname,$what)=split(/:/,$tail);
2254: chomp($what);
2255: my $proname=&propath($udom,$uname);
2256: my $now=time;
2257: my $hfh;
2258: if ($hfh=IO::File->new(">>$proname/activity.log")) {
2259: print $hfh "$now:$clientname:$what\n";
2260: &Reply( $client, "ok\n", $userinput);
2261: } else {
2262: &Failure($client, "error: ".($!+0)." IO::File->new Failed "
2263: ."while attempting log\n",
2264: $userinput);
2265: }
2266:
2267: return 1;
2268: }
1.263 albertel 2269: ®ister_handler("log", \&activity_log_handler, 0, 1, 0);
1.230 foxr 2270:
2271: #
2272: # Put a namespace entry in a user profile hash.
2273: # My druthers would be for this to be an encrypted interaction too.
2274: # anything that might be an inadvertent covert channel about either
2275: # user authentication or user personal information....
2276: #
2277: # Parameters:
2278: # $cmd - The command that got us here.
2279: # $tail - Tail of the command (remaining parameters).
2280: # $client - File descriptor connected to client.
2281: # Returns
2282: # 0 - Requested to exit, caller should shut down.
2283: # 1 - Continue processing.
2284: #
2285: sub put_user_profile_entry {
2286: my ($cmd, $tail, $client) = @_;
1.229 foxr 2287:
1.230 foxr 2288: my $userinput = "$cmd:$tail";
2289:
1.242 raeburn 2290: my ($udom,$uname,$namespace,$what) =split(/:/,$tail,4);
1.230 foxr 2291: if ($namespace ne 'roles') {
2292: chomp($what);
2293: my $hashref = &tie_user_hash($udom, $uname, $namespace,
2294: &GDBM_WRCREAT(),"P",$what);
2295: if($hashref) {
2296: my @pairs=split(/\&/,$what);
2297: foreach my $pair (@pairs) {
2298: my ($key,$value)=split(/=/,$pair);
2299: $hashref->{$key}=$value;
2300: }
2301: if (untie(%$hashref)) {
2302: &Reply( $client, "ok\n", $userinput);
2303: } else {
2304: &Failure($client, "error: ".($!+0)." untie(GDBM) failed ".
2305: "while attempting put\n",
2306: $userinput);
2307: }
2308: } else {
2309: &Failure( $client, "error: ".($!)." tie(GDBM) Failed ".
2310: "while attempting put\n", $userinput);
2311: }
2312: } else {
2313: &Failure( $client, "refused\n", $userinput);
2314: }
2315:
2316: return 1;
2317: }
2318: ®ister_handler("put", \&put_user_profile_entry, 0, 1, 0);
2319:
2320: #
2321: # Increment a profile entry in the user history file.
2322: # The history contains keyword value pairs. In this case,
2323: # The value itself is a pair of numbers. The first, the current value
2324: # the second an increment that this function applies to the current
2325: # value.
2326: #
2327: # Parameters:
2328: # $cmd - The command that got us here.
2329: # $tail - Tail of the command (remaining parameters).
2330: # $client - File descriptor connected to client.
2331: # Returns
2332: # 0 - Requested to exit, caller should shut down.
2333: # 1 - Continue processing.
2334: #
2335: sub increment_user_value_handler {
2336: my ($cmd, $tail, $client) = @_;
2337:
2338: my $userinput = "$cmd:$tail";
2339:
2340: my ($udom,$uname,$namespace,$what) =split(/:/,$tail);
2341: if ($namespace ne 'roles') {
2342: chomp($what);
2343: my $hashref = &tie_user_hash($udom, $uname,
2344: $namespace, &GDBM_WRCREAT(),
2345: "P",$what);
2346: if ($hashref) {
2347: my @pairs=split(/\&/,$what);
2348: foreach my $pair (@pairs) {
2349: my ($key,$value)=split(/=/,$pair);
2350: # We could check that we have a number...
2351: if (! defined($value) || $value eq '') {
2352: $value = 1;
2353: }
2354: $hashref->{$key}+=$value;
2355: }
2356: if (untie(%$hashref)) {
2357: &Reply( $client, "ok\n", $userinput);
2358: } else {
2359: &Failure($client, "error: ".($!+0)." untie(GDBM) failed ".
2360: "while attempting inc\n", $userinput);
2361: }
2362: } else {
2363: &Failure($client, "error: ".($!+0)." tie(GDBM) Failed ".
2364: "while attempting inc\n", $userinput);
2365: }
2366: } else {
2367: &Failure($client, "refused\n", $userinput);
2368: }
2369:
2370: return 1;
2371: }
2372: ®ister_handler("inc", \&increment_user_value_handler, 0, 1, 0);
2373:
2374: #
2375: # Put a new role for a user. Roles are LonCAPA's packaging of permissions.
2376: # Each 'role' a user has implies a set of permissions. Adding a new role
2377: # for a person grants the permissions packaged with that role
2378: # to that user when the role is selected.
2379: #
2380: # Parameters:
2381: # $cmd - The command string (rolesput).
2382: # $tail - The remainder of the request line. For rolesput this
2383: # consists of a colon separated list that contains:
2384: # The domain and user that is granting the role (logged).
2385: # The domain and user that is getting the role.
2386: # The roles being granted as a set of & separated pairs.
2387: # each pair a key value pair.
2388: # $client - File descriptor connected to the client.
2389: # Returns:
2390: # 0 - If the daemon should exit
2391: # 1 - To continue processing.
2392: #
2393: #
2394: sub roles_put_handler {
2395: my ($cmd, $tail, $client) = @_;
2396:
2397: my $userinput = "$cmd:$tail";
2398:
2399: my ( $exedom, $exeuser, $udom, $uname, $what) = split(/:/,$tail);
2400:
2401:
2402: my $namespace='roles';
2403: chomp($what);
2404: my $hashref = &tie_user_hash($udom, $uname, $namespace,
2405: &GDBM_WRCREAT(), "P",
2406: "$exedom:$exeuser:$what");
2407: #
2408: # Log the attempt to set a role. The {}'s here ensure that the file
2409: # handle is open for the minimal amount of time. Since the flush
2410: # is done on close this improves the chances the log will be an un-
2411: # corrupted ordered thing.
2412: if ($hashref) {
1.261 foxr 2413: my $pass_entry = &get_auth_type($udom, $uname);
2414: my ($auth_type,$pwd) = split(/:/, $pass_entry);
2415: $auth_type = $auth_type.":";
1.230 foxr 2416: my @pairs=split(/\&/,$what);
2417: foreach my $pair (@pairs) {
2418: my ($key,$value)=split(/=/,$pair);
2419: &manage_permissions($key, $udom, $uname,
1.260 foxr 2420: $auth_type);
1.230 foxr 2421: $hashref->{$key}=$value;
2422: }
2423: if (untie($hashref)) {
2424: &Reply($client, "ok\n", $userinput);
2425: } else {
2426: &Failure( $client, "error: ".($!+0)." untie(GDBM) Failed ".
2427: "while attempting rolesput\n", $userinput);
2428: }
2429: } else {
2430: &Failure( $client, "error: ".($!+0)." tie(GDBM) Failed ".
2431: "while attempting rolesput\n", $userinput);
2432: }
2433: return 1;
2434: }
2435: ®ister_handler("rolesput", \&roles_put_handler, 1,1,0); # Encoded client only.
2436:
2437: #
1.231 foxr 2438: # Deletes (removes) a role for a user. This is equivalent to removing
2439: # a permissions package associated with the role from the user's profile.
2440: #
2441: # Parameters:
2442: # $cmd - The command (rolesdel)
2443: # $tail - The remainder of the request line. This consists
2444: # of:
2445: # The domain and user requesting the change (logged)
2446: # The domain and user being changed.
2447: # The roles being revoked. These are shipped to us
2448: # as a bunch of & separated role name keywords.
2449: # $client - The file handle open on the client.
2450: # Returns:
2451: # 1 - Continue processing
2452: # 0 - Exit.
2453: #
2454: sub roles_delete_handler {
2455: my ($cmd, $tail, $client) = @_;
2456:
2457: my $userinput = "$cmd:$tail";
2458:
2459: my ($exedom,$exeuser,$udom,$uname,$what)=split(/:/,$tail);
2460: &Debug("cmd = ".$cmd." exedom= ".$exedom."user = ".$exeuser." udom=".$udom.
2461: "what = ".$what);
2462: my $namespace='roles';
2463: chomp($what);
2464: my $hashref = &tie_user_hash($udom, $uname, $namespace,
2465: &GDBM_WRCREAT(), "D",
2466: "$exedom:$exeuser:$what");
2467:
2468: if ($hashref) {
2469: my @rolekeys=split(/\&/,$what);
2470:
2471: foreach my $key (@rolekeys) {
2472: delete $hashref->{$key};
2473: }
2474: if (untie(%$hashref)) {
2475: &Reply($client, "ok\n", $userinput);
2476: } else {
2477: &Failure( $client, "error: ".($!+0)." untie(GDBM) Failed ".
2478: "while attempting rolesdel\n", $userinput);
2479: }
2480: } else {
2481: &Failure( $client, "error: ".($!+0)." tie(GDBM) Failed ".
2482: "while attempting rolesdel\n", $userinput);
2483: }
2484:
2485: return 1;
2486: }
2487: ®ister_handler("rolesdel", \&roles_delete_handler, 1,1, 0); # Encoded client only
2488:
2489: # Unencrypted get from a user's profile database. See
2490: # GetProfileEntryEncrypted for a version that does end-to-end encryption.
2491: # This function retrieves a keyed item from a specific named database in the
2492: # user's directory.
2493: #
2494: # Parameters:
2495: # $cmd - Command request keyword (get).
2496: # $tail - Tail of the command. This is a colon separated list
2497: # consisting of the domain and username that uniquely
2498: # identifies the profile,
2499: # The 'namespace' which selects the gdbm file to
2500: # do the lookup in,
2501: # & separated list of keys to lookup. Note that
2502: # the values are returned as an & separated list too.
2503: # $client - File descriptor open on the client.
2504: # Returns:
2505: # 1 - Continue processing.
2506: # 0 - Exit.
2507: #
2508: sub get_profile_entry {
2509: my ($cmd, $tail, $client) = @_;
2510:
2511: my $userinput= "$cmd:$tail";
2512:
2513: my ($udom,$uname,$namespace,$what) = split(/:/,$tail);
2514: chomp($what);
1.255 foxr 2515:
2516: my $replystring = read_profile($udom, $uname, $namespace, $what);
2517: my ($first) = split(/:/,$replystring);
2518: if($first ne "error") {
2519: &Reply($client, "$replystring\n", $userinput);
1.231 foxr 2520: } else {
1.255 foxr 2521: &Failure($client, $replystring." while attempting get\n", $userinput);
1.231 foxr 2522: }
2523: return 1;
1.255 foxr 2524:
2525:
1.231 foxr 2526: }
2527: ®ister_handler("get", \&get_profile_entry, 0,1,0);
2528:
2529: #
2530: # Process the encrypted get request. Note that the request is sent
2531: # in clear, but the reply is encrypted. This is a small covert channel:
2532: # information about the sensitive keys is given to the snooper. Just not
2533: # information about the values of the sensitive key. Hmm if I wanted to
2534: # know these I'd snoop for the egets. Get the profile item names from them
2535: # and then issue a get for them since there's no enforcement of the
2536: # requirement of an encrypted get for particular profile items. If I
2537: # were re-doing this, I'd force the request to be encrypted as well as the
2538: # reply. I'd also just enforce encrypted transactions for all gets since
2539: # that would prevent any covert channel snooping.
2540: #
2541: # Parameters:
2542: # $cmd - Command keyword of request (eget).
2543: # $tail - Tail of the command. See GetProfileEntry
# for more information about this.
2544: # $client - File open on the client.
2545: # Returns:
2546: # 1 - Continue processing
2547: # 0 - server should exit.
2548: sub get_profile_entry_encrypted {
2549: my ($cmd, $tail, $client) = @_;
2550:
2551: my $userinput = "$cmd:$tail";
2552:
2553: my ($cmd,$udom,$uname,$namespace,$what) = split(/:/,$userinput);
2554: chomp($what);
1.255 foxr 2555: my $qresult = read_profile($udom, $uname, $namespace, $what);
2556: my ($first) = split(/:/, $qresult);
2557: if($first ne "error") {
2558:
2559: if ($cipher) {
2560: my $cmdlength=length($qresult);
2561: $qresult.=" ";
2562: my $encqresult='';
2563: for(my $encidx=0;$encidx<=$cmdlength;$encidx+=8) {
2564: $encqresult.= unpack("H16",
2565: $cipher->encrypt(substr($qresult,
2566: $encidx,
2567: 8)));
2568: }
2569: &Reply( $client, "enc:$cmdlength:$encqresult\n", $userinput);
2570: } else {
1.231 foxr 2571: &Failure( $client, "error:no_key\n", $userinput);
2572: }
2573: } else {
1.255 foxr 2574: &Failure($client, "$qresult while attempting eget\n", $userinput);
2575:
1.231 foxr 2576: }
2577:
2578: return 1;
2579: }
1.255 foxr 2580: ®ister_handler("eget", \&get_profile_entry_encrypted, 0, 1, 0);
1.263 albertel 2581:
1.231 foxr 2582: #
2583: # Deletes a key in a user profile database.
2584: #
2585: # Parameters:
2586: # $cmd - Command keyword (del).
2587: # $tail - Command tail. IN this case a colon
2588: # separated list containing:
2589: # The domain and user that identifies uniquely
2590: # the identity of the user.
2591: # The profile namespace (name of the profile
2592: # database file).
2593: # & separated list of keywords to delete.
2594: # $client - File open on client socket.
2595: # Returns:
2596: # 1 - Continue processing
2597: # 0 - Exit server.
2598: #
2599: #
2600: sub delete_profile_entry {
2601: my ($cmd, $tail, $client) = @_;
2602:
2603: my $userinput = "cmd:$tail";
2604:
2605: my ($udom,$uname,$namespace,$what) = split(/:/,$tail);
2606: chomp($what);
2607: my $hashref = &tie_user_hash($udom, $uname, $namespace,
2608: &GDBM_WRCREAT(),
2609: "D",$what);
2610: if ($hashref) {
2611: my @keys=split(/\&/,$what);
2612: foreach my $key (@keys) {
2613: delete($hashref->{$key});
2614: }
2615: if (untie(%$hashref)) {
2616: &Reply($client, "ok\n", $userinput);
2617: } else {
2618: &Failure($client, "error: ".($!+0)." untie(GDBM) Failed ".
2619: "while attempting del\n", $userinput);
2620: }
2621: } else {
2622: &Failure( $client, "error: ".($!+0)." tie(GDBM) Failed ".
2623: "while attempting del\n", $userinput);
2624: }
2625: return 1;
2626: }
2627: ®ister_handler("del", \&delete_profile_entry, 0, 1, 0);
1.263 albertel 2628:
1.231 foxr 2629: #
2630: # List the set of keys that are defined in a profile database file.
2631: # A successful reply from this will contain an & separated list of
2632: # the keys.
2633: # Parameters:
2634: # $cmd - Command request (keys).
2635: # $tail - Remainder of the request, a colon separated
2636: # list containing domain/user that identifies the
2637: # user being queried, and the database namespace
2638: # (database filename essentially).
2639: # $client - File open on the client.
2640: # Returns:
2641: # 1 - Continue processing.
2642: # 0 - Exit the server.
2643: #
2644: sub get_profile_keys {
2645: my ($cmd, $tail, $client) = @_;
2646:
2647: my $userinput = "$cmd:$tail";
2648:
2649: my ($udom,$uname,$namespace)=split(/:/,$tail);
2650: my $qresult='';
2651: my $hashref = &tie_user_hash($udom, $uname, $namespace,
2652: &GDBM_READER());
2653: if ($hashref) {
2654: foreach my $key (keys %$hashref) {
2655: $qresult.="$key&";
2656: }
2657: if (untie(%$hashref)) {
2658: $qresult=~s/\&$//;
2659: &Reply($client, "$qresult\n", $userinput);
2660: } else {
2661: &Failure($client, "error: ".($!+0)." untie(GDBM) Failed ".
2662: "while attempting keys\n", $userinput);
2663: }
2664: } else {
2665: &Failure( $client, "error: ".($!+0)." tie(GDBM) Failed ".
2666: "while attempting keys\n", $userinput);
2667: }
2668:
2669: return 1;
2670: }
2671: ®ister_handler("keys", \&get_profile_keys, 0, 1, 0);
2672:
2673: #
2674: # Dump the contents of a user profile database.
2675: # Note that this constitutes a very large covert channel too since
2676: # the dump will return sensitive information that is not encrypted.
2677: # The naive security assumption is that the session negotiation ensures
2678: # our client is trusted and I don't believe that's assured at present.
2679: # Sure want badly to go to ssl or tls. Of course if my peer isn't really
2680: # a LonCAPA node they could have negotiated an encryption key too so >sigh<.
2681: #
2682: # Parameters:
2683: # $cmd - The command request keyword (currentdump).
2684: # $tail - Remainder of the request, consisting of a colon
2685: # separated list that has the domain/username and
2686: # the namespace to dump (database file).
2687: # $client - file open on the remote client.
2688: # Returns:
2689: # 1 - Continue processing.
2690: # 0 - Exit the server.
2691: #
2692: sub dump_profile_database {
2693: my ($cmd, $tail, $client) = @_;
2694:
2695: my $userinput = "$cmd:$tail";
2696:
2697: my ($udom,$uname,$namespace) = split(/:/,$tail);
2698: my $hashref = &tie_user_hash($udom, $uname, $namespace,
2699: &GDBM_READER());
2700: if ($hashref) {
2701: # Structure of %data:
2702: # $data{$symb}->{$parameter}=$value;
2703: # $data{$symb}->{'v.'.$parameter}=$version;
2704: # since $parameter will be unescaped, we do not
2705: # have to worry about silly parameter names...
2706:
2707: my $qresult='';
2708: my %data = (); # A hash of anonymous hashes..
2709: while (my ($key,$value) = each(%$hashref)) {
2710: my ($v,$symb,$param) = split(/:/,$key);
2711: next if ($v eq 'version' || $symb eq 'keys');
2712: next if (exists($data{$symb}) &&
2713: exists($data{$symb}->{$param}) &&
2714: $data{$symb}->{'v.'.$param} > $v);
2715: $data{$symb}->{$param}=$value;
2716: $data{$symb}->{'v.'.$param}=$v;
2717: }
2718: if (untie(%$hashref)) {
2719: while (my ($symb,$param_hash) = each(%data)) {
2720: while(my ($param,$value) = each (%$param_hash)){
2721: next if ($param =~ /^v\./); # Ignore versions...
2722: #
2723: # Just dump the symb=value pairs separated by &
2724: #
2725: $qresult.=$symb.':'.$param.'='.$value.'&';
2726: }
2727: }
2728: chop($qresult);
2729: &Reply($client , "$qresult\n", $userinput);
2730: } else {
2731: &Failure( $client, "error: ".($!+0)." untie(GDBM) Failed ".
2732: "while attempting currentdump\n", $userinput);
2733: }
2734: } else {
2735: &Failure($client, "error: ".($!+0)." tie(GDBM) Failed ".
2736: "while attempting currentdump\n", $userinput);
2737: }
2738:
2739: return 1;
2740: }
2741: ®ister_handler("currentdump", \&dump_profile_database, 0, 1, 0);
2742:
2743: #
2744: # Dump a profile database with an optional regular expression
2745: # to match against the keys. In this dump, no effort is made
2746: # to separate symb from version information. Presumably the
2747: # databases that are dumped by this command are of a different
2748: # structure. Need to look at this and improve the documentation of
2749: # both this and the currentdump handler.
2750: # Parameters:
2751: # $cmd - The command keyword.
2752: # $tail - All of the characters after the $cmd:
2753: # These are expected to be a colon
2754: # separated list containing:
2755: # domain/user - identifying the user.
2756: # namespace - identifying the database.
2757: # regexp - optional regular expression
2758: # that is matched against
2759: # database keywords to do
2760: # selective dumps.
2761: # $client - Channel open on the client.
2762: # Returns:
2763: # 1 - Continue processing.
2764: # Side effects:
2765: # response is written to $client.
2766: #
2767: sub dump_with_regexp {
2768: my ($cmd, $tail, $client) = @_;
2769:
2770:
2771: my $userinput = "$cmd:$tail";
2772:
2773: my ($udom,$uname,$namespace,$regexp)=split(/:/,$tail);
2774: if (defined($regexp)) {
2775: $regexp=&unescape($regexp);
2776: } else {
2777: $regexp='.';
2778: }
2779: my $hashref = &tie_user_hash($udom, $uname, $namespace,
2780: &GDBM_READER());
2781: if ($hashref) {
2782: my $qresult='';
2783: while (my ($key,$value) = each(%$hashref)) {
2784: if ($regexp eq '.') {
2785: $qresult.=$key.'='.$value.'&';
2786: } else {
2787: my $unescapeKey = &unescape($key);
2788: if (eval('$unescapeKey=~/$regexp/')) {
2789: $qresult.="$key=$value&";
2790: }
2791: }
2792: }
2793: if (untie(%$hashref)) {
2794: chop($qresult);
2795: &Reply($client, "$qresult\n", $userinput);
2796: } else {
2797: &Failure( $client, "error: ".($!+0)." untie(GDBM) Failed ".
2798: "while attempting dump\n", $userinput);
2799: }
2800: } else {
2801: &Failure($client, "error: ".($!+0)." tie(GDBM) Failed ".
2802: "while attempting dump\n", $userinput);
2803: }
2804:
2805: return 1;
2806: }
2807: ®ister_handler("dump", \&dump_with_regexp, 0, 1, 0);
2808:
2809: # Store a set of key=value pairs associated with a versioned name.
2810: #
2811: # Parameters:
2812: # $cmd - Request command keyword.
2813: # $tail - Tail of the request. This is a colon
2814: # separated list containing:
2815: # domain/user - User and authentication domain.
2816: # namespace - Name of the database being modified
2817: # rid - Resource keyword to modify.
2818: # what - new value associated with rid.
2819: #
2820: # $client - Socket open on the client.
2821: #
2822: #
2823: # Returns:
2824: # 1 (keep on processing).
2825: # Side-Effects:
2826: # Writes to the client
2827: sub store_handler {
2828: my ($cmd, $tail, $client) = @_;
2829:
2830: my $userinput = "$cmd:$tail";
2831:
2832: my ($udom,$uname,$namespace,$rid,$what) =split(/:/,$tail);
2833: if ($namespace ne 'roles') {
2834:
2835: chomp($what);
2836: my @pairs=split(/\&/,$what);
2837: my $hashref = &tie_user_hash($udom, $uname, $namespace,
2838: &GDBM_WRCREAT(), "P",
2839: "$rid:$what");
2840: if ($hashref) {
2841: my $now = time;
2842: my @previouskeys=split(/&/,$hashref->{"keys:$rid"});
2843: my $key;
2844: $hashref->{"version:$rid"}++;
2845: my $version=$hashref->{"version:$rid"};
2846: my $allkeys='';
2847: foreach my $pair (@pairs) {
2848: my ($key,$value)=split(/=/,$pair);
2849: $allkeys.=$key.':';
2850: $hashref->{"$version:$rid:$key"}=$value;
2851: }
2852: $hashref->{"$version:$rid:timestamp"}=$now;
2853: $allkeys.='timestamp';
2854: $hashref->{"$version:keys:$rid"}=$allkeys;
2855: if (untie($hashref)) {
2856: &Reply($client, "ok\n", $userinput);
2857: } else {
2858: &Failure($client, "error: ".($!+0)." untie(GDBM) Failed ".
2859: "while attempting store\n", $userinput);
2860: }
2861: } else {
2862: &Failure( $client, "error: ".($!+0)." tie(GDBM) Failed ".
2863: "while attempting store\n", $userinput);
2864: }
2865: } else {
2866: &Failure($client, "refused\n", $userinput);
2867: }
2868:
2869: return 1;
2870: }
2871: ®ister_handler("store", \&store_handler, 0, 1, 0);
1.263 albertel 2872:
1.231 foxr 2873: #
2874: # Dump out all versions of a resource that has key=value pairs associated
2875: # with it for each version. These resources are built up via the store
2876: # command.
2877: #
2878: # Parameters:
2879: # $cmd - Command keyword.
2880: # $tail - Remainder of the request which consists of:
2881: # domain/user - User and auth. domain.
2882: # namespace - name of resource database.
2883: # rid - Resource id.
2884: # $client - socket open on the client.
2885: #
2886: # Returns:
2887: # 1 indicating the caller should not yet exit.
2888: # Side-effects:
2889: # Writes a reply to the client.
2890: # The reply is a string of the following shape:
2891: # version=current&version:keys=k1:k2...&1:k1=v1&1:k2=v2...
2892: # Where the 1 above represents version 1.
2893: # this continues for all pairs of keys in all versions.
2894: #
2895: #
2896: #
2897: #
2898: sub restore_handler {
2899: my ($cmd, $tail, $client) = @_;
2900:
2901: my $userinput = "$cmd:$tail"; # Only used for logging purposes.
2902:
2903: my ($cmd,$udom,$uname,$namespace,$rid) = split(/:/,$userinput);
2904: $namespace=~s/\//\_/g;
2905: $namespace=~s/\W//g;
2906: chomp($rid);
2907: my $proname=&propath($udom,$uname);
2908: my $qresult='';
2909: my %hash;
2910: if (tie(%hash,'GDBM_File',"$proname/$namespace.db",
2911: &GDBM_READER(),0640)) {
2912: my $version=$hash{"version:$rid"};
2913: $qresult.="version=$version&";
2914: my $scope;
2915: for ($scope=1;$scope<=$version;$scope++) {
2916: my $vkeys=$hash{"$scope:keys:$rid"};
2917: my @keys=split(/:/,$vkeys);
2918: my $key;
2919: $qresult.="$scope:keys=$vkeys&";
2920: foreach $key (@keys) {
2921: $qresult.="$scope:$key=".$hash{"$scope:$rid:$key"}."&";
2922: }
2923: }
2924: if (untie(%hash)) {
2925: $qresult=~s/\&$//;
2926: &Reply( $client, "$qresult\n", $userinput);
2927: } else {
2928: &Failure($client, "error: ".($!+0)." untie(GDBM) Failed ".
2929: "while attempting restore\n", $userinput);
2930: }
2931: } else {
2932: &Failure($client, "error: ".($!+0)." tie(GDBM) Failed ".
2933: "while attempting restore\n", $userinput);
2934: }
2935:
2936: return 1;
2937:
2938:
2939: }
2940: ®ister_handler("restore", \&restore_handler, 0,1,0);
1.234 foxr 2941:
2942: #
2943: # Add a chat message to to a discussion board.
2944: #
2945: # Parameters:
2946: # $cmd - Request keyword.
2947: # $tail - Tail of the command. A colon separated list
2948: # containing:
2949: # cdom - Domain on which the chat board lives
2950: # cnum - Identifier of the discussion group.
2951: # post - Body of the posting.
2952: # $client - Socket open on the client.
2953: # Returns:
2954: # 1 - Indicating caller should keep on processing.
2955: #
2956: # Side-effects:
2957: # writes a reply to the client.
2958: #
2959: #
2960: sub send_chat_handler {
2961: my ($cmd, $tail, $client) = @_;
2962:
2963:
2964: my $userinput = "$cmd:$tail";
2965:
2966: my ($cdom,$cnum,$newpost)=split(/\:/,$tail);
2967: &chat_add($cdom,$cnum,$newpost);
2968: &Reply($client, "ok\n", $userinput);
2969:
2970: return 1;
2971: }
2972: ®ister_handler("chatsend", \&send_chat_handler, 0, 1, 0);
1.263 albertel 2973:
1.234 foxr 2974: #
2975: # Retrieve the set of chat messagss from a discussion board.
2976: #
2977: # Parameters:
2978: # $cmd - Command keyword that initiated the request.
2979: # $tail - Remainder of the request after the command
2980: # keyword. In this case a colon separated list of
2981: # chat domain - Which discussion board.
2982: # chat id - Discussion thread(?)
2983: # domain/user - Authentication domain and username
2984: # of the requesting person.
2985: # $client - Socket open on the client program.
2986: # Returns:
2987: # 1 - continue processing
2988: # Side effects:
2989: # Response is written to the client.
2990: #
2991: sub retrieve_chat_handler {
2992: my ($cmd, $tail, $client) = @_;
2993:
2994:
2995: my $userinput = "$cmd:$tail";
2996:
2997: my ($cdom,$cnum,$udom,$uname)=split(/\:/,$tail);
2998: my $reply='';
2999: foreach (&get_chat($cdom,$cnum,$udom,$uname)) {
3000: $reply.=&escape($_).':';
3001: }
3002: $reply=~s/\:$//;
3003: &Reply($client, $reply."\n", $userinput);
3004:
3005:
3006: return 1;
3007: }
3008: ®ister_handler("chatretr", \&retrieve_chat_handler, 0, 1, 0);
3009:
3010: #
3011: # Initiate a query of an sql database. SQL query repsonses get put in
3012: # a file for later retrieval. This prevents sql query results from
3013: # bottlenecking the system. Note that with loncnew, perhaps this is
3014: # less of an issue since multiple outstanding requests can be concurrently
3015: # serviced.
3016: #
3017: # Parameters:
3018: # $cmd - COmmand keyword that initiated the request.
3019: # $tail - Remainder of the command after the keyword.
3020: # For this function, this consists of a query and
3021: # 3 arguments that are self-documentingly labelled
3022: # in the original arg1, arg2, arg3.
3023: # $client - Socket open on the client.
3024: # Return:
3025: # 1 - Indicating processing should continue.
3026: # Side-effects:
3027: # a reply is written to $client.
3028: #
3029: sub send_query_handler {
3030: my ($cmd, $tail, $client) = @_;
3031:
3032:
3033: my $userinput = "$cmd:$tail";
3034:
3035: my ($query,$arg1,$arg2,$arg3)=split(/\:/,$tail);
3036: $query=~s/\n*$//g;
3037: &Reply($client, "". &sql_reply("$clientname\&$query".
3038: "\&$arg1"."\&$arg2"."\&$arg3")."\n",
3039: $userinput);
3040:
3041: return 1;
3042: }
3043: ®ister_handler("querysend", \&send_query_handler, 0, 1, 0);
3044:
3045: #
3046: # Add a reply to an sql query. SQL queries are done asyncrhonously.
3047: # The query is submitted via a "querysend" transaction.
3048: # There it is passed on to the lonsql daemon, queued and issued to
3049: # mysql.
3050: # This transaction is invoked when the sql transaction is complete
3051: # it stores the query results in flie and indicates query completion.
3052: # presumably local software then fetches this response... I'm guessing
3053: # the sequence is: lonc does a querysend, we ask lonsql to do it.
3054: # lonsql on completion of the query interacts with the lond of our
3055: # client to do a query reply storing two files:
3056: # - id - The results of the query.
3057: # - id.end - Indicating the transaction completed.
3058: # NOTE: id is a unique id assigned to the query and querysend time.
3059: # Parameters:
3060: # $cmd - Command keyword that initiated this request.
3061: # $tail - Remainder of the tail. In this case that's a colon
3062: # separated list containing the query Id and the
3063: # results of the query.
3064: # $client - Socket open on the client.
3065: # Return:
3066: # 1 - Indicating that we should continue processing.
3067: # Side effects:
3068: # ok written to the client.
3069: #
3070: sub reply_query_handler {
3071: my ($cmd, $tail, $client) = @_;
3072:
3073:
3074: my $userinput = "$cmd:$tail";
3075:
3076: my ($cmd,$id,$reply)=split(/:/,$userinput);
3077: my $store;
3078: my $execdir=$perlvar{'lonDaemons'};
3079: if ($store=IO::File->new(">$execdir/tmp/$id")) {
3080: $reply=~s/\&/\n/g;
3081: print $store $reply;
3082: close $store;
3083: my $store2=IO::File->new(">$execdir/tmp/$id.end");
3084: print $store2 "done\n";
3085: close $store2;
3086: &Reply($client, "ok\n", $userinput);
3087: } else {
3088: &Failure($client, "error: ".($!+0)
3089: ." IO::File->new Failed ".
3090: "while attempting queryreply\n", $userinput);
3091: }
3092:
3093:
3094: return 1;
3095: }
3096: ®ister_handler("queryreply", \&reply_query_handler, 0, 1, 0);
3097:
3098: #
3099: # Process the courseidput request. Not quite sure what this means
3100: # at the system level sense. It appears a gdbm file in the
3101: # /home/httpd/lonUsers/$domain/nohist_courseids is tied and
3102: # a set of entries made in that database.
3103: #
3104: # Parameters:
3105: # $cmd - The command keyword that initiated this request.
3106: # $tail - Tail of the command. In this case consists of a colon
3107: # separated list contaning the domain to apply this to and
3108: # an ampersand separated list of keyword=value pairs.
3109: # $client - Socket open on the client.
3110: # Returns:
3111: # 1 - indicating that processing should continue
3112: #
3113: # Side effects:
3114: # reply is written to the client.
3115: #
3116: sub put_course_id_handler {
3117: my ($cmd, $tail, $client) = @_;
3118:
3119:
3120: my $userinput = "$cmd:$tail";
3121:
1.266 ! raeburn 3122: my ($udom, $what) = split(/:/, $tail,2);
1.234 foxr 3123: chomp($what);
3124: my $now=time;
3125: my @pairs=split(/\&/,$what);
3126:
3127: my $hashref = &tie_domain_hash($udom, "nohist_courseids", &GDBM_WRCREAT());
3128: if ($hashref) {
3129: foreach my $pair (@pairs) {
1.266 ! raeburn 3130: my ($key,$courseinfo) = split(/=/,$pair);
! 3131: $hashref->{$key}=$courseinfo.':'.$now;
1.234 foxr 3132: }
3133: if (untie(%$hashref)) {
1.253 foxr 3134: &Reply( $client, "ok\n", $userinput);
1.234 foxr 3135: } else {
1.253 foxr 3136: &Failure($client, "error: ".($!+0)
1.234 foxr 3137: ." untie(GDBM) Failed ".
3138: "while attempting courseidput\n", $userinput);
3139: }
3140: } else {
1.253 foxr 3141: &Failure($client, "error: ".($!+0)
1.234 foxr 3142: ." tie(GDBM) Failed ".
3143: "while attempting courseidput\n", $userinput);
3144: }
1.253 foxr 3145:
1.234 foxr 3146:
3147: return 1;
3148: }
3149: ®ister_handler("courseidput", \&put_course_id_handler, 0, 1, 0);
3150:
3151: # Retrieves the value of a course id resource keyword pattern
3152: # defined since a starting date. Both the starting date and the
3153: # keyword pattern are optional. If the starting date is not supplied it
3154: # is treated as the beginning of time. If the pattern is not found,
3155: # it is treatred as "." matching everything.
3156: #
3157: # Parameters:
3158: # $cmd - Command keyword that resulted in us being dispatched.
3159: # $tail - The remainder of the command that, in this case, consists
3160: # of a colon separated list of:
3161: # domain - The domain in which the course database is
3162: # defined.
3163: # since - Optional parameter describing the minimum
3164: # time of definition(?) of the resources that
3165: # will match the dump.
3166: # description - regular expression that is used to filter
3167: # the dump. Only keywords matching this regexp
3168: # will be used.
3169: # $client - The socket open on the client.
3170: # Returns:
3171: # 1 - Continue processing.
3172: # Side Effects:
3173: # a reply is written to $client.
3174: sub dump_course_id_handler {
3175: my ($cmd, $tail, $client) = @_;
3176:
3177: my $userinput = "$cmd:$tail";
3178:
1.266 ! raeburn 3179: my ($udom,$since,$description,$instcodefilter,$ownerfilter) =split(/:/,$tail);
1.234 foxr 3180: if (defined($description)) {
3181: $description=&unescape($description);
3182: } else {
3183: $description='.';
3184: }
1.266 ! raeburn 3185: if (defined($instcodefilter)) {
! 3186: $instcodefilter=&unescape($instcodefilter);
! 3187: } else {
! 3188: $instcodefilter='.';
! 3189: }
! 3190: if (defined($ownerfilter)) {
! 3191: $ownerfilter=&unescape($ownerfilter);
! 3192: } else {
! 3193: $ownerfilter='.';
! 3194: }
! 3195:
1.234 foxr 3196: unless (defined($since)) { $since=0; }
3197: my $qresult='';
3198: my $hashref = &tie_domain_hash($udom, "nohist_courseids", &GDBM_WRCREAT());
3199: if ($hashref) {
3200: while (my ($key,$value) = each(%$hashref)) {
1.266 ! raeburn 3201: my ($descr,$lasttime,$inst_code,$owner);
! 3202: if ($value =~ m/^([^\:]*):([^\:]*):([^\:]*):(\d+)$/) {
! 3203: ($descr,$inst_code,$owner,$lasttime)=($1,$2,$3,$4);
! 3204: } elsif ($value =~ m/^([^\:]*):([^\:]*):(\d+)$/) {
1.234 foxr 3205: ($descr,$inst_code,$lasttime)=($1,$2,$3);
3206: } else {
3207: ($descr,$lasttime) = split(/\:/,$value);
3208: }
3209: if ($lasttime<$since) { next; }
1.266 ! raeburn 3210: my $match = 1;
! 3211: unless ($description eq '.') {
! 3212: my $unescapeDescr = &unescape($descr);
! 3213: unless (eval('$unescapeDescr=~/\Q$description\E/i')) {
! 3214: $match = 0;
1.234 foxr 3215: }
1.266 ! raeburn 3216: }
! 3217: unless ($instcodefilter eq '.' || !defined($instcodefilter)) {
! 3218: my $unescapeInstcode = &unescape($inst_code);
! 3219: unless (eval('$unescapeInstcode=~/\Q$instcodefilter\E/i')) {
! 3220: $match = 0;
! 3221: }
1.234 foxr 3222: }
1.266 ! raeburn 3223: unless ($ownerfilter eq '.' || !defined($ownerfilter)) {
! 3224: my $unescapeOwner = &unescape($owner);
! 3225: unless (eval('$unescapeOwner=~/\Q$ownerfilter\E/i')) {
! 3226: $match = 0;
! 3227: }
! 3228: }
! 3229: if ($match == 1) {
! 3230: $qresult.=$key.'='.$descr.':'.$inst_code.':'.$owner.'&';
! 3231: }
1.234 foxr 3232: }
3233: if (untie(%$hashref)) {
3234: chop($qresult);
3235: &Reply($client, "$qresult\n", $userinput);
3236: } else {
3237: &Failure($client, "error: ".($!+0)." untie(GDBM) Failed ".
3238: "while attempting courseiddump\n", $userinput);
3239: }
3240: } else {
3241: &Failure($client, "error: ".($!+0)." tie(GDBM) Failed ".
3242: "while attempting courseiddump\n", $userinput);
3243: }
3244:
3245:
3246: return 1;
3247: }
3248: ®ister_handler("courseiddump", \&dump_course_id_handler, 0, 1, 0);
1.238 foxr 3249:
3250: #
3251: # Puts an id to a domains id database.
3252: #
3253: # Parameters:
3254: # $cmd - The command that triggered us.
3255: # $tail - Remainder of the request other than the command. This is a
3256: # colon separated list containing:
3257: # $domain - The domain for which we are writing the id.
3258: # $pairs - The id info to write... this is and & separated list
3259: # of keyword=value.
3260: # $client - Socket open on the client.
3261: # Returns:
3262: # 1 - Continue processing.
3263: # Side effects:
3264: # reply is written to $client.
3265: #
3266: sub put_id_handler {
3267: my ($cmd,$tail,$client) = @_;
3268:
3269:
3270: my $userinput = "$cmd:$tail";
3271:
3272: my ($udom,$what)=split(/:/,$tail);
3273: chomp($what);
3274: my @pairs=split(/\&/,$what);
3275: my $hashref = &tie_domain_hash($udom, "ids", &GDBM_WRCREAT(),
3276: "P", $what);
3277: if ($hashref) {
3278: foreach my $pair (@pairs) {
3279: my ($key,$value)=split(/=/,$pair);
3280: $hashref->{$key}=$value;
3281: }
3282: if (untie(%$hashref)) {
3283: &Reply($client, "ok\n", $userinput);
3284: } else {
3285: &Failure($client, "error: ".($!+0)." untie(GDBM) Failed ".
3286: "while attempting idput\n", $userinput);
3287: }
3288: } else {
3289: &Failure( $client, "error: ".($!+0)." tie(GDBM) Failed ".
3290: "while attempting idput\n", $userinput);
3291: }
3292:
3293: return 1;
3294: }
1.263 albertel 3295: ®ister_handler("idput", \&put_id_handler, 0, 1, 0);
1.238 foxr 3296:
3297: #
3298: # Retrieves a set of id values from the id database.
3299: # Returns an & separated list of results, one for each requested id to the
3300: # client.
3301: #
3302: # Parameters:
3303: # $cmd - Command keyword that caused us to be dispatched.
3304: # $tail - Tail of the command. Consists of a colon separated:
3305: # domain - the domain whose id table we dump
3306: # ids Consists of an & separated list of
3307: # id keywords whose values will be fetched.
3308: # nonexisting keywords will have an empty value.
3309: # $client - Socket open on the client.
3310: #
3311: # Returns:
3312: # 1 - indicating processing should continue.
3313: # Side effects:
3314: # An & separated list of results is written to $client.
3315: #
3316: sub get_id_handler {
3317: my ($cmd, $tail, $client) = @_;
3318:
3319:
3320: my $userinput = "$client:$tail";
3321:
3322: my ($udom,$what)=split(/:/,$tail);
3323: chomp($what);
3324: my @queries=split(/\&/,$what);
3325: my $qresult='';
3326: my $hashref = &tie_domain_hash($udom, "ids", &GDBM_READER());
3327: if ($hashref) {
3328: for (my $i=0;$i<=$#queries;$i++) {
3329: $qresult.="$hashref->{$queries[$i]}&";
3330: }
3331: if (untie(%$hashref)) {
3332: $qresult=~s/\&$//;
3333: &Reply($client, "$qresult\n", $userinput);
3334: } else {
3335: &Failure( $client, "error: ".($!+0)." untie(GDBM) Failed ".
3336: "while attempting idget\n",$userinput);
3337: }
3338: } else {
3339: &Failure($client, "error: ".($!+0)." tie(GDBM) Failed ".
3340: "while attempting idget\n",$userinput);
3341: }
3342:
3343: return 1;
3344: }
1.263 albertel 3345: ®ister_handler("idget", \&get_id_handler, 0, 1, 0);
1.238 foxr 3346:
3347: #
3348: # Process the tmpput command I'm not sure what this does.. Seems to
3349: # create a file in the lonDaemons/tmp directory of the form $id.tmp
3350: # where Id is the client's ip concatenated with a sequence number.
3351: # The file will contain some value that is passed in. Is this e.g.
3352: # a login token?
3353: #
3354: # Parameters:
3355: # $cmd - The command that got us dispatched.
3356: # $tail - The remainder of the request following $cmd:
3357: # In this case this will be the contents of the file.
3358: # $client - Socket connected to the client.
3359: # Returns:
3360: # 1 indicating processing can continue.
3361: # Side effects:
3362: # A file is created in the local filesystem.
3363: # A reply is sent to the client.
3364: sub tmp_put_handler {
3365: my ($cmd, $what, $client) = @_;
3366:
3367: my $userinput = "$cmd:$what"; # Reconstruct for logging.
3368:
3369:
3370: my $store;
3371: $tmpsnum++;
3372: my $id=$$.'_'.$clientip.'_'.$tmpsnum;
3373: $id=~s/\W/\_/g;
3374: $what=~s/\n//g;
3375: my $execdir=$perlvar{'lonDaemons'};
3376: if ($store=IO::File->new(">$execdir/tmp/$id.tmp")) {
3377: print $store $what;
3378: close $store;
3379: &Reply($client, "$id\n", $userinput);
3380: } else {
3381: &Failure( $client, "error: ".($!+0)."IO::File->new Failed ".
3382: "while attempting tmpput\n", $userinput);
3383: }
3384: return 1;
3385:
3386: }
3387: ®ister_handler("tmpput", \&tmp_put_handler, 0, 1, 0);
1.263 albertel 3388:
1.238 foxr 3389: # Processes the tmpget command. This command returns the contents
3390: # of a temporary resource file(?) created via tmpput.
3391: #
3392: # Paramters:
3393: # $cmd - Command that got us dispatched.
3394: # $id - Tail of the command, contain the id of the resource
3395: # we want to fetch.
3396: # $client - socket open on the client.
3397: # Return:
3398: # 1 - Inidcating processing can continue.
3399: # Side effects:
3400: # A reply is sent to the client.
3401: #
3402: sub tmp_get_handler {
3403: my ($cmd, $id, $client) = @_;
3404:
3405: my $userinput = "$cmd:$id";
3406:
3407:
3408: $id=~s/\W/\_/g;
3409: my $store;
3410: my $execdir=$perlvar{'lonDaemons'};
3411: if ($store=IO::File->new("$execdir/tmp/$id.tmp")) {
3412: my $reply=<$store>;
3413: &Reply( $client, "$reply\n", $userinput);
3414: close $store;
3415: } else {
3416: &Failure( $client, "error: ".($!+0)."IO::File->new Failed ".
3417: "while attempting tmpget\n", $userinput);
3418: }
3419:
3420: return 1;
3421: }
3422: ®ister_handler("tmpget", \&tmp_get_handler, 0, 1, 0);
1.263 albertel 3423:
1.238 foxr 3424: #
3425: # Process the tmpdel command. This command deletes a temp resource
3426: # created by the tmpput command.
3427: #
3428: # Parameters:
3429: # $cmd - Command that got us here.
3430: # $id - Id of the temporary resource created.
3431: # $client - socket open on the client process.
3432: #
3433: # Returns:
3434: # 1 - Indicating processing should continue.
3435: # Side Effects:
3436: # A file is deleted
3437: # A reply is sent to the client.
3438: sub tmp_del_handler {
3439: my ($cmd, $id, $client) = @_;
3440:
3441: my $userinput= "$cmd:$id";
3442:
3443: chomp($id);
3444: $id=~s/\W/\_/g;
3445: my $execdir=$perlvar{'lonDaemons'};
3446: if (unlink("$execdir/tmp/$id.tmp")) {
3447: &Reply($client, "ok\n", $userinput);
3448: } else {
3449: &Failure( $client, "error: ".($!+0)."Unlink tmp Failed ".
3450: "while attempting tmpdel\n", $userinput);
3451: }
3452:
3453: return 1;
3454:
3455: }
3456: ®ister_handler("tmpdel", \&tmp_del_handler, 0, 1, 0);
1.263 albertel 3457:
1.238 foxr 3458: #
1.246 foxr 3459: # Processes the setannounce command. This command
3460: # creates a file named announce.txt in the top directory of
3461: # the documentn root and sets its contents. The announce.txt file is
3462: # printed in its entirety at the LonCAPA login page. Note:
3463: # once the announcement.txt fileis created it cannot be deleted.
3464: # However, setting the contents of the file to empty removes the
3465: # announcement from the login page of loncapa so who cares.
3466: #
3467: # Parameters:
3468: # $cmd - The command that got us dispatched.
3469: # $announcement - The text of the announcement.
3470: # $client - Socket open on the client process.
3471: # Retunrns:
3472: # 1 - Indicating request processing should continue
3473: # Side Effects:
3474: # The file {DocRoot}/announcement.txt is created.
3475: # A reply is sent to $client.
3476: #
3477: sub set_announce_handler {
3478: my ($cmd, $announcement, $client) = @_;
3479:
3480: my $userinput = "$cmd:$announcement";
3481:
3482: chomp($announcement);
3483: $announcement=&unescape($announcement);
3484: if (my $store=IO::File->new('>'.$perlvar{'lonDocRoot'}.
3485: '/announcement.txt')) {
3486: print $store $announcement;
3487: close $store;
3488: &Reply($client, "ok\n", $userinput);
3489: } else {
3490: &Failure($client, "error: ".($!+0)."\n", $userinput);
3491: }
3492:
3493: return 1;
3494: }
3495: ®ister_handler("setannounce", \&set_announce_handler, 0, 1, 0);
1.263 albertel 3496:
1.246 foxr 3497: #
3498: # Return the version of the daemon. This can be used to determine
3499: # the compatibility of cross version installations or, alternatively to
3500: # simply know who's out of date and who isn't. Note that the version
3501: # is returned concatenated with the tail.
3502: # Parameters:
3503: # $cmd - the request that dispatched to us.
3504: # $tail - Tail of the request (client's version?).
3505: # $client - Socket open on the client.
3506: #Returns:
3507: # 1 - continue processing requests.
3508: # Side Effects:
3509: # Replies with version to $client.
3510: sub get_version_handler {
3511: my ($cmd, $tail, $client) = @_;
3512:
3513: my $userinput = $cmd.$tail;
3514:
3515: &Reply($client, &version($userinput)."\n", $userinput);
3516:
3517:
3518: return 1;
3519: }
3520: ®ister_handler("version", \&get_version_handler, 0, 1, 0);
1.263 albertel 3521:
1.246 foxr 3522: # Set the current host and domain. This is used to support
3523: # multihomed systems. Each IP of the system, or even separate daemons
3524: # on the same IP can be treated as handling a separate lonCAPA virtual
3525: # machine. This command selects the virtual lonCAPA. The client always
3526: # knows the right one since it is lonc and it is selecting the domain/system
3527: # from the hosts.tab file.
3528: # Parameters:
3529: # $cmd - Command that dispatched us.
3530: # $tail - Tail of the command (domain/host requested).
3531: # $socket - Socket open on the client.
3532: #
3533: # Returns:
3534: # 1 - Indicates the program should continue to process requests.
3535: # Side-effects:
3536: # The default domain/system context is modified for this daemon.
3537: # a reply is sent to the client.
3538: #
3539: sub set_virtual_host_handler {
3540: my ($cmd, $tail, $socket) = @_;
3541:
3542: my $userinput ="$cmd:$tail";
3543:
3544: &Reply($client, &sethost($userinput)."\n", $userinput);
3545:
3546:
3547: return 1;
3548: }
1.247 albertel 3549: ®ister_handler("sethost", \&set_virtual_host_handler, 0, 1, 0);
1.246 foxr 3550:
3551: # Process a request to exit:
3552: # - "bye" is sent to the client.
3553: # - The client socket is shutdown and closed.
3554: # - We indicate to the caller that we should exit.
3555: # Formal Parameters:
3556: # $cmd - The command that got us here.
3557: # $tail - Tail of the command (empty).
3558: # $client - Socket open on the tail.
3559: # Returns:
3560: # 0 - Indicating the program should exit!!
3561: #
3562: sub exit_handler {
3563: my ($cmd, $tail, $client) = @_;
3564:
3565: my $userinput = "$cmd:$tail";
3566:
3567: &logthis("Client $clientip ($clientname) hanging up: $userinput");
3568: &Reply($client, "bye\n", $userinput);
3569: $client->shutdown(2); # shutdown the socket forcibly.
3570: $client->close();
3571:
3572: return 0;
3573: }
1.248 foxr 3574: ®ister_handler("exit", \&exit_handler, 0,1,1);
3575: ®ister_handler("init", \&exit_handler, 0,1,1);
3576: ®ister_handler("quit", \&exit_handler, 0,1,1);
3577:
3578: # Determine if auto-enrollment is enabled.
3579: # Note that the original had what I believe to be a defect.
3580: # The original returned 0 if the requestor was not a registerd client.
3581: # It should return "refused".
3582: # Formal Parameters:
3583: # $cmd - The command that invoked us.
3584: # $tail - The tail of the command (Extra command parameters.
3585: # $client - The socket open on the client that issued the request.
3586: # Returns:
3587: # 1 - Indicating processing should continue.
3588: #
3589: sub enrollment_enabled_handler {
3590: my ($cmd, $tail, $client) = @_;
3591: my $userinput = $cmd.":".$tail; # For logging purposes.
3592:
3593:
3594: my $cdom = split(/:/, $tail); # Domain we're asking about.
3595: my $outcome = &localenroll::run($cdom);
3596: &Reply($client, "$outcome\n", $userinput);
3597:
3598: return 1;
3599: }
3600: ®ister_handler("autorun", \&enrollment_enabled_handler, 0, 1, 0);
3601:
3602: # Get the official sections for which auto-enrollment is possible.
3603: # Since the admin people won't know about 'unofficial sections'
3604: # we cannot auto-enroll on them.
3605: # Formal Parameters:
3606: # $cmd - The command request that got us dispatched here.
3607: # $tail - The remainder of the request. In our case this
3608: # will be split into:
3609: # $coursecode - The course name from the admin point of view.
3610: # $cdom - The course's domain(?).
3611: # $client - Socket open on the client.
3612: # Returns:
3613: # 1 - Indiciting processing should continue.
3614: #
3615: sub get_sections_handler {
3616: my ($cmd, $tail, $client) = @_;
3617: my $userinput = "$cmd:$tail";
3618:
3619: my ($coursecode, $cdom) = split(/:/, $tail);
3620: my @secs = &localenroll::get_sections($coursecode,$cdom);
3621: my $seclist = &escape(join(':',@secs));
3622:
3623: &Reply($client, "$seclist\n", $userinput);
3624:
3625:
3626: return 1;
3627: }
3628: ®ister_handler("autogetsections", \&get_sections_handler, 0, 1, 0);
3629:
3630: # Validate the owner of a new course section.
3631: #
3632: # Formal Parameters:
3633: # $cmd - Command that got us dispatched.
3634: # $tail - the remainder of the command. For us this consists of a
3635: # colon separated string containing:
3636: # $inst - Course Id from the institutions point of view.
3637: # $owner - Proposed owner of the course.
3638: # $cdom - Domain of the course (from the institutions
3639: # point of view?)..
3640: # $client - Socket open on the client.
3641: #
3642: # Returns:
3643: # 1 - Processing should continue.
3644: #
3645: sub validate_course_owner_handler {
3646: my ($cmd, $tail, $client) = @_;
3647: my $userinput = "$cmd:$tail";
3648: my ($inst_course_id, $owner, $cdom) = split(/:/, $tail);
3649:
3650: my $outcome = &localenroll::new_course($inst_course_id,$owner,$cdom);
3651: &Reply($client, "$outcome\n", $userinput);
3652:
3653:
3654:
3655: return 1;
3656: }
3657: ®ister_handler("autonewcourse", \&validate_course_owner_handler, 0, 1, 0);
1.263 albertel 3658:
1.248 foxr 3659: #
3660: # Validate a course section in the official schedule of classes
3661: # from the institutions point of view (part of autoenrollment).
3662: #
3663: # Formal Parameters:
3664: # $cmd - The command request that got us dispatched.
3665: # $tail - The tail of the command. In this case,
3666: # this is a colon separated set of words that will be split
3667: # into:
3668: # $inst_course_id - The course/section id from the
3669: # institutions point of view.
3670: # $cdom - The domain from the institutions
3671: # point of view.
3672: # $client - Socket open on the client.
3673: # Returns:
3674: # 1 - Indicating processing should continue.
3675: #
3676: sub validate_course_section_handler {
3677: my ($cmd, $tail, $client) = @_;
3678: my $userinput = "$cmd:$tail";
3679: my ($inst_course_id, $cdom) = split(/:/, $tail);
3680:
3681: my $outcome=&localenroll::validate_courseID($inst_course_id,$cdom);
3682: &Reply($client, "$outcome\n", $userinput);
3683:
3684:
3685: return 1;
3686: }
3687: ®ister_handler("autovalidatecourse", \&validate_course_section_handler, 0, 1, 0);
3688:
3689: #
3690: # Create a password for a new auto-enrollment user.
3691: # I think/guess, this password allows access to the institutions
3692: # AIS class list server/services. Stuart can correct this comment
3693: # when he finds out how wrong I am.
3694: #
3695: # Formal Parameters:
3696: # $cmd - The command request that got us dispatched.
3697: # $tail - The tail of the command. In this case this is a colon separated
3698: # set of words that will be split into:
3699: # $authparam - An authentication parameter (username??).
3700: # $cdom - The domain of the course from the institution's
3701: # point of view.
3702: # $client - The socket open on the client.
3703: # Returns:
3704: # 1 - continue processing.
3705: #
3706: sub create_auto_enroll_password_handler {
3707: my ($cmd, $tail, $client) = @_;
3708: my $userinput = "$cmd:$tail";
3709:
3710: my ($authparam, $cdom) = split(/:/, $userinput);
3711:
3712: my ($create_passwd,$authchk);
3713: ($authparam,
3714: $create_passwd,
3715: $authchk) = &localenroll::create_password($authparam,$cdom);
3716:
3717: &Reply($client, &escape($authparam.':'.$create_passwd.':'.$authchk)."\n",
3718: $userinput);
3719:
3720:
3721: return 1;
3722: }
3723: ®ister_handler("autocreatepassword", \&create_auto_enroll_password_handler,
3724: 0, 1, 0);
3725:
3726: # Retrieve and remove temporary files created by/during autoenrollment.
3727: #
3728: # Formal Parameters:
3729: # $cmd - The command that got us dispatched.
3730: # $tail - The tail of the command. In our case this is a colon
3731: # separated list that will be split into:
3732: # $filename - The name of the file to remove.
3733: # The filename is given as a path relative to
3734: # the LonCAPA temp file directory.
3735: # $client - Socket open on the client.
3736: #
3737: # Returns:
3738: # 1 - Continue processing.
3739: sub retrieve_auto_file_handler {
3740: my ($cmd, $tail, $client) = @_;
3741: my $userinput = "cmd:$tail";
3742:
3743: my ($filename) = split(/:/, $tail);
3744:
3745: my $source = $perlvar{'lonDaemons'}.'/tmp/'.$filename;
3746: if ( (-e $source) && ($filename ne '') ) {
3747: my $reply = '';
3748: if (open(my $fh,$source)) {
3749: while (<$fh>) {
3750: chomp($_);
3751: $_ =~ s/^\s+//g;
3752: $_ =~ s/\s+$//g;
3753: $reply .= $_;
3754: }
3755: close($fh);
3756: &Reply($client, &escape($reply)."\n", $userinput);
3757:
3758: # Does this have to be uncommented??!? (RF).
3759: #
3760: # unlink($source);
3761: } else {
3762: &Failure($client, "error\n", $userinput);
3763: }
3764: } else {
3765: &Failure($client, "error\n", $userinput);
3766: }
3767:
3768:
3769: return 1;
3770: }
3771: ®ister_handler("autoretrieve", \&retrieve_auto_file_handler, 0,1,0);
3772:
3773: #
3774: # Read and retrieve institutional code format (for support form).
3775: # Formal Parameters:
3776: # $cmd - Command that dispatched us.
3777: # $tail - Tail of the command. In this case it conatins
3778: # the course domain and the coursename.
3779: # $client - Socket open on the client.
3780: # Returns:
3781: # 1 - Continue processing.
3782: #
3783: sub get_institutional_code_format_handler {
3784: my ($cmd, $tail, $client) = @_;
3785: my $userinput = "$cmd:$tail";
3786:
3787: my $reply;
3788: my($cdom,$course) = split(/:/,$tail);
3789: my @pairs = split/\&/,$course;
3790: my %instcodes = ();
3791: my %codes = ();
3792: my @codetitles = ();
3793: my %cat_titles = ();
3794: my %cat_order = ();
3795: foreach (@pairs) {
3796: my ($key,$value) = split/=/,$_;
3797: $instcodes{&unescape($key)} = &unescape($value);
3798: }
3799: my $formatreply = &localenroll::instcode_format($cdom,
3800: \%instcodes,
3801: \%codes,
3802: \@codetitles,
3803: \%cat_titles,
3804: \%cat_order);
3805: if ($formatreply eq 'ok') {
3806: my $codes_str = &hash2str(%codes);
3807: my $codetitles_str = &array2str(@codetitles);
3808: my $cat_titles_str = &hash2str(%cat_titles);
3809: my $cat_order_str = &hash2str(%cat_order);
3810: &Reply($client,
3811: $codes_str.':'.$codetitles_str.':'.$cat_titles_str.':'
3812: .$cat_order_str."\n",
3813: $userinput);
3814: } else {
3815: # this else branch added by RF since if not ok, lonc will
3816: # hang waiting on reply until timeout.
3817: #
3818: &Reply($client, "format_error\n", $userinput);
3819: }
3820:
3821: return 1;
3822: }
1.265 albertel 3823: ®ister_handler("autoinstcodeformat",
3824: \&get_institutional_code_format_handler,0,1,0);
1.246 foxr 3825:
1.265 albertel 3826: #
3827: # Gets a student's photo to exist (in the correct image type) in the user's
3828: # directory.
3829: # Formal Parameters:
3830: # $cmd - The command request that got us dispatched.
3831: # $tail - A colon separated set of words that will be split into:
3832: # $domain - student's domain
3833: # $uname - student username
3834: # $type - image type desired
3835: # $client - The socket open on the client.
3836: # Returns:
3837: # 1 - continue processing.
3838: sub student_photo_handler {
3839: my ($cmd, $tail, $client) = @_;
3840: my ($domain,$uname,$type) = split(/:/, $tail);
3841:
3842: my $path=&propath($domain,$uname).
3843: '/userfiles/internal/studentphoto.'.$type;
3844: if (-e $path) {
3845: &Reply($client,"ok\n","$cmd:$tail");
3846: return 1;
3847: }
3848: &mkpath($path);
3849: my $file=&localstudentphoto::fetch($domain,$uname);
3850: if (!$file) {
3851: &Failure($client,"unavailable\n","$cmd:$tail");
3852: return 1;
3853: }
3854: if (!-e $path) { &convert_photo($file,$path); }
3855: if (-e $path) {
3856: &Reply($client,"ok\n","$cmd:$tail");
3857: return 1;
3858: }
3859: &Failure($client,"unable_to_convert\n","$cmd:$tail");
3860: return 1;
3861: }
3862: ®ister_handler("studentphoto", \&student_photo_handler, 0, 1, 0);
1.246 foxr 3863:
1.264 albertel 3864: # mkpath makes all directories for a file, expects an absolute path with a
3865: # file or a trailing / if just a dir is passed
3866: # returns 1 on success 0 on failure
3867: sub mkpath {
3868: my ($file)=@_;
3869: my @parts=split(/\//,$file,-1);
3870: my $now=$parts[0].'/'.$parts[1].'/'.$parts[2];
3871: for (my $i=3;$i<= ($#parts-1);$i++) {
1.265 albertel 3872: $now.='/'.$parts[$i];
1.264 albertel 3873: if (!-e $now) {
3874: if (!mkdir($now,0770)) { return 0; }
3875: }
3876: }
3877: return 1;
3878: }
3879:
1.207 foxr 3880: #---------------------------------------------------------------
3881: #
3882: # Getting, decoding and dispatching requests:
3883: #
3884: #
3885: # Get a Request:
3886: # Gets a Request message from the client. The transaction
3887: # is defined as a 'line' of text. We remove the new line
3888: # from the text line.
1.226 foxr 3889: #
1.211 albertel 3890: sub get_request {
1.207 foxr 3891: my $input = <$client>;
3892: chomp($input);
1.226 foxr 3893:
1.234 foxr 3894: &Debug("get_request: Request = $input\n");
1.207 foxr 3895:
3896: &status('Processing '.$clientname.':'.$input);
3897:
3898: return $input;
3899: }
1.212 foxr 3900: #---------------------------------------------------------------
3901: #
3902: # Process a request. This sub should shrink as each action
3903: # gets farmed out into a separat sub that is registered
3904: # with the dispatch hash.
3905: #
3906: # Parameters:
3907: # user_input - The request received from the client (lonc).
3908: # Returns:
3909: # true to keep processing, false if caller should exit.
3910: #
3911: sub process_request {
3912: my ($userinput) = @_; # Easier for now to break style than to
3913: # fix all the userinput -> user_input.
3914: my $wasenc = 0; # True if request was encrypted.
3915: # ------------------------------------------------------------ See if encrypted
3916: if ($userinput =~ /^enc/) {
3917: $userinput = decipher($userinput);
3918: $wasenc=1;
3919: if(!$userinput) { # Cipher not defined.
1.251 foxr 3920: &Failure($client, "error: Encrypted data without negotated key\n");
1.212 foxr 3921: return 0;
3922: }
3923: }
3924: Debug("process_request: $userinput\n");
3925:
1.213 foxr 3926: #
3927: # The 'correct way' to add a command to lond is now to
3928: # write a sub to execute it and Add it to the command dispatch
3929: # hash via a call to register_handler.. The comments to that
3930: # sub should give you enough to go on to show how to do this
3931: # along with the examples that are building up as this code
3932: # is getting refactored. Until all branches of the
3933: # if/elseif monster below have been factored out into
3934: # separate procesor subs, if the dispatch hash is missing
3935: # the command keyword, we will fall through to the remainder
3936: # of the if/else chain below in order to keep this thing in
3937: # working order throughout the transmogrification.
3938:
3939: my ($command, $tail) = split(/:/, $userinput, 2);
3940: chomp($command);
3941: chomp($tail);
3942: $tail =~ s/(\r)//; # This helps people debugging with e.g. telnet.
1.214 foxr 3943: $command =~ s/(\r)//; # And this too for parameterless commands.
3944: if(!$tail) {
3945: $tail =""; # defined but blank.
3946: }
1.213 foxr 3947:
3948: &Debug("Command received: $command, encoded = $wasenc");
3949:
3950: if(defined $Dispatcher{$command}) {
3951:
3952: my $dispatch_info = $Dispatcher{$command};
3953: my $handler = $$dispatch_info[0];
3954: my $need_encode = $$dispatch_info[1];
3955: my $client_types = $$dispatch_info[2];
3956: Debug("Matched dispatch hash: mustencode: $need_encode "
3957: ."ClientType $client_types");
3958:
3959: # Validate the request:
3960:
3961: my $ok = 1;
3962: my $requesterprivs = 0;
3963: if(&isClient()) {
3964: $requesterprivs |= $CLIENT_OK;
3965: }
3966: if(&isManager()) {
3967: $requesterprivs |= $MANAGER_OK;
3968: }
3969: if($need_encode && (!$wasenc)) {
3970: Debug("Must encode but wasn't: $need_encode $wasenc");
3971: $ok = 0;
3972: }
3973: if(($client_types & $requesterprivs) == 0) {
3974: Debug("Client not privileged to do this operation");
3975: $ok = 0;
3976: }
3977:
3978: if($ok) {
3979: Debug("Dispatching to handler $command $tail");
3980: my $keep_going = &$handler($command, $tail, $client);
3981: return $keep_going;
3982: } else {
3983: Debug("Refusing to dispatch because client did not match requirements");
3984: Failure($client, "refused\n", $userinput);
3985: return 1;
3986: }
3987:
3988: }
3989:
1.262 foxr 3990: print $client "unknown_cmd\n";
1.212 foxr 3991: # -------------------------------------------------------------------- complete
3992: Debug("process_request - returning 1");
3993: return 1;
3994: }
1.207 foxr 3995: #
3996: # Decipher encoded traffic
3997: # Parameters:
3998: # input - Encoded data.
3999: # Returns:
4000: # Decoded data or undef if encryption key was not yet negotiated.
4001: # Implicit input:
4002: # cipher - This global holds the negotiated encryption key.
4003: #
1.211 albertel 4004: sub decipher {
1.207 foxr 4005: my ($input) = @_;
4006: my $output = '';
1.212 foxr 4007:
4008:
1.207 foxr 4009: if($cipher) {
4010: my($enc, $enclength, $encinput) = split(/:/, $input);
4011: for(my $encidx = 0; $encidx < length($encinput); $encidx += 16) {
4012: $output .=
4013: $cipher->decrypt(pack("H16", substr($encinput, $encidx, 16)));
4014: }
4015: return substr($output, 0, $enclength);
4016: } else {
4017: return undef;
4018: }
4019: }
4020:
4021: #
4022: # Register a command processor. This function is invoked to register a sub
4023: # to process a request. Once registered, the ProcessRequest sub can automatically
4024: # dispatch requests to an appropriate sub, and do the top level validity checking
4025: # as well:
4026: # - Is the keyword recognized.
4027: # - Is the proper client type attempting the request.
4028: # - Is the request encrypted if it has to be.
4029: # Parameters:
4030: # $request_name - Name of the request being registered.
4031: # This is the command request that will match
4032: # against the hash keywords to lookup the information
4033: # associated with the dispatch information.
4034: # $procedure - Reference to a sub to call to process the request.
4035: # All subs get called as follows:
4036: # Procedure($cmd, $tail, $replyfd, $key)
4037: # $cmd - the actual keyword that invoked us.
4038: # $tail - the tail of the request that invoked us.
4039: # $replyfd- File descriptor connected to the client
4040: # $must_encode - True if the request must be encoded to be good.
4041: # $client_ok - True if it's ok for a client to request this.
4042: # $manager_ok - True if it's ok for a manager to request this.
4043: # Side effects:
4044: # - On success, the Dispatcher hash has an entry added for the key $RequestName
4045: # - On failure, the program will die as it's a bad internal bug to try to
4046: # register a duplicate command handler.
4047: #
1.211 albertel 4048: sub register_handler {
1.212 foxr 4049: my ($request_name,$procedure,$must_encode, $client_ok,$manager_ok) = @_;
1.207 foxr 4050:
4051: # Don't allow duplication#
4052:
4053: if (defined $Dispatcher{$request_name}) {
4054: die "Attempting to define a duplicate request handler for $request_name\n";
4055: }
4056: # Build the client type mask:
4057:
4058: my $client_type_mask = 0;
4059: if($client_ok) {
4060: $client_type_mask |= $CLIENT_OK;
4061: }
4062: if($manager_ok) {
4063: $client_type_mask |= $MANAGER_OK;
4064: }
4065:
4066: # Enter the hash:
4067:
4068: my @entry = ($procedure, $must_encode, $client_type_mask);
4069:
4070: $Dispatcher{$request_name} = \@entry;
4071:
4072: }
4073:
4074:
4075: #------------------------------------------------------------------
4076:
4077:
4078:
4079:
1.141 foxr 4080: #
1.96 foxr 4081: # Convert an error return code from lcpasswd to a string value.
4082: #
4083: sub lcpasswdstrerror {
4084: my $ErrorCode = shift;
1.97 foxr 4085: if(($ErrorCode < 0) || ($ErrorCode > $lastpwderror)) {
1.96 foxr 4086: return "lcpasswd Unrecognized error return value ".$ErrorCode;
4087: } else {
1.98 foxr 4088: return $passwderrors[$ErrorCode];
1.96 foxr 4089: }
4090: }
4091:
1.97 foxr 4092: #
4093: # Convert an error return code from lcuseradd to a string value:
4094: #
4095: sub lcuseraddstrerror {
4096: my $ErrorCode = shift;
4097: if(($ErrorCode < 0) || ($ErrorCode > $lastadderror)) {
4098: return "lcuseradd - Unrecognized error code: ".$ErrorCode;
4099: } else {
1.98 foxr 4100: return $adderrors[$ErrorCode];
1.97 foxr 4101: }
4102: }
4103:
1.23 harris41 4104: # grabs exception and records it to log before exiting
4105: sub catchexception {
1.27 albertel 4106: my ($error)=@_;
1.25 www 4107: $SIG{'QUIT'}='DEFAULT';
4108: $SIG{__DIE__}='DEFAULT';
1.165 albertel 4109: &status("Catching exception");
1.190 albertel 4110: &logthis("<font color='red'>CRITICAL: "
1.134 albertel 4111: ."ABNORMAL EXIT. Child $$ for server $thisserver died through "
1.27 albertel 4112: ."a crash with this error msg->[$error]</font>");
1.57 www 4113: &logthis('Famous last words: '.$status.' - '.$lastlog);
1.27 albertel 4114: if ($client) { print $client "error: $error\n"; }
1.59 www 4115: $server->close();
1.27 albertel 4116: die($error);
1.23 harris41 4117: }
1.63 www 4118: sub timeout {
1.165 albertel 4119: &status("Handling Timeout");
1.190 albertel 4120: &logthis("<font color='red'>CRITICAL: TIME OUT ".$$."</font>");
1.63 www 4121: &catchexception('Timeout');
4122: }
1.22 harris41 4123: # -------------------------------- Set signal handlers to record abnormal exits
4124:
1.226 foxr 4125:
1.22 harris41 4126: $SIG{'QUIT'}=\&catchexception;
4127: $SIG{__DIE__}=\&catchexception;
4128:
1.81 matthew 4129: # ---------------------------------- Read loncapa_apache.conf and loncapa.conf
1.95 harris41 4130: &status("Read loncapa.conf and loncapa_apache.conf");
4131: my $perlvarref=LONCAPA::Configuration::read_conf('loncapa.conf');
1.141 foxr 4132: %perlvar=%{$perlvarref};
1.80 harris41 4133: undef $perlvarref;
1.19 www 4134:
1.35 harris41 4135: # ----------------------------- Make sure this process is running from user=www
4136: my $wwwid=getpwnam('www');
4137: if ($wwwid!=$<) {
1.134 albertel 4138: my $emailto="$perlvar{'lonAdmEMail'},$perlvar{'lonSysEMail'}";
4139: my $subj="LON: $currenthostid User ID mismatch";
1.37 harris41 4140: system("echo 'User ID mismatch. lond must be run as user www.' |\
1.35 harris41 4141: mailto $emailto -s '$subj' > /dev/null");
4142: exit 1;
4143: }
4144:
1.19 www 4145: # --------------------------------------------- Check if other instance running
4146:
4147: my $pidfile="$perlvar{'lonDaemons'}/logs/lond.pid";
4148:
4149: if (-e $pidfile) {
4150: my $lfh=IO::File->new("$pidfile");
4151: my $pide=<$lfh>;
4152: chomp($pide);
1.29 harris41 4153: if (kill 0 => $pide) { die "already running"; }
1.19 www 4154: }
1.1 albertel 4155:
4156: # ------------------------------------------------------------- Read hosts file
4157:
4158:
4159:
4160: # establish SERVER socket, bind and listen.
4161: $server = IO::Socket::INET->new(LocalPort => $perlvar{'londPort'},
4162: Type => SOCK_STREAM,
4163: Proto => 'tcp',
4164: Reuse => 1,
4165: Listen => 10 )
1.29 harris41 4166: or die "making socket: $@\n";
1.1 albertel 4167:
4168: # --------------------------------------------------------- Do global variables
4169:
4170: # global variables
4171:
1.134 albertel 4172: my %children = (); # keys are current child process IDs
1.1 albertel 4173:
4174: sub REAPER { # takes care of dead children
4175: $SIG{CHLD} = \&REAPER;
1.165 albertel 4176: &status("Handling child death");
1.178 foxr 4177: my $pid;
4178: do {
4179: $pid = waitpid(-1,&WNOHANG());
4180: if (defined($children{$pid})) {
4181: &logthis("Child $pid died");
4182: delete($children{$pid});
1.183 albertel 4183: } elsif ($pid > 0) {
1.178 foxr 4184: &logthis("Unknown Child $pid died");
4185: }
4186: } while ( $pid > 0 );
4187: foreach my $child (keys(%children)) {
4188: $pid = waitpid($child,&WNOHANG());
4189: if ($pid > 0) {
4190: &logthis("Child $child - $pid looks like we missed it's death");
4191: delete($children{$pid});
4192: }
1.176 albertel 4193: }
1.165 albertel 4194: &status("Finished Handling child death");
1.1 albertel 4195: }
4196:
4197: sub HUNTSMAN { # signal handler for SIGINT
1.165 albertel 4198: &status("Killing children (INT)");
1.1 albertel 4199: local($SIG{CHLD}) = 'IGNORE'; # we're going to kill our children
4200: kill 'INT' => keys %children;
1.59 www 4201: &logthis("Free socket: ".shutdown($server,2)); # free up socket
1.1 albertel 4202: my $execdir=$perlvar{'lonDaemons'};
4203: unlink("$execdir/logs/lond.pid");
1.190 albertel 4204: &logthis("<font color='red'>CRITICAL: Shutting down</font>");
1.165 albertel 4205: &status("Done killing children");
1.1 albertel 4206: exit; # clean up with dignity
4207: }
4208:
4209: sub HUPSMAN { # signal handler for SIGHUP
4210: local($SIG{CHLD}) = 'IGNORE'; # we're going to kill our children
1.165 albertel 4211: &status("Killing children for restart (HUP)");
1.1 albertel 4212: kill 'INT' => keys %children;
1.59 www 4213: &logthis("Free socket: ".shutdown($server,2)); # free up socket
1.190 albertel 4214: &logthis("<font color='red'>CRITICAL: Restarting</font>");
1.134 albertel 4215: my $execdir=$perlvar{'lonDaemons'};
1.30 harris41 4216: unlink("$execdir/logs/lond.pid");
1.165 albertel 4217: &status("Restarting self (HUP)");
1.1 albertel 4218: exec("$execdir/lond"); # here we go again
4219: }
4220:
1.144 foxr 4221: #
1.148 foxr 4222: # Kill off hashes that describe the host table prior to re-reading it.
4223: # Hashes affected are:
1.200 matthew 4224: # %hostid, %hostdom %hostip %hostdns.
1.148 foxr 4225: #
4226: sub KillHostHashes {
4227: foreach my $key (keys %hostid) {
4228: delete $hostid{$key};
4229: }
4230: foreach my $key (keys %hostdom) {
4231: delete $hostdom{$key};
4232: }
4233: foreach my $key (keys %hostip) {
4234: delete $hostip{$key};
4235: }
1.200 matthew 4236: foreach my $key (keys %hostdns) {
4237: delete $hostdns{$key};
4238: }
1.148 foxr 4239: }
4240: #
4241: # Read in the host table from file and distribute it into the various hashes:
4242: #
4243: # - %hostid - Indexed by IP, the loncapa hostname.
4244: # - %hostdom - Indexed by loncapa hostname, the domain.
4245: # - %hostip - Indexed by hostid, the Ip address of the host.
4246: sub ReadHostTable {
4247:
4248: open (CONFIG,"$perlvar{'lonTabDir'}/hosts.tab") || die "Can't read host file";
1.200 matthew 4249: my $myloncapaname = $perlvar{'lonHostID'};
4250: Debug("My loncapa name is : $myloncapaname");
1.148 foxr 4251: while (my $configline=<CONFIG>) {
1.178 foxr 4252: if (!($configline =~ /^\s*\#/)) {
4253: my ($id,$domain,$role,$name,$ip)=split(/:/,$configline);
4254: chomp($ip); $ip=~s/\D+$//;
1.200 matthew 4255: $hostid{$ip}=$id; # LonCAPA name of host by IP.
4256: $hostdom{$id}=$domain; # LonCAPA domain name of host.
4257: $hostip{$id}=$ip; # IP address of host.
4258: $hostdns{$name} = $id; # LonCAPA name of host by DNS.
4259:
4260: if ($id eq $perlvar{'lonHostID'}) {
4261: Debug("Found me in the host table: $name");
4262: $thisserver=$name;
4263: }
1.178 foxr 4264: }
1.148 foxr 4265: }
4266: close(CONFIG);
4267: }
4268: #
4269: # Reload the Apache daemon's state.
1.150 foxr 4270: # This is done by invoking /home/httpd/perl/apachereload
4271: # a setuid perl script that can be root for us to do this job.
1.148 foxr 4272: #
4273: sub ReloadApache {
1.150 foxr 4274: my $execdir = $perlvar{'lonDaemons'};
4275: my $script = $execdir."/apachereload";
4276: system($script);
1.148 foxr 4277: }
4278:
4279: #
1.144 foxr 4280: # Called in response to a USR2 signal.
4281: # - Reread hosts.tab
4282: # - All children connected to hosts that were removed from hosts.tab
4283: # are killed via SIGINT
4284: # - All children connected to previously existing hosts are sent SIGUSR1
4285: # - Our internal hosts hash is updated to reflect the new contents of
4286: # hosts.tab causing connections from hosts added to hosts.tab to
4287: # now be honored.
4288: #
4289: sub UpdateHosts {
1.165 albertel 4290: &status("Reload hosts.tab");
1.147 foxr 4291: logthis('<font color="blue"> Updating connections </font>');
1.148 foxr 4292: #
4293: # The %children hash has the set of IP's we currently have children
4294: # on. These need to be matched against records in the hosts.tab
4295: # Any ip's no longer in the table get killed off they correspond to
4296: # either dropped or changed hosts. Note that the re-read of the table
4297: # will take care of new and changed hosts as connections come into being.
4298:
4299:
4300: KillHostHashes;
4301: ReadHostTable;
4302:
4303: foreach my $child (keys %children) {
4304: my $childip = $children{$child};
4305: if(!$hostid{$childip}) {
1.149 foxr 4306: logthis('<font color="blue"> UpdateHosts killing child '
4307: ." $child for ip $childip </font>");
1.148 foxr 4308: kill('INT', $child);
1.149 foxr 4309: } else {
4310: logthis('<font color="green"> keeping child for ip '
4311: ." $childip (pid=$child) </font>");
1.148 foxr 4312: }
4313: }
4314: ReloadApache;
1.165 albertel 4315: &status("Finished reloading hosts.tab");
1.144 foxr 4316: }
4317:
1.148 foxr 4318:
1.57 www 4319: sub checkchildren {
1.165 albertel 4320: &status("Checking on the children (sending signals)");
1.57 www 4321: &initnewstatus();
4322: &logstatus();
4323: &logthis('Going to check on the children');
1.134 albertel 4324: my $docdir=$perlvar{'lonDocRoot'};
1.61 harris41 4325: foreach (sort keys %children) {
1.221 albertel 4326: #sleep 1;
1.57 www 4327: unless (kill 'USR1' => $_) {
4328: &logthis ('Child '.$_.' is dead');
4329: &logstatus($$.' is dead');
1.221 albertel 4330: delete($children{$_});
1.57 www 4331: }
1.61 harris41 4332: }
1.63 www 4333: sleep 5;
1.212 foxr 4334: $SIG{ALRM} = sub { Debug("timeout");
4335: die "timeout"; };
1.113 albertel 4336: $SIG{__DIE__} = 'DEFAULT';
1.165 albertel 4337: &status("Checking on the children (waiting for reports)");
1.63 www 4338: foreach (sort keys %children) {
4339: unless (-e "$docdir/lon-status/londchld/$_.txt") {
1.113 albertel 4340: eval {
4341: alarm(300);
1.63 www 4342: &logthis('Child '.$_.' did not respond');
1.67 albertel 4343: kill 9 => $_;
1.131 albertel 4344: #$emailto="$perlvar{'lonAdmEMail'},$perlvar{'lonSysEMail'}";
4345: #$subj="LON: $currenthostid killed lond process $_";
4346: #my $result=`echo 'Killed lond process $_.' | mailto $emailto -s '$subj' > /dev/null`;
4347: #$execdir=$perlvar{'lonDaemons'};
4348: #$result=`/bin/cp $execdir/logs/lond.log $execdir/logs/lond.log.$_`;
1.221 albertel 4349: delete($children{$_});
1.113 albertel 4350: alarm(0);
4351: }
1.63 www 4352: }
4353: }
1.113 albertel 4354: $SIG{ALRM} = 'DEFAULT';
1.155 albertel 4355: $SIG{__DIE__} = \&catchexception;
1.165 albertel 4356: &status("Finished checking children");
1.221 albertel 4357: &logthis('Finished Checking children');
1.57 www 4358: }
4359:
1.1 albertel 4360: # --------------------------------------------------------------------- Logging
4361:
4362: sub logthis {
4363: my $message=shift;
4364: my $execdir=$perlvar{'lonDaemons'};
4365: my $fh=IO::File->new(">>$execdir/logs/lond.log");
4366: my $now=time;
4367: my $local=localtime($now);
1.58 www 4368: $lastlog=$local.': '.$message;
1.1 albertel 4369: print $fh "$local ($$): $message\n";
4370: }
4371:
1.77 foxr 4372: # ------------------------- Conditional log if $DEBUG true.
4373: sub Debug {
4374: my $message = shift;
4375: if($DEBUG) {
4376: &logthis($message);
4377: }
4378: }
1.161 foxr 4379:
4380: #
4381: # Sub to do replies to client.. this gives a hook for some
4382: # debug tracing too:
4383: # Parameters:
4384: # fd - File open on client.
4385: # reply - Text to send to client.
4386: # request - Original request from client.
4387: #
4388: sub Reply {
1.192 foxr 4389: my ($fd, $reply, $request) = @_;
1.161 foxr 4390: print $fd $reply;
4391: Debug("Request was $request Reply was $reply");
4392:
1.212 foxr 4393: $Transactions++;
4394:
4395:
4396: }
4397:
4398:
4399: #
4400: # Sub to report a failure.
4401: # This function:
4402: # - Increments the failure statistic counters.
4403: # - Invokes Reply to send the error message to the client.
4404: # Parameters:
4405: # fd - File descriptor open on the client
4406: # reply - Reply text to emit.
4407: # request - The original request message (used by Reply
4408: # to debug if that's enabled.
4409: # Implicit outputs:
4410: # $Failures- The number of failures is incremented.
4411: # Reply (invoked here) sends a message to the
4412: # client:
4413: #
4414: sub Failure {
4415: my $fd = shift;
4416: my $reply = shift;
4417: my $request = shift;
4418:
4419: $Failures++;
4420: Reply($fd, $reply, $request); # That's simple eh?
1.161 foxr 4421: }
1.57 www 4422: # ------------------------------------------------------------------ Log status
4423:
4424: sub logstatus {
1.178 foxr 4425: &status("Doing logging");
4426: my $docdir=$perlvar{'lonDocRoot'};
4427: {
4428: my $fh=IO::File->new(">$docdir/lon-status/londchld/$$.txt");
1.200 matthew 4429: print $fh $status."\n".$lastlog."\n".time."\n$keymode";
1.178 foxr 4430: $fh->close();
4431: }
1.221 albertel 4432: &status("Finished $$.txt");
4433: {
4434: open(LOG,">>$docdir/lon-status/londstatus.txt");
4435: flock(LOG,LOCK_EX);
4436: print LOG $$."\t".$clientname."\t".$currenthostid."\t"
4437: .$status."\t".$lastlog."\t $keymode\n";
4438: flock(DB,LOCK_UN);
4439: close(LOG);
4440: }
1.178 foxr 4441: &status("Finished logging");
1.57 www 4442: }
4443:
4444: sub initnewstatus {
4445: my $docdir=$perlvar{'lonDocRoot'};
4446: my $fh=IO::File->new(">$docdir/lon-status/londstatus.txt");
4447: my $now=time;
4448: my $local=localtime($now);
4449: print $fh "LOND status $local - parent $$\n\n";
1.64 www 4450: opendir(DIR,"$docdir/lon-status/londchld");
1.134 albertel 4451: while (my $filename=readdir(DIR)) {
1.64 www 4452: unlink("$docdir/lon-status/londchld/$filename");
4453: }
4454: closedir(DIR);
1.57 www 4455: }
4456:
4457: # -------------------------------------------------------------- Status setting
4458:
4459: sub status {
4460: my $what=shift;
4461: my $now=time;
4462: my $local=localtime($now);
1.178 foxr 4463: $status=$local.': '.$what;
4464: $0='lond: '.$what.' '.$local;
1.57 www 4465: }
1.11 www 4466:
4467: # -------------------------------------------------------- Escape Special Chars
4468:
4469: sub escape {
4470: my $str=shift;
4471: $str =~ s/(\W)/"%".unpack('H2',$1)/eg;
4472: return $str;
4473: }
4474:
4475: # ----------------------------------------------------- Un-Escape Special Chars
4476:
4477: sub unescape {
4478: my $str=shift;
4479: $str =~ s/%([a-fA-F0-9][a-fA-F0-9])/pack("C",hex($1))/eg;
4480: return $str;
4481: }
4482:
1.1 albertel 4483: # ----------------------------------------------------------- Send USR1 to lonc
4484:
4485: sub reconlonc {
4486: my $peerfile=shift;
4487: &logthis("Trying to reconnect for $peerfile");
4488: my $loncfile="$perlvar{'lonDaemons'}/logs/lonc.pid";
4489: if (my $fh=IO::File->new("$loncfile")) {
4490: my $loncpid=<$fh>;
4491: chomp($loncpid);
4492: if (kill 0 => $loncpid) {
4493: &logthis("lonc at pid $loncpid responding, sending USR1");
4494: kill USR1 => $loncpid;
4495: } else {
1.9 www 4496: &logthis(
1.190 albertel 4497: "<font color='red'>CRITICAL: "
1.9 www 4498: ."lonc at pid $loncpid not responding, giving up</font>");
1.1 albertel 4499: }
4500: } else {
1.190 albertel 4501: &logthis('<font color="red">CRITICAL: lonc not running, giving up</font>');
1.1 albertel 4502: }
4503: }
4504:
4505: # -------------------------------------------------- Non-critical communication
1.11 www 4506:
1.1 albertel 4507: sub subreply {
4508: my ($cmd,$server)=@_;
4509: my $peerfile="$perlvar{'lonSockDir'}/$server";
4510: my $sclient=IO::Socket::UNIX->new(Peer =>"$peerfile",
4511: Type => SOCK_STREAM,
4512: Timeout => 10)
4513: or return "con_lost";
4514: print $sclient "$cmd\n";
4515: my $answer=<$sclient>;
4516: chomp($answer);
4517: if (!$answer) { $answer="con_lost"; }
4518: return $answer;
4519: }
4520:
4521: sub reply {
4522: my ($cmd,$server)=@_;
4523: my $answer;
1.115 albertel 4524: if ($server ne $currenthostid) {
1.1 albertel 4525: $answer=subreply($cmd,$server);
4526: if ($answer eq 'con_lost') {
4527: $answer=subreply("ping",$server);
4528: if ($answer ne $server) {
1.115 albertel 4529: &logthis("sub reply: answer != server answer is $answer, server is $server");
1.1 albertel 4530: &reconlonc("$perlvar{'lonSockDir'}/$server");
4531: }
4532: $answer=subreply($cmd,$server);
4533: }
4534: } else {
4535: $answer='self_reply';
4536: }
4537: return $answer;
4538: }
4539:
1.13 www 4540: # -------------------------------------------------------------- Talk to lonsql
4541:
1.234 foxr 4542: sub sql_reply {
1.12 harris41 4543: my ($cmd)=@_;
1.234 foxr 4544: my $answer=&sub_sql_reply($cmd);
4545: if ($answer eq 'con_lost') { $answer=&sub_sql_reply($cmd); }
1.12 harris41 4546: return $answer;
4547: }
4548:
1.234 foxr 4549: sub sub_sql_reply {
1.12 harris41 4550: my ($cmd)=@_;
4551: my $unixsock="mysqlsock";
4552: my $peerfile="$perlvar{'lonSockDir'}/$unixsock";
4553: my $sclient=IO::Socket::UNIX->new(Peer =>"$peerfile",
4554: Type => SOCK_STREAM,
4555: Timeout => 10)
4556: or return "con_lost";
4557: print $sclient "$cmd\n";
4558: my $answer=<$sclient>;
4559: chomp($answer);
4560: if (!$answer) { $answer="con_lost"; }
4561: return $answer;
4562: }
4563:
1.1 albertel 4564: # -------------------------------------------- Return path to profile directory
1.11 www 4565:
1.1 albertel 4566: sub propath {
4567: my ($udom,$uname)=@_;
4568: $udom=~s/\W//g;
4569: $uname=~s/\W//g;
1.16 www 4570: my $subdir=$uname.'__';
1.1 albertel 4571: $subdir =~ s/(.)(.)(.).*/$1\/$2\/$3/;
4572: my $proname="$perlvar{'lonUsersDir'}/$udom/$subdir/$uname";
4573: return $proname;
4574: }
4575:
4576: # --------------------------------------- Is this the home server of an author?
1.11 www 4577:
1.1 albertel 4578: sub ishome {
4579: my $author=shift;
4580: $author=~s/\/home\/httpd\/html\/res\/([^\/]*)\/([^\/]*).*/$1\/$2/;
4581: my ($udom,$uname)=split(/\//,$author);
4582: my $proname=propath($udom,$uname);
4583: if (-e $proname) {
4584: return 'owner';
4585: } else {
4586: return 'not_owner';
4587: }
4588: }
4589:
4590: # ======================================================= Continue main program
4591: # ---------------------------------------------------- Fork once and dissociate
4592:
1.134 albertel 4593: my $fpid=fork;
1.1 albertel 4594: exit if $fpid;
1.29 harris41 4595: die "Couldn't fork: $!" unless defined ($fpid);
1.1 albertel 4596:
1.29 harris41 4597: POSIX::setsid() or die "Can't start new session: $!";
1.1 albertel 4598:
4599: # ------------------------------------------------------- Write our PID on disk
4600:
1.134 albertel 4601: my $execdir=$perlvar{'lonDaemons'};
1.1 albertel 4602: open (PIDSAVE,">$execdir/logs/lond.pid");
4603: print PIDSAVE "$$\n";
4604: close(PIDSAVE);
1.190 albertel 4605: &logthis("<font color='red'>CRITICAL: ---------- Starting ----------</font>");
1.57 www 4606: &status('Starting');
1.1 albertel 4607:
1.106 foxr 4608:
1.1 albertel 4609:
4610: # ----------------------------------------------------- Install signal handlers
4611:
1.57 www 4612:
1.1 albertel 4613: $SIG{CHLD} = \&REAPER;
4614: $SIG{INT} = $SIG{TERM} = \&HUNTSMAN;
4615: $SIG{HUP} = \&HUPSMAN;
1.57 www 4616: $SIG{USR1} = \&checkchildren;
1.144 foxr 4617: $SIG{USR2} = \&UpdateHosts;
1.106 foxr 4618:
1.148 foxr 4619: # Read the host hashes:
4620:
4621: ReadHostTable;
1.106 foxr 4622:
4623: # --------------------------------------------------------------
4624: # Accept connections. When a connection comes in, it is validated
4625: # and if good, a child process is created to process transactions
4626: # along the connection.
4627:
1.1 albertel 4628: while (1) {
1.165 albertel 4629: &status('Starting accept');
1.106 foxr 4630: $client = $server->accept() or next;
1.165 albertel 4631: &status('Accepted '.$client.' off to spawn');
1.106 foxr 4632: make_new_child($client);
1.165 albertel 4633: &status('Finished spawning');
1.1 albertel 4634: }
4635:
1.212 foxr 4636: sub make_new_child {
4637: my $pid;
4638: # my $cipher; # Now global
4639: my $sigset;
1.178 foxr 4640:
1.212 foxr 4641: $client = shift;
4642: &status('Starting new child '.$client);
4643: &logthis('<font color="green"> Attempting to start child ('.$client.
4644: ")</font>");
4645: # block signal for fork
4646: $sigset = POSIX::SigSet->new(SIGINT);
4647: sigprocmask(SIG_BLOCK, $sigset)
4648: or die "Can't block SIGINT for fork: $!\n";
1.178 foxr 4649:
1.212 foxr 4650: die "fork: $!" unless defined ($pid = fork);
1.178 foxr 4651:
1.212 foxr 4652: $client->sockopt(SO_KEEPALIVE, 1); # Enable monitoring of
4653: # connection liveness.
1.178 foxr 4654:
1.212 foxr 4655: #
4656: # Figure out who we're talking to so we can record the peer in
4657: # the pid hash.
4658: #
4659: my $caller = getpeername($client);
4660: my ($port,$iaddr);
4661: if (defined($caller) && length($caller) > 0) {
4662: ($port,$iaddr)=unpack_sockaddr_in($caller);
4663: } else {
4664: &logthis("Unable to determine who caller was, getpeername returned nothing");
4665: }
4666: if (defined($iaddr)) {
4667: $clientip = inet_ntoa($iaddr);
4668: Debug("Connected with $clientip");
4669: $clientdns = gethostbyaddr($iaddr, AF_INET);
4670: Debug("Connected with $clientdns by name");
4671: } else {
4672: &logthis("Unable to determine clientip");
4673: $clientip='Unavailable';
4674: }
4675:
4676: if ($pid) {
4677: # Parent records the child's birth and returns.
4678: sigprocmask(SIG_UNBLOCK, $sigset)
4679: or die "Can't unblock SIGINT for fork: $!\n";
4680: $children{$pid} = $clientip;
4681: &status('Started child '.$pid);
4682: return;
4683: } else {
4684: # Child can *not* return from this subroutine.
4685: $SIG{INT} = 'DEFAULT'; # make SIGINT kill us as it did before
4686: $SIG{CHLD} = 'DEFAULT'; #make this default so that pwauth returns
4687: #don't get intercepted
4688: $SIG{USR1}= \&logstatus;
4689: $SIG{ALRM}= \&timeout;
4690: $lastlog='Forked ';
4691: $status='Forked';
1.178 foxr 4692:
1.212 foxr 4693: # unblock signals
4694: sigprocmask(SIG_UNBLOCK, $sigset)
4695: or die "Can't unblock SIGINT for fork: $!\n";
1.178 foxr 4696:
1.212 foxr 4697: # my $tmpsnum=0; # Now global
4698: #---------------------------------------------------- kerberos 5 initialization
4699: &Authen::Krb5::init_context();
4700: &Authen::Krb5::init_ets();
1.209 albertel 4701:
1.212 foxr 4702: &status('Accepted connection');
4703: # =============================================================================
4704: # do something with the connection
4705: # -----------------------------------------------------------------------------
4706: # see if we know client and 'check' for spoof IP by ineffective challenge
1.178 foxr 4707:
1.212 foxr 4708: ReadManagerTable; # May also be a manager!!
4709:
4710: my $clientrec=($hostid{$clientip} ne undef);
4711: my $ismanager=($managers{$clientip} ne undef);
4712: $clientname = "[unknonwn]";
4713: if($clientrec) { # Establish client type.
4714: $ConnectionType = "client";
4715: $clientname = $hostid{$clientip};
4716: if($ismanager) {
4717: $ConnectionType = "both";
4718: }
4719: } else {
4720: $ConnectionType = "manager";
4721: $clientname = $managers{$clientip};
4722: }
4723: my $clientok;
1.178 foxr 4724:
1.212 foxr 4725: if ($clientrec || $ismanager) {
4726: &status("Waiting for init from $clientip $clientname");
4727: &logthis('<font color="yellow">INFO: Connection, '.
4728: $clientip.
4729: " ($clientname) connection type = $ConnectionType </font>" );
4730: &status("Connecting $clientip ($clientname))");
4731: my $remotereq=<$client>;
4732: chomp($remotereq);
4733: Debug("Got init: $remotereq");
4734: my $inikeyword = split(/:/, $remotereq);
4735: if ($remotereq =~ /^init/) {
4736: &sethost("sethost:$perlvar{'lonHostID'}");
4737: #
4738: # If the remote is attempting a local init... give that a try:
4739: #
4740: my ($i, $inittype) = split(/:/, $remotereq);
1.209 albertel 4741:
1.212 foxr 4742: # If the connection type is ssl, but I didn't get my
4743: # certificate files yet, then I'll drop back to
4744: # insecure (if allowed).
4745:
4746: if($inittype eq "ssl") {
4747: my ($ca, $cert) = lonssl::CertificateFile;
4748: my $kfile = lonssl::KeyFile;
4749: if((!$ca) ||
4750: (!$cert) ||
4751: (!$kfile)) {
4752: $inittype = ""; # This forces insecure attempt.
4753: &logthis("<font color=\"blue\"> Certificates not "
4754: ."installed -- trying insecure auth</font>");
1.224 foxr 4755: } else { # SSL certificates are in place so
1.212 foxr 4756: } # Leave the inittype alone.
4757: }
4758:
4759: if($inittype eq "local") {
4760: my $key = LocalConnection($client, $remotereq);
4761: if($key) {
4762: Debug("Got local key $key");
4763: $clientok = 1;
4764: my $cipherkey = pack("H32", $key);
4765: $cipher = new IDEA($cipherkey);
4766: print $client "ok:local\n";
4767: &logthis('<font color="green"'
4768: . "Successful local authentication </font>");
4769: $keymode = "local"
1.178 foxr 4770: } else {
1.212 foxr 4771: Debug("Failed to get local key");
4772: $clientok = 0;
4773: shutdown($client, 3);
4774: close $client;
1.178 foxr 4775: }
1.212 foxr 4776: } elsif ($inittype eq "ssl") {
4777: my $key = SSLConnection($client);
4778: if ($key) {
4779: $clientok = 1;
4780: my $cipherkey = pack("H32", $key);
4781: $cipher = new IDEA($cipherkey);
4782: &logthis('<font color="green">'
4783: ."Successfull ssl authentication with $clientname </font>");
4784: $keymode = "ssl";
4785:
1.178 foxr 4786: } else {
1.212 foxr 4787: $clientok = 0;
4788: close $client;
1.178 foxr 4789: }
1.212 foxr 4790:
4791: } else {
4792: my $ok = InsecureConnection($client);
4793: if($ok) {
4794: $clientok = 1;
4795: &logthis('<font color="green">'
4796: ."Successful insecure authentication with $clientname </font>");
4797: print $client "ok\n";
4798: $keymode = "insecure";
1.178 foxr 4799: } else {
1.212 foxr 4800: &logthis('<font color="yellow">'
4801: ."Attempted insecure connection disallowed </font>");
4802: close $client;
4803: $clientok = 0;
1.178 foxr 4804:
4805: }
4806: }
1.212 foxr 4807: } else {
4808: &logthis(
4809: "<font color='blue'>WARNING: "
4810: ."$clientip failed to initialize: >$remotereq< </font>");
4811: &status('No init '.$clientip);
4812: }
4813:
4814: } else {
4815: &logthis(
4816: "<font color='blue'>WARNING: Unknown client $clientip</font>");
4817: &status('Hung up on '.$clientip);
4818: }
4819:
4820: if ($clientok) {
4821: # ---------------- New known client connecting, could mean machine online again
4822:
4823: foreach my $id (keys(%hostip)) {
4824: if ($hostip{$id} ne $clientip ||
4825: $hostip{$currenthostid} eq $clientip) {
4826: # no need to try to do recon's to myself
4827: next;
4828: }
4829: &reconlonc("$perlvar{'lonSockDir'}/$id");
4830: }
4831: &logthis("<font color='green'>Established connection: $clientname</font>");
4832: &status('Will listen to '.$clientname);
4833: # ------------------------------------------------------------ Process requests
4834: my $keep_going = 1;
4835: my $user_input;
4836: while(($user_input = get_request) && $keep_going) {
4837: alarm(120);
4838: Debug("Main: Got $user_input\n");
4839: $keep_going = &process_request($user_input);
1.178 foxr 4840: alarm(0);
1.212 foxr 4841: &status('Listening to '.$clientname." ($keymode)");
1.161 foxr 4842: }
1.212 foxr 4843:
1.59 www 4844: # --------------------------------------------- client unknown or fishy, refuse
1.212 foxr 4845: } else {
1.161 foxr 4846: print $client "refused\n";
4847: $client->close();
1.190 albertel 4848: &logthis("<font color='blue'>WARNING: "
1.161 foxr 4849: ."Rejected client $clientip, closing connection</font>");
4850: }
1.212 foxr 4851: }
1.161 foxr 4852:
1.1 albertel 4853: # =============================================================================
1.161 foxr 4854:
1.190 albertel 4855: &logthis("<font color='red'>CRITICAL: "
1.161 foxr 4856: ."Disconnect from $clientip ($clientname)</font>");
4857:
4858:
4859: # this exit is VERY important, otherwise the child will become
4860: # a producer of more and more children, forking yourself into
4861: # process death.
4862: exit;
1.106 foxr 4863:
1.78 foxr 4864: }
1.261 foxr 4865: #
4866: # Determine if a user is an author for the indicated domain.
4867: #
4868: # Parameters:
4869: # domain - domain to check in .
4870: # user - Name of user to check.
4871: #
4872: # Return:
4873: # 1 - User is an author for domain.
4874: # 0 - User is not an author for domain.
4875: sub is_author {
4876: my ($domain, $user) = @_;
4877:
4878: &Debug("is_author: $user @ $domain");
4879:
4880: my $hashref = &tie_user_hash($domain, $user, "roles",
4881: &GDBM_READER());
4882:
4883: # Author role should show up as a key /domain/_au
1.78 foxr 4884:
1.261 foxr 4885: my $key = "/$domain/_au";
4886: my $value = $hashref->{$key};
1.78 foxr 4887:
1.261 foxr 4888: if(defined($value)) {
4889: &Debug("$user @ $domain is an author");
4890: }
4891:
4892: return defined($value);
4893: }
1.78 foxr 4894: #
4895: # Checks to see if the input roleput request was to set
4896: # an author role. If so, invokes the lchtmldir script to set
4897: # up a correct public_html
4898: # Parameters:
4899: # request - The request sent to the rolesput subchunk.
4900: # We're looking for /domain/_au
4901: # domain - The domain in which the user is having roles doctored.
4902: # user - Name of the user for which the role is being put.
4903: # authtype - The authentication type associated with the user.
4904: #
1.230 foxr 4905: sub manage_permissions
1.78 foxr 4906: {
1.192 foxr 4907:
1.261 foxr 4908:
1.192 foxr 4909: my ($request, $domain, $user, $authtype) = @_;
1.78 foxr 4910:
1.261 foxr 4911: &Debug("manage_permissions: $request $domain $user $authtype");
4912:
1.78 foxr 4913: # See if the request is of the form /$domain/_au
4914: if($request =~ /^(\/$domain\/_au)$/) { # It's an author rolesput...
4915: my $execdir = $perlvar{'lonDaemons'};
4916: my $userhome= "/home/$user" ;
1.134 albertel 4917: &logthis("system $execdir/lchtmldir $userhome $user $authtype");
1.261 foxr 4918: &Debug("Setting homedir permissions for $userhome");
1.78 foxr 4919: system("$execdir/lchtmldir $userhome $user $authtype");
4920: }
4921: }
1.222 foxr 4922:
4923:
4924: #
4925: # Return the full path of a user password file, whether it exists or not.
4926: # Parameters:
4927: # domain - Domain in which the password file lives.
4928: # user - name of the user.
4929: # Returns:
4930: # Full passwd path:
4931: #
4932: sub password_path {
4933: my ($domain, $user) = @_;
1.264 albertel 4934: return &propath($domain, $user).'/passwd';
1.222 foxr 4935: }
4936:
4937: # Password Filename
4938: # Returns the path to a passwd file given domain and user... only if
4939: # it exists.
4940: # Parameters:
4941: # domain - Domain in which to search.
4942: # user - username.
4943: # Returns:
4944: # - If the password file exists returns its path.
4945: # - If the password file does not exist, returns undefined.
4946: #
4947: sub password_filename {
4948: my ($domain, $user) = @_;
4949:
4950: Debug ("PasswordFilename called: dom = $domain user = $user");
4951:
4952: my $path = &password_path($domain, $user);
4953: Debug("PasswordFilename got path: $path");
4954: if(-e $path) {
4955: return $path;
4956: } else {
4957: return undef;
4958: }
4959: }
4960:
4961: #
4962: # Rewrite the contents of the user's passwd file.
4963: # Parameters:
4964: # domain - domain of the user.
4965: # name - User's name.
4966: # contents - New contents of the file.
4967: # Returns:
4968: # 0 - Failed.
4969: # 1 - Success.
4970: #
4971: sub rewrite_password_file {
4972: my ($domain, $user, $contents) = @_;
4973:
4974: my $file = &password_filename($domain, $user);
4975: if (defined $file) {
4976: my $pf = IO::File->new(">$file");
4977: if($pf) {
4978: print $pf "$contents\n";
4979: return 1;
4980: } else {
4981: return 0;
4982: }
4983: } else {
4984: return 0;
4985: }
4986:
4987: }
4988:
1.78 foxr 4989: #
1.222 foxr 4990: # get_auth_type - Determines the authorization type of a user in a domain.
1.78 foxr 4991:
4992: # Returns the authorization type or nouser if there is no such user.
4993: #
1.222 foxr 4994: sub get_auth_type
1.78 foxr 4995: {
1.192 foxr 4996:
4997: my ($domain, $user) = @_;
1.78 foxr 4998:
1.222 foxr 4999: Debug("get_auth_type( $domain, $user ) \n");
1.78 foxr 5000: my $proname = &propath($domain, $user);
5001: my $passwdfile = "$proname/passwd";
5002: if( -e $passwdfile ) {
5003: my $pf = IO::File->new($passwdfile);
5004: my $realpassword = <$pf>;
5005: chomp($realpassword);
1.79 foxr 5006: Debug("Password info = $realpassword\n");
1.78 foxr 5007: my ($authtype, $contentpwd) = split(/:/, $realpassword);
1.79 foxr 5008: Debug("Authtype = $authtype, content = $contentpwd\n");
1.259 raeburn 5009: return "$authtype:$contentpwd";
1.224 foxr 5010: } else {
1.79 foxr 5011: Debug("Returning nouser");
1.78 foxr 5012: return "nouser";
5013: }
1.1 albertel 5014: }
5015:
1.220 foxr 5016: #
5017: # Validate a user given their domain, name and password. This utility
5018: # function is used by both AuthenticateHandler and ChangePasswordHandler
5019: # to validate the login credentials of a user.
5020: # Parameters:
5021: # $domain - The domain being logged into (this is required due to
5022: # the capability for multihomed systems.
5023: # $user - The name of the user being validated.
5024: # $password - The user's propoposed password.
5025: #
5026: # Returns:
5027: # 1 - The domain,user,pasword triplet corresponds to a valid
5028: # user.
5029: # 0 - The domain,user,password triplet is not a valid user.
5030: #
5031: sub validate_user {
5032: my ($domain, $user, $password) = @_;
5033:
5034:
5035: # Why negative ~pi you may well ask? Well this function is about
5036: # authentication, and therefore very important to get right.
5037: # I've initialized the flag that determines whether or not I've
5038: # validated correctly to a value it's not supposed to get.
5039: # At the end of this function. I'll ensure that it's not still that
5040: # value so we don't just wind up returning some accidental value
5041: # as a result of executing an unforseen code path that
1.249 foxr 5042: # did not set $validated. At the end of valid execution paths,
5043: # validated shoule be 1 for success or 0 for failuer.
1.220 foxr 5044:
5045: my $validated = -3.14159;
5046:
5047: # How we authenticate is determined by the type of authentication
5048: # the user has been assigned. If the authentication type is
5049: # "nouser", the user does not exist so we will return 0.
5050:
1.222 foxr 5051: my $contents = &get_auth_type($domain, $user);
1.220 foxr 5052: my ($howpwd, $contentpwd) = split(/:/, $contents);
5053:
5054: my $null = pack("C",0); # Used by kerberos auth types.
5055:
5056: if ($howpwd ne 'nouser') {
5057:
5058: if($howpwd eq "internal") { # Encrypted is in local password file.
5059: $validated = (crypt($password, $contentpwd) eq $contentpwd);
5060: }
5061: elsif ($howpwd eq "unix") { # User is a normal unix user.
5062: $contentpwd = (getpwnam($user))[1];
5063: if($contentpwd) {
5064: if($contentpwd eq 'x') { # Shadow password file...
5065: my $pwauth_path = "/usr/local/sbin/pwauth";
5066: open PWAUTH, "|$pwauth_path" or
5067: die "Cannot invoke authentication";
5068: print PWAUTH "$user\n$password\n";
5069: close PWAUTH;
5070: $validated = ! $?;
5071:
5072: } else { # Passwords in /etc/passwd.
5073: $validated = (crypt($password,
5074: $contentpwd) eq $contentpwd);
5075: }
5076: } else {
5077: $validated = 0;
5078: }
5079: }
5080: elsif ($howpwd eq "krb4") { # user is in kerberos 4 auth. domain.
5081: if(! ($password =~ /$null/) ) {
5082: my $k4error = &Authen::Krb4::get_pw_in_tkt($user,
5083: "",
5084: $contentpwd,,
5085: 'krbtgt',
5086: $contentpwd,
5087: 1,
5088: $password);
5089: if(!$k4error) {
5090: $validated = 1;
1.224 foxr 5091: } else {
1.220 foxr 5092: $validated = 0;
5093: &logthis('krb4: '.$user.', '.$contentpwd.', '.
5094: &Authen::Krb4::get_err_txt($Authen::Krb4::error));
5095: }
1.224 foxr 5096: } else {
1.220 foxr 5097: $validated = 0; # Password has a match with null.
5098: }
1.224 foxr 5099: } elsif ($howpwd eq "krb5") { # User is in kerberos 5 auth. domain.
1.220 foxr 5100: if(!($password =~ /$null/)) { # Null password not allowed.
5101: my $krbclient = &Authen::Krb5::parse_name($user.'@'
5102: .$contentpwd);
5103: my $krbservice = "krbtgt/".$contentpwd."\@".$contentpwd;
5104: my $krbserver = &Authen::Krb5::parse_name($krbservice);
5105: my $credentials= &Authen::Krb5::cc_default();
5106: $credentials->initialize($krbclient);
5107: my $krbreturn = &Authen::KRb5::get_in_tkt_with_password($krbclient,
5108: $krbserver,
5109: $password,
5110: $credentials);
5111: $validated = ($krbreturn == 1);
1.224 foxr 5112: } else {
1.220 foxr 5113: $validated = 0;
5114: }
1.224 foxr 5115: } elsif ($howpwd eq "localauth") {
1.220 foxr 5116: # Authenticate via installation specific authentcation method:
5117: $validated = &localauth::localauth($user,
5118: $password,
5119: $contentpwd);
1.224 foxr 5120: } else { # Unrecognized auth is also bad.
1.220 foxr 5121: $validated = 0;
5122: }
5123: } else {
5124: $validated = 0;
5125: }
5126: #
5127: # $validated has the correct stat of the authentication:
5128: #
5129:
5130: unless ($validated != -3.14159) {
1.249 foxr 5131: # I >really really< want to know if this happens.
5132: # since it indicates that user authentication is badly
5133: # broken in some code path.
5134: #
5135: die "ValidateUser - failed to set the value of validated $domain, $user $password";
1.220 foxr 5136: }
5137: return $validated;
5138: }
5139:
5140:
1.84 albertel 5141: sub addline {
5142: my ($fname,$hostid,$ip,$newline)=@_;
5143: my $contents;
5144: my $found=0;
5145: my $expr='^'.$hostid.':'.$ip.':';
5146: $expr =~ s/\./\\\./g;
1.134 albertel 5147: my $sh;
1.84 albertel 5148: if ($sh=IO::File->new("$fname.subscription")) {
5149: while (my $subline=<$sh>) {
5150: if ($subline !~ /$expr/) {$contents.= $subline;} else {$found=1;}
5151: }
5152: $sh->close();
5153: }
5154: $sh=IO::File->new(">$fname.subscription");
5155: if ($contents) { print $sh $contents; }
5156: if ($newline) { print $sh $newline; }
5157: $sh->close();
5158: return $found;
1.86 www 5159: }
5160:
1.234 foxr 5161: sub get_chat {
1.122 www 5162: my ($cdom,$cname,$udom,$uname)=@_;
1.87 www 5163: my %hash;
5164: my $proname=&propath($cdom,$cname);
5165: my @entries=();
1.88 albertel 5166: if (tie(%hash,'GDBM_File',"$proname/nohist_chatroom.db",
5167: &GDBM_READER(),0640)) {
5168: @entries=map { $_.':'.$hash{$_} } sort keys %hash;
5169: untie %hash;
1.123 www 5170: }
1.124 www 5171: my @participants=();
1.134 albertel 5172: my $cutoff=time-60;
1.123 www 5173: if (tie(%hash,'GDBM_File',"$proname/nohist_inchatroom.db",
1.124 www 5174: &GDBM_WRCREAT(),0640)) {
5175: $hash{$uname.':'.$udom}=time;
1.123 www 5176: foreach (sort keys %hash) {
5177: if ($hash{$_}>$cutoff) {
1.124 www 5178: $participants[$#participants+1]='active_participant:'.$_;
1.123 www 5179: }
5180: }
5181: untie %hash;
1.86 www 5182: }
1.124 www 5183: return (@participants,@entries);
1.86 www 5184: }
5185:
1.234 foxr 5186: sub chat_add {
1.88 albertel 5187: my ($cdom,$cname,$newchat)=@_;
5188: my %hash;
5189: my $proname=&propath($cdom,$cname);
5190: my @entries=();
1.142 www 5191: my $time=time;
1.88 albertel 5192: if (tie(%hash,'GDBM_File',"$proname/nohist_chatroom.db",
5193: &GDBM_WRCREAT(),0640)) {
5194: @entries=map { $_.':'.$hash{$_} } sort keys %hash;
5195: my ($lastid)=($entries[$#entries]=~/^(\w+)\:/);
5196: my ($thentime,$idnum)=split(/\_/,$lastid);
5197: my $newid=$time.'_000000';
5198: if ($thentime==$time) {
5199: $idnum=~s/^0+//;
5200: $idnum++;
5201: $idnum=substr('000000'.$idnum,-6,6);
5202: $newid=$time.'_'.$idnum;
5203: }
5204: $hash{$newid}=$newchat;
5205: my $expired=$time-3600;
5206: foreach (keys %hash) {
5207: my ($thistime)=($_=~/(\d+)\_/);
5208: if ($thistime<$expired) {
1.89 www 5209: delete $hash{$_};
1.88 albertel 5210: }
5211: }
5212: untie %hash;
1.142 www 5213: }
5214: {
5215: my $hfh;
5216: if ($hfh=IO::File->new(">>$proname/chatroom.log")) {
5217: print $hfh "$time:".&unescape($newchat)."\n";
5218: }
1.86 www 5219: }
1.84 albertel 5220: }
5221:
5222: sub unsub {
5223: my ($fname,$clientip)=@_;
5224: my $result;
1.188 foxr 5225: my $unsubs = 0; # Number of successful unsubscribes:
5226:
5227:
5228: # An old way subscriptions were handled was to have a
5229: # subscription marker file:
5230:
5231: Debug("Attempting unlink of $fname.$clientname");
1.161 foxr 5232: if (unlink("$fname.$clientname")) {
1.188 foxr 5233: $unsubs++; # Successful unsub via marker file.
5234: }
5235:
5236: # The more modern way to do it is to have a subscription list
5237: # file:
5238:
1.84 albertel 5239: if (-e "$fname.subscription") {
1.161 foxr 5240: my $found=&addline($fname,$clientname,$clientip,'');
1.188 foxr 5241: if ($found) {
5242: $unsubs++;
5243: }
5244: }
5245:
5246: # If either or both of these mechanisms succeeded in unsubscribing a
5247: # resource we can return ok:
5248:
5249: if($unsubs) {
5250: $result = "ok\n";
1.84 albertel 5251: } else {
1.188 foxr 5252: $result = "not_subscribed\n";
1.84 albertel 5253: }
1.188 foxr 5254:
1.84 albertel 5255: return $result;
5256: }
5257:
1.101 www 5258: sub currentversion {
5259: my $fname=shift;
5260: my $version=-1;
5261: my $ulsdir='';
5262: if ($fname=~/^(.+)\/[^\/]+$/) {
5263: $ulsdir=$1;
5264: }
1.114 albertel 5265: my ($fnamere1,$fnamere2);
5266: # remove version if already specified
1.101 www 5267: $fname=~s/\.\d+\.(\w+(?:\.meta)*)$/\.$1/;
1.114 albertel 5268: # get the bits that go before and after the version number
5269: if ( $fname=~/^(.*\.)(\w+(?:\.meta)*)$/ ) {
5270: $fnamere1=$1;
5271: $fnamere2='.'.$2;
5272: }
1.101 www 5273: if (-e $fname) { $version=1; }
5274: if (-e $ulsdir) {
1.134 albertel 5275: if(-d $ulsdir) {
5276: if (opendir(LSDIR,$ulsdir)) {
5277: my $ulsfn;
5278: while ($ulsfn=readdir(LSDIR)) {
1.101 www 5279: # see if this is a regular file (ignore links produced earlier)
1.134 albertel 5280: my $thisfile=$ulsdir.'/'.$ulsfn;
5281: unless (-l $thisfile) {
1.160 www 5282: if ($thisfile=~/\Q$fnamere1\E(\d+)\Q$fnamere2\E$/) {
1.134 albertel 5283: if ($1>$version) { $version=$1; }
5284: }
5285: }
5286: }
5287: closedir(LSDIR);
5288: $version++;
5289: }
5290: }
5291: }
5292: return $version;
1.101 www 5293: }
5294:
5295: sub thisversion {
5296: my $fname=shift;
5297: my $version=-1;
5298: if ($fname=~/\.(\d+)\.\w+(?:\.meta)*$/) {
5299: $version=$1;
5300: }
5301: return $version;
5302: }
5303:
1.84 albertel 5304: sub subscribe {
5305: my ($userinput,$clientip)=@_;
5306: my $result;
5307: my ($cmd,$fname)=split(/:/,$userinput);
5308: my $ownership=&ishome($fname);
5309: if ($ownership eq 'owner') {
1.101 www 5310: # explitly asking for the current version?
5311: unless (-e $fname) {
5312: my $currentversion=¤tversion($fname);
5313: if (&thisversion($fname)==$currentversion) {
5314: if ($fname=~/^(.+)\.\d+\.(\w+(?:\.meta)*)$/) {
5315: my $root=$1;
5316: my $extension=$2;
5317: symlink($root.'.'.$extension,
5318: $root.'.'.$currentversion.'.'.$extension);
1.102 www 5319: unless ($extension=~/\.meta$/) {
5320: symlink($root.'.'.$extension.'.meta',
5321: $root.'.'.$currentversion.'.'.$extension.'.meta');
5322: }
1.101 www 5323: }
5324: }
5325: }
1.84 albertel 5326: if (-e $fname) {
5327: if (-d $fname) {
5328: $result="directory\n";
5329: } else {
1.161 foxr 5330: if (-e "$fname.$clientname") {&unsub($fname,$clientip);}
1.134 albertel 5331: my $now=time;
1.161 foxr 5332: my $found=&addline($fname,$clientname,$clientip,
5333: "$clientname:$clientip:$now\n");
1.84 albertel 5334: if ($found) { $result="$fname\n"; }
5335: # if they were subscribed to only meta data, delete that
5336: # subscription, when you subscribe to a file you also get
5337: # the metadata
5338: unless ($fname=~/\.meta$/) { &unsub("$fname.meta",$clientip); }
5339: $fname=~s/\/home\/httpd\/html\/res/raw/;
5340: $fname="http://$thisserver/".$fname;
5341: $result="$fname\n";
5342: }
5343: } else {
5344: $result="not_found\n";
5345: }
5346: } else {
5347: $result="rejected\n";
5348: }
5349: return $result;
5350: }
1.91 albertel 5351:
5352: sub make_passwd_file {
1.98 foxr 5353: my ($uname, $umode,$npass,$passfilename)=@_;
1.91 albertel 5354: my $result="ok\n";
5355: if ($umode eq 'krb4' or $umode eq 'krb5') {
5356: {
5357: my $pf = IO::File->new(">$passfilename");
1.261 foxr 5358: if ($pf) {
5359: print $pf "$umode:$npass\n";
5360: } else {
5361: $result = "pass_file_failed_error";
5362: }
1.91 albertel 5363: }
5364: } elsif ($umode eq 'internal') {
5365: my $salt=time;
5366: $salt=substr($salt,6,2);
5367: my $ncpass=crypt($npass,$salt);
5368: {
5369: &Debug("Creating internal auth");
5370: my $pf = IO::File->new(">$passfilename");
1.261 foxr 5371: if($pf) {
5372: print $pf "internal:$ncpass\n";
5373: } else {
5374: $result = "pass_file_failed_error";
5375: }
1.91 albertel 5376: }
5377: } elsif ($umode eq 'localauth') {
5378: {
5379: my $pf = IO::File->new(">$passfilename");
1.261 foxr 5380: if($pf) {
5381: print $pf "localauth:$npass\n";
5382: } else {
5383: $result = "pass_file_failed_error";
5384: }
1.91 albertel 5385: }
5386: } elsif ($umode eq 'unix') {
5387: {
1.186 foxr 5388: #
5389: # Don't allow the creation of privileged accounts!!! that would
5390: # be real bad!!!
5391: #
5392: my $uid = getpwnam($uname);
5393: if((defined $uid) && ($uid == 0)) {
5394: &logthis(">>>Attempted to create privilged account blocked");
5395: return "no_priv_account_error\n";
5396: }
5397:
1.223 foxr 5398: my $execpath ="$perlvar{'lonDaemons'}/"."lcuseradd";
1.224 foxr 5399:
5400: my $lc_error_file = $execdir."/tmp/lcuseradd".$$.".status";
1.91 albertel 5401: {
5402: &Debug("Executing external: ".$execpath);
1.98 foxr 5403: &Debug("user = ".$uname.", Password =". $npass);
1.132 matthew 5404: my $se = IO::File->new("|$execpath > $perlvar{'lonDaemons'}/logs/lcuseradd.log");
1.91 albertel 5405: print $se "$uname\n";
5406: print $se "$npass\n";
5407: print $se "$npass\n";
1.223 foxr 5408: print $se "$lc_error_file\n"; # Status -> unique file.
1.97 foxr 5409: }
1.223 foxr 5410: my $error = IO::File->new("< $lc_error_file");
5411: my $useraddok = <$error>;
5412: $error->close;
5413: unlink($lc_error_file);
5414:
5415: chomp $useraddok;
5416:
1.97 foxr 5417: if($useraddok > 0) {
1.223 foxr 5418: my $error_text = &lcuseraddstrerror($useraddok);
5419: &logthis("Failed lcuseradd: $error_text");
5420: $result = "lcuseradd_failed:$error_text\n";
1.224 foxr 5421: } else {
1.223 foxr 5422: my $pf = IO::File->new(">$passfilename");
1.261 foxr 5423: if($pf) {
5424: print $pf "unix:\n";
5425: } else {
5426: $result = "pass_file_failed_error";
5427: }
1.91 albertel 5428: }
5429: }
5430: } elsif ($umode eq 'none') {
5431: {
1.223 foxr 5432: my $pf = IO::File->new("> $passfilename");
1.261 foxr 5433: if($pf) {
5434: print $pf "none:\n";
5435: } else {
5436: $result = "pass_file_failed_error";
5437: }
1.91 albertel 5438: }
5439: } else {
5440: $result="auth_mode_error\n";
5441: }
5442: return $result;
1.121 albertel 5443: }
5444:
1.265 albertel 5445: sub convert_photo {
5446: my ($start,$dest)=@_;
5447: system("convert $start $dest");
5448: }
5449:
1.121 albertel 5450: sub sethost {
5451: my ($remotereq) = @_;
5452: my (undef,$hostid)=split(/:/,$remotereq);
5453: if (!defined($hostid)) { $hostid=$perlvar{'lonHostID'}; }
5454: if ($hostip{$perlvar{'lonHostID'}} eq $hostip{$hostid}) {
1.200 matthew 5455: $currenthostid =$hostid;
1.121 albertel 5456: $currentdomainid=$hostdom{$hostid};
5457: &logthis("Setting hostid to $hostid, and domain to $currentdomainid");
5458: } else {
5459: &logthis("Requested host id $hostid not an alias of ".
5460: $perlvar{'lonHostID'}." refusing connection");
5461: return 'unable_to_set';
5462: }
5463: return 'ok';
5464: }
5465:
5466: sub version {
5467: my ($userinput)=@_;
5468: $remoteVERSION=(split(/:/,$userinput))[1];
5469: return "version:$VERSION";
1.127 albertel 5470: }
1.178 foxr 5471:
1.128 albertel 5472: #There is a copy of this in lonnet.pm
1.127 albertel 5473: sub userload {
5474: my $numusers=0;
5475: {
5476: opendir(LONIDS,$perlvar{'lonIDsDir'});
5477: my $filename;
5478: my $curtime=time;
5479: while ($filename=readdir(LONIDS)) {
5480: if ($filename eq '.' || $filename eq '..') {next;}
1.138 albertel 5481: my ($mtime)=(stat($perlvar{'lonIDsDir'}.'/'.$filename))[9];
1.159 albertel 5482: if ($curtime-$mtime < 1800) { $numusers++; }
1.127 albertel 5483: }
5484: closedir(LONIDS);
5485: }
5486: my $userloadpercent=0;
5487: my $maxuserload=$perlvar{'lonUserLoadLim'};
5488: if ($maxuserload) {
1.129 albertel 5489: $userloadpercent=100*$numusers/$maxuserload;
1.127 albertel 5490: }
1.130 albertel 5491: $userloadpercent=sprintf("%.2f",$userloadpercent);
1.127 albertel 5492: return $userloadpercent;
1.91 albertel 5493: }
5494:
1.205 raeburn 5495: # Routines for serializing arrays and hashes (copies from lonnet)
5496:
5497: sub array2str {
5498: my (@array) = @_;
5499: my $result=&arrayref2str(\@array);
5500: $result=~s/^__ARRAY_REF__//;
5501: $result=~s/__END_ARRAY_REF__$//;
5502: return $result;
5503: }
5504:
5505: sub arrayref2str {
5506: my ($arrayref) = @_;
5507: my $result='__ARRAY_REF__';
5508: foreach my $elem (@$arrayref) {
5509: if(ref($elem) eq 'ARRAY') {
5510: $result.=&arrayref2str($elem).'&';
5511: } elsif(ref($elem) eq 'HASH') {
5512: $result.=&hashref2str($elem).'&';
5513: } elsif(ref($elem)) {
5514: #print("Got a ref of ".(ref($elem))." skipping.");
5515: } else {
5516: $result.=&escape($elem).'&';
5517: }
5518: }
5519: $result=~s/\&$//;
5520: $result .= '__END_ARRAY_REF__';
5521: return $result;
5522: }
5523:
5524: sub hash2str {
5525: my (%hash) = @_;
5526: my $result=&hashref2str(\%hash);
5527: $result=~s/^__HASH_REF__//;
5528: $result=~s/__END_HASH_REF__$//;
5529: return $result;
5530: }
5531:
5532: sub hashref2str {
5533: my ($hashref)=@_;
5534: my $result='__HASH_REF__';
5535: foreach (sort(keys(%$hashref))) {
5536: if (ref($_) eq 'ARRAY') {
5537: $result.=&arrayref2str($_).'=';
5538: } elsif (ref($_) eq 'HASH') {
5539: $result.=&hashref2str($_).'=';
5540: } elsif (ref($_)) {
5541: $result.='=';
5542: #print("Got a ref of ".(ref($_))." skipping.");
5543: } else {
5544: if ($_) {$result.=&escape($_).'=';} else { last; }
5545: }
5546:
5547: if(ref($hashref->{$_}) eq 'ARRAY') {
5548: $result.=&arrayref2str($hashref->{$_}).'&';
5549: } elsif(ref($hashref->{$_}) eq 'HASH') {
5550: $result.=&hashref2str($hashref->{$_}).'&';
5551: } elsif(ref($hashref->{$_})) {
5552: $result.='&';
5553: #print("Got a ref of ".(ref($hashref->{$_}))." skipping.");
5554: } else {
5555: $result.=&escape($hashref->{$_}).'&';
5556: }
5557: }
5558: $result=~s/\&$//;
5559: $result .= '__END_HASH_REF__';
5560: return $result;
5561: }
1.200 matthew 5562:
1.61 harris41 5563: # ----------------------------------- POD (plain old documentation, CPAN style)
5564:
5565: =head1 NAME
5566:
5567: lond - "LON Daemon" Server (port "LOND" 5663)
5568:
5569: =head1 SYNOPSIS
5570:
1.74 harris41 5571: Usage: B<lond>
5572:
5573: Should only be run as user=www. This is a command-line script which
5574: is invoked by B<loncron>. There is no expectation that a typical user
5575: will manually start B<lond> from the command-line. (In other words,
5576: DO NOT START B<lond> YOURSELF.)
1.61 harris41 5577:
5578: =head1 DESCRIPTION
5579:
1.74 harris41 5580: There are two characteristics associated with the running of B<lond>,
5581: PROCESS MANAGEMENT (starting, stopping, handling child processes)
5582: and SERVER-SIDE ACTIVITIES (password authentication, user creation,
5583: subscriptions, etc). These are described in two large
5584: sections below.
5585:
5586: B<PROCESS MANAGEMENT>
5587:
1.61 harris41 5588: Preforker - server who forks first. Runs as a daemon. HUPs.
5589: Uses IDEA encryption
5590:
1.74 harris41 5591: B<lond> forks off children processes that correspond to the other servers
5592: in the network. Management of these processes can be done at the
5593: parent process level or the child process level.
5594:
5595: B<logs/lond.log> is the location of log messages.
5596:
5597: The process management is now explained in terms of linux shell commands,
5598: subroutines internal to this code, and signal assignments:
5599:
5600: =over 4
5601:
5602: =item *
5603:
5604: PID is stored in B<logs/lond.pid>
5605:
5606: This is the process id number of the parent B<lond> process.
5607:
5608: =item *
5609:
5610: SIGTERM and SIGINT
5611:
5612: Parent signal assignment:
5613: $SIG{INT} = $SIG{TERM} = \&HUNTSMAN;
5614:
5615: Child signal assignment:
5616: $SIG{INT} = 'DEFAULT'; (and SIGTERM is DEFAULT also)
5617: (The child dies and a SIGALRM is sent to parent, awaking parent from slumber
5618: to restart a new child.)
5619:
5620: Command-line invocations:
5621: B<kill> B<-s> SIGTERM I<PID>
5622: B<kill> B<-s> SIGINT I<PID>
5623:
5624: Subroutine B<HUNTSMAN>:
5625: This is only invoked for the B<lond> parent I<PID>.
5626: This kills all the children, and then the parent.
5627: The B<lonc.pid> file is cleared.
5628:
5629: =item *
5630:
5631: SIGHUP
5632:
5633: Current bug:
5634: This signal can only be processed the first time
5635: on the parent process. Subsequent SIGHUP signals
5636: have no effect.
5637:
5638: Parent signal assignment:
5639: $SIG{HUP} = \&HUPSMAN;
5640:
5641: Child signal assignment:
5642: none (nothing happens)
5643:
5644: Command-line invocations:
5645: B<kill> B<-s> SIGHUP I<PID>
5646:
5647: Subroutine B<HUPSMAN>:
5648: This is only invoked for the B<lond> parent I<PID>,
5649: This kills all the children, and then the parent.
5650: The B<lond.pid> file is cleared.
5651:
5652: =item *
5653:
5654: SIGUSR1
5655:
5656: Parent signal assignment:
5657: $SIG{USR1} = \&USRMAN;
5658:
5659: Child signal assignment:
5660: $SIG{USR1}= \&logstatus;
5661:
5662: Command-line invocations:
5663: B<kill> B<-s> SIGUSR1 I<PID>
5664:
5665: Subroutine B<USRMAN>:
5666: When invoked for the B<lond> parent I<PID>,
5667: SIGUSR1 is sent to all the children, and the status of
5668: each connection is logged.
1.144 foxr 5669:
5670: =item *
5671:
5672: SIGUSR2
5673:
5674: Parent Signal assignment:
5675: $SIG{USR2} = \&UpdateHosts
5676:
5677: Child signal assignment:
5678: NONE
5679:
1.74 harris41 5680:
5681: =item *
5682:
5683: SIGCHLD
5684:
5685: Parent signal assignment:
5686: $SIG{CHLD} = \&REAPER;
5687:
5688: Child signal assignment:
5689: none
5690:
5691: Command-line invocations:
5692: B<kill> B<-s> SIGCHLD I<PID>
5693:
5694: Subroutine B<REAPER>:
5695: This is only invoked for the B<lond> parent I<PID>.
5696: Information pertaining to the child is removed.
5697: The socket port is cleaned up.
5698:
5699: =back
5700:
5701: B<SERVER-SIDE ACTIVITIES>
5702:
5703: Server-side information can be accepted in an encrypted or non-encrypted
5704: method.
5705:
5706: =over 4
5707:
5708: =item ping
5709:
5710: Query a client in the hosts.tab table; "Are you there?"
5711:
5712: =item pong
5713:
5714: Respond to a ping query.
5715:
5716: =item ekey
5717:
5718: Read in encrypted key, make cipher. Respond with a buildkey.
5719:
5720: =item load
5721:
5722: Respond with CPU load based on a computation upon /proc/loadavg.
5723:
5724: =item currentauth
5725:
5726: Reply with current authentication information (only over an
5727: encrypted channel).
5728:
5729: =item auth
5730:
5731: Only over an encrypted channel, reply as to whether a user's
5732: authentication information can be validated.
5733:
5734: =item passwd
5735:
5736: Allow for a password to be set.
5737:
5738: =item makeuser
5739:
5740: Make a user.
5741:
5742: =item passwd
5743:
5744: Allow for authentication mechanism and password to be changed.
5745:
5746: =item home
1.61 harris41 5747:
1.74 harris41 5748: Respond to a question "are you the home for a given user?"
5749:
5750: =item update
5751:
5752: Update contents of a subscribed resource.
5753:
5754: =item unsubscribe
5755:
5756: The server is unsubscribing from a resource.
5757:
5758: =item subscribe
5759:
5760: The server is subscribing to a resource.
5761:
5762: =item log
5763:
5764: Place in B<logs/lond.log>
5765:
5766: =item put
5767:
5768: stores hash in namespace
5769:
1.230 foxr 5770: =item rolesputy
1.74 harris41 5771:
5772: put a role into a user's environment
5773:
5774: =item get
5775:
5776: returns hash with keys from array
5777: reference filled in from namespace
5778:
5779: =item eget
5780:
5781: returns hash with keys from array
5782: reference filled in from namesp (encrypts the return communication)
5783:
5784: =item rolesget
5785:
5786: get a role from a user's environment
5787:
5788: =item del
5789:
5790: deletes keys out of array from namespace
5791:
5792: =item keys
5793:
5794: returns namespace keys
5795:
5796: =item dump
5797:
5798: dumps the complete (or key matching regexp) namespace into a hash
5799:
5800: =item store
5801:
5802: stores hash permanently
5803: for this url; hashref needs to be given and should be a \%hashname; the
5804: remaining args aren't required and if they aren't passed or are '' they will
5805: be derived from the ENV
5806:
5807: =item restore
5808:
5809: returns a hash for a given url
5810:
5811: =item querysend
5812:
5813: Tells client about the lonsql process that has been launched in response
5814: to a sent query.
5815:
5816: =item queryreply
5817:
5818: Accept information from lonsql and make appropriate storage in temporary
5819: file space.
5820:
5821: =item idput
5822:
5823: Defines usernames as corresponding to IDs. (These "IDs" are unique identifiers
5824: for each student, defined perhaps by the institutional Registrar.)
5825:
5826: =item idget
5827:
5828: Returns usernames corresponding to IDs. (These "IDs" are unique identifiers
5829: for each student, defined perhaps by the institutional Registrar.)
5830:
5831: =item tmpput
5832:
5833: Accept and store information in temporary space.
5834:
5835: =item tmpget
5836:
5837: Send along temporarily stored information.
5838:
5839: =item ls
5840:
5841: List part of a user's directory.
5842:
1.135 foxr 5843: =item pushtable
5844:
5845: Pushes a file in /home/httpd/lonTab directory. Currently limited to:
5846: hosts.tab and domain.tab. The old file is copied to *.tab.backup but
5847: must be restored manually in case of a problem with the new table file.
5848: pushtable requires that the request be encrypted and validated via
5849: ValidateManager. The form of the command is:
5850: enc:pushtable tablename <tablecontents> \n
5851: where pushtable, tablename and <tablecontents> will be encrypted, but \n is a
5852: cleartext newline.
5853:
1.74 harris41 5854: =item Hanging up (exit or init)
5855:
5856: What to do when a client tells the server that they (the client)
5857: are leaving the network.
5858:
5859: =item unknown command
5860:
5861: If B<lond> is sent an unknown command (not in the list above),
5862: it replys to the client "unknown_cmd".
1.135 foxr 5863:
1.74 harris41 5864:
5865: =item UNKNOWN CLIENT
5866:
5867: If the anti-spoofing algorithm cannot verify the client,
5868: the client is rejected (with a "refused" message sent
5869: to the client, and the connection is closed.
5870:
5871: =back
1.61 harris41 5872:
5873: =head1 PREREQUISITES
5874:
5875: IO::Socket
5876: IO::File
5877: Apache::File
5878: Symbol
5879: POSIX
5880: Crypt::IDEA
5881: LWP::UserAgent()
5882: GDBM_File
5883: Authen::Krb4
1.91 albertel 5884: Authen::Krb5
1.61 harris41 5885:
5886: =head1 COREQUISITES
5887:
5888: =head1 OSNAMES
5889:
5890: linux
5891:
5892: =head1 SCRIPT CATEGORIES
5893:
5894: Server/Process
5895:
5896: =cut
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