source: fedkit/splitter.pl @ 14a2f95

axis_examplecompt_changesinfo-opsversion-1.30version-2.00version-3.01version-3.02
Last change on this file since 14a2f95 was 7c3008e, checked in by Ted Faber <faber@…>, 17 years ago

checkpoint

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1#!/usr/bin/perl
2
3use strict;
4
5use Getopt::Std;
6use IO::File;
7use IO::Dir;
8use IO::Pipe;
9use File::Copy;
10use XML::Parser;
11
12my @scripts = ("fed_bootstrap", "federate.sh", "smbmount.FreeBSD.pl", 
13    "smbmount.Linux.pl", "make_hosts", "fed-tun.pl", "fed_evrepeater",
14    "rc.accounts.patch");
15my $local_script_dir = ".";
16my($pid, $gid);                 # Process and group IDs for calling parse.tcl
17my $splitter_config;            # Configuration file
18my $debug;                      # True if thecalled in debug mode
19my $verbose;                    # True for extra progress reports
20my $startem;                    # If true, start the sub-experiments
21my $eid;                        # Experiment ID
22my $tcl;                        # The experiment description (topology file)
23my $master;                     # Master testbed
24my $tmpdir;                     # tmp files
25my $tb_config;                  # testbed configurations
26my $smb_share;                  # Share to mount from the master
27my $project_user;               # User to mount project dirs as
28my $auth_proj;                  # Local project for resource access
29my($gw_pubkey, $gw_pubkey_base);# Connector pubkey (full path & basename)
30my($gw_secretkey, $gw_secretkey_base);# Connector secret key (full path &
31                                # basename)
32my($keytype);                   # Type (DSA or RSA) of generated gateway keys
33my $tcl_splitter;               # tcl program to split experiments
34                                # (changed during devel)
35my $tclsh;                      # tclsh to call directly (changed during devel)
36my $fedd_client;                # Program to call for testbed access params
37my $muxmax;                     # Maximum number of links/lans over 1 gw pair
38my @tarfiles;                   # Tarfiles in use by this experiment
39my @rpms;                       # Rpms in use by this experiment
40my $timeout;                    # The timeout to use for experiment swap ins
41my %opts;                       # Parsed options
42
43my $tbparams = {};              # Map of the per-testbed parameters from the
44                                # testbeds file.  It is a reference to a hash
45                                # of hashes (because it's passed around a bunch
46                                # and it's nicer to have one access pattern
47                                # throughout the script, in the main loop and
48                                # the subroutines).  That access is exemplified
49                                # by  $tbparams->{'deter'}->{'domain'} which is
50                                # the domain parameter of the DETER testbed. 
51my $fail_soft;                  # Do not swap failed sub-experiments out
52my $max_children=1;             # Maximum number of simultaneous swap-ins
53
54# Default commands for starting experiment and gateway nodes.  Testbeds can
55# override these.  (The 'm' prefixed commands are for operating as the master
56# testbed.)
57my $def_expstart = "sudo -H /bin/sh FEDDIR/fed_bootstrap >& /tmp/federate";
58my $def_mexpstart = "sudo -H FEDDIR/make_hosts FEDDIR/hosts";
59my $def_gwstart = "sudo -H FEDDIR/fed-tun.pl -f GWCONF>& /tmp/bridge.log";
60my $def_mgwstart = "sudo -H FEDDIR/fed-tun.pl -f GWCONF >& /tmp/bridge.log";
61my $def_gwimage = "FBSD61-TUNNEL2";
62my $def_gwtype = "pc";
63
64# Parse the config file.  The format is a colon-separated parameter name
65# followed by the value of that parameter to the end of the line.  This parses
66# that format and puts the parameters into the referenced hash.  Parameter
67# names are mapped to lower case, parameter values are unchanged.  Returns 0 on
68# failure (e.g. file open) and 1 on success.
69sub parse_config {
70    my($file, $href) = @_;
71    my $fh = new IO::File($file);
72       
73    unless ($fh) {
74        warn "Can't open $file: $!\n";
75        return 0;
76    }
77
78    while (<$fh>) {
79        next if /^\s*#/ || /^\s*$/;     # Skip comments & blanks
80        chomp;
81        /^([^:]+):\s*(.*)/ && do {
82            my $key = $1; 
83
84            $key =~ tr/A-Z/a-z/;
85            $href->{$key} = $2;
86            next;
87        };
88        warn "Unparasble line in $file: $_\n";
89    }
90    $fh->close();   # It will close when it goes out of scope, but...
91    return 1;
92}
93
94# Parse an easier-to-read testbeds file (the original was comma-separated
95# unadorned strings).  The format is a testbed scope as [testbed] followed by
96# the colon-separated attribute-value pairs for the testbed.  Right now these
97# go into a set of global hashes indexed by testbed, but that should probably
98# change.  The file parameter is an open IO::Handle.  &parse_testbeds_filename
99# opens the file and calls this.  Parse_testbeds can be used on pipes as well,
100# e.g. fedd_client output.
101sub parse_testbeds {
102    my($fh, $tbparams) = @_;        # Testbeds file and parameter hash
103    my $tb;                         # Current testbed
104    # Convert attribute in the file to tbparams hash key
105    my %attr_to_hash = (
106        "opsnode" => "host",
107        "user" => "user",
108        "domain" => "domain",
109        "project" => "project",
110        "connectortype" => "gwtype",
111        "slavenodestartcmd" => "expstart",
112        "slaveconnectorstartcmd" => "gwstart",
113        "masternodestartcmd" => "mexpstart",
114        "masterconnectorstartcmd" => "mgwstart",
115        "connectorimage" => "gwimage",
116        "fileserver" => "fs",
117        "boss" => "boss",
118        "eventserver" => "eventserver",
119        "tunnelcfg" => "tun",
120        "uri" => "uri",
121        "access" => "access"
122    );
123
124    while (<$fh>) {
125        next if /^\s*#/ || /^\s*$/;     # Skip comments & blanks
126        print STDERR "testbeds: $_";
127        chomp;
128        /^\s*\[(.*)\]/ && do {
129            $tb = $1;
130            $tbparams->{$tb} = {} unless $tbparams->{$tb};
131            next;
132        };
133
134        /^([^:]+):\s*(.*)/ && do {
135            unless ($tb) {
136                warn "Ignored attribute definition before testbed: $_\n ";
137                next;
138            }
139            my $key = $1; 
140            $key =~ tr/A-Z/a-z/;
141            my $var = $attr_to_hash{$key};
142
143            if ($var) { $tbparams->{$tb}->{$var} = $2; }
144            else { warn "Unknown keyword $key\n"; }
145
146            next;
147        };
148        warn "Unparasble line: $_\n";
149    }
150    return 1;
151}
152
153
154# Open the given file name and parse the testbeds file it contains by calling
155# &parse_testbeds.
156sub parse_testbeds_filename {
157    my($file, $tbparams) = @_;      # Testbeds file and parameter hash
158    my $fh = new IO::File($file);   # Testbeds filehandle
159
160    if ($fh) {
161        my $rv = &parse_testbeds($fh, $tbparams);
162        $fh->close();   # It will close when it goes out of scope, but...
163        $rv;
164    }
165    else {
166        warn "Can't open $file: $!\n";
167        return 0;
168    }
169}
170
171# Generate SSH keys for use by the gateways.  The parameters are the type and
172# the filename for the private key.  The pubkey will be stored in a filename
173# with the same name as the private key but with .pub appended.  Type can be
174# dsa or rsa.
175
176sub generate_ssh_keys {
177    my($type, $dest) = @_;
178
179    $type =~ tr/A-Z/a-z/;
180    return 0 if $type !~ /(rsa|dsa)/;
181    system("/usr/bin/ssh-keygen -t $type -N \"\" -f $dest");
182    return $@ ? 0 : 1;
183}
184
185# use scp to transfer a file, reporting true if successful and false otherwise.
186# Parameters are the local file name, the ssh host destination (either hostname
187# oe user@host), and an optional destination file name or directory.  If no
188# destination is given, the file is transferred to the given user's home
189# directory.  If only a machine is given in the ssh host destination, the
190# current user is used.
191sub scp_file {
192    my($file, $user, $host, $dest) = @_;
193
194    # XXX system with a relative pathname is sort of gross
195    system("scp $file $user\@$host:$dest");
196    if ($?) {
197        warn "scp failed $?\n";
198        return 0;
199    }
200    else { return 1; }
201}
202
203# use ssh to execute the given command on the machine (and as the user) in
204# $where.  Parameters are the ssh destination directive ($where) and the
205# command to execute, and a prefix to be placed on a message generated if the
206# command fails.   On failure print a warning if a warning prefix was given and
207# return false.  If timeout is given fork a process and set an alarm of that
208# many seconds.  Timeouts also return 0;
209sub ssh_cmd {
210    my($user, $host, $cmd, $wname, $timeout) = @_;
211    my $pid;                # Child pid
212
213    $timeout = 0 unless $timeout;   # Force default timeout
214
215    if ( $pid = fork () ) {
216        # Parent process
217        # The eval acts as a signal catcher.  If the alarm goes off inside
218        # the eval, the die will put "alarm\n" into $@, otherwise the
219        # return value of the execution in the child process will be used.
220        my $rv = eval {
221            local $SIG{'ALRM'} = sub{ die "alarm\n"; };
222            my $rv;
223
224            alarm $timeout;
225            $rv = waitpid($pid, 0);
226            alarm 0;
227            $rv;
228        };
229
230        # If the eval succeeded, $@ will be null and we can use $rv, which
231        # is the return code from the subprocess.  If the eval timed out,
232        # print a warning and assume the best.
233        if ($@ eq "alarm\n" ) {
234            warn "$wname timed out - pid $pid still live\n";
235            return 1;
236        }
237        else {
238            return $rv;
239        }
240    }
241    else {
242        # Child process
243        exec("ssh $user\@$host $cmd");
244        exit 0;
245    }
246}
247
248# Ship local copies of the federation scripts out to the given host.  If any of
249# the script transfers fails, return 0.  The scripts to transfer are from the
250# global @scripts and are found locally in $local_script_dir (another global).
251sub ship_scripts {
252    my($host, $user, $dest_dir) = @_;       # Where, who, where remotely
253    my $s;
254
255    &ssh_cmd($user, $host, "mkdir -p $dest_dir");
256    for $s (@scripts) {
257        &scp_file("$local_script_dir/$s", $user, $host, $dest_dir) || 
258            return 0;
259    }
260    return 1;
261}
262
263# Ship per-testbed configuration generated by this script to the remote /proj
264# directories on the remote testbeds
265sub ship_configs {
266    my($host, $user, $src_dir, $dest_dir) = @_;     # Where, who, where remotely
267    my($d, $f);
268
269    $d = IO::Dir->new($src_dir) || return 0;
270
271    # All directories under $tmpdir are 770 so we can delete them later.
272    &ssh_cmd($user, $host, "mkdir -p $dest_dir") || return 0;
273    &ssh_cmd($user, $host, "chmod 770 $dest_dir") || return 0;
274    while ( $f = $d->read()) {
275        next if $f =~ /^\./;
276        if ( -d "$src_dir/$f" ) {
277            &ship_configs($host, $user, "$src_dir/$f", "$dest_dir/$f") || 
278                return 0;
279        }
280        else {
281            &scp_file("$src_dir/$f", $user, $host, $dest_dir) || return 0;
282        }
283    }
284    return 1;
285}
286
287# Start a sub section of the experiment on a given testbed.  The testbed and
288# the user to start the experiment as are pulled from the global per-testbed
289# hash, passed in as $tbparams, as is the project name on the remote testbed.
290# Parameters are the testbed and the experiment id.  Configuration files are
291# scp-ed over to the target testbed from the global $tmpdir/$tb directory.
292# Then the current state of the experiment determined using expinfo.  From that
293# state, the experiment is either created, modified or spapped in.  If
294# everything succeeds, true is returned.  If the global verbose is set progress
295# messages are printed.
296sub start_segment {
297    my($tb, $eid, $tbparams, $timeout) = @_;# testbed, experiment ID,
298                                            # per-testbed parameters and remote
299                                            # swap-in timeout
300    my $host =                              # Host name of remote ops (FQDN)
301        $tbparams->{$tb}->{'host'} . $tbparams->{$tb}->{'domain'};
302    my $user = $tbparams->{$tb}->{'user'};  # user to pass to ssh
303    my $pid = $tbparams->{$tb}->{'project'};# remote project to start the
304                                            # experiment under
305    my $tclfile = "./$eid.$tb.tcl";         # Local tcl file with the
306                                            # sub-experiment
307    my $proj_dir = "/proj/$pid/exp/$eid/tmp";  # Where to stash federation stuff
308    my $tarfiles_dir = "/proj/$pid/tarfiles/$eid";  # Where to stash tarfiles
309    my $rpms_dir = "/proj/$pid/rpms/$eid";  # Where to stash rpms
310    my $to_hostname = "$proj_dir/hosts";    # remote hostnames file
311    my $state;                              # State of remote experiment
312    my $status = new IO::Pipe;              # The pipe to get status
313
314    # Determine the status of the remote experiment
315    $status->reader("ssh $user\@$host /usr/testbed/bin/expinfo $pid $eid") || 
316        die "Can't ssh to $user\@$host:$!\n";
317    # XXX: this is simple now.  Parsing may become more complex
318    while (<$status>) {
319        /State: (\w+)/ && ($state = $1);
320        /No\s+such\s+experiment/ && ($state = "none");
321    }
322    $status->close();
323    print "$tb: $state\n";
324
325    # Copy the experiment definition data over
326    print "transferring subexperiment to $tb\n" if $verbose;
327    &scp_file("$tmpdir/$tb/$tclfile", $user, $host) || return 0;
328    # Clear out any old experiment data; if not deleted, copies over it by
329    # different users will fail.
330    # (O /bin/csh, how evil thou art.  The -c and the escaped single quotes
331    # force the /bin/sh interpretation of the trailing * (which we need to keep
332    # tmp around))  Again, this needs to be done more properly once we have a
333    # non-ssh interface here.)
334    print "clearing experiment subdirs on $tb\n" if $verbose;
335    &ssh_cmd($user, $host, "/bin/sh -c \\'/bin/rm -rf $proj_dir/*\\'") || 
336        return 0;
337    print "clearing experiment tarfiles subdirs on $tb\n" if $verbose;
338    &ssh_cmd($user, $host, "/bin/rm -rf $tarfiles_dir/") || 
339        return 0;
340    print "creating tarfiles subdir $tarfiles_dir on $tb\n" if $verbose;
341    &ssh_cmd($user, $host, "mkdir -p $tarfiles_dir", "create tarfiles") || 
342        return 0;
343    print "clearing experiment rpms subdirs on $tb\n" if $verbose;
344    &ssh_cmd($user, $host, "/bin/rm -rf $rpms_dir/") || 
345        return 0;
346    print "creating rpms subdir $rpms_dir on $tb\n" if $verbose;
347    &ssh_cmd($user, $host, "mkdir -p $rpms_dir", "create rpms") || 
348        return 0;
349    # Remote experiment is active.  Modify it.
350    if ($state eq "active") {
351        print "Transferring federation support files to $tb\n" if $verbose;
352        # First copy new scripts and hostinfo into the remote /proj
353        &scp_file("$tmpdir/hostnames", $user, $host, $to_hostname) ||
354            return 0;
355        # Copy the virtual topology out as well
356        &scp_file("$tmpdir/vtopo.xml", $user, $host, "$proj_dir/vtopo.xml") ||
357            return 0;
358        &scp_file("$tmpdir/viz.xml", $user, $host, "$proj_dir/viz.xml") ||
359            return 0;
360        &ship_scripts($host, $user, $proj_dir) || return 0;
361        &ship_configs($host, $user, "$tmpdir/$tb", $proj_dir) || return 0;
362
363        if ( -d "$tmpdir/tarfiles") {
364            &ship_configs($host, $user, "$tmpdir/tarfiles", $tarfiles_dir) || 
365                return 0;
366        }
367
368        if ( -d "$tmpdir/rpms") {
369            &ship_configs($host, $user, "$tmpdir/rpms", $rpms_dir) || 
370                return 0;
371        }
372
373        print "Modifying $eid in place on $tb\n" if $verbose;
374        &ssh_cmd($user, $host, "/usr/testbed/bin/modexp -r -s -w $pid " . 
375            "$eid $tclfile", "modexp", $timeout) || return 0;
376        return 1;
377    }
378
379    # Remote experiment is swapped out, modify it and swap it in.
380    if ($state eq "swapped") {
381        print "Transferring federation support files to $tb\n" if $verbose;
382        # First copy new scripts and hostinfo into the remote /proj (because
383        # the experiment exists, the directory tree should be there.
384        &scp_file("$tmpdir/hostnames", $user, $host, $to_hostname) ||
385            return 0;
386        # Copy the virtual topology out as well
387        &scp_file("$tmpdir/vtopo.xml", $user, $host, "$proj_dir/vtopo.xml") ||
388            return 0;
389        &scp_file("$tmpdir/viz.xml", $user, $host, "$proj_dir/viz.xml") ||
390            return 0;
391        &ship_scripts($host, $user, $proj_dir) || return 0;
392        &ship_scripts($host, $user, $proj_dir) || return 0;
393        &ship_configs($host, $user, "$tmpdir/$tb", $proj_dir) || return 0;
394        if ( -d "$tmpdir/tarfiles") {
395            &ship_configs($host, $user, "$tmpdir/tarfiles", $tarfiles_dir) || 
396                return 0;
397        }
398
399        if ( -d "$tmpdir/rpms") {
400            &ship_configs($host, $user, "$tmpdir/rpms", $rpms_dir) || 
401                return 0;
402        }
403
404        print "Modifying $eid on $tb\n" if $verbose;
405        &ssh_cmd($user, $host, "/usr/testbed/bin/modexp -w $pid $eid $tclfile", 
406            "modexp") || return 0;
407        print "Swapping $eid in on $tb\n" if $verbose;
408        # Now start up
409        &ssh_cmd($user, $host, "/usr/testbed/bin/swapexp -w $pid $eid in", 
410            "swapexp", $timeout) || return 0;
411        return 1;
412    }
413
414    # No remote experiment.  Create one.  We do this in 2 steps so we can put
415    # the configuration files and scripts into the new experiment directories.
416    if ($state eq "none") {
417
418        if ( -d "$tmpdir/tarfiles") {
419            # Tarfiles have to exist for the creation to work
420            print "copying tarfiles to $tb\n";
421            &ship_configs($host, $user, "$tmpdir/tarfiles", $tarfiles_dir) || 
422                return 0;
423        }
424
425        if ( -d "$tmpdir/rpms") {
426            &ship_configs($host, $user, "$tmpdir/rpms", $rpms_dir) || 
427                return 0;
428        }
429
430        print "Creating $eid on $tb\n" if $verbose;
431        &ssh_cmd($user, $host, "/usr/testbed/bin/startexp -i -f -w -p " . 
432            "$pid -e $eid $tclfile", "startexp") || return 0;
433        # After startexp succeeds, the per-experiment directories exist on the
434        # remote testbed.
435        print "Transferring federation support files to $tb\n" if $verbose;
436        # First copy new scripts and hostinfo into the remote /proj
437        &scp_file("$tmpdir/hostnames", $user, $host, $to_hostname) ||
438            return 0;
439        # Copy the virtual topology out as well
440        &scp_file("$tmpdir/vtopo.xml", $user, $host, "$proj_dir/vtopo.xml") ||
441            return 0;
442        &scp_file("$tmpdir/viz.xml", $user, $host, "$proj_dir/viz.xml") ||
443            return 0;
444        &ship_scripts($host, $user, $proj_dir) || return 0;
445        &ship_scripts($host, $user, $proj_dir) || return 0;
446        &ship_configs($host, $user, "$tmpdir/$tb", $proj_dir) || return 0;
447        # Now start up
448        print "Swapping $eid in on $tb\n" if $verbose;
449        &ssh_cmd($user, $host, "/usr/testbed/bin/swapexp -w $pid $eid in", 
450            "swapexp", $timeout) || return 0;
451        return 1;
452    }
453
454    # Every branch for a known state returns.  If execution gets here, the
455    # state is unknown.
456    warn "unknown state: $state\n";
457    return 0;
458}
459
460# Swap out a sub-experiment - probably because another has failed.  Arguments
461# are testbed and experiment.  Most of the control flow is similar to
462# start_segment, though much simpler.
463sub stop_segment {
464    my($tb, $eid, $tbparams) = @_;          # testbed, experiment ID and
465                                            # per-testbed parameters
466    my $user = $tbparams->{$tb}->{'user'};  # testbed user
467    my $host =                              # Ops node
468        $tbparams->{$tb}->{'host'} . $tbparams->{$tb}->{'domain'};
469    my $pid = $tbparams->{$tb}->{'project'};# testbed project
470
471    print "Stopping $eid on $tb\n" if $verbose;
472    &ssh_cmd($user, $host, "/usr/testbed/bin/swapexp -w $pid $eid out", 
473        "swapexp (out)") || return 0;
474    return 1;
475}
476
477# Fill tbparams with results from the fedd call.  The command is passed in and
478# a string with any relevant error conditions is returned.  undef is success.
479sub fedd_access_request{
480    my($cmd) = @_;
481    my($rv)=undef;
482
483    system("$cmd 2> /tmp/splitter.err.$$ > /tmp/splitter.$$" );
484
485    if ( ! $? ) {
486        &parse_testbeds_filename("/tmp/splitter.$$", $tbparams) ||
487            ($rv =  "Error reading fedd output: $!\n");
488    }
489    else {
490        my $f = new IO::File("/tmp/splitter.err.$$");
491        $rv =  "Fedd_client error:\n";
492        while (<$f>) { $rv .= $_; }
493        $f->close();
494    }
495    unlink("/tmp/splitter.$$", "/tmp/splitter.err.$$");
496    return $rv;
497}
498
499# Generate visualization info from the topo file.
500sub genviz {
501    my($file, $outfile)= @_;
502    my %nodes;
503    my $chars;
504    my $in_node;
505    my $in_lan;
506    my $lan;
507    my %links;
508    my %lans;
509    my $rv;
510    my $dotfile = "/tmp/split$$.dot";
511    my $neato = "/usr/local/bin/neato";
512    my $g = new IO::File(">$dotfile") || return;
513    my $p = new IO::Pipe() || return;
514    my $out = new IO::File(">$outfile") || die "open $!\n";
515
516    sub start_element { 
517        my($expat, $element) = @_;
518        $in_node++ if $element eq "node";
519        if ( $element eq "lan" ) {
520            $in_lan++;
521            $lan = {};
522        }
523    }
524
525    sub end_element {
526        my($expat, $element) = @_;
527
528        $in_node = 0 if $element eq "node";
529        $nodes{$chars} = "node" if $in_node && $element eq "vname";
530        if ($in_lan) {
531            if ( $element ne "lan") {
532                $lan->{$element} = $chars if $element =~/(vname|vnode)/;
533            }
534            else {
535                $in_lan = 0;
536                my $vname = $lan->{'vname'};
537                if ( $links{$vname} && @{$links{$vname}} ==2 ) {
538                    # this link needs to be a lan
539                    $nodes{$vname} = "lan";
540                    $lans{$lan->{'vname'}} = ();
541                    foreach my $l (@{$links{$vname}}) {
542                        push(@{$lans{$vname}}, $l);
543                    }
544                    push(@{$lans{$vname}}, $lan->{'vnode'});
545                    delete $links{$vname};
546                    $lan={};
547                    return;
548                }
549                if ( $lans{$vname} && @{$lans{$vname}}) {
550                    push(@{$lans{$vname}}, $lan->{'vnode'});
551                    $lan = {};
552                    return;
553                }
554                $links{$vname} = () unless $links{$vname};
555                push(@{$links{$vname}}, $lan->{'vnode'});
556                $lan = {};
557                return;
558            }
559        }
560    }
561    sub found_chars { 
562        my($expat, $data) = @_;
563        $chars = $data;
564    }
565
566    my $parser = new XML::Parser(Handlers => { 
567            Start => \&start_element, 
568            End => \&end_element,
569            Char => \&found_chars
570        });
571
572    print "$file\n";
573    $parser->parsefile($file);
574
575    print $g "graph G {\n";
576    foreach my $n (keys %nodes) {
577        print $g "\t\"$n\"\n";
578    }
579    foreach my $l (keys %links) {
580        print $g "\t", join(" -- ", @{$links{$l}}), "\n";
581    }
582    foreach my $l (keys %lans) {
583        foreach my $n (@{$lans{$l}}) {
584            print $g "\t \"$n\" -- \"$l\"\n";
585        }
586    }
587    print $g "}\n";
588    $g->close();
589    $p->reader("$neato  -Gstart=rand -Gepsilon=0.005 -Gmaxiter=20000 " .
590        "-Gpack=true $dotfile");
591    print $out "<vis>\n";
592    while (<$p>) {
593        /^\s*"?([\w\-]+)"?\s+\[.*pos=\"(\d+),(\d+)\"/ && do {
594            my ($n, $x, $y) = ($1, $2, $3);
595
596            print $out "<node><name>$n</name><x>$x</x><y>$y</y><type>" . 
597                "$nodes{$n}</type></node>\n" if $nodes{$n};
598        };
599    }
600    print $out "</vis>\n";
601    $p->close();
602    unlink("$dotfile");
603}
604
605$pid = $gid = "dummy";              # Default project and group to pass to
606                                    # $tcl_splitter above.  These are total
607                                    # dummy arguments;  the splitter doesn't
608                                    # use them at all, but we supply them to
609                                    # keep our changes to the parser minimal.
610# Argument processing.
611getopts('Ft:c:p:f:ndvNP:', \%opts);
612$splitter_config = $opts{'c'} || "./splitter.conf";
613$debug = $opts{'d'};
614$verbose = $opts{'v'} || $opts{'d'};
615
616&parse_config("$splitter_config", \%opts) || 
617    die "Cannot read config file $splitter_config: $!\n";
618
619warn "-N does nothing now.  Only one testbeds format supported.\n"
620    if $opts{'N'};
621$fail_soft = $opts{'F'} || $opts{'failsoft'};
622$startem = $opts{'n'} ? 0 : 1;          # If true, start the sub-experiments
623$timeout = $opts{'t'} || $opts{'timeout'};
624$eid = $opts{'experiment'};             # Experiment ID
625$tcl = $opts{'f'} || shift;             # The experiment description
626$master = $opts{'master'};              # Master testbed
627$tmpdir = $opts{'tmpdir'} || $opts{'tempdir'}|| "/tmp"; # tmp files
628$tb_config = $opts{'testbeds'} || "./testbeds"; # testbed configurations
629$local_script_dir = $opts{'scriptdir'}; # Local scripts
630$muxmax  = $opts{'muxlimit'} || 3;      # Number of connections muxed on one
631                                        # gateway
632
633$max_children = $opts{'p'} || $opts{'maxchildren'} 
634    if $opts{'p'} || $opts{'maxchildren'};
635
636$smb_share = $opts{'smbshare'} ||       # Share to mount from the master
637    die "Must give an SMB share\n";
638$project_user = $opts{'smbuser'} ||     # User to mount project dirs as
639    die "Must give an SMB user\n";
640$auth_proj = $opts{'P'};
641
642# tcl program to split experiments (changed during devel)
643$tcl_splitter = $opts{'tclparse'} || "/usr/testbed/lib/ns2ir/parse.tcl";
644# tclsh to call directly (changed during devel)
645$tclsh = $opts{'tclsh'} || "/usr/local/bin/otclsh";
646# fedd_client to get testbed access parameters
647$fedd_client = $opts{'feddclient'} || "fedd_client";
648
649# Prefix to avoid collisions
650$tmpdir .= "/split$$";
651
652print "Temp files are in $tmpdir\n" if $verbose;
653# Create a workspace
654unless (-d "$tmpdir") {
655    mkdir("$tmpdir") || die "Can't create $tmpdir: $!";
656}
657
658# If the keys are given, use them.  Otherwise create a set under $tmpdir
659
660if ( $opts{'gatewatpubkey'} && $opts{'gatewaysecretkey'}) {
661    $gw_pubkey = $opts{'gatewaypubkey'};
662    $gw_secretkey = $opts{'gatewaysecretkey'};
663}
664else {
665    $keytype = $opts{'gatewaykeytype'} || "rsa";
666    mkdir("$tmpdir/keys") || die "Can't create temoprary key dir: $!\n";
667    $gw_pubkey = "$tmpdir/keys/fed.$keytype.pub";
668    $gw_secretkey = "$tmpdir/keys/fed.$keytype";
669    print "Generating $keytype keys\n" if $verbose;
670    generate_ssh_keys($keytype, $gw_secretkey) || 
671        die "Cannot generate kets:$@\n";
672}
673# Generate the basenames
674($gw_pubkey_base = $gw_pubkey) =~ s#.*/##;
675($gw_secretkey_base = $gw_secretkey) =~ s#.*/##;
676
677
678
679# Validate scripts directory
680for my $s (@scripts) {
681    die "$local_script_dir/$s not in local script directory. Try -d\n"
682        unless -r "$local_script_dir/$s";
683}
684
685die "Must supply file, master and experiment" unless $master && $tcl && $eid;
686
687&parse_testbeds_filename($tb_config, $tbparams) ||
688    die "Cannot testbed congfigurations from $tb_config: $!\n";
689
690# Open a pipe to the splitter program and start it parsing the experiments
691my $pipe = new IO::Pipe;
692# NB no more -p call on parse call.
693$pipe->reader("$tclsh $tcl_splitter -s -x $muxmax -m $master  $pid $gid $eid $tcl") || 
694    die "Cannot execute $tclsh $tcl_splitter -s -x $muxmax -m $master $pid $gid $eid $tcl:$!\n";
695
696# Parsing variables
697my $ctb;                        # Current testbed
698my %allocated;                  # If allocated{$tb} > 0, $tb is in use
699my $destfile;                   # File that the sub-experiment tcl file is
700                                # being written to, or "" if none.  Also used
701                                # for hostnames file.
702my $desthandle;                 # File handle for distfile
703my $gateways;                   # when gateway lists are being processed this
704                                # is the testbed whose gateways are being
705                                # gathered.
706my $control_gateway;            # Control net gateway for the current testbed
707my %active_end;                 # If active_end{"a-b"} > 0 then a is the active
708                                # end of the a <-> b connector pair.
709my $vtopo;                      # IO::File for virtual topology info
710
711# Parse the splitter output.  This loop creates the sub experiments, gateway
712# configurations and hostnames file
713while (<$pipe>) {
714    # Vtopo is virtual topology about the entire experiment. Copy it to the
715    # $tmpdir for distribution far and wide.
716    (/^#\s+Begin\s+Vtopo/../^#\s+End\s+Vtopo/) && do {
717        /^#\s+Begin/ && do {
718            $vtopo = new IO::File(">$tmpdir/vtopo.xml");
719            warn "Can't open $tmpdir/vtopo.xml:$!\n" unless $vtopo;
720            next;
721        };
722        /^#\s+End/ && do {
723            $vtopo->close() if $vtopo;
724            undef $vtopo;
725            genviz("$tmpdir/vtopo.xml", "$tmpdir/viz.xml");
726            next;
727        };
728        print $vtopo $_  if $vtopo;
729        next;
730    };
731    # Allbeds lists all the testbeds that this experiment accesses.  This code
732    # acquires access to them and pulls in their access parameters from fedd.
733    (/^#\s+Begin\s+Allbeds/../^#\s+End\s+Allbeds/) && do {
734        next if /^#/;
735        chomp;
736
737        my $tb;         # Current testbed
738        my @nodes;      # Current testbed node requests
739
740        # The Allbeds line has the testbed name first separated by the node
741        # requirements of the testbeds.  A node requirement is separated form
742        # teh testbed name and other node requirements by a vertical bar (|).
743        # This pulls the testbed off the front (which must be present) and
744        # splits the node descriptors out by the vertical bar.  The first
745        # vertical bar (the one after the testbed) is removed by the intial
746        # regular expression to avoid a null entry in @nodes.  The node
747        # requests are of the form image:type:count and can be passed directly
748        # to fedd_client as parameters.
749        /([^|]+)\|?(.*)/ && do {
750            my $n;      # Scratch
751
752            ($tb , $n) = ($1, $2);
753            @nodes = split(/\|/, $n);
754        };
755
756        # If this testbed has not had its access parameters read from fedd, try
757        # to read them, if we have a way to talk to fedd
758        unless ($tbparams->{$tb}->{'access'} || !$fedd_client) { 
759            my $access_pipe = new IO::Pipe || 
760                die "Can't open pipe to fedd:$!\n";
761            my $proj = $auth_proj ? " -p $auth_proj " : "";
762            my @cmds;
763            my $rv;
764
765            print("Checking access to $tb using " . $tbparams->{$tb}->{'uri'}
766                . "\n") if $verbose;
767
768            # First access command, implicitly uses localhost fedd
769            push(@cmds,"$fedd_client -t " . 
770                $tbparams->{$tb}->{'uri'} .  " -T $ENV{HOME}/cacert.pem ".
771                "-l $tb $proj" . (@nodes ? " -n " : " ") .
772                join(" -n ", @nodes));
773            # Second try access command, implicitly directly contact testbed
774            push(@cmds,"$fedd_client -t " . 
775                $tbparams->{$tb}->{'uri'} .  " -u " .
776                $tbparams->{$tb}->{'uri'} .  " -T $ENV{HOME}/cacert.pem ".
777                "-l $tb $proj" . (@nodes ? " -n " : " ") .
778                join(" -n ", @nodes));
779            # Third try access command, implicitly directly contact testbed
780            # using only federated id.
781            push(@cmds,"$fedd_client -f -a -t " . 
782                $tbparams->{$tb}->{'uri'} .  " -u " .
783                $tbparams->{$tb}->{'uri'} .  " -T $ENV{HOME}/cacert.pem ".
784                "-l $tb $proj" . (@nodes ? " -n " : " ") .
785                join(" -n ", @nodes));
786
787            foreach my $c (@cmds) {
788                print "$c\n" if $verbose;
789                $rv = &fedd_access_request($c);
790                warn($rv) if $rv;
791
792                last if $rv eq undef;
793            }
794            die "Cannot get access to $tb\n"  if $rv;
795        }
796        next;
797    };
798
799    # Start of a sub-experiment
800    /^#\s+Begin\s+Testbed\s+\((\w+)\)/ && do {
801        $ctb = $1;
802
803        # If we know the testbed, start collecting its sub experiment tcl
804        # description.  If not, warn the user.
805        if ($tbparams->{$ctb}->{'access'}) {
806            $allocated{$ctb}++; # Keep track of the testbeds allocated
807
808            unless (-d "$tmpdir/$ctb") {
809                mkdir("$tmpdir/$ctb") || die "Can't create $tmpdir/$ctb: $!";
810            }
811            $destfile = "$tmpdir/$ctb/$eid.$ctb.tcl";
812
813            $desthandle = new IO::File(">$destfile") || 
814                die "Cannot open $destfile:$!\n";
815        }
816        else{
817            warn "No such testbed $ctb\n";
818            $destfile = "";
819        }
820        next;
821    };
822
823    # End of that experiment
824    /^#\s+End\s+Testbed\s+\((\w+)\)/ && do {
825        # Simple syntax check and close out this experiment's tcl description
826        die "Mismatched testbed markers ($1, $ctb)\n" unless ($1 eq $ctb);
827        $desthandle->close() if $desthandle;
828        $destfile = $ctb = "";
829        next;
830    };
831
832    # Beginning of a gateway set
833    /^#\s+Begin\s+gateways\s+\((\w+)\)/ && do {
834        $gateways = $1;
835        # If we've heard of this tb, create the config lines for it one at a
836        # time.
837        if ($allocated{$gateways}) {
838            # Just in case.  This directory should already have been created
839            # above.
840            unless (-d "$tmpdir/$gateways") {
841                mkdir("$tmpdir/$gateways") || 
842                    die "Can't create $tmpdir/$gateways: $!";
843            }
844        }
845        else {
846            warn "Gateways given (and ignored) for testbed not in use: " .
847                "$gateways\n";
848            $gateways = 0;
849        }
850        next;
851    };
852    # End of the gateways section.  Output the client config for this testbed
853    /^#\s+End\s+gateways\s+\((\w+)\)/ && do {
854        die "Mismatched gateway markers ($1, $gateways)\n" 
855            unless !$gateways || $gateways == $1;
856
857        if ($control_gateway ) {
858            # Client config
859            my $cc = new IO::File(">$tmpdir/$gateways/client.conf");
860            my $master_project = $tbparams->{$master}->{'project'};
861            die "Can't open $tmpdir/$gateways/client.conf: $!\n" unless $cc;
862            print $cc "ControlGateway: $control_gateway\n";
863            print $cc "SMBShare: $smb_share\n";
864            print $cc "ProjectUser: $project_user\n";
865            print $cc "ProjectName: $master_project\n";
866            $cc->close();
867        }
868        else { warn "No control gateway for $gateways?\n"; }
869           
870        $gateways = 0;
871        next;
872    };
873    # Beginning of the hostnames list.  Collection is always in the hostnames
874    # file.
875    /^#\s+Begin\s+hostnames/ && do {
876        $destfile = "$tmpdir/hostnames";
877        $desthandle = new IO::File(">$destfile") || 
878            die "Can't open $destfile:$!\n";
879        next;
880    };
881    # end of the hostnames list.
882    /^#\s+End\s+hostnames/ && do {
883        $desthandle->close();
884        $destfile = "";
885        next;
886    };
887
888    # Generate gateway configuration info, one file per line
889    $gateways && do {
890        chomp;
891        my($dtb, $myname, $desthost, $type) = split(" ", $_);
892
893        # Many of these are to simplify print statements
894        my $sdomain =                           # domain for the source
895            $tbparams->{$gateways}->{'domain'};
896        my $ddomain =                           # domain for the destination
897            $tbparams->{$dtb}->{'domain'};
898        my $sproject =                          # Project of the source
899            $tbparams->{$gateways}->{'project'};
900        my $dproject =                          # Project of the destination
901            $tbparams->{$dtb}->{'project'};
902        my $fs =                                # Master fs node (FQDN)
903            $tbparams->{$master}->{'fs'} .  $tbparams->{$master}->{'domain'};
904        my $boss =                              # Master boss node (FQDN)
905            $tbparams->{$master}->{'boss'} .  $tbparams->{$master}->{'domain'};
906        my $event_server =                      # Master event-server (FQDN)
907            $tbparams->{$master}->{'eventserver'} . 
908            $tbparams->{$master}->{'domain'};
909        my $remote_event_server =               # Slave event-server (FQDN)
910            $tbparams->{$dtb}->{'eventserver'} . 
911            $tbparams->{$dtb}->{'domain'};
912        my $remote_script_dir =                 # Remote fed script location
913            "/proj/" . $dproject . "/exp/$eid/tmp";
914        my $local_script_dir =                  # Local fed script location
915            "/proj/" . $sproject . "/exp/$eid/tmp";
916        my $active;                             # Is this the active side of
917                                                # the connector?
918        my $tunnel_cfg =                        # Use DETER's config stuff
919            $tbparams->{$gateways}->{'tun'} || "false";
920                                   
921
922        $sdomain = ".$eid." . $tbparams->{$gateways}->{'project'} . "$sdomain";
923        $ddomain = ".$eid." . $tbparams->{$dtb}->{'project'} . "$ddomain";
924
925        my $conf_file = "$myname$sdomain.gw.conf";
926        my $remote_conf_file = "$desthost$ddomain.gw.conf";
927        # translate to lower case so the `hostname` hack for specifying
928        # configuration files works.
929        $conf_file =~ tr/A-Z/a-z/;
930        $remote_conf_file =~ tr/A-Z/a-z/;
931
932        # If either end of this link is in the master side of the testbed, that
933        # side is the active end. Otherwise the first testbed encountered in
934        # the file will be the active end.  The $active_end variable keeps
935        # track of those decisions
936        if ( $dtb eq $master ) { $active = "false"; }
937        elsif ($gateways eq $master ) { $active = "true"; }
938        elsif ( $active_end{"$dtb-$gateways"} ) { $active="false"; }
939        else { $active_end{"$gateways-$dtb"}++; $active = "true"; }
940
941        # This is used to create the client configuration.
942        $control_gateway = "$myname$sdomain"
943            if $type =~ /(control|both)/;
944
945        # Write out the file
946        my $gwconfig = new IO::File(">$tmpdir/$gateways/$conf_file")|| 
947            die "can't open $tmpdir/$gateways/$conf_file: $!\n";
948
949        print $gwconfig "Active: $active\n";
950        print $gwconfig "TunnelCfg: $tunnel_cfg\n";
951        print $gwconfig "BossName: $boss\n";
952        print $gwconfig "FsName: $fs\n";
953        print $gwconfig "EventServerName: $event_server\n";
954        print $gwconfig "RemoteEventServerName: $remote_event_server\n";
955        print $gwconfig "Type: $type\n";
956        print $gwconfig "RemoteScriptDir: $remote_script_dir\n";
957        print $gwconfig "EventRepeater: $local_script_dir/fed_evrepeater\n";
958        print $gwconfig "RemoteExperiment: $dproject/$eid\n";
959        print $gwconfig "LocalExperiment: $sproject/$eid\n";
960        print $gwconfig "RemoteConfigFile: " . 
961            "$remote_script_dir/$remote_conf_file\n";
962        print $gwconfig "Peer: $desthost$ddomain\n";
963        print $gwconfig "Pubkeys: " . 
964            "/proj/$sproject/exp/$eid/tmp/$gw_pubkey_base\n";
965        print $gwconfig "Privkeys: " .
966            "/proj/$sproject/exp/$eid/tmp/$gw_secretkey_base\n";
967        $gwconfig->close();
968
969        # This testbed has a gateway (most will) so make a copy of the keys it
970        # needs in this testbed's subdirectory.  start_segment will transfer
971        # them.
972        unless (-r "$tmpdir/$gateways/$gw_pubkey_base" ) {
973            copy($gw_pubkey, "$tmpdir/$gateways/$gw_pubkey_base") ||
974                die "Can't copy pubkeys ($gw_pubkey to " . 
975                    "$tmpdir/$gateways/$gw_pubkey_base): $!\n";
976        }
977        if ($active eq "true" ) {
978            unless (-r "$tmpdir/$gateways/$gw_secretkey_base" ) {
979                copy($gw_secretkey, "$tmpdir/$gateways/$gw_secretkey_base") ||
980                    die "Can't copy secret keys ($gw_secretkey to " . 
981                        "$tmpdir/$gateways/$gw_secretkey_base): $!\n";
982            }
983        }
984
985        #done processing gateway entry, ready for next line
986        next; 
987    };
988    (/^#\s+Begin\s+tarfiles/../^#\s+End\s+tarfiles/) && do {
989        next if /^#/;
990        chomp;
991        push(@tarfiles, $_);
992        next;
993    };
994    (/^#\s+Begin\s+rpms/../^#\s+End\s+rpms/) && do {
995        next if /^#/;
996        chomp;
997        push(@rpms, $_);
998        next;
999    };
1000
1001    next unless $destfile;  # Unidentified testbed, ignore config
1002    # local copies that can be used in the substitutions below
1003    my $gwtype = $tbparams->{$ctb}->{'gwtype'} || $def_gwtype;
1004    my $gwimage = $tbparams->{$ctb}->{'gwimage'} || $def_gwimage;
1005    my $mgwstart = $tbparams->{$ctb}->{'mgwstart'} || $def_mgwstart;
1006    my $mexpstart = $tbparams->{$ctb}->{'mexpstart'} || $def_mexpstart;
1007    my $gwstart = $tbparams->{$ctb}->{'gwstart'} || $def_gwstart;
1008    my $expstart = $tbparams->{$ctb}->{'expstart'} || $def_expstart;
1009    my $project = $tbparams->{$ctb}->{'project'};
1010
1011    # Substitute variables
1012    s/GWTYPE/$gwtype/g;
1013    s/GWIMAGE/$gwimage/g;
1014    if ($ctb eq $master ) {
1015        s/GWSTART/$mgwstart/g;
1016        s/EXPSTART/$mexpstart/g;
1017    }
1018    else {
1019        s/GWSTART/$gwstart/g;
1020        s/EXPSTART/$expstart/g;
1021    }
1022    # XXX: oh is this bad
1023    s#GWCONF#FEDDIR\`hostname\`.gw.conf#g;
1024    s#PROJDIR#/proj/$project/#g;
1025    s#EID#$eid#g;
1026    s#FEDDIR#/proj/$project/exp/$eid/tmp/#g;
1027    print $desthandle $_;
1028}
1029$pipe->close();
1030die "No nodes in master testbed ($master)\n" unless $allocated{$master};
1031
1032# Copy tarfiles and rpms needed at remote sites to the staging directories.
1033# Start_segment will distribute them
1034for my $t  (@tarfiles) {
1035    die "tarfile '$t' unreadable: $!\n" unless -r $t;
1036    unless (-d "$tmpdir/tarfiles") {
1037        mkdir("$tmpdir/tarfiles") || 
1038            die "Can't create $tmpdir/tarfiles:$!\n";
1039    }
1040    copy($t, "$tmpdir/tarfiles") || 
1041        die "Can't copy $t to  $tmpdir/tarfiles:$!\n";
1042}
1043
1044for my $r  (@rpms) {
1045    die "rpm '$r' unreadable: $!\n" unless -r $r;
1046    unless (-d "$tmpdir/rpms") {
1047        mkdir("$tmpdir/rpms") || 
1048            die "Can't create $tmpdir/rpms:$!\n";
1049    }
1050    copy($r, "$tmpdir/rpms") || 
1051        die "Can't copy $r to  $tmpdir/rpms:$!\n";
1052}
1053
1054exit(0) unless $startem;
1055
1056my %started;                # If $started{$tb} then $tb successfully started
1057my %child;                  # If $child{$pid} then a process with that pid is
1058                            # working on a starting a segment
1059my $nworking = 0;           # Number of children working on swapin
1060my $pid;                    # Scratch variable for pids
1061
1062# Start up the slave sub-experiments first
1063TESTBED:
1064for my $tb  (keys %allocated) {
1065    if ( $tb ne $master ) {
1066        while ( $nworking == $max_children ) {
1067            print "Waiting for a child process to complete\n" if $verbose;
1068            if (($pid = wait()) != -1 ) {
1069                # The $? >> 8 is the exit code of the subprocess, which is
1070                # non-zero if the &start_segment routine failed.
1071                my $exit_code = ($? >> 8);
1072
1073                print "Child $pid completed exit code ($exit_code)\n"
1074                    if $verbose;
1075                $nworking--;
1076                $started{$child{$pid}}++ unless $exit_code;
1077                if ($child{$pid} ) { delete $child{$pid}; }
1078                else { warn "Reaped a pid we did not start?? ($pid)\n"; }
1079                last TESTBED if $exit_code;
1080            }
1081            else { warn "wait returned without reaping: $!\n"; }
1082        }
1083        if ( $pid = fork() ) {
1084            # Parent process
1085            $nworking ++;
1086            $child{$pid} = $tb;
1087            print "Started process $pid to start testbed $tb\n"
1088                if $verbose;
1089        }
1090        else {
1091            # Child.  Note that we reverse the sense of the return code when it
1092            # becomes an exit value.  Zero exit values indicate success.
1093            exit(!&start_segment($tb, $eid, $tbparams, $timeout));
1094        }
1095    }
1096}
1097
1098# Now wait for any still running processes.
1099while ( $nworking ) {
1100    print "Waiting for a child process to complete ($nworking running)\n" 
1101        if $verbose;
1102    if (($pid = wait()) != -1 ) {
1103        # The $? >> 8 is the exit code of the subprocess, which is
1104        # non-zero if the &start_segment routine failed.
1105        my $exit_code = ($? >> 8);
1106
1107        print "Child $pid completed exit code ($exit_code)\n"
1108            if $verbose;
1109        $nworking--;
1110        $started{$child{$pid}}++ unless $exit_code;
1111        if ($child{$pid} ) { delete $child{$pid}; }
1112        else { warn "Reaped a pid we did not start?? ($pid)\n"; }
1113    }
1114    else { warn "wait returned without reaping: $!\n"; }
1115}
1116
1117# Now the master
1118if (&start_segment($master, $eid, $tbparams, $timeout)) { 
1119    $started{$master}++;
1120}
1121
1122# If any testbed failed, swap the rest out.
1123if ( !$fail_soft && scalar(keys %started) != scalar(keys %allocated)) {
1124    for my $tb (keys %started) { &stop_segment($tb, $eid, $tbparams); }
1125    print "Error starting experiment\n";
1126    exit(1);
1127}
1128print "Experiment started\n";
1129print "Deleting $tmpdir (-d to leave them in place)\n" if $verbose && !$debug;
1130system("rm -rf $tmpdir") unless $debug;
1131exit(0);    # set the exit value
1132
1133=pod
1134
1135=head1 NAME
1136
1137B<splitter.pl>
1138
1139=head1 SYNOPSIS
1140
1141B<splitter.pl> [B<-ndF>] [B<-t> I<secs>] [B<-c> F<config_file>]
1142    [B<-f> F<experiment_tcl>] [B<-p> I<max_procs>] [F<experiment_tcl>]
1143
1144=head1 DESCRIPTION
1145
1146B<splitter.pl> invokes the DETER experiment parser to split an annotated
1147experiment into multiple sub-experments and instantiates the sub-experiments on
1148their intended testbeds.  Annotation is accomplished using the
1149tb-set-node-testbed command, added to the parser.
1150
1151Much of the script's behavior depends on the configuration file, specified with
1152the B<-c> flag and defaulting to F<./splitter.conf>.
1153
1154The testbed labels supplied in the B<tb-set-node-testbed> command are
1155meaningful based on their presence in the testbeds file.  that file can be
1156specified in the configuration file using the B<Testbeds> directive, and
1157defaults to F<./testbeds>.  The syntax is described below.
1158
1159Most of the intermediate files are staged in a sub-directory of a temporary
1160files directory and deleted at the end of the script.  Specifying the B<-d>
1161flag on the command line avoids the deletion for debbugging.  By default the
1162temporary files directory is directory is F</tmp> and can be reset in the
1163configuration file using the B<Tmpdir> directive.  Intermediate files are
1164stored under a subdirectory formed by adding the process ID of the splitter
1165process.  For example, if the temporary files directory is F</tmp> and the
1166B<splitter.pl> process ID is 2323, the temporary files will be stored in
1167F</tmp/split2323/>.
1168
1169The expreriment is split out into one experiment description per testbed in the
1170temporary directory named as F<experiment.testbed.tcl> where the experiment is
1171the experiment ID given in the configuration file, and the testbed is the
1172tb-set-node-testbed parameter for the nodes in the file.
1173
1174If the B<-n> option is absent the sub-experiments are then instantiated on
1175their testbeds.  (Here B<-n> is analogous to its use in L<make(1)>).
1176Per-testbed parameters are set in the testbeds file.  Sub-experiments on
1177slave testbeds are instantiated in a random order, but the master testbed is
1178currently instantiated last.
1179
1180Slave testbeds can be swapped in in parallel by specifying the B<-p> parameter
1181and the maximum number of simultaneous processes to start.
1182
1183Scripts to start federation (the federation kit) are copied into the local
1184experiment's tmp file - e.g., F</proj/DETER/exp/simple-split/tmp>.  These are
1185taken from the directory given by the B<ScriptDir> directive in the
1186configuration file.
1187
1188If B<-t> is given the parameter is treated as a parameter to B<Timeout> in
1189F<splitter.conf>.
1190
1191If any sub-experiment fails to instantiate, the other sub-exeriments are
1192swapped out.  B<-F> avoids this swap out, which can also be specified as
1193B<SoftFail: true> in F<splitter.conf>
1194
1195=head2 Configuration File
1196
1197The configuration file is a simple set of colon-separated parameters and
1198values.  A configuration file must be present, either specified in the B<-c>
1199flag or the default F<./splitter.conf>.  All the parameter names are case
1200insensitive, but should not include any whitespace.  Parameter values may
1201include whitespace, but no newlines.
1202
1203Possible parameters are:
1204
1205=over 5
1206
1207=item Experiment
1208
1209The name of the experiment on the various testbeds
1210
1211=item Master
1212
1213The master testbed label from the testbeds file, described below.
1214
1215=item Testbeds
1216
1217The testbeds file described below, giving per-testbed parameters.  If this
1218directive is absent the testbeds file defaults to F<./testbeds>
1219
1220=item ScriptDir
1221
1222Location of the default federation scripts, i.e. the federation kit.
1223
1224=item GatewayPubkey
1225
1226=item GatewaySecretKey
1227
1228The names of the files containing secret and public keys to use in setting up
1229tunnels between testbeds.  If given they are used, otherwise keys are generated.
1230
1231=item GatewayKeyType
1232
1233This controls the kind of SSH keys generated to configure the geatways.  If
1234given this must be B<dsa> or B<rsa>, and it defaults to B<rsa>.  The parameter
1235is csase insensitive.
1236
1237=item TmpDir
1238
1239=item TempDir
1240
1241The directory where temporary files are created.  These are synonyms, but
1242should both be specified, B<TmpDir> has priority.  If neither is specified,
1243F</tmp> is used.
1244
1245=item SMBShare
1246
1247The SMB share on the master testbed that will be exported to remote clients.
1248
1249=item SMBUser
1250
1251The experiment user to mount project directories as.  This user needs to be a
1252member of the exported experiment - that is one of the users in the project
1253containing this experiment on the master testbed.
1254
1255=item Timeout
1256
1257Value in seconds after which a swap-in operatioin will be considered a success.
1258Often long swap-ins will hang when there are partial failures.  This works
1259around this issue.  (This behavior can be requested on the command line by
1260specifying B<-t> I<secs>.)
1261
1262=item FailSoft
1263
1264If not set, failure of any sub experiment swaps the rest out.  Setting this to
1265any value avoids this swap out.  (This behavior can be requested on the command
1266line by specifying B<-F>.)
1267
1268=item MuxLimit
1269
1270The maximum bumber of links/lans carried by one gateway pair
1271
1272=item Tclparse
1273
1274The pathname to the experiment parsing program.  Only developers should set
1275this.
1276
1277=item Tclsh
1278
1279The pathname to the local oTcl shell.  Only developers should set
1280this.
1281
1282=back
1283
1284=head2 Testbeds file
1285
1286The configuration file (F<./testbeds> unless overridden by B<-c>) is a file of
1287scoped attribute-value pairs where each attribute is specified on a separate
1288line of the configuration file.  Each testbed's parameters are preceeded by the
1289testbed label in brackets ([]) on a line by itself.  After that the parameters
1290are specified as parameter: value.  This is essentially the same format as the
1291configuration file.  Parameters are:
1292
1293=over 4
1294
1295=item User
1296
1297The user under which to make requests to this testbed.  The user running
1298B<splitter.pl> must be able to authenicate as this user under L<ssh(1)> to this
1299testbed.
1300
1301=item OpsNode
1302
1303The host name of the testbed's ops node.  The user calling B<splitter.pl> must
1304be able to execute commands on this host via L<ssh(1)>.
1305
1306=item Domain
1307
1308The domain of nodes in this testbed (including the ops host).  This parameter
1309should always start with a period.
1310
1311=item Project
1312
1313The project under which to instantiate sub-experiments on this testbed.
1314
1315=item ConnectorType
1316
1317The node type for inter-testbed connector nodes on this testbed.
1318
1319=item SlaveNodeStartCmd
1320
1321The start command to run on experimental nodes when this testbed is used as a
1322slave.  In all the start commands the following string substitutions are made:
1323
1324=over 10
1325
1326=item FEDDIR
1327
1328The local experiment's federation scripts directory.  Each local experiment
1329will have this replaced by the scripts directory on its local boss.
1330
1331=item GWCONF
1332
1333The full pathname of the gateway configuration file.  As with FEDDIR, this is
1334on the local boss.
1335
1336=item PROJDIR
1337
1338The project directory on the local boss.
1339
1340=item EID
1341
1342The local experiment name.
1343
1344=back
1345
1346All startcmds specified in F<testbeds> undergo these expansions.
1347
1348=item SlaveConnectorStartCmd
1349
1350The start command to run on gateway nodes when this testbed is used as a slave.
1351The same string substitutions are made in this command as in SlaveNodeStartCmd.
1352
1353=item MasterNodeStartCmd
1354
1355The start command to run on experimental nodes when this testbed is used as a
1356master.  The same string substitutions are made in this command as in
1357SlaveNodeStartCmd.
1358
1359=item MasterConnectorStartCmd
1360
1361The start command to run on gateway nodes when this testbed is used as a
1362master.  The same string substitutions are made in this command as in
1363SlaveNodeStartCmd.
1364
1365=item ConnectorImage
1366
1367The disk image to be loaded on a gateway node on this testbed.
1368
1369=item FileServer
1370
1371The node in the master testbed from which filesystems are mounted.
1372
1373=item Boss
1374
1375The node in the master testbed that controls the testbed.
1376
1377=item TunnelCfg
1378
1379True if the connector needs to do DETER federation.  This parameter will
1380probably be removed.
1381
1382
1383=back
1384
1385=head1 ENVIRONMENT
1386
1387B<splitter.pl> does not directly make use of environment variables, but calls
1388out to L<ssh(1)> and (indirectly) to L<sh(1)>, which may be influenced by the
1389environment.
1390
1391=head1 BUGS
1392
1393A deprecated B<-N> flag was used to select testbeds file format.  Only one
1394format is supported now, and B<-N> generates a warning, but otherwise does not
1395affect B<splitter.pl>.
1396
1397=head1 SEE ALSO
1398
1399L<sh(1)>, L<ssh(1)>
1400
1401=cut
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