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Matt Spinler1cb9ecc2020-06-02 10:48:31 -05001#! /usr/bin/perl
2
3# This script is used for generating callout lists from the MRW for devices
4# that can be accessed from the BMC. The callouts have a location code, the
5# target name (for debug), a priority, and in some cases a MRU. The script
6# supports I2C, FSI, SPI, FSI-I2C, and FSI-SPI devices. The output is a JSON
7# file organized into sections for each callout type, with keys based on the
8# type. I2c uses a bus and address, FSI uses a link, and SPI uses a bus
9# number. If FSI is combined with I2C or SPI, then the link plus the I2C/SPI
10# keys is used. Multi-hop FSI links are indicated by a dash in between the
11# links, eg "0-1".
12#
13# An example section is:
14# "FSI":
15# {
16# "5":
17# {
18# "Callouts":[
19# {
20# "Priority":"H"
21# "LocationCode": "P1-C50",
22# "MRU":"/sys-0/node-0/motherboard/proc_socket-0/module-0/power9-0",
23# "Name":"/sys-0/node-0/motherboard/cpu0"
24# },
25# {
26# "Priority":"H",
27# "LocationCode": "P1-C42",
28# "MRU":"/sys-0/node-0/motherboard/ebmc-card/BMC-0",
29# "Name":"/sys-0/node-0/motherboard/ebmc-card"
30# },
31# {
32# "Priority":"L",
33# "LocationCode": "P1",
34# "Name":"/sys-0/node-0/motherboard"
35# }
36# ],
37# "Dest":"/sys-0/node-0/motherboard-0/proc_socket-0/module-0/power9-0",
38# "Source":"/sys-0/node-0/motherboard-0/ebmc-card-connector-0/card-0/bmc-0"
39# }
40# }
41# The Name, Dest and Source entries are MRW targets and are just for debug.
42#
43# The optional --segments argument will output a JSON file of all the bus
44# segments in the system, which is what the callouts are made from.
45
46use strict;
47use warnings;
48
Matt Spinler00ef7662020-06-02 10:58:24 -050049# Callout object
50# Base class for other callouts.
51# There is an object per device, so it can contain multiple
52# FRU callouts in the calloutList attribute.
53package Callout;
54sub new
55{
56 my $class = shift;
57 my $self = {
58 type => shift,
59 sourceChip => shift,
60 destChip => shift,
61 calloutList => shift,
62 };
63
64 return bless $self, $class;
65}
66
67sub sourceChip
68{
69 my $self = shift;
70 return $self->{sourceChip};
71}
72
73sub destChip
74{
75 my $self = shift;
76 return $self->{destChip};
77}
78
79sub type
80{
81 my $self = shift;
82 return $self->{type};
83}
84
85sub calloutList
86{
87 my $self = shift;
88 return $self->{calloutList};
89}
90
91# I2CCallout object for I2C callouts
92package I2CCallout;
93our @ISA = qw(Callout);
94sub new
95{
96 my ($class) = @_;
97 # source, dest, calloutList
98 my $self = $class->SUPER::new("I2C", $_[1], $_[2], $_[3]);
99 $self->{i2cBus} = $_[4];
100 $self->{i2cAddr} = $_[5];
101 return bless $self, $class;
102}
103
104sub i2cBus
105{
106 my $self = shift;
107 return $self->{i2cBus};
108}
109
110sub i2cAddress
111{
112 my $self = shift;
113 return $self->{i2cAddr};
114}
115
116# FSICallout object for FSI callouts
117package FSICallout;
118our @ISA = qw(Callout);
119sub new
120{
121 my ($class) = @_;
122 my $self = $class->SUPER::new("FSI", $_[1], $_[2], $_[3]);
123 $self->{FSILink} = $_[4];
124 bless $self, $class;
125 return $self;
126}
127
128sub fsiLink
129{
130 my $self = shift;
131 return $self->{FSILink};
132}
133
134# SPICallout object for SPI callouts
135package SPICallout;
136our @ISA = qw(Callout);
137sub new
138{
139 my ($class) = @_;
140 my $self = $class->SUPER::new("SPI", $_[1], $_[2], $_[3]);
141 $self->{SPIBus} = $_[4];
142 bless $self, $class;
143 return $self;
144}
145
146sub spiBus
147{
148 my $self = shift;
149 return $self->{SPIBus};
150}
151
Matt Spinlerbbaf7382020-06-02 11:16:28 -0500152# FSII2CCallout object for FSI-I2C callouts
153# Ideally this would be derived from FSICallout, but I can't
154# get it to work.
155package FSII2CCallout;
156
157our @ISA = qw(Callout);
158sub new
159{
160 my ($class) = @_;
161 # source, dest, calloutList
162 my $self = $class->SUPER::new("FSI-I2C", $_[1], $_[2], $_[3]);
163 $self->{FSILink} = $_[4];
164 $self->{i2cBus} = $_[5];
165 $self->{i2cAddr} = $_[6];
166 return bless $self, $class;
167}
168
169sub fsiLink
170{
171 my $self = shift;
172 return $self->{FSILink};
173}
174
175sub i2cBus
176{
177 my $self = shift;
178 return $self->{i2cBus};
179}
180
181sub i2cAddress
182{
183 my $self = shift;
184 return $self->{i2cAddr};
185}
186
187#FSISPICallout object for FSI-SPI callouts
188package FSISPICallout;
189
190our @ISA = qw(Callout);
191sub new
192{
193 my ($class) = @_;
194 # source, dest, calloutList
195 my $self = $class->SUPER::new("FSI-SPI", $_[1], $_[2], $_[3]);
196 $self->{FSILink} = $_[4];
197 $self->{SPIBus} = $_[5];
198 return bless $self, $class;
199}
200
201sub fsiLink
202{
203 my $self = shift;
204 return $self->{FSILink};
205}
206
207sub spiBus
208{
209 my $self = shift;
210 return $self->{SPIBus};
211}
212
Matt Spinler00ef7662020-06-02 10:58:24 -0500213package main;
214
Matt Spinler1cb9ecc2020-06-02 10:48:31 -0500215use mrw::Targets;
216use mrw::Util;
217use Getopt::Long;
218use File::Basename;
219use JSON;
220
221my $mrwFile = "";
222my $outFile = "";
223my $printSegments = 0;
224
225# Not supporting priorites A, B, or C until necessary
226my %priorities = (H => 3, M => 2, L => 1);
227
228# Segment bus types
229my %busTypes = ( I2C => 1, FSIM => 1, FSICM => 1, SPI => 1 );
230
231GetOptions(
232 "m=s" => \$mrwFile,
233 "o=s" => \$outFile,
234 "segments" => \$printSegments
235)
236 or printUsage();
237
238if (($mrwFile eq "") or ($outFile eq ""))
239{
240 printUsage();
241}
242
243# Load system MRW
244my $targets = Targets->new;
245$targets->loadXML($mrwFile);
246
247# Find all single segment buses that we care about
248my %allSegments = getPathSegments();
249
Matt Spinler00ef7662020-06-02 10:58:24 -0500250my @callouts;
251
252# Build the single and multi segment callouts
253buildCallouts(\%allSegments, \@callouts);
254
Matt Spinler44aecce2020-06-02 12:40:49 -0500255printJSON(\@callouts);
Matt Spinler00ef7662020-06-02 10:58:24 -0500256
Matt Spinler1cb9ecc2020-06-02 10:48:31 -0500257# Write the segments to a JSON file
258if ($printSegments)
259{
260 my $outDir = dirname($outFile);
261 my $segmentsFile = "$outDir/segments.json";
262
263 open(my $fh, '>', $segmentsFile) or
264 die "Could not open file '$segmentsFile' $!";
265
266 my $json = JSON->new;
267 $json->indent(1);
268 $json->canonical(1);
269 my $text = $json->encode(\%allSegments);
270 print $fh $text;
271 close $fh;
272}
273
274# Returns a hash of all the FSI, I2C, and SPI segments in the MRW
275sub getPathSegments
276{
277 my %segments;
278 foreach my $target (sort keys %{$targets->getAllTargets()})
279 {
280 my $numConnections = $targets->getNumConnections($target);
281
282 if ($numConnections == 0)
283 {
284 next;
285 }
286
287 for (my $connIndex=0;$connIndex<$numConnections;$connIndex++)
288 {
289 my $connBusObj = $targets->getConnectionBus($target, $connIndex);
290 my $busType = $connBusObj->{bus_type};
291
292 # We only care about certain bus types
293 if (not exists $busTypes{$busType})
294 {
295 next;
296 }
297
298 my $dest = $targets->getConnectionDestination($target, $connIndex);
299
300 my %segment;
301 $segment{BusType} = $busType;
302 $segment{SourceUnit} = $target;
303 $segment{SourceChip} = getParentByClass($target, "CHIP");
304 if ($segment{SourceChip} eq "")
305 {
306 die "Warning: Could not get parent chip for source $target\n";
307 }
308
309 $segment{DestUnit} = $dest;
310 $segment{DestChip} = getParentByClass($dest, "CHIP");
311
312 # If the unit's direct parent is a connector that's OK too.
313 if ($segment{DestChip} eq "")
314 {
315 my $parent = $targets->getTargetParent($dest);
316 if ($targets->getAttribute($parent, "CLASS") eq "CONNECTOR")
317 {
318 $segment{DestChip} = $parent;
319 }
320 }
321
322 if ($segment{DestChip} eq "")
323 {
324 die "Warning: Could not get parent chip for dest $dest\n";
325 }
326
327 my $fruPath = $targets->getBusAttribute(
328 $target, $connIndex, "FRU_PATH");
329
330 if (defined $fruPath)
331 {
332 $segment{FRUPath} = $fruPath;
333 my @callouts = getFRUPathCallouts($fruPath);
334 $segment{Callouts} = \@callouts;
335 }
336 else
337 {
338 $segment{FRUPath} = "";
339 my @empty;
340 $segment{Callouts} = \@empty;
341 }
342
343 if ($busType eq "I2C")
344 {
345 $segment{I2CBus} = $targets->getAttribute($target, "I2C_PORT");
346 $segment{I2CAddress} =
347 hex($targets->getAttribute($dest, "I2C_ADDRESS"));
348
349 $segment{I2CBus} = $segment{I2CBus};
350
351 # Convert to the 7 bit address that linux uses
352 $segment{I2CAddress} =
353 Util::adjustI2CAddress($segment{I2CAddress});
354 }
355 elsif ($busType eq "FSIM")
356 {
357 $segment{FSILink} =
358 hex($targets->getAttribute($target, "FSI_LINK"));
359 }
360 elsif ($busType eq "SPI")
361 {
362 $segment{SPIBus} = $targets->getAttribute($target, "SPI_PORT");
363
364 # Seems to be in HEX sometimes
365 if ($segment{SPIBus} =~ /^0x/i)
366 {
367 $segment{SPIBus} = hex($segment{SPIBus});
368 }
369 }
370
371 push @{$segments{$busType}}, { %segment };
372 }
373 }
374
375 return %segments;
376}
377
378#Breaks the FRU_PATH atttribute up into its component callouts.
379#It looks like: "H:<some target>,L:<some other target>(<MRU>)"
380#Where H/L are the priorities and can be H/M/L.
381#The MRU that is in parentheses is optional and is a chip name on that
382#FRU target.
383sub getFRUPathCallouts
384{
385 my @callouts;
386 my $fruPath = shift;
387
388 my @entries = split(',', $fruPath);
389
390 for my $entry (@entries)
391 {
392 my %callout;
393 my ($priority, $path) = split(':', $entry);
394
395 # pull the MRU out of the parentheses at the end and then
396 # remove the parentheses.
397 if ($path =~ /\(.+\)$/)
398 {
399 ($callout{MRU}) = $path =~ /\((.+)\)/;
400
401 $path =~ s/\(.+\)$//;
402 }
403
404 # check if the target we read out is valid by
405 # checking for a required attribute
406 if ($targets->isBadAttribute($path, "CLASS"))
407 {
408 die "FRU Path $path not a valid target\n";
409 }
410
411 $callout{Priority} = $priority;
412 if (not exists $priorities{$priority})
413 {
414 die "Invalid priority: '$priority' on callout $path\n";
415 }
416
417 $callout{Name} = $path;
418
419 push @callouts, \%callout;
420 }
421
422 return @callouts;
423}
424
425# Returns an ancestor target based on its class
426sub getParentByClass
427{
428 my ($target, $class) = @_;
429 my $parent = $targets->getTargetParent($target);
430
431 while (defined $parent)
432 {
433 if (!$targets->isBadAttribute($parent, "CLASS"))
434 {
435 if ($class eq $targets->getAttribute($parent, "CLASS"))
436 {
437 return $parent;
438 }
439 }
440 $parent = $targets->getTargetParent($parent);
441 }
442
443 return "";
444}
445
Matt Spinler00ef7662020-06-02 10:58:24 -0500446# Build the callout objects
447sub buildCallouts
448{
449 my ($segments, $callouts) = @_;
450
451 # Callouts for 1 segment connections directly off of the BMC.
452 buildBMCSingleSegmentCallouts($segments, $callouts);
Matt Spinlerbbaf7382020-06-02 11:16:28 -0500453
454 # Callouts more than 1 segment away
455 buildMultiSegmentCallouts($segments, $callouts);
Matt Spinler00ef7662020-06-02 10:58:24 -0500456}
457
458# Build the callout objects for devices 1 segment away.
459sub buildBMCSingleSegmentCallouts
460{
461 my ($segments, $callouts) = @_;
462
463 for my $busType (keys %$segments)
464 {
465 for my $segment (@{$$segments{$busType}})
466 {
467 my $chipType = $targets->getType($segment->{SourceChip});
468 if ($chipType eq "BMC")
469 {
470 my $callout = buildSingleSegmentCallout($segment);
471
472 if (defined $callout)
473 {
474 push @{$callouts}, $callout;
475 }
476 }
477 }
478 }
479}
480
481# Build the callout object based on the callout type using the
482# callout list from the single segment.
483sub buildSingleSegmentCallout
484{
485 my ($segment, $callouts) = @_;
486
487 if ($segment->{BusType} eq "I2C")
488 {
489 return createI2CCallout($segment, $callouts);
490 }
491 elsif ($segment->{BusType} eq "FSIM")
492 {
493 return createFSICallout($segment, $callouts);
494 }
495 elsif ($segment->{BusType} eq "SPI")
496 {
497 return createSPICallout($segment, $callouts);
498 }
499
500 return undef;
501}
502
Matt Spinlerbbaf7382020-06-02 11:16:28 -0500503# Build the callout objects for devices more than 1 segment away from
504# the BMC. All but the last segment will always be FSI. The FRU
505# callouts accumulate as segments are added.
506sub buildMultiSegmentCallouts
507{
508 my ($segments, $callouts) = @_;
509 my $hops = 0;
510 my $found = 1;
511
512 # Connect FSI link callouts to other FSI segments to make new callouts, and
513 # connect all FSI link callouts up with the I2C/SPI segments to make even
514 # more new callouts. Note: Deal with I2C muxes, if they are ever modeled,
515 # when there are some.
516
517 # Each time through the loop, go out another FSI hop.
518 # Stop when no more new hops are found.
519 while ($found)
520 {
521 my @newCallouts;
522 $found = 0;
523
524 for my $callout (@$callouts)
525 {
526 if ($callout->type() ne "FSI")
527 {
528 next;
529 }
530
531 # link numbers are separated by '-'s in the link field,
532 # so 0-5 = 1 hop
533 my @numHops = $callout->fsiLink() =~ /(-)/g;
534
535 # only deal with callout objects that contain $hops hops.
536 if ($hops != scalar @numHops)
537 {
538 next;
539 }
540
541 for my $segmentType (keys %$segments)
542 {
543 for my $segment (@{$$segments{$segmentType}})
544 {
545 # If the destination on this callout is the same
546 # as the source of the segment, then make a new
547 # callout that spans both.
548 if ($callout->destChip() eq $segment->{SourceChip})
549 {
550 # First build the new single segment callout
551 my $segmentCallout =
552 buildSingleSegmentCallout($segment);
553
554 # Now merge both callouts into one.
555 if (defined $segmentCallout)
556 {
557 my $newCallout =
558 mergeCallouts($callout, $segmentCallout);
559
560 push @newCallouts, $newCallout;
561 $found = 1;
562 }
563 }
564 }
565 }
566 }
567
568 if ($found)
569 {
570 push @{$callouts}, @newCallouts;
571 }
572
573 $hops = $hops + 1;
574 }
575}
576
577# Merge 2 callout objects into 1 that contains all of their FRU callouts.
578sub mergeCallouts
579{
580 my ($firstCallout, $secondCallout) = @_;
581
582 # This callout list will be merged/sorted later.
583 # Endpoint callouts are added first, so they will be higher
584 # in the callout list (priority permitting).
585 my @calloutList;
586 push @calloutList, @{$secondCallout->calloutList()};
587 push @calloutList, @{$firstCallout->calloutList()};
588
589 # FSI
590 if (($firstCallout->type() eq "FSI") && ($secondCallout->type() eq "FSI"))
591 {
592 # combine the FSI links with a -
593 my $FSILink = $firstCallout->fsiLink() . "-" .
594 $secondCallout->fsiLink();
595
596 my $fsiCallout = new FSICallout($firstCallout->sourceChip(),
597 $secondCallout->destChip(), \@calloutList, $FSILink);
598
599 return $fsiCallout;
600 }
601 # FSI-I2C
602 elsif (($firstCallout->type() eq "FSI") &&
603 ($secondCallout->type() eq "I2C"))
604 {
605 my $i2cCallout = new FSII2CCallout($firstCallout->sourceChip(),
606 $secondCallout->destChip(), \@calloutList,
607 $firstCallout->fsiLink(), $secondCallout->i2cBus(),
608 $secondCallout->i2cAddress());
609
610 return $i2cCallout;
611 }
612 # FSI-SPI
613 elsif (($firstCallout->type() eq "FSI") &&
614 ($secondCallout->type() eq "SPI"))
615 {
616 my $spiCallout = new FSISPICallout($firstCallout->sourceChip(),
617 $secondCallout->destChip(), \@calloutList,
618 $firstCallout->fsiLink(), $secondCallout->spiBus());
619
620 return $spiCallout;
621 }
622
623 die "Unrecognized callouts to merge: " . $firstCallout->type() .
624 " " . $secondCallout->type() . "\n";
625}
626
Matt Spinler00ef7662020-06-02 10:58:24 -0500627# Create an I2CCallout object
628sub createI2CCallout
629{
630 my $segment = shift;
631 my $bus = $segment->{I2CBus};
632
633 # Convert MRW BMC I2C numbering to the linux one for the BMC
634 if ($targets->getAttribute($segment->{SourceChip}, "TYPE") eq "BMC")
635 {
636 $bus = Util::adjustI2CPort($segment->{I2CBus});
637
638 if ($bus < 0)
639 {
640 die "After adjusting BMC I2C bus $segment->{I2CBus}, " .
641 "got a negative number\n";
642 }
643 }
644
645 my $i2cCallout = new I2CCallout($segment->{SourceChip},
646 $segment->{DestChip}, $segment->{Callouts}, $bus,
647 $segment->{I2CAddress});
648
649 return $i2cCallout;
650}
651
652# Create an FSICallout object
653sub createFSICallout
654{
655 my $segment = shift;
656
657 my $fsiCallout = new FSICallout($segment->{SourceChip},
658 $segment->{DestChip}, $segment->{Callouts},
659 $segment->{FSILink}, $segment);
660
661 return $fsiCallout;
662}
663
664# Create a SPICallout object
665sub createSPICallout
666{
667 my $segment = shift;
668
669 my $spiCallout = new SPICallout($segment->{SourceChip},
670 $segment->{DestChip}, $segment->{Callouts},
671 $segment->{SPIBus});
672
673 return $spiCallout;
674}
675
Matt Spinler44aecce2020-06-02 12:40:49 -0500676# Convert all of the *Callout objects to JSON and write them to a file.
677# It will convert the callout target names to location codes and also sort
678# the callout list before doing so.
679sub printJSON
680{
681 my $callouts = shift;
682 my %output;
683
684 for my $callout (@$callouts)
685 {
686 my %c;
687 $c{Source} = $callout->sourceChip();
688 $c{Dest} = $callout->destChip();
689
690 for my $fruCallout (@{$callout->calloutList()})
691 {
692 my %entry;
693
694 if (length($fruCallout->{Name}) == 0)
695 {
696 die "Could not get target name for a callout on path:\n" .
697 " (" . $callout->sourceChip() . ") ->\n" .
698 " (" . $callout->destChip() . ")\n";
699 }
700
701 $entry{Name} = $fruCallout->{Name};
702
703 $entry{LocationCode} =
704 Util::getLocationCode($targets, $fruCallout->{Name});
705
706 # MRUs - for now just use the path + MRU name
707 if (exists $fruCallout->{MRU})
708 {
709 $entry{MRU} = $entry{Name} . "/" . $fruCallout->{MRU};
710 }
711
712 $entry{Priority} = validatePriority($fruCallout->{Priority});
713
714 push @{$c{Callouts}}, \%entry;
715 }
716
717
718 # Remove duplicate callouts and sort
719 @{$c{Callouts}} = sortCallouts(@{$c{Callouts}});
720
721 # Setup the entry based on the callout type
722 if ($callout->type() eq "I2C")
723 {
724 # The address key is in decimal, but save the hex value
725 # for easier debug.
726 $c{HexAddress} = $callout->i2cAddress();
727 my $decimal = hex($callout->i2cAddress());
728
729 $output{"I2C"}{$callout->i2cBus()}{$decimal} = \%c;
730 }
731 elsif ($callout->type() eq "SPI")
732 {
733 $output{"SPI"}{$callout->spiBus()} = \%c;
734 }
735 elsif ($callout->type() eq "FSI")
736 {
737 $output{"FSI"}{$callout->fsiLink()} = \%c;
738 }
739 elsif ($callout->type() eq "FSI-I2C")
740 {
741 $c{HexAddress} = $callout->i2cAddress();
742 my $decimal = hex($callout->i2cAddress());
743
744 $output{"FSI-I2C"}{$callout->fsiLink()}
745 {$callout->i2cBus()}{$decimal} = \%c;
746 }
747 elsif ($callout->type() eq "FSI-SPI")
748 {
749 $output{"FSI-SPI"}{$callout->fsiLink()}{$callout->spiBus()} = \%c;
750 }
751 }
752
753 open(my $fh, '>', $outFile) or die "Could not open file '$outFile' $!";
754 my $json = JSON->new->utf8;
755 $json->indent(1);
756 $json->canonical(1);
757 my $text = $json->encode(\%output);
758 print $fh $text;
759 close $fh;
760}
761
762# This will remove duplicate callouts from the input callout list, keeping
763# the highest priority value and MRU, and then also sort by priority.
764#
765# There could be duplicates when multiple single segment callouts are
766# combined into 1.
767sub sortCallouts
768{
769 my @callouts = @_;
770
771 # This will undef the duplicates, and then remove them at the end,
772 for (my $i = 0; $i < (scalar @callouts) - 1; $i++)
773 {
774 next if not defined $callouts[$i];
775
776 for (my $j = $i + 1; $j < (scalar @callouts); $j++)
777 {
778 next if not defined $callouts[$j];
779
780 if ($callouts[$i]->{LocationCode} eq $callouts[$j]->{LocationCode})
781 {
782 # Keep the highest priority value
783 $callouts[$i]->{Priority} = getHighestPriority(
784 $callouts[$i]->{Priority}, $callouts[$j]->{Priority});
785
786 # Keep the MRU if present
787 if (defined $callouts[$j]->{MRU})
788 {
789 $callouts[$i]->{MRU} = $callouts[$j]->{MRU};
790 }
791
792 $callouts[$j] = undef;
793 }
794 }
795 }
796
797 # removed the undefined ones
798 @callouts = grep {defined ($_)} @callouts;
799
800 # sort from highest to lowest priorities
801 @callouts = sort {
802 $priorities{$b->{Priority}} <=> $priorities{$a->{Priority}}
803 } @callouts;
804
805 return @callouts;
806}
807
808# Returns the highest priority value of the two passed in
809sub getHighestPriority
810{
811 my ($p1, $p2) = @_;
812
813 if ($priorities{$p1} > $priorities{$p2})
814 {
815 return $p1;
816 }
817 return $p2;
818}
819
820# Dies if the input priority isn't valid
821sub validatePriority
822{
823 my $priority = shift;
824
825 if (not exists $priorities{$priority})
826 {
827 die "Invalid callout priority found: $priority\n";
828 }
829
830 return $priority;
831}
Matt Spinler00ef7662020-06-02 10:58:24 -0500832
Matt Spinler1cb9ecc2020-06-02 10:48:31 -0500833sub printUsage
834{
835 print "$0 -m <MRW file> -o <Output filename> [--segments] [-n]\n" .
836 " -m <MRW file> = The MRW XML\n" .
837 " -o <Output filename> = The output JSON\n" .
838 " [--segments] = Optionally create a segments.json file\n" .
839 exit(1);
840}