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|
#!/usr/bin/perl
# IBM_PROLOG_BEGIN_TAG
# This is an automatically generated prolog.
#
# $Source: src/build/buildpnor/buildpnor.pl $
#
# IBM CONFIDENTIAL
#
# COPYRIGHT International Business Machines Corp. 2012
#
# p1
#
# Object Code Only (OCO) source materials
# Licensed Internal Code Source Materials
# IBM HostBoot Licensed Internal Code
#
# The source code for this program is not published or other-
# wise divested of its trade secrets, irrespective of what has
# been deposited with the U.S. Copyright Office.
#
# Origin: 30
#
# IBM_PROLOG_END_TAG
#Builds a PNOR image based on pnorLayout XML file.
#See usage function at bottom of file for details on how to use this script
#Limitations to address later
# number fields must be 4 or 8 bytes
# numbers cannot be over 32 bits
use strict;
use XML::Simple;
use Data::Dumper;
use File::Basename;
################################################################################
# Set PREFERRED_PARSER to XML::Parser. Otherwise it uses XML::SAX which contains
# bugs that result in XML parse errors that can be fixed by adjusting white-
# space (i.e. parse errors that do not make sense).
################################################################################
$XML::Simple::PREFERRED_PARSER = 'XML::Parser';
my $TRAC_ERR = 0;
# 0=errors, >0 for more traces, leaving at 1 to keep key milestone traces.
my $g_trace = 1;
my $programName = File::Basename::basename $0;
my %tocLayout;
my %pnorLayout;
my %binFiles;
my $pnorLayoutFile;
my $pnorBinName = "";
my $tocVersion = 0x1;
my $genTocFlag = 0;
my $g_TOCEyeCatch = "part";
my $emitTestSections = 0;
if ($#ARGV < 0) {
usage();
exit;
}
#Parse the commandline args
for (my $i=0; $i < $#ARGV + 1; $i++)
{
if ($ARGV[$i] =~ /-h/) {
usage();
exit 0;
}
elsif($ARGV[$i] =~ /--tocVersion/) {
$tocVersion = getNumber($ARGV[++$i]);
trace(2, "TOC Version to use=".sprintf("0x%x", $tocVersion));
}
elsif($ARGV[$i] =~ /--pnorLayout/) {
$pnorLayoutFile = $ARGV[++$i];
trace(2, "PNOR Layout XML File=$pnorLayoutFile");
}
elsif($ARGV[$i] =~ /--pnorOutBin/) {
$pnorBinName = $ARGV[++$i];
trace(2, "PNOR Binary File=$pnorBinName");
}
elsif($ARGV[$i] =~ /--genToc/) {
$genTocFlag = 1;
trace(2, "genTocFlag Set");
}
elsif($ARGV[$i] =~ /--binFile/) {
my $argName = $ARGV[$i];
my $argVal = $ARGV[++$i];
saveInputFile("--binFile", $argName, $argVal, \%binFiles);
}
elsif($ARGV[$i] =~ /--test/) {
$emitTestSections = 1;
}
else {
traceErr("Unrecognized Input: $ARGV[$i]");
exit 1;
#Error!!
}
}
#Load PNOR Layout XML file
my $rc = loadPnorLayout($pnorLayoutFile, \%pnorLayout);
if($rc != 0)
{
trace(0, "Error detected from call to loadPnorLayout(). Exiting");
exit 1;
}
#trace(1, Dumper(%pnorLayout->{1576960}));
#trace(1, Dumper(%binFiles));
#Verify all the section files exist
my $rc = verifyFilesExist($genTocFlag, \%pnorLayout, \%binFiles);
if($rc != 0)
{
trace(0, "Error detected from call to verifyFilesExist(). Exiting");
exit 1;
}
#Perform any data integrity manipulation (ECC, shaw-hash, etc)
$rc = robustifyImgs(\%pnorLayout, \%binFiles);
if($rc != 0)
{
trace(0, "Error detected from call to robustifyImgs(). Exiting");
exit 1;
}
#collect Actual image sizes
$rc = collectActSizes(\%pnorLayout, \%binFiles);
if($rc != 0)
{
trace(0, "Error detected from call to collectActSizes(). Exiting");
exit 1;
}
#Generate TOC if requested.
if ($genTocFlag != 0)
{
$rc = fillTocActSize($tocVersion, \%pnorLayout);
if($rc != 0)
{
trace(0, "Error detected from call to fillTocActSize(). Exiting");
exit 1;
}
if(exists($binFiles{$g_TOCEyeCatch}))
{
$rc = genToc($tocVersion, $binFiles{$g_TOCEyeCatch}, \%pnorLayout);
if($rc != 0)
{
trace(0, "Error detected from call to genToc(). Exiting");
exit 1;
}
}
else
{
trace(0, "No TOC Binary file name provided. Aborting!");
exit 1;
}
}
$rc = checkSpaceConstraints(\%pnorLayout, \%binFiles);
if($rc != 0)
{
trace(0, "Error detected from call to checkSpaceConstraints(). Exiting");
exit 1;
}
$rc = assemblePnorImage($pnorBinName, \%pnorLayout, \%binFiles);
if($rc != 0)
{
trace(0, "Error detected from call to assemblePnorImage(). Exiting");
exit 1;
}
exit 0;
################################################################################
# loadPnorLayout
################################################################################
sub loadPnorLayout
{
my ($i_pnorFile, $i_pnorLayoutRef) = @_;
my $this_func = (caller(0))[3];
unless(-e $i_pnorFile)
{
traceErr("$this_func: File not found: $i_pnorFile");
return -1;
}
#parse the input XML file
my $xs = new XML::Simple(keyattr=>[], forcearray => 1);
my $xml = $xs->XMLin($i_pnorFile);
#trace(1, "pnorLayoutXML \n ".Dumper($xml));
#Save the meatadata - imageSize, blockSize, etc.
foreach my $metadataEl (@{$xml->{metadata}})
{
my $imageSize = $metadataEl->{imageSize}[0];
my $blockSize = $metadataEl->{blockSize}[0];
my $partTableSize = $metadataEl->{partTableSize}[0];
trace(3, "$this_func: metadata: imageSize = $imageSize, blockSize=$blockSize, partTableSize=$partTableSize");
$imageSize = getNumber($imageSize);
$blockSize = getNumber($blockSize);
$partTableSize = getNumber($partTableSize);
$$i_pnorLayoutRef{metadata}{imageSize} = $imageSize;
$$i_pnorLayoutRef{metadata}{blockSize} = $blockSize;
$$i_pnorLayoutRef{metadata}{partTableSize} = $partTableSize;
}
#Iterate over the <section> elements.
foreach my $sectionEl (@{$xml->{section}})
{
#trace(1, "current Element: \n ".Dumper($sectionEl));
my $description = $sectionEl->{description}[0];
my $eyeCatch = $sectionEl->{eyeCatch}[0];
my $physicalOffset = $sectionEl->{physicalOffset}[0];
my $physicalRegionSize = $sectionEl->{physicalRegionSize}[0];
my $ecc = $sectionEl->{ecc}[0];
my $source = $sectionEl->{source}[0];
my $sideless = $sectionEl->{sideless}[0];
if (($emitTestSections == 0) && ($sectionEl->{testonly}[0] eq "yes"))
{
next;
}
my $actualRegionSize = 0;
if(exists($sectionEl->{actualRegionSize}[0]))
{
$actualRegionSize = $sectionEl->{actualRegionSize}[0];
$actualRegionSize = getNumber($actualRegionSize);
}
trace(3, "$this_func: description = $description, eyeCatch=$eyeCatch, physicalOffset = $physicalOffset, physicalRegionSize=$physicalRegionSize, ecc=$ecc, source=$source, actualRegionSize=$actualRegionSize");
$physicalOffset = getNumber($physicalOffset);
$physicalRegionSize = getNumber($physicalRegionSize);
# trace(4, "$this_func: physicalOffset=$physicalOffset, physicalRegionSize=$physicalRegionSize");
$$i_pnorLayoutRef{sections}{$physicalOffset}{description} = $description;
$$i_pnorLayoutRef{sections}{$physicalOffset}{eyeCatch} = $eyeCatch;
$$i_pnorLayoutRef{sections}{$physicalOffset}{physicalOffset} = $physicalOffset;
$$i_pnorLayoutRef{sections}{$physicalOffset}{physicalRegionSize} = $physicalRegionSize;
$$i_pnorLayoutRef{sections}{$physicalOffset}{actualRegionSize} = $actualRegionSize;
$$i_pnorLayoutRef{sections}{$physicalOffset}{ecc} = $ecc;
$$i_pnorLayoutRef{sections}{$physicalOffset}{source} = $source;
$$i_pnorLayoutRef{sections}{$physicalOffset}{sideless} = $sideless;
}
return 0;
}
################################################################################
# genToc - generate Table of Contents image based on input data.
################################################################################
sub genToc
{
my ($i_tocVersion, $i_tocBinName, $i_pnorLayoutRef) = @_;
my $this_func = (caller(0))[3];
my $key;
my $partIdCount = 1;
my $FILEHANDLE;
trace(4, "$this_func: >>Enter");
#open output file
open( $FILEHANDLE, ">:raw", $i_tocBinName) or die "Can't open $i_tocBinName file for writing";
#Insert FFS Header data
#HEADER WORD 1: Magic Number - "PART" in ASCII
my @charArray = split //, 'PART';
my $curChar;
foreach $curChar (@charArray)
{
print $FILEHANDLE pack('C', ord($curChar));
}
#HEADER WORD 2: FFS version to Binary
print $FILEHANDLE pack('N', $i_tocVersion);
#HEADER WORD 3: Size of Partition table in blocks - 4 bytes of space
if(exists($$i_pnorLayoutRef{metadata}{partTableSize}))
{
my $val = $$i_pnorLayoutRef{metadata}{partTableSize};
#verify number consumes less than 32 bits
if($val > 0xFFFFFFFF)
{
trace(0, "$this_func: value=".$val.". This is greater than 32 bits in hex and not currently supported!. \n Aborting program");
exit 1;
}
print $FILEHANDLE pack('N', $val);
}
else
{
insertPadBytes($FILEHANDLE, 4);
}
#HEADER WORD 4: Size of Partition entry in bytes
print $FILEHANDLE pack('N', getFFSEntrySize($i_tocVersion, $i_pnorLayoutRef));
#HEADER WORD 5: Number of Partition Entries
my %sectionHash = %{$$i_pnorLayoutRef{sections}};
my $partitionCount = scalar keys %sectionHash;
print $FILEHANDLE pack('N', $partitionCount);
#HEADER WORD 6: block size
my $blockSize = $$i_pnorLayoutRef{metadata}{blockSize};
print $FILEHANDLE pack('N', $blockSize);
#HEADER WORD 7: block count (size of flash in blocks)
my $imageSize = $$i_pnorLayoutRef{metadata}{imageSize};
my $blockCount = $imageSize/$blockSize;
if ($blockCount != int($blockCount))
{
trace(0, "$this_func: Image size ($imageSize) is not an even multiple of erase blocks ($blockSize). This is not supported. Aborting!");
exit 1;
}
print $FILEHANDLE pack('N', $blockCount);
#HEADER WORD 8-11: Reserved
#insert 16 pad bytes for 4 reserved words
insertPadBytes($FILEHANDLE, 16);
#HEADER WORD 12: checksum
#insert 4 pad bytes for now.
insertPadBytes($FILEHANDLE, 4);
#key into hash data is the physical offset of section. Need to sort the keys
#so we put things in the correct order in toc.
#Generally speaking, this loop is populating the FFS Header with records based on the
#section data specified in the XML + actual sizes of the input binary files.
for $key ( sort {$a<=> $b} keys %sectionHash)
{
# FFS Entry Word 1-4: eyecatcher
if(exists($sectionHash{$key}{eyeCatch}))
{
my $char;
my @charArray = unpack("C*", $sectionHash{$key}{eyeCatch});
foreach $char (@charArray)
{
print $FILEHANDLE pack('C', $char);
}
#pad out to get 16 bytes
my $zeroPad = 16-length($sectionHash{$key}{eyeCatch});
insertPadBytes($FILEHANDLE, $zeroPad);
}
else
{
insertPadBytes($FILEHANDLE, 16);
}
#FFS Entry Word 5: base/physical offset in blocks
if(exists($sectionHash{$key}{physicalOffset}))
{
my $val = $sectionHash{$key}{physicalOffset};
$val = $val/$blockSize;
if ($val != int($val))
{
trace(0, "$this_func: Partition offset ($val) is does not fall on an erase block ($blockSize) boundary. This is not supported. Aborting!");
exit 1;
}
print $FILEHANDLE pack('N', $val);
}
else
{
insertPadBytes($FILEHANDLE, 4);
}
#FFS Entry Word 6: physical size in blocks
if(exists($sectionHash{$key}{physicalRegionSize}))
{
my $val = $sectionHash{$key}{physicalRegionSize};
$val = $val/$blockSize;
if($val != int($val))
{
trace(0, "$this_func: Partition size ($val) is not an even multiple of erase blocks ($blockSize). This is not supported. Aborting!");
exit 1;
}
print $FILEHANDLE pack('N', $val);
}
else
{
insertPadBytes($FILEHANDLE, 4);
}
#FFS Entry Word 7: PID (Parent ID) - always 0xFFFFFFFF for hostboot.
print $FILEHANDLE pack('N', 0xFFFFFFFF);
#FFS Entry Word 8: ID (Partition ID) - Incremented number for each partition.
print $FILEHANDLE pack('N', $partIdCount++);
#FFS Entry Word 9: type - usually 1, except TOC is 3
if( $sectionHash{$key}{eyeCatch} =~ $g_TOCEyeCatch )
{
print $FILEHANDLE pack('N', 3);
}
else
{
print $FILEHANDLE pack('N', 1);
}
#FFS Entry Word 10: flags - always zero
insertPadBytes($FILEHANDLE, 4);
#FFS Entry Word 11-15: 5 Reserved words
insertPadBytes($FILEHANDLE, 20);
#FFS Entry Words 16-31: 16 User Words
#FFS User Word 1 - Actual size actual size
if(exists($sectionHash{$key}{actualRegionSize}))
{
my $val = $sectionHash{$key}{actualRegionSize};
#verify number consumes less than 32 bits
if($val > 0xFFFFFFFF)
{
trace(0, "value=".$val.". This is greater than 32 bits in hex and not currently supported!. \n Aborting program");
exit 1;
}
print $FILEHANDLE pack('N', $val);
}
else
{
insertPadBytes($FILEHANDLE, 4);
}
#FFS User Word 2-3: Miscellaneous information.
#User Word 2, bit 18 indicates sideless.
my $miscInfo = 0x00000000;
if($sectionHash{$key}{sideless} =~ "yes")
{
$miscInfo = $miscInfo | 0x00004000;
}
print $FILEHANDLE pack('N', $miscInfo);
#User Word 3 Not currently implemented.
insertPadBytes($FILEHANDLE, 4);
#FFS User Word 4-16: Free space User Data
insertPadBytes($FILEHANDLE, 52);
#FFS Entry Word 31: Checksum - not currently implemented
insertPadBytes($FILEHANDLE, 4);
}
return 0;
}
################################################################################
# fillTocActSize - Fill in the toc actual size record based on number of PNOR records
################################################################################
sub fillTocActSize
{
#Note: tocVersion is passed in because the toc Layout version could influence the
#rules regarding how the size is calculated.
my($i_tocVersion, $i_pnorLayoutRef) = @_;
my $this_func = (caller(0))[3];
my $rc = 0;
my $ffsHeaderSize = 9*4;
my $ffsEntrySize = getFFSEntrySize($i_tocVersion, $i_pnorLayoutRef);
my %sectionHash = %{$$i_pnorLayoutRef{sections}};
my $recordCount = scalar keys %sectionHash;
my $size = ($recordCount*$ffsEntrySize)+$ffsHeaderSize;
my $tocLayoutKey = findLayoutKeyByEyeCatch($g_TOCEyeCatch, \%$i_pnorLayoutRef);
if( $tocLayoutKey == -1)
{
trace(0, "$this_func: Unable to find EyeCatcher=$g_TOCEyeCatch in PNOR layout for TOC entry. ");
$rc = 1;
last;
}
if($$i_pnorLayoutRef{sections}{$tocLayoutKey}{ecc} =~ "yes")
{
$size=$size*(9/8);
}
trace(2, "$this_func: PNOR FFS contains $recordCount records, total Size=$size");
$$i_pnorLayoutRef{sections}{$tocLayoutKey}{actualRegionSize}=$size;
return $rc;
}
################################################################################
# robustifyImgs - Perform any ECC or ShawHash manipulations
################################################################################
sub robustifyImgs
{
my ($i_pnorLayoutRef, $i_binFiles) = @_;
my $this_func = (caller(0))[3];
#@TODO: ECC Correction
#@TODO: maybe a little SHA hashing?
return 0;
}
################################################################################
# collectActSizes - walk through all the images and set their actual sizes in the layout
################################################################################
sub collectActSizes
{
my ($i_pnorLayoutRef, $i_binFiles) = @_;
my $this_func = (caller(0))[3];
my $key;
my $rc = 0;
for $key ( keys %{$i_binFiles})
{
my $filesize = -s $$i_binFiles{$key};
my $layoutKey = findLayoutKeyByEyeCatch($key, \%$i_pnorLayoutRef);
if( $layoutKey == -1)
{
trace(0, "$this_func: entry not found in PNOR layout for file $$i_binFiles{$key}, under eyecatcher $key");
$rc = 1;
last;
}
$$i_pnorLayoutRef{sections}{$layoutKey}{actualRegionSize} = $filesize;
trace(2, "$this_func: $$i_binFiles{$key} size = $$i_pnorLayoutRef{sections}{$layoutKey}{actualRegionSize}");
}
return $rc;
}
################################################################################
# findLayoutKeyByEyeCatch - Figure out hash key based on eyeCatcher
################################################################################
sub findLayoutKeyByEyeCatch
{
my $layoutKey = -1;
my($eyeCatch, $i_pnorLayoutRef) = @_;
my $key;
my %sectionHash = %{$$i_pnorLayoutRef{sections}};
for $key ( keys %sectionHash)
{
if($sectionHash{$key}{eyeCatch} =~ $eyeCatch)
{
$layoutKey = $key;
last;
}
}
return $layoutKey;
}
################################################################################
# verifyFilesExist - Verify all the input files exist, and there are files
# provided for each PNOR section
################################################################################
sub verifyFilesExist
{
my ($i_genToc, $i_pnorLayoutRef, $i_binFiles) = @_;
my $this_func = (caller(0))[3];
my $key;
my $rc = 0;
for $key ( keys %$i_binFiles)
{
#Don't check if toc file exists if we're going to generate it
if(($key =~ $g_TOCEyeCatch) && ($i_genToc != 0))
{
next;
}
unless(-e $$i_binFiles{$key})
{
my $inputFile = $$i_binFiles{$key};
trace(0, "Specified input file ($inputFile) for key ($key) does not exist. Aborting!");
$rc = 1;
last;
}
else
{
trace(10, "$this_func: $$i_binFiles{$key} exists");
}
}
if($rc != 0)
{
return $rc;
}
my %sectionHash = %{$$i_pnorLayoutRef{sections}};
#Verify there is an input file for each section of PNOR
for $key ( keys %sectionHash)
{
my $eyeCatch = $sectionHash{$key}{eyeCatch};
#Don't check if toc file exists if we're going to generate it
if(($eyeCatch =~ $g_TOCEyeCatch) && ($i_genToc != 0))
{
next;
}
#Ignore sections that are marked as blank
elsif($sectionHash{$key}{source} =~ "Blank")
{
next;
}
#check if binFiles list has a file for eyeCatcher
unless(exists($$i_binFiles{$eyeCatch}))
{
my $inputFile = $$i_binFiles{$eyeCatch};
trace(0, "Input file not provided for PNOR section with eyeCatcher=$eyeCatch. Aborting!");
$rc = 1;
last;
}
else
{
trace(10, "$this_func: Input file ($$i_binFiles{$eyeCatch}) provided for section $eyeCatch");
}
}
return $rc;
}
################################################################################
# checkSpaceConstraints - Make sure provided files will fit in their sections
################################################################################
sub checkSpaceConstraints
{
my ($i_pnorLayoutRef, $i_binFiles) = @_;
my $rc = 0;
my $this_func = (caller(0))[3];
my $key;
my %sectionHash = %{$$i_pnorLayoutRef{sections}};
#Verify there is an input file for each section of PNOR
for $key ( keys %sectionHash)
{
my $eyeCatch = $sectionHash{$key}{eyeCatch};
my $physicalRegionSize = $sectionHash{$key}{physicalRegionSize};
my $actualRegionSize = $sectionHash{$key}{actualRegionSize};
if($actualRegionSize > $physicalRegionSize)
{
trace(0, "$this_func: Image provided ($$i_binFiles{$eyeCatch}) has size ($actualRegionSize) which is greater than allocated space ($physicalRegionSize) for section=$eyeCatch. Aborting!");
$rc = 1;
}
}
return $rc;
}
################################################################################
# assemblePnorImage - Assemble actual PNOR image using the provided input data
################################################################################
sub assemblePnorImage
{
my ($i_pnorBinName, $i_pnorLayoutRef, $i_binFiles) = @_;
my $this_func = (caller(0))[3];
my $rc = 0;
my $key;
#key is the physical offset into the file, however don't need to sort
#as long as I tell dd not to truncate the file.
my %sectionHash = %{$$i_pnorLayoutRef{sections}};
for $key ( keys %sectionHash)
{
trace(3, "$this_func: key=$key");
my $eyeCatch = $sectionHash{$key}{eyeCatch};
my $physicalOffset = $sectionHash{$key}{physicalOffset};
my $if = $$i_binFiles{$eyeCatch};
#Ignore sections that are marked as blank
if($sectionHash{$key}{source} =~ "Blank")
{
next;
}
#telling dd to read write 512 characters (1b) at a time, so need to seek
#<bytes>/512 blocks. This will work because PNOR offests will always be
# on a page boundary
my $blockSeek = $physicalOffset/512;
trace(1, "$this_func: populating section $eyeCatch, filename=$if");
# my $ddCmd = `dd if=$if ibs=8c of=$i_pnorBinName obs=8c seek=$physicalOffset`;
my $ddCmd = `dd if=$if ibs=1b of=$i_pnorBinName obs=1b seek=$blockSeek conv=notrunc`;
}
return $rc;
}
################################################################################
# saveInputFile - save inputfile name into binFiles array
################################################################################
sub saveInputFile
{
my ($i_argPrefix, $i_argName, $i_argVal, $i_binFiles) = @_;
my $this_func = (caller(0))[3];
#$i_argName will be something like --binFile_HBB
#This substr command should return just the HBB, which should match an eyeCather
my $eyeCatcher = substr($i_argName, length($i_argPrefix)+1, length($i_argName)-length($i_argPrefix));
trace(10, "$this_func: $eyeCatcher=$i_argVal");
$$i_binFiles{$eyeCatcher} = $i_argVal;
trace(10, "$this_func: $$i_binFiles{$eyeCatcher}");
#no return code expected
}
#################################################
# getFFSEntrySize: Returns number of bytes in an ffs_entry based on specified version
#################################################
sub getFFSEntrySize
{
my($i_tocVersion, $i_pnorLayoutRef) = @_;
my $this_func = (caller(0))[3];
my $ffsEntrySize = 0;
if($i_tocVersion == 0x1)
{
#16 char name + 12 fixed words + 16 user data words
$ffsEntrySize = 16+(12*4)+(16*4);
}
else
{
trace(0, "$this_func: Layout Version Unsupported! i_tocVersion=$i_tocVersion");
exit 1;
}
return $ffsEntrySize;
}
#################################################
# Insert specifed number of pad bytes into file
#
#################################################
sub insertPadBytes
{
my ($i_FILEHANDLE, $i_padBytes) = @_;
my $i;
print $i_FILEHANDLE pack("C[$i_padBytes]", map { 0 } 1..$i_padBytes);
}
################################################################################
# getNumber - handle hex or decimal input string
################################################################################
sub getNumber
{
my $inVal = shift;
if($inVal =~ "0x")
{
return oct($inVal);
}
else
{
return $inVal;
}
}
################################################################################
# trace
################################################################################
sub traceErr
{
my $i_string = shift;
trace($TRAC_ERR, $i_string);
}
################################################################################
# trace
################################################################################
sub trace
{
my $i_traceLevel;
my $i_string;
($i_traceLevel, $i_string) = @_;
#traceLevel 0 is for errors
if($i_traceLevel == 0)
{
print "ERROR: ".$i_string."\n";
}
elsif ($g_trace >= $i_traceLevel)
{
print "TRACE: ".$i_string."\n";
}
}
################################################################################
# print usage instructions
################################################################################
sub usage
{
print <<"ENDUSAGE";
$programName = Creates the PNOR IMAGE and with TOC based on input data.
Usage:
$programName --pnorlayout <layout xml file> --genToc --tocVersion <TOC layout version
--pnorOutBin <complete PNOR image>
--binFile_HBB <hostboot base image> --binFile_HBI <hostboot extended image>
Parms:
-h Print this help text
--pnorlayout <file> PNOR Layout XML file
--pnorOutBin <file> Name of output file for PNOR Binary
--genToc Indicates you wish to generate a table of contents. It will
write the file indicated by --binFile_TOC.
--binFile_<Section> <file> This is a special paramater. It is used to specify
input files to use for populating the various sections of
PNOR.
Examples: --binFile_HBB hostboot.bin
--binFile_HBI hostboot_extended.bin
--binFile_TOC murano.toc
A section declared as Blank in the XML does not need to have a
binFile specified
--test Output test-only sections.
Current Limitations:
--TOC Records must be 4 or 8 bytes in length
--Regions and offsets cannot be over 32 bits (in hex), not an issue with current PNOR size
The script will print and error and exit with a non-zero return code if these
conditions are encountered.
ENDUSAGE
}
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