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update_image.pl
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update_image.pl
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#!/usr/bin/perl
use strict;
use File::Basename;
use XML::Simple;
#my $ecc_tool_dir = "/opt/mcp/shared/fr_FLD8-1-20140528/opt/fsp/usr/bin"; #wh_todo
my $release = "";
my $op_target_dir = "";
my $hb_image_dir = "";
my $scratch_dir = "";
my $hb_binary_dir = "";
my $hcode_dir = "";
my $sbe_binary_dir = "";
my $targeting_binary_filename = "";
my $targeting_binary_source = "";
my $targeting_RO_binary_filename = "";
my $targeting_RO_binary_source = "";
my $targeting_RW_binary_filename = "";
my $targeting_RW_binary_source = "";
my $sbe_binary_filename = "";
my $sbec_binary_filename = "";
my $wink_binary_filename = "";
my $occ_binary_filename = "";
my $capp_binary_filename = "";
my $ima_catalog_binary_filename = "";
my $openpower_version_filename = "";
my $payload = "";
my $xz_compression = 0;
my $wof_binary_filename = "";
my $memd_binary_filename = "";
my $payload_filename = "";
my $bootkernel_filename = "";
my $binary_dir = "";
my $secureboot = 0;
my $key_transition = "";
my $pnor_layout = "";
my $debug = 0;
my $sign_mode = "";
my $hdat_binary_filename = "";
my $ocmbfw_original_filename = "";
my $ocmbfw_binary_filename = "";
my $ocmbfw_version = "0.1"; #default value if none passed via command line
my $ocmbfw_url = "http://www.ibm.com"; #default value if none passed via command line
while (@ARGV > 0){
$_ = $ARGV[0];
chomp($_);
$_ = &trim_string($_);
if (/^-h$/i || /^-help$/i || /^--help$/i){
usage(); #print help content
exit 0;
}
elsif (/^-release/i){
$release = $ARGV[1] or die "Bad command line arg given: expecting a release (p8 or p9).\n";
shift;
}
elsif (/^-op_target_dir/i){
$op_target_dir = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-hb_image_dir/i){
$hb_image_dir = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-scratch_dir/i){
$scratch_dir = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-hb_binary_dir/i){
$hb_binary_dir = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-hcode_dir/i){
$hcode_dir = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-sbe_binary_dir/i){
$sbe_binary_dir = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-targeting_binary_filename/i){
$targeting_binary_filename = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-targeting_binary_source/i){
$targeting_binary_source = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-targeting_RO_binary_filename/i){
$targeting_RO_binary_filename = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-targeting_RO_binary_source/i){
$targeting_RO_binary_source = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-targeting_RW_binary_filename/i){
$targeting_RW_binary_filename = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-targeting_RW_binary_source/i){
$targeting_RW_binary_source = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-sbe_binary_filename/i){
$sbe_binary_filename = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-sbec_binary_filename/i){
$sbec_binary_filename = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-wink_binary_filename/i){
$wink_binary_filename = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-occ_binary_filename/i){
$occ_binary_filename = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-capp_binary_filename/i){
$capp_binary_filename = $ARGV[1] or die "Bad command line arg given: execting a config type.\n";
shift;
}
elsif (/^-ima_catalog_binary_filename/i){
$ima_catalog_binary_filename = $ARGV[1] or die "Bad command line arg given: execting a config type.\n";
shift;
}
elsif (/^-openpower_version_filename/i){
$openpower_version_filename = $ARGV[1] or die "Bad command line arg given: expecting a config type.\n";
shift;
}
elsif (/^-payload$/i){
$payload = $ARGV[1] or die "Bad command line arg given: expecting a filepath to payload binary file.\n";
shift;
}
elsif (/^-xz_compression/i){
$xz_compression = 1;
}
elsif (/^-payload_filename/i){
$payload_filename = $ARGV[1] or die "Bad command line arg given: expecting a filepath to payload binary file.\n";
shift;
}
elsif (/^-binary_dir/i){
$binary_dir = $ARGV[1] or die "Bad command line arg given: expecting binary dir.\n";
shift;
}
elsif (/^-bootkernel_filename/i){
$bootkernel_filename = $ARGV[1] or die "Bad command line arg given: expecting a filepath to boot kernel binary file.\n";
shift;
}
elsif (/^-key_transition/i){
$key_transition = $ARGV[1] or die "Bad command line arg given: expecting string imprint or production.\n";
shift;
}
elsif (/^-pnor_layout/i){
$pnor_layout = $ARGV[1] or die "Bad command line arg given: expecting a filepath to PNOR layout file.\n";
shift;
}
elsif (/^-sign_mode/i){
$sign_mode = $ARGV[1] or die "Bad command line arg given: expecting string development or production.\n";
shift;
}
elsif (/^-wof_binary_filename/i){
#This filename is necessary if the file exists, but if it's not given, we add a blank partition
$wof_binary_filename = $ARGV[1];
shift;
}
elsif (/^-memd_binary_filename/i){
#This filename is necessary if the file exists, but if it's not given, we add in a blank partition
$memd_binary_filename = $ARGV[1];
shift;
}
elsif(/^-hdat_binary_filename/i){
# This filename is necessary if the file exists, but if its not given, we add blank partition
$hdat_binary_filename = $ARGV[1];
shift;
}
elsif(/^-ocmbfw_original_filename/i){
# This filename is necessary if the file exists, but if its not given, we add in a blank partition
$ocmbfw_original_filename = $ARGV[1];
shift;
}
elsif(/^-ocmbfw_binary_filename/i){
# This is the name of the processed ocmbfw binary filename
$ocmbfw_binary_filename = $ARGV[1];
shift;
}
elsif(/^-ocmbfw_version/i){
# This is the version string for the ocmbfw
$ocmbfw_version = $ARGV[1];
shift;
}
elsif(/^-ocmbfw_url/i){
# This is the url string for the ocmbfw
$ocmbfw_url = $ARGV[1];
shift;
}
else {
print "Unrecognized command line arg: $_ \n";
#print "To view all the options and help text run \'$program_name -h\' \n";
exit 1;
}
shift;
}
#if hcode_dir is not defined, default to the hostboot-binaries location
if(!$hcode_dir)
{
$hcode_dir = $hb_binary_dir;
}
# Verify that pnor_layout file exists and parse it
if ( ! -e "$pnor_layout")
{
die "$pnor_layout does not exist\n";
}
my $xs = new XML::Simple(keyattr=>[], forcearray => 1);
my $parsed_pnor_layout = $xs->XMLin($pnor_layout);
# If OpenPOWER hostboot is compiled with secureboot, then -always- build with
# secure signatures (and hash page tables for applicable partitions), otherwise
# use "dummy" secure headers which lack signatures, and don't do any page table
# processing
if($release eq "p9")
{
my $hbConfigFile = "$hb_image_dir/config.h";
open (HB_CONFIG_FILE, "<", "$hbConfigFile")
or die "Error opening $hbConfigFile: $!\n";
while(<HB_CONFIG_FILE>)
{
if($_ =~ m/^#define +CONFIG_SECUREBOOT +1$/)
{
$secureboot = 1;
last;
}
}
close HB_CONFIG_FILE or die "Error closing $hbConfigFile: $!\n";
}
# Compress the skiboot lid image with lzma
if ($payload ne "")
{
if($xz_compression)
{
run_command("xz -fk --stdout --check=crc32 $payload > "
. "$payload.bin");
}
else
{
run_command("cp $payload $payload.bin");
}
}
# Finalize HBBL logical content
if ($release eq "p9") {
# Strip first 12k (reserved for exception vectors) off the bootloader binary
# Note: ibs=8 conv=sync to ensure bootloader binary ends at an 8-byte
# boundary to align the Secure Boot cryptographic algorithms code size
run_command("dd if=$hb_image_dir/img/hostboot_bootloader.bin of=$scratch_dir/hbbl.bin ibs=8 skip=1536 conv=sync");
# Append Secure Boot cryptographic algorithms code size to bootloader binary
run_command("du -b $hb_image_dir/img/hostboot_securerom.bin | cut -f1 | xargs printf \"%016x\" | sed 's/.\\{2\\}/\\\\\\\\x&/g' | xargs echo -n -e >> $scratch_dir/hbbl.bin");
# Append Secure Boot cryptographic algorithms code to bootloader binary
# Result:
# [HBBL]
# [padding to 8 byte alignment, 0-7 bytes (if needed)]
# [Secure Boot cryptographic algorithms code size, 8 bytes]
# [Secure Boot cryptographic algorithms code binary]
run_command("cat $hb_image_dir/img/hostboot_securerom.bin >> $scratch_dir/hbbl.bin");
}
# SBE image prep
if ($release eq "p9") {
my $hw_ref_image = $wink_binary_filename;
$hw_ref_image =~ s/.hdr.bin.ecc//;
run_command("python2 $sbe_binary_dir/sbeOpDistribute.py --install --buildSbePart $hb_image_dir/buildSbePart.pl --hw_ref_image $hcode_dir/$hw_ref_image.bin --sbe_binary_filename $sbe_binary_filename --scratch_dir $scratch_dir --sbe_binary_dir $sbe_binary_dir");
}
else {
run_command("cp $hb_binary_dir/$sbe_binary_filename $scratch_dir/");
}
sub processConvergedSections {
use constant EMPTY => "EMPTY";
my $stop_basename = $wink_binary_filename;
$stop_basename =~ s/.hdr.bin.ecc//;
my $sbePreEcc = "$scratch_dir/$sbe_binary_filename";
$sbePreEcc =~ s/.ecc//;
# Source and destination file for each supported section
my %sections=();
$sections{HBBL}{in} = "$scratch_dir/hbbl.bin";
$sections{HBBL}{out} = "$scratch_dir/hbbl.bin.ecc";
$sections{HBB}{in} = "$hb_image_dir/img/hostboot.bin";
$sections{HBB}{out} = "$scratch_dir/hostboot.header.bin.ecc";
$sections{HBI}{in} = "$hb_image_dir/img/hostboot_extended.bin";
$sections{HBI}{out} = "$scratch_dir/hostboot_extended.header.bin.ecc";
$sections{HBD}{in} = "$op_target_dir/$targeting_binary_source";
$sections{HBD}{out} = "$scratch_dir/$targeting_binary_filename";
$sections{SBE}{in} = "$sbePreEcc";
$sections{SBE}{out} = "$scratch_dir/$sbe_binary_filename";
$sections{PAYLOAD}{in} = "$payload.bin";
$sections{PAYLOAD}{out} = "$scratch_dir/$payload_filename";
$sections{HCODE}{in} = "$hcode_dir/${stop_basename}.bin";
$sections{HCODE}{out} = "$scratch_dir/${stop_basename}.hdr.bin.ecc";
$sections{HBRT}{in} = "$hb_image_dir/img/hostboot_runtime.bin";
$sections{HBRT}{out} = "$scratch_dir/hostboot_runtime.header.bin.ecc";
$sections{OCC}{in} = "$occ_binary_filename";
$sections{OCC}{out} = "$occ_binary_filename.ecc";
$sections{BOOTKERNEL}{in} = "$binary_dir/$bootkernel_filename";
$sections{BOOTKERNEL}{out} = "$scratch_dir/$bootkernel_filename";
$sections{CAPP}{in} = "$capp_binary_filename";
$sections{CAPP}{out} = "$scratch_dir/cappucode.bin.ecc";
$sections{VERSION}{in} = "$openpower_version_filename";
$sections{VERSION}{out} = "$scratch_dir/openpower_pnor_version.bin";
$sections{IMA_CATALOG}{in} = "$ima_catalog_binary_filename";
$sections{IMA_CATALOG}{out} = "$scratch_dir/ima_catalog.bin.ecc";
# No input file, but special processing to emit optional content
$sections{SBKT}{out} = "$scratch_dir/SBKT.bin";
# Blank partitions
$sections{HBEL}{out} = "$scratch_dir/hbel.bin.ecc";
$sections{GUARD}{out} = "$scratch_dir/guard.bin.ecc";
$sections{NVRAM}{out} = "$scratch_dir/nvram.bin";
$sections{ATTR_TMP}{out} = "$scratch_dir/attr_tmp.bin.ecc";
$sections{ATTR_PERM}{out} = "$scratch_dir/attr_perm.bin.ecc";
$sections{FIRDATA}{out} = "$scratch_dir/firdata.bin.ecc";
$sections{SECBOOT}{out} = "$scratch_dir/secboot.bin.ecc";
$sections{RINGOVD}{out} = "$scratch_dir/ringOvd.bin";
# Check if these optional sections exist in the PNOR layout file
if (checkForPnorPartition("CVPD", $parsed_pnor_layout))
{
$sections{CVPD}{in} = "$hb_binary_dir/cvpd.bin";
$sections{CVPD}{out} = "$scratch_dir/cvpd.bin.ecc";
}
if (checkForPnorPartition("DJVPD", $parsed_pnor_layout))
{
$sections{DJVPD}{out} = "$scratch_dir/djvpd_fill.bin.ecc";
}
if (checkForPnorPartition("MVPD", $parsed_pnor_layout))
{
$sections{MVPD}{out} = "$scratch_dir/mvpd_fill.bin.ecc";
}
if (checkForPnorPartition("EECACHE", $parsed_pnor_layout))
{
$sections{EECACHE}{out} = "$scratch_dir/eecache_fill.bin.ecc";
}
if(-e $wof_binary_filename)
{
$sections{WOFDATA}{in} = "$wof_binary_filename";
}
else
{
print "WARNING: WOFDATA partition is not found, including blank binary instead\n";
}
$sections{WOFDATA}{out} = "$scratch_dir/wofdata.bin.ecc";
if (checkForPnorPartition("MEMD", $parsed_pnor_layout))
{
if (-e $memd_binary_filename)
{
$sections{MEMD}{in} = "$memd_binary_filename";
}
else
{
print "WARNING: MEMD partition is not found, including blank binary instead\n";
}
$sections{MEMD}{out} = "$scratch_dir/memd_extra_data.bin.ecc";
}
# SMC COPY SAME ideas for hdat
if(-e $hdat_binary_filename)
{
$sections{HDAT}{in} = "$hdat_binary_filename";
}
else
{
print "WARNING: HDAT partition is not found, including blank binary instead\n";
}
$sections{HDAT}{out} = "$scratch_dir/hdat.bin.ecc";
# Populate OCMBFW partition if it exists in the layout
if(checkForPnorPartition("OCMBFW", $parsed_pnor_layout))
{
if(-e $ocmbfw_original_filename)
{
#Add header to delivered image
my $date = `date`;
run_command("$hb_image_dir/pkgOcmbFw.pl --unpackagedBin $ocmbfw_original_filename --packagedBin $ocmbfw_original_filename.header --timestamp \"$date\" --vendorVersion \"$ocmbfw_version\" --vendorUrl \"$ocmbfw_url\"");
#Verify ocmbfw header
run_command("$hb_image_dir/pkgOcmbFw.pl --verify --packagedBin $ocmbfw_original_filename.header");
$sections{OCMBFW}{in} = "$ocmbfw_original_filename.header";
}
else
{
print "WARNING: OCMBFW binary not found, generating blank binary (w/ valid header) instead\n";
#Create blank 4k image
run_command("dd if=/dev/zero of=$ocmbfw_original_filename bs=1024 count=4");
#Add header to blank image
my $date = `date`;
run_command("$hb_image_dir/pkgOcmbFw.pl --unpackagedBin $ocmbfw_original_filename --packagedBin $ocmbfw_original_filename.header --timestamp \"$date\" --vendorVersion \"$ocmbfw_version\" --vendorUrl \"$ocmbfw_url\"");
# verify ocmbfw header
run_command("$hb_image_dir/pkgOcmbFw.pl --verify --packagedBin $ocmbfw_original_filename.header");
$sections{OCMBFW}{in} = "$ocmbfw_original_filename.header";
}
#Final image will be under a new name after ECC protection and any other processing required
$sections{OCMBFW}{out} = "$ocmbfw_binary_filename";
}
# Build up the system bin files specification
my $system_bin_files;
foreach my $section (keys %sections)
{
if(exists $sections{$section}{in})
{
$_ = $sections{$section}{in};
if((/ecc/i) || (/pad/i))
{
die "Input file's name, $sections{$section}{in}, suggests padding "
. "or ECC, neither of which is allowed.";
}
}
# If the system bin files specification has nothing in it yet, avoid
# adding a separator
my $separator = length($system_bin_files) ? "," : "";
# If no input bin file then the pnor script handles creating the content
if(!exists $sections{$section}{in})
{
# Build up the systemBinFiles argument
$system_bin_files .= "$separator$section=".EMPTY;
}
else
{
# Stage the input file
run_command("cp $sections{$section}{in} "
. "$scratch_dir/$section.staged");
# If secureboot compile, there can be extra protected
# and unprotected versions of the input to stage
if(-e "$sections{$section}{in}.protected")
{
run_command("cp $sections{$section}{in}.protected "
. "$scratch_dir/$section.staged.protected");
}
if(-e "$sections{$section}{in}.unprotected")
{
run_command("cp $sections{$section}{in}.unprotected "
. "$scratch_dir/$section.staged.unprotected");
}
# Build up the systemBinFiles argument
$system_bin_files .= "$separator$section=$scratch_dir/"
. "$section.staged";
}
}
if(length($system_bin_files))
{
# Point to the location of the signing tools
$ENV{'DEV_KEY_DIR'}="$ENV{'HOST_DIR'}/etc/keys/";
$ENV{'SIGNING_DIR'} = "$ENV{'HOST_DIR'}/usr/bin/";
# Determine whether to securely sign the images
my $securebootArg = $secureboot ? "--secureboot" : "";
# Determine whether a key transition should take place
my $keyTransitionArg = $key_transition ne "" ? "--key-transition $key_transition" : "";
# Determine which type of signing to use
my $signModeArg = $sign_mode ne "" ? "--sign-mode $sign_mode" : "";
# Process each image
my $cmd = "cd $scratch_dir && "
. "$hb_image_dir/genPnorImages.pl "
. "--binDir $scratch_dir "
. "--systemBinFiles $system_bin_files "
. "--pnorLayout $pnor_layout "
. "$securebootArg $keyTransitionArg $signModeArg "
. "--hwKeyHashFile $hb_image_dir/imprintHwKeyHash "
. "--editedLayoutLocation $scratch_dir ";
# Print context not visible in the actual command
if($debug)
{
print STDOUT "SIGNING_DIR: " . $ENV{'SIGNING_DIR'} . "\n";
print STDOUT "DEV_KEY_DIR: " . $ENV{'DEV_KEY_DIR'} . "\n";
}
run_command($cmd);
# Copy each output file to its final destination
foreach my $section (keys %sections)
{
# Don't copy if output file path is same as generated file
next if("$sections{$section}{out}" eq "$scratch_dir/$section.bin");
run_command("cp $scratch_dir/$section.bin "
. "$sections{$section}{out}");
}
}
}
if ($release ne "p8") {
processConvergedSections();
}
else
{
# Inject ECC into any of the HBD (hostboot targeting) output binaries
if (-e "$op_target_dir/$targeting_binary_source")
{
print "Processing targeting_binary_source: $op_target_dir/$targeting_binary_source\n";
run_command("dd if=$op_target_dir/$targeting_binary_source of=$scratch_dir/$targeting_binary_source ibs=4k conv=sync");
run_command("ecc --inject $scratch_dir/$targeting_binary_source --output $scratch_dir/$targeting_binary_filename --p8");
}
if(-e "$op_target_dir/$targeting_RO_binary_source")
{
print "Processing targeting_RO_binary_source: $op_target_dir/$targeting_RO_binary_source\n";
run_command("dd if=$op_target_dir/$targeting_RO_binary_source of=$scratch_dir/$targeting_RO_binary_source ibs=4k conv=sync");
run_command("ecc --inject $scratch_dir/$targeting_RO_binary_source --output $scratch_dir/$targeting_RO_binary_filename --p8");
}
if(-e "$op_target_dir/$targeting_RW_binary_source")
{
print "Processing targeting_RW_binary_source: $op_target_dir/$targeting_RW_binary_source\n";
run_command("dd if=$op_target_dir/$targeting_RW_binary_source of=$scratch_dir/$targeting_RW_binary_source ibs=4k conv=sync");
run_command("ecc --inject $scratch_dir/$targeting_RW_binary_source --output $scratch_dir/$targeting_RW_binary_filename --p8");
}
# Add SBE/normal headers and inject ECC into HBB (hostboot base) partition binary
run_command("echo \"00000000001800000000000008000000000000000007EF80\" | xxd -r -ps - $scratch_dir/sbe.header");
run_command("env echo -en VERSION\\\\0 > $scratch_dir/hostboot.sha.bin");
run_command("sha512sum $hb_image_dir/img/hostboot.bin | awk \'{print \$1}\' | xxd -pr -r >> $scratch_dir/hostboot.sha.bin");
run_command("dd if=$scratch_dir/hostboot.sha.bin of=$scratch_dir/secureboot.header ibs=4k conv=sync");
run_command("cat $scratch_dir/sbe.header $scratch_dir/secureboot.header $hb_image_dir/img/hostboot.bin > $scratch_dir/hostboot.stage.bin");
run_command("dd if=$scratch_dir/hostboot.stage.bin of=$scratch_dir/hostboot.header.bin ibs=512k conv=sync");
run_command("ecc --inject $hb_image_dir/img/hostboot.bin --output $scratch_dir/hostboot.bin.ecc --p8");
run_command("ecc --inject $scratch_dir/hostboot.header.bin --output $scratch_dir/hostboot.header.bin.ecc --p8");
# Inject ECC into HBI (hostboot extended) output binary
run_command("dd if=$hb_image_dir/img/hostboot_extended.bin of=$scratch_dir/hostboot_extended.bin.pad ibs=4k count=1280 conv=sync");
run_command("ecc --inject $scratch_dir/hostboot_extended.bin.pad --output $scratch_dir/hostboot_extended.bin.ecc --p8");
# Add header and inject ECC into HBRT (hostboot runtime) partition binary
run_command("env echo -en VERSION\\\\0 > $scratch_dir/hostboot_runtime.sha.bin");
run_command("sha512sum $hb_image_dir/img/hostboot_runtime.bin | awk \'{print \$1}\' | xxd -pr -r >> $scratch_dir/hostboot_runtime.sha.bin");
run_command("dd if=$scratch_dir/hostboot_runtime.sha.bin of=$scratch_dir/hostboot.temp.bin ibs=4k conv=sync");
run_command("cat $hb_image_dir/img/hostboot_runtime.bin >> $scratch_dir/hostboot.temp.bin");
run_command("dd if=$scratch_dir/hostboot.temp.bin of=$scratch_dir/hostboot_runtime.header.bin ibs=3072K conv=sync");
run_command("ecc --inject $scratch_dir/hostboot_runtime.header.bin --output $scratch_dir/hostboot_runtime.header.bin.ecc --p8");
# Add header and inject ECC into HBI (hostboot extended) partition binary
run_command("env echo -en VERSION\\\\0 > $scratch_dir/hostboot_extended.sha.bin");
run_command("sha512sum $hb_image_dir/img/hostboot_extended.bin | awk \'{print \$1}\' | xxd -pr -r >> $scratch_dir/hostboot_extended.sha.bin");
run_command("dd if=$scratch_dir/hostboot_extended.sha.bin of=$scratch_dir/hostboot.temp.bin ibs=4k conv=sync");
run_command("cat $hb_image_dir/img/hostboot_extended.bin >> $scratch_dir/hostboot.temp.bin");
run_command("dd if=$scratch_dir/hostboot.temp.bin of=$scratch_dir/hostboot_extended.header.bin ibs=5120k conv=sync");
run_command("ecc --inject $scratch_dir/hostboot_extended.header.bin --output $scratch_dir/hostboot_extended.header.bin.ecc --p8");
# Inject ECC into OCC partition binary
run_command("dd if=$occ_binary_filename of=$scratch_dir/hostboot.temp.bin ibs=1M conv=sync");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $occ_binary_filename.ecc --p8");
# Inject ECC into CAPP partition binary
run_command("dd if=$capp_binary_filename bs=144K count=1 > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/cappucode.bin.ecc --p8");
# Stage PAYLOAD partition
run_command("cp $payload.bin $scratch_dir/$payload_filename");
# Stage BOOTKERNEL partition
run_command("cp $binary_dir/$bootkernel_filename $scratch_dir/$bootkernel_filename");
# Stage WINK partition
run_command("cp $hb_binary_dir/$wink_binary_filename $scratch_dir/");
# Inject ECC into CVPD partition binary
run_command("dd if=$hb_binary_dir/cvpd.bin of=$scratch_dir/hostboot.temp.bin ibs=256K conv=sync");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/cvpd.bin.ecc --p8");
# Stage VERSION partition
run_command("dd if=$openpower_version_filename of=$scratch_dir/openpower_pnor_version.bin ibs=4K conv=sync");
# Inject ECC into IMA_CATALOG partition binary
run_command("dd if=$ima_catalog_binary_filename bs=36K count=1 > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/ima_catalog.bin.ecc --p8");
# Create blank binary file for HBEL (Hostboot error logs) partition
run_command("dd if=/dev/zero bs=128K count=1 | tr \"\\000\" \"\\377\" > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/hbel.bin.ecc --p8");\
# Create blank binary file for GUARD partition
run_command("dd if=/dev/zero bs=16K count=1 | tr \"\\000\" \"\\377\" > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/guard.bin.ecc --p8");
# Create blank binary file for NVRAM partition
run_command("dd if=/dev/zero bs=512K count=1 of=$scratch_dir/nvram.bin");
# Create blank binary file for EECACHE partition
run_command("dd if=/dev/zero bs=512K count=1 | tr \"\\000\" \"\\377\" > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/eecache_fill.bin.ecc --p8");
# Create blank binary file for MVPD partition
run_command("dd if=/dev/zero bs=512K count=1 | tr \"\\000\" \"\\377\" > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/mvpd_fill.bin.ecc --p8");
# Create blank binary file for DJVPD partition
run_command("dd if=/dev/zero bs=256K count=1 | tr \"\\000\" \"\\377\" > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/djvpd_fill.bin.ecc --p8");
# Create blank binary file for ATTR_TMP partition
run_command("dd if=/dev/zero bs=28K count=1 | tr \"\\000\" \"\\377\" > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/attr_tmp.bin.ecc --p8");
# Create blank binary file for ATTR_PERM partition
run_command("dd if=/dev/zero bs=28K count=1 | tr \"\\000\" \"\\377\" > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/attr_perm.bin.ecc --p8");
# Create blank binary file for FIRDATA partition
run_command("dd if=/dev/zero bs=8K count=1 | tr \"\\000\" \"\\377\" > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/firdata.bin.ecc --p8");
# Create blank binary file for SECBOOT partition
run_command("dd if=/dev/zero bs=128K count=1 > $scratch_dir/hostboot.temp.bin");
run_command("ecc --inject $scratch_dir/hostboot.temp.bin --output $scratch_dir/secboot.bin.ecc --p8");
#Stage SBEC image
run_command("cp $hb_binary_dir/$sbec_binary_filename $scratch_dir/");
}
#END MAIN
#-------------------------------------------------------------------------
############# HELPER FUNCTIONS #################################################
# Function to first print, and then run a system command, erroring out if the
# command does not complete successfully
sub run_command {
my $command = shift;
print "$command\n";
my $rc = system($command);
if ($rc !=0 ){
die "Error running command: $command. Nonzero return code of ($rc) returned.\n";
}
return $rc;
}
# Function to remove leading and trailing whitespeace before returning that string
sub trim_string {
my $str = shift;
$str =~ s/^\s+//;
$str =~ s/\s+$//;
return $str;
}
# Function to check if a partition exists in the PNOR XML Layout File
sub checkForPnorPartition {
my $section = shift;
my $parsed_layout = shift;
# default the return as 0 (aka 'false') - partition does NOT exist
my $does_section_exist = 0;
#Iterate over the <section> elements.
foreach my $sectionEl (@{$parsed_layout->{section}})
{
my $eyeCatch = $sectionEl->{eyeCatch}[0];
if($eyeCatch eq $section)
{
$does_section_exist = 1;
last;
}
}
return $does_section_exist;
}