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gerrit.openbmc.org / premsjha / op-build / 527c6ae9014a17a50e6a48d8f54b8a41d2756a45 / . / openpower / package / hostboot / hostboot-0004-Serverwiz2-scripts.patch
blob: 6eecc7bda4659f42b41fb08b85fa9091978a5efd [file] [log] [blame]
From 065fd1bc3d9fcc8b06be7564f8df162580f8775e Mon Sep 17 00:00:00 2001
From: Matt Ploetz <maploetz@us.ibm.com>
Date: Fri, 13 Feb 2015 10:41:12 -0600
Subject: [PATCH] New severwiz2 scripts up to support up to commit
44fde6512e834ea8f5071299ca99b35973c0f979
Change-Id: I3df49506aad9490f5f6e1840fa5e6afe3150492d
---
src/build/mkrules/dist.targets.mk | 3 +-
src/usr/targeting/common/Targets.pm | 1446 ++++++++++++++++++++++++++++++++
src/usr/targeting/common/processMrw.pl | 1144 +++++++++++++++++++++++++
3 files changed, 2592 insertions(+), 1 deletion(-)
create mode 100755 src/usr/targeting/common/Targets.pm
create mode 100755 src/usr/targeting/common/processMrw.pl
diff --git a/src/build/mkrules/dist.targets.mk b/src/build/mkrules/dist.targets.mk
index ca28150..4b541ce 100644
--- a/src/build/mkrules/dist.targets.mk
+++ b/src/build/mkrules/dist.targets.mk
@@ -74,7 +74,8 @@ COPY_FILES = \
src/usr/hwpf/hwp/initfiles/sample.initfile:tools \
src/build/buildpnor/buildSbePart.pl:openpower \
src/build/buildpnor/buildpnor.pl:openpower \
- src/usr/targeting/common/genHwsvMrwXml.pl:openpower \
+ src/usr/targeting/common/processMrw.pl:openpower \
+ src/usr/targeting/common/Targets.pm:openpower \
src/usr/targeting/common/xmltohb/mergexml.sh:openpower \
src/usr/targeting/common/xmltohb/attribute_types.xml:openpower \
src/usr/targeting/common/xmltohb/attribute_types_hb.xml:openpower \
diff --git a/src/usr/targeting/common/Targets.pm b/src/usr/targeting/common/Targets.pm
new file mode 100755
index 0000000..53568cf
--- /dev/null
+++ b/src/usr/targeting/common/Targets.pm
@@ -0,0 +1,1446 @@
+# IBM_PROLOG_BEGIN_TAG
+# This is an automatically generated prolog.
+#
+# $Source: src/usr/targeting/common/Targets.pm $
+#
+# OpenPOWER HostBoot Project
+#
+# Contributors Listed Below - COPYRIGHT 2015
+# [+] International Business Machines Corp.
+#
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
+# implied. See the License for the specific language governing
+# permissions and limitations under the License.
+#
+# IBM_PROLOG_END_TAG
+package Targets;
+
+use strict;
+use XML::Simple;
+use Data::Dumper;
+
+sub new
+{
+ my $class = shift;
+ my $self = {
+ xml => undef,
+ data => undef,
+ targeting => undef,
+ enumerations => undef,
+ MAX_MCS => 0,
+ master_proc => undef,
+ huid_idx => undef,
+ mru_idx => undef,
+ force => 0,
+ debug => 0,
+ version => "",
+ errorsExist => 0,
+ NUM_PROCS => 0,
+ TOP_LEVEL => "sys-0",
+ TOPOLOGY => undef,
+ DMI_FSI_MAP => {
+ '0' => '3',
+ '1' => '2',
+ '4' => '7',
+ '5' => '6'
+ }
+ # TODO RTC: TBD
+ # DMI_FSI_MAP is a lookup table for DMI channel to FSI and ref clock.
+ # It is processor specific and needs to be pulled from a
+ # processor attribute instead of being hardcoded
+
+ };
+ return bless $self, $class;
+}
+
+sub setVersion
+{
+ my $self = shift;
+ my $version = shift;
+
+ $self->{version} = $version;
+}
+
+sub getData
+{
+ my $self = shift;
+ return $self->{data};
+}
+
+## loads ServerWiz XML format
+sub loadXML
+{
+ my $self = shift;
+ my $filename = shift;
+ $XML::Simple::PREFERRED_PARSER = 'XML::Parser';
+ print "Loading MRW XML: $filename\n";
+ $self->{xml} =
+ XMLin($filename,forcearray => [ 'child_id', 'hidden_child_id', 'bus',
+ 'property' ]);
+ $self->storeEnumerations();
+ $self->buildHierarchy($self->{TOP_LEVEL});
+ $self->buildAffinity();
+}
+
+################################################
+## prints out final XML for HOSTBOOT consumption
+
+sub printXML
+{
+ my $self = shift;
+ my $fh = shift;
+ my $t = shift;
+
+ my $atTop = 0;
+ if ($t eq "top")
+ {
+ $atTop = 1;
+ $t = $self->{targeting}->{SYS};
+ print $fh "<attributes>\n";
+ print $fh "<version>" . $self->{version} . "</version>\n";
+ }
+ if (ref($t) ne "ARRAY")
+ {
+ return;
+ }
+ for (my $p = 0; $p < scalar(@{$t}); $p++)
+ {
+ if (ref($t->[$p]) ne "HASH") { next; }
+ my $target = $t->[$p]->{KEY};
+ $self->printTarget($fh, $target);
+ my $children = $t->[$p];
+ foreach my $u (sort(keys %{$children}))
+ {
+ if ($u ne "KEY")
+ {
+ $self->printXML($fh, $t->[$p]->{$u});
+ }
+ }
+ }
+ if ($atTop)
+ {
+ print $fh "</attributes>\n";
+ }
+}
+
+sub printTarget
+{
+ my $self = shift;
+ my $fh = shift;
+ my $target = shift;
+
+ my $target_ptr = $self->getTarget($target);
+ print $fh "<targetInstance>\n";
+ my $target_id = $self->getAttribute($target, "PHYS_PATH");
+ $target_id = substr($target_id, 9);
+ $target_id =~ s/\///g;
+ $target_id =~ s/\-//g;
+ print $fh "\t<id>" . $target_id . "</id>\n";
+ print $fh "\t<type>" . $self->getTargetType($target) . "</type>\n";
+
+ ## get attributes
+ foreach my $attr (sort (keys %{ $target_ptr->{ATTRIBUTES} }))
+ {
+ $self->printAttribute($fh, $target_ptr->{ATTRIBUTES}, $attr);
+ }
+ print $fh "</targetInstance>\n";
+}
+
+sub printAttribute
+{
+ my $self = shift;
+ my $fh = shift;
+ my $target_ptr = shift;
+ my $attribute = shift;
+ my $r = "";
+
+ # TODO RTC: TBD
+ # temporary until we converge attribute types
+ my %filter;
+ $filter{MRW_TYPE} = 1;
+ $filter{INSTANCE_PATH} = 1;
+ $filter{SYSTEM_NAME} = 1;
+ $filter{BUS_TYPE} = 1;
+ $filter{DIRECTION} = 1;
+ $filter{ENABLE_CAPI} = 1;
+ $filter{PCIE_CONFIG_NUM} = 1;
+ $filter{PCIE_LANE_MASK} = 1;
+ $filter{PCIE_LANE_SET} = 1;
+ $filter{PCIE_NUM_LANES} = 1;
+ $filter{PHB_NUM} = 1;
+ $filter{IOP_NUM} = 1;
+ $filter{LOCATION_CODE} = 1;
+ $filter{MCS_NUM} = 1;
+ $filter{SCHEMATIC_INTERFACE} = 1;
+ $filter{ENTITY_ID} = 1;
+ $filter{CLASS} = 1;
+ $filter{MODEL} = 1;
+ $filter{TYPE} = 1;
+ $filter{CDM_POLICIES} = 1;
+ $filter{ALL_MCS_IN_INTERLEAVING_GROUP} = 1;
+ $filter{MSS_INTERLEAVE_ENABLE} = 1;
+ $filter{CDM_POLICIES_BITMASK} = 1;
+ $filter{ENTITY_ID_LOOKUP} = 1;
+ $filter{ENTITY_INSTANCE} = 1;
+ $filter{MBA_NUM} = 1;
+ $filter{IPMI_INSTANCE} = 1;
+ $filter{INSTANCE_ID} = 1;
+ $filter{ADC_CHANNEL_SENSOR_NUMBERS} = 1;
+
+ if ($filter{$attribute} == 1)
+ {
+ return;
+ }
+ print $fh "\t<attribute>\n";
+ print $fh "\t\t<id>$attribute</id>\n";
+ my $value = $target_ptr->{$attribute}->{default};
+
+ if (ref($value) eq "HASH")
+ {
+ if (defined($value->{field}))
+ {
+ print $fh "\t\t<default>\n";
+ foreach my $f (sort keys %{ $value->{field} })
+ {
+ my $v = $value->{field}->{$f}->{value};
+ print $fh "\t\t\t<field><id>$f</id><value>$v</value></field>\n";
+ }
+ print $fh "\t\t</default>\n";
+ }
+ }
+ else
+ {
+ print $fh "\t\t<default>$value</default>\n";
+ }
+ print $fh "\t</attribute>\n";
+}
+
+## stores TYPE enumeration values which is used to generate HUIDs
+sub storeEnumerations
+{
+ my $self = shift;
+
+ foreach my $enumType (keys(%{ $self->{xml}->{enumerationType} }))
+ {
+ foreach my $enum (
+ keys(%{$self->{xml}->{enumerationType}->{$enumType}->{enumerator}}))
+ {
+ $self->{enumeration}->{$enumType}->{$enum} =
+ $self->{xml}->{enumerationType}->{$enumType}->{enumerator}
+ ->{$enum}->{value};
+ }
+ }
+}
+
+####################################################
+## build target hierarchy recursively
+##
+## creates convenient data structure
+## for accessing targets and busses
+## Structure:
+##
+##{TARGETS} # location of all targets
+##{NSTANCE_PATH} # keeps track of hierarchy
+## path while iterating
+##{TARGETS} -> target_name # specific target
+##{TARGETS} -> target_name -> {TARGET} # pointer to target data
+## from XML data struture
+##{TARGETS} -> target_name -> {TYPE}# special attribute
+##{TARGETS} -> target_name -> {PARENT} # parent target name
+##{TARGETS} -> target_name -> {CHILDREN} # array of children targets
+##{TARGETS} -> target_name -> {CONNECTION} -> {DEST} # array of connection
+## destination targets
+##{TARGETS} -> target_name -> {CONNECTION} -> {BUS} # array of busses
+##{TARGETS} -> target_name -> {CHILDREN} # array of children targets
+##{TARGETS} -> target_name -> {ATTRIBUTES} # attributes
+## {ENUMERATION} -> enumeration_type -> enum # value of enumeration
+## {BUSSES} -> bus_type[] # array of busses by
+## bus_type (I2C, FSI, etc)
+## {BUSSES} -> bus_type[] -> {BUS} # pointer to bus target
+## from xml structure
+## {BUSSES} -> bus_type[] -> {SOURCE_TARGET} # source target name
+## {BUSSES} -> bus_type[] -> {DEST_TARGET} # dest target name
+
+sub buildHierarchy
+{
+ my $self = shift;
+ my $target = shift;
+
+ my $old_path = $self->{data}->{INSTANCE_PATH};
+ my $target_xml = $self->{xml}->{'targetInstance'}{$target};
+ my $affinity_target = $target;
+ my $key = $self->{data}->{INSTANCE_PATH} . "/" . $target;
+
+ my $instance_path = $self->{data}->{INSTANCE_PATH};
+ $instance_path = "instance:" . substr($instance_path, 1);
+ $self->setAttribute($key, "INSTANCE_PATH", $instance_path);
+ $self->{data}->{TARGETS}->{$key}->{TARGET} = $target_xml;
+ $self->{data}->{INSTANCE_PATH} = $old_path . "/" . $target;
+
+ ## copy attributes
+
+ foreach my $attribute (keys %{ $target_xml->{attribute} })
+ {
+ my $value = $target_xml->{attribute}->{$attribute}->{default};
+ if (ref($value) eq "HASH")
+ {
+ if (defined($value->{field}))
+ {
+ foreach my $f (keys %{ $value->{field} })
+ {
+ my $field_val=$value->{field}{$f}{value};
+ if (ref($field_val)) {
+ $self->setAttributeField($key, $attribute, $f,"");
+ }
+ else
+ {
+ $self->setAttributeField($key, $attribute, $f,
+ $value->{field}{$f}{value});
+ }
+ }
+ }
+ else
+ {
+ $self->setAttribute($key, $attribute, "");
+ }
+ }
+ else
+ {
+ $self->setAttribute($key, $attribute, $value);
+ }
+ }
+ ## global attributes overwrite local
+ foreach my $prop (keys %{$self->{xml}->{globalSetting}->{$key}->{property}})
+ {
+ my $val=$self->{xml}->{globalSetting}->{$key}->{property}->
+ {$prop}->{value};
+ $self->setAttribute($key, $prop, $val);
+ }
+
+ ## Save busses
+ if (defined($target_xml->{bus}))
+ {
+ foreach my $b (@{ $target_xml->{bus} })
+ {
+ my $source_target =
+ $key . "/" . $b->{source_path} . $b->{source_target};
+ my $dest_target = $key . "/" . $b->{dest_path} . $b->{dest_target};
+ my $bus_type = $b->{bus_type};
+ push(
+ @{
+ $self->{data}->{TARGETS}->{$source_target}->{CONNECTION}
+ ->{DEST}
+ },
+ $dest_target
+ );
+ push(
+ @{
+ $self->{data}->{TARGETS}->{$source_target}->{CONNECTION}
+ ->{BUS}
+ },
+ $b
+ );
+ my %bus_entry;
+ $bus_entry{SOURCE_TARGET} = $source_target;
+ $bus_entry{DEST_TARGET} = $dest_target;
+ $bus_entry{BUS_TARGET} = $b;
+ push(@{ $self->{data}->{BUSSES}->{$bus_type} }, \%bus_entry);
+ }
+ }
+
+ foreach my $child (@{ $target_xml->{child_id} })
+ {
+ my $child_key = $self->{data}->{INSTANCE_PATH} . "/" . $child;
+ $self->{data}->{TARGETS}->{$child_key}->{PARENT} = $key;
+ push(@{ $self->{data}->{TARGETS}->{$key}->{CHILDREN} }, $child_key);
+ $self->buildHierarchy($child);
+ }
+ foreach my $child (@{ $target_xml->{hidden_child_id} })
+ {
+ my $child_key = $self->{data}->{INSTANCE_PATH} . "/" . $child;
+ $self->{data}->{TARGETS}->{$child_key}->{PARENT} = $key;
+ push(@{ $self->{data}->{TARGETS}->{$key}->{CHILDREN} }, $child_key);
+ $self->buildHierarchy($child);
+ }
+ $self->{data}->{INSTANCE_PATH} = $old_path;
+
+}
+
+##########################################################
+## traces busses and builds affinity hierarchy
+## HOSTBOOT expected hierarchy: sys/node/proc/<unit>
+## sys/node/proc/mcs/membuf/<unit>
+## sys/node/proc/mcs/membuf/mba/dimm
+
+sub buildAffinity
+{
+ my $self = shift;
+ my $node = -1;
+ my $proc = -1;
+ my $node_phys = "";
+ my $node_aff = "";
+ my $core_num = 0;
+ $self->{membuf_inst_num}=0;
+ foreach my $target (sort keys %{ $self->{data}->{TARGETS} })
+ {
+ my $target_ptr = $self->{data}->{TARGETS}{$target};
+ my $type = $self->getType($target);
+ my $type_id = $self->getEnumValue("TYPE", $type);
+ if ($type_id eq "") { $type_id = 0; }
+
+ if ($type eq "SYS")
+ {
+ $proc = -1;
+ $node = -1;
+
+ $self->{targeting}{SYS}[0]{KEY} = $target;
+ $self->setAttribute($target, "AFFINITY_PATH", "affinity:sys-0");
+ $self->setAttribute($target, "PHYS_PATH", "physical:sys-0");
+ $self->setAttribute($target, "ENTITY_INSTANCE","0");
+ }
+ elsif ($type eq "NODE")
+ {
+ $core_num = 0;
+ $proc = -1;
+ $self->{dimm_tpos} = 0;
+ $self->{membuf_inst_num}=0;
+ $node++;
+ $node_phys = "physical:sys-0/node-$node";
+ $node_aff = "affinity:sys-0/node-$node";
+ $self->{targeting}{SYS}[0]{NODES}[$node]{KEY} = $target;
+ $self->setAttribute($target, "AFFINITY_PATH",
+ "affinity:sys-0/node-$node");
+ $self->setAttribute($target, "PHYS_PATH",
+ "physical:sys-0/node-$node");
+ $self->setHuid($target, 0, $node);
+ $self->setAttribute($target, "ENTITY_INSTANCE",$node);
+ }
+ elsif ($type eq "PROC")
+ {
+ $proc++;
+ my $num_mcs = 0;
+ ### count number of MCSs
+ foreach my $unit (@{ $self->{data}->{TARGETS}{$target}{CHILDREN} })
+ {
+ my $unit_type = $self->getType($unit);
+ if ($unit_type eq "MCS")
+ {
+ $num_mcs++;
+ }
+ }
+ if ($num_mcs > $self->{MAX_MCS})
+ {
+ $self->{MAX_MCS} = $num_mcs;
+ }
+ $self->{NUM_PROCS_PER_NODE} = $proc + 1;
+ $self->{targeting}->{SYS}[0]{NODES}[$node]{PROCS}[$proc]{KEY} =
+ $target;
+
+ $self->setHuid($target, 0, $node);
+ my $socket = $self->getTargetParent(
+ $self->getTargetParent($target));
+ my $parent_affinity = "affinity:sys-0/node-$node/proc-$proc";
+ my $parent_physical = "physical:sys-0/node-$node/proc-$proc";
+ $self->setAttribute($target, "AFFINITY_PATH", $parent_affinity);
+ $self->setAttribute($target, "PHYS_PATH", $parent_physical);
+ $self->setAttribute($target, "POSITION", $proc);
+ $self->setAttribute($target, "ENTITY_INSTANCE",$proc);
+ $self->setAttribute($target, "FABRIC_NODE_ID",
+ $self->getAttribute($socket,"FABRIC_NODE_ID"));
+ $self->setAttribute($target, "FABRIC_CHIP_ID",
+ $self->getAttribute($socket,"FABRIC_CHIP_ID"));
+
+ $self->setAttribute($target, "VPD_REC_NUM", $proc);
+
+
+ foreach my $unit (@{ $self->{data}->{TARGETS}{$target}{CHILDREN} })
+ {
+ my $unit_ptr = $self->getTarget($unit);
+ my $unit_type = $self->getType($unit);
+ my $unit_type_id = $self->getEnumValue("TYPE", $unit_type);
+ if ( $unit_type_id eq "" || $unit_type eq "FSI"
+ || $unit_type eq "MCS")
+ {
+ $unit_type_id = 0;
+ }
+
+ ## don't want non-hostboot targets
+ if ($unit_type_id > 0)
+ {
+
+ push(@{$self->{targeting}
+ ->{SYS}[0]{NODES}[$node]{PROCS}[$proc]{$unit_type}},
+ { 'KEY' => $unit });
+ my $affinity_path =
+ $parent_affinity . "/"
+ . $self->getTarget($unit)->{TARGET}->{instance_name};
+ my $physical_path =
+ $parent_physical . "/"
+ . $self->getTarget($unit)->{TARGET}->{instance_name};
+ $self->setAttribute($unit, "AFFINITY_PATH",$affinity_path);
+ $self->setAttribute($unit, "PHYS_PATH", $physical_path);
+ $self->setHuid($unit, 0, $node);
+ if ($unit_type eq "OCC")
+ {
+ $self->setAttribute($unit, "ENTITY_INSTANCE",$proc);
+ }
+ ## export core
+ if ($unit_type eq "EX")
+ {
+ my $core_unit_num = $self->getAttribute($unit,
+ "CHIP_UNIT");
+
+ my $core_unit =
+ $self->{data}->{TARGETS}{$unit}{CHILDREN}[0];
+ push(
+ @{
+ $self->{targeting}
+ ->{SYS}[0]{NODES}[$node]{PROCS}[$proc]{CORE}
+ },
+ { 'KEY' => $core_unit }
+ );
+ my $core_affinity_path =
+ $affinity_path . "/"
+ . $self->getTarget($core_unit)->{TARGET}
+ ->{instance_name};
+ my $core_physical_path =
+ $physical_path . "/"
+ . $self->getTarget($core_unit)->{TARGET}
+ ->{instance_name};
+ $self->setAttribute($core_unit, "AFFINITY_PATH",
+ $core_affinity_path);
+ $self->setAttribute($core_unit, "PHYS_PATH",
+ $core_physical_path);
+ $self->setAttribute($core_unit, "CHIP_UNIT",
+ $core_unit_num);
+ $self->setHuid($core_unit, 0, $node);
+ $self->setAttribute($core_unit, "ENTITY_INSTANCE",
+ $core_num);
+ $core_num++;
+ }
+ }
+ elsif ($unit_type eq "MCS")
+ {
+ $self->processMcs($unit, $node, $proc, $parent_affinity,
+ $parent_physical, $node_phys);
+ }
+ }
+ }
+ }
+}
+
+sub processMcs
+{
+ my $self = shift;
+ my $unit = shift;
+ my $node = shift;
+ my $proc = shift;
+ my $parent_affinity = shift;
+ my $parent_physical = shift;
+ my $node_phys = shift;
+
+ my $mcs = $self->getAttribute($unit, "CHIP_UNIT");
+ my $membufnum = $proc * $self->{MAX_MCS} + $mcs;
+ $self->setAttribute($unit, "AFFINITY_PATH",$parent_affinity . "/mcs-$mcs");
+ $self->setAttribute($unit, "PHYS_PATH", $parent_physical . "/mcs-$mcs");
+ $self->setAttribute($unit, "MCS_NUM", $mcs);
+ $self->setHuid($unit, 0, $node);
+ $self->{targeting}->{SYS}[0]{NODES}[$node]{PROCS}[$proc]{MCSS}[$mcs]{KEY} =
+ $unit;
+
+ $self->setAttribute($unit, "EI_BUS_TX_LANE_INVERT","0");
+ $self->setAttribute($unit, "EI_BUS_TX_MSBSWAP","0");
+ $self->setAttribute($unit, "DMI_REFCLOCK_SWIZZLE","0");
+
+ ## Find connected membufs
+ my $membuf_dmi = $self->{data}->{TARGETS}{$unit}{CONNECTION}{DEST}[0];
+ if (defined($membuf_dmi))
+ {
+ ## found membuf connected
+ my $membuf =
+ $self->{data}->{TARGETS}{$membuf_dmi}
+ {PARENT}; ## get parent of dmi unit which is membuf
+ my $dmi_bus = $self->{data}->{TARGETS}{$unit}{CONNECTION}{BUS}[0];
+ $self->setAttribute($membuf, "POSITION",$membufnum);
+ $self->setAttribute($membuf, "AFFINITY_PATH",
+ $parent_affinity . "/mcs-$mcs/membuf-$membufnum");
+ $self->setAttribute($membuf, "PHYS_PATH",
+ $node_phys . "/membuf-$membufnum");
+ $self->setAttribute($membuf, "VPD_REC_NUM",
+ $self->getAttribute($membuf, "POSITION"));
+
+ ## copy DMI bus attributes to membuf
+ $self->setAttribute($unit, "EI_BUS_TX_LANE_INVERT",
+ $dmi_bus->{bus_attribute}->{PROC_TX_LANE_INVERT}->{default});
+ $self->setAttribute($unit, "EI_BUS_TX_MSBSWAP",
+ $dmi_bus->{bus_attribute}->{PROC_TX_MSBSWAP}->{default});
+ $self->setAttribute($membuf, "EI_BUS_TX_LANE_INVERT",
+ $dmi_bus->{bus_attribute}->{MEMBUF_TX_LANE_INVERT}->{default});
+ $self->setAttribute($membuf, "EI_BUS_TX_MSBSWAP",
+ $dmi_bus->{bus_attribute}->{MEMBUF_TX_MSBSWAP}->{default});
+
+ ## auto setup FSI assuming schematic symbol. If FSI busses are
+ ## defined in serverwiz2, this will be overridden
+ ## in the schematic symbol, the fsi port num matches dmi ref clk num
+
+ my $fsi_port = $self->{DMI_FSI_MAP}->{$mcs};
+ my $proc_key =
+ $self->{targeting}->{SYS}[0]{NODES}[$node]{PROCS}[$proc]{KEY};
+ my $proc_path = $self->getAttribute($proc_key,"PHYS_PATH");
+ $self->setFsiAttributes($membuf,"FSICM",0,$proc_path,$fsi_port,0);
+ $self->setAttribute($unit, "DMI_REFCLOCK_SWIZZLE",$fsi_port);
+ my $dmi_swizzle =
+ $dmi_bus->{bus_attribute}->{DMI_REFCLOCK_SWIZZLE}->{default};
+ my $dmi_swizzle =
+ $self->getBusAttribute($unit,0,"DMI_REFCLOCK_SWIZZLE");
+ if ($dmi_swizzle ne "")
+ {
+ $self->setAttribute($unit, "DMI_REFCLOCK_SWIZZLE",$dmi_swizzle);
+ }
+
+ $self->setHuid($membuf, 0, $node);
+ $self->{targeting}
+ ->{SYS}[0]{NODES}[$node]{PROCS}[$proc]{MCSS}[$mcs] {MEMBUFS}[0]{KEY} =
+ $membuf;
+
+ $self->setAttribute($membuf, "ENTITY_INSTANCE",
+ $self->{membuf_inst_num});
+ $self->{membuf_inst_num}++;
+ ## get the mbas
+ foreach my $child (@{ $self->{data}->{TARGETS}{$membuf}{CHILDREN} })
+ {
+ ## need to not hardcard the subunits
+ if ($self->getType($child) eq "L4")
+ {
+ $self->{targeting}
+ ->{SYS}[0]{NODES}[$node]{PROCS}[$proc]{MCSS}[$mcs]{MEMBUFS}[0]
+ {L4S}[0] {KEY} = $child;
+ $self->setAttribute($child, "AFFINITY_PATH",
+ $parent_affinity . "/mcs-$mcs/membuf-$membufnum/l4-0");
+ $self->setAttribute($child, "PHYS_PATH",
+ $node_phys . "/membuf-$membufnum/l4-0");
+ $self->setHuid($child, 0, $node);
+ }
+
+ if ($self->getType($child) eq "MBA")
+ {
+ my $mba = $self->getAttribute($child,"MBA_NUM");
+ $self->setAttribute($child, "AFFINITY_PATH",
+ $parent_affinity . "/mcs-$mcs/membuf-$membufnum/mba-$mba");
+ $self->setAttribute($child, "PHYS_PATH",
+ $node_phys . "/membuf-$membufnum/mba-$mba");
+ $self->setHuid($child, 0, $node);
+ $self->{targeting}
+ ->{SYS}[0]{NODES}[$node]{PROCS}[$proc]{MCSS}[$mcs]{MEMBUFS}[0]
+ {MBAS}[$mba]{KEY} = $child;
+
+ ## Trace the DDR busses to find connected DIMM
+ my $ddrs = $self->findConnections($child,"DDR3","");
+ if ($ddrs ne "")
+ {
+ my $affinitypos=0;
+ foreach my $dimms (@{$ddrs->{CONN}})
+ {
+ my $ddr = $dimms->{SOURCE};
+ my $port_num = $self->getAttribute($ddr,"MBA_PORT");
+ my $dimm_num = $self->getAttribute($ddr,"MBA_DIMM");
+ my $dimm=$dimms->{DEST_PARENT};
+ $self->setAttribute($dimm,"MBA_PORT",$port_num);
+ $self->setAttribute($dimm,"MBA_DIMM",$dimm_num);
+
+ my $aff_pos=16*$proc+$mcs*$self->{MAX_MCS}+4*$mba+
+ 2*$port_num+$dimm_num;
+ $self->setAttribute($dimm, "AFFINITY_PATH",
+ $parent_affinity
+ . "/mcs-$mcs/membuf-$membufnum/mba-$mba/dimm-$affinitypos"
+ );
+ $self->setAttribute($dimm, "PHYS_PATH",
+ $node_phys . "/dimm-" . $self->{dimm_tpos});
+ $self->setAttribute($dimm, "POSITION",
+ $aff_pos);
+ $self->setAttribute($dimm, "VPD_REC_NUM",
+ $aff_pos);
+ $self->setHuid($dimm, 0, $node);
+ $self->{targeting}
+ ->{SYS}[0]{NODES}[$node]{PROCS}[$proc] {MCSS}[$mcs]
+ {MEMBUFS}[0]{MBAS}[$mba] {DIMMS}[$affinitypos]{KEY} = $dimm;
+ $self->setAttribute($dimm, "ENTITY_INSTANCE",
+ $self->{dimm_tpos});
+ $self->{dimm_tpos}++;
+ $affinitypos++;
+ }
+ }
+ }
+ }
+ }
+}
+
+sub setFsiAttributes
+{
+ my $self = shift;
+ my $target = shift;
+ my $type = shift;
+ my $cmfsi = shift;
+ my $phys_path = shift;
+ my $fsi_port = shift;
+ my $flip_port = shift;
+
+ $self->setAttribute($target, "FSI_MASTER_TYPE","NO_MASTER");
+ if ($type eq "FSIM")
+ {
+ $self->setAttribute($target, "FSI_MASTER_TYPE","MFSI");
+ }
+ if ($type eq "FSICM")
+ {
+ $self->setAttribute($target, "FSI_MASTER_TYPE","CMFSI");
+ }
+ $self->setAttribute($target, "FSI_MASTER_CHIP","physical:sys");
+ $self->setAttribute($target, "FSI_MASTER_PORT","0xFF");
+ $self->setAttribute($target, "ALTFSI_MASTER_CHIP","physical:sys");
+ $self->setAttribute($target, "ALTFSI_MASTER_PORT","0xFF");
+ $self->setAttribute($target, "FSI_SLAVE_CASCADE", "0");
+ if ($cmfsi == 0)
+ {
+ $self->setAttribute($target, "FSI_MASTER_CHIP",$phys_path);
+ $self->setAttribute($target, "FSI_MASTER_PORT", $fsi_port);
+ }
+ else
+ {
+ $self->setAttribute($target, "ALTFSI_MASTER_CHIP",$phys_path);
+ $self->setAttribute($target, "ALTFSI_MASTER_PORT", $fsi_port);
+ }
+
+ #my $phys_path = $targetObj->getAttribute($parentTarget, "PHYS_PATH");
+ $self->setAttributeField($target, "FSI_OPTION_FLAGS","flipPort",
+ $flip_port);
+ $self->setAttributeField($target, "FSI_OPTION_FLAGS","reserved", "0");
+
+}
+
+
+## returns pointer to target from target name
+sub getTarget
+{
+ my $self = shift;
+ my $target = shift;
+ return $self->{data}->{TARGETS}->{$target};
+}
+
+## returns pointer to array of all targets
+sub getAllTargets
+{
+ my $self = shift;
+ my $target = shift;
+ return $self->{data}->{TARGETS};
+}
+
+## returns the target name of the parent of passed in target
+sub getTargetParent
+{
+ my $self = shift;
+ my $target = shift;
+ my $target_ptr = $self->getTarget($target);
+ return $target_ptr->{PARENT};
+}
+
+## returns the number of connections associated with target
+sub getNumConnections
+{
+ my $self = shift;
+ my $target = shift;
+ my $target_ptr = $self->getTarget($target);
+ if (!defined($target_ptr->{CONNECTION}->{DEST}))
+ {
+ return 0;
+ }
+ return scalar(@{ $target_ptr->{CONNECTION}->{DEST} });
+}
+
+## returns destination target name of first connection
+## useful for point to point busses with only 1 endpoint
+sub getFirstConnectionDestination
+{
+ my $self = shift;
+ my $target = shift;
+ my $target_ptr = $self->getTarget($target);
+ return $target_ptr->{CONNECTION}->{DEST}->[0];
+}
+
+## returns pointer to bus of first connection
+sub getFirstConnectionBus
+{
+ my $self = shift;
+ my $target = shift;
+ my $target_ptr = $self->getTarget($target);
+ return $target_ptr->{CONNECTION}->{BUS}->[0];
+}
+## returns target name of $i connection
+sub getConnectionDestination
+{
+ my $self = shift;
+ my $target = shift;
+ my $i = shift;
+ my $target_ptr = $self->getTarget($target);
+ return $target_ptr->{CONNECTION}->{DEST}->[$i];
+}
+
+sub getConnectionBus
+{
+ my $self = shift;
+ my $target = shift;
+ my $i = shift;
+ my $target_ptr = $self->getTarget($target);
+ return $target_ptr->{CONNECTION}->{BUS}->[$i];
+}
+
+sub findFirstEndpoint
+{
+ my $self = shift;
+ my $target = shift;
+ my $bus_type = shift;
+ my $end_type = shift;
+
+ my $target_children = $self->getTargetChildren($target);
+ if ($target_children eq "") { return ""; }
+
+ foreach my $child (@{ $self->getTargetChildren($target) })
+ {
+ my $child_bus_type = $self->getBusType($child);
+ if ($child_bus_type eq $bus_type)
+ {
+ for (my $i = 0; $i < $self->getNumConnections($child); $i++)
+ {
+ my $dest_target = $self->getConnectionDestination($child, $i);
+ my $dest_parent = $self->getTargetParent($dest_target);
+ my $type = $self->getMrwType($dest_parent);
+ my $dest_type = $self->getType($dest_parent);
+ if ($type eq "NA") { $type = $dest_type; }
+ if ($type eq $end_type)
+ {
+ return $dest_parent;
+ }
+ }
+ }
+ }
+ return "";
+}
+sub findConnections
+{
+ my $self = shift;
+ my $target = shift;
+ my $bus_type = shift;
+ my $end_type = shift;
+
+ my %connections;
+ my $num=0;
+ my $target_children = $self->getTargetChildren($target);
+ if ($target_children eq "")
+ {
+ return "";
+ }
+
+ foreach my $child (@{ $self->getTargetChildren($target) })
+ {
+ my $child_bus_type = $self->getBusType($child);
+ if ($child_bus_type eq $bus_type)
+ {
+ for (my $i = 0; $i < $self->getNumConnections($child); $i++)
+ {
+ my $dest_target = $self->getConnectionDestination($child, $i);
+ my $dest_parent = $self->getTargetParent($dest_target);
+ my $type = $self->getMrwType($dest_parent);
+ my $dest_type = $self->getType($dest_parent);
+ if ($type eq "NA")
+ {
+ $type = $dest_type;
+ }
+
+ if ($type eq $end_type || $end_type eq "")
+ {
+ $connections{CONN}[$num]{SOURCE}=$child;
+ $connections{CONN}[$num]{SOURCE_PARENT}=$target;
+ $connections{CONN}[$num]{DEST}=$dest_target;
+ $connections{CONN}[$num]{DEST_PARENT}=$dest_parent;
+ $connections{CONN}[$num]{BUS_NUM}=$i;
+ $num++;
+ }
+ }
+ }
+ }
+ if ($num==0) { return ""; }
+ return \%connections;
+}
+
+
+## returns BUS_TYPE attribute of target
+sub getBusType
+{
+ my $self = shift;
+ my $target = shift;
+ my $type = $self->getAttribute($target, "BUS_TYPE");
+ if ($type eq "") { $type = "NA"; }
+ return $type;
+}
+
+## return target type
+sub getType
+{
+ my $self = shift;
+ my $target = shift;
+ my $type = $self->getAttribute($target, "TYPE");
+ if ($type eq "") { $type = "NA"; }
+ return $type;
+}
+
+## return target type
+sub getMrwType
+{
+ my $self = shift;
+ my $target = shift;
+ my $type = $self->getAttribute($target, "MRW_TYPE");
+ if ($type eq "") { $type = "NA"; }
+ return $type;
+}
+
+## returns target instance name
+sub getInstanceName
+{
+ my $self = shift;
+ my $target = shift;
+ my $target_ptr = $self->getTarget($target);
+ return $target_ptr->{TARGET}->{instance_name};
+}
+
+## returns the parent target type
+sub getTargetType
+{
+ my $self = shift;
+ my $target = shift;
+ my $target_ptr = $self->getTarget($target);
+ return $target_ptr->{TARGET}->{type};
+}
+
+## checks if attribute is value
+## must be defined and have a non-empty value
+sub isBadAttribute
+{
+ my $self = shift;
+ my $target = shift;
+ my $attribute = shift;
+ my $badvalue = shift;
+ my $target_ptr = $self->getTarget($target);
+ if (!defined($target_ptr->{ATTRIBUTES}->{$attribute}))
+ {
+ return 1;
+ }
+ if (!defined($target_ptr->{ATTRIBUTES}->{$attribute}->{default}))
+ {
+ return 1;
+ }
+ if ($target_ptr->{ATTRIBUTES}->{$attribute}->{default} eq "")
+ {
+ return 1;
+ }
+ if ($target_ptr->{ATTRIBUTES}->{$attribute}->{default} eq $badvalue)
+ {
+ return 1;
+ }
+ return 0;
+}
+
+## checks if complex attribute field is
+## defined and non-empty
+sub isBadComplexAttribute
+{
+ my $self = shift;
+ my $target = shift;
+ my $attribute = shift;
+ my $field = shift;
+ my $badvalue = shift;
+ my $target_ptr = $self->getTarget($target);
+
+ if (!defined($target_ptr->{ATTRIBUTES}->{$attribute}))
+ {
+ return 1;
+ }
+ if (!defined($target_ptr->{ATTRIBUTES}->{$attribute}->{default}))
+ {
+ return 1;
+ }
+ if (!defined($target_ptr->{ATTRIBUTES}->{$attribute}->{default}->{field}))
+ {
+ return 1;
+ }
+ if ($target_ptr->{ATTRIBUTES}->{$attribute}->{default}->{field}->{$field}
+ ->{value} eq "")
+ {
+ return 1;
+ }
+ if ($target_ptr->{ATTRIBUTES}->{$attribute}->{default}->{field}->{$field}
+ ->{value} eq $badvalue)
+ {
+ return 1;
+ }
+ return 0;
+}
+
+## returns attribute value
+sub getAttribute
+{
+ my $self = shift;
+ my $target = shift;
+ my $attribute = shift;
+ my $target_ptr = $self->getTarget($target);
+ if (!defined($target_ptr->{ATTRIBUTES}->{$attribute}->{default}))
+ {
+ printf("ERROR: getAttribute(%s,%s) | Attribute not defined\n",
+ $target, $attribute);
+
+ #print Dumper($target_ptr);
+ $self->myExit(4);
+ }
+ return $target_ptr->{ATTRIBUTES}->{$attribute}->{default};
+}
+## renames a target attribute
+sub renameAttribute
+{
+ my $self = shift;
+ my $target = shift;
+ my $oldName = shift;
+ my $newName = shift;
+ my $target_ptr = $self->{data}->{TARGETS}->{$target};
+ if (!defined($target_ptr->{ATTRIBUTES}->{$oldName}))
+ {
+ return 1;
+ }
+ $target_ptr->{ATTRIBUTES}->{$newName}->{default} =
+ $target_ptr->{ATTRIBUTES}->{$oldName}->{default};
+ delete($target_ptr->{ATTRIBUTES}->{$oldName});
+ $self->log($target, "Renaming attribute: $oldName => $newName");
+ return 0;
+}
+
+## copy an attribute between targets
+sub copyAttribute
+{
+ my $self = shift;
+ my $source_target = shift;
+ my $dest_target = shift;
+ my $attribute = shift;
+
+ my $value=$self->getAttribute($source_target,$attribute);
+ $self->setAttribute($dest_target,$attribute,$value);
+
+ $self->log($dest_target, "Copy Attribute: $attribute=$value");
+}
+
+## sets an attribute
+sub setAttribute
+{
+ my $self = shift;
+ my $target = shift;
+ my $attribute = shift;
+ my $value = shift;
+ my $target_ptr = $self->getTarget($target);
+ $target_ptr->{ATTRIBUTES}->{$attribute}->{default} = $value;
+ $self->log($target, "Setting Attribute: $attribute=$value");
+}
+## sets the field of a complex attribute
+sub setAttributeField
+{
+ my $self = shift;
+ my $target = shift;
+ my $attribute = shift;
+ my $field = shift;
+ my $value = shift;
+ $self->{data}->{TARGETS}->{$target}->{ATTRIBUTES}->{$attribute}->{default}
+ ->{field}->{$field}->{value} = $value;
+}
+## returns complex attribute value
+sub getAttributeField
+{
+ my $self = shift;
+ my $target = shift;
+ my $attribute = shift;
+ my $field = shift;
+ my $target_ptr = $self->getTarget($target);
+ if (!defined($target_ptr->{ATTRIBUTES}->{$attribute}->
+ {default}->{field}->{$field}->{value}))
+ {
+ printf("ERROR: getAttributeField(%s,%s,%s) | Attribute not defined\n",
+ $target, $attribute,$field);
+
+ $self->myExit(4);
+ }
+
+ return $target_ptr->{ATTRIBUTES}->{$attribute}->
+ {default}->{field}->{$field}->{value};
+}
+
+## returns an attribute from a bus
+sub getBusAttribute
+{
+ my $self = shift;
+ my $target = shift;
+ my $busnum = shift;
+ my $attr = shift;
+ my $target_ptr = $self->getTarget($target);
+
+ if (
+ !defined(
+ $target_ptr->{CONNECTION}->{BUS}->[$busnum]->{bus_attribute}
+ ->{$attr}->{default}
+ )
+ )
+ {
+ printf("ERROR: getBusAttribute(%s,%d,%s) | Attribute not defined\n",
+ $target, $busnum, $attr);
+ $self->myExit(4);
+ }
+ if (ref($target_ptr->{CONNECTION}->{BUS}->[$busnum]->{bus_attribute}->{$attr}
+ ->{default}) eq "HASH") {
+ return "";
+ }
+ return $target_ptr->{CONNECTION}->{BUS}->[$busnum]->{bus_attribute}->{$attr}
+ ->{default};
+}
+## returns a pointer to an array of children target names
+sub getTargetChildren
+{
+ my $self = shift;
+ my $target = shift;
+ my $target_ptr = $self->getTarget($target);
+ ## this is an array
+ return $target_ptr->{CHILDREN};
+}
+
+sub getEnumValue
+{
+ my $self = shift;
+ my $enumType = shift;
+ my $enumName = shift;
+ if (!defined($self->{enumeration}->{$enumType}->{$enumName}))
+ {
+ printf("ERROR: getEnumValue(%s,%s) | enumType not defined\n",
+ $enumType, $enumName);
+ $self->myExit(4);
+ }
+ return $self->{enumeration}->{$enumType}->{$enumName};
+}
+
+sub getEnumHash
+{
+ my $self = shift;
+ my $enumType = shift;
+ my $enumName = shift;
+ if (!defined($self->{enumeration}->{$enumType}))
+ {
+ printf("ERROR: getEnumValue(%s) | enumType not defined\n",
+ $enumType);
+ print Dumper($self->{enumeration});
+ $self->myExit(4);
+ }
+ return $self->{enumeration}->{$enumType};
+}
+
+sub setHuid
+{
+ my $self = shift;
+ my $target = shift;
+ my $sys = shift;
+ my $node = shift;
+
+ my $type = $self->getType($target);
+ my $type_id = $self->{enumeration}->{TYPE}->{$type};
+ if ($type_id eq "") { $type_id = 0; }
+ if ($type_id == 0) { return; }
+ my $index = 0;
+ if (defined($self->{huid_idx}->{$type}))
+ {
+ $index = $self->{huid_idx}->{$type};
+ }
+ else { $self->{huid_idx}->{$type} = 0; }
+
+ # Format: SSSS NNNN TTTTTTTT iiiiiiiiiiiiiiii
+ my $huid = sprintf("%01x%01x%02x%04x", $sys, $node, $type_id, $index);
+ $huid = "0x" . uc($huid);
+
+ $self->setAttribute($target, "HUID", $huid);
+ $self->{huid_idx}->{$type}++;
+ $self->log($target, "Setting HUID: $huid");
+ $self->setMruid($target, $node);
+}
+
+sub setMruid
+{
+ my $self = shift;
+ my $target = shift;
+ my $node = shift;
+
+ my $type = $self->getType($target);
+ my $mru_prefix_id = $self->{enumeration}->{MRU_PREFIX}->{$type};
+ if ($mru_prefix_id eq "") { $mru_prefix_id = "0xFFFF"; }
+ if ($mru_prefix_id eq "0xFFFF") { return; }
+ my $index = 0;
+ if (defined($self->{mru_idx}->{$node}->{$type}))
+ {
+ $index = $self->{mru_idx}->{$node}->{$type};
+ }
+ else { $self->{mru_idx}->{$node}->{$type} = 0; }
+
+ my $mruid = sprintf("%s%04x", $mru_prefix_id, $index);
+ $self->setAttribute($target, "MRU_ID", $mruid);
+ $self->{mru_idx}->{$node}->{$type}++;
+}
+
+sub getMasterProc
+{
+ my $self = shift;
+ return $self->{master_proc};
+}
+
+sub setMasterProc
+{
+ my $self = shift;
+ my $target = shift;
+ $self->{master_proc}=$target;
+}
+
+sub getSystemName
+{
+ my $self = shift;
+ return $self->getAttribute("/".$self->{TOP_LEVEL}, "SYSTEM_NAME");
+}
+
+sub myExit
+{
+ my $self = shift;
+ my $exit_code = shift;
+ if ($exit_code eq "") { $exit_code = 0; }
+ $self->{errorsExist} = 1;
+ if ($self->{force} == 0)
+ {
+ exit($exit_code);
+ }
+}
+
+sub log
+{
+ my $self = shift;
+ my $target = shift;
+ my $msg = shift;
+ if ($self->{debug})
+ {
+ print "DEBUG: ($target) $msg\n";
+ }
+}
+1;
+
+=head1 NAME
+
+Targets
+
+=head1 SYNOPSIS
+
+ use Targets;
+
+ my $targets = Targets->new;
+ $targets->loadXML("myfile.xml");
+ foreach my $target ( sort keys %{ $targets->getAllTargets() } ) {
+ ## do stuff with targets
+ }
+
+ $targets->printXML( $file_handle, "top" );
+
+=head1 DESCRIPTION
+
+C<Targets> is a class that consumes XML generated by ServerWiz2. The XML
+describes a POWER system topology including nodes, cards, chips, and busses.
+
+=head1 OVERVIEW
+
+A simple example of a ServerWiz2 topology would be:
+
+=over 4
+
+=item Topology Example:
+
+ -system
+ -node
+ -motherboard
+ -processor
+ -pcie card
+ - daughtercard
+ - memory buffer
+ - dimms
+
+=back
+
+Targets->loadXML("myfile.xml") reads this topology and creates 2 data
+structures. One data structure simply represents the hierarchical system
+topology. The other data structure represents the hierarchical structure
+that hostboot expects (affinity path).
+
+Unlike hostboot, everything in ServerWiz2 is represented as a target.
+For example, FSI and I2C units are targets under the processor that have a
+bus type and therefore allow connections to be made.
+
+=head1 CONSTRUCTOR
+
+=over 4
+
+=item new ()
+
+There are no arguments for the constructor.
+
+=back
+
+=head1 METHODS
+
+C<TARGET> is a pointer to data structure containing all target information.
+C<TARGET_STRING> is the hierarchical target string used as key for data
+structure. An example for C<TARGET_STRING> would be:
+C</sys-0/node-0/motherboard-0/dimm-0>
+
+=over 4
+
+=item loadXml (C<FILENAME>)
+
+Reads ServerWiz2 XML C<FILENAME> and stores into a data structure for
+manipulation and printing.
+
+=item getTarget(C<TARGET_STRING>)
+
+Returns pointer to data structure (C<TARGET>)
+
+=item getAllTargets(C<TARGET_STRING>)
+
+Returns array with all existing target data structures
+
+=item getTargetParent(C<TARGET_STRING>)
+
+Returns C<TARGET_STRING> of parent target
+
+=item getNumConnections(C<TARGET_STRING>)
+
+Returns the number of bus connections to this target
+
+=item getFirstConnectionDestination(C<TARGET_STRING>)
+
+Returns the target string of the first target found connected to
+C<TARGET_STRING>. This is useful because many busses are guaranteed
+to only have one connection because they are point to point.
+
+=item getFirstConnectionBus(C<TARGET_STRING>)
+
+Returns the data structure of the bus of the first target found connected to
+C<TARGET_STRING>. The bus data structure is also a target with attributes.
+
+=item getConnectionDestination(C<TARGET_STRING>,C<INDEX>)
+
+Returns the target string of the C<INDEX> target found connected to
+C<TARGET_STRING>.
+
+=item getConnectionBus(C<TARGET_STRING>)
+
+Returns the data structure of the C<INDEX> bus target found connected to
+C<TARGET_STRING>.
+
+=item findEndpoint(C<TARGET_STRING>,C<BUS_TYPE>,C<ENDPOINT_MRW_TYPE>)
+
+Searches through all connections to C<TARGET_STRING>
+for a endpoint C<MRW_TYPE> and C<BUS_TYPE>
+
+=item getBusType(C<TARGET_STRING>)
+
+Returns the BUS_TYPE attribute of (C<TARGET_STRING>). Examples are I2C and DMI.
+
+=item getType(C<TARGET_STRING>)
+
+Returns the TYPE attribute of (C<TARGET_STRING>).
+Examples are PROC and MEMBUF.
+
+=item getMrwType(C<TARGET_STRING>)
+
+Returns the MRW_TYPE attribute of (C<TARGET_STRING>).
+Examples are CARD and PCI_CONFIG. This
+is an extension to the TYPE attribute and are types that hostboot does
+not care about.
+
+=item getTargetType(C<TARGET_STRING>)
+
+Returns the target type id of (C<TARGET_STRING>).
+This is not the TYPE attribute. This is the
+<id> from target_types.xml. Examples are unit-pci-power8 and enc-node-power8.
+
+=item isBadAttribute(C<TARGET_STRING>,C<ATTRIBUTE_NAME>)
+
+Tests where attribute (C<ATTRIBUTE_NAME>) has been set in
+target (C<TARGET_STRING>). Returns true if attribute is undefined or empty
+and false if attribute is defined and not empty.
+
+=item getAttribute(C<TARGET_STRING>,C<ATTRIBUTE_NAME>)
+
+Returns the value of attribute C<ATTRIBUTE_NAME> in target C<TARGET_STRING>.
+
+=item renameAttribute(C<TARGET_STRING>,C<ATTRIBUTE_OLDNAME>,
+C<ATTRIBUTE_OLDNAME>)
+
+Renames attribute C<ATTRIBUTE_OLDNAME> to C<ATTRIBUTE_NEWNAME> in target
+C<TARGET_STRING>.
+
+=item setAttribute(C<TARGET_STRING>,C<ATTRIBUTE_NAME>,C<VALUE>)
+
+Sets attribute C<ATTRIBUTE_NAME> of target C<TARGET_STRING> to value C<VALUE>.
+
+=item setAttributeField(C<TARGET_STRING>,C<ATTRIBUTE_NAME>,C<FIELD>,C<VALUE>)
+
+Sets attribute C<ATTRIBUTE_NAME> and field C<FIELD> of target C<TARGET_STRING>
+to value C<VALUE>. This is for complex attributes.
+
+=item getBusAttribute(C<TARGET_STRING>,C<INDEX>,C<ATTRIBUTE_NAME>)
+
+Gets the attribute C<ATTRIBUTE_NAME> from bus C<TARGET_STRING> bus number
+C<INDEX>.
+
+=item getTargetChildren(C<TARGET_STRING>)
+
+Returns an array of target strings representing all the children of target
+C<TARGET_STRING>.
+
+=item getEnumValue(C<ENUM_TYPE>,C<ENUM_NAME>)
+
+Returns the enum value of type C<ENUM_TYPE> and name C<ENUM_NAME>. The
+enumerations are also defined in ServerWiz2 XML output and are directly
+copied from attribute_types.xml.
+
+=item getMasterProc()
+
+Returns the target string of the master processor.
+
+=item myExit(C<EXIT_NUM>)
+
+Calls exit(C<EXIT_NUM>) when force flag is not set.
+
+=item log(C<TARGET_STRING>,C<MESSAGE>)
+
+Prints to stdout log message is debug mode is turned on.
+
+
+=back
+
+=head1 CREDITS
+
+Norman James <njames@us.ibm.com>
+
+=cut
+
diff --git a/src/usr/targeting/common/processMrw.pl b/src/usr/targeting/common/processMrw.pl
new file mode 100755
index 0000000..1fb292f
--- /dev/null
+++ b/src/usr/targeting/common/processMrw.pl
@@ -0,0 +1,1144 @@
+#! /usr/bin/perl
+# IBM_PROLOG_BEGIN_TAG
+# This is an automatically generated prolog.
+#
+# $Source: src/usr/targeting/common/processMrw.pl $
+#
+# OpenPOWER HostBoot Project
+#
+# Contributors Listed Below - COPYRIGHT 2015
+# [+] International Business Machines Corp.
+#
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
+# implied. See the License for the specific language governing
+# permissions and limitations under the License.
+#
+# IBM_PROLOG_END_TAG
+
+use strict;
+use XML::Simple;
+use Data::Dumper;
+use Targets;
+use Math::BigInt;
+use Getopt::Long;
+use File::Basename;
+
+my $VERSION = "1.0.0";
+
+my $force = 0;
+my $serverwiz_file = "";
+my $version = 0;
+my $debug = 0;
+my $report = 0;
+my $sdr_file = "";
+
+GetOptions(
+ "f" => \$force, # numeric
+ "x=s" => \$serverwiz_file, # string
+ "d" => \$debug,
+ "v" => \$version,
+ "r" => \$report,
+ ) # flag
+ or printUsage();
+
+if ($version == 1)
+{
+ die "\nprocessMrw.pl\tversion $VERSION\n";
+}
+
+if ($serverwiz_file eq "")
+{
+ printUsage();
+}
+
+$XML::Simple::PREFERRED_PARSER = 'XML::Parser';
+
+my $targetObj = Targets->new;
+if ($force == 1)
+{
+ $targetObj->{force} = 1;
+}
+if ($debug == 1)
+{
+ $targetObj->{debug} = 1;
+}
+
+$targetObj->setVersion($VERSION);
+my $xmldir = dirname($serverwiz_file);
+$targetObj->loadXML($serverwiz_file);
+
+#--------------------------------------------------
+## loop through all targets and do stuff
+foreach my $target (sort keys %{ $targetObj->getAllTargets() })
+{
+ my $type = $targetObj->getType($target);
+ if ($type eq "SYS")
+ {
+ processSystem($targetObj, $target);
+ }
+ elsif ($type eq "PROC")
+ {
+ processProcessor($targetObj, $target);
+ }
+ elsif ($type eq "MEMBUF")
+ {
+ processMembuf($targetObj, $target);
+ }
+ elsif ($type eq "FSP")
+ {
+ processBmc($targetObj, $target);
+ }
+}
+
+
+## check topology
+foreach my $n (keys %{$targetObj->{TOPOLOGY}}) {
+ foreach my $p (keys %{$targetObj->{TOPOLOGY}->{$n}}) {
+ if ($targetObj->{TOPOLOGY}->{$n}->{$p} > 1) {
+ print "ERROR: Fabric topology invalid. 2 targets have same ".
+ "FABRIC_NODE_ID,FABRIC_CHIP_ID ($n,$p)\n";
+ $targetObj->myExit(3);
+ }
+ }
+}
+## check for errors
+if ($targetObj->getMasterProc() eq "")
+{
+ print "ERROR: Master Processor not defined. Please instaitant a BMC
+ and connect LPC bus\n";
+ $targetObj->myExit(3);
+}
+foreach my $target (keys %{ $targetObj->getAllTargets() })
+{
+ errorCheck($targetObj, $target);
+}
+
+#--------------------------------------------------
+## write out final XML
+my $xml_fh;
+my $filename = $xmldir . "/" . $targetObj->getSystemName() . "_hb.mrw.xml";
+print "Creating XML: $filename\n";
+open($xml_fh, ">$filename") || die "Unable to create: $filename";
+$targetObj->printXML($xml_fh, "top");
+close $xml_fh;
+if (!$targetObj->{errorsExist})
+{
+ print "MRW created successfully!\n";
+}
+
+
+## optionally print out report
+if ($report)
+{
+ my $report_file = $xmldir . "/" . $targetObj->getSystemName() . ".rpt";
+ open(SUM,">$report_file") || die "Unable to create: $report_file\n";
+ my $ref = $targetObj->{targeting}->{SYS}[0]{NODES}[0]{PROCS};
+ foreach my $proc (@{$ref})
+ {
+ foreach my $mcs (@{$proc->{MCSS}})
+ {
+ my $mcs_target = $mcs->{KEY};
+ my $membuf=$mcs->{MEMBUFS}[0];
+ my $membuf_target = $membuf->{KEY};
+
+ my $sch = $targetObj->getAttribute($mcs_target,
+ "SCHEMATIC_INTERFACE");
+ my $aff = $targetObj->getAttribute($mcs_target,"AFFINITY_PATH");
+ my $huid = $targetObj->getAttribute($mcs_target,"HUID");
+ print SUM "$sch | $huid | $mcs_target | $aff\n";
+ if ($membuf_target ne "") {
+ foreach my $mba (@{$membuf->{MBAS}}) {
+ my $mba_target = $mba->{KEY};
+
+ $huid = $targetObj->getAttribute($mba_target,"HUID");
+ $aff = $targetObj->getAttribute($mcs_target,
+ "AFFINITY_PATH");
+ print SUM "\t | $huid | $mba_target | $aff\n";
+ foreach my $dimm (@{$mba->{DIMMS}}) {
+ my $dimm_target = $dimm->{KEY};
+ $aff = $targetObj->getAttribute($dimm_target,
+ "AFFINITY_PATH");
+ $huid = $targetObj->getAttribute($dimm_target,"HUID");
+ my $p = $targetObj->getAttribute($dimm_target,
+ "MBA_PORT");
+ my $d = $targetObj->getAttribute($dimm_target,
+ "MBA_DIMM");
+ my $i2c = $targetObj->getAttributeField($dimm_target,
+ "EEPROM_VPD_PRIMARY_INFO","devAddr");
+ my $sens = $targetObj->getAttribute($dimm_target,
+ "IPMI_SENSORS");
+ my @s = split(/\,/,$sens);
+
+ print SUM "\t\t$huid | $dimm_target".
+ " | $aff | $p | $d | $i2c | ".
+ "$s[0],$s[1] | $s[2],$s[3]\n";
+ }
+ }
+ }
+ }
+ }
+ close SUM;
+}
+
+#--------------------------------------------------
+#--------------------------------------------------
+## Processing subroutines
+
+#--------------------------------------------------
+
+#--------------------------------------------------
+## System
+##
+
+sub processSystem
+{
+ my $targetObj = shift;
+ my $target = shift;
+
+ $targetObj->setAttribute($target, "MAX_MCS_PER_SYSTEM",
+ $targetObj->{NUM_PROCS_PER_NODE} * $targetObj->{MAX_MCS});
+ $targetObj->setAttribute($target, "MAX_PROC_CHIPS_PER_NODE",
+ $targetObj->{NUM_PROCS_PER_NODE});
+ parseBitwise($targetObj,$target,"CDM_POLICIES");
+}
+sub processBmc
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $i2cs=$targetObj->findConnections($target,"I2C","PROC");
+ if ($i2cs ne "")
+ {
+ foreach my $i2c (@{$i2cs->{CONN}})
+ {
+ my $addr=$targetObj->getBusAttribute(
+ $i2c->{SOURCE},$i2c->{BUS_NUM},"I2C_ADDRESS");
+ $targetObj->setAttribute(
+ $i2c->{DEST_PARENT},"I2C_SLAVE_ADDRESS",$addr);
+ }
+ }
+ my $lpcs=$targetObj->findConnections($target,"LPC","PROC");
+ if ($lpcs ne "")
+ {
+ my $lpc=$lpcs->{CONN}->[0];
+ $targetObj->setMasterProc($lpc->{DEST_PARENT});
+ }
+}
+
+
+sub parseBitwise
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $attribute = shift;
+
+ my $mask = 0;
+ foreach my $e (keys %{ $targetObj->getEnumHash($attribute) }) {
+ my $field = $targetObj->getAttributeField(
+ $target,$attribute."_BITMASK",$e);
+ my $val=hex($targetObj->getEnumValue($attribute,$e));
+ if ($field eq "true")
+ {
+ $mask=$mask | $val;
+ }
+ }
+ $targetObj->setAttribute($target,$attribute,$mask);
+ }
+#--------------------------------------------------
+## Processor
+##
+
+sub processProcessor
+{
+ my $targetObj = shift;
+ my $target = shift;
+
+ #########################
+ ## Copy PCIE attributes from socket
+ ## In serverwiz, processor instances are not unique
+ ## because plugged into socket
+ ## so processor instance unique attributes are socket level.
+ ## The grandparent is guaranteed to be socket.
+ my $socket_target =
+ $targetObj->getTargetParent($targetObj->getTargetParent($target));
+ $targetObj->copyAttribute($socket_target,$target,"LOCATION_CODE");
+ $targetObj->copyAttribute($socket_target,$target,"FRU_ID");
+
+
+ foreach my $attr (sort (keys
+ %{ $targetObj->getTarget($socket_target)->{TARGET}->{attribute} }))
+ {
+ if ($attr =~ /PROC\_PCIE/)
+ {
+ $targetObj->copyAttribute($socket_target,$target,$attr);
+ }
+ }
+ $targetObj->log($target, "Processing PROC");
+ foreach my $child (@{ $targetObj->getTargetChildren($target) })
+ {
+ $targetObj->log($target, "Processing PROC child: $child");
+ my $child_type = $targetObj->getType($child);
+ if ($child_type eq "NA" || $child_type eq "FSI")
+ {
+ $child_type = $targetObj->getMrwType($child);
+ }
+ if ($child_type eq "ABUS")
+ {
+ processAbus($targetObj, $child);
+ }
+ elsif ($child_type eq "XBUS")
+ {
+ processXbus($targetObj, $child);
+ }
+ elsif ($child_type eq "FSIM" || $child_type eq "FSICM")
+ {
+ processFsi($targetObj, $child, $target);
+ }
+ elsif ($child_type eq "PCI_CONFIGS")
+ {
+ foreach my $pci_child (@{ $targetObj->getTargetChildren($child) })
+ {
+ processPcie($targetObj, $pci_child, $target);
+ }
+ }
+ elsif ($child_type eq "MCS")
+ {
+ processMcs($targetObj, $child, $target);
+ }
+ elsif ($child_type eq "OCC")
+ {
+ processOcc($targetObj, $child, $target);
+ }
+ }
+
+ ## update path for mvpd's and sbe's
+ my $path = $targetObj->getAttribute($target, "PHYS_PATH");
+ my $model = $targetObj->getAttribute($target, "MODEL");
+
+ $targetObj->setAttributeField($target,
+ "EEPROM_VPD_PRIMARY_INFO","i2cMasterPath",$path);
+ $targetObj->setAttributeField($target,
+ "EEPROM_VPD_BACKUP_INFO","i2cMasterPath",$path);
+ $targetObj->setAttributeField($target,
+ "EEPROM_SBE_PRIMARY_INFO","i2cMasterPath",$path);
+ $targetObj->setAttributeField($target,
+ "EEPROM_SBE_BACKUP_INFO","i2cMasterPath",$path);
+ $targetObj->setAttributeField($target,
+ "EEPROM_VPD_FRU_INFO","i2cMasterPath",$path);
+
+ ## initialize master processor FSI's
+ $targetObj->setAttributeField($target, "FSI_OPTION_FLAGS", "flipPort", "0");
+
+ if ($target eq $targetObj->getMasterProc())
+ {
+ $targetObj->setAttributeField($target, "FSI_OPTION_FLAGS", "reserved",
+ "0");
+ $targetObj->setAttribute($target, "FSI_MASTER_CHIP", "physical:sys");
+ $targetObj->setAttribute($target, "FSI_MASTER_PORT", "0xFF");
+ $targetObj->setAttribute($target, "ALTFSI_MASTER_CHIP", "physical:sys");
+ $targetObj->setAttribute($target, "ALTFSI_MASTER_PORT", "0xFF");
+ $targetObj->setAttribute($target, "FSI_MASTER_TYPE", "NO_MASTER");
+ $targetObj->setAttribute($target, "FSI_SLAVE_CASCADE", "0");
+ $targetObj->setAttribute($target, "PROC_MASTER_TYPE", "ACTING_MASTER");
+ }
+ else
+ {
+ $targetObj->setAttribute($target, "PROC_MASTER_TYPE",
+ "MASTER_CANDIDATE");
+ }
+ ## Update bus speeds
+ processI2cSpeeds($targetObj,$target);
+
+ ## these are hardcoded because code sets them properly
+ $targetObj->setAttributeField($target, "SCOM_SWITCHES", "reserved", "0");
+ $targetObj->setAttributeField($target, "SCOM_SWITCHES", "useFsiScom", "1");
+ $targetObj->setAttributeField($target, "SCOM_SWITCHES", "useInbandScom",
+ "0");
+ $targetObj->setAttributeField($target, "SCOM_SWITCHES", "useXscom", "0");
+
+ processMembufVpdAssociation($targetObj,$target);
+ setupBars($targetObj,$target);
+}
+
+
+sub processI2cSpeeds
+{
+ my $targetObj = shift;
+ my $target = shift;
+
+ my @bus_speeds;
+ my $bus_speed_attr=$targetObj->getAttribute($target,"I2C_BUS_SPEED_ARRAY");
+ my @bus_speeds2 = split(/,/,$bus_speed_attr);
+ $bus_speeds[0][0] = $bus_speeds2[0];
+ $bus_speeds[0][1] = $bus_speeds2[1];
+ $bus_speeds[0][2] = $bus_speeds2[2];
+ $bus_speeds[1][0] = $bus_speeds2[3];
+ $bus_speeds[1][1] = $bus_speeds2[4];
+ $bus_speeds[1][2] = $bus_speeds2[5];
+
+ my $i2cs=$targetObj->findConnections($target,"I2C","");
+ if ($i2cs ne "") {
+ foreach my $i2c (@{$i2cs->{CONN}}) {
+ my $port=oct($targetObj->getAttribute($i2c->{SOURCE},"I2C_PORT"));
+ my $engine=oct($targetObj->getAttribute(
+ $i2c->{SOURCE},"I2C_ENGINE"));
+ my $bus_speed=$targetObj->getBusAttribute(
+ $i2c->{SOURCE},$i2c->{BUS_NUM},"I2C_SPEED");
+ if ($bus_speed eq "" || $bus_speed==0) {
+ print "ERROR: I2C bus speed not defined for $i2c->{SOURCE}\n";
+ $targetObj->myExit(3);
+ }
+ ## choose lowest bus speed
+ if ($bus_speeds[$engine][$port] eq "" ||
+ $bus_speeds[$engine][$port]==0 ||
+ $bus_speed < $bus_speeds[$engine][$port]) {
+ $bus_speeds[$engine][$port] = $bus_speed;
+ }
+ }
+ }
+ $bus_speed_attr = $bus_speeds[0][0].",".
+ $bus_speeds[0][1].",".
+ $bus_speeds[0][2].",".
+ $bus_speeds[1][0].",".
+ $bus_speeds[1][1].",".
+ $bus_speeds[1][2];
+
+ $targetObj->setAttribute($target,"I2C_BUS_SPEED_ARRAY",$bus_speed_attr);
+}
+
+################################
+## Setup address map
+
+sub setupBars
+{
+ my $targetObj = shift;
+ my $target = shift;
+ #--------------------------------------------------
+ ## Setup BARs
+
+ my $node = $targetObj->getAttribute($target, "FABRIC_NODE_ID");
+ my $proc = $targetObj->getAttribute($target, "FABRIC_CHIP_ID");
+ $targetObj->{TOPOLOGY}->{$node}->{$proc}++;
+
+ my @bars=("FSP_BASE_ADDR","PSI_BRIDGE_BASE_ADDR",
+ "INTP_BASE_ADDR","PHB_BASE_ADDRS","PCI_BASE_ADDRS_32",
+ "PCI_BASE_ADDRS_64","RNG_BASE_ADDR","IBSCOM_PROC_BASE_ADDR");
+
+ foreach my $bar (@bars)
+ {
+ my ($num,$base,$node_offset,$proc_offset,$offset) = split(/,/,
+ $targetObj->getAttribute($target,$bar));
+ my $i_base = Math::BigInt->new($base);
+ my $i_node_offset = Math::BigInt->new($node_offset);
+ my $i_proc_offset = Math::BigInt->new($proc_offset);
+ my $i_offset = Math::BigInt->new($offset);
+
+ my $value="";
+ if ($num==0)
+ {
+ $value=$base;
+ }
+ else
+ {
+ for (my $i=0;$i<$num;$i++)
+ {
+ my $b=sprintf("0x%016X",
+ $i_base+$i_node_offset*$node+$i_proc_offset*$proc+$i_offset*$i);
+ my $sep=",";
+ if ($i==$num-1)
+ {
+ $sep="";
+ }
+ $value=$value.$b.$sep;
+ }
+ }
+ $targetObj->setAttribute($target,$bar,$value);
+ }
+}
+
+#--------------------------------------------------
+## MCS
+##
+sub processMcs
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $parentTarget = shift;
+
+ my $node = $targetObj->getAttribute($parentTarget, "FABRIC_NODE_ID");
+ my $proc = $targetObj->getAttribute($parentTarget, "FABRIC_CHIP_ID");
+
+ my ($base,$node_offset,$proc_offset,$offset) = split(/,/,
+ $targetObj->getAttribute($target,"IBSCOM_MCS_BASE_ADDR"));
+ my $i_base = Math::BigInt->new($base);
+ my $i_node_offset = Math::BigInt->new($node_offset);
+ my $i_proc_offset = Math::BigInt->new($proc_offset);
+ my $i_offset = Math::BigInt->new($offset);
+
+ my $mcs = $targetObj->getAttribute($target, "MCS_NUM");
+ my $mcsStr=sprintf("0x%016X",
+ $i_base+$i_node_offset*$node+$i_proc_offset*$proc+$i_offset*$mcs);
+ $targetObj->setAttribute($target, "IBSCOM_MCS_BASE_ADDR", $mcsStr);
+}
+
+
+#--------------------------------------------------
+## XBUS
+##
+## Finds XBUS connections and creates PEER TARGET attributes
+
+sub processXbus
+{
+ my $targetObj = shift;
+ my $target = shift;
+
+ # $targetObj->setAttribute($target, "PEER_TARGET","");
+
+}
+
+#--------------------------------------------------
+## ABUS
+##
+## Finds ABUS connections and creates PEER TARGET attributes
+
+sub processAbus
+{
+ my $targetObj = shift;
+ my $target = shift;
+
+ my $found_abus = 0;
+ $targetObj->setAttribute($target, "PEER_PATH","physical:na");
+ $targetObj->setAttribute($target, "EI_BUS_TX_LANE_INVERT","0");
+ $targetObj->setAttribute($target, "EI_BUS_TX_MSBSWAP","0");
+ # $targetObj->setAttribute($target, "PEER_TARGET","");
+
+ my $abus_child_conn = $targetObj->getFirstConnectionDestination($target);
+ if ($abus_child_conn ne "")
+ {
+ ## set attributes for both directions
+ my $aff1 = $targetObj->getAttribute($target, "AFFINITY_PATH");
+ my $aff2 = $targetObj->getAttribute($abus_child_conn, "AFFINITY_PATH");
+
+ $targetObj->setAttribute($abus_child_conn, "PEER_TARGET",
+ $targetObj->getAttribute($target, "PHYS_PATH"));
+ $targetObj->setAttribute($target, "PEER_TARGET",
+ $targetObj->getAttribute($abus_child_conn, "PHYS_PATH"));
+
+ $targetObj->setAttribute($abus_child_conn, "PEER_PATH",
+ $targetObj->getAttribute($target, "PHYS_PATH"));
+ $targetObj->setAttribute($target, "PEER_PATH",
+ $targetObj->getAttribute($abus_child_conn, "PHYS_PATH"));
+
+ # copy Abus attributes to proc
+ my $abus = $targetObj->getFirstConnectionBus($target);
+ $targetObj->setAttribute($target, "EI_BUS_TX_LANE_INVERT",
+ $abus->{bus_attribute}->{SOURCE_TX_LANE_INVERT}->{default});
+ $targetObj->setAttribute($target, "EI_BUS_TX_MSBSWAP",
+ $abus->{bus_attribute}->{SOURCE_TX_MSBSWAP}->{default});
+ $targetObj->setAttribute($abus_child_conn, "EI_BUS_TX_LANE_INVERT",
+ $abus->{bus_attribute}->{DEST_TX_LANE_INVERT}->{default});
+ $targetObj->setAttribute($abus_child_conn, "EI_BUS_TX_MSBSWAP",
+ $abus->{bus_attribute}->{DEST_TX_MSBSWAP}->{default});
+ $found_abus = 1;
+ }
+}
+
+#--------------------------------------------------
+## FSI
+##
+## Finds FSI connections and creates FSI MASTER attributes at endpoint target
+
+sub processFsi
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $parentTarget = shift;
+ my $type = $targetObj->getBusType($target);
+
+ ## fsi can only have 1 connection
+ my $fsi_child_conn = $targetObj->getFirstConnectionDestination($target);
+
+ ## found something on other end
+ if ($fsi_child_conn ne "")
+ {
+ my $fsi_link = $targetObj->getAttribute($target, "FSI_LINK");
+ my $fsi_port = $targetObj->getAttribute($target, "FSI_PORT");
+ my $cmfsi = $targetObj->getAttribute($target, "CMFSI");
+ my $flip_port = 0;
+ my $proc_path = $targetObj->getAttribute($parentTarget,"PHYS_PATH");
+ my $fsi_child_target = $targetObj->getTargetParent($fsi_child_conn);
+ $targetObj->setFsiAttributes($fsi_child_target,
+ $type,$cmfsi,$proc_path,$fsi_port,$flip_port);
+ }
+}
+
+#--------------------------------------------------
+## PCIE
+##
+## Creates attributes from abstract PCI attributes on bus
+
+sub processPcie
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $parentTarget = shift;
+
+
+ ## process pcie config target
+ ## this is a special target whose children are the different ways
+ ## to configure iop/phb's
+
+ # TODO RTC: TBD
+ # add a 3rd IOP for Naples
+
+ ## Get config children
+ my @lane_swap;
+ $lane_swap[0][0] = 0;
+ $lane_swap[0][1] = 0;
+ $lane_swap[1][0] = 0;
+ $lane_swap[1][1] = 0;
+
+ my @lane_mask;
+ $lane_mask[0][0] = "0x0000";
+ $lane_mask[0][1] = "0x0000";
+ $lane_mask[1][0] = "0x0000";
+ $lane_mask[1][1] = "0x0000";
+
+ my @lane_rev;
+ $lane_rev[0][0] = "";
+ $lane_rev[0][1] = "";
+ $lane_rev[1][0] = "";
+ $lane_rev[1][1] = "";
+
+ my @is_slot;
+ $is_slot[0][0] = 0;
+ $is_slot[0][1] = 0;
+ $is_slot[1][0] = 0;
+ $is_slot[1][1] = 0;
+
+ my $phb_config = "00000000";
+
+ my %cfg_check;
+ my @equalization;
+
+ my $wiring_table = $targetObj->getAttribute($target,"PCIE_LANE_SWAP_TABLE");
+ $wiring_table=~s/\s+//g;
+ $wiring_table=~s/\t+//g;
+ $wiring_table=~s/\n+//g;
+
+ my @t = split(/,/,$wiring_table);
+ my %iop_swap;
+
+ #iop_swap{iop}{clk swap}{clk group reversal}
+ $iop_swap{0}{0}{'00'}=$t[0];
+ $iop_swap{0}{0}{'01'}=$t[1];
+ $iop_swap{0}{0}{'10'}=$t[2];
+ $iop_swap{0}{0}{'11'}=$t[3];
+ $iop_swap{0}{1}{'00'}=$t[4];
+ $iop_swap{0}{1}{'01'}=$t[5];
+ $iop_swap{0}{1}{'10'}=$t[6];
+ $iop_swap{0}{1}{'11'}=$t[7];
+
+ $iop_swap{1}{0}{'00'}=$t[8];
+ $iop_swap{1}{0}{'01'}=$t[9];
+ $iop_swap{1}{0}{'10'}=$t[10];
+ $iop_swap{1}{0}{'11'}=$t[11];
+ $iop_swap{1}{1}{'00'}=$t[12];
+ $iop_swap{1}{1}{'01'}=$t[13];
+ $iop_swap{1}{1}{'10'}=$t[14];
+ $iop_swap{1}{1}{'11'}=$t[15];
+
+ my @lane_eq;
+ my $NUM_PHBS=4;
+ for (my $p=0;$p<$NUM_PHBS;$p++)
+ {
+ for (my $lane=0;$lane<16;$lane++)
+ {
+ $equalization[$p][$lane] = "0x00,0x00";
+ }
+ }
+ my $found=0;
+ foreach my $child (@{ $targetObj->getTargetChildren($target) })
+ {
+ my $num_connections = $targetObj->getNumConnections($child);
+ if ($num_connections > 0)
+ {
+ $found=1;
+ my $pci_endpoint=$targetObj->getFirstConnectionDestination($child);
+
+ my $bus = $targetObj->getConnectionBus($target, 0);
+ my $iop_num = $targetObj->getAttribute($child, "IOP_NUM");
+ my $swap_clks=$targetObj->getBusAttribute($child, 0,
+ "PCIE_SWAP_CLKS");
+
+ my $lane_rev=$targetObj->getBusAttribute($child, 0,
+ "LANE_REVERSAL");
+
+ my $phb_num = $targetObj->getAttribute($child, "PHB_NUM");
+ my $lane_set = $targetObj->getAttribute($child, "PCIE_LANE_SET");
+ my $capi = $targetObj->getAttribute($child, "ENABLE_CAPI");
+
+ my $pci_endpoint_type =
+ $targetObj->getAttribute(
+ $targetObj->getTargetParent($pci_endpoint), "CLASS");
+
+ if ($pci_endpoint_type eq "CARD")
+ {
+ $is_slot[$iop_num][$lane_set] = 1;
+ }
+ $lane_swap[$iop_num][$lane_set] =
+ $targetObj->getBusAttribute($child, 0, "PCIE_SWAP_CLKS");
+ $lane_mask[$iop_num][$lane_set] =
+ $targetObj->getAttribute($child, "PCIE_LANE_MASK");
+ $lane_rev[$iop_num][$lane_set] =
+ $targetObj->getBusAttribute($child, 0, "LANE_REVERSAL");
+ my $eq = $targetObj->getBusAttribute($child, 0,
+ "PCIE_LANE_EQUALIZATION");
+ my @eqs = split(/\,/,$eq);
+ for (my $e=0;$e<@eqs;$e=$e+3)
+ {
+ if ($eqs[$e] eq "all")
+ {
+ for (my $lane=0;$lane<16;$lane++)
+ {
+ $equalization[$phb_num][$lane]=$eqs[$e+1].",".$eqs[$e+2];
+ }
+ }
+ else
+ {
+ $equalization[$phb_num][$eqs[$e]] = $eqs[$e+1].",".$eqs[$e+2];
+ }
+ }
+ substr($phb_config, $phb_num, 1, "1");
+ }
+ }
+ if ($found)
+ {
+ my $hex = sprintf('%X', oct("0b$phb_config"));
+
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_PHB_ACTIVE","0x" . $hex);
+ my $lane_mask_attr = sprintf("%s,%s,%s,%s",
+ $lane_mask[0][0], $lane_mask[0][1],
+ $lane_mask[1][0], $lane_mask[1][1]);
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_LANE_MASK",
+ $lane_mask_attr);
+ $targetObj->setAttribute($parentTarget,"PROC_PCIE_LANE_MASK_NON_BIFURCATED",
+ $lane_mask_attr);
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_LANE_MASK_BIFURCATED",
+ "0,0,0,0");
+
+ my @iop_swap_lu;
+ my @iop_lane_swap;
+ for (my $iop=0;$iop<2;$iop++)
+ {
+ $iop_lane_swap[$iop] = $lane_swap[$iop][0] | $lane_swap[$iop][1];
+ my $lane_rev = $lane_rev[$iop][0].$lane_rev[$iop][1];
+ $iop_swap_lu[$iop]=
+ "0b".$iop_swap{$iop}{$iop_lane_swap[$iop]}{$lane_rev};
+ if ($iop_swap_lu[$iop] eq "") {
+ die "PCIE config for $iop,$iop_lane_swap[$iop],$lane_rev not found\n";
+ }
+ }
+ my $lane_swap_attr0 = sprintf("%s,%s",$iop_lane_swap[0],
+ $iop_lane_swap[1]);
+ my $lane_swap_attr1 = sprintf("%s,0,%s,0",$iop_lane_swap[0],
+ $iop_lane_swap[1]);
+
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_IOP_SWAP",
+ $lane_swap_attr0);
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_IOP_SWAP_NON_BIFURCATED",
+ $lane_swap_attr1);
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_IOP_SWAP_BIFURCATED",
+ "0,0,0,0");
+
+ my $lane_rev_attr = sprintf("%s,0,%s,0",
+ oct($iop_swap_lu[0]),oct($iop_swap_lu[1]));
+
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_IOP_REVERSAL",
+ $lane_rev_attr);
+ $targetObj->setAttribute($parentTarget,
+ "PROC_PCIE_IOP_REVERSAL_NON_BIFURCATED",$lane_rev_attr);
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_IOP_REVERSAL_BIFURCATED",
+ "0,0,0,0");
+
+ my $is_slot_attr = sprintf("%s,%s,%s,%s",
+ $is_slot[0][0], $is_slot[0][1], $is_slot[1][0], $is_slot[1][1]);
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_IS_SLOT", $is_slot_attr);
+
+ ## don't support DSMP
+ $targetObj->setAttribute($parentTarget, "PROC_PCIE_DSMP_CAPABLE","0,0,0,0");
+ my $eq_str="";
+ for (my $p=0;$p<$NUM_PHBS;$p++)
+ {
+ for (my $lane=0;$lane<16;$lane++)
+ {
+ $eq_str=$eq_str.$equalization[$p][$lane].",";
+ }
+ }
+ $eq_str = substr($eq_str,0,length($eq_str)-1);
+ $targetObj->setAttribute($parentTarget,"PROC_PCIE_LANE_EQUALIZATION",
+ $eq_str);
+ }
+}
+#--------------------------------------------------
+## OCC
+##
+sub processOcc
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $parentTarget = shift;
+ my $master_capable=0;
+ if ($parentTarget eq $targetObj->getMasterProc())
+ {
+ $master_capable=1;
+ }
+ $targetObj->setAttribute($target,"OCC_MASTER_CAPABLE",$master_capable);
+}
+
+sub processMembufVpdAssociation
+{
+ my $targetObj = shift;
+ my $target = shift;
+
+ my $vpds=$targetObj->findConnections($target,"I2C","VPD");
+ if ($vpds ne "" ) {
+ my $vpd = $vpds->{CONN}->[0];
+
+ my $membuf_assocs=$targetObj->findConnections($vpd->{DEST_PARENT},
+ "LOGICAL_ASSOCIATION","MEMBUF");
+ if ($membuf_assocs ne "") {
+ foreach my $membuf_assoc (@{$membuf_assocs->{CONN}}) {
+ my $membuf_target = $membuf_assoc->{DEST_PARENT};
+ setEepromAttributes($targetObj,
+ "EEPROM_VPD_PRIMARY_INFO",$membuf_target,$vpd);
+ setEepromAttributes($targetObj,
+ "EEPROM_VPD_FRU_INFO",$membuf_target,$vpd,"0++");
+ my $index = $targetObj->getBusAttribute($membuf_assoc->{SOURCE},
+ $membuf_assoc->{BUS_NUM}, "ISDIMM_MBVPD_INDEX");
+ $targetObj->setAttribute(
+ $membuf_target,"ISDIMM_MBVPD_INDEX",$index);
+ }
+ }
+ }
+}
+
+#--------------------------------------------------
+## MEMBUF
+##
+## Finds I2C connections to DIMM and creates EEPROM attributes
+## FYI: I had to handle DMI busses in framework because they
+## define affinity path
+
+sub processMembuf
+{
+ my $targetObj = shift;
+ my $target = shift;
+ if ($targetObj->isBadAttribute($target, "PHYS_PATH", ""))
+ {
+ ##dmi is probably not connected. will get caught in error checking
+ return;
+ }
+
+ processMembufVpdAssociation($targetObj,$target);
+
+ ## finds which gpio expander that controls vddr regs for membufs
+ my $gpioexp=$targetObj->findConnections($target,"I2C","GPIO_EXPANDER");
+ if ($gpioexp ne "" ) {
+ my $vreg=$targetObj->findConnections(
+ $gpioexp->{CONN}->[0]->{DEST_PARENT},"GPIO","VOLTAGE_REGULATOR");
+ if ($vreg ne "") {
+ my $vddPin = $targetObj->getAttribute(
+ $vreg->{CONN}->[0]->{SOURCE},"CHIP_UNIT");
+ my $membufs=$targetObj->findConnections(
+ $vreg->{CONN}->[0]->{DEST_PARENT},"POWER","MEMBUF");
+ if ($membufs ne "") {
+ foreach my $membuf (@{$membufs->{CONN}}) {
+ my $aff = $targetObj->getAttribute($membuf->{DEST_PARENT},
+ "PHYS_PATH");
+ setGpioAttributes($targetObj,$membuf->{DEST_PARENT},
+ $gpioexp->{CONN}->[0],$vddPin);
+
+ }
+ }
+ }
+ }
+ ## find port mapping
+ my %dimm_portmap;
+ foreach my $child (@{$targetObj->getTargetChildren($target)})
+ {
+ if ($targetObj->getType($child) eq "MBA")
+ {
+ my $mba_num = $targetObj->getAttribute($child,"MBA_NUM");
+ my $dimms=$targetObj->findConnections($child,"DDR3","");
+ if ($dimms ne "")
+ {
+ foreach my $dimm (@{$dimms->{CONN}})
+ {
+ my $port_num = $targetObj->getAttribute(
+ $dimm->{SOURCE},"MBA_PORT");
+ my $dimm_num = $targetObj->getAttribute(
+ $dimm->{SOURCE},"MBA_DIMM");
+
+ my $map = oct("0b".$mba_num.$port_num.$dimm_num);
+ $dimm_portmap{$dimm->{DEST_PARENT}} = $map;
+ }
+ }
+ }
+ }
+
+
+ ## Process MEMBUF to DIMM I2C connections
+ my @addr_map=('0','0','0','0','0','0','0','0');
+ my $dimms=$targetObj->findConnections($target,"I2C","SPD");
+ if ($dimms ne "") {
+ foreach my $dimm (@{$dimms->{CONN}}) {
+ my $dimm_target = $targetObj->getTargetParent($dimm->{DEST_PARENT});
+ setEepromAttributes($targetObj,
+ "EEPROM_VPD_PRIMARY_INFO",$dimm_target,
+ $dimm);
+ setEepromAttributes($targetObj,
+ "EEPROM_VPD_FRU_INFO",$dimm_target,
+ $dimm,"0++");
+
+ my $field=getI2cMapField($targetObj,$dimm_target,$dimm);
+ my $map = $dimm_portmap{$dimm_target};
+ if ($map eq "") {
+ print "ERROR: $dimm_target doesn't map to a dimm/port\n";
+ $targetObj->myExit(3);
+ }
+ $addr_map[$map] = $field;
+ }
+ }
+ $targetObj->setAttribute($targetObj->{targeting}->{SYS}[0]->{KEY},
+ "MRW_MEM_SENSOR_CACHE_ADDR_MAP","0x".join("",@addr_map));
+
+ ## Update bus speeds
+ processI2cSpeeds($targetObj,$target);
+
+ ## Do MBA port mapping
+ my %mba_port_map;
+ my $ddrs=$targetObj->findConnections($target,"DDR3","DIMM");
+ if ($ddrs ne "") {
+ my %portmap;
+ foreach my $ddr (@{$ddrs->{CONN}}) {
+ my $mba=$ddr->{SOURCE};
+ my $dimm=$ddr->{DEST_PARENT};
+ my ($dimmnum,$port)=split(//,sprintf("%02b\n",$portmap{$mba}));
+ $targetObj->setAttribute($dimm, "MBA_DIMM",$dimmnum);
+ $targetObj->setAttribute($dimm, "MBA_PORT",$port);
+ $portmap{$mba}++;
+
+ ## Copy connector attributes
+ my $dimmconn=$targetObj->getTargetParent($dimm);
+ }
+ }
+}
+
+sub getI2cMapField
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $conn_target = shift;
+
+
+ my $port = $targetObj->getAttribute($conn_target->{SOURCE}, "I2C_PORT");
+ my $engine = $targetObj->getAttribute($conn_target->{SOURCE}, "I2C_ENGINE");
+ my $addr = $targetObj->getBusAttribute($conn_target->{SOURCE},
+ $conn_target->{BUS_NUM}, "I2C_ADDRESS");
+
+ my $bits=sprintf("%08b",hex($addr));
+ my $field=sprintf("%d%3s",oct($port),substr($bits,4,3));
+ my $hexfield = sprintf("%X",oct("0b$field"));
+ return $hexfield;
+}
+
+
+sub setEepromAttributes
+{
+ my $targetObj = shift;
+ my $name = shift;
+ my $target = shift;
+ my $conn_target = shift;
+ my $fru = shift;
+
+ my $port = $targetObj->getAttribute($conn_target->{SOURCE}, "I2C_PORT");
+ my $engine = $targetObj->getAttribute($conn_target->{SOURCE}, "I2C_ENGINE");
+ my $addr = $targetObj->getBusAttribute($conn_target->{SOURCE},
+ $conn_target->{BUS_NUM}, "I2C_ADDRESS");
+
+ my $path = $targetObj->getAttribute($conn_target->{SOURCE_PARENT},
+ "PHYS_PATH");
+ my $mem = $targetObj->getAttribute($conn_target->{DEST_PARENT},
+ "MEMORY_SIZE_IN_KB");
+ my $cycle = $targetObj->getAttribute($conn_target->{DEST_PARENT},
+ "WRITE_CYCLE_TIME");
+ my $page = $targetObj->getAttribute($conn_target->{DEST_PARENT},
+ "WRITE_PAGE_SIZE");
+ my $offset = $targetObj->getAttribute($conn_target->{DEST_PARENT},
+ "BYTE_ADDRESS_OFFSET");
+
+ $targetObj->setAttributeField($target, $name, "i2cMasterPath", $path);
+ $targetObj->setAttributeField($target, $name, "port", $port);
+ $targetObj->setAttributeField($target, $name, "devAddr", $addr);
+ $targetObj->setAttributeField($target, $name, "engine", $engine);
+ $targetObj->setAttributeField($target, $name, "byteAddrOffset", $offset);
+ $targetObj->setAttributeField($target, $name, "maxMemorySizeKB", $mem);
+ $targetObj->setAttributeField($target, $name, "writePageSize", $page);
+ $targetObj->setAttributeField($target, $name, "writeCycleTime", $cycle);
+
+ if ($fru ne "")
+ {
+ $targetObj->setAttributeField($target, $name, "fruId", $fru);
+ }
+}
+
+
+sub setGpioAttributes
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $conn_target = shift;
+ my $vddrPin = shift;
+
+ my $port = $targetObj->getAttribute($conn_target->{SOURCE}, "I2C_PORT");
+ my $engine = $targetObj->getAttribute($conn_target->{SOURCE}, "I2C_ENGINE");
+ my $addr = $targetObj->getBusAttribute($conn_target->{SOURCE},
+ $conn_target->{BUS_NUM}, "I2C_ADDRESS");
+ my $path = $targetObj->getAttribute($conn_target->{SOURCE_PARENT},
+ "PHYS_PATH");
+
+
+ my $name="GPIO_INFO";
+ $targetObj->setAttributeField($target, $name, "i2cMasterPath", $path);
+ $targetObj->setAttributeField($target, $name, "port", $port);
+ $targetObj->setAttributeField($target, $name, "devAddr", $addr);
+ $targetObj->setAttributeField($target, $name, "engine", $engine);
+ $targetObj->setAttributeField($target, $name, "vddrPin", $vddrPin);
+}
+
+#--------------------------------------------------
+## ERROR checking
+sub errorCheck
+{
+ my $targetObj = shift;
+ my $target = shift;
+ my $type = $targetObj->getType($target);
+
+ ## error checking even for connections are done with attribute checks
+ ## since connections simply create attributes at source and/or destination
+ ##
+ ## also error checking after processing is complete vs during
+ ## processing is easier
+ my %attribute_checks = (
+ SYS => ['SYSTEM_NAME','OPAL_MODEL'],
+ PROC_MASTER => ['I2C_SLAVE_ADDRESS'],
+ PROC => ['FSI_MASTER_CHIP','I2C_SLAVE_ADDRESS'],
+ MEMBUF => [ 'PHYS_PATH', 'EI_BUS_TX_MSBSWAP', 'FSI_MASTER_PORT|0xFF' ],
+ DIMM => ['EEPROM_VPD_PRIMARY_INFO/devAddr'],
+ );
+ my %error_msg = (
+ 'EEPROM_VPD_PRIMARY_INFO/devAddr' =>
+ 'I2C connection to target is not defined',
+ 'FSI_MASTER_PORT' => 'This target is missing a required FSI connection',
+ 'FSI_MASTER_CHIP' => 'This target is missing a required FSI connection',
+ 'EI_BUS_TX_MSBSWAP' =>
+ 'DMI connection is missing to this membuf from processor',
+ 'PHYS_PATH' =>'DMI connection is missing to this membuf from processor',
+ 'I2C_SLAVE_ADDRESS' =>'I2C connection is missing from BMC to processor',
+ );
+
+ my @errors;
+ if ($targetObj->getMasterProc() eq $target)
+ {
+ $type = "PROC_MASTER";
+ }
+ foreach my $attr (@{ $attribute_checks{$type} })
+ {
+ my ($a, $v) = split(/\|/, $attr);
+ my ($a_complex, $field) = split(/\//, $a);
+ if ($field ne "")
+ {
+ if ($targetObj->isBadComplexAttribute(
+ $target, $a_complex, $field, $v) )
+ {
+ push(@errors,sprintf(
+ "$a attribute is invalid (Target=%s)\n\t%s\n",
+ $target, $error_msg{$a}));
+ }
+ }
+ else
+ {
+ if ($targetObj->isBadAttribute($target, $a, $v))
+ {
+ push(@errors,sprintf(
+ "$a attribute is invalid (Target=%s)\n\t%s\n",
+ $target, $error_msg{$a}));
+ }
+ }
+ }
+ if ($type eq "PROC")
+ {
+ ## note: DMI is checked on membuf side so don't need to check that here
+ ## this checks if at least 1 abus is connected
+ my $found_abus = 0;
+ my $abus_error = "";
+ foreach my $child (@{ $targetObj->getTargetChildren($target) })
+ {
+ my $child_type = $targetObj->getBusType($child);
+ if ($child_type eq "ABUS" || $child_type eq "XBUS")
+ {
+ if ($targetObj->getMasterProc() ne $target)
+ {
+ if (!$targetObj->isBadAttribute($child, "PEER_TARGET"))
+ {
+ $found_abus = 1;
+ }
+ else
+ {
+ $abus_error = sprintf(
+"proc not connected to proc via Abus or Xbus (Target=%s)",$child);
+ }
+ }
+ }
+ }
+ if ($found_abus)
+ {
+ $abus_error = "";
+ }
+ else
+ {
+ push(@errors, $abus_error);
+ }
+ }
+ if ($errors[0])
+ {
+ foreach my $err (@errors)
+ {
+ print "ERROR: $err\n";
+ }
+ $targetObj->myExit(3);
+ }
+}
+
+sub printUsage
+{
+ print "
+processMrwl.pl -x [XML filename] [OPTIONS]
+Options:
+ -f = force output file creation even when errors
+ -d = debug mode
+ -s [SDR XML file] = import SDRs
+ -r = create report and save to [system_name].rpt
+ -v = version
+";
+ exit(1);
+}
--
1.8.2.2