# IBM_PROLOG_BEGIN_TAG 
# This is an automatically generated prolog. 
#  
# bos61J src/bos/usr/lpp/bosinst/image.template/image.template 1.23.1.39 
#  
# Licensed Materials - Property of IBM 
#  
# COPYRIGHT International Business Machines Corp. 1993,2009 
# All Rights Reserved 
#  
# US Government Users Restricted Rights - Use, duplication or 
# disclosure restricted by GSA ADP Schedule Contract with IBM Corp. 
#  
# @(#) 41 1.23.1.39 src/bos/usr/lpp/bosinst/image.template/image.template, bosinst, bos61J, 0935A_61J 8/12/09 12:53:55
# IBM_PROLOG_END_TAG 
#
#   COMPONENT_NAME: BOSINST
#
#   FUNCTIONS: none
#
#   ORIGINS: 27
#
#
#   (C) COPYRIGHT International Business Machines Corp. 1993
#   All Rights Reserved
#   Licensed Materials - Property of IBM
#   US Government Users Restricted Rights - Use, duplication or
#   disclosure restricted by GSA ADP Schedule Contract with IBM Corp.
#
#
#
#
# This first section is the description of this file.  It contains comments and
# descriptions of the stanzas and fields.
#
# NOTE:  After this first comment section ends, COMMENTS WILL NOT BE ALLOWED.
#
# NOTE: Stanzas follow these rules:
#       1. Stanza names must be at the beginning of the line and end in a colon.
#       2. Comments may be after the colon, but THAT'S THE ONLY PLACE!!!! other
#          than here in the header.  Even then, don't expect those comments
#          to be put back where they were after BOS install gets done processing
#          this file.  We reserve the right to mangle and ignore all comments
#          which are not placed in this header.
#       3. Stanza fields are on lines following stanza names,  Stanza fields
#          must NOT begin at the beginning of the line, but must have tabs or
#          blanks in front of them.
#       4. There can be no blank lines between field lines of the same stanza.
#       5. A blank line MUST separate each stanza.  In other words, after the
#          last field line of the stanza, a blank line must follow before the
#          line containing the stanza name of the next stanza.
#
# NOTE: In this comment section, the values listed in the fields are the
#       possible ones separated by a comma.  You must pick only one if you are
#       creating stanzas after the comment section.  Field options listed in
#       angle brackets (<...>) are descriptions of the field and not actually
#       the values which would go in the field.
#
#
# image_data stanza is used by BOS install to determine if product install or
#  mksysb.
# image_data:
#     IMAGE_TYPE=
#     DATE_TIME=
#     UNAME_INFO=
#     LICENSE_INFO=
#     PRODUCT_TAPE= yes,no
#     USERVG_LIST=
#     OSLEVEL=
#     CPU_ID=
#
#  Shrink or exact fit?  If EXACT_FIT is yes, the disks listed in the
#  source_disk_data stanza MUST be the same in all respects (including location)
#  as the disks found on the target machine during install.
# logical_volume_policy:
#     SHRINK=yes,no
#     EXACT_FIT=yes,no
#
# ils_data:  # Used by BOS install to set language during BOS install.
#     LANG=C,zh_TW,da_DK,nl_BE,nl_NL,en_GB,en_US,<etc...>
#
#
# source_disk_data:  # Disks in rootvg before the mksysb backup.
#     PVID=
#     PHYSICAL_LOCATION=
#     CONNECTION=
#     LOCATION=
#     SIZE_MB=
#     HDISKNAME=
#
#
# #Command used for vg_data: lsvg
# For the default image.data file, the PPSIZE stanza MUST!!!!!!! be left blank.
# If you are creating a custom one, you may fill it in if you know what size
# you think you want.  Otherwise, BOS install will pick one.
# vg_data:
#     VGNAME= rootvg,<user-defined vg name>
#     PPSIZE=
#     VARYON= yes
#     VG_SOURCE_DISK_LIST=<space separated list of disks in the volume group>
#     QUORUM = <QUORUM from lsvg output>,1,2,... <optional field, 1 causes
#               QUORUM checking to be disabled with chvg -Q n, all other values
#               are ignored by BOS Install>
#     ENH_CONC_CAPABLE= no,yes
#     CONC_AUTO = no,yes <optional field, autovaryon volume group in concurrent mode>
#     BIGVG= no,yes,svg <no - volume group supporting 32 phyiscal volumes,
#            yes - creates a big vg volume group, up to 128 physical volumes,
#            svg - creates scalable volume group that can accommodate more than
#            128 physical volumes> cannot set to svg with rootvg, rootvg cannot
#            accommodate more than 128 physical volumes
#     TFACTOR=<changes limit of the number of physical partitions per physical
#              volume, between 1 and 16 ( or between 1 and 64 for big vg format #              volume groups>
#     # The following two (MAXLVS and MAXPPSPERVG) are only valid for
#     # scalable-type volume groups.
#     MAXLVS= 256,512,1024,2048,4096
#     MAXPPSPERVG= 32,64,128,256,512,768,1024,2048
#
# #Command used for lv_data: lslv
#  lv_data describes each logical volume.  There will be one for each lv
#  to be created on the system.
# lv_data:
#     VOLUME_GROUP=rootvg,<user-defined-vg-name>
#     LV_SOURCE_DISK_LIST=<list of disks which this lv should go into>
#     LV_IDENTIFIER=<not used>
#     LOGICAL_VOLUME=<name of logical volume; example: hd2 cannot contain /dev/>
#     VG_STAT=
#     TYPE=paging,jfslog,boot,jfs,<etc...>
#     MAX_LPS=<maximum number of lps that can be in the lv>
#     COPIES=1,2,3
#     LPs=<number of logical partitions which should be in the lv>
#     STALE_PPs=
#     INTER_POLICY= minimum, maximum
#     INTRA_POLICY= middle,center,edge,inner middle,inner edge
#     MOUNT_POINT=<if TYPE = jfs, this is the mount point of the file system>
#     MIRROR_WRITE_CONSISTENCY= off,on
#     LV_SEPARATE_PV= yes,no
#     PERMISSION=read/write,read/only,<etc...>
#     LV_STATE=
#     WRITE_VERIFY= off,on
#     PP_SIZE=<physical partition size of the value listed in LPs = >
#     SCHED_POLICY=
#     PP=<number of physical partitions needed to create this lv (COPIES * LPS)>
#     BB_POLICY=
#     RELOCATABLE= yes,no
#     UPPER_BOUND=
#     LABEL=<essentially a comment area for this lv>
#     MAPFILE=<full path name to a map file to be used in creating this lv>
#     LV_MIN_LPS=<minimum number of LPs, based on FS_MIN_SIZE, for SHRINK=yes>
#     STRIPE_WIDTH=<number of physical volumes being striped across>
#     STRIPE_SIZE=<number of bytes per stripe. Must be a power of 2 between
#                  4K and 128K, for example, 4K, 8K, 64K, 128K>
#     SERIALIZE_IO= yes,no
#     FS_TAG= <fs from logical volume control block (LVCB)>
#     DEV_SUBTYP=<value of DS_LVZ indicates logical volume control block will
#                 not occupy the first block of the logical volume>
#
# #Command used for fs_data: df, lsjfs
# # fs_data is the stanza used in creating the file systems on top of the lvs.
# # (I violated my own rule in the following stanza on the FS_MIN_SIZE field.
# #  I put a new-line after the FS_MIN_SIZE field and more description.  This
# #  would not normally be allowed.  If, for some reason the value extends
# #  beyond the end of the screen, just let it wrap.  A new-line will mess up
# #  the parser.)
# fs_data:
#     FS_NAME=<mount point of file system>
#     FS_SIZE=< size in 512-byte blocks of the file system >
#     FS_MIN_SIZE=< minimum size required to contain the files of the file
#                   system.  This size is used when SHRINK = yes.>
#     FS_LV=<name of logical volume: example: /dev/hd4, must contain /dev/>
#
# Specific to jfs (journaled file system)
#     FS_FS=< fragmentation size of file system (optional) >
#     FS_NBPI=< number of bytes per inode (optional) >
#     FS_COMPRESS=LZ,no < LZ will compress file system (optional) >
#     FS_BF= true,false,<filesystem enabled for > 2GB files>
#     FS_AGSIZE= 8,16,32,64,<filesystem allocation group size>
#
# Specific to jfs2 (enhanced journaled file system)
#     FS_JFS2_BS=<file system block size, can be 512,1024,2048, or 4096 bytes>
#     FS_JFS2_SPARSE= yes,no
#     FS_JFS2_INLINELOG= yes,no
#     FS_JFS2_SIZEINLINELOG=<size of optional inline journal log>
#     FS_JFS2_EAFORMAT= v1,v2
#     FS_JFS2_QUOTA= no,userquota,groupquota <can be userquota,groupquota>
#     FS_JFS2_DMAPI= yes,no
#     FS_JFS2_VIX= yes,no
#     FS_JFS2_EFS= yes,no
#
# file name of optional command to run after BOS install has completed.
# post_install_data:
#     BOSINST_FILE=<file name>
#

image_data:
	IMAGE_TYPE=
	DATE_TIME=
	UNAME_INFO=
	LICENSE_INFO=
	PRODUCT_TAPE= yes
	USERVG_LIST=
	OSLEVEL=
	CPU_ID=
	LPAR_ID=


logical_volume_policy:
	SHRINK=
	EXACT_FIT=


ils_data:
	LANG=


source_disk_data:
	PVID=
	PHYSICAL_LOCATION=
	CONNECTION=
	HDISKNAME=
	LOCATION=
	SIZE_MB=


vg_data:
	VGNAME= rootvg
	PPSIZE=
	VARYON= yes
	VG_SOURCE_DISK_LIST=


lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd6
	VG_STAT= active/complete
	TYPE= paging
	MAX_LPS= 512
	COPIES= 1
	LPs= 4
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= middle
	MOUNT_POINT=
	MIRROR_WRITE_CONSISTENCY= off
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 4
	BB_POLICY= non-relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= None
	MAPFILE=
	LV_MIN_LPS=4
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd5
	VG_STAT= active/complete
	TYPE= boot
	MAX_LPS= 512
	COPIES= 1
	LPs= 1
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= edge
	MOUNT_POINT= /blv
	MIRROR_WRITE_CONSISTENCY= on
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= closed/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 1
	BB_POLICY= non-relocatable
	RELOCATABLE= no
	UPPER_BOUND= 32
	LABEL= None
	MAPFILE=
	LV_MIN_LPS= 1
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd8
	VG_STAT= active/complete
	TYPE= jfslog
	MAX_LPS= 512
	COPIES= 1
	LPs= 1
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= center
	MOUNT_POINT=
	MIRROR_WRITE_CONSISTENCY= off
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 1
	BB_POLICY= relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= None
	MAPFILE=
	LV_MIN_LPS= 1
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd4
	VG_STAT= active/complete
	TYPE= jfs
	MAX_LPS= 512
	COPIES= 1
	LPs= 240
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= center
	MOUNT_POINT= /
	MIRROR_WRITE_CONSISTENCY= on
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 240
	BB_POLICY= relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= /
	MAPFILE=
	LV_MIN_LPS= 240
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd2
	VG_STAT= active/complete
	TYPE= jfs
	MAX_LPS= 512
	COPIES= 1
	LPs= 32
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= center
	MOUNT_POINT= /usr
	MIRROR_WRITE_CONSISTENCY= on
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 32
	BB_POLICY= relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= /usr
	MAPFILE=
	LV_MIN_LPS= 32
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd9var
	VG_STAT= active/complete
	TYPE= jfs
	MAX_LPS= 512
	COPIES= 1
	LPs= 40
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= center
	MOUNT_POINT= /var
	MIRROR_WRITE_CONSISTENCY= on
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 40
	BB_POLICY= relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= /var
	MAPFILE=
	LV_MIN_LPS= 40
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd3
	VG_STAT= active/complete
	TYPE= jfs
	MAX_LPS= 512
	COPIES= 1
	LPs= 24
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= center
	MOUNT_POINT= /tmp
	MIRROR_WRITE_CONSISTENCY= on
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 24
	BB_POLICY= relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= /tmp
	MAPFILE=
	LV_MIN_LPS= 24
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd1
	VG_STAT= active/complete
	TYPE= jfs
	MAX_LPS= 512
	COPIES= 1
	LPs= 1
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= center
	MOUNT_POINT= /home
	MIRROR_WRITE_CONSISTENCY= on
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 1
	BB_POLICY= relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= /home
	MAPFILE=
	LV_MIN_LPS= 1
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd10opt
	VG_STAT= active/complete
	TYPE= jfs
	MAX_LPS= 512
	COPIES= 1
	LPs= 80
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= center
	MOUNT_POINT= /opt
	MIRROR_WRITE_CONSISTENCY= on
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 80
	BB_POLICY= relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= /opt
	MAPFILE=
	LV_MIN_LPS= 80
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

lv_data:
	VOLUME_GROUP= rootvg
	LV_SOURCE_DISK_LIST=
	LV_IDENTIFIER=
	LOGICAL_VOLUME= hd11admin
	VG_STAT= active/complete
	TYPE= jfs
	MAX_LPS= 512
	COPIES= 1
	LPs= 1
	STALE_PPs= 0
	INTER_POLICY= minimum
	INTRA_POLICY= center
	MOUNT_POINT= /admin
	MIRROR_WRITE_CONSISTENCY= on
	LV_SEPARATE_PV= yes
	PERMISSION= read/write
	LV_STATE= opened/syncd
	WRITE_VERIFY= off
	PP_SIZE= 128
	SCHED_POLICY= parallel
	PP= 1
	BB_POLICY= relocatable
	RELOCATABLE= yes
	UPPER_BOUND= 32
	LABEL= /admin
	MAPFILE=
	LV_MIN_LPS= 1
	STRIPE_WIDTH=
	STRIPE_SIZE=
	SERIALIZE_IO=

fs_data:
	FS_NAME= /
	FS_SIZE= 31457280
	FS_MIN_SIZE= 31457280
	FS_LV= /dev/hd4
	FS_FS=
	FS_NBPI=2048
	FS_COMPRESS=
	FS_BF=
	FS_AGSIZE=


fs_data:
	FS_NAME= /usr
	FS_SIZE= 4194304
	FS_MIN_SIZE= 4194304
	FS_LV= /dev/hd2
	FS_FS=
	FS_NBPI=
	FS_COMPRESS=
	FS_BF=
	FS_AGSIZE=


fs_data:
	FS_NAME= /var
	FS_SIZE= 5242880
	FS_MIN_SIZE= 5242880
	FS_LV= /dev/hd9var
	FS_FS=
	FS_NBPI=4096
	FS_COMPRESS=
	FS_BF=true
	FS_AGSIZE=64


fs_data:
	FS_NAME= /tmp
	FS_SIZE= 3145728
	FS_MIN_SIZE= 3145728
	FS_LV= /dev/hd3
	FS_FS=
	FS_NBPI=
	FS_COMPRESS=
	FS_BF=
	FS_AGSIZE=


fs_data:
	FS_NAME= /home
	FS_SIZE= 8192
	FS_MIN_SIZE= 8192
	FS_LV= /dev/hd1
	FS_FS= 512
	FS_NBPI=
	FS_COMPRESS=
	FS_BF=
	FS_AGSIZE=


fs_data:
	FS_NAME= /opt
	FS_SIZE= 10485760
	FS_MIN_SIZE= 10485760
	FS_LV= /dev/hd10opt
	FS_FS= 512
	FS_NBPI=
	FS_COMPRESS=
	FS_BF=
	FS_AGSIZE=

fs_data:
	FS_NAME= /admin
	FS_SIZE= 262144
	FS_MIN_SIZE= 262144
	FS_LV= /dev/hd11admin
	FS_FS=
	FS_NBPI=
	FS_COMPRESS=
	FS_BF=
	FS_AGSIZE=


post_install_data:
	BOSINST_FILE=