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imagine.sh
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imagine.sh
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#!/bin/sh
#-
# SPDX-License-Identifier: BSD-2-Clause-FreeBSD
#
# Copyright 2022, 2023, 2024 Michael Dexter
# All rights reserved
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted providing that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
# DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
# STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
# IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
# Version v.0.5.4beta
# imagine.sh - a disk image imager for virtual and hardware machines
# MOTIVATION
# This is project motivated by the simple notion that "generic" raw boot images
# can be retrieved and booted on "generic" hardware and virtual machines.
# Unfortunately, operating systems are highly-inconsistent in providing
# "generic" raw boot images. The top issues are:
# * Lack of raw images (QEMU, VHDX, VDI, VMDK, etc. are obsoleted by OpenZFS)
# * Lack of "Latest" links (aliases to the most recent versions)
# * Lack of BIOS/Legacy and QEMU images
# * Inconsistent and/or ambiguous file naming with architecture
# SUPPORTED IMAGES SOURCES
# Downloaded FreeBSD amd64, arm64, i386, and riscv raw VM-IMAGEs
# Custom build FreeBSD raw VM-IMAGEs such as those build with OccamBSD
# OmniOS amd64 "cloud" images
# Debian amd64 and arm64 "cloud" images
# RouterOS amd64 and arm64 "cloud" images
# Windows autounattend.xml installations performed by bhyve(8)
# SUPPORTED IMAGE DESTINATIONS
# Unmodified copied or expanded images
# Resized copied or expanded images
# Mirrored unmodified or expanded root-on-ZFS images (FreeBSD)
# Physical block storage devices
# Mirrored physical root-on-ZFS block storage devices (FreeBSD only)
# ADDITIONAL OPTIONS
# Specify a work directory
# Resize images (needed for adding sources and other contents)
# Rename zpools (FreeBSD and OmniOS only)
# Keep the images or devices mounted for further configuration
# Include sources (FreeBSD only)
# Generate bhyve, QEMU, and Xen boot scripts
# Generate VMDK-compatible wrappers
# IN SHORT
# You can generate virtual and hardware machines in minutes in not seconds, and,
# combined with occambsd.sh, can build, release, configured, and boot custom
# operating systems in minutes, using mostly in-base tools.
# RELATIONSHIP TO OCCAMBSD
# occambsd.sh -p <profile> -v will build a UFS VM-IMAGE to
# /usr/obj/usr/src/amd64.amd64/release/vm.ufs.raw
# occambsd.sh -p <profile> -v -z will build a ZFS VM-IMAGE to
# /usr/obj/usr/src/amd64.amd64/release/vm.zfs.raw
# Accordingly, 'imagine -r raw' and 'imagine -r raw -z' will operate on these
# with flags such as -b for boot scripts, -g for growth, etc.
# CAVEATS
# This intimately follows the FreeBSD Release Engineering mirror layout.
# If the layout changes, this will probably break.
# FreeBSD 15.0-CURRENT VM-IMAGES are now 6GB in size.
# The generated bhyve boot scripts require the bhyve-firmware UEFI package.
# The canonical /media temporary mount point is hard-coded for now.
# The canonical /usr/src directory is hard-coded when using -r obj or a path.
# 'fetch -i' only checks date stamps, allow for false matches on interrupted downloads.
# Xen boot scripts do not support mirrored devices yet
# Running imagine.sh in the working directory will cause existing release versions to be misinterpreted as image paths to be copied.
# This will clean up previous images but not boot scripts.
# /etc/fstab is moved to fstab.original and replaced with an empty file on any
# runs that include advanced zpool handling
# EXAMPLES
# To fetch a 15.0-CURRENT raw boot image to ~/imagine-work/freebsd.raw
#
# sh imagine.sh -r 15.0-CURRENT
# To fetch a 15.0-CURRENT raw boot image and write to /dev/da1
#
# sh imagine.sh -r 15.0-CURRENT -t /dev/da1
# To copy a "make release" VM image from the canonical object directory:
# /usr/obj/usr/src/amd64.amd64/release/vm.ufs.raw to ~/imagine-work/freebsd.raw
#
# sh imagine.sh -r obj
# To copy a boot image from a custom path and name to a custom path and name:
#
# sh imagine.sh -r /tmp/myvm.img -t /tmp/myvmcopy.raw
# Add '-w /tmp/mydir' to override '~/imagine-work' with an existing directory
# Add '-z' to fetch the root-on-ZFS image
# Add '-b' to generate a simple bhyve, xen, and/or QEMU boot scripts depending on the architecture
# Add '-g 10' to grow boot image to 10GB
# The local and fetched source boot images will be always preserved for re-use
# and -o "offline" mode will skip the attempt to check for changes with fetch
# To generate a 10GB RISC-V system with root-on-ZFS and a QEMU boot script:
#
# sh imagine.sh -a riscv -r 14.0-RELEASE -z -g 10 -b
#
# Add '-V' to generate a VMDK that is VMware compatible, because you can
#########
# USAGE #
#########
f_usage() {
echo ; echo "USAGE:"
echo "-O <output directory> (Default: /root/imagine-work)"
echo "-a <architecture> [ amd64 | arm64 | i386 | riscv ] (Default: Host)"
echo "-r [ obj | /path/to/image | <version> | omnios | debian ]"
# HOW ARE obj and path any different? ONE TRIGGERS SRC - obj calculates the
# object directory path, for better or for worse
echo "obj i.e. /usr/obj/usr/src/<target>.<target_arch>/release/vm.ufs.raw"
echo "/path/to/image.raw for an existing image"
echo "<version> i.e. 14.0-RELEASE | 15.0-CURRENT | 15.0-ALPHAn|BETAn|RCn"
echo "-o (Offline mode to re-use fetched releases and src.txz)"
echo "-t <target> [ img | /dev/device | /path/myimg ] (Default: img)"
echo "-T <mirror target> [ img | /dev/device ]"
echo "-f (FORCE imaging to a device without asking)"
echo "-g <gigabytes> (grow image to gigabytes i.e. 10)"
echo "-s (Include src.txz or /usr/src as appropriate)"
echo "-m (Mount image and keep mounted for further configuration)"
echo "-V (Generate VMDK image wrapper)"
echo "-v (Generate VM boot scripts)"
echo "-z (Use a 14.0-RELEASE or newer root on ZFS image)"
echo "-Z <new zpool name>"
echo "-A (Set the ZFS ARC to only cache metadata)"
echo "-x <autounattend.xml file for Windows> (Requires -i and -g)"
echo "-i <Installation ISO file for Windows> (Requires -x and -g)"
echo
exit 0
}
###################################
# INTERNAL VARIABLES AND DEFAULTS #
###################################
work_dir=~/imagine-work # Default - fails if quoted
hw_platform=$( uname -m ) # i.e. arm64
cpu_arch=$( uname -p ) # i.e. aarch64
arch_string=""
release_input=""
offline_mode=0
force=0
release_type=""
release_name=""
release_image_url=""
release_image_file=""
#release_image_xz=""
release_branch=""
fs_type="ufs"
omnios_amd64_url="https://us-west.mirror.omnios.org/downloads/media/stable/omnios-r151050.cloud.raw.zst"
debian_amd64_url="https://cloud.debian.org/images/cloud/bookworm/latest/debian-12-nocloud-amd64.raw"
debian_arm64_url="https://cloud.debian.org/images/cloud/bookworm/latest/debian-12-nocloud-arm64.raw"
#debian_amd64_url="https://cloud.debian.org/images/cloud/bookworm/latest/debian-12-generic-amd64.raw"
#debian_arm64_url="https://cloud.debian.org/images/cloud/bookworm/latest/debian-12-generic-arm64.raw"
routeros_amd64_url="https://download.mikrotik.com/routeros/7.15.3/chr-7.15.3.img.zip"
routeros_arm64_url="https://download.mikrotik.com/routeros/7.15.3/chr-7.15.3-arm64.img.zip"
memtest86_url="https://www.memtest86.com/downloads/memtest86-usb.zip"
attachment_required=0
root_fs=""
root_part=""
root_dev=""
part_scheme=""
scheme=""
root_part=""
zpool_name=""
zpool_rename=0
zpool_newname=""
zfs_arc_metadata=0
#target_input="raw" # Default not helpful if -x
target_input="img" # Default not helpful if -x
target_dev=""
target_dev2=""
target_type=""
target_path=""
target_prefix=""
target_size=""
mirror_path=""
mirror_size=""
force=0
grow_required=0
grow_size=""
include_src=0
mount_required=0
keep_mounted=0
xml_file=""
iso_file=""
vmdk=0
boot_scripts=0
vm_device=""
vm_name="vm0" # Embedded Default
vm_ram="4096" # Embedded Default
vm_cores=1 # Embedded Default
framebuffer_required=0
bhyve_script=""
qemu_script=""
xen_cfg=""
xen_script=""
xen_destroy=""
md_id=42 # Default for easier cleanup if interrupted
#####################################
# USER INPUT AND VARIABLE OVERRIDES #
#####################################
while getopts O:a:r:zZ:At:T:ofg:smVvx:i: opts ; do
case $opts in
O)
work_dir="$OPTARG"
[ -d "$work_dir" ] || mkdir -p "$work_dir"
[ -d "$work_dir" ] || { echo "mkdir -p $work_dir failed" ; exit 1 ; }
;;
a)
case "$OPTARG" in
amd64|arm64|i386|riscv)
hw_platform="$OPTARG"
;;
*)
echo "Invalid architecture"
f_usage
;;
esac
;;
r)
# -r [ <version> | obj | /path/to/image | omnios | debian | routeros ]
# windows is requested by specifying an xml file
release_input="$OPTARG"
;;
o)
offline_mode=1
;;
z)
# Set for download, only modify if getting fancy
fs_type="zfs"
# Not attachment_required if only copying to an image file
;;
t)
[ "$( id -u )" = 0 ] || { echo "Must be root" ; exit 1 ; }
[ "$OPTARG" ] || f_usage
target_input="$OPTARG"
target_prefix=$( printf %.5s "$target_input" )
;;
f)
# Write to a device without prompting for confirmation
force=1
;;
V)
# Could simply add a wrapper to an existing image
vmdk=1
;;
v)
# root required to execute bhyve and Xen boot scripts
boot_scripts=1
;;
g)
grow_required=1
grow_size="$OPTARG"
# Implied numeric validation
[ "$grow_size" -gt 7 ] || \
{ echo "-g must be a number larger than 7" ; exit 1 ; }
attachment_required=1
;;
Z)
[ "$( id -u )" = 0 ] || { echo "Must be root" ; exit 1 ; }
zpool_newname="$OPTARG"
# Consider validation
# Implying this for use as shorthand
fs_type="zfs"
zpool_rename=1
attachment_required=1
;;
A)
zfs_arc_metadata=1
fs_type="zfs"
attachment_required=1
;;
T)
[ "$( id -u )" = 0 ] || { echo "Must be root" ; exit 1 ; }
[ "$OPTARG" ] || f_usage
mirror_path="$OPTARG"
[ "$mirror_path" = "img" ] || [ -c "$mirror_path" ] || \
{ echo "Likely invalid -T input" ; exit 1 ; }
# Mounting is required for fstab modifications
mount_required=1
attachment_required=1
;;
s)
[ "$( id -u )" = 0 ] || { echo "Must be root" ; exit 1 ; }
include_src=1
grow_required=1
mount_required=1
attachment_required=1
;;
m)
# root required to mount the image for extracting in src.txz
mount_required=1
keep_mounted=1
attachment_required=1
;;
x)
# root required for initial boot though it could be QEMU
xml_file="$OPTARG"
[ -r "$xml_file" ] || \
{ echo "$xml_file missing or unreadable" ; exit 1 ; }
boot_scripts=1
# DEBUG Refactor: This might be more than we need
release_name="windows"
release_input="windows" # Mutually exclusive with release_input
framebuffer_required=1
target_type="oneboot"
fs_type="ntfs"
;;
i)
iso_file="$OPTARG"
[ -r "$iso_file" ] || \
{ echo "$iso_file missing or unreadable" ; exit 1 ; }
target_type="oneboot"
;;
*)
f_usage
;;
esac
done
# Get the hardware device write warnings out of the way early
if [ "$target_prefix" = "/dev/" ] ; then
[ -c "$target_input" ] || { echo "$target_input not found" ; exit 1 ; }
if [ "$force" = 0 ] ; then
echo "WARNING! Writing to $target_input !"
diskinfo -v $target_input
echo -n "Continue? (y/n): " ; read confirmation
[ "$confirmation" = "y" ] || exit 0
fi
fi
if [ "$mirror_path" ] || [ "$mirror_path" = "img" ] ; then
[ -c "$mirror_path" ] || { echo "$mirror_path not found" ; exit 1 ; }
if [ "$force" = 0 ] ; then
echo "WARNING! Writing to $mirror_path !"
diskinfo -v $mirror_path
echo -n "Continue? (y/n): " ; read confirmation2
[ "$confirmation2" = "y" ] || exit 0
fi
fi
# Download mirror path expansion for FreeBSD
case "$hw_platform" in
amd64)
cpu_arch="amd64"
arch_string="amd64"
;;
arm64)
cpu_arch="aarch64"
arch_string="arm64-aarch64"
;;
i386)
cpu_arch="i386"
arch_string="i386"
;;
riscv)
cpu_arch="riscv64"
arch_string="riscv-riscv64"
;;
esac
# Needed for ZFS fstab sins
if [ "$fs_type" = "zfs" ] && [ "$grow_required" = 1 ] ; then
mount_required=1
fi
if [ "$fs_type" = "ufs" ] && [ -n "$mirror_path" ] ; then
echo Device mirroring only works with ZFS
fi
######################
# TESTS - FAIL EARLY #
######################
# This test gives a false positive with -t and -T
#if [ "$zpool_newname" ] || [ "$mirror_path" ] ; then
# # A mirror path could give a false positive but better safe than sorry
# zpool get name $zpool_newname > /dev/null 2>&1 && \
#{ echo zpool $zpool_newname in use and will conflict - use -Z ; exit 1 ; }
#fi
if [ "$target_prefix" = "/dev/" ] ; then
[ "$vmdk" = 0 ] || { echo "-v does not support devices" ; exit 1 ; }
fi
if [ "$xml_file" ] ; then
[ "$iso_file" ] || { echo "-x requires -i" ; exit 1 ; }
[ "$include_src" = 0 ] || { echo "-s not supported with -x" ; exit 1 ; }
# Disable this as a second boot does the installation
grow_required=0
[ "$target_input" ] || \
target_input="${work_dir}/windows-${hw_platform}-${fs_type}.raw"
fi
if [ "$iso_file" ] ; then
[ "$xml_file" ] || { echo "-i requires -x" ; exit 1 ; }
fi
[ -n "$release_input" ] || [ -n "$xml_file" ] || \
{ echo "-r <release> or -x/-i are required" ; f_usage ; exit 1 ; }
f_fetch_image () # $1 release_image_file $2 release_image_url
{
# fetch is not idempotent - check if exists before with fetch -i
if [ -r "$1" ] ; then
if [ "$offline_mode" = 0 ] ; then
[ -f "$1" ] && cp $1 ${1}.previous
fetch -a -i "$1" "$2" || \
{ echo "$2 fetch failed" ; exit 1 ; }
fi
else
fetch -a "$2" || \
{ echo "$2 fetch failed" ; exit 1 ; }
fi
}
f_extract () # $1 release_image_file.compression_ending
{
[ -f $1 ] || { echo "$1 not found" ; exit 1 ; }
# Build-in dpv or dd? Some have -v verbose
case ${1##*.} in
xz) xzcat -k -d $1 ;;
zst|zstd) unzstd -k -c $1 ;;
zip) unzip -p $1 ;;
gz) gunzip -k -c $1 ;;
raw|img|dd) cat $1 ;;
*)
echo "Unrecognized compression format"
exit 1
;;
esac
}
f_cleanse_device () # $1 device
{
echo Destroying all partitions on $1
gpart show -l $1 | tail -n+2 | grep . \
| awk '{print $1,$2,$3,$4}' | \
while read _start _stop _id _label ; do
_label=$( echo $_label | tr -d "[:digit:]" )
[ "$_label" = "null" -o "$_label" = "free" ] && break
echo Clearing zpool labels on $_label
zpool labelclear "$_label" >/dev/null 2>&1
done
echo Clearing zpool labels from $1
zpool labelclear "$1" >/dev/null 2>&1
echo Clearing partitions from $1
gpart recover "$1"
gpart destroy -F "$1"
gpart create -s gpt "$1"
gpart destroy -F "$1"
# Required to avoid corrupt zpool metadata (!)
dd if=/dev/zero of=$1 bs=1m count=1 # 1048576 bytes
dd if=/dev/zero of=$1 bs=1m oseek=`diskinfo $1 \
| awk '{print int($3 / (1024*1024)) - 4;}'`
}
#################################
# HEAVY LIFTING FLAG -r RELEASE #
#################################
# Identify or download a source image - hence the name imagine.sh
echo ; echo Status: Beginning -r release handling
if [ "$release_input" = "obj" ] ; then
release_type="raw"
# Better approach? Check all possibilities?
if [ -f "/usr/obj/usr/src/${hw_platform}.${cpu_arch}/release/vm.${fs_type}.raw" ] ; then
release_image_file="/usr/obj/usr/src/${hw_platform}.${cpu_arch}/release/vm.${fs_type}.raw"
elif [ -f "/usr/obj/usr/src/${hw_platform}.${cpu_arch}/release/vm.raw" ] ; then
# Previous release naming
release_image_file="/usr/obj/usr/src/${hw_platform}.${cpu_arch}/release/vm.raw"
else
echo "$release_image_file not found"
exit 1
fi
# A COPY HERE COULD MEAN WE ARE DONE but it needs a work dir to copy to
# and optional boot scripts
elif [ "$release_name" = "windows" ] ; then
echo "Preparing Windows ISO and boot script"
##########
# OMNIOS #
##########
elif [ "$release_input" = "omnios" ] ; then
# TEST AND FAIL EARLY
# Group these tests above?
[ "$include_src" = 1 ] && \
{ echo "-s src not available with OmniOS images" ; exit 1 ; }
[ "$zpool_rename" = 0 ] || \
{ echo "-Z renaming not yet supported" ; exit 1 ; }
[ -n "$mirror_path" ] && \
{ echo "-T mirroring not yet supported" ; exit 1 ; }
release_image_url="$omnios_amd64_url"
release_name="omnios"
release_image_file="$( basename $release_image_url )"
[ -d "${work_dir}/${release_name}" ] || \
mkdir -p "${work_dir}/${release_name}"
[ -d "${work_dir}/${release_name}" ] || \
{ echo "mkdir ${work_dir}/${release_name} failed" ; exit 1 ; }
# Needed for fetch to save the upstream file name
cd "${work_dir}/${release_name}"
f_fetch_image "$release_image_file" "$release_image_url"
##########
# DEBIAN #
##########
elif [ "$release_input" = "debian" ] ; then
release_type="raw"
case "$hw_platform" in
amd64) release_image_url="$debian_amd64_url"
;;
arm64) release_image_url="$debian_arm64_url"
;;
*) echo Invalid hardware architecture ; exit 1
;;
esac
release_name="debian"
release_image_file="$( basename $release_image_url )"
# TEST AND FAIL EARLY - can only test after parsing -r input
[ "$include_src" = 1 ] && \
{ echo "-s src not available with Debian images" ; exit 1 ; }
[ "$fs_type" = "zfs" ] && \
{ echo "-z ZFS not available with Debian images" ; exit 1 ; }
[ -n "$mirror_path" ] && \
{ echo "-T mirroring not supported" ; exit 1 ; }
# Redundant from FreeBSD/xz - refactor if possible
# Create the work directory if missing
[ -d "${work_dir}/${release_name}" ] || \
mkdir -p "${work_dir}/${release_name}"
[ -d "${work_dir}/${release_name}" ] || \
{ echo "mkdir ${work_dir}/${release_name} failed" ; exit 1 ; }
# Needed for fetch to save the upstream file name
cd "${work_dir}/${release_name}"
f_fetch_image "$release_image_file" "$release_image_url"
############
# ROUTEROS #
############
elif [ "$release_input" = "routeros" ] ; then
# For UEFI handling
attachment_required=1
release_type="zip"
case "$hw_platform" in
amd64) release_image_url="$routeros_amd64_url"
;;
arm64) release_image_url="$routeros_arm64_url"
;;
*) echo Invalid hardware architecture ; exit 1
;;
esac
release_name="routeros"
release_image_file="$( basename $release_image_url )"
# TEST AND FAIL EARLY - can only test after parsing -r input
[ "$include_src" = 1 ] && \
{ echo "-s src not available with RouterOS images" ; exit 1 ; }
[ "$fs_type" = "zfs" ] && \
{ echo "-z ZFS not available with RouterOS images" ; exit 1 ; }
[ -n "$mirror_path" ] && \
{ echo "-T mirroring not supported" ; exit 1 ; }
# Redundant from FreeBSD/xz - refactor if possible
[ -d "${work_dir}/${release_name}" ] || \
mkdir -p "${work_dir}/${release_name}"
[ -d "${work_dir}/${release_name}" ] || \
{ echo "mkdir ${work_dir}/${release_name} failed" ; exit 1 ; }
# Needed for fetch to save the upstream file name
cd "${work_dir}/${release_name}"
f_fetch_image "$release_image_file" "$release_image_url"
################
# CUSTOM IMAGE #
################
elif [ -f "$release_input" ] ; then # if a path to an image
# Arbitrary image may have arbitrary sources - manual copy needed
[ "$include_src" = 1 ] && \
{ echo "-s src not available with a custom image" ; exit 1 ; }
custom_image_file="$( basename $release_input )"
release_image_file="$release_input"
custom_image_file="$( basename $release_input )"
release_name="custom"
release_type="raw"
# Note that the vmrun.sh "file" test for boot blocks
#####################
# FREEBSD XZ IMAGES #
#####################
else
# Release version i.e. 15.0-CURRENT
release_type="xz"
echo "$release_input" | grep -q "-" || \
{ echo "Invalid release" ; exit 1 ; }
echo "$release_input" | grep -q "FreeBSD" && \
{ echo "Invalid release" ; exit 1 ; }
# Do we want to harmonize release_name="freebsd"?
release_name="$release_input"
release_version=$( echo "$release_input" | cut -d "-" -f 1 )
# Further validate the numeric version?
release_build=$( echo "$release_input" | cut -d "-" -f 2 )
case "$release_build" in
CURRENT|STABLE)
release_branch="snapshots"
;;
*)
release_branch="releases"
# This is a false assumption for ALPHA builds
;;
esac
# THIS CAN BE A MOVING TARGET
release_image_url="https://download.freebsd.org/${release_branch}/VM-IMAGES/${release_name}/${cpu_arch}/Latest/FreeBSD-${release_name}-${arch_string}-${fs_type}.raw.xz"
release_image_file="$( basename $release_image_url )"
[ -d "${work_dir}/${release_name}" ] || \
mkdir -p "${work_dir}/${release_name}"
[ -d "${work_dir}/${release_name}" ] || \
{ echo "mkdir ${work_dir}/${release_name} failed" ; exit 1 ; }
# Needed for fetch to save the upstream file name
cd "${work_dir}/${release_name}"
f_fetch_image "$release_image_file" "$release_image_url"
release_dist_url="https://download.freebsd.org/${release_branch}/$arch_string/$release_name"
src_url="https://download.freebsd.org/${release_branch}/${hw_platform}/${cpu_arch}/${release_name}/src.txz"
if [ "$include_src" = 1 ] ; then
if [ -r "src.txz" ] ; then
if [ "$offline_mode" = 0 ] ; then
fetch -a -i src.txz "$src_url" || \
{ echo "$src_url fetch failed" ; exit 1 ; }
fi
else
fetch -a "$src_url" || \
{ echo "$src_url fetch failed" ; exit 1 ; }
fi
fi
fi # End -r RELEASE HEAVY LIFTING
################################
# HEAVY LIFTING FLAG -t TARGET #
################################
# Default is img which can be user specified, a device under /dev/, or
# a path to a file
echo ; echo Status: Beginning -t target handling
if [ "$target_input" = "img" ] ; then
target_type="img"
[ -d "$work_dir" ] || mkdir -p "$work_dir"
[ -d "$work_dir" ] || { echo "mkdir -p $work_dir failed" ; exit 1 ; }
if [ -n "$mirror_path" ] ; then
[ "$mirror_path" = "img" ] || \
{ echo "-t and -T must both be images" ; exit 1 ; }
fi
if [ "$release_name" = "omnios" ] ; then
fs_type="zfs"
target_path="${work_dir}/omnios-${hw_platform}-${fs_type}.raw"
elif [ "$release_name" = "debian" ] ; then
fs_type="ext4"
target_path="${work_dir}/debian-${hw_platform}-${fs_type}.raw"
elif [ "$release_name" = "routeros" ] ; then
fs_type="ext4"
target_path="${work_dir}/routeros-${hw_platform}-${fs_type}.raw"
elif [ "$release_name" = "windows" ] ; then
fs_type="ntfs"
target_path="${work_dir}/windows-${hw_platform}-${fs_type}.raw"
elif [ "$release_name" = "custom" ] ; then
fs_type=""
target_path="${work_dir}/$custom_image_file"
else
# Challenge: FreeBSD does not have a notion of release_name
# TEST with "path" because that might get inserted
target_path="${work_dir}/FreeBSD-${hw_platform}-${release_input}-${fs_type}.raw"
fi
elif [ "$target_prefix" = "/dev/" ] ; then
grow_required=1
target_type="dev"
target_dev="$target_input"
# This is important for distinguishing extra ZFS handling
attachment_required=1
if [ -n "$mirror_path" ] ; then
[ "$mirror_path" = "img" ] && \
{ echo "-t and -T must both be devices" ; exit 1 ; }
target_dev2="$mirror_path"
target_size=$( diskinfo $target_dev | cut -f 3 )
mirror_size=$( diskinfo $target_dev2 | cut -f 3 )
if [ "$target_size" -gt "$mirror_size" ] ; then
echo ; echo Mirror device smaller than target
exit 1
fi
f_cleanse_device $target_dev2
fi
# After the size comparison in case the user backs out
f_cleanse_device $target_dev
elif [ "$target_type" = "oneboot" ] ; then
echo "Preparing for installation upon oneboot"
else # Input is a path to an image or invalid
# Validate parent directory
[ -d $( dirname "$target_input" ) ] || \
{ echo "-t directory path does not exist" ; exit 1 ; }
[ -w $( dirname "$target_input" ) ] || \
{ echo "-t directory path is not writable" ; exit 1 ; }
# Not true if Windows...
target_type="path"
target_path="$target_input"
fi # End -t TARGET HEAVY LIFTING
# grow_required=1 could have been set by target_type="dev"
# Test is regardless of where it was set
# Want grow for a device but do not need a size as it will use the whole dev
if [ "$grow_required" = 1 ] ; then
if [ ! "$target_type" = "dev" ] ; then
[ "$grow_size" ] || { echo "-g size required" ; exit 1 ; }
fi
fi
###########
# WINDOWS #
###########
echo ; echo Status: Checking iso_file for Windows
if [ "$xml_file" ] && [ "$iso_file" ] ; then
[ "$vmdk" = 1 ] && \
{ echo "Windows mode does not support VMDK" ; exit 1 ; }
# Ignore other unsupported flags at the risk of disappointment
# This will take care of quite a few of them
mount_required=0
include_src=0
attachment_required=0
which 7z > /dev/null 2>&1 || \
{ echo "7-zip package not installed" ; exit 1 ; }
which mkisofs > /dev/null 2>&1 || \
{ echo "cdrtools package not installed" ; exit 1 ; }
which xmllint > /dev/null 2>&1 || \
{ echo "libxml2 package not installed" ; exit 1 ; }
[ -d $work_dir/windows/iso ] || mkdir -p $work_dir/windows/iso
[ -d $work_dir/windows/iso ] || \
{ echo Making $work_dir/windows/iso failed ; exit 1 ; }
[ -f $work_dir/windows/iso/autorun.inf ] && \
rm -rf $work_dir/windows/iso/*
# Copy before changing directory and to validate early
echo ; echo Copying in $work_dir/windows/iso/autounattend.xml
cp $xml_file $work_dir/windows/iso/autounattend.xml || \
{ echo $xml_file copy failed ; exit 1 ; }
echo ; echo Validating $work_dir/windows/iso/autounattend.xml
xmllint --noout $work_dir/windows/iso/autounattend.xml ||
{ echo $work_dir/windows/iso/autounattend.xml failed to validate ; exit 1 ; }
cd $work_dir/windows/iso
echo ; echo Extracting $iso_file to $work_dir/windows/iso with 7z
7z x $iso_file || { echo UDF extraction failed ; exit 1 ; }
echo ; ls $work_dir/windows/iso
# Borrowing this convention for now
# TELL THE USER IT BEHAVES DIFFERENTLY - could copy things to the ISO
# and place them in with syntax in autounattend.xml
if [ "$keep_mounted" = "1" ] ; then
echo ; echo Pausing to allow manual configuration in another console
echo such as copying files to $work_dir/windows/iso
echo Press any key when ready to re-master the ISO
read waiting
fi
[ -f $work_dir/windows/iso/setup.exe ] || \
{ echo $work_dir/windows/iso/Setup.exe missing ; exit 1 ; }
echo ; echo Remastering ISO
mkisofs \
-quiet \
-b boot/etfsboot.com -no-emul-boot -c BOOT.CAT \
-iso-level 4 -J -l -D \
-N -joliet-long \
-relaxed-filenames \
-V "Custom" -udf \
-boot-info-table -eltorito-alt-boot -eltorito-platform 0xEF \
-eltorito-boot efi/microsoft/boot/efisys_noprompt.bin \
-no-emul-boot \
-o $work_dir/windows/windows.iso $work_dir/windows/iso || \
{ echo mkisofs failed ; exit 1 ; }
echo ; echo The resulting ISO image is $work_dir/windows/install.iso
cd -
# GENERATE WINDOWS ONE-TIME BOOT SCRIPTS
# Consider a warning that it will be writing to a device
# boot-windows-iso.sh to boot once to the ISO for auto-installation
#########
# BHYVE #
#########
# Used here and below
fbuf_string="-s 29,fbuf,tcp=0.0.0.0:5900,w=1024,h=768 -s 30,xhci,tablet"
cat << HERE > $work_dir/bhyve-windows-iso.sh
#!/bin/sh
[ -e /dev/vmm/$vm_name ] && { bhyvectl --destroy --vm=$vm_name ; sleep 1 ; }
[ -f /usr/local/share/uefi-firmware/BHYVE_UEFI.fd ] || \\
{ echo \"BHYVE_UEFI.fd missing\" ; exit 1 ; }
kldstat -q -m vmm || kldload vmm
HERE
if [ "$target_type" = "img" ] ; then
# Needed now and for later bhyve boot scripts use
vm_device="$target_path"
# Note the >> to not overwrite
cat << HERE >> $work_dir/bhyve-windows-iso.sh
echo ; echo Removing previous $vm_device if present
[ -f $vm_device ] && rm $vm_device
echo ; echo truncating ${grow_size}GB $vm_device
truncate -s ${grow_size}G $vm_device
HERE
else
vm_device="$target_dev"
fi
# Note the >> to not overwrite
cat << HERE >> $work_dir/bhyve-windows-iso.sh
bhyve -c 2 -m $vm_ram -H -A -D \\
-l com1,stdio \\
-l bootrom,/usr/local/share/uefi-firmware/BHYVE_UEFI.fd \\
-s 0,hostbridge \\
-s 1,ahci-cd,$work_dir/windows/windows.iso \\
-s 2,nvme,$vm_device \\
$fbuf_string \\
-s 31,lpc \\
$vm_name
sleep 2
bhyvectl --destroy --vm=$vm_name
HERE
echo Note: bhyve-windows-iso.sh
########
# QEMU #
########
cat << HERE > $work_dir/qemu-windows-iso.sh
#!/bin/sh
[ -f /usr/local/bin/qemu-system-x86_64 ] || \\
{ echo qemu-system-x86_64 not found ; exit ; }
[ -f /usr/local/share/edk2-qemu/QEMU_UEFI-x86_64.fd ] || \\
{ echo edk2-qemu-x64 not found ; exit ; }
HERE
if [ "$target_type" = "img" ] ; then
# Needed now and for later bhyve boot scripts use
vm_device="$target_path"