Script to generate minimal boot images for each of the 24 supported

boot images for x86. This will be enhanced to generate all the other
images (u-boot, powerpc CHRP, etc).

At the moment, it's only generating three of them. zfs+gpt+legacy
works with qemu:
	qemu-system-x86_64 --drive file=${file},format=raw -serial telnet::4444,server
but the ufs ones still have issues I'm tracking down.

These images are the boot blocks, /boot/loader, a kernel, maybe a
couple of modules, /sbin/init, /bin/sh, /libexec/ld-elf.so, libc.so,
libedit and libncursesw. This is just enough to get to single user. At
the moment, these come from the host system, but should come from
OBJTOP.

At the moment, this requires root to build since the zfs tools require
it (and GELI will too when we add support for that).

Sponsored by: Netflix

tools/boot/rootgen.sh

@@ -0,0 +1,213 @@
+#!/bin/sh
+
+# $FreeBSD$
+
+#
+# Builds all the bat-shit crazy combinations we support booting from,
+# at least for amd64. It assume you have a ~sane kernel in /boot/kernel
+# and copies that into the ~150MB root images we create (we create the du
+# size of the kernel + 20MB
+#
+# Sad panda sez: this runs as root, but could be userland if someone
+# creates userland geli and zfs tools.
+#
+# This assumes an external prograam install-boot.sh which will install
+# the appropriate boot files in the appropriate locations.
+#
+# These images assume ada0 will be the root image. We should likely
+# use labels, but we don't.
+#
+# ASsumes you've already rebuilt... maybe bad? Also maybe bad: the env
+# vars should likely be conditionally set to allow better automation.
+#
+
+cpsys() {
+    src=$1
+    dst=$2
+
+    # Copy kernel + boot loader
+    (cd $src ; tar cf - .) | (cd $dst; tar xf -)
+}
+
+mk_nogeli_gpt_ufs_legacy() {
+    src=$1
+    img=$2
+
+    rm -f ${img} ${img}.p2
+    makefs -t ffs -B little -s 200m ${img}.p2 ${src}
+    mkimg -s gpt -b ${src}/boot/pmbr \
+	  -p freebsd-boot:=${src}/boot/gptboot \
+	  -p freebsd-ufs:=${img}.p2 -o ${img}
+}
+
+mk_nogeli_gpt_ufs_uefi() {
+    src=$1
+    img=$2
+
+    rm -f ${img} ${img}.p2
+    makefs -t ffs -B little -s 200m ${img}.p2 ${src}
+    mkimg -s gpt -b ${src}/boot/pmbr \
+	  -p freebsd-boot:=${src}/boot/gptboot \
+	  -p freebsd-ufs:=${img}.p2 -o ${img}
+}
+
+mk_nogeli_gpt_ufs_both() {
+    src=$1
+    img=$2
+
+    makefs -t ffs -B little -s 200m ${img}.p3 ${src}
+    # p1 is boot for uefi, p2 is boot for gpt, p3 is /
+    mkimg -b ${src}/boot/pmbr -s gpt \
+	  -p efi:=${src}/boot/boot1.efifat \
+	  -p freebsd-boot:=${src}/boot/gptboot \
+	  -p freebsd-ufs:=${img}.p3 \
+	  -o ${img}
+}
+
+mk_nogeli_gpt_zfs_legacy() {
+    src=$1
+    img=$2
+    mntpt=$3
+    geli=$4
+    scheme=$5
+    fs=$6
+    bios=$7
+    pool=nogeli-gpt-zfs-legacy
+
+    rm -f ${img}
+    dd if=/dev/zero of=${img} count=1 seek=$((200 * 1024 * 1024 / 512))
+    md=$(mdconfig -f ${img})
+    gpart create -s gpt ${md}
+    gpart add -t freebsd-boot -s 400k -a 4k	${md}	# <= ~540k
+    gpart add -t freebsd-zfs -l root $md
+    # install-boot will make this bootable
+    zpool create -O mountpoint=none -R ${mntpt} ${pool} ${md}p2
+    zpool set bootfs=${pool} ${pool}
+    zfs create -o mountpoint=/ ${pool}/ROOT
+    # NB: The online guides go nuts customizing /var and other mountpoints here, no need
+    cpsys ${src} ${mntpt}
+    df
+    # need to make a couple of tweaks
+    cat > ${mntpt}/boot/loader.conf <<EOF
+zfs_load=YES
+opensolaris_load=YES
+EOF
+    cp /boot/kernel/zfs.ko ${mntpt}/boot/kernel/zfs.ko
+    cp /boot/kernel/opensolaris.ko ${mntpt}/boot/kernel/opensolaris.ko
+    # end tweaks
+    zfs umount -f ${pool}/ROOT
+    zfs set mountpoint=none ${pool}/ROOT
+    zpool set bootfs=${pool}/ROOT ${pool}
+    zpool set autoexpand=on ${pool}
+    zpool export ${pool}
+    ${SRCTOP}/tools/boot/install-boot.sh -g ${geli} -s ${scheme} -f ${fs} -b ${bios} -d ${src} ${md}
+    mdconfig -d -u ${md}
+}
+
+mk_nogeli_gpt_zfs_uefi() {
+}
+
+mk_nogeli_gpt_zfs_both() {
+}
+
+mk_nogeli_mbr_ufs_legacy() {
+}
+
+mk_nogeli_mbr_ufs_uefi() {
+}
+
+mk_nogeli_mbr_ufs_both() {
+}
+
+mk_nogeli_mbr_zfs_legacy() {
+}
+
+mk_nogeli_mbr_zfs_uefi() {
+}
+
+mk_nogeli_mbr_zfs_both() {
+}
+
+mk_geli_gpt_ufs_legacy() {
+}
+
+mk_geli_gpt_ufs_uefi() {
+}
+
+mk_geli_gpt_ufs_both() {
+}
+
+mk_geli_gpt_zfs_legacy() {
+}
+
+mk_geli_gpt_zfs_uefi() {
+}
+
+mk_geli_gpt_zfs_both() {
+}
+
+mk_geli_mbr_ufs_legacy() {
+}
+
+mk_geli_mbr_ufs_uefi() {
+}
+
+mk_geli_mbr_ufs_both() {
+}
+
+mk_geli_mbr_zfs_legacy() {
+}
+
+mk_geli_mbr_zfs_uefi() {
+}
+
+mk_geli_mbr_zfs_both() {
+}
+
+# iso
+# pxeldr
+# u-boot
+
+# Misc variables
+SRCTOP=$(make -v SRCTOP)
+cd ${SRCTOP}/stand
+OBJDIR=$(make -v .OBJDIR)
+IMGDIR=${OBJDIR}/boot-images
+mkdir -p ${IMGDIR}
+MNTPT=$(mktemp -d /tmp/stand-test.XXXXXX)
+
+# Setup the installed tree...
+DESTDIR=${OBJDIR}/boot-tree
+rm -rf ${DESTDIR}
+mkdir -p ${DESTDIR}/boot/defaults
+mkdir -p ${DESTDIR}/boot/kernel
+cp /boot/kernel/kernel ${DESTDIR}/boot/kernel
+echo -D -S115200 > ${DESTDIR}/boot.config
+# XXX
+cp /boot/device.hints ${DESTDIR}/boot/device.hints
+# Assume we're already built
+make install DESTDIR=${DESTDIR} MK_MAN=no MK_INSTALL_AS_USER=yes
+# Copy init, /bin/sh and minimal libraries
+mkdir -p ${DESTDIR}/sbin ${DESTDIR}/bin ${DESTDIR}/lib ${DESTDIR}/libexec
+for f in /sbin/init /bin/sh $(ldd /bin/sh | awk 'NF == 4 { print $3; }') /libexec/ld-elf.so.1; do
+    cp $f ${DESTDIR}/$f
+done
+mkdir ${DESTDIR}/dev
+
+# OK. Let the games begin
+
+for geli in nogeli geli; do
+    for scheme in gpt mbr; do
+	for fs in ufs zfs; do
+	    for bios in legacy uefi both; do
+		# Create sparse file and mount newly created filesystem(s) on it
+		img=${IMGDIR}/${geli}-${scheme}-${fs}-${bios}.img
+		echo "vvvvvvvvvvvvvvvvvvvvvv   Creating $img  vvvvvvvvvvvvvvvvvvvvvvv"
+		eval mk_${geli}_${scheme}_${fs}_${bios} ${DESTDIR} ${img} ${MNTPT} ${geli} ${scheme} ${fs} ${bios}
+		echo "^^^^^^^^^^^^^^^^^^^^^^   Creating $img  ^^^^^^^^^^^^^^^^^^^^^^^"
+	    done
+	done
+    done
+done
+
+rmdir ${MNTPT}