HardenedBSD/tools/boot/full-test.sh

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#!/bin/sh
# STAND_ROOT is the root of a tree:
# cache - Cached binaries that we have downloaded
# trees - binary trees that we use to make image
# trees/${ARCH}/$thing
# images - bootable images that we use to test
# images/${ARCH}/$thing
# bios - cached bios images (as well as 'vars' files when we start testing
# different booting scenarios in the precense / absence of variables).
# scripts - generated scripts that uses images to run the tests.
#
# Strategy:
# Download FreeBSD release isos, Linux kernels (for the kboot tests) and
# other misc things. We use these to generate dozens of test images that we
# use qemu-system-XXXX to boot. They all boot the same thing at the moment:
# an /etc/rc script that prints the boot method, echos success and then
# halts.
# What version of FreeBSD to we snag the ISOs from to extract the binaries
# we are testing
FREEBSD_VERSION=13.1
# eg https://download.freebsd.org/releases/amd64/amd64/ISO-IMAGES/13.1/FreeBSD-13.1-RELEASE-amd64-bootonly.iso.xz
URLBASE="https://download.freebsd.org/releases"
: ${STAND_ROOT:="${HOME}/stand-test-root"}
CACHE=${STAND_ROOT}/cache
TREES=${STAND_ROOT}/trees
IMAGES=${STAND_ROOT}/images
BIOS=${STAND_ROOT}/bios
SCRIPTS=${STAND_ROOT}/scripts
OVERRIDE=${STAND_ROOT}/override
# hack -- I have extra junk in my qemu, but it's not needed to recreate things
if [ $(whoami) = imp ]; then
qemu_bin=/home/imp/git/qemu/00-build
else
qemu_bin=/usr/local/bin
fi
# All the architectures under test
# Note: we can't yet do armv7 because we don't have a good iso for it and would
# need root to extract the files.
ARCHES="amd64:amd64 i386:i386 powerpc:powerpc powerpc:powerpc64 powerpc:powerpc64le powerpc:powerpcspe arm64:aarch64 riscv:riscv64"
# The smallest FAT32 filesystem is 33292 KB
espsize=33292
SRCTOP=$(make -v SRCTOP)
mkdir -p ${CACHE} ${TREES} ${IMAGES} ${BIOS}
die()
{
echo Fatal Error: $*
exit 1
}
ma_combo()
{
local m=$1
local ma=$2
local ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
echo ${ma_combo}
}
fetch_one()
{
local m=$1
local ma=$2
local v=$3
local flavor=$4
local ma_combo=$(ma_combo $m $ma)
local file="FreeBSD-${v}-RELEASE-${ma_combo}-${flavor}"
local url="${URLBASE}/${m}/${ma}/ISO-IMAGES/${v}/${file}.xz"
mkdir -p ${CACHE}
[ -r ${CACHE}/${file} ] && echo "Using cached ${file}" && return
cd ${CACHE}
echo "Fetching ${url}"
fetch ${url} || die "Can't fetch ${file} from ${url}"
xz -d ${file}.xz || die "Can't uncompress ${file}.xz"
cd ..
}
update_freebsd_img_cache()
{
local a m ma
for a in $ARCHES; do
m=${a%%:*}
ma=${a##*:}
fetch_one $m $ma ${FREEBSD_VERSION} bootonly.iso
done
fetch_one arm armv7 ${FREEBSD_VERSION} GENERICSD.img
}
make_minimal_freebsd_tree()
{
local m=$1
local ma=$2
local v=$3
local flavor=$4
local file d
local ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
file="FreeBSD-${v}-RELEASE-${ma_combo}-${flavor}"
dir=${TREES}/${ma_combo}/freebsd
rm -rf ${dir}
# Make a super simple userland. It has just enough to print a santiy value,
# then say test succeeded, and then halt the system. We assume that /bin/sh
# has all the library prereqs for the rest...
mkdir -p ${dir}
# Make required dirs
for d in boot/kernel boot/defaults boot/lua boot/loader.conf.d \
sbin bin lib libexec etc dev; do
mkdir -p ${dir}/${d}
done
# Pretend we don't have a separate /usr
ln -s . ${dir}/usr
# snag the binaries for my simple /etc/rc file
tar -C ${dir} -xf ${CACHE}/$file sbin/reboot sbin/halt sbin/init bin/sh sbin/sysctl \
lib/libncursesw.so.9 lib/libc.so.7 lib/libedit.so.8 libexec/ld-elf.so.1
# My simple etc/rc
cat > ${dir}/etc/rc <<EOF
#!/bin/sh
sysctl machdep.bootmethod
echo "RC COMMAND RUNNING -- SUCCESS!!!!!"
halt -p
EOF
chmod +x ${dir}/etc/rc
# Check to see if we have overrides here... So we can insert our own kernel
# instead of the one from the release.
echo "CHECKING ${OVERRIDE}/${ma_combo}/boot"
if [ -d ${OVERRIDE}/${ma_combo}/boot ]; then
o=${OVERRIDE}/${ma_combo}
for i in \
boot/device.hints \
boot/kernel/kernel \
boot/kernel/acl_nfs4.ko \
boot/kernel/cryptodev.ko \
boot/kernel/zfs.ko \
boot/kernel/geom_eli.ko; do
[ -r $o/$i ] && echo Copying override $i && cp $o/$i ${dir}/$i
done
else
# Copy the kernel (but not the boot loader, we'll add the one to test later)
# This will take care of both UFS and ZFS boots as well as geli
# Note: It's OK for device.hints to be missing. It's mostly for legacy platforms.
tar -C ${dir} -xf ${CACHE}/$file \
boot/device.hints \
boot/kernel/kernel \
boot/kernel/acl_nfs4.ko \
boot/kernel/cryptodev.ko \
boot/kernel/zfs.ko \
boot/kernel/geom_eli.ko || true
# XXX WHAT TO DO ABOUT LINKER HINTS -- PUNT FOR NOW
# XXX also, ZFS not supported on 32-bit powerpc platforms
fi
# Setup some common settings for serial console, etc
echo -h -D -S115200 > ${dir}/boot.config
cat > ${dir}/boot/loader.conf <<EOF
comconsole_speed=115200
autoboot_delay=2
# XXXX TEST with arm64 iso...
#vfs.root.mountfrom="cd9660:/dev/iso9660/13_1_RELEASE_AARCH64_BO"
# XXX not so good for ZFS, what to do?
vfs.root.mountfrom="ufs:/dev/ufs/root"
boot_verbose=yes
kern.cfg.order="acpi,fdt"
EOF
}
make_freebsd_minimal_trees()
{
for a in $ARCHES; do
m=${a%%:*}
ma=${a##*:}
make_minimal_freebsd_tree $m $ma ${FREEBSD_VERSION} bootonly.iso
done
# Note: armv7 isn't done yet as its the odd-man out -- we need to extract things
# in a special way, so punt for the moment
}
make_freebsd_test_trees()
{
for a in $ARCHES; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
dir=${TREES}/${ma_combo}/test-stand
mkdir -p ${dir}
mtree -deUW -f ${SRCTOP}/etc/mtree/BSD.root.dist -p ${dir}
echo "Creating tree for ${m}:${ma}"
cd ${SRCTOP}/stand
# Indirection needed because our build system is too complex
# SHELL="make clean" make buildenv TARGET=${m} TARGET_ARCH=${ma}
SHELL="make -j 100 all" make buildenv TARGET=${m} TARGET_ARCH=${ma}
SHELL="make install DESTDIR=${dir} MK_MAN=no MK_INSTALL_AS_USER=yes WITHOUT_DEBUG_FILES=yes" \
make buildenv TARGET=${m} TARGET_ARCH=${ma}
rm -rf ${dir}/bin ${dir}/[ac-z]* # Don't care about anything here
done
}
make_linux_initrds()
{
# At the moment, we have just two
for a in amd64:amd64 arm64:aarch64; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
dir=${TREES}/${ma_combo}/linuxboot
dir2=${TREES}/${ma_combo}/test-stand
dir3=${TREES}/${ma_combo}/freebsd
initrd=${TREES}/${ma_combo}/initrd.img
rm -rf ${dir}
mkdir -p ${dir}
cp ${dir2}/boot/loader.kboot ${dir}/init
# Copy the boot loader
tar -c -f - -C ${dir2} boot | tar -xf - -C ${dir}
# Copy the boot kernel
tar -c -f - -C ${dir3} boot | tar -xf - -C ${dir}
(cd ${dir} ; find . | LC_ALL=C sort | cpio -o -H newc | gzip > ${initrd})
done
}
make_linux_esps()
{
# At the moment, we have just two
for a in amd64:amd64 arm64:aarch64; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
dir=${TREES}/${ma_combo}/linuxboot-esp
initrd=${TREES}/${ma_combo}/initrd.img
mkdir -p ${dir}
case ${ma} in
amd64) bin=x64 cons="console=ttyS0,115200" ;;
aarch64) bin=aa64 ;;
esac
mkdir -p ${dir}/efi/boot
cp ${CACHE}/linux/linux${bin}.efi ${dir}
cp ${CACHE}/linux/shell${bin}.efi ${dir}/efi/boot/boot${bin}.efi
cat > ${dir}/startup.nsh <<EOF
# Run linux
# Tell it to run with out special initrd that then boot FreeBSD
\linux${bin} ${cons} initrd=\initrd.img
EOF
cp $initrd ${dir}
done
}
make_linuxboot_images()
{
# ESP variant: In this variant, amd64 and arm64 are both created more or
# less the same way. Both are EFI + ACPI implementations
for a in amd64:amd64 arm64:aarch64; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
src=${TREES}/${ma_combo}/linuxboot-esp
dir=${TREES}/${ma_combo}/freebsd
dir2=${TREES}/${ma_combo}/test-stand
esp=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}.esp
ufs=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}.ufs
zfs=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}.zfs
img=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}.img
img2=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}-zfs.img
pool="linuxboot"
mkdir -p ${IMAGES}/${ma_combo}
makefs -t msdos -o fat_type=32 -o sectors_per_cluster=1 \
-o volume_label=EFISYS -s100m ${esp} ${src}
makefs -t ffs -B little -s 200m -o label=root ${ufs} ${dir} ${dir2}
mkimg -s gpt -p efi:=${esp} -p freebsd-ufs:=${ufs} -o ${img}
makefs -t zfs -s 200m \
-o poolname=${pool} -o bootfs=${pool} -o rootpath=/ \
${zfs} ${dir} ${dir2}
mkimg -s gpt \
-p efi:=${esp} \
-p freebsd-zfs:=${zfs} -o ${img2}
rm -f ${esp} # Don't need to keep this around
done
# The raw variant, currently used only on arm64. It boots with the raw interface of qemu
# for testing purposes. This means it makes a good test for the DTB variation, but not ACPI
# since qemu doesn't currently provide that...
for a in arm64:aarch64; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
linux="${CACHE}/linux/vmlinux-${m}*"
initrd=${TREES}/${ma_combo}/initrd.img
img=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}-raw
cp ${linux} ${img}.kernel
cp ${initrd} ${img}.initrd
done
}
make_linuxboot_scripts()
{
# At the moment, we have just two -- and the images we've built so far are just
# the hostfs boot. The boot off anything more complex isn't here.
for a in amd64:amd64 arm64:aarch64; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
# First off, update the edk firmware
bios_code=${BIOS}/edk2-${ma_combo}-code.fd
bios_vars=${BIOS}/edk2-${ma_combo}-vars.fd
case ${ma} in
amd64)
if [ ${bios_code} -ot /usr/local/share/qemu/edk2-x86_64-code.fd ]; then
cp /usr/local/share/qemu/edk2-x86_64-code.fd ${bios_code}
# vars file works on both 32 and 64 bit x86
cp /usr/local/share/qemu/edk2-i386-vars.fd ${bios_vars}
fi
;;
aarch64)
if [ ${bios_code} -ot /usr/local/share/qemu/edk2-aarch64-code.fd ]; then
# aarch64 vars starts as an empty file
dd if=/dev/zero of=${bios_code} bs=1M count=64
dd if=/dev/zero of=${bios_vars} bs=1M count=64
dd if=/usr/local/share/qemu/edk2-aarch64-code.fd of=${bios_code} conv=notrunc
fi
;;
esac
# Now make me a script
img=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}.img
img2=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}-raw
img3=${IMAGES}/${ma_combo}/linuxboot-${ma_combo}-zfs.img
out=${SCRIPTS}/${ma_combo}/linuxboot-test.sh
out2=${SCRIPTS}/${ma_combo}/linuxboot-test-raw.sh
out3=${SCRIPTS}/${ma_combo}/linuxboot-test-zfs.sh
cd=${CACHE}/FreeBSD-13.1-RELEASE-arm64-aarch64-bootonly.iso
mkdir -p ${SCRIPTS}/${ma_combo}
case ${ma} in
amd64)
cat > ${out} <<EOF
${qemu_bin}/qemu-system-x86_64 -nographic -m 512M \\
-drive file=${img},if=none,id=drive0,cache=writeback,format=raw \\
-device virtio-blk,drive=drive0,bootindex=0 \\
-drive file=${bios_code},format=raw,if=pflash \\
-drive file=${bios_vars},format=raw,if=pflash \\
-monitor telnet::4444,server,nowait \\
-serial stdio \$*
EOF
;;
aarch64)
# ESP version
raw=${IMAGES}/${ma_combo}/freebsd-arm64-aarch64.img
cat > ${out} <<EOF
${qemu_bin}/qemu-system-aarch64 -nographic -machine virt,gic-version=3 -m 512M -smp 4 \\
-cpu cortex-a57 \\
-drive file=${img},if=none,id=drive0,cache=writeback \\
-device virtio-blk,drive=drive0,bootindex=0 \\
-drive file=${raw},if=none,id=drive1,cache=writeback \\
-device nvme,serial=fboot,drive=drive1,bootindex=1 \\
-drive file=${bios_code},format=raw,if=pflash \\
-drive file=${bios_vars},format=raw,if=pflash \\
-monitor telnet::4444,server,nowait \\
-serial stdio \$*
EOF
# RAW version
# Note: We have to use cortex-a57 for raw mode because the
# kernel we use has issues with max.
cat > ${out2} <<EOF
${qemu_bin}/qemu-system-aarch64 -m 1024 -cpu cortex-a57 -M virt \\
-kernel ${img2}.kernel -initrd ${img2}.initrd \\
-append "console=ttyAMA0" \\
-drive file=${cd},if=none,id=drive0,cache=writeback,format=raw \\
-device virtio-blk,drive=drive0,bootindex=0 \\
-nographic -monitor telnet::4444,server,nowait \\
-serial stdio \$*
EOF
# ZFS version
# Note: We have to use cortex-a57 for raw mode because the
# kernel we use has issues with max.
cat > ${out3} <<EOF
${qemu_bin}/qemu-system-aarch64 -nographic -machine virt,gic-version=3 -m 512M -smp 4 \\
-cpu cortex-a57 \\
-drive file=${img3},if=none,id=drive0,cache=writeback \\
-device virtio-blk,drive=drive0,bootindex=0 \\
-drive file=${bios_code},format=raw,if=pflash \\
-drive file=${bios_vars},format=raw,if=pflash \\
-monitor telnet::4444,server,nowait \\
-serial stdio \$*
EOF
;;
esac
done
}
make_freebsd_esps()
{
# At the moment, we have just three (armv7 could also be here too, but we're not doing that)
for a in amd64:amd64 arm64:aarch64 riscv:riscv64; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
dir=${TREES}/${ma_combo}/freebsd-esp
dir2=${TREES}/${ma_combo}/test-stand
rm -rf ${dir}
mkdir -p ${dir}
case ${ma} in
amd64) bin=x64 ;;
aarch64) bin=aa64 ;;
esac
mkdir -p ${dir}/efi/boot
cp ${dir2}/boot/loader.efi ${dir}/efi/boot/boot${bin}.efi
done
}
make_freebsd_images()
{
# ESP variant: In this variant, riscv, amd64 and arm64 are created more or
# less the same way. UEFI + ACPI implementations
for a in amd64:amd64 arm64:aarch64 riscv:riscv64; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
src=${TREES}/${ma_combo}/freebsd-esp
dir=${TREES}/${ma_combo}/freebsd
dir2=${TREES}/${ma_combo}/test-stand
esp=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.esp
ufs=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.ufs
img=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.img
mkdir -p ${IMAGES}/${ma_combo}
makefs -t msdos -o fat_type=32 -o sectors_per_cluster=1 \
-o volume_label=EFISYS -s100m ${esp} ${src}
makefs -t ffs -B little -s 200m -o label=root ${ufs} ${dir} ${dir2}
mkimg -s gpt -p efi:=${esp} -p freebsd-ufs:=${ufs} -o ${img}
# rm -f ${esp} ${ufs} # Don't need to keep this around
done
set -x
# BIOS i386
a=i386:i386
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
dir=${TREES}/${ma_combo}/freebsd
dir2=${TREES}/${ma_combo}/test-stand
ufs=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.ufs
img=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.img
mkdir -p ${IMAGES}/${ma_combo}
mkdir -p ${dir2}/etc
cat > ${dir2}/etc/fstab <<EOF
/dev/ufs/root / ufs rw 1 1
EOF
makefs -t ffs -B little -s 200m \
-o label=root,version=2,bsize=32768,fsize=4096,density=16384 \
${ufs} ${dir} ${dir2}
mkimg -s gpt -b ${dir2}/boot/pmbr \
-p freebsd-boot:=${dir2}/boot/gptboot \
-p freebsd-ufs:=${ufs} \
-o ${img}
rm -f ${src}/etc/fstab
# PowerPC for 32-bit mac
a=powerpc:powerpc
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
dir=${TREES}/${ma_combo}/freebsd
dir2=${TREES}/${ma_combo}/test-stand
ufs=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.ufs
img=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.img
mkdir -p ${IMAGES}/${ma_combo}
makefs -t ffs -B big -s 200m \
-o label=root,version=2,bsize=32768,fsize=4096,density=16384 \
${ufs} ${dir} ${dir2}
mkimg -a 1 -s apm \
-p freebsd-boot:=${dir2}/boot/boot1.hfs \
-p freebsd-ufs:=${ufs} \
-o ${img}
set +x
}
make_freebsd_scripts()
{
# At the moment, we have just two
for a in amd64:amd64 arm64:aarch64; do
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
# First off, update the edk firmware
bios_code=${BIOS}/edk2-${ma_combo}-code.fd
bios_vars=${BIOS}/edk2-${ma_combo}-vars.fd
case ${ma} in
amd64)
if [ ${bios_code} -ot /usr/local/share/qemu/edk2-x86_64-code.fd ]; then
cp /usr/local/share/qemu/edk2-x86_64-code.fd ${bios_code}
# vars file works on both 32 and 64 bit x86
cp /usr/local/share/qemu/edk2-i386-vars.fd ${bios_vars}
fi
;;
aarch64)
if [ ${bios_code} -ot /usr/local/share/qemu/edk2-aarch64-code.fd ]; then
# aarch64 vars starts as an empty file
dd if=/dev/zero of=${bios_code} bs=1M count=64
dd if=/dev/zero of=${bios_vars} bs=1M count=64
dd if=/usr/local/share/qemu/edk2-aarch64-code.fd of=${bios_code} conv=notrunc
fi
;;
esac
# Now make me a script
img=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.img
out=${SCRIPTS}/${ma_combo}/freebsd-test.sh
mkdir -p ${SCRIPTS}/${ma_combo}
case ${ma} in
amd64)
cat > ${out} <<EOF
${qemu_bin}/qemu-system-x86_64 -nographic -m 512M \\
-drive file=${img},if=none,id=drive0,cache=writeback,format=raw \\
-device virtio-blk,drive=drive0,bootindex=0 \\
-drive file=${bios_code},format=raw,if=pflash \\
-drive file=${bios_vars},format=raw,if=pflash \\
-monitor telnet::4444,server,nowait \\
-serial stdio \$*
EOF
;;
aarch64)
# ESP version
raw=${IMAGES}/${ma_combo}/nvme-test-empty.raw
cat > ${out} <<EOF
${qemu_bin}/qemu-system-aarch64 -nographic -machine virt,gic-version=3 -m 512M \\
-cpu cortex-a57 -drive file=${img},if=none,id=drive0,cache=writeback -smp 4 \\
-device virtio-blk,drive=drive0,bootindex=0 \\
-drive file=${bios_code},format=raw,if=pflash \\
-drive file=${bios_vars},format=raw,if=pflash \\
-drive file=${raw},if=none,id=drive1,cache=writeback,format=raw \\
-device nvme,serial=deadbeef,drive=drive1 \\
-monitor telnet::4444,server,nowait \\
-serial stdio \$*
EOF
;;
esac
done
set -x
a=powerpc:powerpc
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
img=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.img
out=${SCRIPTS}/${ma_combo}/freebsd-test.sh
mkdir -p ${SCRIPTS}/${ma_combo}
cat > ${out} <<EOF
${qemu_bin}/qemu-system-ppc -m 1g -M mac99,via=pmu \\
-vga none -nographic \\
-drive file=${img},if=virtio \\
-prom-env "boot-device=/pci@f2000000/scsi/disk@0:,\\\\\\:tbxi" \\
-monitor telnet::4444,server,nowait \\
-serial stdio \$*
EOF
set -x
a=i386:i386
m=${a%%:*}
ma=${a##*:}
ma_combo="${m}"
[ "${m}" != "${ma}" ] && ma_combo="${m}-${ma}"
img=${IMAGES}/${ma_combo}/freebsd-${ma_combo}.img
out=${SCRIPTS}/${ma_combo}/freebsd-test.sh
mkdir -p ${SCRIPTS}/${ma_combo}
cat > ${out} <<EOF
${qemu_bin}/qemu-system-i386 -m 1g \\
-vga none -nographic \\
-drive file=${img},format=raw \\
-nographic \\
-monitor telnet::4444,server,nowait \\
-serial stdio \$*
EOF
}
# The smallest FAT32 filesystem is 33292 KB
espsize=33292
set -e
echo "src/stand test in ${STAND_ROOT}"
update_freebsd_img_cache
make_freebsd_minimal_trees
make_freebsd_test_trees
make_linux_initrds
make_linux_esps
make_freebsd_esps
make_freebsd_images
make_freebsd_scripts
make_linuxboot_images
make_linuxboot_scripts