minix/releasetools/arm_sdimage.sh
Kees Jongenburger 8a3677def0 build:refactor arm_sdimage.sh as to no longer require root.
There where two reasons for needing root access while making ARM builds. The
first reason was that we needed root permissions to create device nodes and
assign permissions to files. The second reason we needed root was that we used
loop mounted files to copy the build output to the file backed storage.

The first problem is solved by building in unprivileged mode (adding -U) during
compilation. The second problem is solved by using mcopy to put files on the
fat partition and use the mkfs.mfs proto files to create MFS file system.

Future work might be to replace this script by the netbsd makefs tool.

Change-Id: Ibba61d4cad053f7c1ede26169d5214065a4939d8
2013-04-23 11:24:12 +02:00

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#!/bin/bash
set -e
#set -x
: ${ARCH=evbearm-el}
: ${OBJ=../obj.${ARCH}}
: ${CROSS_TOOLS=${OBJ}/"tooldir.`uname -s`-`uname -r`-`uname -m`"/bin}
: ${CROSS_PREFIX=${CROSS_TOOLS}/arm-elf32-minix-}
: ${JOBS=-j4}
: ${DESTDIR=${OBJ}/destdir.$ARCH}
: ${FSTAB=${DESTDIR}/etc/fstab}
#
# Directory where to store temporary file system images
#
: ${IMG_DIR=${OBJ}/img}
: ${IMG=minix_arm_sd.img}
: ${MLO=MLO}
: ${UBOOT=u-boot.img}
BUILDSH=build.sh
if [ ! -f ${BUILDSH} ]
then echo "Please invoke me from the root source dir, where ${BUILDSH} is."
exit 1
fi
for needed in sfdisk mcopy dd wget mkfs.vfat
do
if ! which $needed 2>&1 > /dev/null
then
echo "**Skipping image creation: missing tool '$needed'"
exit 1
fi
done
#
# Artifacts from this script are stored in the IMG_DIR
#
mkdir -p $IMG_DIR
#
# Download the stage 1 bootloader and u-boot
#
for i in ${MLO} ${UBOOT}
do
if [ ! -f ${IMG_DIR}/${i} ]
then
if ! wget -O ${IMG_DIR}/$i http://www.minix3.org/arm/beagleboard-xm/$i
then
echo "Failed to download $i"
rm -f ${IMG_DIR}/$i
exit 1
fi
fi
done
#
# Call build.sh using a sloppy file list so we don't need to remove the installed /etc/fstag
#
sh build.sh -V SLOPPY_FLIST=yes ${JOBS} -m ${ARCH} -O ${OBJ} -D ${DESTDIR} -U -u distribution
#
# This script creates a bootable image and should at some point in the future
# be replaced by makefs.
#
# All sized are written in 512 byte blocks
#
# we create a disk image of about 2 gig's
#
# The size of the extended partition where we store
# /root /home and /usr in separate sub partitions is
# about 1 gig
#
IMG_SIZE=$((2**31 / 512))
FAT_SIZE=$((20480))
EXTENDED_SIZE=$((2**30 / 512))
ROOT_SIZE=$((2**26 / 512))
HOME_SIZE=$((2**27 / 512))
USR_SIZE=$((2**28 / 512))
#
# create a fstab entry in /etc this is normally done during the
# setup phase on x86
#
cat >${FSTAB} <<END_FSTAB
/dev/c0d0p1s0 / mfs rw 0 1
/dev/c0d0p1s1 /home mfs rw 0 2
/dev/c0d0p1s2 /usr mfs rw 0 2
END_FSTAB
rm -f ${DESTDIR}/SETS.*
${CROSS_TOOLS}/nbpwd_mkdb -V 0 -p -d ${DESTDIR} ${DESTDIR}/etc/master.passwd
#
# Now given the sizes above use DD to create separate files representing
# the partitions we are going to use.
#
dd if=/dev/zero of=${IMG_DIR}/fat.img bs=512 count=1 seek=$(($FAT_SIZE -1))
dd if=/dev/zero of=${IMG_DIR}/root.img bs=512 count=1 seek=$(($ROOT_SIZE -1))
dd if=/dev/zero of=${IMG_DIR}/home.img bs=512 count=1 seek=$(($HOME_SIZE -1))
dd if=/dev/zero of=${IMG_DIR}/usr.img bs=512 count=1 seek=$(($USR_SIZE -1))
#
# Create the empty image where we later will but the partitions in
#
dd if=/dev/zero of=${IMG} bs=512 count=1 seek=$(($IMG_SIZE -1))
#
# Do some math to determine the start addresses of the partitions.
#
FAT_START=2048
EXTENDED_START=$(($FAT_START + $FAT_SIZE))
EXTENDED_SIZE=$(($ROOT_SIZE + $HOME_SIZE + $USR_SIZE + 3))
ROOT_START=$(($EXTENDED_START + 1))
HOME_START=$(($ROOT_START + $ROOT_SIZE + 1))
USR_START=$(($HOME_START + $HOME_SIZE + 1))
#
# Generate the partitions using sfdisk to partition the
#
sfdisk --no-reread -q ${IMG} <<END_SFDISK
# partition table of test.img
unit: sectors
test.img1 : start= $FAT_START, size= $FAT_SIZE, Id= c, bootable
test.img2 : start= $EXTENDED_START, size= $EXTENDED_SIZE, Id= 5
test.img3 : start= 0, size= 0, Id= 0
test.img4 : start= 0, size= 0, Id= 0
test.img5 : start= $ROOT_START, size= $ROOT_SIZE, Id=81
test.img6 : start= $HOME_START, size= $HOME_SIZE, Id=81
test.img7 : start= $USR_START, size= $USR_SIZE, Id=81
END_SFDISK
#
# Format the fat partition and put the bootloaders
# uEnv and the kernel command line in the FAT partition
#
mkfs.vfat ${IMG_DIR}/fat.img
echo "Copying configuration kernel and boot modules"
mcopy -bsp -i ${IMG_DIR}/fat.img ${IMG_DIR}/$MLO ::MLO
mcopy -bsp -i ${IMG_DIR}/fat.img ${IMG_DIR}/$UBOOT ::u-boot.img
mcopy -bsp -i ${IMG_DIR}/fat.img releasetools/uEnv.txt ::uEnv.txt
mcopy -bsp -i ${IMG_DIR}/fat.img releasetools/cmdline.txt ::cmdline.txt
#
# Do some last processing of the kernel and servers before also putting
# them on the FAT
#
${CROSS_PREFIX}objcopy ${OBJ}/kernel/kernel -O binary ${OBJ}/kernel.bin
mcopy -bsp -i ${IMG_DIR}/fat.img ${OBJ}/kernel.bin ::kernel.bin
for f in vm rs pm sched vfs ds mfs pfs init
do
cp ${OBJ}/servers/${f}/${f} ${OBJ}/${f}.elf
${CROSS_PREFIX}strip -s ${OBJ}/${f}.elf
mcopy -bsp -i ${IMG_DIR}/fat.img ${OBJ}/${f}.elf ::${f}.elf
done
for f in tty memory log
do
cp ${OBJ}/drivers/${f}/${f} ${OBJ}/${f}.elf
${CROSS_PREFIX}strip -s ${OBJ}/${f}.elf
mcopy -bsp -i ${IMG_DIR}/fat.img ${OBJ}/${f}.elf ::${f}.elf
done
#
# make the different file system. this part is *also* hacky. We first convert
# the METALOG.sanitised using mtree into a input METALOG containing uids and
# gids.
# Afther that we do some magic processing to add device nodes (also missing from METALOG)
# and convert the METALOG into a proto file that can be used by mkfs.mfs
#
echo "creating the file systems"
#
# read METALOG and use mtree to conver the user and group names into uid and gids
# FIX put "input somwhere clean"
#
cat ${DESTDIR}/METALOG.sanitised | ${CROSS_TOOLS}/nbmtree -N ${DESTDIR}/etc -C > ${IMG_DIR}/input
# add fstab
echo "./etc/fstab type=file uid=0 gid=0 mode=0755 size=747 time=1365060731.000000000" >> ${IMG_DIR}/input
# fill root.img (skipping /usr entries while keeping the /usr directory)
cat ${IMG_DIR}/input | grep -v "^./usr/" | ${CROSS_TOOLS}/nbtoproto -b ${DESTDIR} -o ${IMG_DIR}/root.in
#
# add device nodes somewhere in the middle of the proto file. Better would be to add the entries in the
# original METALOG
# grab the first part
grep -B 10000 "^ dev" ${IMG_DIR}/root.in > ${IMG_DIR}/root.proto
# add the device nodes from the ramdisk
cat ${OBJ}/drivers/ramdisk/proto.dev >> ${IMG_DIR}/root.proto
# and add the rest of the file
grep -A 10000 "^ dev" ${IMG_DIR}/root.in | tail -n +2 >> ${IMG_DIR}/root.proto
rm ${IMG_DIR}/root.in
#
# Create proto files for /usr and /home using toproto.
#
cat ${IMG_DIR}/input | grep "^\./usr/\|^. " | sed "s,\./usr,\.,g" | ${CROSS_TOOLS}/nbtoproto -b ${DESTDIR}/usr -o ${IMG_DIR}/usr.proto
cat ${IMG_DIR}/input | grep "^\./home/\|^. " | sed "s,\./home,\.,g" | ${CROSS_TOOLS}/nbtoproto -b ${DESTDIR}/home -o ${IMG_DIR}/home.proto
# fill /root /usr and /home the numbers here need to be tweaked to match full partitions
# This part needs fixing: no more magic numbers. It should be possible to call mkfs.mfs -b $((SIZE / 8))
#
#${CROSS_TOOLS}/nbmkfs.mfs -b $((102400 / 8)) -x 20 ${IMG_DIR}/root.img ${IMG_DIR}/root.proto
${CROSS_TOOLS}/nbmkfs.mfs -x 30 ${IMG_DIR}/root.img ${IMG_DIR}/root.proto
${CROSS_TOOLS}/nbmkfs.mfs -x 30 ${IMG_DIR}/usr.img ${IMG_DIR}/usr.proto
${CROSS_TOOLS}/nbmkfs.mfs -x 30 ${IMG_DIR}/home.img ${IMG_DIR}/home.proto
#
# Merge the partitions into a single image.
#
echo "Merging file systems"
dd if=${IMG_DIR}/fat.img of=${IMG} seek=$FAT_START conv=notrunc
dd if=${IMG_DIR}/root.img of=${IMG} seek=$ROOT_START conv=notrunc
dd if=${IMG_DIR}/home.img of=${IMG} seek=$HOME_START conv=notrunc
dd if=${IMG_DIR}/usr.img of=${IMG} seek=$USR_START conv=notrunc