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minix/releasetools/arm_sdimage.sh
Jean-Baptiste Boric 2d6bbeb0b9 Split minix distribution set 
The minix set is now divided into minix-base, minix-comp, minix-games,
minix-kernel, minix-man and minix-tests.

This allows massive space savings on the installlation CD because only
the base system used for installation is stored uncompressed. Also, it
makes the system more modular.

Change-Id: Ic8d168b4c3112204013170f07245aef98aaa51e7
2015-10-12 11:25:54 +02:00

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#!/usr/bin/env bash
set -e
#
# This script creates a bootable image and should at some point in the future
# be replaced by the proper NetBSD infrastructure.
#
#
# Source settings if present
#
: ${SETTINGS_MINIX=.settings}
if [ -f "${SETTINGS_MINIX}" ]
then
echo "Sourcing settings from ${SETTINGS_MINIX}"
# Display the content (so we can check in the build logs
# what the settings contain.
cat ${SETTINGS_MINIX} | sed "s,^,CONTENT ,g"
. ${SETTINGS_MINIX}
fi
: ${ARCH=evbearm-el}
: ${OBJ=../obj.${ARCH}}
: ${TOOLCHAIN_TRIPLET=arm-elf32-minix-}
: ${BUILDSH=build.sh}
: ${SETS="minix-base minix-comp minix-games minix-man minix-tests tests"}
: ${IMG=minix_arm_sd.img}
# ARM definitions:
: ${BUILDVARS=-V MKGCCCMDS=yes -V MKLLVM=no}
# These BUILDVARS are for building with LLVM:
#: ${BUILDVARS=-V MKLIBCXX=no -V MKKYUA=no -V MKATF=no -V MKLLVMCMDS=no}
: ${FAT_SIZE=$(( 10*(2**20) / 512))} # This is in sectors
# Beagleboard-xm
: ${U_BOOT_BIN_DIR=build/omap3_beagle/}
: ${CONSOLE=tty02}
# BeagleBone (and black)
#: ${U_BOOT_BIN_DIR=build/am335x_evm/}
#: ${CONSOLE=tty00}
#
# We host u-boot binaries.
#
: ${MLO=MLO}
: ${UBOOT=u-boot.img}
U_BOOT_GIT_VERSION=cb5178f12787c690cb1c888d88733137e5a47b15
if [ ! -f ${BUILDSH} ]
then
echo "Please invoke me from the root source dir, where ${BUILDSH} is."
exit 1
fi
if [ -n "$BASE_URL" ]
then
#we no longer download u-boot but do a checkout
#BASE_URL used to be the base url for u-boot
#Downloads
echo "Warning:** Setting BASE_URL (u-boot) is no longer possible use U_BOOT_BIN_DIR"
echo "Look in ${RELEASETOOLSDIR}/arm_sdimage.sh for suggested values"
exit 1
fi
case $(uname -s) in
Darwin)
MKFS_VFAT_CMD=newfs_msdos
MKFS_VFAT_OPTS="-h 64 -u 32 -S 512 -s ${FAT_SIZE} -o 0"
;;
FreeBSD)
MKFS_VFAT_CMD=newfs_msdos
MKFS_VFAT_OPTS=
;;
*)
MKFS_VFAT_CMD=mkfs.vfat
MKFS_VFAT_OPTS=
;;
esac
export PATH=/bin:/sbin:/usr/bin:/usr/sbin:/usr/local/bin:/usr/local/sbin:${PATH}
for needed in mcopy dd ${MKFS_VFAT_CMD} git
do
if ! which $needed 2>&1 > /dev/null
then
echo "**Skipping image creation: missing tool '$needed'"
exit 1
fi
done
# we create a disk image of about 2 gig's
# for alignment reasons, prefer sizes which are multiples of 4096 bytes
: ${IMG_SIZE=$(( 2*(2**30) ))}
: ${ROOT_SIZE=$(( 64*(2**20) ))}
: ${HOME_SIZE=$(( 128*(2**20) ))}
: ${USR_SIZE=$(( 1792*(2**20) ))}
# set up disk creation environment
. releasetools/image.defaults
. releasetools/image.functions
# all sizes are written in 512 byte blocks
ROOTSIZEARG="-b $((${ROOT_SIZE} / 512 / 8))"
USRSIZEARG="-b $((${USR_SIZE} / 512 / 8))"
HOMESIZEARG="-b $((${HOME_SIZE} / 512 / 8))"
# where the kernel & boot modules will be
MODDIR=${DESTDIR}/boot/minix/.temp
echo "Building work directory..."
build_workdir "$SETS"
echo "Adding extra files..."
# create a fstab entry in /etc
cat >${ROOT_DIR}/etc/fstab <<END_FSTAB
/dev/c0d0p2 /usr mfs rw 0 2
/dev/c0d0p3 /home mfs rw 0 2
none /sys devman rw,rslabel=devman 0 0
none /dev/pts ptyfs rw,rslabel=ptyfs 0 0
END_FSTAB
add_file_spec "etc/fstab" extra.fstab
echo "Bundling packages..."
bundle_packages "$BUNDLE_PACKAGES"
echo "Creating specification files..."
create_input_spec
create_protos "usr home"
#
# Create the FAT partition, which contains the bootloader files, kernel and modules
#
dd if=/dev/zero of=${WORK_DIR}/fat.img bs=512 count=1 seek=$(($FAT_SIZE -1)) 2>/dev/null
#
# Format the fat partition and put the bootloaders
# uEnv and the kernel command line in the FAT partition
#
${MKFS_VFAT_CMD} ${MKFS_VFAT_OPTS} ${WORK_DIR}/fat.img
#
# Download the stage 1 bootloader and u-boot
#
${RELEASETOOLSDIR}/fetch_u-boot.sh -o ${RELEASETOOLSDIR}/u-boot -n $U_BOOT_GIT_VERSION
cp ${RELEASETOOLSDIR}/u-boot/${U_BOOT_BIN_DIR}/MLO ${WORK_DIR}/
cp ${RELEASETOOLSDIR}/u-boot/${U_BOOT_BIN_DIR}/u-boot.img ${WORK_DIR}/
#
# Create a uEnv.txt file
# -n default to network boot
# -p add a prefix to the network booted files (e.g. xm/"
# -c set console e.g. tty02 or tty00
# -v set verbosity e.g. 0 to 3
#${RELEASETOOLSDIR}/gen_uEnv.txt.sh -c ${CONSOLE} -n -p bb/ > ${WORK_DIR}/uEnv.txt
${RELEASETOOLSDIR}/gen_uEnv.txt.sh -c ${CONSOLE} > ${WORK_DIR}/uEnv.txt
echo "Copying configuration kernel and boot modules"
mcopy -bsp -i ${WORK_DIR}/fat.img ${WORK_DIR}/$MLO ::MLO
mcopy -bsp -i ${WORK_DIR}/fat.img ${WORK_DIR}/$UBOOT ::u-boot.img
mcopy -bsp -i ${WORK_DIR}/fat.img ${WORK_DIR}/uEnv.txt ::uEnv.txt
#
# Do some last processing of the kernel and servers and then put them on the FAT
# partition.
#
${CROSS_PREFIX}objcopy ${OBJ}/minix/kernel/kernel -O binary ${OBJ}/kernel.bin
mcopy -bsp -i ${WORK_DIR}/fat.img ${OBJ}/kernel.bin ::kernel.bin
for f in servers/vm/vm servers/rs/rs servers/pm/pm servers/sched/sched \
servers/vfs/vfs servers/ds/ds fs/mfs/mfs fs/pfs/pfs \
../sbin/init/init
do
fn=`basename $f`.elf
cp ${OBJ}/minix/${f} ${OBJ}/${fn}
${CROSS_PREFIX}strip -s ${OBJ}/${fn}
mcopy -bsp -i ${WORK_DIR}/fat.img ${OBJ}/${fn} ::${fn}
done
for f in tty/tty/tty storage/memory/memory
do
fn=`basename $f`.elf
cp ${OBJ}/minix/drivers/${f} ${OBJ}/${fn}
${CROSS_PREFIX}strip -s ${OBJ}/${fn}
mcopy -bsp -i ${WORK_DIR}/fat.img ${OBJ}/${fn} ::${fn}
done
#
# For tftp booting
#
cp ${WORK_DIR}/uEnv.txt ${OBJ}/
# Clean image
if [ -f ${IMG} ] # IMG might be a block device
then
rm -f ${IMG}
fi
#
# Create the empty image where we later will put the partitions in.
# Make sure it is at least 2GB, otherwise the SD card will not be detected
# correctly in qemu / HW.
#
dd if=/dev/zero of=${IMG} bs=512 count=1 seek=$((($IMG_SIZE / 512) -1))
#
# Generate /root, /usr and /home partition images.
#
echo "Writing disk image..."
FAT_START=2048 # those are sectors
ROOT_START=$(($FAT_START + $FAT_SIZE))
echo " * ROOT"
_ROOT_SIZE=$(${CROSS_TOOLS}/nbmkfs.mfs -d ${ROOTSIZEARG} -I $((${ROOT_START}*512)) ${IMG} ${WORK_DIR}/proto.root)
_ROOT_SIZE=$(($_ROOT_SIZE / 512))
USR_START=$((${ROOT_START} + ${_ROOT_SIZE}))
echo " * USR"
_USR_SIZE=$(${CROSS_TOOLS}/nbmkfs.mfs -d ${USRSIZEARG} -I $((${USR_START}*512)) ${IMG} ${WORK_DIR}/proto.usr)
_USR_SIZE=$(($_USR_SIZE / 512))
HOME_START=$((${USR_START} + ${_USR_SIZE}))
echo " * HOME"
_HOME_SIZE=$(${CROSS_TOOLS}/nbmkfs.mfs -d ${HOMESIZEARG} -I $((${HOME_START}*512)) ${IMG} ${WORK_DIR}/proto.home)
_HOME_SIZE=$(($_HOME_SIZE / 512))
#
# Write the partition table using the natively compiled
# minix partition utility
#
${CROSS_TOOLS}/nbpartition -f -m ${IMG} ${FAT_START} "c:${FAT_SIZE}*" 81:${_ROOT_SIZE} 81:${_USR_SIZE} 81:${_HOME_SIZE}
#
# Merge the partitions into a single image.
#
echo "Merging file systems"
dd if=${WORK_DIR}/fat.img of=${IMG} seek=$FAT_START conv=notrunc
echo "Disk image at `pwd`/${IMG}"
echo "To boot this image on kvm:"
echo "qemu-system-arm -M beaglexm -serial stdio -drive if=sd,cache=writeback,file=`pwd`/${IMG}"
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