+++ /dev/null
-#!/bin/sh -e
-#
-# install.sh [device_name] [rootfs_name] [video_mode] [vga_mode]
-#
-
-PATH=/sbin:/bin:/usr/sbin:/usr/bin
-
-# Get a list of hard drives
-hdnamelist=""
-live_dev_name=`cat /proc/mounts | grep ${1%/} | awk '{print $1}'`
-live_dev_name=${live_dev_name#\/dev/}
-# Only strip the digit identifier if the device is not an mmc
-case $live_dev_name in
- mmcblk*)
- ;;
- nvme*)
- ;;
- *)
- live_dev_name=${live_dev_name%%[0-9]*}
- ;;
-esac
-
-echo "Searching for hard drives ..."
-
-# Some eMMC devices have special sub devices such as mmcblk0boot0 etc
-# we're currently only interested in the root device so pick them wisely
-devices=`ls /sys/block/ | grep -v mmcblk` || true
-mmc_devices=`ls /sys/block/ | grep "mmcblk[0-9]\{1,\}$"` || true
-devices="$devices $mmc_devices"
-
-for device in $devices; do
- case $device in
- loop*)
- # skip loop device
- ;;
- sr*)
- # skip CDROM device
- ;;
- ram*)
- # skip ram device
- ;;
- *)
- # skip the device LiveOS is on
- # Add valid hard drive name to the list
- case $device in
- $live_dev_name*)
- # skip the device we are running from
- ;;
- *)
- hdnamelist="$hdnamelist $device"
- ;;
- esac
- ;;
- esac
-done
-
-TARGET_DEVICE_NAME=""
-for hdname in $hdnamelist; do
- # Display found hard drives and their basic info
- echo "-------------------------------"
- echo /dev/$hdname
- if [ -r /sys/block/$hdname/device/vendor ]; then
- echo -n "VENDOR="
- cat /sys/block/$hdname/device/vendor
- fi
- if [ -r /sys/block/$hdname/device/model ]; then
- echo -n "MODEL="
- cat /sys/block/$hdname/device/model
- fi
- if [ -r /sys/block/$hdname/device/uevent ]; then
- echo -n "UEVENT="
- cat /sys/block/$hdname/device/uevent
- fi
- echo
-done
-
-# use the first one found
-for hdname in $hdnamelist; do
- TARGET_DEVICE_NAME=$hdname
- break
-done
-
-if [ -n "$TARGET_DEVICE_NAME" ]; then
- echo "Installing image on /dev/$TARGET_DEVICE_NAME ..."
-else
- echo "No hard drive found. Installation aborted."
- exit 1
-fi
-
-device=/dev/$TARGET_DEVICE_NAME
-
-#
-# Unmount anything the automounter had mounted
-#
-
-for dir in `awk '/\/dev.* \/run\/media/{print $2}' /proc/mounts | grep $TARGET_DEVICE_NAME`; do
- umount $dir
-done
-
-if [ ! -b /dev/loop0 ] ; then
- mknod /dev/loop0 b 7 0
-fi
-
-mkdir -p /tmp
-if [ ! -L /etc/mtab ] && [ -e /proc/mounts ]; then
- ln -sf /proc/mounts /etc/mtab
-fi
-
-disk_size=$(parted ${device} unit mb print | grep '^Disk .*: .*MB' | cut -d" " -f 3 | sed -e "s/MB//")
-
-grub_version=$(grub-install -V|sed 's/.* \([0-9]\).*/\1/')
-
-if [ $grub_version -eq 0 ] ; then
- bios_boot_size=0
-else
- # For GRUB 2 we need separate parition to store stage2 grub image
- # 2Mb value is chosen to align partition for best performance.
- bios_boot_size=2
-fi
-
-boot_size=512
-rootfs_size=20000
-log_vol_size=8000
-scratch_vol_size=8000
-
-data_size=$((disk_size-bios_boot_size-boot_size-rootfs_size))
-boot_start=$((bios_boot_size))
-rootfs_start=$((bios_boot_size+boot_size))
-rootfs_end=$((rootfs_start+rootfs_size))
-data_start=$((rootfs_end))
-
-# MMC devices are special in a couple of ways
-# 1) they use a partition prefix character 'p'
-# 2) they are detected asynchronously (need rootwait)
-rootwait=""
-part_prefix=""
-if [ ! "${device#/dev/mmcblk}" = "${device}" ] || \
- [ ! "${device#/dev/nvme}" = "${device}" ]; then
- part_prefix="p"
- rootwait="rootwait"
-fi
-
-# USB devices also require rootwait
-if [ -n `readlink /dev/disk/by-id/usb* | grep $TARGET_DEVICE_NAME` ]; then
- rootwait="rootwait"
-fi
-
-if [ $grub_version -eq 0 ] ; then
- bios_boot=''
- bootfs=${device}${part_prefix}1
- rootfs=${device}${part_prefix}2
- data=${device}${part_prefix}3
-else
- bios_boot=${device}${part_prefix}1
- bootfs=${device}${part_prefix}2
- rootfs=${device}${part_prefix}3
- data=${device}${part_prefix}4
-fi
-
-echo "*********************************************"
-[ $grub_version -ne 0 ] && echo "BIOS boot partition size: $bios_boot_size MB ($bios_boot)"
-echo "Boot partition size: $boot_size MB ($bootfs)"
-echo "Rootfs partition size: $rootfs_size MB ($rootfs)"
-echo "Data partition size: $data_size MB ($data)"
-echo "*********************************************"
-echo "Deleting partition table on ${device} ..."
-dd if=/dev/zero of=${device} bs=512 count=35
-
-echo "Creating new partition table on ${device} ..."
-if [ $grub_version -eq 0 ] ; then
- parted ${device} mktable msdos
- echo "Creating boot partition on $bootfs"
- parted ${device} mkpart primary ext3 0% $boot_size
-else
- parted ${device} mktable gpt
- echo "Creating BIOS boot partition on $bios_boot"
- parted ${device} mkpart bios_boot 0% $bios_boot_size
- parted ${device} set 1 bios_grub on
- echo "Creating boot partition on $bootfs"
- parted ${device} mkpart boot ext3 $boot_start $boot_size
-fi
-
-echo "Creating rootfs partition on $rootfs"
-[ $grub_version -eq 0 ] && pname='primary' || pname='root'
-parted ${device} -s mkpart $pname ext4 $rootfs_start $rootfs_end
-
-echo "Creating data partition on $data"
-[ $grub_version -eq 0 ] && pname='primary' || pname='data'
-parted ${device} -s mkpart $pname $data_start 100%
-parted ${device} -s set 4 lvm on
-
-parted ${device} print
-
-echo "Waiting for device nodes..."
-C=0
-while [ $C -ne 3 ] && [ ! -e $bootfs -o ! -e $rootfs -o ! -e $data ]; do
- C=$(( C + 1 ))
- sleep 1
-done
-
-echo "Formatting $bootfs to ext3..."
-mkfs.ext3 -F $bootfs
-
-echo "Formatting $rootfs to ext4..."
-mkfs.ext4 -F $rootfs
-
-echo "Create LVM for $data..."
-vg_name="cgts-vg"
-
-# Disable udev scan in lvm.conf
-sed -i 's/\(md_component_detection =\).*/\1 0/' /etc/lvm/lvm.conf
-
-pvcreate -y -ff $data
-vgcreate -y -ff $vg_name $data
-
-udevd -d
-
-lvcreate -y -n log-lv --size $log_vol_size $vg_name
-lvcreate -y -n scratch-lv --size $scratch_vol_size $vg_name
-
-mkfs.ext4 -F /dev/$vg_name/log-lv
-mkfs.ext4 -F /dev/$vg_name/scratch-lv
-
-mkdir /tgt_root
-mkdir /tgt_log
-mkdir /src_root
-mkdir -p /boot
-
-if [ ! -f /run/media/$1/$2 ]; then
- mkdir -p /run/media/$1
- mount /dev/$1 /run/media/$1
-fi
-
-# Handling of the target root partition
-mount $rootfs /tgt_root
-mount /dev/$vg_name/log-lv /tgt_log
-mount -o rw,loop,noatime,nodiratime /run/media/$1/$2 /src_root
-echo "Copying rootfs files..."
-cp -a /src_root/* /tgt_root
-if [ -d /tgt_root/etc/ ] ; then
- if [ $grub_version -ne 0 ] ; then
- boot_uuid=$(blkid -o value -s UUID ${bootfs})
- bootdev="UUID=$boot_uuid"
- else
- bootdev=${bootfs}
- fi
- sed -i '/vfat/d' /tgt_root/etc/fstab
- echo "$bootdev /boot ext3 defaults 1 2" >> /tgt_root/etc/fstab
- echo "/dev/$vg_name/log-lv /var/log ext4 defaults 1 2" >> /tgt_root/etc/fstab
- echo "/dev/$vg_name/scratch-lv /scratch ext4 defaults 1 2" >> /tgt_root/etc/fstab
-
- # We dont want udev to mount our root device while we're booting...
- if [ -d /tgt_root/etc/udev/ ] ; then
- echo "${device}" >> /tgt_root/etc/udev/mount.blacklist
- fi
-fi
-
-INSTALL_UUID=`uuidgen`
-cat << _EOF > /tgt_root/etc/platform/platform.conf
-nodetype=controller
-subfunction=controller,worker
-system_type=All-in-one
-security_profile=standard
-management_interface=lo
-http_port=8080
-INSTALL_UUID=${INSTALL_UUID}
-_EOF
-
-# Create first_boot flag
-touch /tgt_root/etc/platform/.first_boot
-
-# The grub.cfg is created by installer, so the postinsts script is not needed.
-rm -f /tgt_root/etc/rpm-postinsts/*-grub
-
-# /var/log will be mounted to the log-lv
-# so move the all files to log-lv
-cp -rf /tgt_root/var/log/* /tgt_log
-rm -rf /tgt_root/var/log
-
-# Fake as anaconda to add info needed by stx 3.0
-cat << _EOF > /tgt_root/etc/rpm-postinsts/999-anaconda
-# anaconda - postinst
-#!/bin/sh
-set -e
-mkdir -p /var/log/anaconda/
-echo "Display mode = t" > /var/log/anaconda/anaconda.log
-_EOF
-chmod 0755 /tgt_root/etc/rpm-postinsts/999-anaconda
-
-umount /tgt_root
-umount /src_root
-
-echo "Looking for kernels to use as boot target.."
-# Find kernel to boot to
-# Give user options if multiple are found
-kernels="$(find /run/media/$1/ -type f \
- -name bzImage* -o -name zImage* \
- -o -name vmlinux* -o -name vmlinuz* \
- -o -name fitImage* \
- | sed s:.*/::)"
-if [ -n "$(echo $kernels)" ]; then
- # only one kernel entry if no space
- if [ -z "$(echo $kernels | grep " ")" ]; then
- kernel=$kernels
- echo "$kernel will be used as the boot target"
- else
- echo "Which kernel do we want to boot by default? The following kernels were found:"
- echo $kernels
- read answer
- kernel=$answer
- fi
-else
- echo "No kernels found, exiting..."
- exit 1
-fi
-
-# Handling of the target boot partition
-mount $bootfs /boot
-echo "Preparing boot partition..."
-
-if [ -f /etc/grub.d/00_header -a $grub_version -ne 0 ] ; then
- echo "Preparing custom grub2 menu..."
- root_part_uuid=$(blkid -o value -s PARTUUID ${rootfs})
- boot_uuid=$(blkid -o value -s UUID ${bootfs})
- GRUBCFG="/boot/grub/grub.cfg"
- mkdir -p $(dirname $GRUBCFG)
- cat >$GRUBCFG <<_EOF
-timeout=5
-default=0
-menuentry "Yocto Linux with StarlingX @STX_ID@" {
- search --no-floppy --fs-uuid $boot_uuid --set root
- linux /$kernel root=$rootfs $rootwait rw console=tty0 console=ttyS0,115200 $5 $3 $4
-}
-_EOF
- chmod 0444 $GRUBCFG
-fi
-grub-install ${device}
-
-if [ $grub_version -eq 0 ] ; then
- echo "(hd0) ${device}" > /boot/grub/device.map
- echo "Preparing custom grub menu..."
- echo "default 0" > /boot/grub/menu.lst
- echo "timeout 30" >> /boot/grub/menu.lst
- echo "title Live Boot/Install-Image" >> /boot/grub/menu.lst
- echo "root (hd0,0)" >> /boot/grub/menu.lst
- echo "kernel /$kernel root=$rootfs rw $3 $4 quiet" >> /boot/grub/menu.lst
-fi
-
-# Copy kernel artifacts. To add more artifacts just add to types
-# For now just support kernel types already being used by something in OE-core
-for types in bzImage zImage vmlinux vmlinuz fitImage; do
- for kernel in `find /run/media/$1/ -name $types*`; do
- cp $kernel /boot
- done
-done
-
-umount /boot
-
-sync
-
-echo "Remove your installation media, and press ENTER"
-
-read enter
-
-echo "Rebooting..."
-reboot -f