# default keyboard and language keyboard 'us' lang en_US.UTF-8 # We do not want SELinux selinux --permissive # Services to activate services --enabled=NetworkManager services --disabled=lm_sensors # Default root pass, will be changed in post-install process anyway rootpw --lock user --name=installer --uid=9999 # Accept EULA eula --agreed # Partitioning from pre section %include /tmp/part-include # Disable kdump %addon com_redhat_kdump --disable %end # Start network network --bootproto=dhcp --device=link --activate # Add netinstall repos repo --name="rockybase" --baseurl=https://dl.rockylinux.org/pub/rocky/8/BaseOS/$basearch/os/ repo --name="rockyappstream" --baseurl=https://dl.rockylinux.org/pub/rocky/8/AppStream/$basearch/os/ repo --name="rockypowertools" --baseurl=http://dl.rockylinux.org/pub/rocky/8/PowerTools/$basearch/os/ --cost=200 repo --name="rockyextras" --baseurl=http://dl.rockylinux.org/pub/rocky/8/extras/$basearch/os --cost=200 repo --name="epel" --baseurl=https://dl.fedoraproject.org/pub/epel/8/Everything/$basearch/ repo --name="remi" --baseurl=https://rpmfind.net/linux/remi/enterprise/8/remi/$basearch/ repo --name="remimodular" --baseurl=https://rpms.remirepo.net/enterprise/8/modular/x86_64/ repo --name="openfusion" --baseurl=http://repo.openfusion.net/centos8-x86_64/ # Base URL for netinstall #url --mirrorlist https://mirrorlist.koozali.org/mirrorlist/smeos-11-x86_64 url --url=https://koji.koozali.org/kojifiles/repos-dist/dist-sme11-os/latest/$basearch # Packages to install %packages dracut-live @^smeserver-environment @core @baseos @^minimal anaconda anaconda-install-env-deps anaconda-live chkconfig glibc-all-langpacks initscripts kernel kernel-modules kernel-modules-extra memtest86+ syslinux -chrony -kexec-tools %end # Partitioning in pre-install %pre --interpreter=/bin/bash --log=/var/log/sme-partitioning.log # Read command line arguments if grep nolvm "/proc/cmdline" ; then NOLVM=true ; fi if grep noraid "/proc/cmdline" ; then NORAID=true ; fi if grep noxfs "/proc/cmdline" ; then FSTYPE="ext4" ; else FSTYPE="xfs" ; fi echo "Command line arguments:" cat /proc/cmdline # Minimum size of hard drive needed specified in MB MINSIZE=5000 # Number of detected drives and first disk size NDEV=0 BASESIZE=0 SIZEDIFF=0 # Loop through block devices, keep those over MINSIZE and ensure additional drives for RAID are within 100MB of the first for DEV in $(lsblk -nl | grep disk | cut -d' ' -f1) ; do if [ -d /sys/block/$DEV ] ; then REMOVABLE=`cat /sys/block/$DEV/removable` if (( $REMOVABLE == 0 )) ; then SIZE=`cat /sys/block/$DEV/size` MB=$(($SIZE/2**11)) if [ $MB -gt $MINSIZE ] ; then if [ $NDEV == 0 ] ; then echo "First drive found: $DEV with size $MB MB" DRIVES[$NDEV]=$DEV BASESIZE=$MB ((NDEV++)) else SIZEDIFF=$(($MB-$BASESIZE)) if [ $SIZEDIFF -gt 100 ] || [ $SIZEDIFF -lt -100 ] ; then echo "Drive found but size of $MB MB doesn't match $BASESIZE MB - ignoring" else echo "Additional drive found: $DEV with size $MB MB" DRIVES[$NDEV]=$DEV ((NDEV++)) fi fi fi fi fi done echo "Total disks found: $NDEV" # Calculate recommended swap size for RAID + nolvm case if [ -d /sys/firmware/efi ] ; then DISKSPARE=$(($BASESIZE-200-500-3000)) else DISKSPARE=$(($BASESIZE-1-500-3000)) fi MEMSIZE=$(awk '/^MemTotal:/{print $2}' /proc/meminfo) MEMSIZEMB=$(($MEMSIZE/2**10)) if [ $MEMSIZEMB -lt 2000 ] ; then SWAPSIZE=$((2*$MEMSIZEMB)) elif [ $MEMSIZEMB -lt 8000 ] ; then SWAPSIZE=$MEMSIZEMB else SWAPSIZE=8000 fi if [ $SWAPSIZE -gt $DISKSPARE ] ; then SWAPSIZE=$DISKSPARE ; fi # Declare useful variables printf -v DRIVELIST ",%s" "${DRIVES[@]}" if [ $NORAID ] ; then DRIVELIST=${DRIVES[0]} else DRIVELIST=${DRIVELIST:1} fi echo "Final drive list: $DRIVELIST" LEVEL=1 SPARE=0 # Error if detection has failed and fall back if [ ${#DRIVES[@]} == 0 ] ; then echo "No drive suitable for installation found! Reverting to Anaconda defaults." cat > /tmp/part-include < /tmp/part-include <> /tmp/part-include elif [ $BASESIZE -gt 2048000 ] ; then printf "part biosboot --fstype=biosboot --size=1 --ondisk=%s\n" "${DRIVES[0]}" >> /tmp/part-include fi # Create boot partition printf "part /boot --fstype=%s --size=500 --label=BOOT --ondisk=%s\n" "$FSTYPE" "${DRIVES[0]}" >> /tmp/part-include # Default to LVM unless specified at command line if [ $NOLVM ] ; then cat >> /tmp/part-include <> /tmp/part-include <> /tmp/part-include elif [ $BASESIZE -gt 2048000 ] ; then printf "part biosboot --fstype=biosboot --size=1 --ondisk=%s\n" "${DRIVES[$i]}" >> /tmp/part-include fi printf "part raid.%s1 --size=500 --ondisk=%s\n" "$i" "${DRIVES[$i]}" >> /tmp/part-include # Default to LVM unless specified if [ $NOLVM ] ; then printf "part raid.%s2 --size=3000 --grow --ondisk=%s\n" "$i" "${DRIVES[$i]}" >> /tmp/part-include printf "part raid.%s3 --size=%s --ondisk=%s\n" "$i" "$SWAPSIZE" "${DRIVES[$i]}" >> /tmp/part-include else printf "part raid.%s2 --size=4300 --grow --ondisk=%s\n" "$i" "${DRIVES[$i]}" >> /tmp/part-include fi done # Compute RAID level # from https://wiki.contribs.org/Raid # 2 Drives - Software RAID 1 # 3 Drives - Software RAID 1 + 1 Hot-spare # 4 Drives - Software RAID 6 # 5+ Drives - Software RAID 6 + 1 Hot-spare if [ ${#DRIVES[@]} == 2 ] ; then LEVEL=1 SPARE=0 elif [ ${#DRIVES[@]} == 3 ] ; then LEVEL=1 SPARE=1 elif [ ${#DRIVES[@]} == 4 ] ; then LEVEL=6 SPARE=0 else LEVEL=6 SPARE=1 fi # Set up RAID devices printf -v EFIDEVS "raid.%s0 " "${!DRIVES[@]}" printf -v BOOTDEVS "raid.%s1 " "${!DRIVES[@]}" printf -v ROOTDEVS "raid.%s2 " "${!DRIVES[@]}" printf -v SWAPDEVS "raid.%s3 " "${!DRIVES[@]}" # Include the EFI partition if necessary if [ -d /sys/firmware/efi ] ; then printf "raid /boot/efi --fstype=efi --level=1 --spares=0 --device=md9 %s\n" "$EFIDEVS" >> /tmp/part-include fi # Boot partition printf "raid /boot --fstype=%s --level=1 --spares=0 --device=md0 %s\n" "$FSTYPE" "$BOOTDEVS" >> /tmp/part-include # Default to LVM unless specified if [ $NOLVM ] ; then cat >> /tmp/part-include <> /tmp/part-include <