#!/bin/sh . /etc/initrd.defaults . /etc/initrd.scripts splash() { return 0 } [ -e /etc/initrd.splash ] && . /etc/initrd.splash # Clean input/output exec >${CONSOLE} <${CONSOLE} 2>&1 if [ "$$" != '1' ] then echo '/linuxrc has to be run as the init process as the one' echo 'with a PID of 1. Try adding init="/linuxrc" to the' echo 'kernel command line or running "exec /linuxrc".' exit 1 fi mount -t proc -o noexec,nosuid,nodev proc /proc >/dev/null 2>&1 mount -o remount,rw / >/dev/null 2>&1 # Prevent superfluous printks from being printed to the console echo 1 > /proc/sys/kernel/printk # Set up symlinks /bin/busybox --install -s if [ "$0" = '/init' ] then [ -e /linuxrc ] && rm /linuxrc fi CMDLINE=$(cat /proc/cmdline) # Scan CMDLINE for any specified real_root= or cdroot arguments FAKE_ROOT='' FAKE_INIT='' FAKE_ROOTFLAGS='' ROOTFSTYPE='auto' CRYPT_SILENT=0 QUIET='' mkdir -p /etc/cmdline /etc/modprobe.d for x in ${CMDLINE} do case "${x}" in real_root=*) REAL_ROOT=${x#*=} ;; root=*) FAKE_ROOT=${x#*=} ;; subdir=*) SUBDIR=${x#*=} ;; real_init=*) REAL_INIT=${x#*=} ;; init=*) FAKE_INIT=${x#*=} ;; # Livecd options cdroot) CDROOT=1 ;; cdroot=*) CDROOT=1 CDROOT_DEV=${x#*=} ;; cdroot_type=*) CDROOT_TYPE=${x#*=} ;; cdroot_marker=*) CDROOT_MARKER=${x#*=} ;; # Start livecd loop, looptype options loop=*) LOOP=${x#*=} ;; looptype=*) LOOPTYPE=${x#*=} ;; isoboot=*) ISOBOOT=${x#*=} ;; # Start Volume manager options dolvm) USE_LVM_NORMAL=1 ;; dolvm2) bad_msg 'Using dolvm2 is deprecated, use dolvm, instead.' USE_LVM_NORMAL=1 ;; domdadm) USE_MDADM=1 ;; dodmraid) USE_DMRAID_NORMAL=1 ;; dodmraid=*) DMRAID_OPTS=${x#*=} USE_DMRAID_NORMAL=1 ;; domultipath) good_msg "Booting with multipath activated." USE_MULTIPATH_NORMAL=1 ;; dozfs*) USE_ZFS=1 case "${x#*=}" in *force*) ZPOOL_FORCE=-f ;; esac case "${x#*=}" in *cache*) if [ -s "/etc/zfs/zpool.cache" ]; then ZPOOL_CACHE="-c /etc/zfs/zpool.cache" else bad_msg "zpool.cache not found or empty, zpool import will be slow" fi ;; esac ;; dobtrfs*) USE_BTRFS=1 ;; quiet|quiet_genkernel) QUIET=1 ;; # Debug Options debug) DEBUG='yes' ;; # Scan delay options scandelay=*) SDELAY=${x#*=} ;; scandelay) SDELAY=3 ;; rootdelay=*|rootwait=*) ROOTDELAY=${x#*=} ;; rootdelay|rootwait) ROOTDELAY=5 ;; firstmods=*) FIRSTMODS=$(echo ${FIRSTMODS} ${x#*=} | sed -e 's/^\ *//;s/,/ /g') ;; # Module no-loads doload=*) MDOLIST=$(echo ${MDOLIST} ${x#*=} | sed -e 's/^\ *//;s/,/ /g') ;; nodetect) NODETECT=1 ;; noload=*) MLIST=$(echo ${MLIST} ${x#*=} | sed -e 's/^\ *//;s/,/ /g') export MLIST ;; # Redirect output to a specific tty CONSOLE=*|console=*) CONSOLE=${x#*=} CONSOLE=$(basename ${CONSOLE}) # exec >${CONSOLE} <${CONSOLE} 2>&1 ;; # /dev/md lvmraid=*) RAID_DEVICES="${x#*=}" RAID_DEVICES="$(echo ${RAID_DEVICES} | sed -e 's/,/ /g')" USE_LVM_NORMAL=1 ;; part=*) MDPART=${x#*=} ;; part|partitionable) MDPART=1 ;; # NFS ip=*) IP=${x#*=} ;; nfsroot=*) NFSROOT=${x#*=} ;; # iSCSI iscsi_initiatorname=*) ISCSI_INITIATORNAME=${x#*=} ;; iscsi_target=*) ISCSI_TARGET=${x#*=} ;; iscsi_tgpt=*) ISCSI_TGPT=${x#*=} ;; iscsi_address=*) ISCSI_ADDRESS=${x#*=} ;; iscsi_port=*) ISCSI_PORT=${x#*=} ;; iscsi_username=*) ISCSI_USERNAME=${x#*=} ;; iscsi_password=*) ISCSI_PASSWORD=${x#*=} ;; iscsi_username_in=*) ISCSI_USERNAME_IN=${x#*=} ;; iscsi_password_in=*) ISCSI_PASSWORD_IN=${x#*=} ;; iscsi_debug=*) ISCSI_DEBUG=${x#*=} ;; iscsi_noibft) ISCSI_NOIBFT=1 ;; # Crypto crypt_root=*) CRYPT_ROOT=${x#*=} ;; crypt_swap=*) CRYPT_SWAP=${x#*=} ;; root_key=*) CRYPT_ROOT_KEY=${x#*=} ;; root_keydev=*) CRYPT_ROOT_KEYDEV=${x#*=} ;; root_trim=*) CRYPT_ROOT_TRIM=${x#*=} ;; swap_key=*) CRYPT_SWAP_KEY=${x#*=} ;; swap_keydev=*) CRYPT_SWAP_KEYDEV=${x#*=} ;; real_resume=*|resume=*) REAL_RESUME=${x#*=} ;; noresume) NORESUME=1 ;; crypt_silent) CRYPT_SILENT=1 ;; real_rootflags=*) REAL_ROOTFLAGS=${x#*=} ;; rootflags=*) FAKE_ROOTFLAGS=${x#*=} ;; rootfstype=*) ROOTFSTYPE=${x#*=} ;; keymap=*) keymap=${x#*=} ;; locale=*) locale=${x#*=} ;; aufs) aufs=1 ;; aufs\=*) aufs=1 if echo "${x#*=}" | grep , &>/dev/null; then aufs_dev_uid=${x#*,} aufs_dev=${x%,*} else aufs_dev=${x#*=} fi ;; # Allow user to specify the modules location aufs.modules\=*) aufs_modules_dir=${x#*=} aufs_modules=1 ;; overlayfs) overlayfs=1 ;; overlayfs\=*) overlayfs=1 if echo "${x#*=}" | grep , &>/dev/null; then overlayfs_dev_uid=${x#*,} overlayfs_dev=${x%,*} else overlayfs_dev=${x#*=} fi ;; # Allow user to specify the modules location overlayfs.modules\=*) overlayfs_modules_dir=${x#*=} overlayfs_modules=1 ;; unionfs) if [ ! -x /sbin/unionfs ] then USE_UNIONFS_NORMAL=0 bad_msg 'unionfs binary not found: aborting use of unionfs!' else USE_UNIONFS_NORMAL=1 fi ;; nounionfs) USE_UNIONFS_NORMAL=0 ;; verify) VERIFY=1 ;; esac done quiet_kmsg if [ "${CDROOT}" = '0' ] then if [ -z "${REAL_ROOT}" -a "${FAKE_ROOT}" != "/dev/ram0" ] then REAL_ROOT="${FAKE_ROOT}" fi if [ -z "${REAL_INIT}" -a "${FAKE_INIT}" != "/linuxrc" ] then REAL_INIT="${FAKE_INIT}" fi if [ -z "${REAL_ROOTFLAGS}" ] then REAL_ROOTFLAGS="${FAKE_ROOTFLAGS}" fi fi # Set variables based on the value of REAL_ROOT case "${REAL_ROOT}" in ZFS=*) ZFS_POOL=${REAL_ROOT#*=} ZFS_POOL=${ZFS_POOL%%/*} USE_ZFS=1 ;; ZFS) USE_ZFS=1 ;; esac # Verify that it is safe to use ZFS if [ "$USE_ZFS" = "1" ] then for i in /sbin/zfs /sbin/zpool do if [ ! -x ${i} ] then USE_ZFS=0 bad_msg 'Aborting use of zfs because ${i} not found!' break fi done [ "$USE_ZFS" = "1" ] && MY_HWOPTS="${MY_HWOPTS} zfs" fi # Hack for f2fs, which uses crc32 but does not depend on it (in many kernels at least): if [ "${ROOTFSTYPE}" = "f2fs" ]; then FIRSTMODS="${FIRSTMODS} crc32_generic" fi splash 'init' cmdline_hwopts # Mount devfs mount_devfs # Mount sysfs mount_sysfs # Initialize mdev good_msg 'Activating mdev' # Serialize hotplug events touch /dev/mdev.seq # Setup hotplugging for firmware loading if [ -f "/proc/sys/kernel/hotplug" ]; then echo /sbin/mdev > /proc/sys/kernel/hotplug fi # Load modules listed in MY_HWOPTS if /lib/modules exists for the running kernel if [ -z "${DO_modules}" ] then good_msg 'Skipping module load; disabled via commandline' elif [ -d "/lib/modules/${KV}" ] then good_msg 'Loading modules' if [ -n "$FIRSTMODS" ]; then # try these modules first -- detected modules for root device: modules_load firstmods ${FIRSTMODS} fi # Load appropriate kernel modules if [ "${NODETECT}" != '1' ] then for modules in ${MY_HWOPTS} do modules_scan ${modules} done fi # Always eval doload=... modules_load extra_load ${MDOLIST} else good_msg 'Skipping module load; no modules in the ramdisk!' fi # Ensure that device nodes are properly configured mdev -s || bad_msg "mdev -s failed" cd / # Start iSCSI if [ -e /bin/iscsistart ] then startiscsi fi # Apply scan delay if specified sdelay # Setup btrfs, see bug 303529 setup_btrfsctl # Setup md device nodes if they dont exist setup_md_device # Scan volumes startVolumes setup_keymap # Initialize LUKS root device except for livecd's if [ "${CDROOT}" != 1 ] then startLUKS if [ "${NORESUME}" != '1' ] && [ -n "${REAL_RESUME}" ] then case "${REAL_RESUME}" in LABEL=*|UUID=*) RESUME_DEV="" retval=1 if [ ${retval} -ne 0 ]; then RESUME_DEV=$(findfs "${REAL_RESUME}" 2>/dev/null) retval=$? fi if [ ${retval} -ne 0 ]; then RESUME_DEV=$(busybox findfs "${REAL_RESUME}" 2>/dev/null) retval=$? fi if [ ${retval} -ne 0 ]; then RESUME_DEV=$(blkid -o device -l -t "${REAL_RESUME}") retval=$? fi if [ ${retval} -eq 0 ] && [ -n "${RESUME_DEV}" ]; then good_msg "Detected real_resume=${RESUME_DEV}" REAL_RESUME="${RESUME_DEV}" fi ;; esac do_resume fi fi mkdir -p "${NEW_ROOT}" CHROOT="${NEW_ROOT}" # Run debug shell if requested rundebugshell "before setting up the root filesystem" if [ "${CDROOT}" = '1' ] then # Setup the root filesystem bootstrapFS if [ 1 = "$aufs" ]; then setup_aufs CHROOT=$aufs_union elif [ 1 = "$overlayfs" ]; then bootstrapCD CHROOT=${NEW_ROOT} fi if [ /dev/nfs != "$REAL_ROOT" ] && [ sgimips != "$LOOPTYPE" ] && [ 1 != "$aufs" ] && [ 1 != "$overlayfs" ]; then bootstrapCD fi if [ "${REAL_ROOT}" = '' ] then warn_msg "No bootable medium found. Waiting for new devices..." COUNTER=0 while [ ${COUNTER} -lt 3 ]; do sleep 3 let COUNTER=${COUNTER}+1 done sleep 1 bootstrapCD fi if [ "${REAL_ROOT}" = '' ] then # Undo stuff umount "${NEW_ROOT}/dev" 2>/dev/null umount "${NEW_ROOT}/sys" 2>/dev/null umount /sys 2>/dev/null umount "${NEW_ROOT}" rm -rf "${NEW_ROOT}/*" bad_msg 'Could not find CD to boot, something else needed!' CDROOT=0 fi fi # Determine root device good_msg 'Determining root device ...' ROOTDELAY_100MSEC=1 [ -n "${ROOTDELAY}" ] && ROOTDELAY_100MSEC=$(($ROOTDELAY * 10)) while true do while [ "${got_good_root}" != '1' ] do # Start of sleep loop waiting on root while [ ${ROOTDELAY_100MSEC} -ge 0 -a "${got_good_root}" != '1' ] ; do case "${REAL_ROOT}" in LABEL=*|UUID=*) ROOT_DEV="" retval=1 if [ ${retval} -ne 0 ]; then ROOT_DEV=$(findfs "${REAL_ROOT}" 2>/dev/null) retval=$? fi if [ ${retval} -ne 0 ]; then ROOT_DEV=$(busybox findfs "${REAL_ROOT}" 2>/dev/null) retval=$? fi if [ ${retval} -ne 0 ]; then ROOT_DEV=$(blkid -o device -l -t "${REAL_ROOT}") retval=$? fi if [ ${retval} -eq 0 ] && [ -n "${ROOT_DEV}" ]; then good_msg "Detected real_root=${ROOT_DEV}" REAL_ROOT="${ROOT_DEV}" else prompt_user "REAL_ROOT" "root block device" got_good_root=0 continue fi ;; ZFS*) if [ "${USE_ZFS}" = '0' ]; then prompt_user "REAL_ROOT" "root block device" continue fi ROOT_DEV="${REAL_ROOT#*=}" if [ "${ROOT_DEV}" != 'ZFS' ] then if [ "$(zfs get type -o value -H ${ROOT_DEV})" = 'filesystem' ] then got_good_root=1; REAL_ROOT=${ROOT_DEV} ROOTFSTYPE=zfs else bad_msg "${ROOT_DEV} is not a filesystem" prompt_user "REAL_ROOT" "root block device" got_good_root=0 continue fi else BOOTFS=$(/sbin/zpool list -H -o bootfs) if [ "${BOOTFS}" != '-' ] then for i in ${BOOTFS} do zfs get type ${i} > /dev/null retval=$? if [ ${retval} -eq 0 ]; then got_good_root=1 REAL_ROOT=${i} ROOTFSTYPE=zfs break fi done; else got_good_root=0 fi fi if [ ${got_good_root} -ne 1 ]; then prompt_user "REAL_ROOT" "root block device" got_good_root=0 fi continue ;; esac if [ "${got_good_root}" != '1' ] ; then let ROOTDELAY_100MSEC=${ROOTDELAY_100MSEC}-1 usleep 100 fi done # End of sleep loop waiting on root if [ "${REAL_ROOT}" = '' ] then # No REAL_ROOT determined/specified. Prompt user for root block device. prompt_user "REAL_ROOT" "root block device" got_good_root=0 # Check for a block device or /dev/nfs elif [ -b "${REAL_ROOT}" ] || [ "${REAL_ROOT}" = "/dev/nfs" ] || [ "${ROOTFSTYPE}" = "zfs" ] then got_good_root=1 else bad_msg "Block device ${REAL_ROOT} is not a valid root device..." REAL_ROOT="" got_good_root=0 fi done if [ "${CDROOT}" = 1 -a "${got_good_root}" = '1' -a "${REAL_ROOT}" != "/dev/nfs" ] then # CD already mounted; no further checks necessary break elif [ "${LOOPTYPE}" = "sgimips" ] then # sgimips mounts the livecd root partition directly # there is no isofs filesystem to worry about break else good_msg "Mounting $REAL_ROOT as root..." if [ "${ROOTFSTYPE}" = 'zfs' ] then if [ "zfs get -H -o value mountpoint ${REAL_ROOT}" = 'legacy' ] then MOUNT_STATE=rw else MOUNT_STATE=rw,zfsutil fi else MOUNT_STATE=ro fi # Try to mount the device as ${NEW_ROOT} if [ "${REAL_ROOT}" = '/dev/nfs' ]; then findnfsmount mountret=$? else # If $REAL_ROOT is a symlink # Resolve it like util-linux mount does [ -L ${REAL_ROOT} ] && REAL_ROOT=`readlink ${REAL_ROOT}` # mount ro so fsck doesn't barf later if [ "${REAL_ROOTFLAGS}" = '' ]; then good_msg "Using mount -t ${ROOTFSTYPE} -o ${MOUNT_STATE} ${REAL_ROOT} ${NEW_ROOT}" mount -t ${ROOTFSTYPE} -o ${MOUNT_STATE} ${REAL_ROOT} ${NEW_ROOT} mountret=$? else good_msg "Using mount -t ${ROOTFSTYPE} -o ${MOUNT_STATE},${REAL_ROOTFLAGS} ${REAL_ROOT} ${NEW_ROOT}" mount -t ${ROOTFSTYPE} -o ${MOUNT_STATE},${REAL_ROOTFLAGS} ${REAL_ROOT} ${NEW_ROOT} mountret=$? fi fi # If mount is successful break out of the loop # else not a good root and start over. if [ "$mountret" = '0' ] then if [ -d ${NEW_ROOT}/dev -a -x "${NEW_ROOT}${REAL_INIT:-/sbin/init}" ] || [ "${REAL_ROOT}" = "/dev/nfs" ] then break else bad_msg "The filesystem mounted at ${REAL_ROOT} does not appear to be a valid /, try again" got_good_root=0 REAL_ROOT='' fi else bad_msg "Could not mount specified ROOT, try again" got_good_root=0 REAL_ROOT='' fi fi done # End determine root device #verbose_kmsg # If CD root is set determine the looptype to boot if [ "${CDROOT}" = '1' ] then good_msg 'Determining looptype ...' cd "${NEW_ROOT}" # Find loop and looptype [ -z "${LOOP}" ] && find_loop [ -z "${LOOPTYPE}" ] && find_looptype cache_cd_contents # If encrypted, find key and mount, otherwise mount as usual if [ -n "${CRYPT_ROOT}" ] then CRYPT_ROOT_KEY="$(head -n 1 "${CDROOT_PATH}"/${CDROOT_MARKER})" CRYPT_ROOT='/dev/loop0' good_msg 'You booted an encrypted livecd' "${CRYPT_SILENT}" losetup /dev/loop0 "${CDROOT_PATH}/${LOOPEXT}${LOOP}" test_success 'Preparing loop filesystem' startLUKS case ${LOOPTYPE} in normal) MOUNTTYPE="ext2" ;; *) MOUNTTYPE="${LOOPTYPE}" ;; esac mount -t "${MOUNTTYPE}" -o ro /dev/mapper/root "${NEW_ROOT}/mnt/livecd" test_success 'Mount filesystem' FS_LOCATION='mnt/livecd' # Setup the loopback mounts, if unencrypted else # if [ -n "${CRYPT_ROOT}" ] if [ "${LOOPTYPE}" = 'normal' ] then good_msg 'Mounting loop filesystem' mount -t ext2 -o loop,ro "${CDROOT_PATH}/${LOOPEXT}${LOOP}" "${NEW_ROOT}/mnt/livecd" test_success 'Mount filesystem' FS_LOCATION='mnt/livecd' elif [ "${LOOPTYPE}" = 'squashfs' ] then good_msg 'Mounting squashfs filesystem' if [ 1 = "$aufs" ]; then setup_squashfs_aufs test_success 'Mount aufs filesystem' elif [ 1 = "$overlayfs" ]; then setup_overlayfs test_success 'Mount overlayfs filesystem' else _CACHED_SQUASHFS_PATH="${NEW_ROOT}/mnt/${LOOP}" _squashfs_path="${CDROOT_PATH}/${LOOPEXT}${LOOP}" # Default to uncached # Upgrade to cached version if possible [ "${DO_cache}" -a -f "${_CACHED_SQUASHFS_PATH}" ] \ && _squashfs_path=${_CACHED_SQUASHFS_PATH} mount -t squashfs -o loop,ro "${_squashfs_path}" "${NEW_ROOT}/mnt/livecd" || { bad_msg "Squashfs filesystem could not be mounted, dropping into shell." if [ -e /proc/filesystems ]; then fgrep -q squashfs /proc/filesystems || \ bad_msg "HINT: Your kernel does not know filesystem \"squashfs\"." fi do_rundebugshell } fi FS_LOCATION='mnt/livecd' elif [ "${LOOPTYPE}" = 'gcloop' ] then good_msg 'Mounting gcloop filesystem' echo ' ' | losetup -E 19 -e ucl-0 -p0 "${NEW_ROOT}/dev/loop0" "${CDROOT_PATH}/${LOOPEXT}${LOOP}" test_success 'losetup the loop device' mount -t ext2 -o ro "${NEW_ROOT}/dev/loop0" "${NEW_ROOT}/mnt/livecd" test_success 'Mount the losetup loop device' FS_LOCATION='mnt/livecd' elif [ "${LOOPTYPE}" = 'zisofs' ] then FS_LOCATION="${CDROOT_PATH/\/}/${LOOPEXT}${LOOP}" elif [ "${LOOPTYPE}" = 'noloop' ] then FS_LOCATION="${CDROOT_PATH/\/}" elif [ "${LOOPTYPE}" = 'sgimips' ] then # getdvhoff finds the starting offset (in bytes) of the squashfs # partition on the cdrom and returns this offset for losetup # # All currently supported SGI Systems use SCSI CD-ROMs, so # so we know that the CD-ROM is usually going to be /dev/sr0. # # We use the value given to losetup to set /dev/loop0 to point # to the liveCD root partition, and then mount /dev/loop0 as # the LiveCD rootfs good_msg 'Locating the SGI LiveCD Root Partition' echo ' ' | \ losetup -o $(getdvhoff "${NEW_ROOT}${REAL_ROOT}" 0) \ "${NEW_ROOT}${CDROOT_DEV}" \ "${NEW_ROOT}${REAL_ROOT}" test_success 'losetup /dev/sr0 /dev/loop0' good_msg 'Mounting the Root Partition' mount -t squashfs -o ro "${NEW_ROOT}${CDROOT_DEV}" "${NEW_ROOT}/mnt/livecd" test_success 'mount /dev/loop0 /' FS_LOCATION='mnt/livecd' fi fi # if [ -n "${CRYPT_ROOT}" ] if [ 1 = "$aufs" ]; then aufs_insert_dir "$CHROOT" "$aufs_ro_branch" # Function to handle the RC_NO_UMOUNTS variable in $CHROOT/etc/rc.conf conf_rc_no_umounts # Fstab changes for aufs if ! grep -q '^aufs' "$CHROOT/etc/fstab" 2>/dev/null; then for dir in /var/tmp /tmp; do [ ! -d $CHROOT$dir ] && mkdir -p "$CHROOT$dir" done cat > "$CHROOT/etc/fstab" << FSTAB #################################################### ## ATTENTION: THIS IS THE FSTAB ON THE LIVECD ## ## PLEASE EDIT THE FSTAB at /mnt/gentoo/etc/fstab ## #################################################### aufs / aufs defaults 0 0 vartmp /var/tmp tmpfs defaults 0 0 tmp /tmp tmpfs defaults 0 0 FSTAB fi # Check modules support is_union_modules aufs # Create the directories for our new union mounts [ ! -d $CHROOT$NEW_ROOT ] && mkdir -p "$CHROOT$NEW_ROOT" # Check to see if we successfully mounted $aufs_dev if [ -n "$aufs_dev" ] && grep $aufs_dev /etc/mtab 1>/dev/null; then [ ! -d $CHROOT$aufs_dev_mnt ] && mkdir -p "$CHROOT$aufs_dev_mnt" mount --move "$aufs_dev_mnt" "$CHROOT$aufs_dev_mnt" fi fi # Unpacking additional packages from NFS mount # This is useful for adding kernel modules to /lib # We do this now, so that additional packages can add whereever they want. if [ "${REAL_ROOT}" = '/dev/nfs' ] then if [ -e "${CDROOT_PATH}/add" ] then for targz in $(ls ${CDROOT_PATH}/add/*.tar.gz) do tarname=$(basename ${targz}) good_msg "Adding additional package ${tarname}" (cd ${NEW_ROOT} ; /bin/tar -xf ${targz}) done fi fi if [ "${USE_UNIONFS_NORMAL}" = '1' ]; then setup_unionfs ${NEW_ROOT} /${FS_LOCATION} CHROOT=/union elif [ 1 != "$aufs" ] && [ 1 != "$overlayfs" ]; then good_msg "Copying read-write image contents to tmpfs" # Copy over stuff that should be writable ( cd "${NEW_ROOT}/${FS_LOCATION}" cp -a ${ROOT_TREES} "${NEW_ROOT}" ) || { bad_msg "Copying failed, dropping into a shell." do_rundebugshell } # Now we do the links. for x in ${ROOT_LINKS}; do if [ -L "${NEW_ROOT}/${FS_LOCATION}/${x}" ]; then ln -s "$(readlink ${NEW_ROOT}/${FS_LOCATION}/${x})" "${x}" 2>/dev/null else # List all subdirectories of x find "${NEW_ROOT}/${FS_LOCATION}/${x}" -type d 2>/dev/null | while read directory; do # Strip the prefix of the FS_LOCATION directory="${directory#${NEW_ROOT}/${FS_LOCATION}/}" # Skip this directory if we already linked a parent directory if [ "${current_parent}" != '' ]; then var=$(echo "${directory}" | grep "^${current_parent}") if [ "${var}" != '' ]; then continue fi fi # Test if the directory exists already if [ -e "/${NEW_ROOT}/${directory}" ]; then # It does exist, link all the individual files for file in $(ls /${NEW_ROOT}/${FS_LOCATION}/${directory}); do if [ ! -d "/${NEW_ROOT}/${FS_LOCATION}/${directory}/${file}" ] && [ ! -e "${NEW_ROOT}/${directory}/${file}" ]; then ln -s "/${FS_LOCATION}/${directory}/${file}" "${directory}/${file}" 2> /dev/null fi done else # It does not exist, make a link to the livecd ln -s "/${FS_LOCATION}/${directory}" "${directory}" 2>/dev/null current_parent="${directory}" fi done fi done mkdir -p initramfs proc tmp run sys 2>/dev/null chmod 1777 tmp fi # Have handy /mnt/cdrom (CDROOT_PATH) as well if [ 1 = "$aufs" ]; then [ ! -d "$CHROOT$CDROOT_PATH" ] && mkdir "$CHROOT$CDROOT_PATH" mount --move "$CDROOT_PATH" "$CHROOT$CDROOT_PATH" else [ ! -d "$NEW_ROOT$CDROOT_PATH" ] && mkdir -p "$NEW_ROOT$CDROOT_PATH" mount --move "$CDROOT_PATH" "$NEW_ROOT$CDROOT_PATH" fi #UML=$(cat /proc/cpuinfo|grep UML|sed -e 's|model name.*: ||') #if [ "${UML}" = 'UML' ] #then # # UML Fixes # good_msg 'Updating for uml system' #fi # Let Init scripts know that we booted from CD export CDBOOT CDBOOT=1 else if [ "${USE_UNIONFS_NORMAL}" = '1' ] then mkdir /union_changes mount -t tmpfs tmpfs /union_changes setup_unionfs /union_changes ${NEW_ROOT} mkdir -p ${UNION}/tmp/.initrd elif [ 1 = "$aufs" ]; then aufs_insert_dir "$aufs_union" "$NEW_ROOT" mkdir -p "$aufs_union/tmp/.initrd" fi fi # if [ "${CDROOT}" = '1' ] # Mount the additional things as required by udev & systemd if [ -f ${NEW_ROOT}/etc/initramfs.mounts ]; then fslist=$(get_mounts_list) else fslist="/usr" fi for fs in $fslist; do dev=$(get_mount_device $fs) [ -z "${dev}" ] && continue # Resolve it like util-linux mount does [ -L ${dev} ] && dev=`readlink ${dev}` # In this case, it's probably part of the filesystem # and not a mountpoint [ -z "$dev" ] && continue fstype=$(get_mount_fstype $fs) if get_mount_options $fs | fgrep -q bind ; then opts='bind' dev=${NEW_ROOT}${dev} else # ro must be trailing, and the options will always contain at least 'defaults' opts="$(get_mount_options $fs | strip_mount_options),ro" fi mnt=${NEW_ROOT}${fs} cmd="mount -t $fstype -o $opts $dev $mnt" good_msg "Mounting $dev as ${fs}: $cmd" if ! $cmd; then bad_msg "Unable to mount $dev for $fs" fi done # for fs in $fslist; do # Execute script on the cdrom just before boot to update things if necessary cdupdate if [ "${SUBDIR}" != '' -a -e "${CHROOT}/${SUBDIR}" ] then good_msg "Entering ${SUBDIR} to boot" CHROOT="${CHROOT}/${SUBDIR}" fi verbose_kmsg if [ 1 = "$aufs" ]; then aufs_union_memory=$CHROOT/.unions/memory mkdir -p "$aufs_union_memory" mount --move "$aufs_memory" "$aufs_union_memory" test_success "Failed to move aufs $aufs_memory into the system root" for dir in /mnt/gentoo $aufs_rw_branch $aufs_ro_branch; do mkdir -p "$CHROOT$dir" chmod 755 "$CHROOT$dir" done for mount in $aufs_rw_branch $aufs_ro_branch; do mount --move "$mount" "$CHROOT$mount" done fi # Copy user keymap generated file if available copyKeymap # Setup any user defined environment locales for desktop usage setup_locale good_msg "Booting (initramfs)" cd "${CHROOT}" mkdir "${CHROOT}/proc" "${CHROOT}/sys" "${CHROOT}/run" 2>/dev/null # If devtmpfs is mounted, try move it to the new root # If that fails, try to unmount all possible mounts of # devtmpfs as stuff breaks otherwise for fs in /dev /sys /proc do if grep -qs "$fs" /proc/mounts then if ! mount -o move $fs "${CHROOT}"$fs then umount $fs || \ bad_msg "Failed to move and unmount the ramdisk $fs!" fi fi done if [ ! -e "${CHROOT}/dev/console" ] || [ ! -e "${CHROOT}/dev/null" ] then bad_msg "ERROR: your real /dev is missing console and null" elif [ -e /etc/initrd.splash -a ! -e "${CHROOT}/dev/tty1" ] then bad_msg "ERROR: your real /dev is missing tty1, required for splash" fi # Run debug shell if requested rundebugshell "before entering switch_root" # init_opts is set in the environment by the kernel when it parses the command line init=${REAL_INIT:-/sbin/init} if ! mountpoint "${CHROOT}"; then bad_msg "$CHROOT was not a mountpoint" elif chroot "${CHROOT}" /usr/bin/test ! -x /${init} ; then bad_msg "init=${init} does not exist in the rootfs!" elif [ $$ != 1 ]; then bad_msg "PID was not 1! switch_root would fail" else good_msg "Switching to real root: /sbin/switch_root -c /dev/console ${CHROOT} ${init} ${init_opts}" exec /sbin/switch_root -c "/dev/console" "${CHROOT}" "${init}" ${init_opts} fi # If we get here, something bad has happened splash 'verbose' bad_msg "A fatal error has occured since ${init} did not" bad_msg "boot correctly. Trying to open a shell..." exec /bin/bash exec /bin/sh exec /bin/ash exec /bin/dash exec sh