#!/bin/bash # # template script for generating ubuntu container for LXC # # This script consolidates and extends the existing lxc ubuntu scripts # # Copyright © 2011 Serge Hallyn # Copyright © 2010 Wilhelm Meier # Author: Wilhelm Meier # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA # Detect use under userns (unsupported) for arg in "$@"; do [ "$arg" = "--" ] && break if [ "$arg" = "--mapped-uid" -o "$arg" = "--mapped-gid" ]; then echo "This template can't be used for unprivileged containers." 1>&2 echo "You may want to try the \"download\" template instead." 1>&2 exit 1 fi done # Make sure the usual locations are in PATH export PATH=$PATH:/usr/sbin:/usr/bin:/sbin:/bin set -e LOCALSTATEDIR="@LOCALSTATEDIR@" LXC_TEMPLATE_CONFIG="@LXCTEMPLATECONFIG@" # Allows the lxc-cache directory to be set by environment variable LXC_CACHE_PATH=${LXC_CACHE_PATH:-"$LOCALSTATEDIR/cache/lxc"} if [ -r /etc/default/lxc ]; then . /etc/default/lxc fi # Check if given path is in a btrfs partition is_btrfs() { [ -e $1 -a $(stat -f -c '%T' $1) = "btrfs" ] } # Check if given path is the root of a btrfs subvolume is_btrfs_subvolume() { [ -d $1 -a $(stat -f -c '%T' $1) = "btrfs" -a $(stat -c '%i' $1) -eq 256 ] } try_mksubvolume() { path=$1 [ -d $path ] && return 0 mkdir -p $(dirname $path) if which btrfs >/dev/null 2>&1 && is_btrfs $(dirname $path); then btrfs subvolume create $path else mkdir -p $path fi } try_rmsubvolume() { path=$1 [ -d $path ] || return 0 if which btrfs >/dev/null 2>&1 && is_btrfs_subvolume $path; then btrfs subvolume delete $path else rm -rf $path fi } configure_ubuntu() { rootfs=$1 hostname=$2 release=$3 user=$4 password=$5 # configure the network using the dhcp if chroot $rootfs which netplan >/dev/null 2>&1; then cat < $rootfs/etc/netplan/10-lxc.yaml network: ethernets: eth0: {dhcp4: true} version: 2 EOF else cat < $rootfs/etc/network/interfaces # This file describes the network interfaces available on your system # and how to activate them. For more information, see interfaces(5). # The loopback network interface auto lo iface lo inet loopback auto eth0 iface eth0 inet dhcp EOF fi # set the hostname cat < $rootfs/etc/hostname $hostname EOF # set minimal hosts cat < $rootfs/etc/hosts 127.0.0.1 localhost 127.0.1.1 $hostname # The following lines are desirable for IPv6 capable hosts ::1 ip6-localhost ip6-loopback fe00::0 ip6-localnet ff00::0 ip6-mcastprefix ff02::1 ip6-allnodes ff02::2 ip6-allrouters EOF if [ ! -f $rootfs/etc/init/container-detect.conf ]; then # suppress log level output for udev sed -i "s/=\"err\"/=0/" $rootfs/etc/udev/udev.conf # remove jobs for consoles 5 and 6 since we only create 4 consoles in # this template rm -f $rootfs/etc/init/tty{5,6}.conf fi if [ -z "$bindhome" ]; then chroot $rootfs useradd --create-home -s /bin/bash $user echo "$user:$password" | chroot $rootfs chpasswd fi # make sure we have the current locale defined in the container if [ -z "$LANG" ] || echo $LANG | grep -E -q "^C(\..+)*$"; then chroot $rootfs locale-gen en_US.UTF-8 || true chroot $rootfs update-locale LANG=en_US.UTF-8 || true else chroot $rootfs locale-gen $LANG || true chroot $rootfs update-locale LANG=$LANG || true fi # generate new SSH keys if [ -x $rootfs/var/lib/dpkg/info/openssh-server.postinst ]; then cat > $rootfs/usr/sbin/policy-rc.d << EOF #!/bin/sh exit 101 EOF chmod +x $rootfs/usr/sbin/policy-rc.d if [ -f "$rootfs/etc/init/ssh.conf" ]; then mv "$rootfs/etc/init/ssh.conf" "$rootfs/etc/init/ssh.conf.disabled" fi rm -f $rootfs/etc/ssh/ssh_host_*key* DPKG_MAINTSCRIPT_PACKAGE=openssh DPKG_MAINTSCRIPT_NAME=postinst chroot $rootfs /var/lib/dpkg/info/openssh-server.postinst configure sed -i "s/root@$(hostname)/root@$hostname/g" $rootfs/etc/ssh/ssh_host_*.pub if [ -f "$rootfs/etc/init/ssh.conf.disabled" ]; then mv "$rootfs/etc/init/ssh.conf.disabled" "$rootfs/etc/init/ssh.conf" fi rm -f $rootfs/usr/sbin/policy-rc.d fi return 0 } # finish setting up the user in the container by injecting ssh key and # adding sudo group membership. # passed-in user is either 'ubuntu' or the user to bind in from host. finalize_user() { user=$1 sudo_version=$(chroot $rootfs dpkg-query -W -f='${Version}' sudo) if chroot $rootfs dpkg --compare-versions $sudo_version gt "1.8.3p1-1"; then groups="sudo" else groups="sudo admin" fi for group in $groups; do chroot $rootfs groupadd --system $group >/dev/null 2>&1 || true chroot $rootfs adduser ${user} $group >/dev/null 2>&1 || true done if [ -n "$auth_key" -a -f "$auth_key" ]; then u_path="/home/${user}/.ssh" root_u_path="$rootfs/$u_path" mkdir -p $root_u_path cp $auth_key "$root_u_path/authorized_keys" chroot $rootfs chown -R ${user}: "$u_path" echo "Inserted SSH public key from $auth_key into /home/${user}/.ssh/authorized_keys" fi return 0 } # A function to try and autodetect squid-deb-proxy servers on the local network # if either the squid-deb-proxy-client package is installed on the host or # a parent container set the 50squid-deb-proxy-client file. squid_deb_proxy_autodetect() { local apt_discover=/usr/share/squid-deb-proxy-client/apt-avahi-discover local proxy_file=/etc/apt/apt.conf.d/50squid-deb-proxy-client squid_proxy_line= # That's a global :/ # Maybe the host is aware of a squid-deb-proxy? if [ -f $apt_discover ]; then echo -n "Discovering squid-deb-proxy..." squid_proxy_line=$($apt_discover) if [ -n "$squid_proxy_line" ]; then echo "found squid-deb-proxy: $squid_proxy_line" else echo "no squid-deb-proxy found" fi fi # Are we in a nested container, and the parent already knows of a proxy? if [ -f $proxy_file ]; then # Extract the squid URL from the file (whatever is between "") squid_proxy_line=`cat $proxy_file | sed "s/.*\"\(.*\)\".*/\1/"` fi } # # Choose proxies for container # http_proxy will be used by debootstrap on the host. # APT_PROXY will be used to set /etc/apt/apt.conf.d/70proxy in the container. # choose_container_proxy() { local rootfs=$1 local arch=$2 if [ -z "$HTTP_PROXY" ]; then HTTP_PROXY="none" fi case "$HTTP_PROXY" in none) squid_deb_proxy_autodetect if [ -n "$squid_proxy_line" ]; then APT_PROXY=$squid_proxy_line export http_proxy=$squid_proxy_line else APT_PROXY= fi ;; apt) RES=`apt-config shell APT_PROXY Acquire::http::Proxy` eval $RES [ -z "$APT_PROXY" ] || export http_proxy=$APT_PROXY ;; *) APT_PROXY=$HTTP_PROXY export http_proxy=$HTTP_PROXY ;; esac } write_sourceslist() { # $1 => path to the partial cache or the rootfs # $2 => architecture we want to add # $3 => whether to use the multi-arch syntax or not if [ -n "$APT_PROXY" ]; then mkdir -p $1/etc/apt/apt.conf.d cat > $1/etc/apt/apt.conf.d/70proxy << EOF Acquire::http::Proxy "$APT_PROXY" ; EOF fi case $2 in amd64|i386) MIRROR=${MIRROR:-http://archive.ubuntu.com/ubuntu} SECURITY_MIRROR=${SECURITY_MIRROR:-http://security.ubuntu.com/ubuntu} ;; *) MIRROR=${MIRROR:-http://ports.ubuntu.com/ubuntu-ports} SECURITY_MIRROR=${SECURITY_MIRROR:-http://ports.ubuntu.com/ubuntu-ports} ;; esac if [ -n "$3" ]; then cat >> "$1/etc/apt/sources.list" << EOF deb [arch=$2] $MIRROR ${release} main restricted universe multiverse deb [arch=$2] $MIRROR ${release}-updates main restricted universe multiverse deb [arch=$2] $SECURITY_MIRROR ${release}-security main restricted universe multiverse EOF else cat >> "$1/etc/apt/sources.list" << EOF deb $MIRROR ${release} main restricted universe multiverse deb $MIRROR ${release}-updates main restricted universe multiverse deb $SECURITY_MIRROR ${release}-security main restricted universe multiverse EOF fi } install_packages() { local rootfs="$1" shift local packages="$*" if [ -z $update ] then chroot $rootfs apt-get update update=true fi if [ -n "${packages}" ] then chroot $rootfs apt-get install --force-yes -y --no-install-recommends ${packages} fi } cleanup() { try_rmsubvolume $cache/partial-$arch try_rmsubvolume $cache/rootfs-$arch } suggest_flush() { echo "Container upgrade failed. The container cache may be out of date," echo "in which case flushing the cache (see -F in the help output) may help." } download_ubuntu() { cache=$1 arch=$2 release=$3 case $2 in amd64|i386) MIRROR=${MIRROR:-http://archive.ubuntu.com/ubuntu} SECURITY_MIRROR=${SECURITY_MIRROR:-http://security.ubuntu.com/ubuntu} ;; *) MIRROR=${MIRROR:-http://ports.ubuntu.com/ubuntu-ports} SECURITY_MIRROR=${SECURITY_MIRROR:-http://ports.ubuntu.com/ubuntu-ports} ;; esac packages_template=${packages_template:-"apt-transport-https,ssh,vim"} debootstrap_parameters= # Try to guess a list of langpacks to install langpacks="language-pack-en" if which dpkg >/dev/null 2>&1; then langpacks=`(echo $langpacks && dpkg -l | grep -E "^ii language-pack-[a-z]* " | cut -d ' ' -f3) | sort -u` fi packages_template="${packages_template},$(echo $langpacks | sed 's/ /,/g')" if [ -n "$variant" ]; then debootstrap_parameters="$debootstrap_parameters --variant=$variant" fi if [ "$variant" = 'minbase' ]; then packages_template="${packages_template},sudo" # Newer releases use netplan, EOL releases not supported case $release in trusty|xenial|zesty) packages_template="${packages_template},ifupdown,isc-dhcp-client" ;; esac fi echo "Installing packages in template: ${packages_template}" trap cleanup EXIT SIGHUP SIGINT SIGTERM # check the mini ubuntu was not already downloaded try_mksubvolume "$cache/partial-$arch" if [ $? -ne 0 ]; then echo "Failed to create '$cache/partial-$arch' directory" return 1 fi choose_container_proxy $cache/partial-$arch/ $arch # download a mini ubuntu into a cache echo "Downloading ubuntu $release minimal ..." if [ -n "$(which qemu-debootstrap)" ]; then qemu-debootstrap --verbose $debootstrap_parameters --components=main,universe --arch=$arch --include=${packages_template} $release $cache/partial-$arch $MIRROR else debootstrap --verbose $debootstrap_parameters --components=main,universe --arch=$arch --include=${packages_template} $release $cache/partial-$arch $MIRROR fi if [ $? -ne 0 ]; then echo "Failed to download the rootfs, aborting." return 1 fi # Serge isn't sure whether we should avoid doing this when # $release == `distro-info -d` echo "Installing updates" > $cache/partial-$arch/etc/apt/sources.list write_sourceslist $cache/partial-$arch/ $arch chroot "$1/partial-${arch}" apt-get update if [ $? -ne 0 ]; then echo "Failed to update the apt cache" return 1 fi cat > "$1/partial-${arch}"/usr/sbin/policy-rc.d << EOF #!/bin/sh exit 101 EOF chmod +x "$1/partial-${arch}"/usr/sbin/policy-rc.d ( cat << EOF mount -t proc proc "${1}/partial-${arch}/proc" chroot "${1}/partial-${arch}" apt-get dist-upgrade -y EOF ) | lxc-unshare -s MOUNT -- sh -eu || (suggest_flush; false) rm -f "$1/partial-${arch}"/usr/sbin/policy-rc.d chroot "$1/partial-${arch}" apt-get clean mv "$1/partial-$arch" "$1/rootfs-$arch" trap EXIT trap SIGINT trap SIGTERM trap SIGHUP echo "Download complete" return 0 } copy_ubuntu() { cache=$1 arch=$2 rootfs=$3 # make a local copy of the miniubuntu echo "Copying rootfs to $rootfs ..." try_mksubvolume $rootfs if which btrfs >/dev/null 2>&1 && is_btrfs_subvolume $cache/rootfs-$arch && is_btrfs_subvolume $rootfs; then realrootfs=$(dirname $config)/rootfs [ "$rootfs" = "$realrootfs" ] || umount $rootfs || return 1 btrfs subvolume delete $realrootfs || return 1 btrfs subvolume snapshot $cache/rootfs-$arch $realrootfs || return 1 [ "$rootfs" = "$realrootfs" ] || mount --bind $realrootfs $rootfs || return 1 else rsync -SHaAX $cache/rootfs-$arch/ $rootfs/ || return 1 fi return 0 } install_ubuntu() { rootfs=$1 release=$2 flushcache=$3 cache="$4/$release" mkdir -p $LOCALSTATEDIR/lock/subsys/ ( flock -x 9 if [ $? -ne 0 ]; then echo "Cache repository is busy." return 1 fi if [ $flushcache -eq 1 ]; then echo "Flushing cache..." try_rmsubvolume $cache/partial-$arch try_rmsubvolume $cache/rootfs-$arch fi echo "Checking cache download in $cache/rootfs-$arch ... " if [ ! -e "$cache/rootfs-$arch" ]; then download_ubuntu $cache $arch $release if [ $? -ne 0 ]; then echo "Failed to download 'ubuntu $release base'" return 1 fi fi echo "Copy $cache/rootfs-$arch to $rootfs ... " copy_ubuntu $cache $arch $rootfs if [ $? -ne 0 ]; then echo "Failed to copy rootfs" return 1 fi return 0 ) 9>$LOCALSTATEDIR/lock/subsys/lxc-ubuntu$release return $? } copy_configuration() { path=$1 rootfs=$2 name=$3 arch=$4 release=$5 if [ $arch = "i386" ]; then arch="i686" fi # if there is exactly one veth network entry, make sure it has an # associated hwaddr. nics=`grep -e '^lxc\.net\.0\.type[ \t]*=[ \t]*veth' $path/config | wc -l` if [ $nics -eq 1 ]; then grep -q "^lxc.net.0.hwaddr" $path/config || sed -i -e "/^lxc\.net\.0\.type[ \t]*=[ \t]*veth/a lxc.net.0.hwaddr = 00:16:3e:$(openssl rand -hex 3| sed 's/\(..\)/\1:/g; s/.$//')" $path/config fi # Generate the configuration file ## Relocate all the network config entries sed -i -e "/lxc.net.0/{w ${path}/config-network" -e "d}" $path/config ## Relocate any other config entries sed -i -e "/lxc./{w ${path}/config-auto" -e "d}" $path/config ## Add all the includes echo "" >> $path/config echo "# Common configuration" >> $path/config if [ -e "${LXC_TEMPLATE_CONFIG}/ubuntu.common.conf" ]; then echo "lxc.include = ${LXC_TEMPLATE_CONFIG}/ubuntu.common.conf" >> $path/config fi if [ -e "${LXC_TEMPLATE_CONFIG}/ubuntu.${release}.conf" ]; then echo "lxc.include = ${LXC_TEMPLATE_CONFIG}/ubuntu.${release}.conf" >> $path/config fi ## Add the container-specific config echo "" >> $path/config echo "# Container specific configuration" >> $path/config [ -e "$path/config-auto" ] && cat $path/config-auto >> $path/config && rm $path/config-auto grep -q "^lxc.rootfs.path" $path/config 2>/dev/null || echo "lxc.rootfs.path = $rootfs" >> $path/config cat <> $path/config lxc.uts.name = $name lxc.arch = $arch EOF ## Re-add the previously removed network config echo "" >> $path/config echo "# Network configuration" >> $path/config cat $path/config-network >> $path/config rm $path/config-network if [ $? -ne 0 ]; then echo "Failed to add configuration" return 1 fi return 0 } post_process() { rootfs=$1 release=$2 packages=$3 # Disable service startup cat > $rootfs/usr/sbin/policy-rc.d << EOF #!/bin/sh exit 101 EOF chmod +x $rootfs/usr/sbin/policy-rc.d # If the container isn't running a native architecture, setup multiarch if [ -x "$(ls -1 ${rootfs}/usr/bin/qemu-*-static 2>/dev/null)" ]; then dpkg_version=$(chroot $rootfs dpkg-query -W -f='${Version}' dpkg) if chroot $rootfs dpkg --compare-versions $dpkg_version ge "1.16.2"; then chroot $rootfs dpkg --add-architecture ${hostarch} else mkdir -p ${rootfs}/etc/dpkg/dpkg.cfg.d echo "foreign-architecture ${hostarch}" > ${rootfs}/etc/dpkg/dpkg.cfg.d/lxc-multiarch fi # Save existing value of MIRROR and SECURITY_MIRROR DEFAULT_MIRROR=$MIRROR DEFAULT_SECURITY_MIRROR=$SECURITY_MIRROR # Write a new sources.list containing both native and multiarch entries > ${rootfs}/etc/apt/sources.list write_sourceslist $rootfs $arch "native" MIRROR=$DEFAULT_MIRROR SECURITY_MIRROR=$DEFAULT_SECURITY_MIRROR write_sourceslist $rootfs $hostarch "multiarch" # Finally update the lists and install upstart using the host architecture HOST_PACKAGES="upstart:${hostarch} mountall:${hostarch} isc-dhcp-client:${hostarch}" chroot $rootfs apt-get update if chroot $rootfs dpkg -l iproute2 | grep -q ^ii; then HOST_PACKAGES="$HOST_PACKAGES iproute2:${hostarch}" else HOST_PACKAGES="$HOST_PACKAGES iproute:${hostarch}" fi install_packages $rootfs $HOST_PACKAGES fi # Install Packages in container if [ -n "$packages" ] then local packages="`echo $packages | sed 's/,/ /g'`" echo "Installing packages: ${packages}" install_packages $rootfs $packages fi # Set initial timezone as on host if [ -f /etc/timezone ]; then cat /etc/timezone > $rootfs/etc/timezone chroot $rootfs dpkg-reconfigure -f noninteractive tzdata elif [ -f /etc/sysconfig/clock ]; then . /etc/sysconfig/clock echo $ZONE > $rootfs/etc/timezone chroot $rootfs dpkg-reconfigure -f noninteractive tzdata else echo "Timezone in container is not configured. Adjust it manually." fi # rmdir /dev/shm for containers that have /run/shm # I'm afraid of doing rm -rf $rootfs/dev/shm, in case it did # get bind mounted to the host's /run/shm. So try to rmdir # it, and in case that fails move it out of the way. # NOTE: This can only be removed once 12.04 goes out of support if [ ! -L $rootfs/dev/shm ] && [ -e $rootfs/dev/shm ]; then rmdir $rootfs/dev/shm 2>/dev/null || mv $rootfs/dev/shm $rootfs/dev/shm.bak ln -s /run/shm $rootfs/dev/shm fi # Re-enable service startup rm $rootfs/usr/sbin/policy-rc.d } do_bindhome() { rootfs=$1 user=$2 # copy /etc/passwd, /etc/shadow, and /etc/group entries into container pwd=`getent passwd $user` || { echo "Failed to copy password entry for $user"; false; } echo $pwd >> $rootfs/etc/passwd # make sure user's shell exists in the container shell=`echo $pwd | cut -d: -f 7` if [ ! -x $rootfs/$shell ]; then echo "shell $shell for user $user was not found in the container." pkg=`dpkg -S $(readlink -m $shell) | cut -d ':' -f1` echo "Installing $pkg" install_packages $rootfs $pkg fi shad=`getent shadow $user` echo "$shad" >> $rootfs/etc/shadow # bind-mount the user's path into the container's /home h=`getent passwd $user | cut -d: -f 6` mkdir -p $rootfs/$h # use relative path in container h2=${h#/} while [ ${h2:0:1} = "/" ]; do h2=${h2#/} done echo "lxc.mount.entry = $h $h2 none bind 0 0" >> $path/config # Make sure the group exists in container grp=`echo $pwd | cut -d: -f 4` # group number for $user grpe=`getent group $grp` || return 0 # if host doesn't define grp, ignore in container chroot $rootfs getent group "$grpe" || echo "$grpe" >> $rootfs/etc/group } usage() { cat <] [-d|--debug] [-F | --flush-cache] [-r|--release ] [-v|--variant] [ -S | --auth-key ] [--rootfs ] [--packages ] [-u|--user ] [--password ] [--mirror ] [--security-mirror ] release: the ubuntu release (e.g. xenial): defaults to host release on ubuntu, otherwise uses latest LTS variant: debootstrap variant to use (see debootstrap(8)) bindhome: bind 's home into the container The ubuntu user will not be created, and will have sudo access. arch: the container architecture (e.g. amd64): defaults to host arch auth-key: SSH Public key file to inject into container packages: list of packages to add comma separated mirror,security-mirror: mirror for download and /etc/apt/sources.list EOF return 0 } options=$(getopt -o a:b:hp:r:v:n:FS:du: -l arch:,bindhome:,help,path:,release:,variant:,name:,flush-cache,auth-key:,debug,rootfs:,packages:,user:,password:,mirror:,security-mirror: -- "$@") if [ $? -ne 0 ]; then usage $(basename $0) exit 1 fi eval set -- "$options" release=xenial # Default to the last Ubuntu LTS release for non-Ubuntu systems if [ -f /etc/lsb-release ]; then . /etc/lsb-release if [ "$DISTRIB_ID" = "Ubuntu" ]; then release=$DISTRIB_CODENAME fi fi bindhome= # Code taken from debootstrap if [ -x /usr/bin/dpkg ] && /usr/bin/dpkg --print-architecture >/dev/null 2>&1; then arch=`/usr/bin/dpkg --print-architecture` elif which udpkg >/dev/null 2>&1 && udpkg --print-architecture >/dev/null 2>&1; then arch=`/usr/bin/udpkg --print-architecture` else arch=$(uname -m) if [ "$arch" = "i686" ]; then arch="i386" elif [ "$arch" = "x86_64" ]; then arch="amd64" elif [ "$arch" = "armv7l" ]; then arch="armhf" elif [ "$arch" = "aarch64" ]; then arch="arm64" elif [ "$arch" = "ppc64le" ]; then arch="ppc64el" fi fi debug=0 hostarch=$arch flushcache=0 packages="" user="ubuntu" password="ubuntu" while true do case "$1" in -h|--help) usage $0 && exit 0;; --rootfs) rootfs=$2; shift 2;; -p|--path) path=$2; shift 2;; -n|--name) name=$2; shift 2;; -u|--user) user=$2; shift 2;; --password) password=$2; shift 2;; -F|--flush-cache) flushcache=1; shift 1;; -r|--release) release=$2; shift 2;; -v|--variant) variant=$2; shift 2;; --packages) packages=$2; shift 2;; -b|--bindhome) bindhome=$2; shift 2;; -a|--arch) arch=$2; shift 2;; -S|--auth-key) auth_key=$2; shift 2;; -d|--debug) debug=1; shift 1;; --mirror) MIRROR=$2; shift 2;; --security-mirror) SECURITY_MIRROR=$2; shift 2;; --) shift 1; break ;; *) break ;; esac done if [ $debug -eq 1 ]; then set -x fi if [ -n "$bindhome" ]; then pwd=`getent passwd $bindhome` if [ $? -ne 0 ]; then echo "Error: no password entry found for $bindhome" exit 1 fi fi if [ "$arch" = "i686" ]; then arch=i386 fi if [ $hostarch = "i386" -a $arch = "amd64" ]; then echo "can't create $arch container on $hostarch" exit 1 fi if [ $hostarch = "armhf" -o $hostarch = "armel" -o $hostarch = "arm64" ] && \ [ $arch != "armhf" -a $arch != "armel" -a $arch != "arm64" ]; then echo "can't create $arch container on $hostarch" exit 1 fi if [ $arch = "arm64" ] && [ $hostarch != "arm64" ]; then echo "can't create $arch container on $hostarch" exit 1 fi if [ $hostarch = "powerpc" -a $arch != "powerpc" ]; then echo "can't create $arch container on $hostarch" exit 1 fi which debootstrap >/dev/null 2>&1 || { echo "'debootstrap' command is missing" >&2; false; } if [ -z "$path" ]; then echo "'path' parameter is required" exit 1 fi if [ "$(id -u)" != "0" ]; then echo "This script should be run as 'root'" exit 1 fi # detect rootfs config="$path/config" # if $rootfs exists here, it was passed in with --rootfs if [ -z "$rootfs" ]; then if grep -q '^lxc.rootfs.path' $config 2>/dev/null ; then rootfs=$(awk -F= '/^lxc.rootfs.path =/{ print $2 }' $config) else rootfs=$path/rootfs fi fi install_ubuntu $rootfs $release $flushcache $LXC_CACHE_PATH if [ $? -ne 0 ]; then echo "failed to install ubuntu $release" exit 1 fi configure_ubuntu $rootfs $name $release $user $password if [ $? -ne 0 ]; then echo "failed to configure ubuntu $release for a container" exit 1 fi copy_configuration $path $rootfs $name $arch $release if [ $? -ne 0 ]; then echo "failed write configuration file" exit 1 fi post_process $rootfs $release $trim_container $packages if [ -n "$bindhome" ]; then do_bindhome $rootfs $bindhome finalize_user $bindhome else finalize_user $user fi echo "" echo "##" if [ -n "$bindhome" ]; then echo "# Log in as user $bindhome" else echo "# The default user is '$user' with password '$password'!" echo "# Use the 'sudo' command to run tasks as root in the container." fi echo "##" echo ""