[[PageOutline]] = Ubuntu on Newport = This page provides details on running Ubuntu on a Gateworks Newport Board. Other references: * The Gateworks [wiki:newport#BoardSupportPackagesBSPSoftware Newport] software page for other Linux options on Newport products. * [wiki:/ubuntu Gateworks Ubuntu Page for generic notes] [=#prebuilt] == Gateworks pre-built Ubuntu Disk Image == Gateworks provides a pre-built Ubuntu firmware images for the Newport Family: * [http://dev.gateworks.com/newport/kernel/linux-newport.tar.xz linux-newport.tar.xz] - Compressed TAR archive of pre-built Linux kernel * [http://dev.gateworks.com/ubuntu/xenial/xenial-arm64.tar.xz xenial-arm64.tar.xz] - Compressed TAR archive of Ubuntu 16.04 Xenial arm64 root filesystem (does not include kernel)([http://dev.gateworks.com/ubuntu/xenial/xenial-arm64.manifest package manifest]) * [http://dev.gateworks.com/newport/images/xenial-newport.img.gz xenial-newport.img.gz] - Compressed Disk Image containing Firmware, Linux kernel, and Ubuntu 16.04 Xenial root filesystem. To update the firmware using this see [wiki:newport#serial-ethernet here] Features: - Ubuntu 16.04 aarch64 core (from debootstrap instructions) - Gateworks Newport Linux kernel (Linux 4.14 based) - eth0 dhcp with a 10 second timeout - user root passwd root - packages installed on top of core: * updated modemmanager/libqmi-utils/libmbim-utils (see [wiki:ubuntu#modem ubuntu/modem]) * misc wireless: wpasupplicant iw * misc utils: vim can-utils i2c-tools usbutils pciutils screen watchdog binutils * misc network: wget ethtool iperf iperf3 openssh-server iptables * linux firmware * mmc-utils from https://packages.debian.org/sid/utils/mmc-utils * Gateworks [https://raw.githubusercontent.com/Gateworks/meta-gateworks/master/recipes-support/hostapd-conf/hostapd-conf/hostapd-conf hostapd-conf script] * filesystems: e2fstools f2fs-tools btrfs-tools To install the kernel and root filesystem on a removable block storage device see [#disk-images below]. == BSP == To build a complete Ubuntu image, including all the boot firmware, start with the [wiki:newport/bsp Newport BSP] page as the easiest option. [=#debootstrap] == Root filesystem == This is to build the rootfs ONLY. To easily build an entire system image, including the boot firmware and Ubuntu, consider the [wiki:newport/bsp Newport BSP] page. A popular way to create an Ubuntu root filesystem is to use the {{{deboostrap}}} utility on a Debian or Ubuntu host. This tool provides a 2-stage install where the second stage is within a chroot environment using qemu. Requirements: - Linux Ubuntu or Debian System with network connection and sudo permissions Important notes: * we set and use '''target''' and '''distro''' env variables in step 2 and use those env variables in the remaining steps to make this tutorial more version-agnostic. Please be aware of this and do not deviate from the steps unless or until you completely understand what you are doing. Steps: 1. Install pre-requisites: {{{ #!bash sudo apt-get install qemu-user-static debootstrap binfmt-support }}} 2. Perform first stage install of minimal filesystem for {{{arm64}}} architecture: {{{#!bash distro=xenial arch=arm64 target=${distro}-${arch} qemu_arch=aarch64 sudo debootstrap --arch=$arch --foreign $distro $target # copy qemu binary for the binfmt packages to find it and copy in resolv.conf from host sudo cp /usr/bin/qemu-${qemu_arch}-static $target/usr/bin }}} * See http://ports.ubuntu.com/ubuntu-ports/dists/ for a list of current Ubuntu releases: 18.04=bionic (latest LTS), 16.04=xenial * this minimal rootfs is still missing some core packages and configuration before it can be booted. These steps are taken care of in a 2nd stage install within a chroot shell * the chroot shell below will provide network support (inherited from the host) 3. we now have a minimal Ubuntu rootfs - chroot to it and perform the 2nd stage install: {{{ #!bash sudo chroot $target # now we are in the chroot - setup env matching the distro above distro=xenial export LANG=C # setup second stage /debootstrap/debootstrap --second-stage }}} * this is the most minimal rootfs we would recommend 4. (optional) add additional apt package repos: {{{ #!bash cat < /etc/apt/sources.list deb http://ports.ubuntu.com/ubuntu-ports $distro main restricted universe multiverse deb http://ports.ubuntu.com/ubuntu-ports $distro-updates main restricted universe multiverse deb http://ports.ubuntu.com/ubuntu-ports $distro-security main restricted universe multiverse EOT }}} * you may want to customize the above list, depending on your needs. See [#packages below] for more detail on Ubuntu package feeds 5. (optional) update package database and setup locales (do not skip this step if you are needing to install any packages for the steps below or otherwise) {{{ #!bash apt-get update apt-get -f install # fixup missing package dependencies apt-get install locales dialog dpkg-reconfigure locales }}} 6. set hostname: {{{ #!bash echo ${distro}-$(uname -m) > /etc/hostname }}} 7. set a root passwd so you can login {{{ #!bash passwd }}} - or consider adding a user via {{{adduser}}}: {{{ #!bash adduser myuser usermod -a -G tty myuser # add to tty group for tty access usermod -a -G dialout myuser # add to dialout group for UART access usermod -a -G sudo myuser # add to sudo group for root access }}} 8. (optional) configure networking: - wired ethernet with DHCP on eth0 {{{#!bash apt-get install net-tools ifupdown cat <> /etc/network/interfaces allow-hotplug eth0 auto eth0 iface eth0 inet dhcp EOF }}} - or static IP: {{{#!bash apt-get install net-tools ifupdown cat <> /etc/network/interfaces allow-hotplug eth0 auto eth0 iface eth0 inet static address 192.168.1.1 netmask 255.255.255.0 gateway 192.168.1.254 EOF }}} - or wireless (requires ~3MB of additional packages): {{{ #!bash apt-get install wpasupplicant iw cat << EOF >> /etc/network/interfaces # Wireless interface auto wlan0 iface wlan0 inet dhcp wireless_mode managed wireless_essid any wpa-driver nl80211 wpa-conf /etc/wpa_supplicant.conf EOF wpa_passphrase >> /etc/wpa_supplicant.conf }}} 9. (optional) install some useful packages {{{ #!bash apt-get install openssh-server # ssh server for remote access apt-get install can-utils i2c-tools usbutils pciutils # cmdline tools for various hardware support }}} * Note that by default root ssh access is disabled for security. See [#ssh below] for info on enabling it 10. exit the chroot shell and remove files we no longer need {{{ #!bash exit sudo rm $target/usr/bin/qemu-$qemu_arch-static }}} At this point you have a directory containing a root filesystem (without kernel) and likely want to install it onto removable storage or the on-board FLASH of a target board. Some intermediate formats that are useful to keep around would be a tarball, perhaps an ext4 filesystem image, or a compressed disk image suitable for flashing in the U-Boot bootloader. To create a tarball which is the most flexible storage format and can be used for a variety of future installation uses: {{{#!bash sudo tar --numeric-owner -cvJf xenial-newport.tar.xz -C rootfs/ . }}} * the '--numeric-owner' is required to store user/group as a number instead of a name * the '-C rootfs/' is required to eliminate the rootfs directory prefix * the sudo is needed to be able to read the root owned files === Compressed Disk Image (for flashing onto a board) To create a 'Compressed Disk Image' using this tarball see [wiki:newport/boot#disk-images newport/boot#disk-images] and to install this onto a board's embedded FLASH see [wiki:newport#serial-ethernet here]. === ext4 filesystem === If desired you can create an ext4 filesystem from the directory or tarball. This requires you choose a size for the filesystem. This size can be increased at runtime using {{{resize2fs}}} as long as the partition table has room for it to grow. The advantage of using an as small as possible size is that the time necessary to flash it onto storage is reduced to a minimum (when flashing you have to write the entire ext4 fs but when formatting or resizing it only has to write periodic markers to FLASH). For a given size (see SIZEMB variable below) you can create a rootfs with: {{{#!bash SIZEMB=1536 # 1.5GB - expandable later with resize2fs OUT=xenial-newport.ext4 # create a file of specific size truncate -s ${SIZEMB}M ${OUT} # format it as an ext4 filesystem mkfs.ext4 -q -F -L rootfs ${OUT} # mount it to a temporary mount point tmp_mnt=$(mktemp -d -p/tmp) mount ${OUT} ${tmp_mnt} # copy files to it cp -rup rootfs/* ${tmp_mnt} # and/or extract files from a tarball tar -C ${tmp_mnt} -xf linux-newport.tar.xz # unmount temporary mount point umount ${tmp_mnt} sync # compress it gzip -k -f ${OUT} }}} [=#disk-images] == Building a Bootable Disk Images == You will want to build your own Ubuntu disk image if you want control over any of the following: * Contents of root filesystem (packages and configuration) (see [#debootstrap debootsrap below) * Configuration of the Linux kernel (see [wiki:newport/bsp#kernel newport/bsp/kernel]) See [wiki:newport/boot#disk-images newpowrt/boot/disk-images] for detailed instructions.