Install Alpine on Amazon EC2: Difference between revisions
mNo edit summary |
Ragarwal74 (talk | contribs) No edit summary |
||
(15 intermediate revisions by 9 users not shown) | |||
Line 1: | Line 1: | ||
{{ | {{Move| Alpine Install: from a image to a Amazon EC2 instance |This article need wikiformating consisten with setups procedure and naming formating.}} | ||
EC2 instances are available in a variety of [https://aws.amazon.com/ec2/instance-types/ different sizes] with different specifications but all of them currently run on one of two types of virtualization technology: [https://en.wikipedia.org/wiki/Paravirtualization paravirtualization] (PV) or [https://en.wikipedia.org/wiki/Kernel-based_Virtual_Machine hardware virtual machine] (HVM). | |||
PV instances boot with a special boot loader called PV-GRUB, which starts the boot cycle and then chain loads the kernel specified in the menu.lst file on your image. Paravirtual guests can run on host hardware that does not have explicit support for virtualization, but they cannot take advantage of special hardware extensions such as enhanced networking or GPU processing. | |||
HVM instances are presented with a fully virtualized set of hardware and boot by executing the master boot record of the root block device of your image. This virtualization type provides the ability to run an operating system directly on top of a virtual machine without any modification, as if it were run on the bare-metal hardware. The Amazon EC2 host system emulates some or all of the underlying hardware that is presented to the guest. (from: [https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/virtualization_types.html Linux AMI Virtualization Types]). | |||
Only older instance types support PV instances, all new instance types use an HVM hypervisor. For the purposes of setting up Alpine Linux on EC2 this mainly impacts the way the bootloader is configured. | |||
EC2 instances are created from templates called Amazon Machine Images (AMI). AMIs are built using existing running instances and then are turned into AMIs using a snapshot process. Note that an AMI is region specific so you must either follow this guide in each region you plan to deploy Alpine Linux instances or you must copy the AMI using either the console or the AWS command line client to each region you plan to use. | |||
All instance types are 64-bit. 32-bit images will not work. | |||
This guide will create the smallest possible (1GB) EBS-backed image which acts as a virtual USB stick that will boot and run Alpine Linux. | |||
= Initial Setup = | |||
All AMI creation tasks follow the same set of setup steps which require a running Linux instance and an attached EBS volume. The Linux instance will only be used to set up the root filesystem for your Alpine Linux system so any distro works, Amazon Linux is the default so, where relevant, this guide will use that distro. | |||
# Create an EC2 instance, t2.micro running Amazon Linux should suffice | |||
# Create a 1GB EBS volume and attach it to the instance as {{Path|/dev/sdf}} (this will appear on an HVM instance as {{Path|/dev/xvdf}}) | |||
# Format the disk as ext4, there is no need to partition the drive: {{Cmd|mkfs.ext4 /dev/xvdf}} | |||
# Mount the drive to the host: {{Cmd|mkdir /mnt/target && mount /dev/xvdf /mnt/target}} | |||
# Fetch a copy of the latest virt release: {{Cmd|curl -o /tmp/alpine-release.iso https://dl-4.alpinelinux.org/alpine/v3.7/releases/x86_64/alpine-virt-3.7.0-x86_64.iso}} | |||
# Mount the release iso: {{Cmd|mkdir /mnt/source && mount -o loop /tmp/alpine-release.iso /mnt/source}} | |||
# Copy the files to the target {{Cmd|cp -av /mnt/source/boot /mnt/target}} | |||
The sudo package is not included in the on-disk repository for the virt image which means that it will not be accessible for installation at system boot time; to enable this you will need a copy of the repository from the extended image. Download this image and copy the <tt>apks</tt> folder to the target. | |||
# Fetch a copy of the latest extended release: {{Cmd|curl -o /tmp/alpine-extended-release.iso https://dl-4.alpinelinux.org/alpine/v3.7/releases/x86_64/alpine-extended-3.7.0-x86_64.iso}} | |||
# Mount the release iso: {{Cmd|mkdir /mnt/source-extended && mount -o loop /tmp/alpine-extended-release.iso /mnt/source-extended}} | |||
# Copy the files to the target {{Cmd|cp -av /mnt/source-extended/apks /mnt/target}} | |||
Because the packages on Amazon Linux are a little older than the ones that ship with Alpine and because you will be creating an apkovl file for initial system configuration, you will either need an existing Alpine Linux system or a copy of the minirootfs image into which you can chroot. To set up a chroot: | |||
# Fetch a copy of the latest minirootfs release: {{Cmd|curl -o /tmp/alpine-minirootfs.tar.gz https://dl-4.alpinelinux.org/alpine/v3.7/releases/x86_64/alpine-minirootfs-3.7.0-x86_64.tar.gz}} | |||
# Unpack the root fs: {{Cmd|mkdir /tmp/alpine-chroot && tar -C /tmp/alpine-chroot -xvf /tmp/alpine-minirootfs.tar.gz}} | |||
# Copy the system resolv.conf into the chroot so you will have internet access: {{Cmd|cp /etc/resolv.conf /tmp/alpine-chroot/etc}} | |||
= Create an Apkovl File = | |||
The top level of the EBS volume will be scanned during boot for files named <tt>*.apkovl.tar.gz</tt> and the first one that is found will be unpacked and overlayed onto the file system. The goal of this archive is to configure the system so that you will be able to login after the system boots. At a minimum this means: | |||
* Configure networking to use dhcp and start when the system boots | |||
* Install an SSH daemon | |||
* Configure a user with your SSH keys | |||
* Enable sudo so that you can gain root access | |||
Set up the chroot and chroot into it, then add any desired packages. The <tt>busybox-initscripts</tt> package provides the required files for udhcpc which will allow DHCP to be enabled. The <tt>syslinux</tt> package is required to install the boot-loader but is not required on the final system. | |||
<pre> | |||
mkdir /tmp/alpine-chroot/mnt/target | |||
mount -o bind /mnt/target /tmp/alpine-chroot/mnt/target | |||
mount -t proc none /tmp/alpine-chroot/proc | |||
mount -t devtmpfs none /tmp/alpine-chroot/dev | |||
mount -t sysfs none /tmp/alpine-chroot/sys | |||
chroot /tmp/alpine-chroot sh | |||
apk update | |||
#If using older version 3.7.x, use: | |||
apk add alpine-conf sudo openssh busybox-initscripts syslinux | |||
# If using Alpine 3.8+, the package "busybox-initscripts" is replaced by "busybox-mdev-openrc" | |||
apk add alpine-conf sudo openssh busybox-mdev-openrc syslinux | |||
</pre> | |||
The Alpine init system will start up the core required services if the file {{Path|/etc/.default_boot_services}} exists, so create that. | |||
<pre> | <pre> | ||
touch etc/.default_boot_services | |||
</pre> | </pre> | ||
Set up networking: | |||
<pre> | <pre> | ||
mkdir -p target/boot/grub | cat > /etc/network/interfaces <<EOF | ||
cat | auto lo | ||
iface lo inet loopback | |||
auto eth0 | |||
iface eth0 inet dhcp | |||
EOF | |||
ln -s /etc/init.d/networking /etc/runlevels/default/ | |||
ln -s /etc/init.d/sshd /etc/runlevels/default/ | |||
</pre> | |||
Add a user, set an SSH key, and ensure that this user can sudo: | |||
<pre> | |||
adduser -D -s /bin/sh alpine | |||
addgroup alpine wheel | |||
mkdir /home/alpine/.ssh | |||
chmod 700 /home/alpine/.ssh | |||
chown alpine /home/alpine/.ssh | |||
cat > /home/alpine/.ssh/authorized_keys <<EOF | |||
... your ssh public key(s) ... | |||
EOF | |||
chmod 600 /home/alpine/.ssh/authorized_keys | |||
chown alpine:alpine /home/alpine/.ssh/authorized_keys | |||
passwd -u alpine | |||
sed -i '/%wheel/s/^# //' /etc/sudoers | |||
</pre> | |||
Exclude backup files and any files that are going to exist in the unpacked image. Then create an apkovl bundle. | |||
<pre> | |||
lbu exclude \ | |||
etc/group- etc/passwd- etc/shadow- \ | |||
etc/apk/keys etc/apk/arch etc/apk/repositories \ | |||
etc/os-release \ | |||
etc/issue \ | |||
etc/alpine-release | |||
lbu include /home/alpine/.ssh | |||
lbu package amazon.apkovl.tar.gz | |||
</pre> | |||
Verify that everything you expect to be in the apovl file is there and if not you can [[Manually_editing_a_existing_apkovl|modify the apkovl]]. | |||
Finally, copy the apkovl to {{Path|/mnt/target}}. | |||
<pre> | |||
cp amazon.apkovl.tar.gz /mnt/target | |||
</pre> | |||
= EBS Backed HVM AMI = | |||
For HVM instances you will need to install a boot-loader. Any bootloader should do the trick but this guide will use syslinux because it's fast and small and you don't have to support any odd hardware or system layout. | |||
First you will need to ensure that the ext4 driver is loaded and may as well shorten the timeout to speed instance boot time. | |||
{{Cmd|sed -i \ | |||
-e '/usb-storage/s//usb-storage,ext4/' \ | |||
-e '/^TIMEOUT/s/20/2/' \ | |||
/mnt/target/boot/syslinux/syslinux.cfg}} | |||
Finally, install the bootloader: {{Cmd|extlinux -i /mnt/target/boot}} | |||
= EBS Backed PV AMI = | |||
For PV AMIs PV-GRUB will attempt to read {{Path|/boot/grub/menu.lst}} to load the kernel. First create a {{Path|/boot/grub/grub.conf}}: | |||
<pre> | |||
mkdir -p /mnt/target/boot/grub | |||
cat > target/boot/grub/grub.conf <<EOF | |||
default=0 | default=0 | ||
timeout= | timeout=2 | ||
hiddenmenu | hiddenmenu | ||
title Alpine Linux | title Alpine Linux | ||
root (hd0) | root (hd0) | ||
kernel /boot/ | kernel /boot/vmlinuz-virthardened alpine_dev=xvda1:ext4 modules=loop,squashfs,sd-mod,ext4 console=hvc0 pax_nouderef BOOT_IMAGE=/boot/vmlinuz-virthardened | ||
initrd /boot/initramfs- | initrd /boot/initramfs-virthardened | ||
EOF | EOF | ||
ln -s /mnt/target/boot/grub/grub.conf /mnt/target/boot/grub/menu.lst | |||
</pre> | </pre> | ||
= Create the AMI = | |||
The following will need to be done in the AWS console. | |||
# Detach the new volume (make note of the volume ID) | |||
# Launch a new instance, use the defaults; you are going to cannibalize it in a moment | |||
# Once the instance starts, stop but do not terminate it | |||
# Under EBS, detach the existing volume, and attach the Alpine Linux volume as {{Path|/dev/xvda}} (for HVM) or {{Path|/dev/sda1}} (for PV) | |||
# Restart the instance | |||
# Log in and make sure it works | |||
# Do any final cleanups necessary. Only make changes appropriate for an AMI, you are going to snapshot this instance and use it as the base for the AMI. | |||
# Stop but do not terminate the instance | |||
# Right click the stopped instance and choose 'Create Image (EBS AMI)' | |||
# Once the AMI creation finishes you can cleanup the instances and EBS volumes used | |||
[[Category:Virtualization]] | [[Category:Virtualization]] |
Latest revision as of 17:51, 24 September 2024
This page is proposed for moving ... It should be renamed to [[ Alpine Install: from a image to a Amazon EC2 instance ]]. This article need wikiformating consisten with setups procedure and naming formating. (Discuss) |
EC2 instances are available in a variety of different sizes with different specifications but all of them currently run on one of two types of virtualization technology: paravirtualization (PV) or hardware virtual machine (HVM).
PV instances boot with a special boot loader called PV-GRUB, which starts the boot cycle and then chain loads the kernel specified in the menu.lst file on your image. Paravirtual guests can run on host hardware that does not have explicit support for virtualization, but they cannot take advantage of special hardware extensions such as enhanced networking or GPU processing.
HVM instances are presented with a fully virtualized set of hardware and boot by executing the master boot record of the root block device of your image. This virtualization type provides the ability to run an operating system directly on top of a virtual machine without any modification, as if it were run on the bare-metal hardware. The Amazon EC2 host system emulates some or all of the underlying hardware that is presented to the guest. (from: Linux AMI Virtualization Types).
Only older instance types support PV instances, all new instance types use an HVM hypervisor. For the purposes of setting up Alpine Linux on EC2 this mainly impacts the way the bootloader is configured.
EC2 instances are created from templates called Amazon Machine Images (AMI). AMIs are built using existing running instances and then are turned into AMIs using a snapshot process. Note that an AMI is region specific so you must either follow this guide in each region you plan to deploy Alpine Linux instances or you must copy the AMI using either the console or the AWS command line client to each region you plan to use.
All instance types are 64-bit. 32-bit images will not work.
This guide will create the smallest possible (1GB) EBS-backed image which acts as a virtual USB stick that will boot and run Alpine Linux.
Initial Setup
All AMI creation tasks follow the same set of setup steps which require a running Linux instance and an attached EBS volume. The Linux instance will only be used to set up the root filesystem for your Alpine Linux system so any distro works, Amazon Linux is the default so, where relevant, this guide will use that distro.
- Create an EC2 instance, t2.micro running Amazon Linux should suffice
- Create a 1GB EBS volume and attach it to the instance as /dev/sdf (this will appear on an HVM instance as /dev/xvdf)
- Format the disk as ext4, there is no need to partition the drive:
mkfs.ext4 /dev/xvdf
- Mount the drive to the host:
mkdir /mnt/target && mount /dev/xvdf /mnt/target
- Fetch a copy of the latest virt release:
curl -o /tmp/alpine-release.iso https://dl-4.alpinelinux.org/alpine/v3.7/releases/x86_64/alpine-virt-3.7.0-x86_64.iso
- Mount the release iso:
mkdir /mnt/source && mount -o loop /tmp/alpine-release.iso /mnt/source
- Copy the files to the target
cp -av /mnt/source/boot /mnt/target
The sudo package is not included in the on-disk repository for the virt image which means that it will not be accessible for installation at system boot time; to enable this you will need a copy of the repository from the extended image. Download this image and copy the apks folder to the target.
- Fetch a copy of the latest extended release:
curl -o /tmp/alpine-extended-release.iso https://dl-4.alpinelinux.org/alpine/v3.7/releases/x86_64/alpine-extended-3.7.0-x86_64.iso
- Mount the release iso:
mkdir /mnt/source-extended && mount -o loop /tmp/alpine-extended-release.iso /mnt/source-extended
- Copy the files to the target
cp -av /mnt/source-extended/apks /mnt/target
Because the packages on Amazon Linux are a little older than the ones that ship with Alpine and because you will be creating an apkovl file for initial system configuration, you will either need an existing Alpine Linux system or a copy of the minirootfs image into which you can chroot. To set up a chroot:
- Fetch a copy of the latest minirootfs release:
curl -o /tmp/alpine-minirootfs.tar.gz https://dl-4.alpinelinux.org/alpine/v3.7/releases/x86_64/alpine-minirootfs-3.7.0-x86_64.tar.gz
- Unpack the root fs:
mkdir /tmp/alpine-chroot && tar -C /tmp/alpine-chroot -xvf /tmp/alpine-minirootfs.tar.gz
- Copy the system resolv.conf into the chroot so you will have internet access:
cp /etc/resolv.conf /tmp/alpine-chroot/etc
Create an Apkovl File
The top level of the EBS volume will be scanned during boot for files named *.apkovl.tar.gz and the first one that is found will be unpacked and overlayed onto the file system. The goal of this archive is to configure the system so that you will be able to login after the system boots. At a minimum this means:
- Configure networking to use dhcp and start when the system boots
- Install an SSH daemon
- Configure a user with your SSH keys
- Enable sudo so that you can gain root access
Set up the chroot and chroot into it, then add any desired packages. The busybox-initscripts package provides the required files for udhcpc which will allow DHCP to be enabled. The syslinux package is required to install the boot-loader but is not required on the final system.
mkdir /tmp/alpine-chroot/mnt/target mount -o bind /mnt/target /tmp/alpine-chroot/mnt/target mount -t proc none /tmp/alpine-chroot/proc mount -t devtmpfs none /tmp/alpine-chroot/dev mount -t sysfs none /tmp/alpine-chroot/sys chroot /tmp/alpine-chroot sh apk update #If using older version 3.7.x, use: apk add alpine-conf sudo openssh busybox-initscripts syslinux # If using Alpine 3.8+, the package "busybox-initscripts" is replaced by "busybox-mdev-openrc" apk add alpine-conf sudo openssh busybox-mdev-openrc syslinux
The Alpine init system will start up the core required services if the file /etc/.default_boot_services exists, so create that.
touch etc/.default_boot_services
Set up networking:
cat > /etc/network/interfaces <<EOF auto lo iface lo inet loopback auto eth0 iface eth0 inet dhcp EOF ln -s /etc/init.d/networking /etc/runlevels/default/ ln -s /etc/init.d/sshd /etc/runlevels/default/
Add a user, set an SSH key, and ensure that this user can sudo:
adduser -D -s /bin/sh alpine addgroup alpine wheel mkdir /home/alpine/.ssh chmod 700 /home/alpine/.ssh chown alpine /home/alpine/.ssh cat > /home/alpine/.ssh/authorized_keys <<EOF ... your ssh public key(s) ... EOF chmod 600 /home/alpine/.ssh/authorized_keys chown alpine:alpine /home/alpine/.ssh/authorized_keys passwd -u alpine sed -i '/%wheel/s/^# //' /etc/sudoers
Exclude backup files and any files that are going to exist in the unpacked image. Then create an apkovl bundle.
lbu exclude \ etc/group- etc/passwd- etc/shadow- \ etc/apk/keys etc/apk/arch etc/apk/repositories \ etc/os-release \ etc/issue \ etc/alpine-release lbu include /home/alpine/.ssh lbu package amazon.apkovl.tar.gz
Verify that everything you expect to be in the apovl file is there and if not you can modify the apkovl.
Finally, copy the apkovl to /mnt/target.
cp amazon.apkovl.tar.gz /mnt/target
EBS Backed HVM AMI
For HVM instances you will need to install a boot-loader. Any bootloader should do the trick but this guide will use syslinux because it's fast and small and you don't have to support any odd hardware or system layout.
First you will need to ensure that the ext4 driver is loaded and may as well shorten the timeout to speed instance boot time.
sed -i \ -e '/usb-storage/s//usb-storage,ext4/' \ -e '/^TIMEOUT/s/20/2/' \ /mnt/target/boot/syslinux/syslinux.cfg
Finally, install the bootloader:
extlinux -i /mnt/target/boot
EBS Backed PV AMI
For PV AMIs PV-GRUB will attempt to read /boot/grub/menu.lst to load the kernel. First create a /boot/grub/grub.conf:
mkdir -p /mnt/target/boot/grub cat > target/boot/grub/grub.conf <<EOF default=0 timeout=2 hiddenmenu title Alpine Linux root (hd0) kernel /boot/vmlinuz-virthardened alpine_dev=xvda1:ext4 modules=loop,squashfs,sd-mod,ext4 console=hvc0 pax_nouderef BOOT_IMAGE=/boot/vmlinuz-virthardened initrd /boot/initramfs-virthardened EOF ln -s /mnt/target/boot/grub/grub.conf /mnt/target/boot/grub/menu.lst
Create the AMI
The following will need to be done in the AWS console.
- Detach the new volume (make note of the volume ID)
- Launch a new instance, use the defaults; you are going to cannibalize it in a moment
- Once the instance starts, stop but do not terminate it
- Under EBS, detach the existing volume, and attach the Alpine Linux volume as /dev/xvda (for HVM) or /dev/sda1 (for PV)
- Restart the instance
- Log in and make sure it works
- Do any final cleanups necessary. Only make changes appropriate for an AMI, you are going to snapshot this instance and use it as the base for the AMI.
- Stop but do not terminate the instance
- Right click the stopped instance and choose 'Create Image (EBS AMI)'
- Once the AMI creation finishes you can cleanup the instances and EBS volumes used