Packer
Outscale
@outscale
Use Packer to create Outscale OMIs.
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Updated 10 months ago
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Outscale chroot
Type: outscale-chroot
Artifact BuilderId: oapi.outscale.chroot
The outscale-chroot
Packer builder is able to create Outscale Machine Images (OMIs) backed by an
BSU volume as the root device. For more information on the difference between
instance storage and BSU-backed instances, see the "storage for the root
device" section in the Outscale
documentation.
The difference between this builder and the outscale-bsu
builder is that this
builder is able to build an BSU-backed OMI without launching a new Outscale
VM. This can dramatically speed up OMI builds for organizations who need
the extra fast build.
This is an advanced builder If you're just getting started with Packer, we recommend starting with the outscale-bsu builder, which is much easier to use.
The builder does not manage OMIs. Once it creates an OMI and stores it in your account, it is up to you to use, delete, etc., the OMI.
How Does it Work?
This builder works by creating a new BSU volume from an existing source OMI and attaching it into an already-running Outscale VM. Once attached, a chroot is used to provision the system within that volume. After provisioning, the volume is detached, snapshotted, and an OMI is made.
Using this process, minutes can be shaved off the OMI creation process because a new Outscale VM doesn't need to be launched.
There are some restrictions, however. The host Outscale instance where the volume is attached to must be a similar system (generally the same OS version, kernel versions, etc.) as the OMI being built. Additionally, this process is much more expensive because the Outscale VM must be kept running persistently in order to build OMIs, whereas the other OMI builders start VMs on-demand to build OMIs as needed.
Configuration Reference
There are many configuration options available for the builder. They are segmented below into two categories: required and optional parameters. Within each category, the available configuration keys are alphabetized.
Required:
access_key
(string) - The access key used to communicate with OUTSCALE. Learn how to set thisomi_name
(string) - The name of the resulting OMIS that will appear when managing OMIs in the Outscale console or via APIs. This must be unique. To help make this unique, use a function liketimestamp
(see template engine for more info).secret_key
(string) - The secret key used to communicate with Outscale. Learn how to set thissource_omi
(string) - The initial OMI used as a base for the newly created machine.source_omi_filter
may be used instead to populate this automatically.
Optional:
omi_description
(string) - The description to set for the resulting OMI(s). By default this description is empty. This is a template engine, see Build template data for more information.omi_account_ids
(array of strings) - A list of account IDs that have access to launch the resulting OMI(s). By default no additional users other than the user creating the OMIS has permissions to launch it.product_codes
([]string) - A list of product codes to associate with the OMI. By default no product codes are associated with the OMI.global_permission
(boolean) - This option is useful to make the OMI publicly accessible.omi_virtualization_type
(string) - The type of virtualization for the OMI you are building. This option must match the supported virtualization type ofsource_omi
. Can beparavirtual
orhvm
.chroot_mounts
(array of array of strings) - This is a list of devices to mount into the chroot environment. This configuration parameter requires some additional documentation which is in the Chroot Mounts section. Please read that section for more information on how to use this.command_wrapper
(string) - How to run shell commands. This defaults to{{.Command}}
. This may be useful to set if you want to set environmental variables or perhaps run it withsudo
or so on. This is a configuration template where the.Command
variable is replaced with the command to be run. Defaults to{{.Command}}
.copy_files
(array of strings) - Paths to files on the running Outscale VM that will be copied into the chroot environment prior to provisioning. Defaults to/etc/resolv.conf
so that DNS lookups work. Pass an empty list to skip copying/etc/resolv.conf
. You may need to do this if you're building an image that uses systemd.custom_endpoint_oapi
(string) - This option is useful if you use a cloud provider whose API is compatible with Outscale OAPI. Specify another endpoint like thisoutscale.com/oapi/latest
.device_path
(string) - The path to the device where the root volume of the source OMI will be attached. This defaults to "" (empty string), which forces Packer to find an open device automatically.force_deregister
(boolean) - Force Packer to first deregister an existing OMIS if one with the same name already exists. Defaultfalse
.force_delete_snapshot
(boolean) - Force Packer to delete snapshots associated with OMIs, which have been deregistered byforce_deregister
. Defaultfalse
.insecure_skip_tls_verify
(boolean) - This allows skipping TLS verification of the OAPI endpoint. The default isfalse
.from_scratch
(boolean) - Build a new volume instead of starting from an existing OMI root volume snapshot. Defaultfalse
. Iftrue
,source_omi
is no longer used and the following options become required:omi_virtualization_type
,pre_mount_commands
androot_volume_size
. The below options are also required in this mode only:omi_block_device_mappings
(array of block device mappings) - Add one or more block device mappings to the OMI. These will be attached when booting a new VM from your OMI. To add a block device during the Packer build seelaunch_block_device_mappings
below. Your options here may vary depending on the type of VM you use. The block device mappings allow for the following configuration:delete_on_vm_deletion
(boolean) - Indicates whether the BSU volume is deleted on VM termination. Defaultfalse
. NOTE: If this value is not explicitly set totrue
and volumes are not cleaned up by an alternative method, additional volumes will accumulate after every build.device_name
(string) - The device name exposed to the VM (for example,/dev/sdh
orxvdh
). Required for every device in the block device mapping.iops
(number) - The number of I/O operations per second (IOPS) that the volume supports. See the documentation on IOPs for more informationno_device
(boolean) - Suppresses the specified device included in the block device mapping of the OMIsnapshot_id
(string) - The ID of the snapshotvirtual_name
(string) - The virtual device name. See the documentation on Block Device Mapping for more informationvolume_size
(number) - The size of the volume, in GiB. Required if not specifying asnapshot_id
volume_type
(string) - The volume type.gp2
for General Purpose (SSD) volumes,io1
for Provisioned IOPS (SSD) volumes, andstandard
for Magnetic volumes
root_device_name
(string) - The root device name. For example,xvda
.mount_path
(string) - The path where the volume will be mounted. This is where the chroot environment will be. This defaults to/mnt/packer-amazon-chroot-volumes/{{.Device}}
. This is a configuration template where the.Device
variable is replaced with the name of the device where the volume is attached.mount_partition
(string) - The partition number containing the / partition. By default this is the first partition of the volume, (for example,xvdf1
) but you can designate the entire block device by setting"mount_partition": "0"
in your config, which will mountxvdf
instead.mount_options
(array of strings) - Options to supply themount
command when mounting devices. Each option will be prefixed with-o
and supplied to themount
command ran by Packer. Because this command is ran in a shell, user discretion is advised. See this manual page for the mount command for valid file system specific options.nvme_device_path
(string) - When we call the mount command (by defaultmount -o device dir
), the string provided innvme_mount_path
will replacedevice
in that command. When this option is not set,device
in that command will be something like/dev/sdf1
, mirroring the attached device name. This assumption works for most instances but will fail with c5 and m5 instances. In order to use the chroot builder with c5 and m5 instances, you must manually setnvme_device_path
anddevice_path
.pre_mount_commands
(array of strings) - A series of commands to execute after attaching the root volume and before mounting the chroot. This is not required unless usingfrom_scratch
. If so, this should include any partitioning and filesystem creation commands. The path to the device is provided by{{.Device}}
.post_mount_commands
(array of strings) - Aspre_mount_commands
, but the commands are executed after mounting the root device and before the extra mount and copy steps. The device and mount path are provided by{{.Device}}
and{{.MountPath}}
.root_volume_size
(number) - The size of the root volume in GB for the chroot environment and the resulting OMI. Default size is the snapshot size of thesource_omi
unlessfrom_scratch
istrue
, in which case this field must be defined.root_volume_type
(string) - The type of BSU volume for the chroot environment and resulting OMI. The default value is the type of thesource_omi
, unlessfrom_scratch
istrue
, in which case the default value isgp2
. You can only specifyio1
if building based on top of asource_omi
which is alsoio1
.root_volume_tags
(object of key/value strings) - Tags to apply to the volumes that are launched. This is a template engine, see Build template data for more information.skip_region_validation
(boolean) - Set to true if you want to skip validation of the region configuration option. Defaultfalse
.snapshot_tags
(object of key/value strings) - Tags to apply to snapshot. They will override OMI tags if already applied to snapshot. This is a template engine, see Build template data for more information.source_omi_filter
(object) - Filters used to populate thesource_omi
field.filters
(map of strings) - filters used to select asource_omi
.owners
(array of strings) - Filters the images by their owner. You may specify one or more Outscale account IDs, "self" (which will use the account whose credentials you are using to run Packer) or an Outscale owner alias. This option is required for security reasons.Example:
{ "source_omi_filter": { "filters": { "virtualization-type": "hvm", "image-name": "ubuntu/images/*ubuntu-xenial-16.04-amd64-server-*", "root-device-type": "ebs" }, "owners": ["099720109477"] } }
This selects an Ubuntu 16.04 HVM BSU OMIS from Canonical. NOTE: This will fail unless exactly one OMIS is returned. In the above example,
most_recent
will cause this to succeed by selecting the newest image.You may set this in place of
source_omi
or in conjunction with it. If you set this in conjunction withsource_omi
, thesource_omi
will be added to the filter. The providedsource_omi
must meet all of the filtering criteria provided insource_omi_filter
; this pins the OMI returned by the filter, but will cause Packer to fail if thesource_omi
does not exist.
tags
(object of key/value strings) - Tags applied to the OMI. This is a template engine, see Build template data for more information.
Basic Example
Here is a basic example. It is completely valid except for the access keys:
{
"type": "outscale-chroot",
"access_key": "YOUR KEY HERE",
"secret_key": "YOUR SECRET KEY HERE",
"source_omi": "ami-3e158364",
"omi_name": "packer-outscale-chroot {{timestamp}}"
}
Chroot Mounts
The chroot_mounts
configuration can be used to mount specific devices within
the chroot. By default, the following additional mounts are added into the
chroot by Packer:
/proc
(proc)/sys
(sysfs)/dev
(bind to real/dev
)/dev/pts
(devpts)/proc/sys/fs/binfmt_misc
(binfmt_misc)
These default mounts are usually good enough for anyone and are sane defaults.
However, if you want to change or add the mount points, you may using the
chroot_mounts
configuration. Here is an example configuration which only
mounts /proc
and /dev
:
{
"chroot_mounts": [
["proc", "proc", "/proc"],
["bind", "/dev", "/dev"]
]
}
chroot_mounts
is a list of a 3-tuples of strings. The three components of the
3-tuple, in order, are:
The filesystem type. If this is "bind", then Packer will properly bind the filesystem to another mount point.
The source device.
The mount directory.
Parallelism
A quick note on parallelism: it is perfectly safe to run multiple separate
Packer processes with the outscale-chroot
builder on the same Outscale VM. In
fact, this is recommended as a way to push the most performance out of your OMI
builds.
Packer properly obtains a process lock for the parallelism-sensitive parts of its internals such as finding an available device.
Gotchas
Unmounting the Filesystem
One of the difficulties with using the chroot builder is that your provisioning scripts must not leave any processes running or packer will be unable to unmount the filesystem.
For debian based distributions you can setup a policy-rc.d file which will prevent packages installed by your provisioners from starting services:
({
"type": "shell",
"inline": [
"echo '#!/bin/sh' > /usr/sbin/policy-rc.d",
"echo 'exit 101' >> /usr/sbin/policy-rc.d",
"chmod a+x /usr/sbin/policy-rc.d"
]
},
{
"type": "shell",
"inline": ["rm -f /usr/sbin/policy-rc.d"]
})
Ansible provisioner
Running ansible
against outscale-chroot
requires changing the Ansible connection
to chroot and running Ansible as root/sudo.
Building From Scratch
This example demonstrates the essentials of building an image from scratch. A 15G gp2 (SSD) device is created (overriding the default of standard/magnetic). The device setup commands partition the device with one partition for use as an HVM image and format it ext4. This builder block should be followed by provisioning commands to install the os and bootloader.
{
"type": "outscale-chroot",
"ami_name": "packer-from-scratch {{timestamp}}",
"from_scratch": true,
"ami_virtualization_type": "hvm",
"pre_mount_commands": [
"parted {{.Device}} mklabel msdos mkpart primary 1M 100% set 1 boot on print",
"mkfs.ext4 {{.Device}}1"
],
"root_volume_size": 15,
"root_device_name": "xvdf",
"ami_block_device_mappings": [
{
"device_name": "xvdf",
"delete_on_termination": true,
"volume_type": "gp2"
}
]
}
Build template data
In configuration directives marked as a template engine above, the following variables are available:
BuildRegion
- The region (for exampleeu-west-2
) where Packer is building the OMI.SourceOMI
- The source OMIS ID (for exampleami-a2412fcd
) used to build the OMI.SourceOMIName
- The source OMIS Name (for exampleubuntu-390
) used to build the OMI.SourceOMITags
- The source OMIS Tags, as amap[string]string
object