e4e23897a1
This patch finalizes the block device refactoring. It moves the three remaining levels (filesystem creation, mount and fstab handling) into the new python module. Now it is possible to use any number of disk images, any number of partitions and used them mounted to different directories. Notes: * unmount_dir : modified to only unmount the subdirs mounted by mount_proc_sys_dev(). dib-block-device unmounts $TMP_MOUNT_PATH/mnt (see I85e01f3898d3c043071de5fad82307cb091a64a9) Change-Id: I592c0b1329409307197460cfa8fd69798013f1f8 Signed-off-by: Andreas Florath <andreas@florath.net> Closes-Bug: #1664924
517 lines
15 KiB
ReStructuredText
517 lines
15 KiB
ReStructuredText
Building An Image
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=================
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Now that you have diskimage-builder properly :doc:`installed <installation>`
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you can get started by building your first disk image.
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VM Image
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--------
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Our first image is going to be a bootable vm image using one of the standard
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supported distribution :doc:`elements <../elements>` (Ubuntu or Fedora).
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The following command will start our image build (distro must be either
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'ubuntu' or 'fedora'):
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::
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disk-image-create <distro> vm
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This will create a qcow2 file 'image.qcow2' which can then be booted.
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Elements
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--------
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It is important to note that we are passing in a list of
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:doc:`elements <../elements>` to disk-image-create in our above command. Elements
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are how we decide what goes into our image and what modifications will be
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performed.
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Some elements provide a root filesystem, such as the ubuntu or fedora element
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in our example above, which other elements modify to create our image. At least
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one of these 'distro elements' must be specified when performing an image
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build. It's worth pointing out that there are many distro elements (you can even
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create your own), and even multiples for some of the distros. This is because
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there are often multiple ways to install a distro which are very different.
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For example: One distro element might use a cloud image while another uses
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a package installation tool to build a root filesystem for the same distro.
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Other elements modify our image in some way. The 'vm' element in our example
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above ensures that our image has a bootloader properly installed. This is only
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needed for certain use cases and certain output formats and therefore it is
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not performed by default.
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Output Formats
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--------------
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By default a qcow2 image is created by the disk-image-create command. Other
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output formats may be specified using the `-t <format>` argument. Multiple
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output formats can also be specified by comma separation. The supported output
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formats are:
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* qcow2
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* tar
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* tgz
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* squashfs
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* vhd
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* docker
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* raw
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Disk Image Layout
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-----------------
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The disk image layout (like number of images, partitions, LVM, disk
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encryption) is something which should be set up during the initial
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image build: it is mostly not possible to change these things later
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on.
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There are currently two defaults:
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* When using the `vm` element a MBR based partition layout is created
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with exactly one partition that fills up the whole disk and used as
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root device.
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* When not using the `vm` element a plain filesystem image, without
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any partitioning, is created.
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The user can overwrite the default handling by setting the environment
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variable `DIB_BLOCK_DEVICE_CONFIG`. This variable must hold YAML
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structured configuration data.
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The default when using the `vm` element is:
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.. code-block:: yaml
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DIB_BLOCK_DEVICE_CONFIG='
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- local_loop:
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name: image0
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- partitioning:
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base: image0
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label: mbr
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partitions:
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- name: root
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flags: [ boot, primary ]
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size: 100%
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mkfs:
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mount:
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mount_point: /
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fstab:
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options: "defaults"
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fsck-passno: 1'
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The default when not using the `vm` element is:
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.. code-block:: yaml
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DIB_BLOCK_DEVICE_CONFIG='
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- local_loop:
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name: image0
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mkfs:
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name: mkfs_root
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mount:
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mount_point: /
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fstab:
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options: "defaults"
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fsck-passno: 1'
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There are a lot of different options for the different levels. The
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following sections describe each level in detail.
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General Remarks
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+++++++++++++++
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In general each module that depends on another module has a `base`
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element that points to the depending base. Also each module has a
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`name` that can be used to reference the module.
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Tree-Like vs. Complete Digraph Configuration
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++++++++++++++++++++++++++++++++++++++++++++
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The configuration is specified as a digraph_. Each module is a
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node; a edge is the relation of the current element to its `base`.
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Because the general digraph_ approach is somewhat complex when it comes
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to write it down, the configuration can also be given as a tree_.
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.. _digraph: https://en.wikipedia.org/wiki/Directed_graph
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.. _tree: https://en.wikipedia.org/wiki/Tree_(graph_theory)
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Example: The tree like notation
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.. code-block:: yaml
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mkfs:
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name: root_fs
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base: root_part
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mount:
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mount_point: /
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is exactly the same as writing
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.. code-block:: yaml
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mkfs:
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name: root_fs
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base: root_part
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mount:
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name: mount_root_fs
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base: root_fs
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mount_point: /
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Non existing `name` and `base` entries in the tree notation are
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automatically generated: the `name` is the name of the base module
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prepended by the type-name of the module itself; the `base` element is
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automatically set to the parent node in the tree.
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In mostly all cases the much simpler tree notation can be used.
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Nevertheless there are some use cases when the more general digraph
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notation is needed. Example: when there is the need to combine two or
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more modules into one new, like combining a couple of physical volumes
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into one volume group.
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Tree and digraph notations can be mixed as needed in a configuration.
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Limitations
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+++++++++++
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There are a couple of new modules planned, but not yet implemented,
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like LVM, MD, encryption, ...
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To provide an interface towards the existing elements, there are
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currently three fixed keys used - which are not configurable:
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* `root-label`: this is the label of the block device that is mounted at
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`/`.
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* `image-block-partition`: if there is a block device with the name
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`root` this is used else the block device with the name `image0` is
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used.
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* `image-path`: the path of the image that contains the root file
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system is taken from the `image0`.
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Level 0
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+++++++
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Module: Local Loop
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..................
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This module generates a local image file and uses the loop device to
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create a block device from it. The symbolic name for this module is
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`local_loop`.
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Configuration options:
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name
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(mandatory) The name of the image. This is used as the name for the
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image in the file system and also as a symbolic name to be able to
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reference this image (e.g. to create a partition table on this
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disk).
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size
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(optional) The size of the disk. The size can be expressed using
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unit names like TiB (1024^4 bytes) or GB (1000^3 bytes).
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Examples: 2.5GiB, 12KB.
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If the size is not specified here, the size as given to
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disk-image-create (--image-size) or the automatically computed size
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is used.
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directory
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(optional) The directory where the image is created.
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Example:
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.. code-block:: yaml
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local_loop:
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name: image0
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local_loop:
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name: data_image
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size: 7.5GiB
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directory: /var/tmp
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This creates two image files and uses the loop device to use them as
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block devices. One image file called `image0` is created with
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default size in the default temp directory. The second image has the
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size of 7.5GiB and is created in the `/var/tmp` folder.
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Level 1
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+++++++
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Module: Partitioning
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....................
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This module generates partitions on existing block devices. This
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means that it is possible to take any kind of block device (e.g. LVM,
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encrypted, ...) and create partition information in it.
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The symbolic name for this module is `partitioning`.
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Currently the only supported partitioning layout is Master Boot Record
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`MBR`.
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It is possible to create primary or logical partitions or a mix of
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them. The numbering of the primary partitions will start at 1,
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e.g. `/dev/vda1`; logical partitions will typically start
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with `5`, e.g. `/dev/vda5` for the first partition, `/dev/vda6` for
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the second and so on.
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The number of logical partitions created by this module is theoretical
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unlimited and it was tested with more than 1000 partitions inside one
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block device. Nevertheless the Linux kernel and different tools (like
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`parted`, `sfdisk`, `fdisk`) have some default maximum number of
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partitions that they can handle. Please consult the documentation of
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the appropriate software you plan to use and adapt the number of
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partitions.
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Partitions are created in the order they are configured. Primary
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partitions - if needed - must be first in the list.
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There are the following key / value pairs to define one partition
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table:
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base
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(mandatory) The base device where to create the partitions in.
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label
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(mandatory) Possible values: 'mbr'
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This uses the Master Boot Record (MBR) layout for the disk.
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(There are currently plans to add GPT later on.)
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align
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(optional - default value '1MiB')
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Set the alignment of the partition. This must be a multiple of the
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block size (i.e. 512 bytes). The default of 1MiB (~ 2048 * 512
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bytes blocks) is the default for modern systems and known to
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perform well on a wide range of targets. For each partition
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there might be some space that is not used - which is `align` - 512
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bytes. For the default of 1MiB exactly 1048064 bytes (= 1 MiB -
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512 byte) are not used in the partition itself. Please note that
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if a boot loader should be written to the disk or partition,
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there is a need for some space. E.g. grub needs 63 * 512 byte
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blocks between the MBR and the start of the partition data; this
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means when grub will be installed, the `align` must be set at least
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to 64 * 512 byte = 32 KiB.
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partitions
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(mandatory) A list of dictionaries. Each dictionary describes one
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partition.
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The following key / value pairs can be given for each partition:
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name
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(mandatory) The name of the partition. With the help of this name,
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the partition can later be referenced, e.g. when creating a
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file system.
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flags
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(optional) List of flags for the partition. Default: empty.
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Possible values:
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boot
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Sets the boot flag for the partition
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primary
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Partition should be a primary partition. If not set a logical
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partition will be created.
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size
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(mandatory) The size of the partition. The size can either be an
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absolute number using units like `10GiB` or `1.75TB` or relative
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(percentage) numbers: in the later case the size is calculated
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based on the remaining free space.
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Example:
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.. code-block:: yaml
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- partitioning:
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base: image0
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label: mbr
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partitions:
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- name: part-01
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flags: [ boot ]
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size: 1GiB
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- name: part-02
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size: 100%
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- partitioning:
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base: data_image
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label: mbr
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partitions:
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- name: data0
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size: 33%
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- name: data1
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size: 50%
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- name: data2
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size: 100%
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On the `image0` two partitions are created. The size of the first is
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1GiB, the second uses the remaining free space. On the `data_image`
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three partitions are created: all are about 1/3 of the disk size.
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Level 2
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+++++++
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Module: Mkfs
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............
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This module creates file systems on the block device given as `base`.
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The following key / value pairs can be given:
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base
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(mandatory) The name of the block device where the filesystem will
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be created on.
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name
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(mandatory) The name of the partition. This can be used to
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reference (e.g. mounting) the filesystem.
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type
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(mandatory) The type of the filesystem, like `ext4` or `xfs`.
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label
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(optional - defaults to the name)
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The label of the filesystem. This can be used e.g. by grub or in
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the fstab.
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opts
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(optional - defaults to empty list)
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Options that will passed to the mkfs command.
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uuid
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(optional - no default / not used if not givem)
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The UUID of the filesystem. Not all file systems might
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support this. Currently there is support for `ext2`, `ext3`,
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`ext4` and `xfs`.
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Example:
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.. code-block:: yaml
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- mkfs:
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name: mkfs_root
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base: root
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type: ext4
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label: cloudimage-root
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uuid: b733f302-0336-49c0-85f2-38ca109e8bdb
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opts: "-i 16384"
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Level 3
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+++++++
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Module: Mount
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.............
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This module mounts a filesystem. The options are:
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base
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(mandatory) The name of the filesystem that will be mounted.
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name
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(mandatory) The name of the mount point. This can be used for
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reference the mount (e.g. creating the fstab).
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mount_point
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(mandatory) The mount point of the filesystem.
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There is no need to list the mount points in the correct order: an
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algorithm will automatically detect the mount order.
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Example:
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.. code-block:: yaml
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- mount:
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name: root_mnt
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base: mkfs_root
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mount_point: /
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Level 4
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+++++++
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Module: fstab
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.............
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This module creates fstab entries. The following options exists. For
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details please consult the fstab man page.
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base
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(mandatory) The name of the mount point that will be written to
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fstab.
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name
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(mandatory) The name of the fstab entry. This can be used later on
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as reference - and is currently unused.
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options
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(optional, defaults to `default`)
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Special mount options can be given. This is used as the fourth
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field in the fstab entry.
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dump-freq
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(optional, defaults to 0 - don't dump)
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This is passed to dump to determine which filesystem should be
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dumped. This is used as the fifth field in the fstab entry.
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fsck-passno
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(optional, defaults to 2)
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Determines the order to run fsck. Please note that this should be
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set to 1 for the root file system. This is used as the sixth field
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in the fstab entry.
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Example:
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.. code-block:: yaml
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- fstab:
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name: var_log_fstab
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base: var_log_mnt
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options: nodev,nosuid
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dump-freq: 2
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Filesystem Caveat
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-----------------
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By default, disk-image-create uses a 4k byte-to-inode ratio when
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creating the filesystem in the image. This allows large 'whole-system'
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images to utilize several TB disks without exhausting inodes. In
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contrast, when creating images intended for tenant instances, this
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ratio consumes more disk space than an end-user would expect (e.g. a
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50GB root disk has 47GB avail.). If the image is intended to run
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within a tens to hundrededs of gigabyte disk, setting the
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byte-to-inode ratio to the ext4 default of 16k will allow for more
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usable space on the instance. The default can be overridden by passing
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``--mkfs-options`` like this::
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disk-image-create --mkfs-options '-i 16384' <distro> vm
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You can also select a different filesystem by setting the ``FS_TYPE``
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environment variable.
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Note ``--mkfs-options`` are options passed to the mfks *driver*,
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rather than ``mkfs`` itself (i.e. after the initial `-t` argument).
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Speedups
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--------
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If you have 4GB of available physical RAM (as reported by /proc/meminfo
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MemTotal), or more, diskimage-builder will create a tmpfs mount to build the
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image in. This will improve image build time by building it in RAM.
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By default, the tmpfs file system uses 50% of the available RAM.
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Therefore, the RAM should be at least the double of the minimum tmpfs
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size required.
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For larger images, when no sufficient amount of RAM is available, tmpfs
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can be disabled completely by passing --no-tmpfs to disk-image-create.
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ramdisk-image-create builds a regular image and then within that image
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creates ramdisk.
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If tmpfs is not used, you will need enough room in /tmp to store two
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uncompressed cloud images. If tmpfs is used, you would still need /tmp space
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for one uncompressed cloud image and about 20% of that image for working files.
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