2015-03-29 16:47:30 +00:00
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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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2015-08-03 06:18:30 +00:00
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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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2016-12-17 21:41:14 +00:00
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* tgz
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2016-12-18 01:59:07 +00:00
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* squashfs
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2015-08-03 06:18:30 +00:00
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* vhd
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* docker
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* raw
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2015-12-15 23:45:36 +00:00
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Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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Disk Image Layout
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-----------------
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2017-05-05 14:08:11 +00:00
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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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Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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2017-05-05 14:08:11 +00:00
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There are currently two defaults:
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Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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2017-05-05 14:08:11 +00:00
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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.
|
Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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2017-05-05 14:08:11 +00:00
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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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Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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2016-07-16 20:16:13 +00:00
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DIB_BLOCK_DEVICE_CONFIG='
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2017-02-03 20:09:58 +00:00
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- local_loop:
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2017-01-29 23:52:40 +00:00
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name: image0
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Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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2017-02-03 20:09:58 +00:00
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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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2017-05-05 14:08:11 +00:00
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size: 100%
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2017-01-29 23:52:40 +00:00
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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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2017-05-05 14:08:11 +00:00
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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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2017-01-29 23:52:40 +00:00
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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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2017-05-05 14:08:11 +00:00
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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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2016-07-16 20:16:13 +00:00
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In general each module that depends on another module has a `base`
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2017-05-05 14:08:11 +00:00
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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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2016-07-16 20:16:13 +00:00
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2017-05-01 10:19:26 +00:00
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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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2017-05-17 05:54:02 +00:00
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mount_point: /
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2017-05-01 10:19:26 +00:00
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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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2016-07-16 20:16:13 +00:00
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Limitations
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+++++++++++
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2017-01-29 23:52:40 +00:00
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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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2016-07-16 20:16:13 +00:00
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2017-01-29 23:52:40 +00:00
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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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2016-07-16 20:16:13 +00:00
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|
Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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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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2017-05-05 14:08:11 +00:00
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.. code-block:: yaml
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2016-07-16 20:16:13 +00:00
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local_loop:
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name: image0
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Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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2016-07-16 20:16:13 +00:00
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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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Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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This creates two image files and uses the loop device to use them as
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2016-07-16 20:16:13 +00:00
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block devices. One image file called `image0` is created with
|
Refactor: block-device handling (local loop)
Block device handling can be somewhat complex - especially
when taking things like md, lvm or encryption into account.
This patch factors out the creation and deletion of the local
loop image device handling into a python library.
The main propose of this patch is to implement the needed
infrastructure. Based on this, more advanced functions can be added.
Example: (advanced) partitioning, LVM, handling different boot
scenarios (BIOS, UEFI, ...), possibility of handling multiple images
(local loop image, iSCSI, physical hard disk, ...), handling of
different filesystems for different partitions / LVs.
Change-Id: Ib626b36a00f8a5dc3dbde8df3e2619a2438eaaf1
Signed-off-by: Andreas Florath <andreas@florath.net>
2016-05-21 19:32:35 +00:00
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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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2016-07-16 20:16:13 +00:00
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Level 1
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+++++++
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Module: Partitioning
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....................
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2017-05-05 14:08:11 +00:00
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This module generates partitions on existing block devices. This
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2016-07-16 20:16:13 +00:00
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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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2017-05-05 14:08:11 +00:00
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Currently the only supported partitioning layout is Master Boot Record
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`MBR`.
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2016-07-16 20:16:13 +00:00
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It is possible to create primary or logical partitions or a mix of
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2017-05-05 14:08:11 +00:00
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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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2016-07-16 20:16:13 +00:00
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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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2017-05-05 14:08:11 +00:00
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The number of logical partitions created by this module is theoretical
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2016-07-16 20:16:13 +00:00
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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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2017-05-05 14:08:11 +00:00
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There are the following key / value pairs to define one partition
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table:
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2016-07-16 20:16:13 +00:00
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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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2017-01-29 23:52:40 +00:00
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perform well on a wide range of targets. For each partition
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2016-07-16 20:16:13 +00:00
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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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2017-05-05 14:08:11 +00:00
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the partition can later be referenced, e.g. when creating a
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2016-07-16 20:16:13 +00:00
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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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2017-03-14 00:33:01 +00:00
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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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2016-07-16 20:16:13 +00:00
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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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2017-01-29 23:52:40 +00:00
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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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|
2015-12-15 23:45:36 +00:00
|
|
|
Filesystem Caveat
|
|
|
|
-----------------
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|
2016-12-08 04:59:15 +00:00
|
|
|
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::
|
2015-12-15 23:45:36 +00:00
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disk-image-create --mkfs-options '-i 16384' <distro> vm
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2016-12-08 04:59:15 +00:00
|
|
|
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).
|
|
|
|
|
2016-01-17 11:38:59 +00:00
|
|
|
Speedups
|
|
|
|
--------
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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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|
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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.
|
2017-01-29 23:52:40 +00:00
|
|
|
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