b9
A tool and library for building virtual machine images.
https://github.com/sheyll/b9-vm-image-builder
Version on this page: | 0.5.19 |
LTS Haskell 11.22: | 0.5.49 |
Stackage Nightly 2018-03-12: | 0.5.35 |
Latest on Hackage: | 3.2.3 |
b9-0.5.19@sha256:866d4dce0914c2259f724b9c58402c7d7f799175c199e901a446e725bc93cb8a,7451
Module documentation for 0.5.19
B9 - A Benign VM-Build Tool
Use B9 to compile your software into a deployable set of Linux-VM- or configuration images, from a set of scripts and input files and templates
The main goal of this tool is to provide a build tool to increase automation and reduce redundancy when creating configured, ready-to-run VM-images.
It is designed to help implementing what’s buzz-worded as immutable infrastructure, by making whole-VM-deployments as safe and a fast as possible.
B9 does not bring infrastructure to run and connect any VM-image in production, it is merely a build tool to assemble deployable artifacts.
One big thing is that it can produce many machines and cloud-configs from a single build file, because build files can describe concrete as well as parameterized generators. It can create parameterized VM-Images by uploading (e.g. system-)files assembled by syntax aware template application and combination, all statically checked by during the build.
This sets B9 apart from e.g. cloud-init or other configuration management systems that provide configuration via user provided dynamic script-programs, which rely on the user to contain correct error handling.
The general idea is the same as in statically type programming languages: catch errors as early as possible without relying on the user to create a covering set of tests/error checks.
Certain sacrifies were made; there might be a steep laerning curve, but you will eventually get there. The tool at hand works stable and reliable. The build files are check rigorously, all builds happen in a random build directory and failure leaves no stale LXC-containers running or multiple GiB of temporary disk image files around. Also, there is no way modify an existing image in place. Work on VM-Images is always done on a copy of an image, and to speed things up, it is possible to explicitly use copy-on-write images.
B9 creates bootable virtual machine images, without necessarily using virtualization itself.
In essence B9 is a tool for creation, configuration and sharing of VM images and all peripheral artifacts, it creates:
- VMDK/QCOW2/Raw VM images
- Converted, extracted and resized copies of existing vm images
- Empty VM images with extended 4 file system
- Cloud-Config Images
- Text files from template files with variable interpolation
- Erlang OTP sys.config files
- beqemu-life-installer compatible VM images
B9 creates/converts/assembles virtual disk images as well as any number of config-input files and executes scripts in LXC containers into which these images are mounted.
The input is in both cases a single, text-based configuration file wich can be put along side with other build files (e.g. Makefiles, maven poms, …).
Some Random Features:
- Tailored for both software compilation environments and VM image creation
- Creation of cloud-init (NoCloud) ISO images, VFAT images and directories
- Assembly and creation of arbitrary files with safe variable interpolation
- Creation of multiple images/machines/cloud-configs based on creation rules
- Syntax-checked merging of several cloud-config yaml user-data files with variable expansion
- Syntax-checked parsing and recombination of Erlang/OTP sys.config files with variable expansion
- Reusing and Sharing of vm-images, e.g. via The Internet using ‘push’ and ‘pull’
- Arbitrary command execution inside a guest container
- Execution of interactive commands inside guest containers
- Create empty VM Images with file system
- Builtin config file formatter
- Create CopyOnWrite-Images backed by existing QCow2 or Raw images
- Create disk images from other disk image
- Derive disk images from a partition inside of an existing disk image
- Transparent support for QCOW2, VMDK and Raw (intermediate images will have the appropriate formats)
- Resize images and optionally also file systems inside disk images
- Support for 64-bit and 32-bit guests
- Share directories with the host
- Haskell library for parsing the config files and running builds
- Speed: Smart disk image conversion, raw image preference, flexible configuration, simple profiling
- Configurable Logging
- Automatic build clean-up
- Configurable LibVirtLXC parameters
- Configurable remote (ssh with pubkey auth + rsync) image shareing
- Local caching of shared images
Compilation from Source
To build B9 first install:
ghc
version 7.6 or highercabal-install
version 1.16 or higher
B9 uses stackage and cabal sandboxes. The build result can be found in
.cabal-sandbox/bin/
. To run a complete fresh build, execute:
./installDeps.sh
cabal install
To launch b9c run:
./build_and_run.sh
To execute a ghci-repl run:
cabal repl
To execute unit tests run:
./build_and_test.sh
Installation
To be able to use B9 install
- lxc
- libvirt with lxc support (libvirt-driver-lxc, libvirt-daemon-lxc,…)
- virsh
- qemu
- ext4 tools
- genisoimage
- mtools
- vfat tools
- ssh
- rsync
- bash
- wget
- sudo
B9 has been tested with libvirt version 1.2.12.
Make sure that all neccessary daemons, e.g. libvirtd.service
, lxc.service
,..
are active, that SELinux is configured correctly and that the nbd
kernel
module is loaded.
If neccessary create a libvirt network configuration, e.g. by using
the GUI front-endvirt-manager
.
Depending upon the libvirt and lxc configuration of the system it might be
nessary to allow the user, that will execute b9c
, password-less sudo
for
these commands:
virsh
rm
cat
cp
mv
After installing B9 (either from a binary package or by building from source)
all its glory is availbe through a single executable called b9c
.
When b9c
is started for the first time, it creates a configuration file in
the users home directory called ~/.b9/b9.conf
. The path to that file can be
changed using command line arguments. Execute:
b9c -h
for a list of command line parameters and commands.
b9c
command line arguments always follow this pattern:
b9c <global-options> <command> <command-options> -- <build-script-extra-args>
To enable B9 to work correctly on your machine edit the config file and make necessary adaptions.
B9 configuration file
This is an example of a B9 configuration file, by default found in
~/.b9/b9.conf
:
[global]
# optional alternative directory for temporary build files. If 'Nothing'
# the current directory is used.
build_dir_root: Just "/home/sven/tmp"
environment_vars: []
exec_env: LibVirtLXC
keep_temp_dirs: False
# if set to 'Just "filename"
log_file: Nothing
profile_file: Nothing
unique_build_dirs: True
verbosity: Just LogInfo
[libvirt-lxc]
connection: lxc:///
emulator_path: /usr/lib/libvirt/libvirt_lxc
# contains `Just "libvirt-network-name"` or `Nothing` for your libvirt
# default network settings
network: Nothing
use_sudo: True
virsh_path: /usr/bin/virsh
Some of the options can also be specified on the command line.
Writing B9 build files
If you really need to write these file, you are basically f’ed.
For now, look at existing config files and read the sources, if anything, make sure to read at least the chapter Anger-Management before throwing stuff around.
More documentation is comming soon!
General Structure
A B9 configuration describes a single ArtifactGenerator
. It generates files
belonging to a VM, such as qcow2/raw/vmdk-image file(s) and e.g. cloud-init ISO
image files.
Just to recap: a something.b9
build file is always ever only a mere
ArtifactGenerator
literal, no matter how many Let
, Each
, Artifacts
,
etc… you see flying around there.
Creating artifacts
To get any real artifact out of an artifact generator use the Artifact
constructor. It takes 2 parameters an arbitrary id and a describtion of what
the artifact consists of:
Artifact (IID "some_instance_id")
(VmImages ... | CloudInit ...)
An artifact can either be a (set of) VM-disk-image(s) likely in combination with some shell script to install software, etc or a static collection of files put on a cloud-init image(VFAT or ISO or directory).
Defining artifact generators that produce vm image files
To produce vm image files, e.g. with some software installed use the VmImages
artifact generator. It has only 2 parameters:
VmImages
[ ... disk image targets ... ]
( ... installation script ...)
Of course it must be wrapped in an Artifact
definition, so we get this structure:
Artifact (IID "my_first_image")
(VmImages [...] (...))
ImageTargets
The first argument to VmImages
is a list of ImageTarget
. Each describes
a single VM-disk-image. The syntax is:
ImageTarget
ImageDestination
ImageSource
MountPoint
- An
ImageDestination
specifies if/where to put the output image. - An
ImageSource
specifies how the image is created or from where it is taken. - A
MountPoint
specifies where to mount the image during the execution of an optionalVmBuild
-script.
Parameterized artifact generators
B9 supports $varnam
variable interpolation in all strings anywhere in an
ArtifactGenerator
:
- All filenames and paths
- All id strings and names
- Template files included via e.g.
Template
- In every string in
VmScript
s (e.g. inRun "${cmd}" ["${world}"]
) - Also in all included template files (e.g. included via
Template
)
Parameters can be defined using Let
, Each
and special command line
arguments.
To pass parameters via the command line, append them after the argument delimiter
option --
which ends the list of regular b9c arguments:
b9c -v build -f file1.b9 .. -- arg_1 arg_2 ...
The parameters are bound to ${arg_1}
, ${arg_2}
, that is variables indicating
the corresponding position on the command line.
To define variables using Let
, write:
Let [key-value-pairs, ...]
[artifactgenerators, ...]
All key-value bindings defined in the first list are available in every artifact generator contained in the second list (body).
A key-value binding, e.g. ("hostname", "www.acme.org")
, consist of two strings
on parens seperated by a ,
(comma). The left string is the key, and the right
string is the value.
This ("webserver", "www.${domainname}")
is an example to show that the value
may also contain a variable reference. (Of course, only to variabled defined
before)
Anger-Management
B9 build files contain a single literal ArtifactGenerator
value
in Haskell syntax. B9 currently ‘parses’ the config file without any
error checking, so writing config files is VERY frustrating without
some tricks:
Trick 1
Start with a working file and run
b9c reformat -f <filename>
after each modification. The reformat
command only parses and - hence the
name - (re-) formats/pretty-prints the files passed with -f
options.
You will immediately know if a modification broke the file.
NOTE: If your build file refers to any ${arg_...}
positional arguments pass
them to reformat
using --
followed by the argument list.
Trick 2
Obtain and build the sources of B9, start an interactive haskell shell with the
B9 code loaded and try to paste the contents of the config file to see if ghci
accepts it. Use the ghci macros :{
and :}
to begin and end a multi-line input
and paste the raw contents of the config file in question in between.
$ cabal install
$ cabal repl
... (many lines omitted) ...
*B9> :{
*B9| Artifact (IID "filer")
*B9| (VmImages [ ImageTarget
*B9| (LocalFile (Image "EXPORT/machines/filer/disks/0.vmdk" Vmdk Ext4)
*B9| KeepSize)
*B9| (From "fedora-20-prod" KeepSize)
*B9| (MountPoint "/")
*B9| , ImageTarget
*B9| (LocalFile (Image "EXPORT/machines/filer/disks/1.vmdk" Vmdk Ext4)
*B9| KeepSize)
*B9| (EmptyImage "audio_files" Ext4 Raw (ImageSize 64 GB))
*B9| (MountPoint "/export/lb/audio")
*B9| ]
*B9| (VmScript X86_64
*B9| [ SharedDirectoryRO "./filer" (MountPoint "/mnt/build_root")
*B9| , SharedDirectoryRO "../_common/upload" (MountPoint "/mnt/common")]
*B9| (Begin
*B9| [ Run "dhclient" []
*B9| , In "/mnt/build_root" [ Run "./machine-" [] ]
*B9| , In "/mnt/common" [ Run "./post_export.sh" [] ]
*B9| ])))
*B9| :}
Artifact (IID "filer") (VmImages
[ImageTarget (LocalFile (Image "EXPORT/machines/filer/disks/0.vmdk" Vmdk Ext4) KeepSize)
(From "fedora-20-prod" KeepSize) (MountPoint "/"),ImageTarget
(LocalFile (Image "EXPORT/machines/filer/disks/1.vmdk" Vmdk Ext4) KeepSize)
(EmptyImage "audio_files" Ext4 Raw (ImageSize 64 GB)) (MountPoint "/export/lb/audio")]
(VmScript X86_64
[SharedDirectoryRO "./filer" (MountPoint "/mnt/build_root"),
SharedDirectoryRO "../_common/upload" (MountPoint "/mnt/common")]
(Begin [Run "dhclient" [],In "/mnt/build_root" [Run "./machine-" []],In
"/mnt/common" [Run "./post_export.sh" []]])))