ove.mp4
OVE is gathering git repositories and the knowledge how to build and test them. Well sort of, it is up to you to feed this information to OVE. However, OVE provides a well-defined structure for using and sharing this information with others. OVE also provides a number of commands for common tasks, flexible ways of including all sorts of projects as well as the ability to expand OVE on the go! OVE is not a one-entry-point tool, but rather a shell enhancer: All parts of the OVE workflow can be done manually from prompt. We like to view OVE as a way of removing not-updated-lately wikis, and instead share ready-to-use functionality.
To have a localized, yet versioned, top project source view to enable fast modify-build-test loops in parallel development. For developers, for anyone that prefers a see-the-big-picture approach and for those who just want to take a quick peek.
OVE is built with the developer in focus. We embrace the fact that while computers (e.g. CI/CD hosts) generally do not get easily frustrated, developers do.
Eager to get going? We have a tutorial here. Try OVE out with a pre-made tutorial project and get up to speed on OVE in just a few minutes.
OVE provides a top project, and on this top level OVE therefore needs to handle four major functionality areas:
-
Versioning
-
Build chain
-
System tests
-
Project specific tasks
To do this, OVE uses a top git repository (OWEL) containing information related to these tasks. Before we dig into details, let us just elaborate on a few subjects:
Versioning is handled entirely through git. The top repo and whatever sub repos are added are all git repos.
For OVE, a project is something that produces output (e.g. an executable, a library or anything else machine-made). Even though projects are normally contained within a corresponding git repo, OVE treats projects and repos independently. Multiple projects can be configured using code and build systems from the same repo, and one project can use code and build systems from multiple repos.
In order for OVE to build at the top level, independently of any toolchain used by sub-projects, a contract must be set up between OVE and any included project. This is a one-sided contract. Nothing needs to (nor should) go into a sub-project on OVE's account. To set up this contract, some typical build steps (bootstrap, configure, build, install) are specified for added sub projects.
System tests tend to be quite tricky to generalize, so we simply do not. What is provided is a way of keeping track of entry points and groups of entry points to system tests. This creates a template for keeping track of tests and a way to pass information that OVE holds down to test suites.
Regardless of how much features go into tools or frameworks for software projects, they are never complete. There are always per-project specific needs. OVE is made with a less-is-more approach. Rather than trying to implement as many feature requests as possible, we wanted to provide a solid functional base together with a simple, intuitive way of adding project-specific features. It is therefore possible to expose customized OVE commands from an OWEL, a workspace or from any git that OVE knows about. These commands are called plugins. They are basically just a bunch of executables (most often small bash scripts) that can leverage on the project information held by OVE.
Enough said, let us dig into details! We start with versioning:
To make it transparent and intuitive for the developer to quickly grasp what revision state a certain workspace or project is in, OVE tries to be as short and clear as possible about it. Therefore, the baseline for a project is defined by a plain, line-by-line, text file in the OWEL. It is called 'revtab' and only contains four fields:
- name: Unique identifier of the git repository.
- fetch URL: The fetch URL.
- push URL: The push URL.
- revision: The git revision. This is passed on to 'git checkout'.
Example:
$ cat revtab
# name fetch URL push URL revision
repoX ssh://xyz/repoX ssh://xyz/repoX main
deps/repoY https://xyz/repoY https://xyz/repoY stable
That's it! This is how OVE keeps track of git revisions. There is no intermediate representation for revisioning in OVE. What you put in the 'revision' column travels untouched to git, which means you can safely put anything there that git understands. Now, let's move on to top-view builds:
How does OVE keep track of dependencies? Well, to start with there are (at least) two types of dependencies: First, there are prerequisites for most projects to build, usually installed using a package manager. Secondly, within a top project handled by OVE the sub-projects almost always have dependencies to each other. To specify these two types, you use a YAML file in the OWEL, 'projs', that contains a list of projects with the following syntax:
name:
deps:
...
needs:
...
path:
...
tags:
...
version:
...
Project name. Characters allowed: a-z, A-Z, 0-9 and underscore. 'common' is a reserved word.
A list of OVE projects that need to be built before this project can be built.
A list of OS packages that need to be installed before this project can be built. Shell command substitution is allowed.
Can be extended with specific distro requirements, syntax:
needs[_ID][_VER]]
ID is a string and is matched vs. one string within: "${OVE_OS_ID//-/} ${OVE_OS_ID_LIKE//-/}". Examples: "ubuntu", "debian", "centos", "rhel", "fedora", "opensuse_tumbleweed", "suse". VER is a string and is matched vs. "${OVE_OS_VER//[.-]/_}". Examples: "18_04", "3_12_0", "20200923".
The path to project work directory. Relative to OVE_BASE_DIR or an absolute path. Variables are allowed.
Mark a project with one or many tags. Tags will allow you to refererence groups of projects (e.g. for builds).
Optional. Passed on as a bash variable to all steps for this project.
$ cat projs
---
projA:
deps:
projB
needs:
autoconf
automake
g++
path:
repoX
tags:
small
ui
projB:
deps:
projC
needs:
build-essential
linux-headers-$(uname -r)
path:
repoY
tags:
backend
medium
projC:
needs:
build-essential
needs_ubuntu:
pkgA
needs_ubuntu_20_04:
pkgB
needs_debian:
pkgC
needs_rhel:
pkgE
path:
/tmp/projC
tags:
large
ui
version:
2.0.0
That's how OVE resolves external and internal dependencies for builds. As you just read above, the 'version:' keyword creates an environment variable that is passed to all build steps. What are those steps exactly? We cover that in the next section:
OVE is agnostic when it comes to build systems. Well, not entirely true. You need to be in a UNIX-like environment. That said, there are still a multitude of ways to build and install software that need to be taken care of. OVE handles this by providing a way of defining, for each sub project, how that particular project is built. In the OWEL, there is a directory called 'projects'. Within this projects directory, sub directories need to be present for each sub project containing executables (normally tiny shell scripts) for each build step. The projects structure typically look like this (output from tree):
├── projects/
│ ├── projA/
│ │ ├── bootstrap
│ │ ├── build
│ │ ├── configure
│ │ └── install
│ ├── projB/
│ │ ├── bootstrap
│ │ ├── build
│ │ ├── configure
│ │ └── install
│ ├── projC/
│ │ ├── bootstrap
│ │ ├── build
│ │ ├── common
│ │ ├── configure
│ │ └── install
│ └── common/
│ │ ├── bootstrap
│ │ ├── bootstrap.post
│ │ ├── bootstrap.pre
│ │ └── build.pre
When OVE builds the top project the following happens: First, OVE sorts out the build order as explained in the previous section. Secondly, each projects' build steps are executed (bootstrap, build, configure, install). When done, you should be able to find the final output of the build in the staging area. In most cases, these are then picked up by an OVE plugin that creates deliverable packages of some kind (.rpm, .deb or similar).
Particularly interesting here are the "configure" and "install" steps. In order for OVE to get intermediate build results into the staging area, this kind of construct is typically used from within the 'configure' script:
./configure --prefix=${OVE_STAGE_DIR}${OVE_PREFIX}
This way, the install step will install any built items into '${OVE_STAGE_DIR}${OVE_PREFIX}'. Of course the way to do this depends on what build system is used, but the same goes for any project you put into an OVE project: You need to be able to get the build results into the staging area.
The 'common' directory is special. In the example above, before each individual project's 'projX/bootstrap' file is executed, the 'common/bootstrap' file is sourced. This will allow you to put common environment flags, checks etc. into that 'common/{bootstrap,configure,build,install,...}' shell script. The pre/post files are sourced before/after the first/last bootstrap command.
Example:
$ ove bootstrap projA projB
projects/common/bootstrap.pre
A: projects/common/bootstrap
A: projects/projA/bootstrap
B: projects/common/bootstrap
B: projects/projB/bootstrap
projects/common/bootstrap.post
Each OVE project may also have a 'common' file within the project directory. This 'common' file is sourced before the project command file is executed.
Example:
$ ove build projC
projects/common/build.pre
C: projects/projC/common
C: projects/projC/build
For convenience, each project command has access to a few OVE_ACTIVE_PROJECT_ variables:
Environment variable | Description |
---|---|
OVE_ACTIVE_PROJECT_COMMAND | Project command. E.g. 'build' |
OVE_ACTIVE_PROJECT_NAME | Project name. E.g. 'projA' |
OVE_ACTIVE_PROJECT_VERSION | Project version (if available). E.g. '1.4.1' |
You now know how to build sub projects together, but what about testing from a system perspective? We cover that in the next section:
We have already covered how OVE keeps track of repos, how sub-project build methods can be included and how they can all form a larger, top view project. We also showed how these parts are built together using OVE's staging area. On the same note, it also makes sense to provide a way to execute system tests, tests that need more than one sub-project or repo to execute. As stipulated earlier, OVE takes a rather defensive approach here. Quite often, test systems already exist for most functionality you want to develop, at least partly. And you want to re-use them. OVE is able to launch any tests as long as they can execute from prompt. Two files, 'systests' and 'systests-groups' give OVE information about what tests are available and how to execute them:
'systests' is a text file that contains a list of tests. One row is one test:
- name: unique identifier for the test
- timeout: time in seconds when the test should finish. 0 = no timeout.
- type:
- 0 = 00b = run in fg
- 1 = 01b = run in fg and abort test suite on errors
- 2 = 10b = run in bg
- 3 = 11b = run in bg and abort test suite on errors
- path: where to execute the test (either relative to OVE_BASE_DIR or an absolute path)
- command: command(s) to execute
Example:
$ cat systests
# name timeout (s) type path command
# ----------------------------------------------
t1 5 0 repoX sleep 4
t2 1 0 . sleep 2
t3 3600 0 repoY ./long-duration-test
t4 3 0 $HOME echo hellu $LOGNAME; ls -l; whoami
t5 3 0 /tmp pwd
'systests-groups' is a YAML file that contains groups/sets of tests. Example:
$ cat systests-groups
all:
- t1
- t2
- t3
sanity:
- t1
Using the above structure, you would be able to execute either one test (t1, t2 or t3), a series of them (t1 t2) or a test group ("all" or "sanity"). Asking ove what test are available in this case would look like this:
$ ove list-systests
all
sanity
t1
t2
t3
That's it for system tests! Now lets go ahead and look at plugins:
As discussed in the Overview, in most larger projects there is a strong need for flexibility when it comes to what a developer or CI/CD machinery wants to be able to do with it. To accommodate these needs, OVE provides a way of extending the OVE command list with customized commands. We call them plugins, and they can be exposed to your OVE project in three ways: From your workspace, from your OWEL (top repo) or from any repo included in the revtab. What are they really then? They are executables, optionally accompanied with a help text and/or a tab completion script. OVE looks for plugins at the following locations:
$OVE_OWEL_DIR/scripts/
<all repositories>/.ove/scripts/
Any executable found in any of these locations will become an OVE command. And provided that tab completion scripts and help texts exist at the same location, they will also be part of the OVE help and support tab completion for their arguments.
If you are using a plugin that reads from stdin AND you need this plugin within a pipe, please use this construct:
echo foo | ove-bar
We now covered the four main functionality areas of OVE. Next we will go through how to make life easy for developers or CI/CD machines when it comes to setting up an OVE project:
An existing OVE project is typically setup (or downloaded if you will) by the developer or CI/CD machine using the following oneliner:
curl -sSL https://raw.githubusercontent.com/Ericsson/ove/master/setup | bash -s <name> <OWEL>
- name: Path to the OVE workspace.
- OWEL: URL of the top git repository
The setup script will do two things:
- create the 'name' directory at your current location
- clone the OVE (ove itself) and OWEL (top repo) git repos
The 'setup' script will then urge the developer to enter the OVE workspace directory and run
source ove
Doing this, OVE will check that you have the required programs installed on your machine and prompt for installation otherwise. This is the current list:
- bash (>=4.3)
- bzip2
- column
- file
- flock
- git (>=1.8.5)
- gzip
- ld
- less
- pgrep
- script
- tar
- tsort
OVE is also dependent on 'sed/grep/tail/awk/...' but they are not checked for since it is quite uncommon to lack these. To unlock all OVE features you also need:
- ag
- convert
- dig
- dot
- ffmpeg
- fzf
- graph-easy
- inotifywait
- jp2a
- incus
- locate
- lxc
- make
- md5deep
- recordmydesktop
- rg
- shellcheck
- sshpass
- strace
- task
- tmux
- tsp
- whois
- yamllint
- xdotool
- xpra
Run 'ove list-externals' or check this page for a complete list of commands that OVE is dependent on.
After successfully sourcing OVE, further instructions are given to enter the OVE workspace and fetch the rest of the repos. When the fetch is completed, everything is ready in order for man or machine to start working with the project! For the sake of clarity, lets look at an example:
$ curl -sSL https://raw.githubusercontent.com/Ericsson/ove/master/setup | bash -s abc ssh://github.com/Ericsson/xyz
Cloning into '.ove'...
Cloning into 'xyz'...
...
$ cd abc
$ source ove
OVE [SHA-1: ... @ Ubuntu 19.10]
$ ove fetch
Cloning into 'repoX'...
Cloning into 'repoY'...
...
repoX ## main..origin/main
repoY ## main..origin/stable
.ove ## master..origin/master
Done! As simple as that. Lets give a final example of what an OVE project file structure can look like when ready:
$ tree
├── ove -> .ove/ove
├── .ove/
│ ├── .git/
│ ├── LICENSE
│ ├── ove
│ ├── ove.png
│ ├── README.md
│ ├── scripts/
│ ├── setup
│ ├── tests/
│ └── yex
├── .owel -> xyz/
├── repoX/
│ ├── .git/
│ └── README
├── repoY/
│ ├── .git/
│ └── README
└── xyz/
├── .git/
├── projects/
│ ├── projA/
│ │ ├── bootstrap
│ │ ├── build
│ │ ├── configure
│ │ └── install
│ ├── projB/
│ │ ├── bootstrap
│ │ ├── build
│ │ ├── configure
│ │ └── install
│ ├── projC/
│ │ ├── bootstrap
│ │ ├── build
│ │ ├── configure
│ │ └── install
│ └── common/
│ └── build
├── projs
├── revtab
├── systests
└── systests-groups
Oneliner:
git clone https://github.com/Ericsson/ove.git .ove && source .ove/ove
Example:
# '$HOME/src' has four git repositories
$ cd $HOME/src
$ git clone https://github.com/Ericsson/ove.git .ove && source .ove/ove
...
Directory to scan for git repositories? Leave blank to search in '$HOME/src': [ENTER]
OWEL name? Leave blank to name it 'top': [ENTER]
Scanning '$HOME/src'. #repos: 5
Initialized empty Git repository in $HOME/src/top/.git/
Create example/skeleton files? (y/N) [ENTER]
...
# you now have a OVE workspace in '$HOME/src' that contains six repos: four repos + OVE + OWEL
# try 'ove status'
$ ove status
...
Up until now we covered everything you need to know to get to the point where developers (or machines) can start working with your OVE project. Going through these steps, You might have noticed us mention OVE commands several times. It is time to have a closer look at how they work:
OVE will enhance your bash shell with commands to manage your OVE based project. We divide them into the following categories:
Category | Description | Example |
---|---|---|
BUILD | Build commands | buildme, mrproper |
CORE | High level git commands | status, diff, fetch |
DEBUG | Debug commands | loglevel |
INTERNAL | Internal commands | unittest |
LOG | Show and manipulate logs | l, lastlog |
PLUGIN | Plugins/scripts | |
SEARCH | Search repos | grep, ag, rg |
TEST | Test commands | systest |
UTIL | Utility commands | vi |
OVE implements a subset of the standard git commands as "high level" git commands. These commands executes the corresponding git command on all (or selective) revtab repositories.
- add
- apply
- blame
- branch
- checkout
- commit
- describe
- diff
- fetch
- grep
- pull
- show
- status
- stash
- worktree
This is a list of build related commands:
- buildme / buildme-parallel
- make
- mrproper
The above list will be dynamically populated with project commands found under the "projects/proj/" directories. So, for a "normal" OVE project, these commands are usually also present:
- bootstrap
- configure
- build
- install
Note: For each project command there is a "command-parallel" version of that command.
Here's a list (not complete) of a few utility commands:
Command | Description |
---|---|
forall/forall-parallel | run an arbitrary command for all git repositories |
forowel/forowel-parallel | run an arbitrary command in all OVE workspaces on the host |
locate | list OVE workspaces on this host |
news | view upstream news for each git repository |
cd | switch to another OVE workspace |
vi | open all modified files in 'vi' |
Please find the full command reference here
Each OVE command can be invoked using three different methods: normal, quick or queue. The table below tries to explain the differencies on a few aspects.
method | performance impact | hooks | log | debug | example |
---|---|---|---|---|---|
normal | yes | yes | yes | yes | ove ls-files |
quick | no | no | no | no | ove-ls-files |
queue | yes | yes | yes | no | OVE_BATCH_IT=1 ove ls-files |
Example:
# method: normal
#
# ls-files command can take a while
$ time ove ls-files
...
real 0m2,011s
# the output (and input) of the ls-files command is saved and you can use LOG commands to view or replay the output
$ ove list-commands LOG
...
# run strace in background and filter on all execve calls
# ove loglevel 3
$ ove ls-files
...
# method: quick
#
# ls-files using the quick invocation method
$ time ove-ls-files
...
real 0m0,949s
# method: queue
#
# queue the ls-files command, the command will silently be run in background
$ time OVE_BATCH_IT=1 ove ls-files
0
real 0m0,193 s
# check task spooler status
$ ove ts
...
Configurable OVE commands can be found here
A list of OVE environment variables that will remain stable across OVE versions can be found here.
OVE has been tested for the following Linux distributions:
Distribution | Release(s) |
---|---|
AlmaLinux | 9.1 |
Alpine Linux | 3.15..3.20 |
Arch Linux | N/A |
Debian | Buster, Bullseye, Bookworm |
Devuan | Beowulf, Chimaera, Daedalus |
Fedora | 36..40 |
Kali | N/A |
Linux Mint | Uma..Virginia |
openSUSE Tumbleweed | N/A |
Ubuntu | 16.04..24.04 |
Void Linux | N/A |
Want to know more about OVE? Please check out the OVE tutorial or ask OVE:
ove help