5b3f79d4bb
I was looking at this code in prep for "staging" deployments, and there are several cleanups to be made here. The first thing I noticed is that we look for the `ostree=` kernel argument, but the presence of that should be exactly equivalent to having `/run/ostree-booted` exist. We just added a member variable for that, so let's make use of it. Related to this, we were erroring out if we had the karg but didn't find a deployment. But this can happen if e.g. one is using `ostree admin --sysroot` from an ostree-booted system! It's actually a bit surprising no one has reported this so far; I guess in the end people are either using non-ostree systems or running from containers. Let's add a member variable `root_is_sysroot` that we can use to determine if we're looking at `/`. Then, our more precise "should find a booted deployment" state is when both `ostree_booted` and `root_is_sysroot` are TRUE. Next, rather than walking all of the deployments after parsing, we can inline the `fstatat()` while parsing. The mild ugly thing about this is assigning to the sysroot member variable while parsing, but I will likely clean that up later, just wanted to avoid rewriting everything in one go. Closes: #1497 Approved by: jlebon |
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| apidoc | ||
| bash | ||
| bsdiff@1edf9f6568 | ||
| build-aux | ||
| buildutil | ||
| ci | ||
| coccinelle | ||
| docs | ||
| libglnx@96b1fd9578 | ||
| man | ||
| manual-tests | ||
| rust | ||
| src | ||
| tests | ||
| .dir-locals.el | ||
| .editorconfig | ||
| .gitmodules | ||
| .papr.yml | ||
| .travis.yml | ||
| .vimrc | ||
| CONTRIBUTING.md | ||
| COPYING | ||
| GNUmakefile | ||
| Makefile-bash.am | ||
| Makefile-boot.am | ||
| Makefile-decls.am | ||
| Makefile-libostree-defines.am | ||
| Makefile-libostree.am | ||
| Makefile-man.am | ||
| Makefile-ostree.am | ||
| Makefile-otutil.am | ||
| Makefile-switchroot.am | ||
| Makefile-tests.am | ||
| Makefile.am | ||
| README-historical.md | ||
| README.md | ||
| TODO | ||
| autogen.sh | ||
| cfg.mk | ||
| configure.ac | ||
| git.mk | ||
| maint.mk | ||
| mkdocs.yml | ||
| ostree.doap | ||
README.md
libostree
New! See the docs online at Read The Docs (OSTree)
This project is now known as "libostree", though it is still appropriate to use the previous name: "OSTree" (or "ostree"). The focus is on projects which use libostree's shared library, rather than users directly invoking the command line tools (except for build systems). However, in most of the rest of the documentation, we will use the term "OSTree", since it's slightly shorter, and changing all documentation at once is impractical. We expect to transition to the new name over time.
As implied above, libostree is both a shared library and suite of command line tools that combines a "git-like" model for committing and downloading bootable filesystem trees, along with a layer for deploying them and managing the bootloader configuration.
The core OSTree model is like git in that it checksums individual files and has a content-addressed-object store. It's unlike git in that it "checks out" the files via hardlinks, and they should thus be immutable. Therefore, another way to think of OSTree is that it's just a more polished version of Linux VServer hardlinks.
Features:
- Transactional upgrades and rollback for the system
- Replicating content incrementally over HTTP via GPG signatures and "pinned TLS" support
- Support for parallel installing more than just 2 bootable roots
- Binary history on the server side (and client)
- Introspectable shared library API for build and deployment systems
- Flexible support for multiple branches and repositories, supporting projects like flatpak which use libostree for applications, rather than hosts.
Projects using OSTree
meta-updater is a layer available for OpenEmbedded systems.
QtOTA is Qt's over-the-air update framework which uses libostree.
rpm-ostree is a next-generation hybrid package/image system for Fedora and CentOS, used by the Atomic Host project. By default it uses libostree to atomically replicate a base OS (all dependency resolution is done on the server), but it supports "package layering", where additional RPMs can be layered on top of the base. This brings a "best of both worlds"" model for image and package systems.
flatpak uses libostree for desktop application containers. Unlike most of the other systems here, flatpak does not use the "libostree host system" aspects (e.g. bootloader management), just the "git-like hardlink dedup". For example, flatpak supports a per-user OSTree repository.
Endless OS uses libostree for their host system as well as flatpak. See their eos-updater and deb-ostree-builder projects.
GNOME Continuous is where OSTree was born - as a high performance continuous delivery/testing system for GNOME.
The BuildStream build and integration tool uses libostree as a caching system to store and share built artifacts.
Building
Releases are available as GPG signed git tags, and most recent versions support extended validation using git-evtag.
However, in order to build from a git clone, you must update the submodules. If you're packaging OSTree and want a tarball, I recommend using a "recursive git archive" script. There are several available online; this code in OSTree is an example.
Once you have a git clone or recursive archive, building is the same as almost every autotools project:
git submodule update --init
env NOCONFIGURE=1 ./autogen.sh
./configure --prefix=...
make
make install DESTDIR=/path/to/dest
More documentation
New! See the docs online at Read The Docs (OSTree)
Contributing
See Contributing.
Licensing
The license for the code of libostree can be found in COPYING.
The license for the documentation of libostree is: SPDX-License-Identifier: (CC-BY-SA-3.0 OR GFDL-1.3-or-later)