## Package systems versus image systems Broadly speaking, software update systems for operating systems tend to fall cleanly into one of two camps: package-based or image-based. ### Package system benefits and drawbacks * + Highly dynamic, fast access to wide array of software * + State management in `/etc` and `/var` is well understood * + Can swap between major/minor system states (`apt-get upgrade` is similar to `apt-get dist-upgrade`) * + Generally supports any filesystem or partition layout * - As package set grows, testing becomes combinatorially more expensive * - Live system mutation, no rollbacks ### Image benefits and drawbacks * + Ensures all users are running a known state * + Rollback supported * + Can achieve efficient security via things like [dm-verity](http://lwn.net/Articles/459420/) * - Many image systems have a read-only `/etc`, and writable partitions elsewhere * - Must reboot for updates * - Usually operate at block level, so require fixed partition layout and filesystem * - Many use a "dual root" mode which wastes space and is inflexible * - Often paired with a separate application mechanism, but misses out on things that aren't apps * - Administrators still need to know content inside ## How RPM-OSTree provides a middle ground rpm-ostree in its default mode feels more like image replication, but the underlying architecture allows a lot of package-like flexibility. In this default mode, packages are composed on a server, and clients can replicate that state reliably. For example, if one adds a package on the compose server, clients get it. If one removes a package, it's also removed when clients upgrade. One simple mental model for rpm-ostree is: imagine taking a set of packages on the server side, install them to a chroot, then doing `git commit` on the result. And imagine clients just `git pull -r` from that. What OSTree adds to this picture is support for file uid/gid, extended attributes, handling of bootloader configuration, and merges of `/etc`. To emphasize, replication is at a filesystem level - that means things like SELinux labels and uid/gid mappings are assigned on the server side. On the other hand, rpm-ostree works on top of any Unix filesystem. It will not interfere with any filesystem or block-level snapshots or backups such as LVM or BTRFS. ## Who should use this? Currently, rpm operates on a read-only mode on installed systems; it is not possible to add or remove anything on the client. If this matches your deployment scenario, rpm-ostree is a good choice. Classic examples of this are fixed purpose server farms, "corporate standard build" laptop/desktops, and embedded devices. Of course, one can pair it with a dynamic application mechanism such as [Docker](https://www.docker.com/), and have a reliable base, with a flexible application tool. This is the rationale behind [Project Atomic](http://www.projectatomic.io/). ## Is it worth supporting composes both on client and server? In short, our belief is yes. Long term, rpm-ostree offers a potential unified tooling via package layering.