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288 lines
14 KiB
Markdown
288 lines
14 KiB
Markdown
---
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title: Portable Services Introduction
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category: Concepts
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layout: default
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---
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# Portable Services Introduction
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This systemd version includes a preview of the "portable service"
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concept. "Portable Services" are supposed to be an incremental improvement over
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traditional system services, making two specific facets of container management
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available to system services more readily. Specifically:
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1. The bundling of applications, i.e. packing up multiple services, their
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binaries and all their dependencies in a single image, and running them
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directly from it.
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2. Stricter default security policies, i.e. sand-boxing of applications.
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The primary tool for interfacing with "portable services" is the new
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"portablectl" program. It's currently shipped in /usr/lib/systemd/portablectl
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(i.e. not in the `$PATH`), since it's not yet considered part of the officially
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supported systemd interfaces — it's a preview still after all.
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Portable services don't bring anything inherently new to the table. All they do
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is put together known concepts in a slightly nicer way to cover a specific set
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of use-cases in a nicer way.
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## So, what *is* a "Portable Service"?
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A portable service is ultimately just an OS tree, either inside of a directory
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tree, or inside a raw disk image containing a Linux file system. This tree is
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called the "image". It can be "attached" or "detached" from the system. When
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"attached" specific systemd units from the image are made available on the host
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system, then behaving pretty much exactly like locally installed system
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services. When "detached" these units are removed again from the host, leaving
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no artifacts around (except maybe messages they might have logged).
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The OS tree/image can be created with any tool of your choice. For example, you
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can use `dnf --installroot=` if you like, or `debootstrap`, the image format is
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entirely generic, and doesn't have to carry any specific metadata beyond what
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distribution images carry anyway. Or to say this differently: the image format
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doesn't define any new metadata as unit files and OS tree directories or disk
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images are already sufficient, and pretty universally available these days. One
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particularly nice tool for creating suitable images is
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[mkosi](https://github.com/systemd/mkosi), but many other existing tools will
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do too.
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If you so will, "Portable Services" are a nicer way to manage chroot()
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environments, with better security, tooling and behavior.
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## Where's the difference to a "Container"?
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"Container" is a very vague term, after all it is used for
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systemd-nspawn/LXC-type OS containers, for Docker/rkt-like micro service
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containers, and even certain 'lightweight' VM runtimes.
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The "portable service" concept ultimately will not provide a fully isolated
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environment to the payload, like containers mostly intend to. Instead they are
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from the beginning more alike regular system services, can be controlled with
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the same tools, are exposed the same way in all infrastructure and so on. Their
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main difference is that the use a different root directory than the rest of the
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system. Hence, the intention is not to run code in a different, isolated world
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from the host — like most containers would do it —, but to run it in the same
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world, but with stricter access controls on what the service can see and do.
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As one point of differentiation: as programs run as "portable services" are
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pretty much regular system services, they won't run as PID 1 (like Docker would
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do it), but as normal process. A corollary of that is that they aren't supposed
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to manage anything in their own environment (such as the network) as the
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execution environment is mostly shared with the rest of the system.
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The primary focus use-case of "portable services" is to extend the host system
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with encapsulated extensions, but provide almost full integration with the rest
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of the system, though possibly restricted by effective security knobs. This
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focus includes system extensions otherwise sometimes called "super-privileged
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containers".
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Note that portable services are only available for system services, not for
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user services. i.e. the functionality cannot be used for the stuff
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bubblewrap/flatpak is focusing on.
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## Mode of Operation
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If you have portable service image, maybe in a raw disk image called
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`foobar_0.7.23.raw`, then attaching the services to the host is as easy as:
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```
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# /usr/lib/systemd/portablectl attach foobar_0.7.23.raw
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```
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This command does the following:
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1. It dissects the image, checks and validates the `/etc/os-release`
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(or `/usr/lib/os-release`, see below) data of the image, and looks for
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all included unit files.
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2. It copies out all unit files with a suffix of `.service`, `.socket`,
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`.target`, `.timer` and `.path`. whose name begins with the image's name
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(with the .raw removed), truncated at the first underscore (if there is
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one). This prefix name generated from the image name must be followed by a
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".", "-" or "@" character in the unit name. Or in other words, given the
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image name of `foobar_0.7.23.raw` all unit files matching
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`foobar-*.{service|socket|target|timer|path}`,
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`foobar@.{service|socket|target|timer|path}` as well as
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`foobar.*.{service|socket|target|timer|path}` and
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`foobar.{service|socket|target|timer|path}` are copied out. These unit files
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are placed in `/etc/systemd/system.attached/` (which is part of the normal
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unit file search path of PID 1, and thus loaded exactly like regular unit
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files). Within the images the unit files are looked for at the usual
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locations, i.e. in `/usr/lib/systemd/system/` and `/etc/systemd/system/` and
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so on, relative to the image's root.
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3. For each such unit file a drop-in file is created. Let's say
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`foobar-waldo.service` was one of the unit files copied to
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`/etc/systemd/system.attached/`, then a drop-in file
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`/etc/systemd/system.attached/foobar-waldo.service.d/20-portable.conf` is
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created, containing a few lines of additional configuration:
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```
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[Service]
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RootImage=/path/to/foobar.raw
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Environment=PORTABLE=foobar
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LogExtraFields=PORTABLE=foobar
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```
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4. For each such unit a "profile" drop-in is linked in. This "profile" drop-in
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generally contains security options that lock down the service. By default
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the `default` profile is used, which provides a medium level of
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security. There's also `trusted` which runs the service at the highest
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privileges, i.e. host's root and everything. The `strict` profile comes with
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the toughest security restrictions. Finally, `nonetwork` is like `default`
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but without network access. Users may define their own profiles too (or
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modify the existing ones)
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And that's already it.
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Note that the images need to stay around (and the same location) as long as the
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portable service is attached. If an image is moved, the `RootImage=` line
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written to the unit drop-in would point to an non-existing place, and break the
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logic.
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The `portablectl detach` command executes the reverse operation: it looks for
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the drop-ins and the unit files associated with the image, and removes them
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again.
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Note that `portable attach` won't enable or start any of the units it copies
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out. This still has to take place in a second, separate step. (That said We
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might add options to do this automatically later on.).
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## Requirements on Images
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Note that portable services don't introduce any new image format, but most OS
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images should just work the way they are. Specifically, the following
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requirements are made for an image that can be attached/detached with
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`portablectl`.
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1. It must contain an executable that shall be invoked, along with all its
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dependencies. If binary code, the code needs to be compiled for an
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architecture compatible with the host.
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2. The image must either be a plain sub-directory (or btrfs subvolume)
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containing the binaries and its dependencies in a classic Linux OS tree, or
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must be a raw disk image either containing only one, naked file system, or
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an image with a partition table understood by the Linux kernel with only a
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single partition defined, or alternatively, a GPT partition table with a set
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of properly marked partitions following the [Discoverable Partitions
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Specification](https://systemd.io/DISCOVERABLE_PARTITIONS).
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3. The image must at least contain one matching unit file, with the right name
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prefix and suffix (see above). The unit file is searched in the usual paths,
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i.e. primarily /etc/systemd/system/ and /usr/lib/systemd/system/ within the
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image. (The implementation will check a couple of other paths too, but it's
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recommended to use these two paths.)
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4. The image must contain an os-release file, either in `/etc/os-release` or
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`/usr/lib/os-release`. The file should follow the standard format.
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5. The image must contain the files `/etc/resolv.conf` and `/etc/machine-id`
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(empty files are ok), they will be bind mounted from the host at runtime.
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6. The image must contain directories `/proc/`, `/sys/`, `/dev/`, `/run/`,
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`/tmp/`, `/var/tmp/` that can be mounted over with the corresponding version
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from the host.
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7. The OS might require other files or directories to be in place. For example,
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if the image is built based on glibc, the dynamic loader needs to be
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available in `/lib/ld-linux.so.2` or `/lib64/ld-linux-x86-64.so.2` (or
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similar, depending on architecture), and if the distribution implements a
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merged `/usr/` tree, this means `/lib` and/or `/lib64` need to be symlinks
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to their respective counterparts below `/usr/`. For details see your
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distribution's documentation.
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Note that images created by tools such as `debootstrap`, `dnf --installroot=`
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or `mkosi` generally qualify for all of the above in one way or another. If you
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wonder what the most minimal image would be that complies with the requirements
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above, it could consist of this:
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```
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/usr/bin/minimald # a statically compiled binary
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/usr/lib/systemd/system/minimal-test.service # the unit file for the service, with ExecStart=/usr/bin/minimald
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/usr/lib/os-release # an os-release file explaining what this is
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/etc/resolv.conf # empty file to mount over with host's version
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/etc/machine-id # ditto
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/proc/ # empty directory to use as mount point for host's API fs
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/sys/ # ditto
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/dev/ # ditto
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/run/ # ditto
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/tmp/ # ditto
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/var/tmp/ # ditto
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```
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And that's it.
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Note that qualifying images do not have to contain an init system of their
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own. If they do, it's fine, it will be ignored by the portable service logic,
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but they generally don't have to, and it might make sense to avoid any, to keep
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images minimal.
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If the image is writable, and some of the files or directories that are
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overmounted from the host do not exist yet they are automatically created. On
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read-only, immutable images (e.g. squashfs images) all files and directories to
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over-mount must exist already.
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Note that as no new image format or metadata is defined, it's very
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straight-forward to define images than can be made use of it a number of
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different ways. For example, by using `mkosi -b` you can trivially build a
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single, unified image that:
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1. Can be attached as portable service, to run any container services natively
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on the host.
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2. Can be run as OS container, using `systemd-nspawn`, by booting the image
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with `systemd-nspawn -i -b`.
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3. Can be booted directly as VM image, using a generic VM executor such as
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`virtualbox`/`qemu`/`kvm`
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4. Can be booted directly on bare-metal systems.
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Of course, to facilitate 2, 3 and 4 you need to include an init system in the
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image. To facility 3 and 4 you also need to include a boot loader in the
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image. As mentioned `mkosi -b` takes care of all of that for you, but any other
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image generator should work too.
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## Execution Environment
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Note that the code in portable service images is run exactly like regular
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services. Hence there's no new execution environment to consider. Oh, unlike
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Docker would do it, as these are regular system services they aren't run as PID
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1 either, but with regular PID values.
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## Access to host resources
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If services shipped with this mechanism shall be able to access host resources
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(such as files or AF_UNIX sockets for IPC), use the normal `BindPaths=` and
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`BindReadOnlyPaths=` settings in unit files to mount them in. In fact the
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`default` profile mentioned above makes use of this to ensure
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`/etc/resolv.conf`, the D-Bus system bus socket or write access to the logging
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subsystem are available to the service.
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## Instantiation
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Sometimes it makes sense to instantiate the same set of services multiple
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times. The portable service concept does not introduce a new logic for this. It
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is recommended to use the regular unit templating of systemd for this, i.e. to
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include template units such as `foobar@.service`, so that instantiation is as
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simple as:
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```
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# /usr/lib/systemd/portablectl attach foobar_0.7.23.raw
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# systemctl enable --now foobar@instancea.service
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# systemctl enable --now foobar@instanceb.service
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…
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```
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The benefit of this approach is that templating works exactly the same for
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units shipped with the OS itself as for attached portable services.
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## Immutable images with local data
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It's a good idea to keep portable service images read-only during normal
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operation. In fact all but the `trusted` profile will default to this kind of
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behaviour, by setting the `ProtectSystem=strict` option. In this case writable
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service data may be placed on the host file system. Use `StateDirectory=` in
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the unit files to enable such behaviour and add a local data directory to the
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services copied onto the host.
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