mirror of
https://github.com/systemd/systemd.git
synced 2024-11-01 00:51:24 +03:00
243 lines
13 KiB
Markdown
243 lines
13 KiB
Markdown
# Users, Groups, UIDs and GIDs on `systemd` systems
|
|
|
|
Here's a summary of the requirements `systemd` (and Linux) make on UID/GID
|
|
assignments and their ranges.
|
|
|
|
Note that while in theory UIDs and GIDs are orthogonal concepts they really
|
|
aren't IRL. With that in mind, when we discuss UIDs below it should be assumed
|
|
that whatever we say about UIDs applies to GIDs in mostly the same way, and all
|
|
the special assignments and ranges for UIDs always have mostly the same
|
|
validity for GIDs too.
|
|
|
|
## Special Linux UIDs
|
|
|
|
In theory, the range of the C type `uid_t` is 32bit wide on Linux,
|
|
i.e. 0…4294967295. However, four UIDs are special on Linux:
|
|
|
|
1. 0 → The `root` super-user
|
|
|
|
2. 65534 → The `nobody` UID, also called the "overflow" UID or similar. It's
|
|
where various subsystems map unmappable users to, for example NFS or user
|
|
namespacing. (The latter can be changed with a sysctl during runtime, but
|
|
that's not supported on `systemd`. If you do change it you void your
|
|
warranty.) Because Fedora is a bit confused the `nobody` user is called
|
|
`nfsnobody` there (and they have a different `nobody` user at UID 99). I
|
|
hope this will be corrected eventually though. (Also, some distributions
|
|
call the `nobody` group `nogroup`. I wish they didn't.)
|
|
|
|
3. 4294967295, aka "32bit `(uid_t) -1`" → This UID is not a valid user ID, as
|
|
setresuid(), chown() and friends treat -1 as a special request to not change
|
|
the UID of the process/file. This UID is hence not available for assignment
|
|
to users in the user database.
|
|
|
|
4. 65535, aka "16bit `(uid_t) -1`" → Once upon a time `uid_t` used to be 16bit, and
|
|
programs compiled for that would hence assume that `(uid_t) -1` is 65535. This
|
|
UID is hence not usable either.
|
|
|
|
The `nss-systemd` glibc NSS module will synthesize user database records for
|
|
the UIDs 0 and 65534 if the system user database doesn't list them. This means
|
|
that any system where this module is enabled works to some minimal level
|
|
without `/etc/passwd`.
|
|
|
|
## Special Distribution UID ranges
|
|
|
|
Distributions generally split the available UID range in two:
|
|
|
|
1. 1…999 → System users. These are users that do not map to actual "human"
|
|
users, but are used as security identities for system daemons, to implement
|
|
privilege separation and run system daemons with minimal privileges.
|
|
|
|
2. 1000…65533 and 65536…4294967294 → Everything else, i.e. regular (human) users.
|
|
|
|
Note that most distributions allow changing the boundary between system and
|
|
regular users, even during runtime as user configuration. Moreover, some older
|
|
systems placed the boundary at 499/500, or even 99/100. In `systemd`, the
|
|
boundary is configurable only during compilation time, as this should be a
|
|
decision for distribution builders, not for users. Moreover, we strongly
|
|
discourage downstreams to change the boundary from the upstream default of
|
|
999/1000.
|
|
|
|
Also note that programs such as `adduser` tend to allocate from a subset of the
|
|
available regular user range only, usually 1000..60000. And it's also usually
|
|
user-configurable, too.
|
|
|
|
Note that systemd requires that system users and groups are resolvable without
|
|
networking available — a requirement that is not made for regular users. This
|
|
means regular users may be stored in remote LDAP or NIS databases, but system
|
|
users may not (except when there's a consistent local cache kept, that is
|
|
available during earliest boot, including in the initial RAM disk).
|
|
|
|
## Special `systemd` GIDs
|
|
|
|
`systemd` defines no special UIDs beyond what Linux already defines (see
|
|
above). However, it does define some special group/GID assignments, which are
|
|
primarily used for `systemd-udevd`'s device management. The precise list of the
|
|
currently defined groups is found in this `sysusers.d` snippet:
|
|
[basic.conf](https://raw.githubusercontent.com/systemd/systemd/master/sysusers.d/basic.conf.in)
|
|
|
|
It's strongly recommended that downstream distributions include these groups in
|
|
their default group databases.
|
|
|
|
Note that the actual GID numbers assigned to these groups do not have to be
|
|
constant beyond a specific system. There's one exception however: the `tty`
|
|
group must have the GID 5. That's because it must be encoded in the `devpts`
|
|
mount parameters during earliest boot, at a time where NSS lookups are not
|
|
possible. (Note that the actual GID can be changed during `systemd` build time,
|
|
but downstreams are strongly advised against doing that.)
|
|
|
|
## Special `systemd` UID ranges
|
|
|
|
`systemd` defines a number of special UID ranges:
|
|
|
|
1. 61184…65519 → UIDs for dynamic users are allocated from this range (see the
|
|
`DynamicUser=` documentation in
|
|
[`systemd.exec(5)`](https://www.freedesktop.org/software/systemd/man/systemd.exec.html)). This
|
|
range has been chosen so that it is below the 16bit boundary (i.e. below
|
|
65535), in order to provide compatibility with container environments that
|
|
assign a 64K range of UIDs to containers using user namespacing. This range
|
|
is above the 60000 boundary, so that its allocations are unlikely to be
|
|
affected by `adduser` allocations (see above). And we leave some room
|
|
upwards for other purposes. (And if you wonder why precisely these numbers:
|
|
if you write them in hexadecimal, they might make more sense: 0xEF00 and
|
|
0xFFEF). The `nss-systemd` module will synthesize user records implicitly
|
|
for all currently allocated dynamic users from this range. Thus, NSS-based
|
|
user record resolving works correctly without those users being in
|
|
`/etc/passwd`.
|
|
|
|
2. 524288…1879048191 → UID range for `systemd-nspawn`'s automatic allocation of
|
|
per-container UID ranges. When the `--private-users=pick` switch is used (or
|
|
`-U`) then it will automatically find a so far unused 16bit subrange of this
|
|
range and assign it to the container. The range is picked so that the upper
|
|
16bit of the 32bit UIDs are constant for all users of the container, while
|
|
the lower 16bit directly encode the 65536 UIDs assigned to the
|
|
container. This mode of allocation means that the upper 16bit of any UID
|
|
assigned to a container are kind of a "container ID", while the lower 16bit
|
|
directly expose the container's own UID numbers. If you wonder why precisely
|
|
these numbers, consider them in hexadecimal: 0x00080000…0x6FFFFFFF. This
|
|
range is above the 16bit boundary. Moreover it's below the 31bit boundary,
|
|
as some broken code (specifically: the kernel's `devpts` file system)
|
|
erroneously considers UIDs signed integers, and hence can't deal with values
|
|
above 2^31. The `nss-mymachines` glibc NSS module will synthesize user
|
|
database records for all UIDs assigned to a running container from this
|
|
range.
|
|
|
|
Note for both allocation ranges: when an UID allocation takes place NSS is
|
|
checked for collisions first, and a different UID is picked if an entry is
|
|
found. Thus, the user database is used as synchronization mechanism to ensure
|
|
exclusive ownership of UIDs and UID ranges. To ensure compatibility with other
|
|
subsystems allocating from the same ranges it is hence essential that they
|
|
ensure that whatever they pick shows up in the user/group databases, either by
|
|
providing an NSS module, or by adding entries directly to `/etc/passwd` and
|
|
`/etc/group`. For performance reasons, do note that `systemd-nspawn` will only
|
|
do an NSS check for the first UID of the range it allocates, not all 65536 of
|
|
them. Also note that while the allocation logic is operating, the glibc
|
|
`lckpwdf()` user database lock is taken, in order to make this logic race-free.
|
|
|
|
## Figuring out the system's UID boundaries
|
|
|
|
The most important boundaries of the local system may be queried with
|
|
`pkg-config`:
|
|
|
|
```
|
|
$ pkg-config --variable=systemuidmax systemd
|
|
999
|
|
$ pkg-config --variable=dynamicuidmin systemd
|
|
61184
|
|
$ pkg-config --variable=dynamicuidmax systemd
|
|
65519
|
|
$ pkg-config --variable=containeruidbasemin systemd
|
|
524288
|
|
$ pkg-config --variable=containeruidbasemax systemd
|
|
1878982656
|
|
```
|
|
|
|
(Note that the latter encodes the maximum UID *base* `systemd-nspawn` might
|
|
pick — given that 64K UIDs are assigned to each container according to this
|
|
allocation logic, the maximum UID used for this range is hence
|
|
1878982656+65535=1879048191.)
|
|
|
|
Note that systemd does not make any of these values runtime-configurable. All
|
|
these boundaries are chosen during build time. That said, the system UID/GID
|
|
boundary is traditionally configured in /etc/login.defs, though systemd won't
|
|
look there during runtime.
|
|
|
|
## Considerations for container managers
|
|
|
|
If you hack on a container manager, and wonder how and how many UIDs best to
|
|
assign to your containers, here are a few recommendations:
|
|
|
|
1. Definitely, don't assign less than 65536 UIDs/GIDs. After all the `nobody`
|
|
user has magic properties, and hence should be available in your container, and
|
|
given that it's assigned the UID 65534, you should really cover the full 16bit
|
|
range in your container. Note that systemd will — as mentioned — synthesize
|
|
user records for the `nobody` user, and assumes its availability in various
|
|
other parts of its codebase, too, hence assigning fewer users means you lose
|
|
compatibility with running systemd code inside your container. And most likely
|
|
other packages make similar restrictions.
|
|
|
|
2. While it's fine to assign more than 65536 UIDs/GIDs to a container, there's
|
|
most likely not much value in doing so, as Linux distributions won't use the
|
|
higher ranges by default (as mentioned neither `adduser` nor `systemd`'s
|
|
dynamic user concept allocate from above the 16bit range). Unless you actively
|
|
care for nested containers, it's hence probably a good idea to allocate exactly
|
|
65536 UIDs per container, and neither less nor more. A pretty side-effect is
|
|
that by doing so, you expose the same number of UIDs per container as Linux 2.2
|
|
supported for the whole system, back in the days.
|
|
|
|
3. Consider allocating UID ranges for containers so that the first UID you
|
|
assign has the lower 16bits all set to zero. That way, the upper 16bits become
|
|
a container ID of some kind, while the lower 16bits directly encode the
|
|
internal container UID. This is the way `systemd-nspawn` allocates UID ranges
|
|
(see above). Following this allocation logic ensures best compability with
|
|
`systemd-nspawn` and all other container managers following the scheme, as it
|
|
is sufficient then to check NSS for the first UID you pick regarding conflicts,
|
|
as that's what they do, too. Moreover, it makes `chown()`ing container file
|
|
system trees nicely robust to interruptions: as the external UID encodes the
|
|
internal UID in a fixed way, it's very easy to adjust the container's base UID
|
|
without the need to know the original base UID: to change the container base,
|
|
just mask away the upper 16bit, and insert the upper 16bit of the new container
|
|
base instead. Here are the easy conversions to derive the internal UID, the
|
|
external UID, and the container base UID from each other:
|
|
|
|
```
|
|
INTERNAL_UID = EXTERNAL_UID & 0x0000FFFF
|
|
CONTAINER_BASE_UID = EXTERNAL_UID & 0xFFFF0000
|
|
EXTERNAL_UID = INTERNAL_UID | CONTAINER_BASE_UID
|
|
```
|
|
|
|
4. When picking a UID range for containers, make sure to check NSS first, with
|
|
a simple `getpwuid()` call: if there's already a user record for the first UID
|
|
you want to pick, then it's already in use: pick a different one. Wrap that
|
|
call in a `lckpwdf()` + `ulckpwdf()` pair, to make allocation
|
|
race-free. Provide an NSS module that makes all UIDs you end up taking show up
|
|
in the user database, and make sure that the NSS module returns up-to-date
|
|
information before you release the lock, so that other system components can
|
|
safely use the NSS user database as allocation check, too. Note that if you
|
|
follow this scheme no changes to `/etc/passwd` need to be made, thus minimizing
|
|
the artifacts the container manager persistently leaves in the system.
|
|
|
|
## Summary
|
|
|
|
| UID/GID | Purpose | Defined By | Listed in |
|
|
|-----------------------|-----------------------|---------------|-------------------------------|
|
|
| 0 | `root` user | Linux | `/etc/passwd` + `nss-systemd` |
|
|
| 1…4 | System users | Distributions | `/etc/passwd` |
|
|
| 5 | `tty` group | `systemd` | `/etc/passwd` |
|
|
| 6…999 | System users | Distributions | `/etc/passwd` |
|
|
| 1000…60000 | Regular users | Distributions | `/etc/passwd` + LDAP/NIS/… |
|
|
| 60001…61183 | Unused | | |
|
|
| 61184…65519 | Dynamic service users | `systemd` | `nss-systemd` |
|
|
| 65520…65533 | Unused | | |
|
|
| 65534 | `nobody` user | Linux | `/etc/passwd` + `nss-systemd` |
|
|
| 65535 | 16bit `(uid_t) -1` | Linux | |
|
|
| 65536…524287 | Unused | | |
|
|
| 524288…1879048191 | Container UID ranges | `systemd` | `nss-mymachines` |
|
|
| 1879048192…4294967294 | Unused | | |
|
|
| 4294967295 | 32bit `(uid_t) -1` | Linux | |
|
|
|
|
Note that "Unused" in the table above doesn't meant that these ranges are
|
|
really unused. It just means that these ranges have no well-established
|
|
pre-defined purposes between Linux, generic low-level distributions and
|
|
`systemd`. There might very well be other packages that allocate from these
|
|
ranges.
|