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File systems with only 16bit UID support (i.e. old ext2) also use the overflowuid to map users they can't map. Briefly mention this.
244 lines
13 KiB
Markdown
244 lines
13 KiB
Markdown
# Users, Groups, UIDs and GIDs on `systemd` systems
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Here's a summary of the requirements `systemd` (and Linux) make on UID/GID
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assignments and their ranges.
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Note that while in theory UIDs and GIDs are orthogonal concepts they really
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aren't IRL. With that in mind, when we discuss UIDs below it should be assumed
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that whatever we say about UIDs applies to GIDs in mostly the same way, and all
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the special assignments and ranges for UIDs always have mostly the same
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validity for GIDs too.
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## Special Linux UIDs
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In theory, the range of the C type `uid_t` is 32bit wide on Linux,
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i.e. 0…4294967295. However, four UIDs are special on Linux:
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1. 0 → The `root` super-user
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2. 65534 → The `nobody` UID, also called the "overflow" UID or similar. It's
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where various subsystems map unmappable users to, for example file systems
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only supporting 16bit UIDs, NFS or user namespacing. (The latter can be
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changed with a sysctl during runtime, but that's not supported on
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`systemd`. If you do change it you void your warranty.) Because Fedora is a
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bit confused the `nobody` user is called `nfsnobody` there (and they have a
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different `nobody` user at UID 99). I hope this will be corrected eventually
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though. (Also, some distributions call the `nobody` group `nogroup`. I wish
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they didn't.)
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3. 4294967295, aka "32bit `(uid_t) -1`" → This UID is not a valid user ID, as
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`setresuid()`, `chown()` and friends treat -1 as a special request to not
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change the UID of the process/file. This UID is hence not available for
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assignment to users in the user database.
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4. 65535, aka "16bit `(uid_t) -1`" → Before Linux kernel 2.4 `uid_t` used to be
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16bit, and programs compiled for that would hence assume that `(uid_t) -1`
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is 65535. This UID is hence not usable either.
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The `nss-systemd` glibc NSS module will synthesize user database records for
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the UIDs 0 and 65534 if the system user database doesn't list them. This means
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that any system where this module is enabled works to some minimal level
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without `/etc/passwd`.
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## Special Distribution UID ranges
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Distributions generally split the available UID range in two:
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1. 1…999 → System users. These are users that do not map to actual "human"
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users, but are used as security identities for system daemons, to implement
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privilege separation and run system daemons with minimal privileges.
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2. 1000…65533 and 65536…4294967294 → Everything else, i.e. regular (human) users.
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Note that most distributions allow changing the boundary between system and
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regular users, even during runtime as user configuration. Moreover, some older
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systems placed the boundary at 499/500, or even 99/100. In `systemd`, the
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boundary is configurable only during compilation time, as this should be a
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decision for distribution builders, not for users. Moreover, we strongly
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discourage downstreams to change the boundary from the upstream default of
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999/1000.
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Also note that programs such as `adduser` tend to allocate from a subset of the
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available regular user range only, usually 1000..60000. And it's also usually
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user-configurable, too.
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Note that systemd requires that system users and groups are resolvable without
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networking available — a requirement that is not made for regular users. This
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means regular users may be stored in remote LDAP or NIS databases, but system
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users may not (except when there's a consistent local cache kept, that is
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available during earliest boot, including in the initial RAM disk).
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## Special `systemd` GIDs
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`systemd` defines no special UIDs beyond what Linux already defines (see
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above). However, it does define some special group/GID assignments, which are
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primarily used for `systemd-udevd`'s device management. The precise list of the
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currently defined groups is found in this `sysusers.d` snippet:
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[basic.conf](https://raw.githubusercontent.com/systemd/systemd/master/sysusers.d/basic.conf.in)
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It's strongly recommended that downstream distributions include these groups in
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their default group databases.
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Note that the actual GID numbers assigned to these groups do not have to be
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constant beyond a specific system. There's one exception however: the `tty`
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group must have the GID 5. That's because it must be encoded in the `devpts`
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mount parameters during earliest boot, at a time where NSS lookups are not
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possible. (Note that the actual GID can be changed during `systemd` build time,
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but downstreams are strongly advised against doing that.)
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## Special `systemd` UID ranges
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`systemd` defines a number of special UID ranges:
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1. 61184…65519 → UIDs for dynamic users are allocated from this range (see the
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`DynamicUser=` documentation in
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[`systemd.exec(5)`](https://www.freedesktop.org/software/systemd/man/systemd.exec.html)). This
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range has been chosen so that it is below the 16bit boundary (i.e. below
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65535), in order to provide compatibility with container environments that
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assign a 64K range of UIDs to containers using user namespacing. This range
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is above the 60000 boundary, so that its allocations are unlikely to be
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affected by `adduser` allocations (see above). And we leave some room
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upwards for other purposes. (And if you wonder why precisely these numbers:
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if you write them in hexadecimal, they might make more sense: 0xEF00 and
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0xFFEF). The `nss-systemd` module will synthesize user records implicitly
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for all currently allocated dynamic users from this range. Thus, NSS-based
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user record resolving works correctly without those users being in
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`/etc/passwd`.
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2. 524288…1879048191 → UID range for `systemd-nspawn`'s automatic allocation of
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per-container UID ranges. When the `--private-users=pick` switch is used (or
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`-U`) then it will automatically find a so far unused 16bit subrange of this
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range and assign it to the container. The range is picked so that the upper
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16bit of the 32bit UIDs are constant for all users of the container, while
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the lower 16bit directly encode the 65536 UIDs assigned to the
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container. This mode of allocation means that the upper 16bit of any UID
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assigned to a container are kind of a "container ID", while the lower 16bit
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directly expose the container's own UID numbers. If you wonder why precisely
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these numbers, consider them in hexadecimal: 0x00080000…0x6FFFFFFF. This
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range is above the 16bit boundary. Moreover it's below the 31bit boundary,
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as some broken code (specifically: the kernel's `devpts` file system)
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erroneously considers UIDs signed integers, and hence can't deal with values
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above 2^31. The `nss-mymachines` glibc NSS module will synthesize user
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database records for all UIDs assigned to a running container from this
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range.
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Note for both allocation ranges: when an UID allocation takes place NSS is
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checked for collisions first, and a different UID is picked if an entry is
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found. Thus, the user database is used as synchronization mechanism to ensure
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exclusive ownership of UIDs and UID ranges. To ensure compatibility with other
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subsystems allocating from the same ranges it is hence essential that they
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ensure that whatever they pick shows up in the user/group databases, either by
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providing an NSS module, or by adding entries directly to `/etc/passwd` and
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`/etc/group`. For performance reasons, do note that `systemd-nspawn` will only
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do an NSS check for the first UID of the range it allocates, not all 65536 of
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them. Also note that while the allocation logic is operating, the glibc
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`lckpwdf()` user database lock is taken, in order to make this logic race-free.
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## Figuring out the system's UID boundaries
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The most important boundaries of the local system may be queried with
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`pkg-config`:
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```
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$ pkg-config --variable=systemuidmax systemd
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999
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$ pkg-config --variable=dynamicuidmin systemd
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61184
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$ pkg-config --variable=dynamicuidmax systemd
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65519
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$ pkg-config --variable=containeruidbasemin systemd
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524288
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$ pkg-config --variable=containeruidbasemax systemd
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1878982656
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```
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(Note that the latter encodes the maximum UID *base* `systemd-nspawn` might
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pick — given that 64K UIDs are assigned to each container according to this
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allocation logic, the maximum UID used for this range is hence
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1878982656+65535=1879048191.)
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Note that systemd does not make any of these values runtime-configurable. All
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these boundaries are chosen during build time. That said, the system UID/GID
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boundary is traditionally configured in /etc/login.defs, though systemd won't
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look there during runtime.
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## Considerations for container managers
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If you hack on a container manager, and wonder how and how many UIDs best to
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assign to your containers, here are a few recommendations:
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1. Definitely, don't assign less than 65536 UIDs/GIDs. After all the `nobody`
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user has magic properties, and hence should be available in your container, and
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given that it's assigned the UID 65534, you should really cover the full 16bit
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range in your container. Note that systemd will — as mentioned — synthesize
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user records for the `nobody` user, and assumes its availability in various
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other parts of its codebase, too, hence assigning fewer users means you lose
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compatibility with running systemd code inside your container. And most likely
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other packages make similar restrictions.
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2. While it's fine to assign more than 65536 UIDs/GIDs to a container, there's
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most likely not much value in doing so, as Linux distributions won't use the
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higher ranges by default (as mentioned neither `adduser` nor `systemd`'s
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dynamic user concept allocate from above the 16bit range). Unless you actively
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care for nested containers, it's hence probably a good idea to allocate exactly
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65536 UIDs per container, and neither less nor more. A pretty side-effect is
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that by doing so, you expose the same number of UIDs per container as Linux 2.2
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supported for the whole system, back in the days.
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3. Consider allocating UID ranges for containers so that the first UID you
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assign has the lower 16bits all set to zero. That way, the upper 16bits become
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a container ID of some kind, while the lower 16bits directly encode the
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internal container UID. This is the way `systemd-nspawn` allocates UID ranges
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(see above). Following this allocation logic ensures best compability with
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`systemd-nspawn` and all other container managers following the scheme, as it
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is sufficient then to check NSS for the first UID you pick regarding conflicts,
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as that's what they do, too. Moreover, it makes `chown()`ing container file
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system trees nicely robust to interruptions: as the external UID encodes the
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internal UID in a fixed way, it's very easy to adjust the container's base UID
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without the need to know the original base UID: to change the container base,
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just mask away the upper 16bit, and insert the upper 16bit of the new container
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base instead. Here are the easy conversions to derive the internal UID, the
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external UID, and the container base UID from each other:
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```
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INTERNAL_UID = EXTERNAL_UID & 0x0000FFFF
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CONTAINER_BASE_UID = EXTERNAL_UID & 0xFFFF0000
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EXTERNAL_UID = INTERNAL_UID | CONTAINER_BASE_UID
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```
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4. When picking a UID range for containers, make sure to check NSS first, with
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a simple `getpwuid()` call: if there's already a user record for the first UID
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you want to pick, then it's already in use: pick a different one. Wrap that
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call in a `lckpwdf()` + `ulckpwdf()` pair, to make allocation
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race-free. Provide an NSS module that makes all UIDs you end up taking show up
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in the user database, and make sure that the NSS module returns up-to-date
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information before you release the lock, so that other system components can
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safely use the NSS user database as allocation check, too. Note that if you
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follow this scheme no changes to `/etc/passwd` need to be made, thus minimizing
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the artifacts the container manager persistently leaves in the system.
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## Summary
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| UID/GID | Purpose | Defined By | Listed in |
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|-----------------------|-----------------------|---------------|-------------------------------|
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| 0 | `root` user | Linux | `/etc/passwd` + `nss-systemd` |
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| 1…4 | System users | Distributions | `/etc/passwd` |
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| 5 | `tty` group | `systemd` | `/etc/passwd` |
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| 6…999 | System users | Distributions | `/etc/passwd` |
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| 1000…60000 | Regular users | Distributions | `/etc/passwd` + LDAP/NIS/… |
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| 60001…61183 | Unused | | |
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| 61184…65519 | Dynamic service users | `systemd` | `nss-systemd` |
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| 65520…65533 | Unused | | |
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| 65534 | `nobody` user | Linux | `/etc/passwd` + `nss-systemd` |
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| 65535 | 16bit `(uid_t) -1` | Linux | |
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| 65536…524287 | Unused | | |
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| 524288…1879048191 | Container UID ranges | `systemd` | `nss-mymachines` |
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| 1879048192…4294967294 | Unused | | |
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| 4294967295 | 32bit `(uid_t) -1` | Linux | |
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Note that "Unused" in the table above doesn't meant that these ranges are
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really unused. It just means that these ranges have no well-established
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pre-defined purposes between Linux, generic low-level distributions and
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`systemd`. There might very well be other packages that allocate from these
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ranges.
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