mirror of
https://github.com/systemd/systemd.git
synced 2024-11-05 06:52:22 +03:00
268 lines
13 KiB
Markdown
268 lines
13 KiB
Markdown
---
|
|
title: User/Group Record Lookup API via Varlink
|
|
category: Interfaces
|
|
layout: default
|
|
---
|
|
|
|
# User/Group Record Lookup API via Varlink
|
|
|
|
JSON User/Group Records (as described in the [JSON User
|
|
Records](https://systemd.io/USER_RECORD) and [JSON Group
|
|
Records](https://systemd.io/GROUP_RECORD) documents) that are defined on the
|
|
local system may be queried with a [Varlink](https://varlink.org/) API. This
|
|
API takes both the role of what
|
|
[`getpwnam(3)`](http://man7.org/linux/man-pages/man3/getpwnam.3.html) and
|
|
related calls are for `struct passwd`, as well as the interfaces modules
|
|
implementing the [glibc Name Service Switch
|
|
(NSS)](https://www.gnu.org/software/libc/manual/html_node/Name-Service-Switch.html)
|
|
expose. Or in other words, it both allows applications to efficiently query
|
|
user/group records from local services, and allows local subsystems to provide
|
|
user/group records efficiently to local applications.
|
|
|
|
This simple API only exposes only three method calls, and requires only a small
|
|
subset of the Varlink functionality.
|
|
|
|
## Why Varlink?
|
|
|
|
The API described in this document is based on a simple subset of the
|
|
mechanisms described by [Varlink](https://varlink.org/). The choice of
|
|
preferring Varlink over D-Bus and other IPCs in this context was made for three
|
|
reasons:
|
|
|
|
1. User/Group record resolution should work during early boot and late shutdown
|
|
without special handling. This is very hard to do with D-Bus, as the broker
|
|
service for D-Bus generally runs as regular system daemon and is hence only
|
|
available at the latest boot stage.
|
|
|
|
2. The JSON user/group records are native JSON data, hence picking an IPC
|
|
system that natively operates with JSON data is natural and clean.
|
|
|
|
3. IPC systems such as D-Bus do not provide flow control and are thus unusable
|
|
for streaming data. They are useful to pass around short control messages,
|
|
but as soon as potentially many and large objects shall be transferred,
|
|
D-Bus is not suitable, as any such streaming of messages would be considered
|
|
flooding in D-Bus' logic, and thus possibly result in termination of
|
|
communication. Since the APIs defined in this document need to support
|
|
enumerating potentially large numbers of users and groups, D-Bus is simply
|
|
not an appropriate option.
|
|
|
|
## Concepts
|
|
|
|
Each subsystem that needs to define users and groups on the local system is
|
|
supposed to implement this API, and offer its interfaces on a Varlink
|
|
`AF_UNIX`/`SOCK_STREAM` file system socket bound into the
|
|
`/run/systemd/userdb/` directory. When a client wants to look up a user or
|
|
group record, it contacts all sockets bound in this directory in parallel, and
|
|
enqueues the same query to each. The first positive reply is then returned to
|
|
the application, or if all fail the last seen error is returned
|
|
instead. (Alternatively a special Varlink service is available,
|
|
`io.systemd.Multiplexer` which acts as frontend and will do the parallel
|
|
queries on behalf of the client, drastically simplifying client
|
|
development. This service is not available during earliest boot and final
|
|
shutdown phases.)
|
|
|
|
Unlike with glibc NSS there's no order or programmatic expression language
|
|
defined in which queries are issued to the various services. Instead, all
|
|
queries are always enqueued in parallel to all defined services, in order to
|
|
make look-ups efficient, and the simple rule of "first successful lookup wins"
|
|
is unconditionally followed for user and group look-ups (though not for
|
|
membership lookups, see below).
|
|
|
|
This simple scheme only works safely as long as every service providing
|
|
user/group records carefully makes sure not to answer with conflicting
|
|
records. This API does not define any mechanisms for dealing with user/group
|
|
name/ID collisions during look-up nor during record registration. It assumes
|
|
the various subsystems that want to offer user and group records to the rest of
|
|
the system have made sufficiently sure in advance that their definitions do not
|
|
collide with those of other services. Clients are not expected to merge
|
|
multiple definitions for the same user or group, and will also not be able to
|
|
detect conflicts and suppress such conflicting records.
|
|
|
|
It is recommended to name the sockets in the directory in reverse domain name
|
|
notation, but this is neither required nor enforced.
|
|
|
|
## Well-Known Services
|
|
|
|
Any subsystem that wants to provide user/group records can do so, simply by
|
|
binding a socket in the aforementioned directory. By default two
|
|
services are listening there, that have special relevance:
|
|
|
|
1. `io.systemd.NameServiceSwitch` → This service makes the classic UNIX/glibc
|
|
NSS user/group records available as JSON User/Group records. Any such
|
|
records are automatically converted as needed, and possibly augmented with
|
|
information from the shadow databases.
|
|
|
|
2. `io.systemd.Multiplexer` → This service multiplexes client queries to all
|
|
other running services. It's supposed to simplify client development: in
|
|
order to look up or enumerate user/group records it's sufficient to talk to
|
|
one service instead of all of them in parallel. Note that it is not availabe
|
|
during earliest boot and final shutdown phases, hence for programs running
|
|
in that context it is preferable to implement the parallel lookup
|
|
themselves.
|
|
|
|
Both these services are implemented by the same daemon
|
|
`systemd-userdbd.service`.
|
|
|
|
Note that these services currently implement a subset of Varlink only. For
|
|
example, introspection is not available, and the resolver logic is not used.
|
|
|
|
## Other Services
|
|
|
|
The `systemd` project provides two other services implementing this
|
|
interface. Specifically:
|
|
|
|
1. `io.systemd.DynamicUser` → This service is implemented by the service
|
|
manager itself, and provides records for the users and groups synthesized
|
|
via `DynamicUser=` in unit files.
|
|
|
|
2. `io.systemd.Home` → This service is implemented by `systemd-homed.service`
|
|
and provides records for the users and groups defined by the home
|
|
directories it manages.
|
|
|
|
Other projects are invited to implement these services too. For example it
|
|
would make sense for LDAP/ActiveDirectory projects to implement these
|
|
interfaces, which would provide them a way to do per-user resource management
|
|
enforced by systemd and defined directly in LDAP directories.
|
|
|
|
## Compatibility with NSS
|
|
|
|
Two-way compatibility with classic UNIX/glibc NSS user/group records is
|
|
provided. When using the Varlink API, lookups into databases provided only via
|
|
NSS (and not natively via Varlink) are handled by the
|
|
`io.systemd.NameServiceSwitch` service (see above). When using the NSS API
|
|
(i.e. `getpwnam()` and friends) the `nss-systemd` module will automatically
|
|
synthesize NSS records for users/groups natively defined via a Varlink
|
|
API. Special care is taken to avoid recursion between these two compatibility
|
|
mechanisms.
|
|
|
|
Subsystems that shall provide user/group records to the system may choose
|
|
between offering them via an NSS module or via a this Varlink API, either way
|
|
all records are accessible via both APIs, due to the bidirectional
|
|
forwarding. It is also possible to provide the same records via both APIs
|
|
directly, but in that case the compatibility logic must be turned off. There
|
|
are mechanisms in place for this, please contact the systemd project for
|
|
details, as these are currently not documented.
|
|
|
|
## Caching of User Records
|
|
|
|
This API defines no concepts for caching records. If caching is desired it
|
|
should be implemented in the subsystems that provide the user records, not in
|
|
the clients consuming them.
|
|
|
|
## Method Calls
|
|
|
|
```
|
|
interface io.systemd.UserDatabase
|
|
|
|
method GetUserRecord(
|
|
uid : ?int,
|
|
userName : ?string,
|
|
service : string
|
|
) -> (
|
|
record : object,
|
|
incomplete : boolean
|
|
)
|
|
|
|
method GetGroupRecord(
|
|
gid : ?int,
|
|
groupName : ?string,
|
|
service : string
|
|
) -> (
|
|
record : object,
|
|
incomplete : boolean
|
|
)
|
|
|
|
method GetMemberships(
|
|
userName : ?string,
|
|
groupName : ?string,
|
|
service : string
|
|
) -> (
|
|
userName : string,
|
|
groupName : string
|
|
)
|
|
|
|
error NoRecordFound()
|
|
error BadService()
|
|
error ServiceNotAvailable()
|
|
error ConflictingRecordFound()
|
|
```
|
|
|
|
The `GetUserRecord` method looks up or enumerates a user record. If the `uid`
|
|
parameter is set it specifies the numeric UNIX UID to search for. If the
|
|
`userName` parameter is set it specifies the name of the user to search
|
|
for. Typically, only one of the two parameters are set, depending whether a
|
|
look-up by UID or by name is desired. However, clients may also specify both
|
|
parameters, in which case a record matching both will be returned, and if only
|
|
one exists that matches one of the two parameters but not the other an error of
|
|
`ConflictingRecordFound` is returned. If neither of the two parameters are set
|
|
the whole user database is enumerated. In this case the method call needs to be
|
|
made with `more` set, so that multiple method call replies may be generated as
|
|
effect, each carrying one user record.
|
|
|
|
The `service` parameter is mandatory and should be set to the service name
|
|
being talked to (i.e. to the same name as the `AF_UNIX` socket path, with the
|
|
`/run/systemd/userdb/` prefix removed). This is useful to allow implementation
|
|
of multiple services on the same socket (which is used by
|
|
`systemd-userdbd.service`).
|
|
|
|
The method call returns one or more user records, depending which type of query is
|
|
used (see above). The record is returned in the `record` field. The
|
|
`incomplete` field indicates whether the record is complete. Services providing
|
|
user record lookup should only pass the `privileged` section of user records to
|
|
clients that either match the user the record is about or to sufficiently
|
|
privileged clients, for all others the section must be removed so that no
|
|
sensitive data is leaked this way. The `incomplete` parameter should indicate
|
|
whether the record has been modified like this or not (i.e. it is `true` if a
|
|
`privileged` section existed in the user record and was removed, and `false` if
|
|
no `privileged` section existed or one existed but hasn't been removed).
|
|
|
|
If no user record matching the specified UID or name is known the error
|
|
`NoRecordFound` is returned (this is also returned if neither UID nor name are
|
|
specified, and hence enumeration requested but the subsystem currently has no
|
|
users defined).
|
|
|
|
If a method call with an incorrectly set `service` field is received
|
|
(i.e. either not set at all, or not to the service's own name) a `BadService`
|
|
error is generated. Finally, `ServiceNotAvailable` should be returned when the
|
|
backing subsystem is not operational for some reason and hence no information
|
|
about existence or non-existence of a record can be returned nor any user
|
|
record at all. (The `service` field is defined in order to allow implementation
|
|
of daemons that provide multiple distinct user/group services over the same
|
|
`AF_UNIX` socket: in order to correctly determine which service a client wants
|
|
to talk to the client needs to provide the name in each request.)
|
|
|
|
The `GetGroupRecord` method call works analogously but for groups.
|
|
|
|
The `GetMemberships` method call may be used to inquire about group
|
|
memberships. The `userName` and `groupName` arguments take what the name
|
|
suggests. If one of the two is specified all matching memberships are returned,
|
|
if neither is specified all known memberships of any user and any group are
|
|
returned. The return value is a pair of user name and group name, where the
|
|
user is a member of the group. If both arguments are specified the specified
|
|
membership will be tested for, but no others, and the pair is returned if it is
|
|
defined. Unless both arguments are specified the method call needs to be made
|
|
with `more` set, so that multiple replies can be returned (since typically
|
|
there are are multiple members per group and also multiple groups a user is
|
|
member of). As with `GetUserRecord` and `GetGroupRecord` the `service`
|
|
parameter needs to contain the name of the service being talked to, in order to
|
|
allow implementation of multiple service within the same IPC socket. In case no
|
|
matching membership is known `NoRecordFound` is returned. The other two errors
|
|
are also generated in the same cases as for `GetUserRecord` and
|
|
`GetGroupRecord`.
|
|
|
|
Unlike with `GetUserRecord` and `GetGroupRecord` the lists of memberships
|
|
returned by services are always combined. Thus unlike the other two calls a
|
|
membership lookup query has to wait for the last simultaneous query to complete
|
|
before the complete list is acquired.
|
|
|
|
Note that only the `GetMemberships` call is authoritative about memberships of
|
|
users in groups. i.e. it should not be considered sufficient to check the
|
|
`memberOf` field of user records and the `members` field of group records to
|
|
acquire the full list of memberships. The full list can only bet determined by
|
|
`GetMemberships`, and as mentioned requires merging of these lists of all local
|
|
services. Result of this is that it can be one service that defines a user A,
|
|
and another service that defines a group B, and a third service that declares
|
|
that A is a member of B.
|
|
|
|
And that's really all there is to it.
|