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This is useful since certain shares can only be mounted with additional mount flags. For example the SMB share in modern AVM Fritz!Boxes requires "noserverino" to be set to work from Linux.
1105 lines
60 KiB
Markdown
1105 lines
60 KiB
Markdown
---
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title: JSON User Records
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category: Users, Groups and Home Directories
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layout: default
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SPDX-License-Identifier: LGPL-2.1-or-later
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---
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# JSON User Records
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systemd optionally processes user records that go beyond the classic UNIX (or
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glibc NSS) `struct passwd`. Various components of systemd are able to provide
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and consume records in a more extensible format of a dictionary of key/value
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pairs, encoded as JSON. Specifically:
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1. [`systemd-homed.service`](https://www.freedesktop.org/software/systemd/man/systemd-homed.service.html)
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manages `human` user home directories and embeds these JSON records
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directly in the home directory images (see [Home
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Directories](https://systemd.io/HOME_DIRECTORY) for details).
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2. [`pam_systemd`](https://www.freedesktop.org/software/systemd/man/pam_systemd.html)
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processes these JSON records for users that log in, and applies various
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settings to the activated session, including environment variables, nice
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levels and more.
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3. [`systemd-logind.service`](https://www.freedesktop.org/software/systemd/man/systemd-logind.service.html)
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processes these JSON records of users that log in, and applies various
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resource management settings to the per-user slice units it manages. This
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allows setting global limits on resource consumption by a specific user.
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4. [`nss-systemd`](https://www.freedesktop.org/software/systemd/man/nss-systemd.html)
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is a glibc NSS module that synthesizes classic NSS records from these JSON
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records, providing full backwards compatibility with the classic UNIX APIs
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both for look-up and enumeration.
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5. The service manager (PID 1) exposes dynamic users (i.e. users synthesized as
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effect of `DynamicUser=` in service unit files) as these advanced JSON
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records, making them discoverable to the rest of the system.
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6. [`systemd-userdbd.service`](https://www.freedesktop.org/software/systemd/man/systemd-userdbd.service.html)
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is a small service that can translate UNIX/glibc NSS records to these JSON
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user records. It also provides a unified [Varlink](https://varlink.org/) API
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for querying and enumerating records of this type, optionally acquiring them
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from various other services.
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JSON user records may contain various fields that are not available in `struct
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passwd`, and are extensible for other applications. For example, the record may
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contain information about:
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1. Additional security credentials (PKCS#11 security token information,
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biometrical authentication information, SSH public key information)
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2. Additional user metadata, such as a picture, email address, location string,
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preferred language or timezone
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3. Resource Management settings (such as CPU/IO weights, memory and tasks
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limits, classic UNIX resource limits or nice levels)
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4. Runtime parameters such as environment variables or the `nodev`, `noexec`,
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`nosuid` flags to use for the home directory
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5. Information about where to mount the home directory from
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And various other things. The record is intended to be extensible, for example
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the following extensions are envisioned:
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1. Windows network credential information
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2. Information about default IMAP, SMTP servers to use for this user
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3. Parental control information to enforce on this user
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4. Default parameters for backup applications and similar
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Similar to JSON User Records there are also [JSON Group
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Records](https://systemd.io/GROUP_RECORD) that encapsulate UNIX groups.
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JSON User Records may be transferred or written to disk in various protocols
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and formats. To inquire about such records defined on the local system use the
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[User/Group Lookup API via
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Varlink](https://systemd.io/USER_GROUP_API). User/group records may also be
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dropped in number of drop-in directories as files. See
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[`nss-systemd(8)`](https://www.freedesktop.org/software/systemd/man/nss-systemd.html)
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for details.
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## Why JSON?
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JSON is nicely extensible and widely used. In particular it's easy to
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synthesize and process with numerous programming languages. It's particularly
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popular in the web communities, which hopefully should make it easy to link
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user credential data from the web and from local systems more closely together.
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## General Structure
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The JSON user records generated and processed by systemd follow a general
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structure, consisting of seven distinct "sections". Specifically:
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1. Various fields are placed at the top-level of user record (the `regular`
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section). These are generally fields that shall apply unconditionally to the
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user in all contexts, are portable and not security sensitive.
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2. A number of fields are located in the `privileged` section (a sub-object of
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the user record). Fields contained in this object are security sensitive,
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i.e. contain information that the user and the administrator should be able
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to see, but other users should not. In many ways this matches the data
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stored in `/etc/shadow` in classic Linux user accounts, i.e. includes
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password hashes and more. Algorithmically, when a user record is passed to
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an untrusted client, by monopolizing such sensitive records in a single
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object field we can easily remove it from view.
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3. A number of fields are located in objects inside the `perMachine` section
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(an array field of the user record). Primarily these are resource
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management-related fields, as those tend to make sense on a specific system
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only, e.g. limiting a user's memory use to 1G only makes sense on a specific
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system that has more than 1G of memory. Each object inside the `perMachine`
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array comes with a `matchMachineId` or `matchHostname` field which indicate
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which systems to apply the listed settings to. Note that many fields
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accepted in the `perMachine` section can also be set at the top level (the
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`regular` section), where they define the fallback if no matching object in
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`perMachine` is found.
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4. Various fields are located in the `binding` section (a sub-sub-object of the
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user record; an intermediary object is inserted which is keyed by the
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machine ID of the host). Fields included in this section "bind" the object
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to a specific system. They generally include non-portable information about
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paths or UID assignments, that are true on a specific system, but not
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necessarily on others, and which are managed automatically by some user
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record manager (such as `systemd-homed`). Data in this section is considered
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part of the user record only in the local context, and is generally not
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ported to other systems. Due to that it is not included in the reduced user
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record the cryptographic signature defined in the `signature` section is
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calculated on. In `systemd-homed` this section is also removed when the
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user's record is stored in the `~/.identity` file in the home directory, so
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that every system with access to the home directory can manage these
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`binding` fields individually. Typically, the binding section is persisted
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to the local disk.
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5. Various fields are located in the `status` section (a sub-sub-object of the
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user record, also with an intermediary object between that is keyed by the
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machine ID, similar to the way the `binding` section is organized). This
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section is augmented during runtime only, and never persisted to disk. The
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idea is that this section contains information about current runtime
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resource usage (for example: currently used disk space of the user), that
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changes dynamically but is otherwise immediately associated with the user
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record and for many purposes should be considered to be part of the user
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record.
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6. The `signature` section contains one or more cryptographic signatures of a
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reduced version of the user record. This is used to ensure that only user
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records defined by a specific source are accepted on a system, by validating
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the signature against the set of locally accepted signature public keys. The
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signature is calculated from the JSON user record with all sections removed,
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except for `regular`, `privileged`, `perMachine`. Specifically, `binding`,
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`status`, `signature` itself and `secret` are removed first and thus not
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covered by the signature. This section is optional, and is only used when
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cryptographic validation of user records is required (as it is by
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`systemd-homed.service` for example).
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7. The `secret` section contains secret user credentials, such as password or
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PIN information. This data is never persisted, and never returned when user
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records are inquired by a client, privileged or not. This data should only
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be included in a user record very briefly, for example when certain very
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specific operations are executed. For example, in tools such as
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`systemd-homed` this section may be included in user records, when creating
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a new home directory, as passwords and similar credentials need to be
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provided to encrypt the home directory with.
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Here's a tabular overview of the sections and their properties:
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| Section | Included in Signature | Persistent | Security Sensitive | Contains Host-Specific Data |
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|------------|-----------------------|------------|--------------------|-----------------------------|
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| regular | yes | yes | no | no |
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| privileged | yes | yes | yes | no |
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| perMachine | yes | yes | no | yes |
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| binding | no | yes | no | yes |
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| status | no | no | no | yes |
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| signature | no | yes | no | no |
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| secret | no | no | yes | no |
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Note that services providing user records to the local system are free to
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manage only a subset of these sections and never include the others in
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them. For example, a service that has no concept of signed records (for example
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because the records it manages are inherently trusted anyway) does not have to
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bother with the `signature` section. A service that only defines records in a
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strictly local context and without signatures doesn't have to deal with the
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`perMachine` or `binding` sections and can include its data exclusively in the
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regular section. A service that uses a separate, private channel for
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authenticating users (or that doesn't have a concept of authentication at all)
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does not need to be concerned with the `secret` section of user records, as
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the fields included therein are only useful when executing authentication
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operations natively against JSON user records.
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The `systemd-homed` manager uses all seven sections for various
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purposes. Inside the home directories (and if the LUKS2 backend is used, also
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in the LUKS2 header) a user record containing the `regular`, `privileged`,
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`perMachine` and `signature` sections is stored. `systemd-homed` also stores a
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version of the record on the host, with the same four sections and augmented
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with an additional, fifth `binding` section. When a local client enquires about
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a user record managed by `systemd-homed` the service will add in some
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additional information about the user and home directory in the `status`
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section — this version is only transferred via IPC and never written to
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disk. Finally the `secret` section is used during authentication operations via
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IPC to transfer the user record along with its authentication tokens in one go.
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## Fields in the `regular` section
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As mentioned, the `regular` section's fields are placed at the top level
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object. The following fields are currently defined:
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`userName` → The UNIX user name for this record. Takes a string with a valid
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UNIX user name. This field is the only mandatory field, all others are
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optional. Corresponds with the `pw_name` field of of `struct passwd` and the
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`sp_namp` field of `struct spwd` (i.e. the shadow user record stored in
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`/etc/shadow`). See [User/Group Name Syntax](https://systemd.io/USER_NAMES) for
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the (relaxed) rules the various systemd components enforce on user/group names.
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`realm` → The "realm" a user is defined in. This concept allows distinguishing
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users with the same name that originate in different organizations or
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installations. This should take a string in DNS domain syntax, but doesn't have
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to refer to an actual DNS domain (though it is recommended to use one for
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this). The idea is that the user `lpoetter` in the `redhat.com` realm might be
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distinct from the same user in the `poettering.hq` realm. User records for the
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same user name that have different realm fields are considered referring to
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different users. When updating a user record it is required that any new
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version has to match in both `userName` and `realm` field. This field is
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optional, when unset the user should not be considered part of any realm. A
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user record with a realm set is never compatible (for the purpose of updates,
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see above) with a user record without one set, even if the `userName` field matches.
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`realName` → The real name of the user, a string. This should contain the
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user's real ("human") name, and corresponds loosely to the GECOS field of
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classic UNIX user records. When converting a `struct passwd` to a JSON user
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record this field is initialized from GECOS (i.e. the `pw_gecos` field), and
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vice versa when converting back. That said, unlike GECOS this field is supposed
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to contain only the real name and no other information. This field must not
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contain control characters (such as `\n`) or colons (`:`), since those are used
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as record separators in classic `/etc/passwd` files and similar formats.
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`emailAddress` → The email address of the user, formatted as
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string. [`pam_systemd`](https://www.freedesktop.org/software/systemd/man/pam_systemd.html)
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initializes the `$EMAIL` environment variable from this value for all login
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sessions.
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`iconName` → The name of an icon picked by the user, for example for the
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purpose of an avatar. This must be a string, and should follow the semantics
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defined in the [Icon Naming
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Specification](https://standards.freedesktop.org/icon-naming-spec/icon-naming-spec-latest.html).
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`location` → A free-form location string describing the location of the user,
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if that is applicable. It's probably wise to use a location string processable
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by geo-location subsystems, but this is not enforced nor required. Example:
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`Berlin, Germany` or `Basement, Room 3a`.
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`disposition` → A string, one of `intrinsic`, `system`, `dynamic`, `regular`,
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`container`, `reserved`. If specified clarifies the disposition of the user,
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i.e. the context it is defined in. For regular, "human" users this should be
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`regular`, for system users (i.e. users that system services run under, and
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similar) this should be `system`. The `intrinsic` disposition should be used
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only for the two users that have special meaning to the OS kernel itself,
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i.e. the `root` and `nobody` users. The `container` string should be used for
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users that are used by an OS container, and hence will show up in `ps` listings
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and such, but are only defined in container context. Finally `reserved` should
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be used for any users outside of these use-cases. Note that this property is
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entirely optional and applications are assumed to be able to derive the
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disposition of a user automatically from a record even in absence of this
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field, based on other fields, for example the numeric UID. By setting this
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field explicitly applications can override this default determination.
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`lastChangeUSec` → An unsigned 64bit integer value, referring to a timestamp in µs
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since the epoch 1970, indicating when the user record (specifically, any of the
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`regular`, `privileged`, `perMachine` sections) was last changed. This field is
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used when comparing two records of the same user to identify the newer one, and
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is used for example for automatic updating of user records, where appropriate.
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`lastPasswordChangeUSec` → Similar, also an unsigned 64bit integer value,
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indicating the point in time the password (or any authentication token) of the
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user was last changed. This corresponds to the `sp_lstchg` field of `struct
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spwd`, i.e. the matching field in the user shadow database `/etc/shadow`,
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though provides finer resolution.
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`shell` → A string, referring to the shell binary to use for terminal logins of
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this user. This corresponds with the `pw_shell` field of `struct passwd`, and
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should contain an absolute file system path. For system users not suitable for
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terminal log-in this field should not be set.
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`umask` → The `umask` to set for the user's login sessions. Takes an
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integer. Note that usually on UNIX the umask is noted in octal, but JSON's
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integers are generally written in decimal, hence in this context we denote it
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umask in decimal too. The specified value should be in the valid range for
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umasks, i.e. 0000…0777 (in octal as typical in UNIX), or 0…511 (in decimal, how
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it actually appears in the JSON record). This `umask` is automatically set by
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[`pam_systemd`](https://www.freedesktop.org/software/systemd/man/pam_systemd.html)
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for all login sessions of the user.
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`environment` → An array of strings, each containing an environment variable
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and its value to set for the user's login session, in a format compatible with
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[`putenv()`](http://man7.org/linux/man-pages/man3/putenv.3.html). Any
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environment variable listed here is automatically set by
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[`pam_systemd`](https://www.freedesktop.org/software/systemd/man/pam_systemd.html)
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for all login sessions of the user.
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`timeZone` → A string indicating a preferred timezone to use for the user. When
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logging in
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[`pam_systemd`](https://www.freedesktop.org/software/systemd/man/pam_systemd.html)
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will automatically initialize the `$TZ` environment variable from this
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string. The string should be a `tzdata` compatible location string, for
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example: `Europe/Berlin`.
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`preferredLanguage` → A string indicating the preferred language/locale for the
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user. When logging in
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[`pam_systemd`](https://www.freedesktop.org/software/systemd/man/pam_systemd.html)
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will automatically initialize the `$LANG` environment variable from this
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string. The string hence should be in a format compatible with this environment
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variable, for example: `de_DE.UTF8`.
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`niceLevel` → An integer value in the range -20…19. When logging in
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[`pam_systemd`](https://www.freedesktop.org/software/systemd/man/pam_systemd.html)
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will automatically initialize the login process' nice level to this value with,
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which is then inherited by all the user's processes, see
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[`setpriority()`](http://man7.org/linux/man-pages/man2/setpriority.2.html) for
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more information.
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`resourceLimits` → An object, where each key refers to a Linux resource limit
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(such as `RLIMIT_NOFILE` and similar). Their values should be an object with
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two keys `cur` and `max` for the soft and hard resource limit. When logging in
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[`pam_systemd`](https://www.freedesktop.org/software/systemd/man/pam_systemd.html)
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will automatically initialize the login process' resource limits to these
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values, which is then inherited by all the user's processes, see
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[`setrlimit()`](http://man7.org/linux/man-pages/man2/setrlimit.2.html) for more
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information.
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`locked` → A boolean value. If true the user account is locked, the user may
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not log in. If this field is missing it should be assumed to be false,
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i.e. logins are permitted. This field corresponds to the `sp_expire` field of
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`struct spwd` (i.e. the `/etc/shadow` data for a user) being set to zero or
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one.
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`notBeforeUSec` → An unsigned 64bit integer value, indicating a time in µs since
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the UNIX epoch (1970) before which the record should be considered invalid for
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the purpose of logging in.
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`notAfterUSec` → Similar, but indicates the point in time *after* which logins
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shall not be permitted anymore. This corresponds to the `sp_expire` field of
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`struct spwd`, when it is set to a value larger than one, but provides finer
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granularity.
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`storage` → A string, one of `classic`, `luks`, `directory`, `subvolume`,
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`fscrypt`, `cifs`. Indicates the storage mechanism for the user's home
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directory. If `classic` the home directory is a plain directory as in classic
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UNIX. When `directory`, the home directory is a regular directory, but the
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`~/.identity` file in it contains the user's user record, so that the directory
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is self-contained. Similar, `subvolume` is a `btrfs` subvolume that also
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contains a `~/.identity` user record; `fscrypt` is an `fscrypt`-encrypted
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directory, also containing the `~/.identity` user record; `luks` is a per-user
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LUKS volume that is mounted as home directory, and `cifs` a home directory
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mounted from a Windows File Share. The five latter types are primarily used by
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`systemd-homed` when managing home directories, but may be used if other
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managers are used too. If this is not set `classic` is the implied default.
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`diskSize` → An unsigned 64bit integer, indicating the intended home directory
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disk space in bytes to assign to the user. Depending on the selected storage
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type this might be implement differently: for `luks` this is the intended size
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of the file system and LUKS volume, while for the others this likely translates
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to classic file system quota settings.
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`diskSizeRelative` → Similar to `diskSize` but takes a relative value, but
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specifies a fraction of the available disk space on the selected storage medium
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to assign to the user. This unsigned integer value is normalized to 2^32 =
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100%.
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`skeletonDirectory` → Takes a string with the absolute path to the skeleton
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directory to populate a new home directory from. This is only used when a home
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directory is first created, and defaults to `/etc/skel` if not defined.
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`accessMode` → Takes an unsigned integer in the range 0…511 indicating the UNIX
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access mask for the home directory when it is first created.
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`tasksMax` → Takes an unsigned 64bit integer indicating the maximum number of
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tasks the user may start in parallel during system runtime. This counts
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all tasks (i.e. threads, where each process is at least one thread) the user starts or that are
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forked from these processes even if the user identity is changed (for example
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by setuid binaries/`su`/`sudo` and similar).
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[`systemd-logind.service`](https://www.freedesktop.org/software/systemd/man/systemd-logind.service.html)
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enforces this by setting the `TasksMax` slice property for the user's slice
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`user-$UID.slice`.
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|
|
`memoryHigh`/`memoryMax` → These take unsigned 64bit integers indicating upper
|
|
memory limits for all processes of the user (plus all processes forked off them
|
|
that might have changed user identity), in bytes. Enforced by
|
|
[`systemd-logind.service`](https://www.freedesktop.org/software/systemd/man/systemd-logind.service.html),
|
|
similar to `tasksMax`.
|
|
|
|
`cpuWeight`/`ioWeight` → These take unsigned integers in the range 1…10000
|
|
(defaults to 100) and configure the CPU and IO scheduling weights for the
|
|
user's processes as a whole. Also enforced by
|
|
[`systemd-logind.service`](https://www.freedesktop.org/software/systemd/man/systemd-logind.service.html),
|
|
similar to `tasksMax`, `memoryHigh` and `memoryMax`.
|
|
|
|
`mountNoDevices`/`mountNoSuid`/`mountNoExecute` → Three booleans that control
|
|
the `nodev`, `nosuid`, `noexec` mount flags of the user's home
|
|
directories. Note that these booleans are only honored if the home directory
|
|
is managed by a subsystem such as `systemd-homed.service` that automatically
|
|
mounts home directories on login.
|
|
|
|
`cifsDomain` → A string indicating the Windows File Sharing domain (CIFS) to
|
|
use. This is generally useful, but particularly when `cifs` is used as storage
|
|
mechanism for the user's home directory, see above.
|
|
|
|
`cifsUserName` → A string indicating the Windows File Sharing user name (CIFS)
|
|
to associate this user record with. This is generally useful, but particularly
|
|
useful when `cifs` is used as storage mechanism for the user's home directory,
|
|
see above.
|
|
|
|
`cifsService` → A string indicating the Windows File Share service (CIFS) to
|
|
mount as home directory of the user on login. Should be in format
|
|
`//<host>/<service>/<directory/…>`. The directory part is optional. If missing
|
|
the top-level directory of the CIFS share is used.
|
|
|
|
`cifsExtraMountOptions` → A string with additional mount options to pass to
|
|
`mount.cifs` when mounting the home directory CIFS share.
|
|
|
|
`imagePath` → A string with an absolute file system path to the file, directory
|
|
or block device to use for storage backing the home directory. If the `luks`
|
|
storage is used this refers to the loopback file or block device node to store
|
|
the LUKS volume on. For `fscrypt`, `directory`, `subvolume` this refers to the
|
|
directory to bind mount as home directory on login. Not defined for `classic`
|
|
or `cifs`.
|
|
|
|
`homeDirectory` → A string with an absolute file system path to the home
|
|
directory. This is where the image indicated in `imagePath` is mounted to on
|
|
login and thus indicates the application facing home directory while the home
|
|
directory is active, and is what the user's `$HOME` environment variable is set
|
|
to during log-in. It corresponds to the `pw_dir` field of `struct passwd`.
|
|
|
|
`uid` → An unsigned integer in the range 0…4294967295: the numeric UNIX user ID (UID) to
|
|
use for the user. This corresponds to the `pw_uid` field of `struct passwd`.
|
|
|
|
`gid` → An unsigned integer in the range 0…4294967295: the numeric UNIX group
|
|
ID (GID) to use for the user. This corresponds to the `pw_gid` field of
|
|
`struct passwd`.
|
|
|
|
`memberOf` → An array of strings, each indicating a UNIX group this user shall
|
|
be a member of. The listed strings must be valid group names, but it is not
|
|
required that all groups listed exist in all contexts: any entry for which no
|
|
group exists should be silently ignored.
|
|
|
|
`fileSystemType` → A string, one of `ext4`, `xfs`, `btrfs` (possibly others) to
|
|
use as file system for the user's home directory. This is primarily relevant
|
|
when the storage mechanism used is `luks` as a file system to use inside the
|
|
LUKS container must be selected.
|
|
|
|
`partitionUuid` → A string containing a lower-case, text-formatted UUID, referencing
|
|
the GPT partition UUID the home directory is located in. This is primarily
|
|
relevant when the storage mechanism used is `luks`.
|
|
|
|
`luksUuid` → A string containing a lower-case, text-formatted UUID, referencing
|
|
the LUKS volume UUID the home directory is located in. This is primarily
|
|
relevant when the storage mechanism used is `luks`.
|
|
|
|
`fileSystemUuid` → A string containing a lower-case, text-formatted UUID,
|
|
referencing the file system UUID the home directory is located in. This is
|
|
primarily relevant when the storage mechanism used is `luks`.
|
|
|
|
`luksDiscard` → A boolean. If true and `luks` storage is used controls whether
|
|
the loopback block devices, LUKS and the file system on top shall be used in
|
|
`discard` mode, i.e. erased sectors should always be returned to the underlying
|
|
storage. If false and `luks` storage is used turns this behavior off. In
|
|
addition, depending on this setting an `FITRIM` or `fallocate()` operation is
|
|
executed to make sure the image matches the selected option.
|
|
|
|
`luksOfflineDiscard` → A boolean. Similar to `luksDiscard`, it controls whether
|
|
to trim/allocate the file system/backing file when deactivating the home
|
|
directory.
|
|
|
|
`luksCipher` → A string, indicating the cipher to use for the LUKS storage mechanism.
|
|
|
|
`luksCipherMode` → A string, selecting the cipher mode to use for the LUKS storage mechanism.
|
|
|
|
`luksVolumeKeySize` → An unsigned integer, indicating the volume key length in
|
|
bytes to use for the LUKS storage mechanism.
|
|
|
|
`luksPbkdfHashAlgorithm` → A string, selecting the hash algorithm to use for
|
|
the PBKDF operation for the LUKS storage mechanism.
|
|
|
|
`luksPbkdfType` → A string, indicating the PBKDF type to use for the LUKS storage mechanism.
|
|
|
|
`luksPbkdfTimeCostUSec` → An unsigned 64bit integer, indicating the intended
|
|
time cost for the PBKDF operation, when the LUKS storage mechanism is used, in
|
|
µs.
|
|
|
|
`luksPbkdfMemoryCost` → An unsigned 64bit integer, indicating the intended
|
|
memory cost for the PBKDF operation, when LUKS storage is used, in bytes.
|
|
|
|
`luksPbkdfParallelThreads` → An unsigned 64bit integer, indicating the intended
|
|
required parallel threads for the PBKDF operation, when LUKS storage is used.
|
|
|
|
`service` → A string declaring the service that defines or manages this user
|
|
record. It is recommended to use reverse domain name notation for this. For
|
|
example, if `systemd-homed` manages a user a string of `io.systemd.Home` is
|
|
used for this.
|
|
|
|
`rateLimitIntervalUSec` → An unsigned 64bit integer that configures the
|
|
authentication rate limiting enforced on the user account. This specifies a
|
|
timer interval (in µs) within which to count authentication attempts. When the
|
|
counter goes above the value configured n `rateLimitIntervalBurst` log-ins are
|
|
temporarily refused until the interval passes.
|
|
|
|
`rateLimitIntervalBurst` → An unsigned 64bit integer, closely related to
|
|
`rateLimitIntervalUSec`, that puts a limit on authentication attempts within
|
|
the configured time interval.
|
|
|
|
`enforcePasswordPolicy` → A boolean. Configures whether to enforce the system's
|
|
password policy when creating the home directory for the user or changing the
|
|
user's password. By default the policy is enforced, but if this field is false
|
|
it is bypassed.
|
|
|
|
`autoLogin` → A boolean. If true the user record is marked as suitable for
|
|
auto-login. Systems are supposed to automatically log in a user marked this way
|
|
during boot, if there's exactly one user on it defined this way.
|
|
|
|
`stopDelayUSec` → An unsigned 64bit integer, indicating the time in µs the
|
|
per-user service manager is kept around after the user fully logged out. This
|
|
value is honored by
|
|
[`systemd-logind.service`](https://www.freedesktop.org/software/systemd/man/systemd-logind.service.html). If
|
|
set to zero the per-user service manager is immediately terminated when the
|
|
user logs out, and longer values optimize high-frequency log-ins as the
|
|
necessary work to set up and tear down a log-in is reduced if the service
|
|
manager stays running.
|
|
|
|
`killProcesses` → A boolean. If true all processes of the user are
|
|
automatically killed when the user logs out. This is enforced by
|
|
[`systemd-logind.service`](https://www.freedesktop.org/software/systemd/man/systemd-logind.service.html). If
|
|
false any processes left around when the user logs out are left running.
|
|
|
|
`passwordChangeMinUSec`/`passwordChangeMaxUSec` → An unsigned 64bit integer,
|
|
encoding how much time has to pass at least/at most between password changes of
|
|
the user. This corresponds with the `sp_min` and `sp_max` fields of `struct
|
|
spwd` (i.e. the `/etc/shadow` entries of the user), but offers finer
|
|
granularity.
|
|
|
|
`passwordChangeWarnUSec` → An unsigned 64bit integer, encoding how much time to
|
|
warn the user before their password expires, in µs. This corresponds with the
|
|
`sp_warn` field of `struct spwd`.
|
|
|
|
`passwordChangeInactiveUSec` → An unsigned 64bit integer, encoding how much
|
|
time has to pass after the password expired that the account is
|
|
deactivated. This corresponds with the `sp_inact` field of `struct spwd`.
|
|
|
|
`passwordChangeNow` → A boolean. If true the user has to change their password
|
|
on next login. This corresponds with the `sp_lstchg` field of `struct spwd`
|
|
being set to zero.
|
|
|
|
`pkcs11TokenUri` → An array of strings, each with an RFC 7512 compliant PKCS#11
|
|
URI referring to security token (or smart card) of some form, that shall be
|
|
associated with the user and may be used for authentication. The URI is used to
|
|
search for an X.509 certificate and associated private key that may be used to
|
|
decrypt an encrypted secret key that is used to unlock the user's account (see
|
|
below). It's undefined how precise the URI is: during log-in it is tested
|
|
against all plugged in security tokens and if there's exactly one matching
|
|
private key found with it it is used.
|
|
|
|
`fido2HmacCredential` → An array of strings, each with a Base64-encoded FIDO2
|
|
credential ID that shell be used for authentication with FIDO2 devices that
|
|
implement the `hmac-secret` extension. The salt to pass to the FIDO2 device is
|
|
found in `fido2HmacSalt`.
|
|
|
|
`recoveryKeyType` → An array of strings, each indicating the type of one
|
|
recovery key. The only supported recovery key type at the moment is `modhex64`,
|
|
for details see the description of `recoveryKey` below. An account may have any
|
|
number of recovery keys defined, and the array should have one entry for each.
|
|
|
|
`privileged` → An object, which contains the fields of the `privileged` section
|
|
of the user record, see below.
|
|
|
|
`perMachine` → An array of objects, which contain the `perMachine` section of
|
|
the user record, and thus fields to apply on specific systems only, see below.
|
|
|
|
`binding` → An object, keyed by machine IDs formatted as strings, pointing
|
|
to objects that contain the `binding` section of the user record,
|
|
i.e. additional fields that bind the user record to a specific machine, see
|
|
below.
|
|
|
|
`status` → An object, keyed by machine IDs formatted as strings, pointing to
|
|
objects that contain the `status` section of the user record, i.e. additional
|
|
runtime fields that expose the current status of the user record on a specific
|
|
system, see below.
|
|
|
|
`signature` → An array of objects, which contain cryptographic signatures of
|
|
the user record, i.e. the fields of the `signature` section of the user record,
|
|
see below.
|
|
|
|
`secret` → An object, which contains the fields of the `secret` section of the
|
|
user record, see below.
|
|
|
|
## Fields in the `privileged` section
|
|
|
|
As mentioned, the `privileged` section is encoded in a sub-object of the user
|
|
record top-level object, in the `privileged` field. Any data included in this
|
|
object shall only be visible to the administrator and the user themselves, and
|
|
be suppressed implicitly when other users get access to a user record. It thus
|
|
takes the role of the `/etc/shadow` records for each user, which has similarly
|
|
restrictive access semantics. The following fields are currently defined:
|
|
|
|
`passwordHint` → A user-selected password hint in free-form text. This should
|
|
be a string like "What's the name of your first pet?", but is entirely for the
|
|
user to choose.
|
|
|
|
`hashedPassword` → An array of strings, each containing a hashed UNIX password
|
|
string, in the format
|
|
[`crypt(3)`](http://man7.org/linux/man-pages/man3/crypt.3.html) generates. This
|
|
corresponds with `sp_pwdp` field of `struct spwd` (and in a way the `pw_passwd`
|
|
field of `struct passwd`).
|
|
|
|
`sshAuthorizedKeys` → An array of strings, each listing an SSH public key that
|
|
is authorized to access the account. The strings should follow the same format
|
|
as the lines in the traditional `~/.ssh/authorized_key` file.
|
|
|
|
`pkcs11EncryptedKey` → An array of objects. Each element of the array should be
|
|
an object consisting of three string fields: `uri` shall contain a PKCS#11
|
|
security token URI, `data` shall contain a Base64-encoded encrypted key and
|
|
`hashedPassword` shall contain a UNIX password hash to test the key
|
|
against. Authenticating with a security token against this account shall work
|
|
as follows: the encrypted secret key is converted from its Base64
|
|
representation into binary, then decrypted with the PKCS#11 `C_Decrypt()`
|
|
function of the PKCS#11 module referenced by the specified URI, using the
|
|
private key found on the same token. The resulting decrypted key is then
|
|
Base64-encoded and tested against the specified UNIX hashed password. The
|
|
Base64-encoded decrypted key may also be used to unlock further resources
|
|
during log-in, for example the LUKS or `fscrypt` storage backend. It is
|
|
generally recommended that for each entry in `pkcs11EncryptedKey` there's also
|
|
a matching one in `pkcs11TokenUri` and vice versa, with the same URI, appearing
|
|
in the same order, but this should not be required by applications processing
|
|
user records.
|
|
|
|
`fido2HmacSalt` → An array of objects, implementing authentication support with
|
|
FIDO2 devices that implement the `hmac-secret` extension. Each element of the
|
|
array should be an object consisting of three string fields: `credential`,
|
|
`salt`, `hashedPassword`, and three boolean fields: `up`, `uv` and
|
|
`clientPin`. The first two string fields shall contain Base64-encoded binary
|
|
data: the FIDO2 credential ID and the salt value to pass to the FIDO2
|
|
device. During authentication this salt along with the credential ID is sent to
|
|
the FIDO2 token, which will HMAC hash the salt with its internal secret key and
|
|
return the result. This resulting binary key should then be Base64-encoded and
|
|
used as string password for the further layers of the stack. The
|
|
`hashedPassword` field of the `fido2HmacSalt` field shall be a UNIX password
|
|
hash to test this derived secret key against for authentication. The `up`, `uv`
|
|
and `clientPin` booleans map to the FIDO2 concepts of the same name and encode
|
|
whether the `uv`/`up` options are enabled during the authentication, and
|
|
whether a PIN shall be required. It is generally recommended that for each
|
|
entry in `fido2HmacSalt` there's also a matching one in `fido2HmacCredential`,
|
|
and vice versa, with the same credential ID, appearing in the same order, but
|
|
this should not be required by applications processing user records.
|
|
|
|
`recoveryKey`→ An array of objects, each defining a recovery key. The object
|
|
has two mandatory fields: `type` indicates the type of recovery key. The only
|
|
currently permitted value is the string `modhex64`. The `hashedPassword` field
|
|
contains a UNIX password hash of the normalized recovery key. Recovery keys are
|
|
in most ways similar to regular passwords, except that they are generated by
|
|
the computer, not chosen by the user, and are longer. Currently, the only
|
|
supported recovery key format is `modhex64`, which consists of 64
|
|
[modhex](https://developers.yubico.com/yubico-c/Manuals/modhex.1.html)
|
|
characters (i.e. 256bit of information), in groups of 8 chars separated by
|
|
dashes,
|
|
e.g. `lhkbicdj-trbuftjv-tviijfck-dfvbknrh-uiulbhui-higltier-kecfhkbk-egrirkui`. Recovery
|
|
keys should be accepted wherever regular passwords are. The `recoveryKey` field
|
|
should always be accompanied by a `recoveryKeyType` field (see above), and each
|
|
entry in either should map 1:1 to an entry in the other, in the same order and
|
|
matching the type. When accepting a recovery key it should be brought
|
|
automatically into normalized form, i.e. the dashes inserted when missing, and
|
|
converted into lowercase before tested against the UNIX password hash, so that
|
|
recovery keys are effectively case-insensitive.
|
|
|
|
## Fields in the `perMachine` section
|
|
|
|
As mentioned, the `perMachine` section contains settings that shall apply to
|
|
specific systems only. This is primarily interesting for resource management
|
|
properties as they tend to require a per-system focus, however they may be used
|
|
for other purposes too.
|
|
|
|
The `perMachine` field in the top-level object is an array of objects. When
|
|
processing the user record first the various fields on the top-level object
|
|
should be used. Then this array should be iterated in order, and the various
|
|
settings be applied that match either the indicated machine ID or host
|
|
name. There may be multiple array entries that match a specific system, in
|
|
which case all the object's setting should be applied. If the same option is
|
|
set in the top-level object as in a per-machine object the latter wins and
|
|
entirely undoes the setting in the top-level object (i.e. no merging of
|
|
properties that are arrays themselves is done). If the same option is set in
|
|
multiple per-machine objects the one specified later in the array wins (and
|
|
here too no merging of individual fields is done, the later field always wins
|
|
in full).
|
|
|
|
The following fields are defined in this section:
|
|
|
|
`matchMachineId` → An array of strings that are formatted 128bit IDs in
|
|
hex. If any of the specified IDs match the system's local machine ID
|
|
(i.e. matches `/etc/machine-id`) the fields in this object are honored.
|
|
|
|
`matchHostname` → An array of strings that are valid hostnames. If any of
|
|
the specified hostnames match the system's local hostname, the fields in this
|
|
object are honored. If both `matchHostname` and `matchMachineId` are used
|
|
within the same array entry, the object is honored when either match succeeds,
|
|
i.e. the two match types are combined in OR, not in AND.
|
|
|
|
These two are the only two fields specific to this section. All other fields
|
|
that may be used in this section are identical to the equally named ones in the
|
|
`regular` section (i.e. at the top-level object). Specifically, these are:
|
|
|
|
`iconName`, `location`, `shell`, `umask`, `environment`, `timeZone`,
|
|
`preferredLanguage`, `niceLevel`, `resourceLimits`, `locked`, `notBeforeUSec`,
|
|
`notAfterUSec`, `storage`, `diskSize`, `diskSizeRelative`, `skeletonDirectory`,
|
|
`accessMode`, `tasksMax`, `memoryHigh`, `memoryMax`, `cpuWeight`, `ioWeight`,
|
|
`mountNoDevices`, `mountNoSuid`, `mountNoExecute`, `cifsDomain`,
|
|
`cifsUserName`, `cifsService`, `cifsExtraMountOptions`, `imagePath`, `uid`,
|
|
`gid`, `memberOf`, `fileSystemType`, `partitionUuid`, `luksUuid`,
|
|
`fileSystemUuid`, `luksDiscard`, `luksOfflineDiscard`, `luksCipher`,
|
|
`luksCipherMode`, `luksVolumeKeySize`, `luksPbkdfHashAlgorithm`,
|
|
`luksPbkdfType`, `luksPbkdfTimeCostUSec`, `luksPbkdfMemoryCost`,
|
|
`luksPbkdfParallelThreads`, `rateLimitIntervalUSec`, `rateLimitBurst`,
|
|
`enforcePasswordPolicy`, `autoLogin`, `stopDelayUSec`, `killProcesses`,
|
|
`passwordChangeMinUSec`, `passwordChangeMaxUSec`, `passwordChangeWarnUSec`,
|
|
`passwordChangeInactiveUSec`, `passwordChangeNow`, `pkcs11TokenUri`,
|
|
`fido2HmacCredential`.
|
|
|
|
## Fields in the `binding` section
|
|
|
|
As mentioned, the `binding` section contains additional fields about the user
|
|
record, that bind it to the local system. These fields are generally used by a
|
|
local user manager (such as `systemd-homed.service`) to add in fields that make
|
|
sense in a local context but not necessarily in a global one. For example, a
|
|
user record that contains no `uid` field in the regular section is likely
|
|
extended with one in the `binding` section to assign a local UID if no global
|
|
UID is defined.
|
|
|
|
All fields in the `binding` section only make sense in a local context and are
|
|
suppressed when the user record is ported between systems. The `binding` section
|
|
is generally persisted on the system but not in the home directories themselves
|
|
and the home directory is supposed to be fully portable and thus not contain
|
|
the information that `binding` is supposed to contain that binds the portable
|
|
record to a specific system.
|
|
|
|
The `binding` sub-object on the top-level user record object is keyed by the
|
|
machine ID the binding is intended for, which point to an object with the
|
|
fields of the bindings. These fields generally match fields that may also be
|
|
defined in the `regular` and `perMachine` sections, however override
|
|
both. Usually, the `binding` value should not contain settings different from
|
|
those set via `regular` or `perMachine`, however this might happen if some
|
|
settings are not supported locally (think: `fscrypt` is recorded as intended
|
|
storage mechanism in the `regular` section, but the local kernel does not
|
|
support `fscrypt`, hence `directory` was chosen as implicit fallback), or have
|
|
been changed in the `regular` section through updates (e.g. a home directory
|
|
was created with `luks` as storage mechanism but later the user record was
|
|
updated to prefer `subvolume`, which however doesn't change the actual storage
|
|
used already which is pinned in the `binding` section).
|
|
|
|
The following fields are defined in the `binding` section. They all have an
|
|
identical format and override their equally named counterparts in the `regular`
|
|
and `perMachine` sections:
|
|
|
|
`imagePath`, `homeDirectory`, `partitionUuid`, `luksUuid`, `fileSystemUuid`,
|
|
`uid`, `gid`, `storage`, `fileSystemType`, `luksCipher`, `luksCipherMode`,
|
|
`luksVolumeKeySize`.
|
|
|
|
## Fields in the `status` section
|
|
|
|
As mentioned, the `status` section contains additional fields about the user
|
|
record that are exclusively acquired during runtime, and that expose runtime
|
|
metrics of the user and similar metadata that shall not be persisted but are
|
|
only acquired "on-the-fly" when requested.
|
|
|
|
This section is arranged similarly to the `binding` section: the `status`
|
|
sub-object of the top-level user record object is keyed by the machine ID,
|
|
which points to the object with the fields defined here. The following fields
|
|
are defined:
|
|
|
|
`diskUsage` → An unsigned 64bit integer. The currently used disk space of the
|
|
home directory in bytes. This value might be determined in different ways,
|
|
depending on the selected storage mechanism. For LUKS storage this is the file
|
|
size of the loopback file or block device size. For the
|
|
directory/subvolume/fscrypt storage this is the current disk space used as
|
|
reported by the file system quota subsystem.
|
|
|
|
`diskFree` → An unsigned 64bit integer, denoting the number of "free" bytes in
|
|
the disk space allotment, i.e. usually the difference between the disk size as
|
|
reported by `diskSize` and the used already as reported in `diskFree`, but
|
|
possibly skewed by metadata sizes, disk compression and similar.
|
|
|
|
`diskSize` → An unsigned 64bit integer, denoting the disk space currently
|
|
allotted to the user, in bytes. Depending on the storage mechanism this can mean
|
|
different things (see above). In contrast to the top-level field of the same
|
|
(or the one in the `perMachine` section), this field reports the current size
|
|
allotted to the user, not the intended one. The values may differ when user
|
|
records are updated without the home directory being re-sized.
|
|
|
|
`diskCeiling`/`diskFloor` → Unsigned 64bit integers indicating upper and lower
|
|
bounds when changing the `diskSize` value, in bytes. These values are typically
|
|
derived from the underlying data storage, and indicate in which range the home
|
|
directory may be re-sized in, i.e. in which sensible range the `diskSize` value
|
|
should be kept.
|
|
|
|
`state` → A string indicating the current state of the home directory. The
|
|
precise set of values exposed here are up to the service managing the home
|
|
directory to define (i.e. are up to the service identified with the `service`
|
|
field below). However, it is recommended to stick to a basic vocabulary here:
|
|
`inactive` for a home directory currently not mounted, `absent` for a home
|
|
directory that cannot be mounted currently because it does not exist on the
|
|
local system, `active` for a home directory that is currently mounted and
|
|
accessible.
|
|
|
|
`service` → A string identifying the service that manages this user record. For
|
|
example `systemd-homed.service` sets this to `io.systemd.Home` to all user
|
|
records it manages. This is particularly relevant to define clearly the context
|
|
in which `state` lives, see above. Note that this field also exists on the
|
|
top-level object (i.e. in the `regular` section), which it overrides. The
|
|
`regular` field should be used if conceptually the user record can only be
|
|
managed by the specified service, and this `status` field if it can
|
|
conceptually be managed by different managers, but currently is managed by the
|
|
specified one.
|
|
|
|
`signedLocally` → A boolean. If true indicates that the user record is signed
|
|
by a public key for which the private key is available locally. This means that
|
|
the user record may be modified locally as it can be re-signed with the private
|
|
key. If false indicates that the user record is signed by a public key
|
|
recognized by the local manager but whose private key is not available
|
|
locally. This means the user record cannot be modified locally as it couldn't
|
|
be signed afterwards.
|
|
|
|
`goodAuthenticationCounter` → An unsigned 64bit integer. This counter is
|
|
increased by one on every successful authentication attempt, i.e. an
|
|
authentication attempt where a security token of some form was presented and it
|
|
was correct.
|
|
|
|
`badAuthenticationCounter` → An unsigned 64bit integer. This counter is
|
|
increased by one on every unsuccessfully authentication attempt, i.e. an
|
|
authentication attempt where a security token of some form was presented and it
|
|
was incorrect.
|
|
|
|
`lastGoodAuthenticationUSec` → An unsigned 64bit integer, indicating the time
|
|
of the last successful authentication attempt in µs since the UNIX epoch (1970).
|
|
|
|
`lastBadAuthenticationUSec` → Similar, but the timestamp of the last
|
|
unsuccessfully authentication attempt.
|
|
|
|
`rateLimitBeginUSec` → An unsigned 64bit integer: the µs timestamp since the
|
|
UNIX epoch (1970) where the most recent rate limiting interval has been
|
|
started, as configured with `rateLimitIntervalUSec`.
|
|
|
|
`rateLimitCount` → An unsigned 64bit integer, counting the authentication
|
|
attempts in the current rate limiting interval, see above. If this counter
|
|
grows beyond the value configured in `rateLimitBurst` authentication attempts
|
|
are temporarily refused.
|
|
|
|
`removable` → A boolean value. If true the manager of this user record
|
|
determined the home directory being on removable media. If false it was
|
|
determined the home directory is in internal built-in media. (This is used by
|
|
`systemd-logind.service` to automatically pick the right default value for
|
|
`stopDelayUSec` if the field is not explicitly specified: for home directories
|
|
on removable media the delay is selected very low to minimize the chance the
|
|
home directory remains in unclean state if the storage device is removed from
|
|
the system by the user).
|
|
|
|
## Fields in the `signature` section
|
|
|
|
As mentioned, the `signature` section of the user record may contain one or
|
|
more cryptographic signatures of the user record. Like all others, this section
|
|
is optional, and only used when cryptographic validation of user records shall
|
|
be used. Specifically, all user records managed by `systemd-homed.service` will
|
|
carry such signatures and the service refuses managing user records that come
|
|
without signature or with signatures not recognized by any locally defined
|
|
public key.
|
|
|
|
The `signature` field in the top-level user record object is an array of
|
|
objects. Each object encapsulates one signature and has two fields: `data` and
|
|
`key` (both are strings). The `data` field contains the actual signature,
|
|
encoded in Base64, the `key` field contains a copy of the public key whose
|
|
private key was used to make the signature, in PEM format. Currently only
|
|
signatures with Ed25519 keys are defined.
|
|
|
|
Before signing the user record should be brought into "normalized" form,
|
|
i.e. the keys in all objects should be sorted alphabetically. All redundant
|
|
white-space and newlines should be removed and the JSON text then signed.
|
|
|
|
The signatures only cover the `regular`, `perMachine` and `privileged` sections
|
|
of the user records, all other sections (include `signature` itself), are
|
|
removed before the signature is calculated.
|
|
|
|
Rationale for signing and threat model: while a multi-user operating system
|
|
like Linux strives for being sufficiently secure even after a user acquired a
|
|
local login session reality tells us this is not the case. Hence it is
|
|
essential to restrict carefully which users may gain access to a system and
|
|
which ones shall not. A minimal level of trust must be established between
|
|
system, user record and the user themselves before a log-in request may be
|
|
permitted. In particular if the home directory is provided in its own LUKS2
|
|
encapsulated file system it is essential this trust is established before the
|
|
user logs in (and hence the file system mounted), since file system
|
|
implementations on Linux are well known to be relatively vulnerable to rogue
|
|
disk images. User records and home directories in many context are expected to
|
|
be something shareable between multiple systems, and the transfer between them
|
|
might not happen via exclusively trusted channels. Hence it's essential that
|
|
the user record is not manipulated between uses. Finally, resource management
|
|
(which may be done by the various fields of the user record) is security
|
|
sensitive, since it should forcefully lock the user into the assigned resource
|
|
usage and not allow them to use more. The requirement of being able to trust
|
|
the user record data combined with the potential transfer over untrusted
|
|
channels suggest a cryptographic signature mechanism where only user records
|
|
signed by a recognized key are permitted to log in locally.
|
|
|
|
Note that other mechanisms for establishing sufficient trust exist too, and are
|
|
perfectly valid as well. For example, systems like LDAP/ActiveDirectory
|
|
generally insist on user record transfer from trusted servers via encrypted TLS
|
|
channels only. Or traditional UNIX users created locally in `/etc/passwd` never
|
|
exist outside of the local trusted system, hence transfer and trust in the
|
|
source are not an issue. The major benefit of operating with signed user
|
|
records is that they are self-sufficiently trusted, not relying on a secure
|
|
channel for transfer, and thus being compatible with a more distributed model
|
|
of home directory transfer, including on USB sticks and such.
|
|
|
|
## Fields in the `secret` section
|
|
|
|
As mentioned, the `secret` section of the user record should never be persisted
|
|
nor transferred across machines. It is only defined in short-lived operations,
|
|
for example when a user record is first created or registered, as the secret
|
|
key data needs to be available to derive encryption keys from and similar.
|
|
|
|
The `secret` field of the top-level user record contains the following fields:
|
|
|
|
`password` → an array of strings, each containing a plain text password.
|
|
|
|
`tokenPin` → an array of strings, each containing a plain text PIN, suitable
|
|
for unlocking security tokens that require that. (The field `pkcs11Pin` should
|
|
be considered a compatibility alias for this field, and merged with `tokenPin`
|
|
in case both are set.)
|
|
|
|
`pkcs11ProtectedAuthenticationPathPermitted` → a boolean. If set to true allows
|
|
the receiver to use the PKCS#11 "protected authentication path" (i.e. a
|
|
physical button/touch element on the security token) for authenticating the
|
|
user. If false or unset, authentication this way shall not be attempted.
|
|
|
|
`fido2UserPresencePermitted` → a boolean. If set to true allows the receiver to
|
|
use the FIDO2 "user presence" flag. This is similar to the concept of
|
|
`pkcs11ProtectedAuthenticationPathPermitted`, but exposes the FIDO2 "up"
|
|
concept behind it. If false or unset authentication this way shall not be
|
|
attempted.
|
|
|
|
`fido2UserVerificationPermitted` → a boolean. If set to true allows the
|
|
receiver to use the FIDO2 "user verification" flag. This is similar to the
|
|
concept of `pkcs11ProtectedAuthenticationPathPermitted`, but exposes the FIDO2
|
|
"uv" concept behind it. If false or unset authentication this way shall not be
|
|
attempted.
|
|
|
|
## Mapping to `struct passwd` and `struct spwd`
|
|
|
|
When mapping classic UNIX user records (i.e. `struct passwd` and `struct spwd`)
|
|
to JSON user records the following mappings should be applied:
|
|
|
|
| Structure | Field | Section | Field | Condition |
|
|
|-----------------|-------------|--------------|------------------------------|----------------------------|
|
|
| `struct passwd` | `pw_name` | `regular` | `userName` | |
|
|
| `struct passwd` | `pw_passwd` | `privileged` | `password` | (See notes below) |
|
|
| `struct passwd` | `pw_uid` | `regular` | `uid` | |
|
|
| `struct passwd` | `pw_gid` | `regular` | `gid` | |
|
|
| `struct passwd` | `pw_gecos` | `regular` | `realName` | |
|
|
| `struct passwd` | `pw_dir` | `regular` | `homeDirectory` | |
|
|
| `struct passwd` | `pw_shell` | `regular` | `shell` | |
|
|
| `struct spwd` | `sp_namp` | `regular` | `userName` | |
|
|
| `struct spwd` | `sp_pwdp` | `privileged` | `password` | (See notes below) |
|
|
| `struct spwd` | `sp_lstchg` | `regular` | `lastPasswordChangeUSec` | (if `sp_lstchg` > 0) |
|
|
| `struct spwd` | `sp_lstchg` | `regular` | `passwordChangeNow` | (if `sp_lstchg` == 0) |
|
|
| `struct spwd` | `sp_min` | `regular` | `passwordChangeMinUSec` | |
|
|
| `struct spwd` | `sp_max` | `regular` | `passwordChangeMaxUSec` | |
|
|
| `struct spwd` | `sp_warn` | `regular` | `passwordChangeWarnUSec` | |
|
|
| `struct spwd` | `sp_inact` | `regular` | `passwordChangeInactiveUSec` | |
|
|
| `struct spwd` | `sp_expire` | `regular` | `locked` | (if `sp_expire` in [0, 1]) |
|
|
| `struct spwd` | `sp_expire` | `regular` | `notAfterUSec` | (if `sp_expire` > 1) |
|
|
|
|
At this time almost all Linux machines employ shadow passwords, thus the
|
|
`pw_passwd` field in `struct passwd` is set to `"x"`, and the actual password
|
|
is stored in the shadow entry `struct spwd`'s field `sp_pwdp`.
|
|
|
|
## Extending These Records
|
|
|
|
User records following this specifications are supposed to be extendable for
|
|
various applications. In general, subsystems are free to introduce their own
|
|
keys, as long as:
|
|
|
|
* Care should be taken to place the keys in the right section, i.e. the most
|
|
appropriate for the data field.
|
|
|
|
* Care should be taken to avoid namespace clashes. Please prefix your fields
|
|
with a short identifier of your project to avoid ambiguities and
|
|
incompatibilities.
|
|
|
|
* This specification is supposed to be a living specification. If you need
|
|
additional fields, please consider submitting them upstream for inclusion in
|
|
this specification. If they are reasonably universally useful, it would be
|
|
best to list them here.
|
|
|
|
## Examples
|
|
|
|
The shortest valid user record looks like this:
|
|
|
|
```json
|
|
{
|
|
"userName" : "u"
|
|
}
|
|
```
|
|
|
|
A reasonable user record for a system user might look like this:
|
|
|
|
```json
|
|
{
|
|
"userName" : "httpd",
|
|
"uid" : 473,
|
|
"gid" : 473,
|
|
"disposition" : "system",
|
|
"locked" : true
|
|
}
|
|
```
|
|
|
|
A fully featured user record associated with a home directory managed by
|
|
`systemd-homed.service` might look like this:
|
|
|
|
```json
|
|
{
|
|
"autoLogin" : true,
|
|
"binding" : {
|
|
"15e19cf24e004b949ddaac60c74aa165" : {
|
|
"fileSystemType" : "ext4",
|
|
"fileSystemUuid" : "758e88c8-5851-4a2a-b88f-e7474279c111",
|
|
"gid" : 60232,
|
|
"homeDirectory" : "/home/grobie",
|
|
"imagePath" : "/home/grobie.home",
|
|
"luksCipher" : "aes",
|
|
"luksCipherMode" : "xts-plain64",
|
|
"luksUuid" : "e63581ba-79fb-4226-b9de-1888393f7573",
|
|
"luksVolumeKeySize" : 32,
|
|
"partitionUuid" : "41f9ce04-c827-4b74-a981-c669f93eb4dc",
|
|
"storage" : "luks",
|
|
"uid" : 60232
|
|
}
|
|
},
|
|
"disposition" : "regular",
|
|
"enforcePasswordPolicy" : false,
|
|
"lastChangeUSec" : 1565950024279735,
|
|
"memberOf" : [
|
|
"wheel"
|
|
],
|
|
"privileged" : {
|
|
"hashedPassword" : [
|
|
"$6$WHBKvAFFT9jKPA4k$OPY4D4TczKN/jOnJzy54DDuOOagCcvxxybrwMbe1SVdm.Bbr.zOmBdATp.QrwZmvqyr8/SafbbQu.QZ2rRvDs/"
|
|
]
|
|
},
|
|
"signature" : [
|
|
{
|
|
"data" : "LU/HeVrPZSzi3MJ0PVHwD5m/xf51XDYCrSpbDRNBdtF4fDVhrN0t2I2OqH/1yXiBidXlV0ptMuQVq8KVICdEDw==",
|
|
"key" : "-----BEGIN PUBLIC KEY-----\nMCowBQYDK2VwAyEA/QT6kQWOAMhDJf56jBmszEQQpJHqDsGDMZOdiptBgRk=\n-----END PUBLIC KEY-----\n"
|
|
}
|
|
],
|
|
"userName" : "grobie",
|
|
"status" : {
|
|
"15e19cf24e004b949ddaac60c74aa165" : {
|
|
"goodAuthenticationCounter" : 16,
|
|
"lastGoodAuthenticationUSec" : 1566309343044322,
|
|
"rateLimitBeginUSec" : 1566309342340723,
|
|
"rateLimitCount" : 1,
|
|
"state" : "inactive",
|
|
"service" : "io.systemd.Home",
|
|
"diskSize" : 161118667776,
|
|
"diskCeiling" : 190371729408,
|
|
"diskFloor" : 5242880,
|
|
"signedLocally" : true
|
|
}
|
|
}
|
|
}
|
|
```
|
|
|
|
When `systemd-homed.service` manages a home directory it will also include a
|
|
version of the user record in the home directory itself in the `~/.identity`
|
|
file. This version lacks the `binding` and `status` sections which are used for
|
|
local management of the user, but are not intended to be portable between
|
|
systems. It would hence look like this:
|
|
|
|
```json
|
|
{
|
|
"autoLogin" : true,
|
|
"disposition" : "regular",
|
|
"enforcePasswordPolicy" : false,
|
|
"lastChangeUSec" : 1565950024279735,
|
|
"memberOf" : [
|
|
"wheel"
|
|
],
|
|
"privileged" : {
|
|
"hashedPassword" : [
|
|
"$6$WHBKvAFFT9jKPA4k$OPY4D4TczKN/jOnJzy54DDuOOagCcvxxybrwMbe1SVdm.Bbr.zOmBdATp.QrwZmvqyr8/SafbbQu.QZ2rRvDs/"
|
|
]
|
|
},
|
|
"signature" : [
|
|
{
|
|
"data" : "LU/HeVrPZSzi3MJ0PVHwD5m/xf51XDYCrSpbDRNBdtF4fDVhrN0t2I2OqH/1yXiBidXlV0ptMuQVq8KVICdEDw==",
|
|
"key" : "-----BEGIN PUBLIC KEY-----\nMCowBQYDK2VwAyEA/QT6kQWOAMhDJf56jBmszEQQpJHqDsGDMZOdiptBgRk=\n-----END PUBLIC KEY-----\n"
|
|
}
|
|
],
|
|
"userName" : "grobie",
|
|
}
|
|
```
|