Provided by: systemd_245.4-4ubuntu3.24_amd64 bug

NAME

       tmpfiles.d - Configuration for creation, deletion and cleaning of volatile and temporary
       files

SYNOPSIS

       /etc/tmpfiles.d/*.conf
       /run/tmpfiles.d/*.conf
       /usr/lib/tmpfiles.d/*.conf

       ~/.config/user-tmpfiles.d/*.conf
       $XDG_RUNTIME_DIR/user-tmpfiles.d/*.conf
       ~/.local/share/user-tmpfiles.d/*.conf
       ...
       /usr/share/user-tmpfiles.d/*.conf

       #Type Path                                     Mode User Group Age         Argument
       f     /file/to/create                          mode user group -           content
       f+    /file/to/create-or-truncate              mode user group -           content
       w     /file/to/write-to                        -    -    -     -           content
       w+    /file/to/append-to                       -    -    -     -           content
       d     /directory/to/create-and-cleanup         mode user group cleanup-age -
       D     /directory/to/create-and-remove          mode user group cleanup-age -
       e     /directory/to/cleanup                    mode user group cleanup-age -
       v     /subvolume-or-directory/to/create        mode user group -           -
       q     /subvolume-or-directory/to/create        mode user group -           -
       Q     /subvolume-or-directory/to/create        mode user group -           -
       p     /fifo/to/create                          mode user group -           -
       p+    /fifo/to/[re]create                      mode user group -           -
       L     /symlink/to/create                       -    -    -     -           symlink/target/path
       L+    /symlink/to/[re]create                   -    -    -     -           symlink/target/path
       c     /dev/char-device-to-create               mode user group -           major:minor
       c+    /dev/char-device-to-[re]create           mode user group -           major:minor
       b     /dev/block-device-to-create              mode user group -           major:minor
       b+    /dev/block-device-to-[re]create          mode user group -           major:minor
       C     /target/to/create                        -    -    -     -           /source/to/copy
       x     /path-or-glob/to/ignore                  -    -    -     -           -
       X     /path-or-glob/to/ignore/recursively      -    -    -     -           -
       r     /empty/dir/to/remove                     -    -    -     -           -
       R     /dir/to/remove/recursively               -    -    -     -           -
       z     /path-or-glob/to/adjust/mode             mode user group -           -
       Z     /path-or-glob/to/adjust/mode/recursively mode user group -           -
       t     /path-or-glob/to/set/xattrs              -    -    -     -           xattrs
       T     /path-or-glob/to/set/xattrs/recursively  -    -    -     -           xattrs
       h     /path-or-glob/to/set/attrs               -    -    -     -           file attrs
       H     /path-or-glob/to/set/attrs/recursively   -    -    -     -           file attrs
       a     /path-or-glob/to/set/acls                -    -    -     -           POSIX ACLs
       a+    /path-or-glob/to/append/acls             -    -    -     -           POSIX ACLs
       A     /path-or-glob/to/set/acls/recursively    -    -    -     -           POSIX ACLs
       A+    /path-or-glob/to/append/acls/recursively -    -    -     -           POSIX ACLs

DESCRIPTION

       tmpfiles.d configuration files provide a generic mechanism to define the creation of
       regular files, directories, pipes, and device nodes, adjustments to their access mode,
       ownership, attributes, quota assignments, and contents, and finally their time-based
       removal. It is mostly commonly used for volatile and temporary files and directories (such
       as those located under /run, /tmp, /var/tmp, the API file systems such as /sys or /proc,
       as well as some other directories below /var).

       systemd-tmpfiles uses this configuration to create volatile files and directories during
       boot and to do periodic cleanup afterwards. See systemd-tmpfiles(5) for the description of
       systemd-tmpfiles-setup.service, systemd-tmpfiles-cleanup.service, and associated units.

       System daemons frequently require private runtime directories below /run to store
       communication sockets and similar. For these, it is better to use RuntimeDirectory= in
       their unit files (see systemd.exec(5) for details), if the flexibility provided by
       tmpfiles.d is not required. The advantages are that the configuration required by the unit
       is centralized in one place, and that the lifetime of the directory is tied to the
       lifetime of the service itself. Similarly, StateDirectory=, CacheDirectory=,
       LogsDirectory=, and ConfigurationDirectory= should be used to create directories under
       /var/lib/, /var/cache/, /var/log/, and /etc/.  tmpfiles.d should be used for files whose
       lifetime is independent of any service or requires more complicated configuration.

CONFIGURATION DIRECTORIES AND PRECEDENCE

       Each configuration file shall be named in the style of package.conf or package-part.conf.
       The second variant should be used when it is desirable to make it easy to override just
       this part of configuration.

       Files in /etc/tmpfiles.d override files with the same name in /usr/lib/tmpfiles.d and
       /run/tmpfiles.d. Files in /run/tmpfiles.d override files with the same name in
       /usr/lib/tmpfiles.d. Packages should install their configuration files in
       /usr/lib/tmpfiles.d. Files in /etc/tmpfiles.d are reserved for the local administrator,
       who may use this logic to override the configuration files installed by vendor packages.
       All configuration files are sorted by their filename in lexicographic order, regardless of
       which of the directories they reside in. If multiple files specify the same path, the
       entry in the file with the lexicographically earliest name will be applied. All other
       conflicting entries will be logged as errors. When two lines are prefix path and suffix
       path of each other, then the prefix line is always created first, the suffix later (and if
       removal applies to the line, the order is reversed: the suffix is removed first, the
       prefix later). Lines that take globs are applied after those accepting no globs. If
       multiple operations shall be applied on the same file (such as ACL, xattr, file attribute
       adjustments), these are always done in the same fixed order. Except for those cases, the
       files/directories are processed in the order they are listed.

       If the administrator wants to disable a configuration file supplied by the vendor, the
       recommended way is to place a symlink to /dev/null in /etc/tmpfiles.d/ bearing the same
       filename.

CONFIGURATION FILE FORMAT

       The configuration format is one line per path containing type, path, mode, ownership, age,
       and argument fields:

           #Type Path        Mode User Group Age Argument
           d     /run/user   0755 root root  10d -
           L     /tmp/foobar -    -    -     -   /dev/null

       Fields may be enclosed within quotes and contain C-style escapes.

   Type
       The type consists of a single letter and optionally an exclamation mark and/or minus sign.

       The following line types are understood:

       f, f+
           f will create a file if it does not exist yet. If the argument parameter is given and
           the file did not exist yet, it will be written to the file.  f+ will create or
           truncate the file. If the argument parameter is given, it will be written to the file.
           Does not follow symlinks.

       w, w+
           Write the argument parameter to a file, if the file exists. If suffixed with +, the
           line will be appended to the file. If your configuration writes multiple lines to the
           same file, use w+. Lines of this type accept shell-style globs in place of normal path
           names. The argument parameter will be written without a trailing newline. C-style
           backslash escapes are interpreted. Follows symlinks.

       d
           Create a directory. The mode and ownership will be adjusted if specified. Contents of
           this directory are subject to time based cleanup if the age argument is specified.

       D
           Similar to d, but in addition the contents of the directory will be removed when
           --remove is used.

       e
           Adjust the mode and ownership of existing directories and remove their contents based
           on age. Lines of this type accept shell-style globs in place of normal path names.
           Contents of the directories are subject to time based cleanup if the age argument is
           specified. If the age argument is "0", contents will be unconditionally deleted every
           time systemd-tmpfiles --clean is run.

           For this entry to be useful, at least one of the mode, user, group, or age arguments
           must be specified, since otherwise this entry has no effect. As an exception, an entry
           with no effect may be useful when combined with !, see the examples.

       v
           Create a subvolume if the path does not exist yet, the file system supports subvolumes
           (btrfs), and the system itself is installed into a subvolume (specifically: the root
           directory / is itself a subvolume). Otherwise, create a normal directory, in the same
           way as d.

           A subvolume created with this line type is not assigned to any higher-level quota
           group. For that, use q or Q, which allow creating simple quota group hierarchies, see
           below.

       q
           Create a subvolume or directory the same as v, but assign the subvolume to the same
           higher-level quota groups as the parent. This ensures that higher-level limits and
           accounting applied to the parent subvolume also include the specified subvolume. On
           non-btrfs file systems, this line type is identical to d.

           If the subvolume already exists, no change to the quota hierarchy is made, regardless
           of whether the subvolume is already attached to a quota group or not. Also see Q
           below. See btrfs-qgroup(8) for details about the btrfs quota group concept.

       Q
           Create the subvolume or directory the same as v, but assign the new subvolume to a new
           leaf quota group. Instead of copying the higher-level quota group assignments from the
           parent as is done with q, the lowest quota group of the parent subvolume is determined
           that is not the leaf quota group. Then, an "intermediary" quota group is inserted that
           is one level below this level, and shares the same ID part as the specified subvolume.
           If no higher-level quota group exists for the parent subvolume, a new quota group at
           level 255 sharing the same ID as the specified subvolume is inserted instead. This new
           intermediary quota group is then assigned to the parent subvolume's higher-level quota
           groups, and the specified subvolume's leaf quota group is assigned to it.

           Effectively, this has a similar effect as q, however introduces a new higher-level
           quota group for the specified subvolume that may be used to enforce limits and
           accounting to the specified subvolume and children subvolume created within it. Thus,
           by creating subvolumes only via q and Q, a concept of "subtree quotas" is implemented.
           Each subvolume for which Q is set will get a "subtree" quota group created, and all
           child subvolumes created within it will be assigned to it. Each subvolume for which q
           is set will not get such a "subtree" quota group, but it is ensured that they are
           added to the same "subtree" quota group as their immediate parents.

           It is recommended to use Q for subvolumes that typically contain further subvolumes,
           and where it is desirable to have accounting and quota limits on all child subvolumes
           together. Examples for Q are typically /home or /var/lib/machines. In contrast, q
           should be used for subvolumes that either usually do not include further subvolumes or
           where no accounting and quota limits are needed that apply to all child subvolumes
           together. Examples for q are typically /var or /var/tmp.

           As with q, Q has no effect on the quota group hierarchy if the subvolume already
           exists, regardless of whether the subvolume already belong to a quota group or not.

       p, p+
           Create a named pipe (FIFO) if it does not exist yet. If suffixed with + and a file
           already exists where the pipe is to be created, it will be removed and be replaced by
           the pipe.

       L, L+
           Create a symlink if it does not exist yet. If suffixed with + and a file or directory
           already exists where the symlink is to be created, it will be removed and be replaced
           by the symlink. If the argument is omitted, symlinks to files with the same name
           residing in the directory /usr/share/factory/ are created. Note that permissions and
           ownership on symlinks are ignored.

       c, c+
           Create a character device node if it does not exist yet. If suffixed with + and a file
           already exists where the device node is to be created, it will be removed and be
           replaced by the device node. It is recommended to suffix this entry with an
           exclamation mark to only create static device nodes at boot, as udev will not manage
           static device nodes that are created at runtime.

       b, b+
           Create a block device node if it does not exist yet. If suffixed with + and a file
           already exists where the device node is to be created, it will be removed and be
           replaced by the device node. It is recommended to suffix this entry with an
           exclamation mark to only create static device nodes at boot, as udev will not manage
           static device nodes that are created at runtime.

       C
           Recursively copy a file or directory, if the destination files or directories do not
           exist yet or the destination directory is empty. Note that this command will not
           descend into subdirectories if the destination directory already exists and is not
           empty. Instead, the entire copy operation is skipped. If the argument is omitted,
           files from the source directory /usr/share/factory/ with the same name are copied.
           Does not follow symlinks.

       x
           Ignore a path during cleaning. Use this type to exclude paths from clean-up as
           controlled with the Age parameter. Note that lines of this type do not influence the
           effect of r or R lines. Lines of this type accept shell-style globs in place of normal
           path names.

       X
           Ignore a path during cleaning. Use this type to exclude paths from clean-up as
           controlled with the Age parameter. Unlike x, this parameter will not exclude the
           content if path is a directory, but only directory itself. Note that lines of this
           type do not influence the effect of r or R lines. Lines of this type accept
           shell-style globs in place of normal path names.

       r
           Remove a file or directory if it exists. This may not be used to remove non-empty
           directories, use R for that. Lines of this type accept shell-style globs in place of
           normal path names. Does not follow symlinks.

       R
           Recursively remove a path and all its subdirectories (if it is a directory). Lines of
           this type accept shell-style globs in place of normal path names. Does not follow
           symlinks.

       z
           Adjust the access mode, user and group ownership, and restore the SELinux security
           context of a file or directory, if it exists. Lines of this type accept shell-style
           globs in place of normal path names. Does not follow symlinks.

       Z
           Recursively set the access mode, user and group ownership, and restore the SELinux
           security context of a file or directory if it exists, as well as of its subdirectories
           and the files contained therein (if applicable). Lines of this type accept shell-style
           globs in place of normal path names. Does not follow symlinks.

       t
           Set extended attributes, see attr(5) for details. The argument field should take one
           or more assignment expressions in the form namespace.attribute=value, for examples see
           below. Lines of this type accept shell-style globs in place of normal path names. This
           can be useful for setting SMACK labels. Does not follow symlinks.

           Please note that extended attributes settable with this line type are a different
           concept from the Linux file attributes settable with h/H, see below.

       T
           Same as t, but operates recursively.

       h
           Set Linux file/directory attributes. Lines of this type accept shell-style globs in
           place of normal path names.

           The format of the argument field is [+-=][aAcCdDeijPsStTu]. The prefix + (the default
           one) causes the attribute(s) to be added; - causes the attribute(s) to be removed; =
           causes the attributes to be set exactly as the following letters. The letters
           "aAcCdDeijPsStTu" select the new attributes for the files, see chattr(1) for further
           information.

           Passing only = as argument resets all the file attributes listed above. It has to be
           pointed out that the = prefix limits itself to the attributes corresponding to the
           letters listed here. All other attributes will be left untouched. Does not follow
           symlinks.

           Please note that the Linux file attributes settable with this line type are a
           different concept from the extended attributes settable with t/T, see above.

       H
           Sames as h, but operates recursively.

       a, a+
           Set POSIX ACLs (access control lists), see acl(5). If suffixed with +, the specified
           entries will be added to the existing set.  systemd-tmpfiles will automatically add
           the required base entries for user and group based on the access mode of the file,
           unless base entries already exist or are explicitly specified. The mask will be added
           if not specified explicitly or already present. Lines of this type accept shell-style
           globs in place of normal path names. This can be useful for allowing additional access
           to certain files. Does not follow symlinks.

       A, A+
           Same as a and a+, but recursive. Does not follow symlinks.

       If the exclamation mark is used, this line is only safe to execute during boot, and can
       break a running system. Lines without the exclamation mark are presumed to be safe to
       execute at any time, e.g. on package upgrades.  systemd-tmpfiles will execute line with an
       exclamation mark only if option --boot is given.

       For example:

           # Make sure these are created by default so that nobody else can
           d /tmp/.X11-unix 1777 root root 10d

           # Unlink the X11 lock files
           r! /tmp/.X[0-9]*-lock

       The second line in contrast to the first one would break a running system, and will only
       be executed with --boot.

       If the minus sign is used, this line failing to run successfully during create (and only
       create) will not cause the execution of systemd-tmpfiles to return an error.

       For example:

           # Modify sysfs but don't fail if we are in a container with a read-only /proc
           w- /proc/sys/vm/swappiness - - - - 10

       Note that for all line types that result in creation of any kind of file node (i.e.  f/F,
       d/D/v/q/Q, p, L, c/b and C) leading directories are implicitly created if needed, owned by
       root with an access mode of 0755. In order to create them with different modes or
       ownership make sure to add appropriate d lines.

   Path
       The file system path specification supports simple specifier expansion, see below. The
       path (after expansion) must be absolute.

   Mode
       The file access mode to use when creating this file or directory. If omitted or when set
       to "-", the default is used: 0755 for directories, 0644 for all other file objects. For z,
       Z lines, if omitted or when set to "-", the file access mode will not be modified. This
       parameter is ignored for x, r, R, L, t, and a lines.

       Optionally, if prefixed with "~", the access mode is masked based on the already set
       access bits for existing file or directories: if the existing file has all executable bits
       unset, all executable bits are removed from the new access mode, too. Similarly, if all
       read bits are removed from the old access mode, they will be removed from the new access
       mode too, and if all write bits are removed, they will be removed from the new access mode
       too. In addition, the sticky/SUID/SGID bit is removed unless applied to a directory. This
       functionality is particularly useful in conjunction with Z.

   User, Group
       The user and group to use for this file or directory. This may either be a numeric ID or a
       user/group name. If omitted or when set to "-", the user and group of the user who invokes
       systemd-tmpfiles is used. For z and Z lines, when omitted or when set to "-", the file
       ownership will not be modified. These parameters are ignored for x, r, R, L, t, and a
       lines.

       This field should generally only reference system users/groups, i.e. users/groups that are
       guaranteed to be resolvable during early boot. If this field references users/groups that
       only become resolveable during later boot (i.e. after NIS, LDAP or a similar networked
       directory service become available), execution of the operations declared by the line will
       likely fail. Also see Notes on Resolvability of User and Group Names[1] for more
       information on requirements on system user/group definitions.

   Age
       The date field, when set, is used to decide what files to delete when cleaning. If a file
       or directory is older than the current time minus the age field, it is deleted. The field
       format is a series of integers each followed by one of the following suffixes for the
       respective time units: s, m or min, h, d, w, ms, and us, meaning seconds, minutes, hours,
       days, weeks, milliseconds, and microseconds, respectively. Full names of the time units
       can be used too.

       If multiple integers and units are specified, the time values are summed. If an integer is
       given without a unit, s is assumed.

       When the age is set to zero, the files are cleaned unconditionally.

       The age field only applies to lines starting with d, D, e, v, q, Q, C, x and X. If omitted
       or set to "-", no automatic clean-up is done.

       If the age field starts with a tilde character "~", the clean-up is only applied to files
       and directories one level inside the directory specified, but not the files and
       directories immediately inside it.

       The age of a file system entry is determined from its last modification timestamp (mtime),
       its last access timestamp (atime), and (except for directories) its last status change
       timestamp (ctime). Any of these three (or two) values will prevent cleanup if it is more
       recent than the current time minus the age field.

       Note that while the aging algorithm is run a 'shared' BSD file lock (see flock(2)) is
       taken on each directory the algorithm descends into (and each directory below that, and so
       on). If the aging algorithm finds a lock is already taken on some directory, it (and
       everything below it) is skipped. Applications may use this to temporarily exclude certain
       directory subtrees from the aging algorithm: the applications can take a BSD file lock
       themselves, and as long as they keep it aging of the directory and everything below it is
       disabled.

   Argument
       For L lines determines the destination path of the symlink. For c and b, determines the
       major/minor of the device node, with major and minor formatted as integers, separated by
       ":", e.g.  "1:3". For f, F, and w, the argument may be used to specify a short string that
       is written to the file, suffixed by a newline. For C, specifies the source file or
       directory. For t and T, determines extended attributes to be set. For a and A, determines
       ACL attributes to be set. For h and H, determines the file attributes to set. Ignored for
       all other lines.

       This field can contain specifiers, see below.

SPECIFIERS

       Specifiers can be used in the "path" and "argument" fields. An unknown or unresolvable
       specifier is treated as invalid configuration. The following expansions are understood:

       Table 1. Specifiers available
       ┌──────────┬──────────────────────────┬──────────────────────────┐
       │SpecifierMeaningDetails                  │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%b"      │ Boot ID                  │ The boot ID of the       │
       │          │                          │ running system,          │
       │          │                          │ formatted as string. See │
       │          │                          │ random(4) for more       │
       │          │                          │ information.             │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%C"      │ System or user cache     │ In --user mode, this is  │
       │          │ directory                │ the same as              │
       │          │                          │ $XDG_CACHE_HOME, and     │
       │          │                          │ /var/cache otherwise.    │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%h"      │ User home directory      │ This is the home         │
       │          │                          │ directory of the user    │
       │          │                          │ running the command. In  │
       │          │                          │ case of the system       │
       │          │                          │ instance this resolves   │
       │          │                          │ to "/root".              │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%H"      │ Host name                │ The hostname of the      │
       │          │                          │ running system.          │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%L"      │ System or user log       │ In --user mode, this is  │
       │          │ directory                │ the same as              │
       │          │                          │ $XDG_CONFIG_HOME with    │
       │          │                          │ /log appended, and       │
       │          │                          │ /var/log otherwise.      │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%m"      │ Machine ID               │ The machine ID of the    │
       │          │                          │ running system,          │
       │          │                          │ formatted as string. See │
       │          │                          │ machine-id(5) for more   │
       │          │                          │ information.             │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%S"      │ System or user state     │ In --user mode, this is  │
       │          │ directory                │ the same as              │
       │          │                          │ $XDG_CONFIG_HOME, and    │
       │          │                          │ /var/lib otherwise.      │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%t"      │ System or user runtime   │ In --user mode, this is  │
       │          │ directory                │ the same                 │
       │          │                          │ $XDG_RUNTIME_DIR, and    │
       │          │                          │ /run otherwise.          │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%T"      │ Directory for temporary  │ This is either /tmp or   │
       │          │ files                    │ the path "$TMPDIR",      │
       │          │                          │ "$TEMP" or "$TMP" are    │
       │          │                          │ set to.                  │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%g"      │ User group               │ This is the name of the  │
       │          │                          │ group running the        │
       │          │                          │ command. In case of the  │
       │          │                          │ system instance this     │
       │          │                          │ resolves to "root".      │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%G"      │ User GID                 │ This is the numeric GID  │
       │          │                          │ of the group running the │
       │          │                          │ command. In case of the  │
       │          │                          │ system instance this     │
       │          │                          │ resolves to 0.           │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%u"      │ User name                │ This is the name of the  │
       │          │                          │ user running the         │
       │          │                          │ command. In case of the  │
       │          │                          │ system instance this     │
       │          │                          │ resolves to "root".      │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%U"      │ User UID                 │ This is the numeric UID  │
       │          │                          │ of the user running the  │
       │          │                          │ command. In case of the  │
       │          │                          │ system instance this     │
       │          │                          │ resolves to 0.           │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%v"      │ Kernel release           │ Identical to uname -r    │
       │          │                          │ output.                  │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%V"      │ Directory for larger and │ This is either /var/tmp  │
       │          │ persistent temporary     │ or the path "$TMPDIR",   │
       │          │ files                    │ "$TEMP" or "$TMP" are    │
       │          │                          │ set to.                  │
       ├──────────┼──────────────────────────┼──────────────────────────┤
       │"%%"      │ Escaped "%"              │ Single percent sign.     │
       └──────────┴──────────────────────────┴──────────────────────────┘

EXAMPLES

       Example 1. Create directories with specific mode and ownership

       screen(1), needs two directories created at boot with specific modes and ownership:

           # /usr/lib/tmpfiles.d/screen.conf
           d /run/screens  1777 root screen 10d
           d /run/uscreens 0755 root screen 10d12h

       Contents of /run/screens and /run/uscreens will be cleaned up after 10 and 10½ days,
       respectively.

       Example 2. Create a directory with a SMACK attribute

           D /run/cups - - - -
           t /run/cups - - - - security.SMACK64=printing user.attr-with-spaces="foo bar"

       The directory will be owned by root and have default mode. Its contents are not subject to
       time based cleanup, but will be obliterated when systemd-tmpfiles --remove runs.

       Example 3. Create a directory and prevent its contents from cleanup

       abrt(1), needs a directory created at boot with specific mode and ownership and its
       content should be preserved from the automatic cleanup applied to the contents of
       /var/tmp:

           # /usr/lib/tmpfiles.d/tmp.conf
           d /var/tmp 1777 root root 30d

           # /usr/lib/tmpfiles.d/abrt.conf
           d /var/tmp/abrt 0755 abrt abrt -

       Example 4. Apply clean up during boot and based on time

           # /usr/lib/tmpfiles.d/dnf.conf
           r! /var/cache/dnf/*/*/download_lock.pid
           r! /var/cache/dnf/*/*/metadata_lock.pid
           r! /var/lib/dnf/rpmdb_lock.pid
           e  /var/cache/dnf/ - - - 30d

       The lock files will be removed during boot. Any files and directories in /var/cache/dnf/
       will be removed after they have not been accessed in 30 days.

       Example 5. Empty the contents of a cache directory on boot

           # /usr/lib/tmpfiles.d/krb5rcache.conf
           e! /var/cache/krb5rcache - - - 0

       Any files and subdirectories in /var/cache/krb5rcache/ will be removed on boot. The
       directory will not be created.

/RUN/ AND /VAR/RUN/

       /var/run/ is a deprecated symlink to /run/, and applications should use the latter.
       systemd-tmpfiles will warn if /var/run/ is used.

SEE ALSO

       systemd(1), systemd-tmpfiles(8), systemd-delta(1), systemd.exec(5), attr(5), getfattr(1),
       setfattr(1), setfacl(1), getfacl(1), chattr(1), btrfs-subvolume(8), btrfs-qgroup(8)

NOTES

        1. Notes on Resolvability of User and Group Names
           https://systemd.io/UIDS-GIDS/#notes-on-resolvability-of-user-and-group-names