NAME

sss_cache - perform cache cleanup

SYNOPSIS

sss_cache [ options]

DESCRIPTION

sss_cache invalidates records in SSSD cache. Invalidated records are forced to be reloaded from server as soon as related SSSD backend is online. Options that invalidate a single object only accept a single provided argument.

OPTIONS

-E,--everything
Invalidate all cached entries.
-u,--user login
Invalidate specific user.
-U,--users
Invalidate all user records. This option overrides invalidation of specific user if it was also set.
-g,--group group
Invalidate specific group.
-G,--groups
Invalidate all group records. This option overrides invalidation of specific group if it was also set.
-n,--netgroup netgroup
Invalidate specific netgroup.
-N,--netgroups
Invalidate all netgroup records. This option overrides invalidation of specific netgroup if it was also set.
-s,--service service
Invalidate specific service.
-S,--services
Invalidate all service records. This option overrides invalidation of specific service if it was also set.
-a,--autofs-map autofs-map
Invalidate specific autofs maps.
-A,--autofs-maps
Invalidate all autofs maps. This option overrides invalidation of specific map if it was also set.
-h,--ssh-host hostname
Invalidate SSH public keys of a specific host.
-H,--ssh-hosts
Invalidate SSH public keys of all hosts. This option overrides invalidation of SSH public keys of specific host if it was also set.
-r,--sudo-rule rule
Invalidate particular sudo rule.
-R,--sudo-rules
Invalidate all cached sudo rules. This option overrides invalidation of specific sudo rule if it was also set.
-d,--domain domain
Restrict invalidation process only to a particular domain.
-?,--help
Display help message and exit.

EFFECTS ON THE FAST MEMORY CACHE

sss_cache also invalidates the memory cache. Since the memory cache is a file which is mapped into the memory of each process which called SSSD to resolve users or groups the file cannot be truncated. A special flag is set in the header of the file to indicate that the content is invalid and then the file is unlinked by SSSD's NSS responder and a new cache file is created. Whenever a process is now doing a new lookup for a user or a group it will see the flag, close the old memory cache file and map the new one into its memory. When all processes which had opened the old memory cache file have closed it while looking up a user or a group the kernel can release the occupied disk space and the old memory cache file is finally removed completely.
A special case is long running processes which are doing user or group lookups only at startup, e.g. to determine the name of the user the process is running as. For those lookups the memory cache file is mapped into the memory of the process. But since there will be no further lookups this process would never detect if the memory cache file was invalidated and hence it will be kept in memory and will occupy disk space until the process stops. As a result calling sss_cache might increase the disk usage because old memory cache files cannot be removed from the disk because they are still mapped by long running processes.
A possible work-around for long running processes which are looking up users and groups only at startup or very rarely is to run them with the environment variable SSS_NSS_USE_MEMCACHE set to "NO" so that they won't use the memory cache at all and not map the memory cache file into the memory. In general a better solution is to tune the cache timeout parameters so that they meet the local expectations and calling sss_cache is not needed.

SEE ALSO

sssd(8), sssd.conf(5), sssd-ldap(5), sssd-krb5(5), sssd-simple(5), sssd-ipa(5), sssd-ad(5), sssd-files(5), sssd-sudo(5), sssd-session-recording(5), , sss_debuglevel(8), sss_obfuscate(8), sss_seed(8), sssd_krb5_locator_plugin(8), sss_ssh_authorizedkeys(8), sss_ssh_knownhostsproxy(8), sssd-ifp(5), pam_sss(8). sss_rpcidmapd(5) sssd-systemtap(5)

AUTHORS

The SSSD upstream - https://github.com/SSSD/sssd/