User Management¶
This document describes Ceph Client users, and their authentication and authorization with the Ceph Storage Cluster. Users are either individuals or system actors such as applications, which use Ceph clients to interact with the Ceph Storage Cluster daemons.
When Ceph runs with authentication and authorization enabled (enabled by
default), you must specify a user name and a keyring containing the secret key
of the specified user (usually via the command line). If you do not specify a
user name, Ceph will use client.admin
as the default user name. If you do
not specify a keyring, Ceph will look for a keyring via the keyring
setting
in the Ceph configuration. For example, if you execute the ceph health
command without specifying a user or keyring:
ceph health
Ceph interprets the command like this:
ceph -n client.admin --keyring=/etc/ceph/ceph.client.admin.keyring health
Alternatively, you may use the CEPH_ARGS
environment variable to avoid
re-entry of the user name and secret.
For details on configuring the Ceph Storage Cluster to use authentication, see Cephx Config Reference. For details on the architecture of Cephx, see Architecture - High Availability Authentication.
Background¶
Irrespective of the type of Ceph client (e.g., Block Device, Object Storage, Filesystem, native API, etc.), Ceph stores all data as objects within pools. Ceph users must have access to pools in order to read and write data. Additionally, Ceph users must have execute permissions to use Ceph’s administrative commands. The following concepts will help you understand Ceph user management.
User¶
A user is either an individual or a system actor such as an application. Creating users allows you to control who (or what) can access your Ceph Storage Cluster, its pools, and the data within pools.
Ceph has the notion of a type
of user. For the purposes of user management,
the type will always be client
. Ceph identifies users in period (.)
delimited form consisting of the user type and the user ID: for example,
TYPE.ID
, client.admin
, or client.user1
. The reason for user typing
is that Ceph Monitors, OSDs, and Metadata Servers also use the Cephx protocol,
but they are not clients. Distinguishing the user type helps to distinguish
between client users and other users–streamlining access control, user
monitoring and traceability.
Sometimes Ceph’s user type may seem confusing, because the Ceph command line
allows you to specify a user with or without the type, depending upon your
command line usage. If you specify --user
or --id
, you can omit the
type. So client.user1
can be entered simply as user1
. If you specify
--name
or -n
, you must specify the type and name, such as
client.user1
. We recommend using the type and name as a best practice
wherever possible.
Note
A Ceph Storage Cluster user is not the same as a Ceph Object Storage user or a Ceph Filesystem user. The Ceph Object Gateway uses a Ceph Storage Cluster user to communicate between the gateway daemon and the storage cluster, but the gateway has its own user management functionality for end users. The Ceph Filesystem uses POSIX semantics. The user space associated with the Ceph Filesystem is not the same as a Ceph Storage Cluster user.
Pool¶
A pool is a logical partition where users store data.
In Ceph deployments, it is common to create a pool as a logical partition for
similar types of data. For example, when deploying Ceph as a backend for
OpenStack, a typical deployment would have pools for volumes, images, backups
and virtual machines, and users such as client.glance
, client.cinder
,
etc.
Namespace¶
Objects within a pool can be associated to a namespace–a logical group of objects within the pool. A user’s access to a pool can be associated with a namespace such that reads and writes by the user take place only within the namespace. Objects written to a namespace within the pool can only be accessed by users who have access to the namespace.
Note
Namespaces are primarily useful for applications written on top of
librados
where the logical grouping can alleviate the need to create
different pools. Ceph Object Gateway (from luminous
) uses namespaces for various
metadata objects.
The rationale for namespaces is that pools can be a computationally expensive
method of segregating data sets for the purposes of authorizing separate sets
of users. For example, a pool should have ~100 placement groups per OSD. So an
exemplary cluster with 1000 OSDs would have 100,000 placement groups for one
pool. Each pool would create another 100,000 placement groups in the exemplary
cluster. By contrast, writing an object to a namespace simply associates the
namespace to the object name with out the computational overhead of a separate
pool. Rather than creating a separate pool for a user or set of users, you may
use a namespace. Note: Only available using librados
at this time.
Access may be restricted to specific RADOS namespaces using the namespace
capability. Limited globbing of namespaces is supported; if the last character
of the specified namespace is *
, then access is granted to any namespace
starting with the provided argument.
Managing Users¶
User management functionality provides Ceph Storage Cluster administrators with the ability to create, update and delete users directly in the Ceph Storage Cluster.
When you create or delete users in the Ceph Storage Cluster, you may need to distribute keys to clients so that they can be added to keyrings. See Keyring Management for details.
List Users¶
To list the users in your cluster, execute the following:
ceph auth ls
Ceph will list out all users in your cluster. For example, in a two-node
exemplary cluster, ceph auth ls
will output something that looks like
this:
installed auth entries:
osd.0
key: AQCvCbtToC6MDhAATtuT70Sl+DymPCfDSsyV4w==
caps: [mon] allow profile osd
caps: [osd] allow *
osd.1
key: AQC4CbtTCFJBChAAVq5spj0ff4eHZICxIOVZeA==
caps: [mon] allow profile osd
caps: [osd] allow *
client.admin
key: AQBHCbtT6APDHhAA5W00cBchwkQjh3dkKsyPjw==
caps: [mds] allow
caps: [mon] allow *
caps: [osd] allow *
client.bootstrap-mds
key: AQBICbtTOK9uGBAAdbe5zcIGHZL3T/u2g6EBww==
caps: [mon] allow profile bootstrap-mds
client.bootstrap-osd
key: AQBHCbtT4GxqORAADE5u7RkpCN/oo4e5W0uBtw==
caps: [mon] allow profile bootstrap-osd
Note that the TYPE.ID
notation for users applies such that osd.0
is a
user of type osd
and its ID is 0
, client.admin
is a user of type
client
and its ID is admin
(i.e., the default client.admin
user).
Note also that each entry has a key: <value>
entry, and one or more
caps:
entries.
You may use the -o {filename}
option with ceph auth ls
to
save the output to a file.
Get a User¶
To retrieve a specific user, key and capabilities, execute the following:
ceph auth get {TYPE.ID}
For example:
ceph auth get client.admin
You may also use the -o {filename}
option with ceph auth get
to
save the output to a file. Developers may also execute the following:
ceph auth export {TYPE.ID}
The auth export
command is identical to auth get
, but also prints
out the internal auid
, which is not relevant to end users.
Add a User¶
Adding a user creates a username (i.e., TYPE.ID
), a secret key and
any capabilities included in the command you use to create the user.
A user’s key enables the user to authenticate with the Ceph Storage Cluster.
The user’s capabilities authorize the user to read, write, or execute on Ceph
monitors (mon
), Ceph OSDs (osd
) or Ceph Metadata Servers (mds
).
There are a few ways to add a user:
ceph auth add
: This command is the canonical way to add a user. It will create the user, generate a key and add any specified capabilities.ceph auth get-or-create
: This command is often the most convenient way to create a user, because it returns a keyfile format with the user name (in brackets) and the key. If the user already exists, this command simply returns the user name and key in the keyfile format. You may use the-o {filename}
option to save the output to a file.ceph auth get-or-create-key
: This command is a convenient way to create a user and return the user’s key (only). This is useful for clients that need the key only (e.g., libvirt). If the user already exists, this command simply returns the key. You may use the-o {filename}
option to save the output to a file.
When creating client users, you may create a user with no capabilities. A user
with no capabilities is useless beyond mere authentication, because the client
cannot retrieve the cluster map from the monitor. However, you can create a
user with no capabilities if you wish to defer adding capabilities later using
the ceph auth caps
command.
A typical user has at least read capabilities on the Ceph monitor and read and write capability on Ceph OSDs. Additionally, a user’s OSD permissions are often restricted to accessing a particular pool.
ceph auth add client.john mon 'allow r' osd 'allow rw pool=liverpool'
ceph auth get-or-create client.paul mon 'allow r' osd 'allow rw pool=liverpool'
ceph auth get-or-create client.george mon 'allow r' osd 'allow rw pool=liverpool' -o george.keyring
ceph auth get-or-create-key client.ringo mon 'allow r' osd 'allow rw pool=liverpool' -o ringo.key
Important
If you provide a user with capabilities to OSDs, but you DO NOT restrict access to particular pools, the user will have access to ALL pools in the cluster!
Modify User Capabilities¶
The ceph auth caps
command allows you to specify a user and change the
user’s capabilities. Setting new capabilities will overwrite current capabilities.
To view current capabilities run ceph auth get USERTYPE.USERID
. To add
capabilities, you should also specify the existing capabilities when using the form:
ceph auth caps USERTYPE.USERID {daemon} 'allow [r|w|x|*|...] [pool={pool-name}] [namespace={namespace-name}]' [{daemon} 'allow [r|w|x|*|...] [pool={pool-name}] [namespace={namespace-name}]']
For example:
ceph auth get client.john
ceph auth caps client.john mon 'allow r' osd 'allow rw pool=liverpool'
ceph auth caps client.paul mon 'allow rw' osd 'allow rwx pool=liverpool'
ceph auth caps client.brian-manager mon 'allow *' osd 'allow *'
See Authorization (Capabilities) for additional details on capabilities.
Delete a User¶
To delete a user, use ceph auth del
:
ceph auth del {TYPE}.{ID}
Where {TYPE}
is one of client
, osd
, mon
, or mds
,
and {ID}
is the user name or ID of the daemon.
Print a User’s Key¶
To print a user’s authentication key to standard output, execute the following:
ceph auth print-key {TYPE}.{ID}
Where {TYPE}
is one of client
, osd
, mon
, or mds
,
and {ID}
is the user name or ID of the daemon.
Printing a user’s key is useful when you need to populate client software with a user’s key (e.g., libvirt).
mount -t ceph serverhost:/ mountpoint -o name=client.user,secret=`ceph auth print-key client.user`
Import a User(s)¶
To import one or more users, use ceph auth import
and
specify a keyring:
ceph auth import -i /path/to/keyring
For example:
sudo ceph auth import -i /etc/ceph/ceph.keyring
Note
The ceph storage cluster will add new users, their keys and their capabilities and will update existing users, their keys and their capabilities.
Keyring Management¶
When you access Ceph via a Ceph client, the Ceph client will look for a local
keyring. Ceph presets the keyring
setting with the following four keyring
names by default so you don’t have to set them in your Ceph configuration file
unless you want to override the defaults (not recommended):
/etc/ceph/$cluster.$name.keyring
/etc/ceph/$cluster.keyring
/etc/ceph/keyring
/etc/ceph/keyring.bin
The $cluster
metavariable is your Ceph cluster name as defined by the
name of the Ceph configuration file (i.e., ceph.conf
means the cluster name
is ceph
; thus, ceph.keyring
). The $name
metavariable is the user
type and user ID (e.g., client.admin
; thus, ceph.client.admin.keyring
).
Note
When executing commands that read or write to /etc/ceph
, you may
need to use sudo
to execute the command as root
.
After you create a user (e.g., client.ringo
), you must get the key and add
it to a keyring on a Ceph client so that the user can access the Ceph Storage
Cluster.
The User Management section details how to list, get, add, modify and delete
users directly in the Ceph Storage Cluster. However, Ceph also provides the
ceph-authtool
utility to allow you to manage keyrings from a Ceph client.
Create a Keyring¶
When you use the procedures in the Managing Users section to create users, you need to provide user keys to the Ceph client(s) so that the Ceph client can retrieve the key for the specified user and authenticate with the Ceph Storage Cluster. Ceph Clients access keyrings to lookup a user name and retrieve the user’s key.
The ceph-authtool
utility allows you to create a keyring. To create an
empty keyring, use --create-keyring
or -C
. For example:
ceph-authtool --create-keyring /path/to/keyring
When creating a keyring with multiple users, we recommend using the cluster name
(e.g., $cluster.keyring
) for the keyring filename and saving it in the
/etc/ceph
directory so that the keyring
configuration default setting
will pick up the filename without requiring you to specify it in the local copy
of your Ceph configuration file. For example, create ceph.keyring
by
executing the following:
sudo ceph-authtool -C /etc/ceph/ceph.keyring
When creating a keyring with a single user, we recommend using the cluster name,
the user type and the user name and saving it in the /etc/ceph
directory.
For example, ceph.client.admin.keyring
for the client.admin
user.
To create a keyring in /etc/ceph
, you must do so as root
. This means
the file will have rw
permissions for the root
user only, which is
appropriate when the keyring contains administrator keys. However, if you
intend to use the keyring for a particular user or group of users, ensure
that you execute chown
or chmod
to establish appropriate keyring
ownership and access.
Add a User to a Keyring¶
When you Add a User to the Ceph Storage Cluster, you can use the Get a User procedure to retrieve a user, key and capabilities and save the user to a keyring.
When you only want to use one user per keyring, the Get a User procedure with
the -o
option will save the output in the keyring file format. For example,
to create a keyring for the client.admin
user, execute the following:
sudo ceph auth get client.admin -o /etc/ceph/ceph.client.admin.keyring
Notice that we use the recommended file format for an individual user.
When you want to import users to a keyring, you can use ceph-authtool
to specify the destination keyring and the source keyring.
For example:
sudo ceph-authtool /etc/ceph/ceph.keyring --import-keyring /etc/ceph/ceph.client.admin.keyring
Create a User¶
Ceph provides the Add a User function to create a user directly in the Ceph Storage Cluster. However, you can also create a user, keys and capabilities directly on a Ceph client keyring. Then, you can import the user to the Ceph Storage Cluster. For example:
sudo ceph-authtool -n client.ringo --cap osd 'allow rwx' --cap mon 'allow rwx' /etc/ceph/ceph.keyring
See Authorization (Capabilities) for additional details on capabilities.
You can also create a keyring and add a new user to the keyring simultaneously. For example:
sudo ceph-authtool -C /etc/ceph/ceph.keyring -n client.ringo --cap osd 'allow rwx' --cap mon 'allow rwx' --gen-key
In the foregoing scenarios, the new user client.ringo
is only in the
keyring. To add the new user to the Ceph Storage Cluster, you must still add
the new user to the Ceph Storage Cluster.
sudo ceph auth add client.ringo -i /etc/ceph/ceph.keyring
Modify a User¶
To modify the capabilities of a user record in a keyring, specify the keyring, and the user followed by the capabilities. For example:
sudo ceph-authtool /etc/ceph/ceph.keyring -n client.ringo --cap osd 'allow rwx' --cap mon 'allow rwx'
To update the user to the Ceph Storage Cluster, you must update the user in the keyring to the user entry in the the Ceph Storage Cluster.
sudo ceph auth import -i /etc/ceph/ceph.keyring
See Import a User(s) for details on updating a Ceph Storage Cluster user from a keyring.
You may also Modify User Capabilities directly in the cluster, store the
results to a keyring file; then, import the keyring into your main
ceph.keyring
file.
Command Line Usage¶
Ceph supports the following usage for user name and secret:
--id
| --user
- Description
Ceph identifies users with a type and an ID (e.g.,
TYPE.ID
orclient.admin
,client.user1
). Theid
,name
and-n
options enable you to specify the ID portion of the user name (e.g.,admin
,user1
,foo
, etc.). You can specify the user with the--id
and omit the type. For example, to specify userclient.foo
enter the following:ceph --id foo --keyring /path/to/keyring health ceph --user foo --keyring /path/to/keyring health
--name
| -n
- Description
Ceph identifies users with a type and an ID (e.g.,
TYPE.ID
orclient.admin
,client.user1
). The--name
and-n
options enables you to specify the fully qualified user name. You must specify the user type (typicallyclient
) with the user ID. For example:ceph --name client.foo --keyring /path/to/keyring health ceph -n client.foo --keyring /path/to/keyring health
--keyring
- Description
The path to the keyring containing one or more user name and secret. The
--secret
option provides the same functionality, but it does not work with Ceph RADOS Gateway, which uses--secret
for another purpose. You may retrieve a keyring withceph auth get-or-create
and store it locally. This is a preferred approach, because you can switch user names without switching the keyring path. For example:sudo rbd map --id foo --keyring /path/to/keyring mypool/myimage
Limitations¶
The cephx
protocol authenticates Ceph clients and servers to each other. It
is not intended to handle authentication of human users or application programs
run on their behalf. If that effect is required to handle your access control
needs, you must have another mechanism, which is likely to be specific to the
front end used to access the Ceph object store. This other mechanism has the
role of ensuring that only acceptable users and programs are able to run on the
machine that Ceph will permit to access its object store.
The keys used to authenticate Ceph clients and servers are typically stored in a plain text file with appropriate permissions in a trusted host.
Important
Storing keys in plaintext files has security shortcomings, but they are difficult to avoid, given the basic authentication methods Ceph uses in the background. Those setting up Ceph systems should be aware of these shortcomings.
In particular, arbitrary user machines, especially portable machines, should not be configured to interact directly with Ceph, since that mode of use would require the storage of a plaintext authentication key on an insecure machine. Anyone who stole that machine or obtained surreptitious access to it could obtain the key that will allow them to authenticate their own machines to Ceph.
Rather than permitting potentially insecure machines to access a Ceph object store directly, users should be required to sign in to a trusted machine in your environment using a method that provides sufficient security for your purposes. That trusted machine will store the plaintext Ceph keys for the human users. A future version of Ceph may address these particular authentication issues more fully.
At the moment, none of the Ceph authentication protocols provide secrecy for messages in transit. Thus, an eavesdropper on the wire can hear and understand all data sent between clients and servers in Ceph, even if it cannot create or alter them. Further, Ceph does not include options to encrypt user data in the object store. Users can hand-encrypt and store their own data in the Ceph object store, of course, but Ceph provides no features to perform object encryption itself. Those storing sensitive data in Ceph should consider encrypting their data before providing it to the Ceph system.