mirror of https://github.com/ceph/ceph
613 lines
19 KiB
ReStructuredText
613 lines
19 KiB
ReStructuredText
=================================
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Configuring Ceph Object Gateway
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=================================
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Configuring a Ceph Object Gateway requires a running Ceph Storage Cluster,
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and an Apache web server with the FastCGI module.
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The Ceph Object Gateway is a client of the Ceph Storage Cluster. As a
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Ceph Storage Cluster client, it requires:
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- A name for the gateway instance. We use ``gateway`` in this guide.
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- A storage cluster user name with appropriate permissions in a keyring.
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- Pools to store its data.
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- A data directory for the gateway instance.
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- An instance entry in the Ceph Configuration file.
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- A configuration file for the web server to interact with FastCGI.
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Create a User and Keyring
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=========================
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Each instance must have a user name and key to communicate with a Ceph Storage
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Cluster. In the following steps, we use an admin node to create a keyring.
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Then, we create a client user name and key. Next, we add the
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key to the Ceph Storage Cluster. Finally, we distribute the key ring to
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the node containing the gateway instance.
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.. topic:: Monitor Key CAPS
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When you provide CAPS to the key, you MUST provide read capability.
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However, you have the option of providing write capability for the monitor.
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This is an important choice. If you provide write capability to the key,
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the Ceph Object Gateway will have the ability to create pools automatically;
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however, it will create pools with either the default number of placement
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groups (not ideal) or the number of placement groups you specified in your
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Ceph configuration file. If you allow the Ceph Object Gateway to create
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pools automatically, ensure that you have reasonable defaults for the number
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of placement groups first. See `Pool Configuration`_ for details.
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See `User Management`_ for additional details on Ceph authentication.
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#. Create a keyring for the gateway::
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sudo ceph-authtool --create-keyring /etc/ceph/ceph.client.radosgw.keyring
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sudo chmod +r /etc/ceph/ceph.client.radosgw.keyring
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#. Generate a Ceph Object Gateway user name and key for each instance. For
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exemplary purposes, we will use the name ``gateway`` after ``client.radosgw``::
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sudo ceph-authtool /etc/ceph/ceph.client.radosgw.keyring -n client.radosgw.gateway --gen-key
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#. Add capabilities to the key. See `Configuration Reference - Pools`_ for details
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on the effect of write permissions for the monitor and creating pools. ::
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sudo ceph-authtool -n client.radosgw.gateway --cap osd 'allow rwx' --cap mon 'allow rwx' /etc/ceph/ceph.client.radosgw.keyring
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#. Once you have created a keyring and key to enable the Ceph Object Gateway
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with access to the Ceph Storage Cluster, add the key to your
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Ceph Storage Cluster. For example::
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sudo ceph -k /etc/ceph/ceph.client.admin.keyring auth add client.radosgw.gateway -i /etc/ceph/ceph.client.radosgw.keyring
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#. Distribute the keyring to the node with the gateway instance. ::
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sudo scp /etc/ceph/ceph.client.radosgw.keyring ceph@{hostname}:/home/ceph
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ssh {hostname}
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sudo mv ceph.client.radosgw.keyring /etc/ceph/ceph.client.radosgw.keyring
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.. note:: The 5th step is optional if ``admin node`` is the ``gateway host``.
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Create Pools
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============
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Ceph Object Gateways require Ceph Storage Cluster pools to store specific
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gateway data. If the user you created has permissions, the gateway
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will create the pools automatically. However, you should ensure that you have
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set an appropriate default number of placement groups per pool into your Ceph
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configuration file.
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.. note:: Ceph Object Gateways have multiple pools, so don't make the number of
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PGs too high considering all of the pools assigned to the same CRUSH
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hierarchy, or performance may suffer.
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When configuring a gateway with the default region and zone, the naming
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convention for pools typically omits region and zone naming, but you can use any
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naming convention you prefer. For example:
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- ``.rgw.root``
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- ``.rgw.control``
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- ``.rgw.gc``
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- ``.rgw.buckets``
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- ``.rgw.buckets.index``
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- ``.rgw.buckets.extra``
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- ``.log``
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- ``.intent-log``
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- ``.usage``
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- ``.users``
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- ``.users.email``
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- ``.users.swift``
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- ``.users.uid``
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See `Configuration Reference - Pools`_ for details on the default pools for
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gateways. See `Pools`_ for details on creating pools. As already said, if
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write permission is given, Ceph Object Gateway will create pools automatically.
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To create a pool manually, execute the following::
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ceph osd pool create {poolname} {pg-num} {pgp-num} {replicated | erasure} [{erasure-code-profile}] {ruleset-name} {ruleset-number}
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.. tip:: Ceph supports multiple CRUSH hierarchies and CRUSH rulesets, enabling
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great flexibility in the way you configure your gateway. Pools such as
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``rgw.buckets.index`` may benefit from a pool of SSDs for fast performance.
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Backing storage may benefit from the increased economy of erasure-coded
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storage, and/or the improved performance from cache tiering.
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When you have completed this step, execute the following to ensure that
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you have created all of the foregoing pools::
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rados lspools
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Add a Gateway Configuration to Ceph
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===================================
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Add the Ceph Object Gateway configuration to your Ceph Configuration file in
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``admin node``. The Ceph Object Gateway configuration requires you to
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identify the Ceph Object Gateway instance. Then, you must specify the host name
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where you installed the Ceph Object Gateway daemon, a keyring (for use with
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cephx), the socket path for FastCGI and a log file.
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For distros with Apache 2.2 and early versions of Apache 2.4 (RHEL 6, Ubuntu
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12.04, 14.04 etc), append the following configuration to ``/etc/ceph/ceph.conf``
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in your ``admin node``::
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[client.radosgw.gateway]
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host = {hostname}
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keyring = /etc/ceph/ceph.client.radosgw.keyring
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rgw socket path = ""
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log file = /var/log/radosgw/client.radosgw.gateway.log
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rgw frontends = fastcgi socket_port=9000 socket_host=0.0.0.0
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rgw print continue = false
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.. note:: Apache 2.2 and early versions of Apache 2.4 do not use Unix Domain
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Sockets but use localhost TCP.
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For distros with Apache 2.4.9 or later (RHEL 7, CentOS 7 etc), append the
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following configuration to ``/etc/ceph/ceph.conf`` in your ``admin node``::
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[client.radosgw.gateway]
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host = {hostname}
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keyring = /etc/ceph/ceph.client.radosgw.keyring
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rgw socket path = /var/run/ceph/ceph.radosgw.gateway.fastcgi.sock
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log file = /var/log/radosgw/client.radosgw.gateway.log
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rgw print continue = false
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.. note:: ``Apache 2.4.9`` supports Unix Domain Socket (UDS) but as
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``Ubuntu 14.04`` ships with ``Apache 2.4.7`` it doesn't have UDS support and
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has to be configured for use with localhost TCP. A bug has been filed for
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backporting UDS support in ``Apache 2.4.7`` for ``Ubuntu 14.04``.
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See: `Backport support for UDS in Ubuntu Trusty`_
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Here, ``{hostname}`` is the short hostname (output of command ``hostname -s``)
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of the node that is going to provide the gateway service i.e, the
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``gateway host``.
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The ``[client.radosgw.gateway]`` portion of the gateway instance identifies this
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portion of the Ceph configuration file as configuring a Ceph Storage Cluster
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client where the client type is a Ceph Object Gateway (i.e., ``radosgw``).
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.. note:: The last line in the configuration i.e, ``rgw print continue = false``
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is added to avoid issues with ``PUT`` operations.
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Once you finish the setup procedure, if you encounter issues with your
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configuration, you can add debugging to the ``[global]`` section of your Ceph
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configuration file and restart the gateway to help troubleshoot any
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configuration issues. For example::
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[global]
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#append the following in the global section.
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debug ms = 1
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debug rgw = 20
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Distribute updated Ceph configuration file
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==========================================
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The updated Ceph configuration file needs to be distributed to all Ceph cluster
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nodes from the ``admin node``.
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It involves the following steps:
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#. Pull the updated ``ceph.conf`` from ``/etc/ceph/`` to the root directory of
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the cluster in admin node (e.g. ``my-cluster`` directory). The contents of
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``ceph.conf`` in ``my-cluster`` will get overwritten. To do so, execute the
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following::
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ceph-deploy --overwrite-conf config pull {hostname}
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Here, ``{hostname}`` is the short hostname of the Ceph admin node.
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#. Push the updated ``ceph.conf`` file from the admin node to all other nodes in
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the cluster including the ``gateway host``::
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ceph-deploy --overwrite-conf config push [HOST] [HOST...]
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Give the hostnames of the other Ceph nodes in place of ``[HOST] [HOST...]``.
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Copy ceph.client.admin.keyring from admin node to gateway host
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==============================================================
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As the ``gateway host`` can be a different node that is not part of the cluster,
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the ``ceph.client.admin.keyring`` needs to be copied from the ``admin node`` to
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the ``gateway host``. To do so, execute the following on ``admin node``::
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sudo scp /etc/ceph/ceph.client.admin.keyring ceph@{hostname}:/home/ceph
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ssh {hostname}
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sudo mv ceph.client.admin.keyring /etc/ceph/ceph.client.admin.keyring
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.. note:: The above step need not be executed if ``admin node`` is the
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``gateway host``.
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Create Data Directory
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=====================
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Deployment scripts may not create the default Ceph Object Gateway data
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directory. Create data directories for each instance of a ``radosgw``
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daemon (if you haven't done so already). The ``host`` variables in the
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Ceph configuration file determine which host runs each instance of a
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``radosgw`` daemon. The typical form specifies the ``radosgw`` daemon,
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the cluster name and the daemon ID.
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To create the directory on the ``gateway host``, execute the following::
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sudo mkdir -p /var/lib/ceph/radosgw/ceph-radosgw.gateway
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Adjust Socket Directory Permissions
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===================================
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On some distros, the ``radosgw`` daemon runs as the unprivileged ``apache``
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UID, and this UID must have write access to the location where it will write
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its socket file.
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To grant permissions to the default socket location, execute the following on
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the ``gateway host``::
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sudo chown apache:apache /var/run/ceph
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Change Log File Owner
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=====================
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On some distros, the ``radosgw`` daemon runs as the unprivileged ``apache`` UID,
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but the ``root`` user owns the log file by default. You must change it to the
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``apache`` user so that Apache can populate the log file. To do so, execute
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the following::
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sudo chown apache:apache /var/log/radosgw/client.radosgw.gateway.log
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Start radosgw service
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=====================
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The Ceph Object gateway daemon needs to be started. To do so, execute the
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following on the ``gateway host``:
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On Debian-based distros::
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sudo /etc/init.d/radosgw start
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On RPM-based distros::
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sudo /etc/init.d/ceph-radosgw start
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Create a Gateway Configuration file
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===================================
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On the host where you installed the Ceph Object Gateway i.e, ``gateway host``,
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create an ``rgw.conf`` file. Place the file in ``/etc/apache2/conf-available``
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directory for ``Debian-based`` distros and in ``/etc/httpd/conf.d`` directory
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for ``RPM-based`` distros. It is a Apache configuration file which is needed
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for the ``radosgw`` service. This file must be readable by the web server.
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Execute the following steps:
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#. Create the file:
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For Debian-based distros, execute::
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sudo vi /etc/apache2/conf-available/rgw.conf
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For RPM-based distros, execute::
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sudo vi /etc/httpd/conf.d/rgw.conf
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#. For distros with Apache 2.2 and early versions of Apache 2.4 that use
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localhost TCP and do not support Unix Domain Socket, add the following
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contents to the file::
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<VirtualHost *:80>
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ServerName localhost
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DocumentRoot /var/www/html
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ErrorLog /var/log/httpd/rgw_error.log
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CustomLog /var/log/httpd/rgw_access.log combined
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# LogLevel debug
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RewriteEngine On
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RewriteRule .* - [E=HTTP_AUTHORIZATION:%{HTTP:Authorization},L]
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SetEnv proxy-nokeepalive 1
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ProxyPass / fcgi://localhost:9000/
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</VirtualHost>
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.. note:: For Debian-based distros replace ``/var/log/httpd/``
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with ``/var/log/apache2``.
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#. For distros with Apache 2.4.9 or later that support Unix Domain Socket,
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add the following contents to the file::
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<VirtualHost *:80>
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ServerName localhost
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DocumentRoot /var/www/html
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ErrorLog /var/log/httpd/rgw_error.log
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CustomLog /var/log/httpd/rgw_access.log combined
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# LogLevel debug
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RewriteEngine On
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RewriteRule .* - [E=HTTP_AUTHORIZATION:%{HTTP:Authorization},L]
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SetEnv proxy-nokeepalive 1
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ProxyPass / unix:///var/run/ceph/ceph.radosgw.gateway.fastcgi.sock|fcgi://localhost:9000/
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</VirtualHost>
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Restart Apache
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==============
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The Apache service needs to be restarted to accept the new configuration.
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For Debian-based distros, run::
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sudo service apache2 restart
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For RPM-based distros, run::
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sudo service httpd restart
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Or::
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sudo systemctl restart httpd
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Using The Gateway
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=================
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To use the REST interfaces, first create an initial Ceph Object Gateway
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user for the S3 interface. Then, create a subuser for the Swift interface.
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See the `Admin Guide`_ for more details on user management.
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Create a radosgw user for S3 access
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------------------------------------
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A ``radosgw`` user needs to be created and granted access. The command
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``man radosgw-admin`` will provide information on additional command options.
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To create the user, execute the following on the ``gateway host``::
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sudo radosgw-admin user create --uid="testuser" --display-name="First User"
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The output of the command will be something like the following::
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{"user_id": "testuser",
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"display_name": "First User",
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"email": "",
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"suspended": 0,
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"max_buckets": 1000,
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"auid": 0,
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"subusers": [],
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"keys": [
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{ "user": "testuser",
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"access_key": "I0PJDPCIYZ665MW88W9R",
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"secret_key": "dxaXZ8U90SXydYzyS5ivamEP20hkLSUViiaR+ZDA"}],
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"swift_keys": [],
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"caps": [],
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"op_mask": "read, write, delete",
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"default_placement": "",
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"placement_tags": [],
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"bucket_quota": { "enabled": false,
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"max_size_kb": -1,
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"max_objects": -1},
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"user_quota": { "enabled": false,
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"max_size_kb": -1,
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"max_objects": -1},
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"temp_url_keys": []}
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.. note:: The values of ``keys->access_key`` and ``keys->secret_key`` are
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needed for access validation.
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Create a Swift user
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-------------------
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A Swift subuser needs to be created if this kind of access is needed. Creating
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a Swift user is a two step process. The first step is to create the user.
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The second is to create the secret key.
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Execute the following steps on the ``gateway host``:
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Create the Swift user::
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sudo radosgw-admin subuser create --uid=testuser --subuser=testuser:swift
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The output will be something like the following::
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--access=full
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{ "user_id": "testuser",
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"display_name": "First User",
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"email": "",
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"suspended": 0,
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"max_buckets": 1000,
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"auid": 0,
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"subusers": [
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{ "id": "testuser:swift",
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"permissions": "full-control"}],
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"keys": [
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{ "user": "testuser:swift",
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"access_key": "3Y1LNW4Q6X0Y53A52DET",
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"secret_key": ""},
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{ "user": "testuser",
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"access_key": "I0PJDPCIYZ665MW88W9R",
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"secret_key": "dxaXZ8U90SXydYzyS5ivamEP20hkLSUViiaR+ZDA"}],
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"swift_keys": [],
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"caps": [],
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"op_mask": "read, write, delete",
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"default_placement": "",
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"placement_tags": [],
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"bucket_quota": { "enabled": false,
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"max_size_kb": -1,
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"max_objects": -1},
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"user_quota": { "enabled": false,
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"max_size_kb": -1,
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"max_objects": -1},
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"temp_url_keys": []}
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Create the secret key::
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sudo radosgw-admin key create --subuser=testuser:swift --key-type=swift --gen-secret
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The output will be something like the following::
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{ "user_id": "testuser",
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"display_name": "First User",
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"email": "",
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"suspended": 0,
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"max_buckets": 1000,
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"auid": 0,
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"subusers": [
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{ "id": "testuser:swift",
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"permissions": "full-control"}],
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"keys": [
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{ "user": "testuser:swift",
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"access_key": "3Y1LNW4Q6X0Y53A52DET",
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"secret_key": ""},
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{ "user": "testuser",
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"access_key": "I0PJDPCIYZ665MW88W9R",
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"secret_key": "dxaXZ8U90SXydYzyS5ivamEP20hkLSUViiaR+ZDA"}],
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"swift_keys": [
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{ "user": "testuser:swift",
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"secret_key": "244+fz2gSqoHwR3lYtSbIyomyPHf3i7rgSJrF\/IA"}],
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"caps": [],
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"op_mask": "read, write, delete",
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"default_placement": "",
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"placement_tags": [],
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"bucket_quota": { "enabled": false,
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"max_size_kb": -1,
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"max_objects": -1},
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"user_quota": { "enabled": false,
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"max_size_kb": -1,
|
||
"max_objects": -1},
|
||
"temp_url_keys": []}
|
||
|
||
Access Verification
|
||
===================
|
||
|
||
You then need to verify if the created users are able to access the gateway.
|
||
|
||
Test S3 access
|
||
--------------
|
||
|
||
You need to write and run a Python test script for verifying S3 access. The S3
|
||
access test script will connect to the ``radosgw``, create a new bucket and list
|
||
all buckets. The values for ``aws_access_key_id`` and ``aws_secret_access_key``
|
||
are taken from the values of ``access_key`` and ``secret_key`` returned by the
|
||
``radosgw_admin`` command.
|
||
|
||
Execute the following steps:
|
||
|
||
#. You will need to install the ``python-boto`` package.
|
||
|
||
For Debian-based distros, run::
|
||
|
||
sudo apt-get install python-boto
|
||
|
||
For RPM-based distros, run::
|
||
|
||
sudo yum install python-boto
|
||
|
||
#. Create the Python script::
|
||
|
||
vi s3test.py
|
||
|
||
#. Add the following contents to the file::
|
||
|
||
import boto
|
||
import boto.s3.connection
|
||
access_key = 'I0PJDPCIYZ665MW88W9R'
|
||
secret_key = 'dxaXZ8U90SXydYzyS5ivamEP20hkLSUViiaR+ZDA'
|
||
conn = boto.connect_s3(
|
||
aws_access_key_id = access_key,
|
||
aws_secret_access_key = secret_key,
|
||
host = '{hostname}',
|
||
is_secure=False,
|
||
calling_format = boto.s3.connection.OrdinaryCallingFormat(),
|
||
)
|
||
bucket = conn.create_bucket('my-new-bucket')
|
||
for bucket in conn.get_all_buckets():
|
||
print "{name}\t{created}".format(
|
||
name = bucket.name,
|
||
created = bucket.creation_date,
|
||
)
|
||
|
||
Replace ``{hostname}`` with the hostname of the host where you have
|
||
configured the gateway service i.e, the ``gateway host``.
|
||
|
||
#. Run the script::
|
||
|
||
python s3test.py
|
||
|
||
The output will be something like the following::
|
||
|
||
my-new-bucket 2015-02-16T17:09:10.000Z
|
||
|
||
Test swift access
|
||
-----------------
|
||
|
||
Swift access can be verified via the ``swift`` command line client. The command
|
||
``man swift`` will provide more information on available command line options.
|
||
|
||
To install ``swift`` client, execute the following:
|
||
|
||
For Debian-based distros::
|
||
|
||
sudo apt-get install python-setuptools
|
||
sudo easy_install pip
|
||
sudo pip install --upgrade setuptools
|
||
sudo pip install --upgrade python-swiftclient
|
||
|
||
For RPM-based distros::
|
||
|
||
sudo yum install python-setuptools
|
||
sudo easy_install pip
|
||
sudo pip install --upgrade setuptools
|
||
sudo pip install --upgrade python-swiftclient
|
||
|
||
To test swift access, execute the following::
|
||
|
||
swift -A http://{IP ADDRESS}/auth/1.0 -U testuser:swift -K ‘{swift_secret_key}’ list
|
||
|
||
Replace ``{IP ADDRESS}`` with the public IP address of the gateway server and
|
||
``{swift_secret_key}`` with its value from the output of
|
||
``radosgw-admin key create`` command executed for the ``swift`` user.
|
||
|
||
For example::
|
||
|
||
swift -A http://10.19.143.116/auth/1.0 -U testuser:swift -K ‘244+fz2gSqoHwR3lYtSbIyomyPHf3i7rgSJrF/IA’ list
|
||
|
||
The output should be::
|
||
|
||
my-new-bucket
|
||
|
||
|
||
.. _Configuration Reference - Pools: ../config-ref#pools
|
||
.. _Pool Configuration: ../../rados/configuration/pool-pg-config-ref/
|
||
.. _Pools: ../../rados/operations/pools
|
||
.. _User Management: ../../rados/operations/user-management
|
||
.. _Backport support for UDS in Ubuntu Trusty: https://bugs.launchpad.net/ubuntu/+source/apache2/+bug/1411030
|
||
.. _Admin Guide: ../admin
|