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397 lines
14 KiB
ReStructuredText
397 lines
14 KiB
ReStructuredText
===========================
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Configuring RADOS Gateway
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===========================
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Before you can start RADOS Gateway, you must modify your ``ceph.conf`` file
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to include a section for RADOS Gateway You must also create an ``rgw.conf``
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file in the ``/etc/apache2/sites-enabled`` directory. The ``rgw.conf``
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file configures Apache to interact with FastCGI.
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Add a RADOS GW Configuration to ``ceph.conf``
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=============================================
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Add the RADOS Gateway configuration to your ``ceph.conf`` file. The RADOS
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Gateway configuration requires you to specify the host name where you installed
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RADOS Gateway, a keyring (for use with cephx), the socket path and a log file.
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For example::
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[client.radosgw.gateway]
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host = {host-name}
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keyring = /etc/ceph/keyring.radosgw.gateway
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rgw socket path = /tmp/radosgw.sock
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log file = /var/log/ceph/radosgw.log
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.. note:: ``host`` must be your machine hostname, not FQDN.
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Deploy ``ceph.conf``
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====================
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If you deploy Ceph with ``mkcephfs``, manually redeploy ``ceph.conf`` to the
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hosts in your cluster. For example::
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cd /etc/ceph
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ssh {host-name} sudo /etc/ceph/ceph.conf < ceph.conf
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Create Data Directory
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=====================
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The ``mkcephfs`` deployment script may not create the default RGW data
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directory. Create data directories for each instance of a ``radosgw`` daemon (if
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you haven't done so already). The ``host`` variables in the ``ceph.conf`` file
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determine which host runs each instance of a ``radosgw`` daemon. The typical form
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specifes the daemon ``radosgw``, the cluster name and the daemon ID. ::
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sudo mkdir -p /var/lib/ceph/radosgw/{$cluster}-{$id}
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Using the exemplary ``ceph.conf`` settings above, you would execute the following::
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sudo mkdir -p /var/lib/ceph/radosgw/ceph-radosgw.gateway
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Create ``rgw.conf``
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===================
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Create an ``rgw.conf`` file on the host where you installed RADOS Gateway
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under the ``/etc/apache2/sites-available`` directory.
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We recommend deploying FastCGI as an external server, because allowing
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Apache to manage FastCGI sometimes introduces high latency. To manage FastCGI
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as an external server, use the ``FastCgiExternalServer`` directive.
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See `FastCgiExternalServer`_ for details on this directive.
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See `Module mod_fastcgi`_ for general details. ::
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FastCgiExternalServer /var/www/s3gw.fcgi -socket /tmp/radosgw.sock
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.. _Module mod_fastcgi: http://www.fastcgi.com/drupal/node/25
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.. _FastCgiExternalServer: http://www.fastcgi.com/drupal/node/25#FastCgiExternalServer
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Once you have configured FastCGI as an external server, you must
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create the virtual host configuration within your ``rgw.conf`` file. See
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`Apache Virtual Host documentation`_ for details on ``<VirtualHost>`` format
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and settings. Replace the values in brackets. ::
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<VirtualHost *:80>
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ServerName {fqdn}
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ServerAdmin {email.address}
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DocumentRoot /var/www
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</VirtualHost>
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.. _Apache Virtual Host documentation: http://httpd.apache.org/docs/2.2/vhosts/
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RADOS Gateway requires a rewrite rule for the Amazon S3-compatible interface.
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It's required for passing in the ``HTTP_AUTHORIZATION env`` for S3, which is
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filtered out by Apache. The rewrite rule is not necessary for the OpenStack
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Swift-compatible interface. Turn on the rewrite engine and add the following
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rewrite rule to your Virtual Host configuration. ::
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RewriteEngine On
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RewriteRule ^/([a-zA-Z0-9-_.]*)([/]?.*) /s3gw.fcgi?page=$1¶ms=$2&%{QUERY_STRING} [E=HTTP_AUTHORIZATION:%{HTTP:Authorization},L]
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Since the ``<VirtualHost>`` is running ``mod_fastcgi.c``, you must include a
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section in your ``<VirtualHost>`` configuration for the ``mod_fastcgi.c`` module.
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::
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<VirtualHost *:80>
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...
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<IfModule mod_fastcgi.c>
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<Directory /var/www>
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Options +ExecCGI
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AllowOverride All
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SetHandler fastcgi-script
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Order allow,deny
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Allow from all
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AuthBasicAuthoritative Off
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</Directory>
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</IfModule>
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...
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</VirtualHost>
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See `<IfModule> Directive`_ for additional details.
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.. _<IfModule> Directive: http://httpd.apache.org/docs/2.2/mod/core.html#ifmodule
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Finally, you should configure Apache to allow encoded slashes, provide paths for
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log files and to turn off server signatures. ::
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<VirtualHost *:80>
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...
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AllowEncodedSlashes On
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ErrorLog /var/log/apache2/error.log
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CustomLog /var/log/apache2/access.log combined
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ServerSignature Off
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</VirtualHost>
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.. important:: If you are using CentOS or similar, make sure that ``FastCgiWrapper`` is turned off in ``/etc/httpd/conf.d/fastcgi.conf``.
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Enable the RADOS Gateway Configuration
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======================================
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Enable the site for ``rgw.conf``. ::
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sudo a2ensite rgw.conf
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Disable the default site. ::
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sudo a2dissite default
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Add a RADOS GW Script
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=====================
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Add a ``s3gw.fcgi`` file (use the same name referenced in the first line
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of ``rgw.conf``) to ``/var/www``. The contents of the file should include::
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#!/bin/sh
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exec /usr/bin/radosgw -c /etc/ceph/ceph.conf -n client.radosgw.gateway
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Ensure that you apply execute permissions to ``s3gw.fcgi``. ::
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sudo chmod +x s3gw.fcgi
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Generate a Keyring and Key for RADOS Gateway
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============================================
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You must create a keyring for the RADOS Gateway. For example::
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sudo ceph-authtool --create-keyring /etc/ceph/keyring.radosgw.gateway
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sudo chmod +r /etc/ceph/keyring.radosgw.gateway
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Generate a key so that RADOS Gateway can identify a user name and authenticate
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the user with the cluster. Then, add capabilities to the key. For example::
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sudo ceph-authtool /etc/ceph/keyring.radosgw.gateway -n client.radosgw.gateway --gen-key
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sudo ceph-authtool -n client.radosgw.gateway --cap osd 'allow rwx' --cap mon 'allow r' /etc/ceph/keyring.radosgw.gateway
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Add to Ceph Keyring Entries
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===========================
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Once you have created a keyring and key for RADOS GW, add it as an entry in
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the Ceph keyring. For example::
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sudo ceph -k /etc/ceph/ceph.keyring auth add client.radosgw.gateway -i /etc/ceph/keyring.radosgw.gateway
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Restart Services and Start the RADOS Gateway
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============================================
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To ensure that all components have reloaded their configurations,
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we recommend restarting your ``ceph`` and ``apaches`` services. Then,
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start up the ``radosgw`` service. For example::
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sudo service ceph restart
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sudo service apache2 restart
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sudo /etc/init.d/radosgw start
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Create a RADOS Gateway User
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===========================
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To use the REST interfaces, first create an initial RADOS Gateway user.
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The RADOS Gateway user is not the same user as the ``client.rados.gateway``
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user, which identifies the RADOS Gateway as a user of the RADOS cluster.
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The RADOS Gateway user is a user of the RADOS Gateway. ::
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sudo radosgw-admin user create --uid="{username}" --display-name="{Display Name}"
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For example::
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radosgw-admin user create --uid=johndoe --display-name="John Doe" --email=john@example.com
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.. code-block:: javascript
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{ "user_id": "johndoe",
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"rados_uid": 0,
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"display_name": "John Doe",
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"email": "john@example.com",
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"suspended": 0,
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"subusers": [],
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"keys": [
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{ "user": "johndoe",
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"access_key": "QFAMEDSJP5DEKJO0DDXY",
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"secret_key": "iaSFLDVvDdQt6lkNzHyW4fPLZugBAI1g17LO0+87"}],
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"swift_keys": []}
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Creating a user also creates an ``access_key`` and
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``secret_key`` entry for use with any S3 API-compatible client.
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For details on RADOS Gateway administration, see `radosgw-admin`_.
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.. _radosgw-admin: ../../man/8/radosgw-admin/
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.. important:: Check the key output. Sometimes ``radosgw-admin``
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generates a key with an escape (``\``) character, and some clients
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do not know how to handle escape characters. Remedies include
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removing the escape character (``\``), encapsulating the string
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in quotes, or simply regenerating the key and ensuring that it
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does not have an escape character.
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Configuring the Operations Logging
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==================================
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By default, the RADOS Gateway will log every successful operation in the RADOS backend.
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This means that every request, whether it is a read request or a write request will
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generate a RADOS operation that writes data. This does not come without cost, and may
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affect overall performance. Turning off logging completely can be done by adding the
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following config option to ceph.conf::
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rgw enable ops log = false
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Another way to reduce the logging load is to send operations logging data to a unix domain
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socket, instead of writing it to the RADOS backend::
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rgw ops log rados = false
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rgw enable ops log = true
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rgw ops log socket path = <path to socket>
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When specifying a unix domain socket, it is also possible to specify the maximum amount
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of memory that will be used to keep the data backlog::
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rgw ops log data backlog = <size in bytes>
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Any backlogged data in excess to the specified size will be lost, so socket needs to be
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constantly read.
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Enabling Swift Access
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=====================
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Allowing access to the object store with Swift (OpenStack Object
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Storage) compatible clients requires an additional step, the creation
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of a subuser and a Swift access key.
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::
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sudo radosgw-admin subuser create --uid=johndoe --subuser=johndoe:swift --access=full
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.. code-block:: javascript
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{ "user_id": "johndoe",
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"rados_uid": 0,
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"display_name": "John Doe",
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"email": "john@example.com",
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"suspended": 0,
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"subusers": [
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{ "id": "johndoe:swift",
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"permissions": "full-control"}],
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"keys": [
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{ "user": "johndoe",
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"access_key": "QFAMEDSJP5DEKJO0DDXY",
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"secret_key": "iaSFLDVvDdQt6lkNzHyW4fPLZugBAI1g17LO0+87"}],
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"swift_keys": []}
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::
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sudo radosgw-admin key create --subuser=johndoe:swift --key-type=swift
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.. code-block:: javascript
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{ "user_id": "johndoe",
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"rados_uid": 0,
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"display_name": "John Doe",
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"email": "john@example.com",
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"suspended": 0,
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"subusers": [
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{ "id": "johndoe:swift",
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"permissions": "full-control"}],
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"keys": [
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{ "user": "johndoe",
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"access_key": "QFAMEDSJP5DEKJO0DDXY",
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"secret_key": "iaSFLDVvDdQt6lkNzHyW4fPLZugBAI1g17LO0+87"}],
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"swift_keys": [
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{ "user": "johndoe:swift",
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"secret_key": "E9T2rUZNu2gxUjcwUBO8n\/Ev4KX6\/GprEuH4qhu1"}]}
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This step enables you to use any Swift client to connect to and use RADOS
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Gateway via the Swift-compatible API. As an example, you might use the ``swift``
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command-line client utility that ships with the OpenStack Object Storage
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packages.
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::
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swift -V 1.0 -A http://radosgw.example.com/auth -U johndoe:swift -K E9T2rUZNu2gxUjcwUBO8n\/Ev4KX6\/GprEuH4qhu1 post test
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swift -V 1.0 -A http://radosgw.example.com/auth -U johndoe:swift -K E9T2rUZNu2gxUjcwUBO8n\/Ev4KX6\/GprEuH4qhu1 upload test myfile
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RGW's ``user:subuser`` tuple maps to the ``tenant:user`` tuple expected by Swift.
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.. note:: RGW's Swift authentication service only supports built-in Swift
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authentication (``-V 1.0``). To make RGW authenticate users via OpenStack
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Identity Service (Keystone), see below.
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Integrating with OpenStack Keystone
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===================================
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It is possible to integrate RGW with Keystone, the OpenStack identity service.
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This sets up RGW to accept Keystone as the users authority. A user that Keystone
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authorizes to access RGW will also be automatically created on RGW (if didn't
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exist beforehand). A token that Keystone validates will be considered as valid
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by RGW.
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The following config options are available for Keystone integration::
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[client.radosgw.gateway]
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rgw keystone url = {keystone server url:keystone server admin port}
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rgw keystone admin token = {keystone admin token}
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rgw keystone accepted roles = {accepted user roles}
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rgw keystone token cache size = {number of tokens to cache}
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rgw keystone revocation interval = {number of seconds before checking revoked tickets}
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nss db path = {path to nss db}
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An RGW user is mapped into a Keystone ``tenant``. A Keystone user has different
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roles assigned to it on possibly more than a single tenant. When RGW gets the
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ticket, it looks at the tenant, and the user roles that are assigned to that
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ticket, and accepts/rejects the request according to the ``rgw keystone accepted
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roles`` configurable.
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Keystone itself needs to be configured to point to RGW as an object-storage
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endpoint::
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keystone service-create --name swift --type-object-store
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keystone endpoint-create --service-id <id> --publicurl http://radosgw.example.com/swift/v1 \
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--internalurl http://radosgw.example.com/swift/v1 --adminurl http://radosgw.example.com/swift/v1
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The keystone url is the Keystone admin RESTful api url. The admin token is the
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token that is configured internally in Keystone for admin requests.
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RGW will query Keystone periodically for a list of revoked tokens. These
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requests are encoded and signed. Also, Keystone may be configured to provide
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self signed tokens, which are also encoded and signed. RGW needs to be able to
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decode and verify these signed messages, and it requires it to be set up
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appropriately. Currently, RGW will be able to do it only if it was compiled with
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``--with-nss``. It also requires converting the OpenSSL certificates that
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Keystone uses for creating the requests to the nss db format, for example::
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mkdir /var/ceph/nss
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openssl x509 -in /etc/keystone/ssl/certs/ca.pem -pubkey | \
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certutil -d /var/ceph/nss -A -n ca -t "TCu,Cu,Tuw"
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openssl x509 -in /etc/keystone/ssl/certs/signing_cert.pem -pubkey | \
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certutil -d /var/ceph/nss -A -n signing_cert -t "TCu,Cu,Tuw"
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Enabling Subdomain S3 Calls
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===========================
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To use RADOS Gateway with subdomain S3 calls (e.g.,
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``http://bucketname.hostname``), you must add the RADOS Gateway DNS name under
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the ``[client.radosgw.gateway]`` section of your Ceph configuration file::
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[client.radosgw.gateway]
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...
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rgw dns name = {hostname}
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You should also consider installing `Dnsmasq`_ on your client machine(s) when
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using ``http://{bucketname}.{hostname}`` syntax. The ``dnsmasq.conf`` file
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should include the following settings::
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address=/{hostname}/{host-ip-address}
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listen-address={client-loopback-ip}
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Then, add the ``{client-loopback-ip}`` IP address as the first DNS nameserver
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on client the machine(s).
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.. _Dnsmasq: https://help.ubuntu.com/community/Dnsmasq
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