mirror of https://github.com/ceph/ceph
233 lines
6.1 KiB
Groff
233 lines
6.1 KiB
Groff
.TH "CEPH-AUTHTOOL" "8" "April 29, 2013" "dev" "Ceph"
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.SH NAME
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ceph-authtool \- ceph keyring manipulation tool
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.\" Man page generated from reStructuredText.
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.
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.SH SYNOPSIS
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.nf
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\fBceph\-authtool\fP \fIkeyringfile\fP [ \-l | \-\-list ] [ \-C | \-\-create\-keyring
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] [ \-p | \-\-print ] [ \-n | \-\-name \fIentityname\fP ] [ \-\-gen\-key ] [ \-a |
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\-\-add\-key \fIbase64_key\fP ] [ \-\-caps \fIcapfils\fP ]
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.fi
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.sp
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.SH DESCRIPTION
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.sp
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\fBceph\-authtool\fP is a utility to create, view, and modify a Ceph keyring
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file. A keyring file stores one or more Ceph authentication keys and
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possibly an associated capability specification. Each key is
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associated with an entity name, of the form
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\fB{client,mon,mds,osd}.name\fP.
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.sp
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\fBWARNING\fP Ceph provides authentication and protection against
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man\-in\-the\-middle attacks once secret keys are in place. However,
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data over the wire is not encrypted, which may include the messages
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used to configure said keys. The system is primarily intended to be
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used in trusted environments.
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.SH OPTIONS
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.INDENT 0.0
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.TP
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.B \-l, \-\-list
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will list all keys and capabilities present in the keyring
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.UNINDENT
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.INDENT 0.0
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.TP
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.B \-p, \-\-print
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will print an encoded key for the specified entityname. This is
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suitable for the \fBmount \-o secret=\fP argument
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.UNINDENT
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.INDENT 0.0
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.TP
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.B \-C, \-\-create\-keyring
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will create a new keyring, overwriting any existing keyringfile
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.UNINDENT
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.INDENT 0.0
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.TP
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.B \-\-gen\-key
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will generate a new secret key for the specified entityname
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.UNINDENT
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.INDENT 0.0
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.TP
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.B \-\-add\-key
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will add an encoded key to the keyring
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.UNINDENT
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.INDENT 0.0
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.TP
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.B \-\-cap subsystem capability
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will set the capability for given subsystem
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.UNINDENT
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.INDENT 0.0
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.TP
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.B \-\-caps capsfile
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will set all of capabilities associated with a given key, for all subsystems
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.UNINDENT
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.SH CAPABILITIES
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.sp
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The subsystem is the name of a Ceph subsystem: \fBmon\fP, \fBmds\fP, or
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\fBosd\fP.
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.sp
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The capability is a string describing what the given user is allowed
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to do. This takes the form of a comma separated list of allow
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clauses with a permission specifier containing one or more of rwx for
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read, write, and execute permission. The \fBallow *\fP grants full
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superuser permissions for the given subsystem.
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.sp
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For example:
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.sp
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.nf
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.ft C
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# can read, write, and execute objects
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osd = "allow rwx"
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# can access mds server
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mds = "allow"
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# can modify cluster state (i.e., is a server daemon)
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mon = "allow rwx"
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.ft P
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.fi
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.sp
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A librados user restricted to a single pool might look like:
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.sp
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.nf
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.ft C
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mon = "allow r"
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osd = "allow rw pool foo"
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.ft P
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.fi
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.sp
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A client using rbd with read access to one pool and read/write access to another:
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.sp
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.nf
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.ft C
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mon = "allow r"
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osd = "allow class\-read object_prefix rbd_children, allow pool templates r class\-read, allow pool vms rwx"
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.ft P
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.fi
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.sp
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A client mounting the file system with minimal permissions would need caps like:
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.sp
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.nf
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.ft C
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mds = "allow"
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osd = "allow rw pool data"
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mon = "allow r"
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.ft P
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.fi
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.SH OSD CAPABILITIES
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.sp
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In general, an osd capability follows the grammar:
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.sp
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.nf
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.ft C
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osdcap := grant[,grant...]
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grant := allow (match capspec | capspec match)
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match := [pool[=]<poolname> | object_prefix <prefix>]
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capspec := * | [r][w][x] [class\-read] [class\-write]
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.ft P
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.fi
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.sp
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The capspec determines what kind of operations the entity can perform:
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.sp
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.nf
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.ft C
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r = read access to objects
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w = write access to objects
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x = can call any class method (same as class\-read class\-write)
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class\-read = can call class methods that are reads
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class\-write = can call class methods that are writes
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* = equivalent to rwx, plus the ability to run osd admin commands,
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i.e. ceph osd tell ...
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.ft P
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.fi
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.sp
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The match criteria restrict a grant based on the pool being accessed.
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Grants are additive if the client fulfills the match condition. For
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example, if a client has the osd capabilities: "allow r object_prefix
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prefix, allow w pool foo, allow x pool bar", then it has rw access to
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pool foo, rx access to pool bar, and r access to objects whose
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names begin with \(aqprefix\(aq in any pool.
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.SH CAPS FILE FORMAT
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.sp
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The caps file format consists of zero or more key/value pairs, one per
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line. The key and value are separated by an \fB=\fP, and the value must
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be quoted (with \fB\(aq\fP or \fB"\fP) if it contains any whitespace. The key
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is the name of the Ceph subsystem (\fBosd\fP, \fBmds\fP, \fBmon\fP), and the
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value is the capability string (see above).
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.SH EXAMPLE
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.sp
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To create a new keyring containing a key for client.foo:
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.sp
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.nf
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.ft C
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ceph\-authtool \-C \-n client.foo \-\-gen\-key keyring
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.ft P
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.fi
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.sp
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To associate some capabilities with the key (namely, the ability to
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mount a Ceph filesystem):
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.sp
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.nf
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.ft C
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ceph\-authtool \-n client.foo \-\-cap mds \(aqallow\(aq \-\-cap osd \(aqallow rw pool=data\(aq \-\-cap mon \(aqallow r\(aq keyring
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.ft P
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.fi
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.sp
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To display the contents of the keyring:
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.sp
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.nf
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.ft C
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ceph\-authtool \-l keyring
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.ft P
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.fi
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.sp
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When mount a Ceph file system, you can grab the appropriately encoded secret key with:
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.sp
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.nf
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.ft C
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mount \-t ceph serverhost:/ mountpoint \-o name=foo,secret=\(gaceph\-authtool \-p \-n client.foo keyring\(ga
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.ft P
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.fi
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.SH AVAILABILITY
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.sp
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\fBceph\-authtool\fP is part of the Ceph distributed file system. Please
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refer to the Ceph documentation at \fI\%http://ceph.com/docs\fP for more
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information.
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.SH SEE ALSO
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.sp
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\fBceph\fP(8)
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.SH COPYRIGHT
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2010-2013, Inktank Storage, Inc. and contributors. Licensed under Creative Commons BY-SA
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.\" Generated by docutils manpage writer.
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