add documentation for both LVS:single-ip and CAPABILITIES:wan-accelerator

[metze/ctdb/wip.git] / doc / ctdb.1.html

<html><head><meta http-equiv="Content-Type" content="text/html; charset=ISO-8859-1"><title>ctdb</title><meta name="generator" content="DocBook XSL Stylesheets V1.71.0"></head><body bgcolor="white" text="black" link="#0000FF" vlink="#840084" alink="#0000FF"><div class="refentry" lang="en"><a name="ctdb.1"></a><div class="titlepage"></div><div class="refnamediv"><h2>Name</h2><p>ctdb &#8212; clustered tdb database management utility</p></div><div class="refsynopsisdiv"><h2>Synopsis</h2><div class="cmdsynopsis"><p><code class="command">ctdb [ OPTIONS ] COMMAND ...</code> </p></div><div class="cmdsynopsis"><p><code class="command">ctdb</code>  [-n &lt;node&gt;] [-Y] [-t &lt;timeout&gt;] [-T &lt;timelimit&gt;] [-? --help] [--usage] [-d --debug=&lt;INTEGER&gt;] [--socket=&lt;filename&gt;]</p></div></div><div class="refsect1" lang="en"><a name="id2480874"></a><h2>DESCRIPTION</h2><p>
      ctdb is a utility to view and manage a ctdb cluster.
    </p></div><div class="refsect1" lang="en"><a name="id2480884"></a><h2>OPTIONS</h2><div class="variablelist"><dl><dt><span class="term">-n &lt;pnn&gt;</span></dt><dd><p>
            This specifies the physical node number on which to execute the 
            command. Default is to run the command on the deamon running on 
            the local host.
          </p><p>
            The physical node number is an integer that describes the node in the
            cluster. The first node has physical node number 0.
          </p></dd><dt><span class="term">-Y</span></dt><dd><p>
            Produce output in machine readable form for easier parsing by scripts. Not all commands support this option.
          </p></dd><dt><span class="term">-t &lt;timeout&gt;</span></dt><dd><p>
            How long should ctdb wait for the local ctdb daemon to respond to a command before timing out. Default is 3 seconds.
          </p></dd><dt><span class="term">-T &lt;timelimit&gt;</span></dt><dd><p>
            A limit on how long the ctdb command will run for before it will
            be aborted. When this timelimit has been exceeded the ctdb command will
            terminate.
          </p></dd><dt><span class="term">-? --help</span></dt><dd><p>
            Print some help text to the screen.
          </p></dd><dt><span class="term">--usage</span></dt><dd><p>
            Print useage information to the screen.
          </p></dd><dt><span class="term">-d --debug=&lt;debuglevel&gt;</span></dt><dd><p>
            Change the debug level for the command. Default is 0.
          </p></dd><dt><span class="term">--socket=&lt;filename&gt;</span></dt><dd><p>
            Specify the socketname to use when connecting to the local ctdb 
            daemon. The default is /tmp/ctdb.socket .
          </p><p>
            You only need to specify this parameter if you run multiple ctdb 
            daemons on the same physical host and thus can not use the default
            name for the domain socket.
          </p></dd></dl></div></div><div class="refsect1" lang="en"><a name="id2481194"></a><h2>Administrative Commands</h2><p>
      These are commands used to monitor and administrate a CTDB cluster.
    </p><div class="refsect2" lang="en"><a name="id2481203"></a><h3>pnn</h3><p>
        This command displays the pnn of the current node.
      </p></div><div class="refsect2" lang="en"><a name="id2481213"></a><h3>status</h3><p>
        This command shows the current status of the ctdb node.
      </p><div class="refsect3" lang="en"><a name="id2481222"></a><h4>node status</h4><p>
          Node status reflects the current status of the node. There are four possible states:
        </p><p>
          OK - This node is fully functional.
        </p><p>
          DISCONNECTED - This node could not be connected through the network and is currently not participating in the cluster. If there is a public IP address associated with this node it should have been taken over by a different node. No services are running on this node.
        </p><p>
          DISABLED - This node has been administratively disabled. This node is still functional and participates in the CTDB cluster but its IP addresses have been taken over by a different node and no services are currently being hosted.
        </p><p>
          UNHEALTHY - A service provided by this node is malfunctioning and should be investigated. The CTDB daemon itself is operational and participates in the cluster. Its public IP address has been taken over by a different node and no services are currnetly being hosted. All unhealthy nodes should be investigated and require an administrative action to rectify.
        </p><p>
          BANNED - This node failed too many recovery attempts and has been banned from participating in the cluster for a period of RecoveryBanPeriod seconds. Any public IP address has been taken over by other nodes. This node does not provide any services. All banned nodes should be investigated and require an administrative action to rectify. This node does not perticipate in the CTDB cluster but can still be communicated with. I.e. ctdb commands can be sent to it.
        </p></div><div class="refsect3" lang="en"><a name="id2481273"></a><h4>generation</h4><p>
          The generation id is a number that indicates the current generation 
          of a cluster instance. Each time a cluster goes through a 
          reconfiguration or a recovery its generation id will be changed.
          </p><p>
          This number does not have any particular meaning other than to keep
          track of when a cluster has gone through a recovery. It is a random
          number that represents the current instance of a ctdb cluster
          and its databases.
          CTDBD uses this number internally to be able to tell when commands 
          to operate on the cluster and the databases was issued in a different
          generation of the cluster, to ensure that commands that operate
          on the databases will not survive across a cluster database recovery.
          After a recovery, all old outstanding commands will automatically
          become invalid. 
        </p><p>
          Sometimes this number will be shown as "INVALID". This only means that
          the ctdbd daemon has started but it has not yet merged with the cluster through a recovery.
          All nodes start with generation "INVALID" and are not assigned a real
          generation id until they have successfully been merged with a cluster
          through a recovery.
        </p></div><div class="refsect3" lang="en"><a name="id2481308"></a><h4>VNNMAP</h4><p>
          The list of Virtual Node Numbers. This is a list of all nodes that actively participates in the cluster and that share the workload of hosting the Clustered TDB database records.
          Only nodes that are participating in the vnnmap can become lmaster or dmaster for a database record.
        </p></div><div class="refsect3" lang="en"><a name="id2481323"></a><h4>Recovery mode</h4><p>
          This is the current recovery mode of the cluster. There are two possible modes:
        </p><p>
          NORMAL - The cluster is fully operational.
        </p><p>
          RECOVERY - The cluster databases have all been frozen, pausing all services while the cluster awaits a recovery process to complete. A recovery process should finish within seconds. If a cluster is stuck in the RECOVERY state this would indicate a cluster malfunction which needs to be investigated.
        </p><p>
        Once the recovery master detects an inconsistency, for example a node 
        becomes disconnected/connected, the recovery daemon will trigger a 
        cluster recovery process, where all databases are remerged across the
        cluster. When this process starts, the recovery master will first
        "freeze" all databases to prevent applications such as samba from 
        accessing the databases and it will also mark the recovery mode as
        RECOVERY.
        </p><p>
        When CTDBD starts up, it will start in RECOVERY mode.
        Once the node has been merged into a cluster and all databases
        have been recovered, the node mode will change into NORMAL mode
        and the databases will be "thawed", allowing samba to access the
        databases again.
        </p></div><div class="refsect3" lang="en"><a name="id2528429"></a><h4>Recovery master</h4><p>
          This is the cluster node that is currently designated as the recovery master. This node is responsible of monitoring the consistency of the cluster and to perform the actual recovery process when reqired.
        </p><p>
        Only one node at a time can be the designated recovery master. Which
        node is designated the recovery master is decided by an election
        process in the recovery daemons running on each node.
        </p></div><p>
        Example: ctdb status
      </p><p>Example output:</p><pre class="screen">
Number of nodes:4
pnn:0 11.1.2.200       OK (THIS NODE)
pnn:1 11.1.2.201       OK
pnn:2 11.1.2.202       OK
pnn:3 11.1.2.203       OK
Generation:1362079228
Size:4
hash:0 lmaster:0
hash:1 lmaster:1
hash:2 lmaster:2
hash:3 lmaster:3
Recovery mode:NORMAL (0)
Recovery master:0
      </pre></div><div class="refsect2" lang="en"><a name="id2528467"></a><h3>ping</h3><p>
        This command will "ping" all CTDB daemons in the cluster to verify that they are processing commands correctly.
      </p><p>
        Example: ctdb ping
      </p><p>
        Example output:
      </p><pre class="screen">
response from 0 time=0.000054 sec  (3 clients)
response from 1 time=0.000144 sec  (2 clients)
response from 2 time=0.000105 sec  (2 clients)
response from 3 time=0.000114 sec  (2 clients)
      </pre></div><div class="refsect2" lang="en"><a name="id2528493"></a><h3>ip</h3><p>
        This command will display the list of public addresses that are provided by the cluster and which physical node is currently serving this ip.
      </p><p>
        Example: ctdb ip
      </p><p>
        Example output:
      </p><pre class="screen">
Number of addresses:4
12.1.1.1         0
12.1.1.2         1
12.1.1.3         2
12.1.1.4         3
      </pre></div><div class="refsect2" lang="en"><a name="id2528519"></a><h3>getvar &lt;name&gt;</h3><p>
        Get the runtime value of a tuneable variable.
      </p><p>
        Example: ctdb getvar MaxRedirectCount
      </p><p>
        Example output:
      </p><pre class="screen">
MaxRedirectCount    = 3
      </pre></div><div class="refsect2" lang="en"><a name="id2528542"></a><h3>setvar &lt;name&gt; &lt;value&gt;</h3><p>
        Set the runtime value of a tuneable variable.
      </p><p>
        Example: ctdb setvar MaxRedirectCount 5
      </p></div><div class="refsect2" lang="en"><a name="id2528556"></a><h3>listvars</h3><p>
        List all tuneable variables.
      </p><p>
        Example: ctdb listvars
      </p><p>
        Example output:
      </p><pre class="screen">
MaxRedirectCount    = 5
SeqnumFrequency     = 1
ControlTimeout      = 60
TraverseTimeout     = 20
KeepaliveInterval   = 2
KeepaliveLimit      = 3
MaxLACount          = 7
RecoverTimeout      = 5
RecoverInterval     = 1
ElectionTimeout     = 3
TakeoverTimeout     = 5
MonitorInterval     = 15
EventScriptTimeout  = 20
RecoveryGracePeriod = 60
RecoveryBanPeriod   = 300
      </pre></div><div class="refsect2" lang="en"><a name="id2528585"></a><h3>lvsmaster</h3><p>
      This command shows which node is currently the LVSMASTER. The
      LVSMASTER is the node in the cluster which drives the LVS system and
      which receives all incoming traffic from clients.
      </p><p>
      LVS is the mode where the entire CTDB/Samba cluster uses a single
      ip address for the entire cluster. In this mode all clients connect to
      one specific node which will then multiplex/loadbalance the clients
      evenly onto the other nodes in the cluster. This is an alternative to using
      public ip addresses. See the manpage for ctdbd for more information
      about LVS.
      </p></div><div class="refsect2" lang="en"><a name="id2528607"></a><h3>lvs</h3><p>
      This command shows which nodes in the cluster are currently active in the
      LVS configuration. I.e. which nodes we are currently loadbalancing
      the single ip address across.
      </p><p>
      LVS will by default only loadbalance across those nodes that are both
      LVS capable and also HEALTHY. Except if all nodes are UNHEALTHY in which
      case LVS will loadbalance across all UNHEALTHY nodes as well.
      LVS will never use nodes that are DISCONNECTED, BANNED or DISABLED.
      </p><p>
        Example output:
      </p><pre class="screen">
2:10.0.0.13
3:10.0.0.14
      </pre></div><div class="refsect2" lang="en"><a name="id2528637"></a><h3>getcapabilities</h3><p>
      This command shows the capabilities of the current node.
      Please see manpage for ctdbd for a full list of all capabilities and
      more detailed description.
      </p><p>
      RECMASTER and LMASTER capabilities are primarily used when CTDBD
      is used to create a cluster spanning across WAN links. In which case
      ctdbd acts as a WAN accelerator.
      </p><p>
      LVS capabile means that the node is participating in LVS, a mode
      where the entire CTDB cluster uses one single ip address for the
      entire cluster instead of using public ip address failover.
      This is an alternative to using a loadbalancing layer-4 switch.
      </p><p>
        Example output:
      </p><pre class="screen">
RECMASTER: YES
LMASTER: YES
LVS: NO
      </pre></div><div class="refsect2" lang="en"><a name="id2528673"></a><h3>statistics</h3><p>
        Collect statistics from the CTDB daemon about how many calls it has served.
      </p><p>
        Example: ctdb statistics
      </p><p>
        Example output:
      </p><pre class="screen">
CTDB version 1
 num_clients                        3
 frozen                             0
 recovering                         0
 client_packets_sent           360489
 client_packets_recv           360466
 node_packets_sent             480931
 node_packets_recv             240120
 keepalive_packets_sent             4
 keepalive_packets_recv             3
 node
     req_call                       2
     reply_call                     2
     req_dmaster                    0
     reply_dmaster                  0
     reply_error                    0
     req_message                   42
     req_control               120408
     reply_control             360439
 client
     req_call                       2
     req_message                   24
     req_control               360440
 timeouts
     call                           0
     control                        0
     traverse                       0
 total_calls                        2
 pending_calls                      0
 lockwait_calls                     0
 pending_lockwait_calls             0
 memory_used                     5040
 max_hop_count                      0
 max_call_latency                   4.948321 sec
 max_lockwait_latency               0.000000 sec
      </pre></div><div class="refsect2" lang="en"><a name="id2528716"></a><h3>statisticsreset</h3><p>
        This command is used to clear all statistics counters in a node.
      </p><p>
        Example: ctdb statisticsreset
      </p></div><div class="refsect2" lang="en"><a name="id2528731"></a><h3>getdebug</h3><p>
        Get the current debug level for the node. the debug level controls what information is written to the log file.
      </p><p>
        The debug levels are mapped to the corresponding syslog levels.
        When a debug level is set, only those messages at that level and higher
        levels will be printed.
      </p><p>
        The list of debug levels from highest to lowest are :
      </p><p>
        EMERG ALERT CRIT ERR WARNING NOTICE INFO DEBUG
      </p></div><div class="refsect2" lang="en"><a name="id2528756"></a><h3>setdebug &lt;debuglevel&gt;</h3><p>
        Set the debug level of a node. This controls what information will be logged.
      </p><p>
        The debuglevel is one of EMERG ALERT CRIT ERR WARNING NOTICE INFO DEBUG
      </p></div><div class="refsect2" lang="en"><a name="id2528772"></a><h3>getpid</h3><p>
        This command will return the process id of the ctdb daemon.
      </p></div><div class="refsect2" lang="en"><a name="id2528782"></a><h3>disable</h3><p>
        This command is used to administratively disable a node in the cluster.
        A disabled node will still participate in the cluster and host
        clustered TDB records but its public ip address has been taken over by
        a different node and it no longer hosts any services.
      </p></div><div class="refsect2" lang="en"><a name="id2528796"></a><h3>enable</h3><p>
        Re-enable a node that has been administratively disabled.
      </p></div><div class="refsect2" lang="en"><a name="id2528806"></a><h3>ban &lt;bantime|0&gt;</h3><p>
        Administratively ban a node for bantime seconds. A bantime of 0 means that the node should be permanently banned. 
      </p><p>
        A banned node does not participate in the cluster and does not host any records for the clustered TDB. Its ip address has been taken over by an other node and no services are hosted.
      </p><p>
        Nodes are automatically banned if they are the cause of too many
        cluster recoveries.
      </p></div><div class="refsect2" lang="en"><a name="id2528830"></a><h3>moveip &lt;public_ip&gt; &lt;node&gt;</h3><p>
      This command can be used to manually fail a public ip address to a
      specific node.
      </p><p>
      In order to manually override the "automatic" distribution of public 
      ip addresses that ctdb normally provides, this command only works
      when you have changed the tunables for the daemon to:
      </p><p>
      DeterministicIPs = 0
      </p><p>
      NoIPFailback = 1
      </p></div><div class="refsect2" lang="en"><a name="id2528854"></a><h3>unban</h3><p>
        This command is used to unban a node that has either been 
        administratively banned using the ban command or has been automatically
        banned by the recovery daemon.
      </p></div><div class="refsect2" lang="en"><a name="id2528866"></a><h3>shutdown</h3><p>
        This command will shutdown a specific CTDB daemon.
      </p></div><div class="refsect2" lang="en"><a name="id2528876"></a><h3>recover</h3><p>
        This command will trigger the recovery daemon to do a cluster
        recovery.
      </p></div><div class="refsect2" lang="en"><a name="id2528887"></a><h3>killtcp &lt;srcip:port&gt; &lt;dstip:port&gt;</h3><p>
        This command will kill the specified TCP connection by issuing a
        TCP RST to the srcip:port endpoint.
      </p></div><div class="refsect2" lang="en"><a name="id2528898"></a><h3>reloadnodes</h3><p>
      This command is used when adding new nodes to an existing cluster and
      to reduce the disruption of this operation. This command should never
      be used except when expanding an existing cluster.
      This can only be used to expand a cluster. To remove a node from the
      cluster you still need to shut down ctdb on all nodes, edit the nodes file
      and restart ctdb.
      </p><p>
      Procedure:
      </p><p>
      1, To expand an existing cluster, first ensure with 'ctdb status' that
      all nodes are up and running and that they are all healthy.
      Do not try to expand a cluster unless it is completely healthy!
      </p><p>
      2, On all nodes, edit /etc/ctdb/nodes and add the new node as the last
      entry to the file. The new node MUST be added to the end of this file!
      </p><p>
      3, Verify that all the nodes have identical /etc/ctdb/nodes files after you edited them and added the new node!
      </p><p>
      4, Run 'ctdb reloadnodes' to force all nodes to reaload the nodesfile.
      </p><p>
      5, Use 'ctdb status' on all nodes and verify that they now show the additional node.
      </p><p>
      6, Install and configure the new node and bring it online.
      </p></div><div class="refsect2" lang="en"><a name="id2528950"></a><h3>tickle &lt;srcip:port&gt; &lt;dstip:port&gt;</h3><p>
        This command will will send a TCP tickle to the source host for the
        specified TCP connection.
        A TCP tickle is a TCP ACK packet with an invalid sequence and 
        acknowledge number and will when received by the source host result
        in it sending an immediate correct ACK back to the other end.
      </p><p>
        TCP tickles are useful to "tickle" clients after a IP failover has 
        occured since this will make the client immediately recognize the 
        TCP connection has been disrupted and that the client will need
        to reestablish. This greatly speeds up the time it takes for a client
        to detect and reestablish after an IP failover in the ctdb cluster.
      </p></div><div class="refsect2" lang="en"><a name="id2528975"></a><h3>repack [max_freelist]</h3><p>
        Over time, when records are created and deleted in a TDB, the TDB list of free space will become fragmented. This can lead to a slowdown in accessing TDB records.
        This command is used to defragment a TDB database and pruning the freelist.
      </p><p>
        If [max_freelist] is specified, then a database will only be repacked if it has more than this number of entries in the freelist.
        </p><p>
        During repacking of the database, the entire TDB database will be locked to prevent writes. If samba tries to write to a record in the database during a repack operation, samba will block until the repacking has completed.
      </p><p>
        This command can be disruptive and can cause samba to block for the duration of the repack operation. In general, a repack operation will take less than one second to complete.
      </p><p>
        A repack operation will only defragment the local TDB copy of the CTDB database. You need to run this command on all of the nodes to repack a CTDB database completely.
        </p><p>
        Example: ctdb repack 1000
      </p><p>
         By default, this operation is issued from the 00.ctdb event script every 5 minutes.
      </p></div><div class="refsect2" lang="en"><a name="id2529021"></a><h3>vacuum [max_records]</h3><p>
        Over time CTDB databases will fill up with empty deleted records which will lead to a progressive slow down of CTDB database access.
        This command is used to prune all databases and delete all empty records from the cluster.
      </p><p>
         By default, vacuum will delete all empty records from all databases.
         If [max_records] is specified, the command will only delete the first
         [max_records] empty records for each database.
      </p><p>
         Vacuum only deletes records where the local node is the lmaster.
         To delete all records from the entire cluster you need to run a vacuum from each node.

         This command is not disruptive. Samba is unaffected and will still be able to read/write records normally while the database is being vacuumed.
      </p><p>
        Example: ctdb vacuum
      </p><p>
         By default, this operation is issued from the 00.ctdb event script every 5 minutes.
      </p></div></div><div class="refsect1" lang="en"><a name="id2529058"></a><h2>Debugging Commands</h2><p>
      These commands are primarily used for CTDB development and testing and
      should not be used for normal administration.
    </p><div class="refsect2" lang="en"><a name="id2529068"></a><h3>process-exists &lt;pid&gt;</h3><p>
        This command checks if a specific process exists on the CTDB host. This is mainly used by Samba to check if remote instances of samba are still running or not.
      </p></div><div class="refsect2" lang="en"><a name="id2529080"></a><h3>getdbmap</h3><p>
        This command lists all clustered TDB databases that the CTDB daemon has attached to. Some databases are flagged as PERSISTENT, this means that the database stores data persistently and the data will remain across reboots. One example of such a database is secrets.tdb where information about how the cluster was joined to the domain is stored.
        </p><p>
        Most databases are not persistent and only store the state information that the currently running samba daemons need. These databases are always wiped when ctdb/samba starts and when a node is rebooted.
      </p><p>
        Example: ctdb getdbmap
      </p><p>
        Example output:
      </p><pre class="screen">
Number of databases:10
dbid:0x435d3410 name:notify.tdb path:/var/ctdb/notify.tdb.0 
dbid:0x42fe72c5 name:locking.tdb path:/var/ctdb/locking.tdb.0 dbid:0x1421fb78 name:brlock.tdb path:/var/ctdb/brlock.tdb.0 
dbid:0x17055d90 name:connections.tdb path:/var/ctdb/connections.tdb.0 
dbid:0xc0bdde6a name:sessionid.tdb path:/var/ctdb/sessionid.tdb.0 
dbid:0x122224da name:test.tdb path:/var/ctdb/test.tdb.0 
dbid:0x2672a57f name:idmap2.tdb path:/var/ctdb/persistent/idmap2.tdb.0 PERSISTENT
dbid:0xb775fff6 name:secrets.tdb path:/var/ctdb/persistent/secrets.tdb.0 PERSISTENT
dbid:0xe98e08b6 name:group_mapping.tdb path:/var/ctdb/persistent/group_mapping.tdb.0 PERSISTENT
dbid:0x7bbbd26c name:passdb.tdb path:/var/ctdb/persistent/passdb.tdb.0 PERSISTENT
      </pre></div><div class="refsect2" lang="en"><a name="id2529127"></a><h3>catdb &lt;dbname&gt;</h3><p>
        This command will dump a clustered TDB database to the screen. This is a debugging command.
      </p></div><div class="refsect2" lang="en"><a name="id2529138"></a><h3>getmonmode</h3><p>
        This command returns the monutoring mode of a node. The monitoring mode is either ACTIVE or DISABLED. Normally a node will continously monitor that all other nodes that are expected are in fact connected and that they respond to commands.
      </p><p>
        ACTIVE - This is the normal mode. The node is actively monitoring all other nodes, both that the transport is connected and also that the node responds to commands. If a node becomes unavailable, it will be marked as DISCONNECTED and a recovery is initiated to restore the cluster.
      </p><p>
        DISABLED - This node is not monitoring that other nodes are available. In this mode a node failure will not be detected and no recovery will be performed. This mode is useful when for debugging purposes one wants to attach GDB to a ctdb process but wants to prevent the rest of the cluster from marking this node as DISCONNECTED and do a recovery.
      </p></div><div class="refsect2" lang="en"><a name="id2529168"></a><h3>setmonmode &lt;0|1&gt;</h3><p>
        This command can be used to explicitely disable/enable monitoring mode on a node. The main purpose is if one wants to attach GDB to a running ctdb daemon but wants to prevent the other nodes from marking it as DISCONNECTED and issuing a recovery. To do this, set monitoring mode to 0 on all nodes before attaching with GDB. Remember to set monitoring mode back to 1 afterwards.
      </p></div><div class="refsect2" lang="en"><a name="id2529184"></a><h3>attach &lt;dbname&gt;</h3><p>
        This is a debugging command. This command will make the CTDB daemon create a new CTDB database and attach to it.
      </p></div><div class="refsect2" lang="en"><a name="id2529195"></a><h3>dumpmemory</h3><p>
        This is a debugging command. This command will make the ctdb
        daemon to write a fill memory allocation map to standard output.
      </p></div><div class="refsect2" lang="en"><a name="id2529207"></a><h3>freeze</h3><p>
        This command will lock all the local TDB databases causing clients 
        that are accessing these TDBs such as samba3 to block until the
        databases are thawed.
      </p><p>
        This is primarily used by the recovery daemon to stop all samba
        daemons from accessing any databases while the database is recovered
        and rebuilt.
      </p></div><div class="refsect2" lang="en"><a name="id2529225"></a><h3>thaw</h3><p>
        Thaw a previously frozen node.
      </p></div></div><div class="refsect1" lang="en"><a name="id2529236"></a><h2>SEE ALSO</h2><p>
      ctdbd(1), onnode(1)
      <a href="http://ctdb.samba.org/" target="_top">http://ctdb.samba.org/</a>
    </p></div><div class="refsect1" lang="en"><a name="id2529249"></a><h2>COPYRIGHT/LICENSE</h2><div class="literallayout"><p><br>
Copyright (C) Andrew Tridgell 2007<br>
Copyright (C) Ronnie sahlberg 2007<br>
<br>
This program is free software; you can redistribute it and/or modify<br>
it under the terms of the GNU General Public License as published by<br>
the Free Software Foundation; either version 3 of the License, or (at<br>
your option) any later version.<br>
<br>
This program is distributed in the hope that it will be useful, but<br>
WITHOUT ANY WARRANTY; without even the implied warranty of<br>
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU<br>
General Public License for more details.<br>
<br>
You should have received a copy of the GNU General Public License<br>
along with this program; if not, see http://www.gnu.org/licenses/.<br>
</p></div></div></div></body></html>