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MySQL 5.1 Reference Manual :: 17 MySQL Cluster NDB 6.X/7.X :: 17.4 MySQL Cluster Programs :: 17.4.2 ndbd — The MySQL Cluster Data Node Daemon
17.4.3 ndbmtd — The MySQL Cluster Data Node Daemon (Multi-Threaded) »
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17.4.2. ndbd — The MySQL Cluster Data Node Daemon

ndbd is the process that is used to handle all the data in tables using the NDB Cluster storage engine. This is the process that empowers a data node to accomplish distributed transaction handling, node recovery, checkpointing to disk, online backup, and related tasks.

In a MySQL Cluster, a set of ndbd processes cooperate in handling data. These processes can execute on the same computer (host) or on different computers. The correspondences between data nodes and Cluster hosts is completely configurable.

The following table includes command options specific to the MySQL Cluster data node program ndbd. Additional descriptions follow the table. For options common to all MySQL Cluster programs, see Section 17.4.23, “Options Common to MySQL Cluster Programs”.

Table 17.9. ndbd Command Line Options

Format Description Introduction Deprecated Removed
--bind-address=name Local bind address 5.1.12    
--daemon Start ndbd as daemon (default); override with --nodaemon      
--foreground Run ndbd in foreground, provided for debugging purposes (implies --nodaemon)      
--initial Perform initial start of ndbd, including cleaning the file system. Consult the documentation before using this option      
--initial-start Perform partial initial start (requires --nowait-nodes) 5.1.11    
--nodaemon Do not start ndbd as daemon; provided for testing purposes      
--nostart Don't start ndbd immediately; ndbd waits for command to start from ndb_mgmd      
--nowait-nodes=list Do not wait for these data nodes to start (takes comma-separated list of node IDs). Also requires --ndb-nodeid to be used. 5.1.9    

Note

All of these options also apply to the multi-threaded version of this program — ndbmtd, which is available in MySQL Cluster NDB 7.0 — and you may substitute “ndbmtd” for “ndbd” wherever the latter occurs in this section.

For options common to all NDBCLUSTER programs, see Section 17.4.23, “Options Common to MySQL Cluster Programs”.

  • --bind-address

    Version Introduced 5.1.12
    Command-Line Format --bind-address=name
      Permitted Values
    Type string
    Default

    Causes ndbd to bind to a specific network interface (host name or IP address). This option has no default value.

    This option was added in MySQL 5.1.12.

  • --daemon, -d

    Command-Line Format --daemon
      Permitted Values
    Type boolean
    Default TRUE

    Instructs ndbd to execute as a daemon process. This is the default behavior. --nodaemon can be used to prevent the process from running as a daemon.

    This option has no effect when running ndbd or ndbmtd on Windows platforms.

  • --initial

    Command-Line Format --initial
      Permitted Values
    Type boolean
    Default FALSE

    Instructs ndbd to perform an initial start. An initial start erases any files created for recovery purposes by earlier instances of ndbd. It also re-creates recovery log files. Note that on some operating systems this process can take a substantial amount of time.

    An --initial start is to be used only when starting the ndbd process under very special circumstances; this is because this option causes all files to be removed from the Cluster file system and all redo log files to be re-created. These circumstances are listed here:

    • When performing a software upgrade which has changed the contents of any files.

    • When restarting the node with a new version of ndbd.

    • As a measure of last resort when for some reason the node restart or system restart repeatedly fails. In this case, be aware that this node can no longer be used to restore data due to the destruction of the data files.

    Use of this option prevents the StartPartialTimeout and StartPartitionedTimeout configuration parameters from having any effect.

    Important

    This option does not affect either of the following:

    This option also has no effect on recovery of data by a data node that is just starting (or restarting) from data nodes that are already running. This recovery of data occurs automatically, and requires no user intervention in a MySQL Cluster that is running normally.

    It is permissible to use this option when starting the cluster for the very first time (that is, before any data node files have been created); however, it is not necessary to do so.

  • --initial-start

    Version Introduced 5.1.11
    Command-Line Format --initial-start
      Permitted Values
    Type boolean
    Default FALSE

    This option is used when performing a partial initial start of the cluster. Each node should be started with this option, as well as --nowait-nodes.

    Suppose that you have a 4-node cluster whose data nodes have the IDs 2, 3, 4, and 5, and you wish to perform a partial initial start using only nodes 2, 4, and 5 — that is, omitting node 3: 

    shell> ndbd --ndb-nodeid=2 --nowait-nodes=3 --initial-start
shell> ndbd --ndb-nodeid=4 --nowait-nodes=3 --initial-start
shell> ndbd --ndb-nodeid=5 --nowait-nodes=3 --initial-start

    Prior to MySQL 5.1.19, it was not possible to perform DDL operations involving Disk Data tables on a partially started cluster. (See Bug#24631.)

    When using this option, you must also specify the node ID for the data node being started with the --ndb-nodeid option.

    This option was added in MySQL 5.1.11.

    Important

    Do not confuse this option with the --nowait-nodes option added for ndb_mgmd in MySQL Cluster NDB 7.0.10, which can be used to allow a cluster configured with multiple management servers to be started without all management servers being online.

  • --nowait-nodes=node_id_1[, node_id_2[, ...]]

    Version Introduced 5.1.9
    Command-Line Format --nowait-nodes=list
      Permitted Values
    Type string
    Default

    This option takes a list of data nodes which for which the cluster will not wait for before starting.

    This can be used to start the cluster in a partitioned state. For example, to start the cluster with only half of the data nodes (nodes 2, 3, 4, and 5) running in a 4-node cluster, you can start each ndbd process with --nowait-nodes=3,5. In this case, the cluster starts as soon as nodes 2 and 4 connect, and does not wait StartPartitionedTimeout milliseconds for nodes 3 and 5 to connect as it would otherwise.

    If you wanted to start up the same cluster as in the previous example without one ndbd — say, for example, that the host machine for node 3 has suffered a hardware failure — then start nodes 2, 4, and 5 with --nowait-nodes=3. Then the cluster will start as soon as nodes 2, 4, and 5 connect and will not wait for node 3 to start.

    This option was added in MySQL 5.1.9.

  • --nodaemon

    Command-Line Format --nodaemon
      Permitted Values
    Type boolean
    Default FALSE
      Permitted Values
    Type (windows) boolean
    Default TRUE

    Instructs ndbd not to start as a daemon process. This is useful when ndbd is being debugged and you want output to be redirected to the screen.

    As of MySQL Cluster NDB 7.0.8, the default behavior for ndbd and ndbmtd on Windows is to run in the foreground, making this option unnecessary on Windows platforms. (Bug#45588)

  • --nostart, -n

    Command-Line Format --nostart
      Permitted Values
    Type boolean
    Default FALSE

    Instructs ndbd not to start automatically. When this option is used, ndbd connects to the management server, obtains configuration data from it, and initializes communication objects. However, it does not actually start the execution engine until specifically requested to do so by the management server. This can be accomplished by issuing the proper START command in the management client (see Section 17.5.2, “Commands in the MySQL Cluster Management Client”).

ndbd generates a set of log files which are placed in the directory specified by DataDir in the config.ini configuration file.

These log files are listed below. node_id is the node's unique identifier. Note that node_id represents the node's unique identifier. For example, ndb_2_error.log is the error log generated by the data node whose node ID is 2.

  • ndb_node_id_error.log is a file containing records of all crashes which the referenced ndbd process has encountered. Each record in this file contains a brief error string and a reference to a trace file for this crash. A typical entry in this file might appear as shown here: 

    Date/Time: Saturday 30 July 2004 - 00:20:01
Type of error: error
Message: Internal program error (failed ndbrequire)
Fault ID: 2341
Problem data: DbtupFixAlloc.cpp
Object of reference: DBTUP (Line: 173)
ProgramName: NDB Kernel
ProcessID: 14909
TraceFile: ndb_2_trace.log.2
***EOM***

    Listings of possible ndbd exit codes and messages generated when a data node process shuts down prematurely can be found in ndbd Error Messages.

    Important

    The last entry in the error log file is not necessarily the newest one (nor is it likely to be). Entries in the error log are not listed in chronological order; rather, they correspond to the order of the trace files as determined in the ndb_node_id_trace.log.next file (see below). Error log entries are thus overwritten in a cyclical and not sequential fashion.

  • ndb_node_id_trace.log.trace_id is a trace file describing exactly what happened just before the error occurred. This information is useful for analysis by the MySQL Cluster development team.

    It is possible to configure the number of these trace files that will be created before old files are overwritten. trace_id is a number which is incremented for each successive trace file.

  • ndb_node_id_trace.log.next is the file that keeps track of the next trace file number to be assigned.

  • ndb_node_id_out.log is a file containing any data output by the ndbd process. This file is created only if ndbd is started as a daemon, which is the default behavior.

  • ndb_node_id.pid is a file containing the process ID of the ndbd process when started as a daemon. It also functions as a lock file to avoid the starting of nodes with the same identifier.

  • ndb_node_id_signal.log is a file used only in debug versions of ndbd, where it is possible to trace all incoming, outgoing, and internal messages with their data in the ndbd process.

It is recommended not to use a directory mounted through NFS because in some environments this can cause problems whereby the lock on the .pid file remains in effect even after the process has terminated.

To start ndbd, it may also be necessary to specify the host name of the management server and the port on which it is listening. Optionally, one may also specify the node ID that the process is to use. 

shell> ndbd --connect-string="nodeid=2;host=ndb_mgmd.mysql.com:1186"

See Section 17.3.2.3, “The MySQL Cluster Connectstring”, for additional information about this issue. Section 17.4.2, “ndbd — The MySQL Cluster Data Node Daemon”, describes other options for ndbd.

When ndbd starts, it actually initiates two processes. The first of these is called the “angel process”; its only job is to discover when the execution process has been completed, and then to restart the ndbd process if it is configured to do so. Thus, if you attempt to kill ndbd via the Unix kill command, it is necessary to kill both processes, beginning with the angel process. The preferred method of terminating an ndbd process is to use the management client and stop the process from there.

The execution process uses one thread for reading, writing, and scanning data, as well as all other activities. This thread is implemented asynchronously so that it can easily handle thousands of concurrent actions. In addition, a watch-dog thread supervises the execution thread to make sure that it does not hang in an endless loop. A pool of threads handles file I/O, with each thread able to handle one open file. Threads can also be used for transporter connections by the transporters in the ndbd process. In a multi-processor system performing a large number of operations (including updates), the ndbd process can consume up to 2 CPUs if permitted to do so.

For a machine with many CPUs it is possible to use several ndbd processes which belong to different node groups; however, such a configuration is still considered experimental and is not supported for MySQL 5.1 in a production setting. See Section 17.1.5, “Known Limitations of MySQL Cluster”.