WebSphere Message Broker, Version 8.0.0.7 Operating Systems: AIX, HP-Itanium, Linux, Solaris, Windows, z/OS

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TCPIPServerInput node

Use the TCPIPServerInput node to create a server connection to a raw TCPIP socket, and to receive data over that connection.

Purpose

The TCPIPServerInput node listens on a port and, when a client socket connects to the port, the server socket creates a connection for the client. Unlike the TCPIPClientInput node, the TCPIPServerInput node does not attempt to make a minimum number of connections, because the server end of the socket cannot initiate new connections, it can only accept them. The TCPIPServerInput node accepts connections up to a maximum value, which is specified in the MaximumConnections property of the TCPIPServer configurable service. By default, the broker can accept up to 100 server connections. For more information, see mqsicreateconfigurableservice command and mqsireportproperties command.

You can configure the broker to use SSL for TCP/IP nodes; see SSL and the TCP/IP nodes.

When a connection is opened, a message containing details of the connection is sent to the Open terminal; no data is routed to this terminal. Use the Open terminal if processing is required when a connection is opened rather than when data first arrives. The output stream for the connection is reserved until the propagation of the open message has finished (which happens immediately if the terminal is not attached to any other nodes). The options on the Advanced tab of the node do not apply to open events; they are applicable only when the first data arrives on the connection and is propagated down the Out terminal.

The first record of data is detected in accordance with properties on the node and then sent to the Out terminal. If an error occurs, including a timeout waiting for data or the closure of a connection while waiting for the full record, the data is sent to the Failure terminal. If the connection closes and no data exists, a message is sent to the Close terminal. Although the message has no data, the local environment does have details of the connection that closed.

For both data and close events, the following local environment is created.

Table 1. Location in local environment
Location in local environment Description
$LocalEnvironment/TCPIP/Input/ConnectionDetails/Type The server.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/Hostname The host name used to make a connection.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/Port The port number used to make a connection.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/OpenTimestamp The time stamp when the connection was first opened.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/CloseTimestamp The time stamp when the connection was closed (null if not yet closed).
$LocalEnvironment/TCPIP/Input/ConnectionDetails/SequenceNumber/InputRecord The sequence number of the message received on this connection. The first record has a sequencing number of 1; the second record has a sequencing number of 2; and so on.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/SequenceNumber/OutputRecord The sequence number of the message sent on this connection. The first record has a sequencing number of 1; the second record has a sequencing number of 2; and so on.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/Id The ID of the socket being used. This ID is an internal identifier used by WebSphere® Message Broker to uniquely identify a connection.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/ReplyId The Reply ID that is stored on this connection. It can be any text string.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/ClientDetails/Hostname The fully qualified domain name of the computer from which the client connected.
$LocalEnvironment/TCPIP/Input/ConnectionDetails/ClientDetails/Address The IP address of the computer from which the client connected.

The TCPIPServerInput node is contained in the TCPIP drawer of the palette, and is represented in the WebSphere Message Broker Toolkit by the following icon:

TCPIPServerInput node icon

Message structure

The TCPIPServerInput node handles messages in the following message domains:
  • DFDL
  • XMLNSC
  • DataObject
  • JSON
  • BLOB
  • MIME
  • MRM
  • JMSMap
  • JMSStream
  • XMLNS

Using the TCPIPServerInput node in a message flow

Look at the following samples to see how to use the TCPIPServerInput node:

You can view information about samples only when you use the information center that is integrated with the WebSphere Message Broker Toolkit or the online information center. You can run samples only when you use the information center that is integrated with the WebSphere Message Broker Toolkit.

Configuring the TCPIPServerInput node

When you have put an instance of the TCPIPServerInput node into a message flow, you can configure it; see Configuring a message flow node. The properties of the node are displayed in the Properties view.

All mandatory properties that do not have a default value defined are marked with an asterisk.

Configure the TCPIPServerInput node:

  1. Optional: On the Description tab, enter a Short description, a Long description, or both. You can also rename the node on this tab.
  2. On the Basic tab, set the properties that determine how the TCPIP connection is controlled.
    • Use the Connection details property to specify the port number to be used, or the name of a configurable service. This property is mandatory. The following formats are supported:
      • Configurable service name. This value is used to look up the port number in configurable services. For example, TCPIPProfile1.
      • <Port>. This value is the port number. For example, 1111
    • Use the Timeout waiting for a data record (seconds) property to specify how long the node listens on a connection for more data after the first byte of data has arrived. You can specify any length of time in seconds. The default is 60 seconds. When the specified time has been exceeded, all available data is sent to the Failure terminal.
  3. On the Advanced tab, set the properties that determine how the data stream is controlled.
    • Use the Close connection property to specify when and how to close the connection.
      • Select No to leave the connection open. This value is the default.
      • Select After timeout to close the connection when a timeout occurs.
      • Select After data has been received to close the connection when the end of the record is found.
      • Select At end of flow to close the connection after the flow has been run.
    • Select Close input stream after a record has been received to close the input stream as soon as the data has been retrieved. When the connection input stream is reserved, no other node can use it without specifying the ID. This property is not selected by default.
    • Use the Input Stream Modification property to specify whether to reserve the input stream for use only by input and receive nodes that specify the connection ID, and, if reserved, whether to release the input stream at the end of the flow. These options are available only if you have not selected the Close input stream after a record has been received property.
      • Select Leave unchanged to leave the input stream as it was when it entered the node. This value is selected by default.
      • Select Reserve input stream (for use by future TCPIP input and receive nodes) to specify that this input stream can be used only by this node and by other receive nodes that request it by specifying the connection ID. When the connection input stream is reserved, no other nodes can use it without specifying the correct connection ID.
      • Select Reserve input stream (for use by future TCPIP input and receive nodes) then release at end of flow to specify that this input stream can be used only by this node and receive nodes that request it by specifying the connection ID. After the flow has been run, this input stream is returned to the pool and becomes available for use by any input or receive node.
    • Use the Output Stream Modification property to specify whether to release the output stream.
      • Select Leave unchanged to leave the output stream as it was when it entered the node. This value is selected by default.
      • Select Release output stream and reset ReplyID to specify that this output stream is returned to the pool and is available for use by any output node. The ReplyID is passed in the local environment when leaving this node, but is reset for the next record on this connection.
  4. On the Input Message Parsing tab, set values for the properties that the node uses to determine how to parse the incoming message.
    If the incoming message has an MQRFH2 header, you do not have to set values for the Input Message Parsing properties because the values are derived from the <mcd> folder in the MQRFH2 header; for example:
    <mcd><Msd>MRM</Msd><Set>DHM4UO906S001</Set><Type>receiptmsg1</Type>
    <Fmt>XML</Fmt></mcd>

    If you set values, and those values differ from those in the MQRFH2 header, the values in the MQRFH2 header take precedence.

    • In Message domain, select the name of the parser that you are using from the list. The default is BLOB. You can choose from the following options:
      • DFDL
      • XMLNSC
      • DataObject
      • JSON
      • BLOB
      • MIME
      • MRM
      • JMSMap
      • JMSStream
      • XMLNS
      You can also specify a user-defined parser, if appropriate.
    • If you are using the DFDL parser, the MRM parser or the XMLNSC parser in validating mode, select the relevant Message model from the list. This list is populated with available message sets when you select MRM or XMLNSC as the Message domain, or with available DFDL schema files when you select DFDL as the Message domain.
    • If you are using the DFDL or MRM parsers, select the correct message from the list in Message. This list is populated with messages that are defined in the Message model that you have selected.
    • If you are using the MRM parser, select the format of the message from the list in Physical format. This list includes all the physical formats that you have defined for this Message model.
    • Specify the message coded character set ID in Message coded character set ID.
    • Select the message encoding from the list in Message encoding or specify a numeric encoding value. For more information about encoding, see Data conversion.
  5. On the Parser Options subtab:
    1. Parse timing is, by default, set to On Demand, which causes parsing of the message to be delayed. To cause the message to be parsed immediately, see Parsing on demand.
    2. If you are using the XMLNSC parser, set values for the properties that determine how the XMLNSC parser operates. For more information, see Manipulating messages in the XMLNSC domain.
  6. Use the Retry tab to define how retry processing is performed when a flow fails. You can set the following properties:
    • Retry mechanism determines the action that occurs if the flow fails. Choose from the following values:
      • Select Failure for the node to report a failure without any retry attempts.
      • Select Short retry for the node to retry before reporting a failure if the condition persists. The number of times that it retries is specified in Retry threshold.
      • Select Short retry and long retry for the node to retry, first using the value in Retry threshold as the number of attempts it should make. If the condition persists after the Retry threshold has been reached, the node then uses the Long retry interval between attempts.
    • Specify the Retry threshold:The number of times the node retries the flow transaction if the Retry mechanism property is set to either Short retry or Short retry and long retry.
    • Specify the Short retry interval:The length of time, in seconds, to wait between short retry attempts.
    • Specify the Long retry interval:The length of time to wait between long retry attempts until a message is successful, the message flow is stopped, or the message flow is redeployed. The broker property MinLongRetryInterval defines the minimum value that the Long retry interval can take. If the value is lower than the minimum, the broker value is used.
  7. Use the Records and Elements tab to specify how the data is interpreted as records.
    • Use the Record detection property to determine how the data is split into records, each of which generates a single message. Choose from the following options:
      • End of stream specifies that all of the data sent in the data stream is a single record.
      • Fixed Length specifies that each record is a fixed number of bytes in length. Each record contains the number of bytes specified in the Length property.
      • Select Delimited if the records that you are processing are separated, or ended, by a DOS or UNIX line end or by a sequence of user-defined delimiter bytes. Specify the delimiter and delimiter type in the Delimiter and Delimiter type properties.
      • Select Parsed Record Sequence if the data contains a sequence of one or more records that are serially recognized by the parser specified in Message domain. The node propagates each recognized record as a separate message. If you select the Record detection option, the parser specified in Message domain must be either XMLNSC or MRM (either CWF or TDS physical format).
    • If you set Record detection to Fixed Length, use Length to specify the required length of the output record. This value must be in the range 1 byte through 100 MB. The default is 80 bytes.

      If you set Record detection to End of stream, Fixed Length, or Delimited, a limit of 100 MB applies to the length of the records. If you set Record detection toParsed Record Sequence, the TCPIPServerInput node does not determine or limit the length of a record. Nodes that are downstream in the message flow might try to determine the record length or process a long record. If you intend to process large records in this way, ensure that your broker has sufficient memory. You might have to apply flow techniques described in the Large Messaging sample to best use the available memory.

    • If you set Record detection to Delimited, use Delimiter to specify the delimiter to be used. Choose from the following values:
      • DOS or UNIX Line End, which, on UNIX systems, specifies the line feed character (<LF>, X'0A'), and, on Windows systems, specifies a carriage return character followed by a line feed character (<CR><LF>, X'0D0A'). The node treats both of these strings as delimiters, irrespective of the system on which the broker is running. If both strings are seen in the same record, the node recognizes both as delimiters. The node does not recognize X'15', which, on z/OS® systems, is the 'newline' byte; specify a value of Custom Delimiter in this property and a value of 15 in the Custom delimiter property if your input data is coded using EBCDIC new lines.
      • Custom Delimiter, which permits a sequence of bytes to be specified in Custom delimiter
    • In Custom delimiter, specify the delimiter byte or bytes to be used when Delimiter is set to Custom delimiter. Specify this value as an even-numbered string of hexadecimal digits. The default is X'0A' and the maximum length of the string is 16 bytes (represented by 32 hexadecimal digits).
    • If you set Record detection to Delimited, use Delimiter type to specify the type of delimiter. Permitted values are:
      • Infix. If you select this value, each delimiter separates records. If the data ends with a delimiter, the (zero length) data that follows the final delimiter is still propagated although it contains no data.
      • Postfix. If you specify this value, each delimiter ends records. If the data ends with a delimiter, no empty record is propagated after the delimiter. If the data does not end with a delimiter, it is processed as if a delimiter follows the final bytes of the data. Postfix is the default value.
    • The TCPIPServerInput node considers each occurrence of the delimiter in the input as either separating (infix) or terminating (postfix) each record. If the data begins with a delimiter, the node treats the (zero length) contents preceding that delimiter as a record and propagates an empty record to the flow. The delimiter is never included in the propagated message.
  8. Use the Validation tab to provide validation based on the message set for predefined messages. For more information about validation, see Validating messages. For information about how to provide validation for this tab, see Validation tab properties.
  9. On the Transactions tab, set the transaction mode. Although TCPIP operations are non-transactional, the transaction mode on this input node determines whether the rest of the nodes in the flow are to be run under point of consistency or not. Select Yes if you want the flow updates to be treated transactionally (if possible) or No if you do not. The default for this property is No.
  10. Optional: On the Instances tab, set values for the properties that determine the additional instances (threads) that are available for a node. For more details, see Configurable message flow properties.

Terminals and properties

The terminals of the TCPIPServerInput node are described in the following table.

Terminal Description
Failure The output terminal to which the message is routed if an error occurs. These errors include failures caused by retry processing. Even if the Validation property is set, messages propagated to this terminal are not validated.
Open The output terminal to which a message is routed when it is first opened. Use the Open terminal if processing is required when a connection is opened rather than when data first arrives.
Out The output terminal to which the message is routed if it is successfully retrieved from an external resource. If no errors occur within the input node, a message that is received from an external resource is always sent to the Out terminal first.
Close The output terminal to which the message is routed if the connection closes.
Catch The output terminal to which the message is routed if an exception is thrown downstream and caught by this node. Exceptions are caught only if this terminal is attached.

The following tables describe the node properties. The column headed M indicates whether the property is mandatory (marked with an asterisk if you must enter a value when no default is defined); the column headed C indicates whether the property is configurable (you can change the value when you add the message flow to the BAR file to deploy it).

The Description properties of the TCPIPServerInput node are described in the following table.

Property M C Default Description
Node name No No TCPIPServerInput The name of the node.
Short description No No   A brief description of the node.
Long description No No   Text that describes the purpose of the node in the message flow.

The Basic properties of the TCPIPServerInput node are described in the following table.

Property M C Default Description mqsiapplybaroverride command property
Connection details Yes Yes   A string containing the port number to be used, or the name of a configurable service. connectionDetails
Timeout waiting for a data record (seconds) Yes Yes 60 Specifies how long the node listens on a connection for more data after the first byte of data has arrived. You can specify any length of time in seconds. timeoutWaitingForData

The Advanced properties of the TCPIPServerInput node are described in the following table.

Property M C Default Description
Close connection Yes No No Controls when the connection is closed, or if it remains open. Valid options are:
  • No
  • After Timeout
  • After Data has been Received
  • At End of Flow
Close input stream after a record has been received Yes No Cleared Specifies whether to close the input stream as soon as the data has been retrieved. When the connection input stream is reserved, no other node can use it without knowing the ID. By default, this option is not selected.
Input Stream Modification No No Leave unchanged Specifies whether to reserve the input stream for use only by input and receive nodes that specify the connection ID, and, if reserved, whether to release the input stream at the end of the flow. Valid options are:
  • Leave unchanged
  • Reserve input stream (for use by future TCPIP nodes)
  • Reserve input stream (for use by future TCPIP nodes) then release at end of flow
When the connection input stream is reserved, no other nodes can use it without specifying the correct connection ID. If the input stream is released at the end of the flow, it is returned to the pool and becomes available for use by any input or receive node.
Output stream modification No No Leave unchanged Specifies whether this output stream is released and returned to the pool for use by any output node. Valid options are:
  • Leave unchanged
  • Release output stream and reset ReplyID
If you select Release output stream and reset ReplyID, the ReplyID is passed in the local environment when leaving this node, but is reset for the next record on this connection.

The TCPIPServerInput node Input Message Parsing properties are described in the following table.

Property M C Default Description mqsiapplybaroverride command property
Message domain No No BLOB The domain that is used to parse the incoming message.  
Message model No No   The name or location of the message model in which the incoming message is defined.  
Message No No   The name or location of a global element that models an entire document of data, and is contained in your message model schema file This list is populated with all available messages that are defined in the Message model that you have selected.  
Physical Format No No   The name of the physical format of the incoming message.  
Message coded character set ID Yes No Broker System Default The ID of the coded character set used to interpret the data being read. messageCodedCharSetIdProperty
Message encoding Yes No Broker System Determined The encoding scheme for numbers and large characters used to interpret the data being read. Valid values are Broker System Determined or a numeric encoding value. For more information about encoding, see Data conversion. messageEncodingProperty

The Parser Options properties of the TCPIPServerInput node are described in the following table.

Property M C Default Description
Parse timing No No On Demand This property controls when an input message is parsed. Valid values are:
  • On Demand
  • Immediate
  • Complete

For a full description of this property, see Parsing on demand.

Build tree using XML schema data types No No Cleared This property controls whether the syntax elements in the message tree have data types taken from the XML Schema.
Use XMLNSC compact parser for XMLNS domain No No Cleared This property controls whether the XMLNSC Compact Parser is used for messages in the XMLNS Domain. If you set this property, the message data is displayed under XMLNSC in nodes that are connected to the output terminal when the input MQRFH2 header or Input Message Parsing property, Message Domain, is XMLNS.
Retain mixed content No No Cleared This property controls whether the XMLNSC parser creates elements in the message tree when it encounters mixed text in an input message. If you select the check box, elements are created for mixed text. If you clear the check box, mixed text is ignored and no elements are created.
Retain comments No No Cleared This property controls whether the XMLNSC parser creates elements in the message tree when it encounters comments in an input message. If you select the check box, elements are created for comments. If you clear the check box, comments are ignored and no elements are created.
Retain processing instructions No No Cleared This property controls whether the XMLNSC parser creates elements in the message tree when it encounters processing instructions in an input message. If you select the check box, elements are created for processing instructions. If you clear the check box, processing instructions are ignored and no elements are created.
Opaque elements No No Blank This property is used to specify a list of elements in the input message that are to be opaquely parsed by the XMLNSC parser.

The Records and Elements properties of the TCPIPServerInput node are described in the following table:

Property M C Default Description
Record detection Yes No End of Stream The mechanism used to identify records in the input data. Valid options are:
  • End of Stream
  • Fixed Length
  • Delimited
  • Parsed Record Sequence
Length (bytes) Yes No 0 The length of each record, in bytes, when Fixed Length record detection is selected.
Delimiter Yes No DOS or UNIX Line End The type of delimiter bytes that separates, or ends, each record when Delimited record detection is selected. Valid options are:
  • DOS or UNIX Line End
  • Custom Delimiter (Hexadecimal)
Custom delimiter (hexadecimal) No No   The delimiter bytes, expressed in hexadecimal, when Delimited record detection and Custom Delimiter (Hexadecimal) are selected. This property is mandatory only if the Delimiter property is set to Custom Delimiter (Hexadecimal).
Delimiter type Yes No Postfix The location of the delimiter when Delimited record detection and Custom Delimiter (Hexadecimal) are selected. Valid options are:
  • Infix
  • Postfix
This property is ignored unless the Delimiter property is set to Custom Delimiter (Hexadecimal).

The Retry properties of the TCPIPServerInput node are described in the following table:

Property M C Default Description mqsiapplybaroverride command property
Retry mechanism Yes No Failure How the node handles a flow failure. Valid options are:
  • Failure
  • Short Retry
  • Short and Long Retry
 
Retry threshold Yes Yes 0 The number of times to retry the flow transaction when Retry mechanism is Short retry. retryThreshold
Short retry interval (seconds) No Yes 0 The interval, in seconds, between each retry if Retry threshold is not zero. shortRetryThreshold
Long retry interval (seconds) No Yes 300 The interval between retries if Retry mechanism is Short and Long Retry and the retry threshold has been exhausted. longRetryThreshold

The Validation properties of the TCPIPServerInput node are described in the following table.

For a full description of these properties, see Validation properties.

Property M C Default Description mqsiapplybaroverride command property
Validate No Yes None This property controls whether validation takes place. Valid values are
  • None
  • Content and Value
  • Content
validateMaster
Failure action No No Exception This property controls what happens if validation fails. Valid values are:
  • User Trace
  • Local Error Log
  • Exception
  • Exception List
 

The Transactions properties of the TCPIPServerInput node are described in the following table:

Property M C Default Description
Transaction mode No Yes No The transaction mode on this input node determines whether the rest of the nodes in the flow are executed under point of consistency. Valid options are:
  • Yes
  • No
The Instances properties of the TCPIPServerInput node are described in the following table. For a full description of these properties, see Configurable message flow properties.
Property M C Default Description mqsiapplybaroverride command property
Additional instances pool No Yes Use Pool Associated with Message Flow The pool from which additional instances are obtained.
  • If you select Use Pool Associated with Message Flow, additional instances are obtained from the message flow pool.
  • If you select Use Pool Associated with Node, additional instances are allocated from the additional instances of the node, based on the number specified in the Additional instances property.
componentLevel
Additional instances No Yes 0 The number of additional instances that the node can start if the Additional instances pool property is set to Use Pool Associated with Node. additionalInstances
The Monitoring properties of the node are described in the following table.
Property M C Default Description
Events No No None Events that you have defined for the node are displayed on this tab. By default, no monitoring events are defined on any node in a message flow. Use Add, Edit, and Delete to create, change or delete monitoring events for the node; see Configuring monitoring event sources using monitoring properties for details.

You can enable and disable events that are shown here by selecting or clearing the Enabled check box.

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