Oracle® Streams Advanced Queuing User's Guide 11g Release 1 (11.1) Part Number B28420-01 |
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This chapter discusses how Oracle Messaging Gateway (MGW) converts message formats from one messaging system to another. A conversion is generally necessary when moving messages between Oracle Streams AQ and another system, because different messaging systems have different message formats. Java Message Service (JMS) messages are a special case. A JMS message can be propagated only to a JMS destination, making conversion a simple process.
This chapter contains these topics:
MGW converts the native message format of the source messaging system to the native message format of the destination messaging system during propagation. MGW uses canonical types and a model centering on Oracle Streams AQ for the conversion.
When a message is propagated by MGW, the message is converted from the native format of the source queue to the native format of the destination queue.
A native message usually contains a message header and a message body. The header contains the fixed header fields that all messages in that messaging system have, such as message properties in Oracle Streams AQ and the fixed header in WebSphere MQ. The body contains message contents, such as the Oracle Streams AQ payload, the WebSphere MQ message body, or the entire TIB/Rendezvous message. MGW converts both message header and message body components.
Figure 20-1 shows how non-JMS messages are converted in two stages. A message is first converted from the native format of the source queue to the MGW internal message format, and then it is converted from the internal message format to the native format of the destination queue.
The MGW agent uses an internal message format consisting of a header that is similar to the Oracle Streams AQ message properties and a body that is a representation of an MGW canonical type.
MGW defines canonical types to support message conversion between Oracle Streams AQ and non-Oracle messaging systems. A canonical type is a message type representation in the form of a PL/SQL Oracle type in Oracle Database. The canonical types are RAW
, SYS.MGW_BASIC_MSG_T
, and SYS.MGW_TIBRV_MSG_T
.
WebSphere MQ propagation supports the canonical types SYS.MGW_BASIC_MSG_T
and RAW
. TIB/Rendezvous propagation supports the canonical types SYS.MGW_TIBRV_MSG_T
and RAW
.
See Also:
"DBMS_MGWMSG" in Oracle Database PL/SQL Packages and Types Reference for Syntax and attribute information forSYS.MGW_BASIC_MSG_T
and SYS.MGW_TIBRV_MSG_T
MGW provides default mappings between Oracle Streams AQ message properties and non-Oracle message header fields that have a counterpart in Oracle Streams AQ message properties with the same semantics. Where MGW does not provide a mapping, the message header fields are set to a default value, usually the default value defined by the messaging system.
When converting to or from Oracle Streams AQ messages, the MGW agent uses only its canonical types. Arbitrary payload types are supported, however, with the assistance of user-defined Oracle Streams AQ message transformations to convert between an Oracle Streams AQ queue payload and an MGW canonical type.
For MGW to propagate messages from an Oracle Streams AQ queue with an arbitrary ADT payload (outbound propagation), you must provide a mapping to an MGW canonical ADT. The transformation is invoked when the MGW agent dequeues messages from the Oracle Streams AQ queue. Similarly, for MGW to propagate messages to an Oracle Streams AQ queue with an arbitrary ADT payload (inbound propagation), you must provide a mapping from an MGW canonical ADT. The transformation is invoked when the MGW agent enqueues messages to the Oracle Streams AQ queue.
The transformation is always executed in the context of the MGW agent, which means that the MGW agent user (the user specified using DBMS_MGWADM
.CREATE_AGENT
or DBMS_MGWADM
.ALTER_AGENT
) must have EXECUTE
privileges on the transformation function and the Oracle Streams AQ payload type. This can be accomplished by granting the EXECUTE
privilege to PUBLIC
or by granting the EXECUTE
privilege directly to the MGW agent user.
To configure a MGW propagation job with a transformation:
Create the transformation function.
Grant EXECUTE
to the MGW agent user or to PUBLIC
on the function and the object types it references.
Call DBMS_TRANSFORM.CREATE_TRANSFORMATION
to register the transformation.
Call DBMS_MGWADM
.CREATE_JOB
to create a MGW propagation job using the transformation, or DBMS_MGWADM
.ALTER_JOB
to alter an existing job.
The value passed in the transformation parameter for these APIs must be the registered transformation name and not the function name. For example, trans_sampleadt_to_mgw_basic
is a stored procedure representing a transformation function with the signature shown in Example 20-1.
Note:
All commands in the examples must be run as a user grantedMGW_ADMINISTRATOR_ROLE
, except for the commands to create transformations.Example 20-1 Transformation Function Signature
FUNCTION trans_sampleadt_to_mgw_basic(in_msg IN mgwuser.sampleADT) RETURN SYS.MGW_BASIC_MSG_T;
You can create a transformation using DBMS_TRANSFORM.CREATE_TRANSFORMATION
, as shown in Example 20-2.
Example 20-2 Creating a Transformation
BEGIN DBMS_TRANSFORM.CREATE_TRANSFORMATION( schema => 'mgwuser', name => 'sample_adt_to_mgw_basic', from_schema => 'mgwuser', from_type => 'sampleadt', to_schema => 'sys', to_type => 'MGW_BASIC_MSG_T', transformation => 'mgwuser.trans_sampleadt_to_mgw_basic(user_data)'); END;
Once created, this transformation can be registered with MGW when creating a propagation job. Example 20-3 creates job job_aq2mq
, for whom messages are propagated from Oracle Streams AQ queue mgwuser.srcq
to non-Oracle messaging system queue destq@mqlink
using transformation mgwuser.sample_adt_to_mgw_basic
.
Example 20-3 Registering a Transformation
BEGIN DBMS_MGWADM.CREATE_JOB( job_name => 'job_aq2mq', propagation_type => DBMS_MGWADM.OUTBOUND_PROPAGATION, source => 'mgwuser.srcq', destination => 'destq.mqlink', transformation => 'mgwuser.sample_adt_to_mgw_basic', exception_queue => 'mgwuser.excq'); END;
See Also:
"DBMS_MGWADM", "DBMS_MGWMSG", and "DBMS_TRANSFORM" in Oracle Database PL/SQL Packages and Types ReferenceAn error that occurs while attempting a user-defined transformation is usually considered a message conversion exception, and the message is moved to the exception queue if it exists.
MGW provides facilities to propagate Logical Change Records (LCRs). Routines are provided to help in creating transformations to handle the propagation of both row LCRs and DDL LCRs stored in queues with payload type ANYDATA
. An LCR is propagated as an XML string stored in the appropriate message type.
Note:
For LCR propagation, you must load the XDB package.Because Oracle Streams uses ANYDATA
queues to store LCRs, an ANYDATA
queue is the source for outbound propagation. The transformation must first convert the ANYDATA
object containing an LCR into an XMLType object using the MGW routine DBMS_MGWMSG.LCR_TO_XML
. If the ANYDATA
object does not contain an LCR, then this routine raises an error. The XML document string of the LCR is then extracted from the XMLType and placed in the appropriate MGW canonical type (SYS.MGW_BASIC_MSG_T
or SYS.MGW_TIBRV_MSG_T
).
Example 20-4 illustrates a simplified transformation used for LCR outbound propagation. The transformation converts an ANYDATA
payload containing an LCR to a SYS.MGW_TIBRV_MSG_T
object. The string representing the LCR as an XML document is put in a field named ORACLE_LCR
.
Example 20-4 Outbound LCR Transformation
create or replace function any2tibrv(adata in anydata) return SYS.MGW_TIBRV_MSG_T is v_xml XMLType; v_text varchar2(2000); v_tibrv sys.mgw_tibrv_msg_t; BEGIN v_xml := dbms_mgwmsg.lcr_to_xml(adata); -- assume the lcr is smaller than 2000 characters long. v_text := v_xml.getStringVal(); v_tibrv := SYS.MGW_TIBRV_MSG_T.CONSTRUCT; v_tibrv.add_string('ORACLE_LCR', 0, v_text); return v_tibrv; END any2tibrv;
For LCR inbound propagation, an MGW canonical type (SYS.MGW_BASIC_MSG_T
or SYS.MGW_TIBRV_MSG_T
) is the transformation source type. A string in the format of an XML document representing an LCR must be contained in the canonical type. The transformation function must extract the string from the message, create an XMLType object from it, and convert it to an ANYDATA
object containing an LCR with the MGW routine DBMS_MGWMSG.XML_TO_LCR
. If the original XML document does not represent an LCR, then this routine raises an error.
Example 20-5 illustrates a simplified transformation used for LCR inbound propagation. The transformation converts a SYS.MGW_TIBRV_MSG_T
object with a field containing an XML string representing an LCR to an ANYDATA
object. The string representing the LCR as an XML document is taken from a field named ORACLE_LCR
.
Example 20-5 Inbound LCR Transformation
create or replace function tibrv2any(tdata in sys.mgw_tibrv_msg_t) return anydata is v_field sys.mgw_tibrv_field_t; v_xml XMLType; v_text varchar2(2000); v_any anydata; BEGIN v_field := tdata.get_field_by_name('ORACLE_LCR'); -- type checking v_text := v_field.text_value; -- assume it is not null v_xml := XMLType.createXML(v_text); v_any := dbms_mgwmsg.xml_to_lcr(v_xml); return v_any; END tibrv2any;
See Also:
"DBMS_MGWMSG" in Oracle Database PL/SQL Packages and Types Reference
ORACLE_HOME
/mgw/samples/lcr
for complete examples of LCR transformations
MGW converts between the MGW canonical types and the WebSphere MQ native message format. WebSphere MQ native messages consist of a fixed message header and a message body. The message body is treated as either a TEXT
value or RAW
(bytes) value. The canonical types supported for WebSphere MQ propagation are SYS.MGW_BASIC_MSG_T
and RAW
.
Figure 20-3 Message Conversion for WebSphere MQ Using MGW_BASIC_MSG_T
Figure 20-3 illustrates the message conversion performed by the MGW WebSphere MQ driver when using the canonical type SYS.MGW_BASIC_MSG_T
. For outbound propagation, the driver maps the Oracle Streams AQ message properties and canonical message to a WebSphere MQ message having a fixed header and a message body. For inbound propagation, the driver maps a native message to a set of Oracle Streams AQ message properties and a canonical message. When the canonical type is RAW
, the mappings are the same, except no canonical headers exist.
When the MGW canonical type used in an outbound propagation job is RAW
, no WebSphere MQ header information is set from the RAW
message body. Similarly, for inbound propagation no WebSphere MQ header information is preserved in the RAW
message body. MGW canonical type SYS.MGW_BASIC_MSG_T
, however, has a header that can be used to specify WebSphere MQ header fields for outbound propagation, and preserve WebSphere MQ header fields for inbound propagation.
This section describes the message properties supported for the WebSphere MQ messaging system when using SYS.MGW_BASIC_MSG_T
as the canonical type. Table 20-1 defines the MGW {name, value} pairs used to describe the WebSphere MQ header properties. The first column refers to valid string values for the SYS.MGW_NAME_VALUE_T.NAME
field in the SYS.MGW_BASIC_MSG_T
header. The second column refers to the SYS.MGW_NAME_VALUE_T.TYPE
value corresponding to the name. (Refer to "Notes on Table 20-1" for explanations of the numbers in parentheses.)
See Also:
"DBMS_MGWMSG" in Oracle Database PL/SQL Packages and Types ReferenceFor inbound propagation, the WebSphere MQ driver generates {name,value} pairs based on the source message header and stores them in the header part of the canonical message of the SYS.MGW_BASIC_MSG_T
type. For outbound propagation, the WebSphere MQ driver sets the message header and enqueue options from {name,value} pairs for these properties stored in the header part of the SYS.MGW_BASIC_MSG_T
canonical message.
Table 20-1 MGW Names for WebSphere MQ Header Values
MGW Name | MGW Type | WebSphere MQ Property Name | Used For |
---|---|---|---|
MGW_MQ_accountingToken |
RAW_VALUE (size 32) |
accountingToken |
Outbound (1), Inbound |
MGW_MQ_applicationIdData |
TEXT_VALUE (size 32) |
applicationIdData |
Outbound (1), Inbound |
MGW_MQ_applicationOriginData |
TEXT_VALUE (size 4) |
applicationOriginData |
Outbound (1), Inbound |
MGW_MQ_backoutCount |
INTEGER_VALUE |
backoutCount |
Inbound |
MGW_MQ_characterSet |
INTEGER_VALUE |
characterSet |
Outbound, Inbound |
MGW_MQ_correlationId |
RAW_VALUE (size 24) |
correlationId |
Outbound (1), Inbound |
MGW_MQ_encoding |
INTEGER_VALUE |
encoding |
Outbound, Inbound |
MGW_MQ_expiry |
INTEGER_VALUE |
expiry |
Outbound, Inbound |
MGW_MQ_feedback |
INTEGER_VALUE |
feedback |
Outbound, Inbound |
MGW_MQ_format |
TEXT_VALUE (size 8) |
format |
Outbound (1), Inbound |
MGW_MQ_groupId |
RAW_VALUE (size 24) |
groupId |
Outbound (1), Inbound |
MGW_MQ_messageFlags |
INTEGER_VALUE |
messageFlags |
Outbound, Inbound |
MGW_MQ_messageId |
RAW_VALUE (size 24) |
messageId |
Outbound, Inbound |
MGW_MQ_messageSequenceNumber |
INTEGER_VALUE |
messageSequenceNumber |
Outbound, Inbound |
MGW_MQ_messageType |
INTEGER_VALUE |
messageType |
Outbound, Inbound |
MGW_MQ_offset |
INTEGER_VALUE |
offset |
Outbound, Inbound |
MGW_MQ_originalLength |
INTEGER_VALUE |
originalLength |
Outbound, Inbound |
MGW_MQ_persistence |
INTEGER_VALUE |
persistence |
Inbound |
MGW_MQ_priority |
INTEGER_VALUE |
priority |
Outbound, Inbound |
MGW_MQ_putApplicationName |
TEXT_VALUE (size 28) |
putApplicationName |
Outbound (1), Inbound |
MGW_MQ_putApplicationType |
INTEGER_VALUE |
putApplicationType |
Outbound (1), Inbound |
MGW_MQ_putDateTime |
DATE_VALUE |
putDateTime |
Inbound |
MGW_MQ_putMessageOptions |
INTEGER_VALUE |
putMessageOptions |
Outbound (1) (2) |
MGW_MQ_replyToQueueManagerName |
TEXT_VALUE (size 48) |
replyToQueueManagerName |
Outbound, Inbound |
MGW_MQ_replyToQueueName |
TEXT_VALUE (size 48) |
replyToQueueName |
Outbound, Inbound |
MGW_MQ_report |
INTEGER_VALUE |
report |
Outbound (1), Inbound |
MGW_MQ_userId |
TEXT_VALUE (size 12) |
userId |
Outbound, Inbound |
Notes on Table 20-1
This use is subject to WebSphere MQ restrictions. For example, if MGW_MQ_accountingToken
is set for an outgoing message, then WebSphere MQ overrides its value unless MGW_MQ_putMessageOptions
is set to the WebSphere MQ constant MQPMD_SET_ALL_CONTEXT
.
MGW_MQ_putMessageOptions
is used as the putMessageOptions
argument to the WebSphere MQ Base Java Queue.put()
method. It is not part of the WebSphere MQ header information and is therefore not an actual message property.
The value for the openOptions
argument of the WebSphere MQ Base Java MQQueueManager.accessQueue
method is specified when the WebSphere MQ queue is registered using the DBMS_MGWADM.REGISTER_FOREIGN_QUEUE
call. Dependencies can exist between the two. For instance, for MGW_MQ_putMessageOptions
to include MQPMD_SET_ALL_CONTEXT,
the MQ_openMessageOptions
queue option must include MQOO_SET_CONTEXT
.
The MGW agent adds the value MQPMO_SYNCPOINT
to any value that you can specify.
MGW sets default values for two WebSphere MQ message header fields: messageType
defaults to MQMT_DATAGRAM
and putMessageOptions
defaults to MQPMO_SYNCPOINT
.
MGW provides two default mappings between Oracle Streams AQ message properties and WebSphere MQ header fields.
One maps the Oracle Streams AQ message property expiration
, representing the time-to-live of the message at the time the message becomes available in the queue, to the WebSphere MQ header field expiry
, representing the time-to-live of the message. For outbound propagation, the value used for expiry
is determined by subtracting the time the message was available in the queue from the expiration
, converted to tenths of a second. Oracle Streams AQ value NEVER
is mapped to MQEI_UNLIMITED
. For inbound propagation, the value of expiration
is simply expiry
converted to seconds. WebSphere MQ value MQEI_UNLIMITED
is mapped to NEVER
.
The other default maps Oracle Streams AQ message property priority
with the WebSphere MQ header field priority
. It is described in Table 20-2.
Table 20-2 Default Priority Mappings for Propagation
Propagation Type | Message System | Priority Values | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|
Outbound | Oracle Streams AQ |
0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 |
Outbound | WebSphere MQ | 9 | 8 | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
Inbound | Oracle Streams AQ |
9 | 8 | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
Inbound | WebSphere MQ | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 |
Note:
For outbound propagation, Oracle Streams AQ priority values less than 0 are mapped to WebSphere MQ priority 9, and Oracle Streams AQ priority values greater than 9 are mapped to WebSphere MQ priority 0.If no message transformation is provided for outbound propagation, then the Oracle Streams AQ source queue payload type must be either SYS.MGW_BASIC_MSG_T
or RAW
. If a message transformation is specified, then the target ADT of the transformation must be SYS.MGW_BASIC_MSG_T
, but the source ADT can be any ADT supported by Oracle Streams AQ.
If the Oracle Streams AQ queue payload is RAW, then the resulting WebSphere MQ message has the message body set to the value of the RAW bytes and, by default, the format
field set to the value "MGW_Byte
".
If the Oracle Streams AQ queue payload or transformation target ADT is SYS.MGW_BASIC_MSG_T
, then the message is mapped to a WebSphere MQ native message as follows:
The WebSphere MQ fixed header fields are based on the internal Oracle Streams AQ message properties and the SYS.MGW_BASIC_MSG_T.header
attribute of the canonical message, as described in "WebSphere MQ Message Header Mappings".
If the canonical message has a TEXT
body, then the WebSphere MQ format header field is set to MQFMT_STRING
unless overridden by the header property MGW_MQ_format
. The message body is treated as text.
If the canonical message has a RAW
body, then the WebSphere MQ format header field is set to "MGW_Byte
" unless overridden by the header property MGW_MQ_format
. The message body is treated as raw bytes.
If the canonical message has both a TEXT
and RAW
body, then message conversion fails.
If the canonical message has neither a TEXT
nor RAW
body, then no message body is set, and the WebSphere MQ format header field is MQFMT_NONE
.
If the canonical message has a TEXT
body with both small and large values set (SYS.MGW_BASIC_MSG_T.TEXT_BODY.small_value
and SYS.MGW_BASIC_MSG_T.TEXT_BODY.large_value
not empty), then message conversion fails.
If the canonical message has a RAW
body with both small and large values set (SYS.MGW_BASIC_MSG_T.RAW_BODY.small_value
and SYS.MGW_BASIC_MSG_T.RAW_BODY.large_value
not empty), then message conversion fails.
If the job option PreserveMessageID
is specified with a value of TRUE
, then the correlationId
field of the WebSphere message header will be set to the AQ source message identifier. The correlationId
value will be a 24-byte value of the form "AQMSGID:"+
AQ_msgid
where AQ_msgid
represents the 16-byte Streams AQ message identifier.
If no message transformation is provided for inbound propagation, then the Oracle Streams AQ destination queue payload type must be either SYS.MGW_BASIC_MSG_T
or RAW
. If a message transformation is specified, then the source ADT of the transformation must be SYS.MGW_BASIC_MSG_T
, but the destination ADT can be any ADT supported by Oracle Streams AQ.
If the Oracle Streams AQ queue payload is RAW
and the incoming WebSphere MQ message has a format
of MQFMT_STRING
, then message conversion fails. Otherwise the message body is considered as raw bytes and enqueued directly to the destination queue. If the number of bytes is greater than 32KB, then message conversion fails. The actual limit is 32512 bytes rather than 32767 bytes.
If the Oracle Streams AQ queue payload or transformation source ADT is SYS.MGW_BASIC_MSG_T
, then the WebSphere MQ message is mapped to a SYS.MGW_BASIC_MSG_T
message as follows:
Specific WebSphere MQ header fields are mapped to Oracle Streams AQ message properties as previously described.
The SYS.MGW_BASIC_MSG_T.header
attribute of the canonical message is set to {name, value} pairs based on the WebSphere MQ header fields, as described in Table 20-1. These values preserve the original content of the WebSphere MQ message header.
If the WebSphere MQ format
header field is MQFMT_STRING
, then the WebSphere MQ message body is treated as text, and its value is mapped to SYS.MGW_BASIC_MSG_T.text_body
. For any other format
value, the message body is treated as raw bytes, and its value is mapped to SYS.MGW_BASIC_MSG_T.raw_body
.
See Also:
"WebSphere MQ Message Header Mappings"MGW regards a TIB/Rendezvous message as a set of fields and supplementary information. Figure 20-4 shows how messages are converted between MGW and TIB/Rendezvous.
When a message conversion failure occurs, messages are moved to an exception queue (if one has been provided), so that MGW can continue propagation of the remaining messages in the source queue. In inbound propagation from TIB/Rendezvous, an exception queue is a registered subject.
All TIB/Rendezvous wire format datatypes for TIB/Rendezvous fields are supported, except for the datatypes with unsigned integers and the nested message type. User-defined custom datatypes are not supported in this release. If a message contains data of the unsupported datatypes, then a message conversion failure occurs when the message is processed. A message conversion failure results in moving the failed message from the source queue to the exception queue, if an exception queue is provided.
Table 20-3 shows the datatype mapping used when MGW converts between a native TIB/Rendezvous message and the canonical ADT. For each supported TIB/Rendezvous wire format type, it shows the Oracle type used to store the data and the DBMS_MGWMSG
constant that represents that type.
Table 20-3 TIB/Rendezvous Datatype Mapping
TIB/Rendezvous Wire Format | Oracle Type | ADT Field Type |
---|---|---|
Bool |
NUMBER |
TIBRVMSG_BOOL |
F32 |
NUMBER |
TIBRVMSG_F32 |
F64 |
NUMBER |
TIBRVMSG_F64 |
I8 |
NUMBER |
TIBRVMSG_I8 |
I16 |
NUMBER |
TIBRVMSG_I16 |
I32 |
NUMBER |
TIBRVMSG_I32 |
I64 |
NUMBER |
TIBRVMSG_I64 |
U8 |
not supported | not supported |
U16 |
not supported | not supported |
U32 |
not supported | not supported |
U64 |
not supported | not supported |
IPADDR32 |
VARCHAR2 |
TIBRVMSG_IPADDR32 |
IPPORT16 |
NUMBER |
TIBRVMSG_IPPORT16 |
DATETIME |
DATE |
TIBRVMSG_DATETIME |
F32ARRAY |
SYS.MGW_NUMBER_ARRAY_T |
TIBRVMSG_F32ARRAY |
F64ARRAY |
SYS.MGW_NUMBER_ARRAY_T |
TIBRVMSG_F64ARRAY |
I8ARRAY |
SYS.MGW_NUMBER_ARRAY_T |
TIBRVMSG_I8ARRAY |
I16ARRAY |
SYS.MGW_NUMBER_ARRAY_T |
TIBRVMSG_I16ARRAY |
I32ARRAY |
SYS.MGW_NUMBER_ARRAY_T |
TIBRVMSG_I32ARRAY |
I64ARRAY |
SYS.MGW_NUMBER_ARRAY_T |
TIBRVMSG_I64ARRAY |
U8ARRAY |
not supported | not supported |
U16ARRAY |
not supported | not supported |
U32ARRAY |
not supported | not supported |
U64ARRAY |
not supported | not supported |
MSG |
not supported | not supported |
OPAQUE |
RAW or BLOB |
TIBRVMSG_OPAQUE |
STRING |
VARCHAR2 or CLOB |
TIBRVMSG_STRING |
XML |
RAW or BLOB |
TIBRVMSG_XML |
For propagation between Oracle Streams AQ and TIB/Rendezvous, MGW provides direct support for the Oracle Streams AQ payload types RAW
and SYS.MGW_TIBRV_MSG_T
. To support any other Oracle Streams AQ payload type, you must supply a transformation.
This section describes the mapping between Oracle Streams AQ message properties and TIB/Rendezvous fields. This mapping is used to preserve Streams AQ message properties during outbound propagation, and set Streams AQ message properties during inbound propagation.
Table 20-4 describes the Streams AQ message properties supported using TIB/Rendezvous fields. The first column indicates the DBMS_AQ.MESSAGE_PROPERTIES_T
field for the Streams AQ message property. The second and third columns indicate the name and datatype used for the TIB/Rendezvous field. The last column indicates if the message property is supported for inbound and outbound propagation.
Table 20-4 TIB/Rendezvous and MGW Names for Oracle Streams AQ Message Properties
Oracle Streams AQ Message Property | MGW Name | TIB/Rendezvous Wire Format Datatype | Used For |
---|---|---|---|
priority |
MGW_AQ_priority |
TibrvMsg.I32 |
Outbound, Inbound |
expiration |
MGW_AQ_expiration |
TibrvMsg.I32 |
Outbound, Inbound |
delay |
MGW_AQ_delay |
TibrvMsg.I32 |
Outbound, Inbound |
correlation |
MGW_AQ_correlation |
TibrvMsg.STRING |
Outbound, Inbound |
exception_queue |
MGW_AQ_exception_queue |
TibrvMsg.STRING |
Outbound, Inbound |
enqueue_time |
MGW_AQ_enqueue_time |
TibrvMsg.DATETIME |
Outbound |
original_msgid |
MGW_AQ_original_msgid |
TibrvMsg.OPAQUE |
Outbound |
msgid (1) |
MGW_AQ_messageID |
TibrvMsg.OPAQUE |
Outbound |
Notes on Table 20-4:
The msgid
Streams AQ property represents the Streams AQ message identifier, rather than a particular field of the DBMS_AQ.MESSAGE_PROPERTIES_T
record.
If no propagation transformation is provided for outbound propagation, then the Oracle Streams AQ source queue payload type must be either SYS.MGW_TIBRV_MSG_T
or RAW
. If a propagation transformation is specified, then the target ADT of the transformation must be SYS.MGW_TIBRV_MSG_T
, but the source ADT can be any ADT supported by Oracle Streams AQ.
If the Oracle Streams AQ queue payload or transformation target ADT is SYS.MGW_TIBRV_MSG_T
, then:
Every field in the source message is converted to a TIB/Rendezvous message field of the resulting TIB/Rendezvous message.
If the reply_subject
attribute is not NULL
, then the reply subject supplementary information is set.
The send_subject
field is ignored.
If the Oracle Streams AQ queue payload is RAW
, then:
The resulting message contains a field named MGW_RAW_MSG
with value TibrvMsg.OPAQUE
. The field ID is set to 0.
If the job option AQ_MsgProperties
is specified with a value of TRUE
, then the MGW agent generates fields to preserve the Streams AQ message properties in the TIB/Rendezvous message according to Table 20-4.
If the PreserveMessageID
job option is specified with a value of TRUE
, then the Streams AQ message identifier (msgid
) is preserved in the TIB/Rendezvous message according to Table 20-4.
If no propagation transformation is provided for inbound propagation, then the Oracle Streams AQ destination queue payload type must be either RAW
or SYS.MGW_TIBRV_MSG_T
. If a propagation transformation is specified, then the target ADT of the transformation can be any ADT supported by Oracle Streams AQ, but the source ADT of the transformation must be SYS.MGW_TIBRV_MSG_T
.
If the Oracle Streams AQ queue payload or transformation source ADT is SYS.MGW_TIBRV_MSG_T
, then:
Every field in the source TIB/Rendezvous message is converted to a field of the resulting message of the SYS.MGW_TIBRV_MSG_T
type.
The MGW agent extracts the send subject name from the source TIB/Rendezvous message and sets the send_subject
attribute in SYS.MGW_TIBRV_MSG_T
. The send subject name is usually the same as the subject name of the registered propagation source queue, but it might be different when wildcards are used.
The MGW agent extracts the reply subject name from the source TIB/Rendezvous message, if it exists, and sets the reply_subject
attribute in SYS.MGW_TIBRV_MSG_T
.
If the source TIB/Rendezvous message contains more than three large text fields (greater than 4000 bytes of text) or more than three large bytes fields (greater than 2000 bytes), then message conversion fails.
If the Oracle Streams AQ queue payload is RAW
, then:
The Oracle Streams AQ message payload is the field data if the source TIB/Rendezvous message has a field named MGW_RAW_MSG
of type TibrvMsg.OPAQUE
or TibrvMsg.XML
. The field name and ID are ignored. If no such field exists or has an unexpected type, then a message conversion failure occurs.
A message conversion failure occurs if the RAW
data size is greater than 32KB. This is due to a restriction on the data size allowed for a bind variable. Also, the actual limit is 32512 rather than 32767.
If the job option AQ_MsgProperties
is specified with a value of TRUE
, then the MGW agent searches for fields in the original TIB/Rendezvous messages with reserved field names. Table 20-4 shows the field name strings and the corresponding values used in the TIB/Rendezvous message.
If such fields exist, then the MGW agent uses the field value to set the corresponding Oracle Streams AQ message properties, instead of using the default values. If there is more than one such field with the same name, then only the first one is used. Such fields are removed from the resulting payload only if the Oracle Streams AQ queue payload is RAW
. If a field with the reserved name does not have the expected datatype, then it causes a message conversion failure.
See Also:
"DBMS_MGWMSG" in Oracle Database PL/SQL Packages and Types Reference for the value datatypesMGW propagates only JMS messages between Oracle JMS and non-Oracle JMS systems, without changing the message content. Figure 20-5 shows JMS message propagation.
MGW supports only the standard JMS message types. It does not support:
JMS provider extensions, because any such extensions would not be recognized by the destination JMS system. An attempt to propagate any such non-JMS message results in an error.
User transformations for JMS propagation.
Propagation of Logical Change Records (LCRs).
For the purposes of this discussion, a JMS message is a Java object of a class that implements one of the five JMS message interfaces. Table 20-5 shows the JMS message interfaces and the corresponding Oracle JMS ADTs. The table also shows the interface, javax.jms.Message
, which can be any one of the five specific types, and the corresponding generic Oracle JMS type SYS.AQ$_JMS_MESSAGE
.
Table 20-5 Oracle JMS Message Conversion
JMS Message | ADT |
---|---|
javax.jms.TextMessage |
SYS.AQ$_JMS_TEXT_MESSAGE |
javax.jms.BytesMessage |
SYS.AQ$_JMS_BYTES_MESSAGE |
javax.jms.MapMessage |
SYS.AQ$_JMS_MAP_MESSAGE |
javax.jms.StreamMessage |
SYS.AQ$_JMS_STREAM_MESSAGE |
javax.jms.ObjectMessage |
SYS.AQ$_JMS_OBJECT_MESSAGE |
javax.jms.Message |
SYS.AQ$_JMS_MESSAGE |
When a propagation job is activated, the MGW agent checks the Oracle Streams AQ payload type for the propagation source or destination. If the type is one of those listed in Table 20-5 or ANYDATA
, then message propagation is attempted. Otherwise an exception is logged and propagation is not attempted.
The MGW agent may add a JMS String
property named OracleMGW_OriginalMessageID
to the JMS message sent to the destination queue in order to preserve the original message identifier of the source message. This property is added if the PreserveMessageID
job option is specified with a value of TRUE
. It will also be added for any message moved to an exception queue upon a message conversion failure.
When dequeuing a message from an Oracle Streams AQ queue, Oracle JMS converts instances of the ADTs shown in Table 20-5 into JMS messages. In addition it can convert instances of ANYDATA
into JMS messages, depending on the content.
A queue with payload type ANYDATA
can hold messages that do not map to a JMS message. MGW fails to dequeue such a message. An error is logged and propagation of messages from that queue does not continue until the message is removed.
Every message successfully dequeued using WebSphere MQ JMS is a JMS message. No message conversion is necessary prior to enqueuing using Oracle JMS. However, if the payload ADT of the propagation destination does not accept the type of the inbound message, then an exception is logged and an attempt is made to place the message in an exception queue. An example of such type mismatches is a JMS TextMessage
and a queue payload type SYS.AQ$_JMS_BYTES_MESSAGE
.