Java EE provides a specification to standardize access to enterprise information systems (EIS): the JCA (Java EE Connector Architecture). This specification is divided into several different parts:
The aim of the Spring CCI support is to provide classes to access a CCI connector in typical Spring style, leveraging the Spring Framework’s general resource and transaction management facilities.
Note | |
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The client side of connectors doesn’t alway use CCI. Some connectors expose their own APIs, only providing JCA resource adapter to use the system contracts of a Java EE container (connection pooling, global transactions, security). Spring does not offer special support for such connector-specific APIs. |
The base resource to use JCA CCI is the ConnectionFactory
interface. The connector
used must provide an implementation of this interface.
To use your connector, you can deploy it on your application server and fetch the
ConnectionFactory
from the server’s JNDI environment (managed mode). The connector
must be packaged as a RAR file (resource adapter archive) and contain a ra.xml
file to
describe its deployment characteristics. The actual name of the resource is specified
when you deploy it. To access it within Spring, simply use Spring’s
JndiObjectFactoryBean
/ <jee:jndi-lookup>
fetch the factory by its JNDI name.
Another way to use a connector is to embed it in your application (non-managed mode),
not using an application server to deploy and configure it. Spring offers the
possibility to configure a connector as a bean, through a provided FactoryBean
(
LocalConnectionFactoryBean
). In this manner, you only need the connector library in
the classpath (no RAR file and no ra.xml
descriptor needed). The library must be
extracted from the connector’s RAR file, if necessary.
Once you have got access to your ConnectionFactory
instance, you can inject it into
your components. These components can either be coded against the plain CCI API or
leverage Spring’s support classes for CCI access (e.g. CciTemplate
).
Note | |
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When you use a connector in non-managed mode, you can’t use global transactions because the resource is never enlisted / delisted in the current global transaction of the current thread. The resource is simply not aware of any global Java EE transactions that might be running. |
In order to make connections to the EIS, you need to obtain a ConnectionFactory
from
the application server if you are in a managed mode, or directly from Spring if you are
in a non-managed mode.
In a managed mode, you access a ConnectionFactory
from JNDI; its properties will be
configured in the application server.
<jee:jndi-lookup id="eciConnectionFactory" jndi-name="eis/cicseci"/>
In non-managed mode, you must configure the ConnectionFactory
you want to use in the
configuration of Spring as a JavaBean. The LocalConnectionFactoryBean
class offers
this setup style, passing in the ManagedConnectionFactory
implementation of your
connector, exposing the application-level CCI ConnectionFactory
.
<bean id="eciManagedConnectionFactory" class="com.ibm.connector2.cics.ECIManagedConnectionFactory"> <property name="serverName" value="TXSERIES"/> <property name="connectionURL" value="tcp://localhost/"/> <property name="portNumber" value="2006"/> </bean> <bean id="eciConnectionFactory" class="org.springframework.jca.support.LocalConnectionFactoryBean"> <property name="managedConnectionFactory" ref="eciManagedConnectionFactory"/> </bean>
Note | |
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You can’t directly instantiate a specific |
JCA CCI allow the developer to configure the connections to the EIS using the
ConnectionSpec
implementation of your connector. In order to configure its properties,
you need to wrap the target connection factory with a dedicated adapter,
ConnectionSpecConnectionFactoryAdapter
. So, the dedicated ConnectionSpec
can be
configured with the property connectionSpec
(as an inner bean).
This property is not mandatory because the CCI ConnectionFactory
interface defines two
different methods to obtain a CCI connection. Some of the ConnectionSpec
properties
can often be configured in the application server (in managed mode) or on the
corresponding local ManagedConnectionFactory
implementation.
public interface ConnectionFactory implements Serializable, Referenceable { ... Connection getConnection() throws ResourceException; Connection getConnection(ConnectionSpec connectionSpec) throws ResourceException; ... }
Spring provides a ConnectionSpecConnectionFactoryAdapter
that allows for specifying a
ConnectionSpec
instance to use for all operations on a given factory. If the adapter’s
connectionSpec
property is specified, the adapter uses the getConnection
variant
with the ConnectionSpec
argument, otherwise the variant without argument.
<bean id="managedConnectionFactory" class="com.sun.connector.cciblackbox.CciLocalTxManagedConnectionFactory"> <property name="connectionURL" value="jdbc:hsqldb:hsql://localhost:9001"/> <property name="driverName" value="org.hsqldb.jdbcDriver"/> </bean> <bean id="targetConnectionFactory" class="org.springframework.jca.support.LocalConnectionFactoryBean"> <property name="managedConnectionFactory" ref="managedConnectionFactory"/> </bean> <bean id="connectionFactory" class="org.springframework.jca.cci.connection.ConnectionSpecConnectionFactoryAdapter"> <property name="targetConnectionFactory" ref="targetConnectionFactory"/> <property name="connectionSpec"> <bean class="com.sun.connector.cciblackbox.CciConnectionSpec"> <property name="user" value="sa"/> <property name="password" value=""/> </bean> </property> </bean>
If you want to use a single CCI connection, Spring provides a further
ConnectionFactory
adapter to manage this. The SingleConnectionFactory
adapter class
will open a single connection lazily and close it when this bean is destroyed at
application shutdown. This class will expose special Connection
proxies that behave
accordingly, all sharing the same underlying physical connection.
<bean id="eciManagedConnectionFactory" class="com.ibm.connector2.cics.ECIManagedConnectionFactory"> <property name="serverName" value="TEST"/> <property name="connectionURL" value="tcp://localhost/"/> <property name="portNumber" value="2006"/> </bean> <bean id="targetEciConnectionFactory" class="org.springframework.jca.support.LocalConnectionFactoryBean"> <property name="managedConnectionFactory" ref="eciManagedConnectionFactory"/> </bean> <bean id="eciConnectionFactory" class="org.springframework.jca.cci.connection.SingleConnectionFactory"> <property name="targetConnectionFactory" ref="targetEciConnectionFactory"/> </bean>
Note | |
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This |
One of the aims of the JCA CCI support is to provide convenient facilities for
manipulating CCI records. The developer can specify the strategy to create records and
extract datas from records, for use with Spring’s CciTemplate
. The following
interfaces will configure the strategy to use input and output records if you don’t want
to work with records directly in your application.
In order to create an input Record
, the developer can use a dedicated implementation
of the RecordCreator
interface.
public interface RecordCreator { Record createRecord(RecordFactory recordFactory) throws ResourceException, DataAccessException; }
As you can see, the createRecord(..)
method receives a RecordFactory
instance as
parameter, which corresponds to the RecordFactory
of the ConnectionFactory
used.
This reference can be used to create IndexedRecord
or MappedRecord
instances. The
following sample shows how to use the RecordCreator
interface and indexed/mapped
records.
public class MyRecordCreator implements RecordCreator { public Record createRecord(RecordFactory recordFactory) throws ResourceException { IndexedRecord input = recordFactory.createIndexedRecord("input"); input.add(new Integer(id)); return input; } }
An output Record
can be used to receive data back from the EIS. Hence, a specific
implementation of the RecordExtractor
interface can be passed to Spring’s
CciTemplate
for extracting data from the output Record
.
public interface RecordExtractor { Object extractData(Record record) throws ResourceException, SQLException, DataAccessException; }
The following sample shows how to use the RecordExtractor
interface.
public class MyRecordExtractor implements RecordExtractor { public Object extractData(Record record) throws ResourceException { CommAreaRecord commAreaRecord = (CommAreaRecord) record; String str = new String(commAreaRecord.toByteArray()); String field1 = string.substring(0,6); String field2 = string.substring(6,1); return new OutputObject(Long.parseLong(field1), field2); } }
The CciTemplate
is the central class of the core CCI support package (
org.springframework.jca.cci.core
). It simplifies the use of CCI since it handles the
creation and release of resources. This helps to avoid common errors like forgetting to
always close the connection. It cares for the lifecycle of connection and interaction
objects, letting application code focus on generating input records from application
data and extracting application data from output records.
The JCA CCI specification defines two distinct methods to call operations on an EIS. The
CCI Interaction
interface provides two execute method signatures:
public interface javax.resource.cci.Interaction { ... boolean execute(InteractionSpec spec, Record input, Record output) throws ResourceException; Record execute(InteractionSpec spec, Record input) throws ResourceException; ... }
Depending on the template method called, CciTemplate
will know which execute
method
to call on the interaction. In any case, a correctly initialized InteractionSpec
instance is mandatory.
CciTemplate.execute(..)
can be used in two ways:
Record
arguments. In this case, you simply need to pass the CCI input
record in, and the returned object be the corresponding CCI output record.
RecordCreator
and RecordExtractor
instances.
With the first approach, the following methods of the template will be used. These
methods directly correspond to those on the Interaction
interface.
public class CciTemplate implements CciOperations { public Record execute(InteractionSpec spec, Record inputRecord) throws DataAccessException { ... } public void execute(InteractionSpec spec, Record inputRecord, Record outputRecord) throws DataAccessException { ... } }
With the second approach, we need to specify the record creation and record extraction
strategies as arguments. The interfaces used are those describe in the previous section
on record conversion. The corresponding CciTemplate
methods are the following:
public class CciTemplate implements CciOperations { public Record execute(InteractionSpec spec, RecordCreator inputCreator) throws DataAccessException { // ... } public Object execute(InteractionSpec spec, Record inputRecord, RecordExtractor outputExtractor) throws DataAccessException { // ... } public Object execute(InteractionSpec spec, RecordCreator creator, RecordExtractor extractor) throws DataAccessException { // ... } }
Unless the outputRecordCreator
property is set on the template (see the following
section), every method will call the corresponding execute
method of the CCI
Interaction
with two parameters: InteractionSpec
and input Record
, receiving an
output Record
as return value.
CciTemplate
also provides methods to create IndexRecord
and MappedRecord
outside a
RecordCreator
implementation, through its createIndexRecord(..)
and
createMappedRecord(..)
methods. This can be used within DAO implementations to create
Record
instances to pass into corresponding CciTemplate.execute(..)
methods.
public class CciTemplate implements CciOperations { public IndexedRecord createIndexedRecord(String name) throws DataAccessException { ... } public MappedRecord createMappedRecord(String name) throws DataAccessException { ... } }
Spring’s CCI support provides a abstract class for DAOs, supporting injection of a
ConnectionFactory
or a CciTemplate
instances. The name of the class is
CciDaoSupport
: It provides simple setConnectionFactory
and setCciTemplate
methods.
Internally, this class will create a CciTemplate
instance for a passed-in
ConnectionFactory
, exposing it to concrete data access implementations in subclasses.
public abstract class CciDaoSupport { public void setConnectionFactory(ConnectionFactory connectionFactory) { // ... } public ConnectionFactory getConnectionFactory() { // ... } public void setCciTemplate(CciTemplate cciTemplate) { // ... } public CciTemplate getCciTemplate() { // ... } }
If the connector used only supports the Interaction.execute(..)
method with input and
output records as parameters (that is, it requires the desired output record to be
passed in instead of returning an appropriate output record), you can set the
outputRecordCreator
property of the CciTemplate
to automatically generate an output
record to be filled by the JCA connector when the response is received. This record will
be then returned to the caller of the template.
This property simply holds an implementation of the RecordCreator
interface, used for
that purpose. The RecordCreator
interface has already been discussed in
Section 31.3.1, “Record conversion”. The outputRecordCreator
property must be directly specified on
the CciTemplate
. This could be done in the application code like so:
cciTemplate.setOutputRecordCreator(new EciOutputRecordCreator());
Or (recommended) in the Spring configuration, if the CciTemplate
is configured as a
dedicated bean instance:
<bean id="eciOutputRecordCreator" class="eci.EciOutputRecordCreator"/> <bean id="cciTemplate" class="org.springframework.jca.cci.core.CciTemplate"> <property name="connectionFactory" ref="eciConnectionFactory"/> <property name="outputRecordCreator" ref="eciOutputRecordCreator"/> </bean>
Note | |
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As the |
The following table summarizes the mechanisms of the CciTemplate
class and the
corresponding methods called on the CCI Interaction
interface:
Table 31.1. Usage of Interaction execute methods
CciTemplate method signature | CciTemplate outputRecordCreator property | execute method called on the CCI Interaction |
---|---|---|
Record execute(InteractionSpec, Record) | not set | Record execute(InteractionSpec, Record) |
Record execute(InteractionSpec, Record) | set | boolean execute(InteractionSpec, Record, Record) |
void execute(InteractionSpec, Record, Record) | not set | void execute(InteractionSpec, Record, Record) |
void execute(InteractionSpec, Record, Record) | set | void execute(InteractionSpec, Record, Record) |
Record execute(InteractionSpec, RecordCreator) | not set | Record execute(InteractionSpec, Record) |
Record execute(InteractionSpec, RecordCreator) | set | void execute(InteractionSpec, Record, Record) |
Record execute(InteractionSpec, Record, RecordExtractor) | not set | Record execute(InteractionSpec, Record) |
Record execute(InteractionSpec, Record, RecordExtractor) | set | void execute(InteractionSpec, Record, Record) |
Record execute(InteractionSpec, RecordCreator, RecordExtractor) | not set | Record execute(InteractionSpec, Record) |
Record execute(InteractionSpec, RecordCreator, RecordExtractor) | set | void execute(InteractionSpec, Record, Record) |
CciTemplate
also offers the possibility to work directly with CCI connections and
interactions, in the same manner as JdbcTemplate
and JmsTemplate
. This is useful
when you want to perform multiple operations on a CCI connection or interaction, for
example.
The interface ConnectionCallback
provides a CCI Connection
as argument, in order to
perform custom operations on it, plus the CCI ConnectionFactory
which the Connection
was created with. The latter can be useful for example to get an associated
RecordFactory
instance and create indexed/mapped records, for example.
public interface ConnectionCallback { Object doInConnection(Connection connection, ConnectionFactory connectionFactory) throws ResourceException, SQLException, DataAccessException; }
The interface InteractionCallback
provides the CCI Interaction
, in order to perform
custom operations on it, plus the corresponding CCI ConnectionFactory
.
public interface InteractionCallback { Object doInInteraction(Interaction interaction, ConnectionFactory connectionFactory) throws ResourceException, SQLException, DataAccessException; }
Note | |
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|
In this section, the usage of the CciTemplate
will be shown to acces to a CICS with
ECI mode, with the IBM CICS ECI connector.
Firstly, some initializations on the CCI InteractionSpec
must be done to specify which
CICS program to access and how to interact with it.
ECIInteractionSpec interactionSpec = new ECIInteractionSpec(); interactionSpec.setFunctionName("MYPROG"); interactionSpec.setInteractionVerb(ECIInteractionSpec.SYNC_SEND_RECEIVE);
Then the program can use CCI via Spring’s template and specify mappings between custom
objects and CCI Records
.
public class MyDaoImpl extends CciDaoSupport implements MyDao { public OutputObject getData(InputObject input) { ECIInteractionSpec interactionSpec = ...; OutputObject output = (ObjectOutput) getCciTemplate().execute(interactionSpec, new RecordCreator() { public Record createRecord(RecordFactory recordFactory) throws ResourceException { return new CommAreaRecord(input.toString().getBytes()); } }, new RecordExtractor() { public Object extractData(Record record) throws ResourceException { CommAreaRecord commAreaRecord = (CommAreaRecord)record; String str = new String(commAreaRecord.toByteArray()); String field1 = string.substring(0,6); String field2 = string.substring(6,1); return new OutputObject(Long.parseLong(field1), field2); } }); return output; } }
As discussed previously, callbacks can be used to work directly on CCI connections or interactions.
public class MyDaoImpl extends CciDaoSupport implements MyDao { public OutputObject getData(InputObject input) { ObjectOutput output = (ObjectOutput) getCciTemplate().execute( new ConnectionCallback() { public Object doInConnection(Connection connection, ConnectionFactory factory) throws ResourceException { // do something... } }); } return output; } }
Note | |
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With a |
For a more specific callback, you can implement an InteractionCallback
. The passed-in
Interaction
will be managed and closed by the CciTemplate
in this case.
public class MyDaoImpl extends CciDaoSupport implements MyDao { public String getData(String input) { ECIInteractionSpec interactionSpec = ...; String output = (String) getCciTemplate().execute(interactionSpec, new InteractionCallback() { public Object doInInteraction(Interaction interaction, ConnectionFactory factory) throws ResourceException { Record input = new CommAreaRecord(inputString.getBytes()); Record output = new CommAreaRecord(); interaction.execute(holder.getInteractionSpec(), input, output); return new String(output.toByteArray()); } }); return output; } }
For the examples above, the corresponding configuration of the involved Spring beans could look like this in non-managed mode:
<bean id="managedConnectionFactory" class="com.ibm.connector2.cics.ECIManagedConnectionFactory"> <property name="serverName" value="TXSERIES"/> <property name="connectionURL" value="local:"/> <property name="userName" value="CICSUSER"/> <property name="password" value="CICS"/> </bean> <bean id="connectionFactory" class="org.springframework.jca.support.LocalConnectionFactoryBean"> <property name="managedConnectionFactory" ref="managedConnectionFactory"/> </bean> <bean id="component" class="mypackage.MyDaoImpl"> <property name="connectionFactory" ref="connectionFactory"/> </bean>
In managed mode (that is, in a Java EE environment), the configuration could look as follows:
<jee:jndi-lookup id="connectionFactory" jndi-name="eis/cicseci"/> <bean id="component" class="MyDaoImpl"> <property name="connectionFactory" ref="connectionFactory"/> </bean>
The org.springframework.jca.cci.object
package contains support classes that allow you
to access the EIS in a different style: through reusable operation objects, analogous to
Spring’s JDBC operation objects (see JDBC chapter). This will usually encapsulate the
CCI API: an application-level input object will be passed to the operation object, so it
can construct the input record and then convert the received record data to an
application-level output object and return it.
Note | |
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This approach is internally based on the |
MappingRecordOperation
essentially performs the same work as CciTemplate
, but
represents a specific, pre-configured operation as an object. It provides two template
methods to specify how to convert an input object to a input record, and how to convert
an output record to an output object (record mapping):
createInputRecord(..)
to specify how to convert an input object to an input Record
extractOutputData(..)
to specify how to extract an output object from an output
Record
Here are the signatures of these methods:
public abstract class MappingRecordOperation extends EisOperation { ... protected abstract Record createInputRecord(RecordFactory recordFactory, Object inputObject) throws ResourceException, DataAccessException { // ... } protected abstract Object extractOutputData(Record outputRecord) throws ResourceException, SQLException, DataAccessException { // ... } ... }
Thereafter, in order to execute an EIS operation, you need to use a single execute method, passing in an application-level input object and receiving an application-level output object as result:
public abstract class MappingRecordOperation extends EisOperation { ... public Object execute(Object inputObject) throws DataAccessException { } ... }
As you can see, contrary to the CciTemplate
class, this execute(..)
method does not
have an InteractionSpec
as argument. Instead, the InteractionSpec
is global to the
operation. The following constructor must be used to instantiate an operation object
with a specific InteractionSpec
:
InteractionSpec spec = ...;
MyMappingRecordOperation eisOperation = new MyMappingRecordOperation(getConnectionFactory(), spec);
...
Some connectors use records based on a COMMAREA which represents an array of bytes
containing parameters to send to the EIS and data returned by it. Spring provides a
special operation class for working directly on COMMAREA rather than on records. The
MappingCommAreaOperation
class extends the MappingRecordOperation
class to provide
such special COMMAREA support. It implicitly uses the CommAreaRecord
class as input
and output record type, and provides two new methods to convert an input object into an
input COMMAREA and the output COMMAREA into an output object.
public abstract class MappingCommAreaOperation extends MappingRecordOperation { ... protected abstract byte[] objectToBytes(Object inObject) throws IOException, DataAccessException; protected abstract Object bytesToObject(byte[] bytes) throws IOException, DataAccessException; ... }
As every MappingRecordOperation
subclass is based on CciTemplate internally, the same
way to automatically generate output records as with CciTemplate
is available. Every
operation object provides a corresponding setOutputRecordCreator(..)
method. For
further information, see Section 31.3.4, “Automatic output record generation”.
The operation object approach uses records in the same manner as the CciTemplate
class.
Table 31.2. Usage of Interaction execute methods
MappingRecordOperation method signature | MappingRecordOperation outputRecordCreator property | execute method called on the CCI Interaction |
---|---|---|
Object execute(Object) | not set | Record execute(InteractionSpec, Record) |
Object execute(Object) | set | boolean execute(InteractionSpec, Record, Record) |
In this section, the usage of the MappingRecordOperation
will be shown to access a
database with the Blackbox CCI connector.
Note | |
---|---|
The original version of this connector is provided by the Java EE SDK (version 1.3), available from Oracle. |
Firstly, some initializations on the CCI InteractionSpec
must be done to specify which
SQL request to execute. In this sample, we directly define the way to convert the
parameters of the request to a CCI record and the way to convert the CCI result record
to an instance of the Person
class.
public class PersonMappingOperation extends MappingRecordOperation { public PersonMappingOperation(ConnectionFactory connectionFactory) { setConnectionFactory(connectionFactory); CciInteractionSpec interactionSpec = new CciConnectionSpec(); interactionSpec.setSql("select * from person where person_id=?"); setInteractionSpec(interactionSpec); } protected Record createInputRecord(RecordFactory recordFactory, Object inputObject) throws ResourceException { Integer id = (Integer) inputObject; IndexedRecord input = recordFactory.createIndexedRecord("input"); input.add(new Integer(id)); return input; } protected Object extractOutputData(Record outputRecord) throws ResourceException, SQLException { ResultSet rs = (ResultSet) outputRecord; Person person = null; if (rs.next()) { Person person = new Person(); person.setId(rs.getInt("person_id")); person.setLastName(rs.getString("person_last_name")); person.setFirstName(rs.getString("person_first_name")); } return person; } }
Then the application can execute the operation object, with the person identifier as argument. Note that operation object could be set up as shared instance, as it is thread-safe.
public class MyDaoImpl extends CciDaoSupport implements MyDao { public Person getPerson(int id) { PersonMappingOperation query = new PersonMappingOperation(getConnectionFactory()); Person person = (Person) query.execute(new Integer(id)); return person; } }
The corresponding configuration of Spring beans could look as follows in non-managed mode:
<bean id="managedConnectionFactory" class="com.sun.connector.cciblackbox.CciLocalTxManagedConnectionFactory"> <property name="connectionURL" value="jdbc:hsqldb:hsql://localhost:9001"/> <property name="driverName" value="org.hsqldb.jdbcDriver"/> </bean> <bean id="targetConnectionFactory" class="org.springframework.jca.support.LocalConnectionFactoryBean"> <property name="managedConnectionFactory" ref="managedConnectionFactory"/> </bean> <bean id="connectionFactory" class="org.springframework.jca.cci.connection.ConnectionSpecConnectionFactoryAdapter"> <property name="targetConnectionFactory" ref="targetConnectionFactory"/> <property name="connectionSpec"> <bean class="com.sun.connector.cciblackbox.CciConnectionSpec"> <property name="user" value="sa"/> <property name="password" value=""/> </bean> </property> </bean> <bean id="component" class="MyDaoImpl"> <property name="connectionFactory" ref="connectionFactory"/> </bean>
In managed mode (that is, in a Java EE environment), the configuration could look as follows:
<jee:jndi-lookup id="targetConnectionFactory" jndi-name="eis/blackbox"/> <bean id="connectionFactory" class="org.springframework.jca.cci.connection.ConnectionSpecConnectionFactoryAdapter"> <property name="targetConnectionFactory" ref="targetConnectionFactory"/> <property name="connectionSpec"> <bean class="com.sun.connector.cciblackbox.CciConnectionSpec"> <property name="user" value="sa"/> <property name="password" value=""/> </bean> </property> </bean> <bean id="component" class="MyDaoImpl"> <property name="connectionFactory" ref="connectionFactory"/> </bean>
In this section, the usage of the MappingCommAreaOperation
will be shown: accessing a
CICS with ECI mode with the IBM CICS ECI connector.
Firstly, the CCI InteractionSpec
needs to be initialized to specify which CICS program
to access and how to interact with it.
public abstract class EciMappingOperation extends MappingCommAreaOperation { public EciMappingOperation(ConnectionFactory connectionFactory, String programName) { setConnectionFactory(connectionFactory); ECIInteractionSpec interactionSpec = new ECIInteractionSpec(), interactionSpec.setFunctionName(programName); interactionSpec.setInteractionVerb(ECIInteractionSpec.SYNC_SEND_RECEIVE); interactionSpec.setCommareaLength(30); setInteractionSpec(interactionSpec); setOutputRecordCreator(new EciOutputRecordCreator()); } private static class EciOutputRecordCreator implements RecordCreator { public Record createRecord(RecordFactory recordFactory) throws ResourceException { return new CommAreaRecord(); } } }
The abstract EciMappingOperation
class can then be subclassed to specify mappings
between custom objects and Records
.
public class MyDaoImpl extends CciDaoSupport implements MyDao { public OutputObject getData(Integer id) { EciMappingOperation query = new EciMappingOperation(getConnectionFactory(), "MYPROG") { protected abstract byte[] objectToBytes(Object inObject) throws IOException { Integer id = (Integer) inObject; return String.valueOf(id); } protected abstract Object bytesToObject(byte[] bytes) throws IOException; String str = new String(bytes); String field1 = str.substring(0,6); String field2 = str.substring(6,1); String field3 = str.substring(7,1); return new OutputObject(field1, field2, field3); } }); return (OutputObject) query.execute(new Integer(id)); } }
The corresponding configuration of Spring beans could look as follows in non-managed mode:
<bean id="managedConnectionFactory" class="com.ibm.connector2.cics.ECIManagedConnectionFactory"> <property name="serverName" value="TXSERIES"/> <property name="connectionURL" value="local:"/> <property name="userName" value="CICSUSER"/> <property name="password" value="CICS"/> </bean> <bean id="connectionFactory" class="org.springframework.jca.support.LocalConnectionFactoryBean"> <property name="managedConnectionFactory" ref="managedConnectionFactory"/> </bean> <bean id="component" class="MyDaoImpl"> <property name="connectionFactory" ref="connectionFactory"/> </bean>
In managed mode (that is, in a Java EE environment), the configuration could look as follows:
<jee:jndi-lookup id="connectionFactory" jndi-name="eis/cicseci"/> <bean id="component" class="MyDaoImpl"> <property name="connectionFactory" ref="connectionFactory"/> </bean>
JCA specifies several levels of transaction support for resource adapters. The kind of
transactions that your resource adapter supports is specified in its ra.xml
file.
There are essentially three options: none (for example with CICS EPI connector), local
transactions (for example with a CICS ECI connector), global transactions (for example
with an IMS connector).
<connector> <resourceadapter> <!-- <transaction-support>NoTransaction</transaction-support> --> <!-- <transaction-support>LocalTransaction</transaction-support> --> <transaction-support>XATransaction</transaction-support> <resourceadapter> <connector>
For global transactions, you can use Spring’s generic transaction infrastructure to
demarcate transactions, with JtaTransactionManager
as backend (delegating to the Java
EE server’s distributed transaction coordinator underneath).
For local transactions on a single CCI ConnectionFactory
, Spring provides a specific
transaction management strategy for CCI, analogous to the DataSourceTransactionManager
for JDBC. The CCI API defines a local transaction object and corresponding local
transaction demarcation methods. Spring’s CciLocalTransactionManager
executes such
local CCI transactions, fully compliant with Spring’s generic
PlatformTransactionManager
abstraction.
<jee:jndi-lookup id="eciConnectionFactory" jndi-name="eis/cicseci"/> <bean id="eciTransactionManager" class="org.springframework.jca.cci.connection.CciLocalTransactionManager"> <property name="connectionFactory" ref="eciConnectionFactory"/> </bean>
Both transaction strategies can be used with any of Spring’s transaction demarcation
facilities, be it declarative or programmatic. This is a consequence of Spring’s generic
PlatformTransactionManager
abstraction, which decouples transaction demarcation from
the actual execution strategy. Simply switch between JtaTransactionManager
and
CciLocalTransactionManager
as needed, keeping your transaction demarcation as-is.
For more information on Spring’s transaction facilities, see the chapter entitled Chapter 16, Transaction Management.