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Appendix A. Reference Material
A.1. RHAMT Command-line Arguments
The following is a detailed description of the available RHAMT command line arguments.
To run the RHAMT command without prompting, for example when executing from a script, use --batchMode to take the default values for unspecified parameters and --overwrite to force delete the output directory. Also be sure to specify the required --input and --target arguments.
See the description for each argument for more details.
Table A.1. RHAMT CLI Arguments
| Argument | Description |
|---|---|
| --additionalClassPath | A space-delimited list of additional JAR files or directories to add to the class path so that they are available for decompilation or other analysis. |
| --addonDir | Add the specified directory as a custom add-on repository. |
| --batchMode | Flag to specify that RHAMT should be run in a non-interactive mode without prompting for confirmation. This mode takes the default values for any parameters not passed in to the command line. |
| --debug | Flag to run RHAMT in debug mode. |
| --disableTattletale |
Flag to disable generation of the Tattletale report. If both |
| --discoverPackages | Flag to list all available packages in the input binary application. |
| --enableClassNotFoundAnalysis | Flag to enable analysis of Java files that are not available on the class path. This should not be used if some classes will be unavailable at analysis time. |
| --enableCompatibleFilesReport | Flag to enable generation of the Compatible Files report. Due to processing all files without found issues, this report may take a long time for large applications. |
| --enableTattletale |
Flag to enable generation of a Tattletale report for each application. This option is enabled by default when |
| --excludePackages |
A space-delimited list of packages to exclude from evaluation. For example, entering |
| --excludeTags |
A space-delimited list of tags to exclude. When specified, rules with these tags will not be processed. To see the full list of tags, use the |
| --explodedApp | Flag to indicate that the provided input directory contains source files for a single application. See the Input File Argument Tables for details. |
| --exportCSV |
Flag to export the report data to a CSV file on your local file system. RHAMT creates the file in the directory specified by the |
| --help | Display the RHAMT help message. |
| --immutableAddonDir | Add the specified directory as a custom read-only add-on repository. |
| --includeTags |
A space-delimited list of tags to use. When specified, only rules with these tags will be processed. To see the full list of tags, use the |
| --input | A space-delimited list of the path to the file or directory containing one or more applications to be analyzed. This argument is required. See Specify the Input for more information. |
| --install |
Specify add-ons to install. The syntax is |
| --keepWorkDirs | Flag to instruct RHAMT to not delete temporary working files, such as the graph database and unzipped archives. This is useful for debugging purposes. |
| --list | Flag to list installed add-ons. |
| --listSourceTechnologies | Flag to list all available source technologies. |
| --listTags | Flag to list all available tags. |
| --listTargetTechnologies | Flag to list all available target technologies. |
| --mavenize |
Flag to create a Maven project directory structure based on the structure and content of the application. This creates |
| --mavenizeGroupId |
When used with the |
| --online | Flag to allow network access for features that require it. Currently only validating XML schemas against external resources relies on Internet access. Note that this comes with a performance penalty. |
| --output | Specify the path to the directory to output the report information generated by RHAMT. See Specify the Output Directory for more information. |
| --overwrite |
Flag to force delete the existing output directory specified by Warning Be careful not to specify a report output directory that contains important information! |
| --packages | A space-delimited list of the packages to be evaluated by RHAMT. It is highly recommended to use this argument. See Select Packages for more information. |
| --remove |
Remove the specified add-ons. The syntax is |
| --skipReports |
Flag to indicate that HTML reports should not be generated. A common use of this argument is when exporting report data to a CSV file using |
| --source |
A space-delimited list of one or more source technologies, servers, platforms, or frameworks to migrate from. This argument, in conjunction with the |
| --sourceMode | Flag to indicate that the application to be evaluated contains source files rather than compiled binaries. See the Input File Argument Tables for details. |
| --target |
A space-delimited list of one or more target technologies, servers, platforms, or frameworks to migrate to. This argument, in conjunction with the |
| --userIgnorePath |
Specify a location, in addition to |
| --userLabelsDirectory |
Specify a location for RHAMT to look for custom Target Runtime Labels. The value can be a directory containing label files or a single label file. The Target Runtime Label files must use either the |
| --userRulesDirectory |
Specify a location, in addition to |
| --version | Display the RHAMT version. |
A.1.1. Specify the Input
A space-delimited list of the path to the file or directory containing one or more applications to be analyzed. This argument is required.
Usage
--input INPUT_ARCHIVE_OR_DIRECTORY [...]
Depending on whether the input file type provided to the --input argument is a file or directory, it will be evaluated as follows depending on the additional arguments provided.
- Directory
--explodedApp --sourceMode Neither Argument The directory is evaluated as a single application.
The directory is evaluated as a single application.
Each subdirectory is evaluated as an application.
- File
--explodedApp --sourceMode Neither Argument Argument is ignored; the file is evaluated as a single application.
The file is evaluated as a compressed project.
The file is evaluated as a single application.
A.1.2. Specify the Output Directory
Specify the path to the directory to output the report information generated by RHAMT.
Usage
--output OUTPUT_REPORT_DIRECTORY
-
If omitted, the report will be generated in an
INPUT_ARCHIVE_OR_DIRECTORY.reportdirectory. If the output directory exists, you will be prompted with the following (with a default of N).
Overwrite all contents of "/home/username/OUTPUT_REPORT_DIRECTORY" (anything already in the directory will be deleted)? [y,N]
However, if you specify the --overwrite argument, RHAMT will proceed to delete and recreate the directory. See the description of this argument for more information.
A.1.3. Set the Source Technology
A space-delimited list of one or more source technologies, servers, platforms, or frameworks to migrate from. This argument, in conjunction with the --target argument, helps to determine which rulesets are used. Use the --listSourceTechnologies argument to list all available sources.
Usage
--source SOURCE_1 SOURCE_2
The --source argument now provides version support, which follows the Maven version range syntax. This instructs RHAMT to only run the rulesets matching the specified versions. For example, --source eap:5.
When migrating to JBoss EAP, be sure to specify the version, for example, eap:6. Specifying only eap will run rulesets for all versions of JBoss EAP, including those not relevant to your migration path.
See Supported Migration Paths in the RHAMT Getting Started Guide for which JBoss EAP version is appropriate for your source platform.
A.1.4. Set the Target Technology
A space-delimited list of one or more target technologies, servers, platforms, or frameworks to migrate to. This argument, in conjunction with the --source argument, helps to determine which rulesets are used. If you do not specify this option, you are prompted to select a target. Use the --listTargetTechnologies argument to list all available targets.
Usage
--target TARGET_1 TARGET_2
The --target argument now provides version support, which follows the Maven version range syntax. This instructs RHAMT to only run the rulesets matching the specified versions. For example, --target eap:7.
When migrating to JBoss EAP, be sure to specify the version in the target, for example, eap:6. Specifying only eap will run rulesets for all versions of JBoss EAP, including those not relevant to your migration path.
See Supported Migration Paths in the RHAMT Getting Started Guide for which JBoss EAP version is appropriate for your source platform.
A.1.5. Select Packages
A space-delimited list of the packages to be evaluated by RHAMT. It is highly recommended to use this argument.
Usage
--packages PACKAGE_1 PACKAGE_2 PACKAGE_N
-
In most cases, you are interested only in evaluating custom application class packages and not standard Java EE or third party packages. The
PACKAGE_Nargument is a package prefix; all subpackages will be scanned. For example, to scan the packagescom.mycustomappandcom.myotherapp, use--packages com.mycustomapp com.myotherappargument on the command line. -
While you can provide package names for standard Java EE third party software like
org.apache, it is usually best not to include them as they should not impact the migration effort.
If you omit the --packages argument, every package in the application is scanned, which can impact performance. It is best to provide this argument with one or more packages. For additional tips on how to improve performance, see Optimize RHAMT Performance.
A.2. Supported Technology Tags
The following Technology Tags are supported in RHAMT 4.3.1:
- 0MQ Client (embedded)
- 3scale (embedded)
- Acegi Security (embedded)
- AcrIS Security (embedded)
- ActiveMQ (embedded)
- Airframe (embedded)
- Airlift Log Manager (embedded)
- AKKA JTA (embedded)
- Akka Testkit (embedded)
- Amazon SQS Client (embedded)
- AMQP Client (embedded)
- Anakia (embedded)
- AngularFaces (embedded)
- ANTLR StringTemplate (embedded)
- AOP Alliance (embedded)
- Apache Accumulo Client
- Apache Aries (embedded)
- Apache Axis (embedded)
- Apache Axis2 (embedded)
- Apache Camel (embedded)
- Apache Commons JCS (embedded)
- Apache Commons Logging (embedded)
- Apache Commons Validator (embedded)
- Apache CXF (embedded)
- Apache Flume (embedded)
- Apache Geronimo (embedded)
- Apache Hadoop (embedded)
- Apache HBase Client
- Apache Ignite (embedded)
- Apache Karaf (embedded)
- Apache Log4J (embedded)
- Apache Mahout (embedded)
- Apache Meecrowave JTA (embedded)
- Apache Santuario (embedded)
- Apache Shiro (embedded)
- Apache Sirona JTA (embedded)
- Apache Struts (embedded)
- Apache Synapse (embedded)
- Apache Tapestry (embedded)
- Apache Wicket (embedded)
- Apiman (embedded)
- Arquillian (embedded)
- AspectJ (embedded)
- Atomikos JTA (embedded)
- Avalon Logkit (embedded)
- Axion Driver
- BabbageFaces (embedded)
- Bean Validation
- BeanInject (embedded)
- Blaze (embedded)
- Blitz4j (embedded)
- BootsFaces (embedded)
- Bouncy Castle (embedded)
- ButterFaces (embedded)
- Cache API (embedded)
- Cactus (embedded)
- Camel Messaging Client (embedded)
- Camunda (embedded)
- Cassandra Client
- CDI
- CDI (embedded)
- Cfg Engine (embedded)
- Chunk Templates (embedded)
- Cloudera (embedded)
- Clustering EJB
- Clustering Web Session
- Coherence (embedded)
- Common Annotations
- Composite Logging JCL (embedded)
- Concordion (embedded)
- Cucumber (embedded)
- Dagger (embedded)
- DbUnit (embedded)
- Debugging Support for Other Languages
- Decompiled Java File
- Demoiselle JTA (embedded)
- Derby Driver
- Drools (embedded)
- DVSL (embedded)
- Dynacache (embedded)
- EAR
- Easy Rules (embedded)
- EasyMock (embedded)
- EclipseLink (embedded)
- EJB
- EJB XML
- Ehcache (embedded)
- Elasticsearch (embedded)
- Enterprise Web Services
- Entity Bean
- EtlUnit (embedded)
- Everit JTA (embedded)
- Evo JTA (embedded)
- FreeMarker (embedded)
- Geronimo JTA (embedded)
- GFC Logging (embedded)
- GIN (embedded)
- GlassFish JTA (embedded)
- Google Guice (embedded)
- Grails (embedded)
- Grapht DI (embedded)
- Guava Testing (embedded)
- GWT (embedded)
- H2 Driver
- Hamcrest (embedded)
- Handlebars (embedded)
- HavaRunner (embedded)
- Hazelcast (embedded)
- Hdiv (embedded)
- Hibernate (embedded)
- Hibernate Cfg
- Hibernate Mapping
- Hibernate OGM (embedded)
- HighFaces (embedded)
- HornetQ Client (embedded)
- HSQLDB Driver
- HTTP Client (embedded)
- HttpUnit (embedded)
- ICEfaces (embedded)
- Ickenham (embedded)
- Ignite JTA (embedded)
- Ikasan (embedded)
- iLog (embedded)
- Infinispan (embedded)
- Injekt for Kotlin (embedded)
- Iroh (embedded)
- Istio (embedded)
- JACC
- Jamon (embedded)
- Jasypt (embedded)
- Java EE
- Java EE Batch
- Java EE Batch API
- Java EE JSON-P
- Java EE Security
- Java Source
- Java Transaction API (embedded)
- JavaMail
- Javax Inject (embedded)
- JAX-RPC
- JAX-RS
- JAX-WS
- JAXB
- JAXR
- JayWire (embedded)
- JBehave (embedded)
- JBoss Cache (embedded)
- JBoss EJB XML
- JBoss logging (embedded)
- JBoss Transactions (embedded)
- JBoss Web XML
- JBossMQ Client (embedded)
- JBPM (embedded)
- JCA
- Jcabi Log (embedded)
- JCache (embedded)
- JCunit (embedded)
- JDBC (embedded)
- JDBC datasources
- JDBC XA datasources
- Jersey (embedded)
- Jetbrick Template (embedded)
- Jetty (embedded)
- JFreeChart (embedded)
- JFunk (embedded)
- JMock (embedded)
- JMockit (embedded)
- JMS
- JMS Connection Factory
- JMS Queue
- JMS Topic
- JMustache (embedded)
- JPA
- JPA entities
- JPA Matchers (embedded)
- JPA named queries
- JPA XML
- JSecurity (embedded)
- JSF (embedded)
- JSF Page
- JSilver (embedded)
- JSON-B
- JSP Page
- JSTL (embedded)
- JTA
- Jukito (embedded)
- JUnit (embedded)
- Ka DI (embedded)
- Keyczar (embedded)
- Kibana (embedded)
- KLogger (embedded)
- Kodein (embedded)
- Kotlin Logging (embedded)
- KouInject (embedded)
- KumuluzEE JTA (embedded)
- LevelDB Client
- Liferay (embedded)
- LiferayFaces (embedded)
- Lift JTA (embedded)
- Log.io (embedded)
- Log4s (embedded)
- Logback (embedded)
- Logging to file system
- Logging to Socket Handler
- Logging Utils (embedded)
- Logstash (embedded)
- Lumberjack (embedded)
- Macros (embedded)
- Manifest
- MapR (embedded)
- Maven XML
- MckoiSQLDB Driver
- MEJB
- Memcached client (embedded)
- Message (MDB)
- Micro DI (embedded)
- Microsoft SQL Driver
- MinLog (embedded)
- Mixer (embedded)
- Mockito (embedded)
- MongoDB Client
- Monolog (embedded)
- Morphia
- MRules (embedded)
- Mule (embedded)
- Mule Functional Test Framework (embedded)
- MultithreadedTC (embedded)
- Mycontainer JTA (embedded)
- MyFaces (embedded)
- MySQL Driver
- Narayana Arjuna (embedded)
- Needle (embedded)
- Neo4j (embedded)
- NLOG4J (embedded)
- Nuxeo JTA/JCA (embedded)
- OACC (embedded)
- OAUTH (embedded)
- OCPsoft Logging Utils (embedded)
- OmniFaces (embedded)
- OpenFaces (embedded)
- OpenPojo (embedded)
- OpenSAML (embedded)
- OpenWS (embedded)
- OPS4J Pax Logging Service (embedded)
- Oracle ADF (embedded)
- Oracle DB Driver
- Oracle Forms (embedded)
- Orion EJB XML
- Orion Web XML
- Oscache (embedded)
- OTR4J (embedded)
- OW2 JTA (embedded)
- OW2 Log Util (embedded)
- OWASP CSRF Guard (embedded)
- OWASP ESAPI (embedded)
- Peaberry (embedded)
- Pega (embedded)
- Persistence units
- Petals EIP (embedded)
- PicketBox (embedded)
- PicketLink (embedded)
- PicoContainer (embedded)
- Play (embedded)
- Play Test (embedded)
- Plexus Container (embedded)
- Polyforms DI (embedded)
- Portlet (embedded)
- PostgreSQL Driver
- PowerMock (embedded)
- PrimeFaces (embedded)
- Properties
- Qpid Client (embedded)
- RabbitMQ Client (embedded)
- RandomizedTesting Runner (embedded)
- Resource Adapter (embedded)
- REST Assured (embedded)
- Restito (embedded)
- RichFaces (embedded)
- RMI
- RocketMQ Client (embedded)
- Rythm Template Engine (embedded)
- SAML (embedded)
- Scalate (embedded)
- Scaldi (embedded)
- Scribe (embedded)
- Seam (embedded)
- ServiceMix (embedded)
- Servlet
- ShiftOne (embedded)
- Silk DI (embedded)
- SLF4J (embedded)
- Snippetory Template Engine (embedded)
- SNMP4J (embedded)
- SOAP (SAAJ)
- Spark (embedded)
- Specsy (embedded)
- Spock (embedded)
- Spring (embedded)
- Spring Batch (embedded)
- Spring Boot (embedded)
- Spring Data (embedded)
- Spring Integration (embedded)
- Spring Messaging Client (embedded)
- Spring MVC (embedded)
- Spring Security (embedded)
- Spring Test (embedded)
- Spring Transactions (embedded)
- Spring XML
- SQLite Driver
- SSL (embedded)
- Stateful (SFSB)
- Stateless (SLSB)
- Sticky Configured (embedded)
- Stripes (embedded)
- SubCut (embedded)
- Swagger (embedded)
- SwarmCache (embedded)
- SwitchYard (embedded)
- Syringe (embedded)
- Talend ESB (embedded)
- Teiid (embedded)
- TensorFlow (embedded)
- Test Interface (embedded)
- TestNG (embedded)
- Thymeleaf (embedded)
- TieFaces (embedded)
- tinylog (embedded)
- Tomcat (embedded)
- Tornado Inject (embedded)
- Trimou (embedded)
- Trunk JGuard (embedded)
- Twirl (embedded)
- Twitter Util Logging (embedded)
- UberFire (embedded)
- Unirest (embedded)
- Unitils (embedded)
- Vaadin (embedded)
- Velocity (embedded)
- Vlad (embedded)
- Water Template Engine (embedded)
- Web XML
- WebLogic Web XML
- Webmacro (embedded)
- WebSphere EJB
- WebSphere EJB Ext
- WebSphere Web XML
- WebSphere WS Binding
- WebSphere WS Extension
- Weka (embedded)
- Weld (embedded)
- WF Core JTA (embedded)
- Winter (embedded)
- WS Metadata
- WSDL (embedded)
- WSO2 (embedded)
- WSS4J (embedded)
- XACML (embedded)
- XFire (embedded)
- XMLUnit (embedded)
- Zbus Client (embedded)
A.3. Rule Story Points
A.3.1. What are Story Points?
Story points are an abstract metric commonly used in Agile software development to estimate the level of effort needed to implement a feature or change.
Red Hat Application Migration Toolkit uses story points to express the level of effort needed to migrate particular application constructs, and the application as a whole. It does not necessarily translate to man-hours, but the value should be consistent across tasks.
A.3.2. How Story Points are Estimated in Rules
Estimating the level of effort for the story points for a rule can be tricky. The following are the general guidelines RHAMT uses when estimating the level of effort required for a rule.
| Level of Effort | Story Points | Description |
|---|---|---|
| Information | 0 | An informational warning with very low or no priority for migration. |
| Trivial | 1 | The migration is a trivial change or a simple library swap with no or minimal API changes. |
| Complex | 3 | The changes required for the migration task are complex, but have a documented solution. |
| Redesign | 5 | The migration task requires a redesign or a complete library change, with significant API changes. |
| Rearchitecture | 7 | The migration requires a complete rearchitecture of the component or subsystem. |
| Unknown | 13 | The migration solution is not known and may need a complete rewrite. |
A.3.3. Task Category
In addition to the level of effort, you can categorize migration tasks to indicate the severity of the task. The following categories are used to group issues to help prioritize the migration effort.
- Mandatory
- The task must be completed for a successful migration. If the changes are not made, the resulting application will not build or run successfully. Examples include replacement of proprietary APIs that are not supported in the target platform.
- Optional
- If the migration task is not completed, the application should work, but the results may not be optimal. If the change is not made at the time of migration, it is recommended to put it on the schedule soon after your migration is completed. An example of this would be the upgrade of EJB 2.x code to EJB 3.
- Potential
- The task should be examined during the migration process, but there is not enough detailed information to determine if the task is mandatory for the migration to succeed. An example of this would be migrating a third-party proprietary type where there is no directly compatible type.
- Information
-
The task is included to inform you of the existence of certain files. These may need to be examined or modified as part of the modernization effort, but changes are typically not required. An example of this would be the presence of a logging dependency or a Maven
pom.xml.
For more information on categorizing tasks, see Using Custom Rule Categories in the Rules Development Guide.
A.4. Additional Resources
A.4.1. Get Involved
To help make Red Hat Application Migration Toolkit cover most application constructs and server configurations, including yours, you can help with any of the following items.
- Send an email to jboss-migration-feedback@redhat.com and let us know what RHAMT migration rules should cover.
- Provide example applications to test migration rules.
Identify application components and problem areas that may be difficult to migrate.
- Write a short description of these problem migration areas.
- Write a brief overview describing how to solve the problem migration areas.
- Try Red Hat Application Migration Toolkit on your application. Be sure to report any issues you encounter.
Contribute to the Red Hat Application Migration Toolkit rules repository.
- Write a Red Hat Application Migration Toolkit rule to identify or automate a migration process.
- Create a test for the new rule.
- Details are provided in the Rules Development Guide.
Contribute to the project source code.
- Create a core rule.
- Improve RHAMT performance or efficiency.
- See the Core Development Guide for information about how to configure your environment and set up the project.
Any level of involvement is greatly appreciated!
A.4.2. Important Links
- RHAMT forums: https://developer.jboss.org/en/windup
RHAMT JIRA issue trackers
- Core RHAMT: https://issues.jboss.org/browse/WINDUP
- RHAMT Rules: https://issues.jboss.org/browse/WINDUPRULE
- RHAMT mailing list: jboss-migration-feedback@redhat.com
- RHAMT on Twitter: @JBossWindup
-
RHAMT IRC channel: Server FreeNode (
irc.freenode.net), channel#windup(transcripts).
A.4.3. Known RHAMT Issues
You can review known issues for RHAMT here: Open RHAMT issues.
A.4.4. Report Issues with RHAMT
Red Hat Application Migration Toolkit uses JIRA as its issue tracking system. If you encounter an issue executing RHAMT, please file a JIRA Issue.
If you do not have one already, you must sign up for a JIRA account in order to create a JIRA issue.
A.4.4.1. Create a JIRA Issue
Open a browser and navigate to the JIRA Create Issue page.
If you have not yet logged in, click the Log In link at the top right side of the page and enter your credentials.
Choose the following options and click the Next button.
Project
For core RHAMT issues, choose Red Hat Application Migration Toolkit (WINDUP).
For issues with RHAMT rules, choose: Red Hat Application Migration Toolkit rules (WINDUPRULE).
- Issue Type: Bug
On the next screen complete the following fields.
- Summary: Enter a brief description of the problem or issue.
- Environment: Provide the details of your operating system, version of Java, and any other pertinent information.
- Description: Provide a detailed description of the issue. Be sure to include logs and exceptions traces.
- Attachment: If the application or archive causing the issue does not contain sensitive information and you are comfortable sharing it with the RHAMT development team, attach it to the issue using the browse button.
- Click the Create button to create the JIRA issue.
Revised on 2020-03-19 14:02:37 UTC
