Apache Camel Component Reference

Red Hat JBoss Fuse

Configuration reference for Camel components

Red Hat

Version 6.3
04 Aug 2017

Abstract

Apache Camel has over 100 components and each component is highly configurable. This guide describes the settings for each of the components.

Chapter 1. Components Overview

Abstract

This chapter provides a summary of all the components available for Apache Camel.

1.1. List of Camel Components for Apache Karaf

Table of components

The following Camel components are supported on the Apache Karaf (OSGi) container:

Table 1.1. Apache Camel Components

ComponentEndpoint URIArtifact IDDescription
ActiveMQ activemq:[queue:|topic:]DestinationName activemq-core For JMS Messaging with Apache ActiveMQ.
AHC ahc:http[s]://Hostname[:Port][/ResourceUri] camel-ahc Calls external HTTP servers using the Async Http Client library.
AHC-WSahc-ws[s]://Hostname[:Port][/ResourceUri]camel-ahc-wsCalls external WebSocket servers using the Async Http Client library.
AMQP amqp:[queue:|topic:]DestinationName[?Options]] camel-amqp For messaging with the AMQP protocol.
APNS apns:notify[?Options] apns:consumer[?Options] camel-apns For sending notifications to Apple iOS devices.
Atmosphere-WebSocketatmosphere-websocket:///RelativePath[?Options]camel-atmosphere-websocketAccepts connections from external WebSocket clients using Atmosphere.
Atom atom://AtomUri[?Options] camel-atom Working with Apache Abdera for atom integration, such as consuming an atom feed.
Avro avro:http://Hostname[:Port][?Options] camel-avro Working with Apache Avro for data serialization.
AWS-CWaws-cw://Namespace[?Options]camel-awsFor sending metrics to Amazon CloudWatch.
AWS-DDB aws-ddb://TableName[?Options] camel-aws For working with Amazon's DynamoDB (DDB).
AWS-SDB aws-sdb://DomainName[?Options] camel-aws For working with Amazon's SimpleDB (SDB).
AWS-SES aws-ses://From[?Options] camel-aws For working with Amazon's Simple Email Service (SES).
AWS-S3 aws-s3://BucketName[?Options] camel-aws For working with Amazon's Simple Storage Service (S3).
AWS-SNS aws-sns://TopicName[?Options] camel-aws For messaging with Amazon's Simple Notification Service (SNS).
AWS-SQS aws-sqs://QueueName[?Options] camel-aws For messaging with Amazon's Simple Workflow Service (SWF).
AWS-SWF aws-swf://{workflow|activity}[?Options] camel-aws For managing workflows from Amazon's Simple Queue Service (SQS).
Bean bean:BeanID[?methodName=Method] camel-core Uses the Bean Binding to bind message exchanges to beans in the Registry. Is also used for exposing and invoking POJO (Plain Old Java Objects).
Beanstalk beanstalk://[Hostname[:port]][/tube][?options] camel-beanstalk For retrieving and post-processing Beanstalk jobs.
Bean Validation bean-validator:Something[?Options] camel-bean-validator Validates the payload of a message using the Java Validation API (JSR 303 and JAXP Validation) and its reference implementation Hibernate Validator.
BindyN/Acamel-bindyEnables the parsing and binding of non-structured data.
Browse browse: Name camel-core Provdes a simple BrowsableEndpoint which can be useful for testing, visualisation tools or debugging. The exchanges sent to the endpoint are all available to be browsed.
Cache cache://CacheName[?Options] camel-cache The cache component enables you to perform caching operations using EHCache as the Cache Implementation.
CDIN/Acamel-cdiProvides CDI integration.
Class class:ClassName[?method=MethodName] camel-core Uses the Bean binding to bind message exchanges to beans in the registry. Is also used for exposing and invoking POJOs (Plain Old Java Objects).
CMIS cmis:CmisServerUrl[?Options] camel-cmis Uses the Apache Chemistry client API to interface with CMIS supporting CMS.
Cometd cometd://Hostname[:Port]/ChannelName[?Options] camel-cometd A transport for working with the jetty implementation of the cometd/bayeux protocol.
Context context:CamelContextId:LocalEndpointName camel-context Refers to an endpoint in a different CamelContext.
ControlBus controlbus:Command[?Options] camel-core ControlBus Enterprise Integration Pattern that allows you to send messages to endpoints for managing and monitoring your Camel applications.
CouchDB couchdb:http://Hostname[:Port] /Database[?Options]://Name[?Options] camel-couchdb Allows you to treat CouchDB instances as a producer or consumer of messages.
Crypto crypto:sign:Name[?Options] crypto:verify:Name[?Options] camel-crypto Sign and verify exchanges using the Signature Service of the Java Cryptographic Extension.
CXF cxf://Address[?Options] camel-cxf Working with Apache CXF for web services integration.
CXF Bean cxf:BeanName camel-cxf Proceess the exchange using a JAX WS or JAX RS annotated bean from the registry.
CXFRS cxfrs:bean:RsEndpoint[?Options] camel-cxf Provides integration with Apache CXF for connecting to JAX-RS services hosted in CXF.
DataFormatdataformat:Name:(marshal|unmarshal)[?Options]camel-coreEnables you to marshal or unmarshal a message in one of the standard Camel data formats, by sending it to an endpoint.
DataSet dataset:Name[?Options] camel-core For load & soak testing the DataSet provides a way to create huge numbers of messages for sending to Components or asserting that they are consumed correctly.
Direct direct:EndpointID[?Options] camel-core Synchronous call (single-threaded) to another endpoint from same CamelContext.
Direct-VM direct-vm:EndpointID[?Options] camel-core Synchronous call (single-threaded) to another endpoint in another CamelContext running in the same JVM.
Disruptor disruptor:Name[?Options] disruptor-vm:Name[?Options] camel-disruptorSimilar to a SEDA endpoint, but uses a Disruptor instead of a blocking queue.
DNS dns:Operation camel-dns Look up domain information and run DNS queries using DNSJava
Dockerdocker:Operation[?Options]camel-dockerLeverages docker-java via the Docker Remote API.
Dozerdozer:EndpointID[?Options]camel-dozerProvides the ability to map between Java beans using the Dozer mapping framework.
Dropboxdropbox://[Operation][?Options]camel-dropboxSends or receives messages from Dropbox remote folders.
ElasticSearch elasticsearch:ClusterName camel-elasticsearch For interfacing with an ElasticSearch server.
ElSqlelsql:elSqlName:resourceUri[?Options]camel-elsqlAn extension to the existing SQL Component that uses ElSql to define the SQL queries.
Etcdetcd:nameSpace[/path][?Options]camel-etcdFor working with the Etcd distibuted key-value store.
EventAdmin eventadmin:topic camel-eventadmin  
Exec exec://Executable[?Options] camel-exec Execute system command.
Fabric fabric:ClusterID[:PublishedURI][?Options] fabric-camel Look up or publish a fabric endpoint.
Facebookfacebook://[Endpoint][?Options] camel-facebookProvides access to all of the Facebook APIs accessible using Facebook4J.
File2 file://DirectoryName[?Options] camel-core Sending messages to a file or polling a file or directory.
Flatpack flatpack:[fixed|delim]: ConfigFile camel-flatpack Processing fixed width or delimited files or messages using the FlatPack library
FOP fop:OutputFormat camel-fop Renders the message into different output formats using Apache FOP.
Freemarker freemarker: TemplateResource camel-freemarker Generates a response using a Freemarker template.
FTP2 ftp://[Username@]Hostname[:Port]/Directoryname[?Options] camel-ftp Sending and receiving files over FTP.
GAuth gauth://Name[?Options] camel-gae Used by web applications to implement a Google-specific OAuth consumer
GHTTP ghttp:///Path[?Options] ghttp://Hostname[:Port]/Path[?Options] ghttps://Hostname[:Port]/Path[?Options] camel-gaeProvides connectivity to the GAE URL fetch service and can also be used to receive messages from servlets.
Gitgit://localRepositoryPath[?Options]camel-gitAllows you to work with a generic Git repository.
GitHubgithub://endpointId[?Options]camel-githubFor interacting with the github API.
GLogin glogin://Hostname[:Port][?Options] camel-gae Used by Camel applications outside Google App Engine (GAE) for programmatic login to GAE applications.
GMail gmail://Username@gmail.com[?Options] gmail://Username@googlemail.com[?Options] camel-gaeSupports sending of emails via the GAE mail service.
GoogleCalendar google-calendar://endpoint-prefix/endpointId[?Options] camel-google-calendarFor accessing Google Calendar using the Google Calendar Web APIs.
GoogleMail google-mail://endpoint-prefix/endpointId[?Options] camel-google-mailFor accessing Gmail using the Google Mail Web APIs.
GTask gtask://QueueName camel-gae Supports asynchronous message processing on GAE using the task queueing service as a message queue.
Geocoder geocoder:Address:Name[?Options] geocoder:latlng:Latitude,Longitude[?Options] camel-geocoderLooks up geocodes (latitude and longitude) for a given address, or performs reverse look-up.
GoogleDrivegoogle-drive://EndpointPrefix/Endpoint[?Options]camel-google-driveProvides access to the Google Drive file storage service.
Guava EventBus guava-eventbus:BusName[?EventClass=ClassName] camel-guava-eventbus The Google Guava EventBus allows publish-subscribe-style communication between components without requiring the components to explicitly register with one another (and thus be aware of each other). This component provides integration bridge between Camel and Google Guava EventBus infrastructure.
Hazelcast hazelcast://StoreType:CacheName[?Options] camel-hazelcast Hazelcast is a data grid entirely implemented in Java (single JAR). This component supports map, multimap, seda, queue, set, atomic number and simple cluster.
HBase hbase://Table[?Options] camel-hbase For reading/writing from/to an HBase store (Hadoop database).
HDFS hdfs://Hostname[:Port][/Path][?Options] camel-hdfs Reads from and writes to a Hadoop Distributed File System (HDFS) using Hadoop 1.x.
HDFS2hdfs2://Hostname[:Port][/Path][?Options]camel-hdfs2Reads from and writes to a Hadoop Distributed File System (HDFS) using Hadoop 2.x.
Hipchathipchat://Hostname[:Port][?Options]camel-hipchatFor producing and consuming messages via the Hipchat service.
HL7 mina:tcp://Host[:Port] camel-hl7 For working with the HL7 MLLP protocol and the HL7 model using the HAPI library.
HTTP http://Hostname[:Port][/ResourceUri] camel-http For calling out to external HTTP servers, using Apache HTTP Client 3.x.
HTTP4 http4://Hostname[:Port][/ResourceUri] camel-http4 For calling out to external HTTP servers, using Apache HTTP Client 4.x.
iBATIS ibatis:OperationName[?Options] camel-ibatis Performs a query, poll, insert, update or delete in a relational database using Apache iBATIS.
IMap imap://[UserName@]Host[:Port][?Options] camel-mail Receiving email using IMap.
IRC irc:Host[:Port]/#Room camel-irc For IRC communication.
Jasypt camel-jasyptIntegrates with Jasypt to allow sensitive information in Properties files to be encrypted.
JCache cache://cacheName[?Options] camel-jcachePerform cache operations using JCache (JSR-107) as the cache implementation.
JClouds jclouds:[Blobstore|ComputService]:Provider camel-jclouds For interacting with cloud compute & blobstore service via JClouds.
JCR jcr://UserName:Password@Repository/path/to/node camel-jcr Storing a message in a JCR (JSR-170) compliant repository like Apache Jackrabbit.
JDBC jdbc:DataSourceName[?Options] camel-jdbc For performing JDBC queries and operations.
Jetty jetty:http://Host[:Port][/ResourceUri] camel-jetty For exposing services over HTTP.
JGroupsjgroups:ClusterName[?Options]camel-jgroupsExchanges messages with JGroups clusters.
Jing
jing:LocalOrRemoteResource
jing:LocalOrRemoteResource?compactSyntax=true
camel-jing
Validates the payload of a message using RelaxNG or RelaxNG compact syntax.
JIRA jira://endpointId[?Options] camel-jira For interacting with the JIRA API by encapsulating Atlassian's REST Java Client for JIRA.
JMS jms:[temp:][queue:|topic:]DestinationName[?Options] camel-jms Working with JMS providers.
JMX jmx://Platform[?Options] camel-jmx For working with JMX notification listeners.
Joltjolt:specName[?Options]camel-joltAllows you to process a JSON messages using an JOLT specification.
JPA jpa:[EntityClassName][?Options] camel-jpa For using a database as a queue via the JPA specification for working with OpenJPA, Hibernate or TopLink.
Jsch scp://Hostname/Destination camel-jsch Support for the scp protocol.
JT400 jt400://User:Pwd@System/PathToDTAQ camel-jt400 For integrating with data queues on an AS/400 (aka System i, IBM i, i5, ...) system.
Kafkakafka://Hostname[:Port][?Options]camel-kafkaSends or receives messages from an Apache Kafka message broker.
Kestrel kestrel://[AddressList/]Queuename[?Options] camel-kestrel For producing to or consuming from Kestrel queues.
Krati krati://[PathToDatastore/][?Options] camel-krati For producing to or consuming from Krati datastores.
Kubernetes kubernetes:[masterUrl][?Options] camel-kubernetes For integrating applications with Kubernetes standalone or on top of OpenShift.
Language language://LanguageName[:Script][?Options] camel-core Executes language scripts.
LDAP ldap:Host[:Port]?base=...[&scope=Scope] camel-ldap Performing searches on LDAP servers (Scope must be one of object|onelevel|subtree).
LevelDBN/A camel-leveldbA very lightweight and embeddable key-value database.
List list:ListID camel-core Provides a simple BrowsableEndpoint which can be useful for testing, visualisation tools or debugging. The exchanges sent to the endpoint are all available to be browsed.
Log log:LoggingCategory[?level=LoggingLevel] camel-core Uses Jakarta Commons Logging to log the message exchange to some underlying logging system like log4j.
Lucene lucene:SearcherName:insert[?analyzer=Analyzer] lucene:SearcherName:query[?analyzer=Analyzer] camel-lucene Uses Apache Lucene to perform Java-based indexing and full text based searches using advanced analysis/tokenization capabilities.
Master REVISIT   
Metricsmetrics:[meter|counter|histogram|timer]:Metricname[?Options]camel-metrics
Enables you to collect various metrics directly from Camel routes using the Metrics Java library.
MINA2 mina2:tcp://Hostname[:Port][?Options] mina2:udp://Hostname[:Port][?Options] mina2:vm://Hostname[:Port][?Options] camel-mina2Working with Apache MINA 2.x.
MLLP N/A camel-mllpFor communicating between healthcare systems using the MLLP protocol. This component provides a simple configuration URI and automated HL7 acknowldgement generation and interrogation.
Mock mock:EndpointID camel-core For testing routes and mediation rules using mocks.
MongoDB mongodb:Connection[?Options] camel-mongodb Interacts with MongoDB databases and collections. Offers producer endpoints to perform CRUD-style operations and more against databases and collections, as well as consumer endpoints to listen on collections and dispatch objects to Camel routes.
MQTT mqtt:Name camel-mqtt Component for communicating with MQTT M2M message brokers
MSV msv:LocalOrRemoteResource camel-msv Validates the payload of a message using the MSV Library.
Mustache mustache:TemplateName[?Options] camel-mustacheEnables you to process a message using a Mustache template.
MVEL mvel:TemplateName[?Options] camel-mvelEnables you to process a message using an MVEL template.
MyBatis mybatis:StatementName camel-mybatis Performs a query, poll, insert, update or delete in a relational database using MyBatis.
Nagios nagios://Host[:Port][?Options] camel-nagios Sending passive checks to Nagios using JSendNSCA.
Netty netty:tcp://localhost:99999[?Options] netty:udp://Remotehost:99999/[?Options] camel-netty
Enables you to work with TCP and UDP protocols, using the Java NIO based capabilities offered by Netty version 3.x.
Netty4 netty4:tcp://localhost:99999[?Options] netty4:udp://Remotehost:99999/[?Options] camel-netty4
Enables you to work with TCP and UDP protocols, using the Java NIO based capabilities offered by Netty version 4.x.
Netty HTTP netty-http:http://Hostname[:Port][?Options] camel-netty-httpAn extension to the Netty component, facilitating the HTTP transport, using Netty version 3.x.
Netty4 HTTPnetty4-http:http://Hostname[:Port][?Options]camel-netty4-httpAn extension to the Netty component, facilitating the HTTP transport, using Netty version 4.x.
OGNL  camel-ognlOGNL is an expression language for getting and setting properties of Java objects.
Olingo2olingo2://Endpoint/ResourcePath[?Options]camel-olingo2
Communicates with OData 2.0 services using Apache Olingo 2.0.
Pahopaho:QName[?Options]camel-pahoProvides connector for the MQTT messaging protocol using the Eclipse Paho library.
Pax-Logging paxlogging:Appender camel-paxlogging
Receives Pax Logging events in the context of an OSGi container.
PDFpdf:Operation[?Options]camel-pdfProvides the ability to create, modify or extract content from PDF documents.
PGEvent
pgevent:Datasource[?Parameters]
pgevent://[HostName][:Port]/Database/Channel[?Parameters]
camel-pgeventFor producing and consuming PostgreSQL events to the LISTEN/NOTIFY commands.
POP pop3://[UserName@]Host[:Port][?Options] camel-mail Receives email using POP3 and JavaMail.
Printer lpr://localhost[:Port]/default[?Options] lpr://RemoteHost[:Port]/path/to/printer[?Options] camel-printer Provides a way to direct payloads on a route to a printer.
Properties properties://Key[?Options] camel-properties Facilitates using property placeholders directly in endpoint URI definitions.
Quartz quartz://[GroupName/]TimerName[?Options] quartz://GroupName/TimerName/CronExpression camel-quartz Provides a scheduled delivery of messages using the Quartz scheduler.
Quartz2 quartz2://[GroupName/]TimerName[?Options] quartz2://GroupName/TimerName/CronExpression camel-quartz2Provides a scheduled delivery of messages using the Quartz Scheduler 2.x.
Quickfix quickfix-server:ConfigFile quickfix-client:ConfigFile camel-quickfix Implementation of the QuickFix for Java engine which allow to send/receive FIX messages.
RabbitMQ rabbitmq://Hostname[:Port]/ExchangeName[?Options] camel-rabbitmqEnables you to produce and consume messages from a RabbitMQ instance.
Ref ref:EndpointID camel-core Component for lookup of existing endpoints bound in the Registry.
RESTrest://Method:Path[:UriTemplate][?Options]camel-restAllows you to define REST endpoints using the section "Defining Services with REST DSL" in "Apache Camel Development Guide".
Restlet restlet:RestletUrl[?Options] camel-restlet Component for consuming and producing Restful resources using Restlet.
RMI rmi://RmiRegistryHost:RmiRegistryPort/RegistryPath camel-rmi Working with RMI.
Routebox routebox:routeboxName[?Options] camel-routebox  
RSS rss:Uri camel-rss Working with ROME for RSS integration, such as consuming an RSS feed.
Salesforce salesforce:Topic[?Options] camel-salesforceEnables producer and consumer endpoints to communicate with Salesforce using Java DTOs.
SAP sap:[destination:DestinationName|server:ServerName]rfcName[?Options] camel-sapEnables outbound and inbound communication to and from SAP systems using synchronous remote function calls, sRFC.
SAP NetWeaver sap-netweaver:https://Hostname[:Port]/Path[?Options] camel-sap-netweaverIntegrates with the SAP NetWeaver Gateway using HTTP transports.
Schematronschematron://Path[?Options]camel-schematronValidates XML documents using Schematron.
SEDA seda:EndpointID camel-core Used to deliver messages to a java.util.concurrent.BlockingQueue, useful when creating SEDA style processing pipelines within the same CamelContext.
SERVLET servlet://RelativePath[?Options] camel-servlet Provides HTTP based endpoints for consuming HTTP requests that arrive at a HTTP endpoint and this endpoint is bound to a published Servlet.
ServletListener N/A camel-servletlistenerUsed for bootstrapping Camel applications in Web applications.
SFTP sftp://[Username@]Hostname[:Port]/Directoryname[?Options] camel-ftp Sending and receiving files over SFTP.
Sip sip://User@Hostname[:Port][?Options] sips://User@Hostname[:Port][?Options] camel-sip Publish/subscribe communication capability using the telecom SIP protocol. RFC3903 - Session Initiation Protocol (SIP) Extension for Event
SJMS sjms:[queue:|topic:]destinationName[?Options] camel-sjmsA JMS client for Camel that employs best practices for JMS client creation and configuration.
SJMS-Batch sjms-batch:[queue:]destinationName[?Options] camel-sjmsA specialized component for highly performant, transactional batch consumption from a JMS queue.
Slack
slack:#Channel[?Options]
slack:@Username[?Options]
camel-slackAllows you to connect to an instance of Slack and delivers a message contained in the message body via a pre established Slack incoming webhook.
SMPP smpp://UserInfo@Host[:Port][?Options] camel-smpp To send and receive SMS using Short Messaging Service Center using the JSMPP library.
SMTP smtp://[UserName@]Host[:Port][?Options] camel-mail Sending email using SMTP and JavaMail.
SNMP snmp://Hostname[:Port][?Options] camel-snmp Gives you the ability to poll SNMP capable devices or receive traps.
Solr solr://Hostname[:Port]/Solr[?Options] camel-solr Uses the Solrj client API to interface with an Apache Lucene Solr server.
Apache Spark spark:{rdd|dataframe|hive} N/AProvides a bridge between Camel connectors and Spark tasks.
Splunksplunk://Endpoint[?Options]camel-splunkEnables you to publish events and search for events in Splunk.
Spring Batch spring-batch:Job[?Options] camel-spring-batch To bridge Camel and Spring Batch.
Spring Event spring-event://dummy camel-spring Publishes or consumes Spring ApplicationEvents objects in a Spring context.
Spring Integration spring-integration:DefaultChannelName[?Options] camel-spring-integration The bridge component of Camel and Spring Integration.
Spring LDAP spring-ldap:SpringLdapTemplate[?Options] camel-spring-ldapProvides a Camel wrapper for Spring LDAP.
Spring Redis spring-redis://Hostname[:Port][?Options] camel-spring-redisEnables sending and receiving messages from Redis, which is an advanced key-value store, where keys can contain strings, hashes, lists, sets and sorted sets.
Spring Web Services spring-ws:[MappingType:]Address[?Options] camel-spring-ws Client-side support for accessing web services, and server-side support for creating your own contract-first web services using Spring Web Services.
SQL sql:SqlQueryString[?Options] camel-sql Performing SQL queries using JDBC.
SQL Stored Procedure sql-stored:Template[?Options] camel-sqlTo work with databases using Stored Procedure queries.
SSH ssh:[Username[:Password]@]Host[:Port][?Options] camel-ssh For sending commands to a SSH server.
StAX stax:ContentHandlerClassName camel-stax Process messages through a SAX ContentHandler.
Stomp stomp:queue:Destination[?Options] camel-stompFor sending messages to or receiving messages from a Stomp compliant broker, such as Apache ActiveMQ.
Stream stream:[in|out|err|header][?Options] camel-stream Read or write to an input/output/error/file stream rather like Unix pipes.
String Template string-template:TemplateURI[?Options] camel-stringtemplate Generates a response using a String Template.
Stub stub:SomeOtherCamelUri camel-core Allows you to stub out some physical middleware endpoint for easier testing or debugging.
SwaggerN/Acamel-swaggerEnables users to create API docs for any REST-defined routes and endpoints in a CamelContext file.
Swagger N/A camel-swagger For creating API docs for any REST-defined routes or endpoints in a CamelContext file.
Swagger Java N/A camel-swagger-java Integrates with the REST DSL to expose REST services and their APIs using Swagger. This component can be used as a servlet or directly from the REST components without a servlet.
Test test:RouterEndpointUri camel-spring Creates a Mock endpoint which expects to receive all the message bodies that could be polled from the given underlying endpoint.
Timer timer:EndpointID[?Options] camel-core A timer endpoint.
Twitter twitter://[Endpoint][?Options] camel-twitter A Twitter endpoint.
Undertowundertow:http://Hostname[:Port][/ResourceUri][?Options]camel-undertowProvides HTTP-based endpoints for consuming and producing HTTP requests.
Validation validator:LocalOrRemoteResource camel-spring Validates the payload of a message using XML Schema and JAXP Validation.
Velocity velocity:TemplateURI[?Options] camel-velocity Generates a response using an Apache Velocity template.
Vertxvertx:ChannelName[?Options] camel-vertxFor working with the Vertx Event Bus.
VM vm:EndpointID camel-core Used to deliver messages to a java.util.concurrent.BlockingQueue, useful when creating SEDA style processing pipelines within the same JVM.
Weather weather://DummyName[?Options] camel-weatherPolls weather information from Open Weather Map: a site that provides free global weather and forecast information.
Websocket websocket://Hostname[:Port]/Path camel-websocket Communicating with Websocket clients.
XML RPC xmlrpc://ServerURI[?Options] camel-xmlrpcProvides a data format for XML, which allows serialization and deserialization of request messages and response message using Apache XmlRpc's bindary data format.
XML SecurityN/A camel-xmlsecurityGenerate and validate XML signatures as described in the W3C standard XML Signature Syntax and Processing.
XMPP xmpp:Hostname[:Port][/Room] camel-xmpp Working with XMPP and Jabber.
XQuery xquery:TemplateURI camel-saxon Generates a response using an XQuery template.
XSLT xslt:TemplateURI[?Options] camel-spring Enables you to process a message using an XSLT template.
Yammer yammer:[function][?Options] camel-yammerEnables you to interact with the Yammer enterprise social network.
Zookeeper zookeeper://Hostname[:Port]/Path camel-zookeeper Working with ZooKeeper cluster(s).

1.2. List of Camel Components for JBoss EAP

Table of components

The following Camel components are supported on the Red Hat JBoss Enterprise Application Platform (Java EE) container:

Table 1.2. Apache Camel Components

ComponentEndpoint URIArtifact IDDescription
ActiveMQ activemq:[queue:|topic:]DestinationName activemq-core For JMS Messaging with Apache ActiveMQ.
Atom atom://AtomUri[?Options] camel-atom Working with Apache Abdera for atom integration, such as consuming an atom feed.
Bean bean:BeanID[?methodName=Method] camel-coreUses the Bean Binding to bind message exchanges to beans in the Registry. Is also used for exposing and invoking POJO (Plain Old Java Objects).
BindyN/Acamel-bindyEnables the parsing and binding of non-structured data.
Browse browse: Name camel-coreProvdes a simple BrowsableEndpoint which can be useful for testing, visualisation tools or debugging. The exchanges sent to the endpoint are all available to be browsed.
  camel-castorThe camel-castor component provides support for using a data format that uses the Castor XML library to unmarshal an XML payload into Java objects or to marshal Java objects into an XML payload. This component is not an endpoint factory. See the Apache documentation for details.
CDIN/Acamel-cdiProvides CDI integration.
Class class:ClassName[?method=MethodName] camel-core Uses the Bean binding to bind message exchanges to beans in the registry. Is also used for exposing and invoking POJOs (Plain Old Java Objects).
ControlBus controlbus:Command[?Options] camel-core ControlBus Enterprise Integration Pattern that allows you to send messages to endpoints for managing and monitoring your Camel applications.
Crypto crypto:sign:Name[?Options] crypto:verify:Name[?Options] camel-cryptoSign and verify exchanges using the Signature Service of the Java Cryptographic Extension.
  camel-csvThe camel-csv component provides support for using comma separated values (CSV) in message data. This component is not an endpoint factory. See the Apache documentation for details.
CXF cxf://Address[?Options] camel-cxf Working with Apache CXF for web services integration.
CXF Bean cxf:BeanName camel-cxf Proceess the exchange using a JAX WS or JAX RS annotated bean from the registry.
CXFRS cxfrs:bean:RsEndpoint[?Options] camel-cxf Provides integration with Apache CXF for connecting to JAX-RS services hosted in CXF.
DataFormatdataformat:Name:(marshal|unmarshal)[?Options]camel-coreEnables you to marshal or unmarshal a message in one of the standard Camel data formats, by sending it to an endpoint.
DataSet dataset:Name[?Options] camel-core For load & soak testing the DataSet provides a way to create huge numbers of messages for sending to Components or asserting that they are consumed correctly.
Direct direct:EndpointID[?Options] camel-core Synchronous call (single-threaded) to another endpoint from same CamelContext.
Direct-VM direct-vm:EndpointID[?Options] camel-core Synchronous call (single-threaded) to another endpoint in another CamelContext running in the same JVM.
Dozerdozer:EndpointID[?Options]camel-dozerProvides the ability to map between Java beans using the Dozer mapping framework.
EJB ejb:EjbName[?method=MethodName] camel-ejb Uses the Bean binding to bind message exchanges to EJBs. It works like the Bean component, but just for accessing EJBs. Supports EJB 3.0 onwards.
ElasticSearch elasticsearch:ClusterName camel-elasticsearch For interfacing with an ElasticSearch server.
File2 file://DirectoryName[?Options] camel-core Sending messages to a file or polling a file or directory.
Flatpack flatpack:[fixed|delim]: ConfigFile camel-flatpack Processing fixed width or delimited files or messages using the FlatPack library
FTP2 ftp://[Username@]Hostname[:Port]/Directoryname[?Options] camel-ftpSending and receiving files over FTP.
  camel-groovyThe camel-groovy component provides support for using the Groovy language. It is not an endpoint factory. See Groovy.
HL7 camel-hl7 For working with the HL7 MLLP protocol and the HL7 model using the HAPI library.
HTTP4 http4://Hostname[:Port][/ResourceUri] camel-http4 For calling out to external HTTP servers, using Apache HTTP Client 4.x.
IMap imap://[UserName@]Host[:Port][?Options] camel-mailReceiving email using IMap.
  camel-jacksonThe camel-jackson component provides support for integrating Jackson as a type converter in the Camel registry. This component is not an endpoint factory. See camel-jackson.
Jasypt camel-jasyptIntegrates with Jasypt to allow sensitive information in Properties files to be encrypted.
JAXB camel-jaxbA data format which uses the JAXB2 XML marshalling standard to unmarshal an XML payload into a Java object or to marshal a Java object into an XML payload.
JGroupsjgroups:ClusterName[?Options]camel-jgroupsExchanges messages with JGroups clusters.
JMS jms:[temp:][queue:|topic:]DestinationName[?Options] camel-jms Working with JMS providers.
JMX jmx://Platform[?Options] camel-jmx For working with JMX notification listeners.
JPA jpa:[EntityClassName][?Options] camel-jpa For using a database as a queue via the JPA specification for working with OpenJPA, Hibernate or TopLink.
Kafkakafka://Hostname[:Port][?Options]camel-kafkaSends or receives messages from an Apache Kafka message broker.
Language language://LanguageName[:Script][?Options] camel-core Executes language scripts.
List list:ListID camel-core Provides a simple BrowsableEndpoint which can be useful for testing, visualisation tools or debugging. The exchanges sent to the endpoint are all available to be browsed.
Log log:LoggingCategory[?level=LoggingLevel] camel-core Uses Jakarta Commons Logging to log the message exchange to some underlying logging system like log4j.
Lucene lucene:SearcherName:insert[?analyzer=Analyzer] lucene:SearcherName:query[?analyzer=Analyzer] camel-lucene Uses Apache Lucene to perform Java-based indexing and full text based searches using advanced analysis/tokenization capabilities.
MINA2 mina2:tcp://Hostname[:Port][?Options] mina2:udp://Hostname[:Port][?Options] mina2:vm://Hostname[:Port][?Options] camel-mina2Working with Apache MINA 2.x.
MQTT mqtt:Name camel-mqtt Component for communicating with MQTT M2M message brokers
MVEL mvel:TemplateName[?Options] camel-mvelEnables you to process a message using an MVEL template.
Netty4 netty4:tcp://localhost:99999[?Options] netty4:udp://Remotehost:99999/[?Options] camel-netty4
Enables you to work with TCP and UDP protocols, using the Java NIO based capabilities offered by Netty version 4.x.
OGNL  camel-ognlOGNL is an expression language for getting and setting properties of Java objects.
POP pop3://[UserName@]Host[:Port][?Options] camel-mailReceives email using POP3 and JavaMail.
Properties properties://Key[?Options] camel-properties Facilitates using property placeholders directly in endpoint URI definitions.
  camel-protobufThis component provides support for serializing between Java and the Protocol Buffer protocol. Protocol Buffer is language-neutral and platform-neutral, so messages produced by your Camel routes may be consumed by other language implementations. See the Apache documentation for details.
Quartz2 quartz2://[GroupName/]TimerName[?Options] quartz2://GroupName/TimerName/CronExpression camel-quartz2Provides a scheduled delivery of messages using the Quartz Scheduler 2.x.
Ref ref:EndpointID camel-coreComponent for lookup of existing endpoints bound in the Registry.
RESTrest://Method:Path[:UriTemplate][?Options]camel-restAllows you to define REST endpoints using the section "Defining Services with REST DSL" in "Apache Camel Development Guide".
Restlet restlet:RestletUrl[?Options] camel-restletComponent for consuming and producing Restful resources using Restlet.
RSS rss:Uri camel-rssWorking with ROME for RSS integration, such as consuming an RSS feed.
Salesforce salesforce:Topic[?Options] camel-salesforceEnables producer and consumer endpoints to communicate with Salesforce using Java DTOs.
SAP sap:[destination:DestinationName|server:ServerName]rfcName[?Options]camel-sapEnables outbound and inbound communication to and from SAP systems using synchronous remote function calls, sRFC.
Saxon  camel-saxonThe Saxon component supports XQuery to allow an expression or predicate to be used in the Java DSL or XML DSL.
Script  camel-scriptThe Script component supports a number of scripting languages which can be used to create an Expression or Predicate according to the JSR 223 standard.
SEDA seda:EndpointID camel-core Used to deliver messages to a java.util.concurrent.BlockingQueue, useful when creating SEDA style processing pipelines within the same CamelContext.
SERVLET servlet://RelativePath[?Options] camel-servlet Provides HTTP based endpoints for consuming HTTP requests that arrive at a HTTP endpoint and this endpoint is bound to a published Servlet.
SFTP sftp://[Username@]Hostname[:Port]/Directoryname[?Options] camel-ftp Sending and receiving files over SFTP.
SMPP smpp://UserInfo@Host[:Port][?Options] camel-smppTo send and receive SMS using Short Messaging Service Center using the JSMPP library.
  camel-soapThe camel-soap component provides support for using the SOAP data format. It is not an endpoint factory. See the Apache documentation for details.
  camel-springThe camel-spring component provides support for using the Spring Expression Language (SpEL). It is not an endpoint factory. See SpEL.
  camel-spring-securityThe camel-spring-security component provides role-based authorization for Camel routes. It is not an endpoint factory. See the Apache documentation for details.
SQL sql:SqlQueryString[?Options] camel-sql Performing SQL queries using JDBC.
Stream stream:[in|out|err|header][?Options] camel-stream Read or write to an input/output/error/file stream rather like Unix pipes.
SwaggerN/Acamel-swaggerEnables users to create API docs for any REST-defined routes and endpoints in a CamelContext file.
  camel-tagsoupThis component provides support for parsing ugly HTML and returning it as pretty wellformed HTML. This component is not an endpoint factory. See the Apache documentation for details.
Timer timer:EndpointID[?Options] camel-core A timer endpoint.
Velocity velocity:TemplateURI[?Options] camel-velocity Generates a response using an Apache Velocity template.
VM vm:EndpointID camel-core Used to deliver messages to a java.util.concurrent.BlockingQueue, useful when creating SEDA style processing pipelines within the same JVM.
Weather weather://DummyName[?Options] camel-weatherPolls weather information from Open Weather Map: a site that provides free global weather and forecast information.
  camel-xmlbeansThis component provides support for unmarshalling an XML payload into Java objects and for marshalling Java objects into an XML payload. This component is not a factory endpoint. See the Apache documentation for details.
XML SecurityN/Acamel-xmlsecurityGenerate and validate XML signatures as described in the W3C standard XML Signature Syntax and Processing.
XQuery xquery:TemplateURIcamel-saxonGenerates a response using an XQuery template.
XSLT xslt:TemplateURI[?Options] camel-spring Enables you to process a message using an XSLT template.
XStream camel-xstreamProvides the XStream data format, which uses the XStream library to marshal and unmarshal Java objects to and from XML.
  camel-zipfileThis component provides support for compressing messages to zip files and for decompressing zip files to original messages. This component is not an endpoint factory. See the Apache documentation for details.
Zookeeper zookeeper://Hostname[:Port]/Path camel-zookeeper Working with ZooKeeper cluster(s).

1.3. Deploying Custom Camel Components on JBoss EAP

In addition to the standard Camel on EAP components, you can also add your own custom components to be deployed on JBoss EAP. This section describes how to add Camel components on the JBoss EAP container.

1.3.1. Adding module.xml definition

A module.xml descriptor file defines the class loading behavior of the component.
You can create an additional directory and add the module.xml file and any jar dependencies into it. For example, modules/system/layers/fuse/org/apache/camel/component/ftp/main directory.
Here is an example for the camel-ftp component:
<module xmlns="urn:jboss:module:1.1" name="org.apache.camel.component.ftp">
  <resources>
    <resource-root path="camel-ftp-2.14.0.jar" />
  </resources>
  <dependencies>
    <module name="com.jcraft.jsch" />
    <module name="javax.xml.bind.api" />
    <module name="org.apache.camel.core" />
    <module name="org.apache.commons.net" />
  </dependencies>
</module>

1.3.2. Adding a Reference

To make the new module visible to Camel deployments, add a reference to it within the modules/system/layers/fuse/org/apache/camel/component/main/module.xml file.
<module xmlns="urn:jboss:module:1.3" name="org.apache.camel.component">
  <dependencies>
    ...
    <module name="org.apache.camel.component.ftp" export="true" services="export"/>
  </dependencies>

</module>

Chapter 2. ActiveMQ

ActiveMQ Component

The ActiveMQ component allows messages to be sent to a JMS Queue or Topic; or messages to be consumed from a JMS Queue or Topic using Apache ActiveMQ.
This component is based on the JMS Component and uses Spring's JMS support for declarative transactions, using Spring's JmsTemplate for sending and a MessageListenerContainer for consuming. All the options from the JMS component also apply for this component.
To use this component, make sure you have the activemq.jar or activemq-core.jar on your classpath along with any Apache Camel dependencies such as camel-core.jar, camel-spring.jar and camel-jms.jar.
Transacted and caching
See section Transactions and Cache Levels below on JMS page if you are using transactions with JMS as it can impact performance.

URI format

activemq:[queue:|topic:]destinationName
Where destinationName is an ActiveMQ queue or topic name. By default, the destinationName is interpreted as a queue name. For example, to connect to the queue, FOO.BAR, use:
activemq:FOO.BAR
You can include the optional queue: prefix, if you prefer:
activemq:queue:FOO.BAR
To connect to a topic, you must include the topic: prefix. For example, to connect to the topic, Stocks.Prices, use:
activemq:topic:Stocks.Prices

Options

See Options on the JMS component as all these options also apply for this component.

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".
You can configure the ActiveMQ Camel component to work either with an embedded broker or an external broker. To embed a broker in the JBoss EAP container, configure the ActiveMQ Resource Adapter in the EAP container configuration file—for details, see ActiveMQ Resource Adapter Configuration.

Configuring the Connection Factory

The following test case shows how to add an ActiveMQComponent to the CamelContext using the activeMQComponent() method while specifying the brokerURL used to connect to ActiveMQ.
camelContext.addComponent("activemq", activeMQComponent("vm://localhost?broker.persistent=false"));

Configuring the Connection Factory using Spring XML

You can configure the ActiveMQ broker URL on the ActiveMQComponent as follows
<beans xmlns="http://www.springframework.org/schema/beans"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
       xsi:schemaLocation="
       http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-2.0.xsd
       http://camel.apache.org/schema/spring http://camel.apache.org/schema/spring/camel-spring.xsd">

  <camelContext xmlns="http://camel.apache.org/schema/spring">
  </camelContext>


  <bean id="activemq" class="org.apache.activemq.camel.component.ActiveMQComponent">
    <property name="brokerURL" value="tcp://somehost:61616"/>
  </bean>

</beans>

Using connection pooling

When sending to an ActiveMQ broker using Camel it's recommended to use a pooled connection factory to handle efficient pooling of JMS connections, sessions and producers. This is documented in the page ActiveMQ Spring Support.
You can grab Jencks AMQ pool with Maven:
    <dependency>
      <groupId>org.apache.activemq</groupId>
      <artifactId>activemq-pool</artifactId>
      <version>5.3.2</version>
    </dependency>
And then setup the activemq component as follows:
    <bean id="jmsConnectionFactory" class="org.apache.activemq.ActiveMQConnectionFactory">
        <property name="brokerURL" value="tcp://localhost:61616" />
    </bean>

    <bean id="pooledConnectionFactory"    class="org.apache.activemq.pool.PooledConnectionFactory" init-method="start" destroy-method="stop">
        <property name="maxConnections" value="8" />
        <property name="connectionFactory" ref="jmsConnectionFactory" />
    </bean>


    <bean id="jmsConfig" class="org.apache.camel.component.jms.JmsConfiguration">
        <property name="connectionFactory" ref="pooledConnectionFactory"/>
        <property name="concurrentConsumers" value="10"/>
    </bean>

    <bean id="activemq" class="org.apache.activemq.camel.component.ActiveMQComponent">
        <property name="configuration" ref="jmsConfig"/>
    </bean>
Note
Notice the init and destroy methods on the pooled connection factory. This is important to ensure the connection pool is properly started and shutdown.
The PooledConnectionFactory will then create a connection pool with up to 8 connections in use at the same time. Each connection can be shared by many sessions. There is an option named maxActive you can use to configure the maximum number of sessions per connection; the default value is 500. From ActiveMQ 5.7 onwards the option has been renamed to better reflect its purpose, being named as maxActiveSessionPerConnection. Notice the concurrentConsumers is set to a higher value than maxConnections is. This is okay, as each consumer is using a session, and as a session can share the same connection, we are in the safe. In this example we can have 8 * 500 = 4000 active sessions at the same time.

Invoking MessageListener POJOs in a route

The ActiveMQ component also provides a helper Type Converter from a JMS MessageListener to a Processor. This means that the Bean component is capable of invoking any JMS MessageListener bean directly inside any route.
So for example you can create a MessageListener in JMS as follows:
public class MyListener implements MessageListener {
   public void onMessage(Message jmsMessage) {
       // ...
   }
}
Then use it in your route as follows
from("file://foo/bar").
  bean(MyListener.class);
That is, you can reuse any of the Apache Camel Components and easily integrate them into your JMS MessageListener POJO\!

Using ActiveMQ Destination Options

Available as of ActiveMQ 5.6
You can configure the Destination Options in the endpoint uri, using the "destination." prefix. For example to mark a consumer as exclusive, and set its prefetch size to 50, you can do as follows:
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="file://src/test/data?noop=true"/>
    <to uri="activemq:queue:foo"/>
  </route>
  <route>
    <!-- use consumer.exclusive ActiveMQ destination option, notice we have to prefix with destination. -->
    <from uri="activemq:foo?destination.consumer.exclusive=true&estination.consumer.prefetchSize=50"/>
    <to uri="mock:results"/>
  </route>
</camelContext>

Consuming Advisory Messages

ActiveMQ can generate Advisory messages which are put in topics that you can consume. Such messages can help you send alerts in case you detect slow consumers or to build statistics (number of messages/produced per day, etc.) The following Spring DSL example shows you how to read messages from a topic.
<route>
	<from uri="activemq:topic:ActiveMQ.Advisory.Connection?mapJmsMessage=false" />
	<convertBodyTo type="java.lang.String"/>
	<transform>
	     <simple>${in.body}&#13;</simple>
	</transform>
	<to uri="file://data/activemq/?fileExist=Append&ileName=advisoryConnection-${date:now:yyyyMMdd}.txt" />
</route>
If you consume a message on a queue, you should see the following files under data/activemq folder :
advisoryConnection-20100312.txt advisoryProducer-20100312.txt
and containing string:
      ActiveMQMessage {commandId = 0, responseRequired = false, messageId = ID:dell-charles-3258-1268399815140
      -1:0:0:0:221, originalDestination = null, originalTransactionId = null, producerId = ID:dell-charles-
      3258-1268399815140-1:0:0:0, destination = topic://ActiveMQ.Advisory.Connection, transactionId = null, 
      expiration = 0, timestamp = 0, arrival = 0, brokerInTime = 1268403383468, brokerOutTime = 1268403383468, 
      correlationId = null, replyTo = null, persistent = false, type = Advisory, priority = 0, groupID = null, 
      groupSequence = 0, targetConsumerId = null, compressed = false, userID = null, content = null, 
      marshalledProperties = org.apache.activemq.util.ByteSequence@17e2705, dataStructure = ConnectionInfo 
      {commandId = 1, responseRequired = true, connectionId = ID:dell-charles-3258-1268399815140-2:50, 
      clientId = ID:dell-charles-3258-1268399815140-14:0, userName = , password = *****, 
      brokerPath = null, brokerMasterConnector = false, manageable = true, clientMaster = true}, 
      redeliveryCounter = 0, size = 0, properties = {originBrokerName=master, originBrokerId=ID:dell-charles-
      3258-1268399815140-0:0, originBrokerURL=vm://master}, readOnlyProperties = true, readOnlyBody = true, 
      droppable = false}

Getting Component JAR

You need this dependency:
  • activemq-camel
ActiveMQ is an extension of the JMS component released with the ActiveMQ project.
<dependency>
  <groupId>org.apache.activemq</groupId>
  <artifactId>activemq-camel</artifactId>
  <version>5.6.0</version>
</dependency>

Chapter 3. AHC

Async Http Client (AHC) Component

Available as of Camel 2.8
The ahc: component provides HTTP-based endpoints for consuming external HTTP resources (as a client to call external servers using HTTP). The component uses the Async Http Client library.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-ahc</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

ahc:http://hostname[:port][/resourceUri][?options]
ahc:https://hostname[:port][/resourceUri][?options]
Will by default use port 80 for HTTP and 443 for HTTPS.
You can append query options to the URI in the following format, ?option=value&option=value&...

AhcEndpoint Options

Name Default Value Description
throwExceptionOnFailure true Option to disable throwing the AhcOperationFailedException in case of failed responses from the remote server. This allows you to get all responses regardless of the HTTP status code.
bridgeEndpoint false If the option is true, then the Exchange.HTTP_URI header is ignored, and use the endpoint's URI for request. You may also set the throwExcpetionOnFailure to be false to let the AhcProducer send all the fault response back.
transferException false If enabled and an Exchange failed processing on the consumer side, and if the caused Exception was send back serialized in the response as a application/x-java-serialized-object content type (for example using Jetty or Servlet Camel components). On the producer side the exception will be deserialized and thrown as is, instead of the AhcOperationFailedException. The caused exception is required to be serialized.
client null To use a custom com.ning.http.client.AsyncHttpClient.
clientConfig null To configure the AsyncHttpClient to use a custom com.ning.http.client.AsyncHttpClientConfig.
clientConfig.x null To configure additional properties of the com.ning.http.client.AsyncHttpClientConfig instance used by the endpoint. Note that configuration options set using this parameter will be merged with those set using the clientConfig parameter or the instance set at the component level with properties set using this parameter taking priority.
clientConfig.realm.x null Camel 2.11: To configure realm properties of the com.ning.http.client.AsyncHttpClientConfig The options which can be used are the options from com.ning.http.client.Realm.RealmBuilder. eg to set scheme, you can configure "clientConfig.realm.scheme=DIGEST"
binding null To use a custom org.apache.camel.component.ahc.AhcBinding.
sslContextParameters null Camel 2.9: Reference to an org.apache.camel.util.jsse.SSLContextParameters object in the CAMEL:Registry. This reference overrides any configured SSLContextParameters at the component level. See chapter "Configuring Transport Security for Camel Components" in "Security Guide" and Using the JSSE Configuration Utility. Note that configuring this option will override any SSL/TLS configuration options provided through the clientConfig option at the endpoint or component level.
bufferSize 4096 Camel 2.10.3: The initial in-memory buffer size used when transferring data between Camel and AHC Client.

AhcComponent Options

Name Default Value Description
client null To use a custom com.ning.http.client.AsyncHttpClient.
clientConfig null To configure the AsyncHttpClients use a custom com.ning.http.client.AsyncHttpClientConfig.
binding null To use a custom org.apache.camel.component.ahc.AhcBinding.
sslContextParameters null Camel 2.9: To configure custom SSL/TLS configuration options at the component level. See chapter "Configuring Transport Security for Camel Components" in "Security Guide" and Using the JSSE Configuration Utility for more details. Note that configuring this option will override any SSL/TLS configuration options provided through the clientConfig option at the endpoint or component level.
Notice that setting any of the options on the AhcComponent will propagate those options to AhcEndpoints being created. However the AhcEndpoint can also configure/override a custom option. Options set on endpoints will always take precedence over options from the AhcComponent.

Message Headers

Name Type Description
Exchange.HTTP_URI String URI to call. Will override existing URI set directly on the endpoint.
Exchange.HTTP_PATH String Request URI's path, the header will be used to build the request URI with the HTTP_URI. If the path is start with "/", http producer will try to find the relative path based on the Exchange.HTTP_BASE_URI header or the exchange.getFromEndpoint().getEndpointUri();
Exchange.HTTP_QUERY String URI parameters. Will override existing URI parameters set directly on the endpoint.
Exchange.HTTP_RESPONSE_CODE int The HTTP response code from the external server. Is 200 for OK.
Exchange.HTTP_CHARACTER_ENCODING String Character encoding.
Exchange.CONTENT_TYPE String The HTTP content type. Is set on both the IN and OUT message to provide a content type, such as text/html.
Exchange.CONTENT_ENCODING String The HTTP content encoding. Is set on both the IN and OUT message to provide a content encoding, such as gzip.

Message Body

Camel will store the HTTP response from the external server on the OUT body. All headers from the IN message will be copied to the OUT message, so headers are preserved during routing. Additionally Camel will add the HTTP response headers as well to the OUT message headers.

Response code

Camel will handle according to the HTTP response code:
  • Response code is in the range 100..299, Camel regards it as a success response.
  • Response code is in the range 300..399, Camel regards it as a redirection response and will throw a AhcOperationFailedException with the information.
  • Response code is 400+, Camel regards it as an external server failure and will throw a AhcOperationFailedException with the information. The option, throwExceptionOnFailure, can be set to false to prevent the AhcOperationFailedException from being thrown for failed response codes. This allows you to get any response from the remote server.

AhcOperationFailedException

This exception contains the following information:
  • The HTTP status code
  • The HTTP status line (text of the status code)
  • Redirect location, if server returned a redirect
  • Response body as a java.lang.String, if server provided a body as response

Calling using GET or POST

The following algorithm is used to determine if either GET or POST HTTP method should be used: 1. Use method provided in header. 2. GET if query string is provided in header. 3. GET if endpoint is configured with a query string. 4. POST if there is data to send (body is not null). 5. GET otherwise.

Configuring URI to call

You can set the HTTP producer's URI directly form the endpoint URI. In the route below, Camel will call out to the external server, oldhost, using HTTP.
from("direct:start")
	    .to("ahc:http://oldhost");
And the equivalent Spring sample:
<camelContext xmlns="http://activemq.apache.org/camel/schema/spring">
  <route>
    <from uri="direct:start"/>
    <to uri="ahc:http://oldhost"/>
  </route>
</camelContext>
You can override the HTTP endpoint URI by adding a header with the key, Exchange.HTTP_URI, on the message.
from("direct:start")
    .setHeader(Exchange.HTTP_URI, constant("http://newhost"))
    .to("ahc:http://oldhost");

Configuring URI Parameters

The ahc producer supports URI parameters to be sent to the HTTP server. The URI parameters can either be set directly on the endpoint URI or as a header with the key Exchange.HTTP_QUERY on the message.
from("direct:start")
	    .to("ahc:http://oldhost?order=123&detail=short");
Or options provided in a header:
from("direct:start")
            .setHeader(Exchange.HTTP_QUERY, constant("order=123&detail=short"))
	    .to("ahc:http://oldhost");

How to set the http method (GET/POST/PUT/DELETE/HEAD/OPTIONS/TRACE) to the HTTP producer

The HTTP component provides a way to set the HTTP request method by setting the message header. Here is an example;
from("direct:start")
            .setHeader(Exchange.HTTP_METHOD, constant("POST"))
	    .to("ahc:http://www.google.com")
            .to("mock:results");
And the equivalent Spring sample:
<camelContext xmlns="http://activemq.apache.org/camel/schema/spring">
  <route>
    <from uri="direct:start"/>
    <setHeader headerName="CamelHttpMethod">
        <constant>POST</constant>
    </setHeader>
    <to uri="ahc:http://www.google.com"/>
    <to uri="mock:results"/>
  </route>
</camelContext>

Configuring charset

If you are using POST to send data you can configure the charset using the Exchange property:
exchange.setProperty(Exchange.CHARSET_NAME, "iso-8859-1");

URI Parameters from the endpoint URI

In this sample we have the complete URI endpoint that is just what you would have typed in a web browser. Multiple URI parameters can of course be set using the & character as separator, just as you would in the web browser. Camel does no tricks here.
// we query for Camel at the Google page
template.sendBody("ahc:http://www.google.com/search?q=Camel", null);

URI Parameters from the Message

Map headers = new HashMap();
headers.put(Exchange.HTTP_QUERY, "q=Camel&lr=lang_en");
// we query for Camel and English language at Google
template.sendBody("ahc:http://www.google.com/search", null, headers);
In the header value above notice that it should not be prefixed with ? and you can separate parameters as usual with the & char.

Getting the Response Code

You can get the HTTP response code from the AHC component by getting the value from the Out message header with Exchange.HTTP_RESPONSE_CODE.
Exchange exchange = template.send("ahc:http://www.google.com/search", new Processor() {
            public void process(Exchange exchange) throws Exception {
                exchange.getIn().setHeader(Exchange.HTTP_QUERY, constant("hl=en&q=activemq"));
            }
   });
   Message out = exchange.getOut();
   int responseCode = out.getHeader(Exchange.HTTP_RESPONSE_CODE, Integer.class);

Configuring AsyncHttpClient

The AsyncHttpClient client uses a AsyncHttpClientConfig to configure the client. See the documentation at Async Http Client for more details.
The example below shows how to use a builder to create the AsyncHttpClientConfig which we configure on the AhcComponent.
// create a client config builder
AsyncHttpClientConfig.Builder builder = new AsyncHttpClientConfig.Builder();
// use the builder to set the options we want, in this case we want to follow redirects and try
// at most 3 retries to send a request to the host
AsyncHttpClientConfig config = builder.setFollowRedirects(true).setMaxRequestRetry(3).build();

// lookup AhcComponent
AhcComponent component = context.getComponent("ahc", AhcComponent.class);
// and set our custom client config to be used
component.setClientConfig(config);
In Camel 2.9, the AHC component uses Async HTTP library 1.6.4. This newer version provides added support for plain bean style configuration. The AsyncHttpClientConfigBean class provides getters and setters for the configuration options available in AsyncHttpClientConfig. An instance of AsyncHttpClientConfigBean may be passed directly to the AHC component or referenced in an endpoint URI using the clientConfig URI parameter.
Also available in Camel 2.9 is the ability to set configuration options directly in the URI. URI parameters starting with "clientConfig." can be used to set the various configurable properties of AsyncHttpClientConfig. The properties specified in the endpoint URI are merged with those specified in the configuration referenced by the "clientConfig" URI parameter with those being set using the "clientConfig." parameter taking priority. The AsyncHttpClientConfig instance referenced is always copied for each endpoint such that settings on one endpoint will remain independent of settings on any previously created endpoints. The example below shows how to configure the AHC component using the "clientConfig." type URI parameters.
from("direct:start")
    .to("ahc:http://localhost:8080/foo?clientConfig.maxRequestRetry=3&clientConfig.followRedirects=true")

See Also

Chapter 4. AHC-WS

Async Http Client (AHC) Websocket Client Component

Available as of Camel 2.14
The ahc-ws component provides Websocket based endpoints for a client communicating with external servers over Websocket (as a client opening a websocket connection to an external server). The component uses the Chapter 3, AHC component that in turn uses the Async Http Client library.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-ahc-ws</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI Format

ahc-ws://hostname[:port][/resourceUri][?options]
ahc-wss://hostname[:port][/resourceUri][?options]
Will by default use port 80 for ahc-ws and 443 for ahc-wss.

AHC-WS Options

As the AHC-WS component is based on the AHC component, you can use the various configuration options of the AHC component.

Writing and Reading Data over Websocket

An ahc-ws endpoint can either write data to the socket or read from the socket, depending on whether the endpoint is configured as the producer or the consumer, respectively.

Configuring URI to Write or Read Data

In the route below, Camel will write to the specified websocket connection.
from("direct:start")
	    .to("ahc-ws://targethost");
And the equivalent Spring sample:
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="direct:start"/>
    <to uri="ahc-ws://targethost"/>
  </route>
</camelContext>
In the route below, Camel will read from the specified websocket connection.
from("ahc-ws://targethost")
	    .to("direct:next");
And the equivalent Spring sample:
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="ahc-ws://targethost"/>
    <to uri="direct:next"/>
  </route>
</camelContext>

Chapter 5. AMQP

AMQP

The AMQP component supports the AMQP protocol via the Qpid project.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-ampq</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

amqp:[queue:|topic:]destinationName[?options]
You can specify all of the various configuration options of the JMS component after the destination name.

AMQP Options

You can specify all of the various configuration options of the JMS component after the destination name.

Usage

As AMQP component is inherited from JMS component, the usage of the former is almost identical to the latter:
// Consuming from AMQP queue
from("amqp:queue:incoming").
  to(...);
 
// Sending message to the AMQP topic
from(...).
  to("amqp:topic:notify");

Configuring AMQP component

Starting from the Camel 2.16.1 you can also use the AMQPComponent#amqp10Component(String connectionURI) factory method to return the AMQP 1.0 component with the pre-configured topic prefix:
 AMQPComponent amqp = AMQPComponent.amqp10Component("amqp://guest:guest@localhost:5672");
Keep in mind that starting from the Camel 2.17 the AMQPComponent#amqp10Component(String connectionURI) factory method has been deprecated on the behalf of the AMQPComponent#amqpComponent(String connectionURI):
AMQPComponent amqp = AMQPComponent.amqpComponent("amqp://localhost:5672");
 
AMQPComponent authorizedAmqp = AMQPComponent.amqpComponent("amqp://localhost:5672", "user", "password");
Starting from Camel 2.17, in order to automatically configure the AMQP component, you can also add an instance of org.apache.camel.component.amqp.AMQPConnectionDetails to the registry. For example for Spring Boot you just have to define bean:
@Bean
AMQPConnectionDetails amqpConnection() {
  return new AMQPConnectionDetails("amqp://lcoalhost:5672"); 
}
 
@Bean
AMQPConnectionDetails securedAmqpConnection() {
  return new AMQPConnectionDetails("amqp://lcoalhost:5672", "username", "password"); 
}
You can also rely on the Camel properties to read the AMQP connection details. Factory method AMQPConnectionDetails.discoverAMQP() attempts to read Camel properties in a Kubernetes-like convention, just as demonstrated on the snippet below:
export AMQP_SERVICE_HOST = "mybroker.com"
export AMQP_SERVICE_PORT = "6666"
export AMQP_SERVICE_USERNAME = "username"
export AMQP_SERVICE_PASSWORD = "password"
 
...
 
@Bean
AMQPConnectionDetails amqpConnection() {
  return AMQPConnectionDetails.discoverAMQP(); 
}

Using topics

To have using topics working with camel-amqp you need to configure the component to use topic:// as topic prefix, as shown below:
 <bean id="amqp" class="org.apache.camel.component.amqp.AmqpComponent">
        <property name="connectionFactory">
          <bean class="org.apache.qpid.amqp_1_0.jms.impl.ConnectionFactoryImpl" factory-method="createFromURL">
            <constructor-arg index="0" type="java.lang.String" value="amqp://localhost:5672" />
            <property name="topicPrefix" value="topic://" />  <!-- only necessary when connecting to ActiveMQ over AMQP 1.0 -->
          </bean>
        </property>
 </bean>
Keep in mind that both AMQPComponent#amqpComponent() methods and AMQPConnectionDetails pre-configure the component with the topic prefix, so you don't have to configure it explicitly.

Chapter 6. APNS

Apns Component

Available as of Camel 2.8
The apns component is used for sending notifications to iOS devices. The apns components use javapns library. The component supports sending notifications to Apple Push Notification Servers (APNS) and consuming feedback from the servers.
The consumer is configured with a default polling time of 3600 seconds. It is advisable to consume the feedback stream from Apple Push Notification Servers regularly at larger intervals to avoid flooding the servers.
The feedback stream gives information about inactive devices. This information can be consumed infrequently (every two or three hours) if your mobile application is not heavily used.
To configure an apns component to use Transport Layer Security (TLS), see chapter "Configuring Transport Security for Camel Components" in "Security Guide".
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-apns</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

To send notifications:
apns:notify[?options]
To consume feedback:
apns:consumer[?options]

Options

Producer

Property Default Description
tokens Empty by default. Configure this property in case you want to statically declare tokens related to devices you want to notify. Tokens are separated by comma.

Consumer

Property Default Description
delay 3600 Delay in seconds between each poll.
initialDelay 10 Seconds before polling starts.
timeUnit SECONDS Time Unit for polling.
userFixedDelay true If true, use fixed delay between pools, otherwise fixed rate is used. See ScheduledExecutorService in JDK for details.
You can append query options to the URI in the following format, ?option=value&option=value&...

Component

The ApnsComponent must be configured with a com.notnoop.apns.ApnsService. The service can be created and configured using the org.apache.camel.component.apns.factory.ApnsServiceFactory. See further below for an example. For further information, see the test source code.

Exchange data format

When Camel fetches feedback data corresponding to inactive devices, it retrieves a List of InactiveDevice objects. Each InactiveDevice object on the retrieved list will be set as the In body, and then processed by the consumer endpoint.

Message Headers

Camel Apns uses these headers.
Property Default Description
CamelApnsTokens Empty by default.
CamelApnsMessageType STRING, PAYLOAD, APNS_NOTIFICATION If you choose PAYLOAD as the message type, the message will be considered an APNS payload and sent as is. If you choose STRING, the message will be converted to an APNS payload. APNS_NOTIFICATION is used for sending message body as com.notnoop.apns.ApnsNotification types.

ApnsServiceFactory Builder Callback

ApnsServiceFactory comes with an empty callback method that can be used to configure or replace the default ApnsServiceBuilder instance. The method has the following format:
protected ApnsServiceBuilder configureServiceBuilder(ApnsServiceBuilder serviceBuilder);
It is used in the following way:
ApnsServiceFactory proxiedApnsServiceFactory = new ApnsServiceFactory(){

  @Override
  protected ApnsServiceBuilder configureServiceBuilder(ApnsServiceBuilder serviceBuilder) {
    return serviceBuilder.withSocksProxy("my.proxy.com", 6666);
  }

};

Samples

Camel Xml route

<beans xmlns="http://www.springframework.org/schema/beans"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
       xmlns:camel="http://camel.apache.org/schema/spring"
       xsi:schemaLocation="
        http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-2.5.xsd
        http://camel.apache.org/schema/spring http://camel.apache.org/schema/spring/camel-spring.xsd">

	<!-- Replace by desired values -->
	<bean id="apnsServiceFactory" class="org.apache.camel.component.apns.factory.ApnsServiceFactory">

		<!-- Optional configuration of feedback host and port -->
		<!-- <property name="feedbackHost" value="localhost" /> -->
		<!-- <property name="feedbackPort" value="7843" /> -->

		<!-- Optional configuration of gateway host and port -->
		<!-- <property name="gatewayHost" value="localhost" /> -->
		<!-- <property name="gatewayPort" value="7654" /> -->

		<!-- Declaration of certificate used -->
                <!-- from Camel 2.11 onwards you can use prefix: classpath:, file: to refer to load the certificate from classpath or file. Default it classpath -->
		<property name="certificatePath" value="certificate.p12" />
		<property name="certificatePassword" value="MyCertPassword" />

		<!-- Optional connection strategy - By Default: No need to configure -->
		<!-- Possible options: NON_BLOCKING, QUEUE, POOL or Nothing -->
		<!-- <property name="connectionStrategy" value="POOL" /> -->
		<!-- Optional pool size -->
		<!-- <property name="poolSize" value="15" /> -->

		<!-- Optional connection strategy - By Default: No need to configure -->
		<!-- Possible options: EVERY_HALF_HOUR, EVERY_NOTIFICATION or Nothing (Corresponds to NEVER javapns option) -->
		<!-- <property name="reconnectionPolicy" value="EVERY_HALF_HOUR" /> -->
	</bean>

	<bean id="apnsService" factory-bean="apnsServiceFactory" factory-method="getApnsService" />

	<!-- Replace this declaration by wanted configuration -->
	<bean id="apns" class="org.apache.camel.component.apns.ApnsComponent">
		<property name="apnsService" ref="apnsService" />
	</bean>

	<camelContext id="camel-apns-test" xmlns="http://camel.apache.org/schema/spring">
        	<route id="apns-test">
                	<from uri="apns:consumer?initialDelay=10&elay=3600&imeUnit=SECONDS" />
        	        <to uri="log:org.apache.camel.component.apns?showAll=true&ultiline=true" />
                	<to uri="mock:result" />
        	</route>
	</camelContext>

</beans>

Camel Java route

Create camel context and declare apns component programmatically

    protected CamelContext createCamelContext() throws Exception {
        CamelContext camelContext = super.createCamelContext();

        ApnsServiceFactory apnsServiceFactory = new ApnsServiceFactory();
        apnsServiceFactory.setCertificatePath("classpath:/certificate.p12");
        apnsServiceFactory.setCertificatePassword("MyCertPassword");

        ApnsService apnsService = apnsServiceFactory.getApnsService(camelContext);

        ApnsComponent apnsComponent = new ApnsComponent(apnsService);
        camelContext.addComponent("apns", apnsComponent);

        return camelContext;
    }

ApnsProducer - iOS target device dynamically configured via header: "CamelApnsTokens"

    protected RouteBuilder createRouteBuilder() throws Exception {
        return new RouteBuilder() {
            public void configure() throws Exception {
                from("direct:test")
                    .setHeader(ApnsConstants.HEADER_TOKENS, constant(IOS_DEVICE_TOKEN))
                    .to("apns:notify");
                }
        }
    }

ApnsProducer - iOS target device statically configured via uri

    protected RouteBuilder createRouteBuilder() throws Exception {
        return new RouteBuilder() {
            public void configure() throws Exception {
                from("direct:test").
                to("apns:notify?tokens=" + IOS_DEVICE_TOKEN);
            }
        };
    }

ApnsConsumer

from("apns:consumer?initialDelay=10&delay=3600&timeUnit=SECONDS")
    .to("log:com.apache.camel.component.apns?showAll=true&multiline=true")
    .to("mock:result");

See Also

Chapter 7. Atmosphere-Websocket

Atmosphere Websocket Servlet Component

Available as of Camel 2.14
The atmosphere-websocket: component provides Websocket based endpoints for a servlet communicating with external clients over Websocket (as a servlet accepting websocket connections from external clients). The component uses the Chapter 146, SERVLET component and uses the Atmosphere library to support the Websocket transport in various Servlet containers (e..g., Jetty, Tomcat, ...).
Unlike the Chapter 184, Websocket component that starts the embedded Jetty server, this component uses the servlet provider of the container.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-atmosphere-websocket</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI Format

atmosphere-websocket:///relative path[?options]

Reading and Writing Data over Websocket

An atmopshere-websocket endpoint can either write data to the socket or read from the socket, depending on whether the endpoint is configured as the producer or the consumer, respectively.

Configuring URI to Read or Write Data

In the route below, Camel will read from the specified websocket connection.
from("atmosphere-websocket:///servicepath")
	    .to("direct:next");
And the equivalent Spring sample:
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="atmosphere-websocket:///servicepath"/>
    <to uri="direct:next"/>
  </route>
</camelContext>
In the route below, Camel will read from the specified websocket connection.
from("direct:next")
	    .to("atmosphere-websocket:///servicepath");
And the equivalent Spring sample:
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="direct:next"/>
    <to uri="atmosphere-websocket:///servicepath"/>
  </route>
</camelContext>

Chapter 8. Atom

Atom Component

The atom: component is used for polling atom feeds.
Apache Camel will poll the feed every 500 milliseconds by default. Note: The component currently supports only polling (consuming) feeds.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-atom</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

atom://atomUri[?options]
Where atomUri is the URI to the Atom feed to poll.

Options

Property Default Description
splitEntries true If true Apache Camel will poll the feed and for the subsequent polls return each entry poll by poll. If the feed contains 7 entries then Apache Camel will return the first entry on the first poll, the 2nd entry on the next poll, until no more entries where as Apache Camel will do a new update on the feed. If false then Apache Camel will poll a fresh feed on every invocation.
filter true Is only used by the split entries to filter the entries to return. Apache Camel will default use the UpdateDateFilter that only return new entries from the feed. So the client consuming from the feed never receives the same entry more than once. The filter will return the entries ordered by the newest last.
lastUpdate null Is only used by the filter, as the starting timestamp for selection never entries (uses the entry.updated timestamp). Syntax format is: yyyy-MM-ddTHH:MM:ss. Example: 2007-12-24T17:45:59.
throttleEntries true Camel 2.5: Sets whether all entries identified in a single feed poll should be delivered immediately. If true, only one entry is processed per consumer.delay. Only applicable when splitEntries is set to true.
feedHeader true Sets whether to add the Abdera Feed object as a header.
sortEntries false If splitEntries is true, this sets whether to sort those entries by updated date.
consumer.delay 500 Delay in millis between each poll.
consumer.initialDelay 1000 Millis before polling starts.
consumer.userFixedDelay false If true, use fixed delay between pools, otherwise fixed rate is used. See ScheduledExecutorService in JDK for details.
username For basic authentication when polling from a HTTP feed.
password For basic authentication when polling from a HTTP feed.
You can append query options to the URI in the following format, ?option=value&option=value&...

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".

Exchange data format

Apache Camel will set the In body on the returned Exchange with the entries. Depending on the splitEntries flag Apache Camel will either return one Entry or a List<Entry>.
Option Value Behavior
splitEntries true Only a single entry from the currently being processed feed is set: exchange.in.body(Entry)
splitEntries false The entire list of entries from the feed is set: exchange.in.body(List<Entry>)
Apache Camel can set the Feed object on the in header (see feedHeader option to disable this):

Message Headers

Apache Camel atom uses these headers.
Header Description
CamelAtomFeed Apache Camel 2.0: When consuming the org.apache.abdera.model.Feed object is set to this header.

Samples

In the following sample we poll James Strachan's blog:
from("atom://http://macstrac.blogspot.com/feeds/posts/default").to("seda:feeds");
In this sample we want to filter only good blogs we like to a SEDA queue. The sample also shows how to set up Apache Camel standalone, not running in any container or using Spring.
@Override
protected CamelContext createCamelContext() throws Exception {
    // First we register a blog service in our bean registry
    SimpleRegistry registry = new SimpleRegistry();
    registry.put("blogService", new BlogService());

    // Then we create the camel context with our bean registry
    context = new DefaultCamelContext(registry);

    // Then we add all the routes we need using the route builder DSL syntax
    context.addRoutes(createMyRoutes());

    // And finally we must start Camel to let the magic routing begins
    context.start();

    return context;
}

/**
 * This is the route builder where we create our routes using the Camel DSL syntax
 */
protected RouteBuilder createMyRoutes() throws Exception {
    return new RouteBuilder() {
        public void configure() throws Exception {
            // We pool the atom feeds from the source for further processing in the seda queue
            // we set the delay to 1 second for each pool.
            // Using splitEntries=true will during polling only fetch one Atom Entry at any given time.
            // As the feed.atom file contains 7 entries, using this will require 7 polls to fetch the entire
            // content. When Camel have reach the end of entries it will refresh the atom feed from URI source
            // and restart - but as Camel by default uses the UpdatedDateFilter it will only deliver new
            // blog entries to "seda:feeds". So only when James Strachan updates his blog with a new entry
            // Camel will create an exchange for the seda:feeds.
            from("atom:file:src/test/data/feed.atom?splitEntries=true&consumer.delay=1000").to("seda:feeds");

            // From the feeds we filter each blot entry by using our blog service class
            from("seda:feeds").filter().method("blogService", "isGoodBlog").to("seda:goodBlogs");

            // And the good blogs is moved to a mock queue as this sample is also used for unit testing
            // this is one of the strengths in Camel that you can also use the mock endpoint for your
            // unit tests
            from("seda:goodBlogs").to("mock:result");
        }
    };
}

/**
 * This is the actual junit test method that does the assertion that our routes is working
 * as expected
 */
@Test
public void testFiltering() throws Exception {
    // create and start Camel
    context = createCamelContext();
    context.start();

    // Get the mock endpoint
    MockEndpoint mock = context.getEndpoint("mock:result", MockEndpoint.class);

    // There should be at least two good blog entries from the feed
    mock.expectedMinimumMessageCount(2);

    // Asserts that the above expectations is true, will throw assertions exception if it failed
    // Camel will default wait max 20 seconds for the assertions to be true, if the conditions
    // is true sooner Camel will continue
    mock.assertIsSatisfied();

    // stop Camel after use
    context.stop();
}

/**
 * Services for blogs
 */
public class BlogService {

    /**
     * Tests the blogs if its a good blog entry or not
     */
    public boolean isGoodBlog(Exchange exchange) {
        Entry entry = exchange.getIn().getBody(Entry.class);
        String title = entry.getTitle();            

        // We like blogs about Camel
        boolean good = title.toLowerCase().contains("camel");
        return good;
    }

}

Chapter 9. avro

Avro Component

Available as of Camel 2.10
This component provides a dataformat for avro, which allows serialization and deserialization of messages using Apache Avro's binary dataformat. Moreover, it provides support for Apache Avro's rpc, by providing producers and consumers endpoint for using avro over netty or http.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-avro</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

Apache Avro Overview

Avro allows you to define message types and a protocol using a json like format and then generate java code for the specified types and messages. An example of how a schema looks like is below.
{"namespace": "org.apache.camel.avro.generated",
 "protocol": "KeyValueProtocol",

 "types": [
     {"name": "Key", "type": "record",
      "fields": [
          {"name": "key",   "type": "string"}
      ]
     },
     {"name": "Value", "type": "record",
      "fields": [
          {"name": "value",   "type": "string"}
      ]
     }
 ],

 "messages": {
     "put": {
         "request": [{"name": "key", "type": "Key"}, {"name": "value", "type": "Value"} ],
         "response": "null"
     },
     "get": {
         "request": [{"name": "key", "type": "Key"}],
         "response": "Value"
     }
 }
}
You can easily generate classes from a schema, using maven, ant etc. More details can be found at the Apache Avro documentation.
However, it doesn't enforce a schema first approach and you can create schema for your existing classes. Since 2.12 you can use existing protocol interfaces to make RCP calls. You should use interface for the protocol itself and POJO beans or primitive/String classes for parameter and result types. Here is an example of the class that corresponds to schema above:
package org.apache.camel.avro.reflection;

public interface KeyValueProtocol {
    void put(String key, Value value);
    Value get(String key);
}

class Value {
    private String value;
    public String getValue() { return value; }
    public void setValue(String value) { this.value = value; }
}
Note: Existing classes can be used only for RPC (see below), not in data format.

Using the Avro data format

Using the avro data format is as easy as specifying that the class that you want to marshal or unmarshal in your route.
    <camelContext id="camel" xmlns="http://camel.apache.org/schema/spring">
        <route>
            <from uri="direct:in"/>
            <marshal>
                <avro instanceClass="org.apache.camel.dataformat.avro.Message"/>
            </marshal>
            <to uri="log:out"/>
        </route>
    </camelContext>
An alternative can be to specify the dataformat inside the context and reference it from your route.
    <camelContext id="camel" xmlns="http://camel.apache.org/schema/spring">
         <dataFormats>
            <avro id="avro" instanceClass="org.apache.camel.dataformat.avro.Message"/>
        </dataFormats>
        <route>
            <from uri="direct:in"/>
            <marshal ref="avro"/>
            <to uri="log:out"/>
        </route>
    </camelContext>
In the same manner you can umarshal using the avro data format.

Using Avro RPC in Camel

As mentioned above Avro also provides RPC support over multiple transports such as http and netty. Camel provides consumers and producers for these two transports.
avro:[transport]:[host]:[port][?options]
The supported transport values are currently http or netty.
Since 2.12 you can specify message name right in the URI:
avro:[transport]:[host]:[port][/messageName][?options]
For consumers this allows you to have multiple routes attached to the same socket. Dispatching to correct route will be done by the avro component automatically. Route with no messageName specified (if any) will be used as default.
When using camel producers for avro ipc, the "in" message body needs to contain the parameters of the operation specified in the avro protocol. The response will be added in the body of the "out" message.
In a similar manner when using camel avro consumers for avro ipc, the requests parameters will be placed inside the "in" message body of the created exchange and once the exchange is processed the body of the "out" message will be send as a response.
Note: By default consumer parameters are wrapped into array. If you've got only one parameter, since 2.12 you can use singleParameter URI option to receive it direcly in the "in" message body without array wrapping.

Avro RPC URI Options

Name Version Description
protocolClassName The class name of the avro protocol.
singleParameter 2.12 If true, consumer parameter won't be wrapped into array. Will fail if protocol specifies more then 1 parameter for the message
protocol Avro procol object. Can be used instead of protocolClassName when complex protocol needs to be created. One cane used #name notation to refer beans from the Registry
reflectionProtocol 2.12 If protocol object provided is reflection protocol. Should be used only with protocol parameter because for protocolClassName protocol type will be autodetected

Avro RPC Headers

Name Description
CamelAvroMessageName The name of the message to send. In consumer overrides message name from URI (if any)

Examples

An example of using camel avro producers via http:
        <route>
            <from uri="direct:start"/>
            <to uri="avro:http:localhost:{{avroport}}?protocolClassName=org.apache.camel.avro.generated.KeyValueProtocol"/>
            <to uri="log:avro"/>
        </route>
In the example above you need to fill CamelAvroMessageName header. Since 2.12 you can use following syntax to call constant messages:
        <route>
            <from uri="direct:start"/>
            <to uri="avro:http:localhost:{{avroport}}/put?protocolClassName=org.apache.camel.avro.generated.KeyValueProtocol"/>
            <to uri="log:avro"/>
        </route>
An example of consuming messages using camel avro consumers via Netty:
        <route>
            <from uri="avro:netty:localhost:{{avroport}}?protocolClassName=org.apache.camel.avro.generated.KeyValueProtocol"/>
            <choice>
                <when>
                    <el>${in.headers.CamelAvroMessageName == 'put'}</el>
                    <process ref="putProcessor"/>
                </when>
                <when>
                    <el>${in.headers.CamelAvroMessageName == 'get'}</el>
                    <process ref="getProcessor"/>
                </when>
            </choice>
        </route>
Since 2.12 you can set up two distinct routes to perform the same task:
        <route>
            <from uri="avro:netty:localhost:{{avroport}}/put?protocolClassName=org.apache.camel.avro.generated.KeyValueProtocol">
            <process ref="putProcessor"/>
        </route>
        <route>
            <from uri="avro:netty:localhost:{{avroport}}/get?protocolClassName=org.apache.camel.avro.generated.KeyValueProtocol&singleParameter=true"/>
            <process ref="getProcessor"/>
        </route>
In the example above, get takes only one parameter, so singleParameter is used and getProcessor will receive Value class directly in body, while putProcessor will receive an array of size 2 with String key and Value value filled as array contents.

Chapter 10. AWS

10.1. Introduction to the AWS Components

Camel Components for Amazon Web Services

The Camel Components for Amazon Web Services provide connectivity to AWS services from Camel.
AWS service Camel component Camel Version Component description
Simple Queue Service (SQS) AWS-SQS 2.6 Supports sending and receiving messages using SQS
Simple Notification Service (SNS) AWS-SNS 2.8 Supports sending messages using SNS
Simple Storage Service (S3) AWS-S3 2.8 Supports storing and retrieving of objects using S3
Simple Email Service (SES) AWS-SES 2.8.4 Supports sending emails using SES
SimpleDB AWS-SDB 2.8.4 Supports storing retrieving data to/from SDB
DynamoDB AWS-DDB 2.10.0 Supports storing retrieving data to/from DDB
CloudWatch AWS-CW 2.10.3 Supports sending metrics to CloudWatch
Simple Workflow AWS-SWF 2.13.0 Supports managing workflows with SWF
EC2 AWS-EC2 2.16.0 Supports sending messages to AWS EC2 platform to create, run, start, stop, describe and terminate EC2 instances
Kinesis Streams AWS-Kinesis 2.17.0 Supports receiving from AWS Kinesis
DynamoDB Streams AWS-DDBSTREAM 2.17.0 Supports receiving from DynamoDB Streams

10.2. AWS-CW

CW Component

Available as of Camel 2.11
The CW component allows messages to be sent to an Amazon CloudWatch metrics. The implementation of the Amazon API is provided by the AWS SDK.
Prerequisites
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon CloudWatch. More information are available at Amazon CloudWatch.

URI Format

aws-cw://namespace[?options]
The metrics will be created if they don't already exists. You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name Default Value Context Description
amazonCwClient null Producer Reference to a com.amazonaws.services.cloudwatch.AmazonCloudWatch in the Registry.
accessKey null Producer Amazon AWS Access Key
secretKey null Producer Amazon AWS Secret Key
name null Producer The metric name which is used if the message header 'CamelAwsCwMetricName' is not present.
value 1.0 Producer The metric value which is used if the message header 'CamelAwsCwMetricValue' is not present.
unit Count Producer The metric unit which is used if the message header 'CamelAwsCwMetricUnit' is not present.
namespace null Producer The metric namespace which is used if the message header 'CamelAwsCwMetricNamespace' is not present.
timestamp null Producer The metric timestamp which is used if the message header 'CamelAwsCwMetricTimestamp' is not present.
amazonCwEndpoint null Producer The region with which the AWS-CW client wants to work with.
proxyHost null Producer Specify a proxy host to be used inside the client definition.
proxyPort null Producer Specify a proxy port to be used inside the client definition.
Required CW component options
You have to provide the amazonCwClient in the Registry or your accessKey and secretKey to access the Amazon's CloudWatch.

Usage

Message headers evaluated by the CW producer

Header Type Description
CamelAwsCwMetricName String The Amazon CW metric name.
CamelAwsCwMetricValue Double The Amazon CW metric value.
CamelAwsCwMetricUnit String The Amazon CW metric unit.
CamelAwsCwMetricNamespace String The Amazon CW metric namespace.
CamelAwsCwMetricTimestamp Date The Amazon CW metric timestamp.
CamelAwsCwMetricDimensionName String Camel 2.12: The Amazon CW metric dimension name.
CamelAwsCwMetricDimensionValue String Camel 2.12: The Amazon CW metric dimension value.
CamelAwsCwMetricDimensions Map<String, String> Camel 2.12: A map of dimension names and dimension values.

Advanced AmazonCloudWatch configuration

If you need more control over the AmazonCloudWatch instance configuration you can create your own instance and refer to it from the URI:
from("direct:start")
.to("aws-cw://namepsace?amazonCwClient=#client");
The #client refers to a AmazonCloudWatch in the Registry.
For example if your Camel Application is running behind a firewall:
AWSCredentials awsCredentials = new BasicAWSCredentials("myAccessKey", "mySecretKey");
ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);

AmazonCloudWatch client = new AmazonCloudWatchClient(awsCredentials, clientConfiguration);

registry.bind("client", client);

Dependencies

Maven users will need to add the following dependency to their pom.xml.
pom.xml
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.10 or higher).

10.3. AWS-DDB

DDB Component

Available as of Camel 2.10
The DynamoDB component supports storing and retrieving data from/to Amazon's DynamoDB service.
Prerequisites
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon DynamoDB. More information are available at Amazon DynamoDB.

URI Format

aws-ddb://domainName[?options]
You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name Default Value Context Description
amazonDDBClient null Producer Reference to a com.amazonaws.services.dynamodb.AmazonDynamoDB in the Registry.
accessKey null Producer Amazon AWS Access Key
secretKey null Producer Amazon AWS Secret Key
amazonDdbEndpoint null Producer The region with which the AWS-DDB client wants to work with.
tableName null Producer The name of the table currently worked with.
readCapacity 0 Producer The provisioned throughput to reserve for reading resources from your table
writeCapacity 0 Producer The provisioned throughput to reserved for writing resources to your table
consistentRead false Producer Determines whether or not strong consistency should be enforced when data is read.
operation PutAttributes Producer Valid values are BatchGetItems, DeleteItem, DeleteTable, DescribeTable, GetItem, PutItem, Query, Scan, UpdateItem, UpdateTable.
proxyHost null Producer Specify a proxy host to be used inside the client definition.
proxyPort null Producer Specify a proxy port to be used inside the client definition.
Required DDB component options
You have to provide the amazonDDBClient in the Registry or your accessKey and secretKey to access the Amazon's DynamoDB.

Usage

Message headers evaluated by the DDB producer

Header Type Description
CamelAwsDdbBatchItems Map<String, KeysAndAttributes> A map of the table name and corresponding items to get by primary key.
CamelAwsDdbTableName String Table Name for this operation.
CamelAwsDdbKey Map<String, AttributeValue> The primary key that uniquely identifies each item in a table.
CamelAwsDdbReturnValues String Use this parameter if you want to get the attribute name-value pairs before or after they are modified(NONE, ALL_OLD, UPDATED_OLD, ALL_NEW, UPDATED_NEW).
CamelAwsDdbUpdateCondition Map<String, ExpectedAttributeValue> Designates an attribute for a conditional modification.
CamelAwsDdbAttributeNames Collection<String> If attribute names are not specified then all attributes will be returned.
CamelAwsDdbConsistentRead Boolean If set to true, then a consistent read is issued, otherwise eventually consistent is used.
CamelAwsDdbItem Map<String, AttributeValue> A map of the attributes for the item, and must include the primary key values that define the item.
CamelAwsDdbKeyConditions Map<String, Condition> This header specifies the selection criteria for the query, and merges together the two old headers CamelAwsDdbHashKeyValue and CamelAwsDdbScanRangeKeyCondition
CamelAwsDdbStartKey Key Primary key of the item from which to continue an earlier query.
CamelAwsDdbLimit Integer The maximum number of items to return.
CamelAwsDdbScanIndexForward Boolean Specifies forward or backward traversal of the index.
CamelAwsDdbScanFilter Map<String, Condition> Evaluates the scan results and returns only the desired values.
CamelAwsDdbUpdateValues Map<String, AttributeValueUpdate> Map of attribute name to the new value and action for the update.

Message headers set during BatchGetItems operation

Header Type Description
CamelAwsDdbBatchResponse Map<String,BatchResponse> Table names and the respective item attributes from the tables.
CamelAwsDdbUnprocessedKeys Map<String,KeysAndAttributes> Contains a map of tables and their respective keys that were not processed with the current response.

Message headers set during DeleteItem operation

Header Type Description
CamelAwsDdbAttributes Map<String, AttributeValue> The list of attributes returned by the operation.

Message headers set during DeleteTable operation

Header Type Description
CamelAwsDdbProvisionedThroughput ProvisionedThroughputDescription The value of the ProvisionedThroughput property for this table
CamelAwsDdbCreationDate Date Creation DateTime of this table.
CamelAwsDdbTableItemCount Long Item count for this table.
CamelAwsDdbKeySchema List<KeySchemaElement> The KeySchema that identifies the primary key for this table.
CamelAwsDdbTableName String The table name.
CamelAwsDdbTableSize Long The table size in bytes.
CamelAwsDdbTableStatus String The status of the table: CREATING, UPDATING, DELETING, ACTIVE

Message headers set during DescribeTable operation

Header Type Description
CamelAwsDdbProvisionedThroughput ProvisionedThroughputDescription The value of the ProvisionedThroughput property for this table
CamelAwsDdbCreationDate Date Creation DateTime of this table.
CamelAwsDdbTableItemCount Long Item count for this table.
CamelAwsDdbKeySchema
List<KeySchemaElement>
The KeySchema that identifies the primary key for this table.
CamelAwsDdbTableName String The table name.
CamelAwsDdbTableSize Long The table size in bytes.
CamelAwsDdbTableStatus String The status of the table: CREATING, UPDATING, DELETING, ACTIVE
CamelAwsDdbReadCapacity Long ReadCapacityUnits property of this table.
CamelAwsDdbWriteCapacity Long WriteCapacityUnits property of this table.

Message headers set during GetItem operation

Header Type Description
CamelAwsDdbAttributes Map<String, AttributeValue> The list of attributes returned by the operation.

Message headers set during PutItem operation

Header Type Description
CamelAwsDdbAttributes Map<String, AttributeValue> The list of attributes returned by the operation.

Message headers set during Query operation

Header Type Description
CamelAwsDdbItems List<java.util.Map<String,AttributeValue>> The list of attributes returned by the operation.
CamelAwsDdbLastEvaluatedKey Key Primary key of the item where the query operation stopped, inclusive of the previous result set.
CamelAwsDdbConsumedCapacity Double The number of Capacity Units of the provisioned throughput of the table consumed during the operation.
CamelAwsDdbCount Integer Number of items in the response.

Message headers set during Scan operation

Header Type Description
CamelAwsDdbItems List<java.util.Map<String,AttributeValue>> The list of attributes returned by the operation.
CamelAwsDdbLastEvaluatedKey Key Primary key of the item where the query operation stopped, inclusive of the previous result set.
CamelAwsDdbConsumedCapacity Double The number of Capacity Units of the provisioned throughput of the table consumed during the operation.
CamelAwsDdbCount Integer Number of items in the response.
CamelAwsDdbScannedCount Integer Number of items in the complete scan before any filters are applied.

Message headers set during UpdateItem operation

Header Type Description
CamelAwsDdbAttributes Map<String, AttributeValue> The list of attributes returned by the operation.

Advanced AmazonDynamoDB configuration

If you need more control over the AmazonDynamoDB instance configuration you can create your own instance and refer to it from the URI:
from("direct:start")
.to("aws-ddb://domainName?amazonDDBClient=#client");
The #client refers to a AmazonDynamoDB in the Registry.
For example if your Camel Application is running behind a firewall:
AWSCredentials awsCredentials = new BasicAWSCredentials("myAccessKey", "mySecretKey");
ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);

AmazonDynamoDB client = new AmazonDynamoDBClient(awsCredentials, clientConfiguration);

registry.bind("client", client);

Dependencies

Maven users will need to add the following dependency to their pom.xml.
pom.xml
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.10 or higher).

10.4. AWS-DDBSTREAM

DynamoDB Stream Component

Available as of Camel 2.17
The DynamoDB Stream component supports receiving messages from Amazon DynamoDB Stream service.
Note
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon DynamoDB Streams. More information are available at AWS DynamoDB

URI Format

aws-ddbstream://table-name[?options]
The stream needs to be created prior to it being used. You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name
Default Value
Context
Description
amazonDynamoDbStreamsClient null Consumer Reference to a com.amazonaws.services.kinesis.AmazonDynamoDBStreams in the Registry.
maxMessagesPerPoll 100 Consumer Maximum results that will be returned in each poll to the AWS API, Given that the shard iterator is unique to the consumer, changing it shouldn't effect other consumers.
iteratorType LATEST Consumer One of trim_horizon, latest, after_sequence_number, or at_sequence_number. See http://docs.aws.amazon.com/dynamodbstreams/latest/APIReference/API_GetShardIterator.html for descriptions of these two iterator types.
sequenceNumberProvider null Consumer Either a bean reference to an implementation of org.apache.camel.component.aws.ddbstream.SequenceNumberProvider or a literal string representing a sequence number. The role of this is to determine where in the stream to start when using one of the after_sequence_number, or at_sequence_number iterator types.
Note
You have to provide the amazonDynamoDbStreamsClient in the Registry with proxies and relevant credentials configured.

Sequence Numbers

You can provide a literal string as the sequence number or provide a bean in the registry. An example of using the bean would be to save your current position in the change feed and restore it on Camel startup.
It is an error to provide a sequence number that is greater than the largest sequence number in the describe-streams result, as this will lead to the AWS call returning an HTTP 400.

Batch Consumer

This component implements the Batch Consumer.
This allows you for instance to know how many messages exists in this batch and for instance let the Aggregator aggregate this number of messages.

AmazonDynamoDBStreamsClient configuration

You will need to create an instance of AmazonDynamoDBStreamsClient and bind it to the registry
ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);

Region region = Region.getRegion(Regions.fromName(region));
region.createClient(AmazonDynamoDBStreamsClient.class, null, clientConfiguration);
// the 'null' here is the AWSCredentialsProvider which defaults to an instance of DefaultAWSCredentialsProviderChain

registry.bind("kinesisClient", client);

Providing AWS Credentials

It is recommended that the credentials are obtained by using the DefaultAWSCredentialsProviderChain that is the default when creating a new ClientConfiguration instance, however, a different AWSCredentialsProvider can be specified when calling createClient(...).

Coping with Downtime

AWS DynamoDB Streams outage of less than 24 hours
The consumer will resume from the last seen sequence number (as implemented for CAMEL-9515), so you should receive a flood of events in quick succession, as long as the outage did not also include DynamoDB itself.
AWS DynamoDB Streams outage of more than 24 hours
Given that AWS only retain 24 hours worth of changes, you will have missed change events no matter what mitigations are in place.

Dependencies

Maven users will need to add the following dependency to their pom.xml.
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.7 or higher).

10.5. AWS-EC2

EC2 Component

Available as of Camel 2.16
The EC2 component supports create, run, start, stop and terminate AWS EC2 instances.
Note
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon EC2. More information are available at Amazon EC2.

URI Format

aws-ec2://label[?options]
You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name
Default Value
Context
Description
amazonEc2Client
null
Producer
Reference to a com.amazonaws.services.ec2.AmazonEC2Client in the Registry.
accessKey
null
Producer
Amazon AWS Access Key
secretKey
null
Producer
Amazon AWS Secret Key
amazonEc2Endpoint
null
Producer
The region with which the AWS-EC2 client wants to work with.
operation
null
Producer
Valid values are createAndRunInstances, startInstances, stopInstances, terminateInstances, describeInstances, describeInstancesStatus, rebootInstances, monitorInstances and unmonitorInstances
proxyHost
null
Producer
Camel 2.16: Specify a proxy host to be used inside the client definition.
proxyPort
null
Producer
Camel 2.16: Specify a proxy port to be used inside the client definition.
Note
You have to provide the amazonEc2Client in the Registry or your accessKey and secretKey to access the Amazon EC2 service.

Message headers evaluated by the EC2 producer

Header
Type
Description
CamelAwsEC2ImageId
String
An image ID of the AWS marketplace
CamelAwsEC2InstanceType
com.amazonaws.services.ec2.model.InstanceType
The instance type we want to create and run
CamelAwsEC2Operation
String
The operation we want to perform
CamelAwsEC2InstanceMinCount
Int
The mininum number of instances we want to run.
CamelAwsEC2InstanceMaxCount
Int
The maximum number of instances we want to run.
CamelAwsEC2InstanceMonitoring
Boolean
Define if we want the running instances to be monitored
CamelAwsEC2InstanceEbsOptimized
Boolean
Define if the creating instance is optimized for EBS I/O.
CamelAwsEC2InstanceSecurityGroups
Collection
The security groups to associate to the instances
CamelAwsEC2InstancesIds
Collection
A collection of instances IDS to execute start, stop, describe and terminate operations on.

Dependencies

Maven users will need to add the following dependency to their pom.xml.
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.16 or higher).

10.6. AWS-Kinesis

Kinesis Component

Available as of Camel 2.17
The Kinesis component supports receiving messages from Amazon Kinesis service.
Note
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon Kinesis. More information are available at AWS Kinesis

URI Format

aws-kinesis://stream-name[?options]
The stream needs to be created prior to it being used. You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name
Default Value
Context
Description
amazonKinesisClient
null
Consumer
Reference to a com.amazonaws.services.kinesis.AmazonKinesisClient in the Registry.
maxMessagesPerPoll
100
Consumer
Maximum results that will be returned in each poll to the AWS API, Given that the shard iterator is unique to the consumer, changing it shouldn't effect other consumers.
iteratorType
TRIM_HORIZON
Consumer
One of trim_horizon or latest. See http://docs.aws.amazon.com/kinesis/latest/APIReference/API_GetShardIterator.html for descriptions of these two iterator types.
Note
You have to provide the amazonKinesisClient in the Registry with proxies and relevant credentials configured.

Batch Consumer

This component implements the Batch Consumer.
This allows you for instance to know how many messages exists in this batch and for instance let the Aggregator aggregate this number of messages.

Message headers set by the Kinesis consumer

Header
Type
Description
CamelAwsKinesisSequenceNumber
String
The sequence number of the record. This is represented as a String as it size is not defined by the API. If it is to be used as a numerical type then use
CamelAwsKinesisApproximateArrivalTimestamp
String
The time AWS assigned as the arrival time of the record.
CamelAwsKinesisPartitionKey
String
Identifies which shard in the stream the data record is assigned to.

AmazonKinesis configuration

You will need to create an instance of AmazonDynamoDBStreamsClient and bind it to the registry
ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);

Region region = Region.getRegion(Regions.fromName(region));
region.createClient(AmazonDynamoDBStreamsClient.class, null, clientConfiguration);
// the 'null' here is the AWSCredentialsProvider which defaults to an instance of DefaultAWSCredentialsProviderChain

registry.bind("kinesisClient", client);

Providing AWS Credentials

It is recommended that the credentials are obtained by using the DefaultAWSCredentialsProviderChain that is the default when creating a new ClientConfiguration instance, however, a different AWSCredentialsProvider can be specified when calling createClient(...).

Dependencies

Maven users will need to add the following dependency to their pom.xml.
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.17 or higher).

10.7. AWS-S3

S3 Component

Available as of Camel 2.8
The S3 component supports storing and retrieving objetcs from/to Amazon's S3 service.
Prerequisites
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon S3. More information are available at Amazon S3.

URI Format

aws-s3://bucket-name[?options]
The bucket will be created if it don't already exists. You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name Default Value Context Description
amazonS3Client null Shared Reference to a com.amazonaws.services.sqs.AmazonS3 in the Registry.
accessKey null Shared Amazon AWS Access Key
secretKey null Shared Amazon AWS Secret Key
amazonS3Endpoint null Shared The region with which the AWS-S3 client wants to work with.
region null Producer The region who the bucket is located. This option is used in the com.amazonaws.services.s3.model.CreateBucketRequest.
deleteAfterRead true Consumer Delete objects from S3 after it has been retrieved.
deleteAfterWrite false Producer Camel 2.11.0 Delete file object after the S3 file has been uploaded
maxMessagesPerPoll 10 Consumer The maximum number of objects which can be retrieved in one poll. Used in in the com.amazonaws.services.s3.model.ListObjectsRequest.
policy null Shared Camel 2.8.4: The policy for this queue to set in the com.amazonaws.services.s3.AmazonS3#setBucketPolicy() method.
storageClass null Producer Camel 2.8.4: The storage class to set in the com.amazonaws.services.s3.model.PutObjectRequest request.
prefix null Consumer Camel 2.10.1: The prefix which is used in the com.amazonaws.services.s3.model.ListObjectsRequest to only consume objects we are interested in.
multiPartUpload false Producer Camel 2.15.0: If true, Camel uploads the file in multi-part format, where the part size can be specified by the partSize option.
partSize 25 * 1024 * 1024 Producer Camel 2.15.0: Specifies the partSize used in multi-part upload. Default is 25 MB.
serverSideEncryption null Producer Camel 2.16: Sets the server-side encryption algorithm when encrypting the object using AWS-managed keys. For example use AES256.
proxyHost null Producer Camel 2.16: Specify a proxy host to be used inside the client definition.
proxyPort null Producer Camel 2.16: Specify a proxy port to be used inside the client definition.
includeBody null Consumer Camel 2.17: If true, the exchange body will be set to a stream to the contents of the file. If false, the headers will be set with the S3 object metadata but the body will be null.
Required S3 component options
You have to provide the amazonS3Client in the Registry or your accessKey and secretKey to access the Amazon's S3.

Batch Consumer

This component implements the Batch Consumer.
This allows you, for example, to know how many messages exist in this batch and let the Aggregator aggregate this number of messages.

Usage

Message headers evaluated by the S3 producer

Header Type Description
CamelAwsS3Key String The key under which this object will be stored.
CamelAwsS3ContentLength Long The content length of this object.
CamelAwsS3ContentType String The content type of this object.
CamelAwsS3ContentControl String The content control of this object.
CamelAwsS3ContentDisposition String The content disposition of this object.
CamelAwsS3ContentEncoding String The content encoding of this object.
CamelAwsS3ContentMD5 String The md5 checksum of this object.
CamelAwsS3LastModified java.util.Date The last modified timestamp of this object.
CamelAwsS3StorageClass String *Camel 2.8.4:* The storage class of this object.
CamelAwsS3CannedAcl String Camel 2.11.0: The canned acl that will be applied to the object. see com.amazonaws.services.s3.model.CannedAccessControlList for allowed values.
CamelAwsS3Acl com.amazonaws.services.s3.model.AccessControlList Camel 2.11.0: A well-constructed Amazon S3 Access Control List object. See com.amazonaws.services.s3.model.AccessControlList for more details.
CamelAwsS3Headers Map<String,String> Camel 2.15.0: Support getting or setting custom objectMetadata headers.
CamelAwsS3ServerSideEncryption String Camel 2.16: Sets the server-side encryption algorithm when encrypting the object using AWS-managed keys. For example use AES256.

Message headers set by the S3 producer

Header Type Description
CamelAwsS3ETag String The ETag value for the newly uploaded object.
CamelAwsS3VersionId String The optional version ID of the newly uploaded object.

Message headers set by the S3 consumer

Header Type Description
CamelAwsS3Key String The key under which this object is stored.
CamelAwsS3BucketName String The name of the bucket in which this object is contained.
CamelAwsS3ETag String The hex encoded 128-bit MD5 digest of the associated object according to RFC 1864. This data is used as an integrity check to verify that the data received by the caller is the same data that was sent by Amazon S3.
CamelAwsS3LastModified Date The value of the Last-Modified header, indicating the date and time at which Amazon S3 last recorded a modification to the associated object.
CamelAwsS3VersionId String The version ID of the associated Amazon S3 object if available. Version IDs are only assigned to objects when an object is uploaded to an Amazon S3 bucket that has object versioning enabled.
CamelAwsS3ContentType String The Content-Type HTTP header, which indicates the type of content stored in the associated object. The value of this header is a standard MIME type.
CamelAwsS3ContentMD5 String The base64 encoded 128-bit MD5 digest of the associated object (content - not including headers) according to RFC 1864. This data is used as a message integrity check to verify that the data received by Amazon S3 is the same data that the caller sent.
CamelAwsS3ContentLength Long The Content-Length HTTP header indicating the size of the associated object in bytes.
CamelAwsS3ContentEncoding String The optional Content-Encoding HTTP header specifying what content encodings have been applied to the object and what decoding mechanisms must be applied in order to obtain the media-type referenced by the Content-Type field.
CamelAwsS3ContentDisposition String The optional Content-Disposition HTTP header, which specifies presentational information such as the recommended filename for the object to be saved as.
CamelAwsS3ContentControl String The optional Cache-Control HTTP header which allows the user to specify caching behavior along the HTTP request/reply chain.
CamelAwsS3ServerSideEncryption String Camel 2.16: The server-side encryption algorithm when encrypting the object using AWS-managed keys.

Advanced AmazonS3 configuration

If your Camel Application is running behind a firewall or if you need to have more control over the AmazonS3 instance configuration, you can create your own instance:
AWSCredentials awsCredentials = new BasicAWSCredentials("myAccessKey", "mySecretKey");

ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);

AmazonS3 client = new AmazonS3Client(awsCredentials, clientConfiguration);

registry.bind("client", client);
and refer to it in your Camel aws-s3 component configuration:
from("aws-s3://MyBucket?amazonS3Client=#client&delay=5000&maxMessagesPerPoll=5")
.to("mock:result");

Dependencies

Maven users will need to add the following dependency to their pom.xml.
pom.xml
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where $\{camel-version\} must be replaced by the actual version of Camel (2.8 or higher).

10.8. AWS-SDB

SDB Component

Available as of Camel 2.8.4
The sdb component supports storing and retrieving data from/to Amazon's SDB service.
Prerequisites
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon SDB. More information are available at Amazon SDB.

URI Format

aws-sdb://domainName[?options]
You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name Default Value Context Description
amazonSDBClient null Producer Reference to a com.amazonaws.services.simpledb.AmazonSimpleDB in the Registry.
accessKey null Producer Amazon AWS Access Key
secretKey null Producer Amazon AWS Secret Key
amazonSdbEndpoint null Producer The region with which the AWS-SDB client wants to work with.
domainName null Producer The name of the domain currently worked with.
maxNumberOfDomains 100 Producer The maximum number of domain names you want returned. The range is 1 * to 100.
consistentRead false Producer Determines whether or not strong consistency should be enforced when data is read.
operation PutAttributes Producer Valid values are BatchDeleteAttributes, BatchPutAttributes, DeleteAttributes, DeleteDomain, DomainMetadata, GetAttributes, ListDomains, PutAttributes, Select.
proxyHost null Producer Specify a proxy host to be used inside the client definition.
proxyPort null Producer Specify a proxy port to be used inside the client definition.
Required SDB component options
You have to provide the amazonSDBClient in the Registry or your accessKey and secretKey to access the Amazon's SDB.

Usage

Message headers evaluated by the SDB producer

Header Type Description
CamelAwsSdbAttributes Collection<Attribute> List of attributes to be acted upon.
CamelAwsSdbAttributeNames Collection<String> The names of the attributes to be retrieved.
CamelAwsSdbConsistentRead Boolean Determines whether or not strong consistency should be enforced when data is read.
CamelAwsSdbDeletableItems Collection<DeletableItem> A list of items on which to perform the delete operation in a batch.
CamelAwsSdbDomainName String The name of the domain currently worked with.
CamelAwsSdbItemName String The unique key for this item
CamelAwsSdbMaxNumberOfDomains Integer The maximum number of domain names you want returned. The range is 1 * to 100.
CamelAwsSdbNextToken String A string specifying where to start the next list of domain/item names.
CamelAwsSdbOperation String To override the operation from the URI options.
CamelAwsSdbReplaceableAttributes Collection<ReplaceableAttribute> List of attributes to put in an Item.
CamelAwsSdbReplaceableItems Collection<ReplaceableItem> A list of items to put in a Domain.
CamelAwsSdbSelectExpression String The expression used to query the domain.
CamelAwsSdbUpdateCondition UpdateCondition The update condition which, if specified, determines whether the specified attributes will be updated/deleted or not.

Message headers set during DomainMetadata operation

Header Type Description
CamelAwsSdbTimestamp Integer The data and time when metadata was calculated, in Epoch (UNIX) seconds.
CamelAwsSdbItemCount Integer The number of all items in the domain.
CamelAwsSdbAttributeNameCount Integer The number of unique attribute names in the domain.
CamelAwsSdbAttributeValueCount Integer The number of all attribute name/value pairs in the domain.
CamelAwsSdbAttributeNameSize Long The total size of all unique attribute names in the domain, in bytes.
CamelAwsSdbAttributeValueSize Long The total size of all attribute values in the domain, in bytes.
CamelAwsSdbItemNameSize Long The total size of all item names in the domain, in bytes.

Message headers set during GetAttributes operation

Header Type Description
CamelAwsSdbAttributes List<Attribute> The list of attributes returned by the operation.

Message headers set during ListDomains operation

Header Type Description
CamelAwsSdbDomainNames List<String> A list of domain names that match the expression.
CamelAwsSdbNextToken String An opaque token indicating that there are more domains than the specified MaxNumberOfDomains still available.

Message headers set during Select operation

Header Type Description
CamelAwsSdbItems List<Item> A list of items that match the select expression.
CamelAwsSdbNextToken String An opaque token indicating that more items than MaxNumberOfItems were matched, the response size exceeded 1 megabyte, or the execution time exceeded 5 seconds.

Advanced AmazonSimpleDB configuration

If you need more control over the AmazonSimpleDB instance configuration you can create your own instance and refer to it from the URI:
from("direct:start")
.to("aws-sdb://domainName?amazonSDBClient=#client");
The #client refers to a AmazonSimpleDB in the Registry.
For example if your Camel Application is running behind a firewall:
AWSCredentials awsCredentials = new BasicAWSCredentials("myAccessKey", "mySecretKey");
ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);

AmazonSimpleDB client = new AmazonSimpleDBClient(awsCredentials, clientConfiguration);

registry.bind("client", client);

Dependencies

Maven users will need to add the following dependency to their pom.xml.
pom.xml
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.8.4 or higher).

10.9. AWS-SES

SES Component

Available as of Camel 2.8.4
The ses component supports sending emails with Amazon's SES service.
Prerequisites
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon SES. More information are available at Amazon SES.

URI Format

aws-ses://from[?options]
You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name Default Value Context Description
amazonSESClient null Producer Reference to a com.amazonaws.services.simpleemail.AmazonSimpleEmailService in the Registry.
accessKey null Producer Amazon AWS Access Key
secretKey null Producer Amazon AWS Secret Key
amazonSESEndpoint null Producer The region with which the AWS-SES client wants to work with.
subject null Producer The subject which is used if the message header 'CamelAwsSesSubject' is not present.
to null Producer List of destination email address. Can be overriden with 'CamelAwsSesTo' header.
returnPath null Producer The email address to which bounce notifications are to be forwarded, override it using 'CamelAwsSesReturnPath' header.
replyToAddresses null Producer List of reply-to email address(es) for the message, override it using 'CamelAwsSesReplyToAddresses' header.
proxyHost null Producer Specify a proxy host to be used inside the client definition.
proxyPort null Producer Specify a proxy port to be used inside the client definition.
Required SES component options
You have to provide the amazonSESClient in the Registry or your accessKey and secretKey to access the Amazon's SES.

Usage

Message headers evaluated by the SES producer

Header Type Description
CamelAwsSesFrom String The sender's email address.
CamelAwsSesTo List<String> The destination(s) for this email.
CamelAwsSesSubject String The subject of the message.
CamelAwsSesReplyToAddresses List<String> The reply-to email address(es) for the message.
CamelAwsSesReturnPath String The email address to which bounce notifications are to be forwarded.
CamelAwsSesHtmlEmail
Boolean
Since Camel 2.12.3 The flag to show if email content is HTML.

Message headers set by the SES producer

Header Type Description
CamelAwsSesMessageId String The Amazon SES message ID.

Advanced AmazonSimpleEmailService configuration

If you need more control over the AmazonSimpleEmailService instance configuration you can create your own instance and refer to it from the URI:
from("direct:start")
.to("aws-ses://example@example.com?amazonSESClient=#client");
The #client refers to a AmazonSimpleEmailService in the Registry.
For example if your Camel Application is running behind a firewall:
AWSCredentials awsCredentials = new BasicAWSCredentials("myAccessKey", "mySecretKey");
ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);
AmazonSimpleEmailService client = new AmazonSimpleEmailServiceClient(awsCredentials, clientConfiguration);

registry.bind("client", client);

Dependencies

Maven users will need to add the following dependency to their pom.xml.
pom.xml
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.8.4 or higher).

10.10. AWS-SNS

SNS Component

Available as of Camel 2.8
The SNS component allows messages to be sent to an Amazon Simple Notification Topic. The implementation of the Amazon API is provided by the AWS SDK.
Prerequisites
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon SNS. More information are available at Amazon SNS.

URI Format

aws-sns://topicName[?options]
The topic will be created if they don't already exists. You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name Default Value Context Description
amazonSNSClient null Producer Reference to a com.amazonaws.services.sns.AmazonSNS in the Registry.
accessKey null Producer Amazon AWS Access Key
secretKey null Producer Amazon AWS Secret Key
subject null Producer The subject which is used if the message header 'CamelAwsSnsSubject' is not present.
amazonSNSEndpoint null Producer The region with which the AWS-SNS client wants to work with.
policy null Producer Camel 2.8.4: The policy for this queue to set in the com.amazonaws.services.sns.model.SetTopicAttributesRequest.
proxyHost null Producer Specify a proxy host to be used inside the client definition.
proxyPort null Producer Specify a proxy port to be used inside the client definition.
Required SNS component options
You have to provide the amazonSNSClient in the Registry or your accessKey and secretKey to access the Amazon's SNS.

Usage

Message headers evaluated by the SNS producer

Header Type Description
CamelAwsSnsSubject String The Amazon SNS message subject. If not set, the subject from the SnsConfiguration is used.

Message headers set by the SNS producer

Header Type Description
CamelAwsSnsMessageId String The Amazon SNS message ID.

Advanced AmazonSNS configuration

If you need more control over the AmazonSNS instance configuration you can create your own instance and refer to it from the URI:
from("direct:start")
.to("aws-sns://MyTopic?amazonSNSClient=#client");
The #client refers to a AmazonSNS in the Registry.
For example if your Camel Application is running behind a firewall:
AWSCredentials awsCredentials = new BasicAWSCredentials("myAccessKey", "mySecretKey");
ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);
AmazonSNS client = new AmazonSNSClient(awsCredentials, clientConfiguration);

registry.bind("client", client);

Dependencies

Maven users will need to add the following dependency to their pom.xml.
pom.xml
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>

where $\{camel-version\} must be replaced by the actual version of Camel (2.8 or higher).

10.11. AWS-SQS

SQS Component

Available as of Camel 2.6
The sqs component supports sending and receiving messages to Amazon's SQS service.
Prerequisites
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon SQS. More information are available at Amazon SQS.

URI Format

aws-sqs://queue-name[?options]
The queue will be created if they don't already exists. You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name Default Value Context Description
amazonSQSClient null Shared Reference to a com.amazonaws.services.sqs.AmazonSQS in the Registry.
accessKey null Shared Amazon AWS Access Key
secretKey null Shared Amazon AWS Secret Key
amazonSQSEndpoint null Shared The region with which the AWS-SQS client wants to work with. Only works if Camel creates the AWS-SQS client, i.e., if you explicitly set amazonSQSClient, then this setting will have no effect. You would have to set it on the client you create directly.
attributeNames null Consumer
A list of attribute names to receive when consuming.
Camel 2.17: Multiple names can be separated by comma.
messageAttributeNames null Consumer
A list of message attribute names to receive when consuming.
Camel 2.17: Multiple names can be separated by comma.
concurrentConsumers 1 Consumer Camel 2.15.0 Allows you to use multiple threads to poll the SQS queue to increase throughput. You must also set the maxMessagesPerPoll option for this to work properly.
defaultVisibilityTimeout null Shared The visibility timeout (in seconds) to set in the com.amazonaws.services.sqs.model.CreateQueueRequest.
deleteAfterRead true Consumer Delete message from SQS after it has been read and processed by the route.
deleteIfFiltered true Consumer Camel 2.12.2,2.13.0 Whether or not to send the DeleteMessage to the SQS queue if an exchange fails to get through a filter. If 'false' and exchange does not make it through a Camel filter upstream in the route, then don't send DeleteMessage.
maxMessagesPerPoll null Consumer The maximum number of messages which can be received in one poll to set in the com.amazonaws.services.sqs.model.ReceiveMessageRequest.
visibilityTimeout null Shared The duration (in seconds) that the received messages are hidden from subsequent retrieve requests after being retrieved by a ReceiveMessage request. This only make sense if its different from defaultVisibilityTimeout.
extendMessageVisibility false Consumer Camel 2.10: If enabled, a scheduled background task will keep extending the message visibility on SQS. This is needed if it takes a long time to process the message. If set to true, visibilityTimeout must be set. See details at Amazon docs.
maximumMessageSize null Shared Camel 2.8: The maximumMessageSize (in bytes) an SQS message can contain for this queue, to set in the com.amazonaws.services.sqs.model.SetQueueAttributesRequest.
messageRetentionPeriod null Shared Camel 2.8: The messageRetentionPeriod (in seconds) a message will be retained by SQS for this queue, to set in the com.amazonaws.services.sqs.model.SetQueueAttributesRequest.
policy null Shared Camel 2.8: The policy for this queue to set in the com.amazonaws.services.sqs.model.SetQueueAttributesRequest.
delaySeconds null Producer Camel 2.9.3: Delay sending messages for a number of seconds.
waitTimeSeconds 0 Producer Camel 2.11: Duration in seconds (0 to 20) that the ReceiveMessage action call will wait until a message is in the queue to include in the response.
receiveMessageWaitTimeSeconds 0 Shared Camel 2.11: If you do not specify WaitTimeSeconds in the request, the queue attribute ReceiveMessageWaitTimeSeconds is used to determine how long to wait.
queueOwnerAWSAccountId null Shared Camel 2.12: Specify the queue owner aws account id when you need to connect the queue with different account owner.
region
null
Shared
Camel 2.12.3: Specify the queue region which could be used with queueOwnerAWSAccountId to build the service URL.
redrivePolicy
null
Shared
Camel 2.15.0: Specify the policy that sends a message to DeadLetter queue. See detail at Amazon docs.
proxyHost null Producer Specify a proxy host to be used inside the client definition.
proxyPort null Producer Specify a proxy port to be used inside the client definition.
Required SQS component options
You have to provide the amazonSQSClient in the Registry or your accessKey and secretKey to access the Amazon's SQS.

Batch Consumer

This component implements the Batch Consumer.
This allows you for instance to know how many messages exists in this batch and for instance let the Aggregator aggregate this number of messages.

Usage

Message headers set by the SQS producer

Header Type Description
CamelAwsSqsMD5OfBody String The MD5 checksum of the Amazon SQS message.
CamelAwsSqsMessageId String The Amazon SQS message ID.
CamelAwsSqsDelaySeconds Integer Since Camel 2.11, the delay seconds that the Amazon SQS message can be see by others.

Message headers set by the SQS consumer

Header Type Description
CamelAwsSqsMD5OfBody String The MD5 checksum of the Amazon SQS message.
CamelAwsSqsMessageId String The Amazon SQS message ID.
CamelAwsSqsReceiptHandle String The Amazon SQS message receipt handle.
CamelAwsSqsAttributes Map<String, String> The Amazon SQS message attributes.

Advanced AmazonSQS configuration

If your Camel Application is running behind a firewall or if you need to have more control over the AmazonSQS instance configuration, you can create your own instance:
AWSCredentials awsCredentials = new BasicAWSCredentials("myAccessKey", "mySecretKey");

ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);

AmazonSQS client = new AmazonSQSClient(awsCredentials, clientConfiguration);

registry.bind("client", client);
and refer to it in your Camel aws-sqs component configuration:
from("aws-sqs://MyQueue?amazonSQSClient=#client&delay=5000&maxMessagesPerPoll=5")
.to("mock:result");

Dependencies

Maven users will need to add the following dependency to their pom.xml.
pom.xml
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where $\{camel-version\} must be replaced by the actual version of Camel (2.6 or higher).

JMS-style Selectors

SQS does not allow selectors, but you can effectively achieve this by using the Camel Filter EIP and setting an appropriate visibilityTimeout. When SQS dispatches a message, it will wait up to the visibility timeout before it will try to dispatch the message to a different consumer unless a DeleteMessage is received. By default, Camel will always send the DeleteMessage at the end of the route, unless the route ended in failure. To achieve appropriate filtering and not send the DeleteMessage even on successful completion of the route, use a Filter:
from("aws-sqs://MyQueue?amazonSQSClient=#client&defaultVisibilityTimeout=5000&deleteIfFiltered=false")
.filter("${header.login} == true")
.to("mock:result");
In the above code, if an exchange doesn't have an appropriate header, it will not make it through the filter AND also not be deleted from the SQS queue. After 5000 miliseconds, the message will become visible to other consumers.

10.12. AWS-SWF

SWF Component

Available as of Camel 2.13
The Simple Workflow component supports managing workflows from Amazon's Simple Workflow service.
Note
You must have a valid Amazon Web Services developer account, and be signed up to use Amazon Simple Workflow. More information are available at Amazon Simple Workflow.

URI Format

aws-swf://<workflow|activity>[?options]
You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name
Default Value
Context
Description
amazonSWClient
null
All
A reference to a com.amazonaws.services.simpleworkflow.AmazonSimpleWorkflowClient in the Registry.
accessKey
null
All
Amazon AWS Access Key.
secretKey
null
All
Amazon AWS Secret Key.
sWClient.XXX
null
All
Properties to set on AmazonSimpleWorkflowClient in use.
clientConfiguration.XXX
null
All
Properties to set on ClientConfiguration in use.
startWorkflowOptions.XXX
null
Workflow/Producer
Properties to set on useStartWorkflowOptions in use.
operation
START
Workflow/Producer
The operation to perform on the workflow. Supported operations are: SIGNAL, CANCEL, TERMINATE, GET_STATE, START, DESCRIBE, GET_HISTORY.
domainName
null
All
The workflow domain to use.
activityList
null
Activity/Consumer
The list name to consume activities from.
workflowList null
Workflow/Consumer
The list name to consume workflows from.
eventName null All The workflow or activity event name to use.
version null All The workflow or activity event version to use.
signalName null Workflow/Producer The name of the signal to send to the workflow.
childPolicy null Workflow/Producer The policy to use on child workflows when terminating a workflow.
terminationReason null Workflow/Producer The reason for terminating a workflow.
stateResultType Object Workflow/Producer The type of the result when a workflow state is queried.
terminationDetails null Workflow/Producer Details for terminating a workflow.
dataConverter JsonDataConverter All An instance of com.amazonaws.services.simpleworkflow.flow.DataConverter to use for serializing/deserializing the data.
activitySchedulingOptions null Activity/Producer An instance of ActivitySchedulingOptions used to specify different timeout options.
activityTypeExecutionOptions null Activity/Consumer An instance of ActivityTypeExecutionOptions.
activityTypeRegistrationOptions null Activity/Consumer An instance of ActivityTypeRegistrationOptions.
workflowTypeRegistrationOptions null Workflow/Consumer An instance of WorkflowTypeRegistrationOptions.
Note
You have to provide the amazonSWClient in the Registry or your accessKey and secretKey to access the Amazon's Simple Workflow Service.

Usage

Message headers evaluated by the SWF Workflow Producer

A workflow producer allows interacting with a workflow. It can start a new workflow execution, query its state, send signals to a running workflow, or terminate and cancel it.
Header
Type
Description
CamelSWFOperation
String
The operation to perform on the workflow. Supported operations are: SIGNAL, CANCEL, TERMINATE, GET_STATE, START, DESCRIBE, GET_HISTORY.
CamelSWFWorkflowId
String
A workflow ID to use.
CamelAwsDdbKeyCamelSWFRunId
String
A worfklow run ID to use.
CamelSWFStateResultType
String
The type of the result when a workflow state is queried.
CamelSWFEventName
String
The workflow or activity event name to use.
CamelSWFVersion
String
The workflow or activity event version to use.
CamelSWFReason
String
The reason for terminating a workflow.
CamelSWFDetails
String
Details for terminating a workflow.
CamelSWFChildPolicy
String
The policy to use on child workflows when terminating a workflow.

Message headers set by the SWF Workflow Producer

Header
Type
Description
CamelSWFWorkflowId
String
The worfklow ID used or newly generated.
CamelAwsDdbKeyCamelSWFRunId
String
The worfklow run ID used or generated.

Message headers set by the SWF Workflow Consumer

A workflow consumer represents the workflow logic. When it is started, it will start polling workflow decision tasks and process them. In addition to processing decision tasks, a workflow consumer route, will also receive signals (send from a workflow producer) or state queries. The primary purpose of a workflow consumer is to schedule activity tasks for execution using activity producers. Actually activity tasks can be scheduled only from a thread started by a workflow consumer.
Header
Type
Description
CamelSWFAction
String
Indicates what type is the current event: CamelSWFActionExecute, CamelSWFSignalReceivedAction or CamelSWFGetStateAction.
CamelSWFWorkflowReplaying
boolean
Indicates whether the current decision task is a replay or not.
CamelSWFWorkflowStartTime
long
The time of the start event for this decision task.

Message headers set by the SWF Activity Producer

An activity producer allows scheduling activity tasks. An activity producer can be used only from a thread started by a workflow consumer ie, it can process synchronous exchanges started by a workflow consumer.
Header
Type
Description
CamelSWFEventName
String
The activity name to schedule.
CamelSWFVersion
String
The activity version to schedule.

Message headers set by the SWF Activity Consumer

Header
Type
Description
CamelSWFTaskToken
String
The task token that is required to report task completion for manually completed tasks.

Advanced amazonSWClient configuration

If you need more control over the AmazonSimpleWorkflowClient instance configuration you can create your own instance and refer to it from the URI:
The #client refers to a AmazonSimpleWorkflowClient in the Registry.
For example if your Camel Application is running behind a firewall:
AWSCredentials awsCredentials = new BasicAWSCredentials("myAccessKey", "mySecretKey");
ClientConfiguration clientConfiguration = new ClientConfiguration();
clientConfiguration.setProxyHost("http://myProxyHost");
clientConfiguration.setProxyPort(8080);

AmazonSimpleWorkflowClient client = new AmazonSimpleWorkflowClient(awsCredentials, clientConfiguration);

registry.bind("client", client);

Dependencies

Maven users will need to add the following dependency to their pom.xml.
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-aws</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.13 or higher).

Chapter 11. Bean

Bean Component

The bean: component binds beans to Apache Camel message exchanges.

URI format

bean:beanID[?options]
Where beanID can be any string which is used to lookup look up the bean in the Registry

Options

Name Type Default Description
method String null The method name from the bean that will be invoked. If not provided, Camel will try to determine the method itself. In case of ambiguity an exception will be thrown. See Bean Binding for more details. From Camel 2.8 onwards you can specify type qualifiers to pin-point exact method to use for overloaded methods. From Camel 2.9 onwards you can specify parameter values directly in the method syntax.
cache boolean false If enabled, Apache Camel will cache the result of the first Registry look-up. Cache can be enabled if the bean in the Registry is defined as a singleton scope.
multiParameterArray boolean false How to treat the parameters which are passed from the message body; if it is true, the In message body should be an array of parameters.
bean.xxx null
Camel 2.17: To configure additional options on the create bean instance from the class name. For example, to configure a foo option on the bean, use bean.foo=123.
You can append query options to the URI in the following format, ?option=value&option=value&...

Using

The object instance that is used to consume messages must be explicitly registered with the Registry. For example, if you are using Spring you must define the bean in the Spring configuration, spring.xml; or if you don't use Spring, put the bean in JNDI.
// lets populate the context with the services we need
// note that we could just use a spring.xml file to avoid this step
JndiContext context = new JndiContext();
context.bind("bye", new SayService("Good Bye!"));

CamelContext camelContext = new DefaultCamelContext(context);
Once an endpoint has been registered, you can build routes that use it to process exchanges.
// lets add simple route
camelContext.addRoutes(new RouteBuilder() {
    public void configure() {
        from("direct:hello").to("bean:bye");
    }
});
A bean: endpoint cannot be defined as the input to the route; i.e. you cannot consume from it, you can only route from some inbound message Endpoint to the bean endpoint as output. So consider using a direct: or queue: endpoint as the input.
You can use the createProxy() methods on ProxyHelper to create a proxy that will generate BeanExchanges and send them to any endpoint:
Endpoint endpoint = camelContext.getEndpoint("direct:hello");
ISay proxy = ProxyHelper.createProxy(endpoint, ISay.class);
String rc = proxy.say();
assertEquals("Good Bye!", rc);
And the same route using Spring DSL:
    <route>
       <from uri="direct:hello">
       <to uri="bean:bye"/>
    </route>

Bean as endpoint

Apache Camel also supports invoking Bean as an Endpoint. In the route below:
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="direct:start"/>
    <to uri="myBean"/>
    <to uri="mock:results"/>
  </route>
</camelContext>

<bean id="myBean" class="org.apache.camel.spring.bind.ExampleBean"/>
What happens is that when the exchange is routed to the myBean, Apache Camel will use the Bean Binding to invoke the bean. The source for the bean is just a plain POJO:
public class ExampleBean {

    public String sayHello(String name) {
        return "Hello " + name + "!";
    }
}
Apache Camel will use Bean Binding to invoke the sayHello method, by converting the Exchange's In body to the String type and storing the output of the method on the Exchange Out body.

Java DSL bean syntax

Java DSL comes with syntactic sugar for the Bean component. Instead of specifying the bean explicitly as the endpoint (i.e. to("bean:beanName")) you can use the following syntax:
// Send message to the bean endpoint
// and invoke method resolved using Bean Binding.
from("direct:start").beanRef("beanName");

// Send message to the bean endpoint
// and invoke given method.
from("direct:start").beanRef("beanName", "methodName");
Instead of passing name of the reference to the bean (so that Camel will lookup for it in the registry), you can specify the bean itself:
// Send message to the given bean instance.
from("direct:start").bean(new ExampleBean());

// Explicit selection of bean method to be invoked.
from("direct:start").bean(new ExampleBean(), "methodName");

// Camel will create the instance of bean and cache it for you.
from("direct:start").bean(ExampleBean.class);

Bean Binding

How bean methods to be invoked are chosen (if they are not specified explicitly through the method parameter) and how parameter values are constructed from the Message are all defined by the Bean Binding mechanism which is used throughout all of the various Bean Integration mechanisms in Apache Camel.

Bean Language

The purpose of the Bean language is to implement an expression or predicate using a simple method on a bean.If you specify a bean name in the registry such as the Spring ApplicationContext, then it invokes the method to evaluate the Expression or Predicate. However, if you do not provide any method name, then you can choose by using:
  • the rules for bean binding
  • the type of message body
  • any annotations on bean methods
For more information, refer the Bean Language chapter.
Note
From Camel 2.17, the Bean language is able to invoke static methods on pure static classes. When the bean language fails to invoke a method from the OGNL method chain, the method returns a null value. However, it prevent further method invocation that gives the NullPointerException.

Chapter 12. Bean Validator

Bean Validator Component

Available as of Apache Camel 2.3
The Validator component performs bean validation of the message body using the Java Bean Validation API (JSR 303). Camel uses the reference implementation, which is Hibernate Validator.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-bean-validator</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

bean-validator:label[?options]
or
bean-validator://label[?options]
Where label is an arbitrary text value describing the endpoint. You can append query options to the URI in the following format, ?option=value&option=value&...

URI Options

The following URI options are supported:
Option Default Description
group javax.validation.groups.Default The custom validation group to use.
messageInterpolator org.hibernate.validator.engine. ResourceBundleMessageInterpolator Reference to a custom javax.validation.MessageInterpolator in the Registry.
traversableResolver org.hibernate.validator.engine.resolver. DefaultTraversableResolver Reference to a custom javax.validation.TraversableResolver in the Registry.
constraintValidatorFactory org.hibernate.validator.engine. ConstraintValidatorFactoryImpl Reference to a custom javax.validation.ConstraintValidatorFactory in the Registry.

OSGi deployment

To use Hibernate Validator in the OSGi environment use dedicated ValidationProviderResolver implementation, just as org.apache.camel.component.bean.validator.HibernateValidationProviderResolver. The snippet below demonstrates this approach. Keep in mind that you can use HibernateValidationProviderResolver starting from the Camel 2.13.0.

Example 12.1. Using HibernateValidationProviderResolver

from("direct:test")
  .to("bean-validator://ValidationProviderResolverTest?validationProviderResolver=#myValidationProviderResolver");

...

<bean id="myValidationProviderResolver" class="org.apache.camel.component.bean.validator.HibernateValidationProviderResolver"/>
If no custom ValidationProviderResolver is defined and the validator component has been deployed into the OSGi environment, the HibernateValidationProviderResolver will be automatically used.

Example

Assumed we have a Java bean with the following annotations
Car.java
// Java
public class Car {

    @NotNull
    private String manufacturer;

    @NotNull
    @Size(min = 5, max = 14, groups = OptionalChecks.class)
    private String licensePlate;
    
    // getter and setter
}
and an interface definition for our custom validation group
OptionalChecks.java
public interface OptionalChecks {
}
with the following Apache Camel route, only the @NotNull constraints on the attributes manufacturer and licensePlate will be validated (Apache Camel uses the default group javax.validation.groups.Default).
from("direct:start")
.to("bean-validator://x")
.to("mock:end")
If you want to check the constraints from the group OptionalChecks, you have to define the route like this
from("direct:start")
.to("bean-validator://x?group=OptionalChecks")
.to("mock:end")
If you want to check the constraints from both groups, you have to define a new interface first
AllChecks.java
@GroupSequence({Default.class, OptionalChecks.class})
public interface AllChecks {
}
and then your route definition should looks like this
from("direct:start")
.to("bean-validator://x?group=AllChecks")
.to("mock:end")
And if you have to provide your own message interpolator, traversable resolver and constraint validator factory, you have to write a route like this
<bean id="myMessageInterpolator" class="my.ConstraintValidatorFactory" />
<bean id="myTraversableResolver" class="my.TraversableResolver" />
<bean id="myConstraintValidatorFactory" class="my.ConstraintValidatorFactory" />

from("direct:start")
.to("bean-validator://x?group=AllChecks&messageInterpolator=#myMessageInterpolator&traversableResolver=#myTraversableResolver&constraintValidatorFactory=#myConstraintValidatorFactory")
.to("mock:end")
It's also possible to describe your constraints as XML and not as Java annotations. In this case, you have to provide the file META-INF/validation.xml which could looks like this
validation.xml
<?xml version="1.0" encoding="UTF-8"?>
<validation-config
	xmlns="http://jboss.org/xml/ns/javax/validation/configuration"
	xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
	xsi:schemaLocation="http://jboss.org/xml/ns/javax/validation/configuration">
	<default-provider>org.hibernate.validator.HibernateValidator</default-provider>
	<message-interpolator>org.hibernate.validator.engine.ResourceBundleMessageInterpolator</message-interpolator>
	<traversable-resolver>org.hibernate.validator.engine.resolver.DefaultTraversableResolver</traversable-resolver>
	<constraint-validator-factory>org.hibernate.validator.engine.ConstraintValidatorFactoryImpl</constraint-validator-factory>
	
	<constraint-mapping>/constraints-car.xml</constraint-mapping>
</validation-config>
and the constraints-car.xml file
constraints-car.xml
<?xml version="1.0" encoding="UTF-8"?>
<constraint-mappings xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
	xsi:schemaLocation="http://jboss.org/xml/ns/javax/validation/mapping validation-mapping-1.0.xsd"
	xmlns="http://jboss.org/xml/ns/javax/validation/mapping">
	<default-package>org.apache.camel.component.bean.validator</default-package>
	
	<bean class="CarWithoutAnnotations" ignore-annotations="true">
		<field name="manufacturer">
			<constraint annotation="javax.validation.constraints.NotNull" />
		</field>
		
		<field name="licensePlate">
			<constraint annotation="javax.validation.constraints.NotNull" />
			
			<constraint annotation="javax.validation.constraints.Size">
				<groups>
					<value>org.apache.camel.component.bean.validator.OptionalChecks</value>
				</groups>
				<element name="min">5</element>
				<element name="max">14</element>
			</constraint>
		</field>
	</bean>
</constraint-mappings>

Chapter 13. Beanstalk

Beanstalk component

Available in Camel 2.15
camel-beanstalk project provides a Camel component for job retrieval and post-processing of Beanstalk jobs.
You can find the detailed explanation of Beanstalk job life cycle at Beanstalk protocol.

Dependencies

Maven users need to add the following dependency to their pom.xml
<dependency>
  <groupId>org.apache.camel</groupId>
  <artifactId>camel-beanstalk</artifactId>
  <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.15.0 or higher).

URI format

beanstalk://[host[:port]][/tube][?options]
You may omit either port or both host and port: for the Beanstalk defaults to be used (“localhost” and 11300). If you omit tube, Beanstalk component will use the tube with name “default”.
When listening, you may probably want to watch for jobs from several tubes. Just separate them with plus sign, e.g.
beanstalk://localhost:11300/tube1+tube2
Tube name will be URL decoded, so if your tube names include special characters like + or ?, you need to URL-encode them appropriately, or use the RAW syntax, see more details here.
By the way, you cannot specify several tubes when you are writing jobs into Beanstalk.

Common URI options

Name
Default value
Description
jobPriority 1000 Job priority. (0 is the highest, see Beanstalk protocol)
jobDelay 0 Job delay in seconds.
jobTimeToRun 60 Job time to run in seconds. (when 0, the beanstalkd daemon raises it to 1 automatically, see Beanstalk protocol)

Producer UIR options

Producer behaviour is affected by the command parameter which tells what to do with the job, it can be
Name
Default value
Description
command put
  • put means to put the job into Beanstalk. Job body is specified in the Camel message body. Job ID will be returned in beanstalk.jobId message header.
  • delete, release, touch or bury expect Job ID in the message header beanstalk.jobId. Result of the operation is returned in beanstalk.result message header
  • kick expects the number of jobs to kick in the message body and returns the number of jobs actually kicked out in the message header beanstalk.result.

Consumer UIR options

The consumer may delete the job immediately after reserving it or wait until Camel routes process it. While the first scenario is more like a “message queue”, the second is similar to “job queue”. This behavior is controlled by consumer.awaitJob parameter, which equals true by default (following Beanstalkd nature).
When synchronous, the consumer calls delete on successful job completion and calls bury on failure. You can choose which command to execute in the case of failure by specifying consumer.onFailure parameter in the URI. It can take values of bury, delete or release.
There is a boolean parameter consumer.useBlockIO which corresponds to the same parameter in JavaBeanstalkClient library. By default it is true.
Be careful when specifying release, as the failed job will immediately become available in the same tube and your consumer will try to acquire it again. You can release and specify jobDelay though.
Name
Default value
Description
onFailure bury Command to use when processing failed. You can choose among: bury, delete or release.
useBlockIO true Whether to use blockIO.
awaitJob true Whether to wait for job to complete before ack the job from beanstalk
The beanstalk consumer is a Scheduled Polling Consumer which means there is more options you can configure, such as how frequent the consumer should poll. For more details see Polling Consumer.

Consumer Headers

The consumer stores a number of job headers in the Exchange message:
Property
Type
Description
beanstalk.jobId long Job ID
beanstalk.tube string the name of the tube that contains this job
beanstalk.state string “ready” or “delayed” or “reserved” or “buried” (must be “reserved”)
beanstalk.priority long the priority value set
beanstalk.age int the time in seconds since the put command that created this job
beanstalk.time-left int the number of seconds left until the server puts this job into the ready queue
beanstalk.timeouts int the number of times this job has timed out during a reservation
beanstalk.releases int the number of times a client has released this job from a reservation
beanstalk.buries int the number of times this job has been buried
beanstalk.kicks int the number of times this job has been kicked

Examples

This Camel component lets you both request the jobs for processing and supply them to Beanstalkd daemon. Our simple demo routes may look like
from("beanstalk:testTube").
   log("Processing job #${property.beanstalk.jobId} with body ${in.body}").
   process(new Processor() {
     @Override
     public void process(Exchange exchange) {
       // try to make integer value out of body
       exchange.getIn().setBody( Integer.valueOf(exchange.getIn().getBody(classOf[String])) );
     }
   }).
   log("Parsed job #${property.beanstalk.jobId} to body ${in.body}");
from("timer:dig?period=30seconds").
   setBody(constant(10)).log("Kick ${in.body} buried/delayed tasks").
   to("beanstalk:testTube?command=kick");
In the first route we are listening for new jobs in tube “testTube”. When they are arriving, we are trying to parse integer value from the message body. If done successful, we log it and this successful exchange completion makes Camel component to delete this job from Beanstalk automatically. Contrary, when we cannot parse the job data, the exchange failed and the Camel component buries it by default, so that it can be processed later or probably we are going to inspect failed jobs manually.
So the second route periodically requests Beanstalk to kick 10 jobs out of buried and/or delayed state to the normal queue.

Chapter 14. Bindy

Bindy Component

The camel-bindy component enables the parsing and binding of non-structured data via Java Beans. These Java Beans consists of binding mappings defined with annotations.
@CsvRecord(separator = ",")
public class Customer {

    @DataField(pos = 1)
    private String firstName;

    @DataField(pos = 2)
    private String lastName;
    ...
}
For example, You can also provide the data format BindyCsvDataFormat unmarshall CSV data to the domain model.
camelctx.addRoutes(new RouteBuilder() {
    @Override
    public void configure() throws Exception {
        from("direct:start")
        .unmarshal(new BindyCsvDataFormat(Customer.class))
        .to("mock:result");
    }
});
camelctx.start();

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".

Chapter 15. Box

Box Component

Available as of Camel 2.14
The Box component provides access to all of the Box.com APIs accessible using box-java-sdk-v2. It allows producing messages to upload and download files, create, edit, and manage folders, etc. It also supports APIs that allow polling for updates to user accounts and even changes to enterprise accounts, etc.
Box.com requires the use of OAuth2.0 for all client application authentication. In order to use camel-box with your account, you'll need to create a new application within Box.com at https://app.box.com/developers/services/edit/. The Box application's client id and secret will allow access to Box APIs which require a current user. A user access token is generated and managed by the API for an end user. Alternatively the Camel application can register an implementation of com.box.boxjavalibv2.authorization.IAuthSecureStorage to provide an com.box.boxjavalibv2.dao.IAuthData OAuth token.
To configure a camel-box component to use Transport Layer Security (TLS), see chapter "Configuring Transport Security for Camel Components" in "Security Guide".
Maven users will need to add the following dependency to their pom.xml for this component:
	<dependency>
    	<groupId>org.apache.camel</groupId>
    	<artifactId>camel-box</artifactId>
    	<version>${camel-version}</version>
	</dependency>

URI format

    box://endpoint-prefix/endpoint?[options]
Endpoint prefix can be one of:
  • collaborations
  • comments
  • events
  • files
  • folders
  • groups
  • poll-events
  • search
  • shared-comments
  • shared-files
  • shared-folders
  • shared-items
  • users

Box Component

The Box Component can be configured with the options below. These options can be provided using the component's bean property configuration of type org.apache.camel.component.box.BoxConfiguration. These options can also be specified in the endpoint URI.
Option
Type
Description
authSecureStorage
com.box.boxjavalibv2.authorization.IAuthSecureStorage
OAuth Secure Storage callback, can be used to provide and or save OAuth tokens. The callback may return null on first call to allow the component to login and authorize application and obtain an OAuth token, which can then be saved in the secure storage. For the component to be able to create a token automatically a user password must be provided.
boxConfig
com.box.boxjavalibv2.IBoxConfig
Custom Box SDK configuration, not required normally
clientId
String
Box application client ID
clientSecret
String
Box application client secret
connectionManagerBuilder
com.box.boxjavalibv2.BoxConnectionManagerBuilder
Custom Box connection manager builder, used to override default settings like max connections for underlying HttpClient.
httpParams
java.util.Map
Custom HTTP params for settings like proxy host
loginTimeout
int
amount of time the component will wait for a response from Box.com, default is 30 seconds
refreshListener
com.box.boxjavalibv2.authorization.OAuthRefreshListener
OAuth listener for token updates, if the Camel application needs to use the access token outside the route
revokeOnShutdown
boolean
Flag to revoke OAuth refresh token on route shutdown, default false. Will require a fresh refresh token on restart using either a custom IAuthSecureStorage or automatic component login by providing a user password
sharedLink
String
Box shared link for shared-* endpoints, can be a link for a shared comment, file or folder
sharedPassword
String
Password associated with the shared link, MUST be provided with sharedLink
userName
String
Box user name, MUST be provided
userPassword
String
Box user password, MUST be provided if authSecureStorage is not set, or returns null on first call

Producer Endpoints:

Producer endpoints can use endpoint prefixes followed by endpoint names and associated options described next. A shorthand alias can be used for some endpoints. The endpoint URI MUST contain a prefix.
Endpoint options that are not mandatory are denoted by []. When there are no mandatory options for an endpoint, one of the set of [] options MUST be provided. Producer endpoints can also use a special option inBody that in turn should contain the name of the endpoint option whose value will be contained in the Camel Exchange In message.
Any of the endpoint options can be provided in either the endpoint URI, or dynamically in a message header. The message header name must be of the format CamelBox.<option>. Note that the inBody option overrides message header, i.e. the endpoint option inBody=option would override a CamelBox.option header.
If a value is not provided for the option defaultRequest either in the endpoint URI or in a message header, it will be assumed to be null. Note that the null value will only be used if other options do not satisfy matching endpoints.
In case of Box API errors the endpoint will throw a RuntimeCamelException with a com.box.restclientv2.exceptions.BoxSDKException derived exception cause.

Endpoint Prefix collaborations

For more information on Box collaborations see https://developers.box.com/docs/#collaborations. The following endpoints can be invoked with the prefix collaborations as follows:
    box://collaborations/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
createCollaboration
create
collabRequest, folderId
com.box.boxjavalibv2.dao.BoxCollaboration
deleteCollaboration
delete
collabId, defaultRequest
getAllCollaborations
allCollaborations
getAllCollabsRequest
java.util.List
getCollaboration
collaboration
collabId, defaultRequest
com.box.boxjavalibv2.dao.BoxCollaboration
updateCollaboration
update
collabId, collabRequest
com.box.boxjavalibv2.dao.BoxCollaboration

URI Options for collaborations

Name
Type
collabId
String
collabRequest
com.box.boxjavalibv2.requests.requestobjects.BoxCollabRequestObject
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject
folderId
String
getAllCollabsRequest
com.box.boxjavalibv2.requests.requestobjects.BoxGetAllCollabsRequestObject

Endpoint Prefix events

For more information on Box events see https://developers.box.com/docs/#events. Although this endpoint can be used by producers, Box events are better used as a consumer endpoint using the poll-events endpoint prefix. The following endpoints can be invoked with the prefix events as follows:
  box://events/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
getEventOptions
eventOptions
defaultRequest
com.box.boxjavalibv2.dao.BoxCollection
getEvents
events
eventRequest
com.box.boxjavalibv2.dao.BoxEventCollection

URI Options for events

Name
Type
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject
eventRequest
com.box.boxjavalibv2.requests.requestobjects.BoxEventRequestObject

Endpoint Prefix groups

For more information on Box groups see https://developers.box.com/docs/#groups. The following endpoints can be invoked with the prefix groups as follows:
    box://groups/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
createGroup
[groupRequest], [name]
com.box.boxjavalibv2.dao.BoxGroup
createMembership
[groupId, role, userId], [groupMembershipRequest]
com.box.boxjavalibv2.dao.BoxGroupMembership
deleteGroup
delete
defaultRequest, groupId
deleteMembership
delete
defaultRequest, membershipId
getAllCollaborations
allCollaborations
defaultRequest, groupId
com.box.boxjavalibv2.dao.BoxCollection
getAllGroups
allGroups
defaultRequest
com.box.boxjavalibv2.dao.BoxCollection
getMembership
membership
defaultRequest, membershipId
com.box.boxjavalibv2.dao.BoxGroupMembership
getMemberships
memberships
defaultRequest, groupId
com.box.boxjavalibv2.dao.BoxCollection
updateGroup
update
groupId, groupRequest
com.box.boxjavalibv2.dao.BoxGroup
updateMembership
update
[groupMembershipRequest], [role], membershipId
com.box.boxjavalibv2.dao.BoxGroupMembership

URI Options for groups

Name
Type
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject
groupId
String
groupMembershipRequest
com.box.boxjavalibv2.requests.requestobjects.BoxGroupMembershipRequestObject
groupRequest
com.box.boxjavalibv2.requests.requestobjects.BoxGroupRequestObject
membershipId
String
name
String
role
String
userId
String

Endpoint Prefix search

For more information on Box search API see https://developers.box.com/docs/#search. The following endpoints can be invoked with the prefix search as follows:
    box://search/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
search
defaultRequest, searchQuery
com.box.boxjavalibv2.dao.BoxCollection

URI Options for search

Name
Type
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject
searchQuery
String

Endpoint Prefix comments and shared-comments

For more information on Box comments see https://developers.box.com/docs/#comments. The following endpoints can be invoked with the prefix comments or shared-comments as follows. The shared-comments prefix requires sharedLink and sharedPassword properties.
    box://comments/endpoint?[options]
    box://shared-comments/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
addComment
[commentRequest], [commentedItemId, commentedItemType, message]
com.box.boxjavalibv2.dao.BoxComment
deleteComment
delete
commentId, defaultRequest
getComment
comment
commentId, defaultRequest
com.box.boxjavalibv2.dao.BoxComment
updateComment
update
commentId, commentRequest
com.box.boxjavalibv2.dao.BoxComment

URI Options for comments and shared-comments

Name
Type
commentId
String
commentRequest
com.box.boxjavalibv2.requests.requestobjects.BoxCommentRequestObject
commentedItemId
String
commentedItemType
com.box.boxjavalibv2.dao.IBoxType
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject
message
String

Endpoint Prefix files and shared-files

For more information on Box files see https://developers.box.com/docs/#files. The following endpoints can be invoked with the prefix files or shared-files as follows. The shared-files prefix requires sharedLink and sharedPassword properties.
   box://files/endpoint?[options]
   box://shared-files/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
copyFile
fileId, itemCopyRequest
com.box.boxjavalibv2.dao.BoxFile
createSharedLink
create
fileId, sharedLinkRequest
com.box.boxjavalibv2.dao.BoxFile
deleteFile
defaultRequest, fileId
downloadFile
download
[destination, listener], [listener, outputStreams], defaultRequest, fileId
java.io.InputStream
downloadThumbnail
download
extension, fileId, imageRequest
java.io.InputStream
getFile
file
defaultRequest, fileId
com.box.boxjavalibv2.dao.BoxFile
getFileComments
fileComments
defaultRequest, fileId
com.box.boxjavalibv2.dao.BoxCollection
getFileVersions
fileVersions
defaultRequest, fileId
java.util.List
getPreview
preview
extension, fileId, imageRequest
com.box.boxjavalibv2.dao.BoxPreview
getThumbnail
thumbnail
extension, fileId, imageRequest
com.box.boxjavalibv2.dao.BoxThumbnail
updateFileInfo
update
fileId, fileRequest
com.box.boxjavalibv2.dao.BoxFile
uploadFile
upload
fileUploadRequest
com.box.boxjavalibv2.dao.BoxFile
uploadNewVersion
upload
fileId, fileUploadRequest
com.box.boxjavalibv2.dao.BoxFile

URI Options for files and shared-files

Name
Type
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject
destination
java.io.File
extension
String
fileId
String
fileRequest
com.box.boxjavalibv2.requests.requestobjects.BoxFileRequestObject
fileUploadRequest
com.box.restclientv2.requestsbase.BoxFileUploadRequestObject
imageRequest
com.box.boxjavalibv2.requests.requestobjects.BoxImageRequestObject
itemCopyRequest
com.box.boxjavalibv2.requests.requestobjects.BoxItemCopyRequestObject
listener
com.box.boxjavalibv2.filetransfer.IFileTransferListener
outputStreams
java.io.OutputStream[]
sharedLinkRequest
com.box.boxjavalibv2.requests.requestobjects.BoxSharedLinkRequestObject

Endpoint Prefix folders and shared-folders

For more information on Box folders see https://developers.box.com/docs/#folders. The following endpoints can be invoked with the prefix folders or shared-folders as follows. The prefix shared-folders requires sharedLink and sharedPassword properties.
    box://folders/endpoint?[options]
    box://shared-folders/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
copyFolder
folderId, itemCopyRequest
com.box.boxjavalibv2.dao.BoxFolder
createFolder
create
folderRequest
com.box.boxjavalibv2.dao.BoxFolder
createSharedLink
create
folderId, sharedLinkRequest
com.box.boxjavalibv2.dao.BoxFolder
deleteFolder
delete
folderDeleteRequest, folderId
getFolder
folder
defaultRequest, folderId
com.box.boxjavalibv2.dao.BoxFolder
getFolderCollaborations
folderCollaborations
defaultRequest, folderId
java.util.List
getFolderItems
folderItems
folderId, pagingRequest
com.box.boxjavalibv2.dao.BoxCollection
updateFolderInfo
update
folderId, folderRequest
com.box.boxjavalibv2.dao.BoxFolder

URI Options for folders or shared-folders

Name
Type
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject
folderDeleteRequest
com.box.boxjavalibv2.requests.requestobjects.BoxFolderDeleteRequestObject
folderId
String
folderRequest
com.box.boxjavalibv2.requests.requestobjects.BoxFolderRequestObject
itemCopyRequest
com.box.boxjavalibv2.requests.requestobjects.BoxItemCopyRequestObject
pagingRequest
com.box.boxjavalibv2.requests.requestobjects.BoxPagingRequestObject
sharedLinkRequest
com.box.boxjavalibv2.requests.requestobjects.BoxSharedLinkRequestObject

Endpoint Prefix shared-items

For more information on Box shared items see https://developers.box.com/docs/#shared-items. The following endpoints can be invoked with the prefix shared-items as follows:
    box://shared-items/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
getSharedItem
sharedItem
defaultRequest
com.box.boxjavalibv2.dao.BoxItem

URI Options for shared-items

Name
Type
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject

Endpoint Prefix users

For information on Box users see https://developers.box.com/docs/#users. The following endpoints can be invoked with the prefix users as follows:
    box://users/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
addEmailAlias
emailAliasRequest, userId
com.box.boxjavalibv2.dao.BoxEmailAlias
createEnterpriseUser
create
userRequest
com.box.boxjavalibv2.dao.BoxUser
deleteEmailAlias
defaultRequest, emailId, userId
deleteEnterpriseUser
userDeleteRequest, userId
getAllEnterpriseUser
allEnterpriseUser
defaultRequest, filterTerm
java.util.List
getCurrentUser
currentUser
defaultRequest
com.box.boxjavalibv2.dao.BoxUser
getEmailAliases
emailAliases
defaultRequest, userId
java.util.List
moveFolderToAnotherUser
folderId, simpleUserRequest, userId
com.box.boxjavalibv2.dao.BoxFolder
updateUserInformaiton
update
userId, userRequest
com.box.boxjavalibv2.dao.BoxUser
updateUserPrimaryLogin
update
userId, userUpdateLoginRequest
com.box.boxjavalibv2.dao.BoxUser

URI Options for users

Name
Type
defaultRequest
com.box.restclientv2.requestsbase.BoxDefaultRequestObject
emailAliasRequest
com.box.boxjavalibv2.requests.requestobjects.BoxEmailAliasRequestObject
emailId
String
filterTerm
String
folderId
String
simpleUserRequest
com.box.boxjavalibv2.requests.requestobjects.BoxSimpleUserRequestObject
userDeleteRequest
com.box.boxjavalibv2.requests.requestobjects.BoxUserDeleteRequestObject
userId
String
userRequest
com.box.boxjavalibv2.requests.requestobjects.BoxUserRequestObject
userUpdateLoginRequest
com.box.boxjavalibv2.requests.requestobjects.BoxUserUpdateLoginRequestObject

Consumer Endpoints:

For more information on Box events see https://developers.box.com/docs/#events and for long polling see https://developers.box.com/docs/#events-long-polling. Consumer endpoints can only use the endpoint prefix poll-events as shown in the example next. By default the consumer will split the com.box.boxjavalibv2.dao.BoxEventCollection from every long poll and create an exchange for every com.box.boxjavalibv2.dao.BoxEvent. To make the consumer return the entire collection in a single exchange, use the URI option consumer.splitResult=false.
    box://poll-events/endpoint?[options]
Endpoint
Shorthand Alias
Options
Result Body Type
poll
limit, streamPosition, streamType
com.box.boxjavalibv2.dao.BoxEvent by default, or com.box.boxjavalibv2.dao.BoxEventCollection when consumer.splitResult=false

URI Options for poll-events

Name
Type
limit
Integer
streamPosition
Long
streamType
String
splitResult
boolean

Message header

Any of the options can be provided in a message header for producer endpoints with CamelBox. prefix.

Message body

All result message bodies utilize objects provided by the Box Java SDK. Producer endpoints can specify the option name for incoming message body in the inBody endpoint parameter.

Type Converter

The Box component also provides a Camel type converter to convert GenericFile objects from File component to a com.box.restclientv2.requestsbase.BoxFileUploadRequestObject to upload files to Box.com. The target folderId for the upload can be specified in the exchange property CamelBox.folderId. If the exchange property is not specified the value defaults to "0" for the root folder ID.

Use cases

The following route uploads new files to the user's root folder:
	from("file:...")
		.to("box://files/upload/inBody=fileUploadRequest");
The following route polls user's account for updates:
	from("box://poll-events/poll?streamPosition=-1&streamType=all&limit=100")
		.to("bean:blah");
The following route uses a producer with dynamic header options. The fileId property has the Box file id , so its assigned to the CamelBox.fileId header as follows:
	from("direct:foo")
		.setHeader("CamelBox.fileId", header("fileId"))
		.to("box://files/download")
		.to("file://...");

Chapter 16. Braintree

Braintree Component

Available as of Camel 2.17
The Braintree component provides access to Braintree Payments services which support the following payment methods:
In order to use camel-braintree, you need to provide some API credentials, which you can obtain from your account (Sandbox or Production).
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-braintree</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

braintree://endpoint-prefix/endpoint?[options]
Endpoint prefix can be one of:
  • addOn
  • address
  • clientToken
  • creditCardverification
  • customer
  • discount
  • merchantAccount
  • paymentmethod
  • paymentmethodNonce
  • plan
  • settlementBatchSummary
  • subscription
  • transaction
  • webhookNotification

BraintreeComponent

The Braintree Component can be configured with the options below. These options can be provided using the component's bean property configuration of type org.apache.camel.component.braintree.BraintreeConfiguration.
OptionTypeDescription
environment String value that specifies where requests should be directed – sandbox or production
merchantId String a unique identifier for your gateway account, which is different than your merchant account ID
publicKey String user-specific public identifier
privateKey String user-specific secure identifier that should not be shared – even with us!
httpLogLevel java.util.logging.Level camel 2.17.1 Logging level for HTTP calls
httpLogName String camel 2.17.1 Log category to use to log http calls, default "Braintree"
httpReadTimeout Integer camel 2.17.1 Read timeout for HTTP calls
All the options above are provided by Braintree Payments

Producer Endpoints:

Producer endpoints can use endpoint prefixes followed by endpoint names and associated options described next. A shorthand alias can be used for some endpoints. The endpoint URI MUST contain a prefix.
Endpoint options that are not mandatory are denoted by []. When there are no mandatory options for an endpoint, one of the set of [] options MUST be provided. Producer endpoints can also use a special option inBody that in turn should contain the name of the endpoint option whose value will be contained in the Camel Exchange In message.
Any of the endpoint options can be provided in either the endpoint URI, or dynamically in a message header. The message header name must be of the format CamelBraintree.<option>. Note that the inBody option overrides message header, i.e. the endpoint option inBody=option would override a CamelBraintree.option header.
For more information on the endpoints and options see Braintree references at https://developers.braintreepayments.com/reference/overview

Endpoint prefix addOn

The following endpoints can be invoked with the prefix addOn as follows:
braintree://addOn/endpoint
EndpointShorthand AliasOptionsResult Body Type
all List<com.braintreegateway.Addon>

Endpoint prefix address

The following endpoints can be invoked with the prefix address as follows:
braintree://address/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
create customerId, request com.braintreegateway.Result<com.braintreegateway.Address>
delete customerId, id com.braintreegateway.Result<com.braintreegateway.Address>
find customerId, id com.braintreegateway.Address
update customerId, id, request com.braintreegateway.Result<com.braintreegateway.Address>

Table 16.1. URI Options for address

NameType
customerId String
request com.braintreegateway.AddressRequest
id String

Endpoint prefix clientToken

The following endpoints can be invoked with the prefix clientToken as follows:
braintree://clientToken/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
generate request String

Table 16.2. URI Options for clientToken

NameType
request com.braintreegateway.ClientTokenrequest

Endpoint prefix creditCardVerification

The following endpoints can be invoked with the prefix creditCardverification as follows:
braintree://creditCardVerification/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
find id com.braintreegateway.CreditCardVerification
search query com.braintreegateway.ResourceCollection<com.braintreegateway.CreditCardVerification>

Table 16.3. URI Options for creditCardVerification

NameType
id String
query com.braintreegateway.CreditCardVerificationSearchRequest

Endpoint prefix customer

The following endpoints can be invoked with the prefix customer as follows:
braintree://customer/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
all
create request com.braintreegateway.Result<com.braintreegateway.Customer>
delete id com.braintreegateway.Result<com.braintreegateway.Customer>
find id com.braintreegateway.Customer
search query com.braintreegateway.ResourceCollection<com.braintreegateway.Customer>
update id, request com.braintreegateway.Result<com.braintreegateway.Customer>

Table 16.4. URI Options for customer

NameType
id String
request com.braintreegateway.CustomerRequest
query com.braintreegateway.CustomerSearchRequest

Endpoint prefix discount

The following endpoints can be invoked with the prefix discount as follows:
braintree://discount/endpoint
EndpointShorthand AliasOptionsResult Body Type
all List<com.braintreegateway.Discount>

Endpoint prefix merchantAccount

The following endpoints can be invoked with the prefix merchantAccount as follows:
braintree://merchantAccount/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
create request com.braintreegateway.Result<com.braintreegateway.MerchantAccount>
find id com.braintreegateway.MerchantAccount
update id, request com.braintreegateway.Result<com.braintreegateway.MerchantAccount>

Table 16.5. URI Options for merchantAccount

NameType
id String
request com.braintreegateway.MerchantAccountRequest

Endpoint prefix paymentMethod

The following endpoints can be invoked with the prefix paymentMethod as follows:
braintree://paymentMethod/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
create request com.braintreegateway.Result<com.braintreegateway.PaymentMethod>
delete token com.braintreegateway.Result<com.braintreegateway.PaymentMethod>
find token com.braintreegateway.PaymentMethod
update token, request com.braintreegateway.Result<com.braintreegateway.PaymentMethod>

Table 16.6. URI Options for paymentMethod

NameType
token String
request com.braintreegateway.PaymentMethodRequest

Endpoint prefix paymentMethodNonce

The following endpoints can be invoked with the prefix paymentMethodNonce as follows:
braintree://paymentMethodNonce/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
create paymentMethodToken com.braintreegateway.Result<com.braintreegateway.PaymentMethodNonce>
find paymentMethodNonce com.braintreegateway.PaymentMethodNonce

Table 16.7. URI Options for paymentMethodNonce

NameType
paymentMethodToken String
paymentMethodNonce String

Endpoint prefix plan

The following endpoints can be invoked with the prefix plan as follows:
braintree://plan/endpoint
EndpointShorthand AliasOptionsResult Body Type
all List<com.braintreegateway.Plan>

Endpoint prefix settlementBatchSummary

The following endpoints can be invoked with the prefix settlementBatchSummary as follows:
braintree://settlementBatchSummary/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
generate request com.braintreegateway.Result<com.braintreegateway.SettlementBatchSummary>

Table 16.8. URI Options for settlementBatchSummary

NameType
settlementDate Calendar
groupByCustomField String

Endpoint prefix subscription

The following endpoints can be invoked with the prefix subscription as follows:
braintree://subscription/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
cancel id com.braintreegateway.Result<com.braintreegateway.Subscription>
create request com.braintreegateway.Result<com.braintreegateway.Subscription>
delete customerId, id com.braintreegateway.Result<com.braintreegateway.Subscription>
find id com.braintreegateway.Subscription
retryCharge subscriptionId, amount com.braintreegateway.Result<com.braintreegateway.Transaction>
search searchRequest com.braintreegateway.ResourceCollection<com.braintreegateway.Subscription>
update id, request com.braintreegateway.Result<com.braintreegateway.Subscription>

Table 16.9. URI Options for subscription

NameType
id String
request com.braintreegateway.SubscriptionRequest
customerId String
subscriptionId String
amount BigDecimal
searchRequest com.braintreegateway.SubscriptionSearchRequest.

Endpoint prefix transaction

The following endpoints can be invoked with the prefix transaction as follows:
braintree://transaction/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
cancelRelease id com.braintreegateway.Result<com.braintreegateway.Transaction>
cloneTransaction id, cloneRequest com.braintreegateway.Result<com.braintreegateway.Transaction>
credit request com.braintreegateway.Result<com.braintreegateway.Transaction>
find id com.braintreegateway.Transaction
holdInEscrow id com.braintreegateway.Result<com.braintreegateway.Transaction>
releaseFromEscrow id com.braintreegateway.Result<com.braintreegateway.Transaction>
refund id, amount com.braintreegateway.Result<com.braintreegateway.Transaction>
sale request com.braintreegateway.Result<com.braintreegateway.Transaction>
search query com.braintreegateway.ResourceCollection<com.braintreegateway.Transaction>
submitForPartialSettlement id, amount com.braintreegateway.Result<com.braintreegateway.Transaction>
submitForSettlement id, amount, request com.braintreegateway.Result<com.braintreegateway.Transaction>
voidTransaction id com.braintreegateway.Result<com.braintreegateway.Transaction>

Table 16.10. URI Options for transaction

NameType
id String
request com.braintreegateway.TransactionCloneRequest
cloneRequest com.braintreegateway.TransactionCloneRequest
amount BigDecimal
query com.braintreegateway.TransactionSearchRequest

Endpoint prefix webhookNotification

The following endpoints can be invoked with the prefix webhookNotification as follows:
braintree://webhookNotification/endpoint?[options]
EndpointShorthand AliasOptionsResult Body Type
parse signature, payload com.braintreegateway.WebhookNotification
verify challenge String

Table 16.11. URI Options for webhookNotification

NameType
signature String
payload String
challenge String

Consumer Endpoints

Any of the producer endpoints can be used as a consumer endpoint. Consumer endpoints can use Scheduled Poll Consumer Options with a consumer. prefix to schedule endpoint invocation. By default Consumer endpoints that return an array or collection will generate one exchange per element, and their routes will be executed once for each exchange. To change this behavior use the property consumer.splitResults=true to return a single exchange for the entire list or array.

Message Headers

Any URI option can be provided in a message header for producer endpoints with a CamelBraintree. prefix.

Message body

All result message bodies utilize objects provided by the Braintree Java SDK. Producer endpoints can specify the option name for incoming message body in the inBody endpoint parameter.

Examples

<?xml version="1.0"?>
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
           xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.0.0"
           xsi:schemaLocation="
             http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.0.0 http://aries.apache.org/schemas/blueprint-cm/blueprint-cm-1.0.0.xsd
             http://www.osgi.org/xmlns/blueprint/v1.0.0 https://www.osgi.org/xmlns/blueprint/v1.0.0/blueprint.xsd
             http://camel.apache.org/schema/blueprint http://camel.apache.org/schema/blueprint/camel-blueprint.xsd">


    <cm:property-placeholder id="placeholder" persistent-id="camel.braintree">
    </cm:property-placeholder>

    <bean id="braintree" class="org.apache.camel.component.braintree.BraintreeComponent">
        <property name="configuration">
            <bean class="org.apache.camel.component.braintree.BraintreeConfiguration">
                <property name="environment" value="${environment}"/>
                <property name="merchantId" value="${merchantId}"/>
                <property name="publicKey" value="${publicKey}"/>
                <property name="privateKey" value="${privateKey}"/>
            </bean>
        </property>
    </bean>

    <camelContext trace="true" xmlns="http://camel.apache.org/schema/blueprint" id="braintree-example-context">
        <route id="braintree-example-route">
            <from uri="direct:generateClientToken"/>
            <to uri="braintree://clientToken/generate"/>
            <to uri="stream:out"/>
        </route>
    </camelContext>

</blueprint>

Chapter 17. Browse

Browse Component

Available as of Apache Camel 2.0
The Browse component provides a simple BrowsableEndpoint which can be useful for testing, visualisation tools or debugging. The exchanges sent to the endpoint are all available to be browsed.

URI format

browse:someName
Where someName can be any string to uniquely identify the endpoint.

Sample

In the route below, we insert a browse: component to be able to browse the Exchanges that are passing through:
  from("activemq:order.in").to("browse:orderReceived").to("bean:processOrder");
We can now inspect the received exchanges from within the Java code:
    private CamelContext context;

    public void inspectRecievedOrders() {
        BrowsableEndpoint browse = context.getEndpoint("browse:orderReceived", BrowsableEndpoint.class);
        List<Exchange> exchanges = browse.getExchanges();
        ...
        // then we can inspect the list of received exchanges from Java
        for (Exchange exchange : exchanges) {
            String payload = exchange.getIn().getBody();
            ...
        }
   }

Chapter 18. Cache

18.1. Cache Component

Available as of Camel 2.1

The cache component enables you to perform caching operations using EHCache as the Cache Implementation. The cache itself is created on demand or if a cache of that name already exists then it is simply utilized with its original settings.
This component supports producer and event based consumer endpoints.
The Cache consumer is an event based consumer and can be used to listen and respond to specific cache activities. If you need to perform selections from a pre-existing cache, use the processors defined for the cache component.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-cache</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

cache://cacheName[?options]
You can append query options to the URI in the following format, ?option=value&option=#beanRef&...

Options

The Cache component supports the following options:
Name Default Value Description
maxElementsInMemory 1000 The number of elements that may be stored in the defined cache
memoryStoreEvictionPolicy MemoryStoreEvictionPolicy.LFU
The number of elements that may be stored in the defined cache. Options include
  • MemoryStoreEvictionPolicy.LFU - Least frequently used
  • MemoryStoreEvictionPolicy.LRU - Least recently used
  • MemoryStoreEvictionPolicy.FIFO - first in first out, the oldest element by creation time
overflowToDisk true Specifies whether cache may overflow to disk
eternal false
Sets whether elements are eternal. If eternal, timeouts are ignored and the element never expires.
timeToLiveSeconds 300
The maximum time between creation time and when an element expires. Is used only if the element is not eternal
timeToIdleSeconds 300 The maximum amount of time between accesses before an element expires
diskPersistent false Whether the disk store persists between restarts of the Virtual Machine.
diskExpiryThreadIntervalSeconds 120 The number of seconds between runs of the disk expiry thread.
cacheManagerFactory null Camel 2.8: If you want to use a custom factory which instantiates and creates the EHCache net.sf.ehcache.CacheManager. Type: abstract org.apache.camel.component.cache.CacheManagerFactory
eventListenerRegistry null Camel 2.8: Sets a list of EHCache net.sf.ehcache.event.CacheEventListener for all new caches\- no need to define it per cache in EHCache xml config anymore. Type: org.apache.camel.component.cache.CacheEventListenerRegistry
cacheLoaderRegistry null Camel 2.8: Sets a list of org.apache.camel.component.cache.CacheLoaderWrapper that extends EHCache net.sf.ehcache.loader.CacheLoader for all new caches\- no need to define it per cache in EHCache xml config anymore. Type: org.apache.camel.component.cache.CacheLoaderRegistry
key null Camel 2.10: To configure using a cache key by default. If a key is provided in the message header, then the key from the header takes precedence.
operation null Camel 2.10: To configure using an cache operation by default. If an operation in the message header, then the operation from the header takes precedence.
objectCache false Camel 2.10: Whether to turn on allowing to store non serializable objects in the cache. If this option is enabled then overflow to disk cannot be enabled as well.
configurationFile
Camel 2.13/2.12.3: To configure the location of the ehcache.xml file to use, such as classpath:com/foo/mycache.xml to load from classpath. If no configuration is given, then the default settings from EHCache is used.
configuration
To use a custom org.apache.camel.component.cache.CacheConfiguration configuration.

Cache component options

Name
Default Value
Description
configuration
To use a custom org.apache.camel.component.cache.CacheConfiguration configuration.
cacheManagerFactory
To use a custom org.apache.camel.component.cache.CacheManagerFactory.
configurationFile
Camel 2.13/2.12.3: To configure the location of the ehcache.xml file to use, such as classpath:com/foo/mycache.xml to load from classpath. If no configuration is given, then the default settings from EHCache is used.

Message Headers Camel 2.8+

Header Description
CamelCacheOperation
The operation to be performed on the cache. The valid options are
  • CamelCacheGet
  • CamelCacheCheck
  • CamelCacheAdd
  • CamelCacheUpdate
  • CamelCacheDelete
  • CamelCacheDeleteAll
CamelCacheKey The cache key used to store the Message in the cache. The cache key is optional if the CamelCacheOperation is CamelCacheDeleteAll
Header changes in Camel 2.8
The header names and supported values have changed to be prefixed with CamelCache and use mixed case. This makes them easier to identify and keep separate from other headers. The CacheConstants variable names remain unchanged, just their values have been changed. Also, these headers are now removed from the exchange after the cache operation is performed.
The CamelCacheAdd and CamelCacheUpdate operations support additional headers:
Header Type Description
CamelCacheTimeToLive Integer Camel 2.11: Time to live in seconds.
CamelCacheTimeToIdle Integer Camel 2.11: Time to idle in seconds.
CamelCacheEternal Boolean Camel 2.11: Whether the content is eternal.

Cache Producer

Sending data to the cache involves the ability to direct payloads in exchanges to be stored in a pre-existing or created-on-demand cache. The mechanics of doing this involve
  • setting the Message Exchange Headers shown above.
  • ensuring that the Message Exchange Body contains the message directed to the cache

Cache Consumer

Receiving data from the cache involves the ability of the CacheConsumer to listen on a pre-existing or created-on-demand Cache using an event Listener and receive automatic notifications when any cache activity take place (i.e CamelCacheGet/CamelCacheUpdate/CamelCacheDelete/CamelCacheDeleteAll). Upon such an activity taking place
  • an exchange containing Message Exchange Headers and a Message Exchange Body containing the just added/updated payload is placed and sent.
  • in case of a CamelCacheDeleteAll operation, the Message Exchange Header CamelCacheKey and the Message Exchange Body are not populated.

Cache Processors

There are a set of nice processors with the ability to perform cache lookups and selectively replace payload content at the
  • body
  • token
  • xpath level

Example 1: Configuring the cache

from("cache://MyApplicationCache" +
          "?maxElementsInMemory=1000" +
          "&memoryStoreEvictionPolicy=" +
              "MemoryStoreEvictionPolicy.LFU" +
          "&overflowToDisk=true" +
          "&eternal=true" +
          "&timeToLiveSeconds=300" +
          "&timeToIdleSeconds=true" +
          "&diskPersistent=true" +
          "&diskExpiryThreadIntervalSeconds=300")

Example 2: Adding keys to the cache

RouteBuilder builder = new RouteBuilder() {
    public void configure() {
     from("direct:start")
     .setHeader(CacheConstants.CACHE_OPERATION, constant(CacheConstants.CACHE_OPERATION_ADD))
     .setHeader(CacheConstants.CACHE_KEY, constant("Ralph_Waldo_Emerson"))
     .to("cache://TestCache1")
   }
};

Example 2: Updating existing keys in a cache

RouteBuilder builder = new RouteBuilder() {
    public void configure() {
     from("direct:start")
     .setHeader(CacheConstants.CACHE_OPERATION, constant(CacheConstants.CACHE_OPERATION_UPDATE))
     .setHeader(CacheConstants.CACHE_KEY, constant("Ralph_Waldo_Emerson"))
     .to("cache://TestCache1")
   }
};

Example 3: Deleting existing keys in a cache

RouteBuilder builder = new RouteBuilder() {
    public void configure() {
     from("direct:start")
     .setHeader(CacheConstants.CACHE_OPERATION, constant(CacheConstants.CACHE_DELETE))
     .setHeader(CacheConstants.CACHE_KEY", constant("Ralph_Waldo_Emerson"))
     .to("cache://TestCache1")
   }
};

Example 4: Deleting all existing keys in a cache

RouteBuilder builder = new RouteBuilder() {
    public void configure() {
     from("direct:start")
     .setHeader(CacheConstants.CACHE_OPERATION, constant(CacheConstants.CACHE_DELETEALL))
     .to("cache://TestCache1");
    }
};

Example 5: Notifying any changes registering in a Cache to Processors and other Producers

RouteBuilder builder = new RouteBuilder() {
    public void configure() {
     from("cache://TestCache1")
     .process(new Processor() {
        public void process(Exchange exchange)
               throws Exception {
           String operation = (String) exchange.getIn().getHeader(CacheConstants.CACHE_OPERATION);
           String key = (String) exchange.getIn().getHeader(CacheConstants.CACHE_KEY);
           Object body = exchange.getIn().getBody();
           // Do something
        }
     })
   }
};

Example 6: Using Processors to selectively replace payload with cache values

RouteBuilder builder = new RouteBuilder() {
   public void configure() {
     //Message Body Replacer
     from("cache://TestCache1")
     .filter(header(CacheConstants.CACHE_KEY).isEqualTo("greeting"))
     .process(new CacheBasedMessageBodyReplacer("cache://TestCache1","farewell"))
     .to("direct:next");

    //Message Token replacer
    from("cache://TestCache1")
    .filter(header(CacheConstants.CACHE_KEY).isEqualTo("quote"))
    .process(new CacheBasedTokenReplacer("cache://TestCache1","novel","#novel#"))
    .process(new CacheBasedTokenReplacer("cache://TestCache1","author","#author#"))
    .process(new CacheBasedTokenReplacer("cache://TestCache1","number","#number#"))
    .to("direct:next");

    //Message XPath replacer
    from("cache://TestCache1").
    .filter(header(CacheConstants.CACHE_KEY).isEqualTo("XML_FRAGMENT"))
    .process(new CacheBasedXPathReplacer("cache://TestCache1","book1","/books/book1"))
    .process (new CacheBasedXPathReplacer("cache://TestCache1","book2","/books/book2"))
    .to("direct:next");
   }
};

Example 7: Getting an entry from the Cache

from("direct:start")
    // Prepare headers
    .setHeader(CacheConstants.CACHE_OPERATION, constant(CacheConstants.CACHE_OPERATION_GET))
    .setHeader(CacheConstants.CACHE_KEY, constant("Ralph_Waldo_Emerson")).
    .to("cache://TestCache1").
    // Check if entry was not found
    .choice().when(header(CacheConstants.CACHE_ELEMENT_WAS_FOUND).isNull()).
        // If not found, get the payload and put it to cache
        .to("cxf:bean:someHeavyweightOperation").
        .setHeader(CacheConstants.CACHE_OPERATION, constant(CacheConstants.CACHE_OPERATION_ADD))
        .setHeader(CacheConstants.CACHE_KEY, constant("Ralph_Waldo_Emerson"))
        .to("cache://TestCache1")
    .end()
    .to("direct:nextPhase");

Example 8: Checking for an entry in the Cache

Note: The CHECK command tests existence of an entry in the cache but doesn't place a message in the body.
from("direct:start")
    // Prepare headers
    .setHeader(CacheConstants.CACHE_OPERATION, constant(CacheConstants.CACHE_OPERATION_CHECK))
    .setHeader(CacheConstants.CACHE_KEY, constant("Ralph_Waldo_Emerson")).
    .to("cache://TestCache1").
    // Check if entry was not found
    .choice().when(header(CacheConstants.CACHE_ELEMENT_WAS_FOUND).isNull()).
        // If not found, get the payload and put it to cache
        .to("cxf:bean:someHeavyweightOperation").
        .setHeader(CacheConstants.CACHE_OPERATION, constant(CacheConstants.CACHE_OPERATION_ADD))
        .setHeader(CacheConstants.CACHE_KEY, constant("Ralph_Waldo_Emerson"))
        .to("cache://TestCache1")
    .end();

Management of EHCache

EHCache has its own statistics and management from JMX.
Here's a snippet on how to expose them via JMX in a Spring application context:
<bean id="ehCacheManagementService" class="net.sf.ehcache.management.ManagementService" init-method="init" lazy-init="false">
  <constructor-arg>
    <bean class="net.sf.ehcache.CacheManager" factory-method="getInstance"/>
  </constructor-arg>
  <constructor-arg>
    <bean class="org.springframework.jmx.support.JmxUtils" factory-method="locateMBeanServer"/>
  </constructor-arg>
  <constructor-arg value="true"/>
  <constructor-arg value="true"/>
  <constructor-arg value="true"/>
  <constructor-arg value="true"/>
</bean>
Of course you can do the same thing in straight Java:
ManagementService.registerMBeans(CacheManager.getInstance(), mbeanServer, true, true, true, true);
You can get cache hits, misses, in-memory hits, disk hits, size stats this way. You can also change CacheConfiguration parameters on the fly.

Cache replication Camel 2.8+

The Camel Cache component is able to distribute a cache across server nodes using several different replication mechanisms including: RMI, JGroups, JMS and Cache Server.
There are two different ways to make it work:
  1. You can configure ehcache.xml manually, or
  2. You can configure these three options:
    • cacheManagerFactory
    • eventListenerRegistry
    • cacheLoaderRegistry
Configuring Camel Cache replication using the first option is a bit of hard work as you have to configure all caches separately. So in a situation when the all names of caches are not known, using ehcache.xml is not a good idea.
The second option is much better when you want to use many different caches as you do not need to define options per cache. This is because replication options are set per CacheManager and per CacheEndpoint. Also it is the only way when cache names are not know at the development phase.
Note
It might be useful to read the EHCache manual to get a better understanding of the Camel Cache replication mechanism.

Example: JMS cache replication

JMS replication is the most powerful and secured replication method. Used together with Camel Cache replication makes it also rather simple. An example is available on a separate page.

18.2. cacheReplicationJMSExample

Example: JMS cache replication

Note
Please note, that this example is not finished yet. It is based on OSGi iTest instead of real life example. But no matter to that it is very good staring point for all Camel Cache Riders!
JMS replication is the most powerful and secured way. Used altogether with Camel Cache replication options is also the most easy way. This basic example is divided to few important steps that have to be made to get the cache replication to work.
The first step is to write your own implementation of CacheManagerFactory.
public class TestingCacheManagerFactory extends CacheManagerFactory {

[...]

    //This constructor is very useful when using Camel with Spring/Blueprint
    public TestingCacheManagerFactory(String xmlName, 
            TopicConnection replicationTopicConnection, Topic replicationTopic, 
            QueueConnection getQueueConnection, Queue getQueue) {
        this.xmlName = xmlName;
        this.replicationTopicConnection = replicationTopicConnection;
        this.replicationTopic = replicationTopic;
        this.getQueue = getQueue;
        this.getQueueConnection = getQueueConnection;
    }

    @Override
    protected synchronized CacheManager createCacheManagerInstance() {
        //Singleton
        if (cacheManager == null) {
            cacheManager = new WrappedCacheManager(getClass().getResourceAsStream(xmlName));
        }

        return cacheManager;
    }

    //Wrapping Ehcache's CacheManager to be able to add JMSCacheManagerPeerProvider
    public class WrappedCacheManager extends CacheManager {
        public WrappedCacheManager(InputStream xmlConfig) {
            super(xmlConfig);
            JMSCacheManagerPeerProvider jmsCMPP = new JMSCacheManagerPeerProvider(this,
                            replicationTopicConnection,
                            replicationTopic,
                            getQueueConnection,
                            getQueue,
                            AcknowledgementMode.AUTO_ACKNOWLEDGE,
                            true);
            cacheManagerPeerProviders.put(jmsCMPP.getScheme(), jmsCMPP);
            jmsCMPP.init();
        }
    }
}
Next step is to write your own implementation of CacheLoaderWrapper, the easiest one is:
public class WrappedJMSCacheLoader implements CacheLoaderWrapper {

[...]

    //This constructor is very useful when using Camel with Spring/Blueprint
    public WrappedJMSCacheLoader(QueueConnection getQueueConnection,
            Queue getQueue, AcknowledgementMode acknowledgementMode,
            int timeoutMillis) {
        this.getQueueConnection = getQueueConnection;
        this.getQueue = getQueue;
        this.acknowledgementMode = acknowledgementMode;
        this.timeoutMillis = timeoutMillis;
    }

    @Override
    public void init(Ehcache cache) {
        jmsCacheLoader = new JMSCacheLoader(cache, defaultLoaderArgument,
                getQueueConnection, getQueue, acknowledgementMode,
                timeoutMillis);
    }

    @Override
    public CacheLoader clone(Ehcache arg0) throws CloneNotSupportedException {
        return jmsCacheLoader.clone(arg0);
    }

    @Override
    public void dispose() throws CacheException {
        jmsCacheLoader.dispose();
    }

[...]

}
At the third step you can take care about Camel Cache options (prepare their values):
  • cacheManagerFactory
  • eventListenerRegistry
  • cacheLoaderRegistry
<beans xmlns="http://www.springframework.org/schema/beans"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
       xmlns:camel="http://camel.apache.org/schema/spring"
       xsi:schemaLocation="
       http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans.xsd
       http://camel.apache.org/schema/spring http://camel.apache.org/schema/spring/camel-spring.xsd">

    <bean id="queueConnection1" factory-bean="amqCF" factory-method="createQueueConnection" class="javax.jms.QueueConnection" />
    <bean id="topicConnection1" factory-bean="amqCF" factory-method="createTopicConnection" class="javax.jms.TopicConnection" />
    <bean id="queue1" class="org.apache.activemq.command.ActiveMQQueue">
        <constructor-arg ref="getQueue" />
    </bean>
    <bean id="topic1" class="org.apache.activemq.command.ActiveMQTopic">
        <constructor-arg ref="getTopic" />
    </bean>

    <bean id="jmsListener1" class="net.sf.ehcache.distribution.jms.JMSCacheReplicator">
        <constructor-arg index="0" value="true" />
        <constructor-arg index="1" value="true" />
        <constructor-arg index="2" value="true" />
        <constructor-arg index="3" value="true" />
        <constructor-arg index="4" value="false" />
        <constructor-arg index="5" value="0" />
    </bean>

    <bean id="jmsLoader1" class="my.cache.replication.WrappedJMSCacheLoader">
        <constructor-arg index="0" ref="queueConnection1" />
        <constructor-arg index="1" ref="queue1" />
        <constructor-arg index="2" value="AUTO_ACKNOWLEDGE" />
        <constructor-arg index="3" value="30000" />
    </bean>

    <bean id="cacheManagerFactory1" class="my.cache.replication.TestingCacheManagerFactory">
        <constructor-arg index="0" value="ehcache_jms_test.xml" />
        <constructor-arg index="1" ref="topicConnection1" />
        <constructor-arg index="2" ref="topic1" />
        <constructor-arg index="3" ref="queueConnection1" />
        <constructor-arg index="4" ref="queue1" />
    </bean>

    <bean id="eventListenerRegistry1" class="org.apache.camel.component.cache.CacheEventListenerRegistry">
        <constructor-arg>
            <list>
                <ref bean="jmsListener1" />
            </list>
        </constructor-arg>
    </bean>

    <bean id="cacheLoaderRegistry1" class="org.apache.camel.component.cache.CacheLoaderRegistry">
        <constructor-arg>
            <list>
                <ref bean="jmsLoader1"/>
            </list>
        </constructor-arg>
    </bean>
</beans>
The final step is to define some routes using Cache component
<beans xmlns="http://www.springframework.org/schema/beans"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
       xmlns:camel="http://camel.apache.org/schema/spring"
       xsi:schemaLocation="
       http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans.xsd
       http://camel.apache.org/schema/spring http://camel.apache.org/schema/spring/camel-spring.xsd">

    <bean id="getQueue" class="java.lang.String">
        <constructor-arg value="replicationGetQueue" />
    </bean>

    <bean id="getTopic" class="java.lang.String">
        <constructor-arg value="replicationTopic" />
    </bean>

    <!-- Import the xml file explained at step three -->
    <import resource="JMSReplicationCache1.xml"/>

    <camelContext xmlns="http://camel.apache.org/schema/spring">
        <camel:endpoint id="fooCache1" uri="cache:foo?cacheManagerFactory=#cacheManagerFactory1&ventListenerRegistry=#eventListenerRegistry1&acheLoaderRegistry=#cacheLoaderRegistry1"/>

        <camel:route>
            <camel:from uri="direct:addRoute"/>
            <camel:setHeader headerName="CamelCacheOperation">
                <camel:constant>CamelCacheAdd</camel:constant>
            </camel:setHeader>
            <camel:setHeader headerName="CamelCacheKey">
                <camel:constant>foo</camel:constant>
            </camel:setHeader>
            <camel:to ref="fooCache1"/>
        </camel:route>

    </camelContext>

    <bean id="amqCF" class="org.apache.activemq.ActiveMQConnectionFactory">
        <property name="brokerURL" value="vm://localhost?broker.persistent=false"/>
    </bean>

    <bean id="activemq" class="org.apache.camel.component.jms.JmsComponent">
        <property name="connectionFactory">
            <ref bean="amqCF"/>
        </property>
    </bean>

</beans>

Chapter 19. CDI

CDI Component

The camel-cdi component provides CDI integration.
The following example illustrates how to provide and consume a context with an associated route:
@Startup
@ApplicationScoped
@ContextName("cdi-context")
public class MyRouteBuilder extends RouteBuilder {
    @Override
    public void configure() throws Exception {
        from("direct:start").transform(body().prepend("Hi"));
    }
}
The following example illustrates how to inject a Camel context into a private field:
@Inject
@ContextName("cdi-context")
private CamelContext camelctx;
Note
For more information related to Apache Camel in a CDI environment, refer Camel CDI.

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".

Chapter 20. Cassandra

Camel Cassandra Component

Available as of Camel 2.15
Apache Cassandra is an open source NoSQL database designed to handle large amounts on commodity hardware. Like Amazon's DynamoDB, Cassandra has a peer-to-peer and master-less architecture to avoid a single point of failure and guarantee high availability. Like Google's BigTable, Cassandra data is structured using column families that can be accessed through the Thrift RPC API or a SQL-like API called CQL.
This component aims at integrating Cassandra 2.0+ using the CQL3 API (not the Thrift API). It is based on Cassandra Java Driver provided by DataStax.
Maven users must add the following dependency to their pom.xml:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-cassandraql</artifactId>
    <version>x.y.z</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

The endpoint can initiate the Cassandra connection or use an existing one.
URI Description
cql:localhost/keyspace Single host, default port, usual for testing
cql:host1,host2/keyspace Multi host, default port
cql:host1,host2:9042/keyspace Multi host, custom port
cql:host1,host2 Default port and keyspace
cql:bean:sessionRef Provided Session reference
cql:bean:clusterRef/keyspace Provided Cluster reference
To fine tune the Cassandra connection (SSL options, pooling options, load balancing policy, retry policy, reconnection policy), create your own cluster instance and give it to the Camel endpoint.

Endpoint Options

Option Default Description
clusterName
Cluster name
username and password
Session authentication
cql
CQL query. Can be overriden with a message header.
consistencyLevel
ANY, ONE, TWO, QUORUM, LOCAL_QUORUM...
prepareStatements true Use prepared statement (default) or not
resultSetConversionStrategy
ALL
How is ResultSet converted and transformed into message body ALL, ONE, LIMIT_10, LIMIT_100...

Messages

Incoming Message

The Camel Cassandra endpoint expects a bunch of simple objects (Object or Object[] or Collection<Object>) that will be bound to the CQL statement as query parameters. If the message body is null or empty, then the CQL query is executed without binding parameters.
Headers:
  • CamelCqlQuery (optional, String or RegularStatement): CQL query either as a plain String or built using the QueryBuilder.

Outgoing Message

The Camel Cassandra endpoint produces one or many Cassandra Row objects depending on the resultSetConversionStrategy:
  • List<Row> if resultSetConversionStrategy is ALL or LIMIT_[0-9]+
  • Single Row if resultSetConversionStrategy is ONE
  • Anything else, if resultSetConversionStrategy is a custom implementation of the ResultSetConversionStrategy

Repositories

Cassandra can be used to store message keys or messages for the idempotent and aggregation EIP.
Cassandra might not be the best tool for queuing use cases yet, read Cassandra anti-patterns queues and queue like datasets. It is advised to use LeveledCompaction and a small GC grace setting for these tables to allow tombstoned rows to be removed quickly.

Idempotent repository

The NamedCassandraIdempotentRepository stores message keys in a Cassandra table like this:
CREATE TABLE CAMEL_IDEMPOTENT (
  NAME varchar,   -- Repository name
  KEY varchar,    -- Message key
  PRIMARY KEY (NAME, KEY)
) WITH compaction = {'class':'LeveledCompactionStrategy'}
  AND gc_grace_seconds = 86400;
This repository implementation uses lightweight transactions (also known as Compare and Set) and requires Cassandra 2.0.7+.
Alternatively, the CassandraIdempotentRepository does not have a NAME column and can be extended to use a different data model.
Option Default Description
table CAMEL_IDEMPOTENT Table name
pkColumns NAME, KEY Primary key columns
name Repository name, value used for NAME column
ttl Key time to live
writeConsistencyLevel Consistency level used to insert/delete key: ANY, ONE, TWO, QUORUM, LOCAL_QUORUM
readConsistencyLevel Consistency level used to read/check key: ONE, TWO, QUORUM, LOCAL_QUORUM

Aggregation repository

The NamedCassandraAggregationRepository stores exchanges by correlation key in a Cassandra table like this:
CREATE TABLE CAMEL_AGGREGATION (
  NAME varchar,        -- Repository name
  KEY varchar,         -- Correlation id
  EXCHANGE_ID varchar, -- Exchange id
  EXCHANGE blob,       -- Serialized exchange
  PRIMARY KEY (NAME, KEY)
) WITH compaction = {'class':'LeveledCompactionStrategy'}
  AND gc_grace_seconds = 86400;
Alternatively, the CassandraAggregationRepository does not have a NAME column and can be extended to use a different data model.
Option Default Description
table CAMEL_AGGREGATION Table name
pkColumns NAME,KEY Primary key columns
exchangeIdColumn EXCHANGE_ID Exchange Id column
exchangeColumn EXCHANGE Exchange content column
name Repository name, value used for NAME column
ttl Exchange time to live
writeConsistencyLevel Consistency level used to insert/delete exchange: ANY, ONE, TWO, QUORUM, LOCAL_QUORUM
readConsistencyLevel Consistency level used to read/check exchange: ONE, TWO, QUORUM, LOCAL_QUORUM

Chapter 21. Chunk

Chunk Component

Available as of Camel 2.15
The chunk: component allows for processing a message using a Chunk template. This can be ideal when using Templating to generate responses for requests.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
<groupId>org.apache.camel</groupId>
<artifactId>camel-chunk</artifactId>
<version>x.x.x</version> <!-- use the same version as your Camel core version -->
</dependency>

URI format

chunk:templateName[?options]
Where templateName is the classpath-local URI of the template to invoke.
You can append query options to the URI in the following format, ?option=value&option=value&...

Options

Option
Default
Description
encoding
null
Character encoding of the resource content.
themesFolder
null
Alternative folder to scan for a template name.
themeSubfolder
null
Alternative subfolder to scan for a template name if themeFolder parameter is set.
themeLayer
null
A specific layer of a template file to use as template.
extension
null
Alternative extension to scan for a template name if themeFolder and themeSubfolder are set.
Chunk component will look for a specific template in themes folder with extensions .chtml or .cxml. If you need to specify a different folder or extensions, you will need to use the specific options listed above.

Chunk Context

Camel will provide exchange information in the Chunk context (just a Map). The Exchange is transferred as:
key
value
exchange
The Exchange itself.
exchange.properties
The Exchange properties.
headers
The headers of the In message.
camelContext
The Camel Context.
request
The In message.
body
The In message body.
response
The Out message (only for InOut message exchange pattern).

Dynamic templates

Camel provides two headers by which you can define a different resource location for a template or the template content itself. If any of these headers is set then Camel uses this over the endpoint configured resource. This allows you to provide a dynamic template at runtime.
Header
Type
Description
Support Version
ChunkConstants.CHUNK_RESOURCE_URI
String
A URI for the template resource to use instead of the endpoint configured.
ChunkConstants.CHUNK_TEMPLATE
String
The template to use instead of the endpoint configured.

Samples

For example you could use something like:
from("activemq:My.Queue").
to("chunk:template");
To use a Chunk template to formulate a response for a message for InOut message exchanges (where there is a JMSReplyTo header).
If you want to use InOnly and consume the message and send it to another destination you could use:
from("activemq:My.Queue").
to("chunk:template").
to("activemq:Another.Queue");
It's possible to specify what template the component should use dynamically via a header, so for example:
from("direct:in").
setHeader(ChunkConstants.CHUNK_RESOURCE_URI).constant("template").
to("chunk:dummy");
An example of Chunk component options use:
from("direct:in").
to("chunk:file_example?themeFolder=template&themeSubfolder=subfolder&extension=chunk");
In this example Chunk component will look for the file file_example.chunk in the folder template/subfolder.

The Email Sample

In this sample we want to use Chunk templating for an order confirmation email. The email template is laid out in Chunk as:
Dear {$headers.lastName}, {$headers.firstName}

Thanks for the order of {$headers.item}.

Regards Camel Riders Bookstore
{$body}

Chapter 22. Class

Class Component

Available as of Apache Camel 2.4
The class: component binds beans to message exchanges. It works in the same way as the Bean component but instead of looking up beans from a Registry it creates the bean based on the class name.

URI format

class:className[?options]
Where className is the fully qualified class name to create and use as bean.

Options

Name Type Default Description
method String null The method name that bean will be invoked. If not provided, Apache Camel will try to pick the method itself. In case of ambiguity an exception is thrown. See Bean Binding for more details.
multiParameterArray boolean false How to treat the parameters which are passed from the message body; if it is true, the In message body should be an array of parameters.
bean.xxx null
Camel 2.17: To configure additional options on the create bean instance from the class name. For example, to configure a foo option on the bean, use bean.foo=123.
You can append query options to the URI in the following format, ?option=value&option=value&...

Using

You simply use the class component just as the Bean component but by specifying the fully qualified classname instead. For example to use the MyFooBean you have to do as follows:
from("direct:start").to("class:org.apache.camel.component.bean.MyFooBean").to("mock:result");
You can also specify which method to invoke on the MyFooBean, for example hello:
from("direct:start").to("class:org.apache.camel.component.bean.MyFooBean?method=hello").to("mock:result");

Setting properties on the created instance

In the endpoint uri you can specify properties to set on the created instance, for example if it has a setPrefix method:
// Camel 2.17 onwards
from("direct:start")
    .to("class:org.apache.camel.component.bean.MyPrefixBean?bean.prefix=Bye")
    .to("mock:result");

// Camel 2.16 and older
from("direct:start")
    .to("class:org.apache.camel.component.bean.MyPrefixBean?prefix=Bye")
    .to("mock:result");
And you can also use the # syntax to refer to properties to be looked up in the Registry.
// Camel 2.17 onwards
from("direct:start")
    .to("class:org.apache.camel.component.bean.MyPrefixBean?bean.cool=#foo")
    .to("mock:result");

// Camel 2.16 and older
from("direct:start")
    .to("class:org.apache.camel.component.bean.MyPrefixBean?cool=#foo")
    .to("mock:result");
Which will lookup a bean from the Registry with the id foo and invoke the setCool method on the created instance of the MyPrefixBean class.
Note
See more details at the Bean component as the class component works in much the same way.

Chapter 23. CMIS

CMIS Component

Available as of Camel 2.11 The cmis component uses the Apache Chemistry client API and allows you to add/read nodes to/from a CMIS compliant content repositories.

URI Format

cmis://cmisServerUrl[?options]
You can append query options to the URI in the following format, ?options=value&option2=value&...

URI Options

Name Default Value Context Description
queryMode false Producer If true, will execute the cmis query from the message body and return result, otherwise will create a node in the cmis repository
query String Consumer The cmis query to execute against the repository. If not specified, the consumer will retrieve every node from the content repository by iterating the content tree recursively
username null Both Username for the cmis repository
password null Both Password for the cmis repository
repositoryId null Both The Id of the repository to use. If not specified the first available repository is used
pageSize 100 Both Number of nodes to retrieve per page
readCount 0 Both Max number of nodes to read
readContent false Both If set to true, the content of document node will be retrieved in addition to the properties

Usage

Message headers evaluated by the producer

Header Default Value Description
CamelCMISFolderPath / The current folder to use during the execution. If not specified will use the root folder
CamelCMISRetrieveContent false In queryMode this header will force the producer to retrieve the content of document nodes.
CamelCMISReadSize 0 Max number of nodes to read.
cmis:path null If CamelCMISFolderPath is not set, will try to find out the path of the node from this cmis property and it is name
cmis:name null If CamelCMISFolderPath is not set, will try to find out the path of the node from this cmis property and it is path
cmis:objectTypeId null The type of the node
cmis:contentStreamMimeType null The mimetype to set for a document

Message headers set during querying Producer operation

Header Type Description
CamelCMISResultCount Integer Number of nodes returned from the query.
pom.xml
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-cmis</artifactId>
    <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.11 or higher).

Chapter 24. Cometd

Cometd Component

The cometd: component is a transport for working with the jetty implementation of the cometd/bayeux protocol. Using this component in combination with the dojo toolkit library it's possible to push Apache Camel messages directly into the browser using an AJAX based mechanism.

URI format

cometd://host:port/channelName[?options]
The channelName represents a topic that can be subscribed to by the Apache Camel endpoints.

Examples

cometd://localhost:8080/service/mychannel
cometds://localhost:8443/service/mychannel
where cometds: represents an SSL configured endpoint.

Options

Name Default Value Description
resourceBase The root directory for the web resources or classpath. Use the protocol file: or classpath: depending if you want that the component loads the resource from file system or classpath. Classpath is required for OSGI deployment where the resources are packaged in the jar
baseResource Camel 2.7: The root directory for the web resources or classpath. Use the protocol file: or classpath: depending if you want that the component loads the resource from file system or classpath. Classpath is required for OSGI deployment where the resources are packaged in the jar
timeout 240000 The server side poll timeout in milliseconds. This is how long the server will hold a reconnect request before responding.
interval 0 The client side poll timeout in milliseconds. How long a client will wait between reconnects
maxInterval 30000 The max client side poll timeout in milliseconds. A client will be removed if a connection is not received in this time.
multiFrameInterval 1500 The client side poll timeout, if multiple connections are detected from the same browser.
jsonCommented true If true, the server will accept JSON wrapped in a comment and will generate JSON wrapped in a comment. This is a defence against Ajax Hijacking.
logLevel 1 0=none, 1=info, 2=debug.
sslContextParameters Camel 2.9: Reference to an org.apache.camel.util.jsse.SSLContextParameters object in the Registry. This reference overrides any configured SSLContextParameters at the component level. See chapter "Configuring Transport Security for Camel Components" in "Security Guide" and Using the JSSE Configuration Utility.
crossOriginFilterOn false Camel 2.10: If true, the server will support for cross-domain filtering
allowedOrigins * Camel 2.10: The origins domain that support to cross, if the crosssOriginFilterOn is true
filterPath Camel 2.10: The filterPath will be used by the CrossOriginFilter, if the crosssOriginFilterOn is true
disconnectLocalSession false Camel 2.10.5/2.11.1: (Producer only): Whether to disconnect local sessions after publishing a message to its channel. Disconnecting local session is needed as they are not swept by default by CometD, and therefore you can run out of memory.
You can append query options to the URI in the following format, ?option=value&option=value&...
Here is some examples of how to pass the parameters.
For file (when the Webapp resources are located in the Web Application directory) cometd://localhost:8080?resourceBase=file./webapp. For classpath (when the web resources are packaged inside the Webapp folder) cometd://localhost:8080?resourceBase=classpath:webapp.

Authentication

Available as of Camel 2.8
You can configure custom SecurityPolicy and Extension's to the CometdComponent which allows you to use authentication as documented here

Setting up SSL for Cometd Component

As of Camel 2.9, the Cometd component supports SSL/TLS configuration through the Camel JSSE Configuration Utility. This utility greatly decreases the amount of component specific code you need to write and is configurable at the endpoint and component levels. The following example demonstrates a Spring DSL-based configuration of the endpoint. You need to configure SSL on the CometdComponent class.
...
  <camel:sslContextParameters
      id="sslContextParameters">
    <camel:keyManagers
        keyPassword="keyPassword">
      <camel:keyStore
          resource="/users/home/server/keystore.jks"
          password="keystorePassword"/>
    </camel:keyManagers>
    <camel:trustManagers>
      <camel:keyStore
          resource="/users/home/server/keystore.jks"
          password="keystorePassword"/>
    </camel:keyManagers>
  </camel:sslContextParameters>

  <bean id="cometd" class="org. apache. camel. component.cometd.CometdComponent">
    <property name="sslContextParameters" ref="sslContextParameters"/>
  </bean>
  ...
  <to uri="cometds://127.0.0.1:443/service/test?baseResource=file:./target/test-classes/webapp&timeout=240000&interval=0&maxInterval=30000&multiFrameInterval=1500&jsonCommented=true&logLevel=2&sslContextParameters=#sslContextParameters"/>...

Chapter 25. Context

Context Component

Available as of Camel 2.7
The context component allows you to create new Camel Components from a CamelContext with a number of routes which is then treated as a black box, allowing you to refer to the local endpoints within the component from other CamelContexts.
It is similar to the Routebox component in idea, though the Context component tries to be really simple for end users; just a simple convention over configuration approach to refer to local endpoints inside the CamelContext Component.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-context</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

context:camelContextId:localEndpointName[?options]

Or you can omit the "context:" prefix.
camelContextId:localEndpointName[?options]

  • camelContextId is the ID you used to register the CamelContext into the Registry.
  • localEndpointName can be a valid Camel URI evaluated within the black box CamelContext. Or it can be a logical name which is mapped to any local endpoints. For example if you locally have endpoints like direct:invoices and seda:purchaseOrders inside a CamelContext of id supplyChain, then you can just use the URIs supplyChain:invoices or supplyChain:purchaseOrders to omit the physical endpoint kind and use pure logical URIs.
You can append query options to the URI in the following format, ?option=value&option=value&...

Example

In this example we'll create a black box context, then we'll use it from another CamelContext.

Defining the context component

First you need to create a CamelContext, add some routes in it, start it and then register the CamelContext into the Registry (JNDI, Spring, Guice or OSGi etc).
This can be done in the usual Camel way from this test case (see the createRegistry() method); this example shows Java and JNDI being used...
// lets create our black box as a camel context and a set of routes
DefaultCamelContext blackBox = new DefaultCamelContext(registry);
blackBox.setName("blackBox");
blackBox.addRoutes(new RouteBuilder() {
    @Override
    public void configure() throws Exception {
        // receive purchase orders, lets process it in some way then send an invoice
        // to our invoice endpoint
        from("direct:purchaseOrder").
          setHeader("received").constant("true").
          to("direct:invoice");
    }
});
blackBox.start();

registry.bind("accounts", blackBox);

Notice in the above route we are using pure local endpoints (direct and seda). Also note we expose this CamelContext using the accounts ID. We can do the same thing in Spring via
<camelContext id="accounts" xmlns="http://camel.apache.org/schema/spring">
  <route> 
    <from uri="direct:purchaseOrder"/>
    ...
    <to uri="direct:invoice"/>
  </route>
</camelContext>

Using the context component

Then in another CamelContext we can then refer to this "accounts black box" by just sending to accounts:purchaseOrder and consuming from accounts:invoice.
If you prefer to be more verbose and explicit you could use context:accounts:purchaseOrder or even context:accounts:direct://purchaseOrder if you prefer. But using logical endpoint URIs is preferred as it hides the implementation detail and provides a simple logical naming scheme.
For example if we wish to then expose this accounts black box on some middleware (outside of the black box) we can do things like...
<camelContext xmlns="http://camel.apache.org/schema/spring">
  <route> 
    <!-- consume from an ActiveMQ into the black box -->
    <from uri="activemq:Accounts.PurchaseOrders"/>
    <to uri="accounts:purchaseOrders"/>
  </route>
  <route> 
    <!-- lets send invoices from the black box to a different ActiveMQ Queue -->
    <from uri="accounts:invoice"/>
    <to uri="activemq:UK.Accounts.Invoices"/>
  </route>
</camelContext>

Naming endpoints

A context component instance can have many public input and output endpoints that can be accessed from outside it's CamelContext. When there are many it is recommended that you use logical names for them to hide the middleware as shown above.
However when there is only one input, output or error/dead letter endpoint in a component we recommend using the common posix shell names in, out and err

Chapter 26. ControlBus Component

ControlBus Component

Available as of Camel 2.11
The controlbus: component provides easy management of Camel applications based on the Control Bus EIP pattern. For example, by sending a message to an endpoint, you can control the lifecycle of routes or gather performance statistics.
controlbus:command[?options]
Where command can be any string to identify which type of command to use.

Commands

Command Description
route To control routes using the routeId and action parameter. The special keyword current indicates the current route.
language Allows you to specify a Language to use for evaluating the message body. If there is any result from the evaluation, then the result is put in the message body.

Options

Name Default Value Description
routeId null To specify a route by its id.
action null To denote an action that can be either: start, stop, or status. To either start or stop a route, or to get the status of the route as output in the message body. You can use suspend and resume from Camel 2.11.1 onwards to either suspend or resume a route. And from Camel 2.11.1 onwards you can use stats to get performance statics returned in XML format; the routeId option can be used to define which route to get the performance stats for, if routeId is not defined, then you get statistics for the entire CamelContext.
async false Whether to execute the control bus task asynchronously. Important: If this option is enabled, then any result from the task is not set on the Exchange. This is only possible if executing tasks synchronously.
loggingLevel INFO Logging level used for logging when task is done, or if any exceptions occurred during processing the task.
You can append query options to the URI in the following format, ?option=value&option=value&...

Samples

Using route command

The route command allows you to do common tasks on a given route very easily, for example to start a route, you can send an empty message to this endpoint:
template.sendBody("controlbus:route?routeId=foo&action=start", null);
To get the status of the route, you can do:
String status = template.requestBody("controlbus:route?routeId=foo&action=status", null, String.class);

Getting performance statistics

Available as of Camel 2.11.1
This requires JMX to be enabled (is by default) then you can get the performance statics per route, or for the CamelContext. For example to get the statics for a route named foo, we can do:
String xml = template.requestBody("controlbus:route?routeId=foo&action=stats", null, String.class);
The returned statics is in XML format. Its the same data you can get from JMX with the dumpRouteStatsAsXml operation on the ManagedRouteMBean.
To get statics for the entire CamelContext you just omit the routeId parameter as shown below:
String xml = template.requestBody("controlbus:route?action=stats", null, String.class);

Using Simple language

You can use the Simple language with the control bus, for example to stop a specific route, you can send a message to the "controlbus:language:simple" endpoint containing the following message:
template.sendBody("controlbus:language:simple", "${camelContext.stopRoute('myRoute')}");
As this is a void operation, no result is returned. However, if you want the route status you can do:
String status = template.requestBody("controlbus:language:simple", "${camelContext.getRouteStatus('myRoute')}", String.class);
Notice: its easier to use the route command to control lifecycle of routes. The language command allows you to execute a language script that has stronger powers such as Groovy or to some extend the Simple language.
For example to shutdown Camel itself you can do:
template.sendBody("controlbus:language:simple?async=true", "${camelContext.stop()}");
Notice we use async=true to stop Camel asynchronously as otherwise we would be trying to stop Camel while it was in-flight processing the message we sent to the control bus component.
Note
You can also use other languages such as Groovy, etc.

Chapter 27. CouchDB

Camel CouchDB component

Available as of Camel 2.11
The couchdb: component allows you to treat CouchDB instances as a producer or consumer of messages. Using the lightweight LightCouch API, this camel component has the following features:
  • As a consumer, monitors couch changesets for inserts, updates and deletes and publishes these as messages into camel routes.
  • As a producer, can save or update documents into couch.
  • Can support as many endpoints as required, eg for multiple databases across multiple instances.
  • Ability to have events trigger for only deletes, only inserts/updates or all (default).
  • Headers set for sequenceId, document revision, document id, and HTTP method type.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-couchdb</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

couchdb:http://hostname[:port]/database?[options]
Where hostname is the hostname of the running couchdb instance. Port is optional and if not specified then defaults to 5984.

Options

Property Default Description
deletes true document deletes are published as events
updates true document inserts/updates are published as events
heartbeat 30000 how often to send an empty message to keep socket alive in millis
createDatabase true create the database if it does not already exist
username null username in case of authenticated databases
password null password for authenticated databases

Headers

The following headers are set on exchanges during message transport.
Property Value
CouchDbDatabase the database the message came from
CouchDbSeq the couchdb changeset sequence number of the update / delete message
CouchDbId the couchdb document id
CouchDbRev the couchdb document revision
CouchDbMethod the method (delete / update)
Headers are set by the consumer once the message is received. The producer will also set the headers for downstream processors once the insert/update has taken place. Any headers set prior to the producer are ignored. That means for example, if you set CouchDbId as a header, it will not be used as the id for insertion, the id of the document will still be used.

Message Body

The component will use the message body as the document to be inserted. If the body is an instance of String, then it will be marshalled into a GSON object before insert. This means that the string must be valid JSON or the insert / update will fail. If the body is an instance of a com.google.gson.JsonElement then it will be inserted as is. Otherwise the producer will throw an exception of unsupported body type.

Samples

For example if you wish to consume all inserts, updates and deletes from a CouchDB instance running locally, on port 9999 then you could use the following:
from("couchdb:http://localhost:9999").process(someProcessor);
If you were only interested in deletes, then you could use the following
from("couchdb:http://localhost:9999?updates=false").process(someProcessor);
If you wanted to insert a message as a document, then the body of the exchange is used
from("someProducingEndpoint").process(someProcessor).to("couchdb:http://localhost:9999")

Chapter 28. Crypto (Digital Signatures)

Crypto component for Digital Signatures

Available as of Apache Camel 2.3
Using Apache Camel cryptographic endpoints and Java's Cryptographic extension it is easy to create Digital Signatures for Exchanges. Apache Camel provides a pair of flexible endpoints which get used in concert to create a signature for an exchange in one part of the exchange's workflow and then verify the signature in a later part of the workflow.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-crypto</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".
It is easy to create digital signatures for exchanges with the help of camel cryptographic endpoints and Java's cryptographic extension. However, Camel also provides a pair of flexible endpoints. Initially, it creates a signature for an exchange and then verify the signature in the later part of the workflow.
For example, you can start by loading a keystore for binding to JNDI, so that Camel can locate it from the bean registry, as follows:
// Java
KeyStore keystore = KeyStore.getInstance(KeyStore.getDefaultType());
InputStream in = getClass().getResourceAsStream("/my-keystore.ks");
keystore.load(in, "my-keystore-password".toCharArray());
Certificate cert = keystore.getCertificate("my-certificate-alias");

KeyStoreParameters keystoreParameters = new KeyStoreParameters();
keystoreParameters.setPassword("my-keystore-password");
keystoreParameters.setResource("./my-keystore.ks");

InitialContext initialContext = new InitialContext();
initialContext.bind("signatureParams", keystoreParameters);
initialContext.bind("keystore", keystore);
initialContext.bind("myPublicKey", cert.getPublicKey());
initialContext.bind("myCert", cert);
initialContext.bind("myPrivateKey", keystore.getKey("my-certificate-alias", "my-keystore-password".toCharArray()));
And here is a camel route that signs and verifies an exchange:
// Java
CamelContext camelContext = new DefaultCamelContext();

camelContext.addRoutes(new RouteBuilder() {
    @Override
    public void configure() throws Exception {
        from("direct:sign")
            .to("crypto:sign://basic?privateKey=#myPrivateKey")
            .to("direct:verify");
        from("direct:verify")
            .to("crypto:verify://basic?publicKey=#myPublicKey")
            .to("mock:result");
    }
});

Introduction

Digital signatures make use Asymmetric Cryptographic techniques to sign messages. From a (very) high level, the algorithms use pairs of complimentary keys with the special property that data encrypted with one key can only be decrypted with the other. One, the private key, is closely guarded and used to 'sign' the message while the other, public key, is shared around to anyone interested in verifying your messages. Messages are signed by encrypting a digest of the message with the private key. This encrypted digest is transmitted along with the message. On the other side the verifier recalculates the message digest and uses the public key to decrypt the the digest in the signature. If both digest match the verifier knows only the holder of the private key could have created the signature.
Apache Camel uses the Signature service from the Java Cryptographic Extension to do all the heavy cryptographic lifting required to create exchange signatures. The following are some excellent sources for explaining the mechanics of Cryptography, Message digests and Digital Signatures and how to leverage them with the JCE.
  • Bruce Schneier's Applied Cryptography
  • Beginning Cryptography with Java by David Hook
  • The ever insightful, Wikipedia Digital_signatures

URI format

As mentioned Apache Camel provides a pair of crypto endpoints to create and verify signatures
crypto:sign:name[?options]
crypto:verify:name[?options]
  • crypto:sign creates the signature and stores it in the Header keyed by the constant org.apache.camel.component.crypto.DigitalSignatureConstants.SIGNATURE, i.e. "CamelDigitalSignature".
  • crypto:verify will read in the contents of this header and do the verification calculation.
In order to correctly function, sign and verify need to share a pair of keys, sign requiring a PrivateKey and verify a PublicKey (or a Certificate containing one). Using the JCE is is very simple to generate these key pairs but it is usually most secure to use a KeyStore to house and share your keys. The DSL is very flexible about how keys are supplied and provides a number of mechanisms.
Note a crypto:sign endpoint is typically defined in one route and the complimentary crypto:verify in another, though for simplicity in the examples they appear one after the other. It goes without saying that both sign and verify should be configured identically.

Options

Name Type Default Description
algorithm String DSA The name of the JCE Signature algorithm that will be used.
alias String null An alias name that will be used to select a key from the keystore.
bufferSize Integer 2048 the size of the buffer used in the signature process.
certificate Certificate null A Certificate used to verify the signature of the exchange's payload. Either this or a Public Key is required.
keystore KeyStore null A reference to a JCE Keystore that stores keys and certificates used to sign and verify.
provider String null The name of the JCE Security Provider that should be used.
privateKey PrivatKey null The private key used to sign the exchange's payload.
publicKey PublicKey null The public key used to verify the signature of the exchange's payload.
secureRandom secureRandom null A reference to a SecureRandom object that wil lbe used to initialize the Signature service.
password char[] null The password for the keystore.
clearHeaders String true Remove camel crypto headers from Message after a verify operation (value can be "true"/{{"false"}}).

1) Raw keys

The most basic way to way to sign and verify an exchange is with a KeyPair as follows.
from("direct:keypair").to("crypto:sign://basic?privateKey=#myPrivateKey", "crypto:verify://basic?publicKey=#myPublicKey", "mock:result");
The same can be achieved with the Spring XML Extensions using references to keys
<route>
    <from uri="direct:keypair"/>
    <to uri="crypto:sign://basic?privateKey=#myPrivateKey" />
    <to uri="crypto:verify://basic?publicKey=#myPublicKey" />
    <to uri="mock:result"/>
</route>

2) KeyStores and Aliases.

The JCE provides a very versatile KeyStore for housing pairs of PrivateKeys and Certificates keeping them encrypted and password protected. They can be retrieved from it by applying an alias to the retrieval apis. There are a number of ways to get keys and Certificates into a keystore most often this is done with the external 'keytool' application. This is a good example of using keytool to create a KeyStore with a self signed Cert and Private key.
The examples use a Keystore with a key and cert aliased by 'bob'. The password for the keystore and the key is 'letmein'
The following shows how to use a Keystore via the Fluent builders, it also shows how to load and initialize the keystore.
from("direct:keystore").to("crypto:sign://keystore?keystore=#keystore&alias=bob&password=letmein", "crypto:verify://keystore?keystore=#keystore&alias=bob", "mock:result");
Again in Spring a ref is used to lookup an actual keystore instance.
<route>
    <from uri="direct:keystore"/>
    <to uri="crypto:sign://keystore?keystore=#keystore&lias=bob&assword=letmein" />
    <to uri="crypto:verify://keystore?keystore=#keystore&lias=bob" />
    <to uri="mock:result"/>
</route>

3) Changing JCE Provider and Algorithm

Changing the Signature algorithm or the Security provider is a simple matter of specifying their names. You will need to also use Keys that are compatible with the algorithm you choose.
KeyPairGenerator keyGen = KeyPairGenerator.getInstance("RSA");
keyGen.initialize(512, new SecureRandom());
keyPair = keyGen.generateKeyPair();
PrivateKey privateKey = keyPair.getPrivate();
PublicKey publicKey = keyPair.getPublic();

// we can set the keys explicitly on the endpoint instances.
context.getEndpoint("crypto:sign://rsa?algorithm=MD5withRSA", DigitalSignatureEndpoint.class).setPrivateKey(privateKey);
context.getEndpoint("crypto:verify://rsa?algorithm=MD5withRSA", DigitalSignatureEndpoint.class).setPublicKey(publicKey);
from("direct:algorithm").to("crypto:sign://rsa?algorithm=MD5withRSA", "crypto:verify://rsa?algorithm=MD5withRSA", "mock:result");
from("direct:provider").to("crypto:sign://provider?privateKey=#myPrivateKey&provider=SUN", "crypto:verify://provider?publicKey=#myPublicKey&provider=SUN", "mock:result");
or
<route>
    <from uri="direct:algorithm"/>
    <to uri="crypto:sign://rsa?algorithm=MD5withRSA&rivateKey=#rsaPrivateKey" />
    <to uri="crypto:verify://rsa?algorithm=MD5withRSA&ublicKey=#rsaPublicKey" />
    <to uri="mock:result"/>
</route>
<route>
    <from uri="direct:provider"/>
    <to uri="crypto:sign://provider?privateKey=#myPrivateKey&rovider=SUN" />
    <to uri="crypto:verify://provider?publicKey=#myPublicKey&rovider=SUN" />
    <to uri="mock:result"/>
</route>

4) Changing the Signature Mesasge Header

It may be desirable to change the message header used to store the signature. A different header name can be specified in the route definition as follows
from("direct:signature-header").to("crypto:sign://another?privateKey=#myPrivateKey&signatureHeader=AnotherDigitalSignature",
                                   "crypto:verify://another?publicKey=#myPublicKey&signatureHeader=AnotherDigitalSignature", "mock:result");
or
<route>
    <from uri="direct:signature-header"/>
    <to uri="crypto:sign://another?privateKey=#myPrivateKey&ignatureHeader=AnotherDigitalSignature" />
    <to uri="crypto:verify://another?publicKey=#myPublicKey&ignatureHeader=AnotherDigitalSignature" />
    <to uri="mock:result"/>
</route>

5) Changing the buffersize

In case you need to update the size of the buffer...
from("direct:buffersize").to("crypto:sign://buffer?privateKey=#myPrivateKey&buffersize=1024", "crypto:verify://buffer?publicKey=#myPublicKey&buffersize=1024", "mock:result");
or
<route>
    <from uri="direct:buffersize" />
    <to uri="crypto:sign://buffer?privateKey=#myPrivateKey&uffersize=1024" />
    <to uri="crypto:verify://buffer?publicKey=#myPublicKey&uffersize=1024" />
    <to uri="mock:result"/>
</route>

6) Supplying Keys dynamically.

When using a Recipient list or similar EIP the recipient of an exchange can vary dynamically. Using the same key across all recipients may neither be feasible or desirable. It would be useful to be able to specify the signature keys dynamically on a per exchange basis. The exchange could then be dynamically enriched with the key of its target recipient prior to signing. To facilitate this the signature mechanisms allow for keys to be supplied dynamically via the message headers below
  • Exchange.SIGNATURE_PRIVATE_KEY, "CamelSignaturePrivateKey"
  • Exchange.SIGNATURE_PUBLIC_KEY_OR_CERT, "CamelSignaturePublicKeyOrCert"
from("direct:headerkey-sign").to("crypto:sign://alias");
from("direct:headerkey-verify").to("crypto:verify://alias", "mock:result");
or
<route>
    <from uri="direct:headerkey-sign"/>
    <to uri="crypto:sign://headerkey" />
</route>       
<route>
    <from uri="direct:headerkey-verify"/>
    <to uri="crypto:verify://headerkey" />
    <to uri="mock:result"/>
</route>
Better again would be to dynamically supply a keystore alias. Again the alias can be supplied in a message header
  • Exchange.KEYSTORE_ALIAS, "CamelSignatureKeyStoreAlias"
from("direct:alias-sign").to("crypto:sign://alias?keystore=#keystore");
from("direct:alias-verify").to("crypto:verify://alias?keystore=#keystore", "mock:result");
or
<route>
    <from uri="direct:alias-sign"/>
    <to uri="crypto:sign://alias?keystore=#keystore" />
</route>       
<route>
    <from uri="direct:alias-verify"/>
    <to uri="crypto:verify://alias?keystore=#keystore" />
    <to uri="mock:result"/>
</route>
The header would be set as follows
Exchange unsigned = getMandatoryEndpoint("direct:alias-sign").createExchange();
unsigned.getIn().setBody(payload);
unsigned.getIn().setHeader(DigitalSignatureConstants.KEYSTORE_ALIAS, "bob");
unsigned.getIn().setHeader(DigitalSignatureConstants.KEYSTORE_PASSWORD, "letmein".toCharArray());
template.send("direct:alias-sign", unsigned);
Exchange signed = getMandatoryEndpoint("direct:alias-sign").createExchange();
signed.getIn().copyFrom(unsigned.getOut());
signed.getIn().setHeader(KEYSTORE_ALIAS, "bob");
template.send("direct:alias-verify", signed);
See also:

Chapter 29. CXF

CXF Component

The cxf: component provides integration with Apache CXF for connecting to JAX-WS services hosted in CXF.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-cxf</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>
Note
If you want to learn about CXF dependencies, see the WHICH-JARS text file.
Note
When using CXF as a consumer, the CAMEL:CXF Bean Component allows you to factor out how message payloads are received from their processing as a RESTful or SOAP web service. This has the potential of using a multitude of transports to consume web services. The bean component's configuration is also simpler and provides the fastest method to implement web services using Camel and CXF.
Note
When using CXF in streaming modes (see DataFormat option), then also read about Stream caching.

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".
The CXF component integrates with the JBoss EAP webservices susbsystem that also uses Apache CXF. For more information, see JAX-WS.
Note
At present, the Camel on EAP subsystem does not support CXF or Restlet consumers. However, it is possible to mimic CXF consumer behaviour, using the CamelProxy.

URI format

cxf:bean:cxfEndpoint[?options]
Where cxfEndpoint represents a bean ID that references a bean in the Spring bean registry. With this URI format, most of the endpoint details are specified in the bean definition.
cxf://someAddress[?options]
Where someAddress specifies the CXF endpoint's address. With this URI format, most of the endpoint details are specified using options.
For either style above, you can append options to the URI as follows:
cxf:bean:cxfEndpoint?wsdlURL=wsdl/hello_world.wsdl&dataFormat=PAYLOAD

Options

Name Required Description
wsdlURL No
The location of the WSDL. WSDL is obtained from endpoint address by default. For example:
file://local/wsdl/hello.wsdl or wsdl/hello.wsdl
serviceClass Yes
The name of the SEI (Service Endpoint Interface) class. This class can have, but does not require, JSR181 annotations.  Since 2.0, this option is only required by POJO mode. If the wsdlURL option is provided, serviceClass is not required for PAYLOAD and MESSAGE mode. When wsdlURL option is used without serviceClass, the serviceName and portName (endpointName for Spring configuration) options MUST be provided.
Since 2.0, it is possible to use # notation to reference a serviceClass object instance from the registry..
Please be advised that the referenced object cannot be a Proxy (Spring AOP Proxy is OK) as it relies on Object.getClass().getName() method for non Spring AOP Proxy.
Since 2.8, it is possible to omit both wsdlURL and serviceClass options for PAYLOAD and MESSAGE mode. When they are omitted, arbitrary XML elements can be put in CxfPayload's body in PAYLOAD mode to facilitate CXF Dispatch Mode.
For example: org.apache.camel.Hello
serviceName Only if more than one serviceName present in WSDL
The service name this service is implementing, it maps to the wsdl:service@name. For example:
{http://org.apache.camel}ServiceName
endpointName Only if more than one portName under the serviceName is present, and it is required for camel-cxf consumer since camel 2.2
The port name this service is implementing, it maps to the wsdl:port@name. For example:
{http://org.apache.camel}PortName
dataFormat No Which message data format the CXF endpoint supports. Possible values are: POJO (default), PAYLOAD, MESSAGE.
relayHeaders No Please see the Description ofrelayHeadersoption section for this option. Should a CXF endpoint relay headers along the route. Currently only available when dataFormat=POJODefault: trueExample: true, false
wrapped No Which kind of operation the CXF endpoint producer will invoke. Possible values are: true, false (default).
wrappedStyle No Since 2.5.0 The WSDL style that describes how parameters are represented in the SOAP body. If the value is false, CXF will chose the document-literal unwrapped style, If the value is true, CXF will chose the document-literal wrapped style
setDefaultBus No Deprecated: Specifies whether or not to use the default CXF bus for this endpoint. Possible values are: true, false (default). This option is deprecated and you should use defaultBus from Camel 2.16 onwards.
defaultBus No Deprecated: Specifies whether or not to use the default CXF bus for this endpoint. Possible values are: true, false (default). This option is deprecated and you should use defaultBus from Camel 2.16 onwards.
bus No
Use # notation to reference a bus object from the registry—for example, bus=#busName. The referenced object must be an instance of org.apache.cxf.Bus.
By default, uses the default bus created by CXF Bus Factory.
cxfBinding No
Use # notation to reference a CXF binding object from the registry—for example, cxfBinding=#bindingName. The referenced object must be an instance of org.apache.camel.component.cxf.CxfBinding.
headerFilterStrategy No Use # notation to reference a header filter strategy object from the registry—for example, headerFilterStrategy=#strategyName. The referenced object must be an instance of org.apache.camel.spi.HeaderFilterStrategy.
loggingFeatureEnabled No New in 2.3, this option enables CXF Logging Feature which writes inbound and outbound SOAP messages to log. Possible values are: true, false (default).
defaultOperationName No
New in 2.4, this option will set the default operationName that will be used by the CxfProducer that invokes the remote service. For example:
defaultOperationName=greetMe
defaultOperationNamespace No
New in 2.4, this option will set the default operationNamespace that will be used by the CxfProducer which invokes the remote service. For example:
defaultOperationNamespace= http://apache.org/hello_world_soap_http
synchronous No New in 2.5, this option will let CXF endpoint decide to use sync or async API to do the underlying work. The default value is false, which means camel-cxf endpoint will try to use async API by default.
publishedEndpointUrl No
New in 2.5, this option overrides the endpoint URL that appears in the published WSDL that is accessed using the service address URL plus ?wsdl. For example:
publshedEndpointUrl=http://example.com/service
properties.propName No Camel 2.8: Allows you to set custom CXF properties in the endpoint URI. For example, setting properties.mtom-enabled=true to enable MTOM. To make sure that CXF does not switch the thread when starting the invocation, you can set properties.org.apache.cxf.interceptor.OneWayProcessorInterceptor.USE_ORIGINAL_THREAD=true.
allowStreaming No New in 2.8.2. This option controls whether the CXF component, when running in PAYLOAD mode (see below), will DOM parse the incoming messages into DOM Elements or keep the payload as a javax.xml.transform.Source object that would allow streaming in some cases.
skipFaultLogging No New in 2.11. This option controls whether the PhaseInterceptorChain skips logging the Fault that it catches.
cxfEndpointConfigurer
No
New in Camel 2.11. This option could apply the implementation of org.apache.camel.component.cxf.CxfEndpointConfigurer which supports to configure the CXF endpoint in programmatic way. Since Camel 2.15.0, user can configure the CXF server and client by implementing configure{Server|Client} method of CxfEndpointConfigurer.
username
No
New in Camel 2.12.3 This option is used to set the basic authentication information of username for the CXF client.
password
No
New in Camel 2.12.3 This option is used to set the basic authentication information of password for the CXF client.
continuationTimeout
No
New in Camel 2.14.0 This option is used to set the CXF continuation timeout which could be used in CxfConsumer by default when the CXF server is using Jetty or Servlet transport. (Before Camel 2.14.0, CxfConsumer just set the continuation timeout to be 0, which means the continuation suspend operation never timeout.)
Default: 30000 Example: continuation=80000
The serviceName and portName are QNames, so if you provide them be sure to prefix them with their {namespace} as shown in the examples above.

The descriptions of the dataformats

DataFormat Description
POJO POJOs (plain old Java objects) are the Java parameters to the method being invoked on the target server. Both Protocol and Logical JAX-WS handlers are supported.
PAYLOAD PAYLOAD is the message payload (the contents of the soap:body) after message configuration in the CXF endpoint is applied. Only Protocol JAX-WS handler is supported. Logical JAX-WS handler is not supported.
MESSAGE MESSAGE is the raw message that is received from the transport layer. It is not suppose to touch or change Stream, some of the CXF interceptors will be removed if you are using this kind of DataFormat so you can't see any soap headers after the camel-cxf consumer and JAX-WS handler is not supported.
CXF_MESSAGE New in Camel 2.8.2, CXF_MESSAGE allows for invoking the full capabilities of CXF interceptors by converting the message from the transport layer into a raw SOAP message
You can determine the data format mode of an exchange by retrieving the exchange property, CamelCXFDataFormat. The exchange key constant is defined in org.apache.camel.component.cxf.CxfConstants.DATA_FORMAT_PROPERTY.

Configuring the CXF Endpoints with Apache Aries Blueprint.

Since Camel 2.8, there is support for using Aries blueprint dependency injection for your CXF endpoints. The schema is very similar to the Spring schema, so the transition is fairly transparent.
For example:
 <blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0"
            xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
            xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.0.0"
            xmlns:camel-cxf="http://camel.apache.org/schema/blueprint/cxf"
 	   xmlns:cxfcore="http://cxf.apache.org/blueprint/core"
            xsi:schemaLocation="http://www.osgi.org/xmlns/blueprint/v1.0.0 https://www.osgi.org/xmlns/blueprint/v1.0.0/blueprint.xsd">
 
       <camel-cxf:cxfEndpoint id="routerEndpoint"
                      address="http://localhost:9001/router"
                      serviceClass="org.apache.servicemix.examples.cxf.HelloWorld">
         <camel-cxf:properties>
             <entry key="dataFormat" value="MESSAGE"/>
         </camel-cxf:properties>
      </camel-cxf:cxfEndpoint>
 
      <camel-cxf:cxfEndpoint id="serviceEndpoint"
			address="http://localhost:9000/SoapContext/SoapPort"
                     serviceClass="org.apache.servicemix.examples.cxf.HelloWorld">
    </camel-cxf:cxfEndpoint>

    <camelContext xmlns="http://camel.apache.org/schema/blueprint">
        <route>
            <from uri="routerEndpoint"/>
            <to uri="log:request"/>
        </route>
    </camelContext>

</blueprint>


Currently the endpoint element is the first supported CXF namespacehandler.
You can also use the bean references just as in spring
<blueprint xmlns="http://www.osgi.org/xmlns/blueprint/v1.0.0"
           xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
           xmlns:cm="http://aries.apache.org/blueprint/xmlns/blueprint-cm/v1.0.0"
           xmlns:jaxws="http://cxf.apache.org/blueprint/jaxws"
           xmlns:cxf="http://cxf.apache.org/blueprint/core"
           xmlns:camel="http://camel.apache.org/schema/blueprint"
           xmlns:camelcxf="http://camel.apache.org/schema/blueprint/cxf"
           xsi:schemaLocation="
             http://www.osgi.org/xmlns/blueprint/v1.0.0 https://www.osgi.org/xmlns/blueprint/v1.0.0/blueprint.xsd
             http://cxf.apache.org/blueprint/jaxws http://cxf.apache.org/schemas/blueprint/jaxws.xsd
             http://cxf.apache.org/blueprint/core http://cxf.apache.org/schemas/blueprint/core.xsd
             ">

    <camelcxf:cxfEndpoint id="reportIncident"
                     address="/camel-example-cxf-blueprint/webservices/incident"
                     wsdlURL="META-INF/wsdl/report_incident.wsdl"
                     serviceClass="org.apache.camel.example.reportincident.ReportIncidentEndpoint">
    </camelcxf:cxfEndpoint>

    <bean id="reportIncidentRoutes" class="org.apache.camel.example.reportincident.ReportIncidentRoutes" />

    <camelContext xmlns="http://camel.apache.org/schema/blueprint">
        <routeBuilder ref="reportIncidentRoutes"/>
    </camelContext>

</blueprint>


How to enable CXF's LoggingOutInterceptor in MESSAGE mode

CXF's LoggingOutInterceptor outputs outbound message that goes on the wire to logging system (java.util.logging). Since the LoggingOutInterceptor is in PRE_STREAM phase (but PRE_STREAM phase is removed in MESSAGE mode), you have to configure LoggingOutInterceptor to be run during the WRITE phase. The following is an example.
   <bean id="loggingOutInterceptor" class="org.apache.cxf.interceptor.LoggingOutInterceptor">
        <!--  it really should have been user-prestream but CXF does have such phase! -->
        <constructor-arg value="target/write"/> 
   </bean>
   		
<cxf:cxfEndpoint id="serviceEndpoint" address="http://localhost:9002/helloworld"
	serviceClass="org.apache.camel.component.cxf.HelloService">
	<cxf:outInterceptors>
	    <ref bean="loggingOutInterceptor"/>
	</cxf:outInterceptors>
	<cxf:properties>
		<entry key="dataFormat" value="MESSAGE"/>
	</cxf:properties>
</cxf:cxfEndpoint>

Description of relayHeaders option

There are in-band and out-of-band on-the-wire headers from the perspective of a JAXWS WSDL-first developer.
The in-band headers are headers that are explicitly defined as part of the WSDL binding contract for an endpoint such as SOAP headers.
The out-of-band headers are headers that are serialized over the wire, but are not explicitly part of the WSDL binding contract.
Headers relaying/filtering is bi-directional.
When a route has a CXF endpoint and the developer needs to have on-the-wire headers, such as SOAP headers, be relayed along the route to be consumed say by another JAXWS endpoint, then relayHeaders should be set to true, which is the default value.

Available only in POJO mode

The relayHeaders=true setting expresses an intent to relay the headers. The actual decision on whether a given header is relayed is delegated to a pluggable instance that implements the MessageHeadersRelay interface. A concrete implementation of MessageHeadersRelay will be consulted to decide if a header needs to be relayed or not. There is already an implementation of SoapMessageHeadersRelay which binds itself to well-known SOAP name spaces. Currently only out-of-band headers are filtered, and in-band headers will always be relayed when relayHeaders=true. If there is a header on the wire, whose name space is unknown to the runtime, then a fall back DefaultMessageHeadersRelay will be used, which simply allows all headers to be relayed.
The relayHeaders=false setting asserts that all headers, in-band and out-of-band, will be dropped.
You can plugin your own MessageHeadersRelay implementations overriding or adding additional ones to the list of relays. In order to override a preloaded relay instance just make sure that your MessageHeadersRelay implementation services the same name spaces as the one you looking to override. Also note, that the overriding relay has to service all of the name spaces as the one you looking to override, or else a runtime exception on route start up will be thrown as this would introduce an ambiguity in name spaces to relay instance mappings.
<cxf:cxfEndpoint ...>
   <cxf:properties>
     <entry key="org.apache.camel.cxf.message.headers.relays">
       <list>
         <ref bean="customHeadersRelay"/>
       </list>
     </entry>
   </cxf:properties>
 </cxf:cxfEndpoint>
 <bean id="customHeadersRelay" class="org.apache.camel.component.cxf.soap.headers.CustomHeadersRelay"/>
Take a look at the tests that show how you'd be able to relay/drop headers here:

Changes since Release 2.0

  • POJO and PAYLOAD modes are supported. In POJO mode, only out-of-band message headers are available for filtering as the in-band headers have been processed and removed from the header list by CXF. The in-band headers are incorporated into the MessageContentList in POJO mode. The camel-cxf component does make any attempt to remove the in-band headers from the MessageContentList If filtering of in-band headers is required, please use PAYLOAD mode or plug in a (pretty straightforward) CXF interceptor/JAXWS Handler to the CXF endpoint.
  • The Message Header Relay mechanism has been merged into CxfHeaderFilterStrategy. The relayHeaders option, its semantics, and default value remain the same, but it is a property of CxfHeaderFilterStrategy. Here is an example of configuring it.
    <bean id="dropAllMessageHeadersStrategy" class="org.apache.camel.component.cxf.common.header.CxfHeaderFilterStrategy">
    
        <!--  Set relayHeaders to false to drop all SOAP headers -->
        <property name="relayHeaders" value="false"/>
        
    </bean>
    
    Then, your endpoint can reference the CxfHeaderFilterStrategy.
    <route>
        <from uri="cxf:bean:routerNoRelayEndpoint?headerFilterStrategy=#dropAllMessageHeadersStrategy"/>          
        <to uri="cxf:bean:serviceNoRelayEndpoint?headerFilterStrategy=#dropAllMessageHeadersStrategy"/>
    </route>
    
  • The MessageHeadersRelay interface has changed slightly and has been renamed to MessageHeaderFilter. It is a property of CxfHeaderFilterStrategy. Here is an example of configuring user defined Message Header Filters:
    <bean id="customMessageFilterStrategy" class="org.apache.camel.component.cxf.common.header.CxfHeaderFilterStrategy">
        <property name="messageHeaderFilters">
            <list>
                <!--  SoapMessageHeaderFilter is the built in filter.  It can be removed by omitting it. -->
                <bean class="org.apache.camel.component.cxf.common.header.SoapMessageHeaderFilter"/>
                
                <!--  Add custom filter here -->    
                <bean class="org.apache.camel.component.cxf.soap.headers.CustomHeaderFilter"/>
            </list>
        </property>
    </bean>
    
  • Other than relayHeaders, there are new properties that can be configured in CxfHeaderFilterStrategy.
Name Description type Required? Default value
relayHeaders All message headers will be processed by Message Header Filters boolean No true (1.6.1 behavior)
relayAllMessageHeaders All message headers will be propagated (without processing by Message Header Filters) boolean No false (1.6.1 behavior)
allowFilterNamespaceClash If two filters overlap in activation namespace, the property control how it should be handled. If the value is true, last one wins. If the value is false, it will throw an exception boolean No false (1.6.1 behavior)

Configure the CXF endpoints with Spring

You can configure the CXF endpoint with the Spring configuration file shown below, and you can also embed the endpoint into the camelContext tags. When you are invoking the service endpoint, you can set the operationName and operationNamespace headers to explicitly state which operation you are calling.
NOTE In Camel 2.x we change to use http://camel.apache.org/schema/cxf as the CXF endpoint's target namespace.
<beans xmlns="http://www.springframework.org/schema/beans"
        xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
        xmlns:cxf="http://camel.apache.org/schema/cxf"
        xsi:schemaLocation="
        http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans-2.0.xsd
        http://camel.apache.org/schema/cxf http://camel.apache.org/schema/cxf/camel-cxf.xsd
        http://camel.apache.org/schema/spring http://camel.apache.org/schema/spring/camel-spring.xsd     ">
 ...

Note
In Apache Camel 2.x, the http://activemq.apache.org/camel/schema/cxfEndpoint namespace was changed to http://camel.apache.org/schema/cxf.
Be sure to include the JAX-WS schemaLocation attribute specified on the root beans element. This allows CXF to validate the file and is required. Also note the namespace declarations at the end of the <cxf:cxfEndpoint/> tag--these are required because the combined {namespace}localName syntax is presently not supported for this tag's attribute values.
The cxf:cxfEndpoint element supports many additional attributes:
Name Value
PortName The endpoint name this service is implementing, it maps to the wsdl:port@name. In the format of ns:PORT_NAME where ns is a namespace prefix valid at this scope.
serviceName The service name this service is implementing, it maps to the wsdl:service@name. In the format of ns:SERVICE_NAME where ns is a namespace prefix valid at this scope.
wsdlURL The location of the WSDL. Can be on the classpath, file system, or be hosted remotely.
bindingId The bindingId for the service model to use.
address The service publish address.
bus The bus name that will be used in the JAX-WS endpoint.
serviceClass The class name of the SEI (Service Endpoint Interface) class which could have JSR181 annotation or not.
It also supports many child elements:
Name Value
cxf:inInterceptors The incoming interceptors for this endpoint. A list of <bean> or <ref>.
cxf:inFaultInterceptors The incoming fault interceptors for this endpoint. A list of <bean> or <ref>.
cxf:outInterceptors The outgoing interceptors for this endpoint. A list of <bean> or <ref>.
cxf:outFaultInterceptors The outgoing fault interceptors for this endpoint. A list of <bean> or <ref>.
cxf:properties A properties map which should be supplied to the JAX-WS endpoint. See below.
cxf:handlers A JAX-WS handler list which should be supplied to the JAX-WS endpoint. See below.
cxf:dataBinding You can specify the which DataBinding will be use in the endpoint. This can be supplied using the Spring <bean class="MyDataBinding"/> syntax.
cxf:binding You can specify the BindingFactory for this endpoint to use. This can be supplied using the Spring <bean class="MyBindingFactory"/> syntax.
cxf:features The features that hold the interceptors for this endpoint. A list of <bean>s or <ref>s
cxf:schemaLocations The schema locations for endpoint to use. A list of <schemaLocation>s
cxf:serviceFactory The service factory for this endpoint to use. This can be supplied using the Spring <bean class="MyServiceFactory"/> syntax
You can find more advanced examples which show how to provide interceptors, properties and handlers here: http://cwiki.apache.org/CXF20DOC/jax-ws-configuration.html
Note
You can use CXF:properties to set the CXF endpoint's dataFormat and setDefaultBus properties from a Spring configuration file, as follows:
<cxf:cxfEndpoint id="testEndpoint" address="http://localhost:9000/router"
     serviceClass="org.apache.camel.component.cxf.HelloService"
     endpointName="s:PortName"
     serviceName="s:ServiceName"
     xmlns:s="http://www.example.com/test">
     <cxf:properties>
       <entry key="dataFormat" value="MESSAGE"/>
       <entry key="setDefaultBus" value="true"/>
     </cxf:properties>
   </cxf:cxfEndpoint>

How to make the camel-cxf component use log4j instead of java.util.logging

CXF's default logger is java.util.logging. If you want to change it to log4j, proceed as follows. Create a file, in the classpath, named META-INF/cxf/org.apache.cxf.logger. This file should contain the fully-qualified name of the class, org.apache.cxf.common.logging.Log4jLogger, with no comments, on a single line.

How to let camel-cxf response message with xml start document

If you are using some SOAP client such as PHP, you will get this kind of error, because CXF doesn't add the XML start document <?xml version="1.0" encoding="utf-8"?>.
Error:sendSms: SoapFault exception: [Client] looks like we got no XML document in [...]
To resolved this issue, you just need to tell StaxOutInterceptor to write the XML start document for you.
public class WriteXmlDeclarationInterceptor extends AbstractPhaseInterceptor<SoapMessage> {
    public WriteXmlDeclarationInterceptor() {
        super(Phase.PRE_STREAM);
        addBefore(StaxOutInterceptor.class.getName());
    }

    public void handleMessage(SoapMessage message) throws Fault {
        message.put("org.apache.cxf.stax.force-start-document", Boolean.TRUE);        
    }

}
You can add a customer interceptor like this and configure it into you camel-cxf endpont
<cxf:cxfEndpoint id="routerEndpoint" address="http://localhost:${CXFTestSupport.port2}/CXFGreeterRouterTest/CamelContext/RouterPort"
 		serviceClass="org.apache.hello_world_soap_http.GreeterImpl"
 		skipFaultLogging="true">
     <cxf:outInterceptors>
         <!-- This interceptor will force the CXF server send the XML start document to client -->
         <bean class="org.apache.camel.component.cxf.WriteXmlDeclarationInterceptor"/>
     </cxf:outInterceptors>
     <cxf:properties>
         <!-- Set the publishedEndpointUrl which could override the service address from generated WSDL as you want -->
         <entry key="publishedEndpointUrl" value="http://www.simple.com/services/test" />
     </cxf:properties>
 </cxf:cxfEndpoint>
Or adding a message header for it like this if you are using Camel 2.4.
 // set up the response context which force start document
 Map<String, Object> map = new HashMap<String, Object>();
 map.put("org.apache.cxf.stax.force-start-document", Boolean.TRUE);
 exchange.getOut().setHeader(Client.RESPONSE_CONTEXT, map);

How to consume a message from a camel-cxf endpoint in POJO data format

The camel-cxf endpoint consumer POJO data format is based on the cxf invoker, so the message header has a property with the name of CxfConstants.OPERATION_NAME and the message body is a list of the SEI method parameters.
public class PersonProcessor implements Processor {

    private static final transient Logger LOG = LoggerFactory.getLogger(PersonProcessor.class);

    @SuppressWarnings("unchecked")
    public void process(Exchange exchange) throws Exception {
        LOG.info("processing exchange in camel");

        BindingOperationInfo boi = (BindingOperationInfo)exchange.getProperty(BindingOperationInfo.class.toString());
        if (boi != null) {
            LOG.info("boi.isUnwrapped" + boi.isUnwrapped());
        }
        // Get the parameters list which element is the holder.
        MessageContentsList msgList = (MessageContentsList)exchange.getIn().getBody();
        Holder<String> personId = (Holder<String>)msgList.get(0);
        Holder<String> ssn = (Holder<String>)msgList.get(1);
        Holder<String> name = (Holder<String>)msgList.get(2);

        if (personId.value == null || personId.value.length() == 0) {
            LOG.info("person id 123, so throwing exception");
            // Try to throw out the soap fault message
            org.apache.camel.wsdl_first.types.UnknownPersonFault personFault =
                new org.apache.camel.wsdl_first.types.UnknownPersonFault();
            personFault.setPersonId("");
            org.apache.camel.wsdl_first.UnknownPersonFault fault =
                new org.apache.camel.wsdl_first.UnknownPersonFault("Get the null value of person name", personFault);
            // Since camel has its own exception handler framework, we can't throw the exception to trigger it
            // We just set the fault message in the exchange for camel-cxf component handling and return
            exchange.getOut().setFault(true);
            exchange.getOut().setBody(fault);
            return;
        }

        name.value = "Bonjour";
        ssn.value = "123";
        LOG.info("setting Bonjour as the response");
        // Set the response message, first element is the return value of the operation,
        // the others are the holders of method parameters
        exchange.getOut().setBody(new Object[] {null, personId, ssn, name});
    }

}

How to prepare the message for the camel-cxf endpoint in POJO data format

The camel-cxf endpoint producer is based on the cxf client API. First you need to specify the operation name in the message header, then add the method parameters to a list, and initialize the message with this parameter list. The response message's body is a messageContentsList, you can get the result from that list.
If you don't specify the operation name in the message header, CxfProducer will try to use the defaultOperationName from CxfEndpoint. If there is no defaultOperationName set on CxfEndpoint, it will pick up the first operation name from the operation list.
If you want to get the object array from the message body, you can get the body using message.getbody(Object[].class), as follows:
Exchange senderExchange = new DefaultExchange(context, ExchangePattern.InOut);
final List<String> params = new ArrayList<String>();
// Prepare the request message for the camel-cxf procedure
params.add(TEST_MESSAGE);
senderExchange.getIn().setBody(params);
senderExchange.getIn().setHeader(CxfConstants.OPERATION_NAME, ECHO_OPERATION);

Exchange exchange = template.send("direct:EndpointA", senderExchange);

org.apache.camel.Message out = exchange.getOut();
// The response message's body is an MessageContentsList which first element is the return value of the operation,
// If there are some holder parameters, the holder parameter will be filled in the reset of List.
// The result will be extract from the MessageContentsList with the String class type
MessageContentsList result = (MessageContentsList)out.getBody();
LOG.info("Received output text: " + result.get(0));
Map<String, Object> responseContext = CastUtils.cast((Map<?, ?>)out.getHeader(Client.RESPONSE_CONTEXT));
assertNotNull(responseContext);
assertEquals("We should get the response context here", "UTF-8", responseContext.get(org.apache.cxf.message.Message.ENCODING));
assertEquals("Reply body on Camel is wrong", "echo " + TEST_MESSAGE, result.get(0));

How to deal with the message for a camel-cxf endpoint in PAYLOAD data format

In Apache Camel 2.0: CxfMessage.getBody() will return an org.apache.camel.component.cxf.CxfPayload object, which has getters for SOAP message headers and Body elements. This change enables decoupling the native CXF message from the Apache Camel message.
protected RouteBuilder createRouteBuilder() {
    return new RouteBuilder() {
        public void configure() {
            from(SIMPLE_ENDPOINT_URI + "&dataFormat=PAYLOAD").to("log:info").process(new Processor() {
                @SuppressWarnings("unchecked")
                public void process(final Exchange exchange) throws Exception {                        
                    CxfPayload<SoapHeader> requestPayload = exchange.getIn().getBody(CxfPayload.class);
                    List<Source> inElements = requestPayload.getBodySources();
                    List<Source> outElements = new ArrayList<Source>();
                    // You can use a customer toStringConverter to turn a CxfPayLoad message into String as you want                        
                    String request = exchange.getIn().getBody(String.class);
                    XmlConverter converter = new XmlConverter();
                    String documentString = ECHO_RESPONSE;
                    
                    Element in = new XmlConverter().toDOMElement(inElements.get(0));
                    // Just check the element namespace
                    if (!in.getNamespaceURI().equals(ELEMENT_NAMESPACE)) {
                        throw new IllegalArgumentException("Wrong element namespace");
                    }
                    if (in.getLocalName().equals("echoBoolean")) {
                        documentString = ECHO_BOOLEAN_RESPONSE;
                        checkRequest("ECHO_BOOLEAN_REQUEST", request);
                    } else {
                        documentString = ECHO_RESPONSE;
                        checkRequest("ECHO_REQUEST", request);
                    }
                    Document outDocument = converter.toDOMDocument(documentString);
                    outElements.add(new DOMSource(outDocument.getDocumentElement()));
                    // set the payload header with null
                    CxfPayload<SoapHeader> responsePayload = new CxfPayload<SoapHeader>(null, outElements, null);
                    exchange.getOut().setBody(responsePayload); 
                }
            });
        }
    };
}

How to get and set SOAP headers in POJO mode

POJO means that the data format is a list of Java objects when the CXF endpoint produces or consumes Camel exchanges. Even though Apache Camel exposes the message body as POJOs in this mode, the CXF component still provides access to read and write SOAP headers. However, since CXF interceptors remove in-band SOAP headers from the header list after they have been processed, only out-of-band SOAP headers are available in POJO mode.
The following example illustrates how to get/set SOAP headers. Suppose we have a route that forwards from one CXF endpoint to another. That is, SOAP Client -> Apache Camel -> CXF service. We can attach two processors to obtain/insert SOAP headers at (1) before request goes out to the CXF service and (2) before response comes back to the SOAP Client. Processor (1) and (2) in this example are InsertRequestOutHeaderProcessor and InsertResponseOutHeaderProcessor. Our route looks like this:
<route>
    <from uri="cxf:bean:routerRelayEndpointWithInsertion"/>
    <process ref="InsertRequestOutHeaderProcessor" />
    <to uri="cxf:bean:serviceRelayEndpointWithInsertion"/>
    <process ref="InsertResponseOutHeaderProcessor" />
</route>
In 2.x SOAP headers are propagated to and from Apache Camel Message headers. The Apache Camel message header name is org.apache.cxf.headers.Header.list, which is a constant defined in CXF (org.apache.cxf.headers.Header.HEADER_LIST). The header value is a List<> of CXF SoapHeader objects (org.apache.cxf.binding.soap.SoapHeader). The following snippet is the InsertResponseOutHeaderProcessor (that inserts a new SOAP header in the response message). The way to access SOAP headers in both InsertResponseOutHeaderProcessor and InsertRequestOutHeaderProcessor are actually the same. The only difference between the two processors is setting the direction of the inserted SOAP header.
public static class InsertResponseOutHeaderProcessor implements Processor {

    @SuppressWarnings("unchecked")
    public void process(Exchange exchange) throws Exception {
        // You should be able to get the header if exchange is routed from camel-cxf endpoint
        List<SoapHeader> soapHeaders = CastUtils.cast((List<?>)exchange.getIn().getHeader(Header.HEADER_LIST));
        if (soapHeaders == null) {
            // we just create a new soap headers in case the header is null
            soapHeaders = new ArrayList<SoapHeader>();
        }

        // Insert a new header
        String xml = "<?xml version=\"1.0\" encoding=\"utf-8\"?><outofbandHeader "
            + "xmlns=\"http://cxf.apache.org/outofband/Header\" hdrAttribute=\"testHdrAttribute\" "
            + "xmlns:soap=\"http://schemas.xmlsoap.org/soap/envelope/\" soap:mustUnderstand=\"1\">"
            + "<name>New_testOobHeader</name><value>New_testOobHeaderValue</value></outofbandHeader>";
        SoapHeader newHeader = new SoapHeader(soapHeaders.get(0).getName(),
                       DOMUtils.readXml(new StringReader(xml)).getDocumentElement());
        // make sure direction is OUT since it is a response message.
        newHeader.setDirection(Direction.DIRECTION_OUT);
        //newHeader.setMustUnderstand(false);
        soapHeaders.add(newHeader);
        
    }
    
}

How to get and set SOAP headers in PAYLOAD mode

We have already shown how to access SOAP message (CxfPayload object) in PAYLOAD mode (see the section called “How to deal with the message for a camel-cxf endpoint in PAYLOAD data format”).
Once you obtain a CxfPayload object, you can invoke the CxfPayload.getHeaders() method that returns a List of DOM Elements (SOAP headers).
from(getRouterEndpointURI()).process(new Processor() {
    @SuppressWarnings("unchecked")
    public void process(Exchange exchange) throws Exception {
        CxfPayload<SoapHeader> payload = exchange.getIn().getBody(CxfPayload.class);
        List<Source> elements = payload.getBodySources();
        assertNotNull("We should get the elements here", elements);
        assertEquals("Get the wrong elements size", 1, elements.size());
                
        Element el = new XmlConverter().toDOMElement(elements.get(0));
        elements.set(0, new DOMSource(el));
        assertEquals("Get the wrong namespace URI", "http://camel.apache.org/pizza/types", 
                el.getNamespaceURI());
            
        List<SoapHeader> headers = payload.getHeaders();
        assertNotNull("We should get the headers here", headers);
        assertEquals("Get the wrong headers size", headers.size(), 1);
        assertEquals("Get the wrong namespace URI", 
                ((Element)(headers.get(0).getObject())).getNamespaceURI(), 
                "http://camel.apache.org/pizza/types");         
    }
    
})
.to(getServiceEndpointURI());
Since Camel 2.16.0, you can use the same approach as described in the section called “How to get and set SOAP headers in POJO mode” to set or get the SOAP headers. You can now use the org.apache.cxf.headers.Header.list header to get and set a list of SOAP headers. This means that if you have a route that forwards from one Camel CXF endpoint to another (SOAP Client -> Camel -> CXF service), the SOAP headers sent by the SOAP client are now also forwarded to the CXF service. If you do not want the headers to be forwarded, remove them from the org.apache.cxf.headers.Header.list Camel header.

SOAP headers are not available in MESSAGE mode

SOAP headers are not available in MESSAGE mode as SOAP processing is skipped.

How to throw a SOAP Fault from Apache Camel

If you are using a CXF endpoint to consume the SOAP request, you may need to throw the SOAP Fault from the camel context. Basically, you can use the throwFault DSL to do that; it works for POJO, PAYLOAD and MESSAGE data format. You can define the soap fault like this:
SOAP_FAULT = new SoapFault(EXCEPTION_MESSAGE, SoapFault.FAULT_CODE_CLIENT);
Element detail = SOAP_FAULT.getOrCreateDetail();
Document doc = detail.getOwnerDocument();
Text tn = doc.createTextNode(DETAIL_TEXT);
detail.appendChild(tn);
Then throw it as you like:
from(routerEndpointURI).setFaultBody(constant(SOAP_FAULT));
If your CXF endpoint is working in the MESSAGE data format, you could set the the SOAP Fault message in the message body and set the response code in the message header.
from(routerEndpointURI).process(new Processor() {

    public void process(Exchange exchange) throws Exception {
        Message out = exchange.getOut();
        // Set the message body with the 
        out.setBody(this.getClass().getResourceAsStream("SoapFaultMessage.xml"));
        // Set the response code here
        out.setHeader(org.apache.cxf.message.Message.RESPONSE_CODE, new Integer(500));
    }

});
The same is true for the POJO data format. You can set the SOAP Fault on the Out body and also indicate it's a fault by calling Message.setFault(true), as follows:
from("direct:start").onException(SoapFault.class).maximumRedeliveries(0).handled(true)
    .process(new Processor() {
        public void process(Exchange exchange) throws Exception {
            SoapFault fault = exchange
                .getProperty(Exchange.EXCEPTION_CAUGHT, SoapFault.class);
            exchange.getOut().setFault(true);
            exchange.getOut().setBody(fault);
        }

    }).end().to(serviceURI);

How to propagate a CXF endpoint's request and response context

cxf client API provides a way to invoke the operation with request and response context. If you are using a CXF endpoint producer to invoke the external Web service, you can set the request context and get the response context with the following code:
        CxfExchange exchange = (CxfExchange)template.send(getJaxwsEndpointUri(), new Processor() {
             public void process(final Exchange exchange) {
                 final List<String> params = new ArrayList<String>();
                 params.add(TEST_MESSAGE);
                 // Set the request context to the inMessage
                 Map<String, Object> requestContext = new HashMap<String, Object>();
                 requestContext.put(BindingProvider.ENDPOINT_ADDRESS_PROPERTY, JAXWS_SERVER_ADDRESS);
                 exchange.getIn().setBody(params);
                 exchange.getIn().setHeader(Client.REQUEST_CONTEXT , requestContext);
                 exchange.getIn().setHeader(CxfConstants.OPERATION_NAME, GREET_ME_OPERATION);
             }
         });
         org.apache.camel.Message out = exchange.getOut();
         // The output is an object array, the first element of the array is the return value
         Object\[\] output = out.getBody(Object\[\].class);
         LOG.info("Received output text: " + output\[0\]);
         // Get the response context form outMessage
         Map<String, Object> responseContext = CastUtils.cast((Map)out.getHeader(Client.RESPONSE_CONTEXT));
         assertNotNull(responseContext);
         assertEquals("Get the wrong wsdl opertion name", "{http://apache.org/hello_world_soap_http}greetMe",
                      responseContext.get("javax.xml.ws.wsdl.operation").toString());

Attachment Support

POJO Mode: Both SOAP with Attachment and MTOM are supported (see example in Payload Mode for enabling MTOM). However, SOAP with Attachment is not tested. Since attachments are marshalled and unmarshalled into POJOs, users typically do not need to deal with the attachment themself. Attachments are propagated to Camel message's attachments since 2.1. So, it is possible to retreive attachments by Camel Message API
DataHandler Message.getAttachment(String id)
.
Payload Mode: MTOM is supported since 2.1. Attachments can be retrieved by Camel Message APIs mentioned above. SOAP with Attachment is not supported as there is no SOAP processing in this mode.
To enable MTOM, set the CXF endpoint property "mtom_enabled" to true. (I believe you can only do it with Spring.)
<cxf:cxfEndpoint id="routerEndpoint" address="http://localhost:${CXFTestSupport.port1}/CxfMtomRouterPayloadModeTest/jaxws-mtom/hello"
         wsdlURL="mtom.wsdl"
         serviceName="ns:HelloService"
         endpointName="ns:HelloPort"
         xmlns:ns="http://apache.org/camel/cxf/mtom_feature">

     <cxf:properties>
         <!--  enable mtom by setting this property to true -->
         <entry key="mtom-enabled" value="true"/>
         
         <!--  set the camel-cxf endpoint data fromat to PAYLOAD mode -->
         <entry key="dataFormat" value="PAYLOAD"/>
     </cxf:properties>
You can produce a Camel message with attachment to send to a CXF endpoint in Payload mode.
Exchange exchange = context.createProducerTemplate().send("direct:testEndpoint", new Processor() {

    public void process(Exchange exchange) throws Exception {
        exchange.setPattern(ExchangePattern.InOut);
        List&lt;Source> elements = new ArrayList&lt;Source>();
        elements.add(new DOMSource(DOMUtils.readXml(new StringReader(MtomTestHelper.REQ_MESSAGE)).getDocumentElement()));
        CxfPayload<SoapHeader> body = new CxfPayload<SoapHeader>(new ArrayList<SoapHeader>(),
            elements, null);
        exchange.getIn().setBody(body);
        exchange.getIn().addAttachment(MtomTestHelper.REQ_PHOTO_CID, 
            new DataHandler(new ByteArrayDataSource(MtomTestHelper.REQ_PHOTO_DATA, "application/octet-stream")));

        exchange.getIn().addAttachment(MtomTestHelper.REQ_IMAGE_CID, 
            new DataHandler(new ByteArrayDataSource(MtomTestHelper.requestJpeg, "image/jpeg")));

    }
    
});

// process response 

CxfPayload<SoapHeader> out = exchange.getOut().getBody(CxfPayload.class);
Assert.assertEquals(1, out.getBody().size());

Map<String, String> ns = new HashMap<String, String>();
ns.put("ns", MtomTestHelper.SERVICE_TYPES_NS);
ns.put("xop", MtomTestHelper.XOP_NS);

XPathUtils xu = new XPathUtils(ns);
Element oute = new XmlConverter().toDOMElement(out.getBody().get(0));
Element ele = (Element)xu.getValue("//ns:DetailResponse/ns:photo/xop:Include", oute,
                                   XPathConstants.NODE);
String photoId = ele.getAttribute("href").substring(4); // skip "cid:"

ele = (Element)xu.getValue("//ns:DetailResponse/ns:image/xop:Include", oute,
                                   XPathConstants.NODE);
String imageId = ele.getAttribute("href").substring(4); // skip "cid:"

DataHandler dr = exchange.getOut().getAttachment(photoId);
Assert.assertEquals("application/octet-stream", dr.getContentType());
MtomTestHelper.assertEquals(MtomTestHelper.RESP_PHOTO_DATA, IOUtils.readBytesFromStream(dr.getInputStream()));
   
dr = exchange.getOut().getAttachment(imageId);
Assert.assertEquals("image/jpeg", dr.getContentType());

BufferedImage image = ImageIO.read(dr.getInputStream());
Assert.assertEquals(560, image.getWidth());
Assert.assertEquals(300, image.getHeight());
You can also consume a Camel message received from a CXF endpoint in Payload mode.
public static class MyProcessor implements Processor {

    @SuppressWarnings("unchecked")
    public void process(Exchange exchange) throws Exception {
        CxfPayload<SoapHeader> in = exchange.getIn().getBody(CxfPayload.class);
        
        // verify request
        assertEquals(1, in.getBody().size());
        
        Map<String, String> ns = new HashMap<String, String>();
        ns.put("ns", MtomTestHelper.SERVICE_TYPES_NS);
        ns.put("xop", MtomTestHelper.XOP_NS);

        XPathUtils xu = new XPathUtils(ns);
        Element body = new XmlConverter().toDOMElement(in.getBody().get(0));
        Element ele = (Element)xu.getValue("//ns:Detail/ns:photo/xop:Include", body,
                                           XPathConstants.NODE);
        String photoId = ele.getAttribute("href").substring(4); // skip "cid:"
        assertEquals(MtomTestHelper.REQ_PHOTO_CID, photoId);
        
        ele = (Element)xu.getValue("//ns:Detail/ns:image/xop:Include", body,
                                           XPathConstants.NODE);
        String imageId = ele.getAttribute("href").substring(4); // skip "cid:"
        assertEquals(MtomTestHelper.REQ_IMAGE_CID, imageId);

        DataHandler dr = exchange.getIn().getAttachment(photoId);
        assertEquals("application/octet-stream", dr.getContentType());
        MtomTestHelper.assertEquals(MtomTestHelper.REQ_PHOTO_DATA, IOUtils.readBytesFromStream(dr.getInputStream()));
   
        dr = exchange.getIn().getAttachment(imageId);
        assertEquals("image/jpeg", dr.getContentType());
        MtomTestHelper.assertEquals(MtomTestHelper.requestJpeg, IOUtils.readBytesFromStream(dr.getInputStream()));

        // create response
        List&lt;Source> elements = new ArrayList&lt;Source>();
        elements.add(new DOMSource(DOMUtils.readXml(new StringReader(MtomTestHelper.RESP_MESSAGE)).getDocumentElement()));
        CxfPayload&lt;SoapHeader> sbody = new CxfPayload&lt;SoapHeader>(new ArrayList&lt;SoapHeader>(),
            elements, null);
        exchange.getOut().setBody(sbody);
        exchange.getOut().addAttachment(MtomTestHelper.RESP_PHOTO_CID, 
            new DataHandler(new ByteArrayDataSource(MtomTestHelper.RESP_PHOTO_DATA, "application/octet-stream")));

        exchange.getOut().addAttachment(MtomTestHelper.RESP_IMAGE_CID, 
            new DataHandler(new ByteArrayDataSource(MtomTestHelper.responseJpeg, "image/jpeg")));

    }
}
Message Mode: Attachments are not supported as it does not process the message at all.
CXF_MESSAGE Mode: MTOM is supported, and Attachments can be retrieved by Camel Message APIs mentioned above. Note that when receiving a multipart (that is, MTOM) message the default SOAPMessage to String converter will provide the complete multi-part payload on the body. If you require just the SOAP XML as a String, you can set the message body with message.getSOAPPart(), and Camel convert can do the rest of work for you.

How to propagate stack trace information

It is possible to configure a CXF endpoint so that, when a Java exception is thrown on the server side, the stack trace for the exception is marshalled into a fault message and returned to the client. To enable this feaure, set the dataFormat to PAYLOAD and set the faultStackTraceEnabled property to true in the cxfEndpoint element, as follows:
<cxf:cxfEndpoint id="router" address="http://localhost:9002/TestMessage"
    wsdlURL="ship.wsdl"
    endpointName="s:TestSoapEndpoint"
    serviceName="s:TestService"
    xmlns:s="http://test">
  <cxf:properties>
    <!-- enable sending the stack trace back to client; the default value is false-->
    <entry key="faultStackTraceEnabled" value="true" />
    <entry key="dataFormat" value="PAYLOAD" />
  </cxf:properties>
</cxf:cxfEndpoint>
For security reasons, the stack trace does not include the causing exception (that is, the part of a stack trace that follows Caused by). If you want to include the causing exception in the stack trace, set the exceptionMessageCauseEnabled property to true in the cxfEndpoint element, as follows:
<cxf:cxfEndpoint id="router" address="http://localhost:9002/TestMessage"
    wsdlURL="ship.wsdl"
    endpointName="s:TestSoapEndpoint"
    serviceName="s:TestService"
    xmlns:s="http://test">
  <cxf:properties>
    <!-- enable to show the cause exception message and the default value is false -->
 <entry key="exceptionMessageCauseEnabled" value="true" />
    <!-- enable to send the stack trace back to client,  the default value is false-->
    <entry key="faultStackTraceEnabled" value="true" />
    <entry key="dataFormat" value="PAYLOAD" />
  </cxf:properties>
</cxf:cxfEndpoint>
Warning
You should only enable the exceptionMessageCauseEnabled flag for testing and diagnostic purposes. It is normal practice for servers to conceal the original cause of an exception to make it harder for hostile users to probe the server.

Streaming Support in PAYLOAD mode

In 2.8.2, the camel-cxf component now supports streaming of incoming messages when using PAYLOAD mode. Previously, the incoming messages would have been completely DOM parsed. For large messages, this is time consuming and uses a significant amount of memory. Starting in 2.8.2, the incoming messages can remain as a javax.xml.transform.Source while being routed and, if nothing modifies the payload, can then be directly streamed out to the target destination. For common "simple proxy" use cases (example: from("cxf:...").to("cxf:...")), this can provide very significant performance increases as well as significantly lowered memory requirements.
However, there are cases where streaming may not be appropriate or desired. Due to the streaming nature, invalid incoming XML may not be caught until later in the processing chain. Also, certain actions may require the message to be DOM parsed anyway (like WS-Security or message tracing and such) in which case the advantages of the streaming is limited. At this point, there are two ways to control the streaming:
  • Endpoint property: you can add "allowStreaming=false" as an endpoint property to turn the streaming on/off.
  • Component property: the CxfComponent object also has an allowStreaming property that can set the default for endpoints created from that component.
  • Global system property: you can add a system property of "org.apache.camel.component.cxf.streaming" to "false" to turn if off. That sets the global default, but setting the endpoint property above will override this value for that endpoint.

Using the generic CXF Dispatch mode

From 2.8.0, the camel-cxf component supports the generic CXF dispatch mode that can transport messages of arbitrary structures (i.e., not bound to a specific XML schema). To use this mode, you simply omit specifying the wsdlURL and serviceClass attributes of the CXF endpoint.
<cxf:cxfEndpoint id="testEndpoint" address="http://localhost:9000/SoapContext/SoapAnyPort">
  <cxf:properties>
    <entry key="dataFormat" value="PAYLOAD"/>
  </cxf:properties>
</cxf:cxfEndpoint>
It is noted that the default CXF dispatch client does not send a specific SOAPAction header. Therefore, when the target service requires a specific SOAPAction value, it is supplied in the Camel header using the key SOAPAction (case-insensitive).

Chapter 30. CXF Bean Component

CXF Bean Component (2.0 or later)

The cxfbean: component allows other Camel endpoints to send exchange and invoke Web service bean objects. Currently, it only supports JAXRS and JAXWS (new to Camel 2.1) annotated service beans.
Important
CxfBeanEndpoint is a ProcessorEndpoint so it has no consumers. It works similarly to a Bean component.

URI format

cxfbean:serviceBeanRef
Where serviceBeanRef is a registry key to look up the service bean object. If serviceBeanRef references a List object, elements of the List are the service bean objects accepted by the endpoint.

Options

Name Description Example Required? Default Value
bus CXF bus reference specified by the # notation. The referenced object must be an instance of org.apache.cxf.Bus. bus=#busName No Default bus created by CXF Bus Factory
cxfBeanBinding CXF bean binding specified by the # notation. The referenced object must be an instance of org.apache.camel.component.cxf.cxfbean.CxfBeanBinding. cxfBinding=#bindingName No DefaultCxfBeanBinding
headerFilterStrategy Header filter strategy specified by the # notation. The referenced object must be an instance of org.apache.camel.spi.HeaderFilterStrategy. headerFilterStrategy=#strategyName No CxfHeaderFilterStrategy
populateFromClass Since 2.3, the wsdlLocation annotated in the POJO is ignored (by default) unless this option is set to false. Prior to 2.3, the wsdlLocation annotated in the POJO is always honored and it is not possible to ignore. true, false No true
providers Since 2.5, setting the providers for the CXFRS endpoint. providers=#providerRef1,#providerRef2 No null
setDefaultBus Will set the default bus when CXF endpoint create a bus by itself. true, false No false

Headers

Name Description Type Required? Default Value In/Out Examples
CamelHttpCharacterEncoding (before 2.0-m2: CamelCxfBeanCharacterEncoding) Character encoding String No None In ISO-8859-1
CamelContentType (before 2.0-m2: CamelCxfBeanContentType) Content type String No \**/*\* In text/xml
CamelHttpBaseUri (2.0-m3 and before: CamelCxfBeanRequestBasePath)
The value of this header will be set in the CXF message as the Message.BASE_PATH property. It is needed by CXF JAX-RS processing. Basically, it is the scheme, host and port portion of the request URI. String Yes The Endpoint URI of the source endpoint in the Camel exchange In http://localhost:9000
CamelHttpPath (before 2.0-m2: CamelCxfBeanRequestPat{}h) Request URI's path String Yes None In consumer/123
CamelHttpMethod (before 2.0-m2: CamelCxfBeanVerb) RESTful request verb String Yes None In GET, PUT, POST, DELETE
CamelHttpResponseCode HTTP response code Integer No None Out 200
Note
Currently, CXF Bean component has (only) been tested with Jetty HTTP component it can understand headers from Jetty HTTP component without requiring conversion.

A Working Sample

This sample shows how to create a route that starts a Jetty HTTP server. The route sends requests to a CXF Bean and invokes a JAXRS annotated service.
First, create a route as follows. The from endpoint is a Jetty HTTP endpoint that is listening on port 9000. Notice that the matchOnUriPrefix option must be set to true because RESTful request URI will not match the endpoint's URI http://localhost:9000 exactly.
<route>
	<from uri="jetty:http://localhost:9000?matchOnUriPrefix=true" />
	<to uri="cxfbean:customerServiceBean" />
	<to uri="mock:endpointA" />
</route>
The to endpoint is a CXF Bean with bean name customerServiceBean. The name will be looked up from the registry. Next, we make sure our service bean is available in Spring registry. We create a bean definition in the Spring configuration. In this example, we create a List of service beans (of one element). We could have created just a single bean without a List.
<util:list id="customerServiceBean">
	<bean class="org.apache.camel.component.cxf.jaxrs.testbean.CustomerService" />
</util:list>

<bean class="org.apache.camel.wsdl_first.PersonImpl" id="jaxwsBean" />
That's it. Once the route is started, the web service is ready for business. A HTTP client can make a request and receive response.
url = new URL("http://localhost:9000/customerservice/orders/223/products/323");
in = url.openStream();
assertEquals("{\"Product\":{\"description\":\"product 323\",\"id\":323}}", CxfUtils.getStringFromInputStream(in));

Chapter 31. CXFRS

CXFRS Component

The cxfrs: component provides integration with Apache CXF for connecting to JAX-RS services hosted in CXF.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
   <groupId>org.apache.camel</groupId>
   <artifactId>camel-cxf</artifactId>
   <version>x.x.x</version>  <!-- use the same version as your Camel core version -->
</dependency>
Note
When using CXF as a consumer, the CXF Bean Component allows you to factor out how message payloads are received from their processing as a RESTful or SOAP web service. This has the potential of using a multitude of transports to consume web services. The bean component's configuration is also simpler and provides the fastest method to implement web services using Camel and CXF.

URI format

cxfrs://address?options
Where address represents the CXF endpoint's address
cxfrs:bean:rsEndpoint
Where rsEndpoint represents the Spring bean's name which represents the CXFRS client or server
For either style above, you can append options to the URI as follows:
cxfrs:bean:cxfEndpoint?resourceClasses=org.apache.camel.rs.Example

Options

Name Description Example Required? default value
resourceClasses The resource classes which you want to export as REST service. Multiple classes can be separated by a comma.
resourceClasses=org.apache.camel.rs.Example1,org.apache.camel.rs.Exchange2
No None
httpClientAPI New to Apache Camel 2.1 If true, the CxfRsProducer will use the HttpClientAPI to invoke the service httpClientAPI=true No true
synchronous New in 2.5, this option will let CxfRsConsumer decide to use sync or async API to do the underlying work. The default value is false which means it will try to use async API by default. synchronous=true No false
throwExceptionOnFailure New in 2.6, this option tells the CxfRsProducer to inspect return codes and will generate an Exception if the return code is larger than 207. throwExceptionOnFailure=true No true
maxClientCacheSize New in 2.6, you can set the In message header, CamelDestinationOverrideUrl, to dynamically override the target destination Web Service or REST Service defined in your routes. The implementation caches CXF clients or ClientFactoryBean in CxfProvider and CxfRsProvider. This option allows you to configure the maximum size of the cache. maxClientCacheSize=5 No 10
setDefaultBus Deprecated: Use defaultBus option from Camel 2.16 onwards. Will set the default bus when CXF endpoint create a bus by itself setDefaultBus=true No false
defaultBus Will set the default bus when CXF endpoint create a bus by itself defaultBus=true No false
bus New in 2.9.0. A default bus created by CXF Bus Factory. Use \# notation to reference a bus object from the registry. The referenced object must be an instance of org.apache.cxf.Bus. bus=#busName No None
bindingStyle
As of 2.11. Sets how requests and responses will be mapped to/from Camel. Two values are possible:
  • Default => the default style. For consumers this passes on a MessageContentsList to the route, requiring low-level processing in the route.
  • Custom => allows you to specify a custom binding through the binding option.
bindingStyle=SimpleConsumer No Default
binding
Allows you to specify a custom CxfRsBinding implementation to perform low-level processing of the raw CXF request and response objects. The implementation must be bound in the Camel registry, and you must use the hash (#) notation to refer to it.
binding=#myBinding
No
DefaultCxfRsBinding
providers
Since Camel 2.12.2 set custom JAX-RS providers list to the CxfRs endpoint.
providers=#MyProviders
No
None
schemaLocations
Since Camel 2.12.2 Sets the locations of the schemas which can be used to validate the incoming XML or JAXB-driven JSON.
schemaLocations=#MySchemaLocations
No
None
features
Since Camel 2.12.3 Set the feature list to the CxfRs endpoint.
features=#MyFeatures
No
None
properties
Since Camel 2.12.4 Set the properties to the CxfRs endpoint.
properties=#MyProperties
No
None
inInterceptors
Since Camel 2.12.4 Set the inInterceptors to the CxfRs endpoint.
inInterceptors=#MyInterceptors
No
None
outInterceptors
Since Camel 2.12.4 Set the outInterceptor to the CxfRs endpoint.
outInterceptors=#MyInterceptors
No
None
inFaultInterceptors
Since Camel 2.12.4 Set the inFaultInterceptors to the CxfRs endpoint.
inFaultInterceptors=#MyInterceptors
No
None
outFaultIntercetpros
Since Camel 2.12.4 Set the outFaultInterceptors to the CxfRs endpoint.
outFaultInterceptors=#MyInterceptors
No
None
continuationTimeout
Since Camel 2.14.0 This option is used to set the CXF continuation timeout which could be used in CxfConsumer by default when the CXF server is using Jetty or Servlet transport. (Before Camel 2.14.0, CxfConsumer just set the continuation timeout to be 0, which means the continuation suspend operation never timeout.)
continuationTimeout=800000
No
30000
ignoreDeleteMethodMessageBody
Since Camel 2.14.1 This option is used to tell CxfRsProducer to ignore the message body of the DELETE method when using HTTP API.
ignoreDeleteMethodMessageBody=true
No
false
modelRef
Since Camel 2.14.2 This option is used to specify the model file which is useful for the resource class without annotation.
Since Camel 2.15 This option can point to a model file without specifying a service class for emulating document-only endpoints.
modelRef=classpath:/CustomerServiceModel.xml
No
None
performInvocation
Since Camel 2.15 When the option is true, camel will perform the invocation of the resource class instance and put the response object into the exchange for further processing.
performInvocation=true
No
false
loggingFeatureEnabled This option enables CXF logging feature which writes inbound and outbound REST messages to log - No false
skipFaultLogging This option controls whether the PhaseInterceptorChain skips logging the Fault that it catches - No false
loggingSizeLimit When you enable the logging feature, this option is used to limit the total size of number of bytes the logger will output - No 0
propagateContexts
Since Camel 2.15 When true, JAXRS UriInfo, HttpHeaders, Request and SecurityContext contexts will be available to custom CXFRS processors as typed Camel exchange properties. These contexts can be used to analyze the current requests using JAX-RS API.
loggingFeatureEnabled
This option enables CXF Logging Feature which writes inbound and outbound REST messages to log.
No
false
skipFaultLogging
This option controls whether the PhaseInterceptorChain skips logging the Fault that it catches.
No
false
loggingSizeLimit
To limit the total size of number of bytes the logger will output when logging feature has been enabled.
No
0
You can also configure the CXF REST endpoint through the Spring configuration. Since there are lots of differences between the CXF REST client and CXF REST Server, we provide different configurations for them. Please check out the schema file and the CXF JAX-RS documentation for more information.

How to configure the REST endpoint in Apache Camel

In camel-cxf schema file, there are two elements for the REST endpoint definition. cxf:rsServer for REST consumer, cxf:rsClient for REST producer. You can find a Apache Camel REST service route configuration example here.
<beans xmlns="http://www.springframework.org/schema/beans"
       xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
       xmlns:cxf="http://camel.apache.org/schema/cxf"
       xmlns:jaxrs="http://cxf.apache.org/jaxrs"
       xsi:schemaLocation="
       http://www.springframework.org/schema/beans http://www.springframework.org/schema/beans/spring-beans.xsd
       http://camel.apache.org/schema/cxf http://camel.apache.org/schema/cxf/camel-cxf.xsd
       http://cxf.apache.org/jaxrs http://cxf.apache.org/schemas/jaxrs.xsd
       http://camel.apache.org/schema/spring http://camel.apache.org/schema/spring/camel-spring.xsd
    ">
  <!-- Defined the real JAXRS back end service  -->
  <jaxrs:server id="restService"
		        address="http://localhost:9002/rest" 
		        staticSubresourceResolution="true">
    <jaxrs:serviceBeans>
      <ref bean="customerService"/>
    </jaxrs:serviceBeans>       
  </jaxrs:server>
  
  <!--bean id="jsonProvider" class="org.apache.cxf.jaxrs.provider.JSONProvider"/-->

  <bean id="customerService" class="org.apache.camel.component.cxf.jaxrs.testbean.CustomerService" />
   
  <!-- Defined the server endpoint to create the cxf-rs consumer --> 
  <cxf:rsServer id="rsServer" address="http://localhost:9000/route"
    serviceClass="org.apache.camel.component.cxf.jaxrs.testbean.CustomerService" 
      loggingFeatureEnabled="true" loggingSizeLimit="20" skipFaultLogging="true"/>

  <!-- Defined the client endpoint to create the cxf-rs consumer -->
  <cxf:rsClient id="rsClient" address="http://localhost:9002/rest"
    serviceClass="org.apache.camel.component.cxf.jaxrs.testbean.CustomerService"
      loggingFeatureEnabled="true" skipFaultLogging="true"/>
  
  <!-- The camel route context -->
  <camelContext id="camel" xmlns="http://camel.apache.org/schema/spring">
    <route>
       <from uri="cxfrs://bean://rsServer"/>
       <!-- We can remove this configure as the CXFRS producer is using the HttpAPI by default -->
       <setHeader headerName="CamelCxfRsUsingHttpAPI">
         <constant>True</constant>        
       </setHeader>
       <to uri="cxfrs://bean://rsClient"/>
    </route>
  </camelContext>
  
</beans>

How to override the CXF producer address from message header

The camel-cxfrs producer supports to override the services address by setting the message with the key of "CamelDestinationOverrideUrl".
// set up the service address from the message header to override the setting of CXF endpoint
exchange.getIn().setHeader(Exchange.DESTINATION_OVERRIDE_URL, constant(getServiceAddress()));

Consuming a REST Request - Simple Binding Style

Available as of Camel 2.11
The Default binding style is rather low-level, requiring the user to manually process the MessageContentsList object coming into the route. Thus, it tightly couples the route logic with the method signature and parameter indices of the JAX-RS operation. Somewhat inelegant, difficult and error-prone.
In contrast, the SimpleConsumer binding style performs the following mappings, in order to make the request data more accessible to you within the Camel Message:
  • JAX-RS Parameters (@HeaderParam, @QueryParam, etc.) are injected as IN message headers. The header name matches the value of the annotation.
  • The request entity (POJO or other type) becomes the IN message body. If a single entity cannot be identified in the JAX-RS method signature, it falls back to the original MessageContentsList.
  • Binary @Multipart body parts become IN message attachments, supporting DataHandler, InputStream, DataSource and CXF's Attachment class.
  • Non-binary @Multipart body parts are mapped as IN message headers. The header name matches the Body Part name.
Additionally, the following rules apply to the Response mapping:
  • If the message body type is different to javax.ws.rs.core.Response (user-built response), a new Response is created and the message body is set as the entity (so long it's not null). The response status code is taken from the Exchange.HTTP_RESPONSE_CODE header, or defaults to 200 OK if not present.
  • If the message body type is equal to javax.ws.rs.core.Response, it means that the user has built a custom response, and therefore it is respected and it becomes the final response.
  • In all cases, Camel headers permitted by custom or default HeaderFilterStrategy are added to the HTTP response.

Enabling the Simple Binding Style

This binding style can be activated by setting the bindingStyle parameter in the consumer endpoint to value SimpleConsumer:
  from("cxfrs:bean:rsServer?bindingStyle=SimpleConsumer")
    .to("log:TEST?showAll=true");

Examples of request binding with different method signatures

Below is a list of method signatures along with the expected result from the Simple binding.
public Response doAction(BusinessObject request); Request payload is placed in IN message body, replacing the original MessageContentsList.
public Response doAction(BusinessObject request, @HeaderParam("abcd") String abcd, @QueryParam("defg") String defg); Request payload placed in IN message body, replacing the original MessageContentsList. Both request params mapped as IN message headers with names abcd and defg.
public Response doAction(@HeaderParam("abcd") String abcd, @QueryParam("defg") String defg); Both request params mapped as IN message headers with names abcd and defg. The original MessageContentsList is preserved, even though it only contains the 2 parameters.
public Response doAction(@Multipart(value="body1") BusinessObject request, @Multipart(value="body2") BusinessObject request2); The first parameter is transferred as a header with name body1, and the second one is mapped as header body2. The original MessageContentsList is preserved as the IN message body.
public Response doAction(InputStream abcd); The InputStream is unwrapped from the MessageContentsList and preserved as the IN message body.
public Response doAction(DataHandler abcd); The DataHandler is unwrapped from the MessageContentsList and preserved as the IN message body.

More examples of the Simple Binding Style

Given a JAX-RS resource class with this method:
    @POST @Path("/customers/{type}")
    public Response newCustomer(Customer customer, @PathParam("type") String type, @QueryParam("active") @DefaultValue("true") boolean active) {
        return null;
    }
Serviced by the following route:
    from("cxfrs:bean:rsServer?bindingStyle=SimpleConsumer")
        .recipientList(simple("direct:${header.operationName}"));

    from("direct:newCustomer")
        .log("Request: type=${header.type}, active=${header.active}, customerData=${body}");
The following HTTP request with XML payload (given that the Customer DTO is JAXB-annotated):
POST /customers/gold?active=true

Payload:
<Customer>
  <fullName>Raul Kripalani</fullName>
  <country>Spain</country>
  <project>Apache Camel</project>
</Customer>
Will print the message:
Request: type=gold, active=true, customerData=<Customer.toString() representation>
For more examples on how to process requests and write responses can be found here.

Consuming a REST Request - Default Binding Style

The CXF JAX-RS front end implements the JAX-RS (JSR-311) API, so we can export the resources classes as a REST service. And we leverage the CXF Invoker API to turn a REST request into a normal Java object method invocation. Unlike the camel-restlet component, you don't need to specify the URI template within your endpoint, CXF takes care of the REST request URI to resource class method mapping according to the JSR-311 specification. All you need to do in Apache Camel is delegate this method request to a right processor or endpoint.
Here is an example of a CXFRS route:
private static final String CXF_RS_ENDPOINT_URI = "cxfrs://http://localhost:" + CXT + "/rest?resourceClasses=org.apache.camel.component.cxf.jaxrs.testbean.CustomerServiceResource";
 
 protected RouteBuilder createRouteBuilder() throws Exception {
    return new RouteBuilder() {
        public void configure() {
            errorHandler(new NoErrorHandlerBuilder());
            from(CXF_RS_ENDPOINT_URI).process(new Processor() {

                public void process(Exchange exchange) throws Exception {
                    Message inMessage = exchange.getIn();                        
                    // Get the operation name from in message
                    String operationName = inMessage.getHeader(CxfConstants.OPERATION_NAME, String.class);
                    if ("getCustomer".equals(operationName)) {
                        String httpMethod = inMessage.getHeader(Exchange.HTTP_METHOD, String.class);
                        assertEquals("Get a wrong http method", "GET", httpMethod);
                        String path = inMessage.getHeader(Exchange.HTTP_PATH, String.class);
                        // The parameter of the invocation is stored in the body of in message
                        String id = inMessage.getBody(String.class);
                        if ("/customerservice/customers/126".equals(path)) {                            
                            Customer customer = new Customer();
                            customer.setId(Long.parseLong(id));
                            customer.setName("Willem");
                            // We just put the response Object into the out message body
                            exchange.getOut().setBody(customer);
                        } else {
                            if ("/customerservice/customers/400".equals(path)) {
                                // We return the remote client IP address this time
                                org.apache.cxf.message.Message cxfMessage = inMessage.getHeader(CxfConstants.CAMEL_CXF_MESSAGE, org.apache.cxf.message.Message.class);
                                ServletRequest request = (ServletRequest) cxfMessage.get("HTTP.REQUEST");
                                String remoteAddress = request.getRemoteAddr();
                                Response r = Response.status(200).entity("The remoteAddress is " + remoteAddress).build();
                                exchange.getOut().setBody(r);
                                return;
                            }
                            if ("/customerservice/customers/123".equals(path)) {
                                 // send a customer response back
                                 Response r = Response.status(200).entity("customer response back!").build();
                                 exchange.getOut().setBody(r);
                                 return;
                            }
                            if ("/customerservice/customers/456".equals(path)) {
                                Response r = Response.status(404).entity("Can't found the customer with uri " + path).build();
                                throw new WebApplicationException(r);
                            } else {
                                throw new RuntimeCamelException("Can't found the customer with uri " + path);
                            }
                        }
                    }
                    if ("updateCustomer".equals(operationName)) {
                        assertEquals("Get a wrong customer message header", "header1;header2", inMessage.getHeader("test"));
                        String httpMethod = inMessage.getHeader(Exchange.HTTP_METHOD, String.class);
                        assertEquals("Get a wrong http method", "PUT", httpMethod);
                        Customer customer = inMessage.getBody(Customer.class);
                        assertNotNull("The customer should not be null.", customer);
                        // Now you can do what you want on the customer object
                        assertEquals("Get a wrong customer name.", "Mary", customer.getName());
                        // set the response back
                        exchange.getOut().setBody(Response.ok().build());
                }
                }
                
            });
        }
    };
}
The corresponding resource class used to configure the endpoint is defined as an interface:
@Path("/customerservice/")
public interface CustomerServiceResource {
 
    @GET
    @Path("/customers/{id}/")
    Customer getCustomer(@PathParam("id") String id);
 
    @PUT
    @Path("/customers/")
    Response updateCustomer(Customer customer);
 }
Important
By default, JAX-RS resource classes are used to configure the JAX-RS properties only. The methods will not be executed during the routing of messages to the endpoint, the route itself is responsible for all processing instead.
Note
Note that starting from Camel 2.15, it is also sufficient to provide an interface only, as opposed to a no-op service implementation class for the default mode. Starting from Camel 2.15, if the performInvocation option is enabled, the service implementation will be invoked first, the response will be set on the Camel exchange and the route execution will continue as usual. This can be useful for integrating the existing JAX-RS implementations into Camel routes and for post-processing JAX-RS Responses in custom processors.

How to invoke the REST service through camel-cxfrs producer ?

The CXF JAXRS front end implements a proxy-based client API, with this API you can invoke the remote REST service through a proxy. The camel-cxfrs producer is based on this proxy API. You just need to specify the operation name in the message header and prepare the parameter in the message body, the camel-cxfrs producer will generate the right REST request for you.
Here is an example:
Exchange exchange = template.send("direct://proxy", new Processor() {

    public void process(Exchange exchange) throws Exception {
        exchange.setPattern(ExchangePattern.InOut);
        Message inMessage = exchange.getIn();
        setupDestinationURL(inMessage);
        // set the operation name 
        inMessage.setHeader(CxfConstants.OPERATION_NAME, "getCustomer");
        // using the proxy client API
        inMessage.setHeader(CxfConstants.CAMEL_CXF_RS_USING_HTTP_API, Boolean.FALSE);
        // set a customer header
        inMessage.setHeader("key", "value");
        // set the parameters , if you just have one parameter 
        // camel will put this object into an Object[] itself
        inMessage.setBody("123");
    }
    
});
     
// get the response message 
Customer response = (Customer) exchange.getOut().getBody();

assertNotNull("The response should not be null ", response);
assertEquals("Get a wrong customer id ", String.valueOf(response.getId()), "123");
assertEquals("Get a wrong customer name", response.getName(), "John");
assertEquals("Get a wrong response code", 200, exchange.getOut().getHeader(Exchange.HTTP_RESPONSE_CODE));
assertEquals("Get a wrong header value", "value", exchange.getOut().getHeader("key"));
CXF JAXRS front end also provides a http centric client API, You can also invoke this API from camel-cxfrs producer. You need to specify the HTTP_PATH and Http method and let the the producer know to use the HTTP centric client by using the URI option httpClientAPI or set the message header with CxfConstants.CAMEL_CXF_RS_USING_HTTP_API. You can turn the response object to the type class that you specify with CxfConstants.CAMEL_CXF_RS_RESPONSE_CLASS.
Exchange exchange = template.send("direct://http", new Processor() {

    public void process(Exchange exchange) throws Exception {
        exchange.setPattern(ExchangePattern.InOut);
        Message inMessage = exchange.getIn();
        setupDestinationURL(inMessage);
        // using the http central client API
        inMessage.setHeader(CxfConstants.CAMEL_CXF_RS_USING_HTTP_API, Boolean.TRUE);
        // set the Http method
        inMessage.setHeader(Exchange.HTTP_METHOD, "GET");
        // set the relative path
        inMessage.setHeader(Exchange.HTTP_PATH, "/customerservice/customers/123");                
        // Specify the response class , cxfrs will use InputStream as the response object type 
        inMessage.setHeader(CxfConstants.CAMEL_CXF_RS_RESPONSE_CLASS, Customer.class);
        // set a customer header
        inMessage.setHeader("key", "value");
        // since we use the Get method, so we don't need to set the message body
        inMessage.setBody(null);                
    }
    
});
     
// get the response message 
Customer response = (Customer) exchange.getOut().getBody();

assertNotNull("The response should not be null ", response);
assertEquals("Get a wrong customer id ", String.valueOf(response.getId()), "123");
assertEquals("Get a wrong customer name", response.getName(), "John");
assertEquals("Get a wrong response code", 200, exchange.getOut().getHeader(Exchange.HTTP_RESPONSE_CODE));
assertEquals("Get a wrong header value", "value", exchange.getOut().getHeader("key"));
From Apache Camel 2.1, we also support to specify the query parameters from CXFRS URI for the CXFRS HTTP centric client.
Exchange exchange = template.send("cxfrs://http://localhost:" + getPort2() + "/" + getClass().getSimpleName() + "/testQuery?httpClientAPI=true&q1=12&q2=13"
To support the Dynamical routing, you can override the URI's query parameters by using the CxfConstants.CAMEL_CXF_RS_QUERY_MAP header to set the parameter map for it.
Map<String, String> queryMap = new LinkedHashMap<String, String>();                    
queryMap.put("q1", "new");
queryMap.put("q2", "world");                    
inMessage.setHeader(CxfConstants.CAMEL_CXF_RS_QUERY_MAP, queryMap);

Chapter 32. DataFormat Component

Data Format Component

Available as of Camel 2.12
The dataformat: component allows to use Data Format as a Camel Component.

URI format

dataformat:name:(marshal|unmarshal)[?options]
Where name is the name of the Data Format. And then followed by the operation which must either be marshal or unmarshal. The options is used for configuring the Data Format in use. See the Data Format documentation for which options it support.

Samples

For example to use the JAXB Data Format we can do as follows:
from("activemq:My.Queue").
  to("dataformat:jaxb:unmarshal?contextPath=com.acme.model").
  to("mqseries:Another.Queue");
And in XML DSL you do:
<camelContext id="camel" xmlns="http://camel.apache.org/schema/spring">
  <route>
    <from uri="activemq:My.Queue"/>
    <to uri="dataformat:jaxb:unmarshal?contextPath=com.acme.model"/>
    <to uri="mqseries:Another.Queue"/>
  </route>
</camelContext>

Chapter 33. DataSet

DataSet Component

The DataSet component (available since 1.3.0) provides a mechanism to easily perform load & soak testing of your system. It works by allowing you to create DataSet instances both as a source of messages and as a way to assert that the data set is received.
Apache Camel will use the throughput logger when sending dataset's.

URI format

dataset:name[?options]
Where name is used to find the DataSet instance in the Registry
Apache Camel ships with a support implementation of org.apache.camel.component.dataset.DataSet, the org.apache.camel.component.dataset.DataSetSupport class, that can be used as a base for implementing your own DataSet. Apache Camel also ships with some implementations that can be used for testing: the org.apache.camel.component.dataset.SimpleDataSet, org.apache.camel.component.dataset.ListDataSet, and org.apache.camel.component.dataset.FileDataSet, all of which extend DataSetSupport.

Options

Option Default Description
produceDelay 3 Allows a delay in ms to be specified, which causes producers to pause in order to simulate slow producers. Uses a minimum of 3 ms delay unless you set this option to -1 to force no delay at all.
consumeDelay 0 Allows a delay in ms to be specified, which causes consumers to pause in order to simulate slow consumers.
preloadSize 0 Sets how many messages should be preloaded (sent) before the route completes its initialization.
initialDelay 1000 Camel 2.1: Time period in millis to wait before starting sending messages.
minRate 0 Wait until the DataSet contains at least this number of messages
dataSetIndex lenient
Camel 2.17: Controls the behavior of the CamelDataSetIndex header. The supported values are strict, lenient and off. The default behaviour prior to Camel 2.17 can be restored by setting dataSetIndex=strict.
For consumers:
strict or lenient
The CamelDataSetIndex header will always be set.
off
The CamelDataSetIndex header will not be set.
For producers:
strict
The CamelDataSetIndex header must be present and the value of the header will be verified.
lenient
If the CamelDataSetIndex header is present, the value of the header will be verified. If the header is not present, it will be set.
off
If the CamelDataSetIndex header is present, the value of the header will not be verified. If the header is not present, it will not be set.
You can append query options to the URI in the following format, ?option=value&option=value&...

Configuring DataSet

Apache Camel will lookup in the Registry for a bean implementing the DataSet interface. So you can register your own DataSet as:
   <bean id="myDataSet" class="com.mycompany.MyDataSet">
      <property name="size" value="100"/>
   </bean>

Example

For example, to test that a set of messages are sent to a queue and then consumed from the queue without losing any messages:
// send the dataset to a queue
from("dataset:foo").to("activemq:SomeQueue");

// now lets test that the messages are consumed correctly
from("activemq:SomeQueue").to("dataset:foo");
The above would look in the Registry to find the foo DataSet instance which is used to create the messages.
Then you create a DataSet implementation, such as using the SimpleDataSet as described below, configuring things like how big the data set is and what the messages look like etc.

Properties on DataSetSupport

Property
Type
Default
Description
defaultHeaders
Map<String,Object>
null
Specifies the default message body. For SimpleDataSet it is a constant payload; though if you want to create custom payloads per message, create your own derivation of DataSetSupport.
outputTransformer
org.apache.camel.Processor
null
size
long
10
Specifies how many messages to send/consume.
reportCount long -1 Specifies the number of messages to be received before reporting progress. Useful for showing progress of a large load test. If < 0, then size / 5, if is 0 then size, else set to reportCount value.

SimpleDataSet

The SimpleDataSet extends DataSetSupport, and adds a default body.

Table 33.1. Additional Properties on SimpleDataSet

Property
Type
Default
Description
defaultBody
Object
<hello>world!</hello>
Specifies the default message body. For SimpleDataSet it is a constant payload; though if you want to create custom payloads per message, create your own derivation of DataSetSupport.

ListDataSet

The ListDataSet extends DataSetSupport, and adds a list of default bodies.

Table 33.2. Additional Properties on ListDataSet

Property
Type
Default
Description
defaultBodies
Object
<hello>world!</hello>
size
long
10

FileDataSet

The SimpleDataSet extends ListDataSet, and adds support for loading the bodies from a file.

Table 33.3. Additional Properties on FileDataSet

Property
Type
Default
Description
sourceFile
String
null
delimiter
String
\z

Chapter 34. Direct

Direct Component

The direct: component provides direct, synchronous invocation of any consumers when a producer sends a message exchange. This endpoint can be used to connect existing routes in the same camel context.
Note
The SEDA component provides asynchronous invocation of any consumers when a producer sends a message exchange.
Note
The VM component provides connections between Camel contexts as long they run in the same JVM.

URI format

direct:someName[?options]
Where someName can be any string to uniquely identify the endpoint

Options

Name Default Value Description
block false Camel 2.11.1: If sending a message to a direct endpoint which has no active consumer, then we can tell the producer to block and wait for the consumer to become active.
timeout 30000 Camel 2.11.1: The timeout value to use if block is enabled.
failIfNoConsumers true
Camel 2.16.0: Indicates whether the producer should fail by throwing an exception when sending to a DIRECT endpoint with no active consumers.
You can append query options to the URI in the following format, ?option=value&option=value&...

Samples

In the route below we use the direct component to link the two routes together:
from("activemq:queue:order.in")
    .to("bean:orderServer?method=validate")
    .to("direct:processOrder");

from("direct:processOrder")
    .to("bean:orderService?method=process")
    .to("activemq:queue:order.out");
And the sample using spring DSL:
   <route>
     <from uri="activemq:queue:order.in"/>
     <to uri="bean:orderService?method=validate"/>
     <to uri="direct:processOrder"/>
  </route>

  <route>
     <from uri="direct:processOrder"/>
     <to uri="bean:orderService?method=process"/>
     <to uri="activemq:queue:order.out"/>
  </route>
See also samples from the SEDA component, how they can be used together.

Chapter 35. Direct-VM

Direct VM Component

Available as of Camel 2.10
The direct-vm: component provides direct, synchronous invocation of any consumers in the JVM when a producer sends a message exchange. This endpoint can be used to connect existing routes in the same camel context, as well from other camel contexts in the same JVM.
This component differs from the Direct component in that Direct-VM supports communication across CamelContext instances - so you can use this mechanism to communicate across web applications (provided that camel-core.jar is on the system/boot classpath).
At runtime you can swap in new consumers, by stopping the existing consumer(s) and start new consumers. But at any given time there can be at most only one active consumer for a given endpoint.
This component allows also to connect routes deployed in different OSGI Bundles as you can see here after. Even if they are running in different bundles, the camel routes will use the same thread. That autorises to develop applications using Transactions - Tx.

URI format

direct-vm:someName
Where someName can be any string to uniquely identify the endpoint

Options

Name Default Value Description
block false Camel 2.11.1: If sending a message to a direct endpoint which has no active consumer, then we can tell the producer to block and wait for the consumer to become active.
timeout 30000 Camel 2.11.1: The timeout value to use if block is enabled.
failIfNoConsumers true
Camel 2.16.0: Indicates whether the producer should fail by throwing an exception when sending to a DIRECT endpoint with no active consumers.

Samples

In the route below we use the direct component to link the two routes together:
from("activemq:queue:order.in")
    .to("bean:orderServer?method=validate")
    .to("direct-vm:processOrder");
And now in another CamelContext, such as another OSGi bundle
from("direct-vm:processOrder")
    .to("bean:orderService?method=process")
    .to("activemq:queue:order.out");
And the sample using spring DSL:
   <route>
     <from uri="activemq:queue:order.in"/>
     <to uri="bean:orderService?method=validate"/>
     <to uri="direct-vm:processOrder"/>
  </route>

  <route>
     <from uri="direct-vm:processOrder"/>
     <to uri="bean:orderService?method=process"/>
     <to uri="activemq:queue:order.out"/>
  </route>

Chapter 36. Disruptor

Disruptor Component

Available as of Camel 2.12
The disruptor: component provides asynchronous SEDA behavior much as the standard SEDA Component, but utilizes a Disruptor instead of a BlockingQueue utilized by the standard SEDA. Alternatively, a disruptor-vm: endpoint is supported by this component, providing an alternative to the standard VM. As with the SEDA component, buffers of the disruptor: endpoints are only visible within a single CamelContext and no support is provided for persistence or recovery. The buffers of the *disruptor-vm:* endpoints also provides support for communication across CamelContexts instances so you can use this mechanism to communicate across web applications (provided that camel-disruptor.jar is on the system/boot classpath).
The main advantage of choosing to use the Disruptor Component over the SEDA or the VM Component is performance in use cases where there is high contention between producer(s) and/or multicasted or concurrent Consumers. In those cases, significant increases of throughput and reduction of latency has been observed. Performance in scenarios without contention is comparable to the SEDA and VM Components.
The Disruptor is implemented with the intention of mimicing the behaviour and options of the SEDA and VM Components as much as possible. The main differences with the them are the following:
  • The buffer used is always bounded in size (default 1024 exchanges).
  • As a the buffer is always bouded, the default behaviour for the Disruptor is to block while the buffer is full instead of throwing an exception. This default behaviour may be configured on the component (see options).
  • The Disruptor enpoints don't implement the BrowsableEndpoint interface. As such, the exchanges currently in the Disruptor can't be retrieved, only the amount of exchanges.
  • The Disruptor requires its consumers (multicasted or otherwise) to be statically configured. Adding or removing consumers on the fly requires complete flushing of all pending exchanges in the Disruptor.
  • As a result of the reconfiguration: Data sent over a Disruptor is directly processed and 'gone' if there is at least one consumer, late joiners only get new exchanges published after they've joined.
  • The pollTimeout option is not supported by the Disruptor Component.
  • When a producer blocks on a full Disruptor, it does not respond to thread interrupts.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-disruptor</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

 disruptor:someName[?options]
or
 disruptor-vm:someName[?options]
Where *someName* can be any string that uniquely identifies the endpoint within the current CamelContext (or across contexts in case of *disruptor-vm:*). You can append query options to the URI in the following format:
  ?option=value&option=value&...

Options

All the following options are valid for both the *disruptor:* and *disruptor-vm:* components.
Name Default Description
size 1024 The maximum capacity of the Disruptors ringbuffer. Will be effectively increased to the nearest power of two. Notice: Mind if you use this option, then its the first endpoint being created with the queue name, that determines the size. To make sure all endpoints use same size, then configure the size option on all of them, or the first endpoint being created.
bufferSize Component only: The maximum default size (capacity of the number of messages it can hold) of the Disruptors ringbuffer. This option is used if size is not in use.
queueSize Component only: Additional option to specify the <em>bufferSize</em> to maintain maximum compatibility with the SEDA Component.
concurrentConsumers 1 Number of concurrent threads processing exchanges.
waitForTaskToComplete IfReplyExpected Option to specify whether the caller should wait for the async task to complete before continuing. The following three options are supported: Always, Never or IfReplyExpected. The first two values are self-explanatory. The last value, IfReplyExpected, waits only if the message is RequestReply-based. See more information about Async messaging.
timeout 30000 Timeout (in milliseconds) before a producer will stop waiting for an asynchronous task to complete. See waitForTaskToComplete and Async for more details. You can disable timeout by using 0 or a negative value.
defaultMultipleConsumers Component only: Allows to set the default allowance of multiple consumers for endpoints created by this comonent used when multipleConsumers is not provided.
multipleConsumers
false
Specifies whether multiple consumers are allowed. If enabled, you can use Disruptor for Publish-Subscribe messaging. That is, you can send a message to the SEDA queue and have each consumer receive a copy of the message. When enabled, this option should be specified on every consumer endpoint.
limitConcurrentConsumers true Whether to limit the number of concurrentConsumers to the maximum of 500. By default, an exception will be thrown if a Disruptor endpoint is configured with a greater number. You can disable that check by turning this option off.
blockWhenFull true Whether a thread that sends messages to a full Disruptor will block until the ringbuffer's capacity is no longer exhausted. By default, the calling thread will block and wait until the message can be accepted. By disabling this option, an exception will be thrown stating that the queue is full.
defaultBlockWhenFull Component only: Allows to set the default producer behaviour when the ringbuffer is full for endpoints created by this comonent used when blockWhenFull is not provided.
waitStrategy Blocking Defines the strategy used by consumer threads to wait on new exchanges to be published. The options allowed are:Blocking, Sleeping, BusySpin and Yielding. Refer to the section below for more information on this subject
defaultWaitStrategy Component only: Allows to set the default wait strategy for endpoints created by this comonent used when waitStrategy is not provided.
producerType Multi
Defines the producers allowed on the Disruptor. The options allowed are: Multi to allow multiple producers and Single to enable certain optimizations only allowed when one concurrent producer (on one thread or otherwise synchronized) is active.

Wait strategies

The wait strategy effects the type of waiting performed by the consumer threads that are currently waiting for the next exchange to be published. The following strategies can be chosen:
Name Description Advice
Blocking Blocking strategy that uses a lock and condition variable for Consumers waiting on a barrier. This strategy can be used when throughput and low-latency are not as important as CPU resource.
Sleeping Sleeping strategy that initially spins, then uses a Thread.yield(), and eventually for the minimum number of nanos the OS and JVM will allow while the Consumers are waiting on a barrier. This strategy is a good compromise between performance and CPU resource. Latency spikes can occur after quiet periods.
BusySpin Busy Spin strategy that uses a busy spin loop for Consumers waiting on a barrier. This strategy will use CPU resource to avoid syscalls which can introduce latency jitter. It is best used when threads can be bound to specific CPU cores.
Yielding Yielding strategy that uses a Thread.yield() for Consumers waiting on a barrier after an initially spinning. This strategy is a good compromise between performance and CPU resource without incurring significant latency spikes.

Use of Request Reply

The Disruptor component supports using RequestReply, where the caller will wait for the Async route to complete. For example:
from("mina:tcp://0.0.0.0:9876?textline=true&sync=true").to("disruptor:input");
from("disruptor:input").to("bean:processInput").to("bean:createResponse");
In the route above, we have a TCP listener on port 9876 that accepts incoming requests. The request is routed to the disruptor:input buffer. As it is a RequestReply message, we wait for the response. When the consumer on the disruptor:input buffer is complete, it copies the response to the original message response.

Concurrent consumers

By default, the Disruptor endpoint uses a single consumer thread, but you can configure it to use concurrent consumer threads. So instead of thread pools you can use:
from("disruptor:stageName?concurrentConsumers=5").process(...)
As for the difference between the two, note a thread pool can increase/shrink dynamically at runtime depending on load, whereas the number of concurrent consumers is always fixed and supported by the Disruptor internally so performance will be higher.

Thread pools

Be aware that adding a thread pool to a Disruptor endpoint by doing something like:
from("disruptor:stageName").thread(5).process(...)
Can wind up with adding a normal BlockingQueue to be used in conjunction with the Disruptor, effectively negating part of the performance gains achieved by using the Disruptor. Instead, it is advices to directly configure number of threads that process messages on a Disruptor endpoint using the concurrentConsumers option.

Sample

In the route below we use the Disruptor to send the request to this async queue to be able to send a fire-and-forget message for further processing in another thread, and return a constant reply in this thread to the original caller.
public void configure() throws Exception {
    from("direct:start")
        // send it to the disruptor that is async
        .to("disruptor:next")
        // return a constant response
        .transform(constant("OK"));

    from("disruptor:next").to("mock:result");
}
Here we send a Hello World message and expects the reply to be OK.
Object out = template.requestBody("direct:start", "Hello World");
assertEquals("OK", out);
The "Hello World" message will be consumed from the Disruptor from another thread for further processing. Since this is from a unit test, it will be sent to a mock endpoint where we can do assertions in the unit test.

Using multipleConsumers

In this example we have defined two consumers and registered them as spring beans.
<!-- define the consumers as spring beans -->
<bean id="consumer1" class="org.apache.camel.spring.example.FooEventConsumer"/>

<bean id="consumer2" class="org.apache.camel.spring.example.AnotherFooEventConsumer"/>

<camelContext xmlns="http://camel.apache.org/schema/spring">
    <!-- define a shared endpoint which the consumers can refer to instead of using url -->
    <endpoint id="foo" uri="disruptor:foo?multipleConsumers=true"/>
</camelContext>
Since we have specified multipleConsumers=true on the Disruptor foo endpoint we can have those two or more consumers receive their own copy of the message as a kind of pub-sub style messaging. As the beans are part of an unit test they simply send the message to a mock endpoint, but notice how we can use @Consume to consume from the Disruptor.
public class FooEventConsumer {

    @EndpointInject(uri = "mock:result")
    private ProducerTemplate destination;

    @Consume(ref = "foo")
    public void doSomething(String body) {
        destination.sendBody("foo" + body);
    }

}

Extracting disruptor information

If needed, information such as buffer size, etc. can be obtained without using JMX in this fashion:
DisruptorEndpoint disruptor = context.getEndpoint("disruptor:xxxx");
int size = disruptor.getBufferSize();

Chapter 37. DNS

DNS

Available as of Camel 2.7
This is an additional component for Camel to run DNS queries, using DNSJava. The component is a thin layer on top of DNSJava. The component offers the following operations:
ip
To resolve a domain by its IP address.
lookup
To look up information about the domain.
dig
To run DNS queries.
Requires SUN JVM
The DNSJava library requires running on the SUN JVM. If you use Apache ServiceMix or Apache Karaf, you'll need to adjust the etc/jre.properties file, to add sun.net.spi.nameservice to the list of Java platform packages exported. The server will need restarting before this change takes effect.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-dns</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

The URI scheme for a DNS component is as follows
dns://operation
This component only supports producers.

Options

None.

Headers

Header Type Operations Description
dns.domain String ip The domain name. Mandatory.
dns.name String lookup The name to lookup. Mandatory.
dns.type - lookup, dig The type of the lookup. Should match the values of org.xbill.dns.Type. Optional.
dns.class - lookup, dig he DNS class of the lookup. Should match the values of org.xbill.dns.DClass. Optional.
dns.query String dig The query itself. Mandatory.
dns.server String dig The server in particular for the query. If none is given, the default one specified by the OS will be used. Optional.

Examples

IP lookup

        <route id="IPCheck">
            <from uri="direct:start"/>
            <to uri="dns:ip"/>
        </route>
This looks up a domain's IP. For example, www.example.com resolves to 192.0.32.10. The IP address to lookup must be provided in the header with key "dns.domain".

DNS lookup

        <route id="IPCheck">
            <from uri="direct:start"/>
            <to uri="dns:lookup"/>
        </route>
This returns a set of DNS records associated with a domain. The name to lookup must be provided in the header with key "dns.name".

DNS Dig

Dig is a Unix command-line utility to run DNS queries.
        <route id="IPCheck">
            <from uri="direct:start"/>
            <to uri="dns:dig"/>
        </route>
The query must be provided in the header with key "dns.query".

Chapter 38. Docker

Docker Component

Available as of Camel 2.15
Camel component for communicating with Docker.
The Docker Camel component leverages the docker-java via the Docker Remote API.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-docker</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

docker://[operation]?[options]
Where operation is the specific action to perform on Docker.

Header Strategy

All URI option can be passed as Header properties. Values found in a message header take precedence over URI parameters. A header property takes the form of a URI option prefixed with *CamelDocker* as shown below
URI Option Header Property
containerId CamelDockerContainerId

General Options

The following parameters can be used with any invocation of the component
Option Header Description Default Value
host CamelDockerHost Mandatory: Docker host localhost
port CamelDockerPort Mandatory:Docker port 2375
username CamelDockerUserName User name to authenticate with
password CamelDockerPassword Password to authenticate with
email CamelDockerEmail Email address associated with the user
secure CamelDockerSecure Use HTTPS communication false
requestTimeout CamelDockerRequestTimeout Request timeout for response (in seconds) 30
certPath CamelDockerCertPath Location containing the SSL certificate chain

Consumer Operations

The consumer supports the following operations.
Operation Options Description Produces
events initialRange Monitor Docker events (Streaming) Event

Producer Operations

The following producer operations are available.
Misc Operation Options Description Returns
auth Check auth configuration
info System wide information Info
ping Ping the Docker server
version Show the docker version information Version
Image Operation Options Description Body Content Returns
image/list filter, showAll List images List<Image>
image/create repository Create an image InputStream CreateImageResponse
image/build noCache, quiet, remove, tag Build an image from Dockerfile via stdin InputStream or File InputStream
image/pull repository, registry, tag Pull an image from the registry InputStream
image/push name Push an image on the registry InputStream
image/search term Search for images List<SearchItem>
image/remove imageId Remove an image
image/tag imageId, repository, tag, force Tag an image into a repository
image/inspect imageId Inspect an image InspectImageResponse
Container Operation Options Description Body Content Returns
container/list showSize, showAll, before, since, limit, List containers initialRange List<Container>
container/create imageId, name, exposedPorts, workingDir, disableNetwork, hostname, user, tty, stdInOpen, stdInOnce, memoryLimit, memorySwap, cpuShares, attachStdIn, attachStdOut, attachStdErr, env, cmd, dns, image, volumes, volumesFrom Create a container CreateContainerResponse
container/start
containerId, binds, links, lxcConf, portBindings, privileged, publishAllPorts, dns, dnsSearch, volumesFrom, networkMode, devices, restartPolicy, capAdd, capDrop
Start a container
container/inspect containerId Inspect a container InspectContainerResponse
container/wait containerId Wait a container Integer
container/log containerId, stdOut, stdErr, timestamps, followStream, tailAll, tail Get container logs InputStream
container/attach containerId, stdOut, stdErr, timestamps, logs, followStream Attach to a container InputStream
container/stop containerId, timeout Stop a container
container/restart containerId, timeout Restart a container
container/diff containerId Inspect changes on a container ChangeLog
container/kill containerId, signal Kill a container
container/top containerId, psArgs List processes running in a container TopContainerResponse
container/pause containerId Pause a container
container/unpause containerId Unpause a container
container/commit containerId, repository, message, tag, attachStdIn, attachStdOut, attachStdErr, cmd, disableNetwork, pause, env, exposedPorts, hostname, memory, memorySwap, openStdIn, portSpecs, stdInOnce, tty, user, volumes, hostname Create a new image from a container's changes String
container/copyfile containerId, resource, hostPath Copy files or folders from a container InputStream
container/remove containerId, force, removeVolumes Remove a container

Examples

The following example consumes events from Docker:
from("docker://events?host=192.168.59.103&port=2375").to("log:event");
The following example queries Docker for system wide information
from("docker://info?host=192.168.59.103&port=2375").to("log:info");

Chapter 39. Dozer

Dozer Component

The dozer: component provides the ability to map between Java beans using the Dozer mapping framework. Camel also supports the ability to trigger Dozer mappings as a type converter. The primary differences between using a Dozer endpoint and a Dozer converter are:
  • The ability to manage Dozer mapping configuration on a per-endpoint basis vs. global configuration via the converter registry.
  • A Dozer endpoint can be configured to marshal/unmarshal input and output data using Camel data formats to support a single, any-to-any transformation endpoint
  • The Dozer component allows for fine-grained integration and extension of Dozer to support additional functionality (e.g. mapping literal values, using expressions for mappings, etc.).
In order to use the Dozer component, Maven users will need to add the following dependency to their pom.xml:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-dozer</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".

URI format

The Dozer component only supports producer endpoints.
dozer:endpointId[?options]
Where endpointId is a name used to uniquely identify the Dozer endpoint configuration.
An example Dozer endpoint URI:
from("direct:orderInput").
  to("dozer:transformOrder?mappingFile=orderMapping.xml&targetModel=example.XYZOrder").
  to("direct:orderOutput");

Options

Name
Default
Description
mappingFile
dozerBeanMapping.xml
The location of a Dozer configuration file. The file is loaded from the classpath by default, but you can use file:, classpath:, or http: to load the configuration from a specific location.
unmarshalId
none
The id of a dataFormat defined within the Camel Context to use for unmarshalling the mapping input from a non-Java type.
marshalId
none
The id of a dataFormat defined within the Camel Context to use for marshalling the mapping output to a non-Java type.
sourceModel
none
Fully-qualified class name for the source type used in the mapping. If specified, the input to the mapping is converted to the specified type before being mapped with Dozer.
targetModel
none
Fully-qualified class name for the target type used in the mapping. This option is required.
mappingConfiguration none The name of a DozerBeanMapperConfiguration bean in the Camel registry which should be used for configuring the Dozer mapping. This is an alternative to the mappingFile option that can be used for fine-grained control over how Dozer is configured. Remember to use a "#" prefix in the value to indicate that the bean is in the Camel registry (e.g. "#myDozerConfig").

Using Data Formats with Dozer

Dozer does not support non-Java sources and targets for mappings, so it cannot, for example, map an XML document to a Java object on its own. Luckily, Camel has extensive support for marshalling between Java and a wide variety of formats using data formats. The Dozer component takes advantage of this support by allowing you to specify that input and output data should be passed through a data format prior to processing via Dozer. You can always do this on your own outside the call to Dozer, but supporting it directly in the Dozer component allows you to use a single endpoints to configure any-to-any transformation within Camel.
As an example, let's say you wanted to map between an XML data structure and a JSON data structure using the Dozer component. If you had the following data formats defined in a Camel Context:
<dataFormats>
  <json library="Jackson" id="myjson"/>
  <jaxb contextPath="org.example" id="myjaxb"/>
</dataFormats>
You could then configure a Dozer endpoint to unmarshal the input XML using a JAXB data format and marshal the mapping output using Jackson.
<endpoint uri="dozer:xml2json?marshalId=myjson&amp;unmarshalId=myjaxb&amp;targetModel=org.example.Order"/>

Configuring Dozer

All Dozer endpoints require a Dozer mapping configuration file which defines mappings between source and target objects. The component will default to a location of META-INF/dozerBeanMapping.xml if the mappingFile or mappingConfiguration options are not specified on an endpoint. If you need to supply multiple mapping configuration files for a single endpoint or specify additional configuration options (e.g. event listeners, custom converters, etc.), then you can use an instance of org.apache.camel.converter.dozer.DozerBeanMapperConfiguration.
<bean id="mapper" class="org.apache.camel.converter.dozer.DozerBeanMapperConfiguration">  
  <property name="mappingFiles">
    <list>
      <value>mapping1.xml</value>
      <value>mapping2.xml</value>
    </list>
  </property>
</bean>

Mapping Extensions

The Dozer component implements a number of extensions to the Dozer mapping framework as custom converters. These converters implement mapping functions that are not supported directly by Dozer itself.

Variable Mappings

Variable mappings allow you to map the value of a variable definition within a Dozer configuration into a target field instead of using the value of a source field. This is equivalent to constant mapping in other mapping frameworks, where can you assign a literal value to a target field. To use a variable mapping, simply define a variable within your mapping configuration and then map from the VariableMapper class into your target field of choice:
<mappings xmlns="http://dozer.sourceforge.net" 
  xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
  xsi:schemaLocation="http://dozer.sourceforge.net http://dozer.sourceforge.net/schema/beanmapping.xsd">
  <configuration>
    <variables>
      <variable name="CUST_ID">ACME-SALES</variable>
    </variables>
  </configuration>
  <mapping>
    <class-a>org.apache.camel.component.dozer.VariableMapper</class-a>
    <class-b>org.example.Order</class-b>
    <field custom-converter-id="_variableMapping" custom-converter-param="${CUST_ID}">
      <a>literal</a>
      <b>custId</b>
    </field>
  </mapping>
</mappings>

Custom Mappings

Custom mappings allow you to define your own logic for how a source field is mapped to a target field. They are similar in function to Dozer customer converters, with two notable differences:
  • You can have multiple converter methods in a single class with custom mappings.
  • There is no requirement to implement a Dozer-specific interface with custom mappings.
A custom mapping is declared by using the built-in '_customMapping' converter in your mapping configuration. The parameter to this converter has the following syntax:
[class-name][,method-name]
Method name is optional - the Dozer component will search for a method that matches the input and output types required for a mapping. An example custom mapping and configuration are provided below.
public class CustomMapper {
    // All customer ids must be wrapped in "[ ]"
    public Object mapCustomer(String customerId) {
        return "[" + customerId + "]";
    }
}
<mappings xmlns="http://dozer.sourceforge.net" 
  xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
  xsi:schemaLocation="http://dozer.sourceforge.net http://dozer.sourceforge.net/schema/beanmapping.xsd">
  <mapping>
    <class-a>org.example.A</class-a>
    <class-b>org.example.B</class-b>
    <field custom-converter-id="_customMapping" 
	    custom-converter-param="org.example.CustomMapper,mapCustomer">
      <a>header.customerNum</a>
      <b>custId</b>
    </field>
  </mapping>
</mappings>

Expression Mappings

Expression mappings allow you to use the powerful language capabilities of Camel to evaluate an expression and assign the result to a target field in a mapping. Any language that Camel supports can be used in an expression mapping. Basic examples of expressions include the ability to map a Camel message header or exchange property to a target field or to concatenate multiple source fields into a target field. The syntax of a mapping expression is:
[language]:[expression]
An example of mapping a message header into a target field:
<mappings xmlns="http://dozer.sourceforge.net" 
  xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
  xsi:schemaLocation="http://dozer.sourceforge.net http://dozer.sourceforge.net/schema/beanmapping.xsd">
  <mapping>
    <class-a>org.apache.camel.component.dozer.ExpressionMapper</class-a>
    <class-b>org.example.B</class-b>
    <field custom-converter-id="_expressionMapping" custom-converter-param="simple:\${header.customerNumber}">
      <a>expression</a>
      <b>custId</b>
    </field>
  </mapping>
</mappings>
Note that any properties within your expression must be escaped with "\" to prevent an error when Dozer attempts to resolve variable values defined using the EL.

Dozer type conversions

The Dozer component provides the ability to map between Java beans, using the Dozer Mapping framework. However, Camel also supports the ability to trigger Dozer mappings as a type converter.
CamelContext camelctx = new DefaultCamelContext();
camelctx.addRoutes(new RouteBuilder() {
    @Override
    public void configure() throws Exception {
        from("direct:start").convertBodyTo(CustomerB.class);
    }
});

DozerBeanMapperConfiguration mconfig = new DozerBeanMapperConfiguration();
mconfig.setMappingFiles(Arrays.asList(new String[] { "mappings.xml" }));
new DozerTypeConverterLoader(camelctx, mconfig);

Chapter 40. Dropbox

Camel Dropbox component

Available as of Camel 2.14
The dropbox: component allows you to treat Dropbox remote folders as a producer or consumer of messages. Using the Dropbox Java Core API (reference version for this component is 1.7.x), this camel component has the following features:
  • As a consumer, download files and search files by queries
  • As a producer, download files, move files between remote directories, delete files/dir, upload files and search files by queries
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-dropbox</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

URI format

dropbox://[operation]?[options]
Where operation is the specific action (typically is a CRUD action) to perform on Dropbox remote folder.

Operation

Operation
Description
del
deletes files or directories on Dropbox
get
download files from Dropbox
move
move files from folders on Dropbox
put
upload files on Dropbox
search
search files on Dropbox based on string queries
Operations require additional options to work, some are mandatory for the specific operation.

Options

In order to work with Dropbox API you need to obtain an accessToken and a clientIdentifier. You can refer to the Dropbox documentation that expalins how to get them.
Below are listed the mandatory options for all operations:
Property
Mandatory
Description
accessToken
true
The access token to make API requests for a specific Dropbox user
clientIdentifier
true
Name of the app registered to make API requests

Del operation

Delete files on Dropbox.
Works only as Camel producer.
Below are listed the options for this operation:
Property
Mandatory
Description
remotePath
true
Folder or file to delete on Dropbox

Samples

from("direct:start").to("dropbox://del?accessToken=XXX&clientIdentifier=XXX&remotePath=/root/folder1").to("mock:result");
from("direct:start").to("dropbox://del?accessToken=XXX&clientIdentifier=XXX&remotePath=/root/folder1/file1.tar.gz").to("mock:result");

Result Message Headers

The following headers are set on message result:
Property
Value
DELETED_PATH
name of the path deleted on dropbox

Result Message Body

The following objects are set on message body result:
Object type
Description
String
name of the path deleted on dropbox

Get (download) operation

Download files from Dropbox.
Works as Camel producer or Camel consumer.
Below are listed the options for this operation:
Property
Mandatory
Description
remotePath
true
Folder or file to download from Dropbox

Samples

from("direct:start").to("dropbox://get?accessToken=XXX&clientIdentifier=XXX&remotePath=/root/folder1/file1.tar.gz").to("file:///home/kermit/?fileName=file1.tar.gz");
from("direct:start").to("dropbox://get?accessToken=XXX&clientIdentifier=XXX&remotePath=/root/folder1").to("mock:result");
from("dropbox://get?accessToken=XXX&clientIdentifier=XXX&remotePath=/root/folder1").to("file:///home/kermit/");

Result Message Headers

The following headers are set on message result:
Property
Value
DOWNLOADED_FILE
in case of single file download, path of the remote file downloaded
DOWNLOADED_FILES
in case of multiple files download, path of the remote files downloaded

Result Message Body

The following objects are set on message body result:
Object type
Description
ByteArrayOutputStream
in case of single file download, stream representing the file downloaded
Map<String, ByteArrayOutputStream>
in case of multiple files download, a map with as key the path of the remote file downloaded and as value the stream representing the file downloaded

Move operation

Move files on Dropbox between one folder to another.
Works only as Camel producer.
Below are listed the options for this operation:
Property
Mandatory
Description
remotePath
true
Original file or folder to move
newRemotePath
true
Destination file or folder

Samples

from("direct:start").to("dropbox://move?accessToken=XXX&clientIdentifier=XXX&remotePath=/root/folder1&newRemotePath=/root/folder2").to("mock:result");

Result Message Headers

The following headers are set on message result:
Property
Value
MOVED_PATH
name of the path moved on dropbox

Result Message Body

The following objects are set on message body result:
Object type
Description
String
name of the path moved on dropbox

Put (upload) operation

Upload files on Dropbox.
Works as Camel producer.
Below are listed the options for this operation:
Property
Mandatory
Description
uploadMode
true
add or force this option specifies how a file should be saved on dropbox: in case of "add" the new file will be renamed if a file with the same name already exists on dropbox. in case of "force" if a file with the same name already exists on dropbox, this will be overwritten.
localPath
true
Folder or file to upload on Dropbox from the local filesystem .
remotePath
false
Folder destination on Dropbox. If the property is not set, the component will upload the file on a remote path equal to the local path.

Samples

from("direct:start").to("dropbox://put?accessToken=XXX&clientIdentifier=XXX&uploadMode=add&localPath=/root/folder1").to("mock:result");
from("direct:start").to("dropbox://put?accessToken=XXX&clientIdentifier=XXX&uploadMode=add&localPath=/root/folder1&remotePath=/root/folder2").to("mock:result");

Result Message Headers

The following headers are set on message result:
Property
Value
UPLOADED_FILE
in case of single file upload, path of the remote path uploaded
UPLOADED_FILES
in case of multiple files upload, string with the remote paths uploaded

Result Message Body

The following objects are set on message body result:
Object type
Description
String
in case of single file upload, result of the upload operation, OK or KO
Map<String, DropboxResultCode>
in case of multiple files upload, a map with as key the path of the remote file uploaded and as value the result of the upload operation, OK or KO

Search operation

Search inside a remote Dropbox folder including its sub directories.
Works as Camel producer and as Camel consumer.
Below are listed the options for this operation:
Property
Mandatory
Description
remotePath
true
Folder on Dropbox where to search in.
query
false
A space-separated list of substrings to search for. A file matches only if it contains all the substrings. If this option is not set, all files will be matched.

Samples

from("dropbox://search?accessToken=XXX&clientIdentifier=XXX&remotePath=/XXX&query=XXX").to("mock:result");
from("direct:start").to("dropbox://search?accessToken=XXX&clientIdentifier=XXX&remotePath=/XXX").to("mock:result");

Result Message Headers

The following headers are set on message result:
Property
Value
FOUNDED_FILES
list of file path founded

Result Message Body

The following objects are set on message body result:
Object type
Description
List<DbxEntry>
list of file path founded. For more information on this object refer to Dropbox documentation, http://dropbox.github.io/dropbox-sdk-java/api-docs/v1.7.x/com/dropbox/core/DbxEntry.html

Chapter 41. EJB

EJB Component

The EJB component binds Java Enterprise Java Beans to Camel message exchanges. For example:
CamelContext camelctx = new DefaultCamelContext();
    camelctx.addRoutes(new RouteBuilder() {
        @Override
        public void configure() throws Exception {
            from("direct:start").to("ejb:java:module/HelloBean");
        }
    });

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".

Chapter 42. Etcd

Etcd Component

Etcd is a distributed key value store that provides a reliable way to store data across a cluster of machines.
Maven users will need to add the following dependency to their pom.xml for this component.
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-etcd</artifactId>
    <!-- use the same version as your Camel core version -->
    <version>x.y.z</version>
</dependency>

URI format

etcd:namespace[/path][?options]
Where namespace represents the etcd context to which the etcd-component should operate and path is an optional attribute to define which node is being impacted.
Supported namespaces are:
  • keys
  • watch
  • stats

Options

Name
Default Value
Description
uris
Defines the URIs the component should connect to.
sslContextParameters null To use a custom org.apache.camel.util.jsse.SSLContextParameters. See Using the JSSE Configuration Utility
userName null The user name to use for basic authentication
password null The password to use for basic authentication
sendEmptyExchangeOnTimeout false To send an empty message in case of timeout watching for a key (consumer only)
recursive false To apply an action recursively
timeToLive null To set the lifespan of a key in milliseconds
timeout null To set the maximum time an action could take to complete.

Headers

NameTypeDescription
CamelEtcdAction java.lang.String The action to perform, supported values are set, delete, deleteDir, get
CamelEtcdNamespace java.lang.String
The etcd context an exchange was generated/processed from
CamelEtcdPath java.lang.String
For keys namespace, it is used to determine the node subject the the action, if not set the path from URI endpoint is used. For stats and watch namespaces it contains the path of the node beign processed
CamelEtcdTimeout java.lang.Long To set the maximum time an action could take to complete. If not present, the timeout option is taken into account
CamelEtcdTtl java.lang.Integer To set the lifespan of a key in milliseconds. If not present, the timeToLive option is taken into account
CamelEtcdRecursive java.lang.Boolean To apply an action recursively. If not present, the recursive option is taken into account.

Keys namespace example:

CamelContext context = new DefaultCamelContext();
context.addRoutes(new RouteBuilder() {
    public void configure() {
       from("direct:keys-set")
            .to("etcd:keys")
                .to("log:camel-etcd?level=INFO");
    }
});

Map<String, Object> headers = new HashMap<>();
headers.put(EtcdConstants.ETCD_ACTION, EtcdConstants.ETCD_KEYS_ACTION_SET);
headers.put(EtcdConstants.ETCD_PATH, "/camel/etcd/myKey");
 
ProducerTemplate template = context.createProducerTemplate();
template.sendBodyAndHeaders("direct:keys-set", "camel-etcd", headers);

Stats namespace example:

CamelContext context = new DefaultCamelContext();
context.addRoutes(new RouteBuilder() {
    public void configure() {
       from("etcd:stats/leader?consumer.delay=50&consumer.initialDelay=0")
           .to("log:etcd-leader-stats?level=INFO");
       from("etcd:stats/self?consumer.delay=50&consumer.initialDelay=0")
           .to("log:etcd-self-stats?level=INFO");
       from("etcd:stats/store?consumer.delay=50&consumer.initialDelay=0")
           .to("log:etcd-store-stats?level=INFO");
    }
});

Watch namespace example:

CamelContext context = new DefaultCamelContext();
context.addRoutes(new RouteBuilder() {
    public void configure() {
       from("etcd:watch/recursive?recursive=true")
        .marshall().json()
        .to("log:etcd-event?level=INFO")
    }
});

Chapter 43. ElasticSearch

ElasticSearch Component

Available as of Camel 2.11
The ElasticSearch component allows you to interface with an ElasticSearch server.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-elasticsearch</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>

Camel on EAP deployment

This component is supported by the Camel on EAP (Wildfly Camel) framework, which offers a simplified deployment model on the Red Hat JBoss Enterprise Application Platform (JBoss EAP) container. For details of this model, see chapter "Apache Camel on Red Hat JBoss EAP" in "Deploying into a Web Server".

URI format

elasticsearch://clusterName?[options]
Tip
If you want to run against a local (in JVM/classloader) ElasticSearch server, just set the clusterName value in the URI to local. See the client guide for more details.

Endpoint Options

The following options may be configured on the ElasticSearch endpoint. All are required to be set as either an endpoint URI parameter or as a header (headers override endpoint properties)
name description
operation Required, indicates the operation to perform.
indexName
The name of the index to act against.
indexType
The type of the index to act against.
ip
The TransportClient remote host IP address to use Camel 2.12.
port
The TransportClient remote port to use (defaults to 9300) Camel 2.12.
transportAddresses
Camel 2.16: Comma-separated list with ip:port formatted remote transport addresses to use. Options ip and port must be left blank for transportAddresses to be considered instead.
consistencyLevel
Camel 2.16: The write consistency level to use with INDEX and BULK operations (can be any of ONE, QUORUM, ALL or DEFAULT).
replicationType
Camel 2.16: The replication type to use with INDEX and BULK operations (can be any of SYNC, ASYNC or DEFAULT). Camel 2.17: replicationType option has been removed, since from Elasticsearch 2.0.0 the async replication has been removed..
parent
Camel 2.16.1 / 2.17.0: Optionally used with INDEX operations for Elasticsearch Parent-Child relationships to specify the ID of the parent record.
clientTransportSniff
Camel 2.17: Specifies whether the client is allowed to sniff the rest of the cluster.

Message Operations

The following ElasticSearch operations are currently supported. Simply set an endpoint URI option or exchange header with a key of operation and a value set to one of the following. Some operations also require other parameters or the message body to be set.
operation message body description
INDEX Map, String, byte[] or XContentBuilder content to index Adds content to an index and returns the content's indexId in the body.
GET_BY_ID Index ID of content to retrieve Retrieves the specified index and returns a GetResult object in the body.
DELETE Index ID of content to delete Deletes the specified indexId and returns a DeleteResult object in the body.
BULK_INDEX
A List or Collection of any type that is already accepted (XContentBuilder, Map, byte[], or String)
Camel 2.14, Adds content to an index and return a List of the id of the successfully indexed documents in the body.
BULK
A List or Collection of any type that is already accepted (XContentBuilder, Map, byte[], or String)
Camel 2.15, Adds content to an index and returns the BulkResponse object in the body.
SEARCH Map or SearchRequest
Camel 2.15: Search the content with the map of query string.
MULTIGET List of MultigetRequest.Item
Camel 2.17: Retrieves the specified indexes, types etc. in MultigetRequest and returns a MultigetResponse object in the body.
MULTISEARCH List of SearchRequest
Camel 2.17: Search for parameters specified in MultiSearchRequest and returns a MultiSearchResponse object in the body.
EXISTS
Index name as header
Camel 2.17: Returns a Boolean object in the body.
UPDATE Map, String, byte[] or XContentBuilder content to update
Camel 2.17: Updates content to an index and returns the content's indexId in the body.

Index Example

Below is a simple INDEX example
from("direct:index")
    .to("elasticsearch://local?operation=INDEX&indexName=twitter&indexType=tweet");
<route>
    <from uri="direct:index" />
    <to uri="elasticsearch://local?operation=INDEX&indexName=twitter&indexType=tweet"/>
</route>
A client would simply need to pass a body message containing a Map to the route. The result body contains the indexId created.
Map<String, String> map = new HashMap<String, String>();
map.put("content", "test");
String indexId = template.requestBody("direct:index", map, String.class);

Java Example

The following example shows how to use the ElasticSearch component from a Camel route defined in Java:
CamelContext camelContext = new DefaultCamelContext();
camelContext.addRoutes(new RouteBuilder() {
    @Override
    public void configure() throws Exception {
        from("direct:index")
          .to("elasticsearch://local?operation=INDEX&indexName=twitter&indexType=tweet");
    }
});

Map<String, String> indexedData = new HashMap<>();
indexedData.put("content", "test");

ProducerTemplate template = camelContext.createProducerTemplate();
template.sendBody("direct:index", indexedData);

For more information, see these resources

Chapter 44. ElSql

ElSql Component

Available as of Camel 2.16
The elsql: component is an extension to the existing SQL Component that uses ElSql to define the SQL queries.
This component uses spring-jdbc behind the scenes for the actual SQL handling.
Maven users will need to add the following dependency to their pom.xml for this component:
<dependency>
    <groupId>org.apache.camel</groupId>
    <artifactId>camel-elsql</artifactId>
    <version>x.x.x</version>
    <!-- use the same version as your Camel core version -->
</dependency>
Note
This component can be used as a Transactional Client.
The ElSql component uses the following endpoint URI notation:
elsql:elSqlName:resourceUri[?options]
You can append query options to the URI in the following format, ?option=value&option=value&...
The parameters to the SQL queries are named parameters in the elsql mapping files, and maps to corresponding keys from the Camel message, in the given precedence:
1. Camel 2.16.1: from message body if Simple expression.
2. from message body if its a java.util.Map
3. from message headers
If a named parameter cannot be resolved, then an exception is thrown.

Options

Option
Type
Default
Description
resourceUri String null Required The resource file which contains the elsql SQL statements to use. You can specify multiple resources separated by comma. The resources are loaded on the classpath by default, you can prefix with file: to load from file system. Notice you can set this option on the component and then you do not have to configure this on the endpoint.
elSqlConfig null To use a specific configured ElSqlConfig. It may be better to use the databaseVendor option instead.
databaseVendor Default To use a vendor specific ElSqlConfig. The possible values are: Default, Postgres, HSql, MySql, Oracle, SqlServer2008, Veritca
batch
boolean
false
Execute SQL batch update statements. See notes below on how the treatment of the inbound message body changes if this is set to true.
dataSource
String
null
Reference to a DataSource to look up in the registry.
template.<xxx>
null
Sets additional options on the Spring NamedParameterJdbcTemplate that is used behind the scenes to execute the queries. For instance, template.maxRows=10. For detailed documentation, see the NamedParameterJdbcTemplate javadoc documentation.
consumer.delay
long
500
Delay in milliseconds between each poll.
consumer.initialDelay
long
1000
Milliseconds before polling starts.
consumer.useFixedDelay
boolean
false
Set to true to use fixed delay between polls, otherwise fixed rate is used. See ScheduledExecutorService in JDK for details.
maxMessagesPerPoll
int
0
An integer value to define the maximum number of messages to gather per poll. By default, no maximum is set.
consumer.useIterator
boolean
true
If true each row returned when polling will be processed individually. If false the entire java.util.List of data is set as the IN body.
consumer.routeEmptyResultSet
boolean
false
Whether to route a single empty Exchange if there was no data to poll.
consumer.onConsume
String
null
After processing each row then this query can be executed, if the Exchange was processed successfully, for example to mark the row as processed. The query can have parameter.
consumer.onConsumeFailed
String
null
After processing each row then this query can be executed, if the Exchange failed, for example to mark the row as failed. The query can have parameter.
consumer.onConsumeBatchComplete
String
null
After processing the entire batch, this query can be executed to bulk update rows etc. The query cannot have parameters.
consumer.breakBatchOnConsumeFail
boolean
false
If using consumer.onConsume and it fails, then this option controls whether to break out of the batch or continue processing the next row from the batch.
outputType
String
SelectList
Make the output of consumer or producer to SelectList as List of Map, or SelectOne as single Java object in the following way: a) If the query has only single column, then that JDBC Column object is returned. (such as SELECT COUNT( * ) FROM PROJECT will return a Long object. b) If the query has more than one column, then it will return a Map of that result. c) If the outputClass is set, then it will convert the query result into an Java bean object by calling all the setters that match the column names. It will assume your class has a default constructor to create instance with. d) If the query resulted in more than one rows, it throws an non-unique result exception.
Tthe SelectList also supports mapping each row to a Java object as the SelectOne does (only step c).
outputClass
String
null
Specify the full package and class name to use as conversion when outputType=SelectOne.
outputHeader
String null
To store the result as a header instead of the message body. This allows to preserve the existing message body as-is.
noop
boolean
false
If set, will ignore the results of the SQL query and use the existing IN message as the OUT message for the continuation of processing
transacted boolean false Camel 2.16.2: SQL consumer only:Enables or disables transaction. If enabled then if processing an exchange failed then the consumer break out processing any further exchanges to cause a rollback eager

Result of the query

For select operations, the result is an instance of List<Map<String, Object>> type, as returned by the JdbcTemplate.queryForList() method. For update operations, the result is the number of updated rows, returned as an Integer.
By default, the result is placed in the message body. If the outputHeader parameter is set, the result is placed in the header. This is an alternative to using a full message enrichment pattern to add headers, it provides a concise syntax for querying a sequence or some other small value into a header. It is convenient to use outputHeader and outputType together:

Header values

When performing update operations, the SQL Component stores the update count in the following message headers:
Header
Description
CamelSqlUpdateCount
The number of rows updated for update operations, returned as an Integer object.
CamelSqlRowCount
The number of rows returned for select operations, returned as an Integer object.

Sample

In the given route below, we want to get all the projects from the projects table. Notice the SQL query has 2 named parameters, :#lic and :#min.
Camel will then lookup for these parameters from the message body or message headers. Notice in the example above we set two headers with constant value for the named parameters:
   from("direct:projects")
     .setHeader("lic", constant("ASF"))
     .setHeader("min", constant(123))
     .to("elsql:projects:com/foo/orders.elsql")
And the elsql mapping file
@NAME(projects)
  SELECT *
  FROM projects
  WHERE license = :lic AND id > :min
  ORDER BY id
Though if the message body is a java.util.Map then the named parameters will be taken from the body.
   from("direct:projects")
     .to("elsql:projects:com/foo/orders.elsql")
In from Camel 2.16.1 onwards you can use Simple expressions as well, which allows to use an OGNL like notation on the message body, where it assumes to have getLicense and getMinimum methods:
@NAME(projects)
  SELECT *
  FROM projects
  WHERE license = :${body.license} AND id > :${body.minimum}
  ORDER BY id

See also

  • SQL Component
  • MyBatis
  • JDBC

Chapter 45. EventAdmin

EventAdmin component

Available in Camel 2.6
The eventadmin component can be used in an OSGi environment to receive OSGi EventAdmin events and process them.

Dependencies

Maven users need to add the following dependency to their pom.xml
<dependency>
  <groupId>org.apache.camel</groupId>
  <artifactId>camel-eventadmin</artifactId>
  <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Camel (2.6.0 or higher).

URI format

eventadmin:topic[?options]
where topic is the name of the topic to listen too.

URI options

Name Default value Description
send false Whether to use 'send' or 'synchronous' deliver. Default false (async delivery)

Message headers

Name Type Message Description

Message body

The in message body will be set to the received Event.

Example usage

<route>
    <from uri="eventadmin:*"/>
    <to uri="stream:out"/>
</route>

Chapter 46. Exec

Exec component

Available in Apache Camel 2.3
The exec component can be used to execute system commands.

Dependencies

Maven users need to add the following dependency to their pom.xml
<dependency>
  <groupId>org.apache.camel</groupId>
  <artifactId>camel-exec</artifactId>
  <version>${camel-version}</version>
</dependency>
where ${camel-version} must be replaced by the actual version of Apache Camel (2.3.0 or higher).

URI format

exec://executable[?options]
where executable is the name, or file path, of the system command that will be executed. If executable name is used (e.g. exec:java), the executable must in the system path.

URI options

Name Default value Description
args null
The arguments of the executable. The arguments may be one or many whitespace-separated tokens, that can be quoted with ", e.g. args="arg 1" arg2 will use two arguments arg 1 and arg2. To include the quotes use "", e.g. args=""arg 1"" arg2 will use the arguments "arg 1" and arg2.
workingDir null The directory in which the command should be executed. If null, the working directory of the current process will be used.
timeout Long.MAX_VALUE The timeout, in milliseconds, after which the executable should be terminated. If execution has has not finished within the timeout, the component will send a termination request.
outFile null The name of a file, created by the executable, that should be considered as its output. If no outFile is set, the standard output (stdout) of the executable will be considered as output.
binding a DefaultExecBinding instance A reference to a org.apache.commons.exec.ExecBinding in the Registry.
commandExecutor a DefaultCommandExecutor instance A reference to a org.apache.commons.exec.ExecCommandExecutor in the Registry, that customizes the command execution. The default command executor utilizes the commons-exec library. It adds a shutdown hook for every executed command.
useStderrOnEmptyStdout false A boolean indicating that when stdout is empty, this component will populate the Camel Message Body with stderr. This behavior is disabled (false) by default.

Message headers

The supported headers are defined in org.apache.camel.component.exec.ExecBinding.
Name Type Message Description
ExecBinding.EXEC_COMMAND_EXECUTABLE String in The name of the system command that will be executed. Overrides the executable in the URI.
ExecBinding.EXEC_COMMAND_ARGS java.util.List<String> in The arguments of the executable. The arguments are used literally, no quoting is applied. Overrides existing args in the URI.
ExecBinding.EXEC_COMMAND_ARGS String in Camel 2.5: The arguments of the executable as a Single string where each argument is whitespace separated (see args in URI option). The arguments are used literally, no quoting is applied. Overrides existing args in the URI.
ExecBinding.EXEC_COMMAND_OUT_FILE String in The name of a file, created by the executable, that should be considered as output of the executable. Overrides existing outFile in the URI.
ExecBinding.EXEC_COMMAND_TIMEOUT long in The timeout, in milliseconds, after which the executable should be terminated. Overrides any existing timeout in the URI.
ExecBinding.EXEC_COMMAND_WORKING_DIR String in The directory in which the command should be executed. Overrides any existing workingDir in the URI.
ExecBinding.EXEC_EXIT_VALUE int out The value of this header is the exit value of the executable. Non-zero exit values typically indicate abnormal termination. Note that the exit value is OS-dependent.
ExecBinding.EXEC_STDERR java.io.InputStream out The value of this header points to the standard error stream (stderr) of the executable. If no stderr is written, the value is null.
ExecBinding.EXEC_USE_STDERR_ON_EMPTY_STDOUT boolean in Indicates that when stdout is empty, this component will populate the Camel Message Body with stderr. This behavior is disabled (false) by default.

Message body

If the Exec component receives an in message body that is convertible to java.io.InputStream, it is used to feed input to the executable via its stdin. After execution, the message body is the result of the execution, that is, an org.apache.camel.components.exec.ExecResult instance containing the stdout, stderr, exit value, and out file. This component supports the following ExecResult type converters for convenience:
From To
ExecResult java.io.InputStream
ExecResult String
ExecResult byte []
ExecResult org.w3c.dom.Document

Executing word count (Linux)

The example below executes wc (word count, Linux) to count the words in file /usr/share/dict/words. The word count (output) is written in the standart output stream of wc.
from("direct:exec")
.to("exec:wc?args=--words /usr/share/dict/words")
.process(new Processor() {
     public void process(Exchange exchange) throws Exception {
       // By default, the body is ExecResult instance
       assertIsInstanceOf(ExecResult.class, exchange.getIn().getBody());
       // Use the Camel Exec String type converter to convert the ExecResult to String
       // In this case, the stdout is considered as output
       String wordCountOutput = exchange.getIn().getBody(String.class);
       // do something with the word count
     }
});

Executing java

The example below executes java with 2 arguments: -server and -version, provided that java is in the system path.
from("direct:exec")
.to("exec:java?args=-server -version")
The example below executes java in c:/temp with 3 arguments: -server, -version and the sytem property user.name.
from("direct:exec")
.to("exec:c:/program files/jdk/bin/java?args=-server -version -Duser.name=Camel&workingDir=c:/temp")

Executing Ant scripts

The following example executes Apache Ant (Windows only) with the build file CamelExecBuildFile.xml, provided that ant.bat is in the system path, and that CamelExecBuildFile.xml is in the current directory.
from("direct:exec")
.to("exec:ant.bat?args=-f CamelExecBuildFile.xml")
In the next example, the ant.bat command redirects its output to CamelExecOutFile.txt with -l. The file CamelExecOutFile.txt is used as the out file with outFile=CamelExecOutFile.txt. The example assumes that ant.bat is in the system path, and that CamelExecBuildFile.xml is in the current directory.
from("direct:exec")
.to("exec:ant.bat?args=-f CamelExecBuildFile.xml -l CamelExecOutFile.txt&outFile=CamelExecOutFile.txt")
.process(new Processor() {
     public void process(Exchange exchange) throws Exception {
        InputStream outFile = exchange.getIn().getBody(InputStream.class);
        assertIsInstanceOf(InputStream.class, outFile);
        // do something with the out file here
     }
  });

Executing echo (Windows)

Commands such as echo and dir can be executed only with the command interpreter of the operating system. This example shows how to execute such a command - echo - in Windows.
from("direct:exec").to("exec:cmd?args=/C echo echoString")

Chapter 47. Fabric Component

Abstract

The Fabric component implements a location discovery mechanism for Apache Camel endpoints. This mechanism can also be used to provide load-balancing over a cluster of endpoints. On the client side (producer endpoints), endpoints are represented by an abstract ID and at run time, the ID is resolved to a specific endpoint URI. Because the URI is stored in a distributed registry (provided by Fuse Fabric), this enables you to create flexible applications whose topology can be specified at deploy time and updated dynamically.

Dependencies

The Fabric component can only be used in the context of a fabric-enabled Red Hat JBoss Fuse container. You must ensure that the fabric-camel feature is installed. In the context of Fabric, you install a feature by adding it to the relevant profile. For example, if you are using a profile called my-master-profile, you would add the fabric-camel feature by entering the following console command:
karaf@root> fabric:profile-edit --features fabric-camel my-master-profile
Note
To use the fabric component properly, make sure to add profiles like fabric-zookeeper and fabric-commands. However, If you are using jetty end-point, then include the camel-jetty feature.

URI format

A fabric endpoint has the following URI format:
fabric:ClusterID[:PublishedURI[?Options]]
The format of the URI depends on whether it is used to specify a consumer endpoint or a producer endpoint.
For a Fabric consumer endpoint, the URI format is:
fabric:ClusterID:PublishedURI[?Options]
Where the specified URI, PublishedURI, is published in the fabric registry and associated with the ClusterId cluster. The options, Options, are used when creating the consumer endpoint instance, but the options are not published with the PublishedURI in the fabric registry.
For a Fabric producer endpoint, the URI format is:
fabric:ClusterID
Where the client looks up the ID, ClusterId, in the fabric registry to discover the URI to connect to.

URI options

The Fabric component itself does not support any URI options. It is possible, however, to specify options for the published URI. These options are stored in the fabric registry as part of the URI and are used as follows:
  • Server-only options—options that are applicable only to the server are applied to the server endpoint (consumer endpoint) at run time.
  • Client-only options—options that are applicable only to the client are applied to the client endpoint (producer endpoint) at run time.
  • Common options—options common to the client and the server are applied to both.

Use cases for fabric endpoints

Fabric endpoints essentially provide a discovery mechanism for Apache Camel endpoints. For example, they support the following basic use cases:

Location discovery

Figure 47.1, “Location Discovery through Fabric” gives an overview of how Fabric endpoints enable location discovery at run time.

Figure 47.1. Location Discovery through Fabric

Location Discovery through Fabric
The server side of this application is defined by a route that starts with a Fabric endpoint, where the Fabric endpoint publishes the URI, jetty:http://0.0.0.0:9090. When this route is started, it automatically registers the Jetty URI in the fabric registry, under the cluster ID, foo.
The client side of the application is defined by a route that ends with the Fabric endpoint, fabric:foo. Now, when the client route starts, it automatically looks up the ID, foo, in the fabric registry and retrieves the associated Jetty endpoint URI. The client then creates a producer endpoint using the discovered Jetty URI and connects to the corresponding server port.

Load-balancing cluster

Figure 47.2, “Load Balancing through Fabric” gives an overview of how Fabric endpoints enable you to create a load-balancing cluster.

Figure 47.2. Load Balancing through Fabric

Load Balancing through Fabric
In this case, two Jetty servers are created, with the URIs, jetty:http://0.0.0.0:9090 and jetty:http://0.0.0.0:9191. Because these published URIs are both prefixed by fabric:foo:, both of the Jetty URIs are registered under the same cluster ID, foo, in the fabric registry.
Now, when the client routes starts, it automatically looks up the ID, foo, in the fabric registry. Because the foo ID is associated with multiple endpoint URIs, fabric implements a random load balancing algorithm to choose one of the available URIs. The client then creates a producer endpoint, using the chosen URI.

Auto-reconnect feature

Fabric endpoints support auto-reconnection. So, if a client endpoint (producer endpoint) loses its connection to a server endpoint, it will automatically go back to the fabric regis