docs/components/modules/ROOT/pages/jclouds-component.adoc - camel - Git at Google

 [[jclouds-component]]
 = JClouds Component
 :page-source: components/camel-jclouds/src/main/docs/jclouds-component.adoc

 *Available as of Camel version 2.9*

 This component allows interaction with cloud provider key-value engines
 (blobstores) and compute services. The component uses
 http://code.google.com/p/jclouds[jclouds] which is +
  a library that provides abstractions for blobstores and compute
 services.

 *ComputeService* simplifies the task of managing machines in the cloud.
 For example, you can use ComputeService to start 5 machines and install
 your software on them. +
  *BlobStore* simplifies dealing with key-value providers such as Amazon
 S3. For example, BlobStore can give you a simple Map view of a
 container.

 The camel jclouds component allows you to use both abstractions, as it
 specifes two types of endpoint the JcloudsBlobStoreEndpoint and the
 JcloudsComputeEndpoint. You can have both producers and consumers on a
 blobstore endpoint but you can only have producers on compute endpoints.

 Maven users will need to add the following dependency to their `pom.xml`
 for this component:

 [source,xml]
 ------------------------------------------------------------
 <dependency>
     <groupId>org.apache.camel</groupId>
     <artifactId>camel-jclouds</artifactId>
     <version>x.x.x</version>
     <!-- use the same version as your Camel core version -->
 </dependency>
 ------------------------------------------------------------

 == Configuring the component

 The camel jclouds component will make use of multiple jclouds blobstores
 and compute services as long as they are passed to the component during
 initialization. The component accepts a list blobstores and compute
 services. Here is how it can be configured.

 [source,xml]
 ----------------------------------------------------------------------------------------------------------------
     <bean id="jclouds" class="org.apache.camel.component.jclouds.JcloudsComponent">
         <property name="computeServices">
             <list>
                 <ref bean="computeService"/>
             </list>
         </property>
         <property name="blobStores">
             <list>
                 <ref bean="blobStore"/>
             </list>
         </property>
     </bean>

     <!-- Creating a blobstore from spring / blueprint xml -->
     <bean id="blobStoreContextFactory" class="org.jclouds.blobstore.BlobStoreContextFactory"/>

     <bean id="blobStoreContext" factory-bean="blobStoreContextFactory" factory-method="createContext">
         <constructor-arg name="provider" value="PROVIDER_NAME"/>
         <constructor-arg name="identity"  value="IDENTITY"/>
         <constructor-arg name="credential" value="CREDENTIAL"/>
     </bean>

     <bean id="blobStore" factory-bean="blobStoreContext" factory-method="getBlobStore"/>

     <!-- Creating a compute service from spring / blueprint xml -->
     <bean id="computeServiceContextFactory" class="org.jclouds.compute.ComputeServiceContextFactory"/>

     <bean id="computeServiceContext" factory-bean="computeServiceContextFactory" factory-method="createContext">
         <constructor-arg name="provider" value="PROVIDER_NAME"/>
         <constructor-arg name="identity"  value="IDENTITY"/>
         <constructor-arg name="credential" value="CREDENTIAL"/>
     </bean>

     <bean id="computeService" factory-bean="computeServiceContext" factory-method="getComputeService"/>
 ----------------------------------------------------------------------------------------------------------------

 As you can see the component is capable of handling multiple blobstores
 and compute services. The actual implementation that will be used by
 each endpoint is specified by passing the provider inside the URI.

 == Jclouds Options

 [source,java]
 -----------------------------------------
 jclouds:blobstore:[provider id][?options]
 jclouds:compute:[provider id][?options]
 -----------------------------------------

 The *provider id* is the name of the cloud provider that provides the
 target service (_e.g. aws-s3 or aws_ec2_).

 You can append query options to the URI in the following format,
 `?option=value&option=value&...`

 == Blobstore URI Options


 // component options: START
 The JClouds component supports 3 options, which are listed below.


 [width="100%",cols="2,5,^1,2",options="header"]
 |===
 | Name | Description | Default | Type
 | *blobStores* (common) | To use the given BlobStore which must be configured when using blobstore. |  | List
 | *computeServices* (common) | To use the given ComputeService which must be configured when use compute. |  | List
 | *basicPropertyBinding* (advanced) | Whether the component should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities | false | boolean
 |===
 // component options: END


 // endpoint options: START
 The JClouds endpoint is configured using URI syntax:

 ----
 jclouds:command:providerId
 ----

 with the following path and query parameters:

 === Path Parameters (2 parameters):


 [width="100%",cols="2,5,^1,2",options="header"]
 |===
 | Name | Description | Default | Type
 | *command* | *Required* What command to execute such as blobstore or compute. |  | JcloudsCommand
 | *providerId* | *Required* The name of the cloud provider that provides the target service (e.g. aws-s3 or aws_ec2). |  | String
 |===


 === Query Parameters (17 parameters):


 [width="100%",cols="2,5,^1,2",options="header"]
 |===
 | Name | Description | Default | Type
 | *bridgeErrorHandler* (consumer) | Allows for bridging the consumer to the Camel routing Error Handler, which mean any exceptions occurred while the consumer is trying to pickup incoming messages, or the likes, will now be processed as a message and handled by the routing Error Handler. By default the consumer will use the org.apache.camel.spi.ExceptionHandler to deal with exceptions, that will be logged at WARN or ERROR level and ignored. | false | boolean
 | *exceptionHandler* (consumer) | To let the consumer use a custom ExceptionHandler. Notice if the option bridgeErrorHandler is enabled then this option is not in use. By default the consumer will deal with exceptions, that will be logged at WARN or ERROR level and ignored. |  | ExceptionHandler
 | *exchangePattern* (consumer) | Sets the exchange pattern when the consumer creates an exchange. |  | ExchangePattern
 | *lazyStartProducer* (producer) | Whether the producer should be started lazy (on the first message). By starting lazy you can use this to allow CamelContext and routes to startup in situations where a producer may otherwise fail during starting and cause the route to fail being started. By deferring this startup to be lazy then the startup failure can be handled during routing messages via Camel's routing error handlers. Beware that when the first message is processed then creating and starting the producer may take a little time and prolong the total processing time of the processing. | false | boolean
 | *basicPropertyBinding* (advanced) | Whether the endpoint should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities | false | boolean
 | *synchronous* (advanced) | Sets whether synchronous processing should be strictly used, or Camel is allowed to use asynchronous processing (if supported). | false | boolean
 | *blobName* (blobstore) | The name of the blob. |  | String
 | *container* (blobstore) | The name of the blob container. |  | String
 | *directory* (blobstore) | An optional directory name to use |  | String
 | *group* (compute) | The group that will be assigned to the newly created node. Values depend on the actual cloud provider. |  | String
 | *hardwareId* (compute) | The hardware that will be used for creating a node. Values depend on the actual cloud provider. |  | String
 | *imageId* (compute) | The imageId that will be used for creating a node. Values depend on the actual cloud provider. |  | String
 | *locationId* (compute) | The location that will be used for creating a node. Values depend on the actual cloud provider. |  | String
 | *nodeId* (compute) | The id of the node that will run the script or destroyed. |  | String
 | *nodeState* (compute) | To filter by node status to only select running nodes etc. |  | String
 | *operation* (compute) | Specifies the type of operation that will be performed to the blobstore. |  | String
 | *user* (compute) | The user on the target node that will run the script. |  | String
 |===
 // endpoint options: END


 You can have as many of these options as you like.

 [source,java]
 ------------------------------------------------------------------------------------------
 jclouds:blobstore:aws-s3?operation=CamelJcloudsGet&container=mycontainer&blobName=someblob
 ------------------------------------------------------------------------------------------

 For producer endpoint you can override all of the above URI options by
 passing the appropriate headers to the message.


 // spring-boot-auto-configure options: START
 == Spring Boot Auto-Configuration

 When using Spring Boot make sure to use the following Maven dependency to have support for auto configuration:

 [source,xml]
 ----
 <dependency>
   <groupId>org.apache.camel</groupId>
   <artifactId>camel-jclouds-starter</artifactId>
   <version>x.x.x</version>
   <!-- use the same version as your Camel core version -->
 </dependency>
 ----


 The component supports 4 options, which are listed below.


 [width="100%",cols="2,5,^1,2",options="header"]
 |===
 | Name | Description | Default | Type
 | *camel.component.jclouds.basic-property-binding* | Whether the component should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities | false | Boolean
 | *camel.component.jclouds.blob-stores* | To use the given BlobStore which must be configured when using blobstore. |  | List
 | *camel.component.jclouds.compute-services* | To use the given ComputeService which must be configured when use compute. |  | List
 | *camel.component.jclouds.enabled* | Whether to enable auto configuration of the jclouds component. This is enabled by default. |  | Boolean
 |===
 // spring-boot-auto-configure options: END


 === Message Headers for blobstore

 [width="100%",cols="10%,90%",options="header",]
 |=======================================================================
 |Header |Description

 |`CamelJcloudsOperation` |The operation to be performed on the blob. The valid options are
 * PUT
 * GET

 |`CamelJcloudsContainer` |The name of the blob container.

 |`CamelJcloudsBlobName` |The name of the blob.
 |=======================================================================

 == Blobstore Usage Samples

 === Example 1: Putting to the blob

 This example will show you how you can store any message inside a blob
 using the jclouds component.

 [source,java]
 ------------------------------------
 from("direct:start")
     .to("jclouds:blobstore:aws-s3" +
         "?operation=PUT" +
         "&container=mycontainer" +
         "&blobName=myblob");
 ------------------------------------

 In the above example you can override any of the URI parameters with
 headers on the message.
 Here is how the above example would look like using xml to define our
 route.

 [source,xml]
 --------------------------------------------------------------------------------------------
 <route>
     <from uri="direct:start"/>
     <to uri="jclouds:blobstore:aws-s3?operation=PUT&container=mycontainer&blobName=myblob"/>
 </route>
 --------------------------------------------------------------------------------------------

 === Example 2: Getting/Reading from a blob

 This example will show you how you can read the contnet of a blob using
 the jclouds component.

 [source,java]
 ------------------------------------
 from("direct:start")
     .to("jclouds:blobstore:aws-s3" +
         "?operation=GET" +
         "&container=mycontainer" +
         "&blobName=myblob");
 ------------------------------------

 In the above example you can override any of the URI parameters with
 headers on the message.
  Here is how the above example would look like using xml to define our
 route.

 [source,xml]
 --------------------------------------------------------------------------------------------
 <route>
     <from uri="direct:start"/>
     <to uri="jclouds:blobstore:aws-s3?operation=PUT&container=mycontainer&blobName=myblob"/>
 </route>
 --------------------------------------------------------------------------------------------

 === Example 3: Consuming a blob

 This example will consume all blob that are under the specified
 container. The generated exchange will contain the payload of the blob
 as body.

 [source,java]
 -------------------------------------
     from("jclouds:blobstore:aws-s3" +
         "?container=mycontainer")
         .to("direct:next");
 -------------------------------------

 You can achieve the same goal by using xml, as you can see below.

 [source,xml]
 ----------------------------------------------------------------------------------------------
 <route>
     <from uri="jclouds:blobstore:aws-s3?operation=GET&container=mycontainer&blobName=myblob"/>
     <to uri="direct:next"/>
 </route>
 ----------------------------------------------------------------------------------------------


 [source,java]
 -------------------------------------------------------------------------------------------------------------
 jclouds:compute:aws-ec2?operation=CamelJcloudsCreateNode&imageId=AMI_XXXXX&locationId=eu-west-1&group=mygroup
 -------------------------------------------------------------------------------------------------------------

 == Compute Usage Samples

 Below are some examples that demonstrate the use of jclouds compute
 producer in java dsl and spring/blueprint xml.

 === Example 1: Listing the available images.

 [source,java]
 --------------------------------------------
     from("jclouds:compute:aws-ec2" +
         "&operation=CamelJCloudsListImages")
         .to("direct:next");
 --------------------------------------------

 This will create a message that will contain the list of images inside
 its body. You can also do the same using xml.

 [source,xml]
 --------------------------------------------------------------------------
 <route>
     <from uri="jclouds:compute:aws-ec2?operation=CamelJCloudsListImages"/>
     <to uri="direct:next"/>
 </route>
 --------------------------------------------------------------------------

 === Example 2: Create a new node.

 [source,java]
 ---------------------------------------------
     from("direct:start").
     to("jclouds:compute:aws-ec2" +
         "?operation=CamelJcloudsCreateNode" +
         "&imageId=AMI_XXXXX" +
         "&locationId=XXXXX" +
         "&group=myGroup");
 ---------------------------------------------

 This will create a new node on the cloud provider. The out message in
 this case will be a set of metadata that contains information about the
 newly created node (e.g. the ip, hostname etc). Here is the same using
 spring xml.

 [source,xml]
 -------------------------------------------------------------------------------------------------------------------------
 <route>
     <from uri="direct:start"/>
     <to uri="jclouds:compute:aws-ec2?operation=CamelJcloudsCreateNode&imageId=AMI_XXXXX&locationId=XXXXX&group=myGroup"/>
 </route>
 -------------------------------------------------------------------------------------------------------------------------

 === Example 3: Run a shell script on running node.

 [source,java]
 --------------------------------------------
     from("direct:start").
     to("jclouds:compute:aws-ec2" +
         "?operation=CamelJcloudsRunScript" +
         "?nodeId=10" +
         "&user=ubuntu");
 --------------------------------------------

 The sample above will retrieve the body of the in message, which is
 expected to contain the shell script to be executed. Once the script is
 retrieved, it will be sent to the node for execution under the specified
 user (_in order case ubuntu_). The target node is specified using its
 nodeId. The nodeId can be retrieved either upon the creation of the
 node, it will be part of the resulting metadata or by a executing a
 LIST_NODES operation.

 *Note* This will require that the compute service that will be passed to
 the component, to be initialized with the appropriate jclouds ssh
 capable module (_e.g. jsch or sshj_).

 Here is the same using spring xml.

 [source,xml]
 ----------------------------------------------------------------------------------------------
 <route>
     <from uri="direct:start"/>
     <to uri="jclouds:compute:aws-ec2?operation=CamelJcloudsListNodes&?nodeId=10&user=ubuntu"/>
 </route>
 ----------------------------------------------------------------------------------------------
	[[jclouds-component]]
	= JClouds Component
	:page-source: components/camel-jclouds/src/main/docs/jclouds-component.adoc

	Available as of Camel version 2.9

	This component allows interaction with cloud provider key-value engines
	(blobstores) and compute services. The component uses
	http://code.google.com/p/jclouds[jclouds] which is +
	a library that provides abstractions for blobstores and compute
	services.

	ComputeService simplifies the task of managing machines in the cloud.
	For example, you can use ComputeService to start 5 machines and install
	your software on them. +
	BlobStore simplifies dealing with key-value providers such as Amazon
	S3. For example, BlobStore can give you a simple Map view of a
	container.

	The camel jclouds component allows you to use both abstractions, as it
	specifes two types of endpoint the JcloudsBlobStoreEndpoint and the
	JcloudsComputeEndpoint. You can have both producers and consumers on a
	blobstore endpoint but you can only have producers on compute endpoints.

	Maven users will need to add the following dependency to their `pom.xml`
	for this component:

	[source,xml]
	------------------------------------------------------------
	<dependency>
	<groupId>org.apache.camel</groupId>
	<artifactId>camel-jclouds</artifactId>
	<version>x.x.x</version>
	<!-- use the same version as your Camel core version -->
	</dependency>
	------------------------------------------------------------

	== Configuring the component

	The camel jclouds component will make use of multiple jclouds blobstores
	and compute services as long as they are passed to the component during
	initialization. The component accepts a list blobstores and compute
	services. Here is how it can be configured.

	[source,xml]
	----------------------------------------------------------------------------------------------------------------
	<bean id="jclouds" class="org.apache.camel.component.jclouds.JcloudsComponent">
	<property name="computeServices">
	<list>
	<ref bean="computeService"/>
	</list>
	</property>
	<property name="blobStores">
	<list>
	<ref bean="blobStore"/>
	</list>
	</property>
	</bean>

	<!-- Creating a blobstore from spring / blueprint xml -->
	<bean id="blobStoreContextFactory" class="org.jclouds.blobstore.BlobStoreContextFactory"/>

	<bean id="blobStoreContext" factory-bean="blobStoreContextFactory" factory-method="createContext">
	<constructor-arg name="provider" value="PROVIDER_NAME"/>
	<constructor-arg name="identity" value="IDENTITY"/>
	<constructor-arg name="credential" value="CREDENTIAL"/>
	</bean>

	<bean id="blobStore" factory-bean="blobStoreContext" factory-method="getBlobStore"/>

	<!-- Creating a compute service from spring / blueprint xml -->
	<bean id="computeServiceContextFactory" class="org.jclouds.compute.ComputeServiceContextFactory"/>

	<bean id="computeServiceContext" factory-bean="computeServiceContextFactory" factory-method="createContext">
	<constructor-arg name="provider" value="PROVIDER_NAME"/>
	<constructor-arg name="identity" value="IDENTITY"/>
	<constructor-arg name="credential" value="CREDENTIAL"/>
	</bean>

	<bean id="computeService" factory-bean="computeServiceContext" factory-method="getComputeService"/>
	----------------------------------------------------------------------------------------------------------------

	As you can see the component is capable of handling multiple blobstores
	and compute services. The actual implementation that will be used by
	each endpoint is specified by passing the provider inside the URI.

	== Jclouds Options

	[source,java]
	-----------------------------------------
	jclouds:blobstore:[provider id][?options]
	jclouds:compute:[provider id][?options]
	-----------------------------------------

	The provider id is the name of the cloud provider that provides the
	target service (_e.g. aws-s3 or aws_ec2_).

	You can append query options to the URI in the following format,
	`?option=value&option=value&...`

	== Blobstore URI Options




	// component options: START
	The JClouds component supports 3 options, which are listed below.



	[width="100%",cols="2,5,^1,2",options="header"]
	\|===
	\| Name \| Description \| Default \| Type
	\| blobStores (common) \| To use the given BlobStore which must be configured when using blobstore. \| \| List
	\| computeServices (common) \| To use the given ComputeService which must be configured when use compute. \| \| List
	\| basicPropertyBinding (advanced) \| Whether the component should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities \| false \| boolean
	\|===
	// component options: END






	// endpoint options: START
	The JClouds endpoint is configured using URI syntax:

	----
	jclouds:command:providerId
	----

	with the following path and query parameters:

	=== Path Parameters (2 parameters):


	[width="100%",cols="2,5,^1,2",options="header"]
	\|===
	\| Name \| Description \| Default \| Type
	\| command \| Required What command to execute such as blobstore or compute. \| \| JcloudsCommand
	\| providerId \| Required The name of the cloud provider that provides the target service (e.g. aws-s3 or aws_ec2). \| \| String
	\|===


	=== Query Parameters (17 parameters):


	[width="100%",cols="2,5,^1,2",options="header"]
	\|===
	\| Name \| Description \| Default \| Type
	\| bridgeErrorHandler (consumer) \| Allows for bridging the consumer to the Camel routing Error Handler, which mean any exceptions occurred while the consumer is trying to pickup incoming messages, or the likes, will now be processed as a message and handled by the routing Error Handler. By default the consumer will use the org.apache.camel.spi.ExceptionHandler to deal with exceptions, that will be logged at WARN or ERROR level and ignored. \| false \| boolean
	\| exceptionHandler (consumer) \| To let the consumer use a custom ExceptionHandler. Notice if the option bridgeErrorHandler is enabled then this option is not in use. By default the consumer will deal with exceptions, that will be logged at WARN or ERROR level and ignored. \| \| ExceptionHandler
	\| exchangePattern (consumer) \| Sets the exchange pattern when the consumer creates an exchange. \| \| ExchangePattern
	\| lazyStartProducer (producer) \| Whether the producer should be started lazy (on the first message). By starting lazy you can use this to allow CamelContext and routes to startup in situations where a producer may otherwise fail during starting and cause the route to fail being started. By deferring this startup to be lazy then the startup failure can be handled during routing messages via Camel's routing error handlers. Beware that when the first message is processed then creating and starting the producer may take a little time and prolong the total processing time of the processing. \| false \| boolean
	\| basicPropertyBinding (advanced) \| Whether the endpoint should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities \| false \| boolean
	\| synchronous (advanced) \| Sets whether synchronous processing should be strictly used, or Camel is allowed to use asynchronous processing (if supported). \| false \| boolean
	\| blobName (blobstore) \| The name of the blob. \| \| String
	\| container (blobstore) \| The name of the blob container. \| \| String
	\| directory (blobstore) \| An optional directory name to use \| \| String
	\| group (compute) \| The group that will be assigned to the newly created node. Values depend on the actual cloud provider. \| \| String
	\| hardwareId (compute) \| The hardware that will be used for creating a node. Values depend on the actual cloud provider. \| \| String
	\| imageId (compute) \| The imageId that will be used for creating a node. Values depend on the actual cloud provider. \| \| String
	\| locationId (compute) \| The location that will be used for creating a node. Values depend on the actual cloud provider. \| \| String
	\| nodeId (compute) \| The id of the node that will run the script or destroyed. \| \| String
	\| nodeState (compute) \| To filter by node status to only select running nodes etc. \| \| String
	\| operation (compute) \| Specifies the type of operation that will be performed to the blobstore. \| \| String
	\| user (compute) \| The user on the target node that will run the script. \| \| String
	\|===
	// endpoint options: END



	You can have as many of these options as you like.

	[source,java]
	------------------------------------------------------------------------------------------
	jclouds:blobstore:aws-s3?operation=CamelJcloudsGet&container=mycontainer&blobName=someblob
	------------------------------------------------------------------------------------------

	For producer endpoint you can override all of the above URI options by
	passing the appropriate headers to the message.


	// spring-boot-auto-configure options: START
	== Spring Boot Auto-Configuration

	When using Spring Boot make sure to use the following Maven dependency to have support for auto configuration:

	[source,xml]
	----
	<dependency>
	<groupId>org.apache.camel</groupId>
	<artifactId>camel-jclouds-starter</artifactId>
	<version>x.x.x</version>
	<!-- use the same version as your Camel core version -->
	</dependency>
	----


	The component supports 4 options, which are listed below.



	[width="100%",cols="2,5,^1,2",options="header"]
	\|===
	\| Name \| Description \| Default \| Type
	\| camel.component.jclouds.basic-property-binding \| Whether the component should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities \| false \| Boolean
	\| camel.component.jclouds.blob-stores \| To use the given BlobStore which must be configured when using blobstore. \| \| List
	\| camel.component.jclouds.compute-services \| To use the given ComputeService which must be configured when use compute. \| \| List
	\| camel.component.jclouds.enabled \| Whether to enable auto configuration of the jclouds component. This is enabled by default. \| \| Boolean
	\|===
	// spring-boot-auto-configure options: END


	=== Message Headers for blobstore

	[width="100%",cols="10%,90%",options="header",]
	\|=======================================================================
	\|Header \|Description

	\|`CamelJcloudsOperation` \|The operation to be performed on the blob. The valid options are
	* PUT
	* GET

	\|`CamelJcloudsContainer` \|The name of the blob container.

	\|`CamelJcloudsBlobName` \|The name of the blob.
	\|=======================================================================

	== Blobstore Usage Samples

	=== Example 1: Putting to the blob

	This example will show you how you can store any message inside a blob
	using the jclouds component.

	[source,java]
	------------------------------------
	from("direct:start")
	.to("jclouds:blobstore:aws-s3" +
	"?operation=PUT" +
	"&container=mycontainer" +
	"&blobName=myblob");
	------------------------------------

	In the above example you can override any of the URI parameters with
	headers on the message.
	Here is how the above example would look like using xml to define our
	route.

	[source,xml]
	--------------------------------------------------------------------------------------------
	<route>
	<from uri="direct:start"/>
	<to uri="jclouds:blobstore:aws-s3?operation=PUT&container=mycontainer&blobName=myblob"/>
	</route>
	--------------------------------------------------------------------------------------------

	=== Example 2: Getting/Reading from a blob

	This example will show you how you can read the contnet of a blob using
	the jclouds component.

	[source,java]
	------------------------------------
	from("direct:start")
	.to("jclouds:blobstore:aws-s3" +
	"?operation=GET" +
	"&container=mycontainer" +
	"&blobName=myblob");
	------------------------------------

	In the above example you can override any of the URI parameters with
	headers on the message.
	Here is how the above example would look like using xml to define our
	route.

	[source,xml]
	--------------------------------------------------------------------------------------------
	<route>
	<from uri="direct:start"/>
	<to uri="jclouds:blobstore:aws-s3?operation=PUT&container=mycontainer&blobName=myblob"/>
	</route>
	--------------------------------------------------------------------------------------------

	=== Example 3: Consuming a blob

	This example will consume all blob that are under the specified
	container. The generated exchange will contain the payload of the blob
	as body.

	[source,java]
	-------------------------------------
	from("jclouds:blobstore:aws-s3" +
	"?container=mycontainer")
	.to("direct:next");
	-------------------------------------

	You can achieve the same goal by using xml, as you can see below.

	[source,xml]
	----------------------------------------------------------------------------------------------
	<route>
	<from uri="jclouds:blobstore:aws-s3?operation=GET&container=mycontainer&blobName=myblob"/>
	<to uri="direct:next"/>
	</route>
	----------------------------------------------------------------------------------------------



	[source,java]
	-------------------------------------------------------------------------------------------------------------
	jclouds:compute:aws-ec2?operation=CamelJcloudsCreateNode&imageId=AMI_XXXXX&locationId=eu-west-1&group=mygroup
	-------------------------------------------------------------------------------------------------------------

	== Compute Usage Samples

	Below are some examples that demonstrate the use of jclouds compute
	producer in java dsl and spring/blueprint xml.

	=== Example 1: Listing the available images.

	[source,java]
	--------------------------------------------
	from("jclouds:compute:aws-ec2" +
	"&operation=CamelJCloudsListImages")
	.to("direct:next");
	--------------------------------------------

	This will create a message that will contain the list of images inside
	its body. You can also do the same using xml.

	[source,xml]
	--------------------------------------------------------------------------
	<route>
	<from uri="jclouds:compute:aws-ec2?operation=CamelJCloudsListImages"/>
	<to uri="direct:next"/>
	</route>
	--------------------------------------------------------------------------

	=== Example 2: Create a new node.

	[source,java]
	---------------------------------------------
	from("direct:start").
	to("jclouds:compute:aws-ec2" +
	"?operation=CamelJcloudsCreateNode" +
	"&imageId=AMI_XXXXX" +
	"&locationId=XXXXX" +
	"&group=myGroup");
	---------------------------------------------

	This will create a new node on the cloud provider. The out message in
	this case will be a set of metadata that contains information about the
	newly created node (e.g. the ip, hostname etc). Here is the same using
	spring xml.

	[source,xml]
	-------------------------------------------------------------------------------------------------------------------------
	<route>
	<from uri="direct:start"/>
	<to uri="jclouds:compute:aws-ec2?operation=CamelJcloudsCreateNode&imageId=AMI_XXXXX&locationId=XXXXX&group=myGroup"/>
	</route>
	-------------------------------------------------------------------------------------------------------------------------

	=== Example 3: Run a shell script on running node.

	[source,java]
	--------------------------------------------
	from("direct:start").
	to("jclouds:compute:aws-ec2" +
	"?operation=CamelJcloudsRunScript" +
	"?nodeId=10" +
	"&user=ubuntu");
	--------------------------------------------

	The sample above will retrieve the body of the in message, which is
	expected to contain the shell script to be executed. Once the script is
	retrieved, it will be sent to the node for execution under the specified
	user (_in order case ubuntu_). The target node is specified using its
	nodeId. The nodeId can be retrieved either upon the creation of the
	node, it will be part of the resulting metadata or by a executing a
	LIST_NODES operation.

	Note This will require that the compute service that will be passed to
	the component, to be initialized with the appropriate jclouds ssh
	capable module (_e.g. jsch or sshj_).

	Here is the same using spring xml.

	[source,xml]
	----------------------------------------------------------------------------------------------
	<route>
	<from uri="direct:start"/>
	<to uri="jclouds:compute:aws-ec2?operation=CamelJcloudsListNodes&?nodeId=10&user=ubuntu"/>
	</route>
	----------------------------------------------------------------------------------------------