camel-commits mailing list archives

Site index · List index
Message view « Date » · « Thread »
Top « Date » · « Thread »
From build...@apache.org
Subject svn commit: r873297 - in /websites/production/camel/content: book-dataformat-appendix.html book-in-one-page.html cache/main.pageCache xmlsecurity-dataformat.html
Date Wed, 07 Aug 2013 09:19:15 GMT
Author: buildbot
Date: Wed Aug  7 09:19:15 2013
New Revision: 873297

Log:
Production update by buildbot for camel

Modified:
    websites/production/camel/content/book-dataformat-appendix.html
    websites/production/camel/content/book-in-one-page.html
    websites/production/camel/content/cache/main.pageCache
    websites/production/camel/content/xmlsecurity-dataformat.html

Modified: websites/production/camel/content/book-dataformat-appendix.html
==============================================================================
--- websites/production/camel/content/book-dataformat-appendix.html (original)
+++ websites/production/camel/content/book-dataformat-appendix.html Wed Aug  7 09:19:15 2013
@@ -2851,7 +2851,7 @@ public class BindyComplexCsvUnmarshallTe
 
 <p>The XMLSecurity Data Format facilitates encryption and decryption of XML payloads
at the Document, Element, and Element Content levels (including simultaneous multi-node encryption/decryption
using XPath).</p>
 
-<p>The encryption capability is based on formats supported using the Apache XML Security
(Santaurio) project. Symmetric encryption/decryption is currently supported using Triple-DES
and AES (128, 192, and 256) encryption formats. Additional formats can be easily added later
as needed. This capability allows Camel users to encrypt/decrypt payloads while being dispatched
or received along a route.</p>
+<p>The encryption capability is based on formats supported using the Apache XML Security
(Santuario) project. Symmetric encryption/decryption is currently supported using Triple-DES
and AES (128, 192, and 256) encryption formats. Additional formats can be easily added later
as needed. This capability allows Camel users to encrypt/decrypt payloads while being dispatched
or received along a route.</p>
 
 <p><b>Available as of Camel 2.9</b><br clear="none">
 The XMLSecurity Data Format supports asymmetric key encryption. In this encryption model
a symmetric key is generated and used to perform XML content encryption or decryption. This
"content encryption key" is then itself encrypted using an asymmetric encryption algorithm
that leverages the recipient's public key as the "key encryption key". Use of an asymmetric
key encryption algorithm ensures that only the holder of the recipient's private key can access
the generated symmetric encryption key. Thus, only the private key holder can decode the message.
The XMLSecurity Data Format handles all of the logic required to encrypt and decrypt the message
content and encryption key(s) using asymmetric key encryption.</p>
@@ -2955,7 +2955,7 @@ from("direct:start")
 ]]></script>
 </div></div>
 
-<h4><a shape="rect" name="BookDataFormatAppendix-PartialParyloadContentwithNamespacesupport"></a>Partial
Paryload Content with Namespace support</h4>
+<h4><a shape="rect" name="BookDataFormatAppendix-PartialPayloadContentwithNamespacesupport"></a>Partial
Payload Content with Namespace support</h4>
 <h5><a shape="rect" name="BookDataFormatAppendix-JavaDSL"></a>Java DSL</h5>
 <div class="code panel" style="border-width: 1px;"><div class="codeContent panelContent">
 <script class="theme: Default; brush: java; gutter: false" type="syntaxhighlighter"><![CDATA[

Modified: websites/production/camel/content/book-in-one-page.html
==============================================================================
--- websites/production/camel/content/book-in-one-page.html (original)
+++ websites/production/camel/content/book-in-one-page.html Wed Aug  7 09:19:15 2013
@@ -14226,7 +14226,7 @@ public class BindyComplexCsvUnmarshallTe
 
 <p>The XMLSecurity Data Format facilitates encryption and decryption of XML payloads
at the Document, Element, and Element Content levels (including simultaneous multi-node encryption/decryption
using XPath).</p>
 
-<p>The encryption capability is based on formats supported using the Apache XML Security
(Santaurio) project. Symmetric encryption/decryption is currently supported using Triple-DES
and AES (128, 192, and 256) encryption formats. Additional formats can be easily added later
as needed. This capability allows Camel users to encrypt/decrypt payloads while being dispatched
or received along a route.</p>
+<p>The encryption capability is based on formats supported using the Apache XML Security
(Santuario) project. Symmetric encryption/decryption is currently supported using Triple-DES
and AES (128, 192, and 256) encryption formats. Additional formats can be easily added later
as needed. This capability allows Camel users to encrypt/decrypt payloads while being dispatched
or received along a route.</p>
 
 <p><b>Available as of Camel 2.9</b><br clear="none">
 The XMLSecurity Data Format supports asymmetric key encryption. In this encryption model
a symmetric key is generated and used to perform XML content encryption or decryption. This
"content encryption key" is then itself encrypted using an asymmetric encryption algorithm
that leverages the recipient's public key as the "key encryption key". Use of an asymmetric
key encryption algorithm ensures that only the holder of the recipient's private key can access
the generated symmetric encryption key. Thus, only the private key holder can decode the message.
The XMLSecurity Data Format handles all of the logic required to encrypt and decrypt the message
content and encryption key(s) using asymmetric key encryption.</p>
@@ -14330,7 +14330,7 @@ from("direct:start")
 ]]></script>
 </div></div>
 
-<h4><a shape="rect" name="BookInOnePage-PartialParyloadContentwithNamespacesupport"></a>Partial
Paryload Content with Namespace support</h4>
+<h4><a shape="rect" name="BookInOnePage-PartialPayloadContentwithNamespacesupport"></a>Partial
Payload Content with Namespace support</h4>
 <h5><a shape="rect" name="BookInOnePage-JavaDSL"></a>Java DSL</h5>
 <div class="code panel" style="border-width: 1px;"><div class="codeContent panelContent">
 <script class="theme: Default; brush: java; gutter: false" type="syntaxhighlighter"><![CDATA[

Modified: websites/production/camel/content/cache/main.pageCache
==============================================================================
Binary files - no diff available.

Modified: websites/production/camel/content/xmlsecurity-dataformat.html
==============================================================================
--- websites/production/camel/content/xmlsecurity-dataformat.html (original)
+++ websites/production/camel/content/xmlsecurity-dataformat.html Wed Aug  7 09:19:15 2013
@@ -89,7 +89,7 @@
 
 <p>The XMLSecurity Data Format facilitates encryption and decryption of XML payloads
at the Document, Element, and Element Content levels (including simultaneous multi-node encryption/decryption
using XPath).</p>
 
-<p>The encryption capability is based on formats supported using the Apache XML Security
(Santaurio) project. Symmetric encryption/decryption is currently supported using Triple-DES
and AES (128, 192, and 256) encryption formats. Additional formats can be easily added later
as needed. This capability allows Camel users to encrypt/decrypt payloads while being dispatched
or received along a route.</p>
+<p>The encryption capability is based on formats supported using the Apache XML Security
(Santuario) project. Symmetric encryption/decryption is currently supported using Triple-DES
and AES (128, 192, and 256) encryption formats. Additional formats can be easily added later
as needed. This capability allows Camel users to encrypt/decrypt payloads while being dispatched
or received along a route.</p>
 
 <p><b>Available as of Camel 2.9</b><br clear="none">
 The XMLSecurity Data Format supports asymmetric key encryption. In this encryption model
a symmetric key is generated and used to perform XML content encryption or decryption. This
"content encryption key" is then itself encrypted using an asymmetric encryption algorithm
that leverages the recipient's public key as the "key encryption key". Use of an asymmetric
key encryption algorithm ensures that only the holder of the recipient's private key can access
the generated symmetric encryption key. Thus, only the private key holder can decode the message.
The XMLSecurity Data Format handles all of the logic required to encrypt and decrypt the message
content and encryption key(s) using asymmetric key encryption.</p>
@@ -193,7 +193,7 @@ from("direct:start")
 ]]></script>
 </div></div>
 
-<h4><a shape="rect" name="XMLSecurityDataFormat-PartialParyloadContentwithNamespacesupport"></a>Partial
Paryload Content with Namespace support</h4>
+<h4><a shape="rect" name="XMLSecurityDataFormat-PartialPayloadContentwithNamespacesupport"></a>Partial
Payload Content with Namespace support</h4>
 <h5><a shape="rect" name="XMLSecurityDataFormat-JavaDSL"></a>Java DSL</h5>
 <div class="code panel" style="border-width: 1px;"><div class="codeContent panelContent">
 <script class="theme: Default; brush: java; gutter: false" type="syntaxhighlighter"><![CDATA[



Mime
View raw message