Author: buildbot Date: Tue May 16 09:47:41 2017 New Revision: 1012308 Log: Production update by buildbot for cxf
Modified: websites/production/cxf/content/automated-builds.html websites/production/cxf/content/cache/docs.pageCache websites/production/cxf/content/cache/main.pageCache websites/production/cxf/content/docs/jax-rs-jose.html Modified: websites/production/cxf/content/automated-builds.html ============================================================================== --- websites/production/cxf/content/automated-builds.html (original) +++ websites/production/cxf/content/automated-builds.html Tue May 16 09:47:41 2017 @@ -99,7 +99,7 @@ Apache CXF -- Automated Builds <td height="100%"> <!-- Content --> <div class="wiki-content"> -<div id="ConfluenceContent"><h1 id="AutomatedBuilds-AutomatedBuilds">Automated Builds</h1><h2 id="AutomatedBuilds-Hudson/Jenkins">Hudson/Jenkins</h2><p>CXF has a bunch of automatic builds configured in the Apache Hudson/Jenkins instance at <a shape="rect" class="external-link" href="https://builds.apache.org/view/A-D/view/CXF/">https://builds.apache.org/view/A-D/view/CXF/</a>. There are builds there that trigger automatically on code commits. There are also nightly builds to test on other JDK's as well as other platforms.</p><h2 id="AutomatedBuilds-Sonar">Sonar</h2><p>CXF also is configured as a build in the Apache Sonar instance at <a shape="rect" class="external-link" href="https://analysis.apache.org/dashboard/index/org.apache.cxf:cxf">https://analysis.apache.org/dashboard/index/org.apache.cxf:cxf</a>. The Sonar instance runs a variety of quality checks as part of the build.</p></div> +<div id="ConfluenceContent"><h1 id="AutomatedBuilds-AutomatedBuilds">Automated Builds</h1><h2 id="AutomatedBuilds-Hudson/Jenkins">Hudson/Jenkins</h2><p>CXF has a bunch of automatic builds configured in the Apache Hudson/Jenkins instance at <a shape="rect" class="external-link" href="https://builds.apache.org/view/A-D/view/CXF/">https://builds.apache.org/view/A-D/view/CXF/</a>. There are builds there that trigger automatically on code commits. There are also nightly builds to test on other JDK's as well as other platforms.</p><h2 id="AutomatedBuilds-Sonar">Sonar</h2><p>CXF also is configured as a build in the Apache Sonar instance at <a shape="rect" class="external-link" href="https://builds.apache.org/analysis/dashboard/index/org.apache.cxf:cxf">https://builds.apache.org/analysis/dashboard/index/org.apache.cxf:cxf</a>. The Sonar instance runs a variety of quality checks as part of the build.</p></div> </div> <!-- Content --> </td> Modified: websites/production/cxf/content/cache/docs.pageCache ============================================================================== Binary files - no diff available. Modified: websites/production/cxf/content/cache/main.pageCache ============================================================================== Binary files - no diff available. Modified: websites/production/cxf/content/docs/jax-rs-jose.html ============================================================================== --- websites/production/cxf/content/docs/jax-rs-jose.html (original) +++ websites/production/cxf/content/docs/jax-rs-jose.html Tue May 16 09:47:41 2017 @@ -119,11 +119,11 @@ Apache CXF -- JAX-RS JOSE <!-- Content --> <div class="wiki-content"> <div id="ConfluenceContent"><p> </p><p> </p><p><style type="text/css">/*<![CDATA[*/ -div.rbtoc1494848822919 {padding: 0px;} -div.rbtoc1494848822919 ul {list-style: disc;margin-left: 0px;} -div.rbtoc1494848822919 li {margin-left: 0px;padding-left: 0px;} +div.rbtoc1494928023912 {padding: 0px;} +div.rbtoc1494928023912 ul {list-style: disc;margin-left: 0px;} +div.rbtoc1494928023912 li {margin-left: 0px;padding-left: 0px;} -/*]]>*/</style></p><div class="toc-macro rbtoc1494848822919"> +/*]]>*/</style></p><div class="toc-macro rbtoc1494928023912"> <ul class="toc-indentation"><li><a shape="rect" href="#JAX-RSJOSE-Introduction">Introduction</a></li><li><a shape="rect" href="#JAX-RSJOSE-MavenDependencies">Maven Dependencies</a></li><li><a shape="rect" href="#JAX-RSJOSE-JavaandJCEPolicy">Java and JCE Policy </a></li><li><a shape="rect" href="#JAX-RSJOSE-JOSEOverviewandImplementation">JOSE Overview and Implementation</a> <ul class="toc-indentation"><li><a shape="rect" href="#JAX-RSJOSE-JWAAlgorithms">JWA Algorithms</a></li><li><a shape="rect" href="#JAX-RSJOSE-JWKKeys">JWK Keys</a></li><li><a shape="rect" href="#JAX-RSJOSE-JWSSignature">JWS Signature</a> <ul class="toc-indentation"><li><a shape="rect" href="#JAX-RSJOSE-SignatureandVerificationProviders">Signature and Verification Providers</a></li><li><a shape="rect" href="#JAX-RSJOSE-JWSCompact">JWS Compact</a></li><li><a shape="rect" href="#JAX-RSJOSE-JWSJSON">JWS JSON</a></li><li><a shape="rect" href="#JAX-RSJOSE-JWSwithDetachedContent">JWS with Detached Content</a></li><li><a shape="rect" href="#JAX-RSJOSE-JWSwithUnencodedPayload">JWS with Unencoded Payload</a></li></ul> @@ -492,7 +492,27 @@ Payload: } ] }</pre> -</div></div><p>The client code and server configuration is nearly identical to a code/configuration needed to set up JWS Compact filters as shown above, simply replace JwsWriterInterceptor/JwsClientResponseFilter with JwsJsonWriterInterceptor/JwsJsonClientResponseFilter in the client code, and JwsContainerRequestFilter/JwsContainerResponseFilter with JwsJsonContainerRequestFilter/JwsJsonContainerResponseFilter</p><h2 id="JAX-RSJOSE-SigningandVerificationofHTTPAttachments">Signing and Verification of HTTP Attachments</h2><p>The signing and verification of HTTP request and response attachments is supported starting from CXF 3.1.12.</p><p>This feature does not buffer the request and response attachment data and is completely streaming-'friendly'.</p><p>It depends on <a shape="rect" class="external-link" href="https://tools.ietf.org/html/rfc7515#appendix-F" rel="nofollow">JWS with Detached Content</a> and  <a shape="rect" class="external-link" href="https://tools.ietf.org/html /rfc7797" rel="nofollow">JWS with Unencoded Payload</a> options as well as on the newly introduced CXF <a shape="rect" href="http://cxf.apache.org/docs/jax-rs-multiparts.html#JAX-RSMultiparts-MultipartFilters">multipart filters</a> and works as follows.</p><p>When request or response attachment parts are about to be submitted to the Multipart serialization provider, JWS Multipart Output Filter (<a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartClientRequestFilter.java" rel="nofollow">JwsMultipartClientRequestFilter</a> and/or <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartContainerResponseFilter.java" rel="nofollow">JwsMultipartContainerResponseFilter</a>) initializes a <a shape="rect" cla ss="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose/src/main/java/org/apache/cxf/rs/security/jose/jws/JwsSignature.java" rel="nofollow">JWSSignature</a> object. Next every parts's output stream is replaced with the filtering output stream which updates the signature object on every write operation. Finally this multipart filter adds one more attachment part to the list of the attachments to be written - this part holds a reference to JWS Signature. When this last part is written, JWSSignature produces the signature bytes which are encoded using either JWS Compact or JWS JSON format, with the detached and unencoded content already being pushed to the output stream.</p><p>When the attachment parts are about to be read by the Multipart deserialization provider, their signature carried over in the last part will need to be verified. Just before the parts are about to be read in order to be made available to the application code, JWS Multipa rt Input Filter (<a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartContainerRequestFilter.java" rel="nofollow">JwsMultipartContainerRequestFilter</a> and/or <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartClientResponseFilter.java" rel="nofollow">JwsMultipartClientResponseFilter</a>) checks the last part and initializes a <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose/src/main/java/org/apache/cxf/rs/security/jose/jws/JwsVerificationSignature.java" rel="nofollow">JWSVerificationSignature</a> object. Next for every attachment but the last one it replaces the input stream with the filtering input stream which updates the si gnature verification object on every read operation. Once all the data have been read it compares the calculated signature with the received signature.</p><p>Note when the attachments are accessed by the receiving application code, the read process will fail to complete if the validation fails. For example, if the application code copies a given part's InputStream to the disk then this copy operation will fail.</p><p>However, if the receiver starts acting immediately on the attachment's InputStream, for example, the attachment data returned from the service to the client are streamed to a UI display which can activate a script then it is important that a '<strong>bufferPayload</strong>' property is enabled on either <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartContainerRequestFilter.java" rel="nofollow">JwsMultipartContainerRequestF ilter</a> or <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartClientResponseFilter.java" rel="nofollow">JwsMultipartClientResponseFilter</a>. It will ensure that the data streams are validated first before the application gets an access to them. </p><p>Here is the example showing how a Book object (represented as an XML attachment on the wire) can be secured.</p><p>Given this client code:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl"> +</div></div><p>The client code and server configuration is nearly identical to a code/configuration needed to set up JWS Compact filters as shown above, simply replace JwsWriterInterceptor/JwsClientResponseFilter with JwsJsonWriterInterceptor/JwsJsonClientResponseFilter in the client code, and JwsContainerRequestFilter/JwsContainerResponseFilter with JwsJsonContainerRequestFilter/JwsJsonContainerResponseFilter</p><h2 id="JAX-RSJOSE-SigningandVerificationofHTTPAttachments">Signing and Verification of HTTP Attachments</h2><p>The signing and verification of HTTP request and response attachments is supported starting from CXF 3.1.12.</p><p>This feature does not buffer the request and response attachment data and is completely streaming-'friendly'.</p><p>It depends on <a shape="rect" class="external-link" href="https://tools.ietf.org/html/rfc7515#appendix-F" rel="nofollow">JWS with Detached Content</a> and  <a shape="rect" class="external-link" href="https://tools.ietf.org/html /rfc7797" rel="nofollow">JWS with Unencoded Payload</a> options as well as on the newly introduced CXF <a shape="rect" href="http://cxf.apache.org/docs/jax-rs-multiparts.html#JAX-RSMultiparts-MultipartFilters">multipart filters</a> and works as follows.</p><p>When request or response attachment parts are about to be submitted to the Multipart serialization provider, JWS Multipart Output Filter (<a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartClientRequestFilter.java" rel="nofollow">JwsMultipartClientRequestFilter</a> and/or <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartContainerResponseFilter.java" rel="nofollow">JwsMultipartContainerResponseFilter</a>) initializes a <a shape="rect" cla ss="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose/src/main/java/org/apache/cxf/rs/security/jose/jws/JwsSignature.java" rel="nofollow">JWSSignature</a> object. Next every parts's output stream is replaced with the filtering output stream which updates the signature object on every write operation. Finally this multipart filter adds one more attachment part to the list of the attachments to be written - this part holds a reference to JWS Signature. When this last part is written, JWSSignature produces the signature bytes which are encoded using either JWS Compact or JWS JSON format, with the detached and unencoded content already being pushed to the output stream.</p><p>When the attachment parts are about to be read by the Multipart deserialization provider, their signature carried over in the last part will need to be verified. Just before the parts are about to be read in order to be made available to the application code, JWS Multipa rt Input Filter (<a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartContainerRequestFilter.java" rel="nofollow">JwsMultipartContainerRequestFilter</a> and/or <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartClientResponseFilter.java" rel="nofollow">JwsMultipartClientResponseFilter</a>) checks the last part and initializes a <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose/src/main/java/org/apache/cxf/rs/security/jose/jws/JwsVerificationSignature.java" rel="nofollow">JWSVerificationSignature</a> object. Next for every attachment but the last one it replaces the input stream with the filtering input stream which updates the si gnature verification object on every read operation. Once all the data have been read it compares the calculated signature with the received signature.</p><p>Note when the attachments are accessed by the receiving application code, the read process will fail to complete if the validation fails. For example, if the application code copies a given part's InputStream to the disk then this copy operation will fail. For example:</p><p> </p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl"> +<pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">@POST +@Path("/books") +@Consumes("multipart/related") +public void uploadBookMultipart(@Multipart(type = "application/xml") Book book) { + // This method will not be even invoked if the data signature verification fails + // causing the construction of Book bean to fail +} + + +@POST +@Path("/pdf") +@Consumes("multipart/related") +public void uploadStreamMultipart(@Multipart(type = "application/pdf") InputStream is) { + OutputStream os = getTargetOutputStream(); + // This copy operation will fail + IOUtils.copy(is, os); +} + +</pre> +</div></div><p> </p><p>Note that besides the signature verification process, CXF offers some other indirect support for ensuring the attachment data have not been affected. For example, <a shape="rect" href="http://cxf.apache.org/docs/jax-rs-multiparts.html#JAX-RSMultiparts-Readinglargeattachments">the size of the attachments can be restricted</a>, and if the data stream is converted from XML then the conversion process will be controlled by the secure XML parser. </p><p>However, if the receiver starts acting immediately on the attachment's InputStream, for example, the attachment data returned from the service to the client are streamed to a UI display which can activate a script then it is important that a '<strong>bufferPayload</strong>' property is enabled on either <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartContaine rRequestFilter.java" rel="nofollow">JwsMultipartContainerRequestFilter</a> or <a shape="rect" class="external-link" href="https://github.com/apache/cxf/blob/master/rt/rs/security/jose-parent/jose-jaxrs/src/main/java/org/apache/cxf/rs/security/jose/jaxrs/multipart/JwsMultipartClientResponseFilter.java" rel="nofollow">JwsMultipartClientResponseFilter</a>. It will ensure that the data streams are validated first before the application gets an access to them. This property should also be enabled if the multipart payload contains many attachment parts.</p><p>Here is an example showing how a Book object (represented as an XML attachment on the wire) can be secured.</p><p>Given this client code:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl"> <pre class="brush: java; gutter: false; theme: Default" style="font-size:12px;">@Test public void testJwsJwkBookHMacMultipart() throws Exception { String address = "https://localhost:" + PORT + "/jwsjwkhmacSinglePart"; @@ -533,7 +553,8 @@ public class BookStore { @Consumes("multipart/related") @Multipart(type = "application/xml") public Book echoBookMultipart(@Multipart(type = "application/xml") Book book) { - return book; + // This method will not be even invoked if the data signature verification fails +  return book; } }</pre> </div></div><p>and server configuration:</p><div class="code panel pdl" style="border-width: 1px;"><div class="codeContent panelContent pdl">