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  • What is New in ASP.NET 4.0 Code Access Security

    - by Xiaohong
    ASP.NET Code Access Security (CAS) is a feature that helps protect server applications on hosting multiple Web sites, ASP.NET lets you assign a configurable trust level that corresponds to a predefined set of permissions. ASP.NET has predefined ASP.NET Trust Levels and Policy Files that you can assign to applications, you also can assign custom trust level and policy files. Most web hosting companies run ASP.NET applications in Medium Trust to prevent that one website affect or harm another site etc. As .NET Framework's Code Access Security model has evolved, ASP.NET 4.0 Code Access Security also has introduced several changes and improvements. The main change in ASP.NET 4.0 CAS In ASP.NET v4.0 partial trust applications, application domain can have a default partial trust permission set as opposed to being full-trust, the permission set name is defined in the <trust /> new attribute permissionSetName that is used to initialize the application domain . By default, the PermissionSetName attribute value is "ASP.Net" which is the name of the permission set you can find in all predefined partial trust configuration files. <trust level="Something" permissionSetName="ASP.Net" /> This is ASP.NET 4.0 new CAS model. For compatibility ASP.NET 4.0 also support legacy CAS model where application domain still has full trust permission set. You can specify new legacyCasModel attribute on the <trust /> element to indicate whether the legacy CAS model is enabled. By default legacyCasModel is false which means that new 4.0 CAS model is the default. <trust level="Something" legacyCasModel="true|false" /> In .Net FX 4.0 Config directory, there are two set of predefined partial trust config files for each new CAS model and legacy CAS model, trust config files with name legacy.XYZ.config are for legacy CAS model: New CAS model: Legacy CAS model: web_hightrust.config legacy.web_hightrust.config web_mediumtrust.config legacy.web_mediumtrust.config web_lowtrust.config legacy.web_lowtrust.config web_minimaltrust.config legacy.web_minimaltrust.config   The figure below shows in ASP.NET 4.0 new CAS model what permission set to grant to code for partial trust application using predefined partial trust levels and policy files:    There also some benefits that comes with the new CAS model: You can lock down a machine by making all managed code no-execute by default (e.g. setting the MyComputer zone to have no managed execution code permissions), it should still be possible to configure ASP.NET web applications to run as either full-trust or partial trust. UNC share doesn’t require full trust with CASPOL at machine-level CAS policy. Side effect that comes with the new CAS model: processRequestInApplicationTrust attribute is deprecated  in new CAS model since application domain always has partial trust permission set in new CAS model.   In ASP.NET 4.0 legacy CAS model or ASP.NET 2.0 CAS model, even though you assign partial trust level to a application but the application domain still has full trust permission set. The figure below shows in ASP.NET 4.0 legacy CAS model (or ASP.NET 2.0 CAS model) what permission set to grant to code for partial trust application using predefined partial trust levels and policy files:     What $AppDirUrl$, $CodeGen$, $Gac$ represents: $AppDirUrl$ The application's virtual root directory. This allows permissions to be applied to code that is located in the application's bin directory. For example, if a virtual directory is mapped to C:\YourWebApp, then $AppDirUrl$ would equate to C:\YourWebApp. $CodeGen$ The directory that contains dynamically generated assemblies (for example, the result of .aspx page compiles). This can be configured on a per application basis and defaults to %windir%\Microsoft.NET\Framework\{version}\Temporary ASP.NET Files. $CodeGen$ allows permissions to be applied to dynamically generated assemblies. $Gac$ Any assembly that is installed in the computer's global assembly cache (GAC). This allows permissions to be granted to strong named assemblies loaded from the GAC by the Web application.   The new customization of CAS Policy in ASP.NET 4.0 new CAS model 1. Define which named permission set in partial trust configuration files By default the permission set that will be assigned at application domain initialization time is the named "ASP.Net" permission set found in all predefined partial trust configuration files. However ASP.NET 4.0 allows you set PermissionSetName attribute to define which named permission set in a partial trust configuration file should be the one used to initialize an application domain. Example: add "ASP.Net_2" named permission set in partial trust configuration file: <PermissionSet class="NamedPermissionSet" version="1" Name="ASP.Net_2"> <IPermission class="FileIOPermission" version="1" Read="$AppDir$" PathDiscovery="$AppDir$" /> <IPermission class="ReflectionPermission" version="1" Flags ="RestrictedMemberAccess" /> <IPermission class="SecurityPermission " version="1" Flags ="Execution, ControlThread, ControlPrincipal, RemotingConfiguration" /></PermissionSet> Then you can use "ASP.Net_2" named permission set for the application domain permission set: <trust level="Something" legacyCasModel="false" permissionSetName="ASP.Net_2" /> 2. Define a custom set of Full Trust Assemblies for an application By using the new fullTrustAssemblies element to configure a set of Full Trust Assemblies for an application, you can modify set of partial trust assemblies to full trust at the machine, site or application level. The configuration definition is shown below: <fullTrustAssemblies> <add assemblyName="MyAssembly" version="1.1.2.3" publicKey="hex_char_representation_of_key_blob" /></fullTrustAssemblies> 3. Define <CodeGroup /> policy in partial trust configuration files ASP.NET 4.0 new CAS model will retain the ability for developers to optionally define <CodeGroup />with membership conditions and assigned permission sets. The specific restriction in ASP.NET 4.0 new CAS model though will be that the results of evaluating custom policies can only result in one of two outcomes: either an assembly is granted full trust, or an assembly is granted the partial trust permission set currently associated with the running application domain. It will not be possible to use custom policies to create additional custom partial trust permission sets. When parsing the partial trust configuration file: Any assemblies that match to code groups associated with "PermissionSet='FullTrust'" will run at full trust. Any assemblies that match to code groups associated with "PermissionSet='Nothing'" will result in a PolicyError being thrown from the CLR. This is acceptable since it provides administrators with a way to do a blanket-deny of managed code followed by selectively defining policy in a <CodeGroup /> that re-adds assemblies that would be allowed to run. Any assemblies that match to code groups associated with other permissions sets will be interpreted to mean the assembly should run at the permission set of the appdomain. This means that even though syntactically a developer could define additional "flavors" of partial trust in an ASP.NET partial trust configuration file, those "flavors" will always be ignored. Example: defines full trust in <CodeGroup /> for my strong named assemblies in partial trust config files: <CodeGroup class="FirstMatchCodeGroup" version="1" PermissionSetName="Nothing"> <IMembershipCondition    class="AllMembershipCondition"    version="1" /> <CodeGroup    class="UnionCodeGroup"    version="1"    PermissionSetName="FullTrust"    Name="My_Strong_Name"    Description="This code group grants code signed full trust. "> <IMembershipCondition      class="StrongNameMembershipCondition" version="1"       PublicKeyBlob="hex_char_representation_of_key_blob" /> </CodeGroup> <CodeGroup   class="UnionCodeGroup" version="1" PermissionSetName="ASP.Net">   <IMembershipCondition class="UrlMembershipCondition" version="1" Url="$AppDirUrl$/*" /> </CodeGroup> <CodeGroup class="UnionCodeGroup" version="1" PermissionSetName="ASP.Net">   <IMembershipCondition class="UrlMembershipCondition" version="1" Url="$CodeGen$/*"   /> </CodeGroup></CodeGroup>   4. Customize CAS policy at runtime in ASP.NET 4.0 new CAS model ASP.NET 4.0 new CAS model allows to customize CAS policy at runtime by using custom HostSecurityPolicyResolver that overrides the ASP.NET code access security policy. Example: use custom host security policy resolver to resolve partial trust web application bin folder MyTrustedAssembly.dll to full trust at runtime: You can create a custom host security policy resolver and compile it to assembly MyCustomResolver.dll with strong name enabled and deploy in GAC: public class MyCustomResolver : HostSecurityPolicyResolver{ public override HostSecurityPolicyResults ResolvePolicy(Evidence evidence) { IEnumerator hostEvidence = evidence.GetHostEnumerator(); while (hostEvidence.MoveNext()) { object hostEvidenceObject = hostEvidence.Current; if (hostEvidenceObject is System.Security.Policy.Url) { string assemblyName = hostEvidenceObject.ToString(); if (assemblyName.Contains(“MyTrustedAssembly.dll”) return HostSecurityPolicyResult.FullTrust; } } //default fall-through return HostSecurityPolicyResult.DefaultPolicy; }} Because ASP.NET accesses the custom HostSecurityPolicyResolver during application domain initialization, and a custom policy resolver requires full trust, you also can add a custom policy resolver in <fullTrustAssemblies /> , or deploy in the GAC. You also need configure a custom HostSecurityPolicyResolver instance by adding the HostSecurityPolicyResolverType attribute in the <trust /> element: <trust level="Something" legacyCasModel="false" hostSecurityPolicyResolverType="MyCustomResolver, MyCustomResolver" permissionSetName="ASP.Net" />   Note: If an assembly policy define in <CodeGroup/> and also in hostSecurityPolicyResolverType, hostSecurityPolicyResolverType will win. If an assembly added in <fullTrustAssemblies/> then the assembly has full trust no matter what policy in <CodeGroup/> or in hostSecurityPolicyResolverType.   Other changes in ASP.NET 4.0 CAS Use the new transparency model introduced in .Net Framework 4.0 Change in dynamically compiled code generated assemblies by ASP.NET: In new CAS model they will be marked as security transparent level2 to use Framework 4.0 security transparent rule that means partial trust code is treated as completely Transparent and it is more strict enforcement. In legacy CAS model they will be marked as security transparent level1 to use Framework 2.0 security transparent rule for compatibility. Most of ASP.NET products runtime assemblies are also changed to be marked as security transparent level2 to switch to SecurityTransparent code by default unless SecurityCritical or SecuritySafeCritical attribute specified. You also can look at Security Changes in the .NET Framework 4 for more information about these security attributes. Support conditional APTCA If an assembly is marked with the Conditional APTCA attribute to allow partially trusted callers, and if you want to make the assembly both visible and accessible to partial-trust code in your web application, you must add a reference to the assembly in the partialTrustVisibleAssemblies section: <partialTrustVisibleAssemblies> <add assemblyName="MyAssembly" publicKey="hex_char_representation_of_key_blob" />/partialTrustVisibleAssemblies>   Most of ASP.NET products runtime assemblies are also changed to be marked as conditional APTCA to prevent use of ASP.NET APIs in partial trust environments such as Winforms or WPF UI controls hosted in Internet Explorer.   Differences between ASP.NET new CAS model and legacy CAS model: Here list some differences between ASP.NET new CAS model and legacy CAS model ASP.NET 4.0 legacy CAS model  : Asp.net partial trust appdomains have full trust permission Multiple different permission sets in a single appdomain are allowed in ASP.NET partial trust configuration files Code groups Machine CAS policy is honored processRequestInApplicationTrust attribute is still honored    New configuration setting for legacy model: <trust level="Something" legacyCASModel="true" ></trust><partialTrustVisibleAssemblies> <add assemblyName="MyAssembly" publicKey="hex_char_representation_of_key_blob" /></partialTrustVisibleAssemblies>   ASP.NET 4.0 new CAS model: ASP.NET will now run in homogeneous application domains. Only full trust or the app-domain's partial trust grant set, are allowable permission sets. It is no longer possible to define arbitrary permission sets that get assigned to different assemblies. If an application currently depends on fine-tuning the partial trust permission set using the ASP.NET partial trust configuration file, this will no longer be possible. processRequestInApplicationTrust attribute is deprecated Dynamically compiled assemblies output by ASP.NET build providers will be updated to explicitly mark assemblies as transparent. ASP.NET partial trust grant sets will be independent from any enterprise, machine, or user CAS policy levels. A simplified model for locking down web servers that only allows trusted managed web applications to run. Machine policy used to always grant full-trust to managed code (based on membership conditions) can instead be configured using the new ASP.NET 4.0 full-trust assembly configuration section. The full-trust assembly configuration section requires explicitly listing each assembly as opposed to using membership conditions. Alternatively, the membership condition(s) used in machine policy can instead be re-defined in a <CodeGroup /> within ASP.NET's partial trust configuration file to grant full-trust.   New configuration setting for new model: <trust level="Something" legacyCASModel="false" permissionSetName="ASP.Net" hostSecurityPolicyResolverType=".NET type string" ></trust><fullTrustAssemblies> <add assemblyName=”MyAssembly” version=”1.0.0.0” publicKey="hex_char_representation_of_key_blob" /></fullTrustAssemblies><partialTrustVisibleAssemblies> <add assemblyName="MyAssembly" publicKey="hex_char_representation_of_key_blob" /></partialTrustVisibleAssemblies>     Hope this post is helpful to better understand the ASP.Net 4.0 CAS. Xiaohong Tang ASP.NET QA Team

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  • HTTP 500 ERROR on CAS Server while setting SSLVerifyClent as "required"

    - by Huiyu.Bird
    I have 3 servers, a Apache Server, a JBOSS Server and a CAS Server for SSO. The Apache Server resolve all request with a domain such as www.request.com, and the path of CAS Server is www.request.com/cas, and JBOSS Server is www.request.com/jboss (This app got a CAS client). My problem is if I set SSLVerifyClient require for the NameVirtualHost of www.request.com in my Apache Server, I got a HTTP 500 error during the redirecting to the JBOSS Server(http://www.request.com/jboss), after logined in the CAS login page successfully. But everything goes successfully if there is no SSLVerifyClient require . Error logs of my Apache Server : [Mon Apr 19 17:07:25 2010] [error] Re-negotiation handshake failed: Not accepted by client!? Error logs of my JBOSS Server : 2010-04-19 17:29:57,263 ERROR [org.apache.catalina.core.ContainerBase.[jboss.web].[localhost].[/jboss].[jsp]] (ajp-0.0.0.0-8009-1) Servlet.service() for servlet jsp threw exception org.jasig.cas.client.validation.TicketValidationException: The CAS server returned no response. at org.jasig.cas.client.validation.AbstractUrlBasedTicketValidator.validate(AbstractUrlBasedTicketValidator.java:162) at org.jasig.cas.client.validation.AbstractTicketValidationFilter.doFilter(AbstractTicketValidationFilter.java:129) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.jasig.cas.client.authentication.AuthenticationFilter.doFilter(AuthenticationFilter.java:103) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.jasig.cas.client.session.SingleSignOutFilter.doFilter(SingleSignOutFilter.java:78) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.springframework.web.filter.CharacterEncodingFilter.doFilterInternal(CharacterEncodingFilter.java:96) at org.springframework.web.filter.OncePerRequestFilter.doFilter(OncePerRequestFilter.java:75) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.jboss.web.tomcat.filters.ReplyHeaderFilter.doFilter(ReplyHeaderFilter.java:96) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.apache.catalina.core.StandardWrapperValve.in Any tips will be highly appreciated. Thanks in advance.

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  • How to access/use custom attribute in spring security based CAS client

    - by Bill Li
    I need send certain attributes(say, human readable user name) from server to client after a successful authentication. Server part was done. Now attribute was sent to client. From log, I can see: 2010-03-28 23:48:56,669 DEBUG Cas20ServiceTicketValidator:185 - Server response: [email protected] <cas:proxyGrantingTicket>PGTIOU-1-QZgcN61oAZcunsC9aKxj-cas</cas:proxyGrantingTicket> <cas:attributes> <cas:FullName>Test account 1</cas:FullName> </cas:attributes> </cas:authenticationSuccess> </cas:serviceResponse> Yet, I don't know how to access the attribute in client(I am using Spring security 2.0.5). In authenticationProvider, a userDetailsService is configured to read db for authenticated principal. <bean id="casAuthenticationProvider" class="org.springframework.security.providers.cas.CasAuthenticationProvider"> <sec:custom-authentication-provider /> <property name="userDetailsService" ref="clerkManager"/> <!-- other stuff goes here --> </bean> Now in my controller, I can easily do this: Clerk currentClerk = (Clerk)SecurityContextHolder.getContext().getAuthentication().getPrincipal(); Ideally, I can fill the attribute to this Clerk object as another property in some way. How to do this? Or what is recommended approach to share attributes across all apps under CAS's centralized nature?

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  • HTTP 500 a problem on CAS Server while setting SSLVerifyClent as "required"

    - by Huiyu.Bird
    I have 3 server, a Apache Server, a JBOSS Server and a CAS Server for SSO. The Apache Server resolve all request with a domain such as www.request.com, and the path of CAS Server is www.request.com/cas, and JBOSS Server is www.request.com/jboss (This app got a CAS client). My problem is if I set SSLVerifyClient require for the NameVirtualHost of www.request.com in my Apache Server, I got a HTTP 500 error during the redirecting to the JBOSS Server(http://www.request.com/jboss), after logined in the CAS login page successfully. But everything goes successfully if there is no SSLVerifyClient require . Error logs of my Apache Server : [Mon Apr 19 17:07:25 2010] [error] Re-negotiation handshake failed: Not accepted by client!? Error logs of my JBOSS Server : 2010-04-19 17:29:57,263 ERROR [org.apache.catalina.core.ContainerBase.[jboss.web].[localhost].[/jboss].[jsp]] (ajp-0.0.0.0-8009-1) Servlet.service() for servlet jsp threw exception org.jasig.cas.client.validation.TicketValidationException: The CAS server returned no response. at org.jasig.cas.client.validation.AbstractUrlBasedTicketValidator.validate(AbstractUrlBasedTicketValidator.java:162) at org.jasig.cas.client.validation.AbstractTicketValidationFilter.doFilter(AbstractTicketValidationFilter.java:129) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.jasig.cas.client.authentication.AuthenticationFilter.doFilter(AuthenticationFilter.java:103) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.jasig.cas.client.session.SingleSignOutFilter.doFilter(SingleSignOutFilter.java:78) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.springframework.web.filter.CharacterEncodingFilter.doFilterInternal(CharacterEncodingFilter.java:96) at org.springframework.web.filter.OncePerRequestFilter.doFilter(OncePerRequestFilter.java:75) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.jboss.web.tomcat.filters.ReplyHeaderFilter.doFilter(ReplyHeaderFilter.java:96) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:235) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:206) at org.apache.catalina.core.StandardWrapperValve.in Any tips will be highly appreciated. Thanks in advance.

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  • CAS auth fails while migrating wordpress-mu from apache to IIS

    - by jjcm
    Having an issue migrating a wordpress-mu installation that I have running with cas authentication enabled (using wpcas and phpcas 1.1.0) from apache on an ubuntu machine to IIS on a windows 2008 machine. While CAS authed fine under linux, I'm getting a "CAS Authentication failed! You were no authenticated." page that pops up whenever I enter in a correct login. Anyone know whats up or if there are some logs I can look at to get more info?

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  • WIF using SAML 2 protocol / Federate AD FS 2.0 with CAS

    - by spa
    I'am are trying to implement a Web SSO with claim based identity using WIF and AD FS 2.0 right now. Right now I have a existing ASP.Net application which delegates authentification to the AD FS 2.0 server and trust issued security tokens. That works just fine. However, in the organization there is an existing JA-SIG Central Authentication Service (CAS) server which supports the SAML 2 protocol. I would like to replace AD FS 2.0 with the existing CAS service. In my understanding WIF uses WS-Federation, which is like a container around a SAML token. Is it possible to use the plain SAML 2 protocol and it's bindings (redirect or POST)? If that is not possible (as I guess), a second alternative might be to use federate identity and federate AD FS 2.0 with CAS. Is that possible? There is little to no information about that on the web. Thanks :-)

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  • Authenticating from a "child" application via CAS

    - by Rob Wilkerson
    I have a portal application that loads external content (widgets) via an iframe. Users login to CAS via the portal itself. There are a few portal APIs, though, that need to be called from that external content. What information do I have to pass from the portal to the widgets that the widgets can use to make these calls without being rejected by CAS? UPDATE The more I investigate, the more I think that my question boils down to how CAS actually does what it's supposed to do. In other words, how can I go from one site where I've authenticated to another and tell it that I've already done the authentication thing. What's the mechanism behind that and how can I employ in in a web context.

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  • Thin, Sinatra, and intercepting static file request to do CAS authentication

    - by Kenny Peng
    I'm using the casrack-the-authenticator gem for CAS authentication. My server is running Thin on top of Sinatra. I've gotten the CAS authentication bit working, but I'm not sure how to tell Rack to intercept "/index.html" requests to confirm the CAS login, and if the user is not allowed to view the page, return a HTTP 403 response instead of serving the actual page. Does anyone have experience with this? Thanks. My app: class Foo < Sinatra::Base enable :sessions set :public, "public" use CasrackTheAuthenticator::Simple, :cas_server => "https://my.cas_server.com" use CasrackTheAuthenticator::RequireCAS end My rackup file: require 'foo' use Rack::CommonLogger use Rack::Lint run Foo

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  • Does CAS Support Application Level Impersonation?

    - by Rob Wilkerson
    I have a PHP application that is successfully authenticating against a CAS server. One of the features supported by the application is impersonation; a user with the appropriate privileges can impersonate another of the application. Generally, this isn't a problem because the app itself can keep track of who the user is impersonating and manage privileges (which are based on username). A new requirement has come up, though, that requires the original app to include, via an iframe, content from a second PHP app that is also CAS-enabled. Somehow, I need for the second app to know whether impersonation is happening in the first. I don't want to pass usernames around for security reasons, so I'm wondering whether I can offload the responsibility for handling impersonation to the CAS server which is shared by both apps. Thanks.

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  • Auto login after signup in CAS

    - by Bill Li
    I am setting up my own CAS. A authentication handler was written and username/password are authenticated against a MySQL db. I also add signup page and related logic. Now I would like to let user automatically log on when he/she has registered as a user. How to achieve this?

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  • ajax call through cas

    - by manu1001
    I need to write a google gadget that reads feeds from google groups. Trouble is I'm making an ajax call to retrieve the feeds and our google apps domain is protected by CAS (central authentication service). So, I'm getting a 400 bad request on making the call. I suspect that the browser is not sending the cookie when making ajax call. How do I ensure that the cookie is also sent with the ajax call? OR if that's not supposed to be the problem, what do i need to do?

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  • Multiple CAS servers with Microsoft Exchange and selective authorization

    - by John Wilcox
    I have a Microsoft Exchange 2010 organization within one Microsoft Windows domain and I have users accessing it through OWA. For simplicity lets say I currently have one CAS server (CAS 1) which is accessible only through a VPN connection. Lets call the users connecting to the first CAS group a. For some users though, I need to install another CAS server (CAS 2) so that they can connect without using a VPN connection. Lets call those users group b. What I need to achieve is that group a can only log in to CAS 1 and group b can only log in to CAS 2. Now I know that one can disable/enable OWA per user but in my case that is not enough because OWA must be enabled for both groups.

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  • Exchange 2010 CAS Removal == Broken???

    - by Doug
    Hi there, I recently upgraded to exchange 2010 and have a setup with 2 of my servers running CAS roles - EXCH01, EXCH02 EXCH02 just happens to also have a mailbox role where a lot of the users sit EXCH01 is my front facing CAS server, and is facing the net with SSL etc and incoming mail moving through it as a hub transport layer server as well. As i was trying to lean things out in my VM environment i removed the CAS role from EXCH02 and all hell broke loose. All the mail users that have a mailbox on EXCH02 had their homeMTA set to a deleted items folder in AD and so did their msExchHomeServer properties. After a complete battle i manually fixed these issues to the oldvalues, and in the mean time reinstalled CAS on EXCH02 (management was going nuts with out OUTLOOK working so i just put things back the way they were in a hurry.) I must add as a strange thing on the side, that before i reset these to point at EXCH02 i tried EXCH01 and it failed. I still want to remove the CAS role from EXCH02 as it should really not have it (error on install/planning on my part) and would have thought that this would not cause the issues it did, i assumed that the fact that there was another CAS server in the admin group all would be good. Was i wrong in my assumption? and what can i do to complete this successfully the second time round? Do i need to rehome all the mailboxes to the CAS server? is this a bug in the role uninstall?

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  • Single CAS web application in a cluster

    - by Dolf Dijkstra
    Recently a customer wanted to set up a cluster of CAS nodes to be used together with WebCenter Sites. In the process of setting this up they realized that they needed to create a web application per managed server. They did not want to have this management burden but would like to have one web application deployed to multiple nodes. The reason that there is a need for a unique application per node is that the web-application contains information that needs to be unique per node, the postfix for the ticket id.  My customer would like to externalize the node specific configuration to either a specific classpath per managed server or to system properties set at startup.It turns out that the postfix for ticket ids is managed through a property host.name and that this property can be externalized.The host.name property is used in: /webapps/cas/WEB-INF/spring-configuration/uniqueIdGenerators.xmlIt is set in /webapps/cas/WEB-INF/spring-configuration/propertyFileConfigurer.xmlin a PropertyPlaceholderConfigurer.The documentation for PropertyPlaceholderConfigurer:http://static.springsource.org/spring/docs/2.0.x/api/org/springframework/beans/factory/config/PropertyPlaceholderConfigurer.htmlThis indicates that the properties defined through the PropertyPlaceHolderConfigurer can be externalized.To enable this externalization you would need to change host.properties so it is generic for all the managed servers and thus can be reused for all the managed servers: host.name=${cluster.node.id}Next step is to change the startup scripts for the managed servers and add a system property for -Dcluster.node.id=<something unique and stable>.Viola, the postfix is externalized and the web application can be shared amongst the cluster nodes.

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  • Are there commercially deployed and used .NET CAS (Code Access Security) based applications?

    - by Dinis Cruz
    I've seen a couple threads here on SO that ask about what CAS is and how to use it.My specific is specifically focused on real-world usages of CAS. For example: DotNetNuke did some efforts in the past to be able to run under Medium Trust: is that still true? what is the % of DNN that run in partial trust (i.e. not full trust)? what & of DNN modules run in partial trust?) Sharepoint defaults to a Partially-Trusted environment on dlls executed from the bin folder: How many 'commercially' available WebParts can run in this bin folder (without changing the policy)? The key here is to be able to point to CAS success stories, so that other companies feel that they should also invest in writing CAS-enabled apps

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  • Is there any way to monitor the number of CAS stackwalks that are occurring?

    - by Anonymous
    I'm working with a time sensitive desktop application that uses p/invoke extensively, and I want to make sure that the code is not wasting a lot of time on CAS stackwalks. I have used the SuppressUnmanagedCodeSecurity attribute where I think it is necessary, but I might have missed a few places. Does anyone know if there is a way to monitor the number of CAS stackwalks that are occurring, and better yet pinpoint the source of the security demands?

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  • Failover Issuer CAs without Clustering

    - by James Santiago
    I am attempting to setup a Certificate Authority with some failover capabilities for the issuer CAs. I have an offline root CA and am attempting to setup two subordinate CAs on our domain which will handle issuing certificates. I'm trying to determine the architecture needed for these two CAs to allow one to go down and the other to take over without the use of failover clustering, as the two are in different geographic locales. Are there documents regarding this setup?

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  • Sharepoint: Is it possible to automate the deployment of a custom CAS policy?

    - by user332133
    Hi all, I'm looking for a way to automate the deployment of a custom CAS policy in SharePoint. What i would like to achieve is the following: All assemblies that have been built and signed by our build server (with a secret key) should run in SharePoint under the 'higher than normal' trust level. Now I can manually edit the cas policy files to include something like this: <CodeGroup class="UnionCodeGroup" version="1" PermissionSetName="MyPermissionSet" Name="[My Company public key]" Description="Grants all "> <IMembershipCondition class="StrongNameMembershipCondition" version="1" PublicKeyBlob="[public key goes here]" /> </CodeGroup> And that works great. However, we have several huge sharepoint farms, with many applications running on it. I'd like to avoid having to manually edit all policy files to include this xml snippet. Is there a way to automate this? For example, from a feature? With kind regards, Erwin van der Valk

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  • Windows Azure Root CAs and SSL Client Certificates

    - by Your DisplayName here!
    I ran into some problems while trying to make SSL client certificates work for StarterSTS 1.5. In theory you have to do two things (via startup tasks): Unlock the SSL section in IIS Install all the root certificates for the client certs you want to accept I did that. But it still does not work. While inspecting the event log, I stumbled over an schannel error message that I’ve never seen before: “When asking for client authentication, this server sends a list of trusted certificate authorities to the client. The client uses this list to choose a client certificate that is trusted by the server. Currently, this server trusts so many certificate authorities that the list has grown too long. This list has thus been truncated. The administrator of this machine should review the certificate authorities trusted for client authentication and remove those that do not really need to be trusted.” WTF? And indeed standard Azure (web role) VMs trust 275 root CAs (see attached list). Including kinda obscure ones. I don’t really know why MS made this design decision. It seems just wrong (including breaking the SSL client cert functionality). Deleting like 60% of them made SSL client certs from my CA work. So I guess I now have to find an automated way to attach CTLs to my site…joy. Exported list of trusted CA (as of 30th Dec 2010) AC Raíz Certicámara S.A. (4/2/2030 9:42:02 PM) AC RAIZ FNMT-RCM (1/1/2030 12:00:00 AM) A-CERT ADVANCED (10/23/2011 2:14:14 PM) Actalis Authentication CA G1 (6/25/2022 2:06:00 PM) Agence Nationale de Certification Electronique (8/12/2037 9:03:17 AM) Agence Nationale de Certification Electronique (8/12/2037 9:58:14 AM) Agencia Catalana de Certificacio (NIF Q-0801176-I) (1/7/2031 10:59:59 PM) America Online Root Certification Authority 1 (11/19/2037 8:43:00 PM) America Online Root Certification Authority 2 (9/29/2037 2:08:00 PM) ANCERT Certificados CGN (2/11/2024 5:27:12 PM) ANCERT Certificados Notariales (2/11/2024 3:58:26 PM) ANCERT Corporaciones de Derecho Publico (2/11/2024 5:22:45 PM) A-Trust-nQual-01 (11/30/2014 11:00:00 PM) A-Trust-nQual-03 (8/17/2015 10:00:00 PM) A-Trust-Qual-01 (11/30/2014 11:00:00 PM) A-Trust-Qual-02 (12/2/2014 11:00:00 PM) A-Trust-Qual-03a (4/24/2018 10:00:00 PM) Austria Telekom-Control Kommission (9/24/2005 12:40:00 PM) Austrian Society for Data Protection (2/12/2009 11:30:30 AM) Austrian Society for Data Protection GLOBALTRUST Certification Service (9/18/2036 2:12:35 PM) Autoridad Certificadora Raiz de la Secretaria de Economia (5/9/2025 12:00:00 AM) Autoridad de Certificacion de la Abogacia (6/13/2030 10:00:00 PM) Autoridad de Certificacion Firmaprofesional CIF A62634068 (10/24/2013 10:00:00 PM) Autoridade Certificadora Raiz Brasileira (11/30/2011 11:59:00 PM) Baltimore CyberTrust Root (5/12/2025 11:59:00 PM) BIT AdminCA-CD-T01 (1/25/2016 12:36:19 PM) BIT Admin-Root-CA (11/10/2021 7:51:07 AM) Buypass Class 2 CA 1 (10/13/2016 10:25:09 AM) Buypass Class 3 CA 1 (5/9/2015 2:13:03 PM) CA Disig (3/22/2016 1:39:34 AM) CertEurope (3/27/2037 11:00:00 PM) CERTICAMARA S.A. (2/23/2015 5:10:37 PM) Certicámara S.A. (5/23/2011 10:00:00 PM) Certigna (6/29/2027 3:13:05 PM) Certipost E-Trust Primary Normalised CA (7/26/2020 10:00:00 AM) Certipost E-Trust Primary Qualified CA (7/26/2020 10:00:00 AM) Certipost E-Trust Primary TOP Root CA (7/26/2025 10:00:00 AM) Certisign Autoridade Certificadora AC1S (6/27/2018 12:00:00 AM) Certisign Autoridade Certificadora AC2 (6/27/2018 12:00:00 AM) Certisign Autoridade Certificadora AC3S (7/9/2018 8:56:32 PM) Certisign Autoridade Certificadora AC4 (6/27/2018 12:00:00 AM) CertPlus Class 1 Primary CA (7/6/2020 11:59:59 PM) CertPlus Class 2 Primary CA (7/6/2019 11:59:59 PM) CertPlus Class 3 Primary CA (7/6/2019 11:59:59 PM) CertPlus Class 3P Primary CA (7/6/2019 11:59:59 PM) CertPlus Class 3TS Primary CA (7/6/2019 11:59:59 PM) CertRSA01 (3/3/2010 2:59:59 PM) certSIGN Root CA (7/4/2031 5:20:04 PM) Certum (6/11/2027 10:46:39 AM) Certum Trusted Network CA (12/31/2029 12:07:37 PM) Chambers of Commerce Root - 2008 (7/31/2038 12:29:50 PM) Chambersign Chambers of Commerce Root (9/30/2037 4:13:44 PM) Chambersign Global Root (9/30/2037 4:14:18 PM) Chambersign Public Notary Root (9/30/2037 4:14:49 PM) Chunghwa Telecom Co. Ltd. (12/20/2034 2:31:27 AM) Cisco Systems (5/14/2029 8:25:42 PM) CNNIC Root (4/16/2027 7:09:14 AM) Common Policy (10/15/2027 4:08:00 PM) COMODO (12/31/2028 11:59:59 PM) COMODO (1/18/2038 11:59:59 PM) COMODO (12/31/2029 11:59:59 PM) ComSign Advanced Security CA (3/24/2029 9:55:55 PM) ComSign CA (3/19/2029 3:02:18 PM) ComSign Secured CA (3/16/2029 3:04:56 PM) Correo Uruguayo - Root CA (12/31/2030 2:59:59 AM) Cybertrust Global Root (12/15/2021 8:00:00 AM) DanID (2/11/2037 9:09:30 AM) DanID (4/5/2021 5:03:17 PM) Deutsche Telekom Root CA 2 (7/9/2019 11:59:00 PM) DigiCert (11/10/2031 12:00:00 AM) DigiCert (11/10/2031 12:00:00 AM) DigiCert (11/10/2031 12:00:00 AM) DigiNotar Root CA (3/31/2025 6:19:21 PM) DIRECCION GENERAL DE LA POLICIA (2/8/2036 10:59:59 PM) DST (ABA.ECOM) CA (7/9/2009 5:33:53 PM) DST (ANX Network) CA (12/9/2018 4:16:48 PM) DST (Baltimore EZ) CA (7/3/2009 7:56:53 PM) DST (National Retail Federation) RootCA (12/8/2008 4:14:16 PM) DST (United Parcel Service) RootCA (12/7/2008 12:25:46 AM) DST ACES CA X6 (11/20/2017 9:19:58 PM) DST Root CA X3 (9/30/2021 2:01:15 PM) DST RootCA X1 (11/28/2008 6:18:55 PM) DST RootCA X2 (11/27/2008 10:46:16 PM) DSTCA E1 (12/10/2018 6:40:23 PM) DSTCA E2 (12/9/2018 7:47:26 PM) DST-Entrust GTI CA (12/9/2018 12:32:24 AM) D-TRUST GmbH (5/16/2022 5:20:47 AM) D-TRUST GmbH (6/8/2012 11:47:46 AM) D-TRUST GmbH (5/16/2022 5:20:47 AM) EBG Elektronik Sertifika Hizmet Saglayicisi (8/14/2016 12:31:09 AM) E-Certchile (9/5/2028 7:39:41 PM) Echoworx Root CA2 (10/7/2030 10:49:13 AM) ECRaizEstado (6/23/2030 1:41:27 PM) EDICOM (4/13/2028 4:24:22 PM) E-GÜVEN Elektronik Sertifika Hizmet Saglayicisi (1/4/2017 11:32:48 AM) E-ME SSI (RCA) (5/19/2027 8:48:15 AM) Entrust (11/27/2026 8:53:42 PM) Entrust (5/25/2019 4:39:40 PM) Entrust.net (12/7/2030 5:55:54 PM) Equifax Secure eBusiness CA-1 (6/21/2020 4:00:00 AM) Equifax Secure eBusiness CA-2 (6/23/2019 12:14:45 PM) Equifax Secure Global eBusiness CA-1 (6/21/2020 4:00:00 AM) eSign Australia: eSign Imperito Primary Root CA (5/23/2012 11:59:59 PM) eSign Australia: Gatekeeper Root CA (5/23/2014 11:59:59 PM) eSign Australia: Primary Utility Root CA (5/23/2012 11:59:59 PM) Fabrica Nacional de Moneda y Timbre (3/18/2019 3:26:19 PM) GeoTrust (8/22/2018 4:41:51 PM) GeoTrust (7/16/2036 11:59:59 PM) GeoTrust Global CA (5/21/2022 4:00:00 AM) GeoTrust Global CA 2 (3/4/2019 5:00:00 AM) GeoTrust Primary Certification Authority - G2 (1/18/2038 11:59:59 PM) GeoTrust Primary Certification Authority - G3 (12/1/2037 11:59:59 PM) GeoTrust Universal CA (3/4/2029 5:00:00 AM) GeoTrust Universal CA 2 (3/4/2029 5:00:00 AM) Global Chambersign Root - 2008 (7/31/2038 12:31:40 PM) GlobalSign (1/28/2028 12:00:00 PM) GlobalSign (12/15/2021 8:00:00 AM) Go Daddy Class 2 Certification Authority (6/29/2034 5:06:20 PM) GTE CyberTrust Global Root (8/13/2018 11:59:00 PM) GTE CyberTrust Root (4/3/2004 11:59:00 PM) GTE CyberTrust Root (2/23/2006 11:59:00 PM) Halcom CA FO (6/5/2020 10:33:31 AM) Halcom CA PO 2 (2/7/2019 6:33:31 PM) Hongkong Post Root CA (1/16/2010 11:59:00 PM) Hongkong Post Root CA 1 (5/15/2023 4:52:29 AM) I.CA První certifikacní autorita a.s. (4/1/2018 12:00:00 AM) I.CA První certifikacní autorita a.s. (4/1/2018 12:00:00 AM) InfoNotary (3/6/2026 5:33:05 PM) IPS SERVIDORES (12/29/2009 11:21:07 PM) IZENPE S.A. (1/30/2018 11:00:00 PM) Izenpe.com (12/13/2037 8:27:25 AM) Japan Certification Services, Inc. SecureSign RootCA1 (9/15/2020 2:59:59 PM) Japan Certification Services, Inc. SecureSign RootCA11 (4/8/2029 4:56:47 AM) Japan Certification Services, Inc. SecureSign RootCA2 (9/15/2020 2:59:59 PM) Japan Certification Services, Inc. SecureSign RootCA3 (9/15/2020 2:59:59 PM) Japan Local Government PKI Application CA (3/31/2016 2:59:59 PM) Japanese Government ApplicationCA (12/12/2017 3:00:00 PM) Juur-SK AS Sertifitseerimiskeskus (8/26/2016 2:23:01 PM) KamuSM (8/21/2017 11:37:07 AM) KISA RootCA 1 (8/24/2025 8:05:46 AM) KISA RootCA 3 (11/19/2014 6:39:51 AM) Macao Post eSignTrust (1/29/2013 11:59:59 PM) MicroSec e-Szigno Root CA (4/6/2017 12:28:44 PM) Microsoft Authenticode(tm) Root (12/31/1999 11:59:59 PM) Microsoft Root Authority (12/31/2020 7:00:00 AM) Microsoft Root Certificate Authority (5/9/2021 11:28:13 PM) Microsoft Timestamp Root (12/30/1999 11:59:59 PM) MOGAHA Govt of Korea (4/21/2012 9:07:23 AM) MOGAHA Govt of Korea GPKI (3/15/2017 6:00:04 AM) NetLock Arany (Class Gold) Fotanúsítvány (12/6/2028 3:08:21 PM) NetLock Expressz (Class C) Tanusitvanykiado (2/20/2019 2:08:11 PM) NetLock Kozjegyzoi (Class A) Tanusitvanykiado (2/19/2019 11:14:47 PM) NetLock Minositett Kozjegyzoi (Class QA) Tanusitvanykiado (12/15/2022 1:47:11 AM) NetLock Platina (Class Platinum) Fotanúsítvány (12/6/2028 3:12:44 PM) NetLock Uzleti (Class B) Tanusitvanykiado (2/20/2019 2:10:22 PM) Netrust CA1 (3/30/2021 2:57:45 AM) Network Solutions (12/31/2029 11:59:59 PM) NLB Nova Ljubljanska Banka d.d. Ljubljana (5/15/2023 12:22:45 PM) OISTE WISeKey Global Root GA CA (12/11/2037 4:09:51 PM) Post.Trust Root CA (7/5/2022 9:12:33 AM) Post.Trust Root CA (8/20/2010 1:56:21 PM) Posta CA Root (10/20/2028 12:52:08 PM) POSTarCA (2/7/2023 11:06:58 AM) QuoVadis Root CA 2 (11/24/2031 6:23:33 PM) QuoVadis Root CA 3 (11/24/2031 7:06:44 PM) QuoVadis Root Certification Authority (3/17/2021 6:33:33 PM) Root CA Generalitat Valenciana (7/1/2021 3:22:47 PM) RSA Security 2048 V3 (2/22/2026 8:39:23 PM) SECOM Trust Systems CO LTD (6/6/2037 2:12:32 AM) SECOM Trust Systems CO LTD (6/25/2019 10:23:48 PM) SECOM Trust Systems CO LTD (9/30/2023 4:20:49 AM) Secretaria de Economia Mexico (5/8/2025 12:00:00 AM) Secrétariat Général de la Défense Nationale (10/17/2020 2:29:22 PM) SecureNet CA Class B (10/16/2009 9:59:00 AM) Serasa Certificate Authority I (11/21/2024 2:12:45 PM) Serasa Certificate Authority II (11/21/2024 12:44:48 PM) Serasa Certificate Authority III (11/21/2024 1:24:14 PM) SERVICIOS DE CERTIFICACION - A.N.C. (3/9/2009 9:08:07 PM) Sigen-CA (6/29/2021 9:57:46 PM) Sigov-CA (1/10/2021 2:22:52 PM) Skaitmeninio sertifikavimo centras (12/28/2026 12:05:04 PM) Skaitmeninio sertifikavimo centras (12/25/2026 12:08:26 PM) Skaitmeninio sertifikavimo centras (12/22/2026 12:11:30 PM) Sonera Class1 CA (4/6/2021 10:49:13 AM) Sonera Class2 CA (4/6/2021 7:29:40 AM) Spanish Property & Commerce Registry CA (4/27/2012 9:39:50 AM) Staat der Nederlanden Root CA (12/16/2015 9:15:38 AM) Staat der Nederlanden Root CA - G2 (3/25/2020 11:03:10 AM) Starfield Class 2 Certification Authority (6/29/2034 5:39:16 PM) Starfield Technologies (6/26/2019 12:19:54 AM) Starfield Technologies Inc. (12/31/2029 11:59:59 PM) StartCom Certification Authority (9/17/2036 7:46:36 PM) S-TRUST Authentication and Encryption Root CA 2005:PN (6/21/2030 11:59:59 PM) Swisscom Root CA 1 (8/18/2025 10:06:20 PM) SwissSign (10/25/2036 8:30:35 AM) SwissSign Platinum G2 Root CA (10/25/2036 8:36:00 AM) SwissSign Silver G2 Root CA (10/25/2036 8:32:46 AM) TC TrustCenter Class 1 CA (1/1/2011 11:59:59 AM) TC TrustCenter Class 2 CA (1/1/2011 11:59:59 AM) TC TrustCenter Class 2 CA II (12/31/2025 10:59:59 PM) TC TrustCenter Class 3 CA (1/1/2011 11:59:59 AM) TC TrustCenter Class 3 CA II (12/31/2025 10:59:59 PM) TC TrustCenter Class 4 CA (1/1/2011 11:59:59 AM) TC TrustCenter Class 4 CA II (12/31/2025 10:59:59 PM) TC TrustCenter Time Stamping CA (1/1/2011 11:59:59 AM) TC TrustCenter Universal CA I (12/31/2025 10:59:59 PM) TC TrustCenter Universal CA II (12/31/2030 10:59:59 PM) thawte (12/31/2020 11:59:59 PM) thawte (7/16/2036 11:59:59 PM) thawte (12/31/2020 11:59:59 PM) thawte (12/31/2020 11:59:59 PM) thawte (12/31/2020 11:59:59 PM) thawte (12/31/2020 11:59:59 PM) thawte (12/31/2020 11:59:59 PM) thawte Primary Root CA - G2 (1/18/2038 11:59:59 PM) thawte Primary Root CA - G3 (12/1/2037 11:59:59 PM) Thawte Timestamping CA (12/31/2020 11:59:59 PM) Trustis EVS Root CA (1/9/2027 11:56:00 AM) Trustis FPS Root CA (1/21/2024 11:36:54 AM) Trustwave (1/1/2035 5:37:19 AM) Trustwave (12/31/2029 7:40:55 PM) Trustwave (12/31/2029 7:52:06 PM) TURKTRUST Elektronik Islem Hizmetleri (9/16/2015 12:13:05 PM) TURKTRUST Elektronik Islem Hizmetleri (3/22/2015 10:04:51 AM) TURKTRUST Elektronik Sertifika Hizmet Saglayicisi (9/16/2015 10:07:57 AM) TURKTRUST Elektronik Sertifika Hizmet Saglayicisi (3/22/2015 10:27:17 AM) TÜRKTRUST Elektronik Sertifika Hizmet Saglayicisi (12/22/2017 6:37:19 PM) TW Government Root Certification Authority (12/5/2032 1:23:33 PM) TWCA Root Certification Authority 1 (12/31/2030 3:59:59 PM) TWCA Root Certification Authority 2 (12/31/2030 3:59:59 PM) U.S. Government FBCA (10/6/2010 6:53:56 PM) UCA Global Root (12/31/2037 12:00:00 AM) UCA Root (12/31/2029 12:00:00 AM) USERTrust (7/9/2019 6:40:36 PM) USERTrust (7/9/2019 5:36:58 PM) USERTrust (6/24/2019 7:06:30 PM) USERTrust (7/9/2019 6:19:22 PM) USERTrust (5/30/2020 10:48:38 AM) UTN - USERFirst-Network Applications (7/9/2019 6:57:49 PM) ValiCert Class 3 Policy Validation Authority (6/26/2019 12:22:33 AM) VAS Latvijas Pasts SSI(RCA) (9/13/2024 9:27:57 AM) VeriSign (5/18/2018 11:59:59 PM) VeriSign (7/16/2036 11:59:59 PM) VeriSign (8/1/2028 11:59:59 PM) VeriSign (12/31/1999 9:37:48 AM) VeriSign (1/7/2004 11:59:59 PM) VeriSign (5/18/2018 11:59:59 PM) VeriSign (1/7/2004 11:59:59 PM) VeriSign (8/1/2028 11:59:59 PM) VeriSign (8/1/2028 11:59:59 PM) VeriSign (1/7/2020 11:59:59 PM) VeriSign (12/31/1999 9:35:58 AM) VeriSign (8/1/2028 11:59:59 PM) VeriSign (7/16/2036 11:59:59 PM) VeriSign (1/7/2004 11:59:59 PM) VeriSign (7/16/2036 11:59:59 PM) VeriSign (1/7/2010 11:59:59 PM) VeriSign (5/18/2018 11:59:59 PM) VeriSign (8/1/2028 11:59:59 PM) VeriSign (1/7/2004 11:59:59 PM) VeriSign (7/16/2036 11:59:59 PM) VeriSign (7/16/2036 11:59:59 PM) VeriSign (8/1/2028 11:59:59 PM) VeriSign (5/18/2018 11:59:59 PM) VeriSign Class 3 Public Primary CA (8/1/2028 11:59:59 PM) VeriSign Class 3 Public Primary Certification Authority - G4 (1/18/2038 11:59:59 PM) VeriSign Time Stamping CA (1/7/2004 11:59:59 PM) VeriSign Universal Root Certification Authority (12/1/2037 11:59:59 PM) Visa eCommerce Root (6/24/2022 12:16:12 AM) Visa Information Delivery Root CA (6/29/2025 5:42:42 PM) VRK Gov. Root CA (12/18/2023 1:51:08 PM) Wells Fargo Root Certificate Authority (1/14/2021 4:41:28 PM) WellsSecure Public Certificate Authority (12/14/2022 12:07:54 AM) Xcert EZ by DST (7/11/2009 4:14:18 PM)

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  • Unable to find valid certification path to requested target while CAS authentication

    - by Dmitriy Sukharev
    I'm trying to configure CAS authentication. It requires both CAS and client application to use HTTPS protocol. Unfortunately we should use self-signed certificate (with CN that doesn't have anything in common with our server). Also the server is behind firewall and we have only two ports (ssh and https) visible. As far as there're several application that should be visible externally, we use Apache for ajp reverse proxying requests to these applications. Secure connections are managed by Apache, and all Tomcat are not configured to work with SSL. But I obtained exception while authentication, therefore desided to set keystore in CATALINA_OPTS: export CATALINA_OPTS="-Djavax.net.ssl.keyStore=/path/to/tomcat/ssl/cert.pfx -Djavax.net.ssl.keyStoreType=PKCS12 -Djavax.net.ssl.keyStorePassword=password -Djavax.net.ssl.keyAlias=alias -Djavax.net.debug=ssl" cert.pfx was obtained from certificate and key that are used by Apache HTTP Server: $ openssl pkcs12 -export -out /path/to/tomcat/ssl/cert.pfx -inkey /path/to/apache2/ssl/server-key.pem -in /path/to/apache2/ssl/server-cert.pem When I try to authenticate a user I obtain the following exception: Caused by: sun.security.provider.certpath.SunCertPathBuilderException: unable to find valid certification path to requested target at sun.security.provider.certpath.SunCertPathBuilder.engineBuild(SunCertPathBuilder.java:174) ~[na:1.6.0_32] at java.security.cert.CertPathBuilder.build(CertPathBuilder.java:238) ~[na:1.6.0_32] at sun.security.validator.PKIXValidator.doBuild(PKIXValidator.java:318) ~[na:1.6.0_32] Meanwhile I can see in catalina.out that Tomcat see certificate in cert.pfx and it's the same as the one that is used while authentication: 09:11:38.886 [http-bio-8080-exec-2] DEBUG o.j.c.c.v.Cas20ProxyTicketValidator - Constructing validation url: https://external-ip/cas/proxyValidate?pgtUrl=https%3A%2F%2Fexternal-ip%2Fclient%2Fj_spring_cas_security_proxyreceptor&ticket=ST-17-PN26WtdsZqNmpUBS59RC-cas&service=https%3A%2F%2Fexternal-ip%2Fclient%2Fj_spring_cas_security_check 09:11:38.886 [http-bio-8080-exec-2] DEBUG o.j.c.c.v.Cas20ProxyTicketValidator - Retrieving response from server. keyStore is : /path/to/tomcat/ssl/cert.pfx keyStore type is : PKCS12 keyStore provider is : init keystore init keymanager of type SunX509 *** found key for : 1 chain [0] = [ [ Version: V1 Subject: CN=wrong.domain.name, O=Our organization, L=Location, ST=State, C=Country Signature Algorithm: SHA1withRSA, OID = 1.2.840.113549.1.1.5 Key: Sun RSA public key, 1024 bits modulus: 13??a lot of digits here??19 public exponent: ????7 Validity: [From: Tue Apr 24 16:32:18 CEST 2012, To: Wed Apr 24 16:32:18 CEST 2013] Issuer: CN=wrong.domain.name, O=Our organization, L=Location, ST=State, C=Country SerialNumber: [ d??????? ????????] ] Algorithm: [SHA1withRSA] Signature: 0000: 65 Signature is here 0070: 96 . ] *** trustStore is: /jdk-home-folder/jre/lib/security/cacerts Here is a lot of trusted CAs. Here is nothing related to our certicate or our (not trusted) CA. ... 09:11:39.731 [http-bio-8080-exec-4] DEBUG o.j.c.c.v.Cas20ProxyTicketValidator - Retrieving response from server. Allow unsafe renegotiation: false Allow legacy hello messages: true Is initial handshake: true Is secure renegotiation: false %% No cached client session *** ClientHello, TLSv1 RandomCookie: GMT: 1347433643 bytes = { 63, 239, 180, 32, 103, 140, 83, 7, 109, 149, 177, 80, 223, 79, 243, 244, 60, 191, 124, 139, 108, 5, 122, 238, 146, 1, 54, 218 } Session ID: {} Cipher Suites: [SSL_RSA_WITH_RC4_128_MD5, SSL_RSA_WITH_RC4_128_SHA, TLS_RSA_WITH_AES_128_CBC_SHA, TLS_DHE_RSA_WITH_AES_128_CBC_SHA, TLS_DHE_DSS_WITH_AES_128_CBC_SHA, SSL_RSA_WITH_3DES_EDE_CBC_SHA, SSL_DHE_RSA_WITH_3DES_EDE_CBC_SHA, SSL_DHE_DSS_WITH_3DES_EDE_CBC_SHA, SSL_RSA_WITH_DES_CBC_SHA, SSL_DHE_RSA_WITH_DES_CBC_SHA, SSL_DHE_DSS_WITH_DES_CBC_SHA, SSL_RSA_EXPORT_WITH_RC4_40_MD5, SSL_RSA_EXPORT_WITH_DES40_CBC_SHA, SSL_DHE_RSA_EXPORT_WITH_DES40_CBC_SHA, SSL_DHE_DSS_EXPORT_WITH_DES40_CBC_SHA, TLS_EMPTY_RENEGOTIATION_INFO_SCSV] Compression Methods: { 0 } *** http-bio-8080-exec-4, WRITE: TLSv1 Handshake, length = 75 http-bio-8080-exec-4, WRITE: SSLv2 client hello message, length = 101 http-bio-8080-exec-4, READ: TLSv1 Handshake, length = 81 *** ServerHello, TLSv1 RandomCookie: GMT: 1347433643 bytes = { 145, 237, 232, 63, 240, 104, 234, 201, 148, 235, 12, 222, 60, 75, 174, 0, 103, 38, 196, 181, 27, 226, 243, 61, 34, 7, 107, 72 } Session ID: {79, 202, 117, 79, 130, 216, 168, 38, 68, 29, 182, 82, 16, 25, 251, 66, 93, 108, 49, 133, 92, 108, 198, 23, 120, 120, 135, 151, 15, 13, 199, 87} Cipher Suite: SSL_RSA_WITH_RC4_128_SHA Compression Method: 0 Extension renegotiation_info, renegotiated_connection: <empty> *** %% Created: [Session-2, SSL_RSA_WITH_RC4_128_SHA] ** SSL_RSA_WITH_RC4_128_SHA http-bio-8080-exec-4, READ: TLSv1 Handshake, length = 609 *** Certificate chain chain [0] = [ [ Version: V1 Subject: CN=wrong.domain.name, O=Our organization, L=Location, ST=State, C=Country Signature Algorithm: SHA1withRSA, OID = 1.2.840.113549.1.1.5 Key: Sun RSA public key, 1024 bits modulus: 13??a lot of digits here??19 public exponent: ????7 Validity: [From: Tue Apr 24 16:32:18 CEST 2012, To: Wed Apr 24 16:32:18 CEST 2013] Issuer: CN=wrong.domain.name, O=Our organization, L=Location, ST=State, C=Country SerialNumber: [ d??????? ????????] ] Algorithm: [SHA1withRSA] Signature: 0000: 65 Signature is here 0070: 96 . ] *** http-bio-8080-exec-4, SEND TLSv1 ALERT: fatal, description = certificate_unknown http-bio-8080-exec-4, WRITE: TLSv1 Alert, length = 2 http-bio-8080-exec-4, called closeSocket() http-bio-8080-exec-4, handling exception: javax.net.ssl.SSLHandshakeException: sun.security.validator.ValidatorException: PKIX path building failed: sun.security.provider.certpath.SunCertPathBuilderException: unable to find valid certification path to requested target I tried to convert our pem certificate to der format and imported it to trustedKeyStore (cacerts) (without private key), but it didn't change anything. But I'm not confident that I did it rigth. Also I must inform you that I don't know passphrase for our servier-key.pem file, and probably it differs from password for keystore created by me. OS: CentOS 6.2 Architecture: x64 Tomcat version: 7 Apache HTTP Server version: 2.4 Is there any way to make Tomcat accepts our certificate?

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  • Java Concurrency: CAS vs Locking

    - by Hugo Walker
    Im currently reading the Book Java Concurrency in Practice. In the Chapter 15 they are speaking about the Nonblocking algorithms and the compare-and-swap (CAS) Method. It is written that the CAS perform much better than the Locking Methods. I want to ask the people which already worked with both of this concepts and would like to hear when you are preferring which of these concept? Is it really so much faster? Personally for me the usage of Locks is much clearer and easier to understand and maybe even better to maintain. (Please correct me if I am wrong). Should we really focus creating our concurrent code related on CAS than Locks to get a better performance boost or is sustainability a higher thing? I know there is maybe not a strict rule, when to use what. But I just would like to hear some opinions, experiences with the new concept of CAS.

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  • CAS authentication and redirects with jQuery Ajax

    - by Steve Nay
    I've got an HTML page that needs to make requests to a CAS-protected (Central Authentication Service) web service using the jQuery AJAX functions. I've got the following code: $.ajax({ type: "GET", url: request, dataType: "json", complete: function(xmlHttp) { console.log(xmlHttp); alert(xmlHttp.status); }, success: handleRedirects }); The request variable can be either to the CAS server (https://cas.mydomain.com/login?service=myServiceURL) or directly to the service (which should then redirect back to CAS to get a service ticket). Firebug shows that the request is being made and that it comes back as a 302 redirect. However, the $.ajax() function isn't handling the redirect. I wrote this function to work around this: var handleRedirects = function(data, textStatus) { console.log(data, textStatus); if (data.redirect) { console.log("Calling a redirect: " + data.redirect); $.get(data.redirect, handleRedirects); } else { //function that handles the actual data processing gotResponse(data); } }; However, even with this, the handleRedirects function never gets called, and the xmlHttp.status always returns 0. It also doesn't look like the cookies are getting sent with the cas.mydomain.com call. (See this question for a similar problem.) Is this a problem with the AJAX calls not handling redirects, or is there more going on here than meets the eye?

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  • IIS 7.5 refuses to load 64-bit assembly - possible CAS problem?

    - by Rune
    Hi, I just downloaded the Orchard CMS, opened it up in VS2008 and hit F5: Everything runs fine. I then created a website in IIS 7.5 and pointed it to the web project's directory and set up permissions correctly (I hope). I downloaded the 64-bit version System.Data.SQLite as suggested here: Orchard Work Item 14798 and here: SO: Could not load file or assembly 'System.Data.SQLite'. The site runs in Full Trust. When I point my browser to the site running through IIS I get Could not load file or assembly 'System.Data.SQLite, Version=1.0.65.0, Culture=neutral, PublicKeyToken=db937bc2d44ff139' or one of its dependencies. Failed to grant minimum permission requests. I don't know much about Code Access Security (if that is even what's at play here), so I am at a loss here. What am I doing wrong / not understanding / not seeing? How do I provide appropriate permissions and to whom / what? Is there any hope of ever deploying this application to a hoster where I am only allowed to run in Medium Trust? Any help, pointers or suggestions would be greatly appreciated. Thanks. NOTE: the question is not why this initially worked when run through Cassini. The answer to that question is contained in the answer to the SO question referenced above.

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  • Turn off transparency to perform CAS Asserts

    - by MainMa
    Hi, I apologize if my question is too stupid. I want to run from a sandboxed application a method from a full trusted assembly. But when trying to do so, as described in C# 4.0 in a Nutshell: The Definitive Reference, Fourth Edition, Chapter 20, each time I call Permission.Assert, an InvalidOperationException "Cannot perform CAS Asserts in Security Transparent methods" is thrown. So how is it possible to turn off transparency to be able to use CAS Asserts?

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