From 506a1fc1252268fa31ba89882ea55b7665579965 Mon Sep 17 00:00:00 2001 From: DUVAL Thomas Date: Thu, 16 Jun 2016 14:49:55 +0200 Subject: Delete old files Change-Id: I35cf053f404ba4134eeef46ef177259340634d4f --- .../src/main/docs/sssd_configuration.rst | 1687 -------------------- 1 file changed, 1687 deletions(-) delete mode 100644 odl-aaa-moon/aaa-authn-api/src/main/docs/sssd_configuration.rst (limited to 'odl-aaa-moon/aaa-authn-api/src/main/docs/sssd_configuration.rst') diff --git a/odl-aaa-moon/aaa-authn-api/src/main/docs/sssd_configuration.rst b/odl-aaa-moon/aaa-authn-api/src/main/docs/sssd_configuration.rst deleted file mode 100644 index 7f912d94..00000000 --- a/odl-aaa-moon/aaa-authn-api/src/main/docs/sssd_configuration.rst +++ /dev/null @@ -1,1687 +0,0 @@ -################################################ -Federated Authentication Utilizing Apache & SSSD -################################################ - -:Author: John Dennis -:Email: jdennis@redhat.com - -.. contents:: Table of Contents - -************ -Introduction -************ - -Applications should not need to handle the burden of authentication -and authorization. These are complex technologies further complicated -by the existence of a wide variety of authentication -mechanisms. Likewise there are numerous identity providers (IdP) which -one may wish to utilize, perhaps in a federated manner. The potential -to make critical mistakes are high while consuming significant -engineering resources. Ideally an application should "outsource" it's -authentication to an "expert" and avoid unnecessary development costs. - -For web based applications (both conventional HTML and REST API) there -has been a trend to embed a simple HTTP server in the application or -application server which handles the HTTP requests eschewing the use -of a traditional web server such as Apache. - -.. figure:: sssd_01.png - :align: center - - _`Figure 1.` - -But traditional web servers have a lot of advantages. They often come -with extensive support for technologies you might wish to utilize in -your application. It would require signification software engineering -to add support for those technologies in your application. The problem -is compounded by the fact many of these technologies demand domain -expertise which is unlikely to be available in the application -development team. Another problem is the libraries needed to utilize -the technology may not even be available in the programming language -the application is being developed in. Fundamentally an application -developer should focus on developing their application instead of -investing resources into implementing complex code for the ancillary -technologies the application may wish to utilize. - -Therefore fronting your application with a web server such as Apache -makes a lot of sense. One should allow Apache to handle complex tasks -such as multiple authentication mechanisms talking to multiple -IdP's. Suppose you want your application to handle Single Sign-On -(SSO) via Kerberos or authentication based on X509 certificates -(i.e. PKI). Apache already has extensions to handle these which have -been field proven, it would be silly to try and support these in your -application. Apache also comes with other useful extensions such as -``mod_identity_lookup`` which can extract metadata about an -authenticated user from multiple sources such as LDAP, -Active Directory, NIS, etc. - -By fronting your application with Apache and allowing Apache to handle -the complex task of authentication, identity lookups etc. you've -greatly increased the features of your application while at the same -time reducing application development time along with increasing -application security and robustness. - -.. figure:: sssd_02.png - :align: center - - _`Figure 2.` - -When Apache fronts your application you will be passed the results of -authentication and identity lookups. Your application only needs a -simple mechanism to accept these values. There are a variety of ways -the values can be passed from Apache to your application which will be -discussed in later sections. - -Authentication & Identity Properties -==================================== - -Authentication is proving that a user is who they claim to be, in -other words after authentication the user has a proven identity. In -security parlance the authenticated entity is call a -principal. Principals may be humans, machines or -services. Authorization is distinct from authentication. Authorization -declares what actions an authenticated principal may perform. For -example, does a principal have permission to read a certain file, run -a specific command, etc. Identity metadata is typically bound to the -principal to provide extra information. Examples include the users -full name, their organization, the groups they are members of, etc. - -Apache can provide both authentication and identity metadata to an -application freeing the application of this task. Authorization -usually will remain the province of the application. A typical -design pattern is to assign roles to a principal based on identity -properties. As the application executes on behalf of a principal the -application will check if the principal has the necessary role needed -to perform the operation. - -Apache ships with a wide variety of authentication modules. After an -Apache authentication module successfully authenticates a principal, it -sets internal variables identifying the principal and the -authentication method used to authenticate the principal. These are -exported as the CGI variables REMOTE_USER and AUTH_TYPE respectively -(see `CGI Export Issues`_ for further information). - -Identity Properties -------------------- - -Most Apache authentication modules do not have access to any of the -identity properties bound to the authenticated principal. Those -identity properties must be provided by some other mechanism. Typical -mechanisms include lookups in LDAP, Active Directory, NIS, POSIX -passwd/gecos and SQL. Managing these lookups can be difficult -especially in a networked environment where services may be -temporarily unavailable and/or in a enterprise deployment where -identity sources must be multiplexed across a variety of services -according to enterprise wide policy. - -`SSSD`_ (System Security Services Daemon) is designed to alleviate many -of the problems surrounding authentication and identity property -lookup. SSSD can provide identity properties via D-Bus using it's -InfoPipe (IFP) feature. The `mod_identity_lookup`_ Apache module is -given the name of the authenticated principal and makes available -identity properties via Apache environment variables (see `Configure -SSSD IFP`_ for details). - -Exporting & Consuming Identity Metadata -======================================= - -The authenticated principal (REMOTE_USER), the mechanism used to -authenticate the principal (AUTH_TYPE) and identity properties -(supplied by SSSD IFP) are exported to the application which trusts -this metadata to be valid. - -How is this identity metadata exported from Apache and then be -consumed by a Java EE Servlet? - -The architectural design inside Apache tries to capitalize on the -existing CGI standard (`CGI RFC`_) as much as possible. CGI defines -these relevant environment variables: - - * REMOTE_USER - * AUTH_TYPE - * REMOTE_ADDR - * REMOTE_HOST - - -Transporting Identity Metadata from Apache to a Java EE Servlet -=============================================================== - -In following figure we can see that the user connects to Apache -instead of the servlet container. Apache authenticates the user, looks -up the principal's identity information and then proxies the request -to the servlet container. The additional identity metadata must be -included in the proxy request in order for the servlet to extract it. - -.. figure:: sssd_03.png - :align: center - - _`Figure 3.` - -The Java EE Servlet API is designed with the HTTP protocol in mind -however the servlet never directly accesses the HTTP protocol stream. -Instead it uses the servlet API to get access to HTTP request -data. The responsibility for HTTP communication rests with the -container's ``Connector`` objects. When the servlet API needs -information it works in conjunction with the ``Connector`` to supply -it. For example the ``HttpServletRequest.getRemoteHost()`` method -interrogates information the ``Connector`` placed on the internal -request object. Analogously ``HttpServletRequest.getRemoteUser()`` -interrogates information placed on the internal request object by an -authentication filter. - -But what happens when a HTTP request is proxied to a servlet container -by Apache and ``getRemoteHost()`` or ``getRemoteUser()`` is called? Most -``Connector`` objects do not understand the proxy scenario, to them -a request from a proxy looks just like a request sent directly to the -servlet container. Therefore ``getRemoteHost()`` or ``getRemoteUser()`` -ends up returning information relative to the proxy instead of the -user who connected to the proxy because it's the proxy who connected -to the servlet container and not the end user. There are 2 fundamental -approaches which allow the servlet API to return data supplied by the -proxy: - - 1. Proxy uses special protocol (e.g. AJP) to embed metadata. - 2. Metadata is embedded in an HTTP extension by the proxy (i.e. headers) - -Proxy With AJP Protocol ------------------------ - -The AJP_ protocol was designed as a protocol to exchange HTTP requests -and responses between Apache and a Java EE Servlet Container. One of -its design goals was to improve performance by translating common text -values appearing in HTTP requests to a more compact binary form. At -the same time AJP provided a mechanism to supply metadata about the -request to the servlet container. That metadata is encoded in an AJP -attribute (a name/value pair). The Apache AJP Proxy module looks up -information in the internal Apache request object (e.g. remote user, -remote address, etc.) and encodes that metadata in AJP attributes. On -the servlet container side a AJP ``Connector`` object is aware of these -metadata attributes, extracts them from the protocol and supplies -their values to the upper layers of the servlet API. Thus a call to -``HttpServletRequest.getRemoteUser()`` made by a servlet will receive -the value set by Apache prior to the proxy. This is the desired and -expected behavior. A servlet should be ignorant of the consequences of -proxies; the servlet API should behave the same regardless of the -presence of a proxy. - -The AJP protocol also has a general purpose attribute mechanism whereby -any arbitrary name/value pair can be passed. This proxy metadata can -be retrieved by a servlet by calling ``ServletRequest.getAttribute()`` -[1]_ When Apache mod_proxy_ajp is being used the authentication -metadata for the remote user and auth type are are automatically -inserted into the AJP protocol and the AJP ``Connector`` object on -the servlet receiving end supplies those values to -``HttpServletRequest.getRemoteHost()`` and -``HttpServletRequest.getRemoteUser()`` respectively. But the identity -metadata supplied by ``mod_identity_lookup`` needs to be explicitly -encoded into an AJP attribute (see `Configure SSSD IFP`_ for details) -that can later be retrieved by ``ServletRequest.getAttribute()``. - -Proxy With HTTP Protocol ------------------------- - -Although the AJP protocol offers a number of nice advantages sometimes -it's not an option. Not all servlet containers support AJP or there -may be some other deployment constraint that precludes its use. In this -case option 2 from above needs to be used. Option 2 requires only the -defined HTTP protocol be used without any "out of band" metadata. The -conventional way to attach extension metadata to a HTTP request is to -add extension HTTP headers. - -One problem with using extension HTTP headers to pass metadata to a -servlet is the expectation the servlet API will have the same -behavior. In other words the value returned by -``HttpServletRequest.getRemoteUser()`` should not depend on whether the -proxy request was exchanged with the AJP protocol or the HTTP -protocol. The solution to this is to wrap the ``HttpServletRequest`` -object in a servlet filter. The wrapper overrides certain request -methods (e.g. ``getRemoteUser()``). The override method looks to see if -the metadata is in the extension HTTP headers, if so it returns the -value found in the extension HTTP header otherwise it defers to the -existing servlet implementation. The ``ServletRequest.getAttribute()`` is -overridden in an analogous manner in the wrapper filter. Any call to -``ServletRequest.getAttribute()`` is first checked to see if the value -exists in the extension HTTP header first. - -Metadata supplied by Apache that is **not** part of the normal Java -EE Servlet API **always** appears to the servlet via the -``ServletRequest.getAttribute()`` method regardless of the proxy -transport mechanism. The consequence of this is a servlet -continues to utilize the existing Java EE Servlet API without concern -for intermediary proxies, *and* any other metadata supplied by a proxy -is *always* retrieved via ``ServletRequest.getAttribute()`` (see the -caveat about ``ServletRequest.getAttributeNames()`` [1]_). - -******************* -Configuration Guide -******************* - -Although Apache authentication and SSSD identity lookup can operate -with a variety of authentication mechanisms, IdP's and identity -metadata providers we will demonstrate a configuration example which -utilizes the FreeIPA_ IdP. FreeIPA excels at Kerberos SSO authentication, -Active Directory integration, LDAP based identity metadata storage and -lookup, DNS services, host based RBAC, SSH key management, certificate -management, friendly web based console, command line tools and many -other advanced IdP features. - -The following configuration steps will need to be performed: - -1. Install FreeIPA_ by following the installation guides in the FreeIPA_ - documentation area. When you install FreeIPA_ you will need to select a - realm (a.k.a domain) in which your users and hosts will exist. In - our example we will use the ``EXAMPLE.COM`` realm. - -2. Install and configure the Apache HTTP web server. The - recommendation is to install and run the Apache HTTP web server on - the same system the Java EE Container running AAA is installed on. - -3. Configure the proxy connector in the Java EE Container and set the - ``secureProxyPorts``. - -We will also illustrate the operation of the system by adding an -example user named ``testuser`` who will be a member of the -``odl_users`` and ``odl_admin`` groups. - -Add Example User and Groups to FreeIPA -====================================== - -After installing FreeIPA you will need to populate FreeIPA with your users, -groups and other data. Refer to the documentation in FreeIPA_ for the -variety of ways this task can be performed; it runs the gamut from web -based console to command line utilities. For simplicity we will use -the command line utilities. - -Identify yourself to FreeIPA as an administrator; this will give you the -necessary privileges needed to create and modify data in FreeIPA. You do -this by obtaining a Kerberos ticket for the ``admin`` user (or any -other user in FreeIPA with administrator privileges. - -:: - - % kinit admin@EXAMPLE.COM - -Create the example ``odl_users`` and `odl_admin`` groups. - -:: - - % ipa group-add odl_users --desc 'OpenDaylight Users' - % ipa group-add odl_admin --desc 'OpenDaylight Administrators' - -Create the example user ``testuser`` with the first name "Test" and a -last name of "User" and an email address of "test.user@example.com" - -:: - - % ipa user-add testuser --first Test --last User --email test.user@example.com - -Now add ``testuser`` to the ``odl_users`` and ``odl_admin`` groups. - -:: - - % ipa group-add-member odl_users --user testuser - % ipa group-add-member odl_admin --user testuser - -Configure Apache -================ - -A number of Apache configuration directives will need to be specified -to implement the Apache to application binding. Although these -configuration directives can be located in any number of different -Apache configuration files the most sensible approach is to co-locate -them in a single application configuration file. This greatly -simplifies the deployment of your application and isolates your -application configuration from other applications and services sharing -the Apache installation. In the examples that follow our application -will be named ``my_app`` and the Apache application configuration file -will be named ``my_app.conf`` which should be located in Apache's -``conf.d/`` directory. The web resource we are protecting and -supplying identity metadata for will be named ``my_resource``. - - -Configure Apache for Kerberos ------------------------------ - -When FreeIPA is deployed Kerberos is the preferred authentication mechanism -for Single Sign-On (SSO). FreeIPA also provides identity metadata via -Apache ``mod_identity_lookup``. To protect your ``my_resource`` resource -with Kerberos authentication identify your resource as requiring -Kerberos authentication in your ``my_app.conf`` Apache -configuration. For example: - -:: - - - AuthType Kerberos - AuthName "Kerberos Login" - KrbMethodNegotiate On - KrbMethodK5Passwd Off - KrbAuthRealms EXAMPLE.COM - Krb5KeyTab /etc/http.keytab - require valid-user - - -You will need to replace EXAMPLE.COM in the KrbAuthRealms declaration -with the Kerberos realm for your deployment. - - -Configure SSSD IFP ------------------- - -To use the Apache ``mod_identity_lookup`` module to supply identity -metadata you need to do the following in ``my_app.conf``: - -1. Enable the module - - :: - - LoadModule lookup_identity_module modules/mod_lookup_identity.so - -2. Apply the identity metadata lookup to specific URL's - (e.g. ``my_resource``) via an Apache location directive. In this - example we look up the "mail" attribute and assign it to the - REMOTE_USER_EMAIL environment variable. - - :: - - - LookupUserAttr mail REMOTE_USER_EMAIL - - -3. Export the environment variable via the desired proxy protocol, see - `Exporting Environment Variables to the Proxy`_ - -Exporting Environment Variables to the Proxy --------------------------------------------- - -First you need to decide which proxy protocol you're going to use, AJP -or HTTP and then determine the target address and port to proxy to. The -recommended configuration is to run both the Apache server and the -servlet container on the same host and to proxy requests over the -local loopback interface (see `Declaring the Connector Ports for -Authentication Proxies`_). In our examples we'll use port 8383. Thus -in ``my_app.conf`` add a proxy declaration. - -For HTTP Proxy - -:: - - ProxyPass / http://localhost:8383/ - ProxyPassReverse / http://localhost:8383/ - -For AJP Proxy - -:: - - ProxyPass / ajp://localhost:8383/ - ProxyPassReverse / ajp://localhost:8383/ - -AJP Exports -^^^^^^^^^^^ - -AJP automatically forwards REMOTE_USER and AUTH_TYPE making them -available to the ``HttpServletRequest`` API, thus you do not need to -explicitly forward these in the proxy configuration. However all other -``mod_identity_lookup`` metadata must be explicitly forwarded as an AJP -attribute. These AJP attributes become visible in the -``ServletRequest.getAttribute()`` method [1]_. - -The Apache ``mod_proxy_ajp`` module automatically sends any Apache -environment variable prefixed with "AJP\_" as an AJP attribute which -can be retrieved with ``ServletRequest.getAttribute()``. Therefore the -``mod_identity_lookup`` directives which specify the Apache environment -variable to set with the result of a lookup must be prefixed with -"AJP\_". Using the above example of looking up the principal's email -address we modify the environment variable to include the "AJP\_" -prefix. Thusly: - - :: - - - LookupUserAttr mail AJP_REMOTE_USER_EMAIL - - -The sequence of events is as follows: - - 1. When the URL matches "my_resource". - - 2. ``mod_identity_lookup`` retrieves the mail attribute for the - principal. - - 3. ``mod_identity_lookup`` assigns the value of the mail attribute - lookup to the AJP_REMOTE_USER_EMAIL Apache environment variable. - - 4. ``mod_proxy_ajp`` encodes AJP_REMOTE_USER_EMAIL environment - variable into an AJP attribute in the AJP protocol because the - environment variable is prefixed with "AJP\_". The name of the - attribute is stripped of it's "AJP\_" prefix thus the - AJP_REMOTE_USER_EMAIL environment variable is transferred as the - AJP attribute REMOTE_USER_EMAIL. - - 5. The request is forwarded (i.e. proxied) to servlet container - using the AJP protocol. - - 6. The servlet container's AJP ``Connector`` object is assigned each AJP - attribute to the set of attributes on the ``ServletRequest`` - attribute list. Thus a call to - ``ServletRequest.getAttribute("REMOTE_USER_EMAIL")`` yields the - value set by ``mod_identity_lookup``. - - -HTTP Exports -^^^^^^^^^^^^ - -When HTTP proxy is used there are no automatic or implicit metadata -transfers; every metadata attribute must be explicitly handled on both -ends of the proxy connection. All identity metadata attributes are -transferred as extension HTTP headers, by convention those headers are -prefixed with "X-SSSD-". - -Using the original example of looking up the principal's email -address we must now perform two independent actions: - - 1. Lookup the value via ``mod_identity_lookup`` and assign to an - Apache environment variable. - - 2. Export the environment variable in the request header with the - "X-SSSD-" prefix. - - :: - - - LookupUserAttr mail REMOTE_USER_EMAIL - RequestHeader set X-SSSD-REMOTE_USER_EMAIL %{REMOTE_USER_EMAIL}e - - -The sequence of events is as follows: - - 1. When the URL matches "my_resource". - - 2. ``mod_identity_lookup`` retrieves the mail attribute for the - principal. - - 3. ``mod_identity_lookup`` assigns the value of the mail attribute - lookup to the REMOTE_USER_EMAIL Apache environment variable. - - 4. Apache's RequestHeader directive executes just prior to the - request being forwarded (i.e. in the Apache fixup stage). It adds - the header X-SSSD-REMOTE_USER_EMAIL and assigns the value for - REMOTE_USER_EMAIL found in the set of environment variables. It - does this because the syntax %{XXX} is a variable reference for - the name XXX and the 'e' appended after the closing brace - indicates the lookup is to be performed in the set of environment - variables. - - 5. The request is forwarded (i.e. proxied) to the servlet container - using the HTTP protocol. - - 6. When ``ServletRequest.getAttribute()`` is called the ``SssdFilter`` - wrapper intercepts the ``getAttribute()`` method. It looks for an - HTTP header of the same name with "X-SSSD-" prefixed to it. In - this case ``getAttribute("REMOTE_USER_EMAIL")`` causes the lookup of - "X-SSSD-REMOTE_USER_EMAIL" in the HTTP headers, if found that - value is returned. - -AJP Proxy Example Configuration -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -If you are using AJP proxy to the Java EE Container on port 8383 your -``my_app.conf`` Apache configuration file will probably look like -this: - -:: - - - - ProxyPass / ajp://localhost:8383/ - ProxyPassReverse / ajp://localhost:8383/ - - LookupUserAttr mail AJP_REMOTE_USER_EMAIL " " - LookupUserAttr givenname AJP_REMOTE_USER_FIRSTNAME - LookupUserAttr sn AJP_REMOTE_USER_LASTNAME - LookupUserGroups AJP_REMOTE_USER_GROUPS ":" - - - -Note the specification of the colon separator for the -``LookupUserGroups`` operation. [3]_ - -HTTP Proxy Example Configuration -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -If you are using a conventional HTTP proxy to the Java EE Container on -port 8383 your ``my_app.conf`` Apache configuration file will probably -look like this: - -:: - - - - ProxyPass / http://localhost:8383/ - ProxyPassReverse / http://localhost:8383/ - - RequestHeader set X-SSSD-REMOTE_USER expr=%{REMOTE_USER} - RequestHeader set X-SSSD-AUTH_TYPE expr=%{AUTH_TYPE} - RequestHeader set X-SSSD-REMOTE_HOST expr=%{REMOTE_HOST} - RequestHeader set X-SSSD-REMOTE_ADDR expr=%{REMOTE_ADDR} - - LookupUserAttr mail REMOTE_USER_EMAIL - RequestHeader set X-SSSD-REMOTE_USER_EMAIL %{REMOTE_USER_EMAIL}e - - LookupUserAttr givenname REMOTE_USER_FIRSTNAME - RequestHeader set X-SSSD-REMOTE_USER_FIRSTNAME %{REMOTE_USER_FIRSTNAME}e - - LookupUserAttr sn REMOTE_USER_LASTNAME - RequestHeader set X-SSSD-REMOTE_USER_LASTNAME %{REMOTE_USER_LASTNAME}e - - LookupUserGroups REMOTE_USER_GROUPS ":" - RequestHeader set X-SSSD-REMOTE_USER_GROUPS %{REMOTE_USER_GROUPS}e - - - -Note the specification of the colon separator for the -``LookupUserGroups`` operation. [3]_ - - -Configure Java EE Container Proxy Connector -=========================================== - -The Java EE Container must be configured to listen for connections -from the Apache web server. A Java EE Container specifies connections -via a ``Connector`` object. A ``Connector`` **must** be dedicated -**exclusively** for handling authenticated requests from the Apache -web server. The reason for this is explained in `The Proxy -Problem`_. In addition ``ClaimAuthFilter`` needs to validate that any -request it processes originated from the trusted Apache instance. This -is accomplished by dedicating one or more ports exclusively for use by -the trusted Apache server and enumerating them in the -``secureProxyPorts`` configuration as explained in `Locking Down the -Apache to Java EE Container Channel`_ and `Declaring the Connector -Ports for Authentication Proxies`_. - -Configure Tomcat Proxy Connector --------------------------------- - -The Tomcat Java EE Container defines Connectors in its ``server.xml`` -configuration file. - -:: - - - - -:address: - This should be the loopback address as explained `Locking Down the - Apache to Java EE Container Channel`_. - -:port: - In our examples we've been using port 8383 as the proxy port. The - exact port is not important but it must be consistent with the - Apache proxy port, the ``Connector`` declaration, and the port value - in ``secureProxyPorts``. - -:protocol: - As explained in `Transporting Identity Metadata from Apache to a - Java EE Servlet`_ you will need to decide if you are using HTTP or - AJP as the proxy protocol. In the example above the protocol is set - for HTTP, if you use AJP instead the protocol should instead be - "AJP/1.3". - -:tomcatAuthentication: - This boolean flag tells Tomcat whether Tomcat should perform - authentication on the incoming requests or not. Since authentication - is performed by Apache we do not want Tomcat to perform - authentication therefore this flag must be set to false. - -The AAA system needs to know which port(s) the trusted Apache proxy -will be sending requests on so it can trust the request authentication -metadata. See `Declaring the Connector Ports for Authentication -Proxies`_ for more information). Set ``secureProxyPorts`` in the -FederationConfiguration. - -:: - - secureProxyPorts=8383 - - -Configure Jetty Proxy Connector -------------------------------- - -The Jetty Java EE Container defines Connectors in its ``jetty.xml`` -configuration file. - -:: - - - - - - 127.0.0.1 - 8383 - 300000 - 2 - false - 8445 - federationConn - 20000 - 5000 - - - - -:host: - This should be the loopback address as explained `Locking Down the - Apache to Java EE Container Channel`_. - -:port: - In our examples we've been using port 8383 as the proxy port. The - exact port is not important but it must be consistent with the - Apache proxy port, the ``Connector`` declaration, and the port value - in ``secureProxyPorts``. - - -Note, values in Jetty XML can also be parameterized so that they may -be passed from property files or set on the command line. Thus -typically the port is set within Jetty XML, but uses the Property -element to be customizable. Thus the above ``host`` and ``port`` -properties could be specificed this way: - -:: - - - - - - - - - -The AAA system needs to know which port(s) the trusted Apache proxy -will be sending requests on so it can trust the request authentication -metadata. See `Declaring the Connector Ports for Authentication -Proxies`_ for more information). Set ``secureProxyPorts`` in the -FederationConfiguration. - -************************************************ -How Apache Identity Metadata is Processed in AAA -************************************************ - -`Figure 2.`_ and `Figure 3.`_ illustrates the fact the first stage in -processing a request from a user begins with Apache where the user is -authenticated and SSSD supplies additional metadata about the -user. The original request along with the metadata are subsequently -forwarded by Apache to the Java EE Container. `Figure 4.`_ illustrates -the processing inside the Java EE Container once it receives the -request on one of its secure connectors. - - -.. figure:: sssd_04.png - :align: center - - _`Figure 4.` - -:Step 1: - One or more Connectors have been configured to listen for requests - being forwarded from a trusted Apache instance. The Connector is - configured to communicate using either the HTTP or AJP protocols. - See `Exporting Environment Variables to the Proxy`_ for more - information on selecting a proxy transport protocol. - -:Step 2: - The identity metadata bound to the request needs to be extracted - differently depending upon whether HTTP or AJP is the transport - protocol. To allow later stages in the pipeline to be ignorant of - the transport protocol semantics the ``SssdFilter`` servlet filter - is introduced. The ``SssdFilter`` wraps the ``HttpServletRequest`` - class and intercepts calls which might return the identity - metadata. The wrapper in the filter looks in protocol specific - locations for the metadata. In this manner users of the - ``HttpServletRequest`` are isolated from protocol differences. - - -:Step 3: - - The ``ClaimAuthFilter`` is responsible for determining if identity - metadata is bound to the request. If so all identity metadata is - packaged into an assertion which is then handed off to - ``SssdClaimAuth`` which will transform the identity metadata in the - assertion into a AAA Claim which is the authorizing token for the user. - -:Step 4: - The ``SssdClaimAuth`` object is responsible for transforming the - external federated identity metadata provided by Apache and SSSD into - a AAA claim. The AAA claim is an authorization token which includes - information about the user plus a set of roles. These roles provide the - authorization to perform AAA tasks. Although how roles are assigned is - flexible the expectation is domain and/or group membership will be the - primary criteria for role assignment. Because deciding how to handle - external federated identity metadata is site and deployment specific - we need a loadable policy mechanism. This is accomplished by a set of - transformation rules which transforms the incoming IdP identity - metadata into a AAA claim. For greater clarity this important step is - broken down into smaller units in the shaded box in `Figure 4.`_. - -:Step 4.1: - `The Mapping Rule Processor`_ is designed to accept a JSON object - (set of key/value pairs) as input and emit a different JSON object - as output effectively operating as a transformation engine on - key/value pairs. - -:Step 4.2: - The input assertion is rewritten as a JSON object in the format - required by the Mapping Rule Processor. The JSON assertion is then - passed into the Mapping Rule Processor. - -:Step 4.3: - `The Mapping Rule Processor`_ identified as ``IdPMapper`` evaluates - the input JSON assertion in the context of the mapping rules defined - for the site deployment. If ``IdPMapper`` is able to successfully - transform the input it will return a JSON object which we called the - *mapped* result. If the input JSON assertion is not compatible with - the site specific rules loaded into the ``IdPMapper`` then NULL is - returned by the ``IdPMapper``. - -:Step 4.4: - If a mapped JSON object is returned by the ``IdPMapper`` the mapping - was successful. The values in the mapped result are re-written into - an AAA Claim token. - -How Apache Identity Metadata is Mapped to AAA Values -==================================================== - -A federated IdP supplies metadata in a form unique to the IdP. This is -called an assertion. That assertion must be transformed into a format -and data understood by AAA. More importantly that assertion needs to -yield *authorization roles specific to AAA*. In `Figure 4.`_ Step 4.3 -the ``IdPMapper`` provides the transformation from an external IdP -assertion to an AAA specific claim. It does this via a Mapping Rule -Processor which reads a site specific set of transformation -rules. These mapping rules define how to transform an external IdP -assertion into a AAA claim. The mapping rules also are responsible for -validating the external IdP claim to make sure it is consistent with -the site specific requirements. The operation of the Mapping Rule -Processor and the syntax of the mapping rules are defined in `The -Mapping Rule Processor`_. - -Below is an example mapping rule which might be loaded into the -Mapping Rule Processor. It is assumed there are two AAA roles which -may be assigned [4]_: - -``user`` - A role granting standard permissions for normal ODL users. - -``admin`` - A special role granting full administrative permissions. - -In this example assigning the ``user`` and ``admin`` roles -will be based on group membership in the following groups: - -``odl_users`` - Members of this group are normal ODL users with restricted permissions. - -``odl_admin`` - Members of this group are ODL administrators with permission to - perform all operations. - -Granting of the ``user`` and/or ``admin`` roles based on -membership in the ``odl_users`` and ``odl_admin`` is illustrated in -the follow mapping rule example which also extracts the user principal -and domain information in the preferred format for the site -(e.g. usernames are lowercase without domain suffixes and the domain -is uppercase and supplied separately). - -_`Mapping Rule Example 1.` - -:: - - 1 [ - 2 {"mapping": {"ClientId": "$client_id", - 3 "UserId": "$user_id", - 4 "User": "$username", - 5 "Domain": "$domain", - 6 "roles": "$roles", - 7 }, - 8 "statement_blocks": [ - 9 [ - 10 ["set", "$groups", []], - 11 ["set", "$roles", []] - 12 ], - 13 [ - 14 ["in", "REMOTE_USER", "$assertion"], - 15 ["exit", "rule_fails", "if_not_success"], - 16 ["regexp", "$assertion[REMOTE_USER]", "(?\\w+)@(?.+)"], - 17 ["exit", "rule_fails", "if_not_success"], - 18 ["lower", "$username", "$regexp_map[username]"], - 19 ["upper", "$domain", "$regexp_map[domain]"], - 20 ], - 21 [ - 22 ["in", "REMOTE_USER_GROUPS", "$assertion"], - 23 ["exit", "rule_fails", "if_not_success"], - 24 ["split", "$groups", "$assertion[REMOTE_USER_GROUPS]", ":"], - 25 ], - 26 [ - 27 ["in", "odl_users", "$groups"], - 28 ["continue", "if_not_success"], - 29 ["append", "$roles", "user"], - 30 ], - 31 [ - 32 ["in", "odl_admin", "$groups"], - 33 ["continue", "if_not_success"], - 34 ["append", "$roles", "admin"] - 35 ], - 36 [ - 37 ["unique", "$roles", "$roles"], - 38 ["length", "$n_roles", "$roles"], - 39 ["compare", "$n_roles", ">", 0], - 40 ["exit", "rule_fails", "if_not_success"], - 41 ], - 42 ] - 43 } - 44 ] - -:Line 1: - Starts a list of rules. In this example only 1 rule is defined. Each - rule is a JSON object containing a ``mapping`` and a required list - of ``statement_blocks``. The ``mapping`` may either be specified - inside a rule as it is here or may be referenced by name in a table - of mappings (this is easier to manage if you have a large number of - rules and small number of mappings). - -:Lines 2-7: - Defines the JSON mapped result. Each key maps to AAA claim. The - value is a rule variable whose value will be substituted if the rule - succeeds. Thus for example the AAA claim value ``User`` will be - assigned the value from the ``$username`` rule variable. -:Line 8: - Begins the list of statement blocks. A statement must be contained - inside a block. -:Lines 9-12: - The first block usually initializes variables that will be - referenced later. Here we initialize ``$groups`` and ``$roles`` to - empty arrays. These arrays may be appended to in later blocks and - may be referenced in the final ``mapping`` output. -:Lines 13-20: - This block sets the user and domain information based on - ``REMOTE_USER`` and exits the rule if ``REMOTE_USER`` is not defined. -:Lines 14-15: - This test is critical, it assures ``REMOTE_USER`` is defined in the - assertion, if not the rule is skipped because we depend on - ``REMOTE_USER``. -:Lines 16-17: - Performs a regular expression match against ``REMOTE_USER`` to split - the username from the domain. The regular expression uses named - groups, in this instance ``username`` and ``domain``. If the regular - expression does not match the rule is skipped. -:Lines 18-19: - These lines reference the previous result of the regular expression - match which are stored in the special variable ``$regexp_map``. The - username is converted to lower case and stored in ``$username`` and - the domain is converted to upper case and stored in ``$domain``. The - choice of case is purely by convention and site requirements. -:Lines 21-35: - These 3 blocks assign roles based on group membership. -:Lines 21-25: - Assures ``REMOTE_USER_GROUPS`` is defined in the assertion; if not, the - rule is skipped. ``REMOTE_USER_GROUPS`` is colon separated list of group - names. In order to operate on the individual group names appearing - in ``REMOTE_USER_GROUPS`` line 24 splits the string on the colon - separator and stores the result in the ``$groups`` array. -:Lines 27-30: - This block assigns the ``user`` role if the user is a member of the - ``odl_users`` group. -:Lines 31-35: - This block assigns the ``admin`` role if the user is a - member of the ``odl_admin`` group. -:Lines 36-41: - This block performs final clean up actions for the rule. First it - assures there are no duplicates in the ``$roles`` array by calling - the ``unique`` function. Then it gets a count of how many items are - in the ``$roles`` array and tests to see if it's empty. If there are - no roles assigned the rule is skipped. -:Line 43: - This is the end of the rule. If we reach the end of the rule it - succeeds. When a rule succeeds the mapping associated with the rule - is looked up. Any rule variable appearing in the mapping is - substituted with its value. - -Using the rules in `Mapping Rule Example 1.`_ and following example assertion -in JSON format: - -_`Assertion Example 1.` - -:: - - { - "REMOTE_USER": "TestUser@example.com", - "REMOTE_AUTH_TYPE": "Negotiate", - "REMOTE_USER_GROUPS": "odl_users:odl_admin", - "REMOTE_USER_EMAIL": "test.user@example.com", - "REMOTE_USER_FIRSTNAME": "Test", - "REMOTE_USER_LASTNAME": "User" - } - -Then the mapper will return the following mapped JSON document. This -is the ``mapping`` defined on line 2 of `Mapping Rule Example 1.`_ with the -variables substituted after the rule successfully executed. Note any -valid JSON data type can be returned, in this example the ``null`` -value is returned for ``ClientId`` and ``UserId``, normal strings for -``User`` and ``Domain`` and an array of strings for the ``roles`` value. - -_`Mapped Result Example 1.` - -:: - - { - "ClientId": null, - "UserId": null, - "User": "testuser", - "Domain": "EXAMPLE.COM", - "roles": ["user", "admin"] - } - - -************************** -The Mapping Rule Processor -************************** - -The Mapping Rule Processor is designed to be as flexible and generic -as possible. It accepts a JSON object as input and returns a JSON -object as output. JSON was chosen because virtually all data can be -represented in JSON, JSON has extensive support and JSON is human -readable. The rules loaded into the Mapping Rule Processor are also -expressed in JSON. One advantage of this is it makes it easy for a -site administrator to define hardcoded values which are always -returned and/or static tables of white and black listed users or users -who are always mapped into certain roles. - -.. include:: mapping.rst - -*********************** -Security Considerations -*********************** - -Attack Vectors -============== - -A Java EE Container fronted by Apache has by definition 2 major -components: - -* Apache -* Java EE Container - -Each of these needs to be secure in its own right. There is extensive -documentation on securing each of these components and the reader is -encouraged to review this material. For the purpose of this discussion -we are most interested in how Apache and the Java EE -Container cooperate to form an integrated security system. Because -Apache is performing authentication on behalf of the Java EE Container, -it views Apache as a trusted partner. Our primary concern is the -communication channel between Apache and the Java EE Container. We -must assure the Java EE Container knows who it's trusted partner is -and that it only accepts security sensitive data from that partner, -this can best be described as `The Proxy Problem`_. - -Forged REMOTE_USER ------------------- - -HTTP request handling is often implemented as a processing pipeline -where individual handlers are passed the request, they may then attach -additional metadata to the request or transform it in some manner -before handing it off to the next stage in the pipeline. A request -handler may also short circuit the request processing pipeline and -cause a response to be generated. Authentication is typically -implemented an as early stage request handler. If a request gets past -an authentication handler later stage handlers can safely assume the -request belongs to an authenticated user. Authorization metadata may -also have been attached to the request. Later stage handlers use the -authentication/authorization metadata to make decisions as to whether -the operations in the request can be satisfied. - -When a request is fielded by a traditional web server with CGI (Common -Gateway Interface, RFC 3875) the request metadata is passed via CGI -meta-variables. CGI meta-variables are often implemented as environment -variables, but in practical terms CGI metadata is really just a set of -name/value pairs a later stage (i.e. CGI script, servlet, etc.) can -reference to learn information about the request. - -The CGI meta-variables REMOTE_USER and AUTH_TYPE relate to -authentication. REMOTE_USER is the identity of the authenticated user -and AUTH_TYPE is the authentication mechanism that was used to -authenticate the user. - -**If a later stage request handler sees REMOTE_USER and AUTH_TYPE as -non-null values it assumes the user is fully authenticated! Therefore -is it essential REMOTE_USER and AUTH_TYPE can only enter the request -pipeline via a trusted source.** - -The Proxy Problem -================= - -In a traditional monolithic web server the CGI meta-variables are -created and managed by the web server, which then passes them to CGI -scripts and executables in a very controlled environment where they -execute in the context of the web server. Forgery of CGI -meta-variables is generally not possible unless the web server has -been compromised in some fashion. - -However in our configuration the Apache web server acts as an identity -processor, which then forwards (i.e. proxies) the request to the Java -EE container (i.e Tomcat, Jetty, etc.). One could think of the Java -EE container as just another CGI script which receives CGI -meta-variables provided by the Apache web server. Where this analogy -breaks down is how Apache invokes the CGI script. Instead of forking a -child process where the child's environment and input/output pipes are -carefully controlled by Apache the request along with its additional -metadata is forwarded over a transport (typically TCP/IP) to another -process, the proxy, which listens on socket. - -The proxy (in this case the Java EE container) reads the request and -the attached metadata and acts upon it. If the request read by the -proxy contains the REMOTE_USER and AUTH_TYPE CGI meta-variables the -proxy will consider the request **fully authenticated!**. Therefore -when the Java EE container is configured as a proxy it is -**essential** it only reads requests from a **trusted** Apache web -server. If any other client aside from the trusted Apache web server -is permitted to connect to the Java EE container that client could -present forged REMOTE_USER and AUTH_TYPE meta-variables, which would be -automatically accepted as valid thus opening a huge security hole. - - -Possible Approaches to Lock Down a Proxy Channel -================================================ - -Tomcat Valves -------------- - -You can use a `Tomcat Remote Address Valve`_ valve to filter by IP or -hostname to only allow a subset of machines to connect. This can be -configured at the Engine, Host, or Context level in the -conf/server.xml by adding something like the following: - -:: - - - - - -The problem with valves is they are a Tomcat only concept, the -``RemoteAddrValve`` only checks addresses, not port numbers (although -it should be easy to add port checking) and they don't offer anything -better than what is described in `Locking Down the Apache to Java EE -Container Channel`_, which is not container specific. Servlet filters -are always available regardless of the container the servlet is -running in. A filter can check both the address and port number and -refuse to operate on the request if the address and port are not known to -be a trusted authentication proxy. Also note that if the Java EE -Container is configured to accept connections other than from the -trusted HTTP proxy server (a very likely scenario) then filtering at -the connector level is not sufficient because a servlet which trusts -``REMOTE_USER`` must be assured the request arrived only on a -trusted HTTP proxy server connection, not one of the other possible -connections. - -SSL/TLS with client auth ------------------------- - -SSL with client authentication is the ultimate way to lock down a HTTP -Server to Java EE Container proxy connection. SSL with client -authentication provides authenticity, integrity, and -confidentiality. However those desirable attributes come at a -performance cost which may be excessive. Unless a persistent TCP -connection is established between the HTTP server and the Java EE -Container a SSL handshake will need to occur on each request being -proxied, SSL handshakes are expensive. Given that the HTTP server and -the Java EE Container will likely be deployed on the same compute node -(or at a minimum on a secure subnet) the advantage of SSL for proxy -connections may not be warranted because other options are available -for these configuration scenarios; see `Locking Down the Apache to Java EE -Container Channel`_. Also note that if the Java EE -Container is configured to accept connections other than from the -trusted HTTP proxy server (a very likely scenario), then filtering at -the connector level is not sufficient because a servlet which trusts -``REMOTE_USER`` must be assured that the request arrived only on a -trusted HTTP proxy server connection, not one of the other possible -connections. - - -Java Security Manager Permissions ---------------------------------- - -The Java Security Manager allows you define permissions which are -checked at run time before code executes. -``java.net.SocketPermission`` and ``java.net.NetPermission`` would -appear to offer solutions for restricting which host and port a -request containing ``REMOTE_USER`` will be trusted. However security -permissions are applied *after* a request is accepted by a -connector. They are also more geared towards what connections code can -subsequently utilize as opposed to what connection a request was -presented on. Therefore security manager permissions seem to offer little -value for our purpose. One can simply test to see which host sent the -proxy request and on what port it arrived on by looking at the -connection information in the request. Restricting which proxies can -submit trusted requests is better handled at the level of the -connector, which unfortunately is a container implementation -issue. Tomcat and Jetty have different ways of handling connector -specifications. - -AJP requiredSecret ------------------- - -The AJP protocol includes an attribute called ``requiredSecret``, which -can be used to secure the connection between AJP endpoints. When an -HTTP server sends an AJP proxy request to a Java EE Container it -embeds in the protocol transmission a string (``requiredSecret``) -known only to the HTTP server and the Java EE Container. The AJP -connector on the Java EE Container is configured with the -``requiredSecret`` value and will reject as unauthorized any AJP -requests whose ``requiredSecret`` does not match. - -There are two problems with `requiredSecret``. First of all it's not -particularly secure. In fact, it's fundamentally no different than -sending a cleartext password. If the AJP request is not encrypted it -means the ``requiredSecret`` will be sent in the clear which is -probably one of the most egregious security mistakes. If the AJP -request is transmitted in a manner where the traffic can be sniffed, it -would be trivial to recover the ``requiredSecret`` and forge a request -with it. On the other hand encrypting the communication channel -between the HTTP server and the Java EE Container means using SSL -which is fairly heavyweight. But more to the point, if one is using -SSL to encrypt the channel there is a *far better* mechanism to ensure -the HTTP server is who it claims to be than embedding -``requiredSecret``. If one is using SSL you might as well use SSL -client authentication where the HTTP identifies itself via a client -certificate. SSL client authentication is a very robust authentication -mechanism. But doing SSL client authentication, or for that matter -just SSL encryption, for *every* AJP protocol request is prohibitively -expensive from a performance standpoint. - -The second problem with ``requiredSecret`` is that despite being documented -in a number of places it's not actually implemented in Apache -``mod_proxy_ajp``. This is detailed in `bug 53098`_. You can set -``requiredSecret`` in the ``mod_proxy_ajp`` configuration, but it won't -be included in the wire protocol. There is a patch to implement -``requiredSecret`` but, it hasn't made it into any shipping version of -Apache yet. But even if ``requiredSecret`` was implemented it's not -useful. Also one could construct the equivalent of ``requiredSecret`` -from other AJP attributes and/or an HTTP extension header but those -would suffer from the same security issues ``requiredSecret`` has, -therefore it's mostly pointless. - -Java EE Container Issues -======================== - -Jetty Issues ------------- - -Jetty is a Java EE Container which can be used -as alternative to Tomcat. Jetty is an Eclipse project. Recent versions -of Jetty have dropped support for AJP; this is described in the -`Jetty AJP Configuration Guide`_ which states: - - Configuring AJP13 Using mod_jk or mod_proxy_ajp. Support for this - feature has been dropped with Jetty 9. If you feel this should be - brought back please file a bug. - -Eclipse `Bug 387928`_ *Retire jetty-ajp* was opened to track the -removal of AJP in Jetty and is now closed. - -Tomcat Issues -------------- - -You should refer the `Tomcat Security How-To`_ for a full discussion -of Tomcat security issues. - -The tomcatAuthentication attribute is used with the AJP connectors to -determine if Tomcat should authenticate the user or if authentication -can be delegated to the reverse proxy that will then pass the -authenticated username to Tomcat as part of the AJP protocol. - -The requiredSecret attribute in AJP connectors configures a shared -secret between Tomcat and the reverse proxy in front of Tomcat. It is used -to prevent unauthorized connections over AJP protocol. - -Locking Down the Apache to Java EE Container Channel -==================================================== - -The recommended approach to lock down the proxy channel is: - - * Run both Apache and the servlet container on the same host. - - * Configure Apache to forward the proxy request on the loopback - interface (e.g. 127.0.0.1 also known as ``localhost``). This - prohibits any external IP address from connecting, only processes - running on the locked down host can communicate over - ``localhost``. - - * Reserve one or more ports for communication **exclusively** for - proxy communication between Apache and the servlet container. The - servlet container may listen on other ports for non-critical - non-authenticated requests. - - * The ``ClaimAuthFilter`` that reads the identity metadata **must** - assure that requests have arrived only on a **trusted port**. To - achieve this the ``FederationConfiguration`` defines the - ``secureProxyPorts`` configuration option. ``secureProxyPorts`` is - a space delimited list of ports which during deployment the - administrator has configured such that they are **exclusively** - dedicated for use by the Apache server(s) providing authentication - and identity information. These ports are set in the servlet - container's ``Connector`` declarations. See `Declaring the - Connector Ports for Authentication Proxies`_ for more - information). - - * When the ``ClaimAuthFilter`` receives a request, the first thing - it does is check the ``ServletRequest.getLocalPort()`` value and - verifies it is a member of the ``secureProxyPorts`` configuration - option. If the port is a member of ``secureProxyPorts``, it will - trust every identity assertion found in the request. If the local - port is not a member of ``secureProxyPorts``, a HTTP 401 - (unauthorized) error status will be returned for the request. A - warning message will be logged the first time this occurs. - - -Declaring the Connector Ports for Authentication Proxies --------------------------------------------------------- - -As described in `The Proxy Problem`_ the AAA authentication system -**must** confirm the request it is processing originated from a *trusted -HTTP proxy server*. This is accomplished with port isolation. - -The administrator deploying a federated AAA solution with SSSD -identity lookups must declare in the AAA federation configuration -which ports the proxy requests from the trusted HTTP server will -arrive on by setting the ``secureProxyPorts`` configuration -item. These ports **must** only be used for the trusted HTTP proxy -server. The AAA federation software will not perform authentication -for any request arriving on a port other than those listed in -``secureProxyPorts``. - -.. figure:: sssd_05.png - :align: center - - _`Figure 5.` - -``secureProxyPorts`` configuration option is set either in the -``federation.cfg`` file or in the -``org.opendaylight.aaa.federation.secureProxyPorts`` bundle -configuration. ``secureProxyPorts`` is a space-delimited list of port -numbers on which a trusted HTTP proxy performing authentication -forwards pre-authenticated requests. For example: - -:: - - secureProxyPorts=8383 - -Means a request which arrived on port 8383 is from a trusted HTTP -proxy server and the value of ``REMOTE_USER`` and other authentication -metadata in request can be trusted. - -######## -Appendix -######## - -***************** -CGI Export Issues -***************** - -Apache processes requests as a series of steps in a pipeline -fashion. The ordering of these steps is important. Core Apache is -fairly minimal, most of Apache's features are supplied by loadable -modules. When a module is loaded it registers a set of *hooks* -(function pointers) which are to be run at specific stages in the -Apache request processing pipeline. Thus a module can execute code at -any of a number of stages in the request pipeline. - -The user metadata supplied by Apache is initialized in two distinct -parts of Apache. - - 1. an authentication module (e.g. mod_auth_kerb) - 2. the ``mod_lookup_identity`` module. - -After successful authentication the authentication module will set the -name of the user principal and the mechanism used for authentication -in the request structure. - - * ``request->user`` - * ``request->ap_auth_type`` - -Authentication hooks run early in the request pipeline for the obvious -reason a request should not be processed if not authenticated. The -specific authentication module that runs is defined by ``Location`` -directive in the Apache configuration which binds specific -authentication to specific URL's. The ``mod_lookup_identity`` module -must run *after* authentication module runs because it depends on -knowing who the authenticated principal is so it can lookup the data -on that principal. - -When reading ``mod_lookup_identity`` documentation one often sees -references to the ``REMOTE_USER`` CGI environment variable with the -implication ``REMOTE_USER`` is how one accesses the name of the -authenticated principal. This is a bit misleading, ``REMOTE_USER`` is -a CGI environment variable. CGI environment variables are only set by -Apache when it believes the request is going to be processed by a CGI -implementation. In this case ``REMOTE_USER`` is initialized from the -``request->user`` value. - -How is the authenticated principal actually forwarded to our proxy? -=================================================================== - -If we are using the AJP proxy protocol the ``mod_proxy_ajp`` module -when preparing the proxy request will read the value of -``request->user`` and insert it into the ``SC_A_REMOTE_USER`` AJP -attribute. On the receiving end ``SC_A_REMOTE_USER`` will be extracted -from the AJP request and used to populate the value returned -by``HttpServletRequest.getRemoteUser()``. The exchange of the -authenticated principal when using AJP is transparent to both the -sender and receiver, nothing special needs to be done. See -`Transporting Identity Metadata from Apache to a Java EE Servlet`_ -for details on how metadata can be exchanged with the proxy. - -However, if AJP is not being used to proxy the request the -authenticated principal must be passed through some other mechanism, -an HTTP extension header is the obvious solution. The Apache -``mod_headers`` module can be used to add HTTP request headers to the -proxy request, for example: - -:: - - RequestHeader set MY_HEADER MY_VALUE - -Where does the value MY_VALUE come from? It can be hardcoded into the -``RequestHeader`` statement or it can reference an existing -environment variable like this: - -:: - - RequestHeader set MY_HEADER %{FOOBAR}e - -where the notation ``%{FOOBAR}e`` is the contents of the environment -variable FOOBAR. Thus we might expect we could do this: - -:: - - RequestHeader set REMOTE_USER %{REMOTE_USER}e - -The conundrum is the presumption the ``REMOTE_USER`` environment -variable has already been set at the time ``mod_headers`` executes the -``RequestHeader`` statement. Unfortunately this often is not the -case. - -The Apache environment variables ``REMOTE_USER`` and ``AUTH_TYPE`` are -set by the Apache function ``ap_add_common_vars()`` defined in -server/util_script.c. ``ap_add_common_vars()`` and is called by the -following modules: - - * mod_authnz_fcgi - * mod_proxy_fcgi - * mod_proxy_scgi - * mod_isapi - * mod_ext_filter - * mod_include - * mod_cgi - * mod_cgid - -Apache variables -================ - -Apache modules provide access to variables which can be referenced by -configuration directives. Unfortunately there isn't a lot of -uniformity to what the variables are and how they're referenced; it -mostly depends on how a given Apache module was implemented. As you -might imagine a bit of inconsistent historical cruft has accumulated -over the years, it can be confusing. The Apache Foundation is trying -to clean some of this up bringing uniformity to modules by utilizing -the common ``expr`` (expression) module `ap_expr`_. The idea being modules will -forgo their home grown expression syntax with its numerous quirks and -instead expose the common ``expr`` language. However this is a work in -progress and at the time of this writing only a few modules have acquired -``expr`` expression support. - -Among the existing Apache modules there currently are three different -sets of variables. - - 1. Server variables. - 2. Environment variables. - 3. SSL variables. - -Server variables (item 1) are names given to internal values. The set -of names for server variables and what they map to are defined by the -module implementing the server variable lookup. For example -``mod_rewrite`` has its own variable lookup implementation. - -Environment variables (item 2) are variables *exported* to a -subprocess. Internally they are stored in -``request->subprocess_env``. The most common use of environment -variables exported to a subprocess are the CGI variables. - -SSL variables are connection specific values describing the SSL -connection. The lookup is implemented by ``ssl_var_lookup()``, which -given a variable name looks in a variety of internal data structures to -find the matching value. - -The important thing to remember is **server variables != environment -variables**. This can be confusing because they often share the same -name. For example, there is the server variable ``REMOTE_USER`` and -there is the environment variable ``REMOTE_USER``. The environment -variable ``REMOTE_USER`` only exists if some module has called -``ap_add_common_vars()``. To complicate matters, some modules allow you -to access *server variables*, other modules allow you to access -*environment variables* and some modules provide access to both -*server variables* and *environment variables*. - -Coming back to our goal of setting an HTTP extension header to the -value of ``REMOTE_USER``, we observe that ``mod_headers`` provides the -needed ``RequestHeader`` operation to set a HTTP header in the -request. Looking at the documentation for ``RequestHeader`` we see a -value can be specified with one of the following lookups: - -%{VARNAME}e - The contents of the environment variable VARNAME. - -%{VARNAME}s - The contents of the SSL environment variable VARNAME, if mod_ssl is enabled. - -But wait! This only gives us access to *environment variables* and the -``REMOTE_USER`` environment variable is only set if -``ap_add_common_vars()`` is called by a module **after** an -authentication module runs! ``ap_add_common_vars()`` is usually only -invoked if the request is going to be passed to a CGI script. But -we're not doing CGI; instead we're proxying the request. The -likelihood the ``REMOTE_USER`` environment variable will be set is -quite low. See `Setting the REMOTE_USER environment variable`_. - -``mod_headers`` is the only way to set a HTTP extension header and -``mod_headers`` only gives you access to environment variables and the -``REMOTE_USER`` environment variable is not set. Therefore if we're -not using AJP and must depend on setting a HTTP extension header for -``REMOTE_USER``, we have a **serious problem**. - -But there is a solution; you can either try the machinations described -in `Setting the REMOTE_USER environment variable`_ or assure you're -running at least Apache version 2.4.10. In Apache 2.4.10 the -``mod_headers`` module added support for `ap_expr`_. `ap_expr`_ -provides access to *server variables* by using the ``%{VARIABLE}`` -notation. `ap_expr`_ also can lookup subprocess environment variables -and operating system environment variables using its ``reqenv()`` and -``osenv()`` functions respectively. - -Thus the simple solution for exporting the ``REMOTE_USER`` HTTP -extension header if you're running Apache 2.4.10 or later is: - -:: - - RequestHeader set X-SSSD-REMOTE_USER expr=%{REMOTE_USER} - -The ``expr=%{REMOTE_USER}`` in the above statement says pass -``%{REMOTE_USER}`` as an expression to `ap_expr`_, evaluate the -expression and return the value. In this case the expression -``%{REMOTE_USER}`` is very simple, just the value of the server -variables ``REMOTE_USER``. Because ``RequestHeader`` runs after -authentication ``request->user`` will have been set. - -Setting the REMOTE_USER environment variable -============================================ - -If you do a web search on how to export ``REMOTE_USER`` in a HTTP -extension header for a proxy you will discover this is a common -problem that has frustrated a lot of people [2]_. The usual advice seems to -be to use ``mod_rewrite`` with a look-ahead. In fact this is even -documented in the `mod_rewrite documentation for REMOTE_USER`_ which says: - - %{LA-U:variable} can be used for look-aheads which perform an - internal (URL-based) sub-request to determine the final value of - variable. This can be used to access variable for rewriting which is - not available at the current stage, but will be set in a later - phase. - - For instance, to rewrite according to the REMOTE_USER variable from - within the per-server context (httpd.conf file) you must use - %{LA-U:REMOTE_USER} - this variable is set by the authorization - phases, which come after the URL translation phase (during which - mod_rewrite operates). - -One suggested solution is this: - -:: - - RewriteCond %{LA-U:REMOTE_USER} (.+) - RewriteRule .* - [E=RU:%1] - RequestHeader set X_REMOTE_USER %{RU}e - -1. The RewriteCond with the %{LA-U:} construct performs an internal - redirect to obtain the value of ``REMOTE_USER`` *server variable*, - if that value is non-empty because the (.+) regular expression - matched the rewrite condition succeeds and the following - RewriteRule executes. - -2. The RewriteRule executes, the first parameter is a pattern, the - second parameter is the replacement which can be followed by - optional flags inside brackets. The .* pattern is a regular - expression that matches anything, the - replacement is a special - value which indicates no replacement is to be performed. In other - words the pattern and replacement are no-ops and the RewriteRule is - just being used for it's side effect defined in the flags. The - E=NAME:VALUE notation says set the NAME environment variable to - VALUE. In this case the environment variable is RU and the value is - %1. The documentation for RewriteRule tells us that %N are - back-references to the last matched RewriteCond pattern, in this - case it's the value of ``REMOTE_USER``. - -3. Finally ``RequestHeader`` sets the request header - ``X_REMOTE_USER`` to the value of the ``RU`` environment variable. - -Another suggested solution is this: - -:: - - RewriteRule .* - [E=REMOTE_USER:%{LA-U:REMOTE_USER}] - -The Problem with mod_rewrite lookahead --------------------------------------- - -I **do not recommend** using mod_rewrite's lookahead to gain access to -authentication data values. Although the above suggestions will work -to get access to ``REMOTE_USER`` it is *extremely inefficient* because -it causes Apache to reprocess the request with an internal -redirect. The documentation suggests a lookahead reference will cause -one internal redirect. However from examining Apache debug logs the -``mod_rewite`` lookahead caused ``mod_lookup_identity`` to be invoked -**11 times** while handling one request. If the ``mod_rewrite`` -lookahead is removed and another technique is used to get access to -``REMOTE_USER`` then ``mod_lookup_identity`` is invoked exactly once -as expected. - -But it's not just ``REMOTE_USER`` which we need access to, we also need -to reference ``AUTH_TYPE`` which has the identical issues associated -with ``REMOTE_USER``. If an equivalent ``mod_rewrite`` block is added -to the configuration for ``AUTH_TYPE`` so that both ``REMOTE_USER`` -and ``auth_type`` are resolved using a lookahead Apache appears to go -into an infinite loop and the request stalls. - -I tried to debug what was occurring when Apache was configured this way -and why it seemed to be executing the same code over and over but I -was not able to figure it out. My conclusion is **using mod_rewrite -lookahead's is not a viable solution!** Other web posts also make -reference to the inefficiency but they seem to be unaware of just how -bad it is. - -.. [1] - Tomcat has a bug/feature, not all attributes are enumerated by - getAttributeNames() therefore getAttributeNames() cannot be used to - obtain the full set of attributes. However if you know the name of - the attribute a priori you can call getAttribute() and obtain the - value. Therefore we maintain a list of attribute names - (httpAttributes) which will be used to call getAttribute() with so we - don't miss essential attributes. - - This is the Tomcat bug, note it is marked WONTFIX. Bug 25363 - - request.getAttributeNames() not working properly Status: RESOLVED - WONTFIX https://issues.apache.org/bugzilla/show_bug.cgi?id=25363 - - The solution adopted by Tomcat is to document the behavior in the - "The Apache Tomcat Connector - Reference Guide" under the JkEnvVar - property where is says: - - You can retrieve the variables on Tomcat as request attributes via - request.getAttribute(attributeName). Note that the variables send via - JkEnvVar will not be listed in request.getAttributeNames(). - -.. [2] - Some examples of posts concerning the export of ``REMOTE_USER`` include: - http://www.jaddog.org/2010/03/22/how-to-proxy-pass-remote_user/ and - http://serverfault.com/questions/23273/apache-proxy-passing-on-remote-user-to-backend-server/ - -.. [3] - The ``mod_lookup_identity`` ``LookupUserGroups`` option accepts an - optional parameter to specify the separator used to separate group - names. By convention this is normally the colon (:) character. In - our examples we explicitly specify the colon separator because the - mapping rules split the value found in ``REMOTE_USER_GROUPS`` on - the colon character. - -.. [4] - The example of using the `The Mapping Rule Processor`_ to establish - the set of roles assigned to a user based on group membership is - for illustrative purposes in order to show features of the - federated IdP and mapping mechanism. Role assignment in AAA may be - done in other ways. For example an unscoped token without roles can - be used to acquire a scoped token with roles by presenting it to - the appropriate REST API endpoint. In actual deployments this may - be preferable because it places the responsibility of deciding who - has what role/permission on what part of the controller/network - resources more in the hands of the SDN controller administrator - than the IdP administrator. - -.. _FreeIPA: http://www.freeipa.org/ - -.. _SSSD: https://fedorahosted.org/sssd/ - -.. _mod_identity_lookup: http://www.adelton.com/apache/mod_lookup_identity/ - -.. _AJP: http://tomcat.apache.org/connectors-doc/ajp/ajpv13a.html - -.. _Tomcat Security How-To: http://tomcat.apache.org/tomcat-7.0-doc/security-howto.html - -.. _The Apache Tomcat Connector - Generic HowTo: http://tomcat.apache.org/connectors-doc/generic_howto/printer/proxy.html - -.. _CGI RFC: http://www.ietf.org/rfc/rfc3875 - -.. _ap_expr: http://httpd.apache.org/docs/current/expr.html - -.. _mod_rewrite documentation for REMOTE_USER: http://httpd.apache.org/docs/current/mod/mod_rewrite.html#rewritecond - -.. _bug 53098: https://issues.apache.org/bugzilla/show_bug.cgi?id=53098 - -.. _Jetty AJP Configuration Guide: http://wiki.eclipse.org/Jetty/Howto/Configure_AJP13 - -.. _Bug 387928: https://bugs.eclipse.org/bugs/show_bug.cgi?id=387928 - -.. _Tomcat Remote Address Valve: http://tomcat.apache.org/tomcat-7.0-doc/config/valve.html#Remote_Address_Filter -- cgit 1.2.3-korg