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Users' connection to Wedia is based on the following modules configurable using administration interfaces.
There are currently three modules available:

  • Traditional connection via an object containing a user/password.

  • Direct LDAP connection

  • LDAP connection in two passes

A fourth module is available as an option and allows you to log in against a user directory managed by Google Apps.

These different modules are explained in more detail in other articles in the this chapter.

It is also possible in each module to specify another module to use if the first one fails. This makes it possible to link different authentication methods in the event of an LDAP server unavailability or simply to multiply the authentication sources.

It is important to note that whatever authentication method you choose, it is always necessary to have an object in the base representing a user even if authentication is done using an external mechanism.

This object is called: the pivot object in the documentation of the modules of the external connection. This pivot object must always have shared ownership and the same value as a user attribute in the external system.
Without this prerequisite, authentication in Wedia CrossMedia will never succeed.

Once the different authentication domains have been configured, it is sufficient to activate the authentication system and specify the domain to be used in the Wedia CrossMedia basic settings page as a default, like illustrated below.

Connection via internal user object

This connection is the traditional method of authentication. It consists of to authenticate a user using a database object via a couple login/password.

This connection module requires only one parameter: the object name for Wedia CrossMedia to use. By default the user object is used.

The Wedia CrossMedia object used for authenfication must have a login property and password property.

Passwords are stored in hashe (SHA) and salty (salt common to the server), and it is therefore not possible to return your password to a user, but only to ask him to create a new one.

Validation of passwords

When using the system’s standard authentication system (based on the WEDIA/NOHETO identification engine and therefore incompatible with LDAP systems or other external authentication systems) it is possible to set the following options place rules for password validation.

These rules make it possible to define, for example, the minimum number of characters that must have passwords in the application, the number of digits, uppercase or lowercase characters or punctuation characters they use must contain.

Access to the rules engine is located in the section Server Configuration > Administration > Authentication Services of the the application (/admin).

  1. Go to the admin part of the application in the Configuration section of the server > Authentication services

  2. Then go to the tab Validate new passwords

  3. Edit the current rule if there is one or create a new one by clicking button on the Create a new validation condition button

  4. Select the validation engine Basic constraints

  5. Give a name to the rule and select the options you want to give.
    For all new passwords in the application: minimum length, number of digits, lower case, upper case, etc.

  6. Click the Save button.

It is possible to have several password validation rules active at the same time. If this is the case, they will add up to each other.

Optionally it is possible to activate an option that will force the users to change their passwords every X days by changing the parameter.
The maximum number of days before changing the password can be configured in the tab Global settings.
If the value of this parameter is equal to 0, the system will never ask users to change their passwords.

A password logging option that prevents users from logging passwords to use the same password more than once is available from version 10.5.16 of the motor. This option is activated by adding a new validation rule and selecting the validation engine Historization passwords.

When modified, a rule does not affect existing passwords. In the same way, the rules also do not impact the authorities.

Install a local LDAP to test the connection via LDAP

This article is not intended to be a substitute for the literature on setting up an LDAP connection. It gives a procedure for:

  • install an LDAP on your machine (windows)

  • add users to this LDAP

Install an LDAP on your machine (windows)

Add users to this LDAP

To avoid having to type obscure command lines, an easy utility to connect to LDAP, LDAP Admin, downloadable here:
link: http://www.ldapadmin.org.

There is no installation, just a program. Run this program as an Administrator.
First step: configure the connection to your LDAP.

  • From the menu, Start > Connect or connect icon

  • Click to create a connection

  • Give it a name

  • Fill in the host, and the port (initially localhost and 389)

  • Click Fetch DNS to help you enter the database

  • Test the connection

  • Uncheck Anonymous login to fill in the Username and the Password. To determine the username, the simplest way to determine the username is to use a user with the maximum of rights. If you did not change anything during the installation of openLDAP, this connection string is:

    cn=Manager, dc=maxcrc, dc=com

    Indeed, it must be possible to identify the user with which you want to connect by specifying its position in the tree. In the case of the Manager, it is identified via his name (Manager) and the base of our tree. If you don’t have nothing changed during the installation, his password is secret.

  • Click OK

  • The connection is available, you can open a connection at your tree as a Manager

  • Once logged in, you can create groups and users. Here is an example of a tree created by filling in forms for each type.

Direct LDAP connection

The direct LDAP connection consists of using the username/word pair of user’s password to connect to the LDAP server and possibly validate its membership in one or more groups. For reasons of access rights to the LDAP server, the connection in two passes is used more frequently.

Authentication kinematics are described below. Each step refers to the parameters it needs. These settings are entered in the screenshot below. Failure of any of these steps will result in failure of authentication or delegation of authority or authentication to the next authentication domain (parameter 12):

  1. Login with login / password of the user. The login is injected into the dn model to create the real ldap connection identifier (parameters 6 and 11).

  2. If the validation of the user group is enabled, these groups are searched by injecting the user’s dn into the search criteria (parameters 2,3,4 and 5).

  3. Then search for the NOHETO pivot object whose property corresponds to the corresponding LDAP user attribute (parameters 7,8 and 9).

  4. We initialize the surfer from this object.

2-step LDAP authentication with automatic creation of the local user

Once your LDAP is installed and operational, it is very simple to use it directly in Wedia CrossMedia.

It remains essential to know its structure.

By taking the tree created previously in the example of LDAP installation example (see above), we will configure Wedia Crossmedia to request our LDAP tree, and create users on-the-fly if needed.

The first items to fill in are easy:

  • Additional parameters: none.

  • Limits the number of attributes read in LDAP. We leave it by default.

  • LDAP URL: ldap: //localhost: 289

  • Security level: leave default

  • Service ID: We use the same string as on ldapAdmin for connect. So we have cn=Manager, dc=maxcrc, dc=com

  • Password: secret

We then see how WEDIA will run the tree:

  • Recursive search of the user: set to true if all users do not use it or are not on the same level

  • User’s root: at this level we specify from where we search users, which avoids having to go through the entire tree. In our case, we decide to search from the Wedia group. In this LDAP, the group is named or. Our request is therefore or=Wedia, dc=maxcrc, dc=com

  • Don’t forget that you must always specify full access to the branch.

  • User search criteria: We chose to log in using the login or uid. The chain is therefore positioned so that WXM can build it: uid={0}

    This is then linked to the local structure:

  • We define our pivot object (to be used)

  • The pivot LDAP attribute: it is the attribute that will allow us to find the following attributes the user. Here the mail, but could be the login (guided in our tree)

  • the pivot wedia property. the mail in the user structure is stored in the field email. If we had chosen the login, we would write login

  • Is it necessary to create the user locally

    • If false, it means that in order to be able to connect, the user must already be integrated in our local database.

    • If true, it is possible to create it if you can’t find it

  • Filling Properties: A JSON that gives LDAP mapping of WXM and allows you to fill in static data.
    This JSON is an array, each value an object with 2 properties:

    • fieldNoheto (required): the name of the property in the user structure to be fed.

    • attLdap: the name of the LDAP attribute to be used to fill this value

      or

      static: a static value

SAML2 authentication

Preamble

This documentation briefly explains SAML2 authentication to configure WXM to connect via a provider of SAML2 identities. It is not intended to be used as documentation on SAML2. Please refer to the official documentation.

Terms used in this documentation:

Service Provider

SAML Authentication Client (WXM)

Identity Provider

Site used to authenticate a user.

Authentication principle SAML2 in WXM

First of all, SAML2 authentication does not change the object model about users / groups in WXM but is grafted on top. This means that it is not necessary to integrate SAML2 authentication early in the life of a project. It can be grafted at the end of it.

The general principle is as follows:

  1. A user appears on the WXM connection chart,

  2. It clicks on a SSO SAML2 provider,

  3. This user arrives on the connection chart of the identity provider SAML2,

  4. This user logs in,

  5. It is redirected to WXM,

  6. It is searched whether there is a WXM user corresponding to the SAML2 user according to a matching rule configured in WXM,

  7. If the user does not exist, it is created automatically with a combination of attributes retrieved from the SAML2 authentication or imposed upon creation,

  8. The user can normally use WXM.

What to prepare before configuring SAML2

We must foresee the attributes that we want to be able to import into the database local (email, phone, first name, last name, etc.). Only one attribute is required for the connection to work "Name-ID." It should generally correspond to a local attribute allowing to uniquely identify a user (e. g. login) but it will be possible to very well choose another attribute for that like email.

Obsolete in 11.1: Configuring the external site access address correctly configuring the application variables in /admin/ebnAdministration.ebn. Indeed, the SAML2 protocol is based on a strong identification of the different parties (Service provider, Identity provider). This identification goes through fixed and often secure access URLs. It is therefore not recommended to integrate SAML2 on a preprod.monappli.com machine when the production environment must be called prod.monappli.com because this will no longer work and it will be necessary to reconfigure the authentication.

From 11.1: It is possible to specify URLs managed by a supplier SAML2. Simply select them from URLs Managed. By default, the URLs available are: the one configured in the variables and those extracted from the sites present in the application. The only URL enabled is the one configured in the administration variable. It is possible to add some by entering the URL in the input field located under the site selector.

Similarly, URLs that are not in https can be refused by the identity provider. This is the case with ADFS.

How to configure SAML2

  1. Go to the configuration screen

  2. Go to the Administration homepage: admin/ebnAdminTools.ebn.

  3. Click Authentication service on the Server Configuration tab

  4. Click the Identity Provider tab

Create a new identity provider

  1. Click Add New Identity Server.

  2. Choose SAML2 as the supplier type.

  3. Give this supplier a name. Choose the good because it is the name that will appear on the WXM login page.

Export of the service provider’s metadata

In the Service Provider column, enter the service identifier and the size of the encryption and encryption keys for SAML2 envelopes as in the example below.

The service identifier is the name of this service provider at of an identity provider. The format is free and must not be modified after the implementation of SAML2 authentication. Encryption and encryption key sizes can be adapted to suit the following requirements the level of encryption based on the provider’s capabilities identification and legislation in force for installed servers.

Warning

4096-bit encryption requires Java to be installed. Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files for the installed FMV. This extension is available on the Oracle website.

To export the metadata to be sent to your identity provider, click on Export metadata.

Importation of metadata from identity provider or manual information

The configuration is done in the right column as in the screenshot below.

There are two ways to configure the identity provider. The easiest consists in importing the metadata file of the identity provider that the latter’s administrator sent you. Just click on Import metadata and select the corresponding file. The configuration fields will be automatically updated with the information extracted from this file.

Otherwise, you must manually enter the login/disconnect URLs as follows that the identity provider’s encryption and/or signature certificates in X.509 format.

Mapping of SAML2 / local attributes.

This part consists of:

must

define the local object with the user’s info. By default, this object is user.

obligatory

fill in the SAML2 attributes and local "pivots" allowing you to find a local user corresponding to the user identified by the identity provider.

Optionally

add additional matches that will allow you to import SAML2 attributes into local user attributes when importing SAML2 attributes into local user attributes of a user’s first login.

Pivotal attributes

For the mapping of pivotal attributes, good configurations are:

  • Name-ID (SAML2) =⇒ login (local).

  • Email (SAML2) =⇒ email (Local)

The rules for selecting these fields are as follows:

  • SAML and local pivot fields must be capable of identifying in such a way that a single user.

  • The SAML pivot field must be persistent (important in the case of Name-ID). In other words, a user must always obtain the same value for these fields.

Additional attributes

The additional attribute mapping is optional: it has no effect on the proper functioning of SAML authentication. However, it is interesting to be able to retrieve information from the user to create the local user. Typically, the name, the first name, and email are information we’ll want to get back.

In the same way, it can be interesting to initialize the new user with default WXM attributes: role, active / inactive status, language, etc The configuration screen allows you to configure both types of attributes:

  • SAML attribute mapping or static value.

  • The previous screenshot shows a typical example of usage.

The configuration of the initialization values is quite limited in this screen. For more advanced treatments, it is best to create a trigger in beforeInsert on the object to initialize (in this case: user).

Novelty 11.3.1: Properties mapped to SAML fields are also added up to date when logging in. Example: if the user has changed address email, the WXM user object will be modified at the first reconnection. The update is only done ONLY if a change is detected.

New 11.3.2: Multivalued SAML attributes can be managed (such as LDAP groups for example). To do this, simply place saml2/multivalued label on the mapped property. In this case, the value stored in the property will be a string array json (e. g.["role 1","role 2"]). Consider a field large enough to store this type of value (text or at least sentence).

ADFS configuration

On the ADFS side, a good claim configuration is:

  • SAM-Account-Name ⇒ NameID

  • User-Principal-Name ⇒ E-Mail Address

  • Display-Name ⇒ Name

WXM side:

  • Name-Id ⇒ login

  • Email ⇒ email

  • Name ⇒ name

How to test SAML authentication outside the production server

It is sometimes desirable to test new developments on the creating or updating users via SAML without affecting servers of production. The SAML protocol makes it easy to carry out these tests on an development environment by making a few modifications on his workstation local.

The procedure is as follows:

  1. Deploy your webapp with the same context as the target machine: traditionally ROOT.

  2. Edit your hosts file to point the URL of the target server at your development environment by adding a line of the type: 127.0.0.0.1 monserverdeprod

  3. Access the login URL as if you were going to the production server (remember to switch to https if necessary). E.g.: https://monserveurdeprod/wcm.jspz

  4. Remember to delete the modification of the hosts file at the end of your tests to access the production server again.

SAML2 authentication via Shibboleth Identity Provider

This article is not intended to explain the installation of the application Shibboleth Identity Provider but to present the key points to enable authentication via this identity provider from a WEDIA application.

Prerequisites

  • Install a JDK 1.7

  • Install Tomcat 7

  • Retrieve the shibboleth distribution here: http://shibboleth.net/downloads/identity-provider/2.4.3/

  • Install shibboleth via the script install. sh, we will install here application in /opt/shibboleth

  • The hostname of our idP server is idp2.wedia.fr (adapted in the configuration examples given below).

  • To function properly SSL must be enabled on the idP Tomcat and on the application server hosting the WEDIA application. SAML2 only works via SSL.

If you have any questions, please do not hesitate to refer to the WIKI of installation / Shibboleth configuration: https://wiki.shibboleth.net/confluence/display/SHIB2/IdPConfiguration

This parameter setting documentation has been tested on Shibboleth Identity Provider versions 2.4.0,2.4.1 and 2.4.3. It does not cover documentation for 1. x versions depreciated since 2010 or future 3. x versions.
Logging if necessary

WIKI: https://wiki.shibboleth.net/confluence/display/SHIB2/IdPLogging

  • Passing the edu. internet2. middleware. shibboleth logger in DEBUG

  • Pass the edu. vt. middleware. ldap logger to DEBUG

  • Discomment the logger PROTOCOL_MESSAGE and pass it to DEBUG

Meta-data Shibboleth

Retrieve the file /opt/shibboleth-idp/metadata/idp-metadata. xml from your computer, this is the file that will be imported later in the WEDIA configuration.

Configuration of relying-party. xml

WIKI: https://wiki.shibboleth.net/confluence/display/SHIB2/IdPRelyingParty WIKI: https://wiki.shibboleth.net/confluence/display/SHIB2/IdPMetadataProvider

Add a new RelayingParty AFTER the DefaultRelyingParty element that will represent the WEDIA application for which we wish to offer the SAML2 identification functionalities (this is the SAML service ID) in the WEDIA configuration).

<rp: RelyingParty id="wediaidP"
    provider="https://idp2.wedia.fr/idp/shibboleth"
    defaultSigningCredentialRef="IdPCredential".
    defaultAuthenticationMethod="urn: oasis: names: tc: SAML: 2.0: ac: classes: PasswordProtectedTransport" >
        <rp: ProfileConfiguration xsi: type="saml: SAML2SSOProfile" encryptAssertions="never" includeAttributeStatement="true" encryptNameIds="never" />
        <rp: ProfileConfiguration xsi: type="saml: SAML2LogoutRequestProfile" signResponses="conditional"/>
</rp: RelyingParty>

defaultAuthenticationMethod="urn: oasis: names: tc: SAML: 2.0: ac: classes: PasswordProtectedTransport" indicates you want to authenticate the user via login/password, we will define the method later in the handler.xml file.

Add WEDIA metadata declaration for relaying party (we will export wedia-metadata.xml later in this how-to via screens
WEDIA Board of Directors).
<metadata: MetadataProvider id="wediaSPMD".
        xsi: type="FilesystemMetadataProvider".
        xmlns="urn: mace: shibboleth: 2.0: metadata"
        metadataFile="/opt/shibboleth-idp/metadata/wedia-metadata. xml" maintainExpiredMetadata="true" />

attribute-resolver. xml configuration

WIKI: https://wiki.shibboleth.net/confluence/display/SHIB2/IdPAddAttribute

This file is used to define how to retrieve attributes from the data source, here LDAP.

In the <resolver node: AttributeResolver…​ add the declaration of LDAP attributes to be recovered, for example:

<resolver: AttributeDefinition xsi: type="ad: Simple" id="userprincipalname" sourceAttributeID="userprincipalname"> >
    <resolver: Dependency ref="myLDAP" />
    <resolver: AttributeEncoder xsi: type="enc: SAML2String" name="urn: oid: 0.9.2342.19200300.100.1.1" friendlyName="userprincipalname" />
</resolver: AttributeDefinition>>
<resolver: AttributeDefinition xsi: type="ad: Simple" id="displayname" sourceAttributeID="displayname">
    <resolver: Dependency ref="myLDAP" />
    <resolver: AttributeEncoder xsi: type="enc: SAML2String" name="urn: oid: 0.9.2342.19200300.100.1.2" friendlyName="displayname" />
</resolver: AttributeDefinition>>
<resolver: AttributeDefinition xsi: type="ad: Simple" id="givenname" sourceAttributeID="givenname">
    <resolver: Dependency ref="myLDAP" />
    <resolver: AttributeEncoder xsi: type="enc: SAML2String" name="urn: oid: 0.9.2342.19200300.100.1.3" friendlyName="givenname" />
</resolver: AttributeDefinition>>

Here we will retrieve the attributes LDAP userPrincipalName, displayName and givenName.

Note that id and sourceAttributeID must be lower case!

Add DataConnector for LDAP that will allow to find the user in LDAP to retrieve its attributes.

<resolver: DataConnector id="myLDAP" xsi: type="dc: LDAPDirectory": LDAPDirectory
    ldapURL="ldap: //MONSERVEURLDAP: 389"
    baseDN="cn=Users, dc=RD, dc=local".
    principal="cn=Administrator, cn=Users, dc=RD, dc=local".
    principalCredential="**********"
    lowercaseAttributeNames="true">
    <dc: FilterTemplate>> FilterTemplate
        <![CDATA[
          (sAMAccountName=$requestContext. principalName)
        ]]>
    </dc: FilterTemplate> FilterTemplate>
</resolver: DataConnector>> DataConnector

attribute-filter configuration

WIKI: https://wiki.shibboleth.net/confluence/display/SHIB2/IdPAddAttribute

This file describes which attributes will be exposed to suppliers of services.

In the AttributeFilterPolicyGroup node add the attributes you want to add send to the service provider (the WEDIA application). Here we want to send the three attributes declared in attribute-resolver.

<afp: AttributeFilterPolicy id="releaseLDAP">
    <afp: PolicyRequirementRule xsi: type="basic: ANY"/>
    <afp: AttributeRule attributeID="userprincipalname"> >
        <afp: PermitValueRule xsi: type="basic: ANY" />
    </afp: AttributeRule>
    <afp: AttributeRule attributeID="displayname">
        <afp: PermitValueRule xsi: type="basic: ANY" />
    </afp: AttributeRule>
    <afp: AttributeRule attributeID="givenname"> >
        <afp: PermitValueRule xsi: type="basic: ANY" />
    </afp: AttributeRule>
</afp: AttributeFilterPolicy> Attribute

Configuration of handler.xml

WIKI: https://wiki.shibboleth.net/confluence/display/SHIB2/IdPAuthUserPass

This file allows you to define the methods that will be used to identify a user

Activate the handler Username/password login handler

<ph: LoginHandler xsi: type="ph: UsernamePassword" jaasConfigurationLocation="file: ///opt/shibboleth-idp/conf/login. config">
            <ph: AuthenticationMethod>urn: oasis: names: tc: SAML: 2.0: ac: classes: PasswordProtectedTransport</ph: AuthenticationMethod>
</ph: LoginHandler>

login.config configuration

WIKI: https://wiki.shibboleth.net/confluence/display/SHIB2/IdPAuthUserPass

Describes the method for authenticating the user to LDAP by connecting to the LDAP server.

Add the following code to ShibUserPassAuth (replacing MONSERVEURLDAP) by the address of the LDAP server passing the correct information databaseDn/bindDn/bindCredential that depend on the LDAP server used.
Contact your administrator for more information.

edu. vt. middleware. ldap. jaas. LdapLoginModule required
      ldapUrl="ldap: //MONSERVEURLDAP: 389"
      baseDn="cn=Users, dc=RD, dc=local".
      bindDn="cn=Administrator, cn=Users, dc=RD, dc=local".
      bindCredential="**************************"
      ssl="false"
      tls="false".
      subtreeSearch="true"
      userFilter="(& (objectclass=person)(sAMAccountName={0}))";

Configuration of SAML connectors in WEDIA

Create a new SAML connection, the name of this new connection is free.

The service identifier must be the same as the ID given to the element.
RelyingParty in the relyingparty.xml file, here: wediaidP

Click the Apply Changes button.

Click on the button Export metadata and save the file on the idP server in /opt/shibboleth/metadata/wedia-metadata.xml

Click on the button Import metadata and upload the file idp-metadata. xml downloaded above (during the Metadatas step of Shibboleth Identity Provider).

Click Apply Changes (if the button appears).

At this stage it is possible to test the configuration of the idP via the client aacli. sh of shibboleth of the kind:

    /opt/shibboleth-idp/bin/aacli.sh --configDir=/opt/shibboleth-idp/conf --principal=$USERNAME

by replacing USERNAME with the login of a known user in the system, SAML2 attributes will be displayed in the console. If no attribute is returned, there is a problem in the configuration. Check the error messages and other logs in /opt/shibboleth/logs (think of activating the shibboleth logs to find the source of the anomalies).

Start the tomcat server of the idP

Click on the Test SAML2 Connection button and log in with a known user on LDAP, the configuration will reload.

Then configure LDAP properties to the user properties:

  • Object name "user" local = user

  • Local user pivot property name = email

  • Name of pivot attribute SAML = urn: oid: 0.9.2342.19200300.100.1.1

  • Add necessary correspondence, for example:

    • status = 6 (static value)

    • activated = 1 (static value)

    • Type = 1 (static value)

    • role = 4 (static value)

    • name = urn: oid: 0.9.2342.19200300.100.1.2 (SAML attribute)

These correspondences will make it possible to create at each connection of a new one user a new user if necessary or will search for a user by in relation to the pivot attribute SAML.

Attention these connections are specific to your shibboleth environment and your WEDIA application, these values are only given here as examples.

Here all users will be created as developers. So beware of make connections that make sense on your application.

For example, we might want to create users but not to allow them to log in to the application and send an email to a administrator to validate the account. This could be done by placing use it in a particular status, by setting activated=2 and sending the email in the afterInsert trigger of the object to use so that someone will validate the user.

Click the Apply Changes button.

The configuration of SAML2 is complete, your users will be able to connect to the WEDIA application by clicking on the button provided for this purpose on the WEDIA application login page.

The Google Apps connection

A plugin allows to connect in SSO via the system proposed by Google Apps.

It is necessary to enable this feature in your domain via the "Federated Login with OpenID" option https://developers.google.com/google-apps/sso/openid_reference_implementation#cpanel

The step-by-step connection, and the mode of revocation of rights is described in the attached document.

Download:

OAUTH2 Connection

The content of this article is only valid from version 11.5.3 onwards.

In addition to SAML2 compatibility, WEDIA makes it easy to authenticate yourself via an OAuth2 provider. For example, it allows for easy connection via Google authentication.

Here is an example of configuration a sample configuration for Google authentication.

Example of OAUTH authentication with Google

Managed Contexts

This Identity Provider will not be available for use to connect that if the site is accessed with a URL starting with one of the following ones contexts.

Authorization URLs

URL for retrieving the access token and profile user are the URLs specific to your OAUTH provider. See your supplier’s documentation for these values. At the time of writing this documentation, the URLSs specified in this document will not be displayed. Screenshots allow you to log in with your Google account. The URL of the user profile must be accessible in GET via the WEDIA server and return a JSON feed.

Scope

the information to be entered in this field depends on your OAUth provider and must allow the WEDIA server to retrieve the user profile logged in with the URL of the user profile.

Identifier and key of the client application

this information is for your data provided by the Identity Provider when you create a link with your WEDIA application. How to recover depends on your server of identity.

Attributes Local User Object, Local pivot property and OAuth profile pivot attribute function in the same way as with OAuth profile SAML2 suppliers. They consist of matching the profile OAUth user with a WEDIA user by searching for the local object of which the value of the local property is equal to the pivot attribute of the oauth profile.
If this user exists: it is loaded.
If not, the user is automatically created from the same one with supplier SAML2 by preteaching local properties or with attributes from the OAuth profile.
Below is an example of the creation of a user with a Google profile.

It is possible to use a subproperty of the JSON profile as a value of mapping by specifying its full path in the form:
Prop. under_prop. under_sub_prop.

Ex: address. city

SSO connection with SAML or OAuth: how to manage a validation step of new users?

The content of this article is valid since WEDIA 11.5.3

Connections via SAML2 or OAUth2 both allow you to create a new local user if it does not already exist. It may be useful to create this user but not immediately give them the right to access the platform and prefer to pass it by a validation step. In this case, it must be possible to inform the user that tried to connect that his authentication worked but that he must wait before being able to use the platform.

The procedure for this clientf case is as follows:

  1. In mappings for automatic creation of a user or in a trigger "before insert", the field "activated" must be set to "activated" by the user to "false".

  2. In this case, the authentication procedure (positive feedback from the server of identity) an instance of "wsnoheto. engine. engine. login. sso. UserDisabled" is added to the session in the attribute "wsnoheto. engine. login. sso. UserDisabled". This object (present in the user JAVADOC) makes it possible to find the object fresh user created in the inactive state. It is enough to exploit this session attribute in your login page to display information on the validation process to follow for your user.

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