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2.1    General overview

Please refer to deliverable DJ5.1.4 "Inter-NREN Roaming Architecture: Description and Development Items" for an in-depth description of eduroam and the underlying architecture.

Eduroam stands for EDUcation ROAMing. It offers users from participating academic institutions secure Internet access at any other eduroam-enabled institution. The eduroam architecture that makes this possible is based on a number of technologies and agreements, which together provide the eduroam user experience: "open your laptop and be online".

The crucial agreement underpinning the foundation of eduroam involves the mechanism by which authentication and authorisation works:

  • The authentication of a user is carried out at their Identity Provider (IdP), using their specific authentication method. Earlier versions of this document used the term "home institution" to refer to the Identity Provider, but this term is considered deprecated.
  • The authorisation decision allowing access to the network resources upon proper authentication is done by the owner of the visited network, also called the Service Provider (SP). Earlier versions of this document also used the deprecated term "visited institution".

In order to transport the authentication request of a user from the Service Provider to his Identity Provider and the authentication response back, a hierarchical system of RADIUS servers is created. Typically every Identity Provider deploys a RADIUS server, which is connected to a local user database. This RADIUS server is connected to a central national RADIUS server, which in turn is connected to a European (or global) RADIUS server. Because users are using usernames of the format "user@realm", where realm is the IdP's DNS domain name often of the form institution.tld (tld=country code top-level domain), the RADIUS servers can use this information to route the request to the appropriate next hop in the hierarchy until the IdP is reached. An example of the RADIUS hierarchy is shown in Figure 2.1.

To transfer the user's authentication information securely across the RADIUS-infrastructure to their IdP, and to prevent other users from hijacking the connection after successful authentication, the access points or switches deployed by the SP use the IEEE 802.1X standard that encompasses the use of the Extensible Authentication Protocol (EAP). Using the appropriate EAP-method either a secure tunnel will be established from the user's computer to their IdP through which the actual authentication information (username/password etc.) will be carried (EAP-TTLS or PEAP), or mutual authentication by public X.509 certificates (which is not vulnerable to eavesdropping) will be used (EAP-TLS).

RADIUS transports the user's name in an attribute User-Name, which is visible in cleartext. It also transports the EAP payload, which is encrypted and not visible to intermediate servers, only to the IdP server. In order to ensure privacy, it might be desirable not to put the real username in the RADIUS User-Name attribute (this attribute is the "outer" identity). Instead, it might be preferred to put @realm in this attribute (nothing left of the @ - this is the IETF-suggested format). The realm part still must be the correct one as it is used to route the request to the respective home server. Once the IdP server decrypts the TLS tunnel in the EAP payload, it gets the real user name - the "inner" identity.

After successful authentication by the Identity Provider and authorisation by the Service Provider, this SP grants network access to the user, possibly by placing the user in a specific VLAN intended for guests.

In the next chapter the various elements of this architecture and their functions is described.

Note: On responsibility for actions of the user: Directive 2001/31/EC article 12 defines the liability of a service provider:

  • Where an information society service is provided that consists of the transmission in a communication network of information provided by a recipient of the service, or the provision of access to a communication network, Member States shall ensure that the service provider is not liable for the information transmitted, on condition that the provider:
    (a) does not initiate the transmission;
    (b) does not select the receiver of the transmission; and
    (c) does not select or modify the information contained in the transmission.
  • The acts of transmission and of provision of access referred to in paragraph 1 include the automatic, intermediate and transient storage of the information transmitted in so far as this takes place for the sole purpose of carrying out the transmission in the communication network, and provided that the information is not stored for any period longer than is reasonably necessary for the transmission.
  • This Article shall not affect the possibility for a court or administrative authority, in accordance with Member States' legal systems, of requiring the service provider to terminate or prevent an infringement.

The complete Directive can be found at EUR-Lex1.

Figure 2.1: Layers of the eduroam RADIUS hierarchy NEED TO (RE)CREATE DIAGRAM ??

2.2    Elements of the eduroam infrastructure

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