From 50b37d4a27d3295a29afca2286f1a5a086142cec Mon Sep 17 00:00:00 2001
From: Daniel Baumann <daniel.baumann@progress-linux.org>
Date: Sun, 28 Apr 2024 11:49:46 +0200
Subject: Adding upstream version 3.2.1+dfsg.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
---
 doc/modules/rlm_eap | 395 ++++++++++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 395 insertions(+)
 create mode 100644 doc/modules/rlm_eap

(limited to 'doc/modules/rlm_eap')

diff --git a/doc/modules/rlm_eap b/doc/modules/rlm_eap
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+
+
+            Extensible Authentication Protocol (EAP)
+
+
+INTRODUCTION
+
+  Extensible Authentication Protocol(EAP), rfc2284, is a general protocol
+  that allows network access points to support multiple authentication
+  methods. Each EAP-Type indicates a specific authentication mechanism.
+  802.1x standard authenticates wireless LAN users trying to access
+  enterprise networks.
+
+  RADIUS attribute used for EAP is EAP-Message, 79(rfc2869). RADIUS
+  communicates all EAP messages by embedding them in this attribute.
+
+  General Terminology
+  Supplicant/EAP Client - is the software on the end-user/client machine
+                          (machine with the wireless card).
+  Authenticator/NAS/Access Point(AP) -  A network device providing users
+                                    with a point of entry into the network.
+  EAPOL - EAP over LAN as defined in 802.1x standard.
+  EAPOW - EAP over Wireless.
+
+
+   +----------+        +----------+        +----------+
+   |          |  EAPOL |          | RADIUS |          |
+   |  EAP     |<------>|  Access  |<------>|  RADIUS  |
+   |  Client  |  EAPOW |  Point   |  (EAP) |  Server  |
+   |          |        |          |        |          |
+   +----------+        +----------+        +----------+
+
+
+   The sequence of events, for EAP-MD5, runs as follows:
+    1. The end-user associates with the Access Point(AP).
+    2. The supplicant specifies AP to use EAP by sending EAP-Start.
+    3. AP requests the supplicant to Identify itself (EAP-Identity).
+    4. Supplicant then sends its Identity (username) to the AP.
+    5. AP forwards this EAP-response AS-IS to the RADIUS server.
+       (The supplicant and the RADIUS server mutually authenticate via AP.
+       AP just acts as a passthru till authentication is finished.)
+    6. The server sends a challenge to the supplicant.
+    7. The supplicant carries out a hash on the password and sends
+       this hashed password to the RADIUS server as its response.
+    8. The RADIUS server performs a hash on the password for that supplicant
+       in its user database and compares the two hashed values and
+       authenticates the client if the two values match(EAP-Success/EAP-Failure)
+    9. AP now opens a port to accept data from the end-user.
+
+  Currently, EAP is widely used in wireless networks than in wired networks.
+  In 802.11/wireless based networking, following sequence of events happen in
+  addition to the above EAP events.
+
+   10. RADIUS server and the supplicant agree to a specific WEP key.
+   11. The supplicant loads the key ready for logging on.
+   12. The RADIUS server sends the key for this session (Session key) to the AP.
+   13. The AP encrypts its Broadcast key with the Session key
+   14. The AP sends the encypted key to the supplicant
+   15. The supplicant decrypts the Broadcast key with the Session key and
+       the session continues using the Broadcast and Session keys until
+       the session ends.
+
+  References:
+	The Implementation of EAP over RADIUS is based on the following RFCs
+	rfc2869 -- RADIUS Extensions
+	rfc2284 -- PPP Extensible Authentication Protocol (EAP)
+	rfc2716 -- PPP EAP TLS Authentication Protocol
+
+  Following links help to understand HOW EAP works
+	www.ieee802.org/1/mirror/8021/docs2000/ieee_plenary.PDF
+
+
+EAP CODE ORGANIZATION
+
+  EAP is implemented as a module in freeradius
+  and the code is placed in src/modules/rlm_eap.
+  All EAP-Types are organized as subdirectories in rlm_eap/types/.
+
+  Each EAP-Type, like types/rlm_eap_md5, contains a chunk of code that
+  knows how to deal with a particular kind of authentication mechanism.
+
+  To add a new EAP-Type then a new directory should be created as
+  rlm_eap/types/rlm_eap_XXXX, where XXXX is EAP-Type name
+  ie for EAP-Type like ONE TIME PASSWORD (OTP) it would be rlm_eap_otp
+
+  src/modules/rlm_eap -- contains the basic EAP and generalized interfaces
+    to all the EAP-Types.
+  rlm_eap/types -- contains all the supported EAP-Types
+  rlm_eap/types/rlm_eap_md5  -- EAP-MD5 authentication.
+  rlm_eap/types/rlm_eap_tls  -- EAP-TLS based authentication.
+  rlm_eap/types/rlm_eap_ttls -- TTLS based authentication.
+  rlm_eap/types/rlm_eap_peap -- Windows PEAP based authentication.
+  rlm_eap/types/rlm_eap_sim  -- EAP-SIM (GSM) based authentication
+
+CONFIGURATION
+
+  Add the eap configuration stanza to the modules section in radiusd.conf
+  to load and control rlm_eap and all the supported EAP-Types:
+
+  For example:
+	modules {
+		...
+		eap {
+			default_eap_type = md5
+
+			md5 {
+			}
+		    ...
+		}
+		...
+	}
+
+  NOTE: You cannot have empty eap stanza. At least one EAP-Type sub-stanza
+  should be defined as above, otherwise the server will not know what type
+  of eap authentication mechanism to be used and the server will exit
+  with error.
+
+  All the various options and their associated default values for each
+  EAP-Type are documented in the sample radiusd.conf that is provided
+  with the distribution.
+
+  Since the EAP requests may not contain a requested EAP type, the
+  'default_eap_type' configuration options is used by the EAP module
+  to determine which EAP type to choose for authentication.
+
+  NOTE: EAP cannot authorize a user. It can only authenticate.
+  Other Freeradius modules authorize the user.
+
+
+EAP SIM server
+
+  To configure EAP-SIM authentication, the following attributes must be
+  set in the server. This can be done in the users file, but in many cases
+  will be taken from a database server, via one of the SQL interface.
+
+  If one has SIM cards that one controls (i.e. whose share secret you know),
+  one should be able to write a module to generate these attributes
+  (the triplets) in the server.
+
+  If one has access to the SS7 based settlement network, then a module to
+  fetch appropriate triplets could be written. This module would act as
+  an authorization only module.
+
+  The attributes are:
+	EAP-Sim-Rand1 		16 bytes
+	EAP-Sim-SRES1 		 4 bytes
+	EAP-Sim-KC1 		 8 bytes
+	EAP-Sim-Rand2 		16 bytes
+	EAP-Sim-SRES2 		 4 bytes
+	EAP-Sim-KC2 		 8 bytes
+	EAP-Sim-Rand3 		16 bytes
+	EAP-Sim-SRES3 		 4 bytes
+	EAP-Sim-KC3 		 8 bytes
+
+  EAP-SIM will send WEP attributes to the resquestor.
+
+EAP CLIENTS
+
+  1.  eapol_test, from wpa_supplicant.
+
+  2. Freeradius has an "radeapclient" that can do EAP-MD5 (passwords),
+     as well as EAP-SIM. It is in modules/rlm_eap/radeapclient.
+
+TESTING
+
+  You will find several test cases in src/tests/ for the EAP-SIM code.
+
+
+HOW DO I USE IT (FAQ/Examples)
+
+  1. How can I enable EAP-MD5 authentication ?
+
+  In radiusd.conf
+
+	modules {
+		...
+		eap {
+			default_eap_type = md5
+			md5 {
+			}
+		    ...
+		}
+		...
+	}
+
+	# eap sets the authenticate type as EAP
+	authorize {
+		...
+		eap
+	}
+
+	# eap authentication takes place.
+	authenticate {
+		eap
+	}
+
+	# If you are proxying EAP-LEAP requests
+	# This is required to make LEAP work.
+        post-proxy {
+		eap
+	}
+
+  2. My Userbase is in LDAP and I want to use EAP-MD5 authentication
+
+  In radiusd.conf
+
+	modules {
+		...
+		eap {
+			default_eap_type = md5
+			md5 {
+			}
+		    ...
+		}
+		...
+	}
+
+	# ldap gets the Configured password.
+	# eap sets the authenticate type as EAP
+	authorize {
+		...
+		ldap
+		eap
+		...
+	}
+
+	# eap authentication takes place.
+	authenticate {
+		...
+		eap
+		...
+	}
+
+  3. How can I Proxy EAP messages, with/without User-Name attribute
+      in the Access-Request packets
+
+   With User-Name attribute in Access-Request packet,
+   EAP-proxying is just same as RADIUS-proxying.
+
+   If User-Name attribute is not present in Access-Request packet,
+   Freeradius can proxy the request with the following configuration
+   in radiusd.conf
+
+   # eap module should be configured as the First module in
+   # the authorize stanza
+
+	authorize {
+		eap
+		...  other modules.
+	}
+
+   With this configuration, eap_authorize creates User-Name attribute
+   from EAP-Identity response, if it is not present.
+   Once User-Name attribute is created, RADIUS proxying takes care
+   of EAP proxying.
+
+  4. How Freeradius can handle EAP-START messages ?
+
+   In most of the cases this is handled by the Authenticator.
+
+   Only if it is required then, in radiusd.conf
+
+	authorize {
+		eap
+		...  other modules.
+	}
+
+   With the above configuration, RADIUS server immediately responds with
+   EAP-Identity request.
+
+   NOTE: EAP does not check for any Identity or maintains any state in case
+   of EAP-START. It blindly responds with EAP-Identity request.
+   Proxying is handled only after EAP-Identity response is received.
+
+  5. I want to enable multiple EAP-Types, how can I configure ?
+
+  In radiusd.conf
+
+	modules {
+		...
+		eap {
+			default_eap_type = tls
+			md5 {
+			}
+			tls {
+				...
+			}
+		    ...
+		}
+		...
+	}
+
+   The above configuration will let the server load all the EAP-Types,
+   but the server can have only one default EAP-Type, as above.
+
+   Once EAP-Identity response is received by the server, based on the
+   default_eap_type, the server will send a new request (MD5-Challenge
+   request incase of md5, TLS-START request incase of tls) to the supplicant.
+   If the supplicant is rfc2284 compliant and does not support the
+   EAP-Type sent by the server then it sends EAP-Acknowledge with the
+   supported EAP-Type. If this EAP-Type is supported by the server then it
+   will send the respective EAP-request.
+
+   Example: If the supplicant supports only EAP-MD5 but the server
+   default_eap_type is configured as EAP-TLS, as above, then the server
+   will send TLS-START after EAP-Identity is received. Supplicant will
+   respond with EAP-Acknowledge(EAP-MD5). Server now responds with
+   MD5-Challenge.
+
+
+INSTALLATION
+  EAP, EAP-MD5, and Cisco LEAP do not require any additional packages.
+  Freeradius contains all the required packages.
+
+  For EAP-TLS, EAP-TTLS, and PEAP, OPENSSL, <http://www.openssl.org/>,
+  is required to be installed.
+  Any version from 0.9.7, should fairly work with this module.
+
+  EAP-SIM should not require any additional packages.
+
+
+IMPLEMENTATION (For Developers)
+
+  The rlm_eap module only deals with EAP specific authentication mechanism
+  and the generic interface to interact with all the EAP-Types.
+
+  Currently, these are the existing interfaces,
+	int	attach(CONF_SECTION *conf, void **type_arg);
+	int	initiate(void *type_arg, EAP_HANDLER *handler);
+	int	authenticate(void *type_arg, EAP_HANDLER *handler);
+	int	detach(void **type_arg);
+
+  attach() and detach() functions allocate and deallocate all the
+  required resources.
+
+  initiate() function begins the conversation when EAP-Identity response
+  is received. Incase of EAP-MD5, initiate() function sends the challenge.
+
+  authenticate() function uses specific EAP-Type authentication mechanism
+  to authenticate the user. During authentication many EAP-Requests and
+  EAP-Responses takes place for each authentication. Hence authenticate()
+  function may be called many times. EAP_HANDLER contains the complete
+  state information required.
+
+
+HOW EAP WORKS
+  as posted to the list, by John Lindsay <jlindsay@internode.com.au>
+
+  To make it clear for everyone, the supplicant is the software on the
+  client (machine with the wireless card).
+
+  The EAP process doesn't start until the client has associated with
+  the Access Point using Open authentication.  If this process isn't
+  crystal clear you need to go away and gain understanding.
+
+  Once the association is made the AP blocks all traffic that is not
+  802.1x so although associated the connection only has value for EAP.
+  Any EAP traffic is passed to the radius server and any radius traffic
+  is passed back to the client.
+
+  So, after the client has associated to the Access Point, the
+  supplicant starts the process for using EAP over LAN by asking the
+  user for their logon and password.
+
+  Using 802.1x and EAP the supplicant sends the username and a one-way
+  hash of the password to the AP.
+
+  The AP encapsulates the request and sends it to the RADIUS server.
+
+  The radius server needs a plaintext password so that it can perform
+  the same one-way hash to determine that the password is correct.  If
+  it is, the radius server issues an access challenge which goes back
+  via to the AP to the client. (my study guide says client but my
+  brain says 'supplicant')
+
+  The client sends the EAP response to the challenge via the AP to the
+  RADIUS server.
+
+  If the response is valid the RADIUS server sends a success message
+  and the session WEP key (EAP over wireless) to the client via the
+  AP.  The same session WEP key is also sent to the AP in the success
+  packet.
+
+  The client and the AP then begin using session WEP keys. The WEP key
+  used for multicasts is then sent from the AP to the client.  It is
+  encrypted using the session WEP key.
+
+ACKNOWLEDGEMENTS
+   Primary author - Raghu <raghud@mail.com>
+
+   EAP-SIM	 - Michael Richardson <mcr@sandelman.ottawa.on.ca>
+		    The development of the EAP/SIM support was funded by
+		    Internet Foundation Austria (http://www.nic.at/ipa).
+
+
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