wpa_supplicant / hostapd 2.0
Extensible Authentication Protocol (EAP) is an authentication framework defined in RFC 3748. wpa_supplicant uses a separate code module for EAP peer implementation. This module was designed to use only a minimal set of direct function calls (mainly, to debug/event functions) in order for it to be usable in other programs. The design of the EAP implementation is based loosely on RFC 4137. The state machine is defined in this RFC and so is the interface between the peer state machine and methods. As such, this RFC provides useful information for understanding the EAP peer implementation in wpa_supplicant.
Some of the terminology used in EAP state machine is referring to EAPOL (IEEE 802.1X), but there is no strict requirement on the lower layer being IEEE 802.1X if EAP module is built for other programs than wpa_supplicant. These terms should be understood to refer to the lower layer as defined in RFC 4137.
Each EAP method is implemented as a separate module, usually as one C file named eap_<name of the method>.c, e.g., eap_md5.c. All EAP methods use the same interface between the peer state machine and method specific functions. This allows new EAP methods to be added without modifying the core EAP state machine implementation.
New EAP methods need to be registered by adding them into the build (Makefile) and the EAP method registration list in the eap_peer_register_methods() function of eap_methods.c. Each EAP method should use a build-time configuration option, e.g., EAP_TLS, in order to make it possible to select which of the methods are included in the build.
EAP methods must implement the interface defined in eap_i.h. struct eap_method defines the needed function pointers that each EAP method must provide. In addition, the EAP type and name are registered using this structure. This interface is based on section 4.4 of RFC 4137.
It is recommended that the EAP methods would use generic helper functions, eap_msg_alloc() and eap_hdr_validate() when processing messages. This allows code sharing and can avoid missing some of the needed validation steps for received packets. In addition, these functions make it easier to change between expanded and legacy EAP header, if needed.
When adding an EAP method that uses a vendor specific EAP type (Expanded Type as defined in RFC 3748, Chapter 5.7), the new method must be registered by passing vendor id instead of EAP_VENDOR_IETF to eap_peer_method_alloc(). These methods must not try to emulate expanded types by registering a legacy EAP method for type 254. See eap_vendor_test.c for an example of an EAP method implementation that is implemented as an expanded type.
The Git repository has an eap_example directory that contains an example showing how EAP peer and server code from wpa_supplicant and hostapd can be used as a library. The example program initializes both an EAP server and an EAP peer entities and then runs through an EAP-PEAP/MSCHAPv2 authentication.
eap_example_peer.c shows the initialization and glue code needed to control the EAP peer implementation. eap_example_server.c does the same for EAP server. eap_example.c is an example that ties in both the EAP server and client parts to allow an EAP authentication to be shown.
In this example, the EAP messages are passed between the server and the peer are passed by direct function calls within the same process. In practice, server and peer functionalities would likely reside in separate devices and the EAP messages would be transmitted between the devices based on an external protocol. For example, in IEEE 802.11 uses IEEE 802.1X EAPOL state machines to control the transmission of EAP messages and WiMax supports optional PMK EAP authentication mechanism that transmits EAP messages as defined in IEEE 802.16e.
The EAP library links in number of helper functions from src/utils and src/crypto directories. Most of these are suitable as-is, but it may be desirable to replace the debug output code in src/utils/wpa_debug.c by dropping this file from the library and re-implementing the functions there in a way that better fits in with the main application.