364 lines
13 KiB
Plaintext
364 lines
13 KiB
Plaintext
/**
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\page testing_tools Testing and development tools
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[ \ref eapol_test "eapol_test" |
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\ref preauth_test "preauth_test" |
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\ref driver_test "driver_test" |
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\ref unit_tests "Unit tests" |
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\ref wpa_trace "Tracing code" ]
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%wpa_supplicant source tree includes number of testing and development
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tools that make it easier to test the programs without having to setup
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a full test setup with wireless cards. In addition, these tools can be
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used to implement automatic tests suites.
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\section eapol_test eapol_test - EAP peer and RADIUS client testing
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eapol_test is a program that links together the same EAP peer
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implementation that %wpa_supplicant is using and the RADIUS
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authentication client code from hostapd. In addition, it has minimal
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glue code to combine these two components in similar ways to IEEE
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802.1X/EAPOL Authenticator state machines. In other words, it
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integrates IEEE 802.1X Authenticator (normally, an access point) and
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IEEE 802.1X Supplicant (normally, a wireless client) together to
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generate a single program that can be used to test EAP methods without
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having to setup an access point and a wireless client.
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The main uses for eapol_test are in interoperability testing of EAP
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methods against RADIUS servers and in development testing for new EAP
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methods. It can be easily used to automate EAP testing for
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interoperability and regression since the program can be run from
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shell scripts without require additional test components apart from a
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RADIUS server. For example, the automated EAP tests described in
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eap_testing.txt are implemented with eapol_test. Similarly, eapol_test
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could be used to implement an automated regression test suite for a
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RADIUS authentication server.
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eapol_test uses the same build time configuration file, .config, as
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%wpa_supplicant. This file is used to select which EAP methods are
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included in eapol_test. This program is not built with the default
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Makefile target, so a separate make command needs to be used to
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compile the tool:
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\verbatim
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make eapol_test
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\endverbatim
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The resulting eapol_test binary has following command like options:
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\verbatim
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usage:
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eapol_test [-nWS] -c<conf> [-a<AS IP>] [-p<AS port>] [-s<AS secret>] \
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[-r<count>] [-t<timeout>] [-C<Connect-Info>] \
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[-M<client MAC address>]
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eapol_test scard
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eapol_test sim <PIN> <num triplets> [debug]
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options:
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-c<conf> = configuration file
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-a<AS IP> = IP address of the authentication server, default 127.0.0.1
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-p<AS port> = UDP port of the authentication server, default 1812
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-s<AS secret> = shared secret with the authentication server, default 'radius'
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-r<count> = number of re-authentications
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-W = wait for a control interface monitor before starting
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-S = save configuration after authentiation
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-n = no MPPE keys expected
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-t<timeout> = sets timeout in seconds (default: 30 s)
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-C<Connect-Info> = RADIUS Connect-Info (default: CONNECT 11Mbps 802.11b)
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-M<client MAC address> = Set own MAC address (Calling-Station-Id,
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default: 02:00:00:00:00:01)
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\endverbatim
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As an example,
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\verbatim
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eapol_test -ctest.conf -a127.0.0.1 -p1812 -ssecret -r1
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\endverbatim
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tries to complete EAP authentication based on the network
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configuration from test.conf against the RADIUS server running on the
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local host. A re-authentication is triggered to test fast
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re-authentication. The configuration file uses the same format for
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network blocks as %wpa_supplicant.
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\section preauth_test preauth_test - WPA2 pre-authentication and EAP peer testing
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preauth_test is similar to eapol_test in the sense that in combines
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EAP peer implementation with something else, in this case, with WPA2
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pre-authentication. This tool can be used to test pre-authentication
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based on the code that %wpa_supplicant is using. As such, it tests
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both the %wpa_supplicant implementation and the functionality of an
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access point.
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preauth_test is built with:
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\verbatim
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make preauth_test
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\endverbatim
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and it uses following command line arguments:
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\verbatim
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usage: preauth_test <conf> <target MAC address> <ifname>
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\endverbatim
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For example,
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\verbatim
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preauth_test test.conf 02:11:22:33:44:55 eth0
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\endverbatim
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would use network configuration from test.conf to try to complete
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pre-authentication with AP using BSSID 02:11:22:33:44:55. The
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pre-authentication packets would be sent using the eth0 interface.
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\section driver_test driver_test - driver interface for testing wpa_supplicant
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%wpa_supplicant was designed to support number of different ways to
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communicate with a network device driver. This design uses \ref
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driver_wrapper "driver interface API" and number of driver interface
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implementations. One of these is driver_test.c, i.e., a test driver
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interface that is actually not using any drivers. Instead, it provides
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a mechanism for running %wpa_supplicant without having to have a
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device driver or wireless LAN hardware for that matter.
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driver_test can be used to talk directly with hostapd's driver_test
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component to create a test setup where one or more clients and access
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points can be tested within one test host and without having to have
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multiple wireless cards. This makes it easier to test the core code in
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%wpa_supplicant, and hostapd for that matter. Since driver_test uses
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the same driver API than any other driver interface implementation,
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the core code of %wpa_supplicant and hostapd can be tested with the
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same coverage as one would get when using real wireless cards. The
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only area that is not tested is the driver interface implementation
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(driver_*.c).
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Having the possibility to use simulated network components makes it
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much easier to do development testing while adding new features and to
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reproduce reported bugs. As such, it is often easiest to just do most
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of the development and bug fixing without using real hardware. Once
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the driver_test setup has been used to implement a new feature or fix
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a bug, the end result can be verified with wireless LAN cards. In many
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cases, this may even be unnecessary, depending on what area the
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feature/bug is relating to. Of course, changes to driver interfaces
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will still require use of real hardware.
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Since multiple components can be run within a single host, testing of
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complex network configuration, e.g., large number of clients
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association with an access point, becomes quite easy. All the tests
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can also be automated without having to resort to complex test setup
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using remote access to multiple computers.
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driver_test can be included in the %wpa_supplicant build in the same
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way as any other driver interface, i.e., by adding the following line
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into .config:
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\verbatim
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CONFIG_DRIVER_TEST=y
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\endverbatim
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When running %wpa_supplicant, the test interface is selected by using
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\a -Dtest command line argument. The interface name (\a -i argument)
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can be selected arbitrarily, i.e., it does not need to match with any
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existing network interface. The interface name is used to generate a
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MAC address, so when using multiple clients, each should use a
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different interface, e.g., \a sta1, \a sta2, and so on.
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%wpa_supplicant and hostapd are configured in the same way as they
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would be for normal use. Following example shows a simple test setup
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for WPA-PSK.
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hostapd is configured with following psk-test.conf configuration file:
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\verbatim
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driver=test
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interface=ap1
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logger_stdout=-1
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logger_stdout_level=0
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debug=2
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dump_file=/tmp/hostapd.dump
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test_socket=/tmp/Test/ap1
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ssid=jkm-test-psk
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wpa=1
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wpa_key_mgmt=WPA-PSK
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wpa_pairwise=TKIP
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wpa_passphrase=12345678
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\endverbatim
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and started with following command:
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\verbatim
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hostapd psk-test.conf
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\endverbatim
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%wpa_supplicant uses following configuration file:
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\verbatim
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driver_param=test_socket=/tmp/Test/ap1
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network={
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ssid="jkm-test-psk"
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key_mgmt=WPA-PSK
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psk="12345678"
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}
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\endverbatim
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%wpa_supplicant can then be started with following command:
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\verbatim
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wpa_supplicant -Dtest -cpsk-test.conf -ista1 -ddK
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\endverbatim
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If run without debug information, i.e., with
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\verbatim
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wpa_supplicant -Dtest -cpsk-test.conf -ista1
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\endverbatim
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%wpa_supplicant completes authentication and prints following events:
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\verbatim
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Trying to associate with 02:b8:a6:62:08:5a (SSID='jkm-test-psk' freq=0 MHz)
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Associated with 02:b8:a6:62:08:5a
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WPA: Key negotiation completed with 02:b8:a6:62:08:5a [PTK=TKIP GTK=TKIP]
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CTRL-EVENT-CONNECTED - Connection to 02:b8:a6:62:08:5a completed (auth)
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\endverbatim
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If test setup is using multiple clients, it is possible to run
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multiple %wpa_supplicant processes. Alternatively, the support for
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multiple interfaces can be used with just one process to save some
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resources on single-CPU systems. For example, following command runs
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two clients:
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\verbatim
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./wpa_supplicant -Dtest -cpsk-test.conf -ista1 \
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-N -Dtest -cpsk-test.conf -ista2
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\endverbatim
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This shows following event log:
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\verbatim
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Trying to associate with 02:b8:a6:62:08:5a (SSID='jkm-test-psk' freq=0 MHz)
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Associated with 02:b8:a6:62:08:5a
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WPA: Key negotiation completed with 02:b8:a6:62:08:5a [PTK=TKIP GTK=TKIP]
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CTRL-EVENT-CONNECTED - Connection to 02:b8:a6:62:08:5a completed (auth)
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Trying to associate with 02:b8:a6:62:08:5a (SSID='jkm-test-psk' freq=0 MHz)
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Associated with 02:b8:a6:62:08:5a
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WPA: Key negotiation completed with 02:b8:a6:62:08:5a [PTK=TKIP GTK=TKIP]
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CTRL-EVENT-CONNECTED - Connection to 02:b8:a6:62:08:5a completed (auth)
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\endverbatim
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hostapd shows this with following events:
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\verbatim
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ap1: STA 02:b5:64:63:30:63 IEEE 802.11: associated
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ap1: STA 02:b5:64:63:30:63 WPA: pairwise key handshake completed (WPA)
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ap1: STA 02:b5:64:63:30:63 WPA: group key handshake completed (WPA)
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ap1: STA 02:2a:c4:18:5b:f3 IEEE 802.11: associated
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ap1: STA 02:2a:c4:18:5b:f3 WPA: pairwise key handshake completed (WPA)
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ap1: STA 02:2a:c4:18:5b:f3 WPA: group key handshake completed (WPA)
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\endverbatim
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By default, driver_param is simulating a driver that uses the WPA/RSN
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IE generated by %wpa_supplicant. Driver-generated IE and AssocInfo
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events can be tested by adding \a use_associnfo=1 to the \a driver_param
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line in the configuration file. For example:
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\verbatim
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driver_param=test_socket=/tmp/Test/ap1 use_associnfo=1
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\endverbatim
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\section unit_tests Unit tests
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Number of the components (.c files) used in %wpa_supplicant define
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their own unit tests for automated validation of the basic
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functionality. Most of the tests for cryptographic algorithms are
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using standard test vectors to validate functionality. These tests can
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be useful especially when verifying port to a new CPU target.
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The test programs are collected in the tests subdirectory. All
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automated unit tests can be run with
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\verbatim
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make run-tests
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\endverbatim
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This make target builds and runs each test and terminates with zero
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exit code if all tests were completed successfully.
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\section wpa_trace Tracing code for developer debuggin
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%wpa_supplicant and hostapd can be built with tracing code that will
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track and analyze memory allocations and other resource registrations
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and certain API uses. If incorrect use is detected, a backtrace of the
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call location (and/or allocation location) is shown. This can also be
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used to detect certain categories of memory leaks and report them
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automatically when the program is terminated. The report will also
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include information about forgotten eloop events.
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The trace code can be enabled with CONFIG_WPA_TRACE=y build
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option. More verbose backtrace information can be generated if libbfd
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is available and the binaries are not stripped of symbol
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information. This is enabled with CONFIG_WPA_TRACE_BFD=y.
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For example, a memory leak (forgotten os_free() call) would show up
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like this when the program is terminated:
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\verbatim
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MEMLEAK[0x82d200]: len 128
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WPA_TRACE: memleak - START
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[0]: ./wpa_supplicant(os_malloc+0x59) [0x41a5e9]
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os_malloc() ../src/utils/os_unix.c:359
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[1]: ./wpa_supplicant(os_zalloc+0x16) [0x41a676]
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os_zalloc() ../src/utils/os_unix.c:418
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[2]: ./wpa_supplicant(wpa_supplicant_init+0x38) [0x48b508]
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wpa_supplicant_init() wpa_supplicant.c:2315
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[3]: ./wpa_supplicant(main+0x2f3) [0x491073]
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main() main.c:252
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WPA_TRACE: memleak - END
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MEMLEAK: total 128 bytes
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\endverbatim
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Another type of error that can be detected is freeing of memory area
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that was registered for some use and is still be referenced:
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\verbatim
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WPA_TRACE: Freeing referenced memory - START
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[2]: ./wpa_supplicant(os_free+0x5c) [0x41a53c]
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os_free() ../src/utils/os_unix.c:411
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[3]: ./wpa_supplicant(wpa_supplicant_remove_iface+0x30) [0x48b380]
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wpa_supplicant_remove_iface() wpa_supplicant.c:2259
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[4]: ./wpa_supplicant(wpa_supplicant_deinit+0x20) [0x48b3e0]
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wpa_supplicant_deinit() wpa_supplicant.c:2430
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[5]: ./wpa_supplicant(main+0x357) [0x4910d7]
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main() main.c:276
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WPA_TRACE: Freeing referenced memory - END
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WPA_TRACE: Reference registration - START
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[1]: ./wpa_supplicant [0x41c040]
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eloop_trace_sock_add_ref() ../src/utils/eloop.c:94
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[2]: ./wpa_supplicant(wpa_supplicant_ctrl_iface_deinit+0x17) [0x473247]
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wpa_supplicant_ctrl_iface_deinit() ctrl_iface_unix.c:436
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[3]: ./wpa_supplicant [0x48b21c]
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wpa_supplicant_cleanup() wpa_supplicant.c:378
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wpa_supplicant_deinit_iface() wpa_supplicant.c:2155
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[4]: ./wpa_supplicant(wpa_supplicant_remove_iface+0x30) [0x48b380]
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wpa_supplicant_remove_iface() wpa_supplicant.c:2259
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[5]: ./wpa_supplicant(wpa_supplicant_deinit+0x20) [0x48b3e0]
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wpa_supplicant_deinit() wpa_supplicant.c:2430
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[6]: ./wpa_supplicant(main+0x357) [0x4910d7]
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main() main.c:276
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WPA_TRACE: Reference registration - END
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Aborted
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\endverbatim
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This type of error results in showing backtraces for both the location
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where the incorrect freeing happened and the location where the memory
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area was marked referenced.
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*/
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