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This is used in the tests, too, and was already covered by the build.sh script, but not this README file. Signed-off-by: Vasyl Vavrychuk <vvavrychuk@gmail.com>
221 lines
8.7 KiB
Plaintext
221 lines
8.7 KiB
Plaintext
Automated hostapd/wpa_supplicant testing with mac80211_hwsim
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------------------------------------------------------------
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This directory contains testing infrastructure and test cases to run
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automated tests of full hostapd and wpa_supplicant functionality. This
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testing is done with the help of mac80211_hwsim which is Linux kernel
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driver that simulates IEEE 802.11 radios without requiring any
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additional hardware. This setup most of the hostapd and wpa_supplicant
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functionality (and large parts of the Linux cfg80211 and mac80211
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functionality for that matter) to be tested.
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mac80211_hwsim is loaded with five simulated radios to allow different
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device combinations to be tested. wlantest is used analyze raw packets
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captured through the hwsim0 monitor interface that capture all frames
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sent on all channels. wlantest is used to store the frames for
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analysis. Three wpa_supplicant processes are used to control three
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virtual radios and one hostapd process is used to dynamically control
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the other two virtual radios. wpa_supplicant/hostapd test functionality
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is used to verify that data connection (both unicast and broadcast)
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works between two netdevs.
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The python scripts and tools in this directory control test case
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execution. They interact wpa_supplicant and hostapd through control
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interfaces to perform the operations. In addition, wlantest_cli is used
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to verify that operations have been performed correctly and that the
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network connection works in the expected way.
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These test cases are run automatically against the hostap.git commits
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for regression testing and to help in keeping the hostap.git master
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branch in stable state. Results from these tests are available here:
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http://buildbot.w1.fi/hwsim/
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Building binaries for testing
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-----------------------------
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You will need to build (or use already built) components to be
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tested. These are available in the hostap.git repository and can be
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built for example as follows:
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cd ../../wpa_supplicant
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cp ../tests/hwsim/example-wpa_supplicant.config .config
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make clean
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make
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cd ../hostapd
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cp ../tests/hwsim/example-hostapd.config .config
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make clean
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make hostapd hostapd_cli hlr_auc_gw
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cd ../wlantest
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make clean
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make
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Alternatively, the build.sh script here can be used to run these steps
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with conditional creation of .config files only if they do not exist.
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The test scripts can find the binaries in the locations where they were
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built. It is also possible to install wlantest_cli somewhere on the path
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to use pre-built tools.
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Please note that some of the configuration parameters used to enable
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more testing coverage may require development packages that may not be
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installed by default in many distributions. For example, following
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Debian/Ubuntu packages are likely to be needed:
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- binutils-dev
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- libsqlite3-dev
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- libpcap-dev
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example-setup.txt provides more complete step-by-step example on how a
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test setup can be built.
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wpaspy
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------
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The python scripts use wpaspy.py to interact with the wpa_supplicant
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control interface, but the run-tests.py script adds the (relative)
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path into the environment so it doesn't need to be installed.
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mac80211_hwsim
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--------------
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mac80211_hwsim kernel module is available from the upstream Linux
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kernel. Some Linux distributions enable it by default. If that's not the
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case, you can either enable it in the kernel configuration
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(CONFIG_MAC80211_HWSIM=m) and rebuild your kernel or use Backports with
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CPTCFG_MAC80211_HWSIM=m to replace the wireless LAN components in the
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base kernel.
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sudo
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----
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Some parts of the testing process requires root privileges. The test
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scripts are currently using sudo to achieve this. To be able to run the
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tests, you'll probably want to enable sudo with a timeout to not expire
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password entry very quickly. For example, use this in the sudoers file:
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Defaults env_reset,timestamp_timeout=180
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Or on a dedicated test system, you could even disable password prompting
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with this in sudoers:
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%sudo ALL=NOPASSWD: ALL
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Other network interfaces
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------------------------
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Some of the test scripts are still using hardcoded interface names, so
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the easiest way of making things work is to avoid using other network
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devices that may use conflicting interface names. For example, unload
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any wireless LAN driver before running the tests and make sure that
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wlan0..4 gets assigned as the interface names for the mac80211_hwsim
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radios. It may also be possible to rename the interface expectations in
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run-tests.py to allow other names to be used.
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Please also note that some commonly enabled tools, like NetworkManager,
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may end up trying to control new network interfaces automatically. This
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can result in conflicts with the test scripts and you may need to
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disable such network services or at least mark the mac80211_hwsim wlan#
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interfaces as umanaged. As an example, this can be done in
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/etc/NetworkManager/NetworkManager.conf with following addition:
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[keyfile]
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unmanaged-devices=mac:02:00:00:00:00:00;mac:02:00:00:00:01:00;mac:02:00:00:00:02:00;mac:02:00:00:00:03:00;mac:02:00:00:00:04:00
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Running tests
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-------------
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Simplest way to run a full set of the test cases is by running
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run-all.sh in tests/hwsim directory. This will use start.sh to load the
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mac80211_hwsim module and start wpa_supplicant, hostapd, and various
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test tools. run-tests.sh is then used to run through all the defined
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test cases and stop.sh to stop the programs and unload the kernel
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module.
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run-all.sh can be used to run the same test cases under different
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conditions:
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# run normal test cases
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./run-all.sh
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# run normal test cases under valgrind
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./run-all.sh valgrind
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# run normal test cases with Linux tracing
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./run-all.sh trace
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# run normal test cases with multi channel support (see details below)
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./run-all.sh channels=<num of channels>
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run-all.sh directs debug logs into the logs subdirectory (or $LOGDIR if
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present in the environment). Log file names include the current UNIX
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timestamp and a postfix to identify the specific log:
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- *.log0 = wpa_supplicant debug log for the first radio
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- *.log1 = wpa_supplicant debug log for the second radio
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- *.log2 = wpa_supplicant debug log for the third radio
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- *.hostapd = hostapd debug log
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- hwsim0 = wlantest debug log
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- hwsim0.pcapng = capture with all frames exchanged during the tests
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- *.log = debug prints from the test scripts
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- trace.dat = Linux tracing record (if enabled)
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- hlr_auc_gw - hlr_auc_gw (EAP-SIM/AKA/AKA' authentication) log
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- auth_serv - hostapd as RADIUS authentication server log
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For manual testing, ./start.sh can be used to initialize interfaces and
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programs and run-tests.py to execute one or more test
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cases. run-tests.py output verbosity can be controlled with -d (more
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verbose debug output) and -q (less verbose output) on the command
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line. "-f <module name>" (pointing to file test_<module name>.py) can be
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used to specify that all test cases from a single file are to be
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run. Test name as the last command line argument can be specified that a
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single test case is to be run (e.g., "./run-tests.py ap_pmf_required").
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Notice that some tests require the driver to support concurrent
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operation on multi channels in order to run. These tests will be skipped
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in case the driver does not support multi channels. To enable support
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for multi channel, the number of supported channel is passed as an
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argument to run-all.sh or start.sh
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Adding/modifying test cases
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---------------------------
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All the test cases are defined in the test_*.py files. These are python
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scripts that can use the local helper classes to interact with the test
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components. While various python constructs can be used in the scripts,
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only a minimal level of python knowledge should really be needed to
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modify and add new test cases. The easiest starting point for this is
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likely to take a look at some of the example scripts. When working on a
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new test, run-tests.py with -d and the test case name on the command
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line is a convenient way of verifying functionality.
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run-tests.py will automatically import all test cases from the test_*.py
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files in this directory. All functions starting with the "test_" prefix
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in these files are assumed to be test cases. Each test case is named by
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the function name following the "test_" prefix.
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Results database
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----------------
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run-tests.py can be requested to write results from the execution of
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each test case into an sqlite database. The "-S <path to database>" and
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"-b <build id>" command line arguments can be used to do that. The
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database must have been prepared before this, e.g., with following:
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cat | sqlite3 /tmp/example.db <<EOF
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CREATE TABLE results (test,result,run,time,duration,build,commitid);
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CREATE INDEX results_idx ON results (test);
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CREATE INDEX results_idx2 ON results (run);
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CREATE TABLE tests (test,description);
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CREATE UNIQUE INDEX tests_idx ON tests (test);
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CREATE TABLE logs (test,run,type,contents);
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CREATE INDEX logs_idx ON logs (test);
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CREATE INDEX logs_idx2 ON logs (run);
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EOF
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