Some test cases require (at least with recent hostapd versions) a
stand alone radius server. This is done using driver=none in the
hostapd config file. For this use case hostapd does not need any
radio since its not doing anything wireless related.
Now inside the hw.conf file, under the HOSTAPD group, you can
specify a config file as the value to 'radius_server' key. This
config file will be used without any associated radio when hostapd
is started.
These two processes are executed per-test so they can be passed the
test name and have the logs stored only in tests that actually need
them rather than at the top level.
After changing the valgrind log to --log-fd, it appears that
the log file just gets appended, where before it was overwritten.
This makes test print out all previous tests valgrind results.
Now after printing out the valgrind info we can erase the file
for the next test.
This was a mistake in the original implementation. Since test-runner
is always run from the tools directory using --log with no directory
specified would result in many log files being put into the iwd tree.
Instead we can make --log take a required argument so its more
obvious where all the logs are going to go.
localtime indexes month starting at zero so adding 1 gives us a folder
name with the correct month.
The year is also set as 'years since 1900', so we need to add 1900 to
the year to get the actual year.
Historically if you wanted to see output from a python test you needed
to specify -v pytests. This was also the case if IWD was started from
python.
Nearly every time I run test-runner I would specify "-v iwd,pytests"
only to get the IWD output on these specific tests.
Instead we can special case 'python3' (previously 'pytests') inside
execute_program so that turning on verbosity for 'iwd' also turns it
on for the python tests.
After the logging changes verbose IWD with valgrind did not show any IWD
output. This commit fixes this by checking the verbosity against log_name
rather than argv[0] since log_name has a special case for valgrind/iwd.
The valgrind logic in start_iwd was refactored to only use the --log-fd
option rather than using --log-file in addition to --log-fd.
All the processes verbose output is just written to stdout, and very
hard to parse after the test runs. Having test-runner write the
processes output to separate log files is much nicer to view after
the test runs.
A read/write file system is created which is separate and isolated
from the current FS mount (which mounts the whole host file system).
Doing this requires the user to create a folder somewhere to be used
as the mount point. This folder is where all the log files will end
up after test-runner runs.
Since test-runner must be run as root, care was taken to keep the
log files owned by the user which runs test-runner. The UID/GID
are passed to the VM, and any log files created are chown'ed back
to the user who ran test-runner.
execute_program was refactored, and both verbose and log arguments
were removed. The verbose argument was not really required since
we can do check_verbosity(argv[0]) internally. The 'log' flag was
only used along with --shell, and now the user can simply use
--log instead of dumping /tmp/iwd.log.
You can use this feature by specifying --log[=path] to test-runner.
If no path is provided the current directory will be used. Using
the --log flag will result in all processes being run with the
--verbose flag.
A new folder will be created under the --log path. The folder will
be of the name "run-<year>-<month>-<dat>-<PID>". Under this folder
you will find any global process logs. These are processes that
are only run once for ALL tests (hwsim, ifconfig, dbus etc.). There
will also be folders for specific tests that were run. Inside these
test folders will be logs of processes that are run per-test (iwd,
hostapd, python etc.).
Coverity reported this as a leak, but the test queue is actually
getting freed later and does not need to be freed locally in add_path
This basically reverts c0863e5bc6
The -U parameter only allowed for a list of unit tests to be run.
Most of the time for sanity checking you want to run all the unit
tests so this has been changed to take an optional argument.
Now, the -U flag (by itself) will run all unit tests. Running a
single or list of unit tests can still be achieved by:
--unit-tests=test-eapol,test-crypto
This makes every full test run consistent. The test list was being
stored as a hashmap, which has no been changed to a queue so we can
insert each test sorted.
Specifically, this defines the behavior when --shell is used when no
specific test is specified. In this case test-runner will assume the
'shell' test/sandbox should be used as the test environment as
running all autotests with --shell is not useful or feasable.
This option allows the script to be called with a raw XML file. This
is mostly useful for testing, but since its already implemented we
might as well include it.
Some hotspot networks do not contain SSID_STR, which was required
for both naming the provisioning file as well as the 'Name' key.
The DisplayedOperatorName is a better option for this 'Name' key
and could also be used for the filename.
Now, DisplayedOperatorName is preferred, and if not found SSID_STR
is used.
This will allow the user to see the iwd output in /tmp/iwd.log.
execute_program was extended to take a 'log' flag. If true, this
will cause the programs output to be stored in /tmp/<name>.log.
This is only useful when using the --shell command as this file
will go away once the VM stops. The verbose flag always overrides
the logging functionality.
For now only iwd output is logged when using --shell.
It is sometimes valuable to just boot into a shell in order to manually
test functionality. Since test-runner already is setup to run a minimal
kernel with all the necessary requirements for hostapd/iwd it made
sense to allow the user to do this.
If -s,--shell is passed into test runner, no python tests will be run.
The hw.conf file is still used to setup IWD and hostapd so once booted
into the shell you can still (manually) run the test (e.g. via iwctl).
This also works when using USB/PCI passthrough. This makes testing
out different kernel version with real hardware much quicker than
using the host kernel.
This tool will convert an iOS 'mobileconfig' file into the IWD
format. The tool only supports PEAP and TTLS networks, including
hotspots.
It will also parse out any certificate chains found in the
mobileconfig file, and verify they lead to a root CA found on the
system. If they do, this root CA will be used as the CACert in
the provisioning file.
Two new hardware configuration keys were added:
[radX]
iftype_disable=station,ap,adhoc,p2p_client,p2p_go,mesh_point
cipher_disable=wep40,wep104,tkip,ccmp,bip
Any of the above values are supported and can be disabled.
Support is coming to configure radios with a specific set of interface
type and cipher support, so the input to create_hwsim_radio is better
suited to use a parameter structure rather than adding more parameters.