When a property getter returns an empty/missing strv-array, in multi-line
mode we should not print any lines.
To get that right, we must mark the cell as STRV type, even if there is no value
provided.
Previously, with text_out_flags having NM_META_ACCESSOR_GET_OUT_FLAGS_STRV
and value being NULL, we would not set
cell->text_format = PRINT_DATA_CELL_FORMAT_TYPE_STRV;
and thus, later on the value would be treated as a missing (plain)
string.
The property getter for certain properties tries to return
a strv array.
In this case, the result should be identical, whether an
empty strv array or NULL is returned.
Let _ip_config_get_routes() return %NULL if there are no routes.
This should have no practical difference, but it actually exposes
a bug in "cli/common/utils.c", which was previously hidden by
not commonly returning %NULL. This bug will be fixed in the
next commit.
Commands that fail with G_DEBUG=fatal-warnings produce unstable
output like
(process:10743): GLib-CRITICAL **: 16:29:13.635: g_ptr_array_add: assertion 'rarray' failed
To workaround that, add a new option for marking the output as unstable.
An alternative might be to extend the replace_stdout, replace_stderr
arguments to support more powerful matching, like by specifying regular
expression for replacing. However, it's just too complicated. Add a simpler
workaround by passing _UNSTABLE_OUTPUT.
How does `nmcli -f ALL dev show $DEV` look, if it references
a connection that is invisible to the user?
Note in the output:
CONNECTIONS.AVAILABLE-CONNECTIONS[1]: (null) | (null)
At several places, "test-networkmanager-service.py" uses generated numbers
with a defined seed. For example, generated connection's UUID is
generated in a predictable, but randomized way (if you forgive the
inprecise use of the word "random" in context of using a deterministic
seed).
Aside the connection's UUID, this becomes more interesting in the next commit
where the stub server generates a list of IP and DHCP settings in a predictable
randomized way.
For "clients/tests" we spawn the test service multiple times, but also
create similar environments by calling init_001(). This is done for
convenience, where out of lazyness all the tests share one setup. But it's
still a good idea that these tests generate slightly different setups,
wherever applicable. this increases the possible setups which get tested.
For example, the number of static IPv4 addresses (the following commit) is
interested to explicitly test for zero or a non-zero number of
addresses. If all tests happen to use the same seed, the tests are expected
to also generate the same number of addresses, and we miss an opportunity to
hit interesting test cases.
There is still no guarantee that all interesting cases are hit, the chances are just
better. The approach of generating the setup randomly, does not preclude that
the stub-server allows to explicitly configure the setup. However, due to the
sheer number of combinations that might be interesting to test, it's much simpler
to rely on some randomization and have the justifid hope we catch interesting cases.
Also in terms of runtime of the test, the cli unit tests should complete within
few seconds. Testing every combination would result in huge tests and long runtimes.
Also, the patch refactors generating random numbers in
"test-networkmanager-service.py". For example, it introduces
Util.RandomSeed(), which can be used to generate a sequence of different
random numbers. It works by having an internal state and a counter which is
combined to chain the seed and generate different numbers on each call.
