With this program/Python library you can easily create mock objects on D-Bus. This is useful for writing tests for software which talks to D-Bus services such as upower, systemd, logind, gnome-session or others, and it is hard (or impossible without root privileges) to set the state of the real services to what you expect in your tests.
Suppose you want to write tests for gnome-settings-daemon's power plugin, or
another program that talks to upower. You want to verify that after the
configured idle time the program suspends the machine. So your program calls
org.freedesktop.UPower.Suspend()
on the system D-Bus.
Now, your test suite should not really talk to the actual system D-Bus and the
real upower; a make check
that suspends your machine will not be considered
very friendly by most people, and if you want to run this in continuous
integration test servers or package build environments, chances are that your
process does not have the privilege to suspend, or there is no system bus or
upower to begin with. Likewise, there is no way for an user process to
forcefully set the system/seat idle flag in logind, so your
tests cannot set up the expected test environment on the real daemon.
That's where mock objects come into play: They look like the real API (or at least the parts that you actually need), but they do not actually do anything (or only some action that you specify yourself). You can configure their state, behaviour and responses as you like in your test, without making any assumptions about the real system status.
When using a local system/session bus, you can do unit or integration testing
without needing root privileges or disturbing a running system. The Python API
offers some convenience functions like start_session_bus()
and
start_system_bus()
for this, in a DBusTestCase
class (subclass of the
standard unittest.TestCase
).
You can use this with any programming language, as you can run the mocker as a
normal program. The actual setup of the mock (adding objects, methods,
properties, and signals) all happen via D-Bus methods on the
org.freedesktop.DBus.Mock
interface. You just don't have the convenience
D-Bus launch API that way.
Picking up the above example about mocking upower's Suspend()
method, this
is how you would set up a mock upower in your test case:
import dbus
import dbusmock
class TestMyProgram(dbusmock.DBusTestCase):
@classmethod
def setUpClass(klass):
klass.start_system_bus()
klass.dbus_con = klass.get_dbus(system_bus=True)
def setUp(self):
self.p_mock = self.spawn_server('org.freedesktop.UPower',
'/org/freedesktop/UPower',
'org.freedesktop.UPower',
system_bus=True,
stdout=subprocess.PIPE)
# Get a proxy for the UPower object's Mock interface
self.dbus_upower_mock = dbus.Interface(self.dbus_con.get_object(
'org.freedesktop.UPower', '/org/freedesktop/UPower'),
dbusmock.MOCK_IFACE)
self.dbus_upower_mock.AddMethod('', 'Suspend', '', '', '')
def tearDown(self):
self.p_mock.terminate()
self.p_mock.wait()
def test_suspend_on_idle(self):
# run your program in a way that should trigger one suspend call
# now check the log that we got one Suspend() call
self.assertRegex(self.p_mock.stdout.readline(), b'^[0-9.]+ Suspend$')
Let's walk through:
We derive our tests from
dbusmock.DBusTestCase
instead ofunittest.TestCase
directly, to make use of the convenience API to start a local system bus.
setUpClass()
starts a local system bus, and makes a connection to it available to all methods asdbus_con
.True
means that we connect to the system bus, not the session bus. We can use the same bus for all tests, so doing this once insetUpClass()
instead ofsetUp()
is enough.
setUp()
spawns the mock D-Bus server process for an initial/org/freedesktop/UPower
object with anorg.freedesktop.UPower
D-Bus interface on the system bus. We capture its stdout to be able to verify that methods were called.We then call
org.freedesktop.DBus.Mock.AddMethod()
to add aSuspend()
method to our new object to the default D-Bus interface. This will not do anything (except log its call to stdout). It takes no input arguments, returns nothing, and does not run any custom code.
tearDown()
stops our mock D-Bus server again. We do this so that each test case has a fresh and clean upower instance, but of course you can also set up everything insetUpClass()
if tests do not interfere with each other on setting up the mock.
test_suspend_on_idle()
is the actual test case. It needs to run your program in a way that should trigger one suspend call. Your program will try to callSuspend()
, but as that's now being served by our mock instead of upower, there will not be any actual machine suspend. Our mock process will log the method call together with a time stamp; you can use the latter for doing timing related tests, but we just ignore it here.
We use the actual session bus for this example. You can use
dbus-run-session
to start a private one as well if you want, but that is
not part of the actual mocking.
So let's start a mock at the D-Bus name com.example.Foo
with an initial
"main" object on path /, with the main D-Bus interface
com.example.Foo.Manager
:
python3 -m dbusmock com.example.Foo / com.example.Foo.Manager
On another terminal, let's first see what it does:
gdbus introspect --session -d com.example.Foo -o /
You'll see that it supports the standard D-Bus Introspectable
and
Properties
interfaces, as well as the org.freedesktop.DBus.Mock
interface for controlling the mock, but no "real" functionality yet. So let's
add a method:
gdbus call --session -d com.example.Foo -o / -m org.freedesktop.DBus.Mock.AddMethod '' Ping '' '' ''
Now you can see the new method in introspect
, and call it:
gdbus call --session -d com.example.Foo -o / -m com.example.Foo.Manager.Ping
The mock process in the other terminal will log the method call with a time
stamp, and you'll see something like 1348832614.970 Ping
.
Now add another method with two int arguments and a return value and call it:
gdbus call --session -d com.example.Foo -o / -m org.freedesktop.DBus.Mock.AddMethod \ '' Add 'ii' 'i' 'ret = args[0] + args[1]' gdbus call --session -d com.example.Foo -o / -m com.example.Foo.Manager.Add 2 3
This will print (5,)
as expected (remember that the return value is always
a tuple), and again the mock process will log the Add method call.
You can do the same operations in e. g. d-feet or any other D-Bus language binding.
Usually you want to verify which methods have been called on the mock with which arguments. There are three ways to do that:
- By default, the mock process writes the call log to stdout.
- You can call the mock process with the
-l
/--logfile
argument, or specify a log file object in thespawn_server()
method if you are using Python.- You can use the
GetCalls()
,GetMethodCalls()
andClearCalls()
methods on theorg.freedesktop.DBus.Mock
D-Bus interface to get an array of tuples describing the calls.
Some D-Bus services are commonly used in test suites, such as UPower or
NetworkManager. python-dbusmock provides "templates" which set up the common
structure of these services (their main objects, properties, and methods) so
that you do not need to carry around this common code, and only need to set up
the particular properties and specific D-Bus objects that you need. These
templates can be parameterized for common customizations, and they can provide
additional convenience methods on the org.freedesktop.DBus.Mock
interface
to provide more abstract functionality like "add a battery".
For example, for starting a server with the "upower" template in Python you can run
(self.p_mock, self.obj_upower) = self.spawn_server_template( 'upower', {'OnBattery': True}, stdout=subprocess.PIPE)
or load a template into an already running server with the AddTemplate()
method; this is particularly useful if you are not using Python:
python3 -m dbusmock --system org.freedesktop.UPower /org/freedesktop/UPower org.freedesktop.UPower gdbus call --system -d org.freedesktop.UPower -o /org/freedesktop/UPower -m org.freedesktop.DBus.Mock.AddTemplate 'upower' '{"OnBattery": <true>}'
This creates all expected properties such as DaemonVersion
, and changes the
default for one of them (OnBattery
) through the (optional) parameters dict.
If you do not need to specify parameters, you can do this in a simpler way with
python3 -m dbusmock --template upower
The template does not create any devices by default. You can add some with the template's convenience methods like
ac_path = self.dbusmock.AddAC('mock_AC', 'Mock AC') bt_path = self.dbusmock.AddChargingBattery('mock_BAT', 'Mock Battery', 30.0, 1200)
or calling AddObject()
yourself with the desired properties, of course.
If you want to contribute a template, look at dbusmock/templates/upower.py for a real-life implementation. You can copy dbusmock/templates/SKELETON to your new template file name and replace "CHANGEME" with the actual code/values.
Have a look at the test suite for two real-live use cases:
tests/test_upower.py
simulates upowerd, in a more complete way than in above example and using theupower
template. It verifies thatupower --dump
is convinced that it's talking to upower.tests/test_consolekit.py
simulates ConsoleKit and verifies thatck-list-sessions
works with the mock.tests/test_api.py
runs a mock on the session bus and exercises all available functionality, such as adding additional objects, properties, multiple methods, input arguments, return values, code in methods, raising signals, and introspection.
The dbusmock
module has extensive documentation built in, which you can
read with e. g. pydoc3 dbusmock
.
pydoc3 dbusmock.DBusMockObject
shows the D-Bus API of the mock object,
i. e. methods like AddObject()
, AddMethod()
etc. which are used to set
up your mock object.
pydoc3 dbusmock.DBusTestCase
shows the convenience Python API for writing
test cases with local private session/system buses and launching the server.
pydoc3 dbusmock.templates
shows all available templates.
pydoc3 dbusmock.templates.NAME
shows the documentation and available
parameters for the NAME
template.
python3 -m dbusmock --help
shows the arguments and options for running the
mock server as a program.
python-dbusmock is hosted on github:
https://github.com/martinpitt/python-dbusmock