Writing Tests
A NixOS test is a Nix expression that has the following structure:
import ./make-test-python.nix {
# One or more machines:
nodes =
{ machine =
{ config, pkgs, ... }: { … };
machine2 =
{ config, pkgs, ... }: { … };
…
};
testScript =
''
Python code…
'';
}
The attribute testScript is a bit of Python code
that executes the test (described below). During the test, it will
start one or more virtual machines, the configuration of which is
described by the attribute nodes.
An example of a single-node test is
login.nix.
It only needs a single machine to test whether users can log in on
the virtual console, whether device ownership is correctly
maintained when switching between consoles, and so on. An
interesting multi-node test is
nfs/simple.nix.
It uses two client nodes to test correct locking across server
crashes.
There are a few special NixOS configuration options for test VMs:
virtualisation.memorySize
The memory of the VM in megabytes.
virtualisation.vlans
The virtual networks to which the VM is connected. See
nat.nix
for an example.
virtualisation.writableStore
By default, the Nix store in the VM is not writable. If you
enable this option, a writable union file system is mounted on
top of the Nix store to make it appear writable. This is
necessary for tests that run Nix operations that modify the
store.
For more options, see the module
qemu-vm.nix.
The test script is a sequence of Python statements that perform
various actions, such as starting VMs, executing commands in the
VMs, and so on. Each virtual machine is represented as an object
stored in the variable name if this is also the
identifier of the machine in the declarative config. If you
specified a node nodes.machine, the following
example starts the machine, waits until it has finished booting,
then executes a command and checks that the output is more-or-less
correct:
machine.start()
machine.wait_for_unit("default.target")
if not "Linux" in machine.succeed("uname"):
raise Exception("Wrong OS")
The first line is technically unnecessary; machines are implicitly
started when you first execute an action on them (such as
wait_for_unit or succeed). If
you have multiple machines, you can speed up the test by starting
them in parallel:
start_all()
Machine objects
The following methods are available on machine objects:
start
Start the virtual machine. This method is asynchronous — it
does not wait for the machine to finish booting.
shutdown
Shut down the machine, waiting for the VM to exit.
crash
Simulate a sudden power failure, by telling the VM to exit
immediately.
block
Simulate unplugging the Ethernet cable that connects the
machine to the other machines.
unblock
Undo the effect of block.
screenshot
Take a picture of the display of the virtual machine, in PNG
format. The screenshot is linked from the HTML log.
get_screen_text_variants
Return a list of different interpretations of what is
currently visible on the machine's screen using optical
character recognition. The number and order of the
interpretations is not specified and is subject to change,
but if no exception is raised at least one will be returned.
This requires passing enableOCR to the
test attribute set.
get_screen_text
Return a textual representation of what is currently visible
on the machine's screen using optical character recognition.
This requires passing enableOCR to the
test attribute set.
send_monitor_command
Send a command to the QEMU monitor. This is rarely used, but
allows doing stuff such as attaching virtual USB disks to a
running machine.
send_key
Simulate pressing keys on the virtual keyboard, e.g.,
send_key("ctrl-alt-delete").
send_chars
Simulate typing a sequence of characters on the virtual
keyboard, e.g.,
send_chars("foobar\n") will
type the string foobar followed by the
Enter key.
send_console
Send keys to the kernel console. This allows interaction
with the systemd emergency mode, for example. Takes a string
that is sent, e.g.,
send_console("\n\nsystemctl default\n").
execute
Execute a shell command, returning a list
(status, stdout).
Commands are run with set -euo pipefail
set:
If several commands are separated by
; and one fails, the command as a
whole will fail.
For pipelines, the last non-zero exit status will be
returned (if there is one; otherwise zero will be
returned).
Dereferencing unset variables fails the command.
It will wait for stdout to be closed.
If the command detaches, it must close stdout, as
execute will wait for this to consume all
output reliably. This can be achieved by redirecting stdout
to stderr >&2, to
/dev/console,
/dev/null or a file. Examples of
detaching commands are sleep 365d &,
where the shell forks a new process that can write to stdout
and xclip -i, where the
xclip command itself forks without
closing stdout.
Takes an optional parameter check_return
that defaults to True. Setting this
parameter to False will not check for the
return code and return -1 instead. This can be used for
commands that shut down the VM and would therefore break the
pipe that would be used for retrieving the return code.
A timeout for the command can be specified (in seconds)
using the optional timeout parameter,
e.g., execute(cmd, timeout=10) or
execute(cmd, timeout=None). The default
is 900 seconds.
succeed
Execute a shell command, raising an exception if the exit
status is not zero, otherwise returning the standard output.
Similar to execute, except that the
timeout is None by default. See
execute for details on command execution.
fail
Like succeed, but raising an exception if
the command returns a zero status.
wait_until_succeeds
Repeat a shell command with 1-second intervals until it
succeeds. Has a default timeout of 900 seconds which can be
modified, e.g.
wait_until_succeeds(cmd, timeout=10). See
execute for details on command execution.
wait_until_fails
Like wait_until_succeeds, but repeating
the command until it fails.
wait_for_unit
Wait until the specified systemd unit has reached the
active state.
wait_for_file
Wait until the specified file exists.
wait_for_open_port
Wait until a process is listening on the given TCP port (on
localhost, at least).
wait_for_closed_port
Wait until nobody is listening on the given TCP port.
wait_for_x
Wait until the X11 server is accepting connections.
wait_for_text
Wait until the supplied regular expressions matches the
textual contents of the screen by using optical character
recognition (see get_screen_text and
get_screen_text_variants).
This requires passing enableOCR to the
test attribute set.
wait_for_console_text
Wait until the supplied regular expressions match a line of
the serial console output. This method is useful when OCR is
not possibile or accurate enough.
wait_for_window
Wait until an X11 window has appeared whose name matches the
given regular expression, e.g.,
wait_for_window("Terminal").
copy_from_host
Copies a file from host to machine, e.g.,
copy_from_host("myfile", "/etc/my/important/file").
The first argument is the file on the host. The file needs
to be accessible while building the nix derivation. The
second argument is the location of the file on the machine.
systemctl
Runs systemctl commands with optional
support for systemctl --user
machine.systemctl("list-jobs --no-pager") # runs `systemctl list-jobs --no-pager`
machine.systemctl("list-jobs --no-pager", "any-user") # spawns a shell for `any-user` and runs `systemctl --user list-jobs --no-pager`
shell_interact
Allows you to directly interact with the guest shell. This
should only be used during test development, not in
production tests. Killing the interactive session with
Ctrl-d or Ctrl-c also
ends the guest session.
console_interact
Allows you to directly interact with QEMU’s stdin. This
should only be used during test development, not in
production tests. Output from QEMU is only read line-wise.
Ctrl-c kills QEMU and
Ctrl-d closes console and returns to the
test runner.
To test user units declared by
systemd.user.services the optional
user argument can be used:
machine.start()
machine.wait_for_x()
machine.wait_for_unit("xautolock.service", "x-session-user")
This applies to systemctl,
get_unit_info,
wait_for_unit, start_job and
stop_job.
For faster dev cycles it's also possible to disable the
code-linters (this shouldn't be commited though):
import ./make-test-python.nix {
skipLint = true;
nodes.machine =
{ config, pkgs, ... }:
{ configuration…
};
testScript =
''
Python code…
'';
}
This will produce a Nix warning at evaluation time. To fully
disable the linter, wrap the test script in comment directives to
disable the Black linter directly (again, don't commit this within
the Nixpkgs repository):
testScript =
''
# fmt: off
Python code…
# fmt: on
'';
Similarly, the type checking of test scripts can be disabled in
the following way:
import ./make-test-python.nix {
skipTypeCheck = true;
nodes.machine =
{ config, pkgs, ... }:
{ configuration…
};
}
Failing tests early
To fail tests early when certain invariables are no longer met
(instead of waiting for the build to time out), the decorator
polling_condition is provided. For example, if
we are testing a program foo that should not
quit after being started, we might write the following:
@polling_condition
def foo_running():
machine.succeed("pgrep -x foo")
machine.succeed("foo --start")
machine.wait_until_succeeds("pgrep -x foo")
with foo_running:
... # Put `foo` through its paces
polling_condition takes the following
(optional) arguments:
seconds_interval
: specifies how often the condition should be polled:
```py
@polling_condition(seconds_interval=10)
def foo_running():
machine.succeed("pgrep -x foo")
```
description
: is used in the log when the condition is checked. If this is not
provided, the description is pulled from the docstring of the
function. These two are therefore equivalent:
```py
@polling_condition
def foo_running():
"check that foo is running"
machine.succeed("pgrep -x foo")
```
```py
@polling_condition(description="check that foo is running")
def foo_running():
machine.succeed("pgrep -x foo")
```