302 lines
8.4 KiB
Markdown
302 lines
8.4 KiB
Markdown
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# Writing Tests {#sec-writing-nixos-tests}
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A NixOS test is a Nix expression that has the following structure:
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```nix
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import ./make-test-python.nix {
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# Either the configuration of a single machine:
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machine =
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{ config, pkgs, ... }:
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{ configuration…
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};
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# Or a set of machines:
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nodes =
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{ machine1 =
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{ config, pkgs, ... }: { … };
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machine2 =
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{ config, pkgs, ... }: { … };
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…
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};
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testScript =
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''
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Python code…
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'';
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}
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```
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The attribute `testScript` is a bit of Python code that executes the
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test (described below). During the test, it will start one or more
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virtual machines, the configuration of which is described by the
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attribute `machine` (if you need only one machine in your test) or by
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the attribute `nodes` (if you need multiple machines). For instance,
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[`login.nix`](https://github.com/NixOS/nixpkgs/blob/master/nixos/tests/login.nix)
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only needs a single machine to test whether users can log in
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on the virtual console, whether device ownership is correctly maintained
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when switching between consoles, and so on. On the other hand,
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[`nfs/simple.nix`](https://github.com/NixOS/nixpkgs/blob/master/nixos/tests/nfs/simple.nix),
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which tests NFS client and server functionality in the
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Linux kernel (including whether locks are maintained across server
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crashes), requires three machines: a server and two clients.
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There are a few special NixOS configuration options for test VMs:
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`virtualisation.memorySize`
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: The memory of the VM in megabytes.
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`virtualisation.vlans`
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: The virtual networks to which the VM is connected. See
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[`nat.nix`](https://github.com/NixOS/nixpkgs/blob/master/nixos/tests/nat.nix)
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for an example.
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`virtualisation.writableStore`
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: By default, the Nix store in the VM is not writable. If you enable
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this option, a writable union file system is mounted on top of the
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Nix store to make it appear writable. This is necessary for tests
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that run Nix operations that modify the store.
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For more options, see the module
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[`qemu-vm.nix`](https://github.com/NixOS/nixpkgs/blob/master/nixos/modules/virtualisation/qemu-vm.nix).
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The test script is a sequence of Python statements that perform various
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actions, such as starting VMs, executing commands in the VMs, and so on.
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Each virtual machine is represented as an object stored in the variable
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`name` if this is also the identifier of the machine in the declarative
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config. If you didn\'t specify multiple machines using the `nodes`
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attribute, it is just `machine`. The following example starts the
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machine, waits until it has finished booting, then executes a command
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and checks that the output is more-or-less correct:
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```py
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machine.start()
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machine.wait_for_unit("default.target")
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if not "Linux" in machine.succeed("uname"):
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raise Exception("Wrong OS")
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```
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The first line is actually unnecessary; machines are implicitly started
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when you first execute an action on them (such as `wait_for_unit` or
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`succeed`). If you have multiple machines, you can speed up the test by
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starting them in parallel:
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```py
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start_all()
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```
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The following methods are available on machine objects:
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`start`
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: Start the virtual machine. This method is asynchronous --- it does
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not wait for the machine to finish booting.
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`shutdown`
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: Shut down the machine, waiting for the VM to exit.
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`crash`
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: Simulate a sudden power failure, by telling the VM to exit
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immediately.
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`block`
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: Simulate unplugging the Ethernet cable that connects the machine to
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the other machines.
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`unblock`
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: Undo the effect of `block`.
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`screenshot`
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: Take a picture of the display of the virtual machine, in PNG format.
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The screenshot is linked from the HTML log.
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`get_screen_text_variants`
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: Return a list of different interpretations of what is currently
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visible on the machine\'s screen using optical character
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recognition. The number and order of the interpretations is not
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specified and is subject to change, but if no exception is raised at
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least one will be returned.
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::: {.note}
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This requires passing `enableOCR` to the test attribute set.
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:::
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`get_screen_text`
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: Return a textual representation of what is currently visible on the
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machine\'s screen using optical character recognition.
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::: {.note}
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This requires passing `enableOCR` to the test attribute set.
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:::
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`send_monitor_command`
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: Send a command to the QEMU monitor. This is rarely used, but allows
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doing stuff such as attaching virtual USB disks to a running
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machine.
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`send_key`
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: Simulate pressing keys on the virtual keyboard, e.g.,
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`send_key("ctrl-alt-delete")`.
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`send_chars`
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: Simulate typing a sequence of characters on the virtual keyboard,
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e.g., `send_chars("foobar\n")` will type the string `foobar`
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followed by the Enter key.
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`execute`
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: Execute a shell command, returning a list `(status, stdout)`.
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`succeed`
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: Execute a shell command, raising an exception if the exit status is
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not zero, otherwise returning the standard output. Commands are run
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with `set -euo pipefail` set:
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- If several commands are separated by `;` and one fails, the
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command as a whole will fail.
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- For pipelines, the last non-zero exit status will be returned
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(if there is one, zero will be returned otherwise).
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- Dereferencing unset variables fail the command.
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`fail`
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: Like `succeed`, but raising an exception if the command returns a zero
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status.
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`wait_until_succeeds`
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: Repeat a shell command with 1-second intervals until it succeeds.
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`wait_until_fails`
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: Repeat a shell command with 1-second intervals until it fails.
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`wait_for_unit`
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: Wait until the specified systemd unit has reached the "active"
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state.
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`wait_for_file`
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: Wait until the specified file exists.
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`wait_for_open_port`
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: Wait until a process is listening on the given TCP port (on
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`localhost`, at least).
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`wait_for_closed_port`
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: Wait until nobody is listening on the given TCP port.
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`wait_for_x`
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: Wait until the X11 server is accepting connections.
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`wait_for_text`
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: Wait until the supplied regular expressions matches the textual
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contents of the screen by using optical character recognition (see
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`get_screen_text` and `get_screen_text_variants`).
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::: {.note}
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This requires passing `enableOCR` to the test attribute set.
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:::
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`wait_for_console_text`
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: Wait until the supplied regular expressions match a line of the
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serial console output. This method is useful when OCR is not
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possibile or accurate enough.
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`wait_for_window`
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: Wait until an X11 window has appeared whose name matches the given
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regular expression, e.g., `wait_for_window("Terminal")`.
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`copy_from_host`
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: Copies a file from host to machine, e.g.,
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`copy_from_host("myfile", "/etc/my/important/file")`.
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The first argument is the file on the host. The file needs to be
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accessible while building the nix derivation. The second argument is
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the location of the file on the machine.
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`systemctl`
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: Runs `systemctl` commands with optional support for
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`systemctl --user`
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```py
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machine.systemctl("list-jobs --no-pager") # runs `systemctl list-jobs --no-pager`
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machine.systemctl("list-jobs --no-pager", "any-user") # spawns a shell for `any-user` and runs `systemctl --user list-jobs --no-pager`
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```
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`shell_interact`
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: Allows you to directly interact with the guest shell. This should
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only be used during test development, not in production tests.
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Killing the interactive session with `Ctrl-d` or `Ctrl-c` also ends
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the guest session.
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To test user units declared by `systemd.user.services` the optional
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`user` argument can be used:
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```py
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machine.start()
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machine.wait_for_x()
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machine.wait_for_unit("xautolock.service", "x-session-user")
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```
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This applies to `systemctl`, `get_unit_info`, `wait_for_unit`,
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`start_job` and `stop_job`.
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For faster dev cycles it\'s also possible to disable the code-linters
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(this shouldn\'t be commited though):
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```nix
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import ./make-test-python.nix {
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skipLint = true;
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machine =
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{ config, pkgs, ... }:
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{ configuration…
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};
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testScript =
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''
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Python code…
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'';
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}
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```
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This will produce a Nix warning at evaluation time. To fully disable the
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linter, wrap the test script in comment directives to disable the Black
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linter directly (again, don\'t commit this within the Nixpkgs
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repository):
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```nix
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testScript =
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''
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# fmt: off
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Python code…
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# fmt: on
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'';
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```
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