`assert` has the annoying property that it dumps a lot of code at the
user without the built in capability to display a nicer message. We have
worked around this using `assertMsg` which would *additionally* display
a nice message. We can do even better: By using `throw` we can make
evaluation fail before assert draws its conclusions and prevent it from
displaying the code making up the assert condition, so we get the nicer
message of `throw` and the syntactical convenience of `assert`.
Before:
nix-repl> python.override { reproducibleBuild = true; stripBytecode = false; }
trace: Deterministic builds require stripping bytecode.
error: assertion (((lib).assertMsg (reproducibleBuild -> stripBytecode)) "Deterministic builds require stripping bytecode.") failed at /home/lukas/src/nix/nixpkgs/pkgs/development/interpreters/python/cpython/2.7/default.nix:45:1
After:
nix-repl> python.override { reproducibleBuild = true; stripBytecode = false; }
error: Deterministic builds require stripping bytecode.
The `extraConfig` parameter only handles text - it doesn't support
arbitrary secrets and, with the way it's processed in the setup
script, it's very easy to accidentally unescape the echoed string and
run shell commands / feed garbage to bash.
To fix this, implement a new option, `config`, which instead takes a
typed attribute set, generates the `.env` file in nix and does
arbitrary secret replacement. This option is then used to provide the
configuration for all other options which change the `.env` file.
When upgrading bookstack, if something in the cache conflicts with the
new installation, the artisan commands might fail. To solve this, make
the cache lifetime bound to the setup service. This also removes the
`cacheDir` option, since the path is now handled automatically by
systemd.
network.target is reached earlier, but with much fewer services
available. DNS is likely to be not functional before
network-online.target, so waiting for that seems better for that reason
alone. the existing backends for network-online.target all seem to do
reasonable things (wait until all links are in *some* stable state), so
we shouldn't lose anything from waiting.
This removes `/run/nixos/activation-reload-list` (which we will need in
the future when reworking the reload logic) and makes
`/run/nixos/activation-restart-list` honor `restartIfChanged` and
`reloadIfChanged`. This way activation scripts don't have to bother with
choosing between reloading and restarting.
Instead of referencing all library functions through `lib.` and
builtins through `builtins.` at every invocation, inherit them into
the appropriate scope.
The tsm-client needs a tsm-server to do anything useful.
Without a server, automated tests can just
check diagnostic outputs for plausibility.
The commit at hand adds two tests:
1.
The command line interface `dsmc` is called,
then it is verified that the program does
* report the correct client version,
* find its configuration file,
* report a connection error.
2.
To check the GUI (and the tsm-client nixos module), we add a
vm test which uses the module to install `tsm-client-withGui`.
To verify that the GUI's basic functionality is present,
we skip over all connection failure related error
messages and open the "Connection Information"
dialog from the main application window.
This dialog presents the node name and the client version;
both are verified by the test.
Note: Our `tsm-client` build recipe consists of two packages:
The "unwrapped" package and the final package.
This commit puts the unwrapped one into the final
package's `passthru` so that tests can access
the original version string that is needed to check
the client version reported by the application.