GitOrigin-RevId: 4c2fcb090b1f3e5b47eaa7bd33913b574a11e0a0
7.1 KiB
Passthru-attributes
[]{#var-stdenv-passthru} []{#special-variables}
As opposed to most other mkDerivation
input attributes, passthru
is not passed to the derivation's builder
executable.
Changing it will not trigger a rebuild – it is "passed through".
Its value can be accessed as if it was set inside a derivation.
::: {.note}
passthru
attributes follow no particular schema, but there are a few conventional patterns.
:::
:::{.example #ex-accessing-passthru}
Setting and accessing passthru
attributes
{ stdenv, fetchGit }:
let
hello = stdenv.mkDerivation {
pname = "hello";
src = fetchGit { /* ... */ };
passthru = {
foo = "bar";
baz = {
value1 = 4;
value2 = 5;
};
};
};
in
hello.baz.value1
4
:::
Common passthru
-attributes
Many passthru
attributes are situational, so this section only lists recurring patterns.
They fall in one of these categories:
-
Global conventions, which are applied almost universally in Nixpkgs.
Generally these don't entail any special support built into the derivation they belong to. Common examples of this type are
passthru.tests
andpassthru.updateScript
. -
Conventions for adding extra functionality to a derivation.
These tend to entail support from the derivation or the
passthru
attribute in question. Common examples of this type arepassthru.optional-dependencies
,passthru.withPlugins
, andpassthru.withPackages
. All of those allow associating the package with a set of components built for that specific package, such as when building Python runtime environments using (python.withPackages
)[#python.withpackages-function].
Attributes that apply only to particular build helpers or language ecosystems are documented there.
passthru.tests
[]{#var-meta-tests}
An attribute set with tests as values. A test is a derivation that builds when the test passes and fails to build otherwise.
Run these tests with:
$ cd path/to/nixpkgs
$ nix-build -A your-package.tests
:::{.note}
The Nixpkgs systems for continuous integration Hydra and nixpkgs-review
don't build these derivations by default, and (@ofborg
) only builds them when evaluating pull requests for that particular package, or when manually instructed.
:::
Package tests
[]{#var-meta-tests-packages}
Besides tests provided by upstream, that you run in the checkPhase
, you may want to define tests derivations in the passthru.tests
attribute, which won't change the build. passthru.tests
have several advantages over running tests during any of the standard phases:
- They access the package as consumers would, independently from the environment in which it was built
- They can be run and debugged without rebuilding the package, which is useful if that takes a long time
- They don't add overhead to each build, as opposed checks added to the
installCheckPhase
, such asversionCheckHook
.
It is also possible to use passthru.tests
to test the version with testVersion
, but since that is pretty trivial and recommended thing to do, we recommend using versionCheckHook
for that, which has the following advantages over passthru.tests
:
- If the
versionCheckPhase
(the phase defined byversionCheckHook
) fails, it triggers a failure which can't be ignored if you use the package, or if you find out about it in anixpkgs-review
report. - Sometimes packages become silently broken - meaning they fail to launch but their build passes because they don't perform any tests in the
checkPhase
. If you use this tool infrequently, such a silent breakage may rot in your system / profile configuration, and you will not notice the failure until you will want to use this package. Testing such basic functionality ensures you have to deal with the failure when you update your system / profile. - When you open a PR, ofborg's CI will run
passthru.tests
of packages that are directly changed by your PR (according to your commits' messages), but if you'd want to use the@ofborg build
command for dependent packages, you won't have to specify in addition the.tests
attribute of the packages you want to build, and no body will be able to avoid these tests.
For more on how to write and run package tests for Nixpkgs, see the testing section in the package contributor guide.
NixOS tests
[]{#var-meta-tests-nixos}
Tests written for NixOS are available as the nixosTests
argument to package recipes.
For instance, the OpenSMTPD derivation includes lines similar to:
{ nixosTests, ... }:
{
# ...
passthru.tests = {
basic-functionality-and-dovecot-integration = nixosTests.opensmtpd;
};
}
NixOS tests run in a virtual machine (VM), so they are slower than regular package tests. For more information see the NixOS manual on NixOS module tests.
passthru.updateScript
[]{#var-passthru-updateScript-command} []{#var-passthru-updateScript-set-command} []{#var-passthru-updateScript-set-attrPath} []{#var-passthru-updateScript-set-supportedFeatures} []{#var-passthru-updateScript-env-UPDATE_NIX_NAME} []{#var-passthru-updateScript-env-UPDATE_NIX_PNAME} []{#var-passthru-updateScript-env-UPDATE_NIX_OLD_VERSION} []{#var-passthru-updateScript-env-UPDATE_NIX_ATTR_PATH} []{#var-passthru-updateScript-execution} []{#var-passthru-updateScript-supported-features} []{#var-passthru-updateScript-commit} []{#var-passthru-updateScript-commit-attrPath} []{#var-passthru-updateScript-commit-oldVersion} []{#var-passthru-updateScript-commit-newVersion} []{#var-passthru-updateScript-commit-files} []{#var-passthru-updateScript-commit-commitBody} []{#var-passthru-updateScript-commit-commitMessage} []{#var-passthru-updateScript-example-commit}
Nixpkgs tries to automatically update all packages that have an passthru.updateScript
attribute.
See the section on automatic package updates in the package contributor guide for details.