Add a new experimental `impure-env` setting that is a key-value list of
environment variables to inject into FOD derivations that specify the
corresponding `impureEnvVars`.
This allows clients to make use of this feature (without having to change the
environment of the daemon itself) and might eventually deprecate the current
behaviour (pick whatever is in the environment of the daemon) as it's more
principled and might prevent information leakage.
I was sleepy and confused that "interpolated expression" was a new type of thing at first. This nudges the reader to understand that its just a regular expression, and these conditions are imposed by the interpolation operation.
In #4770 I implemented proper `nix-shell(1)` support for derivations
using `__structuredAttrs = true;`. Back then we decided to introduce two
new environment variables, `NIX_ATTRS_SH_FILE` for `.attrs.sh` and
`NIX_ATTRS_JSON_FILE` for `.attrs.json`. This was to avoid having to
copy these files to `$NIX_BUILD_TOP` in a `nix-shell(1)` session which
effectively meant copying these files to the project dir without
cleaning up afterwords[1].
On last NixCon I resumed hacking on `__structuredAttrs = true;` by
default for `nixpkgs` with a few other folks and getting back to it,
I identified a few problems with the how it's used in `nixpkgs`:
* A lot of builders in `nixpkgs` don't care about the env vars and
assume that `.attrs.sh` and `.attrs.json` are in `$NIX_BUILD_TOP`.
The sole reason why this works is that `nix-shell(1)` sources
the contents of `.attrs.sh` and then sources `$stdenv/setup` if it
exists. This may not be pretty, but it mostly works. One notable
difference when using nixpkgs' stdenv as of now is however that
`$__structuredAttrs` is set to `1` on regular builds, but set to
an empty string in a shell session.
Also, `.attrs.json` cannot be used in shell sessions because
it can only be accessed by `$NIX_ATTRS_JSON_FILE` and not by
`$NIX_BUILD_TOP/.attrs.json`.
I considered changing Nix to be compatible with what nixpkgs
effectively does, but then we'd have to either move $NIX_BUILD_TOP for
shell sessions to a temporary location (and thus breaking a lot of
assumptions) or we'd reintroduce all the problems we solved back then
by using these two env vars.
This is partly because I didn't document these variables back
then (mea culpa), so I decided to drop all mentions of
`.attrs.{json,sh}` in the manual and only refer to `$NIX_ATTRS_SH_FILE`
and `$NIX_ATTRS_JSON_FILE`. The same applies to all our integration tests.
Theoretically we could deprecated using `"$NIX_BUILD_TOP"/.attrs.sh` in
the future now.
* `nix develop` and `nix print-dev-env` don't support this environment
variable at all even though they're supposed to be part of the replacement
for `nix-shell` - for the drv debugging part to be precise.
This isn't a big deal for the vast majority of derivations, i.e.
derivations relying on nixpkgs' `stdenv` wiring things together
properly. This is because `nix develop` effectively "clones" the
derivation and replaces the builder with a script that dumps all of
the environment, shell variables, functions etc, so the state of
structured attrs being "sourced" is transmitted into the dev shell and
most of the time you don't need to worry about `.attrs.sh` not
existing because the shell is correctly configured and the
if [ -e .attrs.sh ]; then source .attrs.sh; fi
is simply omitted.
However, this will break when having a derivation that reads e.g. from
`.attrs.json` like
with import <nixpkgs> {};
runCommand "foo" { __structuredAttrs = true; foo.bar = 23; } ''
cat $NIX_ATTRS_JSON_FILE # doesn't work because it points to /build/.attrs.json
''
To work around this I employed a similar approach as it exists for
`nix-shell`: the `NIX_ATTRS_{JSON,SH}_FILE` vars are replaced with
temporary locations.
The contents of `.attrs.sh` and `.attrs.json` are now written into the
JSON by `get-env.sh`, the builder that `nix develop` injects into the
derivation it's debugging. So finally the exact file contents are
present and exported by `nix develop`.
I also made `.attrs.json` a JSON string in the JSON printed by
`get-env.sh` on purpose because then it's not necessary to serialize
the object structure again. `nix develop` only needs the JSON
as string because it's only written into the temporary file.
I'm not entirely sure if it makes sense to also use a temporary
location for `nix print-dev-env` (rather than just skipping the
rewrite in there), but this would probably break certain cases where
it's relied upon `$NIX_ATTRS_SH_FILE` to exist (prime example are the
`nix print-dev-env` test-cases I wrote in this patch using
`tests/shell.nix`, these would fail because the env var exists, but it
cannot read from it).
[1] https://github.com/NixOS/nix/pull/4770#issuecomment-836799719
* document "Import From Derivation"
Co-authored-by: Robert Hensing <roberth@users.noreply.github.com>
Co-authored-by: John Ericson <git@JohnEricson.me>
make the example more realistic, since `headers` is not an output name
used in Nixpkgs
Co-authored-by: Robert Hensing <roberth@users.noreply.github.com>
derivations are about data transformation, so the term "build" does not
add any information. there was also some feedback that "build task" is
not more helpful than "derivation" if you have no prior experience with
Nix or build systems, while existing associations may be misleading.
* clarify wording on args@ default handling
Most importantly use shorter sentences and emphasize the key point that defaults aren't taken into account
Co-authored-by: Robert Hensing <roberth@users.noreply.github.com>
Co-authored-by: John Ericson <git@JohnEricson.me>
This is done in roughly the same way builtin functions are documented.
Also auto-link experimental features for primops, subsuming PR #8371.
Co-authored-by: Eelco Dolstra <edolstra@gmail.com>
Co-authored-by: Robert Hensing <roberth@users.noreply.github.com>
Co-authored-by: Valentin Gagarin <valentin.gagarin@tweag.io>
packages and configurations are not really a concept in Nix or the Nix language. the idea of transforming files into other files clearly captures what it's all about, and the new phrasing should make the term "derivation" more obvious both in terms of meaning and origin.
it's more likely for readers to find it right there.
this also slightly rewords examples to make them stand out better.
in the long run there probably needs to be a dedicated section on formal syntax, and better highlighting of examples.
add anchor to `builtins.derivation` and list some built-in functions that are
exposed in the global scope.
I decided not to list everything, because we probably don't want to
encourage people using them that way.
- Create a glossary entry for experimental features.
- Have the man page experimental feature notice link `nix-commmand`.
(Eventually this should be programmed, based on whether the command is
experimental, and if so what experimental feature does it depend on.)
- Document which installables depend on which experimental features.
I tried to use the same style (bold warning and block quote) that the
top of the man page uses.
Co-authored-by: Valentin Gagarin <valentin.gagarin@tweag.io>
Documentation on "classic" commands with many sub-commands are
notoriously hard to discover due to lack of overview and anchor links.
Additionally the information on common options and environment variables
is not accessible offline in man pages, and therefore often overlooked
by readers.
With this change, each sub-command of nix-store and nix-env gets its
own page in the manual (listed in the table of contents), and each own
man page.
Also, man pages for each subcommand now (again) list common options
and environment variables. While this makes each page quite long and
some common parameters don't apply, this should still make it easier
to navigate as that additional information was not accessible on the
command line at all.
It is now possible to run 'nix-store --<subcommand> --help` to display
help pages for the given subcommand.
Co-authored-by: Valentin Gagarin <valentin.gagarin@tweag.io>