This repository provides a Nix function: stacklock2nix. This function
generates a Nixpkgs-compatible Haskell package set from a stack.yaml and
stack.yaml.lock file.
stacklock2nix will be most helpful in the following two cases:
-
You (or your team) are already using Stack, and you want an easy way to build your project with Nix. You want to avoid the complexities of haskell.nix.
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You are a happy user of the Haskell infrastructure in Nixpkgs, but you want an easy way to generate a Nixpkgs Haskell package set from an arbitrary Stackage resolver.
At any given time, the main Haskell package set in Nixpkgs only supports a single version of GHC. If you have a complex project that needs an older or newer version of GHC,
stacklock2nixcan easily generate a package set that is likely to compile.
You can get started with stacklock2nix by either adding this repo as a flake
input and applying the exposed .overlay attribute, or just directly importing
and applying the ./nix/overlay.nix file. This overlay
exposes a top-level stacklock2nix function.
This repo contains two example projects showing how to use stacklock2nix.
Both of these projects contain mostly the same Haskell code, but they use
different features of stacklock2nix:
-
This is an easy example to get started with using
stacklock2nix. This method is recommended for people that want to play around withstacklock2nix, or just easily build their Stack-based projects with Nix. All the interesting code is documented in theflake.nixfile.From the
./my-example-haskell-lib-easydirectory, you can build the Haskell app with the command:$ nix buildYou can get into a development shell with the command:
$ nix developFrom this development shell, you can use
cabalto build your project like normal:$ cabal build allDevelopment tools like
haskell-language-serverare also available. -
This is an example that uses more of the advanced features of
stacklock2nix. This method is recommended for people that need extra flexibility, or people who also want to usestackfor development. The interesting code is spread out between theflake.nixfile, and theoverlay.nixfile.Just like the above, you can run
nix buildto build the application, andnix developto get into a development shell. From the development shell, you can runcabalcommands.In addition, you can also use the old-style Nix commands. To build the application:
$ nix-buildTo get into a development shell:
$ nix-shellYou can also use
stackto build your application:$ stack --nix build
The arguments to stacklock2nix and return values are documented in
./nix/build-support/stacklock2nix/default.nix.
Please open an issue or send a PR for anything that is not sufficiently documented.
If you're not already a Stack user, you'll need to generate a stack.yaml and
stack.yaml.lock file for your Haskell project before you can use
stacklock2nix.
In order to generate a stack.yaml file, you will need to make stack
available and run stack init:
$ nix-shell -p stack --command "stack init"One unfortunate thing about stack is that if you're on NixOS, stack tries
to re-exec itself in a nix-shell with GHC available (run
stack --verbose init and look for nix-shell to see exactly what stack
is trying to do). stack will try to take GHC from your current Nix channel.
However, it is possible that stack will try to use a GHC version that is not
available in your current Nix channel.
In order to deal with this, you can force stack to use a NIX_PATH with
a different channel available. You should pick a channel (or Nixpkgs commit) that
contains the GHC version stack is trying to use. For example, here's a
shortcut for forcing stack to use the latest commit from the
nixpkgs-unstable channel:
$ nix-shell -p stack --command "stack --nix-path nixpkgs=channel:nixpkgs-unstable init"Once you have a stack.yaml available, you can generate a stack.yaml.lock file
with the following command:
$ nix-shell -p stack --command "stack query"Note that the --nix-path argument may be necessary here as well.
If you have any problems with Stack, make sure to check the upstream Stack documentation. You may also be interested in Stack's Nix integration.
Because of how stacklock2nix works, you won't be able to pull any pre-built
Haskell packages from the shared NixOS Hydra cache. Its recommended that you
use some sort of Nix cache, like Cachix.
This is especially important if you're trying to introduce Nix into a professional setting. Not having to locally build transitive dependencies is a big selling-point for doing Haskell development with Nix.
If you want to build a Haskell project with Nix using a stack.yaml and
stack.yaml.lock file as a single source of truth, your two main choices are
stacklock2nix and haskell.nix.
haskell.nix is a much more comprehensive solution, but it also comes with much
more complexity. stacklock2nix is effectively just a small wrapper around
existing functionality in the Haskell infrastructure in Nixpkgs.
Advantages of haskell.nix:
- The ability to build a Haskell project without a
stack.yamlfile, just using the Cabal solver to generate a package set. - The ability to build a project based just on a
stack.yamlfile (without also requiring astack.yaml.lockfile). - A shared cache from IOHK. (Although users commonly report not getting cache hits for various reasons.)
- The ability to cross-compile Haskell libraries. (For instance, building an ARM64 binary on an x86_64 machine.)
Advantages of stacklock2nix:
- Integrates with the Haskell infrastructure in Nixpkgs. Easy to use if you're already familiar with Nixpkgs.
- Code is simple and well-documented.
- Unlike haskell.nix, Nix evaluation is very fast (so you don't have to wait 10s of seconds to jump into a development shell).
stacklock2nix is versioned by Semantic Versioning.
It is recommended you pin to one of the
Release
versions instead of the main branch. You may also be interested in
the CHANGELOG.md file.
Note: stacklock2nix provides a Haskell package set overlay called
suggestedOverlay. This overlay contains overrides for various Haskell
packages that are necessary for building with Nix. For instance, some Haskell
packages have tests that assume it is possible to access the internet. This
overlay disables tests for these packages, as well as a bunch of other helpful
fixes.
This suggestedOverlay is not part of the Semantic Versioning guaranteed by
stacklock2nix. There may be overrides added to or removed from
suggestedOverlay without bumping the version of stacklock2nix. (Although,
this is unlikely to be much of a problem for most users in practice.)
-
Are there any other examples of using
stacklock2nix?Yes, there is a blog series about
stacklock2nixthat gives a few examples of building actual Haskell projects. -
Is it possible to use
stacklock2nixto build a statically-linked Haskell library?Recent versions (since mid-2022) of the Haskell infrastructure in Nixpkgs have the ability to link Haskell executables completely statically. An easy way to test this out is to use the
pkgsStaticsubpackage set in Nixpkgs.Instead of passing a value like
pkgs.haskell.packages.ghc924to thebaseHaskellPkgSetof thestacklock2nixfunction, passpkgs.pkgsStatic.haskell.packages.ghc924:final: prev: { my-haskell-stacklock = final.stacklock2nix { stackYaml = ./stack.yaml; baseHaskellPkgSet = final.pkgsStatic.haskell.packages.ghc924; callPackage = final.pkgsStatic.callPackage; ... }; }
Here is a fully-worked example of using
stacklock2nixto build a statically-linked Pandoc. -
When using
stacklock2nixdo you ever need to compile GHC?In general, no.
stacklock2nixuses the Haskell infrastructure from Nixpkgs. As long as you're on a standard Nixpkgs Channel, you should be able to pull any available version of GHC from the Nixpkgs/NixOS/Hydra cache.stacklock2nixdoesn't override the GHC derivations in any way, so you should almost never have to recompile GHC.stacklock2nixdoes override all the Haskell packages in your Stackage resolver, so you will have to compile all the Haskell packages you use (similar to when you usestack). -
Is there any chance that a Haskell dependency specified in
stack.yamlorstack.yaml.lockwill become a different version depending on whether I compile directly withstack, or with Nix usingstacklock2nix?No.
stacklock2nixreads thestack.yaml.lockfile and generates a completely new Nix package for each Haskell dependency specified in yourstack.yamlandstack.yaml.lockfile.stacklock2nixuses the exact version of each package from thestack.yaml.lockfile. -
I'm seeing an error about not being able to find a
.jsonfile. What is this?When using
stacklock2nix, sometimes you'll see an error about not being able to find aPKG.jsonorPKG.cabalfile. Here's an example of what this looks like:$ nix build -L ... all-cabal-hashes-component-happy> cp: cannot stat '/nix/store/bz3lipc0zb8s6cgjvf23mrx7iicgcy8l-source/happy/1.20.1.1/happy.json': No such file or directory
This is an internal error from
haskellPackages.callHackage(which is used bystacklock2nix) saying that yourall-cabal-hashesis too old. It is not able to find the package version it is looking for.The solution to this is to pass a newer version of
all-cabal-hashestostacklock2nix:final: prev: { my-haskell-stacklock = final.stacklock2nix { stackYaml = ./stack.yaml; all-cabal-hashes = final.fetchFromGitHub { owner = "commercialhaskell"; repo = "all-cabal-hashes"; rev = "9ab160f48cb535719783bc43c0fbf33e6d52fa99"; sha256 = "sha256-Hz/xaCoxe4cJBH3h/KIfjzsrEyD915YEVEK8HFR7nO4="; }; ... }; }
You should be able to go to https://github.com/commercialhaskell/all-cabal-hashes/tree/hackage and just pick the latest commit. It is also possible to add this repo as a Nix flake input.
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I'm seeing errors about
infinite recursion. What do I do?When using
stacklock2nix, occasionally you'll get errors about infinite recursion. This looks like the following:$ nix build -L error: infinite recursion encountered at /nix/store/rksi78f7vq2xrfghg6jfg1r5dsa8lbv7-source/pkgs/stdenv/generic/make-derivation.nix:314:7: ...
The first step to debugging this is to give the
--show-traceflag tonix build:$ nix build -L --show-trace error: infinite recursion encountered at /nix/store/rksi78f7vq2xrfghg6jfg1r5dsa8lbv7-source/pkgs/stdenv/generic/make-derivation.nix:314:7: 313| depsHostHost = lib.elemAt (lib.elemAt dependencies 1) 0; 314| buildInputs = lib.elemAt (lib.elemAt dependencies 1) 1; | ^ 315| depsTargetTarget = lib.elemAt (lib.elemAt dependencies 2) 0; … while evaluating the attribute 'buildInputs' of the derivation 'pango-0.13.8.2' at /nix/store/rksi78f7vq2xrfghg6jfg1r5dsa8lbv7-source/pkgs/stdenv/generic/make-derivation.nix:270:7: 269| // (lib.optionalAttrs (attrs ? name || (attrs ? pname && attrs ? version)) { 270| name = | ^ 271| let … while evaluating the attribute 'propagatedBuildInputs' of the derivation 'diagrams-cairo-1.4.2'
If you squint (and a know a little about Haskell and Nix), you can see that the Haskell package
diagrams-cairolikely depends on the Haskell packagepango.What's going on is that the Haskell package
pangodepends on the system packagepango, and takes the system packagepangoas one of its build inputs, but it is actually getting passed itself (not the system packagepango), which causes the infinite recursion. You can fix this like the following:final: prev: { my-haskell-stacklock = final.stacklock2nix { stackYaml = ./stack.yaml; cabal2nixArgsOverrides = args: args // { "pango" = verion: { pango = final.pango; }; }; ... }; }
This passes the system library
pango(that is,final.pango) as an argument to the Haskell librarypango(that is,"pango"in this example).This is caused by an unfortunate interaction between
cabal2nixand Nixpkgs. Seecabal2nixArgsForPkg.nixfor a more in-depth explanation of this problem. -
I'm getting an error about the cabal file missing the 'name' field. What do I do?
If you see an error of this kind:
... > stacklock2nix: replace Cabal file with revision from /nix/store/l6cda10i5sflwyh1ms0yppx742cszi44-transformers-compat-0.7.2-cabal-file. ... > Warning: transformers-compat.cabal:0:0: "name" field missing > CallStack (from HasCallStack): > withMetadata, called at libraries/Cabal/Cabal/src/Distribution/Simple/Utils.hs:370:14 in Cabal-le.Utils > Error: Setup: Failed parsing "./transformers-compat.cabal". ...It could be due to your nix store being inconsistent. Check that the relevant file exists (the one in the store), and then try running the following to debug:
nix-store --verify --repair --check-contents
Contributions are highly appreciated. If there is something you would like to
add to stacklock2nix, or if you find a bug, please submit an
issue or
PR!
The easiest way to get help with stacklock2nix is to open an issue describing
your problem. If you link to a repository (even a simple example) that can
be cloned and demonstrates your problem, it is much easier to help.
If you're interested in hacking on stacklock2nix, there are two main ways to
test the changes you're making:
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Run the tests in the
./testdirectory.From
./test/, run all tests:$ nix-buildOr, run individual tests. For instance, the
new-package-settest:$ nix-build ./nixpkgs.nix -A stacklock2nix-tests.new-package-set -
Try building the two example projects.
Using the "easy" example, from the
./my-example-haskell-lib-easy/directory:$ nix buildUsing the "advanced" example, from the
./my-example-haskell-lib-advanced/directory:$ nix buildWARNING: You need to update the
stacklock2nixflake input to use thestacklock2nixversion from your checked-outstacklock2nixrepo. You can do so with a command like:$ sed -i -e 's|github:cdepillabout/stacklock2nix/main|path:../.|' flake.nix
Sponsoring stacklock2nix enables me to spend more time fixing bugs, reviewing
PRs, and helping people who run into problems. I prioritize issues and PRs
from people who are sponsors.
You can find the sponsor page here.