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ci.nix
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ci.nix
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{
# 'supportedSystems' restricts the set of systems that we will evaluate for. Useful when you're evaluting
# on a machine with e.g. no way to build the Darwin IFDs you need!
supportedSystems ? [ "x86_64-linux" "x86_64-darwin" ]
, rootsOnly ? false
# We explicitly pass true here in the GitHub action but don't want to slow down hydra
, checkMaterialization ? false
}:
let
inherit (import ./nix/lib/ci.nix) dimension platformFilterGeneric filterAttrsOnlyRecursive filterSystems;
# limit supportedSystems to what the CI can actually build
# currently that is linux and darwin.
systems = filterSystems supportedSystems;
crossSystems =
let pkgs = (import ./default.nix { }).pkgs;
in { inherit (pkgs.lib.systems.examples) mingwW64; };
# Collects haskell derivations and builds an attrset:
#
# { library = { ... }
# , tests = { ... }
# , benchmarks = { ... }
# , exes = { ... }
# , checks = { ... }
# }
# Where each attribute contains an attribute set
# with all haskell components of that type
mkHaskellDimension = pkgs: haskellProjects:
let
# retrieve all checks from a Haskell package
collectChecks = _: ps: pkgs.haskell-nix.haskellLib.collectChecks' ps;
# retrieve all components of a Haskell package
collectComponents = type: ps: pkgs.haskell-nix.haskellLib.collectComponents' type ps;
# Given a component type and the retrieve function, retrieve components from haskell packages
select = type: selector: (selector type) haskellProjects;
# { component-type : retriever-fn }
attrs = {
"library" = collectComponents;
"tests" = collectComponents;
"benchmarks" = collectComponents;
"exes" = collectComponents;
"checks" = collectChecks;
};
in
dimension "Haskell component" attrs select;
# Collects all project derivations to build grouped by system:
#
# { linux = { ... }
# , darwin = { ... }
# }
mkSystemDimension = systems:
let
# given a system ("x86_64-linux") return an attrset of derivations to build
_select = _: system: crossSystem:
let
packages = import ./default.nix { inherit system crossSystem checkMaterialization; };
pkgs = packages.pkgs;
plutus = packages.plutus;
# Map `crossSystem.config` to a name used in `lib.platforms`
platformString =
if crossSystem == null then system
else if crossSystem.config == "x86_64-w64-mingw32" then "x86_64-windows"
else crossSystem.config;
isBuildable = platformFilterGeneric pkgs platformString;
filterCross = x:
if crossSystem == null
then x
else {
# When cross compiling only include haskell for now
inherit (x) haskell;
};
in
filterAttrsOnlyRecursive (_: drv: isBuildable drv) ({
# The haskell.nix IFD roots for the Haskell project. We include these so they won't be GCd and will be in the
# cache for users
inherit (plutus.haskell.project) roots;
} // pkgs.lib.optionalAttrs (!rootsOnly) (filterCross {
# build relevant top level attributes from default.nix
inherit (packages) docs tests;
# Build the shell expression to be sure it works on all platforms
#
# The shell should never depend on any of our Haskell packages, which can
# sometimes happen by accident. In practice, everything depends transitively
# on 'plutus-core', so this does the job.
# FIXME: this should simply be set on the main shell derivation, but this breaks
# lorri: https://github.com/target/lorri/issues/489. In the mean time, we set it
# only on the CI version, so that we still catch it, but lorri doesn't see it.
shell = (import ./shell.nix { inherit packages; }).overrideAttrs (attrs: attrs // {
disallowedRequisites = [ plutus.haskell.packages.plutus-core.components.library ];
});
# build all haskell packages and tests
haskell = pkgs.recurseIntoAttrs (mkHaskellDimension pkgs plutus.haskell.projectPackages);
}));
in
dimension "System" systems (name: sys: _select name sys null)
// dimension "Cross System" crossSystems (name: crossSys: _select name "x86_64-linux" crossSys);
in
mkSystemDimension systems