#pragma once ///@file #include "types.hh" #include "flakeref.hh" #include "lockfile.hh" #include "value.hh" namespace nix { class EvalState; namespace flake { struct FlakeInput; typedef std::map FlakeInputs; /** * FlakeInput is the 'Flake'-level parsed form of the "input" entries * in the flake file. * * A FlakeInput is normally constructed by the 'parseFlakeInput' * function which parses the input specification in the '.flake' file * to create a 'FlakeRef' (a fetcher, the fetcher-specific * representation of the input specification, and possibly the fetched * local store path result) and then creating this FlakeInput to hold * that FlakeRef, along with anything that might override that * FlakeRef (like command-line overrides or "follows" specifications). * * A FlakeInput is also sometimes constructed directly from a FlakeRef * instead of starting at the flake-file input specification * (e.g. overrides, follows, and implicit inputs). * * A FlakeInput will usually have one of either "ref" or "follows" * set. If not otherwise specified, a "ref" will be generated to a * 'type="indirect"' flake, which is treated as simply the name of a * flake to be resolved in the registry. */ struct FlakeInput { std::optional ref; /** * true = process flake to get outputs * * false = (fetched) static source path */ bool isFlake = true; std::optional follows; FlakeInputs overrides; }; struct ConfigFile { using ConfigValue = std::variant, std::vector>; std::map settings; void apply(); }; /** * The contents of a flake.nix file. */ struct Flake { /** * The original flake specification (by the user) */ FlakeRef originalRef; /** * registry references and caching resolved to the specific underlying flake */ FlakeRef resolvedRef; /** * the specific local store result of invoking the fetcher */ FlakeRef lockedRef; /** * pretend that 'lockedRef' is dirty */ bool forceDirty = false; std::optional description; StorePath storePath; FlakeInputs inputs; /** * 'nixConfig' attribute */ ConfigFile config; ~Flake(); }; Flake getFlake(EvalState & state, const FlakeRef & flakeRef, bool allowLookup); /** * Fingerprint of a locked flake; used as a cache key. */ typedef Hash Fingerprint; struct LockedFlake { Flake flake; LockFile lockFile; Fingerprint getFingerprint() const; }; struct LockFlags { /** * Whether to ignore the existing lock file, creating a new one * from scratch. */ bool recreateLockFile = false; /** * Whether to update the lock file at all. If set to false, if any * change to the lock file is needed (e.g. when an input has been * added to flake.nix), you get a fatal error. */ bool updateLockFile = true; /** * Whether to write the lock file to disk. If set to true, if the * any changes to the lock file are needed and the flake is not * writable (i.e. is not a local Git working tree or similar), you * get a fatal error. If set to false, Nix will use the modified * lock file in memory only, without writing it to disk. */ bool writeLockFile = true; /** * Whether to use the registries to lookup indirect flake * references like 'nixpkgs'. */ std::optional useRegistries = std::nullopt; /** * Whether to apply flake's nixConfig attribute to the configuration */ bool applyNixConfig = false; /** * Whether unlocked flake references (i.e. those without a Git * revision or similar) without a corresponding lock are * allowed. Unlocked flake references with a lock are always * allowed. */ bool allowUnlocked = true; /** * Whether to commit changes to flake.lock. */ bool commitLockFile = false; /** * The path to a lock file to read instead of the `flake.lock` file in the top-level flake */ std::optional referenceLockFilePath; /** * The path to a lock file to write to instead of the `flake.lock` file in the top-level flake */ std::optional outputLockFilePath; /** * Flake inputs to be overridden. */ std::map inputOverrides; /** * Flake inputs to be updated. This means that any existing lock * for those inputs will be ignored. */ std::set inputUpdates; }; LockedFlake lockFlake( EvalState & state, const FlakeRef & flakeRef, const LockFlags & lockFlags); void callFlake( EvalState & state, const LockedFlake & lockedFlake, Value & v); } void emitTreeAttrs( EvalState & state, const StorePath & storePath, const fetchers::Input & input, Value & v, bool emptyRevFallback = false, bool forceDirty = false); }