4a91197802
Looking for .drv file names in non .drv files doesn't make sense, as it less reliably a reference in those cases. Matches behavior of the function for Nix >= 2.6. Change-Id: I79fc1da3e55df869f03702fa5137d030790bc4eb Reviewed-on: https://cl.tvl.fyi/c/depot/+/11114 Autosubmit: sterni <sternenseemann@systemli.org> Tested-by: BuildkiteCI Reviewed-by: tazjin <tazjin@tvl.su> Reviewed-by: aspen <root@gws.fyi>
263 lines
8.7 KiB
Nix
263 lines
8.7 KiB
Nix
{ lib, depot, pkgs, ... }:
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let
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inherit (builtins) unsafeDiscardStringContext appendContext;
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#
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# Utilities
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#
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# Determine all paths a derivation depends on, i.e. input derivations and
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# files imported into the Nix store.
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#
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# Implementation for Nix < 2.6 is quite hacky at the moment.
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#
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# Type: str -> [str]
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#
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# TODO(sterni): clean this up and expose it
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directDrvDeps =
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let
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getDeps =
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if lib.versionAtLeast builtins.nixVersion "2.6"
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then
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# Since https://github.com/NixOS/nix/pull/1643, Nix apparently »preserves
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# string context« through a readFile invocation. This has the side effect
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# that it becomes possible to query the actual references a store path has.
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# Not a 100% sure this is intended, but _very_ convenient for us here.
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drvPath:
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builtins.attrNames (builtins.getContext (builtins.readFile drvPath))
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else
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# For Nix < 2.6 we have to rely on HACK, namely grepping for quoted
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# store path references in the file. In the future this should be
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# replaced by a proper derivation parser.
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drvPath: builtins.concatLists (
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builtins.filter builtins.isList (
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builtins.split
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"\"(${lib.escapeRegex builtins.storeDir}/[[:alnum:]+._?=-]+.drv)\""
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(builtins.readFile drvPath)
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)
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);
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in
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drvPath:
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# if the passed path is not a derivation we can't necessarily get its
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# dependencies, since it may not be representable as a Nix string due to
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# NUL bytes, e.g. compressed patch files imported into the Nix store.
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if builtins.match "^.+\\.drv$" drvPath == null
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then [ ]
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else getDeps drvPath;
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# Maps a list of derivation to the list of corresponding `drvPath`s.
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#
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# Type: [drv] -> [str]
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drvsToPaths = drvs:
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builtins.map (drv: builtins.unsafeDiscardOutputDependency drv.drvPath) drvs;
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#
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# Calculate map of direct derivation dependencies
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#
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# Create the dependency map entry for a given `drvPath` which mainly includes
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# a list of other `drvPath`s it depends on. Additionally we store whether the
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# derivation is `known`, i.e. part of the initial list of derivations we start
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# generating the map from
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#
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# Type: bool -> string -> set
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drvEntry = known: drvPath:
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let
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# key may not refer to a store path, …
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key = unsafeDiscardStringContext drvPath;
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# but we must read from the .drv file.
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path = builtins.unsafeDiscardOutputDependency drvPath;
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in
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{
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inherit key;
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# trick so we can call listToAttrs directly on the result of genericClosure
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name = key;
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value = {
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deps = directDrvDeps path;
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inherit known;
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};
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};
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# Create an attribute set that maps every derivation in the combined
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# dependency closure of the list of input derivation paths to every of their
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# direct dependencies. Additionally every entry will have set their `known`
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# attribute to `true` if it is in the list of input derivation paths.
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#
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# Type: [str] -> set
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plainDrvDepMap = drvPaths:
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builtins.listToAttrs (
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builtins.genericClosure {
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startSet = builtins.map (drvEntry true) drvPaths;
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operator = { value, ... }: builtins.map (drvEntry false) value.deps;
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}
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);
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#
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# Calculate closest known dependencies in the dependency map
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#
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inherit (depot.nix.stateMonad)
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after
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bind
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for_
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get
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getAttr
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run
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setAttr
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pure
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;
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# This is an action in stateMonad which expects the (initial) state to have
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# been produced by `plainDrvDepMap`. Given a `drvPath`, it calculates a
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# `knownDeps` list which holds the `drvPath`s of the closest derivation marked
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# as `known` along every edge. This list is inserted into the dependency map
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# for `drvPath` and every other derivation in its dependecy closure (unless
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# the information was already present). This means that the known dependency
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# information for a derivation never has to be recalculated, as long as they
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# are part of the same stateful computation.
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#
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# The upshot is that after calling `insertKnownDeps drvPath`,
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# `fmap (builtins.getAttr "knownDeps") (getAttr drvPath)` will always succeed.
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#
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# Type: str -> stateMonad drvDepMap null
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insertKnownDeps = drvPathWithContext:
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let
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# We no longer need to read from the store, so context is irrelevant, but
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# we need to check for attr names which requires the absence of context.
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drvPath = unsafeDiscardStringContext drvPathWithContext;
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in
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bind get (initDepMap:
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# Get the dependency map's state before we've done anything to obtain the
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# entry we'll be manipulating later as well as its dependencies.
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let
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entryPoint = initDepMap.${drvPath};
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# We don't need to recurse if our direct dependencies either have their
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# knownDeps list already populated or are known dependencies themselves.
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depsPrecalculated =
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builtins.partition
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(dep:
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initDepMap.${dep}.known
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|| initDepMap.${dep} ? knownDeps
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)
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entryPoint.deps;
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# If a direct dependency is known, it goes right to our known dependency
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# list. If it is unknown, we can copy its knownDeps list into our own.
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initiallyKnownDeps =
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builtins.concatLists (
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builtins.map
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(dep:
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if initDepMap.${dep}.known
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then [ dep ]
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else initDepMap.${dep}.knownDeps
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)
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depsPrecalculated.right
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);
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in
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# If the information was already calculated before, we can exit right away
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if entryPoint ? knownDeps
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then pure null
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else
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after
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# For all unknown direct dependencies which don't have a `knownDeps`
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# list, we call ourselves recursively to populate it. Since this is
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# done sequentially in the state monad, we avoid recalculating the
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# list for the same derivation multiple times.
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(for_
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depsPrecalculated.wrong
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insertKnownDeps)
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# After this we can obtain the updated dependency map which will have
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# a `knownDeps` list for all our direct dependencies and update the
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# entry for the input `drvPath`.
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(bind
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get
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(populatedDepMap:
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(setAttr drvPath (entryPoint // {
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knownDeps =
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lib.unique (
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initiallyKnownDeps
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++ builtins.concatLists (
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builtins.map
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(dep: populatedDepMap.${dep}.knownDeps)
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depsPrecalculated.wrong
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)
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);
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}))))
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);
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# This function puts it all together and is exposed via `__functor`.
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#
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# For a list of `drvPath`s, calculate an attribute set which maps every
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# `drvPath` to a set of the following form:
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#
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# {
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# known = true /* if it is in the list of input derivation paths */;
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# deps = [
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# /* list of derivation paths it depends on directly */
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# ];
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# knownDeps = [
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# /* list of the closest derivation paths marked as known this
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# derivation depends on.
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# */
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# ];
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# }
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knownDrvDepMap = knownDrvPaths:
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run
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(plainDrvDepMap knownDrvPaths)
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(after
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(for_
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knownDrvPaths
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insertKnownDeps)
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get);
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#
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# Other things based on knownDrvDepMap
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#
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# Create a SVG visualizing `knownDrvDepMap`. Nodes are identified by derivation
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# name, so multiple entries can be collapsed if they have the same name.
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#
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# Type: [drv] -> drv
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knownDependencyGraph = name: drvs:
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let
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justName = drvPath:
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builtins.substring
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(builtins.stringLength builtins.storeDir + 1 + 32 + 1)
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(builtins.stringLength drvPath)
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(unsafeDiscardStringContext drvPath);
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gv = pkgs.writeText "${name}-dependency-analysis.gv" ''
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digraph depot {
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${
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(lib.concatStringsSep "\n"
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(lib.mapAttrsToList (name: value:
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if !value.known then ""
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else lib.concatMapStringsSep "\n"
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(knownDep: " \"${justName name}\" -> \"${justName knownDep}\"")
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value.knownDeps
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)
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(depot.nix.dependency-analyzer (
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drvsToPaths drvs
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))))
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}
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}
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'';
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in
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pkgs.runCommand "${name}-dependency-analysis.svg"
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{
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nativeBuildInputs = [
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pkgs.buildPackages.graphviz
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];
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}
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"dot -Tsvg < ${gv} > $out";
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in
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{
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__functor = _: knownDrvDepMap;
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inherit knownDependencyGraph plainDrvDepMap drvsToPaths;
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}
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