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49b25ea85c
To quote the method doc: Non-impure derivations can still behave impurely, to the degree permitted by the sandbox. Hence why this method isn't `isPure`: impure derivations are not the negation of pure derivations. Purity can not be ascertained except by rather heavy tools.
518 lines
14 KiB
C++
518 lines
14 KiB
C++
#pragma once
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///@file
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#include "path.hh"
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#include "types.hh"
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#include "hash.hh"
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#include "content-address.hh"
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#include "repair-flag.hh"
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#include "derived-path-map.hh"
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#include "sync.hh"
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#include "comparator.hh"
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#include "variant-wrapper.hh"
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#include <map>
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#include <variant>
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namespace nix {
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struct StoreDirConfig;
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/* Abstract syntax of derivations. */
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/**
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* A single output of a BasicDerivation (and Derivation).
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*/
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struct DerivationOutput
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{
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/**
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* The traditional non-fixed-output derivation type.
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*/
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struct InputAddressed
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{
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StorePath path;
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GENERATE_CMP(InputAddressed, me->path);
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};
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/**
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* Fixed-output derivations, whose output paths are content
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* addressed according to that fixed output.
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*/
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struct CAFixed
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{
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/**
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* Method and hash used for expected hash computation.
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*
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* References are not allowed by fiat.
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*/
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ContentAddress ca;
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/**
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* Return the \ref StorePath "store path" corresponding to this output
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*
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* @param drvName The name of the derivation this is an output of, without the `.drv`.
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* @param outputName The name of this output.
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*/
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StorePath path(const StoreDirConfig & store, std::string_view drvName, OutputNameView outputName) const;
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GENERATE_CMP(CAFixed, me->ca);
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};
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/**
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* Floating-output derivations, whose output paths are content
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* addressed, but not fixed, and so are dynamically calculated from
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* whatever the output ends up being.
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* */
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struct CAFloating
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{
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/**
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* How the file system objects will be serialized for hashing
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*/
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ContentAddressMethod method;
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/**
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* How the serialization will be hashed
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*/
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HashAlgorithm hashAlgo;
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GENERATE_CMP(CAFloating, me->method, me->hashAlgo);
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};
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/**
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* Input-addressed output which depends on a (CA) derivation whose hash
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* isn't known yet.
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*/
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struct Deferred {
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GENERATE_CMP(Deferred);
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};
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/**
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* Impure output which is moved to a content-addressed location (like
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* CAFloating) but isn't registered as a realization.
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*/
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struct Impure
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{
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/**
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* How the file system objects will be serialized for hashing
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*/
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ContentAddressMethod method;
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/**
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* How the serialization will be hashed
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*/
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HashAlgorithm hashAlgo;
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GENERATE_CMP(Impure, me->method, me->hashAlgo);
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};
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typedef std::variant<
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InputAddressed,
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CAFixed,
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CAFloating,
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Deferred,
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Impure
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> Raw;
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Raw raw;
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GENERATE_CMP(DerivationOutput, me->raw);
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MAKE_WRAPPER_CONSTRUCTOR(DerivationOutput);
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/**
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* Force choosing a variant
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*/
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DerivationOutput() = delete;
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/**
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* \note when you use this function you should make sure that you're
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* passing the right derivation name. When in doubt, you should use
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* the safer interface provided by
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* BasicDerivation::outputsAndOptPaths
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*/
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std::optional<StorePath> path(const StoreDirConfig & store, std::string_view drvName, OutputNameView outputName) const;
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nlohmann::json toJSON(
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const StoreDirConfig & store,
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std::string_view drvName,
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OutputNameView outputName) const;
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/**
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* @param xpSettings Stop-gap to avoid globals during unit tests.
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*/
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static DerivationOutput fromJSON(
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const StoreDirConfig & store,
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std::string_view drvName,
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OutputNameView outputName,
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const nlohmann::json & json,
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const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings);
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};
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typedef std::map<std::string, DerivationOutput> DerivationOutputs;
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/**
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* These are analogues to the previous DerivationOutputs data type,
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* but they also contains, for each output, the (optional) store
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* path in which it would be written. To calculate values of these
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* types, see the corresponding functions in BasicDerivation.
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*/
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typedef std::map<std::string, std::pair<DerivationOutput, std::optional<StorePath>>>
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DerivationOutputsAndOptPaths;
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/**
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* For inputs that are sub-derivations, we specify exactly which
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* output IDs we are interested in.
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*/
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typedef std::map<StorePath, StringSet> DerivationInputs;
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struct DerivationType {
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/**
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* Input-addressed derivation types
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*/
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struct InputAddressed {
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/**
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* True iff the derivation type can't be determined statically,
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* for instance because it (transitively) depends on a content-addressed
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* derivation.
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*/
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bool deferred;
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GENERATE_CMP(InputAddressed, me->deferred);
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};
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/**
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* Content-addressed derivation types
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*/
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struct ContentAddressed {
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/**
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* Whether the derivation should be built safely inside a sandbox.
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*/
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bool sandboxed;
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/**
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* Whether the derivation's outputs' content-addresses are "fixed"
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* or "floating".
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*
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* - Fixed: content-addresses are written down as part of the
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* derivation itself. If the outputs don't end up matching the
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* build fails.
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*
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* - Floating: content-addresses are not written down, we do not
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* know them until we perform the build.
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*/
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bool fixed;
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GENERATE_CMP(ContentAddressed, me->sandboxed, me->fixed);
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};
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/**
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* Impure derivation type
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*
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* This is similar at buil-time to the content addressed, not standboxed, not fixed
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* type, but has some restrictions on its usage.
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*/
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struct Impure {
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GENERATE_CMP(Impure);
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};
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typedef std::variant<
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InputAddressed,
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ContentAddressed,
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Impure
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> Raw;
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Raw raw;
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GENERATE_CMP(DerivationType, me->raw);
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MAKE_WRAPPER_CONSTRUCTOR(DerivationType);
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/**
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* Force choosing a variant
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*/
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DerivationType() = delete;
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/**
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* Do the outputs of the derivation have paths calculated from their
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* content, or from the derivation itself?
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*/
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bool isCA() const;
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/**
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* Is the content of the outputs fixed <em>a priori</em> via a hash?
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* Never true for non-CA derivations.
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*/
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bool isFixed() const;
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/**
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* Whether the derivation is fully sandboxed. If false, the sandbox
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* is opened up, e.g. the derivation has access to the network. Note
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* that whether or not we actually sandbox the derivation is
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* controlled separately. Always true for non-CA derivations.
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*/
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bool isSandboxed() const;
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/**
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* Whether the derivation is expected to produce a different result
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* every time, and therefore it needs to be rebuilt every time. This is
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* only true for derivations that have the attribute '__impure =
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* true'.
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*
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* Non-impure derivations can still behave impurely, to the degree permitted
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* by the sandbox. Hence why this method isn't `isPure`: impure derivations
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* are not the negation of pure derivations. Purity can not be ascertained
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* except by rather heavy tools.
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*/
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bool isImpure() const;
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/**
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* Does the derivation knows its own output paths?
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* Only true when there's no floating-ca derivation involved in the
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* closure, or if fixed output.
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*/
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bool hasKnownOutputPaths() const;
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};
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struct BasicDerivation
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{
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/**
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* keyed on symbolic IDs
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*/
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DerivationOutputs outputs;
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/**
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* inputs that are sources
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*/
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StorePathSet inputSrcs;
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std::string platform;
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Path builder;
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Strings args;
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StringPairs env;
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std::string name;
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BasicDerivation() = default;
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virtual ~BasicDerivation() { };
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bool isBuiltin() const;
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/**
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* Return true iff this is a fixed-output derivation.
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*/
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DerivationType type() const;
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/**
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* Return the output names of a derivation.
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*/
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StringSet outputNames() const;
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/**
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* Calculates the maps that contains all the DerivationOutputs, but
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* augmented with knowledge of the Store paths they would be written
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* into.
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*/
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DerivationOutputsAndOptPaths outputsAndOptPaths(const StoreDirConfig & store) const;
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static std::string_view nameFromPath(const StorePath & storePath);
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GENERATE_CMP(BasicDerivation,
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me->outputs,
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me->inputSrcs,
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me->platform,
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me->builder,
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me->args,
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me->env,
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me->name);
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};
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class Store;
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struct Derivation : BasicDerivation
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{
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/**
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* inputs that are sub-derivations
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*/
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DerivedPathMap<std::set<OutputName>> inputDrvs;
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/**
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* Print a derivation.
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*/
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std::string unparse(const StoreDirConfig & store, bool maskOutputs,
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DerivedPathMap<StringSet>::ChildNode::Map * actualInputs = nullptr) const;
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/**
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* Return the underlying basic derivation but with these changes:
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*
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* 1. Input drvs are emptied, but the outputs of them that were used
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* are added directly to input sources.
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*
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* 2. Input placeholders are replaced with realized input store
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* paths.
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*/
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std::optional<BasicDerivation> tryResolve(Store & store, Store * evalStore = nullptr) const;
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/**
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* Like the above, but instead of querying the Nix database for
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* realisations, uses a given mapping from input derivation paths +
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* output names to actual output store paths.
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*/
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std::optional<BasicDerivation> tryResolve(
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Store & store,
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const std::map<std::pair<StorePath, std::string>, StorePath> & inputDrvOutputs) const;
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/**
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* Check that the derivation is valid and does not present any
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* illegal states.
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*
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* This is mainly a matter of checking the outputs, where our C++
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* representation supports all sorts of combinations we do not yet
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* allow.
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*/
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void checkInvariants(Store & store, const StorePath & drvPath) const;
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Derivation() = default;
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Derivation(const BasicDerivation & bd) : BasicDerivation(bd) { }
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Derivation(BasicDerivation && bd) : BasicDerivation(std::move(bd)) { }
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nlohmann::json toJSON(const StoreDirConfig & store) const;
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static Derivation fromJSON(
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const StoreDirConfig & store,
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const nlohmann::json & json,
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const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings);
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GENERATE_CMP(Derivation,
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static_cast<const BasicDerivation &>(*me),
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me->inputDrvs);
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};
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class Store;
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/**
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* Write a derivation to the Nix store, and return its path.
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*/
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StorePath writeDerivation(Store & store,
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const Derivation & drv,
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RepairFlag repair = NoRepair,
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bool readOnly = false);
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/**
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* Read a derivation from a file.
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*/
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Derivation parseDerivation(
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const StoreDirConfig & store,
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std::string && s,
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std::string_view name,
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const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings);
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/**
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* \todo Remove.
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*
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* Use Path::isDerivation instead.
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*/
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bool isDerivation(std::string_view fileName);
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/**
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* Calculate the name that will be used for the store path for this
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* output.
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*
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* This is usually <drv-name>-<output-name>, but is just <drv-name> when
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* the output name is "out".
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*/
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std::string outputPathName(std::string_view drvName, OutputNameView outputName);
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/**
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* The hashes modulo of a derivation.
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*
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* Each output is given a hash, although in practice only the content-addressed
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* derivations (fixed-output or not) will have a different hash for each
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* output.
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*/
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struct DrvHash {
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/**
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* Map from output names to hashes
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*/
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std::map<std::string, Hash> hashes;
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enum struct Kind : bool {
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/**
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* Statically determined derivations.
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* This hash will be directly used to compute the output paths
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*/
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Regular,
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/**
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* Floating-output derivations (and their reverse dependencies).
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*/
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Deferred,
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};
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/**
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* The kind of derivation this is, simplified for just "derivation hash
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* modulo" purposes.
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*/
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Kind kind;
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};
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void operator |= (DrvHash::Kind & self, const DrvHash::Kind & other) noexcept;
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/**
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* Returns hashes with the details of fixed-output subderivations
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* expunged.
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*
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* A fixed-output derivation is a derivation whose outputs have a
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* specified content hash and hash algorithm. (Currently they must have
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* exactly one output (`out`), which is specified using the `outputHash`
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* and `outputHashAlgo` attributes, but the algorithm doesn't assume
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* this.) We don't want changes to such derivations to propagate upwards
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* through the dependency graph, changing output paths everywhere.
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*
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* For instance, if we change the url in a call to the `fetchurl`
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* function, we do not want to rebuild everything depending on it---after
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* all, (the hash of) the file being downloaded is unchanged. So the
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* *output paths* should not change. On the other hand, the *derivation
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* paths* should change to reflect the new dependency graph.
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*
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* For fixed-output derivations, this returns a map from the name of
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* each output to its hash, unique up to the output's contents.
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*
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* For regular derivations, it returns a single hash of the derivation
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* ATerm, after subderivations have been likewise expunged from that
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* derivation.
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*/
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DrvHash hashDerivationModulo(Store & store, const Derivation & drv, bool maskOutputs);
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/**
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* Return a map associating each output to a hash that uniquely identifies its
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* derivation (modulo the self-references).
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*
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* \todo What is the Hash in this map?
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*/
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std::map<std::string, Hash> staticOutputHashes(Store & store, const Derivation & drv);
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/**
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* Memoisation of hashDerivationModulo().
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*/
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typedef std::map<StorePath, DrvHash> DrvHashes;
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// FIXME: global, though at least thread-safe.
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extern Sync<DrvHashes> drvHashes;
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struct Source;
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struct Sink;
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Source & readDerivation(Source & in, const StoreDirConfig & store, BasicDerivation & drv, std::string_view name);
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void writeDerivation(Sink & out, const StoreDirConfig & store, const BasicDerivation & drv);
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/**
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* This creates an opaque and almost certainly unique string
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* deterministically from the output name.
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*
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* It is used as a placeholder to allow derivations to refer to their
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* own outputs without needing to use the hash of a derivation in
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* itself, making the hash near-impossible to calculate.
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*/
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std::string hashPlaceholder(const OutputNameView outputName);
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extern const Hash impureOutputHash;
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}
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