#pragma once ///@file #include "parsed-derivations.hh" #include "lock.hh" #include "outputs-spec.hh" #include "store-api.hh" #include "pathlocks.hh" #include "goal.hh" namespace nix { using std::map; struct HookInstance; typedef enum {rpAccept, rpDecline, rpPostpone} HookReply; /** * Unless we are repairing, we don't both to test validity and just assume it, * so the choices are `Absent` or `Valid`. */ enum struct PathStatus { Corrupt, Absent, Valid, }; struct InitialOutputStatus { StorePath path; PathStatus status; /** * Valid in the store, and additionally non-corrupt if we are repairing */ bool isValid() const { return status == PathStatus::Valid; } /** * Merely present, allowed to be corrupt */ bool isPresent() const { return status == PathStatus::Corrupt || status == PathStatus::Valid; } }; struct InitialOutput { bool wanted; Hash outputHash; std::optional known; }; /** * A goal for building some or all of the outputs of a derivation. * * The derivation must already be present, either in the store in a drv * or in memory. If the derivation itself needs to be gotten first, a * `CreateDerivationAndRealiseGoal` goal must be used instead. */ struct DerivationGoal : public Goal { /** * Whether to use an on-disk .drv file. */ bool useDerivation; /** The path of the derivation. */ StorePath drvPath; /** * The goal for the corresponding resolved derivation */ std::shared_ptr resolvedDrvGoal; /** * The specific outputs that we need to build. */ OutputsSpec wantedOutputs; /** * Mapping from input derivations + output names to actual store * paths. This is filled in by waiteeDone() as each dependency * finishes, before inputsRealised() is reached. */ std::map, StorePath> inputDrvOutputs; /** * See `needRestart`; just for that field. */ enum struct NeedRestartForMoreOutputs { /** * The goal state machine is progressing based on the current value of * `wantedOutputs. No actions are needed. */ OutputsUnmodifedDontNeed, /** * `wantedOutputs` has been extended, but the state machine is * proceeding according to its old value, so we need to restart. */ OutputsAddedDoNeed, /** * The goal state machine has progressed to the point of doing a build, * in which case all outputs will be produced, so extensions to * `wantedOutputs` no longer require a restart. */ BuildInProgressWillNotNeed, }; /** * Whether additional wanted outputs have been added. */ NeedRestartForMoreOutputs needRestart = NeedRestartForMoreOutputs::OutputsUnmodifedDontNeed; /** * See `retrySubstitution`; just for that field. */ enum RetrySubstitution { /** * No issues have yet arose, no need to restart. */ NoNeed, /** * Something failed and there is an incomplete closure. Let's retry * substituting. */ YesNeed, /** * We are current or have already retried substitution, and whether or * not something goes wrong we will not retry again. */ AlreadyRetried, }; /** * Whether to retry substituting the outputs after building the * inputs. This is done in case of an incomplete closure. */ RetrySubstitution retrySubstitution = RetrySubstitution::NoNeed; /** * The derivation stored at drvPath. */ std::unique_ptr drv; std::unique_ptr parsedDrv; /** * The remainder is state held during the build. */ /** * Locks on (fixed) output paths. */ PathLocks outputLocks; /** * All input paths (that is, the union of FS closures of the * immediate input paths). */ StorePathSet inputPaths; std::map initialOutputs; /** * File descriptor for the log file. */ AutoCloseFD fdLogFile; std::shared_ptr logFileSink, logSink; /** * Number of bytes received from the builder's stdout/stderr. */ unsigned long logSize; /** * The most recent log lines. */ std::list logTail; std::string currentLogLine; size_t currentLogLinePos = 0; // to handle carriage return std::string currentHookLine; /** * The build hook. */ std::unique_ptr hook; /** * The sort of derivation we are building. */ std::optional derivationType; typedef void (DerivationGoal::*GoalState)(); GoalState state; BuildMode buildMode; std::unique_ptr> mcExpectedBuilds, mcRunningBuilds; std::unique_ptr act; /** * Activity that denotes waiting for a lock. */ std::unique_ptr actLock; std::map builderActivities; /** * The remote machine on which we're building. */ std::string machineName; DerivationGoal(const StorePath & drvPath, const OutputsSpec & wantedOutputs, Worker & worker, BuildMode buildMode = bmNormal); DerivationGoal(const StorePath & drvPath, const BasicDerivation & drv, const OutputsSpec & wantedOutputs, Worker & worker, BuildMode buildMode = bmNormal); virtual ~DerivationGoal(); void timedOut(Error && ex) override; std::string key() override; void work() override; /** * Add wanted outputs to an already existing derivation goal. */ void addWantedOutputs(const OutputsSpec & outputs); /** * The states. */ void loadDerivation(); void haveDerivation(); void outputsSubstitutionTried(); void gaveUpOnSubstitution(); void closureRepaired(); void inputsRealised(); void tryToBuild(); virtual void tryLocalBuild(); void buildDone(); void resolvedFinished(); /** * Is the build hook willing to perform the build? */ HookReply tryBuildHook(); virtual int getChildStatus(); /** * Check that the derivation outputs all exist and register them * as valid. */ virtual SingleDrvOutputs registerOutputs(); /** * Open a log file and a pipe to it. */ Path openLogFile(); /** * Sign the newly built realisation if the store allows it */ virtual void signRealisation(Realisation&) {} /** * Close the log file. */ void closeLogFile(); /** * Close the read side of the logger pipe. */ virtual void closeReadPipes(); /** * Cleanup hooks for buildDone() */ virtual void cleanupHookFinally(); virtual void cleanupPreChildKill(); virtual void cleanupPostChildKill(); virtual bool cleanupDecideWhetherDiskFull(); virtual void cleanupPostOutputsRegisteredModeCheck(); virtual void cleanupPostOutputsRegisteredModeNonCheck(); virtual bool isReadDesc(int fd); /** * Callback used by the worker to write to the log. */ void handleChildOutput(int fd, std::string_view data) override; void handleEOF(int fd) override; void flushLine(); /** * Wrappers around the corresponding Store methods that first consult the * derivation. This is currently needed because when there is no drv file * there also is no DB entry. */ std::map> queryPartialDerivationOutputMap(); OutputPathMap queryDerivationOutputMap(); /** * Update 'initialOutputs' to determine the current status of the * outputs of the derivation. Also returns a Boolean denoting * whether all outputs are valid and non-corrupt, and a * 'SingleDrvOutputs' structure containing the valid outputs. */ std::pair checkPathValidity(); /** * Aborts if any output is not valid or corrupt, and otherwise * returns a 'SingleDrvOutputs' structure containing all outputs. */ SingleDrvOutputs assertPathValidity(); /** * Forcibly kill the child process, if any. */ virtual void killChild(); void repairClosure(); void started(); void done( BuildResult::Status status, SingleDrvOutputs builtOutputs = {}, std::optional ex = {}); void waiteeDone(GoalPtr waitee, ExitCode result) override; StorePathSet exportReferences(const StorePathSet & storePaths); JobCategory jobCategory() const override { return JobCategory::Build; }; }; MakeError(NotDeterministic, BuildError); }