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nix/src/libstore/misc.cc
John Ericson a9fdd537ac Store DerivationOption instead Derivation, put in JSON format 
This opens the door to derivations that *directly* specify their
options, rather than "stealing" environment variables to do so.

The A-Term derivation format used on disk didn't change --- we cannot do
that for existing derivations, so those derivations will continue to not
support separate options. But having a more flexible JSON format opens
the door to extending the on-disk format in others, like directly using
JSON, using CBOR, etc.

Co-authored-by: HaeNoe <git@haenoe.party>
Co-authored-by: Jonathan Gibbons <jonored@gmail.com>
2025-11-07 00:47:55 -05:00

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#include "nix/store/derivations.hh"
#include "nix/store/parsed-derivations.hh"
#include "nix/store/derivation-options.hh"
#include "nix/store/globals.hh"
#include "nix/store/store-open.hh"
#include "nix/util/thread-pool.hh"
#include "nix/store/realisation.hh"
#include "nix/util/topo-sort.hh"
#include "nix/util/callback.hh"
#include "nix/util/closure.hh"
#include "nix/store/filetransfer.hh"
#include "nix/util/strings.hh"
#include <boost/unordered/unordered_flat_set.hpp>
namespace nix {
void Store::computeFSClosure(
const StorePathSet & startPaths,
StorePathSet & paths_,
bool flipDirection,
bool includeOutputs,
bool includeDerivers)
{
std::function<std::set<StorePath>(const StorePath & path, std::future<ref<const ValidPathInfo>> &)> queryDeps;
if (flipDirection)
queryDeps = [&](const StorePath & path, std::future<ref<const ValidPathInfo>> & fut) {
StorePathSet res;
StorePathSet referrers;
queryReferrers(path, referrers);
for (auto & ref : referrers)
if (ref != path)
res.insert(ref);
if (includeOutputs)
for (auto & i : queryValidDerivers(path))
res.insert(i);
if (includeDerivers && path.isDerivation())
for (auto & [_, maybeOutPath] : queryPartialDerivationOutputMap(path))
if (maybeOutPath && isValidPath(*maybeOutPath))
res.insert(*maybeOutPath);
return res;
};
else
queryDeps = [&](const StorePath & path, std::future<ref<const ValidPathInfo>> & fut) {
StorePathSet res;
auto info = fut.get();
for (auto & ref : info->references)
if (ref != path)
res.insert(ref);
if (includeOutputs && path.isDerivation())
for (auto & [_, maybeOutPath] : queryPartialDerivationOutputMap(path))
if (maybeOutPath && isValidPath(*maybeOutPath))
res.insert(*maybeOutPath);
if (includeDerivers && info->deriver && isValidPath(*info->deriver))
res.insert(*info->deriver);
return res;
};
computeClosure<StorePath>(
startPaths,
paths_,
[&](const StorePath & path, std::function<void(std::promise<std::set<StorePath>> &)> processEdges) {
std::promise<std::set<StorePath>> promise;
std::function<void(std::future<ref<const ValidPathInfo>>)> getDependencies =
[&](std::future<ref<const ValidPathInfo>> fut) {
try {
promise.set_value(queryDeps(path, fut));
} catch (...) {
promise.set_exception(std::current_exception());
}
};
queryPathInfo(path, getDependencies);
processEdges(promise);
});
}
void Store::computeFSClosure(
const StorePath & startPath, StorePathSet & paths_, bool flipDirection, bool includeOutputs, bool includeDerivers)
{
StorePathSet paths;
paths.insert(startPath);
computeFSClosure(paths, paths_, flipDirection, includeOutputs, includeDerivers);
}
const ContentAddress * getDerivationCA(const BasicDerivation & drv)
{
auto out = drv.outputs.find("out");
if (out == drv.outputs.end())
return nullptr;
if (auto dof = std::get_if<DerivationOutput::CAFixed>(&out->second.raw)) {
return &dof->ca;
}
return nullptr;
}
MissingPaths Store::queryMissing(const std::vector<DerivedPath> & targets)
{
Activity act(*logger, lvlDebug, actUnknown, "querying info about missing paths");
// FIXME: make async.
ThreadPool pool(fileTransferSettings.httpConnections);
struct State
{
boost::unordered_flat_set<std::string> done;
MissingPaths res;
};
struct DrvState
{
size_t left;
bool done = false;
StorePathSet outPaths;
DrvState(size_t left)
: left(left)
{
}
};
Sync<State> state_;
std::function<void(DerivedPath)> doPath;
auto enqueueDerivedPaths = [&](this auto self,
ref<SingleDerivedPath> inputDrv,
const DerivedPathMap<StringSet>::ChildNode & inputNode) -> void {
if (!inputNode.value.empty())
pool.enqueue(std::bind(doPath, DerivedPath::Built{inputDrv, inputNode.value}));
for (const auto & [outputName, childNode] : inputNode.childMap)
self(make_ref<SingleDerivedPath>(SingleDerivedPath::Built{inputDrv, outputName}), childNode);
};
auto mustBuildDrv = [&](const StorePath & drvPath, const Derivation & drv) {
{
auto state(state_.lock());
state->res.willBuild.insert(drvPath);
}
for (const auto & [inputDrv, inputNode] : drv.inputDrvs.map) {
enqueueDerivedPaths(makeConstantStorePathRef(inputDrv), inputNode);
}
};
auto checkOutput =
[&](const StorePath & drvPath, ref<Derivation> drv, const StorePath & outPath, ref<Sync<DrvState>> drvState_) {
if (drvState_->lock()->done)
return;
SubstitutablePathInfos infos;
auto * cap = getDerivationCA(*drv);
querySubstitutablePathInfos(
{
{
outPath,
cap ? std::optional{*cap} : std::nullopt,
},
},
infos);
if (infos.empty()) {
drvState_->lock()->done = true;
mustBuildDrv(drvPath, *drv);
} else {
{
auto drvState(drvState_->lock());
if (drvState->done)
return;
assert(drvState->left);
drvState->left--;
drvState->outPaths.insert(outPath);
if (!drvState->left) {
for (auto & path : drvState->outPaths)
pool.enqueue(std::bind(doPath, DerivedPath::Opaque{path}));
}
}
}
};
doPath = [&](const DerivedPath & req) {
{
auto state(state_.lock());
if (!state->done.insert(req.to_string(*this)).second)
return;
}
std::visit(
overloaded{
[&](const DerivedPath::Built & bfd) {
auto drvPathP = std::get_if<DerivedPath::Opaque>(&*bfd.drvPath);
if (!drvPathP) {
// TODO make work in this case.
warn(
"Ignoring dynamic derivation %s while querying missing paths; not yet implemented",
bfd.drvPath->to_string(*this));
return;
}
auto & drvPath = drvPathP->path;
if (!isValidPath(drvPath)) {
// FIXME: we could try to substitute the derivation.
auto state(state_.lock());
state->res.unknown.insert(drvPath);
return;
}
StorePathSet invalid;
/* true for regular derivations, and CA derivations for which we
have a trust mapping for all wanted outputs. */
auto knownOutputPaths = true;
for (auto & [outputName, pathOpt] : queryPartialDerivationOutputMap(drvPath)) {
if (!pathOpt) {
knownOutputPaths = false;
break;
}
if (bfd.outputs.contains(outputName) && !isValidPath(*pathOpt))
invalid.insert(*pathOpt);
}
if (knownOutputPaths && invalid.empty())
return;
auto drv = make_ref<Derivation>(derivationFromPath(drvPath));
if (!knownOutputPaths && settings.useSubstitutes && drv->options.substitutesAllowed()) {
experimentalFeatureSettings.require(Xp::CaDerivations);
// If there are unknown output paths, attempt to find if the
// paths are known to substituters through a realisation.
auto outputHashes = staticOutputHashes(*this, *drv);
knownOutputPaths = true;
for (auto [outputName, hash] : outputHashes) {
if (!bfd.outputs.contains(outputName))
continue;
bool found = false;
for (auto & sub : getDefaultSubstituters()) {
auto realisation = sub->queryRealisation({hash, outputName});
if (!realisation)
continue;
found = true;
if (!isValidPath(realisation->outPath))
invalid.insert(realisation->outPath);
break;
}
if (!found) {
// Some paths did not have a realisation, this must be built.
knownOutputPaths = false;
break;
}
}
}
if (knownOutputPaths && settings.useSubstitutes && drv->options.substitutesAllowed()) {
auto drvState = make_ref<Sync<DrvState>>(DrvState(invalid.size()));
for (auto & output : invalid)
pool.enqueue(std::bind(checkOutput, drvPath, drv, output, drvState));
} else
mustBuildDrv(drvPath, *drv);
},
[&](const DerivedPath::Opaque & bo) {
if (isValidPath(bo.path))
return;
SubstitutablePathInfos infos;
querySubstitutablePathInfos({{bo.path, std::nullopt}}, infos);
if (infos.empty()) {
auto state(state_.lock());
state->res.unknown.insert(bo.path);
return;
}
auto info = infos.find(bo.path);
assert(info != infos.end());
{
auto state(state_.lock());
state->res.willSubstitute.insert(bo.path);
state->res.downloadSize += info->second.downloadSize;
state->res.narSize += info->second.narSize;
}
for (auto & ref : info->second.references)
pool.enqueue(std::bind(doPath, DerivedPath::Opaque{ref}));
},
},
req.raw());
};
for (auto & path : targets)
pool.enqueue(std::bind(doPath, path));
pool.process();
return std::move(state_.lock()->res);
}
StorePaths Store::topoSortPaths(const StorePathSet & paths)
{
return topoSort(
paths,
{[&](const StorePath & path) {
try {
return queryPathInfo(path)->references;
} catch (InvalidPath &) {
return StorePathSet();
}
}},
{[&](const StorePath & path, const StorePath & parent) {
return BuildError(
BuildResult::Failure::OutputRejected,
"cycle detected in the references of '%s' from '%s'",
printStorePath(path),
printStorePath(parent));
}});
}
std::map<DrvOutput, StorePath>
drvOutputReferences(const std::set<Realisation> & inputRealisations, const StorePathSet & pathReferences)
{
std::map<DrvOutput, StorePath> res;
for (const auto & input : inputRealisations) {
if (pathReferences.count(input.outPath)) {
res.insert({input.id, input.outPath});
}
}
return res;
}
std::map<DrvOutput, StorePath>
drvOutputReferences(Store & store, const Derivation & drv, const StorePath & outputPath, Store * evalStore_)
{
auto & evalStore = evalStore_ ? *evalStore_ : store;
std::set<Realisation> inputRealisations;
auto accumRealisations = [&](this auto & self,
const StorePath & inputDrv,
const DerivedPathMap<StringSet>::ChildNode & inputNode) -> void {
if (!inputNode.value.empty()) {
auto outputHashes = staticOutputHashes(evalStore, evalStore.readDerivation(inputDrv));
for (const auto & outputName : inputNode.value) {
auto outputHash = get(outputHashes, outputName);
if (!outputHash)
throw Error(
"output '%s' of derivation '%s' isn't realised", outputName, store.printStorePath(inputDrv));
DrvOutput key{*outputHash, outputName};
auto thisRealisation = store.queryRealisation(key);
if (!thisRealisation)
throw Error(
"output '%s' of derivation '%s' isnt built", outputName, store.printStorePath(inputDrv));
inputRealisations.insert({*thisRealisation, std::move(key)});
}
}
if (!inputNode.value.empty()) {
auto d = makeConstantStorePathRef(inputDrv);
for (const auto & [outputName, childNode] : inputNode.childMap) {
SingleDerivedPath next = SingleDerivedPath::Built{d, outputName};
self(
// TODO deep resolutions for dynamic derivations, issue #8947, would go here.
resolveDerivedPath(store, next, evalStore_),
childNode);
}
}
};
for (const auto & [inputDrv, inputNode] : drv.inputDrvs.map)
accumRealisations(inputDrv, inputNode);
auto info = store.queryPathInfo(outputPath);
return drvOutputReferences(Realisation::closure(store, inputRealisations), info->references);
}
OutputPathMap resolveDerivedPath(Store & store, const DerivedPath::Built & bfd, Store * evalStore_)
{
auto drvPath = resolveDerivedPath(store, *bfd.drvPath, evalStore_);
auto outputsOpt_ = store.queryPartialDerivationOutputMap(drvPath, evalStore_);
auto outputsOpt = std::visit(
overloaded{
[&](const OutputsSpec::All &) {
// Keep all outputs
return std::move(outputsOpt_);
},
[&](const OutputsSpec::Names & names) {
// Get just those mentioned by name
std::map<std::string, std::optional<StorePath>> outputsOpt;
for (auto & output : names) {
auto * pOutputPathOpt = get(outputsOpt_, output);
if (!pOutputPathOpt)
throw Error(
"the derivation '%s' doesn't have an output named '%s'",
bfd.drvPath->to_string(store),
output);
outputsOpt.insert_or_assign(output, std::move(*pOutputPathOpt));
}
return outputsOpt;
},
},
bfd.outputs.raw);
OutputPathMap outputs;
for (auto & [outputName, outputPathOpt] : outputsOpt) {
if (!outputPathOpt)
throw MissingRealisation(bfd.drvPath->to_string(store), outputName);
auto & outputPath = *outputPathOpt;
outputs.insert_or_assign(outputName, outputPath);
}
return outputs;
}
StorePath resolveDerivedPath(Store & store, const SingleDerivedPath & req, Store * evalStore_)
{
auto & evalStore = evalStore_ ? *evalStore_ : store;
return std::visit(
overloaded{
[&](const SingleDerivedPath::Opaque & bo) { return bo.path; },
[&](const SingleDerivedPath::Built & bfd) {
auto drvPath = resolveDerivedPath(store, *bfd.drvPath, evalStore_);
auto outputPaths = evalStore.queryPartialDerivationOutputMap(drvPath, evalStore_);
if (outputPaths.count(bfd.output) == 0)
throw Error(
"derivation '%s' does not have an output named '%s'",
store.printStorePath(drvPath),
bfd.output);
auto & optPath = outputPaths.at(bfd.output);
if (!optPath)
throw MissingRealisation(bfd.drvPath->to_string(store), bfd.output);
return *optPath;
},
},
req.raw());
}
OutputPathMap resolveDerivedPath(Store & store, const DerivedPath::Built & bfd)
{
auto drvPath = resolveDerivedPath(store, *bfd.drvPath);
auto outputMap = store.queryDerivationOutputMap(drvPath);
auto outputsLeft = std::visit(
overloaded{
[&](const OutputsSpec::All &) { return StringSet{}; },
[&](const OutputsSpec::Names & names) { return static_cast<StringSet>(names); },
},
bfd.outputs.raw);
for (auto iter = outputMap.begin(); iter != outputMap.end();) {
auto & outputName = iter->first;
if (bfd.outputs.contains(outputName)) {
outputsLeft.erase(outputName);
++iter;
} else {
iter = outputMap.erase(iter);
}
}
if (!outputsLeft.empty())
throw Error(
"derivation '%s' does not have an outputs %s",
store.printStorePath(drvPath),
concatStringsSep(", ", quoteStrings(std::get<OutputsSpec::Names>(bfd.outputs.raw))));
return outputMap;
}
} // namespace nix
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