#include "command.hh" #include "installable-flake.hh" #include "common-args.hh" #include "shared.hh" #include "store-api.hh" #include "derivations.hh" #include "archive.hh" #include "builtins/buildenv.hh" #include "flake/flakeref.hh" #include "../nix-env/user-env.hh" #include "profiles.hh" #include "names.hh" #include #include #include using namespace nix; struct ProfileElementSource { FlakeRef originalRef; // FIXME: record original attrpath. FlakeRef resolvedRef; std::string attrPath; ExtendedOutputsSpec outputs; bool operator < (const ProfileElementSource & other) const { return std::tuple(originalRef.to_string(), attrPath, outputs) < std::tuple(other.originalRef.to_string(), other.attrPath, other.outputs); } std::string to_string() const { return fmt("%s#%s%s", originalRef, attrPath, outputs.to_string()); } }; const int defaultPriority = 5; struct ProfileElement { StorePathSet storePaths; std::optional source; bool active = true; int priority = defaultPriority; std::string identifier() const { if (source) return source->to_string(); StringSet names; for (auto & path : storePaths) names.insert(DrvName(path.name()).name); return concatStringsSep(", ", names); } /** * Return a string representing an installable corresponding to the current * element, either a flakeref or a plain store path */ std::set toInstallables(Store & store) { if (source) return {source->to_string()}; StringSet rawPaths; for (auto & path : storePaths) rawPaths.insert(store.printStorePath(path)); return rawPaths; } std::string versions() const { StringSet versions; for (auto & path : storePaths) versions.insert(DrvName(path.name()).version); return showVersions(versions); } bool operator < (const ProfileElement & other) const { return std::tuple(identifier(), storePaths) < std::tuple(other.identifier(), other.storePaths); } void updateStorePaths( ref evalStore, ref store, const BuiltPaths & builtPaths) { storePaths.clear(); for (auto & buildable : builtPaths) { std::visit(overloaded { [&](const BuiltPath::Opaque & bo) { storePaths.insert(bo.path); }, [&](const BuiltPath::Built & bfd) { for (auto & output : bfd.outputs) storePaths.insert(output.second); }, }, buildable.raw()); } } }; struct ProfileManifest { std::vector elements; ProfileManifest() { } ProfileManifest(EvalState & state, const Path & profile) { auto manifestPath = profile + "/manifest.json"; if (pathExists(manifestPath)) { auto json = nlohmann::json::parse(readFile(manifestPath)); auto version = json.value("version", 0); std::string sUrl; std::string sOriginalUrl; switch (version) { case 1: sUrl = "uri"; sOriginalUrl = "originalUri"; break; case 2: sUrl = "url"; sOriginalUrl = "originalUrl"; break; default: throw Error("profile manifest '%s' has unsupported version %d", manifestPath, version); } for (auto & e : json["elements"]) { ProfileElement element; for (auto & p : e["storePaths"]) element.storePaths.insert(state.store->parseStorePath((std::string) p)); element.active = e["active"]; if(e.contains("priority")) { element.priority = e["priority"]; } if (e.value(sUrl, "") != "") { element.source = ProfileElementSource { parseFlakeRef(e[sOriginalUrl]), parseFlakeRef(e[sUrl]), e["attrPath"], e["outputs"].get() }; } elements.emplace_back(std::move(element)); } } else if (pathExists(profile + "/manifest.nix")) { // FIXME: needed because of pure mode; ugly. state.allowPath(state.store->followLinksToStore(profile)); state.allowPath(state.store->followLinksToStore(profile + "/manifest.nix")); auto drvInfos = queryInstalled(state, state.store->followLinksToStore(profile)); for (auto & drvInfo : drvInfos) { ProfileElement element; element.storePaths = {drvInfo.queryOutPath()}; elements.emplace_back(std::move(element)); } } } std::string toJSON(Store & store) const { auto array = nlohmann::json::array(); for (auto & element : elements) { auto paths = nlohmann::json::array(); for (auto & path : element.storePaths) paths.push_back(store.printStorePath(path)); nlohmann::json obj; obj["storePaths"] = paths; obj["active"] = element.active; obj["priority"] = element.priority; if (element.source) { obj["originalUrl"] = element.source->originalRef.to_string(); obj["url"] = element.source->resolvedRef.to_string(); obj["attrPath"] = element.source->attrPath; obj["outputs"] = element.source->outputs; } array.push_back(obj); } nlohmann::json json; json["version"] = 2; json["elements"] = array; return json.dump(); } StorePath build(ref store) { auto tempDir = createTempDir(); StorePathSet references; Packages pkgs; for (auto & element : elements) { for (auto & path : element.storePaths) { if (element.active) pkgs.emplace_back(store->printStorePath(path), true, element.priority); references.insert(path); } } buildProfile(tempDir, std::move(pkgs)); writeFile(tempDir + "/manifest.json", toJSON(*store)); /* Add the symlink tree to the store. */ StringSink sink; dumpPath(tempDir, sink); auto narHash = hashString(htSHA256, sink.s); ValidPathInfo info { *store, "profile", FixedOutputInfo { .hash = { .method = FileIngestionMethod::Recursive, .hash = narHash, }, .references = { .others = std::move(references), // profiles never refer to themselves .self = false, }, }, narHash, }; info.narSize = sink.s.size(); StringSource source(sink.s); store->addToStore(info, source); return std::move(info.path); } static void printDiff(const ProfileManifest & prev, const ProfileManifest & cur, std::string_view indent) { auto prevElems = prev.elements; std::sort(prevElems.begin(), prevElems.end()); auto curElems = cur.elements; std::sort(curElems.begin(), curElems.end()); auto i = prevElems.begin(); auto j = curElems.begin(); bool changes = false; while (i != prevElems.end() || j != curElems.end()) { if (j != curElems.end() && (i == prevElems.end() || i->identifier() > j->identifier())) { logger->cout("%s%s: ∅ -> %s", indent, j->identifier(), j->versions()); changes = true; ++j; } else if (i != prevElems.end() && (j == curElems.end() || i->identifier() < j->identifier())) { logger->cout("%s%s: %s -> ∅", indent, i->identifier(), i->versions()); changes = true; ++i; } else { auto v1 = i->versions(); auto v2 = j->versions(); if (v1 != v2) { logger->cout("%s%s: %s -> %s", indent, i->identifier(), v1, v2); changes = true; } ++i; ++j; } } if (!changes) logger->cout("%sNo changes.", indent); } }; static std::map>> builtPathsPerInstallable( const std::vector, BuiltPathWithResult>> & builtPaths) { std::map>> res; for (auto & [installable, builtPath] : builtPaths) { auto & r = res.insert({ &*installable, { {}, make_ref(), } }).first->second; /* Note that there could be conflicting info (e.g. meta.priority fields) if the installable returned multiple derivations. So pick one arbitrarily. FIXME: print a warning? */ r.first.push_back(builtPath.path); r.second = builtPath.info; } return res; } struct CmdProfileInstall : InstallablesCommand, MixDefaultProfile { std::optional priority; CmdProfileInstall() { addFlag({ .longName = "priority", .description = "The priority of the package to install.", .labels = {"priority"}, .handler = {&priority}, }); }; std::string description() override { return "install a package into a profile"; } std::string doc() override { return #include "profile-install.md" ; } void run(ref store, Installables && installables) override { ProfileManifest manifest(*getEvalState(), *profile); auto builtPaths = builtPathsPerInstallable( Installable::build2( getEvalStore(), store, Realise::Outputs, installables, bmNormal)); for (auto & installable : installables) { ProfileElement element; auto iter = builtPaths.find(&*installable); if (iter == builtPaths.end()) continue; auto & [res, info] = iter->second; if (auto * info2 = dynamic_cast(&*info)) { element.source = ProfileElementSource { .originalRef = info2->flake.originalRef, .resolvedRef = info2->flake.resolvedRef, .attrPath = info2->value.attrPath, .outputs = info2->value.extendedOutputsSpec, }; } // If --priority was specified we want to override the // priority of the installable. element.priority = priority ? *priority : ({ auto * info2 = dynamic_cast(&*info); info2 ? info2->value.priority.value_or(defaultPriority) : defaultPriority; }); element.updateStorePaths(getEvalStore(), store, res); manifest.elements.push_back(std::move(element)); } try { updateProfile(manifest.build(store)); } catch (BuildEnvFileConflictError & conflictError) { // FIXME use C++20 std::ranges once macOS has it // See https://github.com/NixOS/nix/compare/3efa476c5439f8f6c1968a6ba20a31d1239c2f04..1fe5d172ece51a619e879c4b86f603d9495cc102 auto findRefByFilePath = [&](Iterator begin, Iterator end) { for (auto it = begin; it != end; it++) { auto profileElement = *it; for (auto & storePath : profileElement.storePaths) { if (conflictError.fileA.starts_with(store->printStorePath(storePath))) { return std::pair(conflictError.fileA, profileElement.toInstallables(*store)); } if (conflictError.fileB.starts_with(store->printStorePath(storePath))) { return std::pair(conflictError.fileB, profileElement.toInstallables(*store)); } } } throw conflictError; }; // There are 2 conflicting files. We need to find out which one is from the already installed package and // which one is the package that is the new package that is being installed. // The first matching package is the one that was already installed (original). auto [originalConflictingFilePath, originalConflictingRefs] = findRefByFilePath(manifest.elements.begin(), manifest.elements.end()); // The last matching package is the one that was going to be installed (new). auto [newConflictingFilePath, newConflictingRefs] = findRefByFilePath(manifest.elements.rbegin(), manifest.elements.rend()); throw Error( "An existing package already provides the following file:\n" "\n" " %1%\n" "\n" "This is the conflicting file from the new package:\n" "\n" " %2%\n" "\n" "To remove the existing package:\n" "\n" " nix profile remove %3%\n" "\n" "The new package can also be installed next to the existing one by assigning a different priority.\n" "The conflicting packages have a priority of %5%.\n" "To prioritise the new package:\n" "\n" " nix profile install %4% --priority %6%\n" "\n" "To prioritise the existing package:\n" "\n" " nix profile install %4% --priority %7%\n", originalConflictingFilePath, newConflictingFilePath, concatStringsSep(" ", originalConflictingRefs), concatStringsSep(" ", newConflictingRefs), conflictError.priority, conflictError.priority - 1, conflictError.priority + 1 ); } } }; class MixProfileElementMatchers : virtual Args { std::vector _matchers; public: MixProfileElementMatchers() { expectArgs("elements", &_matchers); } struct RegexPattern { std::string pattern; std::regex reg; }; typedef std::variant Matcher; std::vector getMatchers(ref store) { std::vector res; for (auto & s : _matchers) { if (auto n = string2Int(s)) res.push_back(*n); else if (store->isStorePath(s)) res.push_back(s); else res.push_back(RegexPattern{s,std::regex(s, std::regex::extended | std::regex::icase)}); } return res; } bool matches(const Store & store, const ProfileElement & element, size_t pos, const std::vector & matchers) { for (auto & matcher : matchers) { if (auto n = std::get_if(&matcher)) { if (*n == pos) return true; } else if (auto path = std::get_if(&matcher)) { if (element.storePaths.count(store.parseStorePath(*path))) return true; } else if (auto regex = std::get_if(&matcher)) { if (element.source && std::regex_match(element.source->attrPath, regex->reg)) return true; } } return false; } }; struct CmdProfileRemove : virtual EvalCommand, MixDefaultProfile, MixProfileElementMatchers { std::string description() override { return "remove packages from a profile"; } std::string doc() override { return #include "profile-remove.md" ; } void run(ref store) override { ProfileManifest oldManifest(*getEvalState(), *profile); auto matchers = getMatchers(store); ProfileManifest newManifest; for (size_t i = 0; i < oldManifest.elements.size(); ++i) { auto & element(oldManifest.elements[i]); if (!matches(*store, element, i, matchers)) { newManifest.elements.push_back(std::move(element)); } else { notice("removing '%s'", element.identifier()); } } auto removedCount = oldManifest.elements.size() - newManifest.elements.size(); printInfo("removed %d packages, kept %d packages", removedCount, newManifest.elements.size()); if (removedCount == 0) { for (auto matcher: matchers) { if (const size_t * index = std::get_if(&matcher)){ warn("'%d' is not a valid index", *index); } else if (const Path * path = std::get_if(&matcher)){ warn("'%s' does not match any paths", *path); } else if (const RegexPattern * regex = std::get_if(&matcher)){ warn("'%s' does not match any packages", regex->pattern); } } warn ("Use 'nix profile list' to see the current profile."); } updateProfile(newManifest.build(store)); } }; struct CmdProfileUpgrade : virtual SourceExprCommand, MixDefaultProfile, MixProfileElementMatchers { std::string description() override { return "upgrade packages using their most recent flake"; } std::string doc() override { return #include "profile-upgrade.md" ; } void run(ref store) override { ProfileManifest manifest(*getEvalState(), *profile); auto matchers = getMatchers(store); Installables installables; std::vector indices; auto upgradedCount = 0; for (size_t i = 0; i < manifest.elements.size(); ++i) { auto & element(manifest.elements[i]); if (element.source && !element.source->originalRef.input.isLocked() && matches(*store, element, i, matchers)) { upgradedCount++; Activity act(*logger, lvlChatty, actUnknown, fmt("checking '%s' for updates", element.source->attrPath)); auto installable = make_ref( this, getEvalState(), FlakeRef(element.source->originalRef), "", element.source->outputs, Strings{element.source->attrPath}, Strings{}, lockFlags); auto derivedPaths = installable->toDerivedPaths(); if (derivedPaths.empty()) continue; auto * infop = dynamic_cast(&*derivedPaths[0].info); // `InstallableFlake` should use `ExtraPathInfoFlake`. assert(infop); auto & info = *infop; if (element.source->resolvedRef == info.flake.resolvedRef) continue; printInfo("upgrading '%s' from flake '%s' to '%s'", element.source->attrPath, element.source->resolvedRef, info.flake.resolvedRef); element.source = ProfileElementSource { .originalRef = installable->flakeRef, .resolvedRef = info.flake.resolvedRef, .attrPath = info.value.attrPath, .outputs = installable->extendedOutputsSpec, }; installables.push_back(installable); indices.push_back(i); } } if (upgradedCount == 0) { for (auto & matcher : matchers) { if (const size_t * index = std::get_if(&matcher)){ warn("'%d' is not a valid index", *index); } else if (const Path * path = std::get_if(&matcher)){ warn("'%s' does not match any paths", *path); } else if (const RegexPattern * regex = std::get_if(&matcher)){ warn("'%s' does not match any packages", regex->pattern); } } warn ("Use 'nix profile list' to see the current profile."); } auto builtPaths = builtPathsPerInstallable( Installable::build2( getEvalStore(), store, Realise::Outputs, installables, bmNormal)); for (size_t i = 0; i < installables.size(); ++i) { auto & installable = installables.at(i); auto & element = manifest.elements[indices.at(i)]; element.updateStorePaths( getEvalStore(), store, builtPaths.find(&*installable)->second.first); } updateProfile(manifest.build(store)); } }; struct CmdProfileList : virtual EvalCommand, virtual StoreCommand, MixDefaultProfile { std::string description() override { return "list installed packages"; } std::string doc() override { return #include "profile-list.md" ; } void run(ref store) override { ProfileManifest manifest(*getEvalState(), *profile); for (size_t i = 0; i < manifest.elements.size(); ++i) { auto & element(manifest.elements[i]); logger->cout("%d %s %s %s", i, element.source ? element.source->originalRef.to_string() + "#" + element.source->attrPath + element.source->outputs.to_string() : "-", element.source ? element.source->resolvedRef.to_string() + "#" + element.source->attrPath + element.source->outputs.to_string() : "-", concatStringsSep(" ", store->printStorePathSet(element.storePaths))); } } }; struct CmdProfileDiffClosures : virtual StoreCommand, MixDefaultProfile { std::string description() override { return "show the closure difference between each version of a profile"; } std::string doc() override { return #include "profile-diff-closures.md" ; } void run(ref store) override { auto [gens, curGen] = findGenerations(*profile); std::optional prevGen; bool first = true; for (auto & gen : gens) { if (prevGen) { if (!first) logger->cout(""); first = false; logger->cout("Version %d -> %d:", prevGen->number, gen.number); printClosureDiff(store, store->followLinksToStorePath(prevGen->path), store->followLinksToStorePath(gen.path), " "); } prevGen = gen; } } }; struct CmdProfileHistory : virtual StoreCommand, EvalCommand, MixDefaultProfile { std::string description() override { return "show all versions of a profile"; } std::string doc() override { return #include "profile-history.md" ; } void run(ref store) override { auto [gens, curGen] = findGenerations(*profile); std::optional> prevGen; bool first = true; for (auto & gen : gens) { ProfileManifest manifest(*getEvalState(), gen.path); if (!first) logger->cout(""); first = false; logger->cout("Version %s%d" ANSI_NORMAL " (%s)%s:", gen.number == curGen ? ANSI_GREEN : ANSI_BOLD, gen.number, std::put_time(std::gmtime(&gen.creationTime), "%Y-%m-%d"), prevGen ? fmt(" <- %d", prevGen->first.number) : ""); ProfileManifest::printDiff( prevGen ? prevGen->second : ProfileManifest(), manifest, " "); prevGen = {gen, std::move(manifest)}; } } }; struct CmdProfileRollback : virtual StoreCommand, MixDefaultProfile, MixDryRun { std::optional version; CmdProfileRollback() { addFlag({ .longName = "to", .description = "The profile version to roll back to.", .labels = {"version"}, .handler = {&version}, }); } std::string description() override { return "roll back to the previous version or a specified version of a profile"; } std::string doc() override { return #include "profile-rollback.md" ; } void run(ref store) override { switchGeneration(*profile, version, dryRun); } }; struct CmdProfileWipeHistory : virtual StoreCommand, MixDefaultProfile, MixDryRun { std::optional minAge; CmdProfileWipeHistory() { addFlag({ .longName = "older-than", .description = "Delete versions older than the specified age. *age* " "must be in the format *N*`d`, where *N* denotes a number " "of days.", .labels = {"age"}, .handler = {&minAge}, }); } std::string description() override { return "delete non-current versions of a profile"; } std::string doc() override { return #include "profile-wipe-history.md" ; } void run(ref store) override { if (minAge) { auto t = parseOlderThanTimeSpec(*minAge); deleteGenerationsOlderThan(*profile, t, dryRun); } else deleteOldGenerations(*profile, dryRun); } }; struct CmdProfile : NixMultiCommand { CmdProfile() : MultiCommand({ {"install", []() { return make_ref(); }}, {"remove", []() { return make_ref(); }}, {"upgrade", []() { return make_ref(); }}, {"list", []() { return make_ref(); }}, {"diff-closures", []() { return make_ref(); }}, {"history", []() { return make_ref(); }}, {"rollback", []() { return make_ref(); }}, {"wipe-history", []() { return make_ref(); }}, }) { } std::string description() override { return "manage Nix profiles"; } std::string doc() override { return #include "profile.md" ; } void run() override { if (!command) throw UsageError("'nix profile' requires a sub-command."); command->second->run(); } }; static auto rCmdProfile = registerCommand("profile");