#include "command.hh" #include "installable-flake.hh" #include "common-args.hh" #include "shared.hh" #include "eval.hh" #include "eval-inline.hh" #include "eval-settings.hh" #include "flake/flake.hh" #include "get-drvs.hh" #include "store-api.hh" #include "derivations.hh" #include "outputs-spec.hh" #include "attr-path.hh" #include "fetchers.hh" #include "registry.hh" #include "eval-cache.hh" #include "markdown.hh" #include #include #include using namespace nix; using namespace nix::flake; using json = nlohmann::json; class FlakeCommand : virtual Args, public MixFlakeOptions { std::string flakeUrl = "."; public: FlakeCommand() { expectArgs({ .label = "flake-url", .optional = true, .handler = {&flakeUrl}, .completer = {[&](AddCompletions & completions, size_t, std::string_view prefix) { completeFlakeRef(completions, getStore(), prefix); }} }); } FlakeRef getFlakeRef() { return parseFlakeRef(flakeUrl, absPath(".")); //FIXME } LockedFlake lockFlake() { return flake::lockFlake(*getEvalState(), getFlakeRef(), lockFlags); } std::vector getFlakeRefsForCompletion() override { return { // Like getFlakeRef but with expandTilde calld first parseFlakeRef(expandTilde(flakeUrl), absPath(".")) }; } }; struct CmdFlakeUpdate : FlakeCommand { std::string description() override { return "update flake lock file"; } CmdFlakeUpdate() { /* Remove flags that don't make sense. */ removeFlag("recreate-lock-file"); removeFlag("update-input"); removeFlag("no-update-lock-file"); removeFlag("no-write-lock-file"); } std::string doc() override { return #include "flake-update.md" ; } void run(nix::ref store) override { settings.tarballTtl = 0; lockFlags.recreateLockFile = true; lockFlags.writeLockFile = true; lockFlags.applyNixConfig = true; lockFlake(); } }; struct CmdFlakeLock : FlakeCommand { std::string description() override { return "create missing lock file entries"; } CmdFlakeLock() { /* Remove flags that don't make sense. */ removeFlag("no-write-lock-file"); } std::string doc() override { return #include "flake-lock.md" ; } void run(nix::ref store) override { settings.tarballTtl = 0; lockFlags.writeLockFile = true; lockFlags.applyNixConfig = true; lockFlake(); } }; static void enumerateOutputs(EvalState & state, Value & vFlake, std::function callback) { auto pos = vFlake.determinePos(noPos); state.forceAttrs(vFlake, pos, "while evaluating a flake to get its outputs"); auto aOutputs = vFlake.attrs->get(state.symbols.create("outputs")); assert(aOutputs); state.forceAttrs(*aOutputs->value, pos, "while evaluating the outputs of a flake"); auto sHydraJobs = state.symbols.create("hydraJobs"); /* Hack: ensure that hydraJobs is evaluated before anything else. This way we can disable IFD for hydraJobs and then enable it for other outputs. */ if (auto attr = aOutputs->value->attrs->get(sHydraJobs)) callback(state.symbols[attr->name], *attr->value, attr->pos); for (auto & attr : *aOutputs->value->attrs) { if (attr.name != sHydraJobs) callback(state.symbols[attr.name], *attr.value, attr.pos); } } struct CmdFlakeMetadata : FlakeCommand, MixJSON { std::string description() override { return "show flake metadata"; } std::string doc() override { return #include "flake-metadata.md" ; } void run(nix::ref store) override { auto lockedFlake = lockFlake(); auto & flake = lockedFlake.flake; if (json) { nlohmann::json j; if (flake.description) j["description"] = *flake.description; j["originalUrl"] = flake.originalRef.to_string(); j["original"] = fetchers::attrsToJSON(flake.originalRef.toAttrs()); j["resolvedUrl"] = flake.resolvedRef.to_string(); j["resolved"] = fetchers::attrsToJSON(flake.resolvedRef.toAttrs()); j["url"] = flake.lockedRef.to_string(); // FIXME: rename to lockedUrl j["locked"] = fetchers::attrsToJSON(flake.lockedRef.toAttrs()); if (auto rev = flake.lockedRef.input.getRev()) j["revision"] = rev->to_string(Base16, false); if (auto dirtyRev = fetchers::maybeGetStrAttr(flake.lockedRef.toAttrs(), "dirtyRev")) j["dirtyRevision"] = *dirtyRev; if (auto revCount = flake.lockedRef.input.getRevCount()) j["revCount"] = *revCount; if (auto lastModified = flake.lockedRef.input.getLastModified()) j["lastModified"] = *lastModified; j["path"] = store->printStorePath(flake.sourceInfo->storePath); j["locks"] = lockedFlake.lockFile.toJSON(); logger->cout("%s", j.dump()); } else { logger->cout( ANSI_BOLD "Resolved URL:" ANSI_NORMAL " %s", flake.resolvedRef.to_string()); logger->cout( ANSI_BOLD "Locked URL:" ANSI_NORMAL " %s", flake.lockedRef.to_string()); if (flake.description) logger->cout( ANSI_BOLD "Description:" ANSI_NORMAL " %s", *flake.description); logger->cout( ANSI_BOLD "Path:" ANSI_NORMAL " %s", store->printStorePath(flake.sourceInfo->storePath)); if (auto rev = flake.lockedRef.input.getRev()) logger->cout( ANSI_BOLD "Revision:" ANSI_NORMAL " %s", rev->to_string(Base16, false)); if (auto dirtyRev = fetchers::maybeGetStrAttr(flake.lockedRef.toAttrs(), "dirtyRev")) logger->cout( ANSI_BOLD "Revision:" ANSI_NORMAL " %s", *dirtyRev); if (auto revCount = flake.lockedRef.input.getRevCount()) logger->cout( ANSI_BOLD "Revisions:" ANSI_NORMAL " %s", *revCount); if (auto lastModified = flake.lockedRef.input.getLastModified()) logger->cout( ANSI_BOLD "Last modified:" ANSI_NORMAL " %s", std::put_time(std::localtime(&*lastModified), "%F %T")); if (!lockedFlake.lockFile.root->inputs.empty()) logger->cout(ANSI_BOLD "Inputs:" ANSI_NORMAL); std::set> visited; std::function recurse; recurse = [&](const Node & node, const std::string & prefix) { for (const auto & [i, input] : enumerate(node.inputs)) { bool last = i + 1 == node.inputs.size(); if (auto lockedNode = std::get_if<0>(&input.second)) { logger->cout("%s" ANSI_BOLD "%s" ANSI_NORMAL ": %s", prefix + (last ? treeLast : treeConn), input.first, (*lockedNode)->lockedRef); bool firstVisit = visited.insert(*lockedNode).second; if (firstVisit) recurse(**lockedNode, prefix + (last ? treeNull : treeLine)); } else if (auto follows = std::get_if<1>(&input.second)) { logger->cout("%s" ANSI_BOLD "%s" ANSI_NORMAL " follows input '%s'", prefix + (last ? treeLast : treeConn), input.first, printInputPath(*follows)); } } }; visited.insert(lockedFlake.lockFile.root); recurse(*lockedFlake.lockFile.root, ""); } } }; struct CmdFlakeInfo : CmdFlakeMetadata { void run(nix::ref store) override { warn("'nix flake info' is a deprecated alias for 'nix flake metadata'"); CmdFlakeMetadata::run(store); } }; struct CmdFlakeCheck : FlakeCommand { bool build = true; bool checkAllSystems = false; CmdFlakeCheck() { addFlag({ .longName = "no-build", .description = "Do not build checks.", .handler = {&build, false} }); addFlag({ .longName = "all-systems", .description = "Check the outputs for all systems.", .handler = {&checkAllSystems, true} }); } std::string description() override { return "check whether the flake evaluates and run its tests"; } std::string doc() override { return #include "flake-check.md" ; } void run(nix::ref store) override { if (!build) { settings.readOnlyMode = true; evalSettings.enableImportFromDerivation.setDefault(false); } auto state = getEvalState(); lockFlags.applyNixConfig = true; auto flake = lockFlake(); auto localSystem = std::string(settings.thisSystem.get()); bool hasErrors = false; auto reportError = [&](const Error & e) { try { throw e; } catch (Error & e) { if (settings.keepGoing) { ignoreException(); hasErrors = true; } else throw; } }; std::set omittedSystems; // FIXME: rewrite to use EvalCache. auto resolve = [&] (PosIdx p) { return state->positions[p]; }; auto argHasName = [&] (Symbol arg, std::string_view expected) { std::string_view name = state->symbols[arg]; return name == expected || name == "_" || (name.starts_with("_") && name.substr(1) == expected); }; auto checkSystemName = [&](const std::string & system, const PosIdx pos) { // FIXME: what's the format of "system"? if (system.find('-') == std::string::npos) reportError(Error("'%s' is not a valid system type, at %s", system, resolve(pos))); }; auto checkSystemType = [&](const std::string & system, const PosIdx pos) { if (!checkAllSystems && system != localSystem) { omittedSystems.insert(system); return false; } else { return true; } }; auto checkDerivation = [&](const std::string & attrPath, Value & v, const PosIdx pos) -> std::optional { try { Activity act(*logger, lvlInfo, actUnknown, fmt("checking derivation %s", attrPath)); auto drvInfo = getDerivation(*state, v, false); if (!drvInfo) throw Error("flake attribute '%s' is not a derivation", attrPath); else { // FIXME: check meta attributes auto storePath = drvInfo->queryDrvPath(); if (storePath) { logger->log(lvlInfo, fmt("derivation evaluated to %s", store->printStorePath(storePath.value()))); } return storePath; } } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking the derivation '%s'", attrPath)); reportError(e); } return std::nullopt; }; std::vector drvPaths; auto checkApp = [&](const std::string & attrPath, Value & v, const PosIdx pos) { try { #if 0 // FIXME auto app = App(*state, v); for (auto & i : app.context) { auto [drvPathS, outputName] = NixStringContextElem::parse(i); store->parseStorePath(drvPathS); } #endif } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking the app definition '%s'", attrPath)); reportError(e); } }; auto checkOverlay = [&](const std::string & attrPath, Value & v, const PosIdx pos) { try { Activity act(*logger, lvlInfo, actUnknown, fmt("checking overlay '%s'", attrPath)); state->forceValue(v, pos); if (!v.isLambda()) { throw Error("overlay is not a function, but %s instead", showType(v)); } if (v.lambda.fun->hasFormals() || !argHasName(v.lambda.fun->arg, "final")) throw Error("overlay does not take an argument named 'final'"); auto body = dynamic_cast(v.lambda.fun->body); if (!body || body->hasFormals() || !argHasName(body->arg, "prev")) throw Error("overlay does not take an argument named 'prev'"); // FIXME: if we have a 'nixpkgs' input, use it to // evaluate the overlay. } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking the overlay '%s'", attrPath)); reportError(e); } }; auto checkModule = [&](const std::string & attrPath, Value & v, const PosIdx pos) { try { Activity act(*logger, lvlInfo, actUnknown, fmt("checking NixOS module '%s'", attrPath)); state->forceValue(v, pos); } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking the NixOS module '%s'", attrPath)); reportError(e); } }; std::function checkHydraJobs; checkHydraJobs = [&](const std::string & attrPath, Value & v, const PosIdx pos) { try { Activity act(*logger, lvlInfo, actUnknown, fmt("checking Hydra job '%s'", attrPath)); state->forceAttrs(v, pos, ""); if (state->isDerivation(v)) throw Error("jobset should not be a derivation at top-level"); for (auto & attr : *v.attrs) { state->forceAttrs(*attr.value, attr.pos, ""); auto attrPath2 = concatStrings(attrPath, ".", state->symbols[attr.name]); if (state->isDerivation(*attr.value)) { Activity act(*logger, lvlInfo, actUnknown, fmt("checking Hydra job '%s'", attrPath2)); checkDerivation(attrPath2, *attr.value, attr.pos); } else checkHydraJobs(attrPath2, *attr.value, attr.pos); } } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking the Hydra jobset '%s'", attrPath)); reportError(e); } }; auto checkNixOSConfiguration = [&](const std::string & attrPath, Value & v, const PosIdx pos) { try { Activity act(*logger, lvlInfo, actUnknown, fmt("checking NixOS configuration '%s'", attrPath)); Bindings & bindings(*state->allocBindings(0)); auto vToplevel = findAlongAttrPath(*state, "config.system.build.toplevel", bindings, v).first; state->forceValue(*vToplevel, pos); if (!state->isDerivation(*vToplevel)) throw Error("attribute 'config.system.build.toplevel' is not a derivation"); } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking the NixOS configuration '%s'", attrPath)); reportError(e); } }; auto checkTemplate = [&](const std::string & attrPath, Value & v, const PosIdx pos) { try { Activity act(*logger, lvlInfo, actUnknown, fmt("checking template '%s'", attrPath)); state->forceAttrs(v, pos, ""); if (auto attr = v.attrs->get(state->symbols.create("path"))) { if (attr->name == state->symbols.create("path")) { NixStringContext context; auto path = state->coerceToPath(attr->pos, *attr->value, context, ""); if (!path.pathExists()) throw Error("template '%s' refers to a non-existent path '%s'", attrPath, path); // TODO: recursively check the flake in 'path'. } } else throw Error("template '%s' lacks attribute 'path'", attrPath); if (auto attr = v.attrs->get(state->symbols.create("description"))) state->forceStringNoCtx(*attr->value, attr->pos, ""); else throw Error("template '%s' lacks attribute 'description'", attrPath); for (auto & attr : *v.attrs) { std::string_view name(state->symbols[attr.name]); if (name != "path" && name != "description" && name != "welcomeText") throw Error("template '%s' has unsupported attribute '%s'", attrPath, name); } } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking the template '%s'", attrPath)); reportError(e); } }; auto checkBundler = [&](const std::string & attrPath, Value & v, const PosIdx pos) { try { Activity act(*logger, lvlInfo, actUnknown, fmt("checking bundler '%s'", attrPath)); state->forceValue(v, pos); if (!v.isLambda()) throw Error("bundler must be a function"); // TODO: check types of inputs/outputs? } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking the template '%s'", attrPath)); reportError(e); } }; { Activity act(*logger, lvlInfo, actUnknown, "evaluating flake"); auto vFlake = state->allocValue(); flake::callFlake(*state, flake, *vFlake); enumerateOutputs(*state, *vFlake, [&](const std::string & name, Value & vOutput, const PosIdx pos) { Activity act(*logger, lvlInfo, actUnknown, fmt("checking flake output '%s'", name)); try { evalSettings.enableImportFromDerivation.setDefault(name != "hydraJobs"); state->forceValue(vOutput, pos); std::string_view replacement = name == "defaultPackage" ? "packages..default" : name == "defaultApp" ? "apps..default" : name == "defaultTemplate" ? "templates.default" : name == "defaultBundler" ? "bundlers..default" : name == "overlay" ? "overlays.default" : name == "devShell" ? "devShells..default" : name == "nixosModule" ? "nixosModules.default" : ""; if (replacement != "") warn("flake output attribute '%s' is deprecated; use '%s' instead", name, replacement); if (name == "checks") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { const auto & attr_name = state->symbols[attr.name]; checkSystemName(attr_name, attr.pos); if (checkSystemType(attr_name, attr.pos)) { state->forceAttrs(*attr.value, attr.pos, ""); for (auto & attr2 : *attr.value->attrs) { auto drvPath = checkDerivation( fmt("%s.%s.%s", name, attr_name, state->symbols[attr2.name]), *attr2.value, attr2.pos); if (drvPath && attr_name == settings.thisSystem.get()) { drvPaths.push_back(DerivedPath::Built { .drvPath = makeConstantStorePathRef(*drvPath), .outputs = OutputsSpec::All { }, }); } } } } } else if (name == "formatter") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { const auto & attr_name = state->symbols[attr.name]; checkSystemName(attr_name, attr.pos); if (checkSystemType(attr_name, attr.pos)) { checkApp( fmt("%s.%s", name, attr_name), *attr.value, attr.pos); }; } } else if (name == "packages" || name == "devShells") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { const auto & attr_name = state->symbols[attr.name]; checkSystemName(attr_name, attr.pos); if (checkSystemType(attr_name, attr.pos)) { state->forceAttrs(*attr.value, attr.pos, ""); for (auto & attr2 : *attr.value->attrs) checkDerivation( fmt("%s.%s.%s", name, attr_name, state->symbols[attr2.name]), *attr2.value, attr2.pos); }; } } else if (name == "apps") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { const auto & attr_name = state->symbols[attr.name]; checkSystemName(attr_name, attr.pos); if (checkSystemType(attr_name, attr.pos)) { state->forceAttrs(*attr.value, attr.pos, ""); for (auto & attr2 : *attr.value->attrs) checkApp( fmt("%s.%s.%s", name, attr_name, state->symbols[attr2.name]), *attr2.value, attr2.pos); }; } } else if (name == "defaultPackage" || name == "devShell") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { const auto & attr_name = state->symbols[attr.name]; checkSystemName(attr_name, attr.pos); if (checkSystemType(attr_name, attr.pos)) { checkDerivation( fmt("%s.%s", name, attr_name), *attr.value, attr.pos); }; } } else if (name == "defaultApp") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { const auto & attr_name = state->symbols[attr.name]; checkSystemName(attr_name, attr.pos); if (checkSystemType(attr_name, attr.pos) ) { checkApp( fmt("%s.%s", name, attr_name), *attr.value, attr.pos); }; } } else if (name == "legacyPackages") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { checkSystemName(state->symbols[attr.name], attr.pos); checkSystemType(state->symbols[attr.name], attr.pos); // FIXME: do getDerivations? } } else if (name == "overlay") checkOverlay(name, vOutput, pos); else if (name == "overlays") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) checkOverlay(fmt("%s.%s", name, state->symbols[attr.name]), *attr.value, attr.pos); } else if (name == "nixosModule") checkModule(name, vOutput, pos); else if (name == "nixosModules") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) checkModule(fmt("%s.%s", name, state->symbols[attr.name]), *attr.value, attr.pos); } else if (name == "nixosConfigurations") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) checkNixOSConfiguration(fmt("%s.%s", name, state->symbols[attr.name]), *attr.value, attr.pos); } else if (name == "hydraJobs") checkHydraJobs(name, vOutput, pos); else if (name == "defaultTemplate") checkTemplate(name, vOutput, pos); else if (name == "templates") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) checkTemplate(fmt("%s.%s", name, state->symbols[attr.name]), *attr.value, attr.pos); } else if (name == "defaultBundler") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { const auto & attr_name = state->symbols[attr.name]; checkSystemName(attr_name, attr.pos); if (checkSystemType(attr_name, attr.pos)) { checkBundler( fmt("%s.%s", name, attr_name), *attr.value, attr.pos); }; } } else if (name == "bundlers") { state->forceAttrs(vOutput, pos, ""); for (auto & attr : *vOutput.attrs) { const auto & attr_name = state->symbols[attr.name]; checkSystemName(attr_name, attr.pos); if (checkSystemType(attr_name, attr.pos)) { state->forceAttrs(*attr.value, attr.pos, ""); for (auto & attr2 : *attr.value->attrs) { checkBundler( fmt("%s.%s.%s", name, attr_name, state->symbols[attr2.name]), *attr2.value, attr2.pos); } }; } } else if ( name == "lib" || name == "darwinConfigurations" || name == "darwinModules" || name == "flakeModule" || name == "flakeModules" || name == "herculesCI" || name == "homeConfigurations" || name == "nixopsConfigurations" ) // Known but unchecked community attribute ; else warn("unknown flake output '%s'", name); } catch (Error & e) { e.addTrace(resolve(pos), HintFmt("while checking flake output '%s'", name)); reportError(e); } }); } if (build && !drvPaths.empty()) { Activity act(*logger, lvlInfo, actUnknown, fmt("running %d flake checks", drvPaths.size())); store->buildPaths(drvPaths); } if (hasErrors) throw Error("some errors were encountered during the evaluation"); if (!omittedSystems.empty()) { warn( "The check omitted these incompatible systems: %s\n" "Use '--all-systems' to check all.", concatStringsSep(", ", omittedSystems) ); }; }; }; static Strings defaultTemplateAttrPathsPrefixes{"templates."}; static Strings defaultTemplateAttrPaths = {"templates.default", "defaultTemplate"}; struct CmdFlakeInitCommon : virtual Args, EvalCommand { std::string templateUrl = "templates"; Path destDir; const LockFlags lockFlags{ .writeLockFile = false }; CmdFlakeInitCommon() { addFlag({ .longName = "template", .shortName = 't', .description = "The template to use.", .labels = {"template"}, .handler = {&templateUrl}, .completer = {[&](AddCompletions & completions, size_t, std::string_view prefix) { completeFlakeRefWithFragment( completions, getEvalState(), lockFlags, defaultTemplateAttrPathsPrefixes, defaultTemplateAttrPaths, prefix); }} }); } void run(nix::ref store) override { auto flakeDir = absPath(destDir); auto evalState = getEvalState(); auto [templateFlakeRef, templateName] = parseFlakeRefWithFragment(templateUrl, absPath(".")); auto installable = InstallableFlake(nullptr, evalState, std::move(templateFlakeRef), templateName, ExtendedOutputsSpec::Default(), defaultTemplateAttrPaths, defaultTemplateAttrPathsPrefixes, lockFlags); auto cursor = installable.getCursor(*evalState); auto templateDirAttr = cursor->getAttr("path"); auto templateDir = templateDirAttr->getString(); if (!store->isInStore(templateDir)) evalState->error( "'%s' was not found in the Nix store\n" "If you've set '%s' to a string, try using a path instead.", templateDir, templateDirAttr->getAttrPathStr()).debugThrow(); std::vector changedFiles; std::vector conflictedFiles; std::function copyDir; copyDir = [&](const Path & from, const Path & to) { createDirs(to); for (auto & entry : readDirectory(from)) { auto from2 = from + "/" + entry.name; auto to2 = to + "/" + entry.name; auto st = lstat(from2); if (S_ISDIR(st.st_mode)) copyDir(from2, to2); else if (S_ISREG(st.st_mode)) { auto contents = readFile(from2); if (pathExists(to2)) { auto contents2 = readFile(to2); if (contents != contents2) { printError("refusing to overwrite existing file '%s'\n please merge it manually with '%s'", to2, from2); conflictedFiles.push_back(to2); } else { notice("skipping identical file: %s", from2); } continue; } else writeFile(to2, contents); } else if (S_ISLNK(st.st_mode)) { auto target = readLink(from2); if (pathExists(to2)) { if (readLink(to2) != target) { printError("refusing to overwrite existing file '%s'\n please merge it manually with '%s'", to2, from2); conflictedFiles.push_back(to2); } else { notice("skipping identical file: %s", from2); } continue; } else createSymlink(target, to2); } else throw Error("file '%s' has unsupported type", from2); changedFiles.push_back(to2); notice("wrote: %s", to2); } }; copyDir(templateDir, flakeDir); if (!changedFiles.empty() && pathExists(flakeDir + "/.git")) { Strings args = { "-C", flakeDir, "add", "--intent-to-add", "--force", "--" }; for (auto & s : changedFiles) args.push_back(s); runProgram("git", true, args); } auto welcomeText = cursor->maybeGetAttr("welcomeText"); if (welcomeText) { notice("\n"); notice(renderMarkdownToTerminal(welcomeText->getString())); } if (!conflictedFiles.empty()) throw Error("Encountered %d conflicts - see above", conflictedFiles.size()); } }; struct CmdFlakeInit : CmdFlakeInitCommon { std::string description() override { return "create a flake in the current directory from a template"; } std::string doc() override { return #include "flake-init.md" ; } CmdFlakeInit() { destDir = "."; } }; struct CmdFlakeNew : CmdFlakeInitCommon { std::string description() override { return "create a flake in the specified directory from a template"; } std::string doc() override { return #include "flake-new.md" ; } CmdFlakeNew() { expectArgs({ .label = "dest-dir", .handler = {&destDir}, .completer = completePath }); } }; struct CmdFlakeClone : FlakeCommand { Path destDir; std::string description() override { return "clone flake repository"; } std::string doc() override { return #include "flake-clone.md" ; } CmdFlakeClone() { addFlag({ .longName = "dest", .shortName = 'f', .description = "Clone the flake to path *dest*.", .labels = {"path"}, .handler = {&destDir} }); } void run(nix::ref store) override { if (destDir.empty()) throw Error("missing flag '--dest'"); getFlakeRef().resolve(store).input.clone(destDir); } }; struct CmdFlakeArchive : FlakeCommand, MixJSON, MixDryRun { std::string dstUri; CmdFlakeArchive() { addFlag({ .longName = "to", .description = "URI of the destination Nix store", .labels = {"store-uri"}, .handler = {&dstUri} }); } std::string description() override { return "copy a flake and all its inputs to a store"; } std::string doc() override { return #include "flake-archive.md" ; } void run(nix::ref store) override { auto flake = lockFlake(); StorePathSet sources; sources.insert(flake.flake.sourceInfo->storePath); // FIXME: use graph output, handle cycles. std::function traverse; traverse = [&](const Node & node) { nlohmann::json jsonObj2 = json ? json::object() : nlohmann::json(nullptr); for (auto & [inputName, input] : node.inputs) { if (auto inputNode = std::get_if<0>(&input)) { auto storePath = dryRun ? (*inputNode)->lockedRef.input.computeStorePath(*store) : (*inputNode)->lockedRef.input.fetch(store).first.storePath; if (json) { auto& jsonObj3 = jsonObj2[inputName]; jsonObj3["path"] = store->printStorePath(storePath); sources.insert(std::move(storePath)); jsonObj3["inputs"] = traverse(**inputNode); } else { sources.insert(std::move(storePath)); traverse(**inputNode); } } } return jsonObj2; }; if (json) { nlohmann::json jsonRoot = { {"path", store->printStorePath(flake.flake.sourceInfo->storePath)}, {"inputs", traverse(*flake.lockFile.root)}, }; logger->cout("%s", jsonRoot); } else { traverse(*flake.lockFile.root); } if (!dryRun && !dstUri.empty()) { ref dstStore = dstUri.empty() ? openStore() : openStore(dstUri); copyPaths(*store, *dstStore, sources); } } }; struct CmdFlakeShow : FlakeCommand, MixJSON { bool showLegacy = false; bool showAllSystems = false; CmdFlakeShow() { addFlag({ .longName = "legacy", .description = "Show the contents of the `legacyPackages` output.", .handler = {&showLegacy, true} }); addFlag({ .longName = "all-systems", .description = "Show the contents of outputs for all systems.", .handler = {&showAllSystems, true} }); } std::string description() override { return "show the outputs provided by a flake"; } std::string doc() override { return #include "flake-show.md" ; } void run(nix::ref store) override { evalSettings.enableImportFromDerivation.setDefault(false); auto state = getEvalState(); auto flake = std::make_shared(lockFlake()); auto localSystem = std::string(settings.thisSystem.get()); std::function &attrPath, const Symbol &attr)> hasContent; // For frameworks it's important that structures are as lazy as possible // to prevent infinite recursions, performance issues and errors that // aren't related to the thing to evaluate. As a consequence, they have // to emit more attributes than strictly (sic) necessary. // However, these attributes with empty values are not useful to the user // so we omit them. hasContent = [&]( eval_cache::AttrCursor & visitor, const std::vector &attrPath, const Symbol &attr) -> bool { auto attrPath2(attrPath); attrPath2.push_back(attr); auto attrPathS = state->symbols.resolve(attrPath2); const auto & attrName = state->symbols[attr]; auto visitor2 = visitor.getAttr(attrName); try { if ((attrPathS[0] == "apps" || attrPathS[0] == "checks" || attrPathS[0] == "devShells" || attrPathS[0] == "legacyPackages" || attrPathS[0] == "packages") && (attrPathS.size() == 1 || attrPathS.size() == 2)) { for (const auto &subAttr : visitor2->getAttrs()) { if (hasContent(*visitor2, attrPath2, subAttr)) { return true; } } return false; } if ((attrPathS.size() == 1) && (attrPathS[0] == "formatter" || attrPathS[0] == "nixosConfigurations" || attrPathS[0] == "nixosModules" || attrPathS[0] == "overlays" )) { for (const auto &subAttr : visitor2->getAttrs()) { if (hasContent(*visitor2, attrPath2, subAttr)) { return true; } } return false; } // If we don't recognize it, it's probably content return true; } catch (EvalError & e) { // Some attrs may contain errors, eg. legacyPackages of // nixpkgs. We still want to recurse into it, instead of // skipping it at all. return true; } }; std::function & attrPath, const std::string & headerPrefix, const std::string & nextPrefix)> visit; visit = [&]( eval_cache::AttrCursor & visitor, const std::vector & attrPath, const std::string & headerPrefix, const std::string & nextPrefix) -> nlohmann::json { auto j = nlohmann::json::object(); auto attrPathS = state->symbols.resolve(attrPath); Activity act(*logger, lvlInfo, actUnknown, fmt("evaluating '%s'", concatStringsSep(".", attrPathS))); try { auto recurse = [&]() { if (!json) logger->cout("%s", headerPrefix); std::vector attrs; for (const auto &attr : visitor.getAttrs()) { if (hasContent(visitor, attrPath, attr)) attrs.push_back(attr); } for (const auto & [i, attr] : enumerate(attrs)) { const auto & attrName = state->symbols[attr]; bool last = i + 1 == attrs.size(); auto visitor2 = visitor.getAttr(attrName); auto attrPath2(attrPath); attrPath2.push_back(attr); auto j2 = visit(*visitor2, attrPath2, fmt(ANSI_GREEN "%s%s" ANSI_NORMAL ANSI_BOLD "%s" ANSI_NORMAL, nextPrefix, last ? treeLast : treeConn, attrName), nextPrefix + (last ? treeNull : treeLine)); if (json) j.emplace(attrName, std::move(j2)); } }; auto showDerivation = [&]() { auto name = visitor.getAttr(state->sName)->getString(); if (json) { std::optional description; if (auto aMeta = visitor.maybeGetAttr(state->sMeta)) { if (auto aDescription = aMeta->maybeGetAttr(state->sDescription)) description = aDescription->getString(); } j.emplace("type", "derivation"); j.emplace("name", name); if (description) j.emplace("description", *description); } else { logger->cout("%s: %s '%s'", headerPrefix, attrPath.size() == 2 && attrPathS[0] == "devShell" ? "development environment" : attrPath.size() >= 2 && attrPathS[0] == "devShells" ? "development environment" : attrPath.size() == 3 && attrPathS[0] == "checks" ? "derivation" : attrPath.size() >= 1 && attrPathS[0] == "hydraJobs" ? "derivation" : "package", name); } }; if (attrPath.size() == 0 || (attrPath.size() == 1 && ( attrPathS[0] == "defaultPackage" || attrPathS[0] == "devShell" || attrPathS[0] == "formatter" || attrPathS[0] == "nixosConfigurations" || attrPathS[0] == "nixosModules" || attrPathS[0] == "defaultApp" || attrPathS[0] == "templates" || attrPathS[0] == "overlays")) || ((attrPath.size() == 1 || attrPath.size() == 2) && (attrPathS[0] == "checks" || attrPathS[0] == "packages" || attrPathS[0] == "devShells" || attrPathS[0] == "apps")) ) { recurse(); } else if ( (attrPath.size() == 2 && (attrPathS[0] == "defaultPackage" || attrPathS[0] == "devShell" || attrPathS[0] == "formatter")) || (attrPath.size() == 3 && (attrPathS[0] == "checks" || attrPathS[0] == "packages" || attrPathS[0] == "devShells")) ) { if (!showAllSystems && std::string(attrPathS[1]) != localSystem) { if (!json) logger->cout(fmt("%s " ANSI_WARNING "omitted" ANSI_NORMAL " (use '--all-systems' to show)", headerPrefix)); else { logger->warn(fmt("%s omitted (use '--all-systems' to show)", concatStringsSep(".", attrPathS))); } } else { if (visitor.isDerivation()) showDerivation(); else throw Error("expected a derivation"); } } else if (attrPath.size() > 0 && attrPathS[0] == "hydraJobs") { if (visitor.isDerivation()) showDerivation(); else recurse(); } else if (attrPath.size() > 0 && attrPathS[0] == "legacyPackages") { if (attrPath.size() == 1) recurse(); else if (!showLegacy){ if (!json) logger->cout(fmt("%s " ANSI_WARNING "omitted" ANSI_NORMAL " (use '--legacy' to show)", headerPrefix)); else { logger->warn(fmt("%s omitted (use '--legacy' to show)", concatStringsSep(".", attrPathS))); } } else if (!showAllSystems && std::string(attrPathS[1]) != localSystem) { if (!json) logger->cout(fmt("%s " ANSI_WARNING "omitted" ANSI_NORMAL " (use '--all-systems' to show)", headerPrefix)); else { logger->warn(fmt("%s omitted (use '--all-systems' to show)", concatStringsSep(".", attrPathS))); } } else { if (visitor.isDerivation()) showDerivation(); else if (attrPath.size() <= 2) // FIXME: handle recurseIntoAttrs recurse(); } } else if ( (attrPath.size() == 2 && attrPathS[0] == "defaultApp") || (attrPath.size() == 3 && attrPathS[0] == "apps")) { auto aType = visitor.maybeGetAttr("type"); if (!aType || aType->getString() != "app") state->error("not an app definition").debugThrow(); if (json) { j.emplace("type", "app"); } else { logger->cout("%s: app", headerPrefix); } } else if ( (attrPath.size() == 1 && attrPathS[0] == "defaultTemplate") || (attrPath.size() == 2 && attrPathS[0] == "templates")) { auto description = visitor.getAttr("description")->getString(); if (json) { j.emplace("type", "template"); j.emplace("description", description); } else { logger->cout("%s: template: " ANSI_BOLD "%s" ANSI_NORMAL, headerPrefix, description); } } else { auto [type, description] = (attrPath.size() == 1 && attrPathS[0] == "overlay") || (attrPath.size() == 2 && attrPathS[0] == "overlays") ? std::make_pair("nixpkgs-overlay", "Nixpkgs overlay") : attrPath.size() == 2 && attrPathS[0] == "nixosConfigurations" ? std::make_pair("nixos-configuration", "NixOS configuration") : (attrPath.size() == 1 && attrPathS[0] == "nixosModule") || (attrPath.size() == 2 && attrPathS[0] == "nixosModules") ? std::make_pair("nixos-module", "NixOS module") : std::make_pair("unknown", "unknown"); if (json) { j.emplace("type", type); } else { logger->cout("%s: " ANSI_WARNING "%s" ANSI_NORMAL, headerPrefix, description); } } } catch (EvalError & e) { if (!(attrPath.size() > 0 && attrPathS[0] == "legacyPackages")) throw; } return j; }; auto cache = openEvalCache(*state, flake); auto j = visit(*cache->getRoot(), {}, fmt(ANSI_BOLD "%s" ANSI_NORMAL, flake->flake.lockedRef), ""); if (json) logger->cout("%s", j.dump()); } }; struct CmdFlakePrefetch : FlakeCommand, MixJSON { CmdFlakePrefetch() { } std::string description() override { return "download the source tree denoted by a flake reference into the Nix store"; } std::string doc() override { return #include "flake-prefetch.md" ; } void run(ref store) override { auto originalRef = getFlakeRef(); auto resolvedRef = originalRef.resolve(store); auto [tree, lockedRef] = resolvedRef.fetchTree(store); auto hash = store->queryPathInfo(tree.storePath)->narHash; if (json) { auto res = nlohmann::json::object(); res["storePath"] = store->printStorePath(tree.storePath); res["hash"] = hash.to_string(SRI, true); logger->cout(res.dump()); } else { notice("Downloaded '%s' to '%s' (hash '%s').", lockedRef.to_string(), store->printStorePath(tree.storePath), hash.to_string(SRI, true)); } } }; struct CmdFlake : NixMultiCommand { CmdFlake() : MultiCommand({ {"update", []() { return make_ref(); }}, {"lock", []() { return make_ref(); }}, {"metadata", []() { return make_ref(); }}, {"info", []() { return make_ref(); }}, {"check", []() { return make_ref(); }}, {"init", []() { return make_ref(); }}, {"new", []() { return make_ref(); }}, {"clone", []() { return make_ref(); }}, {"archive", []() { return make_ref(); }}, {"show", []() { return make_ref(); }}, {"prefetch", []() { return make_ref(); }}, }) { } std::string description() override { return "manage Nix flakes"; } std::string doc() override { return #include "flake.md" ; } void run() override { if (!command) throw UsageError("'nix flake' requires a sub-command."); experimentalFeatureSettings.require(Xp::Flakes); command->second->run(); } }; static auto rCmdFlake = registerCommand("flake");