#include "args/root.hh" #include "command.hh" #include "common-args.hh" #include "current-process.hh" #include "eval.hh" #include "eval-settings.hh" #include "globals.hh" #include "legacy.hh" #include "namespaces.hh" #include "shared.hh" #include "store-api.hh" #include "filetransfer.hh" #include "finally.hh" #include "loggers.hh" #include "markdown.hh" #include "experimental-features-json.hh" #include "deprecated-features-json.hh" #include #include #include #include #include #include extern std::string chrootHelperName; void chrootHelper(int argc, char * * argv); namespace nix { static bool haveProxyEnvironmentVariables() { static const std::vector proxyVariables = { "http_proxy", "https_proxy", "ftp_proxy", "HTTP_PROXY", "HTTPS_PROXY", "FTP_PROXY" }; for (auto & proxyVariable: proxyVariables) { if (getEnv(proxyVariable).has_value()) { return true; } } return false; } /* Check if we have a non-loopback/link-local network interface. */ static bool haveInternet() { struct ifaddrs * addrs; if (getifaddrs(&addrs)) return true; Finally free([&]() { freeifaddrs(addrs); }); for (auto i = addrs; i; i = i->ifa_next) { if (!i->ifa_addr) continue; if (i->ifa_addr->sa_family == AF_INET) { if (ntohl(reinterpret_cast(i->ifa_addr)->sin_addr.s_addr) != INADDR_LOOPBACK) { return true; } } else if (i->ifa_addr->sa_family == AF_INET6) { if (!IN6_IS_ADDR_LOOPBACK(&reinterpret_cast(i->ifa_addr)->sin6_addr) && !IN6_IS_ADDR_LINKLOCAL(&reinterpret_cast(i->ifa_addr)->sin6_addr)) return true; } } if (haveProxyEnvironmentVariables()) return true; return false; } std::string programPath; struct NixArgs : virtual MultiCommand, virtual MixCommonArgs, virtual RootArgs { bool useNet = true; bool refresh = false; bool helpRequested = false; bool showVersion = false; NixArgs() : MultiCommand(RegisterCommand::getCommandsFor({})), MixCommonArgs("nix") { categories.clear(); categories[catHelp] = "Help commands"; categories[Command::catDefault] = "Main commands"; categories[catSecondary] = "Infrequently used commands"; categories[catUtility] = "Utility/scripting commands"; categories[catNixInstallation] = "Commands for upgrading or troubleshooting your Nix installation"; addFlag({ .longName = "help", .description = "Show usage information.", .category = miscCategory, .handler = {[this]() { this->helpRequested = true; }}, }); addFlag({ .longName = "print-build-logs", .shortName = 'L', .description = "Print full build logs on standard error.", .category = loggingCategory, .handler = {[&]() { logger->setPrintBuildLogs(true); }}, .experimentalFeature = Xp::NixCommand, }); addFlag({ .longName = "version", .description = "Show version information.", .category = miscCategory, .handler = {[&]() { showVersion = true; }}, }); addFlag({ .longName = "offline", .aliases = {"no-net"}, // FIXME: remove .description = "Disable substituters and consider all previously downloaded files up-to-date.", .category = miscCategory, .handler = {[&]() { useNet = false; }}, .experimentalFeature = Xp::NixCommand, }); addFlag({ .longName = "refresh", .description = "Consider all previously downloaded files out-of-date.", .category = miscCategory, .handler = {[&]() { refresh = true; }}, .experimentalFeature = Xp::NixCommand, }); } std::map> aliases = { {"add-to-store", {"store", "add-path"}}, {"cat-nar", {"nar", "cat"}}, {"cat-store", {"store", "cat"}}, {"copy-sigs", {"store", "copy-sigs"}}, {"dev-shell", {"develop"}}, {"diff-closures", {"store", "diff-closures"}}, {"dump-path", {"store", "dump-path"}}, {"hash-file", {"hash", "file"}}, {"hash-path", {"hash", "path"}}, {"ls-nar", {"nar", "ls"}}, {"ls-store", {"store", "ls"}}, {"make-content-addressable", {"store", "make-content-addressed"}}, {"optimise-store", {"store", "optimise"}}, {"ping-store", {"store", "ping"}}, {"sign-paths", {"store", "sign"}}, {"show-derivation", {"derivation", "show"}}, {"show-config", {"config", "show"}}, {"to-base16", {"hash", "to-base16"}}, {"to-base32", {"hash", "to-base32"}}, {"to-base64", {"hash", "to-base64"}}, {"verify", {"store", "verify"}}, }; bool aliasUsed = false; Strings::iterator rewriteArgs(Strings & args, Strings::iterator pos) override { if (aliasUsed || command || pos == args.end()) return pos; auto arg = *pos; auto i = aliases.find(arg); if (i == aliases.end()) return pos; warn("'%s' is a deprecated alias for '%s'", arg, concatStringsSep(" ", i->second)); pos = args.erase(pos); for (auto j = i->second.rbegin(); j != i->second.rend(); ++j) pos = args.insert(pos, *j); aliasUsed = true; return pos; } std::string description() override { return "a tool for reproducible and declarative configuration management"; } std::string doc() override { return #include "nix.md" ; } // Plugins may add new subcommands. void pluginsInited() override { commands = RegisterCommand::getCommandsFor({}); } std::string dumpCli() { auto res = nlohmann::json::object(); res["args"] = toJSON(); auto stores = nlohmann::json::object(); for (auto & implem : *Implementations::registered) { auto storeConfig = implem.getConfig(); auto storeName = storeConfig->name(); auto & j = stores[storeName]; j["doc"] = storeConfig->doc(); j["settings"] = storeConfig->toJSON(); j["experimentalFeature"] = storeConfig->experimentalFeature(); } res["stores"] = std::move(stores); return res.dump(); } }; /* Render the help for the specified subcommand to stdout using lowdown. */ static void showHelp(std::vector subcommand, NixArgs & toplevel) { auto mdName = subcommand.empty() ? "nix" : fmt("nix3-%s", concatStringsSep("-", subcommand)); evalSettings.restrictEval = false; evalSettings.pureEval = false; EvalState state({}, openStore("dummy://")); auto vGenerateManpage = state.allocValue(); state.eval(state.parseExprFromString( #include "generate-manpage.nix.gen.hh" , CanonPath::root), *vGenerateManpage); auto vUtils = state.allocValue(); state.cacheFile( CanonPath("/utils.nix"), CanonPath("/utils.nix"), &state.parseExprFromString( #include "utils.nix.gen.hh" , CanonPath::root), *vUtils); auto vDump = state.allocValue(); vDump->mkString(toplevel.dumpCli()); auto vRes = state.allocValue(); state.callFunction(*vGenerateManpage, state.getBuiltin("false"), *vRes, noPos); state.callFunction(*vRes, *vDump, *vRes, noPos); auto attr = vRes->attrs->get(state.symbols.create(mdName + ".md")); if (!attr) throw UsageError("`nix` has no subcommand '%s'", concatStringsSep("", subcommand)); auto markdown = state.forceString(*attr->value, noPos, "while evaluating the lowdown help text"); RunPager pager; std::cout << renderMarkdownToTerminal(markdown) << "\n"; } static NixArgs & getNixArgs(Command & cmd) { return dynamic_cast(cmd.getRoot()); } struct CmdHelp : Command { std::vector subcommand; CmdHelp() { expectArgs({ .label = "subcommand", .handler = {&subcommand}, }); } std::string description() override { return "show help about `nix` or a particular subcommand"; } std::string doc() override { return #include "help.md" ; } Category category() override { return catHelp; } void run() override { assert(parent); MultiCommand * toplevel = parent; while (toplevel->parent) toplevel = toplevel->parent; showHelp(subcommand, getNixArgs(*this)); } }; static auto rCmdHelp = registerCommand("help"); struct CmdHelpStores : Command { std::string description() override { return "show help about store types and their settings"; } std::string doc() override { return #include "help-stores.md" ; } Category category() override { return catHelp; } void run() override { showHelp({"help-stores"}, getNixArgs(*this)); } }; static auto rCmdHelpStores = registerCommand("help-stores"); void mainWrapped(int argc, char * * argv) { savedArgv = argv; /* The chroot helper needs to be run before any threads have been started. */ if (argc > 0 && argv[0] == chrootHelperName) { chrootHelper(argc, argv); return; } initNix(); initGC(); #if __linux__ if (getuid() == 0) { try { saveMountNamespace(); if (unshare(CLONE_NEWNS) == -1) throw SysError("setting up a private mount namespace"); } catch (Error & e) { } } #endif programPath = argv[0]; auto programName = std::string(baseNameOf(programPath)); if (argc > 1 && std::string_view(argv[1]) == "__build-remote") { programName = "build-remote"; argv++; argc--; } { auto legacy = (*RegisterLegacyCommand::commands)[programName]; if (legacy) return legacy(argc, argv); } evalSettings.pureEval = true; setLogFormat(LogFormat::bar); Finally f([] { logger->pause(); }); settings.verboseBuild = false; // FIXME: stop messing about with log verbosity depending on if it is interactive use if (isatty(STDERR_FILENO)) { verbosity = lvlNotice; } else { verbosity = lvlInfo; } NixArgs args; if (argc == 2 && std::string(argv[1]) == "__dump-cli") { logger->cout(args.dumpCli()); return; } if (argc == 2 && std::string(argv[1]) == "__dump-language") { experimentalFeatureSettings.experimentalFeatures = ExperimentalFeatures{} | Xp::Flakes | Xp::FetchClosure | Xp::DynamicDerivations; evalSettings.pureEval = false; EvalState state({}, openStore("dummy://")); auto res = nlohmann::json::object(); res["builtins"] = ({ auto builtinsJson = nlohmann::json::object(); auto builtins = state.baseEnv.values[0]->attrs; for (auto & builtin : *builtins) { auto b = nlohmann::json::object(); if (!builtin.value->isPrimOp()) continue; auto primOp = builtin.value->primOp; if (!primOp->doc) continue; b["arity"] = primOp->arity; b["args"] = primOp->args; b["doc"] = trim(stripIndentation(primOp->doc)); b["experimental-feature"] = primOp->experimentalFeature; builtinsJson[state.symbols[builtin.name]] = std::move(b); } std::move(builtinsJson); }); res["constants"] = ({ auto constantsJson = nlohmann::json::object(); for (auto & [name, info] : state.constantInfos) { auto c = nlohmann::json::object(); if (!info.doc) continue; c["doc"] = trim(stripIndentation(info.doc)); c["type"] = showType(info.type, false); c["impure-only"] = info.impureOnly; constantsJson[name] = std::move(c); } std::move(constantsJson); }); logger->cout("%s", res); return; } if (argc == 2 && std::string(argv[1]) == "__dump-xp-features") { logger->cout(documentExperimentalFeatures().dump()); return; } if (argc == 2 && std::string(argv[1]) == "__dump-dp-features") { logger->cout(documentDeprecatedFeatures().dump()); return; } Finally printCompletions([&]() { if (args.completions) { switch (args.completions->type) { case Completions::Type::Normal: logger->cout("normal"); break; case Completions::Type::Filenames: logger->cout("filenames"); break; case Completions::Type::Attrs: logger->cout("attrs"); break; } for (auto & s : args.completions->completions) logger->cout(s.completion + "\t" + trim(s.description)); } }); try { args.parseCmdline(argvToStrings(argc, argv)); } catch (UsageError &) { if (!args.helpRequested && !args.completions) throw; } if (args.helpRequested) { std::vector subcommand; MultiCommand * command = &args; while (command) { if (command && command->command) { subcommand.push_back(command->command->first); command = dynamic_cast(&*command->command->second); } else break; } showHelp(subcommand, args); return; } if (args.completions) return; if (args.showVersion) { printVersion(programName); return; } if (!args.command) throw UsageError("no subcommand specified"); experimentalFeatureSettings.require( args.command->second->experimentalFeature()); if (args.useNet && !haveInternet()) { warn("you don't have Internet access; disabling some network-dependent features"); args.useNet = false; } if (!args.useNet) { // FIXME: should check for command line overrides only. if (!settings.useSubstitutes.overridden) settings.useSubstitutes = false; if (!settings.tarballTtl.overridden) settings.tarballTtl = std::numeric_limits::max(); if (!fileTransferSettings.tries.overridden) fileTransferSettings.tries = 0; if (!fileTransferSettings.connectTimeout.overridden) fileTransferSettings.connectTimeout = 1; } if (args.refresh) { settings.tarballTtl = 0; settings.ttlNegativeNarInfoCache = 0; settings.ttlPositiveNarInfoCache = 0; } if (args.command->second->forceImpureByDefault() && !evalSettings.pureEval.overridden) { evalSettings.pureEval = false; } args.command->second->run(); } } int main(int argc, char * * argv) { if (argc < 1) { std::cerr << "no, we don't have pkexec at home. provide argv[0]." << std::endl; std::abort(); } // Increase the default stack size for the evaluator and for // libstdc++'s std::regex. nix::setStackSize(64 * 1024 * 1024); return nix::handleExceptions(argv[0], [&]() { nix::mainWrapped(argc, argv); }); }