#include <cstring> #include <fstream> #include <iostream> #include <regex> #include <sstream> #include <vector> #include <absl/strings/ascii.h> #include <absl/strings/str_split.h> #include <glog/logging.h> #include "libexpr/attr-path.hh" #include "libexpr/common-eval-args.hh" #include "libexpr/eval-inline.hh" #include "libexpr/eval.hh" #include "libexpr/get-drvs.hh" #include "libmain/shared.hh" #include "libstore/derivations.hh" #include "libstore/globals.hh" #include "libstore/store-api.hh" #include "libutil/affinity.hh" #include "libutil/status.hh" #include "libutil/util.hh" #include "nix/legacy.hh" using namespace nix; using namespace std::string_literals; /* Recreate the effect of the perl shellwords function, breaking up a * string into arguments like a shell word, including escapes */ std::vector<std::string> shellwords(const std::string& s) { std::regex whitespace("^(\\s+).*"); auto begin = s.cbegin(); std::vector<std::string> res; std::string cur; enum state { sBegin, sQuote }; state st = sBegin; auto it = begin; for (; it != s.cend(); ++it) { if (st == sBegin) { std::smatch match; if (regex_search(it, s.cend(), match, whitespace)) { cur.append(begin, it); res.push_back(cur); cur.clear(); it = match[1].second; begin = it; } } switch (*it) { case '"': cur.append(begin, it); begin = it + 1; st = st == sBegin ? sQuote : sBegin; break; case '\\': /* perl shellwords mostly just treats the next char as part of the * string with no special processing */ cur.append(begin, it); begin = ++it; break; } } cur.append(begin, it); if (!cur.empty()) { res.push_back(cur); } return res; } static void _main(int argc, char** argv) { auto dryRun = false; auto runEnv = std::regex_search(argv[0], std::regex("nix-shell$")); auto pure = false; auto fromArgs = false; auto packages = false; // Same condition as bash uses for interactive shells auto interactive = (isatty(STDIN_FILENO) != 0) && (isatty(STDERR_FILENO) != 0); Strings attrPaths; Strings left; RepairFlag repair = NoRepair; Path gcRoot; BuildMode buildMode = bmNormal; bool readStdin = false; std::string envCommand; // interactive shell Strings envExclude; auto myName = runEnv ? "nix-shell" : "nix-build"; auto inShebang = false; std::string script; std::vector<std::string> savedArgs; AutoDelete tmpDir(createTempDir("", myName)); std::string outLink = "./result"; // List of environment variables kept for --pure std::set<std::string> keepVars{ "HOME", "USER", "LOGNAME", "DISPLAY", "PATH", "TERM", "IN_NIX_SHELL", "TZ", "PAGER", "NIX_BUILD_SHELL", "SHLVL"}; Strings args; for (int i = 1; i < argc; ++i) { args.push_back(argv[i]); } // Heuristic to see if we're invoked as a shebang script, namely, // if we have at least one argument, it's the name of an // executable file, and it starts with "#!". if (runEnv && argc > 1 && !std::regex_search(argv[1], std::regex("nix-shell"))) { script = argv[1]; try { Strings lines = absl::StrSplit(readFile(script), absl::ByChar('\n'), absl::SkipEmpty()); if (std::regex_search(lines.front(), std::regex("^#!"))) { lines.pop_front(); inShebang = true; for (int i = 2; i < argc; ++i) { savedArgs.emplace_back(argv[i]); } args.clear(); for (auto line : lines) { line = absl::StripTrailingAsciiWhitespace(line); std::smatch match; if (std::regex_match(line, match, std::regex("^#!\\s*nix-shell (.*)$"))) { for (const auto& word : shellwords(match[1].str())) { args.push_back(word); } } } } } catch (SysError&) { } } struct MyArgs : LegacyArgs, MixEvalArgs { using LegacyArgs::LegacyArgs; }; MyArgs myArgs( myName, [&](Strings::iterator& arg, const Strings::iterator& end) { if (*arg == "--help") { deletePath(Path(tmpDir)); showManPage(myName); } else if (*arg == "--version") { printVersion(myName); } else if (*arg == "--add-drv-link" || *arg == "--indirect") { ; // obsolete } else if (*arg == "--no-out-link" || *arg == "--no-link") { outLink = Path(tmpDir) + "/result"; } else if (*arg == "--attr" || *arg == "-A") { attrPaths.push_back(getArg(*arg, arg, end)); } else if (*arg == "--drv-link") { getArg(*arg, arg, end); // obsolete } else if (*arg == "--out-link" || *arg == "-o") { outLink = getArg(*arg, arg, end); } else if (*arg == "--add-root") { gcRoot = getArg(*arg, arg, end); } else if (*arg == "--dry-run") { dryRun = true; } else if (*arg == "--repair") { repair = Repair; buildMode = bmRepair; } else if (*arg == "--run-env") { // obsolete runEnv = true; } else if (*arg == "--command" || *arg == "--run") { if (*arg == "--run") { interactive = false; } envCommand = getArg(*arg, arg, end) + "\nexit"; } else if (*arg == "--check") { buildMode = bmCheck; } else if (*arg == "--exclude") { envExclude.push_back(getArg(*arg, arg, end)); } else if (*arg == "--expr" || *arg == "-E") { fromArgs = true; } else if (runEnv && *arg == "--pure") { pure = true; } else if (runEnv && *arg == "--impure") { pure = false; } else if (*arg == "--packages" || *arg == "-p") { packages = true; } else if (inShebang && *arg == "-i") { auto interpreter = getArg(*arg, arg, end); interactive = false; auto execArgs = ""; // Überhack to support Perl. Perl examines the shebang and // executes it unless it contains the string "perl" or "indir", // or (undocumented) argv[0] does not contain "perl". Exploit // the latter by doing "exec -a". if (std::regex_search(interpreter, std::regex("perl"))) { execArgs = "-a PERL"; } std::ostringstream joined; for (const auto& i : savedArgs) { joined << shellEscape(i) << ' '; } if (std::regex_search(interpreter, std::regex("ruby"))) { // Hack for Ruby. Ruby also examines the shebang. It tries to // read the shebang to understand which packages to read from. Since // this is handled via nix-shell -p, we wrap our ruby script // execution in ruby -e 'load' which ignores the shebangs. envCommand = (format("exec %1% %2% -e 'load(\"%3%\")' -- %4%") % execArgs % interpreter % script % joined.str()) .str(); } else { envCommand = (format("exec %1% %2% %3% %4%") % execArgs % interpreter % script % joined.str()) .str(); } } else if (*arg == "--keep") { keepVars.insert(getArg(*arg, arg, end)); } else if (*arg == "-") { readStdin = true; } else if (*arg != "" && arg->at(0) == '-') { return false; } else { left.push_back(*arg); } return true; }); myArgs.parseCmdline(args); if (packages && fromArgs) { throw UsageError("'-p' and '-E' are mutually exclusive"); } auto store = openStore(); auto state = std::make_unique<EvalState>(myArgs.searchPath, store); state->repair = repair; std::unique_ptr<Bindings> autoArgs = myArgs.getAutoArgs(*state); if (packages) { std::ostringstream joined; // TODO(grfn): Generate a syntax tree here, not a string joined << "with import <nixpkgs> { }; (pkgs.runCommandCC or " "pkgs.runCommand) \"shell\" { buildInputs = [ "; for (const auto& i : left) { joined << '(' << i << ") "; } joined << "]; } \"\""; fromArgs = true; left = {joined.str()}; } else if (!fromArgs) { if (left.empty() && runEnv && pathExists("shell.nix")) { left = {"shell.nix"}; } if (left.empty()) { left = {"default.nix"}; } } if (runEnv) { setenv("IN_NIX_SHELL", pure ? "pure" : "impure", 1); } DrvInfos drvs; /* Parse the expressions. */ std::vector<Expr*> exprs; if (readStdin) { exprs = {state->parseStdin()}; } else { for (const auto& i : left) { if (fromArgs) { exprs.push_back(state->parseExprFromString(i, absPath("."))); } else { auto absolute = i; try { absolute = canonPath(absPath(i), true); } catch (Error& e) { }; if (store->isStorePath(absolute) && std::regex_match(absolute, std::regex(".*\\.drv(!.*)?"))) { drvs.push_back(DrvInfo(*state, store, absolute)); } else { /* If we're in a #! script, interpret filenames relative to the script. */ exprs.push_back( state->parseExprFromFile(resolveExprPath(state->checkSourcePath( lookupFileArg(*state, inShebang && !packages ? absPath(i, absPath(dirOf(script))) : i))))); } } } } /* Evaluate them into derivations. */ if (attrPaths.empty()) { attrPaths = {""}; } for (auto e : exprs) { Value vRoot; state->eval(e, vRoot); for (auto& i : attrPaths) { Value& v(*findAlongAttrPath(*state, i, autoArgs.get(), vRoot)); state->forceValue(v); getDerivations(*state, v, "", autoArgs.get(), drvs, false); } } state->printStats(); auto buildPaths = [&](const PathSet& paths) { /* Note: we do this even when !printMissing to efficiently fetch binary cache data. */ unsigned long long downloadSize; unsigned long long narSize; PathSet willBuild; PathSet willSubstitute; PathSet unknown; store->queryMissing(paths, willBuild, willSubstitute, unknown, downloadSize, narSize); if (settings.printMissing) { printMissing(ref<Store>(store), willBuild, willSubstitute, unknown, downloadSize, narSize); } if (!dryRun) { util::OkOrThrow(store->buildPaths(std::cerr, paths, buildMode)); } }; if (runEnv) { if (drvs.size() != 1) { throw UsageError("nix-shell requires a single derivation"); } auto& drvInfo = drvs.front(); auto drv = store->derivationFromPath(drvInfo.queryDrvPath()); PathSet pathsToBuild; /* Figure out what bash shell to use. If $NIX_BUILD_SHELL is not set, then build bashInteractive from <nixpkgs>. */ auto shell = getEnv("NIX_BUILD_SHELL", ""); if (shell.empty()) { try { auto expr = state->parseExprFromString( "(import <nixpkgs> {}).bashInteractive", absPath(".")); Value v; state->eval(expr, v); auto drv = getDerivation(*state, v, false); if (!drv) { throw Error( "the 'bashInteractive' attribute in <nixpkgs> did not evaluate " "to a derivation"); } pathsToBuild.insert(drv->queryDrvPath()); shell = drv->queryOutPath() + "/bin/bash"; } catch (Error& e) { LOG(WARNING) << e.what() << "; will use bash from your environment"; shell = "bash"; } } // Build or fetch all dependencies of the derivation. for (const auto& input : drv.inputDrvs) { if (std::all_of(envExclude.cbegin(), envExclude.cend(), [&](const std::string& exclude) { return !std::regex_search(input.first, std::regex(exclude)); })) { pathsToBuild.insert(makeDrvPathWithOutputs(input.first, input.second)); } } for (const auto& src : drv.inputSrcs) { pathsToBuild.insert(src); } buildPaths(pathsToBuild); if (dryRun) { return; } // Set the environment. auto env = getEnv(); auto tmp = getEnv("TMPDIR", getEnv("XDG_RUNTIME_DIR", "/tmp")); if (pure) { decltype(env) newEnv; for (auto& i : env) { if (keepVars.count(i.first) != 0u) { newEnv.emplace(i); } } env = newEnv; // NixOS hack: prevent /etc/bashrc from sourcing /etc/profile. env["__ETC_PROFILE_SOURCED"] = "1"; } env["NIX_BUILD_TOP"] = env["TMPDIR"] = env["TEMPDIR"] = env["TMP"] = env["TEMP"] = tmp; env["NIX_STORE"] = store->storeDir; env["NIX_BUILD_CORES"] = std::to_string(settings.buildCores); StringSet passAsFile = absl::StrSplit(get(drv.env, "passAsFile", ""), absl::ByAnyChar(" \t\n\r"), absl::SkipEmpty()); bool keepTmp = false; int fileNr = 0; for (auto& var : drv.env) { if (passAsFile.count(var.first) != 0u) { keepTmp = true; std::string fn = ".attr-" + std::to_string(fileNr++); Path p = Path(tmpDir) + "/" + fn; writeFile(p, var.second); env[var.first + "Path"] = p; } else { env[var.first] = var.second; } } restoreAffinity(); /* Run a shell using the derivation's environment. For convenience, source $stdenv/setup to setup additional environment variables and shell functions. Also don't lose the current $PATH directories. */ auto rcfile = Path(tmpDir) + "/rc"; writeFile( rcfile, fmt((keepTmp ? "" : "rm -rf '%1%'; "s) + "[ -n \"$PS1\" ] && [ -e ~/.bashrc ] && source ~/.bashrc; " "%2%" "dontAddDisableDepTrack=1; " "[ -e $stdenv/setup ] && source $stdenv/setup; " "%3%" "PATH=\"%4%:$PATH\"; " "SHELL=%5%; " "set +e; " R"s([ -n "$PS1" ] && PS1='\n\[\033[1;32m\][nix-shell:\w]\$\[\033[0m\] '; )s" "if [ \"$(type -t runHook)\" = function ]; then runHook " "shellHook; fi; " "unset NIX_ENFORCE_PURITY; " "shopt -u nullglob; " "unset TZ; %6%" "%7%", Path(tmpDir), (pure ? "" : "p=$PATH; "), (pure ? "" : "PATH=$PATH:$p; unset p; "), dirOf(shell), shell, (getenv("TZ") != nullptr ? (std::string("export TZ='") + getenv("TZ") + "'; ") : ""), envCommand)); Strings envStrs; for (auto& i : env) { envStrs.push_back(i.first + "=" + i.second); } auto args = interactive ? Strings{"bash", "--rcfile", rcfile} : Strings{"bash", rcfile}; auto envPtrs = stringsToCharPtrs(envStrs); environ = envPtrs.data(); auto argPtrs = stringsToCharPtrs(args); restoreSignals(); execvp(shell.c_str(), argPtrs.data()); throw SysError("executing shell '%s'", shell); } PathSet pathsToBuild; std::map<Path, Path> drvPrefixes; std::map<Path, Path> resultSymlinks; std::vector<Path> outPaths; for (auto& drvInfo : drvs) { auto drvPath = drvInfo.queryDrvPath(); auto outPath = drvInfo.queryOutPath(); auto outputName = drvInfo.queryOutputName(); if (outputName.empty()) { throw Error("derivation '%s' lacks an 'outputName' attribute", drvPath); } pathsToBuild.insert(drvPath + "!" + outputName); std::string drvPrefix; auto i = drvPrefixes.find(drvPath); if (i != drvPrefixes.end()) { drvPrefix = i->second; } else { drvPrefix = outLink; if (!drvPrefixes.empty() != 0u) { drvPrefix += fmt("-%d", drvPrefixes.size() + 1); } drvPrefixes[drvPath] = drvPrefix; } std::string symlink = drvPrefix; if (outputName != "out") { symlink += "-" + outputName; } resultSymlinks[symlink] = outPath; outPaths.push_back(outPath); } buildPaths(pathsToBuild); if (dryRun) { return; } for (auto& symlink : resultSymlinks) { if (auto store2 = store.dynamic_pointer_cast<LocalFSStore>()) { store2->addPermRoot(symlink.second, absPath(symlink.first), true); } } for (auto& path : outPaths) { std::cout << path << '\n'; } } static RegisterLegacyCommand s1("nix-build", _main); static RegisterLegacyCommand s2("nix-shell", _main);