#include "libmain/shared.hh" #include <algorithm> #include <cctype> #include <csignal> #include <cstdlib> #include <exception> #include <iostream> #include <mutex> #include <utility> #include <glog/logging.h> #include <openssl/crypto.h> #include <sys/stat.h> #include <sys/time.h> #include <unistd.h> #include "libstore/globals.hh" #include "libstore/store-api.hh" #include "libutil/util.hh" namespace nix { static bool gcWarning = true; void printGCWarning() { if (!gcWarning) { return; } static bool haveWarned = false; if (!haveWarned) { haveWarned = true; LOG(WARNING) << "you did not specify '--add-root'; " << "the result might be removed by the garbage collector"; } } void printMissing(const ref<Store>& store, const PathSet& paths) { unsigned long long downloadSize; unsigned long long narSize; PathSet willBuild; PathSet willSubstitute; PathSet unknown; store->queryMissing(paths, willBuild, willSubstitute, unknown, downloadSize, narSize); printMissing(store, willBuild, willSubstitute, unknown, downloadSize, narSize); } void printMissing(const ref<Store>& store, const PathSet& willBuild, const PathSet& willSubstitute, const PathSet& unknown, unsigned long long downloadSize, unsigned long long narSize) { if (!willBuild.empty()) { LOG(INFO) << "these derivations will be built:"; Paths sorted = store->topoSortPaths(willBuild); reverse(sorted.begin(), sorted.end()); for (auto& i : sorted) { LOG(INFO) << " " << i; } } if (!willSubstitute.empty()) { LOG(INFO) << "these paths will be fetched (" << (downloadSize / (1024.0 * 1024.0)) << " MiB download, " << (narSize / (1024.0 * 1024.0)) << "MiB unpacked):"; for (auto& i : willSubstitute) { LOG(INFO) << i; } } if (!unknown.empty()) { LOG(INFO) << "don't know how to build these paths" << (settings.readOnlyMode ? " (may be caused by read-only store access)" : "") << ":"; for (auto& i : unknown) { LOG(INFO) << i; } } } std::string getArg(const std::string& opt, Strings::iterator& i, const Strings::iterator& end) { ++i; if (i == end) { throw UsageError(format("'%1%' requires an argument") % opt); } return *i; } #if OPENSSL_VERSION_NUMBER < 0x10101000L /* OpenSSL is not thread-safe by default - it will randomly crash unless the user supplies a mutex locking function. So let's do that. */ static std::vector<std::mutex> opensslLocks; static void opensslLockCallback(int mode, int type, const char* file, int line) { if (mode & CRYPTO_LOCK) opensslLocks[type].lock(); else opensslLocks[type].unlock(); } #endif static void sigHandler(int signo) {} void initNix() { /* Turn on buffering for cerr. */ #if HAVE_PUBSETBUF static char buf[1024]; std::cerr.rdbuf()->pubsetbuf(buf, sizeof(buf)); #endif #if OPENSSL_VERSION_NUMBER < 0x10101000L /* Initialise OpenSSL locking. */ opensslLocks = std::vector<std::mutex>(CRYPTO_num_locks()); CRYPTO_set_locking_callback(opensslLockCallback); #endif loadConfFile(); startSignalHandlerThread(); /* Reset SIGCHLD to its default. */ struct sigaction act; sigemptyset(&act.sa_mask); act.sa_handler = SIG_DFL; act.sa_flags = 0; if (sigaction(SIGCHLD, &act, nullptr) != 0) { throw SysError("resetting SIGCHLD"); } /* Install a dummy SIGUSR1 handler for use with pthread_kill(). */ act.sa_handler = sigHandler; if (sigaction(SIGUSR1, &act, nullptr) != 0) { throw SysError("handling SIGUSR1"); } /* Register a SIGSEGV handler to detect stack overflows. */ detectStackOverflow(); /* There is no privacy in the Nix system ;-) At least not for now. In particular, store objects should be readable by everybody. */ umask(0022); /* Initialise the PRNG. */ struct timeval tv; gettimeofday(&tv, nullptr); srandom(tv.tv_usec); } LegacyArgs::LegacyArgs( const std::string& programName, std::function<bool(Strings::iterator& arg, const Strings::iterator& end)> parseArg) : MixCommonArgs(programName), parseArg(std::move(parseArg)) { mkFlag() .longName("no-build-output") .shortName('Q') .description("do not show build output") .set(&settings.verboseBuild, false); mkFlag() .longName("keep-failed") .shortName('K') .description("keep temporary directories of failed builds") .set(&(bool&)settings.keepFailed, true); mkFlag() .longName("keep-going") .shortName('k') .description("keep going after a build fails") .set(&(bool&)settings.keepGoing, true); mkFlag() .longName("fallback") .description("build from source if substitution fails") .set(&(bool&)settings.tryFallback, true); auto intSettingAlias = [&](char shortName, const std::string& longName, const std::string& description, const std::string& dest) { mkFlag<unsigned int>(shortName, longName, description, [=](unsigned int n) { settings.set(dest, std::to_string(n)); }); }; intSettingAlias(0, "cores", "maximum number of CPU cores to use inside a build", "cores"); intSettingAlias(0, "max-silent-time", "number of seconds of silence before a build is killed", "max-silent-time"); intSettingAlias(0, "timeout", "number of seconds before a build is killed", "timeout"); mkFlag(0, "readonly-mode", "do not write to the Nix store", &settings.readOnlyMode); mkFlag(0, "no-gc-warning", "disable warning about not using '--add-root'", &gcWarning, false); mkFlag() .longName("store") .label("store-uri") .description("URI of the Nix store to use") .dest(&(std::string&)settings.storeUri); } bool LegacyArgs::processFlag(Strings::iterator& pos, Strings::iterator end) { if (MixCommonArgs::processFlag(pos, end)) { return true; } bool res = parseArg(pos, end); if (res) { ++pos; } return res; } bool LegacyArgs::processArgs(const Strings& args, bool finish) { if (args.empty()) { return true; } assert(args.size() == 1); Strings ss(args); auto pos = ss.begin(); if (!parseArg(pos, ss.end())) { throw UsageError(format("unexpected argument '%1%'") % args.front()); } return true; } void parseCmdLine( int argc, char** argv, std::function<bool(Strings::iterator& arg, const Strings::iterator& end)> parseArg) { parseCmdLine(baseNameOf(argv[0]), argvToStrings(argc, argv), std::move(parseArg)); } void parseCmdLine( const std::string& programName, const Strings& args, std::function<bool(Strings::iterator& arg, const Strings::iterator& end)> parseArg) { LegacyArgs(programName, std::move(parseArg)).parseCmdline(args); } void printVersion(const std::string& programName) { std::cout << format("%1% (Nix) %2%") % programName % nixVersion << std::endl; // TODO(tazjin): figure out what the fuck this is /*if (verbosity > lvlInfo) { Strings cfg; #if HAVE_BOEHMGC cfg.push_back("gc"); #endif #if HAVE_SODIUM cfg.push_back("signed-caches"); #endif std::cout << "Features: " << concatStringsSep(", ", cfg) << "\n"; std::cout << "Configuration file: " << settings.nixConfDir + "/nix.conf" << "\n"; std::cout << "Store directory: " << settings.nixStore << "\n"; std::cout << "State directory: " << settings.nixStateDir << "\n"; } */ throw Exit(); } void showManPage(const std::string& name) { restoreSignals(); setenv("MANPATH", settings.nixManDir.c_str(), 1); execlp("man", "man", name.c_str(), nullptr); throw SysError(format("command 'man %1%' failed") % name.c_str()); } int handleExceptions(const std::string& programName, const std::function<void()>& fun) { ReceiveInterrupts receiveInterrupts; // FIXME: need better place for this std::string error = ANSI_RED "error:" ANSI_NORMAL " "; try { try { fun(); } catch (...) { /* Subtle: we have to make sure that any `interrupted' condition is discharged before we reach printMsg() below, since otherwise it will throw an (uncaught) exception. */ setInterruptThrown(); throw; } } catch (Exit& e) { return e.status; } catch (UsageError& e) { LOG(INFO) << e.what(); LOG(INFO) << "Try '" << programName << " --help' for more information."; return 1; } catch (BaseError& e) { LOG(ERROR) << error << (settings.showTrace ? e.prefix() : "") << e.msg(); if (!e.prefix().empty() && !settings.showTrace) { LOG(INFO) << "(use '--show-trace' to show detailed location information)"; } return e.status; } catch (std::bad_alloc& e) { LOG(ERROR) << error << "failed to allocate: " << e.what(); return 1; } catch (std::exception& e) { LOG(ERROR) << error << e.what(); return 1; } return 0; } RunPager::RunPager() { if (isatty(STDOUT_FILENO) == 0) { return; } char* pager = getenv("NIX_PAGER"); if (pager == nullptr) { pager = getenv("PAGER"); } if (pager && (std::string(pager) == "" || std::string(pager) == "cat")) { return; } Pipe toPager; toPager.create(); pid = startProcess([&]() { if (dup2(toPager.readSide.get(), STDIN_FILENO) == -1) { throw SysError("dupping stdin"); } if (getenv("LESS") == nullptr) { setenv("LESS", "FRSXMK", 1); } restoreSignals(); if (pager != nullptr) { execl("/bin/sh", "sh", "-c", pager, nullptr); } execlp("pager", "pager", nullptr); execlp("less", "less", nullptr); execlp("more", "more", nullptr); throw SysError(format("executing '%1%'") % pager); }); pid.setKillSignal(SIGINT); if (dup2(toPager.writeSide.get(), STDOUT_FILENO) == -1) { throw SysError("dupping stdout"); } } RunPager::~RunPager() { try { if (pid != Pid(-1)) { std::cout.flush(); close(STDOUT_FILENO); pid.wait(); } } catch (...) { ignoreException(); } } std::string showBytes(unsigned long long bytes) { return (format("%.2f MiB") % (bytes / (1024.0 * 1024.0))).str(); } PrintFreed::~PrintFreed() { if (show) { std::cout << format("%1% store paths deleted, %2% freed\n") % results.paths.size() % showBytes(results.bytesFreed); } } Exit::~Exit() = default; } // namespace nix