path: root/third_party/nix/src/nix-store/nix-store.cc

#include <algorithm>
#include <cstdio>
#include <iostream>

#include <absl/strings/escaping.h>
#include <fcntl.h>
#include <glog/logging.h>
#include <sys/stat.h>
#include <sys/types.h>

#include "libmain/shared.hh"
#include "libstore/derivations.hh"
#include "libstore/globals.hh"
#include "libstore/local-store.hh"
#include "libstore/serve-protocol.hh"
#include "libstore/worker-protocol.hh"
#include "libutil/archive.hh"
#include "libutil/monitor-fd.hh"
#include "libutil/util.hh"
#include "nix-store/dotgraph.hh"
#include "nix-store/graphml.hh"
#include "nix/legacy.hh"

#if HAVE_SODIUM
#include <sodium.h>
#endif

using namespace nix;
using std::cin;
using std::cout;

// TODO(tazjin): clang-tidy's performance lints don't like this, but
// the automatic fixes fail (it seems that some of the ops want to own
// the args for whatever reason)
using Operation = void (*)(Strings, Strings);

static Path gcRoot;
static int rootNr = 0;
static bool indirectRoot = false;
static bool noOutput = false;
static std::shared_ptr<Store> store;

ref<LocalStore> ensureLocalStore() {
  auto store2 = std::dynamic_pointer_cast<LocalStore>(store);
  if (!store2) {
    throw Error("you don't have sufficient rights to use this command");
  }
  return ref<LocalStore>(store2);
}

static Path useDeriver(Path path) {
  if (isDerivation(path)) {
    return path;
  }
  Path drvPath = store->queryPathInfo(path)->deriver;
  if (drvPath.empty()) {
    throw Error(format("deriver of path '%1%' is not known") % path);
  }
  return drvPath;
}

/* Realise the given path.  For a derivation that means build it; for
   other paths it means ensure their validity. */
static PathSet realisePath(Path path, bool build = true) {
  DrvPathWithOutputs p = parseDrvPathWithOutputs(path);

  auto store2 = std::dynamic_pointer_cast<LocalFSStore>(store);

  if (isDerivation(p.first)) {
    if (build) {
      store->buildPaths({path});
    }
    Derivation drv = store->derivationFromPath(p.first);
    rootNr++;

    if (p.second.empty()) {
      for (auto& i : drv.outputs) {
        p.second.insert(i.first);
      }
    }

    PathSet outputs;
    for (auto& j : p.second) {
      auto i = drv.outputs.find(j);
      if (i == drv.outputs.end()) {
        throw Error(
            format("derivation '%1%' does not have an output named '%2%'") %
            p.first % j);
      }
      Path outPath = i->second.path;
      if (store2) {
        if (gcRoot.empty()) {
          printGCWarning();
        } else {
          Path rootName = gcRoot;
          if (rootNr > 1) {
            rootName += "-" + std::to_string(rootNr);
          }
          if (i->first != "out") {
            rootName += "-" + i->first;
          }
          outPath = store2->addPermRoot(outPath, rootName, indirectRoot);
        }
      }
      outputs.insert(outPath);
    }
    return outputs;
  }

  if (build) {
    store->ensurePath(path);
  } else if (!store->isValidPath(path)) {
    throw Error(format("path '%1%' does not exist and cannot be created") %
                path);
  }
  if (store2) {
    if (gcRoot.empty()) {
      printGCWarning();
    } else {
      Path rootName = gcRoot;
      rootNr++;
      if (rootNr > 1) {
        rootName += "-" + std::to_string(rootNr);
      }
      path = store2->addPermRoot(path, rootName, indirectRoot);
    }
  }
  return {path};
}

/* Realise the given paths. */
static void opRealise(Strings opFlags, Strings opArgs) {
  bool dryRun = false;
  BuildMode buildMode = bmNormal;
  bool ignoreUnknown = false;

  for (auto& i : opFlags) {
    if (i == "--dry-run") {
      dryRun = true;
    } else if (i == "--repair") {
      buildMode = bmRepair;
    } else if (i == "--check") {
      buildMode = bmCheck;
    } else if (i == "--ignore-unknown") {
      ignoreUnknown = true;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
  }

  Paths paths;
  for (auto& i : opArgs) {
    DrvPathWithOutputs p = parseDrvPathWithOutputs(i);
    paths.push_back(makeDrvPathWithOutputs(
        store->followLinksToStorePath(p.first), p.second));
  }

  unsigned long long downloadSize;
  unsigned long long narSize;
  PathSet willBuild;
  PathSet willSubstitute;
  PathSet unknown;
  store->queryMissing(PathSet(paths.begin(), paths.end()), willBuild,
                      willSubstitute, unknown, downloadSize, narSize);

  if (ignoreUnknown) {
    Paths paths2;
    for (auto& i : paths) {
      if (unknown.find(i) == unknown.end()) {
        paths2.push_back(i);
      }
    }
    paths = paths2;
    unknown = PathSet();
  }

  if (settings.printMissing) {
    printMissing(ref<Store>(store), willBuild, willSubstitute, unknown,
                 downloadSize, narSize);
  }

  if (dryRun) {
    return;
  }

  /* Build all paths at the same time to exploit parallelism. */
  store->buildPaths(PathSet(paths.begin(), paths.end()), buildMode);

  if (!ignoreUnknown) {
    for (auto& i : paths) {
      PathSet paths = realisePath(i, false);
      if (!noOutput) {
        for (auto& j : paths) {
          cout << format("%1%\n") % j;
        }
      }
    }
  }
}

/* Add files to the Nix store and print the resulting paths. */
static void opAdd(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("unknown flag");
  }

  for (auto& i : opArgs) {
    cout << format("%1%\n") % store->addToStore(baseNameOf(i), i);
  }
}

/* Preload the output of a fixed-output derivation into the Nix
   store. */
static void opAddFixed(Strings opFlags, Strings opArgs) {
  bool recursive = false;

  for (auto& i : opFlags) {
    if (i == "--recursive") {
      recursive = true;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
  }

  if (opArgs.empty()) {
    throw UsageError("first argument must be hash algorithm");
  }

  HashType hashAlgo = parseHashType(opArgs.front());
  opArgs.pop_front();

  for (auto& i : opArgs) {
    cout << format("%1%\n") %
                store->addToStore(baseNameOf(i), i, recursive, hashAlgo);
  }
}

/* Hack to support caching in `nix-prefetch-url'. */
static void opPrintFixedPath(Strings opFlags, Strings opArgs) {
  bool recursive = false;

  for (auto i : opFlags) {
    if (i == "--recursive") {
      recursive = true;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
  }

  if (opArgs.size() != 3) {
    throw UsageError(format("'--print-fixed-path' requires three arguments"));
  }

  auto i = opArgs.begin();
  HashType hashAlgo = parseHashType(*i++);
  std::string hash = *i++;
  std::string name = *i++;

  auto hash_ = Hash::deserialize(hash, hashAlgo);
  Hash::unwrap_throw(hash_);

  cout << absl::StrCat(store->makeFixedOutputPath(recursive, *hash_, name),
                       "\n");
}

static PathSet maybeUseOutputs(const Path& storePath, bool useOutput,
                               bool forceRealise) {
  if (forceRealise) {
    realisePath(storePath);
  }
  if (useOutput && isDerivation(storePath)) {
    Derivation drv = store->derivationFromPath(storePath);
    PathSet outputs;
    for (auto& i : drv.outputs) {
      outputs.insert(i.second.path);
    }
    return outputs;
  }
  return {storePath};
}

/* Some code to print a tree representation of a derivation dependency
   graph.  Topological sorting is used to keep the tree relatively
   flat. */

const std::string treeConn = "+---";
const std::string treeLine = "|   ";
const std::string treeNull = "    ";

static void printTree(const Path& path, const std::string& firstPad,
                      const std::string& tailPad, PathSet& done) {
  if (done.find(path) != done.end()) {
    cout << format("%1%%2% [...]\n") % firstPad % path;
    return;
  }
  done.insert(path);

  cout << format("%1%%2%\n") % firstPad % path;

  auto references = store->queryPathInfo(path)->references;

  /* Topologically sort under the relation A < B iff A \in
     closure(B).  That is, if derivation A is an (possibly indirect)
     input of B, then A is printed first.  This has the effect of
     flattening the tree, preventing deeply nested structures.  */
  Paths sorted = store->topoSortPaths(references);
  reverse(sorted.begin(), sorted.end());

  for (auto i = sorted.begin(); i != sorted.end(); ++i) {
    auto j = i;
    ++j;
    printTree(*i, tailPad + treeConn,
              j == sorted.end() ? tailPad + treeNull : tailPad + treeLine,
              done);
  }
}

/* Perform various sorts of queries. */
static void opQuery(Strings opFlags, Strings opArgs) {
  enum QueryType {
    qDefault,
    qOutputs,
    qRequisites,
    qReferences,
    qReferrers,
    qReferrersClosure,
    qDeriver,
    qBinding,
    qHash,
    qSize,
    qTree,
    qGraph,
    qGraphML,
    qResolve,
    qRoots
  };
  QueryType query = qDefault;
  bool useOutput = false;
  bool includeOutputs = false;
  bool forceRealise = false;
  std::string bindingName;

  for (auto& i : opFlags) {
    QueryType prev = query;
    if (i == "--outputs") {
      query = qOutputs;
    } else if (i == "--requisites" || i == "-R") {
      query = qRequisites;
    } else if (i == "--references") {
      query = qReferences;
    } else if (i == "--referrers" || i == "--referers") {
      query = qReferrers;
    } else if (i == "--referrers-closure" || i == "--referers-closure") {
      query = qReferrersClosure;
    } else if (i == "--deriver" || i == "-d") {
      query = qDeriver;
    } else if (i == "--binding" || i == "-b") {
      if (opArgs.empty()) {
        throw UsageError("expected binding name");
      }
      bindingName = opArgs.front();
      opArgs.pop_front();
      query = qBinding;
    } else if (i == "--hash") {
      query = qHash;
    } else if (i == "--size") {
      query = qSize;
    } else if (i == "--tree") {
      query = qTree;
    } else if (i == "--graph") {
      query = qGraph;
    } else if (i == "--graphml") {
      query = qGraphML;
    } else if (i == "--resolve") {
      query = qResolve;
    } else if (i == "--roots") {
      query = qRoots;
    } else if (i == "--use-output" || i == "-u") {
      useOutput = true;
    } else if (i == "--force-realise" || i == "--force-realize" || i == "-f") {
      forceRealise = true;
    } else if (i == "--include-outputs") {
      includeOutputs = true;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
    if (prev != qDefault && prev != query) {
      throw UsageError(format("query type '%1%' conflicts with earlier flag") %
                       i);
    }
  }

  if (query == qDefault) {
    query = qOutputs;
  }

  RunPager pager;

  switch (query) {
    case qOutputs: {
      for (auto& i : opArgs) {
        i = store->followLinksToStorePath(i);
        if (forceRealise) {
          realisePath(i);
        }
        Derivation drv = store->derivationFromPath(i);
        for (auto& j : drv.outputs) {
          cout << format("%1%\n") % j.second.path;
        }
      }
      break;
    }

    case qRequisites:
    case qReferences:
    case qReferrers:
    case qReferrersClosure: {
      PathSet paths;
      for (auto& i : opArgs) {
        PathSet ps = maybeUseOutputs(store->followLinksToStorePath(i),
                                     useOutput, forceRealise);
        for (auto& j : ps) {
          if (query == qRequisites) {
            store->computeFSClosure(j, paths, false, includeOutputs);
          } else if (query == qReferences) {
            for (auto& p : store->queryPathInfo(j)->references) {
              paths.insert(p);
            }
          } else if (query == qReferrers) {
            store->queryReferrers(j, paths);
          } else if (query == qReferrersClosure) {
            store->computeFSClosure(j, paths, true);
          }
        }
      }
      Paths sorted = store->topoSortPaths(paths);
      for (auto i = sorted.rbegin(); i != sorted.rend(); ++i) {
        cout << format("%s\n") % *i;
      }
      break;
    }

    case qDeriver:
      for (auto& i : opArgs) {
        Path deriver =
            store->queryPathInfo(store->followLinksToStorePath(i))->deriver;
        cout << format("%1%\n") %
                    (deriver.empty() ? "unknown-deriver" : deriver);
      }
      break;

    case qBinding:
      for (auto& i : opArgs) {
        Path path = useDeriver(store->followLinksToStorePath(i));
        Derivation drv = store->derivationFromPath(path);
        auto j = drv.env.find(bindingName);
        if (j == drv.env.end()) {
          throw Error(
              format(
                  "derivation '%1%' has no environment binding named '%2%'") %
              path % bindingName);
        }
        cout << format("%1%\n") % j->second;
      }
      break;

    case qHash:
    case qSize:
      for (auto& i : opArgs) {
        PathSet paths = maybeUseOutputs(store->followLinksToStorePath(i),
                                        useOutput, forceRealise);
        for (auto& j : paths) {
          auto info = store->queryPathInfo(j);
          if (query == qHash) {
            assert(info->narHash.type == htSHA256);
            cout << fmt("%s\n", info->narHash.to_string(Base32));
          } else if (query == qSize) {
            cout << fmt("%d\n", info->narSize);
          }
        }
      }
      break;

    case qTree: {
      PathSet done;
      for (auto& i : opArgs) {
        printTree(store->followLinksToStorePath(i), "", "", done);
      }
      break;
    }

    case qGraph: {
      PathSet roots;
      for (auto& i : opArgs) {
        PathSet paths = maybeUseOutputs(store->followLinksToStorePath(i),
                                        useOutput, forceRealise);
        roots.insert(paths.begin(), paths.end());
      }
      printDotGraph(ref<Store>(store), roots);
      break;
    }

    case qGraphML: {
      PathSet roots;
      for (auto& i : opArgs) {
        PathSet paths = maybeUseOutputs(store->followLinksToStorePath(i),
                                        useOutput, forceRealise);
        roots.insert(paths.begin(), paths.end());
      }
      printGraphML(ref<Store>(store), roots);
      break;
    }

    case qResolve: {
      for (auto& i : opArgs) {
        cout << format("%1%\n") % store->followLinksToStorePath(i);
      }
      break;
    }

    case qRoots: {
      PathSet referrers;
      for (auto& i : opArgs) {
        store->computeFSClosure(
            maybeUseOutputs(store->followLinksToStorePath(i), useOutput,
                            forceRealise),
            referrers, true, settings.gcKeepOutputs,
            settings.gcKeepDerivations);
      }
      Roots roots = store->findRoots(false);
      for (auto& [target, links] : roots) {
        if (referrers.find(target) != referrers.end()) {
          for (auto& link : links) {
            cout << format("%1% -> %2%\n") % link % target;
          }
        }
      }
      break;
    }

    default:
      abort();
  }
}

static void opPrintEnv(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("unknown flag");
  }
  if (opArgs.size() != 1) {
    throw UsageError("'--print-env' requires one derivation store path");
  }

  Path drvPath = opArgs.front();
  Derivation drv = store->derivationFromPath(drvPath);

  /* Print each environment variable in the derivation in a format
     that can be sourced by the shell. */
  for (auto& i : drv.env) {
    cout << format("export %1%; %1%=%2%\n") % i.first % shellEscape(i.second);
  }

  /* Also output the arguments.  This doesn't preserve whitespace in
     arguments. */
  cout << "export _args; _args='";
  bool first = true;
  for (auto& i : drv.args) {
    if (!first) {
      cout << ' ';
    }
    first = false;
    cout << shellEscape(i);
  }
  cout << "'\n";
}

static void opReadLog(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("unknown flag");
  }

  RunPager pager;

  for (auto& i : opArgs) {
    auto path = store->followLinksToStorePath(i);
    auto log = store->getBuildLog(path);
    if (!log) {
      throw Error("build log of derivation '%s' is not available", path);
    }
    std::cout << *log;
  }
}

static void opDumpDB(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("unknown flag");
  }
  if (!opArgs.empty()) {
    for (auto& i : opArgs) {
      i = store->followLinksToStorePath(i);
    }
    for (auto& i : opArgs) {
      cout << store->makeValidityRegistration({i}, true, true);
    }
  } else {
    PathSet validPaths = store->queryAllValidPaths();
    for (auto& i : validPaths) {
      cout << store->makeValidityRegistration({i}, true, true);
    }
  }
}

static void registerValidity(bool reregister, bool hashGiven,
                             bool canonicalise) {
  ValidPathInfos infos;

  while (true) {
    ValidPathInfo info = decodeValidPathInfo(cin, hashGiven);
    if (info.path.empty()) {
      break;
    }
    if (!store->isValidPath(info.path) || reregister) {
      /* !!! races */
      if (canonicalise) {
        canonicalisePathMetaData(info.path, -1);
      }
      if (!hashGiven) {
        HashResult hash = hashPath(htSHA256, info.path);
        info.narHash = hash.first;
        info.narSize = hash.second;
      }
      infos.push_back(info);
    }
  }

  ensureLocalStore()->registerValidPaths(infos);
}

static void opLoadDB(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("unknown flag");
  }
  if (!opArgs.empty()) {
    throw UsageError("no arguments expected");
  }
  registerValidity(true, true, false);
}

static void opRegisterValidity(Strings opFlags, Strings opArgs) {
  bool reregister = false;  // !!! maybe this should be the default
  bool hashGiven = false;

  for (auto& i : opFlags) {
    if (i == "--reregister") {
      reregister = true;
    } else if (i == "--hash-given") {
      hashGiven = true;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
  }

  if (!opArgs.empty()) {
    throw UsageError("no arguments expected");
  }

  registerValidity(reregister, hashGiven, true);
}

static void opCheckValidity(Strings opFlags, Strings opArgs) {
  bool printInvalid = false;

  for (auto& i : opFlags) {
    if (i == "--print-invalid") {
      printInvalid = true;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
  }

  for (auto& i : opArgs) {
    Path path = store->followLinksToStorePath(i);
    if (!store->isValidPath(path)) {
      if (printInvalid) {
        cout << format("%1%\n") % path;
      } else {
        throw Error(format("path '%1%' is not valid") % path);
      }
    }
  }
}

static void opGC(Strings opFlags, Strings opArgs) {
  bool printRoots = false;
  GCOptions options;
  options.action = GCOptions::gcDeleteDead;

  GCResults results;

  /* Do what? */
  for (auto i = opFlags.begin(); i != opFlags.end(); ++i) {
    if (*i == "--print-roots") {
      printRoots = true;
    } else if (*i == "--print-live") {
      options.action = GCOptions::gcReturnLive;
    } else if (*i == "--print-dead") {
      options.action = GCOptions::gcReturnDead;
    } else if (*i == "--delete") {
      options.action = GCOptions::gcDeleteDead;
    } else if (*i == "--max-freed") {
      auto maxFreed = getIntArg<long long>(*i, i, opFlags.end(), true);
      options.maxFreed = maxFreed >= 0 ? maxFreed : 0;
    } else {
      throw UsageError(format("bad sub-operation '%1%' in GC") % *i);
    }
  }

  if (!opArgs.empty()) {
    throw UsageError("no arguments expected");
  }

  if (printRoots) {
    Roots roots = store->findRoots(false);
    std::set<std::pair<Path, Path>> roots2;
    // Transpose and sort the roots.
    for (auto& [target, links] : roots) {
      for (auto& link : links) {
        roots2.emplace(link, target);
      }
    }
    for (auto& [link, target] : roots2) {
      std::cout << link << " -> " << target << "\n";
    }
  }

  else {
    PrintFreed freed(options.action == GCOptions::gcDeleteDead, results);
    store->collectGarbage(options, results);

    if (options.action != GCOptions::gcDeleteDead) {
      for (auto& i : results.paths) {
        cout << i << std::endl;
      }
    }
  }
}

/* Remove paths from the Nix store if possible (i.e., if they do not
   have any remaining referrers and are not reachable from any GC
   roots). */
static void opDelete(Strings opFlags, Strings opArgs) {
  GCOptions options;
  options.action = GCOptions::gcDeleteSpecific;

  for (auto& i : opFlags) {
    if (i == "--ignore-liveness") {
      options.ignoreLiveness = true;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
  }

  for (auto& i : opArgs) {
    options.pathsToDelete.insert(store->followLinksToStorePath(i));
  }

  GCResults results;
  PrintFreed freed(true, results);
  store->collectGarbage(options, results);
}

/* Dump a path as a Nix archive.  The archive is written to standard
   output. */
static void opDump(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("unknown flag");
  }
  if (opArgs.size() != 1) {
    throw UsageError("only one argument allowed");
  }

  FdSink sink(STDOUT_FILENO);
  std::string path = *opArgs.begin();
  dumpPath(path, sink);
  sink.flush();
}

/* Restore a value from a Nix archive.  The archive is read from
   standard input. */
static void opRestore(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("unknown flag");
  }
  if (opArgs.size() != 1) {
    throw UsageError("only one argument allowed");
  }

  FdSource source(STDIN_FILENO);
  restorePath(*opArgs.begin(), source);
}

static void opExport(Strings opFlags, Strings opArgs) {
  for (auto& i : opFlags) {
    throw UsageError(format("unknown flag '%1%'") % i);
  }

  for (auto& i : opArgs) {
    i = store->followLinksToStorePath(i);
  }

  FdSink sink(STDOUT_FILENO);
  store->exportPaths(opArgs, sink);
  sink.flush();
}

static void opImport(Strings opFlags, Strings opArgs) {
  for (auto& i : opFlags) {
    throw UsageError(format("unknown flag '%1%'") % i);
  }

  if (!opArgs.empty()) {
    throw UsageError("no arguments expected");
  }

  FdSource source(STDIN_FILENO);
  Paths paths = store->importPaths(source, nullptr, NoCheckSigs);

  for (auto& i : paths) {
    cout << format("%1%\n") % i << std::flush;
  }
}

/* Initialise the Nix databases. */
static void opInit(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("unknown flag");
  }
  if (!opArgs.empty()) {
    throw UsageError("no arguments expected");
  }
  /* Doesn't do anything right now; database tables are initialised
     automatically. */
}

/* Verify the consistency of the Nix environment. */
static void opVerify(Strings opFlags, Strings opArgs) {
  if (!opArgs.empty()) {
    throw UsageError("no arguments expected");
  }

  bool checkContents = false;
  RepairFlag repair = NoRepair;

  for (auto& i : opFlags) {
    if (i == "--check-contents") {
      checkContents = true;
    } else if (i == "--repair") {
      repair = Repair;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
  }

  if (store->verifyStore(checkContents, repair)) {
    LOG(WARNING) << "not all errors were fixed";
    throw Exit(1);
  }
}

/* Verify whether the contents of the given store path have not changed. */
static void opVerifyPath(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("no flags expected");
  }

  int status = 0;

  for (auto& i : opArgs) {
    Path path = store->followLinksToStorePath(i);
    LOG(INFO) << "checking path '" << path << "'...";
    auto info = store->queryPathInfo(path);
    HashSink sink(info->narHash.type);
    store->narFromPath(path, sink);
    auto current = sink.finish();
    if (current.first != info->narHash) {
      LOG(ERROR) << "path '" << path << "' was modified! expected hash '"
                 << info->narHash.to_string() << "', got '"
                 << current.first.to_string() << "'";
      status = 1;
    }
  }

  throw Exit(status);
}

/* Repair the contents of the given path by redownloading it using a
   substituter (if available). */
static void opRepairPath(Strings opFlags, Strings opArgs) {
  if (!opFlags.empty()) {
    throw UsageError("no flags expected");
  }

  for (auto& i : opArgs) {
    Path path = store->followLinksToStorePath(i);
    ensureLocalStore()->repairPath(path);
  }
}

/* Optimise the disk space usage of the Nix store by hard-linking
   files with the same contents. */
static void opOptimise(Strings opFlags, Strings opArgs) {
  if (!opArgs.empty() || !opFlags.empty()) {
    throw UsageError("no arguments expected");
  }

  store->optimiseStore();
}

/* Serve the nix store in a way usable by a restricted ssh user. */
static void opServe(Strings opFlags, Strings opArgs) {
  bool writeAllowed = false;
  for (auto& i : opFlags) {
    if (i == "--write") {
      writeAllowed = true;
    } else {
      throw UsageError(format("unknown flag '%1%'") % i);
    }
  }

  if (!opArgs.empty()) {
    throw UsageError("no arguments expected");
  }

  FdSource in(STDIN_FILENO);
  FdSink out(STDOUT_FILENO);

  /* Exchange the greeting. */
  unsigned int magic = readInt(in);
  if (magic != SERVE_MAGIC_1) {
    throw Error("protocol mismatch");
  }
  out << SERVE_MAGIC_2 << SERVE_PROTOCOL_VERSION;
  out.flush();
  unsigned int clientVersion = readInt(in);

  auto getBuildSettings = [&]() {
    // FIXME: changing options here doesn't work if we're
    // building through the daemon.
    settings.keepLog = false;
    settings.useSubstitutes = false;
    settings.maxSilentTime = readInt(in);
    settings.buildTimeout = readInt(in);
    if (GET_PROTOCOL_MINOR(clientVersion) >= 2) {
      settings.maxLogSize = readNum<unsigned long>(in);
    }
    if (GET_PROTOCOL_MINOR(clientVersion) >= 3) {
      settings.buildRepeat = readInt(in);
      settings.enforceDeterminism = readInt(in) != 0u;
      settings.runDiffHook = true;
    }
    settings.printRepeatedBuilds = false;
  };

  while (true) {
    ServeCommand cmd;
    try {
      cmd = static_cast<ServeCommand>(readInt(in));
    } catch (EndOfFile& e) {
      break;
    }

    switch (cmd) {
      case cmdQueryValidPaths: {
        bool lock = readInt(in) != 0u;
        bool substitute = readInt(in) != 0u;
        auto paths = readStorePaths<PathSet>(*store, in);
        if (lock && writeAllowed) {
          for (auto& path : paths) {
            store->addTempRoot(path);
          }
        }

        /* If requested, substitute missing paths. This
           implements nix-copy-closure's --use-substitutes
           flag. */
        if (substitute && writeAllowed) {
          /* Filter out .drv files (we don't want to build anything). */
          PathSet paths2;
          for (auto& path : paths) {
            if (!isDerivation(path)) {
              paths2.insert(path);
            }
          }
          unsigned long long downloadSize;
          unsigned long long narSize;
          PathSet willBuild;
          PathSet willSubstitute;
          PathSet unknown;
          store->queryMissing(PathSet(paths2.begin(), paths2.end()), willBuild,
                              willSubstitute, unknown, downloadSize, narSize);
          /* FIXME: should use ensurePath(), but it only
             does one path at a time. */
          if (!willSubstitute.empty()) {
            try {
              store->buildPaths(willSubstitute);
            } catch (Error& e) {
              LOG(WARNING) << e.msg();
            }
          }
        }

        out << store->queryValidPaths(paths);
        break;
      }

      case cmdQueryPathInfos: {
        auto paths = readStorePaths<PathSet>(*store, in);
        // !!! Maybe we want a queryPathInfos?
        for (auto& i : paths) {
          try {
            auto info = store->queryPathInfo(i);
            out << info->path << info->deriver << info->references;
            // !!! Maybe we want compression?
            out << info->narSize  // downloadSize
                << info->narSize;
            if (GET_PROTOCOL_MINOR(clientVersion) >= 4) {
              out << (info->narHash ? info->narHash.to_string() : "")
                  << info->ca << info->sigs;
            }
          } catch (InvalidPath&) {
          }
        }
        out << "";
        break;
      }

      case cmdDumpStorePath:
        store->narFromPath(readStorePath(*store, in), out);
        break;

      case cmdImportPaths: {
        if (!writeAllowed) {
          throw Error("importing paths is not allowed");
        }
        store->importPaths(in, nullptr,
                           NoCheckSigs);  // FIXME: should we skip sig checking?
        out << 1;                         // indicate success
        break;
      }

      case cmdExportPaths: {
        readInt(in);  // obsolete
        store->exportPaths(readStorePaths<Paths>(*store, in), out);
        break;
      }

      case cmdBuildPaths: {
        if (!writeAllowed) {
          throw Error("building paths is not allowed");
        }
        auto paths = readStorePaths<PathSet>(*store, in);

        getBuildSettings();

        try {
          MonitorFdHup monitor(in.fd);
          store->buildPaths(paths);
          out << 0;
        } catch (Error& e) {
          assert(e.status);
          out << e.status << e.msg();
        }
        break;
      }

      case cmdBuildDerivation: { /* Used by hydra-queue-runner. */

        if (!writeAllowed) {
          throw Error("building paths is not allowed");
        }

        Path drvPath = readStorePath(*store, in);  // informational only
        BasicDerivation drv;
        readDerivation(in, *store, drv);

        getBuildSettings();

        MonitorFdHup monitor(in.fd);
        auto status = store->buildDerivation(drvPath, drv);

        out << status.status << status.errorMsg;

        if (GET_PROTOCOL_MINOR(clientVersion) >= 3) {
          out << status.timesBuilt
              << static_cast<uint64_t>(status.isNonDeterministic)
              << status.startTime << status.stopTime;
        }

        break;
      }

      case cmdQueryClosure: {
        bool includeOutputs = readInt(in) != 0u;
        PathSet closure;
        store->computeFSClosure(readStorePaths<PathSet>(*store, in), closure,
                                false, includeOutputs);
        out << closure;
        break;
      }

      case cmdAddToStoreNar: {
        if (!writeAllowed) {
          throw Error("importing paths is not allowed");
        }

        ValidPathInfo info;
        info.path = readStorePath(*store, in);
        in >> info.deriver;
        if (!info.deriver.empty()) {
          store->assertStorePath(info.deriver);
        }
        auto hash_ = Hash::deserialize(readString(in), htSHA256);
        info.narHash = Hash::unwrap_throw(hash_);
        info.references = readStorePaths<PathSet>(*store, in);
        in >> info.registrationTime >> info.narSize >> info.ultimate;
        info.sigs = readStrings<StringSet>(in);
        in >> info.ca;

        if (info.narSize == 0) {
          throw Error("narInfo is too old and missing the narSize field");
        }

        SizedSource sizedSource(in, info.narSize);

        store->addToStore(info, sizedSource, NoRepair, NoCheckSigs);

        // consume all the data that has been sent before continuing.
        sizedSource.drainAll();

        out << 1;  // indicate success

        break;
      }

      default:
        throw Error(format("unknown serve command %1%") % cmd);
    }

    out.flush();
  }
}

static void opGenerateBinaryCacheKey(Strings opFlags, Strings opArgs) {
  for (auto& i : opFlags) {
    throw UsageError(format("unknown flag '%1%'") % i);
  }

  if (opArgs.size() != 3) {
    throw UsageError("three arguments expected");
  }
  auto i = opArgs.begin();
  std::string keyName = *i++;
  std::string secretKeyFile = *i++;
  std::string publicKeyFile = *i++;

#if HAVE_SODIUM
  if (sodium_init() == -1) {
    throw Error("could not initialise libsodium");
  }

  unsigned char pk[crypto_sign_PUBLICKEYBYTES];
  unsigned char sk[crypto_sign_SECRETKEYBYTES];
  if (crypto_sign_keypair(pk, sk) != 0) {
    throw Error("key generation failed");
  }

  writeFile(publicKeyFile,
            keyName + ":" +
                absl::Base64Escape(std::string(reinterpret_cast<char*>(pk),
                                               crypto_sign_PUBLICKEYBYTES)));
  umask(0077);
  writeFile(secretKeyFile,
            keyName + ":" +
                absl::Base64Escape(std::string(reinterpret_cast<char*>(sk),
                                               crypto_sign_SECRETKEYBYTES)));
#else
  throw Error(
      "Nix was not compiled with libsodium, required for signed binary cache "
      "support");
#endif
}

static void opVersion(Strings opFlags, Strings opArgs) {
  printVersion("nix-store");
}

/* Scan the arguments; find the operation, set global flags, put all
   other flags in a list, and put all other arguments in another
   list. */
static int _main(int argc, char** argv) {
  {
    Strings opFlags;
    Strings opArgs;
    Operation op = nullptr;

    parseCmdLine(argc, argv,
                 [&](Strings::iterator& arg, const Strings::iterator& end) {
                   Operation oldOp = op;

                   if (*arg == "--help") {
                     showManPage("nix-store");
                   } else if (*arg == "--version") {
                     op = opVersion;
                   } else if (*arg == "--realise" || *arg == "--realize" ||
                              *arg == "-r") {
                     op = opRealise;
                   } else if (*arg == "--add" || *arg == "-A") {
                     op = opAdd;
                   } else if (*arg == "--add-fixed") {
                     op = opAddFixed;
                   } else if (*arg == "--print-fixed-path") {
                     op = opPrintFixedPath;
                   } else if (*arg == "--delete") {
                     op = opDelete;
                   } else if (*arg == "--query" || *arg == "-q") {
                     op = opQuery;
                   } else if (*arg == "--print-env") {
                     op = opPrintEnv;
                   } else if (*arg == "--read-log" || *arg == "-l") {
                     op = opReadLog;
                   } else if (*arg == "--dump-db") {
                     op = opDumpDB;
                   } else if (*arg == "--load-db") {
                     op = opLoadDB;
                   } else if (*arg == "--register-validity") {
                     op = opRegisterValidity;
                   } else if (*arg == "--check-validity") {
                     op = opCheckValidity;
                   } else if (*arg == "--gc") {
                     op = opGC;
                   } else if (*arg == "--dump") {
                     op = opDump;
                   } else if (*arg == "--restore") {
                     op = opRestore;
                   } else if (*arg == "--export") {
                     op = opExport;
                   } else if (*arg == "--import") {
                     op = opImport;
                   } else if (*arg == "--init") {
                     op = opInit;
                   } else if (*arg == "--verify") {
                     op = opVerify;
                   } else if (*arg == "--verify-path") {
                     op = opVerifyPath;
                   } else if (*arg == "--repair-path") {
                     op = opRepairPath;
                   } else if (*arg == "--optimise" || *arg == "--optimize") {
                     op = opOptimise;
                   } else if (*arg == "--serve") {
                     op = opServe;
                   } else if (*arg == "--generate-binary-cache-key") {
                     op = opGenerateBinaryCacheKey;
                   } else if (*arg == "--add-root") {
                     gcRoot = absPath(getArg(*arg, arg, end));
                   } else if (*arg == "--indirect") {
                     indirectRoot = true;
                   } else if (*arg == "--no-output") {
                     noOutput = true;
                   } else if (*arg != "" && arg->at(0) == '-') {
                     opFlags.push_back(*arg);
                     if (*arg == "--max-freed" || *arg == "--max-links" ||
                         *arg == "--max-atime") { /* !!! hack */
                       opFlags.push_back(getArg(*arg, arg, end));
                     }
                   } else {
                     opArgs.push_back(*arg);
                   }

                   if ((oldOp != nullptr) && oldOp != op) {
                     throw UsageError("only one operation may be specified");
                   }

                   return true;
                 });

    if (op == nullptr) {
      throw UsageError("no operation specified");
    }

    if (op != opDump && op != opRestore) { /* !!! hack */
      store = openStore();
    }

    op(opFlags, opArgs);

    return 0;
  }
}

static RegisterLegacyCommand s1("nix-store", _main);