#include "daemon.hh" #include "monitor-fd.hh" #include "worker-protocol.hh" #include "worker-protocol-impl.hh" #include "build-result.hh" #include "store-api.hh" #include "store-cast.hh" #include "gc-store.hh" #include "log-store.hh" #include "indirect-root-store.hh" #include "path-with-outputs.hh" #include "finally.hh" #include "archive.hh" #include "derivations.hh" #include "args.hh" namespace nix::daemon { Sink & operator << (Sink & sink, const Logger::Fields & fields) { sink << fields.size(); for (auto & f : fields) { sink << f.type; if (f.type == Logger::Field::tInt) sink << f.i; else if (f.type == Logger::Field::tString) sink << f.s; else abort(); } return sink; } /* Logger that forwards log messages to the client, *if* we're in a state where the protocol allows it (i.e., when canSendStderr is true). */ struct TunnelLogger : public Logger { FdSink & to; struct State { bool canSendStderr = false; std::vector pendingMsgs; }; Sync state_; WorkerProto::Version clientVersion; TunnelLogger(FdSink & to, WorkerProto::Version clientVersion) : to(to), clientVersion(clientVersion) { } void enqueueMsg(const std::string & s) { auto state(state_.lock()); if (state->canSendStderr) { assert(state->pendingMsgs.empty()); try { to(s); to.flush(); } catch (...) { /* Write failed; that means that the other side is gone. */ state->canSendStderr = false; throw; } } else state->pendingMsgs.push_back(s); } void log(Verbosity lvl, std::string_view s) override { if (lvl > verbosity) return; StringSink buf; buf << STDERR_NEXT << (s + "\n"); enqueueMsg(buf.s); } void logEI(const ErrorInfo & ei) override { if (ei.level > verbosity) return; std::stringstream oss; showErrorInfo(oss, ei, false); StringSink buf; buf << STDERR_NEXT << oss.str(); enqueueMsg(buf.s); } /* startWork() means that we're starting an operation for which we want to send out stderr to the client. */ void startWork() { auto state(state_.lock()); state->canSendStderr = true; for (auto & msg : state->pendingMsgs) to(msg); state->pendingMsgs.clear(); to.flush(); } /* stopWork() means that we're done; stop sending stderr to the client. */ void stopWork(const Error * ex = nullptr) { auto state(state_.lock()); state->canSendStderr = false; if (!ex) to << STDERR_LAST; else { if (GET_PROTOCOL_MINOR(clientVersion) >= 26) { to << STDERR_ERROR << *ex; } else { to << STDERR_ERROR << ex->what() << ex->info().status; } } } void startActivity(ActivityId act, Verbosity lvl, ActivityType type, const std::string & s, const Fields & fields, ActivityId parent) override { if (GET_PROTOCOL_MINOR(clientVersion) < 20) { if (!s.empty()) log(lvl, s + "..."); return; } StringSink buf; buf << STDERR_START_ACTIVITY << act << lvl << type << s << fields << parent; enqueueMsg(buf.s); } void stopActivity(ActivityId act) override { if (GET_PROTOCOL_MINOR(clientVersion) < 20) return; StringSink buf; buf << STDERR_STOP_ACTIVITY << act; enqueueMsg(buf.s); } void result(ActivityId act, ResultType type, const Fields & fields) override { if (GET_PROTOCOL_MINOR(clientVersion) < 20) return; StringSink buf; buf << STDERR_RESULT << act << type << fields; enqueueMsg(buf.s); } }; struct TunnelSink : Sink { Sink & to; TunnelSink(Sink & to) : to(to) { } void operator () (std::string_view data) { to << STDERR_WRITE; writeString(data, to); } }; struct TunnelSource : BufferedSource { Source & from; BufferedSink & to; TunnelSource(Source & from, BufferedSink & to) : from(from), to(to) { } size_t readUnbuffered(char * data, size_t len) override { to << STDERR_READ << len; to.flush(); size_t n = readString(data, len, from); if (n == 0) throw EndOfFile("unexpected end-of-file"); return n; } }; struct ClientSettings { bool keepFailed; bool keepGoing; bool tryFallback; Verbosity verbosity; unsigned int maxBuildJobs; time_t maxSilentTime; bool verboseBuild; unsigned int buildCores; bool useSubstitutes; StringMap overrides; void apply(TrustedFlag trusted) { settings.keepFailed = keepFailed; settings.keepGoing = keepGoing; settings.tryFallback = tryFallback; nix::verbosity = verbosity; settings.maxBuildJobs.assign(maxBuildJobs); settings.maxSilentTime = maxSilentTime; settings.verboseBuild = verboseBuild; settings.buildCores = buildCores; settings.useSubstitutes = useSubstitutes; for (auto & i : overrides) { auto & name(i.first); auto & value(i.second); auto setSubstituters = [&](Setting & res) { if (name != res.name && res.aliases.count(name) == 0) return false; StringSet trusted = settings.trustedSubstituters; for (auto & s : settings.substituters.get()) trusted.insert(s); Strings subs; auto ss = tokenizeString(value); for (auto & s : ss) if (trusted.count(s)) subs.push_back(s); else if (!s.ends_with("/") && trusted.count(s + "/")) subs.push_back(s + "/"); else warn("ignoring untrusted substituter '%s', you are not a trusted user.\n" "Run `man nix.conf` for more information on the `substituters` configuration option.", s); res = subs; return true; }; try { if (name == "ssh-auth-sock") // obsolete ; else if (name == experimentalFeatureSettings.experimentalFeatures.name) { // We don’t want to forward the experimental features to // the daemon, as that could cause some pretty weird stuff if (parseFeatures(tokenizeString(value)) != experimentalFeatureSettings.experimentalFeatures.get()) debug("Ignoring the client-specified experimental features"); } else if (name == settings.pluginFiles.name) { if (tokenizeString(value) != settings.pluginFiles.get()) warn("Ignoring the client-specified plugin-files.\n" "The client specifying plugins to the daemon never made sense, and was removed in Nix >=2.14."); } else if (trusted || name == settings.buildTimeout.name || name == settings.maxSilentTime.name || name == settings.pollInterval.name || name == "connect-timeout" || (name == "builders" && value == "")) settings.set(name, value); else if (setSubstituters(settings.substituters)) ; else debug("ignoring the client-specified setting '%s', because it is a restricted setting and you are not a trusted user", name); } catch (UsageError & e) { warn(e.what()); } } } }; static void performOp(TunnelLogger * logger, ref store, TrustedFlag trusted, RecursiveFlag recursive, WorkerProto::Version clientVersion, Source & from, BufferedSink & to, WorkerProto::Op op) { WorkerProto::ReadConn rconn { .from = from, .version = clientVersion, }; WorkerProto::WriteConn wconn { .to = to, .version = clientVersion, }; switch (op) { case WorkerProto::Op::IsValidPath: { auto path = store->parseStorePath(readString(from)); logger->startWork(); bool result = store->isValidPath(path); logger->stopWork(); to << result; break; } case WorkerProto::Op::QueryValidPaths: { auto paths = WorkerProto::Serialise::read(*store, rconn); SubstituteFlag substitute = NoSubstitute; if (GET_PROTOCOL_MINOR(clientVersion) >= 27) { substitute = readInt(from) ? Substitute : NoSubstitute; } logger->startWork(); if (substitute) { store->substitutePaths(paths); } auto res = store->queryValidPaths(paths, substitute); logger->stopWork(); WorkerProto::write(*store, wconn, res); break; } case WorkerProto::Op::HasSubstitutes: { auto path = store->parseStorePath(readString(from)); logger->startWork(); StorePathSet paths; // FIXME paths.insert(path); auto res = store->querySubstitutablePaths(paths); logger->stopWork(); to << (res.count(path) != 0); break; } case WorkerProto::Op::QuerySubstitutablePaths: { auto paths = WorkerProto::Serialise::read(*store, rconn); logger->startWork(); auto res = store->querySubstitutablePaths(paths); logger->stopWork(); WorkerProto::write(*store, wconn, res); break; } case WorkerProto::Op::QueryPathHash: { auto path = store->parseStorePath(readString(from)); logger->startWork(); auto hash = store->queryPathInfo(path)->narHash; logger->stopWork(); to << hash.to_string(Base16, false); break; } case WorkerProto::Op::QueryReferences: case WorkerProto::Op::QueryReferrers: case WorkerProto::Op::QueryValidDerivers: case WorkerProto::Op::QueryDerivationOutputs: { auto path = store->parseStorePath(readString(from)); logger->startWork(); StorePathSet paths; if (op == WorkerProto::Op::QueryReferences) for (auto & i : store->queryPathInfo(path)->references) paths.insert(i); else if (op == WorkerProto::Op::QueryReferrers) store->queryReferrers(path, paths); else if (op == WorkerProto::Op::QueryValidDerivers) paths = store->queryValidDerivers(path); else paths = store->queryDerivationOutputs(path); logger->stopWork(); WorkerProto::write(*store, wconn, paths); break; } case WorkerProto::Op::QueryDerivationOutputNames: { auto path = store->parseStorePath(readString(from)); logger->startWork(); auto names = store->readDerivation(path).outputNames(); logger->stopWork(); to << names; break; } case WorkerProto::Op::QueryDerivationOutputMap: { auto path = store->parseStorePath(readString(from)); logger->startWork(); auto outputs = store->queryPartialDerivationOutputMap(path); logger->stopWork(); WorkerProto::write(*store, wconn, outputs); break; } case WorkerProto::Op::QueryDeriver: { auto path = store->parseStorePath(readString(from)); logger->startWork(); auto info = store->queryPathInfo(path); logger->stopWork(); to << (info->deriver ? store->printStorePath(*info->deriver) : ""); break; } case WorkerProto::Op::QueryPathFromHashPart: { auto hashPart = readString(from); logger->startWork(); auto path = store->queryPathFromHashPart(hashPart); logger->stopWork(); to << (path ? store->printStorePath(*path) : ""); break; } case WorkerProto::Op::AddToStore: { if (GET_PROTOCOL_MINOR(clientVersion) >= 25) { auto name = readString(from); auto camStr = readString(from); auto refs = WorkerProto::Serialise::read(*store, rconn); bool repairBool; from >> repairBool; auto repair = RepairFlag{repairBool}; logger->startWork(); auto pathInfo = [&]() { // NB: FramedSource must be out of scope before logger->stopWork(); auto [contentAddressMethod, hashType_] = ContentAddressMethod::parse(camStr); auto hashType = hashType_; // work around clang bug FramedSource source(from); // TODO this is essentially RemoteStore::addCAToStore. Move it up to Store. return std::visit(overloaded { [&](const TextIngestionMethod &) { if (hashType != htSHA256) throw UnimplementedError("When adding text-hashed data called '%s', only SHA-256 is supported but '%s' was given", name, printHashType(hashType)); // We could stream this by changing Store std::string contents = source.drain(); auto path = store->addTextToStore(name, contents, refs, repair); return store->queryPathInfo(path); }, [&](const FileIngestionMethod & fim) { auto path = store->addToStoreFromDump(source, name, fim, hashType, repair, refs); return store->queryPathInfo(path); }, }, contentAddressMethod.raw); }(); logger->stopWork(); WorkerProto::Serialise::write(*store, wconn, *pathInfo); } else { HashType hashAlgo; std::string baseName; FileIngestionMethod method; { bool fixed; uint8_t recursive; std::string hashAlgoRaw; from >> baseName >> fixed /* obsolete */ >> recursive >> hashAlgoRaw; if (recursive > (uint8_t) FileIngestionMethod::Recursive) throw Error("unsupported FileIngestionMethod with value of %i; you may need to upgrade nix-daemon", recursive); method = FileIngestionMethod { recursive }; /* Compatibility hack. */ if (!fixed) { hashAlgoRaw = "sha256"; method = FileIngestionMethod::Recursive; } hashAlgo = parseHashType(hashAlgoRaw); } auto dumpSource = sinkToSource([&](Sink & saved) { if (method == FileIngestionMethod::Recursive) { /* We parse the NAR dump through into `saved` unmodified, so why all this extra work? We still parse the NAR so that we aren't sending arbitrary data to `saved` unwittingly`, and we know when the NAR ends so we don't consume the rest of `from` and can't parse another command. (We don't trust `addToStoreFromDump` to not eagerly consume the entire stream it's given, past the length of the Nar. */ copyNAR(from, saved); } else { /* Incrementally parse the NAR file, stripping the metadata, and streaming the sole file we expect into `saved`. */ RetrieveRegularNARSink savedRegular { saved }; parseDump(savedRegular, from); if (!savedRegular.regular) throw Error("regular file expected"); } }); logger->startWork(); auto path = store->addToStoreFromDump(*dumpSource, baseName, method, hashAlgo); logger->stopWork(); to << store->printStorePath(path); } break; } case WorkerProto::Op::AddMultipleToStore: { bool repair, dontCheckSigs; from >> repair >> dontCheckSigs; if (!trusted && dontCheckSigs) dontCheckSigs = false; logger->startWork(); { FramedSource source(from); store->addMultipleToStore(source, RepairFlag{repair}, dontCheckSigs ? NoCheckSigs : CheckSigs); } logger->stopWork(); break; } case WorkerProto::Op::AddTextToStore: { std::string suffix = readString(from); std::string s = readString(from); auto refs = WorkerProto::Serialise::read(*store, rconn); logger->startWork(); auto path = store->addTextToStore(suffix, s, refs, NoRepair); logger->stopWork(); to << store->printStorePath(path); break; } case WorkerProto::Op::ExportPath: { auto path = store->parseStorePath(readString(from)); readInt(from); // obsolete logger->startWork(); TunnelSink sink(to); store->exportPath(path, sink); logger->stopWork(); to << 1; break; } case WorkerProto::Op::ImportPaths: { logger->startWork(); TunnelSource source(from, to); auto paths = store->importPaths(source, trusted ? NoCheckSigs : CheckSigs); logger->stopWork(); Strings paths2; for (auto & i : paths) paths2.push_back(store->printStorePath(i)); to << paths2; break; } case WorkerProto::Op::BuildPaths: { auto drvs = WorkerProto::Serialise::read(*store, rconn); BuildMode mode = bmNormal; if (GET_PROTOCOL_MINOR(clientVersion) >= 15) { mode = (BuildMode) readInt(from); /* Repairing is not atomic, so disallowed for "untrusted" clients. FIXME: layer violation in this message: the daemon code (i.e. this file) knows whether a client/connection is trusted, but it does not how how the client was authenticated. The mechanism need not be getting the UID of the other end of a Unix Domain Socket. */ if (mode == bmRepair && !trusted) throw Error("repairing is not allowed because you are not in 'trusted-users'"); } logger->startWork(); store->buildPaths(drvs, mode); logger->stopWork(); to << 1; break; } case WorkerProto::Op::BuildPathsWithResults: { auto drvs = WorkerProto::Serialise::read(*store, rconn); BuildMode mode = bmNormal; mode = (BuildMode) readInt(from); /* Repairing is not atomic, so disallowed for "untrusted" clients. FIXME: layer violation; see above. */ if (mode == bmRepair && !trusted) throw Error("repairing is not allowed because you are not in 'trusted-users'"); logger->startWork(); auto results = store->buildPathsWithResults(drvs, mode); logger->stopWork(); WorkerProto::write(*store, wconn, results); break; } case WorkerProto::Op::BuildDerivation: { auto drvPath = store->parseStorePath(readString(from)); BasicDerivation drv; /* * Note: unlike wopEnsurePath, this operation reads a * derivation-to-be-realized from the client with * readDerivation(Source,Store) rather than reading it from * the local store with Store::readDerivation(). Since the * derivation-to-be-realized is not registered in the store * it cannot be trusted that its outPath was calculated * correctly. */ readDerivation(from, *store, drv, Derivation::nameFromPath(drvPath)); BuildMode buildMode = (BuildMode) readInt(from); logger->startWork(); auto drvType = drv.type(); /* Content-addressed derivations are trustless because their output paths are verified by their content alone, so any derivation is free to try to produce such a path. Input-addressed derivation output paths, however, are calculated from the derivation closure that produced them---even knowing the root derivation is not enough. That the output data actually came from those derivations is fundamentally unverifiable, but the daemon trusts itself on that matter. The question instead is whether the submitted plan has rights to the output paths it wants to fill, and at least the derivation closure proves that. It would have been nice if input-address algorithm merely depended on the build time closure, rather than depending on the derivation closure. That would mean input-addressed paths used at build time would just be trusted and not need their own evidence. This is in fact fine as the same guarantees would hold *inductively*: either the remote builder has those paths and already trusts them, or it needs to build them too and thus their evidence must be provided in turn. The advantage of this variant algorithm is that the evidence for input-addressed paths which the remote builder already has doesn't need to be sent again. That said, now that we have floating CA derivations, it is better that people just migrate to those which also solve this problem, and others. It's the same migration difficulty with strictly more benefit. Lastly, do note that when we parse fixed-output content-addressed derivations, we throw out the precomputed output paths and just store the hashes, so there aren't two competing sources of truth an attacker could exploit. */ if (!(drvType.isCA() || trusted)) throw Error("you are not privileged to build input-addressed derivations"); /* Make sure that the non-input-addressed derivations that got this far are in fact content-addressed if we don't trust them. */ assert(drvType.isCA() || trusted); /* Recompute the derivation path when we cannot trust the original. */ if (!trusted) { /* Recomputing the derivation path for input-address derivations makes it harder to audit them after the fact, since we need the original not-necessarily-resolved derivation to verify the drv derivation as adequate claim to the input-addressed output paths. */ assert(drvType.isCA()); Derivation drv2; static_cast(drv2) = drv; drvPath = writeDerivation(*store, Derivation { drv2 }); } auto res = store->buildDerivation(drvPath, drv, buildMode); logger->stopWork(); WorkerProto::write(*store, wconn, res); break; } case WorkerProto::Op::EnsurePath: { auto path = store->parseStorePath(readString(from)); logger->startWork(); store->ensurePath(path); logger->stopWork(); to << 1; break; } case WorkerProto::Op::AddTempRoot: { auto path = store->parseStorePath(readString(from)); logger->startWork(); store->addTempRoot(path); logger->stopWork(); to << 1; break; } case WorkerProto::Op::AddIndirectRoot: { Path path = absPath(readString(from)); logger->startWork(); auto & indirectRootStore = require(*store); indirectRootStore.addIndirectRoot(path); logger->stopWork(); to << 1; break; } // Obsolete. case WorkerProto::Op::SyncWithGC: { logger->startWork(); logger->stopWork(); to << 1; break; } case WorkerProto::Op::FindRoots: { logger->startWork(); auto & gcStore = require(*store); Roots roots = gcStore.findRoots(!trusted); logger->stopWork(); size_t size = 0; for (auto & i : roots) size += i.second.size(); to << size; for (auto & [target, links] : roots) for (auto & link : links) to << link << store->printStorePath(target); break; } case WorkerProto::Op::CollectGarbage: { GCOptions options; options.action = (GCOptions::GCAction) readInt(from); options.pathsToDelete = WorkerProto::Serialise::read(*store, rconn); from >> options.ignoreLiveness >> options.maxFreed; // obsolete fields readInt(from); readInt(from); readInt(from); GCResults results; logger->startWork(); if (options.ignoreLiveness) throw Error("you are not allowed to ignore liveness"); auto & gcStore = require(*store); gcStore.collectGarbage(options, results); logger->stopWork(); to << results.paths << results.bytesFreed << 0 /* obsolete */; break; } case WorkerProto::Op::SetOptions: { ClientSettings clientSettings; clientSettings.keepFailed = readInt(from); clientSettings.keepGoing = readInt(from); clientSettings.tryFallback = readInt(from); clientSettings.verbosity = (Verbosity) readInt(from); clientSettings.maxBuildJobs = readInt(from); clientSettings.maxSilentTime = readInt(from); readInt(from); // obsolete useBuildHook clientSettings.verboseBuild = lvlError == (Verbosity) readInt(from); readInt(from); // obsolete logType readInt(from); // obsolete printBuildTrace clientSettings.buildCores = readInt(from); clientSettings.useSubstitutes = readInt(from); if (GET_PROTOCOL_MINOR(clientVersion) >= 12) { unsigned int n = readInt(from); for (unsigned int i = 0; i < n; i++) { auto name = readString(from); auto value = readString(from); clientSettings.overrides.emplace(name, value); } } logger->startWork(); // FIXME: use some setting in recursive mode. Will need to use // non-global variables. if (!recursive) clientSettings.apply(trusted); logger->stopWork(); break; } case WorkerProto::Op::QuerySubstitutablePathInfo: { auto path = store->parseStorePath(readString(from)); logger->startWork(); SubstitutablePathInfos infos; store->querySubstitutablePathInfos({{path, std::nullopt}}, infos); logger->stopWork(); auto i = infos.find(path); if (i == infos.end()) to << 0; else { to << 1 << (i->second.deriver ? store->printStorePath(*i->second.deriver) : ""); WorkerProto::write(*store, wconn, i->second.references); to << i->second.downloadSize << i->second.narSize; } break; } case WorkerProto::Op::QuerySubstitutablePathInfos: { SubstitutablePathInfos infos; StorePathCAMap pathsMap = {}; if (GET_PROTOCOL_MINOR(clientVersion) < 22) { auto paths = WorkerProto::Serialise::read(*store, rconn); for (auto & path : paths) pathsMap.emplace(path, std::nullopt); } else pathsMap = WorkerProto::Serialise::read(*store, rconn); logger->startWork(); store->querySubstitutablePathInfos(pathsMap, infos); logger->stopWork(); to << infos.size(); for (auto & i : infos) { to << store->printStorePath(i.first) << (i.second.deriver ? store->printStorePath(*i.second.deriver) : ""); WorkerProto::write(*store, wconn, i.second.references); to << i.second.downloadSize << i.second.narSize; } break; } case WorkerProto::Op::QueryAllValidPaths: { logger->startWork(); auto paths = store->queryAllValidPaths(); logger->stopWork(); WorkerProto::write(*store, wconn, paths); break; } case WorkerProto::Op::QueryPathInfo: { auto path = store->parseStorePath(readString(from)); std::shared_ptr info; logger->startWork(); try { info = store->queryPathInfo(path); } catch (InvalidPath &) { if (GET_PROTOCOL_MINOR(clientVersion) < 17) throw; } logger->stopWork(); if (info) { if (GET_PROTOCOL_MINOR(clientVersion) >= 17) to << 1; WorkerProto::write(*store, wconn, static_cast(*info)); } else { assert(GET_PROTOCOL_MINOR(clientVersion) >= 17); to << 0; } break; } case WorkerProto::Op::OptimiseStore: logger->startWork(); store->optimiseStore(); logger->stopWork(); to << 1; break; case WorkerProto::Op::VerifyStore: { bool checkContents, repair; from >> checkContents >> repair; logger->startWork(); if (repair && !trusted) throw Error("you are not privileged to repair paths"); bool errors = store->verifyStore(checkContents, (RepairFlag) repair); logger->stopWork(); to << errors; break; } case WorkerProto::Op::AddSignatures: { auto path = store->parseStorePath(readString(from)); StringSet sigs = readStrings(from); logger->startWork(); store->addSignatures(path, sigs); logger->stopWork(); to << 1; break; } case WorkerProto::Op::NarFromPath: { auto path = store->parseStorePath(readString(from)); logger->startWork(); logger->stopWork(); dumpPath(store->toRealPath(path), to); break; } case WorkerProto::Op::AddToStoreNar: { bool repair, dontCheckSigs; auto path = store->parseStorePath(readString(from)); auto deriver = readString(from); auto narHash = Hash::parseAny(readString(from), htSHA256); ValidPathInfo info { path, narHash }; if (deriver != "") info.deriver = store->parseStorePath(deriver); info.references = WorkerProto::Serialise::read(*store, rconn); from >> info.registrationTime >> info.narSize >> info.ultimate; info.sigs = readStrings(from); info.ca = ContentAddress::parseOpt(readString(from)); from >> repair >> dontCheckSigs; if (!trusted && dontCheckSigs) dontCheckSigs = false; if (!trusted) info.ultimate = false; if (GET_PROTOCOL_MINOR(clientVersion) >= 23) { logger->startWork(); { FramedSource source(from); store->addToStore(info, source, (RepairFlag) repair, dontCheckSigs ? NoCheckSigs : CheckSigs); } logger->stopWork(); } else { std::unique_ptr source; StringSink saved; if (GET_PROTOCOL_MINOR(clientVersion) >= 21) source = std::make_unique(from, to); else { copyNAR(from, saved); source = std::make_unique(saved.s); } logger->startWork(); // FIXME: race if addToStore doesn't read source? store->addToStore(info, *source, (RepairFlag) repair, dontCheckSigs ? NoCheckSigs : CheckSigs); logger->stopWork(); } break; } case WorkerProto::Op::QueryMissing: { auto targets = WorkerProto::Serialise::read(*store, rconn); logger->startWork(); StorePathSet willBuild, willSubstitute, unknown; uint64_t downloadSize, narSize; store->queryMissing(targets, willBuild, willSubstitute, unknown, downloadSize, narSize); logger->stopWork(); WorkerProto::write(*store, wconn, willBuild); WorkerProto::write(*store, wconn, willSubstitute); WorkerProto::write(*store, wconn, unknown); to << downloadSize << narSize; break; } case WorkerProto::Op::RegisterDrvOutput: { logger->startWork(); if (GET_PROTOCOL_MINOR(clientVersion) < 31) { auto outputId = DrvOutput::parse(readString(from)); auto outputPath = StorePath(readString(from)); store->registerDrvOutput(Realisation{ .id = outputId, .outPath = outputPath}); } else { auto realisation = WorkerProto::Serialise::read(*store, rconn); store->registerDrvOutput(realisation); } logger->stopWork(); break; } case WorkerProto::Op::QueryRealisation: { logger->startWork(); auto outputId = DrvOutput::parse(readString(from)); auto info = store->queryRealisation(outputId); logger->stopWork(); if (GET_PROTOCOL_MINOR(clientVersion) < 31) { std::set outPaths; if (info) outPaths.insert(info->outPath); WorkerProto::write(*store, wconn, outPaths); } else { std::set realisations; if (info) realisations.insert(*info); WorkerProto::write(*store, wconn, realisations); } break; } case WorkerProto::Op::AddBuildLog: { StorePath path{readString(from)}; logger->startWork(); if (!trusted) throw Error("you are not privileged to add logs"); auto & logStore = require(*store); { FramedSource source(from); StringSink sink; source.drainInto(sink); logStore.addBuildLog(path, sink.s); } logger->stopWork(); to << 1; break; } case WorkerProto::Op::QueryFailedPaths: case WorkerProto::Op::ClearFailedPaths: throw Error("Removed operation %1%", op); default: throw Error("invalid operation %1%", op); } } void processConnection( ref store, FdSource & from, FdSink & to, TrustedFlag trusted, RecursiveFlag recursive) { auto monitor = !recursive ? std::make_unique(from.fd) : nullptr; /* Exchange the greeting. */ unsigned int magic = readInt(from); if (magic != WORKER_MAGIC_1) throw Error("protocol mismatch"); to << WORKER_MAGIC_2 << PROTOCOL_VERSION; to.flush(); WorkerProto::Version clientVersion = readInt(from); if (clientVersion < 0x10a) throw Error("the Nix client version is too old"); auto tunnelLogger = new TunnelLogger(to, clientVersion); auto prevLogger = nix::logger; // FIXME if (!recursive) logger = tunnelLogger; unsigned int opCount = 0; Finally finally([&]() { _isInterrupted = false; printMsgUsing(prevLogger, lvlDebug, "%d operations", opCount); }); if (GET_PROTOCOL_MINOR(clientVersion) >= 14 && readInt(from)) { // Obsolete CPU affinity. readInt(from); } if (GET_PROTOCOL_MINOR(clientVersion) >= 11) readInt(from); // obsolete reserveSpace if (GET_PROTOCOL_MINOR(clientVersion) >= 33) to << nixVersion; if (GET_PROTOCOL_MINOR(clientVersion) >= 35) { // We and the underlying store both need to trust the client for // it to be trusted. auto temp = trusted ? store->isTrustedClient() : std::optional { NotTrusted }; WorkerProto::WriteConn wconn { .to = to, .version = clientVersion, }; WorkerProto::write(*store, wconn, temp); } /* Send startup error messages to the client. */ tunnelLogger->startWork(); try { tunnelLogger->stopWork(); to.flush(); /* Process client requests. */ while (true) { WorkerProto::Op op; try { op = (enum WorkerProto::Op) readInt(from); } catch (Interrupted & e) { break; } catch (EndOfFile & e) { break; } printMsgUsing(prevLogger, lvlDebug, "received daemon op %d", op); opCount++; debug("performing daemon worker op: %d", op); try { performOp(tunnelLogger, store, trusted, recursive, clientVersion, from, to, op); } catch (Error & e) { /* If we're not in a state where we can send replies, then something went wrong processing the input of the client. This can happen especially if I/O errors occur during addTextToStore() / importPath(). If that happens, just send the error message and exit. */ bool errorAllowed = tunnelLogger->state_.lock()->canSendStderr; tunnelLogger->stopWork(&e); if (!errorAllowed) throw; } catch (std::bad_alloc & e) { auto ex = Error("Lix daemon out of memory"); tunnelLogger->stopWork(&ex); throw; } to.flush(); assert(!tunnelLogger->state_.lock()->canSendStderr); }; } catch (Error & e) { tunnelLogger->stopWork(&e); to.flush(); return; } catch (std::exception & e) { auto ex = Error(e.what()); tunnelLogger->stopWork(&ex); to.flush(); return; } } }