#include "nix-daemon-proto.hh"
#include <filesystem>
#include <sstream>
#include <string>
#include <absl/strings/str_cat.h>
#include <absl/strings/str_format.h>
#include <google/protobuf/empty.pb.h>
#include <google/protobuf/util/time_util.h>
#include <grpcpp/impl/codegen/server_context.h>
#include <grpcpp/impl/codegen/status.h>
#include <grpcpp/impl/codegen/status_code_enum.h>
#include <grpcpp/impl/codegen/sync_stream.h>
#include "libmain/shared.hh"
#include "libproto/worker.grpc.pb.h"
#include "libproto/worker.pb.h"
#include "libstore/derivations.hh"
#include "libstore/local-store.hh"
#include "libstore/store-api.hh"
#include "libutil/archive.hh"
#include "libutil/hash.hh"
#include "libutil/serialise.hh"
#include "libutil/types.hh"
namespace nix::daemon {
using ::google::protobuf::util::TimeUtil;
using ::grpc::Status;
using ::nix::proto::BuildStatus;
using ::nix::proto::PathInfo;
using ::nix::proto::StorePath;
using ::nix::proto::StorePaths;
using ::nix::proto::WorkerService;
template <typename Request>
class RPCSource final : public Source {
public:
using Reader = grpc::ServerReader<Request>;
explicit RPCSource(Reader* reader) : reader_(reader) {}
size_t read(unsigned char* data, size_t len) override {
auto got = buffer_.sgetn(reinterpret_cast<char*>(data), len);
if (got < len) {
Request msg;
if (!reader_->Read(&msg)) {
return got;
}
if (msg.add_oneof_case() != Request::kData) {
// TODO(grfn): Make Source::read return a StatusOr and get rid of this
// throw
throw Error(
"Invalid AddToStoreRequest: all messages except the first must "
"contain data");
}
buffer_.sputn(msg.data().data(), msg.data().length());
return got + read(data + got, len - got);
}
return got;
};
private:
std::stringbuf buffer_;
Reader* reader_;
};
// TODO(grfn): Make this some sort of pipe so we don't have to store data in
// memory
/* If the NAR archive contains a single file at top-level, then save
the contents of the file to `s'. Otherwise barf. */
struct RetrieveRegularNARSink : ParseSink {
bool regular{true};
std::string s;
RetrieveRegularNARSink() {}
void createDirectory(const Path& path) override { regular = false; }
void receiveContents(unsigned char* data, unsigned int len) override {
s.append(reinterpret_cast<const char*>(data), len);
}
void createSymlink(const Path& path, const std::string& target) override {
regular = false;
}
};
#define ASSERT_INPUT_STORE_PATH(path) \
if (!store_->isStorePath(path)) { \
return Status(grpc::StatusCode::INVALID_ARGUMENT, \
absl::StrFormat("path '%s' is not in the Nix store", path)); \
}
class WorkerServiceImpl final : public WorkerService::Service {
public:
WorkerServiceImpl(nix::Store& store) : store_(&store) {}
Status IsValidPath(grpc::ServerContext* context, const StorePath* request,
nix::proto::IsValidPathResponse* response) override {
return HandleExceptions(
[&]() -> Status {
const auto& path = request->path();
response->set_is_valid(store_->isValidPath(path));
return Status::OK;
},
__FUNCTION__);
}
Status HasSubstitutes(grpc::ServerContext* context, const StorePath* request,
nix::proto::HasSubstitutesResponse* response) override {
return HandleExceptions(
[&]() -> Status {
const auto& path = request->path();
ASSERT_INPUT_STORE_PATH(path);
PathSet res = store_->querySubstitutablePaths({path});
response->set_has_substitutes(res.find(path) != res.end());
return Status::OK;
},
__FUNCTION__);
}
Status QueryReferrers(grpc::ServerContext* context, const StorePath* request,
StorePaths* response) override {
return HandleExceptions(
[&]() -> Status {
const auto& path = request->path();
ASSERT_INPUT_STORE_PATH(path);
PathSet paths;
store_->queryReferrers(path, paths);
for (const auto& path : paths) {
response->add_paths(path);
}
return Status::OK;
},
__FUNCTION__);
}
Status AddToStore(grpc::ServerContext* context,
grpc::ServerReader<nix::proto::AddToStoreRequest>* reader,
nix::proto::StorePath* response) override {
return HandleExceptions(
[&]() -> Status {
proto::AddToStoreRequest metadata_request;
auto has_metadata = reader->Read(&metadata_request);
if (!has_metadata || !metadata_request.has_meta()) {
return Status(grpc::StatusCode::INVALID_ARGUMENT,
"Metadata must be set before sending file content");
}
auto meta = metadata_request.meta();
RPCSource source(reader);
auto opt_hash_type = hash_type_from(meta.hash_type());
if (!opt_hash_type) {
return Status(grpc::StatusCode::INVALID_ARGUMENT,
"Invalid hash type");
}
std::string* data;
RetrieveRegularNARSink nar;
TeeSource saved_nar(source);
if (meta.recursive()) {
// TODO(grfn): Don't store the full data in memory, instead just
// make addToStoreFromDump take a Source
ParseSink sink;
parseDump(sink, saved_nar);
data = &(*saved_nar.data);
} else {
parseDump(nar, source);
if (!nar.regular) {
return Status(grpc::StatusCode::INVALID_ARGUMENT,
"Regular file expected");
}
data = &nar.s;
}
auto local_store = store_.dynamic_pointer_cast<LocalStore>();
if (!local_store) {
return Status(grpc::StatusCode::FAILED_PRECONDITION,
"operation is only supported by LocalStore");
}
auto path = local_store->addToStoreFromDump(
*data, meta.base_name(), meta.recursive(), opt_hash_type.value());
response->set_path(path);
return Status::OK;
},
__FUNCTION__);
}
Status AddToStoreNar(
grpc::ServerContext* context,
grpc::ServerReader<nix::proto::AddToStoreNarRequest>* reader,
google::protobuf::Empty*) override {
return HandleExceptions(
[&]() -> Status {
proto::AddToStoreNarRequest path_info_request;
auto has_path_info = reader->Read(&path_info_request);
if (!has_path_info || !path_info_request.has_path_info()) {
return Status(grpc::StatusCode::INVALID_ARGUMENT,
"Path info must be set before sending nar content");
}
auto path_info = path_info_request.path_info();
ValidPathInfo info;
info.path = path_info.path().path();
info.deriver = path_info.deriver().path();
if (!info.deriver.empty()) {
ASSERT_INPUT_STORE_PATH(info.deriver);
}
auto nar_hash = Hash::deserialize(path_info.nar_hash(), htSHA256);
if (!nar_hash.ok()) {
return Status(grpc::StatusCode::INVALID_ARGUMENT,
std::string(nar_hash.status().message()));
}
info.narHash = nar_hash.ConsumeValueOrDie();
for (const auto& ref : path_info.references()) {
info.references.insert(ref);
}
info.registrationTime =
TimeUtil::TimestampToTimeT(path_info.registration_time());
info.narSize = path_info.nar_size();
info.ultimate = path_info.ultimate();
for (const auto& sig : path_info.sigs()) {
info.sigs.insert(sig);
}
info.ca = path_info.ca();
auto repair = path_info.repair();
auto check_sigs = path_info.check_sigs();
std::string saved;
RPCSource source(reader);
store_->addToStore(info, source, repair ? Repair : NoRepair,
check_sigs ? CheckSigs : NoCheckSigs, nullptr);
return Status::OK;
},
__FUNCTION__);
}
Status AddTextToStore(grpc::ServerContext*,
const nix::proto::AddTextToStoreRequest* request,
nix::proto::StorePath* response) override {
return HandleExceptions(
[&]() -> Status {
PathSet references;
for (const auto& ref : request->references()) {
references.insert(ref);
}
auto path = store_->addTextToStore(request->name(),
request->content(), references);
response->set_path(path);
return Status::OK;
},
__FUNCTION__);
}
Status BuildPaths(grpc::ServerContext*,
const nix::proto::BuildPathsRequest* request,
google::protobuf::Empty*) override {
return HandleExceptions(
[&]() -> Status {
PathSet drvs;
for (const auto& drv : request->drvs()) {
drvs.insert(drv);
}
auto mode = BuildModeFrom(request->mode());
if (!mode.has_value()) {
return Status(grpc::StatusCode::INTERNAL, "Invalid build mode");
}
// TODO(grfn): If mode is repair and not trusted, we need to return an
// error here (but we can't yet because we don't know anything about
// trusted users)
store_->buildPaths(drvs, mode.value());
return Status::OK;
},
__FUNCTION__);
}
Status AddTempRoot(grpc::ServerContext*, const nix::proto::StorePath* request,
google::protobuf::Empty*) override {
auto path = request->path();
ASSERT_INPUT_STORE_PATH(path);
return HandleExceptions(
[&]() -> Status {
store_->addTempRoot(path);
return Status::OK;
},
__FUNCTION__);
}
Status AddIndirectRoot(grpc::ServerContext*,
const nix::proto::StorePath* request,
google::protobuf::Empty*) override {
auto path = std::filesystem::canonical(request->path());
ASSERT_INPUT_STORE_PATH(path);
return HandleExceptions(
[&]() -> Status {
store_->addIndirectRoot(path);
return Status::OK;
},
__FUNCTION__);
}
Status SyncWithGC(grpc::ServerContext*, const google::protobuf::Empty*,
google::protobuf::Empty*) override {
return HandleExceptions(
[&]() -> Status {
store_->syncWithGC();
return Status::OK;
},
__FUNCTION__);
}
Status FindRoots(grpc::ServerContext*, const google::protobuf::Empty*,
nix::proto::FindRootsResponse* response) override {
return HandleExceptions(
[&]() -> Status {
auto roots = store_->findRoots(false);
for (const auto& [target, links] : roots) {
StorePaths link_paths;
for (const auto& link : links) {
link_paths.add_paths(link);
}
response->mutable_roots()->insert({target, link_paths});
}
return Status::OK;
},
__FUNCTION__);
}
Status CollectGarbage(grpc::ServerContext*,
const proto::CollectGarbageRequest* request,
proto::CollectGarbageResponse* response) override {
return HandleExceptions(
[&]() -> Status {
GCOptions options;
auto action = GCActionFromProto(request->action());
if (!action.has_value()) {
return Status(grpc::StatusCode::INVALID_ARGUMENT,
"Invalid GC action");
}
options.action = action.value();
for (const auto& path : request->paths_to_delete()) {
options.pathsToDelete.insert(path);
}
options.ignoreLiveness = request->ignore_liveness();
options.maxFreed = request->max_freed();
if (options.ignoreLiveness) {
return Status(grpc::StatusCode::INVALID_ARGUMENT,
"you are not allowed to ignore liveness");
}
GCResults results;
store_->collectGarbage(options, results);
for (const auto& path : results.paths) {
response->add_deleted_paths(path);
}
response->set_bytes_freed(results.bytesFreed);
return Status::OK;
},
__FUNCTION__);
}
Status QuerySubstitutablePathInfos(
grpc::ServerContext*, const StorePaths* request,
nix::proto::SubstitutablePathInfos* response) override {
return HandleExceptions(
[&]() -> Status {
SubstitutablePathInfos infos;
PathSet paths;
for (const auto& path : request->paths()) {
paths.insert(path);
}
store_->querySubstitutablePathInfos(paths, infos);
for (const auto& [path, path_info] : infos) {
auto proto_path_info = response->add_path_infos();
proto_path_info->mutable_path()->set_path(path);
proto_path_info->mutable_deriver()->set_path(path_info.deriver);
for (const auto& ref : path_info.references) {
proto_path_info->add_references(ref);
}
proto_path_info->set_download_size(path_info.downloadSize);
proto_path_info->set_nar_size(path_info.narSize);
}
return Status::OK;
},
__FUNCTION__);
}
Status QueryValidDerivers(grpc::ServerContext* context,
const StorePath* request,
StorePaths* response) override {
return HandleExceptions(
[&]() -> Status {
const auto& path = request->path();
ASSERT_INPUT_STORE_PATH(path);
PathSet paths = store_->queryValidDerivers(path);
for (const auto& path : paths) {
response->add_paths(path);
}
return Status::OK;
},
__FUNCTION__);
}
Status QueryDerivationOutputs(grpc::ServerContext* context,
const StorePath* request,
StorePaths* response) override {
return HandleExceptions(
[&]() -> Status {
const auto& path = request->path();
ASSERT_INPUT_STORE_PATH(path);
PathSet paths = store_->queryDerivationOutputs(path);
for (const auto& path : paths) {
response->add_paths(path);
}
return Status::OK;
},
__FUNCTION__);
}
Status QueryAllValidPaths(grpc::ServerContext* context,
const google::protobuf::Empty* request,
StorePaths* response) override {
return HandleExceptions(
[&]() -> Status {
const auto paths = store_->queryAllValidPaths();
for (const auto& path : paths) {
response->add_paths(path);
}
return Status::OK;
},
__FUNCTION__);
}
Status QueryPathInfo(grpc::ServerContext* context, const StorePath* request,
PathInfo* response) override {
return HandleExceptions(
[&]() -> Status {
auto path = request->path();
ASSERT_INPUT_STORE_PATH(path);
response->mutable_path()->set_path(path);
try {
auto info = store_->queryPathInfo(path);
response->mutable_deriver()->set_path(info->deriver);
response->set_nar_hash(
reinterpret_cast<const char*>(&info->narHash.hash[0]),
info->narHash.hashSize);
for (const auto& reference : info->references) {
response->add_references(reference);
}
*response->mutable_registration_time() =
google::protobuf::util::TimeUtil::TimeTToTimestamp(
info->registrationTime);
response->set_nar_size(info->narSize);
response->set_ultimate(info->ultimate);
for (const auto& sig : info->sigs) {
response->add_sigs(sig);
}
response->set_ca(info->ca);
return Status::OK;
} catch (InvalidPath& e) {
return Status(grpc::StatusCode::INVALID_ARGUMENT, e.msg());
}
},
__FUNCTION__);
}
Status QueryDerivationOutputNames(
grpc::ServerContext* context, const StorePath* request,
nix::proto::DerivationOutputNames* response) override {
return HandleExceptions(
[&]() -> Status {
auto path = request->path();
ASSERT_INPUT_STORE_PATH(path);
auto names = store_->queryDerivationOutputNames(path);
for (const auto& name : names) {
response->add_names(name);
}
return Status::OK;
},
__FUNCTION__);
}
Status QueryPathFromHashPart(grpc::ServerContext* context,
const nix::proto::HashPart* request,
StorePath* response) override {
return HandleExceptions(
[&]() -> Status {
auto hash_part = request->hash_part();
auto path = store_->queryPathFromHashPart(hash_part);
ASSERT_INPUT_STORE_PATH(path);
response->set_path(path);
return Status::OK;
},
__FUNCTION__);
}
Status QueryValidPaths(grpc::ServerContext* context,
const StorePaths* request,
StorePaths* response) override {
return HandleExceptions(
[&]() -> Status {
std::set<Path> paths;
for (const auto& path : request->paths()) {
ASSERT_INPUT_STORE_PATH(path);
paths.insert(path);
}
auto res = store_->queryValidPaths(paths);
for (const auto& path : res) {
response->add_paths(path);
}
return Status::OK;
},
__FUNCTION__);
}
Status QuerySubstitutablePaths(grpc::ServerContext* context,
const StorePaths* request,
StorePaths* response) override {
return HandleExceptions(
[&]() -> Status {
std::set<Path> paths;
for (const auto& path : request->paths()) {
ASSERT_INPUT_STORE_PATH(path);
paths.insert(path);
}
auto res = store_->querySubstitutablePaths(paths);
for (const auto& path : res) {
response->add_paths(path);
}
return Status::OK;
},
__FUNCTION__);
}
Status OptimiseStore(grpc::ServerContext* context,
const google::protobuf::Empty* request,
google::protobuf::Empty* response) override {
return HandleExceptions(
[&]() -> Status {
store_->optimiseStore();
return Status::OK;
},
__FUNCTION__);
}
Status VerifyStore(grpc::ServerContext* context,
const nix::proto::VerifyStoreRequest* request,
nix::proto::VerifyStoreResponse* response) override {
return HandleExceptions(
[&]() -> Status {
auto errors =
store_->verifyStore(request->check_contents(),
static_cast<RepairFlag>(request->repair()));
response->set_errors(errors);
return Status::OK;
},
__FUNCTION__);
}
Status BuildDerivation(
grpc::ServerContext* context,
const nix::proto::BuildDerivationRequest* request,
nix::proto::BuildDerivationResponse* response) override {
return HandleExceptions(
[&]() -> Status {
auto drv_path = request->drv_path().path();
ASSERT_INPUT_STORE_PATH(drv_path);
auto drv =
BasicDerivation::from_proto(&request->derivation(), *store_);
auto build_mode = nix::BuildModeFrom(request->build_mode());
if (!build_mode) {
return Status(grpc::StatusCode::INTERNAL, "Invalid build mode");
}
auto res = store_->buildDerivation(drv_path, drv, *build_mode);
response->set_status(res.status_to_proto());
response->set_error_message(res.errorMsg);
return Status::OK;
},
__FUNCTION__);
}
Status AddSignatures(grpc::ServerContext* context,
const nix::proto::AddSignaturesRequest* request,
google::protobuf::Empty* response) override {
return HandleExceptions(
[&]() -> Status {
auto path = request->path().path();
ASSERT_INPUT_STORE_PATH(path);
StringSet sigs;
sigs.insert(request->sigs().sigs().begin(),
request->sigs().sigs().end());
store_->addSignatures(path, sigs);
return Status::OK;
},
__FUNCTION__);
}
Status QueryMissing(grpc::ServerContext* context, const StorePaths* request,
nix::proto::QueryMissingResponse* response) override {
return HandleExceptions(
[&]() -> Status {
std::set<Path> targets;
for (auto& path : request->paths()) {
ASSERT_INPUT_STORE_PATH(path);
targets.insert(path);
}
PathSet will_build;
PathSet will_substitute;
PathSet unknown;
// TODO(grfn): Switch to concrete size type
unsigned long long download_size;
unsigned long long nar_size;
store_->queryMissing(targets, will_build, will_substitute, unknown,
download_size, nar_size);
for (auto& path : will_build) {
response->add_will_build(path);
}
for (auto& path : will_substitute) {
response->add_will_substitute(path);
}
for (auto& path : unknown) {
response->add_unknown(path);
}
response->set_download_size(download_size);
response->set_nar_size(nar_size);
return Status::OK;
},
__FUNCTION__);
};
Status GetBuildLog(grpc::ServerContext* context, const StorePath* request,
proto::BuildLog* response) override {
return HandleExceptions(
[&]() -> Status {
const auto log = store_->getBuildLog(request->path());
if (log) {
response->set_build_log(*log);
}
return Status::OK;
},
__FUNCTION__);
}
private:
Status HandleExceptions(std::function<Status(void)> fn,
absl::string_view methodName) {
try {
return fn();
} catch (Unsupported& e) {
return Status(grpc::StatusCode::UNIMPLEMENTED,
absl::StrCat(methodName, " is not supported: ", e.what()));
} catch (Error& e) {
return Status(grpc::StatusCode::INTERNAL, e.what());
}
// add more specific Error-Status mappings above
}
ref<nix::Store> store_;
};
WorkerService::Service* NewWorkerService(nix::Store& store) {
return new WorkerServiceImpl(store);
}
} // namespace nix::daemon