#pragma once ///@file #include "common-protocol.hh" namespace nix { #define WORKER_MAGIC_1 0x6e697863 #define WORKER_MAGIC_2 0x6478696f #define PROTOCOL_VERSION (1 << 8 | 35) #define GET_PROTOCOL_MAJOR(x) ((x) & 0xff00) #define GET_PROTOCOL_MINOR(x) ((x) & 0x00ff) #define STDERR_NEXT 0x6f6c6d67 #define STDERR_READ 0x64617461 // data needed from source #define STDERR_WRITE 0x64617416 // data for sink #define STDERR_LAST 0x616c7473 #define STDERR_ERROR 0x63787470 #define STDERR_START_ACTIVITY 0x53545254 #define STDERR_STOP_ACTIVITY 0x53544f50 #define STDERR_RESULT 0x52534c54 struct StoreDirConfig; struct Source; // items being serialised struct DerivedPath; struct BuildResult; struct KeyedBuildResult; struct ValidPathInfo; struct UnkeyedValidPathInfo; enum TrustedFlag : bool; /** * The "worker protocol", used by unix:// and ssh-ng:// stores. * * This `struct` is basically just a `namespace`; We use a type rather * than a namespace just so we can use it as a template argument. */ struct WorkerProto { /** * Enumeration of all the request types for the protocol. */ enum struct Op : uint64_t; /** * Version type for the protocol. * * @todo Convert to struct with separate major vs minor fields. */ using Version = unsigned int; /** * A unidirectional read connection, to be used by the read half of the * canonical serializers below. */ struct ReadConn { Source & from; Version version; }; /** * A unidirectional write connection, to be used by the write half of the * canonical serializers below. */ struct WriteConn { Sink & to; Version version; }; /** * Data type for canonical pairs of serialisers for the worker protocol. * * See https://en.cppreference.com/w/cpp/language/adl for the broader * concept of what is going on here. */ template struct Serialise; // This is the definition of `Serialise` we *want* to put here, but // do not do so. // // The problem is that if we do so, C++ will think we have // seralisers for *all* types. We don't, of course, but that won't // cause an error until link time. That makes for long debug cycles // when there is a missing serialiser. // // By not defining it globally, and instead letting individual // serialisers specialise the type, we get back the compile-time // errors we would like. When no serialiser exists, C++ sees an // abstract "incomplete" type with no definition, and any attempt to // use `to` or `from` static methods is a compile-time error because // they don't exist on an incomplete type. // // This makes for a quicker debug cycle, as desired. #if 0 { static T read(const StoreDirConfig & store, ReadConn conn); static void write(const StoreDirConfig & store, WriteConn conn, const T & t); }; #endif /** * Wrapper function around `WorkerProto::Serialise::write` that allows us to * infer the type instead of having to write it down explicitly. */ template static void write(const StoreDirConfig & store, WriteConn conn, const T & t) { WorkerProto::Serialise::write(store, conn, t); } }; enum struct WorkerProto::Op : uint64_t { IsValidPath = 1, HasSubstitutes = 3, QueryPathHash = 4, // obsolete QueryReferences = 5, // obsolete QueryReferrers = 6, AddToStore = 7, AddTextToStore = 8, // obsolete since 1.25, Nix 3.0. Use WorkerProto::Op::AddToStore BuildPaths = 9, EnsurePath = 10, AddTempRoot = 11, AddIndirectRoot = 12, SyncWithGC = 13, FindRoots = 14, ExportPath = 16, // obsolete QueryDeriver = 18, // obsolete SetOptions = 19, CollectGarbage = 20, QuerySubstitutablePathInfo = 21, QueryDerivationOutputs = 22, // obsolete QueryAllValidPaths = 23, QueryFailedPaths = 24, ClearFailedPaths = 25, QueryPathInfo = 26, ImportPaths = 27, // obsolete QueryDerivationOutputNames = 28, // obsolete QueryPathFromHashPart = 29, QuerySubstitutablePathInfos = 30, QueryValidPaths = 31, QuerySubstitutablePaths = 32, QueryValidDerivers = 33, OptimiseStore = 34, VerifyStore = 35, BuildDerivation = 36, AddSignatures = 37, NarFromPath = 38, AddToStoreNar = 39, QueryMissing = 40, QueryDerivationOutputMap = 41, RegisterDrvOutput = 42, QueryRealisation = 43, AddMultipleToStore = 44, AddBuildLog = 45, BuildPathsWithResults = 46, }; /** * Convenience for sending operation codes. * * @todo Switch to using `WorkerProto::Serialise` instead probably. But * this was not done at this time so there would be less churn. */ inline Sink & operator << (Sink & sink, WorkerProto::Op op) { return sink << (uint64_t) op; } /** * Convenience for debugging. * * @todo Perhaps render known opcodes more nicely. */ inline std::ostream & operator << (std::ostream & s, WorkerProto::Op op) { return s << (uint64_t) op; } /** * Declare a canonical serialiser pair for the worker protocol. * * We specialise the struct merely to indicate that we are implementing * the function for the given type. * * Some sort of `template<...>` must be used with the caller for this to * be legal specialization syntax. See below for what that looks like in * practice. */ #define DECLARE_WORKER_SERIALISER(T) \ struct WorkerProto::Serialise< T > \ { \ static T read(const StoreDirConfig & store, WorkerProto::ReadConn conn); \ static void write(const StoreDirConfig & store, WorkerProto::WriteConn conn, const T & t); \ }; template<> DECLARE_WORKER_SERIALISER(DerivedPath); template<> DECLARE_WORKER_SERIALISER(BuildResult); template<> DECLARE_WORKER_SERIALISER(KeyedBuildResult); template<> DECLARE_WORKER_SERIALISER(ValidPathInfo); template<> DECLARE_WORKER_SERIALISER(UnkeyedValidPathInfo); template<> DECLARE_WORKER_SERIALISER(std::optional); template DECLARE_WORKER_SERIALISER(std::vector); template DECLARE_WORKER_SERIALISER(std::set); template DECLARE_WORKER_SERIALISER(std::tuple); #define COMMA_ , template DECLARE_WORKER_SERIALISER(std::map); #undef COMMA_ }