#pragma once #include <absl/status/statusor.h> #include "libproto/worker.grpc.pb.h" #include "libutil/serialise.hh" #include "libutil/types.hh" namespace nix { MakeError(BadHash, Error); // TODO(grfn): Replace this with the hash type enum from the daemon proto so we // don't have to juggle two different types enum HashType : char { htUnknown, htMD5, htSHA1, htSHA256, htSHA512 }; std::optional<HashType> hash_type_from(nix::proto::HashType hash_type); nix::proto::HashType HashTypeToProto(HashType hash_type); const int md5HashSize = 16; const int sha1HashSize = 20; const int sha256HashSize = 32; const int sha512HashSize = 64; // omitted: E O U T constexpr char base32Chars[] = "0123456789abcdfghijklmnpqrsvwxyz"; enum Base : int { Base64, Base32, Base16, SRI }; struct Hash { static const unsigned int maxHashSize = 64; unsigned int hashSize = 0; unsigned char hash[maxHashSize] = {}; HashType type = htUnknown; /* Create an unset hash object. */ Hash(){}; /* Create a zero-filled hash object. */ Hash(HashType type) : type(type) { init(); }; /* Initialize the hash from a string representation, in the format "[<type>:]<base16|base32|base64>" or "<type>-<base64>" (a Subresource Integrity hash expression). If the 'type' argument is htUnknown, then the hash type must be specified in the string. */ Hash(std::string_view s, HashType type = htUnknown); /* Status-returning version of above constructor */ static absl::StatusOr<Hash> deserialize(std::string_view s, HashType type = htUnknown); // Legacy unwrapper for StatusOr. Throws BadHash. static Hash unwrap_throw(absl::StatusOr<Hash> hash) noexcept(false); void init(); /* Check whether a hash is set. */ operator bool() const { return type != htUnknown; } /* Check whether two hash are equal. */ bool operator==(const Hash& h2) const; /* Check whether two hash are not equal. */ bool operator!=(const Hash& h2) const; /* For sorting. */ bool operator<(const Hash& h) const; /* Returns the length of a base-16 representation of this hash. */ size_t base16Len() const { return hashSize * 2; } /* Returns the length of a base-32 representation of this hash. */ size_t base32Len() const { return (hashSize * 8 - 1) / 5 + 1; } /* Returns the length of a base-64 representation of this hash. */ size_t base64Len() const { return ((4 * hashSize / 3) + 3) & ~3; } /* Return a string representation of the hash, in base-16, base-32 or base-64. By default, this is prefixed by the hash type (e.g. "sha256:"). */ std::string to_string(Base base = Base32, bool includeType = true) const; /* Returns whether the passed string contains entirely valid base16 characters. */ static bool IsValidBase16(absl::string_view s); /* Returns whether the passed string contains entirely valid base32 characters. */ static bool IsValidBase32(absl::string_view s); }; /* Print a hash in base-16 if it's MD5, or base-32 otherwise. */ std::string printHash16or32(const Hash& hash); /* Compute the hash of the given string. */ Hash hashString(HashType ht, const std::string& s); /* Compute the hash of the given file. */ Hash hashFile(HashType ht, const Path& path); /* A pair of the Hash, and the number of bytes consumed. */ typedef std::pair<Hash, unsigned long long> HashResult; /* Compute the hash of the given path. The hash is defined as (essentially) hashString(ht, dumpPath(path)). */ HashResult hashPath(HashType ht, const Path& path, PathFilter& filter = defaultPathFilter); /* Compress a hash to the specified number of bytes by cyclically XORing bytes together. */ Hash compressHash(const Hash& hash, unsigned int newSize); /* Parse a string representing a hash type. */ HashType parseHashType(const std::string& s); /* And the reverse. */ std::string printHashType(HashType ht); namespace hash { union Ctx; } class HashSink : public BufferedSink { private: HashType ht; std::unique_ptr<hash::Ctx> ctx; unsigned long long bytes; public: HashSink(HashType ht); HashSink(const HashSink& h); ~HashSink(); void write(const unsigned char* data, size_t len); HashResult finish(); HashResult currentHash(); }; } // namespace nix