(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) module Ed25519 = struct type secret_key = Sodium.Sign.secret_key type public_key = Sodium.Sign.public_key type signature = MBytes.t let sign key msg = Sodium.Sign.Bigbytes.(of_signature @@ sign_detached key msg) let check_signature public_key signature msg = try Sodium.Sign.Bigbytes.(verify public_key (to_signature signature) msg) ; true with _ -> false let append_signature key msg = MBytes.concat msg (sign key msg) module Public_key_hash = Hash.Make_SHA256(Base48)(struct let name = "Ed25519.Public_key_hash" let title = "An Ed25519 public key ID" let b48check_prefix = Base48.Prefix.ed25519_public_key_hash end) let hash v = Public_key_hash.hash_bytes [ Sodium.Sign.Bigbytes.of_public_key v ] let generate_key () = let secret, pub = Sodium.Sign.random_keypair () in (hash pub, pub, secret) type Base48.data += | Public_key of public_key | Secret_key of secret_key | Signature of signature let b48check_public_key_encoding = Base48.register_encoding ~prefix: Base48.Prefix.ed25519_public_key ~to_raw:(fun x -> Bytes.to_string (Sodium.Sign.Bytes.of_public_key x)) ~of_raw:(fun x -> try Some (Sodium.Sign.Bytes.to_public_key (Bytes.of_string x)) with _ -> None) ~wrap:(fun x -> Public_key x) let b48check_secret_key_encoding = Base48.register_encoding ~prefix: Base48.Prefix.ed25519_secret_key ~to_raw:(fun x -> Bytes.to_string (Sodium.Sign.Bytes.of_secret_key x)) ~of_raw:(fun x -> try Some (Sodium.Sign.Bytes.to_secret_key (Bytes.of_string x)) with _ -> None) ~wrap:(fun x -> Secret_key x) let b48check_signature_encoding = Base48.register_encoding ~prefix: Base48.Prefix.ed25519_signature ~to_raw:MBytes.to_string ~of_raw:(fun s -> Some (MBytes.of_string s)) ~wrap:(fun x -> Signature x) let public_key_encoding = let open Data_encoding in splitted ~json: (describe ~title: "An Ed25519 public key (Base48Check encoded)" @@ conv (fun s -> Base48.simple_encode b48check_public_key_encoding s) (fun s -> match Base48.simple_decode b48check_public_key_encoding s with | Some x -> x | None -> Data_encoding.Json.cannot_destruct "Ed25519 public key: unexpected prefix.") string) ~binary: (conv Sodium.Sign.Bigbytes.of_public_key Sodium.Sign.Bigbytes.to_public_key bytes) let secret_key_encoding = let open Data_encoding in splitted ~json: (describe ~title: "An Ed25519 secret key (Base48Check encoded)" @@ conv (fun s -> Base48.simple_encode b48check_secret_key_encoding s) (fun s -> match Base48.simple_decode b48check_secret_key_encoding s with | Some x -> x | None -> Data_encoding.Json.cannot_destruct "Ed25519 secret key: unexpected prefix.") string) ~binary: (conv Sodium.Sign.Bigbytes.of_secret_key Sodium.Sign.Bigbytes.to_secret_key bytes) let signature_encoding = let open Data_encoding in splitted ~json: (describe ~title: "An Ed25519 signature (Base48Check encoded)" @@ conv (fun s -> Base48.simple_encode b48check_signature_encoding s) (fun s -> match Base48.simple_decode b48check_signature_encoding s with | Some x -> x | None -> Data_encoding.Json.cannot_destruct "Ed25519 signature: unexpected prefix.") string) ~binary: (Fixed.bytes 64) end module Make(Param : sig val name: string end)() = struct include Pervasives module Pervasives = Pervasives module Compare = Compare module Array = Array module List = List module Bytes = struct include Bytes include EndianBytes.BigEndian module LE = EndianBytes.LittleEndian end module String = struct include String include EndianString.BigEndian module LE = EndianString.LittleEndian end module Set = Set module Map = Map module Int32 = Int32 module Int64 = Int64 module Nativeint = Nativeint module Buffer = Buffer module Format = Format module Hex_encode = Hex_encode module Lwt_sequence = Lwt_sequence module Lwt = Lwt module Lwt_list = Lwt_list module MBytes = MBytes module Uri = Uri module Data_encoding = Data_encoding module Time = Time module Ed25519 = Ed25519 module Hash = Hash module Persist = Persist module RPC = RPC module Fitness = Fitness module Updater = Updater module Error_monad = struct type error_category = [ `Branch | `Temporary | `Permanent ] include Error_monad.Make() end module Logging = Logging.Make(Param) module Base48 = struct include Base48 include Make(struct type context = Context.t end) end module Context = struct include Context let register_resolver = Base48.register_resolver let complete = Base48.complete end module type PACKED_PROTOCOL = sig val hash : Protocol_hash.t include Updater.PROTOCOL val error_encoding : error Data_encoding.t val classify_errors : error list -> [ `Branch | `Temporary | `Permanent ] val pp : Format.formatter -> error -> unit val complete_b48prefix : ?alphabet:string -> Context.t -> string -> string list Lwt.t end end