(**************************************************************************) (* *) (* Copyright (c) 2014 - 2018. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) module Public_key_hash = Blake2B.Make(Base58)(struct let name = "Ed25519.Public_key_hash" let title = "An Ed25519 public key ID" let b58check_prefix = Base58.Prefix.ed25519_public_key_hash let size = Some 20 end) let () = Base58.check_encoded_prefix Public_key_hash.b58check_encoding "tz1" 36 open Tweetnacl let of_bigarray1 f x = f (Cstruct.of_bigarray x) let to_bigarray1 f x = Cstruct.to_bigarray (f x) module Public_key = struct type t = Sign.public Sign.key let compare a b = Cstruct.compare (Sign.to_cstruct a) (Sign.to_cstruct b) let (=) xs ys = compare xs ys = 0 let (<>) xs ys = compare xs ys <> 0 let (<) xs ys = compare xs ys < 0 let (<=) xs ys = compare xs ys <= 0 let (>=) xs ys = compare xs ys >= 0 let (>) xs ys = compare xs ys > 0 let max x y = if x >= y then x else y let min x y = if x <= y then x else y type Base58.data += | Public_key of t let to_string s = Cstruct.to_string (Sign.to_cstruct s) let of_string s = Sign.pk_of_cstruct (Cstruct.of_string s) let b58check_encoding = Base58.register_encoding ~prefix: Base58.Prefix.ed25519_public_key ~length:Sign.pkbytes ~to_raw:to_string ~of_raw:of_string ~wrap:(fun x -> Public_key x) let of_b58check_opt s = Base58.simple_decode b58check_encoding s let of_b58check_exn s = match Base58.simple_decode b58check_encoding s with | Some x -> x | None -> Pervasives.failwith (Printf.sprintf "%s is not an ed25519 public key" s) let of_b58check s = match Base58.simple_decode b58check_encoding s with | Some x -> Ok x | None -> generic_error "%s is not an ed25519 public key" s let to_b58check s = Base58.simple_encode b58check_encoding s let pp ppf t = Format.fprintf ppf "%s" (to_b58check t) let of_hex s = of_string (Hex.to_string s) let of_hex_exn s = match of_string (Hex.to_string s) with | Some x -> x | None -> invalid_arg "Public_key.of_hex_exn" let to_hex s = Hex.of_string (to_string s) let of_bytes_opt s = Sign.pk_of_cstruct (Cstruct.of_bigarray s) let of_bytes s = match of_bytes_opt s with | None -> generic_error "Could not deserialize Ed25519 public key (invalid format)" | Some pk -> ok pk let of_bytes_exn s = match of_bytes_opt s with | None -> Pervasives.invalid_arg "Ed25519.Public_key.of_bytes_exn: argument is not a serialized public key" | Some pk -> pk let to_bytes pk = Cstruct.to_bigarray (Sign.to_cstruct pk) let param ?(name="ed25519-public") ?(desc="Ed25519 public key (b58check-encoded)") t = Cli_entries.(param ~name ~desc (parameter (fun _ str -> Lwt.return (of_b58check str))) t) let () = Base58.check_encoded_prefix b58check_encoding "edpk" 54 let encoding = let open Data_encoding in splitted ~json: (describe ~title: "An Ed25519 public key (Base58Check encoded)" @@ conv (fun s -> Base58.simple_encode b58check_encoding s) (fun s -> match Base58.simple_decode b58check_encoding s with | Some x -> x | None -> Data_encoding.Json.cannot_destruct "Ed25519 public key: unexpected prefix.") string) ~binary: (conv (to_bigarray1 Sign.to_cstruct) (of_bigarray1 Sign.pk_of_cstruct_exn) (Fixed.bytes Sign.pkbytes)) let hash v = Public_key_hash.hash_bytes [ to_bigarray1 Sign.to_cstruct v ] end module Secret_key = struct type t = Sign.secret Sign.key let to_public_key = Sign.public type Base58.data += | Secret_key of t let seed_encoding = Base58.register_encoding ~prefix: Base58.Prefix.ed25519_seed ~length:Sign.seedbytes ~to_raw:(fun sk -> Cstruct.to_string (Sign.seed sk)) ~of_raw:(fun buf -> let seed = Cstruct.of_string buf in match Sign.keypair ~seed () with | exception _ -> None | _pk, sk -> Some sk) ~wrap:(fun sk -> Secret_key sk) let secret_key_encoding = Base58.register_encoding ~prefix: Base58.Prefix.ed25519_secret_key ~length:Sign.skbytes ~to_raw:(fun sk -> Cstruct.to_string (Sign.to_cstruct sk)) ~of_raw:(fun buf -> Sign.sk_of_cstruct (Cstruct.of_string buf)) ~wrap:(fun x -> Secret_key x) let of_b58check_opt s = match Base58.simple_decode seed_encoding s with | Some x -> Some x | None -> Base58.simple_decode secret_key_encoding s let of_b58check_exn s = match of_b58check_opt s with | Some x -> x | None -> Pervasives.failwith (Printf.sprintf "%s is not an ed25519 secret key" s) let of_b58check s = match of_b58check_opt s with | Some x -> Ok x | None -> generic_error "%s is not an ed25519 secret key" s let to_b58check s = Base58.simple_encode seed_encoding s let pp ppf t = Format.fprintf ppf "%s" (to_b58check t) let of_bytes_opt s = let s = Cstruct.of_bigarray s in match Cstruct.len s with | 32 -> let _pk, sk = Sign.keypair ~seed:s () in Some sk | 64 -> Sign.sk_of_cstruct s | _ -> None let of_bytes s = match of_bytes_opt s with | None -> generic_error "Could not deserialize Ed25519 seed (invalid format)" | Some sk -> ok sk let of_bytes_exn s = match of_bytes_opt s with | None -> Pervasives.invalid_arg "Ed25519.Secret_key.of_bytes_exn: argument is not a serialized seed" | Some sk -> sk let to_bytes = to_bigarray1 Sign.seed let param ?(name="ed25519-secret") ?(desc="Ed25519 secret key (b58check-encoded)") t = Cli_entries.(param ~name ~desc (parameter (fun _ str -> Lwt.return (of_b58check str))) t) let () = Base58.check_encoded_prefix seed_encoding "edsk" 54 ; Base58.check_encoded_prefix secret_key_encoding "edsk" 98 let encoding = let open Data_encoding in splitted ~json: (describe ~title: "An Ed25519 secret key (Base58Check encoded)" @@ conv (fun s -> Base58.simple_encode seed_encoding s) (fun s -> match of_b58check_opt s with | Some x -> x | None -> Data_encoding.Json.cannot_destruct "Ed25519 secret key: unexpected prefix.") string) ~binary: (conv to_bytes (fun buf -> of_bytes_exn buf) (dynamic_size (Variable.bytes))) end let sign key msg = Cstruct.(to_bigarray (Sign.detached ~key (of_bigarray msg))) module Signature = struct type t = MBytes.t type Base58.data += | Signature of t let b58check_encoding = Base58.register_encoding ~prefix: Base58.Prefix.ed25519_signature ~length:Sign.bytes ~to_raw:MBytes.to_string ~of_raw:(fun s -> Some (MBytes.of_string s)) ~wrap:(fun x -> Signature x) let of_b58check_opt s = Base58.simple_decode b58check_encoding s let of_b58check_exn s = match Base58.simple_decode b58check_encoding s with | Some x -> x | None -> Pervasives.failwith (Printf.sprintf "%s is not an ed25519 signature" s) let of_b58check s = match Base58.simple_decode b58check_encoding s with | Some x -> Ok x | None -> generic_error "%s is not an ed25519 signature" s let to_b58check s = Base58.simple_encode b58check_encoding s let pp ppf t = Format.fprintf ppf "%s" (to_b58check t) let of_bytes_opt s = if MBytes.length s = Sign.bytes then Some s else None let of_bytes s = match of_bytes_opt s with | None -> generic_error "Could not deserialize Ed25519 signature (invalid format)" | Some signature -> ok signature let of_bytes_exn s = match of_bytes_opt s with | None -> Pervasives.invalid_arg "Ed25519.Signature.of_bytes_exn: argument is not a serialized signature" | Some signature -> signature let to_bytes x = x let param ?(name="signature") ?(desc="Signature (b58check-encoded)") t = Cli_entries.(param ~name ~desc (parameter (fun _ str -> Lwt.return (of_b58check str))) t) let () = Base58.check_encoded_prefix b58check_encoding "edsig" 99 let encoding = let open Data_encoding in splitted ~json: (describe ~title: "An Ed25519 signature (Base58Check encoded)" @@ conv (fun s -> Base58.simple_encode b58check_encoding s) (fun s -> match Base58.simple_decode b58check_encoding s with | Some x -> x | None -> Data_encoding.Json.cannot_destruct "Ed25519 signature: unexpected prefix.") string) ~binary: (Fixed.bytes Sign.bytes) let check public_key signature msg = Sign.verify_detached ~key:public_key ~signature:(Cstruct.of_bigarray signature) (Cstruct.of_bigarray msg) let append key msg = MBytes.concat msg (sign key msg) let concat msg signature = MBytes.concat msg signature end module Seed = struct type t = Cstruct.t let generate () = Rand.gen 32 let extract = Sign.seed end let generate_key () = let pk, sk = Sign.keypair () in (Public_key.hash pk, pk, sk) let generate_seeded_key seed = let pk, sk = Sign.keypair ~seed () in (Public_key.hash pk, pk, sk)