(**************************************************************************) (* *) (* 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 = "Secp256k1.Public_key_hash" let title = "A Secp256k1 public key hash" let b58check_prefix = Base58.Prefix.secp256k1_public_key_hash let size = Some 20 end) let () = Base58.check_encoded_prefix Public_key_hash.b58check_encoding "tz2" 36 open Libsecp256k1.External let context = let ctx = Context.create () in match Context.randomize ctx (Rand.generate 32) with | false -> failwith "Secp256k1 context randomization failed. Aborting." | true -> ctx module Public_key = struct type t = Key.public Key.t let name = "Secp256k1.Public_key" let title = "A Secp256k1 public key" let to_bytes pk = Key.to_bytes context pk let of_bytes_opt s = try Some (Key.read_pk_exn context s) with _ -> None let to_string s = MBytes.to_string (to_bytes s) let of_string_opt s = of_bytes_opt (MBytes.of_string s) let size = Key.compressed_pk_bytes type Base58.data += | Data of t let b58check_encoding = Base58.register_encoding ~prefix: Base58.Prefix.secp256k1_public_key ~length: size ~to_raw: to_string ~of_raw: of_string_opt ~wrap: (fun x -> Data x) let () = Base58.check_encoded_prefix b58check_encoding "sppk" 55 let hash v = Public_key_hash.hash_bytes [to_bytes v] include Compare.Make(struct type nonrec t = t let compare a b = MBytes.compare (Key.buffer a) (Key.buffer b) end) include Helpers.MakeRaw(struct type nonrec t = t let name = name let of_bytes_opt = of_bytes_opt let of_string_opt = of_string_opt let to_string = to_string end) include Helpers.MakeB58(struct type nonrec t = t let title = title let name = name let b58check_encoding = b58check_encoding end) include Helpers.MakeEncoder(struct type nonrec t = t let name = name let title = title let raw_encoding = let open Data_encoding in conv to_bytes of_bytes_exn (Fixed.bytes size) let of_b58check = of_b58check let of_b58check_opt = of_b58check_opt let of_b58check_exn = of_b58check_exn let to_b58check = to_b58check let to_short_b58check = to_short_b58check end) let pp ppf t = Format.fprintf ppf "%s" (to_b58check t) end module Secret_key = struct type t = Key.secret Key.t let name = "Secp256k1.Secret_key" let title = "A Secp256k1 secret key" let size = Key.secret_bytes let of_bytes_opt s = match Key.read_sk context s with | Ok x -> Some x | _ -> None let to_bytes x = Key.to_bytes context x let to_string s = MBytes.to_string (to_bytes s) let of_string_opt s = of_bytes_opt (MBytes.of_string s) let to_public_key key = Key.neuterize_exn context key type Base58.data += | Data of t let b58check_encoding = Base58.register_encoding ~prefix: Base58.Prefix.secp256k1_secret_key ~length: size ~to_raw: to_string ~of_raw: of_string_opt ~wrap: (fun x -> Data x) let () = Base58.check_encoded_prefix b58check_encoding "spsk" 54 include Compare.Make(struct type nonrec t = t let compare a b = MBytes.compare (Key.buffer a) (Key.buffer b) end) include Helpers.MakeRaw(struct type nonrec t = t let name = name let of_bytes_opt = of_bytes_opt let of_string_opt = of_string_opt let to_string = to_string end) include Helpers.MakeB58(struct type nonrec t = t let title = title let name = name let b58check_encoding = b58check_encoding end) include Helpers.MakeEncoder(struct type nonrec t = t let name = name let title = title let raw_encoding = let open Data_encoding in conv to_bytes of_bytes_exn (Fixed.bytes size) let of_b58check = of_b58check let of_b58check_opt = of_b58check_opt let of_b58check_exn = of_b58check_exn let to_b58check = to_b58check let to_short_b58check = to_short_b58check end) let pp ppf t = Format.fprintf ppf "%s" (to_b58check t) end type t = Sign.plain Sign.t let name = "Secp256k1" let title = "A Secp256k1 signature" let size = Sign.plain_bytes let of_bytes_opt s = match Sign.read context s with Ok s -> Some s | Error _ -> None let to_bytes = Sign.to_bytes ~der:false context let to_string s = MBytes.to_string (to_bytes s) let of_string_opt s = of_bytes_opt (MBytes.of_string s) type Base58.data += | Data of t let b58check_encoding = Base58.register_encoding ~prefix: Base58.Prefix.secp256k1_signature ~length: size ~to_raw: to_string ~of_raw: of_string_opt ~wrap: (fun x -> Data x) let () = Base58.check_encoded_prefix b58check_encoding "spsig1" 99 include Compare.Make(struct type nonrec t = t let compare a b = MBytes.compare (Sign.buffer a) (Sign.buffer b) end) include Helpers.MakeRaw(struct type nonrec t = t let name = name let of_bytes_opt = of_bytes_opt let of_string_opt = of_string_opt let to_string = to_string end) include Helpers.MakeB58(struct type nonrec t = t let title = title let name = name let b58check_encoding = b58check_encoding end) include Helpers.MakeEncoder(struct type nonrec t = t let name = name let title = title let raw_encoding = let open Data_encoding in conv to_bytes of_bytes_exn (Fixed.bytes size) let of_b58check = of_b58check let of_b58check_opt = of_b58check_opt let of_b58check_exn = of_b58check_exn let to_b58check = to_b58check let to_short_b58check = to_short_b58check end) let pp ppf t = Format.fprintf ppf "%s" (to_b58check t) let zero = of_bytes_exn (MBytes.make size '\000') let sign sk msg = Sign.sign_exn context ~sk msg let check public_key signature msg = Sign.verify_exn context ~pk:public_key ~msg ~signature let generate_key ?(seed=Rand.generate 32) () = let sk = Key.read_sk_exn context seed in let pk = Key.neuterize_exn context sk in let pkh = Public_key.hash pk in pkh, pk, sk