(*****************************************************************************) (* *) (* Open Source License *) (* Copyright (c) 2018 Dynamic Ledger Solutions, Inc. *) (* *) (* Permission is hereby granted, free of charge, to any person obtaining a *) (* copy of this software and associated documentation files (the "Software"),*) (* to deal in the Software without restriction, including without limitation *) (* the rights to use, copy, modify, merge, publish, distribute, sublicense, *) (* and/or sell copies of the Software, and to permit persons to whom the *) (* Software is furnished to do so, subject to the following conditions: *) (* *) (* The above copyright notice and this permission notice shall be included *) (* in all copies or substantial portions of the Software. *) (* *) (* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR*) (* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *) (* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL *) (* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER*) (* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING *) (* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER *) (* DEALINGS IN THE SOFTWARE. *) (* *) (*****************************************************************************) type t = | Implicit of Signature.Public_key_hash.t | Originated of Contract_hash.t include Compare.Make(struct type nonrec t = t let compare l1 l2 = match l1, l2 with | Implicit pkh1, Implicit pkh2 -> Signature.Public_key_hash.compare pkh1 pkh2 | Originated h1, Originated h2 -> Contract_hash.compare h1 h2 | Implicit _, Originated _ -> -1 | Originated _, Implicit _ -> 1 end) type contract = t type error += Invalid_contract_notation of string (* `Permanent *) let to_b58check = function | Implicit pbk -> Signature.Public_key_hash.to_b58check pbk | Originated h -> Contract_hash.to_b58check h let of_b58check s = match Base58.decode s with | Some (Ed25519.Public_key_hash.Data h) -> ok (Implicit (Signature.Ed25519 h)) | Some (Secp256k1.Public_key_hash.Data h) -> ok (Implicit (Signature.Secp256k1 h)) | Some (P256.Public_key_hash.Data h) -> ok (Implicit (Signature.P256 h)) | Some (Contract_hash.Data h) -> ok (Originated h) | _ -> error (Invalid_contract_notation s) let pp ppf = function | Implicit pbk -> Signature.Public_key_hash.pp ppf pbk | Originated h -> Contract_hash.pp ppf h let pp_short ppf = function | Implicit pbk -> Signature.Public_key_hash.pp_short ppf pbk | Originated h -> Contract_hash.pp_short ppf h let encoding = let open Data_encoding in def "contract_id" ~title: "A contract handle" ~description: "A contract notation as given to an RPC or inside scripts. \ Can be a base58 implicit contract hash \ or a base58 originated contract hash." @@ splitted ~binary: (union ~tag_size:`Uint8 [ case (Tag 0) ~title:"Implicit" Signature.Public_key_hash.encoding (function Implicit k -> Some k | _ -> None) (fun k -> Implicit k) ; case (Tag 1) (Fixed.add_padding Contract_hash.encoding 1) ~title:"Originated" (function Originated k -> Some k | _ -> None) (fun k -> Originated k) ; ]) ~json: (conv to_b58check (fun s -> match of_b58check s with | Ok s -> s | Error _ -> Json.cannot_destruct "Invalid contract notation.") string) let () = let open Data_encoding in register_error_kind `Permanent ~id:"contract.invalid_contract_notation" ~title: "Invalid contract notation" ~pp: (fun ppf x -> Format.fprintf ppf "Invalid contract notation %S" x) ~description: "A malformed contract notation was given to an RPC or in a script." (obj1 (req "notation" string)) (function Invalid_contract_notation loc -> Some loc | _ -> None) (fun loc -> Invalid_contract_notation loc) let implicit_contract id = Implicit id let is_implicit = function | Implicit m -> Some m | Originated _ -> None let is_originated = function | Implicit _ -> None | Originated h -> Some h type origination_nonce = { operation_hash: Operation_hash.t ; origination_index: int32 } let origination_nonce_encoding = let open Data_encoding in conv (fun { operation_hash ; origination_index } -> (operation_hash, origination_index)) (fun (operation_hash, origination_index) -> { operation_hash ; origination_index }) @@ obj2 (req "operation" Operation_hash.encoding) (dft "index" int32 0l) let originated_contract nonce = let data = Data_encoding.Binary.to_bytes_exn origination_nonce_encoding nonce in Originated (Contract_hash.hash_bytes [data]) let originated_contracts ~since: { origination_index = first ; operation_hash = first_hash } ~until: ({ origination_index = last ; operation_hash = last_hash } as origination_nonce) = assert (Operation_hash.equal first_hash last_hash) ; let rec contracts acc origination_index = if Compare.Int32.(origination_index < first) then acc else let origination_nonce = { origination_nonce with origination_index } in let acc = originated_contract origination_nonce :: acc in contracts acc (Int32.pred origination_index) in contracts [] (Int32.pred last) let initial_origination_nonce operation_hash = { operation_hash ; origination_index = 0l } let incr_origination_nonce nonce = let origination_index = Int32.succ nonce.origination_index in { nonce with origination_index } let rpc_arg = let construct = to_b58check in let destruct hash = match of_b58check hash with | Error _ -> Error "Cannot parse contract id" | Ok contract -> Ok contract in RPC_arg.make ~descr: "A contract identifier encoded in b58check." ~name: "contract_id" ~construct ~destruct () module Index = struct type t = contract let path_length = 7 let to_path c l = let raw_key = Data_encoding.Binary.to_bytes_exn encoding c in let `Hex key = MBytes.to_hex raw_key in let `Hex index_key = MBytes.to_hex (Raw_hashes.blake2b raw_key) in String.sub index_key 0 2 :: String.sub index_key 2 2 :: String.sub index_key 4 2 :: String.sub index_key 6 2 :: String.sub index_key 8 2 :: String.sub index_key 10 2 :: key :: l let of_path = function | [] | [_] | [_;_] | [_;_;_] | [_;_;_;_] | [_;_;_;_;_] | [_;_;_;_;_;_] | _::_::_::_::_::_::_::_::_ -> None | [ index1 ; index2 ; index3 ; index4 ; index5 ; index6 ; key ] -> let raw_key = MBytes.of_hex (`Hex key) in let `Hex index_key = MBytes.to_hex (Raw_hashes.blake2b raw_key) in assert Compare.String.(String.sub index_key 0 2 = index1) ; assert Compare.String.(String.sub index_key 2 2 = index2) ; assert Compare.String.(String.sub index_key 4 2 = index3) ; assert Compare.String.(String.sub index_key 6 2 = index4) ; assert Compare.String.(String.sub index_key 8 2 = index5) ; assert Compare.String.(String.sub index_key 10 2 = index6) ; Data_encoding.Binary.of_bytes encoding raw_key let rpc_arg = rpc_arg let encoding = encoding let compare = compare end