(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) open Tezos_hash (* Tezos protocol "bootstrap" - untyped script representation *) type location = int let location_encoding = let open Data_encoding in def "scriptLocation" @@ describe ~title: "Script location" ~description: "The location of a node in a script (code, data or type) \ as its index in the expression tree in prefix order, with \ zero being the root and adding one for every basic node, \ sequence and primitive application." @@ int31 type expr = (* TODO: turn the location into an alpha ? *) | Int of location * string | String of location * string | Prim of location * string * expr list | Seq of location * expr list let expr_encoding = let open Data_encoding in let int_encoding = obj1 (req "int" string) in let string_encoding = obj1 (req "string" string) in let prim_encoding expr_encoding = let json = union [ case string (function (v, []) -> Some v | _ -> None) (fun v -> (v, [])) ; case (assoc (list expr_encoding)) (fun (v, args) -> Some [ (v, args) ]) (function | [ (v, args) ] -> (v, args) | _ -> Json.cannot_destruct "invalid script expression") ] in let binary = obj2 (req "prim" string) (req "args" (list expr_encoding)) in splitted ~json ~binary in let seq_encoding expr_encoding = list expr_encoding in mu "tezosScriptExpression" (fun expr_encoding -> describe ~title: "Script expression (data, type or code)" @@ union ~tag_size:`Uint8 [ case ~tag:0 int_encoding (function Int (_, v) -> Some v | _ -> None) (fun v -> Int (-1, v)) ; case ~tag:1 string_encoding (function String (_, v) -> Some v | _ -> None) (fun v -> String (-1, v)) ; case ~tag:2 (prim_encoding expr_encoding) (function | Prim (_, v, args) -> Some (v, args) | _ -> None) (function (prim, args) -> Prim (-1, prim, args)) ; case ~tag:3 (seq_encoding expr_encoding) (function Seq (_, v) -> Some v | _ -> None) (fun args -> Seq (-1, args)) ]) let update_locations ir = let rec update_locations i = function | Int (_, v) -> (Int (i, v), succ i) | String (_, v) -> (String (i, v), succ i) | Prim (_, name, args) -> let (nargs, ni) = List.fold_left (fun (nargs, ni) arg -> let narg, ni = update_locations ni arg in (narg :: nargs, ni)) ([], succ i) args in (Prim (i, name, List.rev nargs), ni) | Seq (_, args) -> let (nargs, ni) = List.fold_left (fun (nargs, ni) arg -> let narg, ni = update_locations ni arg in (narg :: nargs, ni)) ([], succ i) args in (Seq (i, List.rev nargs), ni) in fst (update_locations 1 ir) let expr_encoding = Data_encoding.conv (fun to_write -> to_write) (fun just_read -> update_locations just_read) expr_encoding type code = { code : expr ; arg_type : expr ; ret_type : expr ; storage_type : expr } type storage = { storage : expr ; storage_type : expr } open Data_encoding let storage_encoding = conv (fun { storage ; storage_type } -> (storage, storage_type)) (fun (storage, storage_type) -> { storage ; storage_type }) (obj2 (req "storage" expr_encoding) (req "storageType" expr_encoding)) let code_encoding = conv (fun { code; arg_type; ret_type; storage_type } -> (code, arg_type, ret_type, storage_type)) (fun (code, arg_type, ret_type, storage_type) -> { code; arg_type; ret_type; storage_type }) (obj4 (req "code" expr_encoding) (req "argType" expr_encoding) (req "retType" expr_encoding) (req "storageType" expr_encoding)) let hash_expr data = let bytes = Data_encoding.Binary.to_bytes expr_encoding data in Script_expr_hash.(hash_bytes [ bytes ] |> to_b58check) type t = { code : code ; storage : storage } let encoding = let open Data_encoding in conv (function { code ; storage } -> (code, storage)) (fun (code, storage) -> { code ; storage }) (obj2 (req "code" code_encoding) (req "storage" storage_encoding))