(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) open Utils let (>>=) = Lwt.bind let (>|=) = Lwt.(>|=) let decode_alphabet alphabet = let str = Bytes.make 256 '\255' in for i = 0 to String.length alphabet - 1 do Bytes.set str (int_of_char alphabet.[i]) (char_of_int i) ; done ; Bytes.to_string str let default_alphabet = "eE2NXaQvHPqDdTJxfF36jb7VRmp9tAyMgG4L5cS8CKrnksBh" let default_decode_alphabet = decode_alphabet default_alphabet let count_trailing_char s c = let len = String.length s in let rec loop i = if i < 0 then len else if String.get s i <> c then (len-i-1) else loop (i-1) in loop (len-1) let of_char ?(alphabet=default_decode_alphabet) x = let pos = String.get alphabet (int_of_char x) in if pos = '\255' then failwith "Invalid data" ; int_of_char pos let to_char ?(alphabet=default_alphabet) x = alphabet.[x] let forty_eight = Z.of_int 48 let raw_encode ?alphabet s = let zero, alphabet = match alphabet with | None -> default_alphabet.[0], default_alphabet | Some alphabet -> if String.length alphabet <> 48 then invalid_arg "Base48.encode" ; alphabet.[0], decode_alphabet alphabet in let zeros = count_trailing_char s '\000' in let len = String.length s in let res_len = (len * 8 + 4) / 5 in let res = Bytes.make res_len '\000' in let s = Z.of_bits s in let rec loop s i = if s = Z.zero then i else let s, r = Z.div_rem s forty_eight in Bytes.set res i (to_char ~alphabet (Z.to_int r)); loop s (i+1) in let i = loop s 0 in let res = Bytes.sub_string res 0 i in res ^ String.make zeros zero let raw_decode ?alphabet s = let zero, alphabet = match alphabet with | None -> default_alphabet.[0], default_decode_alphabet | Some alphabet -> if String.length alphabet <> 48 then invalid_arg "Base48.decode" ; alphabet.[0], decode_alphabet alphabet in let zeros = count_trailing_char s zero in let len = String.length s in let rec loop res i = if i < 0 then res else let x = Z.of_int (of_char ~alphabet (String.get s i)) in let res = Z.(add x (mul res forty_eight)) in loop res (i-1) in let res = Z.to_bits @@ loop Z.zero (len - zeros - 1) in let res_tzeros = count_trailing_char res '\000' in String.sub res 0 (String.length res - res_tzeros) ^ String.make zeros '\000' let sha256 s = let hash = Cryptokit.Hash.sha256 () in hash#add_string s; let computed_hash = hash#result in hash#wipe; computed_hash let safe_encode ?alphabet s = raw_encode ?alphabet (s ^ String.sub (sha256 (sha256 s)) 0 4) let safe_decode ?alphabet s = let s = raw_decode ?alphabet s in let len = String.length s in let msg = String.sub s 0 (len-4) and msg_hash = String.sub s (len-4) 4 in if msg_hash <> String.sub (sha256 (sha256 msg)) 0 4 then invalid_arg "safe_decode" ; msg type data = .. type 'a encoding = { prefix: string; to_raw: 'a -> string ; of_raw: string -> 'a option ; wrap: 'a -> data ; } let simple_decode ?alphabet { prefix ; of_raw } s = safe_decode ?alphabet s |> remove_prefix ~prefix |> Utils.apply_option ~f:of_raw let simple_encode ?alphabet { prefix ; to_raw } d = safe_encode ?alphabet (prefix ^ to_raw d) type registred_encoding = Encoding : 'a encoding -> registred_encoding module MakeEncodings(E: sig val encodings: registred_encoding list end) = struct let encodings = ref E.encodings let ambiguous_prefix prefix encodings = List.exists (fun (Encoding { prefix = s }) -> remove_prefix s prefix <> None || remove_prefix prefix s <> None) encodings let register_encoding ~prefix ~to_raw ~of_raw ~wrap = if ambiguous_prefix prefix !encodings then Format.ksprintf invalid_arg "Base48.register_encoding: duplicate prefix: %S" prefix ; let encoding = { prefix ; to_raw ; of_raw ; wrap } in encodings := Encoding encoding :: !encodings ; encoding let decode ?alphabet s = let rec find s = function | [] -> None | Encoding { prefix ; of_raw ; wrap } :: encodings -> match remove_prefix ~prefix s with | None -> find s encodings | Some msg -> of_raw msg |> Utils.map_option ~f:wrap in let s = safe_decode ?alphabet s in find s !encodings end type 'a resolver = Resolver : { encoding: 'h encoding ; resolver: 'a -> string -> 'h list Lwt.t ; } -> 'a resolver module MakeResolvers(R: sig type context val encodings: registred_encoding list ref end) = struct let resolvers = ref [] let register_resolver (type a) (encoding : a encoding) (resolver : R.context -> string -> a list Lwt.t) = try resolvers := Resolver { encoding ; resolver } :: !resolvers with Not_found -> invalid_arg "Base48.register_resolver: unregistred encodings" type context = R.context let complete ?alphabet context request = (* One may extract from the prefix of a Base48-encoded value, a prefix of the original encoded value. Given that `48 = 3 * 2^4`, every "digits" in the Base48-prefix (i.e. a "bytes" in its ascii representation), provides for sure 4 bits of the original data. Hence, when we decode a prefix of a Base48-encoded value of length `n`, the `n/2` first bytes of the decoded value are (for sure) a prefix of the original value. *) let n = String.length request in let s = raw_decode request ?alphabet in let partial = String.sub s 0 (n / 2) in let rec find s = function | [] -> Lwt.return_nil | Resolver { encoding ; resolver } :: resolvers -> match remove_prefix ~prefix:encoding.prefix s with | None -> find s resolvers | Some msg -> resolver context msg >|= fun msgs -> filter_map (fun msg -> let res = simple_encode encoding ?alphabet msg in Utils.remove_prefix ~prefix:request res |> Utils.map_option ~f:(fun _ -> res)) msgs in find partial !resolvers end include MakeEncodings(struct let encodings = [] end) include MakeResolvers(struct type context = unit let encodings = encodings end) let register_resolver enc f = register_resolver enc (fun () s -> f s) let complete ?alphabet s = complete ?alphabet () s module Make(C: sig type context end) = struct include MakeEncodings(struct let encodings = !encodings end) include MakeResolvers(struct type context = C.context let encodings = encodings end) end module Prefix = struct let block_hash = "\000" let operation_hash = "\001" let protocol_hash = "\002" let ed25519_public_key_hash = "\003" let ed25519_public_key = "\012" let ed25519_secret_key = "\013" let ed25519_signature = "\014" let protocol_prefix = "\015" end