ligo/src/utils/hash.ml
Grégoire Henry fc53f3b233 Switch to Base58.
Base48 was fun but... hell yeah... let's stay standard.

Public encoding of hash:

```
  Block:      "B..." (len: 51)
  Operation:  "o..." (len: 51)
  Protocol:   "P..." (len: 51)

  Ed25519:    "tz1.." (len: 36)
  Contract:   "TZ1.." (len: 36)

  NetworkdId: "id.." (len: 30)
```

Other internal prefixes (in the RPC):

```
  Hash of Michelson's expression: "expr..." (len: 54)

  Ed25519 public key: "edpk..." (len: 54)
  Ed25519 secret key: "edsk..." (len: 98)
  Ed25519 signature:  "edsig.." (len: 99)

  Hash of a random seed nonce: "nce...." (len: 53)
  Random seed:                 "rng...." (len: 53)
```
2017-02-24 15:44:21 +01:00

320 lines
9.0 KiB
OCaml

(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2016. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
let (//) = Filename.concat
let (>>=) = Lwt.bind
let (>|=) = Lwt.(>|=)
open Utils
let () =
let expected_primitive = "blake2b"
and primitive = Sodium.Generichash.primitive in
if primitive <> expected_primitive then begin
Printf.eprintf
"FATAL ERROR: \
invalid value for Sodium.Generichash.primitive: %S (expected %S)@."
primitive expected_primitive ;
exit 1
end
(*-- Signatures -------------------------------------------------------------*)
module type MINIMAL_HASH = sig
type t
val name: string
val title: string
val hash_bytes: MBytes.t list -> t
val hash_string: string list -> t
val size: int (* in bytes *)
val compare: t -> t -> int
val equal: t -> t -> bool
val of_hex: string -> t
val to_hex: t -> string
val of_string: string -> t
val to_string: t -> string
val to_bytes: t -> MBytes.t
val of_bytes: MBytes.t -> t
val read: MBytes.t -> int -> t
val write: MBytes.t -> int -> t -> unit
val to_path: t -> string list
val of_path: string list -> t
val prefix_path: string -> string list
val path_len: int
end
module type HASH = sig
include MINIMAL_HASH
val of_b58check: string -> t
val to_b58check: t -> string
val to_short_b58check: t -> string
val encoding: t Data_encoding.t
val pp: Format.formatter -> t -> unit
val pp_short: Format.formatter -> t -> unit
type Base58.data += Hash of t
val b58check_encoding: t Base58.encoding
end
module type Name = sig
val name: string
val title: string
val size: int option
end
module type PrefixedName = sig
include Name
val b58check_prefix: string
end
(*-- Type specific Hash builder ---------------------------------------------*)
module Make_minimal_Blake2B (K : Name) = struct
type t = Sodium.Generichash.hash
include K
let size =
match K.size with
| None -> 32
| Some x -> x
let of_string s =
if String.length s <> size then begin
let msg =
Printf.sprintf "%s.of_string: wrong string size (%d)"
K.name (String.length s) in
raise (Invalid_argument msg)
end ;
Sodium.Generichash.Bytes.to_hash (Bytes.of_string s)
let to_string s = Bytes.to_string (Sodium.Generichash.Bytes.of_hash s)
let of_hex s = of_string (Hex_encode.hex_decode s)
let to_hex s = Hex_encode.hex_encode (to_string s)
let compare = Sodium.Generichash.compare
let equal x y = compare x y = 0
let of_bytes b =
if MBytes.length b <> size then begin
let msg =
Printf.sprintf "%s.of_bytes: wrong string size (%d)"
K.name (MBytes.length b) in
raise (Invalid_argument msg)
end ;
Sodium.Generichash.Bigbytes.to_hash b
let to_bytes = Sodium.Generichash.Bigbytes.of_hash
let read src off = of_bytes @@ MBytes.sub src off size
let write dst off h = MBytes.blit (to_bytes h) 0 dst off size
let hash_bytes l =
let open Sodium.Generichash in
let state = init ~size () in
List.iter (Bigbytes.update state) l ;
final state
let hash_string l =
let open Sodium.Generichash in
let state = init ~size () in
List.iter
(fun s -> Bytes.update state (BytesLabels.unsafe_of_string s))
l ;
final state
module Set = Set.Make(struct type nonrec t = t let compare = compare end)
let fold_read f buf off len init =
let last = off + len * size in
if last > MBytes.length buf then
invalid_arg "Hash.read_set: invalid size.";
let rec loop acc off =
if off >= last then
acc
else
let hash = read buf off in
loop (f hash acc) (off + size)
in
loop init off
module Map = Map.Make(struct type nonrec t = t let compare = compare end)
module Table =
Hashtbl.Make(struct
type nonrec t = t
let hash s =
Int64.to_int
(EndianString.BigEndian.get_int64
(Bytes.unsafe_to_string (Sodium.Generichash.Bytes.of_hash s))
0)
let equal = equal
end)
let path_len = 6
let to_path key =
let key = to_hex key in
[ String.sub key 0 2 ; String.sub key 2 2 ;
String.sub key 4 2 ; String.sub key 6 2 ;
String.sub key 8 2 ; String.sub key 10 (size * 2 - 10) ]
let of_path path =
let path = String.concat "" path in
of_hex path
let prefix_path p =
let p = Hex_encode.hex_encode p in
let len = String.length p in
let p1 = if len >= 2 then String.sub p 0 2 else ""
and p2 = if len >= 4 then String.sub p 2 2 else ""
and p3 = if len >= 6 then String.sub p 4 2 else ""
and p4 = if len >= 8 then String.sub p 6 2 else ""
and p5 = if len >= 10 then String.sub p 8 2 else ""
and p6 = if len > 10 then String.sub p 10 (len - 10) else "" in
[ p1 ; p2 ; p3 ; p4 ; p5 ; p6 ]
end
module Make_Blake2B (R : sig
val register_encoding:
prefix: string ->
length:int ->
to_raw: ('a -> string) ->
of_raw: (string -> 'a option) ->
wrap: ('a -> Base58.data) ->
'a Base58.encoding
end) (K : PrefixedName) = struct
include Make_minimal_Blake2B(K)
(* Serializers *)
type Base58.data += Hash of t
let b58check_encoding =
R.register_encoding
~prefix: K.b58check_prefix
~length:size
~wrap: (fun s -> Hash s)
~of_raw:(fun h -> Some (of_string h)) ~to_raw:to_string
let of_b58check s =
match Base58.simple_decode b58check_encoding s with
| Some x -> x
| None -> Format.kasprintf failwith "Unexpected hash (%s)" K.name
let to_b58check s = Base58.simple_encode b58check_encoding s
let to_short_b58check s =
String.sub (to_b58check s) 0 (10 + 2 * String.length K.b58check_prefix)
let encoding =
let open Data_encoding in
splitted
~binary:
(conv to_bytes of_bytes (Fixed.bytes size))
~json:
(describe ~title: (K.title ^ " (Base58Check-encoded Sha256)") @@
conv to_b58check (Data_encoding.Json.wrap_error of_b58check) string)
let param ?(name=K.name) ?(desc=K.title) t =
Cli_entries.param ~name ~desc (fun _ str -> Lwt.return (of_b58check str)) t
let pp ppf t =
Format.pp_print_string ppf (to_b58check t)
let pp_short ppf t =
Format.pp_print_string ppf (to_short_b58check t)
end
(*-- Hash sets and maps -----------------------------------------------------*)
module Hash_set (Hash : HASH) = struct
include Set.Make (Hash)
let encoding =
Data_encoding.conv
elements
(fun l -> List.fold_left (fun m x -> add x m) empty l)
Data_encoding.(list Hash.encoding)
end
module Hash_map (Hash : HASH) = struct
include Map.Make (Hash)
let encoding arg_encoding =
Data_encoding.conv
bindings
(fun l -> List.fold_left (fun m (k,v) -> add k v m) empty l)
Data_encoding.(list (tup2 Hash.encoding arg_encoding))
end
module Hash_table (Hash : MINIMAL_HASH)
: Hashtbl.S with type key = Hash.t
= Hashtbl.Make (struct
type t = Hash.t
let equal = Hash.equal
let hash v =
let raw_hash = Hash.to_string v in
let int64_hash = EndianString.BigEndian.get_int64 raw_hash 0 in
Int64.to_int int64_hash
end)
(*-- Pre-instanciated hashes ------------------------------------------------*)
module Block_hash =
Make_Blake2B (Base58) (struct
let name = "Block_hash"
let title = "A Tezos block ID"
let b58check_prefix = Base58.Prefix.block_hash
let size = None
end)
module Block_hash_set = Hash_set (Block_hash)
module Block_hash_map = Hash_map (Block_hash)
module Block_hash_table = Hash_table (Block_hash)
module Operation_hash =
Make_Blake2B (Base58) (struct
let name = "Operation_hash"
let title = "A Tezos operation ID"
let b58check_prefix = Base58.Prefix.operation_hash
let size = None
end)
module Operation_hash_set = Hash_set (Operation_hash)
module Operation_hash_map = Hash_map (Operation_hash)
module Operation_hash_table = Hash_table (Operation_hash)
module Protocol_hash =
Make_Blake2B (Base58) (struct
let name = "Protocol_hash"
let title = "A Tezos protocol ID"
let b58check_prefix = Base58.Prefix.protocol_hash
let size = None
end)
module Protocol_hash_set = Hash_set (Protocol_hash)
module Protocol_hash_map = Hash_map (Protocol_hash)
module Protocol_hash_table = Hash_table (Protocol_hash)
module Generic_hash =
Make_minimal_Blake2B (struct
let name = "Generic_hash"
let title = ""
let size = None
end)
let () =
Base58.check_encoded_prefix Block_hash.b58check_encoding "B" 51 ;
Base58.check_encoded_prefix Operation_hash.b58check_encoding "o" 51 ;
Base58.check_encoded_prefix Protocol_hash.b58check_encoding "P" 51