ligo/src/lib_client_base/client_keys.ml
2018-03-07 18:14:51 +01:00

287 lines
10 KiB
OCaml

(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2018. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
type error += Unregistered_key_scheme of string
let () =
register_error_kind `Permanent
~id: "cli.unregistered_key_scheme"
~title: "Unregistered key scheme"
~description: "A key has been provided with an \
unregistered scheme (no corresponding plugin)"
~pp:
(fun ppf s ->
Format.fprintf ppf "No matching plugin for key scheme %s" s)
Data_encoding.(obj1 (req "value" string))
(function Unregistered_key_scheme s -> Some s | _ -> None)
(fun s -> Unregistered_key_scheme s)
module Public_key_hash = Client_aliases.Alias (struct
type t = Ed25519.Public_key_hash.t
let encoding = Ed25519.Public_key_hash.encoding
let of_source s = Lwt.return (Ed25519.Public_key_hash.of_b58check s)
let to_source p = return (Ed25519.Public_key_hash.to_b58check p)
let name = "public key hash"
end)
module type LOCATOR = sig
val name : string
type t
val create : scheme:string -> location:string -> t
val scheme : t -> string
val location : t -> string
val to_string : t -> string
val pp : Format.formatter -> t -> unit
end
type sk_locator = Sk_locator of { scheme : string ; location : string }
type pk_locator = Pk_locator of { scheme : string ; location : string }
module Sk_locator = struct
let name = "secret key"
type t = sk_locator
let create ~scheme ~location =
Sk_locator { scheme ; location }
let scheme (Sk_locator { scheme }) = scheme
let location (Sk_locator { location }) = location
let to_string (Sk_locator { scheme ; location }) =
scheme ^ ":" ^ location
let pp ppf (Sk_locator { scheme ; location }) =
Format.pp_print_string ppf (scheme ^ ":" ^ location)
end
module Pk_locator = struct
let name = "public key"
type t = pk_locator
let create ~scheme ~location =
Pk_locator { scheme ; location }
let scheme (Pk_locator { scheme }) = scheme
let location (Pk_locator { location }) = location
let to_string (Pk_locator { scheme ; location }) =
scheme ^ ":" ^ location
let pp ppf (Pk_locator { scheme ; location }) =
Format.pp_print_string ppf (scheme ^ ":" ^ location)
end
module type KEY = sig
type t
val to_b58check : t -> string
val of_b58check_exn : string -> t
end
module Locator (K : KEY) (L : LOCATOR) = struct
include L
let of_unencrypted k =
L.create ~scheme:"unencrypted"
~location:(K.to_b58check k)
let of_string s =
match String.index s ':' with
| exception Not_found ->
of_unencrypted (K.of_b58check_exn s)
| i ->
let len = String.length s in
create
~scheme:(String.sub s 0 i)
~location:(String.sub s (i+1) (len-i-1))
let of_source s = return (of_string s)
let to_source t = return (to_string t)
let encoding = Data_encoding.(conv to_string of_string string)
end
module Secret_key_locator = Locator(Ed25519.Secret_key)(Sk_locator)
module Secret_key = Client_aliases.Alias (Secret_key_locator)
module Public_key_locator = Locator(Ed25519.Public_key)(Pk_locator)
module Public_key = Client_aliases.Alias (Public_key_locator)
module type SIGNER = sig
type secret_key
type public_key
val scheme : string
val title : string
val description : string
val init : #Client_context.io_wallet -> unit tzresult Lwt.t
val sk_locator_of_human_input : #Client_context.io_wallet -> string list -> sk_locator tzresult Lwt.t
val pk_locator_of_human_input : #Client_context.io_wallet -> string list -> pk_locator tzresult Lwt.t
val sk_of_locator : sk_locator -> secret_key tzresult Lwt.t
val pk_of_locator : pk_locator -> public_key tzresult Lwt.t
val sk_to_locator : secret_key -> sk_locator Lwt.t
val pk_to_locator : public_key -> pk_locator Lwt.t
val neuterize : secret_key -> public_key Lwt.t
val public_key : public_key -> Ed25519.Public_key.t Lwt.t
val public_key_hash : public_key -> Ed25519.Public_key_hash.t Lwt.t
val sign : secret_key -> MBytes.t -> Ed25519.Signature.t tzresult Lwt.t
end
let signers_table : (string, (module SIGNER) * bool) Hashtbl.t = Hashtbl.create 13
let register_signer signer =
let module Signer = (val signer : SIGNER) in
Hashtbl.replace signers_table Signer.scheme (signer, false)
let find_signer_for_key cctxt ~scheme =
match Hashtbl.find signers_table scheme with
| exception Not_found -> fail (Unregistered_key_scheme scheme)
| signer, false ->
let module Signer = (val signer : SIGNER) in
Signer.init cctxt >>=? fun () ->
return signer
| signer, true -> return signer
let registered_signers () : (string * (module SIGNER)) list =
Hashtbl.fold (fun k (v, _) acc -> (k, v) :: acc) signers_table []
let sign cctxt ((Sk_locator { scheme }) as skloc) buf =
find_signer_for_key cctxt ~scheme >>=? fun signer ->
let module Signer = (val signer : SIGNER) in
Signer.sk_of_locator skloc >>=? fun t ->
Signer.sign t buf
let append cctxt loc buf =
sign cctxt loc buf >>|? fun signature ->
MBytes.concat buf (Ed25519.Signature.to_bytes signature)
let gen_keys ?(force=false) ?seed (cctxt : #Client_context.io_wallet) name =
let seed =
match seed with
| None -> Ed25519.Seed.generate ()
| Some s -> s in
let _, public_key, secret_key = Ed25519.generate_seeded_key seed in
Secret_key.add ~force cctxt name
(Secret_key_locator.of_unencrypted secret_key) >>=? fun () ->
Public_key.add ~force cctxt name
(Public_key_locator.of_unencrypted public_key) >>=? fun () ->
Public_key_hash.add ~force
cctxt name (Ed25519.Public_key.hash public_key) >>=? fun () ->
return ()
let gen_keys_containing ?(prefix=false) ?(force=false) ~containing ~name (cctxt : #Client_context.full) =
let unrepresentable =
List.filter (fun s -> not @@ Base58.Alphabet.all_in_alphabet Base58.Alphabet.bitcoin s) containing in
match unrepresentable with
| _ :: _ ->
cctxt#warning
"The following can't be written in the key alphabet (%a): %a"
Base58.Alphabet.pp Base58.Alphabet.bitcoin
(Format.pp_print_list
~pp_sep:(fun ppf () -> Format.fprintf ppf ", ")
(fun ppf s -> Format.fprintf ppf "'%s'" s))
unrepresentable >>= return
| [] ->
Public_key_hash.mem cctxt name >>=? fun name_exists ->
if name_exists && not force
then
cctxt#warning
"Key for name '%s' already exists. Use -force to update." name >>= return
else
begin
cctxt#warning "This process uses a brute force search and \
may take a long time to find a key." >>= fun () ->
let matches =
if prefix then
let containing_tz1 = List.map ((^) "tz1") containing in
(fun key -> List.exists
(fun containing ->
String.sub key 0 (String.length containing) = containing)
containing_tz1)
else
let re = Re.Str.regexp (String.concat "\\|" containing) in
(fun key -> try ignore (Re.Str.search_forward re key 0); true
with Not_found -> false) in
let rec loop attempts =
let seed = Ed25519.Seed.generate () in
let _, public_key, secret_key = Ed25519.generate_seeded_key seed in
let hash = Ed25519.Public_key_hash.to_b58check @@ Ed25519.Public_key.hash public_key in
if matches hash
then
Secret_key.add ~force cctxt name
(Secret_key_locator.of_unencrypted secret_key) >>=? fun () ->
Public_key.add ~force cctxt name
(Public_key_locator.of_unencrypted public_key) >>=? fun () ->
Public_key_hash.add ~force cctxt name (Ed25519.Public_key.hash public_key) >>=? fun () ->
return hash
else begin if attempts mod 25_000 = 0
then cctxt#message "Tried %d keys without finding a match" attempts
else Lwt.return () end >>= fun () ->
loop (attempts + 1) in
loop 1 >>=? fun key_hash ->
cctxt#message
"Generated '%s' under the name '%s'." key_hash name >>= fun () ->
return ()
end
let get_key (cctxt : #Client_context.wallet) pkh =
Public_key_hash.rev_find cctxt pkh >>=? function
| None -> failwith "no keys for the source contract manager"
| Some n ->
Public_key.find cctxt n >>=? fun pk ->
Secret_key.find cctxt n >>=? fun sk ->
let scheme = Secret_key_locator.scheme sk in
find_signer_for_key cctxt ~scheme >>=? fun signer ->
let module Signer = (val signer : SIGNER) in
Signer.pk_of_locator pk >>=? fun pk ->
Signer.public_key pk >>= fun pk ->
return (n, pk, sk)
let get_keys (wallet : #Client_context.io_wallet) =
Secret_key.load wallet >>=? fun sks ->
Lwt_list.filter_map_s begin fun (name, sk) ->
begin
Public_key.find wallet name >>=? fun pk ->
Public_key_hash.find wallet name >>=? fun pkh ->
let scheme = Public_key_locator.scheme pk in
find_signer_for_key wallet ~scheme >>=? fun signer ->
let module Signer = (val signer : SIGNER) in
Signer.pk_of_locator pk >>=? fun pk ->
Signer.public_key pk >>= fun pk ->
return (name, pkh, pk, sk)
end >>= function
| Ok r -> Lwt.return (Some r)
| Error _ -> Lwt.return_none
end sks >>= fun keys ->
return keys
let list_keys cctxt =
Public_key_hash.load cctxt >>=? fun l ->
map_s
(fun (name, pkh) ->
Public_key.find_opt cctxt name >>=? fun pkm ->
Secret_key.find_opt cctxt name >>=? fun pks ->
return (name, pkh, pkm, pks))
l
let alias_keys cctxt name =
Public_key_hash.load cctxt >>=? fun l ->
let rec find_key = function
| [] -> return None
| (key_name, pkh) :: tl ->
if key_name = name
then
Public_key.find_opt cctxt name >>=? fun pkm ->
Secret_key.find_opt cctxt name >>=? fun pks ->
return (Some (pkh, pkm, pks))
else find_key tl
in find_key l
let force_switch () =
Cli_entries.switch
~long:"force" ~short:'f'
~doc:"overwrite existing keys" ()