(*****************************************************************************) (* *) (* 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. *) (* *) (*****************************************************************************) open Client_keys include Tezos_stdlib.Logging.Make(struct let name = "client.signer.ledger" end) let scheme = "ledger" let title = "Built-in signer using Ledger Nano S." let description = "Valid URIs are of the form\n\ \ - ledger://[/]\n\ where is the Base58-encoded public key hash of the key \ at m/44'/1729' and is a BIP32 path anchored at \ m/44'/1729'. Ledger does not yet support non-hardened path so each \ node of the path must be hardened.\n\ Use `tezos-client list connected ledgers` to get the of \ all connected devices." let hard = Int32.logor 0x8000_0000l let tezos_root = [hard 44l ; hard 1729l] (* Those are always valid on Ledger Nano S with latest firmware. *) let vendor_id = 0x2c97 let product_id = 0x0001 let pks : (pk_uri, Signature.Public_key.t) Hashtbl.t = Hashtbl.create 13 let pkhs : (pk_uri, Signature.Public_key_hash.t) Hashtbl.t = Hashtbl.create 13 let curve_of_pkh : Signature.public_key_hash -> Ledgerwallet_tezos.curve = function | Ed25519 _ -> Ledgerwallet_tezos.Ed25519 | Secp256k1 _ -> Secp256k1 | P256 _ -> Secp256r1 let secp256k1_ctx = Libsecp256k1.External.Context.create ~sign:false ~verify:false () type error += | LedgerError of Ledgerwallet.Transport.error let error_encoding = let open Data_encoding in conv (fun e -> Format.asprintf "%a" Ledgerwallet.Transport.pp_error e) (fun _ ->invalid_arg "Ledger error is not deserializable") (obj1 (req "ledger-error" string)) let () = register_error_kind `Permanent ~id: "signer.ledger" ~title: "Ledger error" ~description: "Error when communication to a Ledger Nano S device" ~pp:(fun ppf e -> Format.fprintf ppf "Ledger %a" Ledgerwallet.Transport.pp_error e) error_encoding (function LedgerError e -> Some e | _ -> None) (fun e -> LedgerError e) let wrap_ledger_cmd f = let buf = Buffer.create 100 in let pp = Format.formatter_of_buffer buf in let res = f pp in debug "%s" (Buffer.contents buf) ; match res with | Error err -> fail (LedgerError err) | Ok v -> return v let get_public_key ?(authorize_baking=false) ?(prompt=false) ledger curve path = let path = tezos_root @ path in begin match authorize_baking with | false -> wrap_ledger_cmd begin fun pp -> Ledgerwallet_tezos.get_public_key ~prompt ~pp ledger curve path end | true -> wrap_ledger_cmd begin fun pp -> Ledgerwallet_tezos.authorize_baking ~pp ledger curve path end end >>|? fun pk -> let pk = Cstruct.to_bigarray pk in match curve with | Ledgerwallet_tezos.Ed25519 -> MBytes.set_int8 pk 0 0 ; (* hackish, but works. *) Data_encoding.Binary.of_bytes_exn Signature.Public_key.encoding pk | Secp256k1 -> let open Libsecp256k1.External in let buf = MBytes.create (Key.compressed_pk_bytes + 1) in let pk = Key.read_pk_exn secp256k1_ctx pk in MBytes.set_int8 buf 0 1 ; let _nb_written = Key.write secp256k1_ctx ~pos:1 buf pk in Data_encoding.Binary.of_bytes_exn Signature.Public_key.encoding buf | Secp256r1 -> let open Uecc in let pklen = compressed_size secp256r1 in let buf = MBytes.create (pklen + 1) in match pk_of_bytes secp256r1 pk with | None -> Pervasives.failwith "Impossible to read P256 public key from Ledger" | Some pk -> MBytes.set_int8 buf 0 2 ; let _nb_written = write_key ~compress:true (MBytes.sub buf 1 pklen) pk in Data_encoding.Binary.of_bytes_exn Signature.Public_key.encoding buf module Ledger = struct type t = { device_info : Hidapi.device_info ; version : Ledgerwallet_tezos.Version.t ; of_curve : (Ledgerwallet_tezos.curve * (Signature.Public_key.t * Signature.Public_key_hash.t)) list ; of_pkh : (Signature.Public_key_hash.t * (Signature.Public_key.t * Ledgerwallet_tezos.curve)) list ; } let create ~device_info ~version ~of_curve ~of_pkh = { device_info ; version ; of_curve ; of_pkh } let curves { Ledgerwallet_tezos.Version.major ; minor ; patch ; _ } = let open Ledgerwallet_tezos in if (major, minor, patch) <= (0, 1, 0) then [ Ed25519 ; Secp256k1 ] else [ Ed25519 ; Secp256k1 ; Secp256r1 ] let of_hidapi ?pkh device_info h = let find_ledgers version = fold_left_s begin fun (pkh_found, of_curve, of_pkh) curve -> get_public_key h curve [] >>|? fun pk -> let cur_pkh = Signature.Public_key.hash pk in pkh_found || Option.unopt_map pkh ~default:false ~f:(fun pkh -> pkh = cur_pkh), (curve, (pk, cur_pkh)) :: of_curve, (cur_pkh, (pk, curve)) :: of_pkh end (false, [], []) (curves version) >>=? fun (pkh_found, of_curve, of_pkh) -> match pkh with | None -> return (Some (create ~device_info ~version ~of_curve ~of_pkh)) | Some _ when pkh_found -> return (Some (create ~device_info ~version ~of_curve ~of_pkh)) | _ -> return None in let buf = Buffer.create 100 in let pp = Format.formatter_of_buffer buf in let version = Ledgerwallet_tezos.get_version ~pp h in debug "%s" (Buffer.contents buf) ; match version with | Error (AppError { status = Ledgerwallet.Transport.Status.Ins_not_supported ; _ }) | Error (AppError { status = Ledgerwallet_tezos.Version.Tezos_impossible_to_read_version ; _ }) -> (* version is < 0.1.1. Assume it is 0.0.1, Tezos app. *) let version = { Ledgerwallet_tezos.Version.app_class = Tezos ; major = 0 ; minor = 0 ; patch = 1 ; } in warn "Impossible to read Tezos version, assuming %a" Ledgerwallet_tezos.Version.pp version ; find_ledgers version | Error e -> warn "%a" Ledgerwallet.Transport.pp_error e ; return None | Ok version -> find_ledgers version end let find_ledgers ?pkh () = let ledgers = Hidapi.enumerate ~vendor_id ~product_id () in filter_map_s begin fun device_info -> match Hidapi.(open_path device_info.path) with | None -> return_none | Some h -> Lwt.finalize (fun () -> Ledger.of_hidapi ?pkh device_info h) (fun () -> Hidapi.close h ; Lwt.return_unit) end ledgers let with_ledger pkh f = find_ledgers ~pkh () >>=? function | [] -> failwith "No Ledger found for %a" Signature.Public_key_hash.pp pkh | { device_info ; version ; of_curve ; of_pkh ; _ } :: _ -> match Hidapi.open_path device_info.path with | None -> failwith "Cannot open Ledger %a at path %s" Signature.Public_key_hash.pp pkh device_info.path | Some h -> Lwt.finalize (fun () -> f h version of_curve of_pkh) (fun () -> Hidapi.close h; Lwt.return_unit) let int32_of_path_element x = match Int32.of_string_opt x with | Some i -> Some i | None -> let len = String.length x in if len < 2 then None else Option.map ~f:hard (Int32.of_string_opt (String.sub x 0 (len - 1))) let int32_of_path_element_exn x = match int32_of_path_element x with | None -> invalid_arg "int32_of_path_element_exn" | Some p -> p let neuterize (sk : sk_uri) = return (make_pk_uri (sk :> Uri.t)) let pkh_of_pk_uri (uri : pk_uri) = let uri = (uri :> Uri.t) in match Option.apply (Uri.host uri) ~f:Signature.Public_key_hash.of_b58check_opt with | None -> failwith "No public key hash in %a" Uri.pp_hum uri | Some pkh -> return pkh let pkh_of_sk_uri (uri : sk_uri) = let uri = (uri :> Uri.t) in match Option.apply (Uri.host uri) ~f:Signature.Public_key_hash.of_b58check_opt with | None -> failwith "No public key hash in %a" Uri.pp_hum uri | Some pkh -> return pkh let path_of_sk_uri (uri : sk_uri) = TzString.split_path (Uri.path (uri :> Uri.t)) |> List.map int32_of_path_element_exn let path_of_pk_uri (uri : pk_uri) = TzString.split_path (Uri.path (uri :> Uri.t)) |> List.map int32_of_path_element_exn let public_key (pk_uri : pk_uri) = match Hashtbl.find_opt pks pk_uri with | Some pk -> return pk | None -> pkh_of_pk_uri pk_uri >>=? fun pkh -> with_ledger pkh begin fun ledger _version _of_curve of_pkh -> let _root_pk, curve = List.assoc pkh of_pkh in let path = path_of_pk_uri pk_uri in get_public_key ledger curve path >>=? fun pk -> let pkh = Signature.Public_key.hash pk in Hashtbl.replace pks pk_uri pk ; Hashtbl.replace pkhs pk_uri pkh ; return pk end >>= function | Error err -> failwith "%a" pp_print_error err | Ok v -> return v let public_key_hash pk_uri = match Hashtbl.find_opt pkhs pk_uri with | Some pkh -> return (pkh, None) | None -> public_key pk_uri >>=? fun pk -> return (Hashtbl.find pkhs pk_uri, Some pk) let sign ?watermark sk_uri msg = pkh_of_sk_uri sk_uri >>=? fun pkh -> with_ledger pkh begin fun ledger { major; minor; patch; _ } _of_curve _of_pkh -> let msg = Option.unopt_map watermark ~default:msg ~f:begin fun watermark -> MBytes.concat "" [Signature.bytes_of_watermark watermark ; msg] end in let curve = curve_of_pkh pkh in let path = tezos_root @ path_of_sk_uri sk_uri in let msg_len = MBytes.length msg in wrap_ledger_cmd begin fun pp -> if msg_len > 1024 && (major, minor, patch) < (1, 1, 0) then Ledgerwallet_tezos.sign ~hash_on_ledger:false ~pp ledger curve path (Cstruct.of_bigarray (Blake2B.(to_bytes (hash_bytes [ msg ])))) else Ledgerwallet_tezos.sign ~pp ledger curve path (Cstruct.of_bigarray msg) end >>=? fun signature -> match curve with | Ed25519 -> let signature = Cstruct.to_bigarray signature in let signature = Ed25519.of_bytes_exn signature in return (Signature.of_ed25519 signature) | Secp256k1 -> (* Remove parity info *) Cstruct.(set_uint8 signature 0 (get_uint8 signature 0 land 0xfe)) ; let signature = Cstruct.to_bigarray signature in let open Libsecp256k1.External in let signature = Sign.read_der_exn secp256k1_ctx signature in let bytes = Sign.to_bytes secp256k1_ctx signature in let signature = Secp256k1.of_bytes_exn bytes in return (Signature.of_secp256k1 signature) | Secp256r1 -> (* Remove parity info *) Cstruct.(set_uint8 signature 0 (get_uint8 signature 0 land 0xfe)) ; let signature = Cstruct.to_bigarray signature in let open Libsecp256k1.External in (* We use secp256r1 library to extract P256 DER signature. *) let signature = Sign.read_der_exn secp256k1_ctx signature in let buf = Sign.to_bytes secp256k1_ctx signature in let signature = P256.of_bytes_exn buf in return (Signature.of_p256 signature) end let commands = let open Clic in let group = { Clic.name = "ledger" ; title = "Commands for managing the connected Ledger Nano S devices" } in fun () -> [ Clic.command ~group ~desc: "List supported Ledger Nano S devices connected." no_options (fixed [ "list" ; "connected" ; "ledgers" ]) (fun () (cctxt : Client_context.io_wallet) -> find_ledgers () >>=? function | [] -> cctxt#message "No device found." >>= fun () -> cctxt#message "Make sure a Ledger Nano S is connected and in the Tezos Wallet app." >>= fun () -> return_unit | ledgers -> iter_s begin fun { Ledger.device_info = { Hidapi.path ; manufacturer_string ; product_string ; _ } ; of_curve ; version ; _ } -> let manufacturer = Option.unopt ~default:"(none)" manufacturer_string in let product = Option.unopt ~default:"(none)" product_string in cctxt#message "Found a %a application running on %s %s at [%s]." Ledgerwallet_tezos.Version.pp version manufacturer product path >>= fun () -> let of_curve = List.rev of_curve in cctxt#message "@[@,To add the root key of this ledger, use one of@,\ \ @[%a@]@,\ Each of these tz* is a valid Tezos address.@,\ @,\ To use a derived address, add a hardened BIP32 path suffix \ at the end of the URI.@,\ For instance, to use keys at BIP32 path m/44'/1729'/0'/0', use one of@,\ \ @[%a@]@,\ In this case, your Tezos address will be a derived tz*.@,\ It will be displayed when you do the import, \ or using command `show ledger path`.@]" (Format.pp_print_list (fun ppf (curve, (_pk, pkh)) -> Format.fprintf ppf "tezos-client import secret key ledger_%s_%s ledger://%a # %s signature" (Sys.getenv "USER") (match curve with | Ledgerwallet_tezos.Ed25519 -> "ed" | Ledgerwallet_tezos.Secp256k1 -> "secp" | Ledgerwallet_tezos.Secp256r1 -> "p2") Signature.Public_key_hash.pp pkh (match curve with | Ledgerwallet_tezos.Ed25519 -> "Ed25519" | Ledgerwallet_tezos.Secp256k1 -> "Secp256k1" | Ledgerwallet_tezos.Secp256r1 -> "P-256"))) of_curve (Format.pp_print_list (fun ppf (curve, (_pk, pkh)) -> Format.fprintf ppf "tezos-client import secret key ledger_%s_%s_0_0 \"ledger://%a/0'/0'\"" (Sys.getenv "USER") (match curve with | Ledgerwallet_tezos.Ed25519 -> "ed" | Ledgerwallet_tezos.Secp256k1 -> "secp" | Ledgerwallet_tezos.Secp256r1 -> "p2") Signature.Public_key_hash.pp pkh)) of_curve >>= fun () -> return_unit end ledgers) ; Clic.command ~group ~desc: "Show BIP32 derivation at path for Ledger" no_options (prefixes [ "show" ; "ledger" ; "path" ] @@ Client_keys.sk_uri_param @@ stop) (fun () sk_uri (cctxt : Client_context.io_wallet) -> neuterize sk_uri >>=? fun pk_uri -> pkh_of_pk_uri pk_uri >>=? fun pkh -> find_ledgers ~pkh () >>=? function | [] -> failwith "No ledger found for %a" Signature.Public_key_hash.pp pkh | { Ledger.device_info ; version ; _ } :: _ -> let manufacturer = Option.unopt ~default:"(none)" device_info.manufacturer_string in let product = Option.unopt ~default:"(none)" device_info.product_string in cctxt#message "Found a valid Tezos application running on %s %s at [%s]." manufacturer product device_info.path >>= fun () -> public_key pk_uri >>=? fun pk -> public_key_hash pk_uri >>=? fun (pkh, _) -> let pkh_bytes = Signature.Public_key_hash.to_bytes pkh in match version.app_class with | TezBake -> return_unit | Tezos -> sign ~watermark:Generic_operation sk_uri pkh_bytes >>=? fun signature -> match Signature.check ~watermark:Generic_operation pk signature pkh_bytes with | false -> failwith "Fatal: Ledger cannot sign with %a" Signature.Public_key_hash.pp pkh | true -> cctxt#message "@[Tezos address at this path: %a@,\ Corresponding full public key: %a@]" Signature.Public_key_hash.pp pkh Signature.Public_key.pp pk >>= fun () -> return_unit ) ; Clic.command ~group ~desc: "Authorize a Ledger to bake for a key" no_options (prefixes [ "authorize" ; "ledger" ; "to" ; "bake" ; "for" ] @@ Public_key.alias_param @@ stop) (fun () (_, (pk_uri, _)) (cctxt : Client_context.io_wallet) -> pkh_of_pk_uri pk_uri >>=? fun root_pkh -> with_ledger root_pkh begin fun h _version _of_curve _to_curve -> let path = path_of_pk_uri pk_uri in let curve = curve_of_pkh root_pkh in get_public_key ~authorize_baking:true h curve path >>=? fun pk -> let pkh = Signature.Public_key.hash pk in cctxt#message "@[Authorized baking for address: %a@,\ Corresponding full public key: %a@]" Signature.Public_key_hash.pp pkh Signature.Public_key.pp pk >>= fun () -> return_unit end) ; Clic.command ~group ~desc: "Get high water mark of a Ledger" no_options (prefixes [ "get" ; "ledger" ; "high" ; "watermark" ; "for" ] @@ Client_keys.sk_uri_param @@ stop) (fun () sk_uri (cctxt : Client_context.io_wallet) -> pkh_of_sk_uri sk_uri >>=? fun pkh -> with_ledger pkh begin fun h version _ _ -> match version.app_class with | Tezos -> failwith "Fatal: this operation is only valid with TezBake" | TezBake -> wrap_ledger_cmd begin fun pp -> Ledgerwallet_tezos.get_high_watermark ~pp h end >>=? fun hwm -> cctxt#message "@[%a has high water mark: %ld@]" Signature.Public_key_hash.pp pkh hwm >>= fun () -> return_unit end ) ; Clic.command ~group ~desc: "Set high water mark of a Ledger" no_options (prefixes [ "set" ; "ledger" ; "high" ; "watermark" ; "for" ] @@ Client_keys.sk_uri_param @@ (prefix "to") @@ (param ~name: "high watermark" ~desc: "High watermark" (parameter (fun _ctx s -> try return (Int32.of_string s) with _ -> failwith "%s is not an int32 value" s))) @@ stop) (fun () sk_uri hwm (cctxt : Client_context.io_wallet) -> pkh_of_sk_uri sk_uri >>=? fun pkh -> with_ledger pkh begin fun h version _ _ -> match version.app_class with | Tezos -> failwith "Fatal: this operation is only valid with TezBake" | TezBake -> wrap_ledger_cmd begin fun pp -> Ledgerwallet_tezos.set_high_watermark ~pp h hwm end >>=? fun () -> wrap_ledger_cmd begin fun pp -> Ledgerwallet_tezos.get_high_watermark ~pp h end >>=? fun new_hwm -> cctxt#message "@[%a has now high water mark: %ld@]" Signature.Public_key_hash.pp pkh new_hwm >>= fun () -> return_unit end ) ; ]