(**************************************************************************) (* *) (* Copyright (c) 2014 - 2018. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) open Client_keys let group = { Clic.name = "keys" ; title = "Commands for managing the wallet of cryptographic keys" } let encrypted_switch () = if List.exists (fun (scheme, _) -> scheme = Tezos_signer_backends.Unencrypted.scheme) (Client_keys.registered_signers ()) then Clic.switch ~long:"encrypted" ~doc:("Encrypt the key on-disk") () else Clic.constant true let sig_algo_arg = Clic.default_arg ~doc:"use custom signature algorithm" ~long:"sig" ~short:'s' ~placeholder:"ed25519|secp256k1|p256" ~default: "ed25519" (Signature.algo_param ()) let gen_keys_containing ?(encrypted = false) ?(prefix=false) ?(force=false) ~containing ~name (cctxt : #Client_context.io_wallet) = 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 public_key_hash, public_key, secret_key = Signature.generate_key () in let hash = Signature.Public_key_hash.to_b58check @@ Signature.Public_key.hash public_key in if matches hash then let pk_uri = Tezos_signer_backends.Unencrypted.make_pk public_key in begin if encrypted then Tezos_signer_backends.Encrypted.encrypt cctxt secret_key else return (Tezos_signer_backends.Unencrypted.make_sk secret_key) end >>=? fun sk_uri -> register_key cctxt ~force (public_key_hash, pk_uri, sk_uri) name >>=? 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 commands () : Client_context.io_wallet Clic.command list = let open Clic in let show_private_switch = switch ~long:"show-secret" ~short:'S' ~doc:"show the private key" () in [ command ~group ~desc: "List supported signing schemes.\n\ Signing schemes are identifiers for signer modules: the \ built-in signing routines, a hardware wallet, an \ external agent, etc.\n\ Each signer has its own format for describing secret \ keys, such a raw secret key for the default \ `unencrypted` scheme, the path on a hardware security \ module, an alias for an external agent, etc.\n\ This command gives the list of signer modules that this \ version of the tezos client supports." no_options (fixed [ "list" ; "signing" ; "schemes" ]) (fun () (cctxt : Client_context.io_wallet) -> let signers = List.sort (fun (ka, _) (kb, _) -> String.compare ka kb) (registered_signers ()) in Lwt_list.iter_s (fun (n, (module S : SIGNER)) -> cctxt#message "@[Scheme `%s`: %s@,@[%a@]@]" n S.title Format.pp_print_text S.description) signers >>= return) ; command ~group ~desc: "Generate a pair of keys." (args3 (Secret_key.force_switch ()) sig_algo_arg (encrypted_switch ())) (prefixes [ "gen" ; "keys" ] @@ Secret_key.fresh_alias_param @@ stop) (fun (force, algo, encrypted) name (cctxt : Client_context.io_wallet) -> Secret_key.of_fresh cctxt force name >>=? fun name -> let (pkh, pk, sk) = Signature.generate_key ~algo () in let pk_uri = Tezos_signer_backends.Unencrypted.make_pk pk in begin if encrypted then Tezos_signer_backends.Encrypted.encrypt cctxt sk else return (Tezos_signer_backends.Unencrypted.make_sk sk) end >>=? fun sk_uri -> register_key cctxt ~force (pkh, pk_uri, sk_uri) name) ; command ~group ~desc: "Generate keys including the given string." (args3 (switch ~long:"prefix" ~short:'P' ~doc:"the key must begin with tz1[word]" ()) (force_switch ()) (encrypted_switch ())) (prefixes [ "gen" ; "vanity" ; "keys" ] @@ Public_key_hash.fresh_alias_param @@ prefix "matching" @@ (seq_of_param @@ string ~name:"words" ~desc:"string key must contain one of these words")) (fun (prefix, force, encrypted) name containing (cctxt : Client_context.io_wallet) -> Public_key_hash.of_fresh cctxt force name >>=? fun name -> gen_keys_containing ~encrypted ~force ~prefix ~containing ~name cctxt) ; command ~group ~desc: "Add a secret key to the wallet." (args1 (Secret_key.force_switch ())) (prefix "import" @@ prefixes [ "secret" ; "key" ] @@ Secret_key.fresh_alias_param @@ Client_keys.sk_uri_param @@ stop) (fun force name sk_uri (cctxt : Client_context.io_wallet) -> Secret_key.of_fresh cctxt force name >>=? fun name -> Client_keys.neuterize sk_uri >>=? fun pk_uri -> begin Public_key.find_opt cctxt name >>=? function | None -> return () | Some (pk_uri_found, _) -> fail_unless (pk_uri = pk_uri_found || force) (failure "public and secret keys '%s' don't correspond, \ please don't use -force" name) end >>=? fun () -> Client_keys.public_key_hash pk_uri >>=? fun (pkh, public_key) -> cctxt#message "Tezos address added: %a" Signature.Public_key_hash.pp pkh >>= fun () -> register_key cctxt ~force (pkh, pk_uri, sk_uri) ?public_key name) ; command ~group ~desc: "Add a public key to the wallet." (args1 (Public_key.force_switch ())) (prefix "import" @@ prefixes [ "public" ; "key" ] @@ Public_key.fresh_alias_param @@ Client_keys.pk_uri_param @@ stop) (fun force name pk_uri (cctxt : Client_context.io_wallet) -> Public_key.of_fresh cctxt force name >>=? fun name -> Client_keys.public_key_hash pk_uri >>=? fun (pkh, public_key) -> Public_key_hash.add ~force cctxt name pkh >>=? fun () -> cctxt#message "Tezos address added: %a" Signature.Public_key_hash.pp pkh >>= fun () -> Public_key.add ~force cctxt name (pk_uri, public_key)) ; command ~group ~desc: "Add an identity to the wallet." (args1 (Public_key.force_switch ())) (prefixes [ "add" ; "identity" ] @@ Public_key_hash.fresh_alias_param @@ Public_key_hash.source_param @@ stop) (fun force name hash cctxt -> Public_key_hash.of_fresh cctxt force name >>=? fun name -> Public_key_hash.add ~force cctxt name hash) ; command ~group ~desc: "List all identities and associated keys." no_options (fixed [ "list" ; "known" ; "identities" ]) (fun () (cctxt : #Client_context.io_wallet) -> list_keys cctxt >>=? fun l -> iter_s begin fun (name, pkh, pk, sk) -> Public_key_hash.to_source pkh >>=? fun v -> begin match pk, sk with | None, None -> cctxt#message "%s: %s" name v | _, Some uri -> let scheme = Option.unopt ~default:"unencrypted" @@ Uri.scheme (uri : sk_uri :> Uri.t) in cctxt#message "%s: %s (%s sk known)" name v scheme | Some _, _ -> cctxt#message "%s: %s (pk known)" name v end >>= fun () -> return () end l) ; command ~group ~desc: "Show the keys associated with an identity." (args1 show_private_switch) (prefixes [ "show" ; "identity"] @@ Public_key_hash.alias_param @@ stop) (fun show_private (name, _) (cctxt : #Client_context.io_wallet) -> alias_keys cctxt name >>=? fun key_info -> match key_info with | None -> cctxt#message "No keys found for identity" >>= fun () -> return () | Some (pkh, pk, skloc) -> cctxt#message "Hash: %a" Signature.Public_key_hash.pp pkh >>= fun () -> match pk with | None -> return () | Some pk -> cctxt#message "Public Key: %a" Signature.Public_key.pp pk >>= fun () -> if show_private then match skloc with | None -> return () | Some skloc -> Secret_key.to_source skloc >>=? fun skloc -> cctxt#message "Secret Key: %s" skloc >>= fun () -> return () else return ()) ; command ~group ~desc: "Forget the entire wallet of keys." (args1 (Clic.switch ~long:"force" ~short:'f' ~doc:"you got to use the force for that" ())) (fixed [ "forget" ; "all" ; "keys" ]) (fun force (cctxt : Client_context.io_wallet) -> fail_unless force (failure "this can only used with option -force") >>=? fun () -> Public_key.set cctxt [] >>=? fun () -> Secret_key.set cctxt [] >>=? fun () -> Public_key_hash.set cctxt []) ; ]