(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) module Ed25519 = Environment.Ed25519 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 Public_key = Client_aliases.Alias (struct type t = Ed25519.Public_key.t let encoding = Ed25519.Public_key.encoding let of_source _ s = Lwt.return (Ed25519.Public_key.of_b58check s) let to_source _ p = return (Ed25519.Public_key.to_b58check p) let name = "public key" end) module Secret_key = Client_aliases.Alias (struct type t = Ed25519.Secret_key.t let encoding = Ed25519.Secret_key.encoding let of_source _ s = Lwt.return (Ed25519.Secret_key.of_b58check s) let to_source _ p = return (Ed25519.Secret_key.to_b58check p) let name = "secret key" end) module Seed = struct let to_hex s = Sodium.Sign.Bytes.of_seed s |> Bytes.to_string |> Hex_encode.hex_encode let of_hex s = Hex_encode.hex_decode s |> Bytes.of_string |> Sodium.Sign.Bytes.to_seed let generate () = (* Seed is 32 bytes long *) Sodium.Random.Bytes.generate Sodium.Sign.seed_size |> Sodium.Sign.Bytes.to_seed let extract = Sodium.Sign.secret_key_to_seed end let gen_keys ?seed cctxt name = let seed = match seed with | None -> Seed.generate () | Some s -> s in let secret_key, public_key = Sodium.Sign.seed_keypair seed in Secret_key.add cctxt name secret_key >>=? fun () -> Public_key.add cctxt name public_key >>=? fun () -> Public_key_hash.add cctxt name (Ed25519.Public_key.hash public_key) >>=? fun () -> cctxt.message "I generated a brand new pair of keys under the name '%s'." name >>= fun () -> return () let check_keys_consistency pk sk = let message = MBytes.of_string "Voulez-vous coucher avec moi, ce soir ?" in let signature = Ed25519.sign sk message in Ed25519.Signature.check pk signature message let get_key cctxt pkh = Public_key_hash.rev_find cctxt pkh >>=? function | None -> cctxt.error "no keys for the source contract manager" | Some n -> Public_key.find cctxt n >>=? fun pk -> Secret_key.find cctxt n >>=? fun sk -> return (n, pk, sk) let get_keys cctxt = Secret_key.load cctxt >>=? fun sks -> Lwt_list.filter_map_s (fun (name, sk) -> begin Public_key.find cctxt name >>=? fun pk -> Public_key_hash.find cctxt name >>=? fun pkh -> return (name, pkh, pk, sk) end >>= function | Ok r -> Lwt.return (Some r) | Error _ -> Lwt.return_none) sks >>= fun keys -> return keys let list_keys cctxt = Public_key_hash.load cctxt >>=? fun l -> map_s (fun (name, pkh) -> Public_key.mem cctxt name >>=? fun pkm -> Secret_key.mem cctxt name >>=? fun pks -> return (name, pkh, pkm, pks)) l let group = { Cli_entries.name = "keys" ; title = "Commands for managing cryptographic keys" } let commands () = let open Cli_entries in let open Client_commands in [ command ~group ~desc: "generate a pair of keys" (prefixes [ "gen" ; "keys" ] @@ Secret_key.fresh_alias_param @@ stop) (fun name cctxt -> gen_keys cctxt name) ; command ~group ~desc: "add a secret key to the wallet" (prefixes [ "add" ; "secret" ; "key" ] @@ Secret_key.fresh_alias_param @@ Secret_key.source_param @@ stop) (fun name sk cctxt -> Public_key.find_opt cctxt name >>=? function | None -> failwith "no public key named '%s', add it before adding the secret key" name | Some pk -> fail_unless (check_keys_consistency pk sk || cctxt.config.force) (failure "public and secret keys '%s' don't correspond, \ please don't use -force true" name) >>=? fun () -> Secret_key.add cctxt name sk) ; command ~group ~desc: "add a public key to the wallet" (prefixes [ "add" ; "public" ; "key" ] @@ Public_key.fresh_alias_param @@ Public_key.source_param @@ stop) (fun name key cctxt -> Public_key_hash.add cctxt name (Ed25519.Public_key.hash key) >>=? fun () -> Public_key.add cctxt name key) ; command ~group ~desc: "add an ID a public key hash to the wallet" (prefixes [ "add" ; "identity" ] @@ Public_key_hash.fresh_alias_param @@ Public_key_hash.source_param @@ stop) (fun name hash cctxt -> Public_key_hash.add cctxt name hash) ; command ~group ~desc: "list all public key hashes and associated keys" (fixed [ "list" ; "known" ; "identities" ]) (fun cctxt -> list_keys cctxt >>=? fun l -> iter_s (fun (name, pkh, pkm, pks) -> Public_key_hash.to_source cctxt pkh >>=? fun v -> cctxt.message "%s: %s%s%s" name v (if pkm then " (public key known)" else "") (if pks then " (secret key known)" else "") >>= fun () -> return ()) l) ; command ~group ~desc: "forget all keys" (fixed [ "forget" ; "all" ; "keys" ]) (fun cctxt -> fail_unless cctxt.config.force (failure "this can only used with option -force true") >>=? fun () -> Public_key.save cctxt [] >>=? fun () -> Secret_key.save cctxt [] >>=? fun () -> Public_key_hash.save cctxt []) ; ]