ligo/src/lib_client_commands/client_keys_commands.ml

(**************************************************************************)
(*                                                                        *)
(*    Copyright (c) 2014 - 2018.                                          *)
(*    Dynamic Ledger Solutions, Inc. <contact@tezos.com>                  *)
(*                                                                        *)
(*    All rights reserved. No warranty, explicit or implicit, provided.   *)
(*                                                                        *)
(**************************************************************************)

open Client_keys

let group =
  { Cli_entries.name = "keys" ;
    title = "Commands for managing the wallet of cryptographic keys" }

let commands () =
  let open Cli_entries 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.full_context) ->
         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 "@[<v 2>Scheme `%s`: %s@,@[<hov 0>%a@]@]"
                n S.title Format.pp_print_text S.description)
           signers >>= return) ;

    command ~group ~desc: "Generate a pair of (unencrypted) keys."
      (args1 (Secret_key.force_switch ()))
      (prefixes [ "gen" ; "keys" ]
       @@ Secret_key.fresh_alias_param
       @@ stop)
      (fun force name (cctxt : #Client_context.full_context) ->
         Secret_key.of_fresh cctxt force name >>=? fun name ->
         gen_keys ~force cctxt name) ;

    command ~group ~desc: "Generate (unencrypted) keys including the given string."
      (args2
         (switch
            ~long:"prefix"
            ~short:'P'
            ~doc:"the key must begin with tz1[word]"
            ())
         (force_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) name containing cctxt ->
         Public_key_hash.of_fresh cctxt force name >>=? fun name ->
         gen_keys_containing ~force ~prefix ~containing ~name cctxt) ;

    command ~group ~desc: "Add a secret key to the wallet."
      (args1 (Secret_key.force_switch ()))
      (prefix "import"
       @@ string
         ~name:"scheme"
         ~desc:"signer to use for this secret key\n\
                Use command `list signing schemes` for a list of \
                supported signers."
       @@ prefixes [ "secret" ; "key" ]
       @@ Secret_key.fresh_alias_param
       @@ seq_of_param
         (string
            ~name:"spec"
            ~desc:"secret key specification\n\
                   Varies from one scheme to the other.\n\
                   Use command `list signing schemes` for more \
                   information."))
      (fun force scheme name spec cctxt ->
         Secret_key.of_fresh cctxt force name >>=? fun name ->
         find_signer_for_key ~scheme cctxt >>=? fun signer ->
         let module Signer = (val signer : SIGNER) in
         Signer.sk_locator_of_human_input
           (cctxt :> Client_context.io_wallet) spec >>=? fun skloc ->
         Signer.sk_of_locator skloc >>=? fun sk ->
         Signer.neuterize sk >>= fun pk ->
         Signer.pk_to_locator pk >>= fun pkloc ->
         Public_key.find_opt cctxt name >>=? function
         | None ->
             Signer.public_key_hash pk >>= fun pkh ->
             Secret_key.add ~force cctxt name skloc >>=? fun () ->
             Public_key_hash.add ~force cctxt name pkh >>=? fun () ->
             Public_key.add ~force cctxt name pkloc
         | Some pk ->
             fail_unless (pkloc = pk || force)
               (failure
                  "public and secret keys '%s' don't correspond, \
                   please don't use -force" name) >>=? fun () ->
             Secret_key.add ~force cctxt name skloc) ;

    command ~group ~desc: "Add a public key to the wallet."
      (args1 (Public_key.force_switch ()))
      (prefix "import"
       @@ string
         ~name:"scheme"
         ~desc:"signer to use for this public key\n\
                Use command `list signing schemes` for a list of \
                supported signers."
       @@ prefixes [ "public" ; "key" ]
       @@ Public_key.fresh_alias_param
       @@ seq_of_param
         (string
            ~name:"spec"
            ~desc:"public key specification\n\
                   Varies from one scheme to the other.\n\
                   Use command `list signing schemes` for more \
                   information."))
      (fun force scheme name location cctxt ->
         Public_key.of_fresh cctxt force name >>=? fun name ->
         find_signer_for_key ~scheme cctxt >>=? fun signer ->
         let module Signer = (val signer : SIGNER) in
         Signer.pk_locator_of_human_input
           (cctxt :> Client_context.io_wallet) location >>=? fun pkloc ->
         Signer.pk_of_locator pkloc >>=? fun pk ->
         Signer.public_key_hash pk >>= fun pkh ->
         Public_key_hash.add ~force cctxt name pkh >>=? fun () ->
         Public_key.add ~force cctxt name pkloc) ;

    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.full_context) ->
         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 Sk_locator { scheme } ->
                 cctxt#message "%s: %s (%s sk known)" name v scheme
             | Some Pk_locator { scheme }, _ ->
                 cctxt#message "%s: %s (%s pk known)" name v scheme
           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.full_context) ->
         let ok_lwt x = x >>= (fun x -> return x) in
         alias_keys cctxt name >>=? fun key_info ->
         match key_info with
         | None -> ok_lwt @@ cctxt#message "No keys found for identity"
         | Some (pkh, pk, skloc) ->
             ok_lwt @@ cctxt#message "Hash: %a"
               Ed25519.Public_key_hash.pp pkh >>=? fun () ->
             match pk with
             | None -> return ()
             | Some (Pk_locator { scheme } as pkloc) ->
                 find_signer_for_key ~scheme cctxt >>=? fun signer ->
                 let module Signer = (val signer : SIGNER) in
                 Signer.pk_of_locator pkloc >>=? fun pk ->
                 Signer.public_key pk >>= fun pk ->
                 ok_lwt @@ cctxt#message "Public Key: %a"
                   Ed25519.Public_key.pp pk >>=? fun () ->
                 if show_private then
                   match skloc with
                   | None -> return ()
                   | Some skloc ->
                       Secret_key.to_source skloc >>=? fun skloc ->
                       ok_lwt @@ cctxt#message "Secret Key: %s" skloc
                 else return ()) ;

    command ~group ~desc: "Forget the entire wallet of keys."
      (args1 (Cli_entries.switch
                ~long:"force" ~short:'f'
                ~doc:"you got to use the force for that" ()))
      (fixed [ "forget" ; "all" ; "keys" ])
      (fun force cctxt ->
         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 []) ;

  ]
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`(**************************************************************************)`
			`(* *)`
			`(* Copyright (c) 2014 - 2018. *)`
			`(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)`
			`(* *)`
			`(* All rights reserved. No warranty, explicit or implicit, provided. *)`
			`(* *)`
			`(**************************************************************************)`

			`open Client_keys`

			`let group =`
			`{ Cli_entries.name = "keys" ;`
			`title = "Commands for managing the wallet of cryptographic keys" }`

			`let commands () =`
			`let open Cli_entries 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" ])`
Client: split Client_commands into Client_commands and Client_context 2018-02-14 18:20:03 +04:00			`(fun () (cctxt : #Client_context.full_context) ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`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 "@[<v 2>Scheme `%s`: %s@,@[<hov 0>%a@]@]"
			`n S.title Format.pp_print_text S.description)`
			`signers >>= return) ;`

			`command ~group ~desc: "Generate a pair of (unencrypted) keys."`
			`(args1 (Secret_key.force_switch ()))`
			`(prefixes [ "gen" ; "keys" ]`
			`@@ Secret_key.fresh_alias_param`
			`@@ stop)`
Client: split Client_commands into Client_commands and Client_context 2018-02-14 18:20:03 +04:00			`(fun force name (cctxt : #Client_context.full_context) ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`Secret_key.of_fresh cctxt force name >>=? fun name ->`
			`gen_keys ~force cctxt name) ;`

			`command ~group ~desc: "Generate (unencrypted) keys including the given string."`
			`(args2`
			`(switch`
			`~long:"prefix"`
			`~short:'P'`
			`~doc:"the key must begin with tz1[word]"`
			`())`
			`(force_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) name containing cctxt ->`
			`Public_key_hash.of_fresh cctxt force name >>=? fun name ->`
			`gen_keys_containing ~force ~prefix ~containing ~name cctxt) ;`

			`command ~group ~desc: "Add a secret key to the wallet."`
			`(args1 (Secret_key.force_switch ()))`
			`(prefix "import"`
			`@@ string`
			`~name:"scheme"`
			`~desc:"signer to use for this secret key\n\`
			Use command `list signing schemes` for a list of \
			`supported signers."`
			`@@ prefixes [ "secret" ; "key" ]`
			`@@ Secret_key.fresh_alias_param`
			`@@ seq_of_param`
			`(string`
			`~name:"spec"`
			`~desc:"secret key specification\n\`
			`Varies from one scheme to the other.\n\`
			Use command `list signing schemes` for more \
			`information."))`
			`(fun force scheme name spec cctxt ->`
			`Secret_key.of_fresh cctxt force name >>=? fun name ->`
Client: add `encrypted` signature scheme 2018-02-08 22:00:01 +04:00			`find_signer_for_key ~scheme cctxt >>=? fun signer ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`let module Signer = (val signer : SIGNER) in`
			`Signer.sk_locator_of_human_input`
Client: add `encrypted` signature scheme 2018-02-08 22:00:01 +04:00			`(cctxt :> Client_context.io_wallet) spec >>=? fun skloc ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`Signer.sk_of_locator skloc >>=? fun sk ->`
			`Signer.neuterize sk >>= fun pk ->`
			`Signer.pk_to_locator pk >>= fun pkloc ->`
			`Public_key.find_opt cctxt name >>=? function`
			`\| None ->`
			`Signer.public_key_hash pk >>= fun pkh ->`
			`Secret_key.add ~force cctxt name skloc >>=? fun () ->`
			`Public_key_hash.add ~force cctxt name pkh >>=? fun () ->`
			`Public_key.add ~force cctxt name pkloc`
			`\| Some pk ->`
			`fail_unless (pkloc = pk \|\| force)`
			`(failure`
			`"public and secret keys '%s' don't correspond, \`
			`please don't use -force" name) >>=? fun () ->`
			`Secret_key.add ~force cctxt name skloc) ;`

			`command ~group ~desc: "Add a public key to the wallet."`
			`(args1 (Public_key.force_switch ()))`
			`(prefix "import"`
			`@@ string`
			`~name:"scheme"`
			`~desc:"signer to use for this public key\n\`
			Use command `list signing schemes` for a list of \
			`supported signers."`
			`@@ prefixes [ "public" ; "key" ]`
			`@@ Public_key.fresh_alias_param`
			`@@ seq_of_param`
			`(string`
			`~name:"spec"`
			`~desc:"public key specification\n\`
			`Varies from one scheme to the other.\n\`
			Use command `list signing schemes` for more \
			`information."))`
			`(fun force scheme name location cctxt ->`
			`Public_key.of_fresh cctxt force name >>=? fun name ->`
Client: add `encrypted` signature scheme 2018-02-08 22:00:01 +04:00			`find_signer_for_key ~scheme cctxt >>=? fun signer ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`let module Signer = (val signer : SIGNER) in`
			`Signer.pk_locator_of_human_input`
Client: add `encrypted` signature scheme 2018-02-08 22:00:01 +04:00			`(cctxt :> Client_context.io_wallet) location >>=? fun pkloc ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`Signer.pk_of_locator pkloc >>=? fun pk ->`
			`Signer.public_key_hash pk >>= fun pkh ->`
			`Public_key_hash.add ~force cctxt name pkh >>=? fun () ->`
			`Public_key.add ~force cctxt name pkloc) ;`

			`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" ])`
Client: split Client_commands into Client_commands and Client_context 2018-02-14 18:20:03 +04:00			`(fun () (cctxt : #Client_context.full_context) ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`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 Sk_locator { scheme } ->`
			`cctxt#message "%s: %s (%s sk known)" name v scheme`
			`\| Some Pk_locator { scheme }, _ ->`
			`cctxt#message "%s: %s (%s pk known)" name v scheme`
			`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)`
Client: split Client_commands into Client_commands and Client_context 2018-02-14 18:20:03 +04:00			`(fun show_private (name, _) (cctxt : #Client_context.full_context) ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`let ok_lwt x = x >>= (fun x -> return x) in`
			`alias_keys cctxt name >>=? fun key_info ->`
			`match key_info with`
			`\| None -> ok_lwt @@ cctxt#message "No keys found for identity"`
			`\| Some (pkh, pk, skloc) ->`
			`ok_lwt @@ cctxt#message "Hash: %a"`
			`Ed25519.Public_key_hash.pp pkh >>=? fun () ->`
			`match pk with`
			`\| None -> return ()`
			`\| Some (Pk_locator { scheme } as pkloc) ->`
Client: add `encrypted` signature scheme 2018-02-08 22:00:01 +04:00			`find_signer_for_key ~scheme cctxt >>=? fun signer ->`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`let module Signer = (val signer : SIGNER) in`
			`Signer.pk_of_locator pkloc >>=? fun pk ->`
			`Signer.public_key pk >>= fun pk ->`
			`ok_lwt @@ cctxt#message "Public Key: %a"`
			`Ed25519.Public_key.pp pk >>=? fun () ->`
			`if show_private then`
			`match skloc with`
			`\| None -> return ()`
			`\| Some skloc ->`
			`Secret_key.to_source skloc >>=? fun skloc ->`
			`ok_lwt @@ cctxt#message "Secret Key: %s" skloc`
			`else return ()) ;`

			`command ~group ~desc: "Forget the entire wallet of keys."`
Client: split client-base into client-base and client-commands 2018-02-14 18:54:52 +04:00			`(args1 (Cli_entries.switch`
			`~long:"force" ~short:'f'`
			`~doc:"you got to use the force for that" ()))`
Client: split client-base modules into functions / commands 2018-02-14 14:01:23 +04:00			`(fixed [ "forget" ; "all" ; "keys" ])`
			`(fun force cctxt ->`
			`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 []) ;`

			`]`