%% -*- mode: erlang; tab-width: 4; indent-tabs-mode: 1; st-rulers: [70] -*-
%% vim: ts=4 sw=4 ft=erlang noet
%%%-------------------------------------------------------------------
%%% @author Brett Beatty <brettbeatty@gmail.com>
%%% @copyright 2014-2022, Andrew Bennett, 2021, Brett Beatty
%%% @doc
%%%
%%% @end
%%% Created : 22 Oct 2021 by Brett Beatty <brettbeatty@gmail.com>
%%%-------------------------------------------------------------------
-module(jose_curve25519_crypto).
-behaviour(jose_curve25519).
%% jose_curve25519 callbacks
-export([eddsa_keypair/0]).
-export([eddsa_keypair/1]).
-export([eddsa_secret_to_public/1]).
-export([ed25519_sign/2]).
-export([ed25519_verify/3]).
-export([ed25519ctx_sign/3]).
-export([ed25519ctx_verify/4]).
-export([ed25519ph_sign/2]).
-export([ed25519ph_sign/3]).
-export([ed25519ph_verify/3]).
-export([ed25519ph_verify/4]).
-export([x25519_keypair/0]).
-export([x25519_keypair/1]).
-export([x25519_secret_to_public/1]).
-export([x25519_shared_secret/2]).
%% Macros
-define(FALLBACK_MOD, jose_curve25519_fallback).
%%====================================================================
%% jose_curve25519 callbacks
%%====================================================================
% EdDSA
eddsa_keypair() ->
{PublicKey, Secret} = crypto:generate_key(eddsa, ed25519),
{PublicKey, <<Secret/binary, PublicKey/binary>>}.
eddsa_keypair(<<Secret:32/binary>>) ->
{PublicKey, Secret} = crypto:generate_key(eddsa, ed25519, Secret),
{PublicKey, <<Secret/binary, PublicKey/binary>>}.
eddsa_secret_to_public(<<Secret:32/binary>>) ->
{PublicKey, _} = crypto:generate_key(eddsa, ed25519, Secret),
PublicKey.
% Ed25519
ed25519_sign(Message, <<Secret:32/binary, _:32/binary>>) ->
crypto:sign(eddsa, none, Message, [Secret, ed25519]).
ed25519_verify(Signature, Message, <<PublicKey:32/binary>>) ->
crypto:verify(eddsa, none, Message, Signature, [PublicKey, ed25519]).
% Ed25519ctx
ed25519ctx_sign(Message, SecretKey, Context) ->
?FALLBACK_MOD:ed25519ctx_sign(Message, SecretKey, Context).
ed25519ctx_verify(Signature, Message, PublicKey, Context) ->
?FALLBACK_MOD:ed25519ctx_verify(Signature, Message, PublicKey, Context).
% Ed25519ph
ed25519ph_sign(Message, SecretKey) ->
?FALLBACK_MOD:ed25519ph_sign(Message, SecretKey).
ed25519ph_sign(Message, SecretKey, Context) ->
?FALLBACK_MOD:ed25519ph_sign(Message, SecretKey, Context).
ed25519ph_verify(Signature, Message, PublicKey) ->
?FALLBACK_MOD:ed25519ph_verify(Signature, Message, PublicKey).
ed25519ph_verify(Signature, Message, PublicKey, Context) ->
?FALLBACK_MOD:ed25519ph_verify(Signature, Message, PublicKey, Context).
% X25519
x25519_keypair() ->
crypto:generate_key(ecdh, x25519).
x25519_keypair(<<Secret:32/binary>>) ->
crypto:generate_key(ecdh, x25519, Secret).
x25519_secret_to_public(<<Secret:32/binary>>) ->
{PublicKey, _} = crypto:generate_key(ecdh, x25519, Secret),
PublicKey.
x25519_shared_secret(MySecretKey, YourPublicKey) ->
crypto:compute_key(ecdh, YourPublicKey, MySecretKey, x25519).