path: root/src/plop.erl

%%% @doc Server holding log entries in a database and hashes in a Merkle tree.
%%%
%%% When you submit data for insertion in the log, the data and a hash
%%% of it is stored in a way that [mumble FIXME and FIXME]. In return
%%% you will get a proof of your entry being included in the log. This
%%% proof can later, together with the public key of the log, be used
%%% to prove that your entry is indeed present in the log.

-module('plop').
-behaviour(gen_server).

%% API.
-export([start_link/0, start_link/2, stop/0]).
-export([add/1, sth/0]).
%% gen_server callbacks.
-export([init/1, handle_call/3, terminate/2,
         handle_cast/2, handle_info/2, code_change/3]).

-include("plop.hrl").
-include_lib("public_key/include/public_key.hrl").
-include_lib("eunit/include/eunit.hrl").

-define(PLOPVERSION, 1).
-record(plop, {pubkey :: public_key:rsa_public_key(),
               privkey :: public_key:rsa_private_key(),
               logid :: binary(),
               hashtree :: ht:head()}).

start_link() ->
    start_link("test/rsakey.pem", "sikrit").
start_link(Keyfile, Passphrase) ->
    gen_server:start_link({local, ?MODULE}, ?MODULE, [Keyfile, Passphrase], []).

stop() ->
    gen_server:call(?MODULE, stop).

%%%%%%%%%%%%%%%%%%%%
init([Keyfile, Passphrase]) ->
    {Private_key, Public_key} = read_keyfile(Keyfile, Passphrase),
    LogID = crypto:hash(sha256,
                        public_key:der_encode('RSAPublicKey', Public_key)),
    {ok, #plop{pubkey = Public_key,
               privkey = Private_key,
               logid = LogID,
               hashtree = ht:create()}}.

handle_cast(_Request, State) ->
    {noreply, State}.

handle_info(_Info, State) ->
    {noreply, State}.

code_change(_OldVsn, State, _Extra) ->
    {ok, State}.

terminate(_Reason, _State) ->
    ok.

%%%%%%%%%%%%%%%%%%%%
add(Data) when is_record(Data, plop_data) ->
    gen_server:call(?MODULE, {add, Data}).

sth() ->
    gen_server:call(?MODULE, sth).
%%%%%%%%%%%%%%%%%%%%

handle_call(stop, _From, State) ->
    {stop, normal, stopped, State};
handle_call({add, Data = #plop_data{entry = Entry}},
            _From,
            Plop = #plop{privkey = Privkey,
                         logid = LogID,
                         hashtree = Tree}) ->
    %% fixme: add Entry to db,
    ht:append(Tree, serialise(Entry)),
    SPT = spt(LogID, Privkey, Data),
    {reply, SPT, Plop};
handle_call(sth, _From, Plop = #plop{hashtree = Tree}) ->
    {reply, sth(Tree), Plop}.

%%%%%%%%%%%%%%%%%%%%

%% @doc Signed Plop Timestamp according to RFC6962 3.2 and RFC5246 4.7.
spt(LogID, PrivKey, Data = #plop_data{timestamp = Timestamp_in}) ->
    Timestamp =
        case Timestamp_in of
            now ->
                {NowMegaSec, NowSec, NowMicroSec} = now(),
                trunc(NowMegaSec * 1.0e9
                      + NowSec * 1.0e3
                      + NowMicroSec / 1.0e3);
            _ -> Timestamp_in
        end,
    BinToSign = list_to_binary(serialise(Data)),

    %% Was going to just sign/3 the hash but looking at
    %% digitally_signed() in lib/ssl/src/ssl_handshake.erl it seems
    %% like we should rather use (undocumented) encrypt_private/3.
    %public_key:sign(hash(sha256, BinToSign), sha256, PrivKey)
    Signature = public_key:encrypt_private(crypto:hash(sha256, BinToSign),
                                           PrivKey,
                                           [{rsa_pad, rsa_pkcs1_padding}]),
    SPT = <<?PLOPVERSION:8,
            LogID/binary,
            Timestamp:64,
            Signature/binary>>,
    %%io:format("SPT: ~p~nBinToSign: ~p~nSignature = ~p~n", [SPT, BinToSign, Signature]),
    SPT.

%% @doc Signed Tree Head
       %% digitally-signed struct {
       %%     Version version;
       %%     SignatureType signature_type = tree_hash;
       %%     uint64 timestamp;
       %%     uint64 tree_size;
       %%     opaque sha256_root_hash[32];
       %% } TreeHeadSignature;
sth(Tree) ->
    "FIXME: signed tree head for " ++ Tree.

read_keyfile(Filename, Passphrase) ->
    {ok, PemBin} = file:read_file(Filename),
    [Entry] = public_key:pem_decode(PemBin),
    Privatekey = public_key:pem_entry_decode(Entry, Passphrase),
    {Privatekey, public_key(Privatekey)}.

public_key(#'RSAPrivateKey'{modulus = Mod, publicExponent = Exp}) ->
    #'RSAPublicKey'{modulus = Mod, publicExponent = Exp}.

-spec serialise(plop_data() | plop_entry()) -> iolist().
serialise(#plop_data{version = Version,
                     signature_type = SigtypeAtom,
                     timestamp = Timestamp,
                     entry = Entry}) ->
    Sigtype = signature_type(SigtypeAtom),
    [<<Version:8, Sigtype:8, Timestamp:64>>, serialise(Entry)];
serialise(#plop_entry{type = TypeAtom, data = Data}) ->
    Type = entry_type(TypeAtom),
    [<<Type:16>>, Data].

signature_type(certificate_timestamp) -> 0;
signature_type(tree_hash) -> 1;
signature_type(test) -> 2.
entry_type(x509) -> 0;
entry_type(precert) -> 1;
entry_type(test) -> 2.

%%%%%%%%%%%%%%%%%%%%
%% Tests.
serialise_test_() ->
    [?_assertEqual(
        <<1:8, 0:8, 0:64, 0:16, "foo">>,
        list_to_binary(serialise(#plop_data{
                                    signature_type = certificate_timestamp,
                                    timestamp = 0,
                                    entry = #plop_entry{type = x509,
                                                        data = <<"foo">>}})))].