%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1999-2017. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(crypto_SUITE).
-include_lib("common_test/include/ct.hrl").
%% Note: This directive should only be used in test suites.
-compile(export_all).
%%--------------------------------------------------------------------
%% Common Test interface functions -----------------------------------
%%--------------------------------------------------------------------
suite() -> [{ct_hooks,[ts_install_cth]}].
all() ->
[app,
appup,
{group, fips},
{group, non_fips},
mod_pow,
exor,
rand_uniform,
rand_plugin,
rand_plugin_s
].
groups() ->
[{non_fips, [], [{group, md4},
{group, md5},
{group, ripemd160},
{group, sha},
{group, sha224},
{group, sha256},
{group, sha384},
{group, sha512},
{group, rsa},
{group, dss},
{group, ecdsa},
{group, dh},
{group, ecdh},
{group, srp},
{group, des_cbc},
{group, des_cfb},
{group, des3_cbc},
{group, des3_cbf},
{group, des3_cfb},
{group, des_ede3},
{group, blowfish_cbc},
{group, blowfish_ecb},
{group, blowfish_cfb64},
{group, blowfish_ofb64},
{group, aes_cbc128},
{group, aes_cfb8},
{group, aes_cfb128},
{group, aes_cbc256},
{group, aes_ige256},
{group, rc2_cbc},
{group, rc4},
{group, aes_ctr},
{group, aes_gcm},
{group, chacha20_poly1305},
{group, aes_cbc}]},
{fips, [], [{group, no_md4},
{group, no_md5},
{group, no_ripemd160},
{group, sha},
{group, sha224},
{group, sha256},
{group, sha384},
{group, sha512},
{group, rsa},
{group, dss},
{group, ecdsa},
{group, dh},
{group, ecdh},
{group, no_srp},
{group, no_des_cbc},
{group, no_des_cfb},
{group, des3_cbc},
{group, des3_cbf},
{group, des3_cfb},
{group, des_ede3},
{group, no_blowfish_cbc},
{group, no_blowfish_ecb},
{group, no_blowfish_cfb64},
{group, no_blowfish_ofb64},
{group, aes_cbc128},
{group, aes_cfb8},
{group, aes_cfb128},
{group, aes_cbc256},
{group, no_aes_ige256},
{group, no_rc2_cbc},
{group, no_rc4},
{group, aes_ctr},
{group, aes_gcm},
{group, no_chacha20_poly1305},
{group, aes_cbc}]},
{md4, [], [hash]},
{md5, [], [hash, hmac]},
{ripemd160, [], [hash]},
{sha, [], [hash, hmac]},
{sha224, [], [hash, hmac]},
{sha256, [], [hash, hmac]},
{sha384, [], [hash, hmac]},
{sha512, [], [hash, hmac]},
{rsa, [], [sign_verify,
public_encrypt,
generate
]},
{dss, [], [sign_verify]},
{ecdsa, [], [sign_verify]},
{dh, [], [generate_compute]},
{ecdh, [], [compute, generate]},
{srp, [], [generate_compute]},
{des_cbc, [], [block]},
{des_cfb, [], [block]},
{des3_cbc,[], [block]},
{des_ede3,[], [block]},
{des3_cbf,[], [block]},
{des3_cfb,[], [block]},
{rc2_cbc,[], [block]},
{aes_cbc128,[], [block, cmac]},
{aes_cfb8,[], [block]},
{aes_cfb128,[], [block]},
{aes_cbc256,[], [block, cmac]},
{aes_ecb,[], [block]},
{aes_ige256,[], [block]},
{blowfish_cbc, [], [block]},
{blowfish_ecb, [], [block]},
{blowfish_cfb64, [], [block]},
{blowfish_ofb64,[], [block]},
{rc4, [], [stream]},
{aes_ctr, [], [stream]},
{aes_gcm, [], [aead]},
{chacha20_poly1305, [], [aead]},
{aes_cbc, [], [block]},
{no_md4, [], [no_support, no_hash]},
{no_md5, [], [no_support, no_hash, no_hmac]},
{no_ripemd160, [], [no_support, no_hash]},
{no_srp, [], [no_support, no_generate_compute]},
{no_des_cbc, [], [no_support, no_block]},
{no_des_cfb, [], [no_support, no_block]},
{no_blowfish_cbc, [], [no_support, no_block]},
{no_blowfish_ecb, [], [no_support, no_block]},
{no_blowfish_cfb64, [], [no_support, no_block]},
{no_blowfish_ofb64, [], [no_support, no_block]},
{no_aes_ige256, [], [no_support, no_block]},
{no_chacha20_poly1305, [], [no_support, no_aead]},
{no_rc2_cbc, [], [no_support, no_block]},
{no_rc4, [], [no_support, no_stream]}
].
%%-------------------------------------------------------------------
init_per_suite(Config) ->
file:set_cwd(datadir(Config)),
{ok, _} = zip:unzip("KAT_AES.zip"),
{ok, _} = zip:unzip("aesmmt.zip"),
{ok, _} = zip:unzip("cmactestvectors.zip"),
{ok, _} = zip:unzip("gcmtestvectors.zip"),
try crypto:start() of
ok ->
try crypto:strong_rand_bytes(1) of
_ ->
Config
catch error:low_entropy ->
%% We are testing on an OS with low entropy in its random
%% seed. So we have to seed it with a binary to get started.
%% This is NOT how you want to do seeding, it is just here
%% to make the tests pass. Check your OS manual for how you
%% really want to seed.
{H,M,L} = erlang:now(),
Bin = <<H:24,M:20,L:20>>,
crypto:rand_seed(<< <<Bin/binary>> || _ <- lists:seq(1,16) >>),
Config
end
catch _:_ ->
{skip, "Crypto did not start"}
end.
end_per_suite(_Config) ->
application:stop(crypto).
%%-------------------------------------------------------------------
init_per_group(fips, Config) ->
FIPSConfig = [{fips, true} | Config],
case crypto:info_fips() of
enabled ->
FIPSConfig;
not_enabled ->
case crypto:enable_fips_mode(true) of
true ->
enabled = crypto:info_fips(),
FIPSConfig;
false ->
{skip, "Failed to enable FIPS mode"}
end;
not_supported ->
{skip, "FIPS mode not supported"}
end;
init_per_group(non_fips, Config) ->
NonFIPSConfig = [{fips, false} | Config],
case crypto:info_fips() of
enabled ->
true = crypto:enable_fips_mode(false),
not_enabled = crypto:info_fips(),
NonFIPSConfig;
_NotEnabled ->
NonFIPSConfig
end;
init_per_group(GroupName, Config) ->
case atom_to_list(GroupName) of
"no_" ++ TypeStr ->
%% Negated test case: check the algorithm is not supported
%% (e.g. due to FIPS mode limitations)
TypeAtom = list_to_atom(TypeStr),
[{type, TypeAtom} | group_config(TypeAtom, Config)];
_Other ->
%% Regular test case: skip if the algorithm is not supported
case is_supported(GroupName) of
true ->
[{type, GroupName} | group_config(GroupName, Config)];
false ->
{skip, "Group not supported"}
end
end.
end_per_group(_GroupName, Config) ->
Config.
init_per_testcase(info, Config) ->
Config;
init_per_testcase(cmac, Config) ->
case crypto:info_lib() of
[{<<"OpenSSL">>,LibVer,_}] when is_integer(LibVer), LibVer > 16#10001000 ->
Config;
_Else ->
% The CMAC functionality was introduced in OpenSSL 1.0.1
{skip, "OpenSSL is too old"}
end;
init_per_testcase(generate, Config) ->
case proplists:get_value(type, Config) of
rsa ->
% RSA key generation is a lengthy process, and is only available
% if dirty CPU scheduler support was enabled for this runtime.
case try erlang:system_info(dirty_cpu_schedulers) of
N -> N > 0
catch
error:badarg -> false
end of
true -> Config;
false -> {skip, "RSA key generation requires dirty scheduler support."}
end;
_ -> Config
end;
init_per_testcase(_Name,Config) ->
Config.
end_per_testcase(info, Config) ->
Config;
end_per_testcase(_Name,Config) ->
Config.
%%--------------------------------------------------------------------
%% Test Cases --------------------------------------------------------
%%--------------------------------------------------------------------
app() ->
[{doc, "Test that the crypto app file is ok"}].
app(Config) when is_list(Config) ->
ok = ?t:app_test(crypto).
%%--------------------------------------------------------------------
appup() ->
[{doc, "Test that the crypto appup file is ok"}].
appup(Config) when is_list(Config) ->
ok = ?t:appup_test(crypto).
%%--------------------------------------------------------------------
no_support() ->
[{doc, "Test an algorithm is not reported in the supported list"}].
no_support(Config) when is_list(Config) ->
Type = ?config(type, Config),
false = is_supported(Type).
%%--------------------------------------------------------------------
hash() ->
[{doc, "Test all different hash functions"}].
hash(Config) when is_list(Config) ->
{Type, MsgsLE, Digests} = proplists:get_value(hash, Config),
Msgs = lazy_eval(MsgsLE),
[LongMsg | _] = lists:reverse(Msgs),
Inc = iolistify(LongMsg),
[IncrDigest | _] = lists:reverse(Digests),
hash(Type, Msgs, Digests),
hash(Type, lists:map(fun iolistify/1, Msgs), Digests),
hash_increment(Type, Inc, IncrDigest).
%%--------------------------------------------------------------------
no_hash() ->
[{doc, "Test all disabled hash functions"}].
no_hash(Config) when is_list(Config) ->
Type = ?config(type, Config),
notsup(fun crypto:hash/2, [Type, <<"Hi There">>]),
notsup(fun crypto:hash_init/1, [Type]).
%%--------------------------------------------------------------------
hmac() ->
[{doc, "Test all different hmac functions"}].
hmac(Config) when is_list(Config) ->
{Type, Keys, DataLE, Expected} = proplists:get_value(hmac, Config),
Data = lazy_eval(DataLE),
hmac(Type, Keys, Data, Expected),
hmac(Type, lists:map(fun iolistify/1, Keys), lists:map(fun iolistify/1, Data), Expected),
hmac_increment(Type).
%%--------------------------------------------------------------------
no_hmac() ->
[{doc, "Test all disabled hmac functions"}].
no_hmac(Config) when is_list(Config) ->
Type = ?config(type, Config),
notsup(fun crypto:hmac/3, [Type, <<"Key">>, <<"Hi There">>]),
notsup(fun crypto:hmac_init/2, [Type, <<"Key">>]).
%%--------------------------------------------------------------------
cmac() ->
[{doc, "Test all different cmac functions"}].
cmac(Config) when is_list(Config) ->
Pairs = lazy_eval(proplists:get_value(cmac, Config)),
lists:foreach(fun cmac_check/1, Pairs),
lists:foreach(fun cmac_check/1, cmac_iolistify(Pairs)).
%%--------------------------------------------------------------------
block() ->
[{doc, "Test block ciphers"}].
block(Config) when is_list(Config) ->
Fips = proplists:get_bool(fips, Config),
Type = ?config(type, Config),
%% See comment about EVP_CIPHER_CTX_set_key_length in
%% block_crypt_nif in crypto.c.
case {Fips, Type} of
{true, aes_cfb8} ->
throw({skip, "Cannot test aes_cfb8 in FIPS mode because of key length issue"});
{true, aes_cfb128} ->
throw({skip, "Cannot test aes_cfb128 in FIPS mode because of key length issue"});
_ ->
ok
end,
Blocks = lazy_eval(proplists:get_value(block, Config)),
lists:foreach(fun block_cipher/1, Blocks),
lists:foreach(fun block_cipher/1, block_iolistify(Blocks)),
lists:foreach(fun block_cipher_increment/1, block_iolistify(Blocks)).
%%--------------------------------------------------------------------
no_block() ->
[{doc, "Test disabled block ciphers"}].
no_block(Config) when is_list(Config) ->
Blocks = lazy_eval(proplists:get_value(block, Config)),
Args = case Blocks of
[{_Type, _Key, _PlainText} = A | _] ->
tuple_to_list(A);
[{_Type, _Key, _IV, _PlainText} = A | _] ->
tuple_to_list(A);
[{Type, Key, IV, PlainText, _CipherText} | _] ->
[Type, Key, IV, PlainText]
end,
N = length(Args),
notsup(fun crypto:block_encrypt/N, Args),
notsup(fun crypto:block_decrypt/N, Args).
%%--------------------------------------------------------------------
no_aead() ->
[{doc, "Test disabled aead ciphers"}].
no_aead(Config) when is_list(Config) ->
[{Type, Key, PlainText, Nonce, AAD, CipherText, CipherTag} | _] =
lazy_eval(proplists:get_value(aead, Config)),
EncryptArgs = [Type, Key, Nonce, {AAD, PlainText}],
DecryptArgs = [Type, Key, Nonce, {AAD, CipherText, CipherTag}],
notsup(fun crypto:block_encrypt/4, EncryptArgs),
notsup(fun crypto:block_decrypt/4, DecryptArgs).
%%--------------------------------------------------------------------
stream() ->
[{doc, "Test stream ciphers"}].
stream(Config) when is_list(Config) ->
Streams = lazy_eval(proplists:get_value(stream, Config)),
lists:foreach(fun stream_cipher/1, Streams),
lists:foreach(fun stream_cipher/1, stream_iolistify(Streams)),
lists:foreach(fun stream_cipher_incment/1, stream_iolistify(Streams)).
%%--------------------------------------------------------------------
no_stream() ->
[{doc, "Test disabled stream ciphers"}].
no_stream(Config) when is_list(Config) ->
Type = ?config(type, Config),
notsup(fun crypto:stream_init/2, [Type, <<"Key">>]).
%%--------------------------------------------------------------------
aead() ->
[{doc, "Test AEAD ciphers"}].
aead(Config) when is_list(Config) ->
AEADs = lazy_eval(proplists:get_value(aead, Config)),
FilteredAEADs =
case proplists:get_bool(fips, Config) of
false ->
AEADs;
true ->
%% In FIPS mode, the IV length must be at least 12 bytes.
lists:filter(
fun(Tuple) ->
IVLen = byte_size(element(4, Tuple)),
IVLen >= 12
end, AEADs)
end,
lists:foreach(fun aead_cipher/1, FilteredAEADs).
%%--------------------------------------------------------------------
sign_verify() ->
[{doc, "Sign/verify digital signatures"}].
sign_verify(Config) when is_list(Config) ->
SignVerify = proplists:get_value(sign_verify, Config),
lists:foreach(fun do_sign_verify/1, SignVerify).
%%--------------------------------------------------------------------
public_encrypt() ->
[{doc, "Test public_encrypt/decrypt and private_encrypt/decrypt functions. "}].
public_encrypt(Config) when is_list(Config) ->
Params = proplists:get_value(pub_priv_encrypt, Config),
lists:foreach(fun do_public_encrypt/1, Params),
lists:foreach(fun do_private_encrypt/1, Params).
%%--------------------------------------------------------------------
generate_compute() ->
[{doc, " Test crypto:genarate_key and crypto:compute_key"}].
generate_compute(Config) when is_list(Config) ->
GenCom = proplists:get_value(generate_compute, Config),
lists:foreach(fun do_generate_compute/1, GenCom).
%%--------------------------------------------------------------------
no_generate_compute() ->
[{doc, "Test crypto:genarate_key and crypto:compute_key "
"for disabled algorithms"}].
no_generate_compute(Config) when is_list(Config) ->
%% This test is specific to the SRP protocol
srp = ?config(type, Config),
{srp,
UserPrivate, UserGenParams, UserComParams,
HostPublic, HostPrivate, HostGenParams, HostComParams,
_SessionKey} = srp3(),
UserPublic = HostPublic, % use a fake public key
notsup(fun crypto:generate_key/3, [srp, UserGenParams, UserPrivate]),
notsup(fun crypto:generate_key/3, [srp, HostGenParams, HostPrivate]),
notsup(fun crypto:compute_key/4,
[srp, HostPublic, {UserPublic, UserPrivate}, UserComParams]),
notsup(fun crypto:compute_key/4,
[srp, UserPublic, {HostPublic, HostPrivate}, HostComParams]).
%%--------------------------------------------------------------------
compute() ->
[{doc, " Test crypto:compute_key"}].
compute(Config) when is_list(Config) ->
Gen = proplists:get_value(compute, Config),
lists:foreach(fun do_compute/1, Gen).
%%--------------------------------------------------------------------
generate() ->
[{doc, " Test crypto:generate_key"}].
generate(Config) when is_list(Config) ->
Gen = proplists:get_value(generate, Config),
lists:foreach(fun do_generate/1, Gen).
%%--------------------------------------------------------------------
mod_pow() ->
[{doc, "mod_pow testing (A ^ M % P with bignums)"}].
mod_pow(Config) when is_list(Config) ->
mod_pow_aux_test(2, 5, 10, 8).
%%--------------------------------------------------------------------
exor() ->
[{doc, "Test the exor function"}].
exor(Config) when is_list(Config) ->
do_exor(<<1, 2, 3, 4, 5, 6, 7, 8, 9, 10>>),
do_exor(term_to_binary(lists:seq(1, 1000000))).
%%--------------------------------------------------------------------
rand_uniform() ->
[{doc, "rand_uniform and random_bytes testing"}].
rand_uniform(Config) when is_list(Config) ->
rand_uniform_aux_test(10),
10 = byte_size(crypto:strong_rand_bytes(10)).
%%--------------------------------------------------------------------
rand_plugin() ->
[{doc, "crypto rand plugin testing (implicit state / process dictionary)"}].
rand_plugin(Config) when is_list(Config) ->
rand_plugin_aux(implicit_state).
rand_plugin_s() ->
[{doc, "crypto rand plugin testing (explicit state)"}].
rand_plugin_s(Config) when is_list(Config) ->
rand_plugin_aux(explicit_state).
%%--------------------------------------------------------------------
%% Internal functions ------------------------------------------------
%%--------------------------------------------------------------------
hash(_, [], []) ->
ok;
hash(Type, [Msg | RestMsg], [Digest| RestDigest]) ->
case crypto:hash(Type, Msg) of
Digest ->
hash(Type, RestMsg, RestDigest);
Other ->
ct:fail({{crypto, hash, [Type, Msg]}, {expected, Digest}, {got, Other}})
end.
hash_increment(Type, Increments, Digest) ->
State = crypto:hash_init(Type),
case hash_increment(State, Increments) of
Digest ->
ok;
Other ->
ct:fail({{crypto, "hash_init/update/final", [Type, Increments]}, {expected, Digest}, {got, Other}})
end.
hash_increment(State, []) ->
crypto:hash_final(State);
hash_increment(State0, [Increment | Rest]) ->
State = crypto:hash_update(State0, Increment),
hash_increment(State, Rest).
hmac(_, [],[],[]) ->
ok;
hmac(sha = Type, [Key | Keys], [ <<"Test With Truncation">> = Data| Rest], [Expected | Expects]) ->
case crypto:hmac(Type, Key, Data, 20) of
Expected ->
ok;
Other ->
ct:fail({{crypto, hmac, [Type, Key, Data]}, {expected, Expected}, {got, Other}})
end,
hmac(Type, Keys, Rest, Expects);
hmac(Type, [Key | Keys], [ <<"Test With Truncation">> = Data| Rest], [Expected | Expects]) ->
case crypto:hmac(Type, Key, Data, 16) of
Expected ->
ok;
Other ->
ct:fail({{crypto, hmac, [Type, Key, Data]}, {expected, Expected}, {got, Other}})
end,
hmac(Type, Keys, Rest, Expects);
hmac(Type, [Key | Keys], [Data| Rest], [Expected | Expects]) ->
case crypto:hmac(Type, Key, Data) of
Expected ->
ok;
Other ->
ct:fail({{crypto, hmac, [Type, Key, Data]}, {expected, Expected}, {got, Other}})
end,
hmac(Type, Keys, Rest, Expects).
hmac_increment(Type) ->
Key = hmac_key(Type),
Increments = hmac_inc(Type),
Expected = crypto:hmac(Type, Key, lists:flatten(Increments)),
State = crypto:hmac_init(Type, Key),
case hmac_increment(State, Increments) of
Expected ->
ok;
Other ->
ct:fail({{crypto, "hmac_init/update/final", [Type, Increments]}, {expected, Expected}, {got, Other}})
end.
hmac_increment(State, []) ->
crypto:hmac_final(State);
hmac_increment(State0, [Increment | Rest]) ->
State = crypto:hmac_update(State0, Increment),
hmac_increment(State, Rest).
cmac_check({Type, Key, Text, CMac}) ->
ExpCMac = iolist_to_binary(CMac),
case crypto:cmac(Type, Key, Text) of
ExpCMac ->
ok;
Other ->
ct:fail({{crypto, cmac, [Type, Key, Text]}, {expected, ExpCMac}, {got, Other}})
end;
cmac_check({Type, Key, Text, Size, CMac}) ->
ExpCMac = iolist_to_binary(CMac),
case crypto:cmac(Type, Key, Text, Size) of
ExpCMac ->
ok;
Other ->
ct:fail({{crypto, cmac, [Type, Key, Text, Size]}, {expected, ExpCMac}, {got, Other}})
end.
block_cipher({Type, Key, PlainText}) ->
Plain = iolist_to_binary(PlainText),
CipherText = crypto:block_encrypt(Type, Key, PlainText),
case crypto:block_decrypt(Type, Key, CipherText) of
Plain ->
ok;
Other ->
ct:fail({{crypto, block_decrypt, [Type, Key, CipherText]}, {expected, Plain}, {got, Other}})
end;
block_cipher({Type, Key, IV, PlainText}) ->
Plain = iolist_to_binary(PlainText),
CipherText = crypto:block_encrypt(Type, Key, IV, PlainText),
case crypto:block_decrypt(Type, Key, IV, CipherText) of
Plain ->
ok;
Other ->
ct:fail({{crypto, block_decrypt, [Type, Key, IV, CipherText]}, {expected, Plain}, {got, Other}})
end;
block_cipher({Type, Key, IV, PlainText, CipherText}) ->
Plain = iolist_to_binary(PlainText),
case crypto:block_encrypt(Type, Key, IV, Plain) of
CipherText ->
ok;
Other0 ->
ct:fail({{crypto, block_encrypt, [Type, Key, IV, Plain]}, {expected, CipherText}, {got, Other0}})
end,
case crypto:block_decrypt(Type, Key, IV, CipherText) of
Plain ->
ok;
Other1 ->
ct:fail({{crypto, block_decrypt, [Type, Key, IV, CipherText]}, {expected, Plain}, {got, Other1}})
end.
block_cipher_increment({Type, Key, IV, PlainTexts})
when Type == des_cbc; Type == aes_cbc; Type == des3_cbc ->
block_cipher_increment(Type, Key, IV, IV, PlainTexts, iolist_to_binary(PlainTexts), []);
block_cipher_increment({Type, Key, IV, PlainTexts, CipherText})
when Type == des_cbc; Type == des3_cbc ->
block_cipher_increment(Type, Key, IV, IV, PlainTexts, iolist_to_binary(PlainTexts), CipherText, []);
block_cipher_increment({Type, Key, IV, PlainTexts, _CipherText}) when Type == aes_cbc ->
Plain = iolist_to_binary(PlainTexts),
Blocks = [iolistify(Block) || << Block:128/bitstring >> <= Plain],
block_cipher_increment(Type, Key, IV, IV, Blocks, Plain, []);
block_cipher_increment({_Type, _, _, _, _}) ->
ok;
block_cipher_increment({_Type, _, _, _}) ->
ok;
block_cipher_increment({_,_,_}) ->
ok.
block_cipher_increment(Type, Key, IV0, _IV, [], Plain, Acc) ->
CipherText = iolist_to_binary(lists:reverse(Acc)),
case crypto:block_decrypt(Type, Key, IV0, CipherText) of
Plain ->
ok;
Other ->
ct:fail({{crypto, block_decrypt, [Type, Key, IV0, CipherText]}, {expected, Plain}, {got, Other}})
end;
block_cipher_increment(Type, Key, IV0, IV, [PlainText | PlainTexts], Plain, Acc) ->
CipherText = crypto:block_encrypt(Type, Key, IV, PlainText),
NextIV = crypto:next_iv(Type, CipherText),
block_cipher_increment(Type, Key, IV0, NextIV, PlainTexts, Plain, [CipherText | Acc]).
block_cipher_increment(Type, Key, IV0, _IV, [], _Plain, CipherText, Acc) ->
case iolist_to_binary(lists:reverse(Acc)) of
CipherText ->
ok;
Other ->
ct:fail({{crypto, block_decrypt, [Type, Key, IV0, CipherText]}, {expected, CipherText}, {got, Other}})
end;
block_cipher_increment(Type, Key, IV0, IV, [PlainText | PlainTexts], Plain, CipherText, Acc) ->
CT = crypto:block_encrypt(Type, Key, IV, PlainText),
NextIV = crypto:next_iv(Type, CT),
block_cipher_increment(Type, Key, IV0, NextIV, PlainTexts, Plain, CipherText, [CT | Acc]).
stream_cipher({Type, Key, PlainText}) ->
Plain = iolist_to_binary(PlainText),
State = crypto:stream_init(Type, Key),
{_, CipherText} = crypto:stream_encrypt(State, PlainText),
case crypto:stream_decrypt(State, CipherText) of
{_, Plain} ->
ok;
Other ->
ct:fail({{crypto, stream_decrypt, [State, CipherText]}, {expected, PlainText}, {got, Other}})
end;
stream_cipher({Type, Key, IV, PlainText}) ->
Plain = iolist_to_binary(PlainText),
State = crypto:stream_init(Type, Key, IV),
{_, CipherText} = crypto:stream_encrypt(State, PlainText),
case crypto:stream_decrypt(State, CipherText) of
{_, Plain} ->
ok;
Other ->
ct:fail({{crypto, stream_decrypt, [State, CipherText]}, {expected, PlainText}, {got, Other}})
end.
stream_cipher_incment({Type, Key, PlainTexts}) ->
State = crypto:stream_init(Type, Key),
stream_cipher_incment(State, State, PlainTexts, [], iolist_to_binary(PlainTexts));
stream_cipher_incment({Type, Key, IV, PlainTexts}) ->
State = crypto:stream_init(Type, Key, IV),
stream_cipher_incment(State, State, PlainTexts, [], iolist_to_binary(PlainTexts)).
stream_cipher_incment(_State, OrigState, [], Acc, Plain) ->
CipherText = iolist_to_binary(lists:reverse(Acc)),
case crypto:stream_decrypt(OrigState, CipherText) of
{_, Plain} ->
ok;
Other ->
ct:fail({{crypto, stream_decrypt, [OrigState, CipherText]}, {expected, Plain}, {got, Other}})
end;
stream_cipher_incment(State0, OrigState, [PlainText | PlainTexts], Acc, Plain) ->
{State, CipherText} = crypto:stream_encrypt(State0, PlainText),
stream_cipher_incment(State, OrigState, PlainTexts, [CipherText | Acc], Plain).
aead_cipher({Type, Key, PlainText, IV, AAD, CipherText, CipherTag}) ->
Plain = iolist_to_binary(PlainText),
case crypto:block_encrypt(Type, Key, IV, {AAD, Plain}) of
{CipherText, CipherTag} ->
ok;
Other0 ->
ct:fail({{crypto, block_encrypt, [Plain, PlainText]}, {expected, {CipherText, CipherTag}}, {got, Other0}})
end,
case crypto:block_decrypt(Type, Key, IV, {AAD, CipherText, CipherTag}) of
Plain ->
ok;
Other1 ->
ct:fail({{crypto, block_decrypt, [CipherText]}, {expected, Plain}, {got, Other1}})
end;
aead_cipher({Type, Key, PlainText, IV, AAD, CipherText, CipherTag, TagLen}) ->
<<TruncatedCipherTag:TagLen/binary, _/binary>> = CipherTag,
Plain = iolist_to_binary(PlainText),
case crypto:block_encrypt(Type, Key, IV, {AAD, Plain, TagLen}) of
{CipherText, TruncatedCipherTag} ->
ok;
Other0 ->
ct:fail({{crypto, block_encrypt, [Plain, PlainText]}, {expected, {CipherText, TruncatedCipherTag}}, {got, Other0}})
end,
case crypto:block_decrypt(Type, Key, IV, {AAD, CipherText, TruncatedCipherTag}) of
Plain ->
ok;
Other1 ->
ct:fail({{crypto, block_decrypt, [CipherText]}, {expected, Plain}, {got, Other1}})
end.
do_sign_verify({Type, Hash, Public, Private, Msg}) ->
Signature = crypto:sign(Type, Hash, Msg, Private),
case crypto:verify(Type, Hash, Msg, Signature, Public) of
true ->
negative_verify(Type, Hash, Msg, <<10,20>>, Public);
false ->
ct:fail({{crypto, verify, [Type, Hash, Msg, Signature, Public]}})
end.
negative_verify(Type, Hash, Msg, Signature, Public) ->
case crypto:verify(Type, Hash, Msg, Signature, Public) of
true ->
ct:fail({{crypto, verify, [Type, Hash, Msg, Signature, Public]}, should_fail});
false ->
ok
end.
do_public_encrypt({Type, Public, Private, Msg, Padding}) ->
PublicEcn = (catch crypto:public_encrypt(Type, Msg, Public, Padding)),
case crypto:private_decrypt(Type, PublicEcn, Private, Padding) of
Msg ->
ok;
Other ->
ct:fail({{crypto, private_decrypt, [Type, PublicEcn, Private, Padding]}, {expected, Msg}, {got, Other}})
end.
do_private_encrypt({_Type, _Public, _Private, _Msg, rsa_pkcs1_oaep_padding}) ->
ok; %% Not supported by openssl
do_private_encrypt({Type, Public, Private, Msg, Padding}) ->
PrivEcn = (catch crypto:private_encrypt(Type, Msg, Private, Padding)),
case crypto:public_decrypt(rsa, PrivEcn, Public, Padding) of
Msg ->
ok;
Other ->
ct:fail({{crypto, public_decrypt, [Type, PrivEcn, Public, Padding]}, {expected, Msg}, {got, Other}})
end.
do_generate_compute({srp = Type, UserPrivate, UserGenParams, UserComParams,
HostPublic, HostPrivate, HostGenParams, HostComParam, SessionKey}) ->
{UserPublic, UserPrivate} = crypto:generate_key(Type, UserGenParams, UserPrivate),
{HostPublic, HostPrivate} = crypto:generate_key(Type, HostGenParams, HostPrivate),
SessionKey = crypto:compute_key(Type, HostPublic, {UserPublic, UserPrivate},
UserComParams),
SessionKey = crypto:compute_key(Type, UserPublic, {HostPublic, HostPrivate},
HostComParam);
do_generate_compute({dh, P, G}) ->
{UserPub, UserPriv} = crypto:generate_key(dh, [P, G]),
{HostPub, HostPriv} = crypto:generate_key(dh, [P, G]),
SharedSecret = crypto:compute_key(dh, HostPub, UserPriv, [P, G]),
SharedSecret = crypto:compute_key(dh, UserPub, HostPriv, [P, G]).
do_compute({ecdh = Type, Pub, Priv, Curve, SharedSecret}) ->
Secret = crypto:compute_key(Type, Pub, Priv, Curve),
case Secret of
SharedSecret ->
ok;
Other ->
ct:fail({{crypto, compute_key, [Type, Pub, Priv, Curve]}, {expected, SharedSecret}, {got, Other}})
end.
do_generate({ecdh = Type, Curve, Priv, Pub}) ->
case crypto:generate_key(Type, Curve, Priv) of
{Pub, _} ->
ok;
{Other, _} ->
ct:fail({{crypto, generate_key, [Type, Priv, Curve]}, {expected, Pub}, {got, Other}})
end;
do_generate({rsa = Type, Mod, Exp}) ->
{Pub,Priv} = crypto:generate_key(Type, {Mod,Exp}),
do_sign_verify({rsa, sha256, Pub, Priv, rsa_plain()}).
notsup(Fun, Args) ->
Result =
try
{error, {return, apply(Fun, Args)}}
catch
error:notsup ->
ok;
Class:Error ->
{error, {Class, Error}}
end,
case Result of
ok ->
ok;
{error, Value} ->
{module, Module} = erlang:fun_info(Fun, module),
{name, Name} = erlang:fun_info(Fun, name),
ct:fail({{Module, Name, Args}, {expected, {error, notsup}}, {got, Value}})
end.
hexstr2point(X, Y) ->
<<4:8, (hexstr2bin(X))/binary, (hexstr2bin(Y))/binary>>.
hexstr2bin(S) when is_binary(S) ->
list_to_binary(hexstr2list(binary_to_list(S)));
hexstr2bin(S) ->
list_to_binary(hexstr2list(S)).
hexstr2list([X,Y|T]) ->
[mkint(X)*16 + mkint(Y) | hexstr2list(T)];
hexstr2list([]) ->
[].
mkint(C) when $0 =< C, C =< $9 ->
C - $0;
mkint(C) when $A =< C, C =< $F ->
C - $A + 10;
mkint(C) when $a =< C, C =< $f ->
C - $a + 10.
is_supported(Group) ->
lists:member(Group, lists:append([Algo || {_, Algo} <- crypto:supports()])).
cmac_iolistify(Blocks) ->
lists:map(fun do_cmac_iolistify/1, Blocks).
block_iolistify(Blocks) ->
lists:map(fun do_block_iolistify/1, Blocks).
stream_iolistify(Streams) ->
lists:map(fun do_stream_iolistify/1, Streams).
do_cmac_iolistify({Type, Key, Text, CMac}) ->
{Type, iolistify(Key), iolistify(Text), CMac};
do_cmac_iolistify({Type, Key, Text, Size, CMac}) ->
{Type, iolistify(Key), iolistify(Text), Size, CMac}.
do_stream_iolistify({Type, Key, PlainText}) ->
{Type, iolistify(Key), iolistify(PlainText)};
do_stream_iolistify({Type, Key, IV, PlainText}) ->
{Type, iolistify(Key), IV, iolistify(PlainText)}.
do_block_iolistify({des_cbc = Type, Key, IV, PlainText}) ->
{Type, Key, IV, des_iolistify(PlainText)};
do_block_iolistify({des3_cbc = Type, Key, IV, PlainText}) ->
{Type, Key, IV, des_iolistify(PlainText)};
do_block_iolistify({des3_cbf = Type, Key, IV, PlainText}) ->
{Type, Key, IV, des_iolistify(PlainText)};
do_block_iolistify({des3_cfb = Type, Key, IV, PlainText}) ->
{Type, Key, IV, des_iolistify(PlainText)};
do_block_iolistify({des_ede3 = Type, Key, IV, PlainText}) ->
{Type, Key, IV, des_iolistify(PlainText)};
do_block_iolistify({Type, Key, PlainText}) ->
{Type, iolistify(Key), iolistify(PlainText)};
do_block_iolistify({Type, Key, IV, PlainText}) ->
{Type, iolistify(Key), IV, iolistify(PlainText)};
do_block_iolistify({Type, Key, IV, PlainText, CipherText}) ->
{Type, iolistify(Key), IV, iolistify(PlainText), CipherText}.
iolistify(<<"Test With Truncation">>)->
%% Do not iolistify as it spoils this special case
<<"Test With Truncation">>;
iolistify(Msg) when is_binary(Msg) ->
Length = erlang:byte_size(Msg),
Split = Length div 2,
List0 = binary_to_list(Msg),
case lists:split(Split, List0) of
{[Element | List1], List2} ->
[[Element], List1, List2];
{List1, List2}->
[List1, List2]
end;
iolistify(Msg) ->
iolistify(list_to_binary(Msg)).
des_iolistify(Msg) ->
des_iolist(erlang:byte_size(Msg) div 8, Msg, []).
des_iolist(1, Msg, Acc) ->
lists:reverse([Msg | Acc]);
des_iolist(Split, Msg, Acc) ->
<<Part:8/binary, Rest/binary>> = Msg,
des_iolist(Split-1, Rest, [Part | Acc]).
%%--------------------------------------------------------------------
mod_pow_aux_test(_, _, _, 0) ->
ok;
mod_pow_aux_test(B, E, M, N) ->
Result = crypto:bytes_to_integer(crypto:mod_pow(B, E, M)),
Result = ipow(B, E, M),
mod_pow_aux_test(B, E*E+1, M*M+1, N-1).
%% mod_exp in erlang (copied from jungerl's ssh_math.erl)
ipow(A, B, M) when M > 0, B >= 0 ->
if A == 1 ->
1;
true ->
ipow(A, B, M, 1)
end.
ipow(A, 1, M, Prod) ->
(A*Prod) rem M;
ipow(_A, 0, _M, Prod) ->
Prod;
ipow(A, B, M, Prod) ->
B1 = B bsr 1,
A1 = (A*A) rem M,
if B - B1 == B1 ->
ipow(A1, B1, M, Prod);
true ->
ipow(A1, B1, M, (A*Prod) rem M)
end.
do_exor(B) ->
Z1 = zero_bin(B),
Z1 = crypto:exor(B, B),
B1 = crypto:strong_rand_bytes(100),
B2 = crypto:strong_rand_bytes(100),
Z2 = zero_bin(B1),
Z2 = crypto:exor(B1, B1),
Z2 = crypto:exor(B2, B2),
R = xor_bytes(B1, B2),
R = crypto:exor(B1, B2).
zero_bin(N) when is_integer(N) ->
N8 = N * 8,
<<0:N8/integer>>;
zero_bin(B) when is_binary(B) ->
zero_bin(size(B)).
xor_bytes(Bin1, Bin2) when is_binary(Bin1), is_binary(Bin2) ->
L1 = binary_to_list(Bin1),
L2 = binary_to_list(Bin2),
list_to_binary(xor_bytes(L1, L2));
xor_bytes(L1, L2) ->
xor_bytes(L1, L2, []).
xor_bytes([], [], Acc) ->
lists:reverse(Acc);
xor_bytes([N1 | Tl1], [N2 | Tl2], Acc) ->
xor_bytes(Tl1, Tl2, [N1 bxor N2 | Acc]).
rand_uniform_aux_test(0) ->
ok;
rand_uniform_aux_test(N) ->
L = N*1000,
H = N*100000+1,
crypto_rand_uniform(L, H),
crypto_rand_uniform(-L, L),
crypto_rand_uniform(-H, -L),
crypto_rand_uniform(-H, L),
rand_uniform_aux_test(N-1).
crypto_rand_uniform(L,H) ->
R1 = crypto:rand_uniform(L, H),
case (R1 >= L) and (R1 < H) of
true ->
ok;
false ->
ct:fail({"Not in interval", R1, L, H})
end.
foldallmap(_Fun, AccN, []) ->
{true, AccN};
foldallmap(Fun, AccN, [H|T]) ->
case Fun(H, AccN) of
{true, AccM} -> foldallmap(Fun, AccM, T);
{{false, Result}, AccM} -> {Result, AccM}
end.
allmap(_Fun, []) ->
true;
allmap(Fun, [H|T]) ->
case Fun(H) of
true -> allmap(Fun, T);
{false, Result} -> Result
end.
rand_plugin_aux(StateType) ->
{Seeder, SeedExporter, FloatGenerator, IntegerGenerator} = rand_plugin_functions(StateType),
State0 = Seeder(),
{crypto, no_seed} = SeedExporter(State0),
{FloatTestResult, State1} = rand_plugin_aux_floats(State0, FloatGenerator),
case FloatTestResult of
true ->
{IntegerTestResult, _State2} = rand_plugin_aux_integers(State1, IntegerGenerator),
IntegerTestResult;
{false, _} ->
FloatTestResult
end.
% returns {Seeder, SeedExporter, FloatGenerator, IntegerGenerator} with consistent signatures
rand_plugin_functions(implicit_state) ->
{fun () -> crypto:rand_seed(), implicit_state end,
fun (implicit_state) -> rand:export_seed() end,
fun (implicit_state) -> {rand:uniform(), implicit_state} end,
fun (N, implicit_state) -> {rand:uniform(N), implicit_state} end};
rand_plugin_functions(explicit_state) ->
{fun crypto:rand_seed_s/0,
fun rand:export_seed_s/1,
fun rand:uniform_s/1,
fun rand:uniform_s/2}.
rand_plugin_aux_floats(State0, FloatGenerator) ->
{FloatSamples, State1} =
lists:mapfoldl(
fun (_, StateAcc) ->
FloatGenerator(StateAcc)
end,
State0,
lists:seq(1, 10000)),
{allmap(
fun (V) ->
(V >= 0.0 andalso V < 1.0)
orelse {false, ct:fail({"Float sample not in interval", V, 0.0, 1.0})}
end,
FloatSamples),
State1}.
rand_plugin_aux_integers(State0, IntegerGenerator) ->
MaxIntegerCeiling = 1 bsl 32,
{IntegerCeilings, State1} =
lists:mapfoldl(
fun (_, StateAcc) ->
IntegerGenerator(MaxIntegerCeiling, StateAcc)
end,
State0,
lists:seq(1, 100)),
foldallmap(
fun (Ceiling, StateAcc) ->
case Ceiling >= 1 andalso Ceiling =< MaxIntegerCeiling of
false ->
{{false, ct:fail({"Integer ceiling not in interval",
Ceiling, 1, MaxIntegerCeiling})},
StateAcc};
true ->
foldallmap(
fun (_, SubStateAcc) ->
{Sample, NewSubStateAcc} = IntegerGenerator(Ceiling, SubStateAcc),
case Sample >= 1 andalso Sample =< Ceiling of
false ->
{{false, ct:fail({"Integer sample not in interval",
Sample, 1, Ceiling})},
NewSubStateAcc};
true ->
{true, NewSubStateAcc}
end
end,
StateAcc,
lists:seq(1, 100))
end
end,
State1,
IntegerCeilings).
%%--------------------------------------------------------------------
%% Test data ------------------------------------------------
%%--------------------------------------------------------------------
group_config(md4 = Type, Config) ->
Msgs = rfc_1321_msgs(),
Digests = rfc_1321_md4_digests(),
[{hash, {Type, Msgs, Digests}} | Config];
group_config(md5 = Type, Config) ->
Msgs = rfc_1321_msgs(),
Digests = rfc_1321_md5_digests(),
Keys = rfc_2202_md5_keys() ++ [long_hmac_key(md5)],
Data = rfc_2202_msgs() ++ [long_msg()],
Hmac = rfc_2202_hmac_md5() ++ [long_hmac(md5)],
[{hash, {Type, Msgs, Digests}}, {hmac, {Type, Keys, Data, Hmac}} | Config];
group_config(ripemd160 = Type, Config) ->
Msgs = ripemd160_msgs(),
Digests = ripemd160_digests(),
[{hash, {Type, Msgs, Digests}} | Config];
group_config(sha = Type, Config) ->
Msgs = [rfc_4634_test1(), rfc_4634_test2_1(),long_msg()],
Digests = rfc_4634_sha_digests() ++ [long_sha_digest()],
Keys = rfc_2202_sha_keys() ++ [long_hmac_key(sha)],
Data = rfc_2202_msgs() ++ [long_msg()],
Hmac = rfc_2202_hmac_sha() ++ [long_hmac(sha)],
[{hash, {Type, Msgs, Digests}}, {hmac, {Type, Keys, Data, Hmac}} | Config];
group_config(sha224 = Type, Config) ->
Msgs = [rfc_4634_test1(), rfc_4634_test2_1()],
Digests = rfc_4634_sha224_digests(),
Keys = rfc_4231_keys(),
Data = rfc_4231_msgs(),
Hmac = rfc4231_hmac_sha224(),
[{hash, {Type, Msgs, Digests}}, {hmac, {Type, Keys, Data, Hmac}} | Config];
group_config(sha256 = Type, Config) ->
Msgs = [rfc_4634_test1(), rfc_4634_test2_1(), long_msg()],
Digests = rfc_4634_sha256_digests() ++ [long_sha256_digest()],
Keys = rfc_4231_keys() ++ [long_hmac_key(sha256)],
Data = rfc_4231_msgs() ++ [long_msg()],
Hmac = rfc4231_hmac_sha256() ++ [long_hmac(sha256)],
[{hash, {Type, Msgs, Digests}}, {hmac, {Type, Keys, Data, Hmac}} | Config];
group_config(sha384 = Type, Config) ->
Msgs = [rfc_4634_test1(), rfc_4634_test2(), long_msg()],
Digests = rfc_4634_sha384_digests() ++ [long_sha384_digest()],
Keys = rfc_4231_keys() ++ [long_hmac_key(sha384)],
Data = rfc_4231_msgs() ++ [long_msg()],
Hmac = rfc4231_hmac_sha384() ++ [long_hmac(sha384)],
[{hash, {Type, Msgs, Digests}}, {hmac, {Type, Keys, Data, Hmac}} | Config];
group_config(sha512 = Type, Config) ->
Msgs = [rfc_4634_test1(), rfc_4634_test2(), long_msg()],
Digests = rfc_4634_sha512_digests() ++ [long_sha512_digest()],
Keys = rfc_4231_keys() ++ [long_hmac_key(sha512)],
Data = rfc_4231_msgs() ++ [long_msg()],
Hmac = rfc4231_hmac_sha512() ++ [long_hmac(sha512)],
[{hash, {Type, Msgs, Digests}}, {hmac, {Type, Keys, Data, Hmac}} | Config];
group_config(rsa = Type, Config) ->
Msg = rsa_plain(),
Public = rsa_public(),
Private = rsa_private(),
PublicS = rsa_public_stronger(),
PrivateS = rsa_private_stronger(),
SignVerify =
case ?config(fips, Config) of
true ->
%% Use only the strong keys in FIPS mode
sign_verify_tests(Type, Msg,
PublicS, PrivateS,
PublicS, PrivateS);
false ->
sign_verify_tests(Type, Msg,
Public, Private,
PublicS, PrivateS)
end,
MsgPubEnc = <<"7896345786348 Asldi">>,
PubPrivEnc = [{rsa, PublicS, PrivateS, MsgPubEnc, rsa_pkcs1_padding},
rsa_oaep(),
no_padding()
],
Generate = [{rsa, 2048, 17}, {rsa, 3072, 65537}],
[{sign_verify, SignVerify}, {pub_priv_encrypt, PubPrivEnc}, {generate, Generate} | Config];
group_config(dss = Type, Config) ->
Msg = dss_plain(),
Public = dss_params() ++ [dss_public()],
Private = dss_params() ++ [dss_private()],
SignVerify = [{Type, sha, Public, Private, Msg}],
[{sign_verify, SignVerify} | Config];
group_config(ecdsa = Type, Config) ->
{Private, Public} = ec_key_named(),
Msg = ec_msg(),
SignVerify = [{Type, sha, Public, Private, Msg}],
[{sign_verify, SignVerify} | Config];
group_config(srp, Config) ->
GenerateCompute = [srp3(), srp6(), srp6a(), srp6a_smaller_prime()],
[{generate_compute, GenerateCompute} | Config];
group_config(ecdh, Config) ->
Compute = ecdh(),
Generate = ecc(),
[{compute, Compute}, {generate, Generate} | Config];
group_config(dh, Config) ->
GenerateCompute = [dh()],
[{generate_compute, GenerateCompute} | Config];
group_config(des_cbc, Config) ->
Block = des_cbc(),
[{block, Block} | Config];
group_config(des_cfb, Config) ->
Block = des_cfb(),
[{block, Block} | Config];
group_config(des3_cbc, Config) ->
Block = des3_cbc(),
[{block, Block} | Config];
group_config(des3_cbf, Config) ->
Block = des3_cbf(),
[{block, Block} | Config];
group_config(des3_cfb, Config) ->
Block = des3_cfb(),
[{block, Block} | Config];
group_config(des_ede3, Config) ->
Block = des_ede3(),
[{block, Block} | Config];
group_config(rc2_cbc, Config) ->
Block = rc2_cbc(),
[{block, Block} | Config];
group_config(aes_cbc128 = Type, Config) ->
Block = fun() -> aes_cbc128(Config) end,
Pairs = fun() -> cmac_nist(Config, Type) end,
[{block, Block}, {cmac, Pairs} | Config];
group_config(aes_cbc256 = Type, Config) ->
Block = fun() -> aes_cbc256(Config) end,
Pairs = fun() -> cmac_nist(Config, Type) end,
[{block, Block}, {cmac, Pairs} | Config];
group_config(aes_ecb, Config) ->
Block = fun() -> aes_ecb(Config) end,
[{block, Block} | Config];
group_config(aes_ige256, Config) ->
Block = aes_ige256(),
[{block, Block} | Config];
group_config(aes_cfb8, Config) ->
Block = fun() -> aes_cfb8(Config) end,
[{block, Block} | Config];
group_config(aes_cfb128, Config) ->
Block = fun() -> aes_cfb128(Config) end,
[{block, Block} | Config];
group_config(blowfish_cbc, Config) ->
Block = blowfish_cbc(),
[{block, Block} | Config];
group_config(blowfish_ecb, Config) ->
Block = blowfish_ecb(),
[{block, Block} | Config];
group_config(blowfish_cfb64, Config) ->
Block = blowfish_cfb64(),
[{block, Block} | Config];
group_config(blowfish_ofb64, Config) ->
Block = blowfish_ofb64(),
[{block, Block} | Config];
group_config(rc4, Config) ->
Stream = rc4(),
[{stream, Stream} | Config];
group_config(aes_ctr, Config) ->
Stream = aes_ctr(),
[{stream, Stream} | Config];
group_config(aes_gcm, Config) ->
AEAD = fun() -> aes_gcm(Config) end,
[{aead, AEAD} | Config];
group_config(chacha20_poly1305, Config) ->
AEAD = chacha20_poly1305(),
[{aead, AEAD} | Config];
group_config(aes_cbc, Config) ->
Block = aes_cbc(Config),
[{block, Block} | Config];
group_config(_, Config) ->
Config.
sign_verify_tests(Type, Msg, Public, Private, PublicS, PrivateS) ->
sign_verify_tests(Type, [md5, sha, sha224, sha256], Msg, Public, Private) ++
sign_verify_tests(Type, [sha384, sha512], Msg, PublicS, PrivateS).
sign_verify_tests(Type, Hashs, Msg, Public, Private) ->
lists:foldl(fun(Hash, Acc) ->
case is_supported(Hash) of
true ->
[{Type, Hash, Public, Private, Msg}|Acc];
false ->
Acc
end
end, [], Hashs).
rfc_1321_msgs() ->
[<<"">>,
<<"a">>,
<<"abc">>,
<<"message digest">>,
<<"abcdefghijklmnopqrstuvwxyz">>,
<<"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789">>,
<<"12345678901234567890123456789012345678901234567890123456789012345678901234567890">>
].
rfc_1321_md4_digests() ->
[hexstr2bin("31d6cfe0d16ae931b73c59d7e0c089c0"),
hexstr2bin("bde52cb31de33e46245e05fbdbd6fb24"),
hexstr2bin("a448017aaf21d8525fc10ae87aa6729d"),
hexstr2bin("d9130a8164549fe818874806e1c7014b"),
hexstr2bin("d79e1c308aa5bbcdeea8ed63df412da9"),
hexstr2bin("043f8582f241db351ce627e153e7f0e4"),
hexstr2bin("e33b4ddc9c38f2199c3e7b164fcc0536")].
rfc_1321_md5_digests() ->
[hexstr2bin("d41d8cd98f00b204e9800998ecf8427e"),
hexstr2bin("0cc175b9c0f1b6a831c399e269772661"),
hexstr2bin("900150983cd24fb0d6963f7d28e17f72"),
hexstr2bin("f96b697d7cb7938d525a2f31aaf161d0"),
hexstr2bin("c3fcd3d76192e4007dfb496cca67e13b"),
hexstr2bin("d174ab98d277d9f5a5611c2c9f419d9f"),
hexstr2bin("57edf4a22be3c955ac49da2e2107b67a")].
rfc_4634_test1() ->
<<"abc">>.
rfc_4634_test2_1() ->
<<"abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq">>.
rfc_4634_test2_2a() ->
<<"abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmn">>.
rfc_4634_test2_2b() ->
<<"hijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu">>.
rfc_4634_test2() ->
A2 =rfc_4634_test2_2a(),
B2 = rfc_4634_test2_2b(),
<<A2/binary, B2/binary>>.
rfc_4634_sha_digests()->
[hexstr2bin("A9993E364706816ABA3E25717850C26C9CD0D89D"),
hexstr2bin("84983E441C3BD26EBAAE4AA1F95129E5E54670F1")].
rfc_4634_sha224_digests() ->
[hexstr2bin("23097D223405D8228642A477BDA255B32AADBCE4BDA0B3F7E36C9DA7"),
hexstr2bin("75388B16512776CC5DBA5DA1FD890150B0C6455CB4F58B1952522525")].
rfc_4634_sha256_digests() ->
[
hexstr2bin("BA7816BF8F01CFEA4141"
"40DE5DAE2223B00361A396177A9CB410FF61F20015AD"),
hexstr2bin("248D6A61D20638B8"
"E5C026930C3E6039A33CE45964FF2167F6ECEDD419DB06C1")
].
rfc_4634_sha384_digests() ->
[hexstr2bin("CB00753F45A35E8BB5A03D699AC65007272C32AB0EDED1631A8B605A43FF5BED8086072BA1E7CC2358BAECA134C825A7"),
hexstr2bin("09330C33F71147E83D192FC782CD1B4753111B173B3B05D22FA08086E3B0F712FCC7C71A557E2DB966C3E9FA91746039")
].
rfc_4634_sha512_digests() ->
[hexstr2bin("DDAF35A193617ABACC417349AE20413112E6FA4E89A97EA2"
"0A9EEEE64B55D39A2192992A274FC1A836BA3C23A3FEEBBD"
"454D4423643CE80E2A9AC94FA54CA49F"),
hexstr2bin("8E959B75DAE313DA8CF4F72814FC143F8F7779C6EB9F7FA17299AEADB6889018501D289E4900F7E4331B99DEC4B5433AC7D329EEB6DD26545E96E55B874BE909")].
long_msg() ->
fun() -> lists:duplicate(1000000, $a) end.
%% Passing huge terms (like long_msg/0) through config causes excessive memory
%% consumption and long runtimes in the test server. This results in test_server
%% crash with 'no_answer_from_tc_supervisor' sometimes on some machines.
%% Therefore lazy evaluation when test case has started.
lazy_eval(F) when is_function(F) -> F();
lazy_eval(Lst) when is_list(Lst) -> lists:map(fun lazy_eval/1, Lst);
lazy_eval(Tpl) when is_tuple(Tpl) -> list_to_tuple(lists:map(fun lazy_eval/1, tuple_to_list(Tpl)));
lazy_eval(Term) -> Term.
long_sha_digest() ->
hexstr2bin("34aa973c" "d4c4daa4" "f61eeb2b" "dbad2731" "6534016f").
long_sha256_digest() ->
hexstr2bin("cdc76e5c" "9914fb92" "81a1c7e2" "84d73e67" "f1809a48" "a497200e" "046d39cc" "c7112cd0").
long_sha384_digest() ->
hexstr2bin("9d0e1809716474cb" "086e834e310a4a1c" "ed149e9c00f24852" "7972cec5704c2a5b"
"07b8b3dc38ecc4eb" "ae97ddd87f3d8985").
long_sha512_digest() ->
hexstr2bin("e718483d0ce76964" "4e2e42c7bc15b463" "8e1f98b13b204428" "5632a803afa973eb"
"de0ff244877ea60a" "4cb0432ce577c31b" "eb009c5c2c49aa2e" "4eadb217ad8cc09b").
ripemd160_msgs() ->
[<<"">>,
<<"a">>,
<<"abc">>,
<<"message digest">>,
<<"abcdefghijklmnopqrstuvwxyz">>,
<<"abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq">>,
<<"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789">>
].
ripemd160_digests() ->
[hexstr2bin("9c1185a5c5e9fc54612808977ee8f548b2258d31"),
hexstr2bin("0bdc9d2d256b3ee9daae347be6f4dc835a467ffe"),
hexstr2bin("8eb208f7e05d987a9b044a8e98c6b087f15a0bfc"),
hexstr2bin("5d0689ef49d2fae572b881b123a85ffa21595f36"),
hexstr2bin("f71c27109c692c1b56bbdceb5b9d2865b3708dbc"),
hexstr2bin("12a053384a9c0c88e405a06c27dcf49ada62eb2b"),
hexstr2bin("b0e20b6e3116640286ed3a87a5713079b21f5189")
].
ripemd160_incr_msgs() ->
[<<"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefg">>,<<"hijklmnopqrstuvwxyz0123456789">>].
ripemd160_incr_digest() ->
hexstr2bin("b0e20b6e3116640286ed3a87a5713079b21f5189").
rfc_2202_md5_keys() ->
[binary:copy(<<16#0b>>, 16),
<<"Jefe">>,
binary:copy(<<16#aa>>, 16),
list_to_binary(lists:seq(1, 16#19)),
binary:copy(<<16#0c>>, 16),
binary:copy(<<16#aa>>, 80),
binary:copy(<<16#aa>>, 80)].
rfc_2202_sha_keys() ->
[binary:copy(<<16#0b>>, 20),
<<"Jefe">>,
binary:copy(<<16#aa>>, 20),
list_to_binary(lists:seq(1, 16#19)),
binary:copy(<<16#0c>>, 20),
binary:copy(<<16#aa>>, 80),
binary:copy(<<16#aa>>, 80)].
rfc_2202_msgs()->
[<<"Hi There">>,
<<"what do ya want for nothing?">>,
binary:copy(<<16#dd>>, 50),
binary:copy(<<16#cd>>, 50),
<<"Test With Truncation">>,
<<"Test Using Larger Than Block-Size Key - Hash Key First">>,
<<"Test Using Larger Than Block-Size Key and Larger Than One Block-Size Data">>
].
hmac_key(md5) ->
[<<"A fine speach">>, <<"by a fine man!">>];
hmac_key(_) ->
hexstr2bin("00010203101112132021222330313233"
"04050607141516172425262734353637"
"08090a0b18191a1b28292a2b38393a3b"
"0c0d0e0f1c1d1e1f2c2d2e2f3c3d3e3f").
hmac_inc(_) ->
[<<"Sampl">>, <<"e #1">>].
%% https://www.cosic.esat.kuleuven.be/nessie/testvectors/
long_hmac_key(Type) when Type == sha384;
Type == sha512 ->
hexstr2bin("00112233445566778899AABBCCDDEEFF"
"0123456789ABCDEF0011223344556677"
"8899AABBCCDDEEFF0123456789ABCDEF"
"00112233445566778899AABBCCDDEEFF");
long_hmac_key(_) ->
hexstr2bin("0123456789ABCDEF0123456789ABCDEF"
"0123456789ABCDEF0123456789ABCDEF"
"0123456789ABCDEF0123456789ABCDEF"
"0123456789ABCDEF0123456789ABCDEF").
long_hmac(md5) ->
hexstr2bin("82FDDA30202CB6ACC6F24D4F8A50EB7A");
long_hmac(sha) ->
hexstr2bin("61D1D0B6459860755FDA892938C23DD401E54A7E");
long_hmac(sha256) ->
hexstr2bin("50008B8DC7ED3926936347FDC1A01E9D"
"5220C6CC4B038B482C0F28A4CD88CA37");
long_hmac(sha384) ->
hexstr2bin("C1EB08DAFA015833D3FC6B29A387558B"
"3F6FA1524AA1A8EB64798D5A76A39D6E"
"A1465525342E060EE996277B4FFCDDC9");
long_hmac(sha512) ->
hexstr2bin("D116BF471AAE1264854F1906025E846A"
"61618A965FCA30B695220EA2D6E547E3"
"F3B5A4B54E6778928C26D5D3D810498E"
"8DF86CB3CC1E9F66A00419B13B6B0C9A").
rfc_2202_hmac_md5() ->
[
hexstr2bin("9294727a3638bb1c13f48ef8158bfc9d"),
hexstr2bin("750c783e6ab0b503eaa86e310a5db738"),
hexstr2bin("56be34521d144c88dbb8c733f0e8b3f6"),
hexstr2bin("697eaf0aca3a3aea3a75164746ffaa79"),
hexstr2bin("56461ef2342edc00f9bab995690efd4c"),
hexstr2bin("6b1ab7fe4bd7bf8f0b62e6ce61b9d0cd"),
hexstr2bin("6f630fad67cda0ee1fb1f562db3aa53e")
].
rfc_2202_hmac_sha() ->
[
hexstr2bin("b617318655057264e28bc0b6fb378c8ef146be00"),
hexstr2bin("effcdf6ae5eb2fa2d27416d5f184df9c259a7c79"),
hexstr2bin("125d7342b9ac11cd91a39af48aa17b4f63f175d3"),
hexstr2bin("4c9007f4026250c6bc8414f9bf50c86c2d7235da"),
hexstr2bin("4c1a03424b55e07fe7f27be1d58bb9324a9a5a04"),
hexstr2bin("aa4ae5e15272d00e95705637ce8a3b55ed402112"),
hexstr2bin("e8e99d0f45237d786d6bbaa7965c7808bbff1a91")
].
rfc_4231_keys() ->
[binary:copy(<<16#0b>>, 20),
<<"Jefe">>,
binary:copy(<<16#aa>>, 20),
list_to_binary(lists:seq(1, 16#19)),
binary:copy(<<16#0c>>, 20),
binary:copy(<<16#aa>>, 131),
binary:copy(<<16#aa>>, 131)
].
rfc_4231_msgs() ->
[<<"Hi There">>,
<<"what do ya want for nothing?">>,
binary:copy(<<16#dd>>, 50),
binary:copy(<<16#cd>>, 50),
<<"Test With Truncation">>,
<<"Test Using Larger Than Block-Size Key - Hash Key First">>,
<<"This is a test using a larger than block-size key and a larger t",
"han block-size data. The key needs to be hashed before being use",
"d by the HMAC algorithm.">>
].
rfc4231_hmac_sha224() ->
[hexstr2bin("896fb1128abbdf196832107cd49df33f"
"47b4b1169912ba4f53684b22"),
hexstr2bin("a30e01098bc6dbbf45690f3a7e9e6d0f"
"8bbea2a39e6148008fd05e44"),
hexstr2bin("7fb3cb3588c6c1f6ffa9694d7d6ad264"
"9365b0c1f65d69d1ec8333ea"),
hexstr2bin("6c11506874013cac6a2abc1bb382627c"
"ec6a90d86efc012de7afec5a"),
hexstr2bin("0e2aea68a90c8d37c988bcdb9fca6fa8"),
hexstr2bin("95e9a0db962095adaebe9b2d6f0dbce2"
"d499f112f2d2b7273fa6870e"),
hexstr2bin("3a854166ac5d9f023f54d517d0b39dbd"
"946770db9c2b95c9f6f565d1")].
rfc4231_hmac_sha256() ->
[hexstr2bin("b0344c61d8db38535ca8afceaf0bf12b"
"881dc200c9833da726e9376c2e32cff7"),
hexstr2bin("5bdcc146bf60754e6a042426089575c7"
"5a003f089d2739839dec58b964ec3843"),
hexstr2bin("773ea91e36800e46854db8ebd09181a7"
"2959098b3ef8c122d9635514ced565fe"),
hexstr2bin("82558a389a443c0ea4cc819899f2083a"
"85f0faa3e578f8077a2e3ff46729665b"),
hexstr2bin("a3b6167473100ee06e0c796c2955552b"),
hexstr2bin("60e431591ee0b67f0d8a26aacbf5b77f"
"8e0bc6213728c5140546040f0ee37f54"),
hexstr2bin("9b09ffa71b942fcb27635fbcd5b0e944"
"bfdc63644f0713938a7f51535c3a35e2")].
rfc4231_hmac_sha384() ->
[hexstr2bin("afd03944d84895626b0825f4ab46907f"
"15f9dadbe4101ec682aa034c7cebc59c"
"faea9ea9076ede7f4af152e8b2fa9cb6"),
hexstr2bin("af45d2e376484031617f78d2b58a6b1b"
"9c7ef464f5a01b47e42ec3736322445e"
"8e2240ca5e69e2c78b3239ecfab21649"),
hexstr2bin("88062608d3e6ad8a0aa2ace014c8a86f"
"0aa635d947ac9febe83ef4e55966144b"
"2a5ab39dc13814b94e3ab6e101a34f27"),
hexstr2bin("3e8a69b7783c25851933ab6290af6ca7"
"7a9981480850009cc5577c6e1f573b4e"
"6801dd23c4a7d679ccf8a386c674cffb"),
hexstr2bin("3abf34c3503b2a23a46efc619baef897"),
hexstr2bin("4ece084485813e9088d2c63a041bc5b4"
"4f9ef1012a2b588f3cd11f05033ac4c6"
"0c2ef6ab4030fe8296248df163f44952"),
hexstr2bin("6617178e941f020d351e2f254e8fd32c"
"602420feb0b8fb9adccebb82461e99c5"
"a678cc31e799176d3860e6110c46523e")].
rfc4231_hmac_sha512() ->
[hexstr2bin("87aa7cdea5ef619d4ff0b4241a1d6cb0"
"2379f4e2ce4ec2787ad0b30545e17cde"
"daa833b7d6b8a702038b274eaea3f4e4"
"be9d914eeb61f1702e696c203a126854"),
hexstr2bin("164b7a7bfcf819e2e395fbe73b56e0a3"
"87bd64222e831fd610270cd7ea250554"
"9758bf75c05a994a6d034f65f8f0e6fd"
"caeab1a34d4a6b4b636e070a38bce737"),
hexstr2bin("fa73b0089d56a284efb0f0756c890be9"
"b1b5dbdd8ee81a3655f83e33b2279d39"
"bf3e848279a722c806b485a47e67c807"
"b946a337bee8942674278859e13292fb"),
hexstr2bin("b0ba465637458c6990e5a8c5f61d4af7"
"e576d97ff94b872de76f8050361ee3db"
"a91ca5c11aa25eb4d679275cc5788063"
"a5f19741120c4f2de2adebeb10a298dd"),
hexstr2bin("415fad6271580a531d4179bc891d87a6"),
hexstr2bin("80b24263c7c1a3ebb71493c1dd7be8b4"
"9b46d1f41b4aeec1121b013783f8f352"
"6b56d037e05f2598bd0fd2215d6a1e52"
"95e64f73f63f0aec8b915a985d786598"),
hexstr2bin("e37b6a775dc87dbaa4dfa9f96e5e3ffd"
"debd71f8867289865df5a32d20cdc944"
"b6022cac3c4982b10d5eeb55c3e4de15"
"134676fb6de0446065c97440fa8c6a58")].
des_cbc() ->
[{des_cbc,
hexstr2bin("0123456789abcdef"),
hexstr2bin("1234567890abcdef"),
<<"Now is the time for all ">> }].
des_cfb() ->
[{des_cfb,
hexstr2bin("0123456789abcdef"),
hexstr2bin("1234567890abcdef"),
<<"Now is the">>}].
des3_cbc() ->
[{des3_cbc,
[hexstr2bin("0123456789abcdef"),
hexstr2bin("fedcba9876543210"),
hexstr2bin("0f2d4b6987a5c3e1")],
hexstr2bin("1234567890abcdef"),
<<"Now is the time for all ">>
}].
des_ede3() ->
[{des_ede3,
[hexstr2bin("8000000000000000"),
hexstr2bin("4000000000000000"),
hexstr2bin("2000000000000000")],
hexstr2bin("7AD16FFB79C45926"),
hexstr2bin("0000000000000000")
}].
des3_cbf() ->
[{des3_cbf,
[hexstr2bin("0123456789abcdef"),
hexstr2bin("fedcba9876543210"),
hexstr2bin("0f2d4b6987a5c3e1")],
hexstr2bin("1234567890abcdef"),
<<"Now is the time for all ">>
}].
des3_cfb() ->
[{des3_cfb,
[hexstr2bin("0123456789abcdef"),
hexstr2bin("fedcba9876543210"),
hexstr2bin("0f2d4b6987a5c3e1")],
hexstr2bin("1234567890abcdef"),
<<"Now is the time for all ">>
}].
rc2_cbc() ->
[{rc2_cbc,
<<146,210,160,124,215,227,153,239,227,17,222,140,3,93,27,191>>,
<<72,91,135,182,25,42,35,210>>,
<<36,245,206,158,168,230,58,69,148,137,32,192,250,41,237,181,181,251, 192,2,175,135,177,171,57,30,111,117,159,149,15,28,88,158,28,81,28,115, 85,219,241,82,117,222,91,85,73,117,164,25,182,52,191,64,123,57,26,19, 211,27,253,31,194,219,231,104,247,240,172,130,119,21,225,154,101,247, 32,216,42,216,133,169,78,22,97,27,227,26,196,224,172,168,17,9,148,55, 203,91,252,40,61,226,236,221,215,160,78,63,13,181,68,57,196,241,185, 207, 116,129,152,237,60,139,247,153,27,146,161,246,222,98,185,222,152, 187,135, 236,86,34,7,110,91,230,173,34,160,242,202,222,121,127,181,140, 101,203,195, 190,88,250,86,147,127,87,72,126,171,16,71,47,110,248,88, 14,29,143,161,152, 129,236,148,22,152,186,208,119,70,8,174,193,203,100, 193,203,200,117,102,242, 134,142,96,125,135,200,217,190,76,117,50,70, 209,186,101,241,200,91,40,193,54, 90,195,38,47,59,197,38,234,86,223,16, 51,253,204,129,20,171,66,21,241,26,135,216, 196,114,110,91,15,53,40, 164,201,136,113,95,247,51,181,208,241,68,168,98,151,36, 155,72,24,57, 42,191,14,125,204,10,167,214,233,138,115,125,234,121,134,227,26,247, 77,200,117,110,117,111,168,156,206,67,159,149,189,173,150,193,91,199, 216,153,22, 189,137,185,89,160,13,131,132,58,109,28,110,246,252,251,14, 232,91,38,52,29,101,188,69,123,50,0,130,178,93,73,239,118,7,77,35,59, 253,10,159,45,86,142,37,78,232,48>>
}].
%% AES CBC test vectors from http://csrc.nist.gov/publications/nistpubs/800-38a/sp800-38a.pdf
aes_cbc(Config) ->
read_rsp(Config, aes_cbc,
["CBCVarTxt128.rsp", "CBCVarKey128.rsp", "CBCGFSbox128.rsp", "CBCKeySbox128.rsp",
"CBCVarTxt192.rsp", "CBCVarKey192.rsp", "CBCGFSbox192.rsp", "CBCKeySbox192.rsp",
"CBCVarTxt256.rsp", "CBCVarKey256.rsp", "CBCGFSbox256.rsp", "CBCKeySbox256.rsp",
"CBCMMT128.rsp", "CBCMMT192.rsp", "CBCMMT256.rsp"
]).
aes_cbc128(Config) ->
read_rsp(Config, aes_cbc128,
["CBCVarTxt128.rsp", "CBCVarKey128.rsp", "CBCGFSbox128.rsp", "CBCKeySbox128.rsp",
"CBCMMT128.rsp"]).
aes_cbc256(Config) ->
read_rsp(Config, aes_cbc256,
["CBCVarTxt256.rsp", "CBCVarKey256.rsp", "CBCGFSbox256.rsp", "CBCKeySbox256.rsp",
"CBCMMT256.rsp"]).
aes_ecb(Config) ->
read_rsp(Config, aes_ecb,
["ECBVarTxt128.rsp", "ECBVarKey128.rsp", "ECBGFSbox128.rsp", "ECBKeySbox128.rsp",
"ECBVarTxt192.rsp", "ECBVarKey192.rsp", "ECBGFSbox192.rsp", "ECBKeySbox192.rsp",
"ECBVarTxt256.rsp", "ECBVarKey256.rsp", "ECBGFSbox256.rsp", "ECBKeySbox256.rsp",
"ECBMMT128.rsp", "ECBMMT192.rsp", "ECBMMT256.rsp"]).
aes_ige256() ->
[{aes_ige256,
hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("000102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F"),
hexstr2bin("6bc1bee22e409f96e93d7e117393172a")},
{aes_ige256,
hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("4D0F9E735749215C05CB20DA00F7814B77D33F8A668BEBBAC1739AB20302D4FE"),
hexstr2bin("ae2d8a571e03ac9c9eb76fac45af8e51")},
{aes_ige256,
hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("2A5569424DAE1ACEABDEEA108DB4606AE21A9227CAB5F55BF52535CFA2B34717"),
hexstr2bin("30c81c46a35ce411e5fbc1191a0a52ef")},
{aes_ige256,
hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("15D5A583D2D668E518E683D9BDF1B6D0E0C3B1E5D5C1D51E964822E1ADE88DFA"),
hexstr2bin("f69f2445df4f9b17ad2b417be66c3710")}
].
aes_cfb8(Config) ->
read_rsp(Config, aes_cfb8,
["CFB8VarTxt128.rsp", "CFB8VarKey128.rsp", "CFB8GFSbox128.rsp", "CFB8KeySbox128.rsp",
"CFB8VarTxt192.rsp", "CFB8VarKey192.rsp", "CFB8GFSbox192.rsp", "CFB8KeySbox192.rsp",
"CFB8VarTxt256.rsp", "CFB8VarKey256.rsp", "CFB8GFSbox256.rsp", "CFB8KeySbox256.rsp",
"CFB8MMT128.rsp", "CFB8MMT192.rsp", "CFB8MMT256.rsp"]).
aes_cfb128(Config) ->
read_rsp(Config, aes_cfb128,
["CFB128VarTxt128.rsp", "CFB128VarKey128.rsp", "CFB128GFSbox128.rsp", "CFB128KeySbox128.rsp",
"CFB128VarTxt192.rsp", "CFB128VarKey192.rsp", "CFB128GFSbox192.rsp", "CFB128KeySbox192.rsp",
"CFB128VarTxt256.rsp", "CFB128VarKey256.rsp", "CFB128GFSbox256.rsp", "CFB128KeySbox256.rsp",
"CFB128MMT128.rsp", "CFB128MMT192.rsp", "CFB128MMT256.rsp"]).
blowfish_cbc() ->
[{blowfish_cbc,
hexstr2bin("0123456789ABCDEFF0E1D2C3B4A59687"),
hexstr2bin("FEDCBA9876543210"),
hexstr2bin("37363534333231204E6F77206973207468652074696D6520666F722000000000")
}].
blowfish_ecb() ->
[
{blowfish_ecb,
hexstr2bin("0000000000000000"),
hexstr2bin("0000000000000000")},
{blowfish_ecb,
hexstr2bin("FFFFFFFFFFFFFFFF"),
hexstr2bin("FFFFFFFFFFFFFFFF")},
{blowfish_ecb,
hexstr2bin("3000000000000000"),
hexstr2bin("1000000000000001")},
{blowfish_ecb,
hexstr2bin("1111111111111111"),
hexstr2bin("1111111111111111")},
{blowfish_ecb,
hexstr2bin("0123456789ABCDEF"),
hexstr2bin("1111111111111111")},
{blowfish_ecb,
hexstr2bin("0000000000000000"),
hexstr2bin("0000000000000000")},
{blowfish_ecb,
hexstr2bin("FEDCBA9876543210"),
hexstr2bin("0123456789ABCDEF")},
{blowfish_ecb,
hexstr2bin("7CA110454A1A6E57"),
hexstr2bin("01A1D6D039776742")},
{blowfish_ecb,
hexstr2bin("0131D9619DC1376E"),
hexstr2bin("5CD54CA83DEF57DA")},
{blowfish_ecb,
hexstr2bin("07A1133E4A0B2686"),
hexstr2bin("0248D43806F67172")},
{blowfish_ecb,
hexstr2bin("3849674C2602319E"),
hexstr2bin("51454B582DDF440A")},
{blowfish_ecb,
hexstr2bin("04B915BA43FEB5B6"),
hexstr2bin("42FD443059577FA2")},
{blowfish_ecb,
hexstr2bin("0113B970FD34F2CE"),
hexstr2bin("059B5E0851CF143A")},
{blowfish_ecb,
hexstr2bin("0170F175468FB5E6"),
hexstr2bin("0756D8E0774761D2")},
{blowfish_ecb,
hexstr2bin("43297FAD38E373FE"),
hexstr2bin("762514B829BF486A")},
{blowfish_ecb,
hexstr2bin("07A7137045DA2A16"),
hexstr2bin("3BDD119049372802")},
{blowfish_ecb,
hexstr2bin("04689104C2FD3B2F"),
hexstr2bin("26955F6835AF609A")},
{blowfish_ecb,
hexstr2bin("37D06BB516CB7546"),
hexstr2bin("164D5E404F275232")},
{blowfish_ecb,
hexstr2bin("1F08260D1AC2465E"),
hexstr2bin("6B056E18759F5CCA")},
{blowfish_ecb,
hexstr2bin("584023641ABA6176"),
hexstr2bin("004BD6EF09176062")},
{blowfish_ecb,
hexstr2bin("025816164629B007"),
hexstr2bin("480D39006EE762F2")},
{blowfish_ecb,
hexstr2bin("49793EBC79B3258F"),
hexstr2bin("437540C8698F3CFA")},
{blowfish_ecb,
hexstr2bin("018310DC409B26D6"),
hexstr2bin("1D9D5C5018F728C2")},
{blowfish_ecb,
hexstr2bin("1C587F1C13924FEF"),
hexstr2bin("305532286D6F295A")},
{blowfish_ecb,
hexstr2bin("0101010101010101"),
hexstr2bin("0123456789ABCDEF")},
{blowfish_ecb,
hexstr2bin("1F1F1F1F0E0E0E0E"),
hexstr2bin("0123456789ABCDEF")},
{blowfish_ecb,
hexstr2bin("E0FEE0FEF1FEF1FE"),
hexstr2bin("0123456789ABCDEF")},
{blowfish_ecb,
hexstr2bin("0000000000000000"),
hexstr2bin("FFFFFFFFFFFFFFFF")},
{blowfish_ecb,
hexstr2bin("FFFFFFFFFFFFFFFF"),
hexstr2bin("0000000000000000")},
{blowfish_ecb,
hexstr2bin("0123456789ABCDEF"),
hexstr2bin("0000000000000000")},
{blowfish_ecb,
hexstr2bin("FEDCBA9876543210"),
hexstr2bin("FFFFFFFFFFFFFFFF")}
].
blowfish_cfb64() ->
[{blowfish_cfb64,
hexstr2bin("0123456789ABCDEFF0E1D2C3B4A59687"),
hexstr2bin("FEDCBA9876543210"),
hexstr2bin("37363534333231204E6F77206973207468652074696D6520666F722000")
}].
blowfish_ofb64() ->
[{blowfish_ofb64,
hexstr2bin("0123456789ABCDEFF0E1D2C3B4A59687"),
hexstr2bin("FEDCBA9876543210"),
hexstr2bin("37363534333231204E6F77206973207468652074696D6520666F722000")
}].
rc4() ->
[{rc4, <<"apaapa">>, <<"Yo baby yo">>},
{rc4, <<"apaapa">>, list_to_binary(lists:seq(0, 255))},
{rc4, <<"apaapa">>, long_msg()}
].
aes_ctr() ->
[ %% F.5.3 CTR-AES192.Encrypt
{aes_ctr, hexstr2bin("2b7e151628aed2a6abf7158809cf4f3c"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff"),
hexstr2bin("6bc1bee22e409f96e93d7e117393172a")},
{aes_ctr, hexstr2bin("2b7e151628aed2a6abf7158809cf4f3c"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff00"),
hexstr2bin("ae2d8a571e03ac9c9eb76fac45af8e51")},
{aes_ctr, hexstr2bin("2b7e151628aed2a6abf7158809cf4f3c"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff01"),
hexstr2bin("30c81c46a35ce411e5fbc1191a0a52ef") },
{aes_ctr, hexstr2bin("2b7e151628aed2a6abf7158809cf4f3c"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff02"),
hexstr2bin("f69f2445df4f9b17ad2b417be66c3710")},
%% F.5.3 CTR-AES192.Encrypt
{aes_ctr, hexstr2bin("8e73b0f7da0e6452c810f32b809079e562f8ead2522c6b7b"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff"),
hexstr2bin("6bc1bee22e409f96e93d7e117393172a")},
{aes_ctr, hexstr2bin("8e73b0f7da0e6452c810f32b809079e562f8ead2522c6b7b"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff00"),
hexstr2bin("ae2d8a571e03ac9c9eb76fac45af8e51")},
{aes_ctr, hexstr2bin("8e73b0f7da0e6452c810f32b809079e562f8ead2522c6b7b"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff01"),
hexstr2bin("30c81c46a35ce411e5fbc1191a0a52ef")},
{aes_ctr, hexstr2bin("8e73b0f7da0e6452c810f32b809079e562f8ead2522c6b7b"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff02"),
hexstr2bin("f69f2445df4f9b17ad2b417be66c3710")},
%% F.5.5 CTR-AES256.Encrypt
{aes_ctr, hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff"),
hexstr2bin("6bc1bee22e409f96e93d7e117393172a")},
{aes_ctr, hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff00"),
hexstr2bin("ae2d8a571e03ac9c9eb76fac45af8e51")},
{aes_ctr, hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff01"),
hexstr2bin("30c81c46a35ce411e5fbc1191a0a52ef")},
{aes_ctr, hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdff02"),
hexstr2bin("f69f2445df4f9b17ad2b417be66c3710")},
{aes_ctr, hexstr2bin("603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4"),
hexstr2bin("f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff"),
long_msg()}
].
aes_gcm(Config) ->
read_rsp(Config, aes_gcm,
["gcmDecrypt128.rsp",
"gcmDecrypt192.rsp",
"gcmDecrypt256.rsp",
"gcmEncryptExtIV128.rsp",
"gcmEncryptExtIV192.rsp",
"gcmEncryptExtIV256.rsp"]).
%% https://tools.ietf.org/html/rfc7539#appendix-A.5
chacha20_poly1305() ->
[
{chacha20_poly1305,
hexstr2bin("1c9240a5eb55d38af333888604f6b5f0" %% Key
"473917c1402b80099dca5cbc207075c0"),
hexstr2bin("496e7465726e65742d44726166747320" %% PlainText
"61726520647261667420646f63756d65"
"6e74732076616c696420666f72206120"
"6d6178696d756d206f6620736978206d"
"6f6e74687320616e64206d6179206265"
"20757064617465642c207265706c6163"
"65642c206f72206f62736f6c65746564"
"206279206f7468657220646f63756d65"
"6e747320617420616e792074696d652e"
"20497420697320696e617070726f7072"
"6961746520746f2075736520496e7465"
"726e65742d4472616674732061732072"
"65666572656e6365206d617465726961"
"6c206f7220746f206369746520746865"
"6d206f74686572207468616e20617320"
"2fe2809c776f726b20696e2070726f67"
"726573732e2fe2809d"),
hexstr2bin("000000000102030405060708"), %% Nonce
hexstr2bin("f33388860000000000004e91"), %% AAD
hexstr2bin("64a0861575861af460f062c79be643bd" %% CipherText
"5e805cfd345cf389f108670ac76c8cb2"
"4c6cfc18755d43eea09ee94e382d26b0"
"bdb7b73c321b0100d4f03b7f355894cf"
"332f830e710b97ce98c8a84abd0b9481"
"14ad176e008d33bd60f982b1ff37c855"
"9797a06ef4f0ef61c186324e2b350638"
"3606907b6a7c02b0f9f6157b53c867e4"
"b9166c767b804d46a59b5216cde7a4e9"
"9040c5a40433225ee282a1b0a06c523e"
"af4534d7f83fa1155b0047718cbc546a"
"0d072b04b3564eea1b422273f548271a"
"0bb2316053fa76991955ebd63159434e"
"cebb4e466dae5a1073a6727627097a10"
"49e617d91d361094fa68f0ff77987130"
"305beaba2eda04df997b714d6c6f2c29"
"a6ad5cb4022b02709b"),
hexstr2bin("eead9d67890cbb22392336fea1851f38")} %% CipherTag
].
rsa_plain() ->
<<"7896345786348756234 Hejsan Svejsan, erlang crypto debugger"
"09812312908312378623487263487623412039812 huagasd">>.
rsa_public() ->
[65537, 7919488123861148172698919999061127847747888703039837999377650217570191053151807772962118671509138346758471459464133273114654252861270845708312601272799123].
rsa_private() ->
rsa_public() ++ [7531712708607620783801185371644749935066152052780368689827275932079815492940396744378735701395659435842364793962992309884847527234216715366607660219930945].
rsa_public_stronger() ->
[65537, 24629450921918866883077380602720734920775458960049554761386137065662137652635369332143446151320538248280934442179850504891395344346514465469955766163141133564033962851182759993807898821114734943339732032639891483186089941567854227407119560631150779000222837755424893038740314247760600374970909894211201220612920040986106639419467243909950276018045907029941478599124238353052062083560294570722081552510960894164859765695309596889747541376908786225647625736062865138957717982693312699025417086612046330464651009693307624955796202070510577399561730651967517158452930742355327167632521808183383868100102455048819375344881].
rsa_private_stronger() ->
rsa_public_stronger() ++ [13565232776562604620467234237694854016819673873109064019820773052201665024482754648718278717031083946624786145611240731564761987114634269887293030432042088547345315212418830656522115993209293567218379960177754901461542373481136856927955012596579314262051109321754382091434920473734937991286600905464814063189230779981494358415076362038786197620360127262110530926733754185204773610295221669711309000953136320804528874719105049753061737780710448207922456570922652651354760939379096788728229638142403068102990416717272880560951246813789730402978652924934794503277969128609831043469924881848849409122972426787999886557185].
dss_plain() ->
rsa_plain().
dss_public() ->
25854665488880835237281628794585130313500176551981812527054397586638455298000483144002221850980183404910190346416063318160497344811383498859129095184158800144312512447497510551471331451396405348497845813002058423110442376886564659959543650802132345311573634832461635601376738282831340827591903548964194832978.
dss_private() ->
441502407453038284293378221372000880210588566361.
dss_params() ->
[109799869232806890760655301608454668257695818999841877165019612946154359052535682480084145133201304812979481136659521529774182959764860329095546511521488413513097576425638476458000255392402120367876345280670101492199681798674053929238558140260669578407351853803102625390950534052428162468100618240968893110797,
1349199015905534965792122312016505075413456283393,
18320614775012672475365915366944922415598782131828709277168615511695849821411624805195787607930033958243224786899641459701930253094446221381818858674389863050420226114787005820357372837321561754462061849169568607689530279303056075793886577588606958623645901271866346406773590024901668622321064384483571751669].
ec_key_named() ->
Curve = hd(crypto:ec_curves()),
{D2_pub, D2_priv} = crypto:generate_key(ecdh, Curve),
{[D2_priv, Curve], [D2_pub, Curve]}.
ec_msg() ->
<<99,234,6,64,190,237,201,99,80,248,58,40,70,45,149,218,5,246,242,63>>.
srp3() ->
Username = <<"alice">>,
Password = <<"password123">>,
Salt = hexstr2bin("2857827A19266A1F2BC6"),
Prime = hexstr2bin("EEAF0AB9ADB38DD69C33F80AFA8FC5E86072618775FF3C0B9EA2314C"
"9C256576D674DF7496EA81D3383B4813D692C6E0E0D5D8E250B98BE4"
"8E495C1D6089DAD15DC7D7B46154D6B6CE8EF4AD69B15D4982559B29"
"7BCF1885C529F566660E57EC68EDBC3C05726CC02FD4CBF4976EAA9A"
"FD5138FE8376435B9FC61D2FC0EB06E3"),
Generator = <<2>>,
Version = '3',
Scrambler = hexstr2bin("02E2476A"),
%% X = hexstr2bin("96E54AB0CD4C5123EDCFA4A1502918AAD3C9E2A8"),
Verifier = hexstr2bin("96EB5F13621D911AA1CA405DE9C64217D4108EEEECAFFE500034FE0E"
"C031E42C8714667C161BCE0E7996F7DDE1B63824C130D2D7286C08C0"
"49758420735961347112AE102A3F23B3F687F8FEE0DF2BFAF933C608"
"D6FE5B5EEE3116FE54016E065BF8E8C9FDBBC08719231AC215149140"
"519E8FDD9AA4F410C28A58AF42974D2D"),
ClientPrivate = hexstr2bin("6411DE75538BED8170677D577D0608F39112BC95B503C447EB6AC945"
"49C75C7B"),
ServerPrivate = hexstr2bin("85E44A6F694DBE676145DB245A045CD37C99F05C562C7840A31F270D"
"9AADCF8B"),
ClientPublic = hexstr2bin("B22B1FFA2244B8CB94F3A9080F419CAEAB0DBA93EA1965B5E84587EE"
"55C79E7A118865DC59B9D0353362C2A8261E7C1B0D221A0E233C2AD1"
"640DACBB8664CBC9733EAC392DA7800142860380C3FC573C3C064329"
"CF54063FD114C7210E9CB3A611EA8002B1844B698F930D95D143899B"
"948A090E0C25938E5F84067D1883DC63"),
ServerPublic = hexstr2bin("93A8C4D8B7F7395ADCFD4ABA37B015124513D3F37B3E85EB23064BE5"
"F53C0AE32FFB9D8C0AA0DCFFA74D632DD67DEBB5C35AAE9812286CC8"
"C43CC176ECBC6D3F447594D9554E995B2509127BF88FADDDA4982D03"
"8EC3001320712D3B1269308CE70F319B2295FA57674F03A2D993CFB1"
"F84C35B7D0C012FA73CD4C8F7D5A71C7"),
SessionKey = hexstr2bin("C29A986C4D521BBC66428ED11D994CD7431574A6184B83CDCC345092"
"791E75748A1D38CAC4BD14760F0D2694B711236419240FF2F172454C"
"46ABF4FF39498DAFDD2C82924F7D7BD76CDFCE688C77D93F18A65409"
"9176A9192615DC0277AE7C12F1F6A7F6563FCA11675D809AF578BDE5"
"2B51E05D440B63099A017A0B45044801"),
UserPassHash = crypto:hash(sha, [Salt, crypto:hash(sha, [Username, <<$:>>, Password])]),
Verifier = crypto:mod_pow(Generator, UserPassHash, Prime),
ClientPublic = crypto:mod_pow(Generator, ClientPrivate, Prime),
srp(ClientPrivate, Generator, Prime, Version, Verifier, ServerPublic, ServerPrivate, UserPassHash, Scrambler, SessionKey).
srp6() ->
Username = <<"alice">>,
Password = <<"password123">>,
Salt = hexstr2bin("2857827A19266A1F2BC6"),
Prime = hexstr2bin("EEAF0AB9ADB38DD69C33F80AFA8FC5E86072618775FF3C0B9EA2314C"
"9C256576D674DF7496EA81D3383B4813D692C6E0E0D5D8E250B98BE4"
"8E495C1D6089DAD15DC7D7B46154D6B6CE8EF4AD69B15D4982559B29"
"7BCF1885C529F566660E57EC68EDBC3C05726CC02FD4CBF4976EAA9A"
"FD5138FE8376435B9FC61D2FC0EB06E3"),
Generator = <<2>>,
Version = '6',
Scrambler = hexstr2bin("0A2534C0BF52A0DA9001EEC62CF2A546AB0908A7"),
Verifier = hexstr2bin("96EB5F13621D911AA1CA405DE9C64217D4108EEEECAFFE500034FE0E"
"C031E42C8714667C161BCE0E7996F7DDE1B63824C130D2D7286C08C0"
"49758420735961347112AE102A3F23B3F687F8FEE0DF2BFAF933C608"
"D6FE5B5EEE3116FE54016E065BF8E8C9FDBBC08719231AC215149140"
"519E8FDD9AA4F410C28A58AF42974D2D"),
ClientPrivate = hexstr2bin("6411DE75538BED8170677D577D0608F39112BC95B503C447EB6AC945"
"49C75C7B"),
ServerPrivate = hexstr2bin("85E44A6F694DBE676145DB245A045CD37C99F05C562C7840A31F270D"
"9AADCF8B"),
ClientPublic = hexstr2bin("B22B1FFA2244B8CB94F3A9080F419CAEAB0DBA93EA1965B5E84587EE"
"55C79E7A118865DC59B9D0353362C2A8261E7C1B0D221A0E233C2AD1"
"640DACBB8664CBC9733EAC392DA7800142860380C3FC573C3C064329"
"CF54063FD114C7210E9CB3A611EA8002B1844B698F930D95D143899B"
"948A090E0C25938E5F84067D1883DC63"),
ServerPublic = hexstr2bin("D2D07845CE7ECDB9845DD36B10ACD3598CC29049DE9F467F84CE16B6"
"D97A6DC567AF8B0F9FEDF74962400AD5C357951E64E67B641246F264"
"C8DE6D9A72E554D6C8D3194548780A0C438A0FCC509CA88A14AA1DEB"
"C0F09E4B37A965D1545DB4AD361346F3189B0EA569C06D326C4E4797"
"9E381C748293B7C0591BE0BE419E053E"),
SessionKey = hexstr2bin("19D22C19612874EBF1F2581F8EFCFDC44C6FDA3B87B0A73823D7E962"
"554295D4E48D3A336523ADBDDD0EC8FB0F02687109E97E01C17C93CC"
"7216F9CD8A4AC39F0429857D8D1023066614BDFCBCB89F59A0FEB81C"
"72E992AAD89095A84B6A5FADA152369AB1E350A03693BEF044DF3EDF"
"0C34741F4696C30E9F675D09F58ACBEB"),
UserPassHash = crypto:hash(sha, [Salt, crypto:hash(sha, [Username, <<$:>>, Password])]),
Verifier = crypto:mod_pow(Generator, UserPassHash, Prime),
ClientPublic = crypto:mod_pow(Generator, ClientPrivate, Prime),
srp(ClientPrivate, Generator, Prime, Version, Verifier, ServerPublic, ServerPrivate, UserPassHash, Scrambler, SessionKey).
srp6a_smaller_prime() ->
Username = <<"alice">>,
Password = <<"password123">>,
Salt = <<"mystrongsalt">>,
Prime = hexstr2bin("894B645E89E1535BBDAD5B8B290650530801B18EBFBF5E8FAB3C82872A3E9BB7"),
Generator = <<7>>,
Version = '6a',
Scrambler = hexstr2bin("18DE4A002AD05EF464B19AE2B6929F9B1319C7AA"),
Verifier = hexstr2bin("867401D5DE10964768184EAF246B322760C847604075FA66A4423907"
"8428BCA5"),
ClientPrivate = hexstr2bin("C49F832EE8D67ECF9E7F2785EB0622D8B3FE2344C00F96E1AEF4103C"
"A44D51F9"),
ServerPrivate = hexstr2bin("6C78CCEAAEC15E69068A87795B2A20ED7B45CFC5A254EBE2F17F144A"
"4D99DB18"),
ClientPublic = hexstr2bin("2452A57166BBBF690DB77539BAF9C57CD1ED99D5AA15ED925AD9B5C3"
"64BBEDFF"),
ServerPublic = hexstr2bin("2C0464DE84B91E4963A3546CAC0EFE55F31F49208C3F0AD7EE55F444"
"8F38BA7F"),
SessionKey = hexstr2bin("65581B2302580BD26F522A5A421CF969B9CCBCE4051196B034A2A9D22065D848"),
UserPassHash = crypto:hash(sha, [Salt, crypto:hash(sha, [Username, <<$:>>, Password])]),
Verifier = crypto:mod_pow(Generator, UserPassHash, Prime),
ClientPublic = crypto:mod_pow(Generator, ClientPrivate, Prime),
srp(ClientPrivate, Generator, Prime, Version, Verifier, ServerPublic, ServerPrivate, UserPassHash, Scrambler, SessionKey).
srp6a() ->
Username = <<"alice">>,
Password = <<"password123">>,
Salt = hexstr2bin("BEB25379D1A8581EB5A727673A2441EE"),
Prime = hexstr2bin("EEAF0AB9ADB38DD69C33F80AFA8FC5E86072618775FF3C0B9EA2314C"
"9C256576D674DF7496EA81D3383B4813D692C6E0E0D5D8E250B98BE4"
"8E495C1D6089DAD15DC7D7B46154D6B6CE8EF4AD69B15D4982559B29"
"7BCF1885C529F566660E57EC68EDBC3C05726CC02FD4CBF4976EAA9A"
"FD5138FE8376435B9FC61D2FC0EB06E3"),
Generator = <<2>>,
Version = '6a',
Scrambler = hexstr2bin("CE38B9593487DA98554ED47D70A7AE5F462EF019"),
Verifier = hexstr2bin("7E273DE8696FFC4F4E337D05B4B375BEB0DDE1569E8FA00A9886D812"
"9BADA1F1822223CA1A605B530E379BA4729FDC59F105B4787E5186F5"
"C671085A1447B52A48CF1970B4FB6F8400BBF4CEBFBB168152E08AB5"
"EA53D15C1AFF87B2B9DA6E04E058AD51CC72BFC9033B564E26480D78"
"E955A5E29E7AB245DB2BE315E2099AFB"),
ClientPrivate = hexstr2bin("60975527035CF2AD1989806F0407210BC81EDC04E2762A56AFD529DD"
"DA2D4393"),
ServerPrivate = hexstr2bin("E487CB59D31AC550471E81F00F6928E01DDA08E974A004F49E61F5D1"
"05284D20"),
ClientPublic = hexstr2bin("61D5E490F6F1B79547B0704C436F523DD0E560F0C64115BB72557EC4"
"4352E8903211C04692272D8B2D1A5358A2CF1B6E0BFCF99F921530EC"
"8E39356179EAE45E42BA92AEACED825171E1E8B9AF6D9C03E1327F44"
"BE087EF06530E69F66615261EEF54073CA11CF5858F0EDFDFE15EFEA"
"B349EF5D76988A3672FAC47B0769447B"),
ServerPublic = hexstr2bin("BD0C61512C692C0CB6D041FA01BB152D4916A1E77AF46AE105393011"
"BAF38964DC46A0670DD125B95A981652236F99D9B681CBF87837EC99"
"6C6DA04453728610D0C6DDB58B318885D7D82C7F8DEB75CE7BD4FBAA"
"37089E6F9C6059F388838E7A00030B331EB76840910440B1B27AAEAE"
"EB4012B7D7665238A8E3FB004B117B58"),
SessionKey = hexstr2bin("B0DC82BABCF30674AE450C0287745E7990A3381F63B387AAF271A10D"
"233861E359B48220F7C4693C9AE12B0A6F67809F0876E2D013800D6C"
"41BB59B6D5979B5C00A172B4A2A5903A0BDCAF8A709585EB2AFAFA8F"
"3499B200210DCC1F10EB33943CD67FC88A2F39A4BE5BEC4EC0A3212D"
"C346D7E474B29EDE8A469FFECA686E5A"),
UserPassHash = crypto:hash(sha, [Salt, crypto:hash(sha, [Username, <<$:>>, Password])]),
Verifier = crypto:mod_pow(Generator, UserPassHash, Prime),
ClientPublic = crypto:mod_pow(Generator, ClientPrivate, Prime),
srp(ClientPrivate, Generator, Prime, Version, Verifier, ServerPublic, ServerPrivate, UserPassHash, Scrambler, SessionKey).
srp(ClientPrivate, Generator, Prime, Version, Verifier, ServerPublic, ServerPrivate, UserPassHash, Scrambler, SessionKey)->
{srp, ClientPrivate,
{user, [Generator, Prime, Version]}, {user, [UserPassHash, Prime, Generator, Version, Scrambler]},
ServerPublic, ServerPrivate, {host, [Verifier, Generator, Prime, Version]},
{host, [Verifier, Prime, Version, Scrambler]},
SessionKey}.
ecdh() ->
%% http://csrc.nist.gov/groups/STM/cavp/
Curves = crypto:ec_curves(),
TestCases =
[{ecdh, hexstr2point("42ea6dd9969dd2a61fea1aac7f8e98edcc896c6e55857cc0", "dfbe5d7c61fac88b11811bde328e8a0d12bf01a9d204b523"),
hexstr2bin("f17d3fea367b74d340851ca4270dcb24c271f445bed9d527"),
secp192r1,
hexstr2bin("803d8ab2e5b6e6fca715737c3a82f7ce3c783124f6d51cd0")},
{ecdh, hexstr2point("deb5712fa027ac8d2f22c455ccb73a91e17b6512b5e030e7", "7e2690a02cc9b28708431a29fb54b87b1f0c14e011ac2125"),
hexstr2bin("56e853349d96fe4c442448dacb7cf92bb7a95dcf574a9bd5"),
secp192r1,
hexstr2bin("c208847568b98835d7312cef1f97f7aa298283152313c29d")},
{ecdh, hexstr2point("af33cd0629bc7e996320a3f40368f74de8704fa37b8fab69abaae280", "882092ccbba7930f419a8a4f9bb16978bbc3838729992559a6f2e2d7"),
hexstr2bin("8346a60fc6f293ca5a0d2af68ba71d1dd389e5e40837942df3e43cbd"),
secp224r1,
hexstr2bin("7d96f9a3bd3c05cf5cc37feb8b9d5209d5c2597464dec3e9983743e8")},
{ecdh, hexstr2point("13bfcd4f8e9442393cab8fb46b9f0566c226b22b37076976f0617a46", "eeb2427529b288c63c2f8963c1e473df2fca6caa90d52e2f8db56dd4"),
hexstr2bin("043cb216f4b72cdf7629d63720a54aee0c99eb32d74477dac0c2f73d"),
secp224r1,
hexstr2bin("ee93ce06b89ff72009e858c68eb708e7bc79ee0300f73bed69bbca09")},
{ecdh, hexstr2point("700c48f77f56584c5cc632ca65640db91b6bacce3a4df6b42ce7cc838833d287", "db71e509e3fd9b060ddb20ba5c51dcc5948d46fbf640dfe0441782cab85fa4ac"),
hexstr2bin("7d7dc5f71eb29ddaf80d6214632eeae03d9058af1fb6d22ed80badb62bc1a534"),
secp256r1,
hexstr2bin("46fc62106420ff012e54a434fbdd2d25ccc5852060561e68040dd7778997bd7b")},
{ecdh, hexstr2point("809f04289c64348c01515eb03d5ce7ac1a8cb9498f5caa50197e58d43a86a7ae", "b29d84e811197f25eba8f5194092cb6ff440e26d4421011372461f579271cda3"),
hexstr2bin("38f65d6dce47676044d58ce5139582d568f64bb16098d179dbab07741dd5caf5"),
secp256r1,
hexstr2bin("057d636096cb80b67a8c038c890e887d1adfa4195e9b3ce241c8a778c59cda67")},
{ecdh, hexstr2point("a7c76b970c3b5fe8b05d2838ae04ab47697b9eaf52e764592efda27fe7513272734466b400091adbf2d68c58e0c50066", "ac68f19f2e1cb879aed43a9969b91a0839c4c38a49749b661efedf243451915ed0905a32b060992b468c64766fc8437a"),
hexstr2bin("3cc3122a68f0d95027ad38c067916ba0eb8c38894d22e1b15618b6818a661774ad463b205da88cf699ab4d43c9cf98a1"),
secp384r1,
hexstr2bin("5f9d29dc5e31a163060356213669c8ce132e22f57c9a04f40ba7fcead493b457e5621e766c40a2e3d4d6a04b25e533f1")},
{ecdh, hexstr2point("30f43fcf2b6b00de53f624f1543090681839717d53c7c955d1d69efaf0349b7363acb447240101cbb3af6641ce4b88e0", "25e46c0c54f0162a77efcc27b6ea792002ae2ba82714299c860857a68153ab62e525ec0530d81b5aa15897981e858757"),
hexstr2bin("92860c21bde06165f8e900c687f8ef0a05d14f290b3f07d8b3a8cc6404366e5d5119cd6d03fb12dc58e89f13df9cd783"),
secp384r1,
hexstr2bin("a23742a2c267d7425fda94b93f93bbcc24791ac51cd8fd501a238d40812f4cbfc59aac9520d758cf789c76300c69d2ff")},
{ecdh, hexstr2point("00685a48e86c79f0f0875f7bc18d25eb5fc8c0b07e5da4f4370f3a9490340854334b1e1b87fa395464c60626124a4e70d0f785601d37c09870ebf176666877a2046d", "01ba52c56fc8776d9e8f5db4f0cc27636d0b741bbe05400697942e80b739884a83bde99e0f6716939e632bc8986fa18dccd443a348b6c3e522497955a4f3c302f676"),
hexstr2bin("017eecc07ab4b329068fba65e56a1f8890aa935e57134ae0ffcce802735151f4eac6564f6ee9974c5e6887a1fefee5743ae2241bfeb95d5ce31ddcb6f9edb4d6fc47"),
secp521r1,
hexstr2bin("005fc70477c3e63bc3954bd0df3ea0d1f41ee21746ed95fc5e1fdf90930d5e136672d72cc770742d1711c3c3a4c334a0ad9759436a4d3c5bf6e74b9578fac148c831")},
{ecdh, hexstr2point("01df277c152108349bc34d539ee0cf06b24f5d3500677b4445453ccc21409453aafb8a72a0be9ebe54d12270aa51b3ab7f316aa5e74a951c5e53f74cd95fc29aee7a", "013d52f33a9f3c14384d1587fa8abe7aed74bc33749ad9c570b471776422c7d4505d9b0a96b3bfac041e4c6a6990ae7f700e5b4a6640229112deafa0cd8bb0d089b0"),
hexstr2bin("00816f19c1fb10ef94d4a1d81c156ec3d1de08b66761f03f06ee4bb9dcebbbfe1eaa1ed49a6a990838d8ed318c14d74cc872f95d05d07ad50f621ceb620cd905cfb8"),
secp521r1,
hexstr2bin("000b3920ac830ade812c8f96805da2236e002acbbf13596a9ab254d44d0e91b6255ebf1229f366fb5a05c5884ef46032c26d42189273ca4efa4c3db6bd12a6853759")},
%% RFC-6954, Appendix A
{ecdh, hexstr2point("A9C21A569759DA95E0387041184261440327AFE33141CA04B82DC92E",
"98A0F75FBBF61D8E58AE5511B2BCDBE8E549B31E37069A2825F590C1"),
hexstr2bin("6060552303899E2140715816C45B57D9B42204FB6A5BF5BEAC10DB00"),
brainpoolP224r1,
hexstr2bin("1A4BFE705445120C8E3E026699054104510D119757B74D5FE2462C66")},
{ecdh, hexstr2point("034A56C550FF88056144E6DD56070F54B0135976B5BF77827313F36B",
"75165AD99347DC86CAAB1CBB579E198EAF88DC35F927B358AA683681"),
hexstr2bin("39F155483CEE191FBECFE9C81D8AB1A03CDA6790E7184ACE44BCA161"),
brainpoolP224r1,
hexstr2bin("1A4BFE705445120C8E3E026699054104510D119757B74D5FE2462C66")},
{ecdh, hexstr2point("44106E913F92BC02A1705D9953A8414DB95E1AAA49E81D9E85F929A8E3100BE5",
"8AB4846F11CACCB73CE49CBDD120F5A900A69FD32C272223F789EF10EB089BDC"),
hexstr2bin("55E40BC41E37E3E2AD25C3C6654511FFA8474A91A0032087593852D3E7D76BD3"),
brainpoolP256r1,
hexstr2bin("89AFC39D41D3B327814B80940B042590F96556EC91E6AE7939BCE31F3A18BF2B")},
{ecdh, hexstr2point("8D2D688C6CF93E1160AD04CC4429117DC2C41825E1E9FCA0ADDD34E6F1B39F7B",
"990C57520812BE512641E47034832106BC7D3E8DD0E4C7F1136D7006547CEC6A"),
hexstr2bin("81DB1EE100150FF2EA338D708271BE38300CB54241D79950F77B063039804F1D"),
brainpoolP256r1,
hexstr2bin("89AFC39D41D3B327814B80940B042590F96556EC91E6AE7939BCE31F3A18BF2B")},
{ecdh, hexstr2point("68B665DD91C195800650CDD363C625F4E742E8134667B767B1B476793588F885AB698C852D4A6E77A252D6380FCAF068",
"55BC91A39C9EC01DEE36017B7D673A931236D2F1F5C83942D049E3FA20607493E0D038FF2FD30C2AB67D15C85F7FAA59"),
hexstr2bin("032640BC6003C59260F7250C3DB58CE647F98E1260ACCE4ACDA3DD869F74E01F8BA5E0324309DB6A9831497ABAC96670"),
brainpoolP384r1,
hexstr2bin("0BD9D3A7EA0B3D519D09D8E48D0785FB744A6B355E6304BC51C229FBBCE239BBADF6403715C35D4FB2A5444F575D4F42")},
{ecdh, hexstr2point("4D44326F269A597A5B58BBA565DA5556ED7FD9A8A9EB76C25F46DB69D19DC8CE6AD18E404B15738B2086DF37E71D1EB4",
"62D692136DE56CBE93BF5FA3188EF58BC8A3A0EC6C1E151A21038A42E9185329B5B275903D192F8D4E1F32FE9CC78C48"),
hexstr2bin("1E20F5E048A5886F1F157C74E91BDE2B98C8B52D58E5003D57053FC4B0BD65D6F15EB5D1EE1610DF870795143627D042"),
brainpoolP384r1,
hexstr2bin("0BD9D3A7EA0B3D519D09D8E48D0785FB744A6B355E6304BC51C229FBBCE239BBADF6403715C35D4FB2A5444F575D4F42")},
{ecdh, hexstr2point("0A420517E406AAC0ACDCE90FCD71487718D3B953EFD7FBEC5F7F27E28C6149999397E91E029E06457DB2D3E640668B392C2A7E737A7F0BF04436D11640FD09FD",
"72E6882E8DB28AAD36237CD25D580DB23783961C8DC52DFA2EC138AD472A0FCEF3887CF62B623B2A87DE5C588301EA3E5FC269B373B60724F5E82A6AD147FDE7"),
hexstr2bin("230E18E1BCC88A362FA54E4EA3902009292F7F8033624FD471B5D8ACE49D12CFABBC19963DAB8E2F1EBA00BFFB29E4D72D13F2224562F405CB80503666B25429"),
brainpoolP512r1,
hexstr2bin("A7927098655F1F9976FA50A9D566865DC530331846381C87256BAF3226244B76D36403C024D7BBF0AA0803EAFF405D3D24F11A9B5C0BEF679FE1454B21C4CD1F")},
{ecdh, hexstr2point("9D45F66DE5D67E2E6DB6E93A59CE0BB48106097FF78A081DE781CDB31FCE8CCBAAEA8DD4320C4119F1E9CD437A2EAB3731FA9668AB268D871DEDA55A5473199F",
"2FDC313095BCDD5FB3A91636F07A959C8E86B5636A1E930E8396049CB481961D365CC11453A06C719835475B12CB52FC3C383BCE35E27EF194512B71876285FA"),
hexstr2bin("16302FF0DBBB5A8D733DAB7141C1B45ACBC8715939677F6A56850A38BD87BD59B09E80279609FF333EB9D4C061231FB26F92EEB04982A5F1D1764CAD57665422"),
brainpoolP512r1,
hexstr2bin("A7927098655F1F9976FA50A9D566865DC530331846381C87256BAF3226244B76D36403C024D7BBF0AA0803EAFF405D3D24F11A9B5C0BEF679FE1454B21C4CD1F")}],
lists:filter(fun ({_Type, _Pub, _Priv, Curve, _SharedSecret}) ->
lists:member(Curve, Curves)
end,
TestCases).
dh() ->
{dh, 90970053988169282502023478715631717259407236400413906591937635666709823903223997309250405131675572047545403771567755831138144089197560332757755059848492919215391041119286178688014693040542889497092308638580104031455627238700168892909539193174537248629499995652186913900511641708112112482297874449292467498403, 2}.
rsa_oaep() ->
%% ftp://ftp.rsa.com/pub/rsalabs/tmp/pkcs1v15crypt-vectors.txt
Public = [hexstr2bin("010001"),
hexstr2bin("a8b3b284af8eb50b387034a860f146c4919f318763cd6c5598c8ae4811a1e0abc4c7e0b082d693a5e7fced675cf4668512772c0cbc64a742c6c630f533c8cc72f62ae833c40bf25842e984bb78bdbf97c0107d55bdb662f5c4e0fab9845cb5148ef7392dd3aaff93ae1e6b667bb3d4247616d4f5ba10d4cfd226de88d39f16fb")],
Private = Public ++ [hexstr2bin("53339cfdb79fc8466a655c7316aca85c55fd8f6dd898fdaf119517ef4f52e8fd8e258df93fee180fa0e4ab29693cd83b152a553d4ac4d1812b8b9fa5af0e7f55fe7304df41570926f3311f15c4d65a732c483116ee3d3d2d0af3549ad9bf7cbfb78ad884f84d5beb04724dc7369b31def37d0cf539e9cfcdd3de653729ead5d1"),
hexstr2bin("d32737e7267ffe1341b2d5c0d150a81b586fb3132bed2f8d5262864a9cb9f30af38be448598d413a172efb802c21acf1c11c520c2f26a471dcad212eac7ca39d"),
hexstr2bin("cc8853d1d54da630fac004f471f281c7b8982d8224a490edbeb33d3e3d5cc93c4765703d1dd791642f1f116a0dd852be2419b2af72bfe9a030e860b0288b5d77"),
hexstr2bin("0e12bf1718e9cef5599ba1c3882fe8046a90874eefce8f2ccc20e4f2741fb0a33a3848aec9c9305fbecbd2d76819967d4671acc6431e4037968db37878e695c1"),
hexstr2bin("95297b0f95a2fa67d00707d609dfd4fc05c89dafc2ef6d6ea55bec771ea333734d9251e79082ecda866efef13c459e1a631386b7e354c899f5f112ca85d71583"),
hexstr2bin("4f456c502493bdc0ed2ab756a3a6ed4d67352a697d4216e93212b127a63d5411ce6fa98d5dbefd73263e3728142743818166ed7dd63687dd2a8ca1d2f4fbd8e1")],
%%Msg = hexstr2bin("6628194e12073db03ba94cda9ef9532397d50dba79b987004afefe34"),
Msg = hexstr2bin("750c4047f547e8e41411856523298ac9bae245efaf1397fbe56f9dd5"),
{rsa, Public, Private, Msg, rsa_pkcs1_oaep_padding}.
ecc() ->
%% http://point-at-infinity.org/ecc/nisttv
%%
%% Test vectors for the NIST elliptic curves P192, P224, P256, P384, P521,
%% B163, B233, B283, B409, B571, K163, K233, K283, K409 and K571. For more
%% information about the curves see
%% http://csrc.nist.gov/encryption/dss/ecdsa/NISTReCur.pdf
%%
Curves = crypto:ec_curves(),
TestCases =
[{ecdh,secp192r1,1,
hexstr2point("188DA80EB03090F67CBF20EB43A18800F4FF0AFD82FF1012",
"07192B95FFC8DA78631011ED6B24CDD573F977A11E794811")},
{ecdh,secp192r1,2,
hexstr2point("DAFEBF5828783F2AD35534631588A3F629A70FB16982A888",
"DD6BDA0D993DA0FA46B27BBC141B868F59331AFA5C7E93AB")},
{ecdh,secp192r1,3,
hexstr2point("76E32A2557599E6EDCD283201FB2B9AADFD0D359CBB263DA",
"782C37E372BA4520AA62E0FED121D49EF3B543660CFD05FD")},
{ecdh,secp192r1,4,
hexstr2point("35433907297CC378B0015703374729D7A4FE46647084E4BA",
"A2649984F2135C301EA3ACB0776CD4F125389B311DB3BE32")}],
lists:filter(fun ({_Type, Curve, _Priv, _Pub}) ->
lists:member(Curve, Curves)
end,
TestCases).
cmac_nist(Config, aes_cbc128 = Type) ->
read_rsp(Config, Type,
["CMACGenAES128.rsp", "CMACVerAES128.rsp"]);
cmac_nist(Config, aes_cbc256 = Type) ->
read_rsp(Config, Type,
["CMACGenAES256.rsp", "CMACVerAES256.rsp"]).
no_padding() ->
Public = [_, Mod] = rsa_public_stronger(),
Private = rsa_private_stronger(),
MsgLen = erlang:byte_size(int_to_bin(Mod)),
Msg = list_to_binary(lists:duplicate(MsgLen, $X)),
{rsa, Public, Private, Msg, rsa_no_padding}.
int_to_bin(X) when X < 0 -> int_to_bin_neg(X, []);
int_to_bin(X) -> int_to_bin_pos(X, []).
int_to_bin_pos(0,Ds=[_|_]) ->
list_to_binary(Ds);
int_to_bin_pos(X,Ds) ->
int_to_bin_pos(X bsr 8, [(X band 255)|Ds]).
int_to_bin_neg(-1, Ds=[MSB|_]) when MSB >= 16#80 ->
list_to_binary(Ds);
int_to_bin_neg(X,Ds) ->
int_to_bin_neg(X bsr 8, [(X band 255)|Ds]).
datadir(Config) ->
proplists:get_value(data_dir, Config).
-define(KiB, 1024).
-define(MiB, (1024 * 1024)).
-define(GiB, (1024 * 1024 * 1024)).
fmt_words(Words) ->
BSize = Words * erlang:system_info(wordsize),
if BSize < ?KiB ->
integer_to_list(BSize);
BSize < ?MiB ->
io_lib:format("~8.2fKiB (~8w)", [BSize / ?KiB, BSize]);
BSize < ?GiB ->
io_lib:format("~8.2fMiB (~8w)", [BSize / ?MiB, BSize]);
true ->
io_lib:format("~8.2fGiB (~8w)", [BSize / ?GiB, BSize])
end.
log_rsp_size(Label, Term) ->
S = erts_debug:size(Term),
ct:pal("~s: ~w test(s), Memory used: ~s",
[Label, length(Term), fmt_words(S)]).
read_rsp(Config, Type, Files) ->
Tests =
lists:foldl(
fun(FileName, Acc) ->
read_rsp_file(filename:join(datadir(Config), FileName),
Type, Acc)
end, [], Files),
log_rsp_size(Type, Tests),
Tests.
read_rsp_file(FileName, Type, Acc) ->
{ok, Raw} = file:read_file(FileName),
Split = binary:split(Raw, [<<"\r">>, <<"\n">>], [global, trim_all]),
parse_rsp(Type, Split, Acc).
parse_rsp(_Type, [], Acc) ->
Acc;
parse_rsp(_Type, [<<"DECRYPT">>|_], Acc) ->
Acc;
%% AES format
parse_rsp(Type, [<<"COUNT = ", _/binary>>,
<<"KEY = ", Key/binary>>,
<<"IV = ", IV/binary>>,
<<"PLAINTEXT = ", PlainText/binary>>,
<<"CIPHERTEXT = ", CipherText/binary>>|Next], Acc) ->
parse_rsp(Type, Next, [{Type, hexstr2bin(Key), hexstr2bin(IV),
hexstr2bin(PlainText), hexstr2bin(CipherText)}|Acc]);
%% CMAC format
parse_rsp(Type, [<<"Count = ", _/binary>>,
<<"Klen = ", _/binary>>,
<<"Mlen = ", Mlen/binary>>,
<<"Tlen = ", Tlen/binary>>,
<<"Key = ", Key/binary>>,
<<"Msg = ", Msg/binary>>,
<<"Mac = ", MAC/binary>>|Rest], Acc) ->
case Rest of
[<<"Result = P">>|Next] ->
parse_rsp_cmac(Type, Key, Msg, Mlen, Tlen, MAC, Next, Acc);
[<<"Result = ", _/binary>>|Next] ->
parse_rsp(Type, Next, Acc);
_ ->
parse_rsp_cmac(Type, Key, Msg, Mlen, Tlen, MAC, Rest, Acc)
end;
%% GCM format decode format
parse_rsp(Type, [<<"Count = ", _/binary>>,
<<"Key = ", Key/binary>>,
<<"IV = ", IV/binary>>,
<<"CT = ", CipherText/binary>>,
<<"AAD = ", AAD/binary>>,
<<"Tag = ", CipherTag0/binary>>,
<<"PT = ", PlainText/binary>>|Next], Acc) ->
CipherTag = hexstr2bin(CipherTag0),
TestCase = {Type,
hexstr2bin(Key),
hexstr2bin(PlainText),
hexstr2bin(IV),
hexstr2bin(AAD),
hexstr2bin(CipherText),
CipherTag,
size(CipherTag)},
parse_rsp(Type, Next, [TestCase|Acc]);
%% GCM format encode format
parse_rsp(Type, [<<"Count = ", _/binary>>,
<<"Key = ", Key/binary>>,
<<"IV = ", IV/binary>>,
<<"PT = ", PlainText/binary>>,
<<"AAD = ", AAD/binary>>,
<<"CT = ", CipherText/binary>>,
<<"Tag = ", CipherTag0/binary>>|Next], Acc) ->
CipherTag = hexstr2bin(CipherTag0),
TestCase = {Type,
hexstr2bin(Key),
hexstr2bin(PlainText),
hexstr2bin(IV),
hexstr2bin(AAD),
hexstr2bin(CipherText),
CipherTag,
size(CipherTag)},
parse_rsp(Type, Next, [TestCase|Acc]);
parse_rsp(Type, [_|Next], Acc) ->
parse_rsp(Type, Next, Acc).
parse_rsp_cmac(Type, Key0, Msg0, Mlen0, Tlen, MAC0, Next, Acc) ->
Key = hexstr2bin(Key0),
Mlen = binary_to_integer(Mlen0),
<<Msg:Mlen/bytes, _/binary>> = hexstr2bin(Msg0),
MAC = hexstr2bin(MAC0),
case binary_to_integer(Tlen) of
0 ->
parse_rsp(Type, Next, [{Type, Key, Msg, MAC}|Acc]);
I ->
parse_rsp(Type, Next, [{Type, Key, Msg, I, MAC}|Acc])
end.