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-rw-r--r--lib/crypto/src/crypto.erl1404
1 files changed, 677 insertions, 727 deletions
diff --git a/lib/crypto/src/crypto.erl b/lib/crypto/src/crypto.erl
index e042545094..d7b1603eeb 100644
--- a/lib/crypto/src/crypto.erl
+++ b/lib/crypto/src/crypto.erl
@@ -35,7 +35,6 @@
-export([private_encrypt/4, public_decrypt/4]).
-export([dh_generate_parameters/2, dh_check/1]). %% Testing see
-
%% DEPRECATED
%% Replaced by hash_*
-export([md4/1, md4_init/0, md4_update/2, md4_final/1]).
@@ -165,61 +164,6 @@
-export([info/0]).
-deprecated({info, 0, next_major_release}).
--define(FUNC_LIST, [hash, hash_init, hash_update, hash_final,
- hmac, hmac_init, hmac_update, hmac_final, hmac_final_n,
- %% deprecated
- md4, md4_init, md4_update, md4_final,
- md5, md5_init, md5_update, md5_final,
- sha, sha_init, sha_update, sha_final,
- md5_mac, md5_mac_96,
- sha_mac, sha_mac_96,
- %%
- block_encrypt, block_decrypt,
- %% deprecated
- des_cbc_encrypt, des_cbc_decrypt,
- des_cfb_encrypt, des_cfb_decrypt,
- des_ecb_encrypt, des_ecb_decrypt,
- des3_cbc_encrypt, des3_cbc_decrypt,
- des3_cfb_encrypt, des3_cfb_decrypt,
- aes_cfb_128_encrypt, aes_cfb_128_decrypt,
- rc2_cbc_encrypt, rc2_cbc_decrypt,
- rc2_40_cbc_encrypt, rc2_40_cbc_decrypt,
- aes_cbc_128_encrypt, aes_cbc_128_decrypt,
- aes_cbc_256_encrypt, aes_cbc_256_decrypt,
- blowfish_cbc_encrypt, blowfish_cbc_decrypt,
- blowfish_cfb64_encrypt, blowfish_cfb64_decrypt,
- blowfish_ecb_encrypt, blowfish_ecb_decrypt, blowfish_ofb64_encrypt,
- %%
- rand_bytes,
- strong_rand_bytes,
- rand_uniform,
- mod_pow,
- exor,
- %% deprecated
- mod_exp,strong_rand_mpint,erlint, mpint,
- %%
- sign, verify, generate_key, compute_key,
- %% deprecated
- dss_verify,dss_sign,
- rsa_verify,rsa_sign,
- rsa_public_encrypt,rsa_private_decrypt,
- rsa_private_encrypt,rsa_public_decrypt,
- dh_generate_key, dh_compute_key,
- %%
- stream_init, stream_encrypt, stream_decrypt,
- %% deprecated
- rc4_encrypt, rc4_set_key, rc4_encrypt_with_state,
- aes_ctr_encrypt, aes_ctr_decrypt,
- aes_ctr_stream_init, aes_ctr_stream_encrypt, aes_ctr_stream_decrypt,
- %%
- next_iv,
- %% deprecated
- aes_cbc_ivec,
- des_cbc_ivec, des_cfb_ivec,
- info,
- %%
- info_lib, supports]).
-
-type mpint() :: binary().
-type rsa_digest_type() :: 'md5' | 'sha' | 'sha224' | 'sha256' | 'sha384' | 'sha512'.
-type dss_digest_type() :: 'none' | 'sha'.
@@ -235,11 +179,360 @@
%%-type ec_curve() :: ec_named_curve() | ec_curve_spec().
%%-type ec_key() :: {Curve :: ec_curve(), PrivKey :: binary() | undefined, PubKey :: ec_point() | undefined}.
+-on_load(on_load/0).
+-define(CRYPTO_NIF_VSN,201).
+
-define(nif_stub,nif_stub_error(?LINE)).
+nif_stub_error(Line) ->
+ erlang:nif_error({nif_not_loaded,module,?MODULE,line,Line}).
--on_load(on_load/0).
+%%--------------------------------------------------------------------
+%%% API
+%%--------------------------------------------------------------------
+%% Crypto app version history:
+%% (no version): Driver implementation
+%% 2.0 : NIF implementation, requires OTP R14
+version() -> ?CRYPTO_VSN.
--define(CRYPTO_NIF_VSN,201).
+start() ->
+ application:start(crypto).
+
+stop() ->
+ application:stop(crypto).
+
+supports()->
+ Algs = algorithms(),
+ PubKeyAlgs =
+ case lists:member(ec, Algs) of
+ true ->
+ {public_keys, [rsa, dss, ecdsa, dh, srp, ecdh]};
+ false ->
+ {public_keys, [rsa, dss, dh, srp]}
+ end,
+ [{hashs, Algs -- [ec]},
+ {ciphers, [des_cbc, des_cfb, des3_cbc, des3_cbf, des_ede3, blowfish_cbc,
+ blowfish_cfb64, blowfish_ofb64, blowfish_ecb, aes_cbc128, aes_cfb128,
+ aes_cbc256, rc2_cbc, aes_ctr, rc4
+ ]},
+ PubKeyAlgs
+ ].
+
+info_lib() -> ?nif_stub.
+
+-spec hash(_, iodata()) -> binary().
+
+-spec hash_init('md5'|'md4'|'ripemd160'|
+ 'sha'|'sha224'|'sha256'|'sha384'|'sha512') -> any().
+
+hash_init(md5) -> {md5, md5_init()};
+hash_init(md4) -> {md4, md4_init()};
+hash_init(sha) -> {sha, sha_init()};
+hash_init(ripemd160) -> {ripemd160, ripemd160_init()};
+hash_init(sha224) -> {sha224, sha224_init()};
+hash_init(sha256) -> {sha256, sha256_init()};
+hash_init(sha384) -> {sha384, sha384_init()};
+hash_init(sha512) -> {sha512, sha512_init()}.
+%% Ecrypt/decrypt %%%
+
+-spec block_encrypt(des_cbc | des_cfb | des3_cbc | des3_cbf | des_ede3 | blowfish_cbc |
+ blowfish_cfb64 | aes_cbc128 | aes_cfb128 | aes_cbc256 | rc2_cbc,
+ Key::iodata(), Ivec::binary(), Data::iodata()) -> binary().
+
+block_encrypt(des_cbc, Key, Ivec, Data) ->
+ des_cbc_encrypt(Key, Ivec, Data);
+block_encrypt(des_cfb, Key, Ivec, Data) ->
+ des_cfb_encrypt(Key, Ivec, Data);
+block_encrypt(des3_cbc, [Key1, Key2, Key3], Ivec, Data) ->
+ des3_cbc_encrypt(Key1, Key2, Key3, Ivec, Data);
+block_encrypt(des3_cbf, [Key1, Key2, Key3], Ivec, Data) ->
+ des3_cfb_encrypt(Key1, Key2, Key3, Ivec, Data);
+block_encrypt(des_ede3, [Key1, Key2, Key3], Ivec, Data) ->
+ des_ede3_cbc_encrypt(Key1, Key2, Key3, Ivec, Data);
+block_encrypt(blowfish_cbc, Key, Ivec, Data) ->
+ blowfish_cbc_encrypt(Key, Ivec, Data);
+block_encrypt(blowfish_cfb64, Key, Ivec, Data) ->
+ blowfish_cfb64_encrypt(Key, Ivec, Data);
+block_encrypt(blowfish_ofb64, Key, Ivec, Data) ->
+ blowfish_ofb64_encrypt(Key, Ivec, Data);
+block_encrypt(aes_cbc128, Key, Ivec, Data) ->
+ aes_cbc_128_encrypt(Key, Ivec, Data);
+block_encrypt(aes_cbc256, Key, Ivec, Data) ->
+ aes_cbc_256_encrypt(Key, Ivec, Data);
+block_encrypt(aes_cfb128, Key, Ivec, Data) ->
+ aes_cfb_128_encrypt(Key, Ivec, Data);
+block_encrypt(rc2_cbc, Key, Ivec, Data) ->
+ rc2_cbc_encrypt(Key, Ivec, Data).
+
+-spec block_decrypt(des_cbc | des_cfb | des3_cbc | des3_cbf | des_ede3 | blowfish_cbc |
+ blowfish_cfb64 | blowfish_ofb64 | aes_cbc128 | aes_cbc256 | aes_cfb128 | rc2_cbc,
+ Key::iodata(), Ivec::binary(), Data::iodata()) -> binary().
+
+block_decrypt(des_cbc, Key, Ivec, Data) ->
+ des_cbc_decrypt(Key, Ivec, Data);
+block_decrypt(des_cfb, Key, Ivec, Data) ->
+ des_cfb_decrypt(Key, Ivec, Data);
+block_decrypt(des3_cbc, [Key1, Key2, Key3], Ivec, Data) ->
+ des3_cbc_decrypt(Key1, Key2, Key3, Ivec, Data);
+block_decrypt(des3_cbf, [Key1, Key2, Key3], Ivec, Data) ->
+ des3_cfb_decrypt(Key1, Key2, Key3, Ivec, Data);
+block_decrypt(des_ede3, [Key1, Key2, Key3], Ivec, Data) ->
+ des_ede3_cbc_decrypt(Key1, Key2, Key3, Ivec, Data);
+block_decrypt(blowfish_cbc, Key, Ivec, Data) ->
+ blowfish_cbc_decrypt(Key, Ivec, Data);
+block_decrypt(blowfish_cfb64, Key, Ivec, Data) ->
+ blowfish_cfb64_decrypt(Key, Ivec, Data);
+block_decrypt(blowfish_ofb64, Key, Ivec, Data) ->
+ blowfish_ofb64_decrypt(Key, Ivec, Data);
+block_decrypt(aes_cbc128, Key, Ivec, Data) ->
+ aes_cbc_128_decrypt(Key, Ivec, Data);
+block_decrypt(aes_cbc256, Key, Ivec, Data) ->
+ aes_cbc_256_decrypt(Key, Ivec, Data);
+block_decrypt(aes_cfb128, Key, Ivec, Data) ->
+ aes_cfb_128_decrypt(Key, Ivec, Data);
+block_decrypt(rc2_cbc, Key, Ivec, Data) ->
+ rc2_cbc_decrypt(Key, Ivec, Data).
+
+-spec block_encrypt(des_ecb | blowfish_ecb, Key::iodata(), Data::iodata()) -> binary().
+
+block_encrypt(des_ecb, Key, Data) ->
+ des_ecb_encrypt(Key, Data);
+block_encrypt(blowfish_ecb, Key, Data) ->
+ blowfish_ecb_encrypt(Key, Data).
+
+-spec block_decrypt(des_ecb | blowfish_ecb, Key::iodata(), Data::iodata()) -> binary().
+
+block_decrypt(des_ecb, Key, Data) ->
+ des_ecb_decrypt(Key, Data);
+block_decrypt(blowfish_ecb, Key, Data) ->
+ blowfish_ecb_decrypt(Key, Data).
+
+-spec next_iv(des_cbc | des3_cbc | aes_cbc, Data::iodata()) -> binary().
+
+next_iv(des_cbc, Data) ->
+ des_cbc_ivec(Data);
+next_iv(des3_cbc, Data) ->
+ des_cbc_ivec(Data);
+next_iv(aes_cbc, Data) ->
+ aes_cbc_ivec(Data).
+
+-spec next_iv(des_cfb, Data::iodata(), Ivec::binary()) -> binary().
+
+next_iv(des_cfb, Data, Ivec) ->
+ des_cfb_ivec(Ivec, Data);
+next_iv(Type, Data, _Ivec) ->
+ next_iv(Type, Data).
+
+
+-spec hash_update(_, iodata()) -> any().
+%%
+%% RAND - pseudo random numbers using RN_ functions in crypto lib
+%%
+-spec rand_bytes(non_neg_integer()) -> binary().
+-spec strong_rand_bytes(non_neg_integer()) -> binary().
+-spec rand_uniform(crypto_integer(), crypto_integer()) ->
+ crypto_integer().
+
+rand_bytes(_Bytes) -> ?nif_stub.
+
+strong_rand_bytes(Bytes) ->
+ case strong_rand_bytes_nif(Bytes) of
+ false -> erlang:error(low_entropy);
+ Bin -> Bin
+ end.
+strong_rand_bytes_nif(_Bytes) -> ?nif_stub.
+
+rand_bytes(_Bytes, _Topmask, _Bottommask) -> ?nif_stub.
+
+
+rand_uniform(From,To) when is_binary(From), is_binary(To) ->
+ case rand_uniform_nif(From,To) of
+ <<Len:32/integer, MSB, Rest/binary>> when MSB > 127 ->
+ <<(Len + 1):32/integer, 0, MSB, Rest/binary>>;
+ Whatever ->
+ Whatever
+ end;
+rand_uniform(From,To) when is_integer(From),is_integer(To) ->
+ if From < 0 ->
+ rand_uniform_pos(0, To - From) + From;
+ true ->
+ rand_uniform_pos(From, To)
+ end.
+
+rand_uniform_pos(From,To) when From < To ->
+ BinFrom = mpint(From),
+ BinTo = mpint(To),
+ case rand_uniform(BinFrom, BinTo) of
+ Result when is_binary(Result) ->
+ erlint(Result);
+ Other ->
+ Other
+ end;
+rand_uniform_pos(_,_) ->
+ error(badarg).
+
+rand_uniform_nif(_From,_To) -> ?nif_stub.
+
+
+-spec mod_pow(binary()|integer(), binary()|integer(), binary()|integer()) -> binary() | error.
+mod_pow(Base, Exponent, Prime) ->
+ case mod_exp_nif(ensure_int_as_bin(Base), ensure_int_as_bin(Exponent), ensure_int_as_bin(Prime), 0) of
+ <<0>> -> error;
+ R -> R
+ end.
+
+verify(dss, Type, Data, Signature, Key) ->
+ dss_verify_nif(Type, Data, Signature, map_ensure_int_as_bin(Key));
+
+verify(rsa, Type, DataOrDigest, Signature, Key) ->
+ case rsa_verify_nif(Type, DataOrDigest, Signature, map_ensure_int_as_bin(Key)) of
+ notsup -> erlang:error(notsup);
+ Bool -> Bool
+ end;
+verify(ecdsa, Type, DataOrDigest, Signature, [Key, Curve]) ->
+ case ecdsa_verify_nif(Type, DataOrDigest, Signature, term_to_ec_key(Curve, undefined, Key)) of
+ notsup -> erlang:error(notsup);
+ Bool -> Bool
+ end.
+
+sign(rsa, Type, DataOrDigest, Key) ->
+ case rsa_sign_nif(Type, DataOrDigest, map_ensure_int_as_bin(Key)) of
+ error -> erlang:error(badkey, [Type,DataOrDigest,Key]);
+ Sign -> Sign
+ end;
+sign(dss, Type, DataOrDigest, Key) ->
+ case dss_sign_nif(Type, DataOrDigest, map_ensure_int_as_bin(Key)) of
+ error -> erlang:error(badkey, [DataOrDigest, Key]);
+ Sign -> Sign
+ end;
+sign(ecdsa, Type, DataOrDigest, [Key, Curve]) ->
+ case ecdsa_sign_nif(Type, DataOrDigest, term_to_ec_key(Curve, Key, undefined)) of
+ error -> erlang:error(badkey, [Type,DataOrDigest,Key]);
+ Sign -> Sign
+ end.
+
+
+-spec public_encrypt(rsa, binary(), [binary()], rsa_padding()) ->
+ binary().
+-spec public_decrypt(rsa, binary(), [integer() | binary()], rsa_padding()) ->
+ binary().
+-spec private_encrypt(rsa, binary(), [integer() | binary()], rsa_padding()) ->
+ binary().
+-spec private_decrypt(rsa, binary(), [integer() | binary()], rsa_padding()) ->
+ binary().
+
+public_encrypt(rsa, BinMesg, Key, Padding) ->
+ case rsa_public_crypt(BinMesg, map_ensure_int_as_bin(Key), Padding, true) of
+ error ->
+ erlang:error(encrypt_failed, [BinMesg,Key, Padding]);
+ Sign -> Sign
+ end.
+
+%% Binary, Key = [E,N,D]
+private_decrypt(rsa, BinMesg, Key, Padding) ->
+ case rsa_private_crypt(BinMesg, map_ensure_int_as_bin(Key), Padding, false) of
+ error ->
+ erlang:error(decrypt_failed, [BinMesg,Key, Padding]);
+ Sign -> Sign
+ end.
+
+
+%% Binary, Key = [E,N,D]
+private_encrypt(rsa, BinMesg, Key, Padding) ->
+ case rsa_private_crypt(BinMesg, map_ensure_int_as_bin(Key), Padding, true) of
+ error ->
+ erlang:error(encrypt_failed, [BinMesg,Key, Padding]);
+ Sign -> Sign
+ end.
+
+%% Binary, Key = [E,N]
+public_decrypt(rsa, BinMesg, Key, Padding) ->
+ case rsa_public_crypt(BinMesg, map_ensure_int_as_bin(Key), Padding, false) of
+ error ->
+ erlang:error(decrypt_failed, [BinMesg,Key, Padding]);
+ Sign -> Sign
+ end.
+
+generate_key(Type, Params) ->
+ generate_key(Type, Params, undefined).
+
+generate_key(dh, DHParameters, PrivateKey) ->
+ dh_generate_key_nif(ensure_int_as_bin(PrivateKey),
+ map_ensure_int_as_bin(DHParameters), 0);
+
+generate_key(srp, {host, [Verifier, Generator, Prime, Version]}, PrivArg)
+ when is_binary(Verifier), is_binary(Generator), is_binary(Prime), is_atom(Version) ->
+ Private = case PrivArg of
+ undefined -> random_bytes(32);
+ _ -> ensure_int_as_bin(PrivArg)
+ end,
+ host_srp_gen_key(Private, Verifier, Generator, Prime, Version);
+
+generate_key(srp, {user, [Generator, Prime, Version]}, PrivateArg)
+ when is_binary(Generator), is_binary(Prime), is_atom(Version) ->
+ Private = case PrivateArg of
+ undefined -> random_bytes(32);
+ _ -> PrivateArg
+ end,
+ user_srp_gen_key(Private, Generator, Prime);
+
+generate_key(ecdh, Curve, undefined) ->
+ ec_key_to_term_nif(ec_key_generate(Curve)).
+
+
+compute_key(dh, OthersPublicKey, MyPrivateKey, DHParameters) ->
+ case dh_compute_key_nif(ensure_int_as_bin(OthersPublicKey),
+ ensure_int_as_bin(MyPrivateKey),
+ map_ensure_int_as_bin(DHParameters)) of
+ error -> erlang:error(computation_failed,
+ [OthersPublicKey,MyPrivateKey,DHParameters]);
+ Ret -> Ret
+ end;
+
+compute_key(srp, HostPublic, {UserPublic, UserPrivate},
+ {user, [DerivedKey, Prime, Generator, Version | ScramblerArg]}) when
+ is_binary(Prime),
+ is_binary(Generator),
+ is_atom(Version) ->
+ HostPubBin = ensure_int_as_bin(HostPublic),
+ Multiplier = srp_multiplier(Version, Generator, Prime),
+ Scrambler = case ScramblerArg of
+ [] -> srp_scrambler(Version, ensure_int_as_bin(UserPublic),
+ HostPubBin, Prime);
+ [S] -> S
+ end,
+ srp_user_secret_nif(ensure_int_as_bin(UserPrivate), Scrambler, HostPubBin,
+ Multiplier, Generator, DerivedKey, Prime);
+
+compute_key(srp, UserPublic, {HostPublic, HostPrivate},
+ {host,[Verifier, Prime, Version | ScramblerArg]}) when
+ is_binary(Verifier),
+ is_binary(Prime),
+ is_atom(Version) ->
+ UserPubBin = ensure_int_as_bin(UserPublic),
+ Scrambler = case ScramblerArg of
+ [] -> srp_scrambler(Version, UserPubBin, ensure_int_as_bin(HostPublic), Prime);
+ [S] -> S
+ end,
+ srp_host_secret_nif(Verifier, ensure_int_as_bin(HostPrivate), Scrambler,
+ UserPubBin, Prime);
+
+compute_key(ecdh, Others, My, Curve) ->
+ ecdh_compute_key_nif(ensure_int_as_bin(Others),
+ term_to_ec_key(Curve,My,undefined)).
+
+
+random_bytes(N) ->
+ try strong_rand_bytes(N) of
+ RandBytes ->
+ RandBytes
+ catch
+ error:low_entropy ->
+ rand_bytes(N)
+ end.
+
+%%--------------------------------------------------------------------
+%%% On load
+%%--------------------------------------------------------------------
on_load() ->
LibBaseName = "crypto",
@@ -257,7 +550,7 @@ on_load() ->
(filelib:wildcard(
filename:join(
[PrivDir,
- "lib",
+ "lib",
erlang:system_info(system_architecture),
LibTypeName ++ "*"])) /= []) of
true -> LibTypeName;
@@ -268,8 +561,8 @@ on_load() ->
Status = case erlang:load_nif(Lib, {?CRYPTO_NIF_VSN,Lib}) of
ok -> ok;
{error, {load_failed, _}}=Error1 ->
- ArchLibDir =
- filename:join([PrivDir, "lib",
+ ArchLibDir =
+ filename:join([PrivDir, "lib",
erlang:system_info(system_architecture)]),
Candidate =
filelib:wildcard(filename:join([ArchLibDir,LibName ++ "*" ])),
@@ -288,84 +581,7 @@ on_load() ->
"OpenSSL might not be installed on this system.~n",[E,Str]),
Status
end.
-
-nif_stub_error(Line) ->
- erlang:nif_error({nif_not_loaded,module,?MODULE,line,Line}).
-
-start() ->
- application:start(crypto).
-
-stop() ->
- application:stop(crypto).
-
-info() ->
- ?FUNC_LIST.
-
-info_lib() -> ?nif_stub.
-
-algorithms() -> ?nif_stub.
-
-supports()->
- Algs = algorithms(),
- PubKeyAlgs =
- case lists:member(ec, Algs) of
- true ->
- {public_keys, [rsa, dss, ecdsa, dh, srp, ecdh]};
- false ->
- {public_keys, [rsa, dss, dh, srp]}
- end,
- [{hashs, Algs -- [ec]},
- {ciphers, [des_cbc, des_cfb, des3_cbc, des3_cbf, des_ede3, blowfish_cbc,
- blowfish_cfb64, blowfish_ofb64, blowfish_ecb, aes_cbc128, aes_cfb128, aes_cbc256, rc2_cbc, aes_ctr, rc4
- ]},
- PubKeyAlgs
- ].
-
-%% Crypto app version history:
-%% (no version): Driver implementation
-%% 2.0 : NIF implementation, requires OTP R14
-version() -> ?CRYPTO_VSN.
-
-%% Below Key and Data are binaries or IO-lists. IVec is a binary.
-%% Output is always a binary. Context is a binary.
-
-%%
-%% MESSAGE DIGESTS
-%%
-
--spec hash(_, iodata()) -> binary().
-hash(md5, Data) -> md5(Data);
-hash(md4, Data) -> md4(Data);
-hash(sha, Data) -> sha(Data);
-hash(ripemd160, Data) -> ripemd160(Data);
-hash(sha224, Data) -> sha224(Data);
-hash(sha256, Data) -> sha256(Data);
-hash(sha384, Data) -> sha384(Data);
-hash(sha512, Data) -> sha512(Data).
-
--spec hash_init('md5'|'md4'|'ripemd160'|
- 'sha'|'sha224'|'sha256'|'sha384'|'sha512') -> any().
-
-hash_init(md5) -> {md5, md5_init()};
-hash_init(md4) -> {md4, md4_init()};
-hash_init(sha) -> {sha, sha_init()};
-hash_init(ripemd160) -> {ripemd160, ripemd160_init()};
-hash_init(sha224) -> {sha224, sha224_init()};
-hash_init(sha256) -> {sha256, sha256_init()};
-hash_init(sha384) -> {sha384, sha384_init()};
-hash_init(sha512) -> {sha512, sha512_init()}.
-
--spec hash_update(_, iodata()) -> any().
-
-hash_update({md5,Context}, Data) -> {md5, md5_update(Context,Data)};
-hash_update({md4,Context}, Data) -> {md4, md4_update(Context,Data)};
-hash_update({sha,Context}, Data) -> {sha, sha_update(Context,Data)};
-hash_update({ripemd160,Context}, Data) -> {ripemd160, ripemd160_update(Context,Data)};
-hash_update({sha224,Context}, Data) -> {sha224, sha224_update(Context,Data)};
-hash_update({sha256,Context}, Data) -> {sha256, sha256_update(Context,Data)};
-hash_update({sha384,Context}, Data) -> {sha384, sha384_update(Context,Data)};
-hash_update({sha512,Context}, Data) -> {sha512, sha512_update(Context,Data)}.
-
+%%--------------------------------------------------------------------
-spec hash_final(_) -> binary().
hash_final({md5,Context}) -> md5_final(Context);
@@ -567,6 +783,7 @@ sha512_init_nif() -> ?nif_stub.
sha512_update_nif(_Context, _Data) -> ?nif_stub.
sha512_final_nif(_Context) -> ?nif_stub.
+%% HMAC --------------------------------------------------------------------
%%
%% MESSAGE AUTHENTICATION CODES
%%
@@ -696,172 +913,8 @@ sha512_mac(Key, Data, MacSz) ->
sha512_mac_nif(_Key,_Data,_MacSz) -> ?nif_stub.
+%% CIPHERS --------------------------------------------------------------------
-%% Ecrypt/decrypt %%%
-
--spec block_encrypt(des_cbc | des_cfb | des3_cbc | des3_cbf | des_ede3 | blowfish_cbc |
- blowfish_cfb64 | aes_cbc128 | aes_cfb128 | aes_cbc256 | rc2_cbc,
- Key::iodata(), Ivec::binary(), Data::iodata()) -> binary().
-
-block_encrypt(des_cbc, Key, Ivec, Data) ->
- des_cbc_encrypt(Key, Ivec, Data);
-block_encrypt(des_cfb, Key, Ivec, Data) ->
- des_cfb_encrypt(Key, Ivec, Data);
-block_encrypt(des3_cbc, [Key1, Key2, Key3], Ivec, Data) ->
- des3_cbc_encrypt(Key1, Key2, Key3, Ivec, Data);
-block_encrypt(des3_cbf, [Key1, Key2, Key3], Ivec, Data) ->
- des3_cfb_encrypt(Key1, Key2, Key3, Ivec, Data);
-block_encrypt(des_ede3, [Key1, Key2, Key3], Ivec, Data) ->
- des_ede3_cbc_encrypt(Key1, Key2, Key3, Ivec, Data);
-block_encrypt(blowfish_cbc, Key, Ivec, Data) ->
- blowfish_cbc_encrypt(Key, Ivec, Data);
-block_encrypt(blowfish_cfb64, Key, Ivec, Data) ->
- blowfish_cfb64_encrypt(Key, Ivec, Data);
-block_encrypt(blowfish_ofb64, Key, Ivec, Data) ->
- blowfish_ofb64_encrypt(Key, Ivec, Data);
-block_encrypt(aes_cbc128, Key, Ivec, Data) ->
- aes_cbc_128_encrypt(Key, Ivec, Data);
-block_encrypt(aes_cbc256, Key, Ivec, Data) ->
- aes_cbc_256_encrypt(Key, Ivec, Data);
-block_encrypt(aes_cfb128, Key, Ivec, Data) ->
- aes_cfb_128_encrypt(Key, Ivec, Data);
-block_encrypt(rc2_cbc, Key, Ivec, Data) ->
- rc2_cbc_encrypt(Key, Ivec, Data).
-
--spec block_decrypt(des_cbc | des_cfb | des3_cbc | des3_cbf | des_ede3 | blowfish_cbc |
- blowfish_cfb64 | blowfish_ofb64 | aes_cbc128 | aes_cbc256 | aes_cfb128 | rc2_cbc,
- Key::iodata(), Ivec::binary(), Data::iodata()) -> binary().
-
-block_decrypt(des_cbc, Key, Ivec, Data) ->
- des_cbc_decrypt(Key, Ivec, Data);
-block_decrypt(des_cfb, Key, Ivec, Data) ->
- des_cfb_decrypt(Key, Ivec, Data);
-block_decrypt(des3_cbc, [Key1, Key2, Key3], Ivec, Data) ->
- des3_cbc_decrypt(Key1, Key2, Key3, Ivec, Data);
-block_decrypt(des3_cbf, [Key1, Key2, Key3], Ivec, Data) ->
- des3_cfb_decrypt(Key1, Key2, Key3, Ivec, Data);
-block_decrypt(des_ede3, [Key1, Key2, Key3], Ivec, Data) ->
- des_ede3_cbc_decrypt(Key1, Key2, Key3, Ivec, Data);
-block_decrypt(blowfish_cbc, Key, Ivec, Data) ->
- blowfish_cbc_decrypt(Key, Ivec, Data);
-block_decrypt(blowfish_cfb64, Key, Ivec, Data) ->
- blowfish_cfb64_decrypt(Key, Ivec, Data);
-block_decrypt(blowfish_ofb64, Key, Ivec, Data) ->
- blowfish_ofb64_decrypt(Key, Ivec, Data);
-block_decrypt(aes_cbc128, Key, Ivec, Data) ->
- aes_cbc_128_decrypt(Key, Ivec, Data);
-block_decrypt(aes_cbc256, Key, Ivec, Data) ->
- aes_cbc_256_decrypt(Key, Ivec, Data);
-block_decrypt(aes_cfb128, Key, Ivec, Data) ->
- aes_cfb_128_decrypt(Key, Ivec, Data);
-block_decrypt(rc2_cbc, Key, Ivec, Data) ->
- rc2_cbc_decrypt(Key, Ivec, Data).
-
--spec block_encrypt(des_ecb | blowfish_ecb, Key::iodata(), Data::iodata()) -> binary().
-
-block_encrypt(des_ecb, Key, Data) ->
- des_ecb_encrypt(Key, Data);
-block_encrypt(blowfish_ecb, Key, Data) ->
- blowfish_ecb_encrypt(Key, Data).
-
--spec block_decrypt(des_ecb | blowfish_ecb, Key::iodata(), Data::iodata()) -> binary().
-
-block_decrypt(des_ecb, Key, Data) ->
- des_ecb_decrypt(Key, Data);
-block_decrypt(blowfish_ecb, Key, Data) ->
- blowfish_ecb_decrypt(Key, Data).
-
--spec next_iv(des_cbc | des3_cbc | aes_cbc, Data::iodata()) -> binary().
-
-next_iv(des_cbc, Data) ->
- des_cbc_ivec(Data);
-next_iv(des3_cbc, Data) ->
- des_cbc_ivec(Data);
-next_iv(aes_cbc, Data) ->
- aes_cbc_ivec(Data).
-
--spec next_iv(des_cfb, Data::iodata(), Ivec::binary()) -> binary().
-
-next_iv(des_cfb, Data, Ivec) ->
- des_cfb_ivec(Ivec, Data);
-next_iv(Type, Data, _Ivec) ->
- next_iv(Type, Data).
-
-stream_init(aes_ctr, Key, Ivec) ->
- {aes_ctr, aes_ctr_stream_init(Key, Ivec)}.
-stream_init(rc4, Key) ->
- {rc4, rc4_set_key(Key)}.
-stream_encrypt({aes_ctr, State0}, Data) ->
- {State, Cipher} = aes_ctr_stream_encrypt(State0, Data),
- {{aes_ctr, State}, Cipher};
-stream_encrypt({rc4, State0}, Data) ->
- {State, Cipher} = rc4_encrypt_with_state(State0, Data),
- {{rc4, State}, Cipher}.
-stream_decrypt({aes_ctr, State0}, Data) ->
- {State, Text} = aes_ctr_stream_decrypt(State0, Data),
- {{aes_ctr, State}, Text};
-stream_decrypt({rc4, State0}, Data) ->
- {State, Text} = rc4_encrypt_with_state (State0, Data),
- {{rc4, State}, Text}.
-
-%%
-%% CRYPTO FUNCTIONS
-%%
-
-%%
-%% DES - in cipher block chaining mode (CBC)
-%%
--spec des_cbc_encrypt(iodata(), binary(), iodata()) -> binary().
--spec des_cbc_decrypt(iodata(), binary(), iodata()) -> binary().
-
-des_cbc_encrypt(Key, IVec, Data) ->
- des_cbc_crypt(Key, IVec, Data, true).
-
-des_cbc_decrypt(Key, IVec, Data) ->
- des_cbc_crypt(Key, IVec, Data, false).
-
-des_cbc_crypt(_Key, _IVec, _Data, _IsEncrypt) -> ?nif_stub.
-
-%%
-%% dec_cbc_ivec(Data) -> binary()
-%%
-%% Returns the IVec to be used in the next iteration of
-%% des_cbc_[encrypt|decrypt].
-%%
--spec des_cbc_ivec(iodata()) -> binary().
-
-des_cbc_ivec(Data) when is_binary(Data) ->
- {_, IVec} = split_binary(Data, size(Data) - 8),
- IVec;
-des_cbc_ivec(Data) when is_list(Data) ->
- des_cbc_ivec(list_to_binary(Data)).
-
-%%
-%% DES - in 8-bits cipher feedback mode (CFB)
-%%
--spec des_cfb_encrypt(iodata(), binary(), iodata()) -> binary().
--spec des_cfb_decrypt(iodata(), binary(), iodata()) -> binary().
-
-des_cfb_encrypt(Key, IVec, Data) ->
- des_cfb_crypt(Key, IVec, Data, true).
-
-des_cfb_decrypt(Key, IVec, Data) ->
- des_cfb_crypt(Key, IVec, Data, false).
-
-des_cfb_crypt(_Key, _IVec, _Data, _IsEncrypt) -> ?nif_stub.
-
-%%
-%% dec_cfb_ivec(IVec, Data) -> binary()
-%%
-%% Returns the IVec to be used in the next iteration of
-%% des_cfb_[encrypt|decrypt].
-%%
--spec des_cfb_ivec(iodata(), iodata()) -> binary().
-
-des_cfb_ivec(IVec, Data) ->
- IVecAndData = list_to_binary([IVec, Data]),
- {_, NewIVec} = split_binary(IVecAndData, byte_size(IVecAndData) - 8),
- NewIVec.
%%
%% DES - in electronic codebook mode (ECB)
@@ -973,292 +1026,63 @@ aes_cfb_128_decrypt(Key, IVec, Data) ->
aes_cfb_128_crypt(_Key, _IVec, _Data, _IsEncrypt) -> ?nif_stub.
-%%
-%% RAND - pseudo random numbers using RN_ functions in crypto lib
%%
--spec rand_bytes(non_neg_integer()) -> binary().
--spec strong_rand_bytes(non_neg_integer()) -> binary().
--spec rand_uniform(crypto_integer(), crypto_integer()) ->
- crypto_integer().
--spec strong_rand_mpint(Bits::non_neg_integer(),
- Top::-1..1,
- Bottom::0..1) -> binary().
-
-rand_bytes(_Bytes) -> ?nif_stub.
-
-strong_rand_bytes(Bytes) ->
- case strong_rand_bytes_nif(Bytes) of
- false -> erlang:error(low_entropy);
- Bin -> Bin
- end.
-strong_rand_bytes_nif(_Bytes) -> ?nif_stub.
-
-rand_bytes(_Bytes, _Topmask, _Bottommask) -> ?nif_stub.
-
-strong_rand_mpint(Bits, Top, Bottom) ->
- case strong_rand_mpint_nif(Bits,Top,Bottom) of
- false -> erlang:error(low_entropy);
- Bin -> Bin
- end.
-strong_rand_mpint_nif(_Bits, _Top, _Bottom) -> ?nif_stub.
-
+%% DES - in cipher block chaining mode (CBC)
+%%
+-spec des_cbc_encrypt(iodata(), binary(), iodata()) -> binary().
+-spec des_cbc_decrypt(iodata(), binary(), iodata()) -> binary().
-rand_uniform(From,To) when is_binary(From), is_binary(To) ->
- case rand_uniform_nif(From,To) of
- <<Len:32/integer, MSB, Rest/binary>> when MSB > 127 ->
- <<(Len + 1):32/integer, 0, MSB, Rest/binary>>;
- Whatever ->
- Whatever
- end;
-rand_uniform(From,To) when is_integer(From),is_integer(To) ->
- if From < 0 ->
- rand_uniform_pos(0, To - From) + From;
- true ->
- rand_uniform_pos(From, To)
- end.
+des_cbc_encrypt(Key, IVec, Data) ->
+ des_cbc_crypt(Key, IVec, Data, true).
-rand_uniform_pos(From,To) when From < To ->
- BinFrom = mpint(From),
- BinTo = mpint(To),
- case rand_uniform(BinFrom, BinTo) of
- Result when is_binary(Result) ->
- erlint(Result);
- Other ->
- Other
- end;
-rand_uniform_pos(_,_) ->
- error(badarg).
+des_cbc_decrypt(Key, IVec, Data) ->
+ des_cbc_crypt(Key, IVec, Data, false).
-rand_uniform_nif(_From,_To) -> ?nif_stub.
+des_cbc_crypt(_Key, _IVec, _Data, _IsEncrypt) -> ?nif_stub.
%%
-%% mod_exp - utility for rsa generation and SRP
+%% dec_cbc_ivec(Data) -> binary()
%%
-mod_exp(Base, Exponent, Modulo)
- when is_integer(Base), is_integer(Exponent), is_integer(Modulo) ->
- bin_to_int(mod_exp_nif(int_to_bin(Base), int_to_bin(Exponent), int_to_bin(Modulo), 0));
-
-mod_exp(Base, Exponent, Modulo) ->
- mod_exp_nif(mpint_to_bin(Base),mpint_to_bin(Exponent),mpint_to_bin(Modulo), 4).
-
--spec mod_pow(binary()|integer(), binary()|integer(), binary()|integer()) -> binary() | error.
-mod_pow(Base, Exponent, Prime) ->
- case mod_exp_nif(ensure_int_as_bin(Base), ensure_int_as_bin(Exponent), ensure_int_as_bin(Prime), 0) of
- <<0>> -> error;
- R -> R
- end.
-
+%% Returns the IVec to be used in the next iteration of
+%% des_cbc_[encrypt|decrypt].
+%%
+-spec des_cbc_ivec(iodata()) -> binary().
-mod_exp_nif(_Base,_Exp,_Mod,_bin_hdr) -> ?nif_stub.
+des_cbc_ivec(Data) when is_binary(Data) ->
+ {_, IVec} = split_binary(Data, size(Data) - 8),
+ IVec;
+des_cbc_ivec(Data) when is_list(Data) ->
+ des_cbc_ivec(list_to_binary(Data)).
%%
-%% DSS, RSA - verify
+%% DES - in 8-bits cipher feedback mode (CFB)
%%
--spec dss_verify(data_or_digest(), binary(), [binary()]) -> boolean().
--spec dss_verify(dss_digest_type(), data_or_digest(), binary(), [binary()]) -> boolean().
--spec rsa_verify(data_or_digest(), binary(), [binary()]) -> boolean().
--spec rsa_verify(rsa_digest_type(), data_or_digest(), binary(), [binary()]) ->
- boolean().
-
-%% Key = [P,Q,G,Y] P,Q,G=DSSParams Y=PublicKey
-dss_verify(Data,Signature,Key) ->
- dss_verify(sha, Data, Signature, Key).
-
-dss_verify(Type,Data,Signature,Key) when is_binary(Data), Type=/=none ->
- verify(dss,Type,mpint_to_bin(Data),mpint_to_bin(Signature),map_mpint_to_bin(Key));
-dss_verify(Type,Digest,Signature,Key) ->
- verify(dss,Type,Digest,mpint_to_bin(Signature),map_mpint_to_bin(Key)).
-
-% Key = [E,N] E=PublicExponent N=PublicModulus
-rsa_verify(Data,Signature,Key) ->
- rsa_verify(sha, Data,Signature,Key).
-rsa_verify(Type, Data, Signature, Key) when is_binary(Data) ->
- verify(rsa, Type, mpint_to_bin(Data), mpint_to_bin(Signature), map_mpint_to_bin(Key));
-rsa_verify(Type, Digest, Signature, Key) ->
- verify(rsa, Type, Digest, mpint_to_bin(Signature), map_mpint_to_bin(Key)).
-
-
-verify(dss, Type, Data, Signature, Key) ->
- dss_verify_nif(Type, Data, Signature, map_ensure_int_as_bin(Key));
-
-verify(rsa, Type, DataOrDigest, Signature, Key) ->
- case rsa_verify_nif(Type, DataOrDigest, Signature, map_ensure_int_as_bin(Key)) of
- notsup -> erlang:error(notsup);
- Bool -> Bool
- end;
-verify(ecdsa, Type, DataOrDigest, Signature, [Key, Curve]) ->
- case ecdsa_verify_nif(Type, DataOrDigest, Signature, term_to_ec_key(Curve, undefined, Key)) of
- notsup -> erlang:error(notsup);
- Bool -> Bool
- end.
+-spec des_cfb_encrypt(iodata(), binary(), iodata()) -> binary().
+-spec des_cfb_decrypt(iodata(), binary(), iodata()) -> binary().
+des_cfb_encrypt(Key, IVec, Data) ->
+ des_cfb_crypt(Key, IVec, Data, true).
-dss_verify_nif(_Type, _Data, _Signature, _Key) -> ?nif_stub.
-rsa_verify_nif(_Type, _Data, _Signature, _Key) -> ?nif_stub.
-ecdsa_verify_nif(_Type, _DataOrDigest, _Signature, _Key) -> ?nif_stub.
+des_cfb_decrypt(Key, IVec, Data) ->
+ des_cfb_crypt(Key, IVec, Data, false).
+des_cfb_crypt(_Key, _IVec, _Data, _IsEncrypt) -> ?nif_stub.
%%
-%% DSS, RSA - sign
+%% dec_cfb_ivec(IVec, Data) -> binary()
%%
-%% Key = [P,Q,G,X] P,Q,G=DSSParams X=PrivateKey
--spec dss_sign(data_or_digest(), [binary()]) -> binary().
--spec dss_sign(dss_digest_type(), data_or_digest(), [binary()]) -> binary().
--spec rsa_sign(data_or_digest(), [binary()]) -> binary().
--spec rsa_sign(rsa_digest_type(), data_or_digest(), [binary()]) -> binary().
-
-dss_sign(DataOrDigest,Key) ->
- dss_sign(sha,DataOrDigest,Key).
-dss_sign(Type, Data, Key) when is_binary(Data), Type=/=none ->
- sign(dss, Type, mpint_to_bin(Data), map_mpint_to_bin(Key));
-dss_sign(Type, Digest, Key) ->
- sign(dss, Type, Digest, map_mpint_to_bin(Key)).
-
-
-%% Key = [E,N,D] E=PublicExponent N=PublicModulus D=PrivateExponent
-rsa_sign(DataOrDigest,Key) ->
- rsa_sign(sha, DataOrDigest, Key).
-
-rsa_sign(Type, Data, Key) when is_binary(Data) ->
- sign(rsa, Type, mpint_to_bin(Data), map_mpint_to_bin(Key));
-rsa_sign(Type, Digest, Key) ->
- sign(rsa, Type, Digest, map_mpint_to_bin(Key)).
-
-map_mpint_to_bin(List) ->
- lists:map(fun(E) -> mpint_to_bin(E) end, List ).
-
-map_ensure_int_as_bin([H|_]=List) when is_integer(H) ->
- lists:map(fun(E) -> int_to_bin(E) end, List);
-map_ensure_int_as_bin(List) ->
- List.
-
-ensure_int_as_bin(Int) when is_integer(Int) ->
- int_to_bin(Int);
-ensure_int_as_bin(Bin) ->
- Bin.
-
-map_to_norm_bin([H|_]=List) when is_integer(H) ->
- lists:map(fun(E) -> int_to_bin(E) end, List);
-map_to_norm_bin(List) ->
- lists:map(fun(E) -> mpint_to_bin(E) end, List).
-
-
-sign(rsa, Type, DataOrDigest, Key) ->
- case rsa_sign_nif(Type, DataOrDigest, map_ensure_int_as_bin(Key)) of
- error -> erlang:error(badkey, [Type,DataOrDigest,Key]);
- Sign -> Sign
- end;
-sign(dss, Type, DataOrDigest, Key) ->
- case dss_sign_nif(Type, DataOrDigest, map_ensure_int_as_bin(Key)) of
- error -> erlang:error(badkey, [DataOrDigest, Key]);
- Sign -> Sign
- end;
-sign(ecdsa, Type, DataOrDigest, [Key, Curve]) ->
- case ecdsa_sign_nif(Type, DataOrDigest, term_to_ec_key(Curve, Key, undefined)) of
- error -> erlang:error(badkey, [Type,DataOrDigest,Key]);
- Sign -> Sign
- end.
-
-rsa_sign_nif(_Type,_Data,_Key) -> ?nif_stub.
-dss_sign_nif(_Type,_Data,_Key) -> ?nif_stub.
-ecdsa_sign_nif(_Type, _DataOrDigest, _Key) -> ?nif_stub.
-
-
-
-
--spec public_encrypt(rsa, binary(), [binary()], rsa_padding()) ->
- binary().
--spec public_decrypt(rsa, binary(), [integer() | binary()], rsa_padding()) ->
- binary().
--spec private_encrypt(rsa, binary(), [integer() | binary()], rsa_padding()) ->
- binary().
--spec private_decrypt(rsa, binary(), [integer() | binary()], rsa_padding()) ->
- binary().
-
-public_encrypt(rsa, BinMesg, Key, Padding) ->
- case rsa_public_crypt(BinMesg, map_ensure_int_as_bin(Key), Padding, true) of
- error ->
- erlang:error(encrypt_failed, [BinMesg,Key, Padding]);
- Sign -> Sign
- end.
-
-%% Binary, Key = [E,N,D]
-private_decrypt(rsa, BinMesg, Key, Padding) ->
- case rsa_private_crypt(BinMesg, map_ensure_int_as_bin(Key), Padding, false) of
- error ->
- erlang:error(decrypt_failed, [BinMesg,Key, Padding]);
- Sign -> Sign
- end.
-
-
-%% Binary, Key = [E,N,D]
-private_encrypt(rsa, BinMesg, Key, Padding) ->
- case rsa_private_crypt(BinMesg, map_ensure_int_as_bin(Key), Padding, true) of
- error ->
- erlang:error(encrypt_failed, [BinMesg,Key, Padding]);
- Sign -> Sign
- end.
-
-%% Binary, Key = [E,N]
-public_decrypt(rsa, BinMesg, Key, Padding) ->
- case rsa_public_crypt(BinMesg, map_ensure_int_as_bin(Key), Padding, false) of
- error ->
- erlang:error(decrypt_failed, [BinMesg,Key, Padding]);
- Sign -> Sign
- end.
-
-
+%% Returns the IVec to be used in the next iteration of
+%% des_cfb_[encrypt|decrypt].
%%
-%% rsa_public_encrypt
-%% rsa_private_decrypt
--type rsa_padding() :: 'rsa_pkcs1_padding' | 'rsa_pkcs1_oaep_padding' | 'rsa_no_padding'.
-
--spec rsa_public_encrypt(binary(), [binary()], rsa_padding()) ->
- binary().
--spec rsa_public_decrypt(binary(), [integer() | mpint()], rsa_padding()) ->
- binary().
--spec rsa_private_encrypt(binary(), [integer() | mpint()], rsa_padding()) ->
- binary().
--spec rsa_private_decrypt(binary(), [integer() | mpint()], rsa_padding()) ->
- binary().
-%% Binary, Key = [E,N]
-rsa_public_encrypt(BinMesg, Key, Padding) ->
- case rsa_public_crypt(BinMesg, map_to_norm_bin(Key), Padding, true) of
- error ->
- erlang:error(encrypt_failed, [BinMesg,Key, Padding]);
- Sign -> Sign
- end.
-
-rsa_public_crypt(_BinMsg, _Key, _Padding, _IsEncrypt) -> ?nif_stub.
-
-%% Binary, Key = [E,N,D]
-rsa_private_decrypt(BinMesg, Key, Padding) ->
- case rsa_private_crypt(BinMesg, map_to_norm_bin(Key), Padding, false) of
- error ->
- erlang:error(decrypt_failed, [BinMesg,Key, Padding]);
- Sign -> Sign
- end.
+-spec des_cfb_ivec(iodata(), iodata()) -> binary().
-rsa_private_crypt(_BinMsg, _Key, _Padding, _IsEncrypt) -> ?nif_stub.
+des_cfb_ivec(IVec, Data) ->
+ IVecAndData = list_to_binary([IVec, Data]),
+ {_, NewIVec} = split_binary(IVecAndData, byte_size(IVecAndData) - 8),
+ NewIVec.
-
-%% Binary, Key = [E,N,D]
-rsa_private_encrypt(BinMesg, Key, Padding) ->
- case rsa_private_crypt(BinMesg, map_to_norm_bin(Key), Padding, true) of
- error ->
- erlang:error(encrypt_failed, [BinMesg,Key, Padding]);
- Sign -> Sign
- end.
-%% Binary, Key = [E,N]
-rsa_public_decrypt(BinMesg, Key, Padding) ->
- case rsa_public_crypt(BinMesg, map_to_norm_bin(Key), Padding, false) of
- error ->
- erlang:error(decrypt_failed, [BinMesg,Key, Padding]);
- Sign -> Sign
- end.
-
%%
%% AES - with 128 or 256 bit key in cipher block chaining mode (CBC)
%%
@@ -1326,15 +1150,6 @@ aes_ctr_stream_encrypt({_Key, _IVec, _ECount, _Num}=_State, _Data) -> ?nif_stub.
aes_ctr_stream_decrypt({_Key, _IVec, _ECount, _Num}=_State, _Cipher) -> ?nif_stub.
%%
-%% XOR - xor to iolists and return a binary
-%% NB doesn't check that they are the same size, just concatenates
-%% them and sends them to the driver
-%%
--spec exor(iodata(), iodata()) -> binary().
-
-exor(_A, _B) -> ?nif_stub.
-
-%%
%% RC4 - symmetric stream cipher
%%
-spec rc4_encrypt(iodata(), iodata()) -> binary().
@@ -1363,7 +1178,76 @@ rc2_40_cbc_encrypt(Key, IVec, Data) when erlang:byte_size(Key) == 5 ->
rc2_40_cbc_decrypt(Key, IVec, Data) when erlang:byte_size(Key) == 5 ->
rc2_cbc_crypt(Key,IVec,Data,false).
-%%
+
+%% Secure remote password -------------------------------------------------------------------
+
+user_srp_gen_key(Private, Generator, Prime) ->
+ case mod_pow(Generator, Private, Prime) of
+ error ->
+ error;
+ Public ->
+ {Public, Private}
+ end.
+
+host_srp_gen_key(Private, Verifier, Generator, Prime, Version) ->
+ Multiplier = srp_multiplier(Version, Generator, Prime),
+ case srp_value_B_nif(Multiplier, Verifier, Generator, Private, Prime) of
+ error ->
+ error;
+ Public ->
+ {Public, Private}
+ end.
+
+srp_multiplier('6a', Generator, Prime) ->
+ %% k = SHA1(N | PAD(g)) from http://srp.stanford.edu/design.html
+ C0 = sha_init(),
+ C1 = sha_update(C0, Prime),
+ C2 = sha_update(C1, srp_pad_to(erlang:byte_size(Prime), Generator)),
+ sha_final(C2);
+srp_multiplier('6', _, _) ->
+ <<3/integer>>;
+srp_multiplier('3', _, _) ->
+ <<1/integer>>.
+
+srp_scrambler(Version, UserPublic, HostPublic, Prime) when Version == '6'; Version == '6a'->
+ %% SHA1(PAD(A) | PAD(B)) from http://srp.stanford.edu/design.html
+ PadLength = erlang:byte_size(Prime),
+ C0 = sha_init(),
+ C1 = sha_update(C0, srp_pad_to(PadLength, UserPublic)),
+ C2 = sha_update(C1, srp_pad_to(PadLength, HostPublic)),
+ sha_final(C2);
+srp_scrambler('3', _, HostPublic, _Prime) ->
+ %% The parameter u is a 32-bit unsigned integer which takes its value
+ %% from the first 32 bits of the SHA1 hash of B, MSB first.
+ <<U:32/bits, _/binary>> = sha(HostPublic),
+ U.
+
+srp_pad_length(Width, Length) ->
+ (Width - Length rem Width) rem Width.
+
+srp_pad_to(Width, Binary) ->
+ case srp_pad_length(Width, size(Binary)) of
+ 0 -> Binary;
+ N -> << 0:(N*8), Binary/binary>>
+ end.
+
+srp_host_secret_nif(_Verifier, _B, _U, _A, _Prime) -> ?nif_stub.
+
+srp_user_secret_nif(_A, _U, _B, _Multiplier, _Generator, _Exponent, _Prime) -> ?nif_stub.
+
+srp_value_B_nif(_Multiplier, _Verifier, _Generator, _Exponent, _Prime) -> ?nif_stub.
+
+
+%% Digital signatures --------------------------------------------------------------------
+rsa_sign_nif(_Type,_Data,_Key) -> ?nif_stub.
+dss_sign_nif(_Type,_Data,_Key) -> ?nif_stub.
+ecdsa_sign_nif(_Type, _DataOrDigest, _Key) -> ?nif_stub.
+
+dss_verify_nif(_Type, _Data, _Signature, _Key) -> ?nif_stub.
+rsa_verify_nif(_Type, _Data, _Signature, _Key) -> ?nif_stub.
+ecdsa_verify_nif(_Type, _DataOrDigest, _Signature, _Key) -> ?nif_stub.
+
+%% Public Keys --------------------------------------------------------------------
%% DH Diffie-Hellman functions
%%
@@ -1412,80 +1296,10 @@ dh_compute_key(OthersPublicKey, MyPrivateKey, DHParameters) ->
dh_compute_key_nif(_OthersPublicKey, _MyPrivateKey, _DHParameters) -> ?nif_stub.
-generate_key(Type, Params) ->
- generate_key(Type, Params, undefined).
-
-generate_key(dh, DHParameters, PrivateKey) ->
- dh_generate_key_nif(ensure_int_as_bin(PrivateKey),
- map_ensure_int_as_bin(DHParameters), 0);
-
-generate_key(srp, {host, [Verifier, Generator, Prime, Version]}, PrivArg)
- when is_binary(Verifier), is_binary(Generator), is_binary(Prime), is_atom(Version) ->
- Private = case PrivArg of
- undefined -> random_bytes(32);
- _ -> ensure_int_as_bin(PrivArg)
- end,
- host_srp_gen_key(Private, Verifier, Generator, Prime, Version);
-
-generate_key(srp, {user, [Generator, Prime, Version]}, PrivateArg)
- when is_binary(Generator), is_binary(Prime), is_atom(Version) ->
- Private = case PrivateArg of
- undefined -> random_bytes(32);
- _ -> PrivateArg
- end,
- user_srp_gen_key(Private, Generator, Prime);
-
-generate_key(ecdh, Curve, undefined) ->
- ec_key_to_term_nif(ec_key_generate(Curve)).
-
-
ec_key_generate(_Key) -> ?nif_stub.
-
-compute_key(dh, OthersPublicKey, MyPrivateKey, DHParameters) ->
- case dh_compute_key_nif(ensure_int_as_bin(OthersPublicKey),
- ensure_int_as_bin(MyPrivateKey),
- map_ensure_int_as_bin(DHParameters)) of
- error -> erlang:error(computation_failed,
- [OthersPublicKey,MyPrivateKey,DHParameters]);
- Ret -> Ret
- end;
-
-compute_key(srp, HostPublic, {UserPublic, UserPrivate},
- {user, [DerivedKey, Prime, Generator, Version | ScramblerArg]}) when
- is_binary(Prime),
- is_binary(Generator),
- is_atom(Version) ->
- HostPubBin = ensure_int_as_bin(HostPublic),
- Multiplier = srp_multiplier(Version, Generator, Prime),
- Scrambler = case ScramblerArg of
- [] -> srp_scrambler(Version, ensure_int_as_bin(UserPublic),
- HostPubBin, Prime);
- [S] -> S
- end,
- srp_user_secret_nif(ensure_int_as_bin(UserPrivate), Scrambler, HostPubBin,
- Multiplier, Generator, DerivedKey, Prime);
-
-compute_key(srp, UserPublic, {HostPublic, HostPrivate},
- {host,[Verifier, Prime, Version | ScramblerArg]}) when
- is_binary(Verifier),
- is_binary(Prime),
- is_atom(Version) ->
- UserPubBin = ensure_int_as_bin(UserPublic),
- Scrambler = case ScramblerArg of
- [] -> srp_scrambler(Version, UserPubBin, ensure_int_as_bin(HostPublic), Prime);
- [S] -> S
- end,
- srp_host_secret_nif(Verifier, ensure_int_as_bin(HostPrivate), Scrambler,
- UserPubBin, Prime);
-
-compute_key(ecdh, Others, My, Curve) ->
- ecdh_compute_key_nif(ensure_int_as_bin(Others),
- term_to_ec_key(Curve,My,undefined)).
-
ecdh_compute_key_nif(_Others, _My) -> ?nif_stub.
-
%%
%% EC
%%
@@ -1511,65 +1325,167 @@ term_to_ec_key(Curve, PrivKey, PubKey) ->
term_to_ec_key_nif(_Curve, _PrivKey, _PubKey) -> ?nif_stub.
+algorithms() -> ?nif_stub.
+
+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]).
+
+bytes_to_integer(Bin) ->
+ bin_to_int(Bin).
-%% LOCAL FUNCTIONS
+bin_to_int(Bin) when is_binary(Bin) ->
+ Bits = bit_size(Bin),
+ <<Integer:Bits/integer>> = Bin,
+ Integer;
+bin_to_int(undefined) ->
+ undefined.
+
+map_ensure_int_as_bin([H|_]=List) when is_integer(H) ->
+ lists:map(fun(E) -> int_to_bin(E) end, List);
+map_ensure_int_as_bin(List) ->
+ List.
+
+ensure_int_as_bin(Int) when is_integer(Int) ->
+ int_to_bin(Int);
+ensure_int_as_bin(Bin) ->
+ Bin.
+
+map_to_norm_bin([H|_]=List) when is_integer(H) ->
+ lists:map(fun(E) -> int_to_bin(E) end, List);
+map_to_norm_bin(List) ->
+ lists:map(fun(E) -> mpint_to_bin(E) end, List).
+
+
+%%--------------------------------------------------------------------
+%%% Deprecated
+%%--------------------------------------------------------------------
%%
+%% rsa_public_encrypt
+%% rsa_private_decrypt
+-type rsa_padding() :: 'rsa_pkcs1_padding' | 'rsa_pkcs1_oaep_padding' | 'rsa_no_padding'.
-user_srp_gen_key(Private, Generator, Prime) ->
- case mod_pow(Generator, Private, Prime) of
+-spec rsa_public_encrypt(binary(), [binary()], rsa_padding()) ->
+ binary().
+-spec rsa_public_decrypt(binary(), [integer() | mpint()], rsa_padding()) ->
+ binary().
+-spec rsa_private_encrypt(binary(), [integer() | mpint()], rsa_padding()) ->
+ binary().
+-spec rsa_private_decrypt(binary(), [integer() | mpint()], rsa_padding()) ->
+ binary().
+
+%% Binary, Key = [E,N]
+rsa_public_encrypt(BinMesg, Key, Padding) ->
+ case rsa_public_crypt(BinMesg, map_to_norm_bin(Key), Padding, true) of
error ->
- error;
- Public ->
- {Public, Private}
+ erlang:error(encrypt_failed, [BinMesg,Key, Padding]);
+ Sign -> Sign
end.
-host_srp_gen_key(Private, Verifier, Generator, Prime, Version) ->
- Multiplier = srp_multiplier(Version, Generator, Prime),
- case srp_value_B_nif(Multiplier, Verifier, Generator, Private, Prime) of
- error ->
- error;
- Public ->
- {Public, Private}
- end.
+rsa_public_crypt(_BinMsg, _Key, _Padding, _IsEncrypt) -> ?nif_stub.
-srp_multiplier('6a', Generator, Prime) ->
- %% k = SHA1(N | PAD(g)) from http://srp.stanford.edu/design.html
- C0 = sha_init(),
- C1 = sha_update(C0, Prime),
- C2 = sha_update(C1, srp_pad_to(erlang:byte_size(Prime), Generator)),
- sha_final(C2);
-srp_multiplier('6', _, _) ->
- <<3/integer>>;
-srp_multiplier('3', _, _) ->
- <<1/integer>>.
+%% Binary, Key = [E,N,D]
+rsa_private_decrypt(BinMesg, Key, Padding) ->
+ case rsa_private_crypt(BinMesg, map_to_norm_bin(Key), Padding, false) of
+ error ->
+ erlang:error(decrypt_failed, [BinMesg,Key, Padding]);
+ Sign -> Sign
+ end.
-srp_scrambler(Version, UserPublic, HostPublic, Prime) when Version == '6'; Version == '6a'->
- %% SHA1(PAD(A) | PAD(B)) from http://srp.stanford.edu/design.html
- PadLength = erlang:byte_size(Prime),
- C0 = sha_init(),
- C1 = sha_update(C0, srp_pad_to(PadLength, UserPublic)),
- C2 = sha_update(C1, srp_pad_to(PadLength, HostPublic)),
- sha_final(C2);
-srp_scrambler('3', _, HostPublic, _Prime) ->
- %% The parameter u is a 32-bit unsigned integer which takes its value
- %% from the first 32 bits of the SHA1 hash of B, MSB first.
- <<U:32/bits, _/binary>> = sha(HostPublic),
- U.
+rsa_private_crypt(_BinMsg, _Key, _Padding, _IsEncrypt) -> ?nif_stub.
-srp_pad_length(Width, Length) ->
- (Width - Length rem Width) rem Width.
-srp_pad_to(Width, Binary) ->
- case srp_pad_length(Width, size(Binary)) of
- 0 -> Binary;
- N -> << 0:(N*8), Binary/binary>>
+%% Binary, Key = [E,N,D]
+rsa_private_encrypt(BinMesg, Key, Padding) ->
+ case rsa_private_crypt(BinMesg, map_to_norm_bin(Key), Padding, true) of
+ error ->
+ erlang:error(encrypt_failed, [BinMesg,Key, Padding]);
+ Sign -> Sign
end.
-srp_host_secret_nif(_Verifier, _B, _U, _A, _Prime) -> ?nif_stub.
+%% Binary, Key = [E,N]
+rsa_public_decrypt(BinMesg, Key, Padding) ->
+ case rsa_public_crypt(BinMesg, map_to_norm_bin(Key), Padding, false) of
+ error ->
+ erlang:error(decrypt_failed, [BinMesg,Key, Padding]);
+ Sign -> Sign
+ end.
-srp_user_secret_nif(_A, _U, _B, _Multiplier, _Generator, _Exponent, _Prime) -> ?nif_stub.
+map_mpint_to_bin(List) ->
+ lists:map(fun(E) -> mpint_to_bin(E) end, List ).
+
+%%
+%% DSS, RSA - sign
+%%
+%% Key = [P,Q,G,X] P,Q,G=DSSParams X=PrivateKey
+-spec dss_sign(data_or_digest(), [binary()]) -> binary().
+-spec dss_sign(dss_digest_type(), data_or_digest(), [binary()]) -> binary().
+-spec rsa_sign(data_or_digest(), [binary()]) -> binary().
+-spec rsa_sign(rsa_digest_type(), data_or_digest(), [binary()]) -> binary().
+
+dss_sign(DataOrDigest,Key) ->
+ dss_sign(sha,DataOrDigest,Key).
+dss_sign(Type, Data, Key) when is_binary(Data), Type=/=none ->
+ sign(dss, Type, mpint_to_bin(Data), map_mpint_to_bin(Key));
+dss_sign(Type, Digest, Key) ->
+ sign(dss, Type, Digest, map_mpint_to_bin(Key)).
+
+
+%% Key = [E,N,D] E=PublicExponent N=PublicModulus D=PrivateExponent
+rsa_sign(DataOrDigest,Key) ->
+ rsa_sign(sha, DataOrDigest, Key).
+
+rsa_sign(Type, Data, Key) when is_binary(Data) ->
+ sign(rsa, Type, mpint_to_bin(Data), map_mpint_to_bin(Key));
+rsa_sign(Type, Digest, Key) ->
+ sign(rsa, Type, Digest, map_mpint_to_bin(Key)).
+
+%%
+%% DSS, RSA - verify
+%%
+-spec dss_verify(data_or_digest(), binary(), [binary()]) -> boolean().
+-spec dss_verify(dss_digest_type(), data_or_digest(), binary(), [binary()]) -> boolean().
+-spec rsa_verify(data_or_digest(), binary(), [binary()]) -> boolean().
+-spec rsa_verify(rsa_digest_type(), data_or_digest(), binary(), [binary()]) ->
+ boolean().
+
+%% Key = [P,Q,G,Y] P,Q,G=DSSParams Y=PublicKey
+dss_verify(Data,Signature,Key) ->
+ dss_verify(sha, Data, Signature, Key).
+
+dss_verify(Type,Data,Signature,Key) when is_binary(Data), Type=/=none ->
+ verify(dss,Type,mpint_to_bin(Data),mpint_to_bin(Signature),map_mpint_to_bin(Key));
+dss_verify(Type,Digest,Signature,Key) ->
+ verify(dss,Type,Digest,mpint_to_bin(Signature),map_mpint_to_bin(Key)).
+
+% Key = [E,N] E=PublicExponent N=PublicModulus
+rsa_verify(Data,Signature,Key) ->
+ rsa_verify(sha, Data,Signature,Key).
+rsa_verify(Type, Data, Signature, Key) when is_binary(Data) ->
+ verify(rsa, Type, mpint_to_bin(Data), mpint_to_bin(Signature), map_mpint_to_bin(Key));
+rsa_verify(Type, Digest, Signature, Key) ->
+ verify(rsa, Type, Digest, mpint_to_bin(Signature), map_mpint_to_bin(Key)).
+
+-spec strong_rand_mpint(Bits::non_neg_integer(),
+ Top::-1..1,
+ Bottom::0..1) -> binary().
+
+strong_rand_mpint(Bits, Top, Bottom) ->
+ case strong_rand_mpint_nif(Bits,Top,Bottom) of
+ false -> erlang:error(low_entropy);
+ Bin -> Bin
+ end.
+strong_rand_mpint_nif(_Bits, _Top, _Bottom) -> ?nif_stub.
-srp_value_B_nif(_Multiplier, _Verifier, _Generator, _Exponent, _Prime) -> ?nif_stub.
%% large integer in a binary with 32bit length
%% MP representaion (SSH2)
@@ -1594,32 +1510,6 @@ mpint_pos(X) ->
<<?UINT32(Sz), Bin/binary>>
end.
-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(X) when X >= 0 ->
-%% 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]).
-
-bytes_to_integer(Bin) ->
- bin_to_int(Bin).
-
-bin_to_int(Bin) when is_binary(Bin) ->
- Bits = bit_size(Bin),
- <<Integer:Bits/integer>> = Bin,
- Integer;
-bin_to_int(undefined) ->
- undefined.
-
%% int from integer in a binary with 32bit length
erlint(<<MPIntSize:32/integer,MPIntValue/binary>>) ->
Bits= MPIntSize * 8,
@@ -1629,11 +1519,71 @@ erlint(<<MPIntSize:32/integer,MPIntValue/binary>>) ->
mpint_to_bin(<<Len:32, Bin:Len/binary>>) ->
Bin.
-random_bytes(N) ->
- try strong_rand_bytes(N) of
- RandBytes ->
- RandBytes
- catch
- error:low_entropy ->
- rand_bytes(N)
- end.
+%%
+%% mod_exp - utility for rsa generation and SRP
+%%
+mod_exp(Base, Exponent, Modulo)
+ when is_integer(Base), is_integer(Exponent), is_integer(Modulo) ->
+ bin_to_int(mod_exp_nif(int_to_bin(Base), int_to_bin(Exponent), int_to_bin(Modulo), 0));
+
+mod_exp(Base, Exponent, Modulo) ->
+ mod_exp_nif(mpint_to_bin(Base),mpint_to_bin(Exponent),mpint_to_bin(Modulo), 4).
+
+mod_exp_nif(_Base,_Exp,_Mod,_bin_hdr) -> ?nif_stub.
+
+-define(FUNC_LIST, [hash, hash_init, hash_update, hash_final,
+ hmac, hmac_init, hmac_update, hmac_final, hmac_final_n,
+ %% deprecated
+ md4, md4_init, md4_update, md4_final,
+ md5, md5_init, md5_update, md5_final,
+ sha, sha_init, sha_update, sha_final,
+ md5_mac, md5_mac_96,
+ sha_mac, sha_mac_96,
+ %%
+ block_encrypt, block_decrypt,
+ %% deprecated
+ des_cbc_encrypt, des_cbc_decrypt,
+ des_cfb_encrypt, des_cfb_decrypt,
+ des_ecb_encrypt, des_ecb_decrypt,
+ des3_cbc_encrypt, des3_cbc_decrypt,
+ des3_cfb_encrypt, des3_cfb_decrypt,
+ aes_cfb_128_encrypt, aes_cfb_128_decrypt,
+ rc2_cbc_encrypt, rc2_cbc_decrypt,
+ rc2_40_cbc_encrypt, rc2_40_cbc_decrypt,
+ aes_cbc_128_encrypt, aes_cbc_128_decrypt,
+ aes_cbc_256_encrypt, aes_cbc_256_decrypt,
+ blowfish_cbc_encrypt, blowfish_cbc_decrypt,
+ blowfish_cfb64_encrypt, blowfish_cfb64_decrypt,
+ blowfish_ecb_encrypt, blowfish_ecb_decrypt, blowfish_ofb64_encrypt,
+ %%
+ rand_bytes,
+ strong_rand_bytes,
+ rand_uniform,
+ mod_pow,
+ exor,
+ %% deprecated
+ mod_exp,strong_rand_mpint,erlint, mpint,
+ %%
+ sign, verify, generate_key, compute_key,
+ %% deprecated
+ dss_verify,dss_sign,
+ rsa_verify,rsa_sign,
+ rsa_public_encrypt,rsa_private_decrypt,
+ rsa_private_encrypt,rsa_public_decrypt,
+ dh_generate_key, dh_compute_key,
+ %%
+ stream_init, stream_encrypt, stream_decrypt,
+ %% deprecated
+ rc4_encrypt, rc4_set_key, rc4_encrypt_with_state,
+ aes_ctr_encrypt, aes_ctr_decrypt,
+ aes_ctr_stream_init, aes_ctr_stream_encrypt, aes_ctr_stream_decrypt,
+ %%
+ next_iv,
+ %% deprecated
+ aes_cbc_ivec,
+ des_cbc_ivec, des_cfb_ivec,
+ info,
+ %%
+ info_lib, supports]).
+info() ->
+ ?FUNC_LIST.