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authorHans Nilsson <[email protected]>2015-11-18 20:26:12 +0100
committerHans Nilsson <[email protected]>2015-11-23 14:14:06 +0100
commita895fc7303497f1795cf49360980abeb68be2223 (patch)
treef148fc1e4f8444074766a9176001b5b98ea404d3 /lib/ssh
parent226e77ef7162b0fc043d99a5f68f5dcc891fb093 (diff)
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ssh: AEAD_AES_(128|256)_GCM and aes(128|256)[email protected] crypto
Note that the rfc5647 is ambigous so this implementation of AEAD_AES_(128|256)_GCM may or may not be compatible with others. They are note enabled by default but may be enabled by the user. See the Reference Manual, Application SSH for details of how we interpret the rfc. To be safe, use [email protected] or [email protected] instead.
Diffstat (limited to 'lib/ssh')
-rw-r--r--lib/ssh/src/ssh.hrl1
-rw-r--r--lib/ssh/src/ssh_transport.erl464
2 files changed, 333 insertions, 132 deletions
diff --git a/lib/ssh/src/ssh.hrl b/lib/ssh/src/ssh.hrl
index 4ad936f742..8efc743b67 100644
--- a/lib/ssh/src/ssh.hrl
+++ b/lib/ssh/src/ssh.hrl
@@ -29,7 +29,6 @@
-define(SSH_DEFAULT_PORT, 22).
-define(SSH_MAX_PACKET_SIZE, (256*1024)).
--define(SSH_LENGHT_INDICATOR_SIZE, 4).
-define(REKEY_TIMOUT, 3600000).
-define(REKEY_DATA_TIMOUT, 60000).
-define(DEFAULT_PROFILE, default).
diff --git a/lib/ssh/src/ssh_transport.erl b/lib/ssh/src/ssh_transport.erl
index f18e4b4d01..e2d19b9cef 100644
--- a/lib/ssh/src/ssh_transport.erl
+++ b/lib/ssh/src/ssh_transport.erl
@@ -70,10 +70,15 @@ default_algorithms() -> [{K,default_algorithms(K)} || K <- algo_classes()].
algo_classes() -> [kex, public_key, cipher, mac, compression].
-%% default_algorithms(kex) -> % Example of how to disable an algorithm
-%% supported_algorithms(kex, ['ecdh-sha2-nistp521']);
+
+default_algorithms(cipher) ->
+ supported_algorithms(cipher, same(['AEAD_AES_128_GCM',
+ 'AEAD_AES_256_GCM']));
+default_algorithms(mac) ->
+ supported_algorithms(mac, same(['AEAD_AES_128_GCM',
+ 'AEAD_AES_256_GCM']));
default_algorithms(Alg) ->
- supported_algorithms(Alg).
+ supported_algorithms(Alg, []).
supported_algorithms() -> [{K,supported_algorithms(K)} || K <- algo_classes()].
@@ -101,19 +106,25 @@ supported_algorithms(public_key) ->
supported_algorithms(cipher) ->
same(
select_crypto_supported(
- [{'aes256-ctr', [{ciphers,{aes_ctr,256}}]},
- {'aes192-ctr', [{ciphers,{aes_ctr,192}}]},
- {'aes128-ctr', [{ciphers,{aes_ctr,128}}]},
- {'aes128-cbc', [{ciphers,aes_cbc128}]},
- {'3des-cbc', [{ciphers,des3_cbc}]}
+ [{'aes256-ctr', [{ciphers,{aes_ctr,256}}]},
+ {'aes192-ctr', [{ciphers,{aes_ctr,192}}]},
+ {'aes128-ctr', [{ciphers,{aes_ctr,128}}]},
+ {'aes128-cbc', [{ciphers,aes_cbc128}]},
+ {'[email protected]', [{ciphers,{aes_gcm,128}}]},
+ {'[email protected]', [{ciphers,{aes_gcm,256}}]},
+ {'AEAD_AES_128_GCM', [{ciphers,{aes_gcm,128}}]},
+ {'AEAD_AES_256_GCM', [{ciphers,{aes_gcm,256}}]},
+ {'3des-cbc', [{ciphers,des3_cbc}]}
]
));
supported_algorithms(mac) ->
same(
select_crypto_supported(
- [{'hmac-sha2-256', [{hashs,sha256}]},
- {'hmac-sha2-512', [{hashs,sha512}]},
- {'hmac-sha1', [{hashs,sha}]}
+ [{'hmac-sha2-256', [{hashs,sha256}]},
+ {'hmac-sha2-512', [{hashs,sha512}]},
+ {'hmac-sha1', [{hashs,sha}]},
+ {'AEAD_AES_128_GCM', [{ciphers,{aes_gcm,128}}]},
+ {'AEAD_AES_256_GCM', [{ciphers,{aes_gcm,256}}]}
]
));
supported_algorithms(compression) ->
@@ -122,46 +133,6 @@ supported_algorithms(compression) ->
'zlib'
]).
-%% Dialyzer complains when not called...supported_algorithms(Key, [{client2server,BL1},{server2client,BL2}]) ->
-%% Dialyzer complains when not called... [{client2server,As1},{server2client,As2}] = supported_algorithms(Key),
-%% Dialyzer complains when not called... [{client2server,As1--BL1},{server2client,As2--BL2}];
-%% Dialyzer complains when not called...supported_algorithms(Key, BlackList) ->
-%% Dialyzer complains when not called... supported_algorithms(Key) -- BlackList.
-
-select_crypto_supported(L) ->
- Sup = [{ec_curve,crypto_supported_curves()} | crypto:supports()],
- [Name || {Name,CryptoRequires} <- L,
- crypto_supported(CryptoRequires, Sup)].
-
-crypto_supported_curves() ->
- try crypto:ec_curves()
- catch _:_ -> []
- end.
-
-crypto_supported(Conditions, Supported) ->
- lists:all( fun({Tag,CryptoName}) when is_atom(CryptoName) ->
- crypto_name_supported(Tag,CryptoName,Supported);
- ({Tag,{Name=aes_ctr,Len}}) when is_integer(Len) ->
- crypto_name_supported(Tag,Name,Supported) andalso
- ctr_len_supported(Name,Len)
- end, Conditions).
-
-crypto_name_supported(Tag, CryptoName, Supported) ->
- lists:member(CryptoName, proplists:get_value(Tag,Supported,[])).
-
-ctr_len_supported(Name, Len) ->
- try
- crypto:stream_encrypt(crypto:stream_init(Name, <<0:Len>>, <<0:128>>), <<"">>)
- of
- {_,X} -> is_binary(X)
- catch
- _:_ -> false
- end.
-
-
-same(Algs) -> [{client2server,Algs}, {server2client,Algs}].
-
-
%%%----------------------------------------------------------------------------
versions(client, Options)->
Vsn = proplists:get_value(vsn, Options, ?DEFAULT_CLIENT_VERSION),
@@ -755,8 +726,12 @@ known_host_key(#ssh{opts = Opts, key_cb = Mod, peer = Peer} = Ssh,
%% The first algorithm in each list MUST be the preferred (guessed)
%% algorithm. Each string MUST contain at least one algorithm name.
select_algorithm(Role, Client, Server) ->
- {Encrypt, Decrypt} = select_encrypt_decrypt(Role, Client, Server),
- {SendMac, RecvMac} = select_send_recv_mac(Role, Client, Server),
+ {Encrypt0, Decrypt0} = select_encrypt_decrypt(Role, Client, Server),
+ {SendMac0, RecvMac0} = select_send_recv_mac(Role, Client, Server),
+
+ {Encrypt, SendMac} = aead_gcm_simultan(Encrypt0, SendMac0),
+ {Decrypt, RecvMac} = aead_gcm_simultan(Decrypt0, RecvMac0),
+
{Compression, Decompression} =
select_compression_decompression(Role, Client, Server),
@@ -787,6 +762,38 @@ select_algorithm(Role, Client, Server) ->
s_lng = S_Lng},
{ok, Alg}.
+
+%%% It is an agreed problem with RFC 5674 that if the selection is
+%%% Cipher = AEAD_AES_x_GCM and
+%%% Mac = AEAD_AES_y_GCM (where x =/= y)
+%%% then it is undefined what length should be selected.
+%%%
+%%% If only one of the two lengths (128,256) is available, I claim that
+%%% there is no such ambiguity.
+
+%%% From https://anongit.mindrot.org/openssh.git/plain/PROTOCOL
+%%% (read Nov 20, 2015)
+%%% 1.6 transport: AES-GCM
+%%%
+%%% OpenSSH supports the AES-GCM algorithm as specified in RFC 5647.
+%%% Because of problems with the specification of the key exchange
+%%% the behaviour of OpenSSH differs from the RFC as follows:
+%%%
+%%% AES-GCM is only negotiated as the cipher algorithms
+%%% "[email protected]" or "[email protected]" and never as
+%%% an MAC algorithm. Additionally, if AES-GCM is selected as the cipher
+%%% the exchanged MAC algorithms are ignored and there doesn't have to be
+%%% a matching MAC.
+
+aead_gcm_simultan('[email protected]', _) -> {'AEAD_AES_128_GCM', 'AEAD_AES_128_GCM'};
+aead_gcm_simultan('[email protected]', _) -> {'AEAD_AES_256_GCM', 'AEAD_AES_256_GCM'};
+aead_gcm_simultan('AEAD_AES_128_GCM', _) -> {'AEAD_AES_128_GCM', 'AEAD_AES_128_GCM'};
+aead_gcm_simultan('AEAD_AES_256_GCM', _) -> {'AEAD_AES_256_GCM', 'AEAD_AES_256_GCM'};
+aead_gcm_simultan(_, 'AEAD_AES_128_GCM') -> {'AEAD_AES_128_GCM', 'AEAD_AES_128_GCM'};
+aead_gcm_simultan(_, 'AEAD_AES_256_GCM') -> {'AEAD_AES_256_GCM', 'AEAD_AES_256_GCM'};
+aead_gcm_simultan(Cipher, Mac) -> {Cipher,Mac}.
+
+
select_encrypt_decrypt(client, Client, Server) ->
Encrypt =
select(Client#ssh_msg_kexinit.encryption_algorithms_client_to_server,
@@ -821,18 +828,18 @@ select_compression_decompression(client, Client, Server) ->
Compression =
select(Client#ssh_msg_kexinit.compression_algorithms_client_to_server,
Server#ssh_msg_kexinit.compression_algorithms_client_to_server),
- Decomprssion =
+ Decompression =
select(Client#ssh_msg_kexinit.compression_algorithms_server_to_client,
Server#ssh_msg_kexinit.compression_algorithms_server_to_client),
- {Compression, Decomprssion};
+ {Compression, Decompression};
select_compression_decompression(server, Client, Server) ->
- Decomprssion =
+ Decompression =
select(Client#ssh_msg_kexinit.compression_algorithms_client_to_server,
Server#ssh_msg_kexinit.compression_algorithms_client_to_server),
Compression =
select(Client#ssh_msg_kexinit.compression_algorithms_server_to_client,
Server#ssh_msg_kexinit.compression_algorithms_server_to_client),
- {Compression, Decomprssion}.
+ {Compression, Decompression}.
install_alg(SSH) ->
SSH1 = alg_final(SSH),
@@ -909,14 +916,39 @@ pack(Data, Ssh=#ssh{}) ->
%%% Note: pack/3 is only to be called from tests that wants
%%% to deliberetly send packets with wrong PacketLength!
%%% Use pack/2 for all other purposes!
-pack(Data0, #ssh{encrypt_block_size = BlockSize,
- send_sequence = SeqNum, send_mac = MacAlg,
- send_mac_key = MacKey,
- random_length_padding = RandomLengthPadding}
- = Ssh0,
- PacketLenDeviationForTests) when is_binary(Data0) ->
- {Ssh1, Data} = compress(Ssh0, Data0),
- PL = (BlockSize - ((4 + 1 + size(Data)) rem BlockSize)) rem BlockSize,
+pack(PlainText,
+ #ssh{send_sequence = SeqNum,
+ send_mac = MacAlg,
+ send_mac_key = MacKey,
+ encrypt = CryptoAlg} = Ssh0, PacketLenDeviationForTests) when is_binary(PlainText) ->
+
+ {Ssh1, CompressedPlainText} = compress(Ssh0, PlainText),
+ {EcryptedPacket, MAC, Ssh3} =
+ case pkt_type(CryptoAlg) of
+ common ->
+ PaddingLen = padding_length(4+1+size(CompressedPlainText), Ssh0),
+ Padding = ssh_bits:random(PaddingLen),
+ PlainPacketLen = 1 + PaddingLen + size(CompressedPlainText) + PacketLenDeviationForTests,
+ PlainPacketData = <<?UINT32(PlainPacketLen),?BYTE(PaddingLen), CompressedPlainText/binary, Padding/binary>>,
+ {Ssh2, EcryptedPacket0} = encrypt(Ssh1, PlainPacketData),
+ MAC0 = mac(MacAlg, MacKey, SeqNum, PlainPacketData),
+ {EcryptedPacket0, MAC0, Ssh2};
+ aead ->
+ PaddingLen = padding_length(1+size(CompressedPlainText), Ssh0),
+ Padding = ssh_bits:random(PaddingLen),
+ PlainPacketLen = 1 + PaddingLen + size(CompressedPlainText) + PacketLenDeviationForTests,
+ PlainPacketData = <<?BYTE(PaddingLen), CompressedPlainText/binary, Padding/binary>>,
+ {Ssh2, {EcryptedPacket0,MAC0}} = encrypt(Ssh1, {<<?UINT32(PlainPacketLen)>>,PlainPacketData}),
+ {<<?UINT32(PlainPacketLen),EcryptedPacket0/binary>>, MAC0, Ssh2}
+ end,
+ FinalPacket = [EcryptedPacket, MAC],
+ Ssh = Ssh3#ssh{send_sequence = (SeqNum+1) band 16#ffffffff},
+ {FinalPacket, Ssh}.
+
+
+padding_length(Size, #ssh{encrypt_block_size = BlockSize,
+ random_length_padding = RandomLengthPadding}) ->
+ PL = (BlockSize - (Size rem BlockSize)) rem BlockSize,
MinPaddingLen = if PL < 4 -> PL + BlockSize;
true -> PL
end,
@@ -925,79 +957,94 @@ pack(Data0, #ssh{encrypt_block_size = BlockSize,
ExtraPaddingLen = try crypto:rand_uniform(0,MaxExtraBlocks)*PadBlockSize
catch _:_ -> 0
end,
- PaddingLen = MinPaddingLen + ExtraPaddingLen,
- Padding = ssh_bits:random(PaddingLen),
- PacketLen = 1 + PaddingLen + size(Data) + PacketLenDeviationForTests,
- PacketData = <<?UINT32(PacketLen),?BYTE(PaddingLen),
- Data/binary, Padding/binary>>,
- {Ssh2, EncPacket} = encrypt(Ssh1, PacketData),
- MAC = mac(MacAlg, MacKey, SeqNum, PacketData),
- Packet = [EncPacket, MAC],
- Ssh = Ssh2#ssh{send_sequence = (SeqNum+1) band 16#ffffffff},
- {Packet, Ssh}.
-
-
-handle_packet_part(<<>>, Encoded0, undefined, Ssh0) ->
+ MinPaddingLen + ExtraPaddingLen.
+
+
+
+handle_packet_part(<<>>, Encrypted0, undefined, #ssh{decrypt = CryptoAlg} = Ssh0) ->
%% New ssh packet
- case get_length(Encoded0, Ssh0) of
+ case get_length(pkt_type(CryptoAlg), Encrypted0, Ssh0) of
get_more ->
%% too short to get the length
- {get_more, <<>>, Encoded0, undefined, Ssh0};
+ {get_more, <<>>, Encrypted0, undefined, Ssh0};
- {ok, PacketLen, _DecData, _Encoded1, _Ssh1} when PacketLen > ?SSH_MAX_PACKET_SIZE ->
+ {ok, PacketLen, _, _, _} when PacketLen > ?SSH_MAX_PACKET_SIZE ->
%% far too long message than expected
throw(#ssh_msg_disconnect{code = ?SSH_DISCONNECT_PROTOCOL_ERROR,
description = "Bad packet length "
++ integer_to_list(PacketLen),
language = ""});
- {ok, PacketLen, DecData, Encoded1,
- #ssh{decrypt_block_size = BlockSize,
- recv_mac_size = MacSize} = Ssh1} ->
+ {ok, PacketLen, Decrypted, Encrypted1,
+ #ssh{recv_mac_size = MacSize} = Ssh1} ->
%% enough bytes so we got the length and can calculate how many
%% more bytes to expect for a full packet
- Remaining = (PacketLen + ?SSH_LENGHT_INDICATOR_SIZE) - BlockSize + MacSize,
- handle_packet_part(DecData, Encoded1, Remaining, Ssh1)
+ TotalNeeded = (4 + PacketLen + MacSize),
+ handle_packet_part(Decrypted, Encrypted1, TotalNeeded, Ssh1)
end;
-handle_packet_part(Decoded0, Encoded0, Remaining, Ssh0)
- when size(Encoded0) < Remaining ->
+
+handle_packet_part(DecryptedPfx, EncryptedBuffer, TotalNeeded, Ssh0)
+ when (size(DecryptedPfx)+size(EncryptedBuffer)) < TotalNeeded ->
%% need more bytes to finalize the packet
- {get_more, Decoded0, Encoded0, Remaining, Ssh0};
-handle_packet_part(Decoded0, Encoded0, Remaining,
- #ssh{recv_mac_size = MacSize} = Ssh0) ->
+ {get_more, DecryptedPfx, EncryptedBuffer, TotalNeeded, Ssh0};
+
+handle_packet_part(DecryptedPfx, EncryptedBuffer, TotalNeeded,
+ #ssh{recv_mac_size = MacSize,
+ decrypt = CryptoAlg} = Ssh0) ->
%% enough bytes to decode the packet.
- SshLengthNotDecoded = Remaining - MacSize,
- <<PktT:SshLengthNotDecoded/binary, Mac:MacSize/binary, EncRest0/binary>> = Encoded0,
- {Ssh1, DecData} = decrypt(Ssh0, PktT),
- MsgBytes = <<Decoded0/binary,DecData/binary>>,
- case is_valid_mac(Mac, MsgBytes, Ssh1) of
- false ->
- {bad_mac, Ssh1};
- true ->
- {Ssh, DecompressedMsgBytes} = decompress(Ssh1, msg_data(MsgBytes)),
- {decoded, DecompressedMsgBytes, EncRest0, Ssh}
+ DecryptLen = TotalNeeded - size(DecryptedPfx) - MacSize,
+ <<EncryptedSfx:DecryptLen/binary, Mac:MacSize/binary, NextPacketBytes/binary>> = EncryptedBuffer,
+ case pkt_type(CryptoAlg) of
+ common ->
+ {Ssh1, DecryptedSfx} = decrypt(Ssh0, EncryptedSfx),
+ DecryptedPacket = <<DecryptedPfx/binary, DecryptedSfx/binary>>,
+ case is_valid_mac(Mac, DecryptedPacket, Ssh1) of
+ false ->
+ {bad_mac, Ssh1};
+ true ->
+ {Ssh, DecompressedPayload} = decompress(Ssh1, payload(DecryptedPacket)),
+ {decoded, DecompressedPayload, NextPacketBytes, Ssh}
+ end;
+ aead ->
+ PacketLenBin = DecryptedPfx,
+ case decrypt(Ssh0, {PacketLenBin,EncryptedSfx,Mac}) of
+ {Ssh1, error} ->
+ {bad_mac, Ssh1};
+ {Ssh1, DecryptedSfx} ->
+ DecryptedPacket = <<DecryptedPfx/binary, DecryptedSfx/binary>>,
+ {Ssh, DecompressedPayload} = decompress(Ssh1, payload(DecryptedPacket)),
+ {decoded, DecompressedPayload, NextPacketBytes, Ssh}
+ end
end.
-get_length(Encoded0, #ssh{decrypt_block_size = BlockSize} = Ssh0) ->
- case size(Encoded0) >= erlang:max(8, BlockSize) of
+get_length(common, EncryptedBuffer, #ssh{decrypt_block_size = BlockSize} = Ssh0) ->
+ case size(EncryptedBuffer) >= erlang:max(8, BlockSize) of
true ->
- <<EncBlock:BlockSize/binary, EncodedRest/binary>> = Encoded0,
- {Ssh, Decoded} = decrypt(Ssh0, EncBlock),
- <<?UINT32(PacketLen), _/binary>> = Decoded,
- {ok, PacketLen, Decoded, EncodedRest, Ssh};
+ <<EncBlock:BlockSize/binary, EncryptedRest/binary>> = EncryptedBuffer,
+ {Ssh,
+ <<?UINT32(PacketLen),_/binary>> = Decrypted} = decrypt(Ssh0, EncBlock),
+ {ok, PacketLen, Decrypted, EncryptedRest, Ssh};
+ false ->
+ get_more
+ end;
+get_length(aead, EncryptedBuffer, Ssh) ->
+ case size(EncryptedBuffer) >= 4 of
+ true ->
+ <<?UINT32(PacketLen), EncryptedRest/binary>> = EncryptedBuffer,
+ {ok, PacketLen, <<?UINT32(PacketLen)>>, EncryptedRest, Ssh};
false ->
get_more
end.
+pkt_type('AEAD_AES_128_GCM') -> aead;
+pkt_type('AEAD_AES_256_GCM') -> aead;
+pkt_type(_) -> common.
-
-msg_data(PacketData) ->
- <<Len:32, PaddingLen:8, _/binary>> = PacketData,
- DataLen = Len - PaddingLen - 1,
- <<_:32, _:8, Data:DataLen/binary,
- _:PaddingLen/binary>> = PacketData,
- Data.
+payload(<<PacketLen:32, PaddingLen:8, PayloadAndPadding/binary>>) ->
+ PayloadLen = PacketLen - PaddingLen - 1,
+ <<Payload:PayloadLen/binary, _/binary>> = PayloadAndPadding,
+ Payload.
sign(SigData, Hash, #'DSAPrivateKey'{} = Key) ->
DerSignature = public_key:sign(SigData, Hash, Key),
@@ -1023,6 +1070,7 @@ verify(PlainText, Hash, Sig, {#'ECPoint'{},_} = Key) ->
verify(PlainText, Hash, Sig, Key) ->
public_key:verify(PlainText, Hash, Sig, Key).
+
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
%% Encryption
@@ -1031,6 +1079,30 @@ verify(PlainText, Hash, Sig, Key) ->
encrypt_init(#ssh{encrypt = none} = Ssh) ->
{ok, Ssh};
+encrypt_init(#ssh{encrypt = 'AEAD_AES_128_GCM', role = client} = Ssh) ->
+ IV = hash(Ssh, "A", 12*8),
+ <<K:16/binary>> = hash(Ssh, "C", 128),
+ {ok, Ssh#ssh{encrypt_keys = K,
+ encrypt_block_size = 16,
+ encrypt_ctx = IV}};
+encrypt_init(#ssh{encrypt = 'AEAD_AES_128_GCM', role = server} = Ssh) ->
+ IV = hash(Ssh, "B", 12*8),
+ <<K:16/binary>> = hash(Ssh, "D", 128),
+ {ok, Ssh#ssh{encrypt_keys = K,
+ encrypt_block_size = 16,
+ encrypt_ctx = IV}};
+encrypt_init(#ssh{encrypt = 'AEAD_AES_256_GCM', role = client} = Ssh) ->
+ IV = hash(Ssh, "A", 12*8),
+ <<K:32/binary>> = hash(Ssh, "C", 256),
+ {ok, Ssh#ssh{encrypt_keys = K,
+ encrypt_block_size = 16,
+ encrypt_ctx = IV}};
+encrypt_init(#ssh{encrypt = 'AEAD_AES_256_GCM', role = server} = Ssh) ->
+ IV = hash(Ssh, "B", 12*8),
+ <<K:32/binary>> = hash(Ssh, "D", 256),
+ {ok, Ssh#ssh{encrypt_keys = K,
+ encrypt_block_size = 16,
+ encrypt_ctx = IV}};
encrypt_init(#ssh{encrypt = '3des-cbc', role = client} = Ssh) ->
IV = hash(Ssh, "A", 64),
<<K1:8/binary, K2:8/binary, K3:8/binary>> = hash(Ssh, "C", 192),
@@ -1107,6 +1179,18 @@ encrypt_final(Ssh) ->
encrypt(#ssh{encrypt = none} = Ssh, Data) ->
{Ssh, Data};
+encrypt(#ssh{encrypt = 'AEAD_AES_128_GCM',
+ encrypt_keys = K,
+ encrypt_ctx = IV0} = Ssh, Data={_AAD,_Ptext}) ->
+ Enc = {_Ctext,_Ctag} = crypto:block_encrypt(aes_gcm, K, IV0, Data),
+ IV = next_gcm_iv(IV0),
+ {Ssh#ssh{encrypt_ctx = IV}, Enc};
+encrypt(#ssh{encrypt = 'AEAD_AES_256_GCM',
+ encrypt_keys = K,
+ encrypt_ctx = IV0} = Ssh, Data={_AAD,_Ptext}) ->
+ Enc = {_Ctext,_Ctag} = crypto:block_encrypt(aes_gcm, K, IV0, Data),
+ IV = next_gcm_iv(IV0),
+ {Ssh#ssh{encrypt_ctx = IV}, Enc};
encrypt(#ssh{encrypt = '3des-cbc',
encrypt_keys = {K1,K2,K3},
encrypt_ctx = IV0} = Ssh, Data) ->
@@ -1139,6 +1223,30 @@ encrypt(#ssh{encrypt = 'aes256-ctr',
decrypt_init(#ssh{decrypt = none} = Ssh) ->
{ok, Ssh};
+decrypt_init(#ssh{decrypt = 'AEAD_AES_128_GCM', role = client} = Ssh) ->
+ IV = hash(Ssh, "B", 12*8),
+ <<K:16/binary>> = hash(Ssh, "D", 128),
+ {ok, Ssh#ssh{decrypt_keys = K,
+ decrypt_block_size = 16,
+ decrypt_ctx = IV}};
+decrypt_init(#ssh{decrypt = 'AEAD_AES_128_GCM', role = server} = Ssh) ->
+ IV = hash(Ssh, "A", 12*8),
+ <<K:16/binary>> = hash(Ssh, "C", 128),
+ {ok, Ssh#ssh{decrypt_keys = K,
+ decrypt_block_size = 16,
+ decrypt_ctx = IV}};
+decrypt_init(#ssh{decrypt = 'AEAD_AES_256_GCM', role = client} = Ssh) ->
+ IV = hash(Ssh, "B", 12*8),
+ <<K:32/binary>> = hash(Ssh, "D", 256),
+ {ok, Ssh#ssh{decrypt_keys = K,
+ decrypt_block_size = 16,
+ decrypt_ctx = IV}};
+decrypt_init(#ssh{decrypt = 'AEAD_AES_256_GCM', role = server} = Ssh) ->
+ IV = hash(Ssh, "A", 12*8),
+ <<K:32/binary>> = hash(Ssh, "C", 256),
+ {ok, Ssh#ssh{decrypt_keys = K,
+ decrypt_block_size = 16,
+ decrypt_ctx = IV}};
decrypt_init(#ssh{decrypt = '3des-cbc', role = client} = Ssh) ->
{IV, KD} = {hash(Ssh, "B", 64),
hash(Ssh, "D", 192)},
@@ -1217,6 +1325,18 @@ decrypt(Ssh, <<>>) ->
{Ssh, <<>>};
decrypt(#ssh{decrypt = none} = Ssh, Data) ->
{Ssh, Data};
+decrypt(#ssh{decrypt = 'AEAD_AES_128_GCM',
+ decrypt_keys = K,
+ decrypt_ctx = IV0} = Ssh, Data = {_AAD,_Ctext,_Ctag}) ->
+ Dec = crypto:block_decrypt(aes_gcm, K, IV0, Data), % Dec = PlainText | error
+ IV = next_gcm_iv(IV0),
+ {Ssh#ssh{decrypt_ctx = IV}, Dec};
+decrypt(#ssh{decrypt = 'AEAD_AES_256_GCM',
+ decrypt_keys = K,
+ decrypt_ctx = IV0} = Ssh, Data = {_AAD,_Ctext,_Ctag}) ->
+ Dec = crypto:block_decrypt(aes_gcm, K, IV0, Data), % Dec = PlainText | error
+ IV = next_gcm_iv(IV0),
+ {Ssh#ssh{decrypt_ctx = IV}, Dec};
decrypt(#ssh{decrypt = '3des-cbc', decrypt_keys = Keys,
decrypt_ctx = IV0} = Ssh, Data) ->
{K1, K2, K3} = Keys,
@@ -1241,6 +1361,10 @@ decrypt(#ssh{decrypt = 'aes256-ctr',
{State, Enc} = crypto:stream_decrypt(State0,Data),
{Ssh#ssh{decrypt_ctx = State}, Enc}.
+
+next_gcm_iv(<<Fixed:32, InvCtr:64>>) -> <<Fixed:32, (InvCtr+1):64>>.
+
+
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% Compression
%%
@@ -1329,28 +1453,42 @@ decompress(#ssh{decompress = '[email protected]', decompress_ctx = Context, authe
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
send_mac_init(SSH) ->
- case SSH#ssh.role of
- client ->
- KeySize =mac_key_size(SSH#ssh.send_mac),
- Key = hash(SSH, "E", KeySize),
- {ok, SSH#ssh { send_mac_key = Key }};
- server ->
- KeySize = mac_key_size(SSH#ssh.send_mac),
- Key = hash(SSH, "F", KeySize),
- {ok, SSH#ssh { send_mac_key = Key }}
+ case pkt_type(SSH#ssh.send_mac) of
+ common ->
+ case SSH#ssh.role of
+ client ->
+ KeySize = mac_key_size(SSH#ssh.send_mac),
+ Key = hash(SSH, "E", KeySize),
+ {ok, SSH#ssh { send_mac_key = Key }};
+ server ->
+ KeySize = mac_key_size(SSH#ssh.send_mac),
+ Key = hash(SSH, "F", KeySize),
+ {ok, SSH#ssh { send_mac_key = Key }}
+ end;
+ aead ->
+ %% Not applicable
+ {ok, SSH}
end.
send_mac_final(SSH) ->
- {ok, SSH#ssh { send_mac = none, send_mac_key = undefined }}.
+ {ok, SSH#ssh {send_mac = none,
+ send_mac_key = undefined }}.
+
recv_mac_init(SSH) ->
- case SSH#ssh.role of
- client ->
- Key = hash(SSH, "F", mac_key_size(SSH#ssh.recv_mac)),
- {ok, SSH#ssh { recv_mac_key = Key }};
- server ->
- Key = hash(SSH, "E", mac_key_size(SSH#ssh.recv_mac)),
- {ok, SSH#ssh { recv_mac_key = Key }}
+ case pkt_type(SSH#ssh.recv_mac) of
+ common ->
+ case SSH#ssh.role of
+ client ->
+ Key = hash(SSH, "F", mac_key_size(SSH#ssh.recv_mac)),
+ {ok, SSH#ssh { recv_mac_key = Key }};
+ server ->
+ Key = hash(SSH, "E", mac_key_size(SSH#ssh.recv_mac)),
+ {ok, SSH#ssh { recv_mac_key = Key }}
+ end;
+ aead ->
+ %% Not applicable
+ {ok, SSH}
end.
recv_mac_final(SSH) ->
@@ -1481,6 +1619,8 @@ mac_digest_size('hmac-md5') -> 20;
mac_digest_size('hmac-md5-96') -> 12;
mac_digest_size('hmac-sha2-256') -> 32;
mac_digest_size('hmac-sha2-512') -> 64;
+mac_digest_size('AEAD_AES_128_GCM') -> 16;
+mac_digest_size('AEAD_AES_256_GCM') -> 16;
mac_digest_size(none) -> 0.
peer_name({Host, _}) ->
@@ -1510,6 +1650,68 @@ ecdh_curve('ecdh-sha2-nistp256') -> secp256r1;
ecdh_curve('ecdh-sha2-nistp384') -> secp384r1;
ecdh_curve('ecdh-sha2-nistp521') -> secp521r1.
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%%
+%% Utils for default_algorithms/1 and supported_algorithms/1
+%%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+supported_algorithms(Key, [{client2server,BL1},{server2client,BL2}]) ->
+ [{client2server,As1},{server2client,As2}] = supported_algorithms(Key),
+ [{client2server,As1--BL1},{server2client,As2--BL2}];
+supported_algorithms(Key, BlackList) ->
+ supported_algorithms(Key) -- BlackList.
+
+
+select_crypto_supported(L) ->
+ Sup = [{ec_curve,crypto_supported_curves()} | crypto:supports()],
+ [Name || {Name,CryptoRequires} <- L,
+ crypto_supported(CryptoRequires, Sup)].
+
+crypto_supported_curves() ->
+ try crypto:ec_curves()
+ catch _:_ -> []
+ end.
+
+crypto_supported(Conditions, Supported) ->
+ lists:all( fun({Tag,CryptoName}) when is_atom(CryptoName) ->
+ crypto_name_supported(Tag,CryptoName,Supported);
+ ({Tag,{Name,Len}}) when is_integer(Len) ->
+ crypto_name_supported(Tag,Name,Supported) andalso
+ len_supported(Name,Len)
+ end, Conditions).
+
+crypto_name_supported(Tag, CryptoName, Supported) ->
+ lists:member(CryptoName, proplists:get_value(Tag,Supported,[])).
+
+len_supported(Name, Len) ->
+ try
+ case Name of
+ aes_ctr ->
+ {_, <<_/binary>>} =
+ %% Test encryption
+ crypto:stream_encrypt(crypto:stream_init(Name, <<0:Len>>, <<0:128>>), <<"">>);
+ aes_gcm ->
+ {<<_/binary>>, <<_/binary>>} =
+ crypto:block_encrypt(Name,
+ _Key = <<0:Len>>,
+ _IV = <<0:12/unsigned-unit:8>>,
+ {"AAD","PT"})
+ end
+ of
+ _ -> true
+ catch
+ _:_ -> false
+ end.
+
+
+same(Algs) -> [{client2server,Algs}, {server2client,Algs}].
+
+
+%% default_algorithms(kex) -> % Example of how to disable an algorithm
+%% supported_algorithms(kex, ['ecdh-sha2-nistp521']);
+
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
%% Other utils