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author | Hans Nilsson <[email protected]> | 2019-02-13 14:28:01 +0100 |
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committer | Hans Nilsson <[email protected]> | 2019-02-18 17:05:47 +0100 |
commit | b46b332ef58ebc32784d5b395e92395a36bceeff (patch) | |
tree | 02cae86c55efa4b64f6f16c76bef4f4437b2714c /lib/ssh/test | |
parent | 5caddff6454167783460a6533c3145a510349cc5 (diff) | |
download | otp-b46b332ef58ebc32784d5b395e92395a36bceeff.tar.gz otp-b46b332ef58ebc32784d5b395e92395a36bceeff.tar.bz2 otp-b46b332ef58ebc32784d5b395e92395a36bceeff.zip |
ssh: Refactor decryption in ssh_protocol_SUITE
Previously this test suite used a short-cut that didn't work well with the new crypto
API being experimented with in other branches.
This commit uses the legacy decode and decryption functions in ssh_transport. It is of
course normally a bad idea to test something with itself. However, other test suites
test the interoperability with OpenSSH and by that implicitly of the decoding/decryption.
The ssh_protocol_SUITE tests sending malformed and even malicious PDUs to the Erlang/OTP
SSH implementation. Therefore the tests in this suite is not dependent on being different
than thoose of the system under test.
Diffstat (limited to 'lib/ssh/test')
-rw-r--r-- | lib/ssh/test/ssh_trpt_test_lib.erl | 99 |
1 files changed, 79 insertions, 20 deletions
diff --git a/lib/ssh/test/ssh_trpt_test_lib.erl b/lib/ssh/test/ssh_trpt_test_lib.erl index 8de550af15..f2c9892f95 100644 --- a/lib/ssh/test/ssh_trpt_test_lib.erl +++ b/lib/ssh/test/ssh_trpt_test_lib.erl @@ -41,15 +41,20 @@ opts = [], timeout = 5000, % ms seen_hello = false, - enc = <<>>, ssh = #ssh{}, % #ssh{} alg_neg = {undefined,undefined}, % {own_kexinit, peer_kexinit} alg, % #alg{} vars = dict:new(), reply = [], % Some repy msgs are generated hidden in ssh_transport :[ prints = [], - return_value - }). + return_value, + + %% Packet retrival and decryption + decrypted_data_buffer = <<>>, + encrypted_data_buffer = <<>>, + aead_data = <<>>, + undecrypted_packet_length + }). -define(role(S), ((S#s.ssh)#ssh.role) ). @@ -475,11 +480,11 @@ recv(S0 = #s{}) -> %%%================================================================ try_find_crlf(Seen, S0) -> - case erlang:decode_packet(line,S0#s.enc,[]) of + case erlang:decode_packet(line,S0#s.encrypted_data_buffer,[]) of {more,_} -> - Line = <<Seen/binary,(S0#s.enc)/binary>>, + Line = <<Seen/binary,(S0#s.encrypted_data_buffer)/binary>>, S0#s{seen_hello = {more,Line}, - enc = <<>>, % didn't find a complete line + encrypted_data_buffer = <<>>, % didn't find a complete line % -> no more characters to test return_value = {more,Line} }; @@ -490,13 +495,13 @@ try_find_crlf(Seen, S0) -> S = opt(print_messages, S0, fun(X) when X==true;X==detail -> {"Recv info~n~p~n",[Line]} end), S#s{seen_hello = false, - enc = Rest, + encrypted_data_buffer = Rest, return_value = {info,Line}}; S1=#s{} -> S = opt(print_messages, S1, fun(X) when X==true;X==detail -> {"Recv hello~n~p~n",[Line]} end), S#s{seen_hello = true, - enc = Rest, + encrypted_data_buffer = Rest, return_value = {hello,Line}} end end. @@ -511,19 +516,73 @@ handle_hello(Bin, S=#s{ssh=C}) -> {{Vp,Vs}, server} -> S#s{ssh = C#ssh{c_vsn=Vp, c_version=Vs}} end. -receive_binary_msg(S0=#s{ssh=C0=#ssh{decrypt_block_size = BlockSize, +receive_binary_msg(S0=#s{}) -> + case ssh_transport:handle_packet_part( + S0#s.decrypted_data_buffer, + S0#s.encrypted_data_buffer, + S0#s.aead_data, + S0#s.undecrypted_packet_length, + S0#s.ssh) + of + {packet_decrypted, DecryptedBytes, EncryptedDataRest, Ssh1} -> + S1 = S0#s{ssh = Ssh1#ssh{recv_sequence = ssh_transport:next_seqnum(Ssh1#ssh.recv_sequence)}, + decrypted_data_buffer = <<>>, + undecrypted_packet_length = undefined, + aead_data = <<>>, + encrypted_data_buffer = EncryptedDataRest}, + case + catch ssh_message:decode(set_prefix_if_trouble(DecryptedBytes,S1)) + of + {'EXIT',_} -> fail(decode_failed,S1); + + Msg -> + Ssh2 = case Msg of + #ssh_msg_kexinit{} -> + ssh_transport:key_init(opposite_role(Ssh1), Ssh1, DecryptedBytes); + _ -> + Ssh1 + end, + S2 = opt(print_messages, S1, + fun(X) when X==true;X==detail -> {"Recv~n~s~n",[format_msg(Msg)]} end), + S3 = opt(print_messages, S2, + fun(detail) -> {"decrypted bytes ~p~n",[DecryptedBytes]} end), + S3#s{ssh = inc_recv_seq_num(Ssh2), + return_value = Msg + } + end; + + {get_more, DecryptedBytes, EncryptedDataRest, AeadData, TotalNeeded, Ssh1} -> + %% Here we know that there are not enough bytes in + %% EncryptedDataRest to use. We must wait for more. + Remaining = case TotalNeeded of + undefined -> 8; + _ -> TotalNeeded - size(DecryptedBytes) - size(EncryptedDataRest) + end, + receive_binary_msg( + receive_wait(Remaining, + S0#s{encrypted_data_buffer = EncryptedDataRest, + decrypted_data_buffer = DecryptedBytes, + undecrypted_packet_length = TotalNeeded, + aead_data = AeadData, + ssh = Ssh1} + )) + end. + + + +old_receive_binary_msg(S0=#s{ssh=C0=#ssh{decrypt_block_size = BlockSize, recv_mac_size = MacSize } }) -> - case size(S0#s.enc) >= max(8,BlockSize) of + case size(S0#s.encrypted_data_buffer) >= max(8,BlockSize) of false -> %% Need more bytes to decode the packet_length field - Remaining = max(8,BlockSize) - size(S0#s.enc), + Remaining = max(8,BlockSize) - size(S0#s.encrypted_data_buffer), receive_binary_msg( receive_wait(Remaining, S0) ); true -> %% Has enough bytes to decode the packet_length field {_, <<?UINT32(PacketLen), _/binary>>, _} = - ssh_transport:decrypt_blocks(S0#s.enc, BlockSize, C0), % FIXME: BlockSize should be at least 4 + ssh_transport:decrypt_blocks(S0#s.encrypted_data_buffer, BlockSize, C0), % FIXME: BlockSize should be at least 4 %% FIXME: Check that ((4+PacketLen) rem BlockSize) == 0 ? @@ -534,19 +593,19 @@ receive_binary_msg(S0=#s{ssh=C0=#ssh{decrypt_block_size = BlockSize, ((4+PacketLen) rem BlockSize) =/= 0 -> fail(bad_packet_length_modulo, S0); % FIXME: disconnect - size(S0#s.enc) >= (4 + PacketLen + MacSize) -> + size(S0#s.encrypted_data_buffer) >= (4 + PacketLen + MacSize) -> %% has the whole packet S0; true -> %% need more bytes to get have the whole packet - Remaining = (4 + PacketLen + MacSize) - size(S0#s.enc), + Remaining = (4 + PacketLen + MacSize) - size(S0#s.encrypted_data_buffer), receive_wait(Remaining, S0) end, %% Decrypt all, including the packet_length part (re-use the initial #ssh{}) {C1, SshPacket = <<?UINT32(_),?BYTE(PadLen),Tail/binary>>, EncRest} = - ssh_transport:decrypt_blocks(S1#s.enc, PacketLen+4, C0), + ssh_transport:decrypt_blocks(S1#s.encrypted_data_buffer, PacketLen+4, C0), PayloadLen = PacketLen - 1 - PadLen, <<CompressedPayload:PayloadLen/binary, _Padding:PadLen/binary>> = Tail, @@ -573,7 +632,7 @@ receive_binary_msg(S0=#s{ssh=C0=#ssh{decrypt_block_size = BlockSize, S3 = opt(print_messages, S2, fun(detail) -> {"decrypted bytes ~p~n",[SshPacket]} end), S3#s{ssh = inc_recv_seq_num(C3), - enc = Rest, + encrypted_data_buffer = Rest, return_value = Msg } end @@ -602,7 +661,7 @@ receive_poll(S=#s{socket=Sock}) -> inet:setopts(Sock, [{active,once}]), receive {tcp,Sock,Data} -> - receive_poll( S#s{enc = <<(S#s.enc)/binary,Data/binary>>} ); + receive_poll( S#s{encrypted_data_buffer = <<(S#s.encrypted_data_buffer)/binary,Data/binary>>} ); {tcp_closed,Sock} -> throw({tcp,tcp_closed}); {tcp_error, Sock, Reason} -> @@ -616,7 +675,7 @@ receive_wait(S=#s{socket=Sock, inet:setopts(Sock, [{active,once}]), receive {tcp,Sock,Data} -> - S#s{enc = <<(S#s.enc)/binary,Data/binary>>}; + S#s{encrypted_data_buffer = <<(S#s.encrypted_data_buffer)/binary,Data/binary>>}; {tcp_closed,Sock} -> throw({tcp,tcp_closed}); {tcp_error, Sock, Reason} -> @@ -627,11 +686,11 @@ receive_wait(S=#s{socket=Sock, receive_wait(N, S=#s{socket=Sock, timeout=Timeout, - enc=Enc0}) when N>0 -> + encrypted_data_buffer=Enc0}) when N>0 -> inet:setopts(Sock, [{active,once}]), receive {tcp,Sock,Data} -> - receive_wait(N-size(Data), S#s{enc = <<Enc0/binary,Data/binary>>}); + receive_wait(N-size(Data), S#s{encrypted_data_buffer = <<Enc0/binary,Data/binary>>}); {tcp_closed,Sock} -> throw({tcp,tcp_closed}); {tcp_error, Sock, Reason} -> |