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author | Hans Nilsson <[email protected]> | 2017-10-12 13:36:27 +0200 |
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committer | Hans Nilsson <[email protected]> | 2017-10-12 16:46:19 +0200 |
commit | 667d1e91f10832ea5c90ab049cdab6e8dd77b60b (patch) | |
tree | 354c559ac19ecf88a88c076cc98c23408f09e6d6 /lib/ssh | |
parent | 38f912642070d2269e6b452ea979698bf042c6c9 (diff) | |
download | otp-667d1e91f10832ea5c90ab049cdab6e8dd77b60b.tar.gz otp-667d1e91f10832ea5c90ab049cdab6e8dd77b60b.tar.bz2 otp-667d1e91f10832ea5c90ab049cdab6e8dd77b60b.zip |
ssh: Adapt to simplified public_key and simplify ssh
Diffstat (limited to 'lib/ssh')
-rw-r--r-- | lib/ssh/src/ssh_message.erl | 20 | ||||
-rw-r--r-- | lib/ssh/src/ssh_transport.erl | 30 |
2 files changed, 24 insertions, 26 deletions
diff --git a/lib/ssh/src/ssh_message.erl b/lib/ssh/src/ssh_message.erl index b1fc05ae33..eb06f05a4a 100644 --- a/lib/ssh/src/ssh_message.erl +++ b/lib/ssh/src/ssh_message.erl @@ -252,12 +252,12 @@ encode(#ssh_msg_kexdh_init{e = E}) -> <<?Ebyte(?SSH_MSG_KEXDH_INIT), ?Empint(E)>>; encode(#ssh_msg_kexdh_reply{ - public_host_key = Key, + public_host_key = {Key,SigAlg}, f = F, h_sig = Signature }) -> EncKey = public_key:ssh_encode(Key, ssh2_pubkey), - EncSign = encode_signature(Key, Signature), + EncSign = encode_signature(Key, SigAlg, Signature), <<?Ebyte(?SSH_MSG_KEXDH_REPLY), ?Ebinary(EncKey), ?Empint(F), ?Ebinary(EncSign)>>; encode(#ssh_msg_kex_dh_gex_request{ @@ -278,20 +278,20 @@ encode(#ssh_msg_kex_dh_gex_init{e = Public}) -> encode(#ssh_msg_kex_dh_gex_reply{ %% Will be private key encode_host_key extracts only the public part! - public_host_key = Key, + public_host_key = {Key,SigAlg}, f = F, h_sig = Signature }) -> EncKey = public_key:ssh_encode(Key, ssh2_pubkey), - EncSign = encode_signature(Key, Signature), + EncSign = encode_signature(Key, SigAlg, Signature), <<?Ebyte(?SSH_MSG_KEX_DH_GEX_REPLY), ?Ebinary(EncKey), ?Empint(F), ?Ebinary(EncSign)>>; encode(#ssh_msg_kex_ecdh_init{q_c = Q_c}) -> <<?Ebyte(?SSH_MSG_KEX_ECDH_INIT), ?Empint(Q_c)>>; -encode(#ssh_msg_kex_ecdh_reply{public_host_key = Key, q_s = Q_s, h_sig = Sign}) -> +encode(#ssh_msg_kex_ecdh_reply{public_host_key = {Key,SigAlg}, q_s = Q_s, h_sig = Sign}) -> EncKey = public_key:ssh_encode(Key, ssh2_pubkey), - EncSign = encode_signature(Key, Sign), + EncSign = encode_signature(Key, SigAlg, Sign), <<?Ebyte(?SSH_MSG_KEX_ECDH_REPLY), ?Ebinary(EncKey), ?Empint(Q_s), ?Ebinary(EncSign)>>; encode(#ssh_msg_ignore{data = Data}) -> @@ -602,12 +602,12 @@ decode_signature(<<?DEC_BIN(Alg,__0), ?UINT32(_), Signature/binary>>) -> {binary_to_list(Alg), Signature}. -encode_signature({#'RSAPublicKey'{},Sign}, Signature) -> - SignName = list_to_binary(atom_to_list(Sign)), +encode_signature(#'RSAPublicKey'{}, SigAlg, Signature) -> + SignName = list_to_binary(atom_to_list(SigAlg)), <<?Ebinary(SignName), ?Ebinary(Signature)>>; -encode_signature({{_, #'Dss-Parms'{}},_}, Signature) -> +encode_signature({_, #'Dss-Parms'{}}, _SigAlg, Signature) -> <<?Ebinary(<<"ssh-dss">>), ?Ebinary(Signature)>>; -encode_signature({{#'ECPoint'{}, {namedCurve,OID}},_}, Signature) -> +encode_signature({#'ECPoint'{}, {namedCurve,OID}}, _SigAlg, Signature) -> CurveName = public_key:oid2ssh_curvename(OID), <<?Ebinary(<<"ecdsa-sha2-",CurveName/binary>>), ?Ebinary(Signature)>>. diff --git a/lib/ssh/src/ssh_transport.erl b/lib/ssh/src/ssh_transport.erl index 46154cf536..e92c727559 100644 --- a/lib/ssh/src/ssh_transport.erl +++ b/lib/ssh/src/ssh_transport.erl @@ -426,7 +426,7 @@ handle_kexdh_init(#ssh_msg_kexdh_init{e = E}, K = compute_key(dh, E, Private, [P,G]), MyPrivHostKey = get_host_key(Ssh0, SignAlg), MyPubHostKey = extract_public_key(MyPrivHostKey), - H = kex_hash(Ssh0, MyPubHostKey, SignAlg, sha(Kex), {E,Public,K}), + H = kex_hash(Ssh0, MyPubHostKey, sha(Kex), {E,Public,K}), H_SIG = sign(H, sha(SignAlg), MyPrivHostKey), {SshPacket, Ssh1} = ssh_packet(#ssh_msg_kexdh_reply{public_host_key = {MyPubHostKey,SignAlg}, @@ -451,13 +451,12 @@ handle_kexdh_reply(#ssh_msg_kexdh_reply{public_host_key = PeerPubHostKey, f = F, h_sig = H_SIG}, #ssh{keyex_key = {{Private, Public}, {G, P}}, - algorithms = #alg{kex=Kex, - hkey=SignAlg}} = Ssh0) -> + algorithms = #alg{kex=Kex}} = Ssh0) -> %% client if 1=<F, F=<(P-1)-> K = compute_key(dh, F, Private, [P,G]), - H = kex_hash(Ssh0, PeerPubHostKey, SignAlg, sha(Kex), {Public,F,K}), + H = kex_hash(Ssh0, PeerPubHostKey, sha(Kex), {Public,F,K}), case verify_host_key(Ssh0, PeerPubHostKey, H, H_SIG) of ok -> {SshPacket, Ssh} = ssh_packet(#ssh_msg_newkeys{}, Ssh0), @@ -590,7 +589,7 @@ handle_kex_dh_gex_init(#ssh_msg_kex_dh_gex_init{e = E}, 1<K, K<(P-1) -> MyPrivHostKey = get_host_key(Ssh0, SignAlg), MyPubHostKey = extract_public_key(MyPrivHostKey), - H = kex_hash(Ssh0, MyPubHostKey, SignAlg, sha(Kex), {Min,NBits,Max,P,G,E,Public,K}), + H = kex_hash(Ssh0, MyPubHostKey, sha(Kex), {Min,NBits,Max,P,G,E,Public,K}), H_SIG = sign(H, sha(SignAlg), MyPrivHostKey), {SshPacket, Ssh} = ssh_packet(#ssh_msg_kex_dh_gex_reply{public_host_key = {MyPubHostKey,SignAlg}, @@ -620,8 +619,7 @@ handle_kex_dh_gex_reply(#ssh_msg_kex_dh_gex_reply{public_host_key = PeerPubHostK h_sig = H_SIG}, #ssh{keyex_key = {{Private, Public}, {G, P}}, keyex_info = {Min, Max, NBits}, - algorithms = #alg{kex=Kex, - hkey=SignAlg}} = + algorithms = #alg{kex=Kex}} = Ssh0) -> %% client if @@ -629,7 +627,7 @@ handle_kex_dh_gex_reply(#ssh_msg_kex_dh_gex_reply{public_host_key = PeerPubHostK K = compute_key(dh, F, Private, [P,G]), if 1<K, K<(P-1) -> - H = kex_hash(Ssh0, PeerPubHostKey, SignAlg, sha(Kex), {Min,NBits,Max,P,G,Public,F,K}), + H = kex_hash(Ssh0, PeerPubHostKey, sha(Kex), {Min,NBits,Max,P,G,Public,F,K}), case verify_host_key(Ssh0, PeerPubHostKey, H, H_SIG) of ok -> {SshPacket, Ssh} = ssh_packet(#ssh_msg_newkeys{}, Ssh0), @@ -676,7 +674,7 @@ handle_kex_ecdh_init(#ssh_msg_kex_ecdh_init{q_c = PeerPublic}, K -> MyPrivHostKey = get_host_key(Ssh0, SignAlg), MyPubHostKey = extract_public_key(MyPrivHostKey), - H = kex_hash(Ssh0, MyPubHostKey, SignAlg, sha(Curve), {PeerPublic, MyPublic, K}), + H = kex_hash(Ssh0, MyPubHostKey, sha(Curve), {PeerPublic, MyPublic, K}), H_SIG = sign(H, sha(SignAlg), MyPrivHostKey), {SshPacket, Ssh1} = ssh_packet(#ssh_msg_kex_ecdh_reply{public_host_key = {MyPubHostKey,SignAlg}, @@ -699,15 +697,15 @@ handle_kex_ecdh_init(#ssh_msg_kex_ecdh_init{q_c = PeerPublic}, handle_kex_ecdh_reply(#ssh_msg_kex_ecdh_reply{public_host_key = PeerPubHostKey, q_s = PeerPublic, h_sig = H_SIG}, - #ssh{keyex_key = {{MyPublic,MyPrivate}, Curve}, - algorithms = #alg{hkey=SignAlg}} = Ssh0 + #ssh{keyex_key = {{MyPublic,MyPrivate}, Curve} + } = Ssh0 ) -> %% at client try compute_key(ecdh, PeerPublic, MyPrivate, Curve) of K -> - H = kex_hash(Ssh0, PeerPubHostKey, SignAlg, sha(Curve), {MyPublic,PeerPublic,K}), + H = kex_hash(Ssh0, PeerPubHostKey, sha(Curve), {MyPublic,PeerPublic,K}), case verify_host_key(Ssh0, PeerPubHostKey, H, H_SIG) of ok -> {SshPacket, Ssh} = ssh_packet(#ssh_msg_newkeys{}, Ssh0), @@ -1794,11 +1792,11 @@ hash(K, H, Ki, N, HashAlg) -> hash(K, H, <<Ki/binary, Kj/binary>>, N-128, HashAlg). %%%---------------------------------------------------------------- -kex_hash(SSH, Key, SignAlg, HashAlg, Args) -> - crypto:hash(HashAlg, kex_plaintext(SSH,Key,SignAlg,Args)). +kex_hash(SSH, Key, HashAlg, Args) -> + crypto:hash(HashAlg, kex_plaintext(SSH,Key,Args)). -kex_plaintext(SSH, Key, SignAlg, Args) -> - EncodedKey = public_key:ssh_encode({Key,SignAlg}, ssh2_pubkey), +kex_plaintext(SSH, Key, Args) -> + EncodedKey = public_key:ssh_encode(Key, ssh2_pubkey), <<?Estring(SSH#ssh.c_version), ?Estring(SSH#ssh.s_version), ?Ebinary(SSH#ssh.c_keyinit), ?Ebinary(SSH#ssh.s_keyinit), ?Ebinary(EncodedKey), |