diff options
Diffstat (limited to 'lib/ssh/src/ssh_rsa.erl')
-rwxr-xr-x | lib/ssh/src/ssh_rsa.erl | 298 |
1 files changed, 0 insertions, 298 deletions
diff --git a/lib/ssh/src/ssh_rsa.erl b/lib/ssh/src/ssh_rsa.erl deleted file mode 100755 index 91b8285b2e..0000000000 --- a/lib/ssh/src/ssh_rsa.erl +++ /dev/null @@ -1,298 +0,0 @@ -%% -%% %CopyrightBegin% -%% -%% Copyright Ericsson AB 2005-2010. All Rights Reserved. -%% -%% The contents of this file are subject to the Erlang Public License, -%% Version 1.1, (the "License"); you may not use this file except in -%% compliance with the License. You should have received a copy of the -%% Erlang Public License along with this software. If not, it can be -%% retrieved online at http://www.erlang.org/. -%% -%% Software distributed under the License is distributed on an "AS IS" -%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See -%% the License for the specific language governing rights and limitations -%% under the License. -%% -%% %CopyrightEnd% -%% - -%% - -%%% Description: rsa public-key sign and verify - --module(ssh_rsa). - --export([verify/3, sign/2]). --export([alg_name/0]). - --include("ssh.hrl"). --include("PKCS-1.hrl"). - - --define(MGF(Seed,Len), mgf1((Seed),(Len))). --define(HASH(X), crypto:sha((X))). --define(HLen, 20). - -%% start() -> -%% crypto:start(). - -%% sign_file(File) -> -%% start(), -%% {ok,Bin} = file:read_file(File), -%% {ok,Key} = ssh_file:private_host_rsa_key(user), -%% sign(Key, Bin). - -%% verify_file(File, Sig) -> -%% start(), -%% {ok,Bin} = file:read_file(File), -%% {ok,Key} = ssh_file:public_host_rsa_key(user), -%% verify(Key, Bin, Sig). - -sign(Private,Mb) -> - rsassa_pkcs1_v1_5_sign(Private,Mb). - -verify(Public,Mb,Sb) -> - rsassa_pkcs1_v1_5_verify(Public,Mb,Sb). - - - -%% Integer to octet string -i2osp(X, XLen) -> - ssh_bits:i2bin(X, XLen). - -%% Octet string to Integer -os2ip(X) -> - ssh_bits:bin2i(X). - -%% decrypt1, M = message representative -%% rsaep(#ssh_key { public={N,E}}, M) -> -%% ?ssh_assert(M >= 0 andalso M =< N-1, out_of_range), -%% ssh_math:ipow(M, E, N). - -%% encrypt1, C = cipher representative -%% rsadp(#ssh_key { public={N,_}, private={_,D}}, C) -> -%% ?ssh_assert(C >= 0 andalso C =< N-1, out_of_range), -%% ssh_math:ipow(C, D, N). - -%% sign1, M = message representative -rsasp1(#ssh_key { public={N,_}, private={_,D}}, M) -> - ?ssh_assert((M >= 0 andalso M =< N-1), out_of_range), - ssh_math:ipow(M, D, N). - -%% verify1, S =signature representative -rsavp1(#ssh_key { public={N,E}}, S) -> - ?ssh_assert(S >= 0 andalso S =< N-1, out_of_range), - ssh_math:ipow(S, E, N). - - -%% M messaage -%% rsaes_oaep_encrypt(Public, M) -> -%% rsaes_oaep_encrypt(Public, M, <<>>). - -%% rsaes_oaep_encrypt(Public=#ssh_key { public={N,_E}}, M, L) -> -%% ?ssh_assert(size(L) =< 16#ffffffffffffffff, label_to_long), -%% K = (ssh_bits:isize(N)+7) div 8, -%% MLen = size(M), -%% %% LLen = size(L), -%% ?ssh_assert(MLen =< K - 2*?HLen - 2, message_to_long), -%% LHash = ?HASH(L), -%% PS = ssh_bits:fill_bits(K - MLen - 2*?HLen - 2, 0), -%% DB = <<LHash/binary, PS/binary, 16#01, M/binary>>, -%% Seed = ssh_bits:random(?HLen), -%% DbMask = ?MGF(Seed, K - ?HLen - 1), -%% MaskedDB = ssh_bits:xor_bits(DB, DbMask), -%% SeedMask = ?MGF(MaskedDB, ?HLen), -%% MaskedSeed = ssh_bits:xor_bits(Seed, SeedMask), -%% EM = <<16#00, MaskedSeed/binary, MaskedDB/binary>>, -%% Mc = os2ip(EM), -%% C = rsaep(Public, Mc), -%% i2osp(C, K). - -%% rsaes_oaep_decrypt(Key, C) -> -%% rsaes_oaep_decrypt(Key, C, <<>>). - -%% rsaes_oaep_decrypt(Private=#ssh_key { public={N,_},private={_,_}},Cb,L) -> -%% ?ssh_assert(size(L) =< 16#ffffffffffffffff, label_to_long), -%% K = (ssh_bits:isize(N)+7) div 8, -%% ?ssh_assert(K == 2*?HLen + 2, decryption_error), -%% C = os2ip(Cb), -%% M = rsadp(Private, C), -%% EM = i2osp(M, K), -%% LHash = ?HASH(L), -%% MLen = K - ?HLen -1, -%% case EM of -%% <<16#00, MaskedSeed:?HLen/binary, MaskedDB:MLen>> -> -%% SeedMask = ?MGF(MaskedDB, ?HLen), -%% Seed = ssh_bits:xor_bits(MaskedSeed, SeedMask), -%% DbMask = ?MGF(Seed, K - ?HLen - 1), -%% DB = ssh_bits:xor_bits(MaskedDB, DbMask), -%% PSLen = K - MLen - 2*?HLen - 2, -%% case DB of -%% <<LHash:?HLen, _PS:PSLen/binary, 16#01, M/binary>> -> -%% M; -%% _ -> -%% exit(decryption_error) -%% end; -%% _ -> -%% exit(decryption_error) -%% end. - - -%% rsaes_pkcs1_v1_5_encrypt(Public=#ssh_key { public={N,_}}, M) -> -%% K = (ssh_bits:isize(N)+7) div 8, -%% MLen = size(M), -%% ?ssh_assert(MLen =< K - 11, message_to_long), -%% PS = ssh_bits:random(K - MLen - 3), -%% EM = <<16#00,16#02,PS/binary,16#00,M/binary>>, -%% Mc = os2ip(EM), -%% C = rsaep(Public, Mc), -%% i2osp(C, K). - - -%% rsaes_pkcs1_v1_5_decrypt(Private=#ssh_key { public={N,_},private={_,_}}, -%% Cb) -> -%% K = (ssh_bits:isize(N)+7) div 8, -%% CLen = size(Cb), -%% ?ssh_assert(CLen == K andalso K >= 11, decryption_error), -%% C = os2ip(Cb), -%% M = rsadp(Private, C), -%% EM = i2osp(M, K), -%% PSLen = K - CLen - 3, -%% case EM of -%% <<16#00, 16#02, _PS:PSLen/binary, 16#00, M>> -> -%% M; -%% _ -> -%% exit(decryption_error) -%% end. - -%% rsassa_pss_sign(Private=#ssh_key { public={N,_},private={_,_}},Mb) -> -%% ModBits = ssh_bits:isize(N), -%% K = (ModBits+7) div 8, -%% EM = emsa_pss_encode(Mb, ModBits - 1), -%% M = os2ip(EM), -%% S = rsasp1(Private, M), -%% i2osp(S, K). - -%% rsassa_pss_verify(Public=#ssh_key { public={N,_E}},Mb,Sb) -> -%% ModBits = ssh_bits:isize(N), -%% K = (ModBits+7) div 8, -%% ?ssh_assert(size(Sb) == K, invalid_signature), -%% S = os2ip(Sb), -%% M = rsavp1(Public,S), -%% EMLen = (ModBits-1+7) div 8, -%% EM = i2osp(M, EMLen), -%% emsa_pss_verify(Mb, EM, ModBits-1). - - -rsassa_pkcs1_v1_5_sign(Private=#ssh_key { public={N,_},private={_,_D}},Mb) -> - K = (ssh_bits:isize(N)+7) div 8, - EM = emsa_pkcs1_v1_5_encode(Mb, K), - M = os2ip(EM), - S = rsasp1(Private, M), - i2osp(S, K). - -rsassa_pkcs1_v1_5_verify(Public=#ssh_key { public={N,_E}}, Mb, Sb) -> - K = (ssh_bits:isize(N)+7) div 8, - ?ssh_assert(size(Sb) == K, invalid_signature), - S = os2ip(Sb), - M = rsavp1(Public, S), - EM = i2osp(M, K), - %?dbg(true, "verify K=~p S=~w ~n#M=~w~n#EM=~w~n", [K, S, M, EM]), - case emsa_pkcs1_v1_5_encode(Mb, K) of - EM -> ok; - _S -> - {error, invalid_signature} - end. - - -emsa_pkcs1_v1_5_encode(M, EMLen) -> - H = ?HASH(M), - %% Must use speical xxNull types here! - Alg = #'AlgorithmNull' { algorithm = ?'id-sha1', - parameters = <<>> }, - {ok,TCode} = 'PKCS-1':encode('DigestInfoNull', - #'DigestInfoNull'{ digestAlgorithm = Alg, - digest = H }), - T = list_to_binary(TCode), - TLen = size(T), - ?ssh_assert(EMLen >= TLen + 11, message_to_short), - PS = ssh_bits:fill_bits(EMLen - TLen - 3, 16#ff), - <<16#00, 16#01, PS/binary, 16#00, T/binary>>. - - -%% emsa_pss_encode(M, EMBits) -> -%% emsa_pss_encode(M, EMBits, 0). - -%% emsa_pss_encode(M, EMBits, SLen) -> -%% ?ssh_assert(size(M) =< 16#ffffffffffffffff, message_to_long), -%% EMLen = (EMBits + 7) div 8, -%% MHash = ?HASH(M), -%% ?ssh_assert(EMLen >= ?HLen + SLen + 2, encoding_error), -%% Salt = ssh_bits:random(SLen), -%% M1 = [16#00,16#00,16#00,16#00,16#00,16#00,16#00,16#00, -%% MHash, Salt], -%% H = ?HASH(M1), -%% PS = ssh_bits:fill_bits(EMLen-SLen-?HLen-2, 0), -%% DB = <<PS/binary, 16#01, Salt/binary>>, -%% DbMask = ?MGF(H, EMLen - ?HLen -1), -%% MaskedDB = ssh_bits:xor_bits(DB, DbMask), -%% ZLen = 8*EMLen - EMBits, -%% NZLen = (8 - (ZLen rem 8)) rem 8, -%% <<_:ZLen, NZ:NZLen, MaskedDB1/binary>> = MaskedDB, -%% MaskedDB2 = <<0:ZLen, NZ:NZLen, MaskedDB1/binary>>, -%% <<MaskedDB2/binary, H/binary, 16#BC>>. - - -%% emsa_pss_verify(M, EM, EMBits) -> -%% emsa_pss_verify(M, EM, EMBits, 0). - -%% emsa_pss_verify(M, EM, EMBits, SLen) -> -%% ?ssh_assert(size(M) =< 16#ffffffffffffffff, message_to_long), -%% EMLen = (EMBits + 7) div 8, -%% MHash = ?HASH(M), -%% ?ssh_assert(EMLen >= ?HLen + SLen + 2, inconsistent), -%% MaskLen = (EMLen - ?HLen - 1)-1, -%% ZLen = 8*EMLen - EMBits, -%% NZLen = (8 - (ZLen rem 8)) rem 8, -%% case EM of -%% <<0:ZLen,Nz:NZLen,MaskedDB1:MaskLen/binary, H:?HLen/binary, 16#BC>> -> -%% MaskedDB = <<0:ZLen,Nz:NZLen,MaskedDB1/binary>>, -%% DbMask = ?MGF(H, EMLen - ?HLen - 1), -%% DB = ssh_bits:xor_bits(MaskedDB, DbMask), -%% PSLen1 = (EMLen - SLen - ?HLen - 2) - 1, -%% PS = ssh_bits:fill_bits(PSLen1, 0), -%% case DB of -%% <<_:ZLen,0:NZLen,PS:PSLen1/binary,16#01,Salt:SLen/binary>> -> -%% M1 = [16#00,16#00,16#00,16#00,16#00,16#00,16#00,16#00, -%% MHash, Salt], -%% case ?HASH(M1) of -%% H -> ok; -%% _ -> exit(inconsistent) -%% end; -%% _ -> -%% exit(inconsistent) -%% end; -%% _ -> -%% exit(inconsistent) -%% end. - - - -%% Mask generating function MGF1 -%% mgf1(MGFSeed, MaskLen) -> -%% T = mgf1_loop(0, ((MaskLen + ?HLen -1) div ?HLen) - 1, MGFSeed, ""), -%% <<R:MaskLen/binary, _/binary>> = T, -%% R. - -%% mgf1_loop(Counter, N, _, T) when Counter > N -> -%% list_to_binary(T); -%% mgf1_loop(Counter, N, MGFSeed, T) -> -%% C = i2osp(Counter, 4), -%% mgf1_loop(Counter+1, N, MGFSeed, [T, ?HASH([MGFSeed, C])]). - - - - -alg_name() -> - "ssh-rsa". |