%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2011-2014. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(pubkey_ssh).
-include("public_key.hrl").
-export([decode/2, encode/2
]).
-define(UINT32(X), X:32/unsigned-big-integer).
-define(STRING(X), ?UINT32((size(X))), (X)/binary).
%% Max encoded line length is 72, but conformance examples use 68
%% Comment from rfc 4716: "The following are some examples of public
%% key files that are compliant (note that the examples all wrap
%% before 72 bytes to meet IETF document requirements; however, they
%% are still compliant.)" So we choose to use 68 also.
-define(ENCODED_LINE_LENGTH, 68).
%%====================================================================
%% Internal application API
%%====================================================================
%%--------------------------------------------------------------------
-spec decode(binary(), public_key | public_key:ssh_file()) ->
[{public_key:public_key(), Attributes::list()}].
%%
%% Description: Decodes a ssh file-binary.
%%--------------------------------------------------------------------
decode(Bin, public_key)->
case binary:match(Bin, begin_marker()) of
nomatch ->
openssh_decode(Bin, openssh_public_key);
_ ->
rfc4716_decode(Bin)
end;
decode(Bin, rfc4716_public_key) ->
rfc4716_decode(Bin);
decode(Bin, Type) ->
openssh_decode(Bin, Type).
%%--------------------------------------------------------------------
-spec encode([{public_key:public_key(), Attributes::list()}], public_key:ssh_file()) ->
binary().
%%
%% Description: Encodes a list of ssh file entries.
%%--------------------------------------------------------------------
encode(Entries, Type) ->
iolist_to_binary(lists:map(fun({Key, Attributes}) ->
do_encode(Type, Key, Attributes)
end, Entries)).
%%--------------------------------------------------------------------
%%% Internal functions
%%--------------------------------------------------------------------
begin_marker() ->
<<"---- BEGIN SSH2 PUBLIC KEY ----">>.
end_marker() ->
<<"---- END SSH2 PUBLIC KEY ----">>.
rfc4716_decode(Bin) ->
Lines = binary:split(Bin, <<"\n">>, [global]),
do_rfc4716_decode(Lines, []).
do_rfc4716_decode([<<"---- BEGIN SSH2 PUBLIC KEY ----", _/binary>> | Lines], Acc) ->
do_rfc4716_decode(Lines, Acc);
%% Ignore empty lines before or after begin/end - markers.
do_rfc4716_decode([<<>> | Lines], Acc) ->
do_rfc4716_decode(Lines, Acc);
do_rfc4716_decode([], Acc) ->
lists:reverse(Acc);
do_rfc4716_decode(Lines, Acc) ->
{Headers, PubKey, Rest} = rfc4716_decode_lines(Lines, []),
case Headers of
[_|_] ->
do_rfc4716_decode(Rest, [{PubKey, [{headers, Headers}]} | Acc]);
_ ->
do_rfc4716_decode(Rest, [{PubKey, []} | Acc])
end.
rfc4716_decode_lines([Line | Lines], Acc) ->
case binary:last(Line) of
$\\ ->
NewLine = binary:replace(Line,<<"\\">>, hd(Lines), []),
rfc4716_decode_lines([NewLine | tl(Lines)], Acc);
_ ->
rfc4716_decode_line(Line, Lines, Acc)
end.
rfc4716_decode_line(Line, Lines, Acc) ->
case binary:split(Line, <<":">>) of
[Tag, Value] ->
rfc4716_decode_lines(Lines, [{string_decode(Tag), unicode_decode(Value)} | Acc]);
_ ->
{Body, Rest} = join_entry([Line | Lines], []),
{lists:reverse(Acc), rfc4716_pubkey_decode(base64:mime_decode(Body)), Rest}
end.
join_entry([<<"---- END SSH2 PUBLIC KEY ----", _/binary>>| Lines], Entry) ->
{lists:reverse(Entry), Lines};
join_entry([Line | Lines], Entry) ->
join_entry(Lines, [Line | Entry]).
rfc4716_pubkey_decode(<<?UINT32(Len), Type:Len/binary,
?UINT32(SizeE), E:SizeE/binary,
?UINT32(SizeN), N:SizeN/binary>>) when Type == <<"ssh-rsa">> ->
#'RSAPublicKey'{modulus = erlint(SizeN, N),
publicExponent = erlint(SizeE, E)};
rfc4716_pubkey_decode(<<?UINT32(Len), Type:Len/binary,
?UINT32(SizeP), P:SizeP/binary,
?UINT32(SizeQ), Q:SizeQ/binary,
?UINT32(SizeG), G:SizeG/binary,
?UINT32(SizeY), Y:SizeY/binary>>) when Type == <<"ssh-dss">> ->
{erlint(SizeY, Y),
#'Dss-Parms'{p = erlint(SizeP, P),
q = erlint(SizeQ, Q),
g = erlint(SizeG, G)}};
rfc4716_pubkey_decode(<<?UINT32(Len), ECDSA_SHA2_etc:Len/binary,
?UINT32(SizeId), Id:SizeId/binary,
?UINT32(SizeQ), Q:SizeQ/binary>>) ->
<<"ecdsa-sha2-", Id/binary>> = ECDSA_SHA2_etc,
{#'ECPoint'{point = Q}, {namedCurve,public_key:ssh_curvename2oid(Id)}}.
openssh_decode(Bin, FileType) ->
Lines = binary:split(Bin, <<"\n">>, [global]),
do_openssh_decode(FileType, Lines, []).
do_openssh_decode(_, [], Acc) ->
lists:reverse(Acc);
%% Ignore empty lines
do_openssh_decode(FileType, [<<>> | Lines], Acc) ->
do_openssh_decode(FileType, Lines, Acc);
%% Ignore lines that start with #
do_openssh_decode(FileType,[<<"#", _/binary>> | Lines], Acc) ->
do_openssh_decode(FileType, Lines, Acc);
do_openssh_decode(auth_keys = FileType, [Line | Lines], Acc) ->
case decode_auth_keys(Line) of
{ssh2, {options, [Options, KeyType, Base64Enc| Comment]}} ->
do_openssh_decode(FileType, Lines,
[{openssh_pubkey_decode(KeyType, Base64Enc),
decode_comment(Comment) ++ [{options, comma_list_decode(Options)}]} | Acc]);
{ssh2, {no_options, [KeyType, Base64Enc| Comment]}} ->
do_openssh_decode(FileType, Lines,
[{openssh_pubkey_decode(KeyType, Base64Enc),
decode_comment(Comment)} | Acc]);
{ssh1, {options, [Options, Bits, Exponent, Modulus | Comment]}} ->
do_openssh_decode(FileType, Lines,
[{ssh1_rsa_pubkey_decode(Modulus, Exponent),
decode_comment(Comment) ++ [{options, comma_list_decode(Options)},
{bits, integer_decode(Bits)}]
} | Acc]);
{ssh1, {no_options, [Bits, Exponent, Modulus | Comment]}} ->
do_openssh_decode(FileType, Lines,
[{ssh1_rsa_pubkey_decode(Modulus, Exponent),
decode_comment(Comment) ++ [{bits, integer_decode(Bits)}]
} | Acc])
end;
do_openssh_decode(known_hosts = FileType, [Line | Lines], Acc) ->
case decode_known_hosts(Line) of
{ssh2, [HostNames, KeyType, Base64Enc| Comment]} ->
do_openssh_decode(FileType, Lines,
[{openssh_pubkey_decode(KeyType, Base64Enc),
decode_comment(Comment) ++
[{hostnames, comma_list_decode(HostNames)}]}| Acc]);
{ssh1, [HostNames, Bits, Exponent, Modulus | Comment]} ->
do_openssh_decode(FileType, Lines,
[{ssh1_rsa_pubkey_decode(Modulus, Exponent),
decode_comment(Comment) ++
[{hostnames, comma_list_decode(HostNames)},
{bits, integer_decode(Bits)}]}
| Acc])
end;
do_openssh_decode(openssh_public_key = FileType, [Line | Lines], Acc) ->
[KeyType, Base64Enc | Comment0] = split_n(2, Line, []),
KnownKeyType =
case KeyType of
<<"ssh-rsa">> -> true;
<<"ssh-dss">> -> true;
<<"ecdsa-sha2-",Curve/binary>> -> is_ssh_curvename(Curve);
_ -> false
end,
case Comment0 of
[] when KnownKeyType==true ->
do_openssh_decode(FileType, Lines,
[{openssh_pubkey_decode(KeyType, Base64Enc),
[]} | Acc]);
_ when KnownKeyType==true ->
Comment = string:strip(string_decode(iolist_to_binary(Comment0)), right, $\n),
do_openssh_decode(FileType, Lines,
[{openssh_pubkey_decode(KeyType, Base64Enc),
[{comment, Comment}]} | Acc])
end.
decode_comment([]) ->
[];
decode_comment(Comment) ->
[{comment, string_decode(iolist_to_binary(Comment))}].
openssh_pubkey_decode(<<"ssh-rsa">>, Base64Enc) ->
<<?UINT32(StrLen), _:StrLen/binary,
?UINT32(SizeE), E:SizeE/binary,
?UINT32(SizeN), N:SizeN/binary>>
= base64:mime_decode(Base64Enc),
#'RSAPublicKey'{modulus = erlint(SizeN, N),
publicExponent = erlint(SizeE, E)};
openssh_pubkey_decode(<<"ssh-dss">>, Base64Enc) ->
<<?UINT32(StrLen), _:StrLen/binary,
?UINT32(SizeP), P:SizeP/binary,
?UINT32(SizeQ), Q:SizeQ/binary,
?UINT32(SizeG), G:SizeG/binary,
?UINT32(SizeY), Y:SizeY/binary>>
= base64:mime_decode(Base64Enc),
{erlint(SizeY, Y),
#'Dss-Parms'{p = erlint(SizeP, P),
q = erlint(SizeQ, Q),
g = erlint(SizeG, G)}};
openssh_pubkey_decode(<<"ecdsa-sha2-", Id/binary>>, Base64Enc) ->
%% rfc5656#section-3.1
<<?UINT32(StrLen), _:StrLen/binary,
?UINT32(SizeId), Id:SizeId/binary,
?UINT32(SizeQ), Q:SizeQ/binary>>
= base64:mime_decode(Base64Enc),
{#'ECPoint'{point = Q}, {namedCurve,public_key:ssh_curvename2oid(Id)}};
openssh_pubkey_decode(KeyType, Base64Enc) ->
{KeyType, base64:mime_decode(Base64Enc)}.
erlint(MPIntSize, MPIntValue) ->
Bits= MPIntSize * 8,
<<Integer:Bits/integer>> = MPIntValue,
Integer.
ssh1_rsa_pubkey_decode(MBin, EBin) ->
#'RSAPublicKey'{modulus = integer_decode(MBin),
publicExponent = integer_decode(EBin)}.
integer_decode(BinStr) ->
list_to_integer(binary_to_list(BinStr)).
string_decode(BinStr) ->
unicode_decode(BinStr).
unicode_decode(BinStr) ->
unicode:characters_to_list(BinStr).
comma_list_decode(BinOpts) ->
CommaList = binary:split(BinOpts, <<",">>, [global]),
lists:map(fun(Item) ->
binary_to_list(Item)
end, CommaList).
do_encode(rfc4716_public_key, Key, Attributes) ->
rfc4716_encode(Key, proplists:get_value(headers, Attributes, []), []);
do_encode(Type, Key, Attributes) ->
openssh_encode(Type, Key, Attributes).
rfc4716_encode(Key, [],[]) ->
iolist_to_binary([begin_marker(),"\n",
split_lines(base64:encode(ssh2_pubkey_encode(Key))),
"\n", end_marker(), "\n"]);
rfc4716_encode(Key, [], [_|_] = Acc) ->
iolist_to_binary([begin_marker(), "\n",
lists:reverse(Acc),
split_lines(base64:encode(ssh2_pubkey_encode(Key))),
"\n", end_marker(), "\n"]);
rfc4716_encode(Key, [ Header | Headers], Acc) ->
LinesStr = rfc4716_encode_header(Header),
rfc4716_encode(Key, Headers, [LinesStr | Acc]).
rfc4716_encode_header({Tag, Value}) ->
TagLen = length(Tag),
ValueLen = length(Value),
case TagLen + 1 + ValueLen of
N when N > ?ENCODED_LINE_LENGTH ->
NumOfChars = ?ENCODED_LINE_LENGTH - (TagLen + 1),
{First, Rest} = lists:split(NumOfChars, Value),
[Tag,":" , First, [$\\], "\n", rfc4716_encode_value(Rest) , "\n"];
_ ->
[Tag, ":", Value, "\n"]
end.
rfc4716_encode_value(Value) ->
case length(Value) of
N when N > ?ENCODED_LINE_LENGTH ->
{First, Rest} = lists:split(?ENCODED_LINE_LENGTH, Value),
[First, [$\\], "\n", rfc4716_encode_value(Rest)];
_ ->
Value
end.
openssh_encode(openssh_public_key, Key, Attributes) ->
Comment = proplists:get_value(comment, Attributes, ""),
Enc = base64:encode(ssh2_pubkey_encode(Key)),
iolist_to_binary([key_type(Key), " ", Enc, " ", Comment, "\n"]);
openssh_encode(auth_keys, Key, Attributes) ->
Comment = proplists:get_value(comment, Attributes, ""),
Options = proplists:get_value(options, Attributes, undefined),
Bits = proplists:get_value(bits, Attributes, undefined),
case Bits of
undefined ->
openssh_ssh2_auth_keys_encode(Options, Key, Comment);
_ ->
openssh_ssh1_auth_keys_encode(Options, Bits, Key, Comment)
end;
openssh_encode(known_hosts, Key, Attributes) ->
Comment = proplists:get_value(comment, Attributes, ""),
Hostnames = proplists:get_value(hostnames, Attributes),
Bits = proplists:get_value(bits, Attributes, undefined),
case Bits of
undefined ->
openssh_ssh2_know_hosts_encode(Hostnames, Key, Comment);
_ ->
openssh_ssh1_known_hosts_encode(Hostnames, Bits, Key, Comment)
end.
openssh_ssh2_auth_keys_encode(undefined, Key, Comment) ->
iolist_to_binary([key_type(Key)," ", base64:encode(ssh2_pubkey_encode(Key)), line_end(Comment)]);
openssh_ssh2_auth_keys_encode(Options, Key, Comment) ->
iolist_to_binary([comma_list_encode(Options, []), " ",
key_type(Key)," ", base64:encode(ssh2_pubkey_encode(Key)), line_end(Comment)]).
openssh_ssh1_auth_keys_encode(undefined, Bits,
#'RSAPublicKey'{modulus = N, publicExponent = E},
Comment) ->
iolist_to_binary([integer_to_list(Bits), " ", integer_to_list(E), " ", integer_to_list(N),
line_end(Comment)]);
openssh_ssh1_auth_keys_encode(Options, Bits,
#'RSAPublicKey'{modulus = N, publicExponent = E},
Comment) ->
iolist_to_binary([comma_list_encode(Options, []), " ", integer_to_list(Bits),
" ", integer_to_list(E), " ", integer_to_list(N), line_end(Comment)]).
openssh_ssh2_know_hosts_encode(Hostnames, Key, Comment) ->
iolist_to_binary([comma_list_encode(Hostnames, []), " ",
key_type(Key)," ", base64:encode(ssh2_pubkey_encode(Key)), line_end(Comment)]).
openssh_ssh1_known_hosts_encode(Hostnames, Bits,
#'RSAPublicKey'{modulus = N, publicExponent = E},
Comment) ->
iolist_to_binary([comma_list_encode(Hostnames, [])," ", integer_to_list(Bits)," ",
integer_to_list(E)," ", integer_to_list(N), line_end(Comment)]).
line_end("") ->
"\n";
line_end(Comment) ->
[" ", Comment, "\n"].
key_type(#'RSAPublicKey'{}) -> <<"ssh-rsa">>;
key_type({_, #'Dss-Parms'{}}) -> <<"ssh-dss">>;
key_type({#'ECPoint'{}, {namedCurve,Curve}}) -> <<"ecdsa-sha2-", (public_key:oid2ssh_curvename(Curve))/binary>>.
comma_list_encode([Option], []) ->
Option;
comma_list_encode([Option], Acc) ->
Acc ++ "," ++ Option;
comma_list_encode([Option | Rest], []) ->
comma_list_encode(Rest, Option);
comma_list_encode([Option | Rest], Acc) ->
comma_list_encode(Rest, Acc ++ "," ++ Option).
ssh2_pubkey_encode(#'RSAPublicKey'{modulus = N, publicExponent = E}) ->
TypeStr = <<"ssh-rsa">>,
StrLen = size(TypeStr),
EBin = mpint(E),
NBin = mpint(N),
<<?UINT32(StrLen), TypeStr:StrLen/binary,
EBin/binary,
NBin/binary>>;
ssh2_pubkey_encode({Y, #'Dss-Parms'{p = P, q = Q, g = G}}) ->
TypeStr = <<"ssh-dss">>,
StrLen = size(TypeStr),
PBin = mpint(P),
QBin = mpint(Q),
GBin = mpint(G),
YBin = mpint(Y),
<<?UINT32(StrLen), TypeStr:StrLen/binary,
PBin/binary,
QBin/binary,
GBin/binary,
YBin/binary>>;
ssh2_pubkey_encode(Key={#'ECPoint'{point = Q}, {namedCurve,OID}}) ->
TypeStr = key_type(Key),
StrLen = size(TypeStr),
IdB = public_key:oid2ssh_curvename(OID),
<<?UINT32(StrLen), TypeStr:StrLen/binary,
(string(IdB))/binary,
(string(Q))/binary>>.
is_key_field(<<"ssh-dss">>) -> true;
is_key_field(<<"ssh-rsa">>) -> true;
is_key_field(<<"ecdsa-sha2-",Id/binary>>) -> is_ssh_curvename(Id);
is_key_field(_) -> false.
is_bits_field(Part) ->
try list_to_integer(binary_to_list(Part)) of
_ ->
true
catch _:_ ->
false
end.
split_lines(<<Text:?ENCODED_LINE_LENGTH/binary>>) ->
[Text];
split_lines(<<Text:?ENCODED_LINE_LENGTH/binary, Rest/binary>>) ->
[Text, $\n | split_lines(Rest)];
split_lines(Bin) ->
[Bin].
decode_auth_keys(Line) ->
[First, Rest] = binary:split(Line, <<" ">>, []),
case is_key_field(First) of
true ->
{ssh2, decode_auth_keys_ssh2(First, Rest)};
false ->
case is_bits_field(First) of
true ->
{ssh1, decode_auth_keys_ssh1(First, Rest)};
false ->
decode_auth_keys(First, Rest)
end
end.
decode_auth_keys(First, Line) ->
[Second, Rest] = binary:split(Line, <<" ">>, []),
case is_key_field(Second) of
true ->
{ssh2, decode_auth_keys_ssh2(First, Second, Rest)};
false ->
case is_bits_field(Second) of
true ->
{ssh1, decode_auth_keys_ssh1(First, Second, Rest)};
false ->
decode_auth_keys(<<First/binary, Second/binary>>, Rest)
end
end.
decode_auth_keys_ssh2(KeyType, Rest) ->
{no_options, [KeyType | split_n(1, Rest, [])]}.
decode_auth_keys_ssh2(Options, Next, Rest) ->
{options, [Options, Next | split_n(1, Rest, [])]}.
decode_auth_keys_ssh1(Options, Next, Rest) ->
{options, [Options, Next | split_n(2, Rest, [])]}.
decode_auth_keys_ssh1(First, Rest) ->
{no_options, [First | split_n(2, Rest, [])]}.
decode_known_hosts(Line) ->
[First, Rest] = binary:split(Line, <<" ">>, []),
[Second, Rest1] = binary:split(Rest, <<" ">>, []),
case is_bits_field(Second) of
true ->
{ssh1, decode_known_hosts_ssh1(First, Second, Rest1)};
false ->
{ssh2, decode_known_hosts_ssh2(First, Second, Rest1)}
end.
decode_known_hosts_ssh1(Hostnames, Bits, Rest) ->
[Hostnames, Bits | split_n(2, Rest, [])].
decode_known_hosts_ssh2(Hostnames, KeyType, Rest) ->
[Hostnames, KeyType | split_n(1, Rest, [])].
split_n(0, <<>>, Acc) ->
lists:reverse(Acc);
split_n(0, Bin, Acc) ->
lists:reverse([Bin | Acc]);
split_n(N, Bin, Acc) ->
case binary:split(Bin, <<" ">>, []) of
[First, Rest] ->
split_n(N-1, Rest, [First | Acc]);
[Last] ->
split_n(0, <<>>, [Last | Acc])
end.
%% large integer in a binary with 32bit length
%% MP representaion (SSH2)
mpint(X) when X < 0 -> mpint_neg(X);
mpint(X) -> mpint_pos(X).
mpint_neg(X) ->
Bin = int_to_bin_neg(X, []),
Sz = byte_size(Bin),
<<?UINT32(Sz), Bin/binary>>.
mpint_pos(X) ->
Bin = int_to_bin_pos(X, []),
<<MSB,_/binary>> = Bin,
Sz = byte_size(Bin),
if MSB band 16#80 == 16#80 ->
<<?UINT32((Sz+1)), 0, Bin/binary>>;
true ->
<<?UINT32(Sz), Bin/binary>>
end.
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]).
string(X) when is_binary(X) ->
<< ?STRING(X) >>;
string(X) ->
<< ?STRING(list_to_binary(X)) >>.
is_ssh_curvename(Id) -> try public_key:ssh_curvename2oid(Id) of _ -> true
catch _:_ -> false
end.