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|
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2010-2017. 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(diameter_codec).
-export([encode/2, encode/3,
decode/2, decode/3, decode/4,
collect_avps/1,
decode_header/1,
sequence_numbers/1,
hop_by_hop_id/2,
msg_name/2,
msg_id/1]).
%% towards diameter_gen
-export([pack_data/2,
pack_avp/2]).
-include_lib("diameter/include/diameter.hrl").
-include("diameter_internal.hrl").
-define(PAD(Len), ((4 - (Len rem 4)) rem 4)).
-define(BIT(B,I), (if B -> I; true -> 0 end)).
-define(BIT(B), ?BIT(B,1)).
-define(FLAGS(R,P,E,T), ?BIT(R):1, ?BIT(P):1, ?BIT(E):1, ?BIT(T):1, 0:4).
-define(FLAG(B,D), (if is_boolean(B) -> B; true -> 0 /= (D) end)).
-type u32() :: 0..16#FFFFFFFF.
-type u24() :: 0..16#FFFFFF.
-type u1() :: 0..1.
%% 0 1 2 3
%% 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | Version | Message Length |
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | command flags | Command-Code |
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | Application-ID |
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | Hop-by-Hop Identifier |
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | End-to-End Identifier |
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | AVPs ...
%% +-+-+-+-+-+-+-+-+-+-+-+-+-
%%% ---------------------------------------------------------------------------
%%% # encode/2
%%% ---------------------------------------------------------------------------
%% The representative encode documented in diameter_codec(3). As of
%% the options that affect encode (eg. ordered_encode), it's no longer
%% *the* encode.
encode(Mod, Msg) ->
encode(Mod, #{ordered_encode => true}, Msg).
%%% ---------------------------------------------------------------------------
%%% # encode/3
%%% ---------------------------------------------------------------------------
-spec encode(module(),
map(),
Msg :: term())
-> #diameter_packet{}
| no_return().
encode(Mod, Opts, #diameter_packet{} = Pkt) ->
try
enc(Mod, Opts, Pkt)
catch
exit: {Reason, Stack, #diameter_header{} = H} = T ->
%% Exit with a header in the reason to let the caller
%% count encode errors.
?LOG(encode_error, {Reason, Stack, H}),
exit({?MODULE, encode, T});
error: Reason ->
T = {Reason, diameter_lib:get_stacktrace()},
?LOG(encode_error, T),
exit({?MODULE, encode, T})
end;
encode(Mod, Opts, Msg) ->
Seq = diameter_session:sequence(),
Hdr = #diameter_header{version = ?DIAMETER_VERSION,
end_to_end_id = Seq,
hop_by_hop_id = Seq},
encode(Mod, Opts, #diameter_packet{header = Hdr,
msg = Msg}).
%% enc/3
enc(_, Opts, #diameter_packet{msg = [#diameter_header{} = Hdr | As]}
= Pkt) ->
try encode_avps(As, Opts) of
Avps ->
Bin = list_to_binary(Avps),
Len = 20 + size(Bin),
#diameter_header{version = Vsn,
is_request = R,
is_proxiable = P,
is_error = E,
is_retransmitted = T,
cmd_code = Code,
application_id = Aid,
hop_by_hop_id = Hid,
end_to_end_id = Eid}
= Hdr,
Pkt#diameter_packet{header = Hdr,
bin = <<Vsn:8, Len:24,
?FLAGS(R,P,E,T), Code:24,
Aid:32,
Hid:32,
Eid:32,
Bin/binary>>}
catch
error: Reason ->
exit({Reason, diameter_lib:get_stacktrace(), Hdr})
end;
enc(Mod, Opts, #diameter_packet{header = Hdr0, msg = Msg} = Pkt) ->
MsgName = rec2msg(Mod, Msg),
{Code, Flags, Aid} = msg_header(Mod, MsgName, Hdr0),
#diameter_header{version = Vsn,
is_request = R,
is_proxiable = P,
is_error = E,
is_retransmitted = T,
hop_by_hop_id = Hid,
end_to_end_id = Eid}
= Hdr0,
RB = ?FLAG(R, Flags band 2#10000000),
PB = ?FLAG(P, Flags band 2#01000000),
EB = ?FLAG(E, Flags band 2#00100000),
TB = ?FLAG(T, Flags band 2#00010000),
Values = values(Msg),
try encode_avps(Mod, MsgName, Values, Opts) of
Avps ->
Bin = list_to_binary(Avps),
Len = 20 + size(Bin),
Hdr = Hdr0#diameter_header{length = Len,
cmd_code = Code,
application_id = Aid,
is_request = RB,
is_proxiable = PB,
is_error = EB,
is_retransmitted = TB},
Pkt#diameter_packet{header = Hdr,
bin = <<Vsn:8, Len:24,
?FLAGS(RB, PB, EB, TB), Code:24,
Aid:32,
Hid:32,
Eid:32,
Bin/binary>>}
catch
error: Reason ->
Hdr = Hdr0#diameter_header{cmd_code = Code,
application_id = Aid,
is_request = RB,
is_proxiable = PB,
is_error = EB,
is_retransmitted = TB},
exit({Reason, diameter_lib:get_stacktrace(), Hdr})
end.
%% values/1
values([H|T])
when is_atom(H) ->
T;
values(Avps) ->
Avps.
%% encode_avps/4
%% Specifying values as a #diameter_avp list bypasses arity and other
%% checks: the values are expected to be already encoded and the AVP's
%% presented are simply sent. This is needed for relay agents, since
%% these have to be able to resend whatever comes.
%% Message as a list of #diameter_avp{} ...
encode_avps(_, _, [#diameter_avp{} | _] = Avps, Opts) ->
encode_avps(Avps, Opts);
%% ... or as a tuple list or record.
encode_avps(Mod, MsgName, Values, Opts) ->
Mod:encode_avps(MsgName, Values, Opts).
%% encode_avps/2
encode_avps(Avps, Opts) ->
[pack_avp(A, Opts) || A <- Avps].
%% msg_header/3
msg_header(Mod, 'answer-message' = MsgName, Header) ->
0 = Mod:id(), %% assert
#diameter_header{application_id = Aid,
cmd_code = Code}
= Header,
{-1, Flags, ?APP_ID_COMMON} = Mod:msg_header(MsgName),
{Code, Flags, Aid};
msg_header(Mod, MsgName, _) ->
Mod:msg_header(MsgName).
%% rec2msg/2
rec2msg(_, [Name|_])
when is_atom(Name) ->
Name;
rec2msg(Mod, Rec) ->
Mod:rec2msg(element(1, Rec)).
%%% ---------------------------------------------------------------------------
%%% # decode/2
%%% ---------------------------------------------------------------------------
%% The representative default decode documented in diameter_codec(3).
%% As of the options that affect decode (eg. string_decode), it's no
%% longer *the* decode.
decode(Mod, Pkt) ->
Opts = #{decode_format => record,
string_decode => true,
strict_mbit => true,
rfc => 6733},
decode(Mod, Opts, Pkt).
%%% ---------------------------------------------------------------------------
%%% # decode/3
%%% ---------------------------------------------------------------------------
%% Unsuccessfully decoded AVPs will be placed in #diameter_packet.errors.
-spec decode(module() | {module(), module()},
map(),
#diameter_packet{} | binary())
-> #diameter_packet{}.
%% An Answer setting the E-bit. The application dictionary is needed
%% for the best-effort decode of Failed-AVP.
decode({Mod, AppMod}, Opts, Pkt) ->
decode(Mod, AppMod, Opts, Pkt);
%% Or not: a request, or an answer not setting the E-bit.
decode(Mod, Opts, Pkt) ->
decode(Mod, Mod, Opts, Pkt).
%% decode/4
decode(Id, Mod, Opts, Pkt)
when is_integer(Id) ->
decode(Id, Mod, Mod, Opts, Pkt);
decode(Mod, AppMod, Opts, Pkt) ->
decode(Mod:id(), Mod, AppMod, Opts, Pkt).
%% decode/5
%% Relay application: just extract the avp's without any decoding of
%% their data since we don't know the application in question.
decode(?APP_ID_RELAY, _, _, _, #diameter_packet{} = Pkt) ->
collect_avps(Pkt);
%% Otherwise decode using the dictionary.
decode(_, Mod, AppMod, Opts, #diameter_packet{header = Hdr} = Pkt) ->
#diameter_header{cmd_code = CmdCode,
is_request = IsRequest,
is_error = IsError}
= Hdr,
MsgName = if IsError, not IsRequest ->
'answer-message';
true ->
Mod:msg_name(CmdCode, IsRequest)
end,
decode_avps(MsgName, Mod, AppMod, Opts, Pkt);
decode(Id, Mod, AppMod, Opts, Bin)
when is_binary(Bin) ->
decode(Id, Mod, AppMod, Opts, #diameter_packet{header = decode_header(Bin),
bin = Bin}).
%% decode_avps/5
decode_avps('', _, _, _, #diameter_packet{header = H, %% unknown message
bin = Bin}
= Pkt) ->
?LOG(unknown_message, H),
Pkt#diameter_packet{avps = collect_avps(Bin),
errors = [3001]}; %% DIAMETER_COMMAND_UNSUPPORTED
%% msg = undefined identifies this case.
decode_avps(MsgName, Mod, AppMod, Opts, #diameter_packet{bin = Bin} = Pkt) ->
{_, Avps} = split_binary(Bin, 20),
{Rec, As, Errors} = Mod:decode_avps(MsgName,
Avps,
Opts#{app_dictionary => AppMod,
failed_avp => false}),
?LOGC([] /= Errors, decode_errors, Pkt#diameter_packet.header),
Pkt#diameter_packet{msg = reformat(MsgName, Rec, Opts),
errors = Errors,
avps = As}.
%% reformat/3
reformat(MsgName, Avps, #{decode_format := T})
when T == map;
T == list ->
[MsgName | Avps];
reformat(_, Msg, _) ->
Msg.
%%% ---------------------------------------------------------------------------
%%% # decode_header/1
%%% ---------------------------------------------------------------------------
-spec decode_header(binary())
-> #diameter_header{}
| false.
decode_header(<<Version:8,
MsgLength:24,
R:1, P:1, E:1, T:1, _:4,
CmdCode:24,
ApplicationId:32,
HopByHopId:32,
EndToEndId:32,
_/binary>>) ->
%% 3588 (ch 3) says that reserved bits MUST be set to 0 and ignored
%% by the receiver.
%% The RFC is quite unclear about the order of the bits in this
%% case. It writes
%%
%% 0 1 2 3 4 5 6 7
%% +-+-+-+-+-+-+-+-+
%% |R P E T r r r r|
%% +-+-+-+-+-+-+-+-+
%%
%% in defining these but the scale refers to the (big endian)
%% transmission order, first to last, not the bit order. That is,
%% R is the high order bit. It's odd that a standard reserves
%% low-order bit rather than high-order ones.
#diameter_header{version = Version,
length = MsgLength,
cmd_code = CmdCode,
application_id = ApplicationId,
hop_by_hop_id = HopByHopId,
end_to_end_id = EndToEndId,
is_request = 1 == R,
is_proxiable = 1 == P,
is_error = 1 == E,
is_retransmitted = 1 == T};
decode_header(_) ->
false.
%%% ---------------------------------------------------------------------------
%%% # sequence_numbers/1
%%% ---------------------------------------------------------------------------
%% The End-To-End identifier must be unique for at least 4 minutes. We
%% maintain a 24-bit wraparound counter, and add an 8-bit persistent
%% wraparound counter. The 8-bit counter is incremented each time the
%% system is restarted.
-spec sequence_numbers(#diameter_packet{}
| #diameter_header{}
| binary()
| Seq)
-> Seq
when Seq :: {HopByHopId :: u32(), EndToEndId :: u32()}.
sequence_numbers({_,_} = T) ->
T;
sequence_numbers(#diameter_packet{bin = Bin})
when is_binary(Bin) ->
sequence_numbers(Bin);
sequence_numbers(#diameter_packet{header = #diameter_header{} = H}) ->
sequence_numbers(H);
sequence_numbers(#diameter_packet{msg = [#diameter_header{} = H | _]}) ->
sequence_numbers(H);
sequence_numbers(#diameter_header{hop_by_hop_id = H,
end_to_end_id = E}) ->
{H,E};
sequence_numbers(<<_:12/binary, H:32, E:32, _/binary>>) ->
{H,E}.
%%% ---------------------------------------------------------------------------
%%% # hop_by_hop_id/2
%%% ---------------------------------------------------------------------------
-spec hop_by_hop_id(u32(), binary())
-> binary().
hop_by_hop_id(Id, <<H:12/binary, _:32, T/binary>>) ->
<<H/binary, Id:32, T/binary>>.
%%% ---------------------------------------------------------------------------
%%% # msg_name/2
%%% ---------------------------------------------------------------------------
-spec msg_name(module(), #diameter_header{})
-> atom()
| {ApplicationId :: u32(), CommandCode :: u24(), Rbit :: u1()}.
msg_name(Dict0, #diameter_header{application_id = ?APP_ID_COMMON,
cmd_code = C,
is_request = R}) ->
Dict0:msg_name(C,R);
msg_name(_, Hdr) ->
msg_id(Hdr).
%% Note that messages in different applications could have the same
%% name.
%%% ---------------------------------------------------------------------------
%%% # msg_id/1
%%% ---------------------------------------------------------------------------
-spec msg_id(#diameter_packet{} | #diameter_header{})
-> {ApplicationId :: u32(), CommandCode :: u24(), Rbit :: u1()}.
msg_id(#diameter_packet{msg = [#diameter_header{} = Hdr | _]}) ->
msg_id(Hdr);
msg_id(#diameter_packet{header = #diameter_header{} = Hdr}) ->
msg_id(Hdr);
msg_id(#diameter_header{application_id = A,
cmd_code = C,
is_request = R}) ->
{A, C, ?BIT(R)};
msg_id(<<_:32, Rbit:1, _:7, CmdCode:24, ApplId:32, _/binary>>) ->
{ApplId, CmdCode, Rbit}.
%%% ---------------------------------------------------------------------------
%%% # collect_avps/1
%%% ---------------------------------------------------------------------------
%% This is only used for the relay decode. Note that grouped avp's
%% aren't unraveled, only those at the top level.
-spec collect_avps(#diameter_packet{})
-> #diameter_packet{};
(binary())
-> [#diameter_avp{}].
collect_avps(#diameter_packet{bin = Bin} = Pkt) ->
Pkt#diameter_packet{avps = collect_avps(Bin)};
collect_avps(<<_:20/binary, Avps/binary>>) ->
collect(Avps).
%% collect/1
%% 0 1 2 3
%% 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | AVP Code |
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% |V M P r r r r r| AVP Length |
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | Vendor-ID (opt) |
%% +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
%% | Data ...
%% +-+-+-+-+-+-+-+-+
collect(<<Code:32, V:1, M:1, P:1, _:5, Len:24, I:V/unit:32, Rest/binary>>) ->
collect(Rest,
Code,
if 1 == V -> I; 0 == V -> undefined end,
Len - 8 - V*4, %% Might be negative, which ensures
?PAD(Len), %% failure of the match below.
1 == M,
1 == P);
collect(<<>>) ->
[];
%% Header is truncated. pack_avp/1 will pad this at encode if sent in
%% a Failed-AVP.
collect(Bin) ->
[#diameter_avp{data = {5014, Bin}}].
%% collect/7
collect(Bin, Code, Vid, DataLen, Pad, M, P) ->
case Bin of
<<Data:DataLen/binary, _:Pad/binary, Rest/binary>> ->
Avp = #diameter_avp{code = Code,
vendor_id = Vid,
is_mandatory = M,
need_encryption = P,
data = Data},
[Avp | collect(Rest)];
_ ->
%% Length in header points past the end of the message, or
%% doesn't span the header. Note that an length error can
%% only occur in the trailing AVP of a message or Grouped
%% AVP, since a faulty AVP Length is otherwise
%% indistinguishable from a correct one here, as we don't
%% know the types of the AVPs being extracted.
[#diameter_avp{code = Code,
vendor_id = Vid,
is_mandatory = M,
need_encryption = P,
data = {5014, Bin}}]
end.
%% 3588:
%%
%% DIAMETER_INVALID_AVP_LENGTH 5014
%% The request contained an AVP with an invalid length. A Diameter
%% message indicating this error MUST include the offending AVPs
%% within a Failed-AVP AVP.
%% 6733:
%%
%% DIAMETER_INVALID_AVP_LENGTH 5014
%%
%% The request contained an AVP with an invalid length. A Diameter
%% message indicating this error MUST include the offending AVPs
%% within a Failed-AVP AVP. In cases where the erroneous AVP length
%% value exceeds the message length or is less than the minimum AVP
%% ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
%% header length, it is sufficient to include the offending AVP
%% ^^^^^^^^^^^^^
%% header and a zero filled payload of the minimum required length
%% for the payloads data type. If the AVP is a Grouped AVP, the
%% Grouped AVP header with an empty payload would be sufficient to
%% indicate the offending AVP. In the case where the offending AVP
%% header cannot be fully decoded when the AVP length is less than
%% the minimum AVP header length, it is sufficient to include an
%% offending AVP header that is formulated by padding the incomplete
%% AVP header with zero up to the minimum AVP header length.
%%
%% The underlined clause must be in error since (1) a header less than
%% the minimum value mean we might not know the identity of the AVP and
%% (2) the last sentence covers this case.
%%% ---------------------------------------------------------------------------
%%% # pack_avp/2
%%% ---------------------------------------------------------------------------
%% The normal case here is data as an #diameter_avp{} list or an
%% iolist, which are the cases that generated codec modules use. The
%% other cases are a convenience in the relay case in which the
%% dictionary doesn't know about specific AVP's.
%% Decoded Grouped AVP with decoded components: ignore components
%% since they're already encoded in the Grouped AVP.
pack_avp([#diameter_avp{} = Grouped | _Components], Opts) ->
pack_avp(Grouped, Opts);
%% Grouped AVP whose components need packing. It's intentional that
%% this isn't equivalent to [Grouped | Components]: here the
%% components need to be encoded before wrapping with the Grouped AVP,
%% and the list is flat, nesting being accomplished in the data
%% fields.
pack_avp(#diameter_avp{data = [#diameter_avp{} | _] = Components}
= Grouped,
Opts) ->
pack_data(Grouped, encode_avps(Components, Opts));
%% Data as a type/value tuple ...
pack_avp(#diameter_avp{data = {Type, Value}} = A, Opts)
when is_atom(Type) ->
pack_data(A, diameter_types:Type(encode, Value, Opts));
%% ... with a header in various forms ...
pack_avp(#diameter_avp{data = {T, {Type, Value}}}, Opts) ->
pack_data(T, diameter_types:Type(encode, Value, Opts));
pack_avp(#diameter_avp{data = {T, Data}}, _) ->
pack_data(T, Data);
pack_avp(#diameter_avp{data = {Dict, Name, Value}}, Opts) ->
pack_data(Dict:avp_header(Name), Dict:avp(encode, Value, Name, Opts));
%% ... with a truncated header ...
pack_avp(#diameter_avp{code = undefined, data = B}, _)
when is_binary(B) ->
%% Reset the AVP Length of an AVP Header resulting from a 5014
%% error. The RFC doesn't explicitly say to do this but the
%% receiver can't correctly extract this and following AVP's
%% without a correct length. On the downside, the header doesn't
%% reveal if the received header has been padded. Discard bytes
%% from the length header for this reason, to avoid creating a sub
%% binary for no useful reason.
Len = header_length(B),
Sz = min(5, size(B)),
<<B:Sz/binary, 0:(5-Sz)/unit:8, Len:24, 0:(Len-8)/unit:8>>;
%% Ignoring errors in Failed-AVP or during a relay encode.
pack_avp(#diameter_avp{data = {5014, Data}} = A, _) ->
pack_data(A, Data);
pack_avp(#diameter_avp{data = Data} = A, _) ->
pack_data(A, Data).
header_length(<<_:32, 1:1, _/bits>>) ->
12;
header_length(_) ->
8.
%%% ---------------------------------------------------------------------------
%%% # pack_data/2
%%% ---------------------------------------------------------------------------
pack_data(#diameter_avp{code = Code,
vendor_id = V,
is_mandatory = M,
need_encryption = P},
Data) ->
Flags = ?BIT(V /= undefined, 2#10000000)
bor ?BIT(M, 2#01000000)
bor ?BIT(P, 2#00100000),
pack(Code, Flags, V, Data);
pack_data({Code, Flags, VendorId}, Data) ->
pack(Code, Flags, VendorId, Data).
%% pack/4
pack(Code, Flags, VendorId, Data) ->
Sz = iolist_size(Data),
pack(Code, Flags, Sz, VendorId, Data, ?PAD(Sz)).
%% Padding is not included in the length field, as mandated by the RFC.
%% pack/6
%%
%% Prepend the vendor id as required.
pack(Code, Flags, Sz, _Vid, Data, Pad)
when 0 == Flags band 2#10000000 ->
pack(Code, Flags, Sz, 0, 0, Data, Pad);
pack(Code, Flags, Sz, Vid, Data, Pad) ->
pack(Code, Flags, Sz+4, Vid, 1, Data, Pad).
%% pack/7
pack(Code, Flags, Sz, VId, V, Data, Pad) ->
[<<Code:32, Flags:8, (8+Sz):24, VId:V/unit:32>>, Data, <<0:Pad/unit:8>>].
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