diff options
Diffstat (limited to 'lib/diameter/src/base')
-rw-r--r-- | lib/diameter/src/base/diameter.erl | 1 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_capx.erl | 89 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_codec.erl | 524 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_config.erl | 62 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_dict.erl | 154 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_gen.erl | 709 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_lib.erl | 31 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_peer_fsm.erl | 223 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_reg.erl | 2 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_service.erl | 196 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_traffic.erl | 1210 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_types.erl | 300 | ||||
-rw-r--r-- | lib/diameter/src/base/diameter_watchdog.erl | 183 |
13 files changed, 2070 insertions, 1614 deletions
diff --git a/lib/diameter/src/base/diameter.erl b/lib/diameter/src/base/diameter.erl index 253f64133c..bd92e16fba 100644 --- a/lib/diameter/src/base/diameter.erl +++ b/lib/diameter/src/base/diameter.erl @@ -406,4 +406,5 @@ call(SvcName, App, Message) -> :: {extra, list()} | {filter, peer_filter()} | {timeout, 'Unsigned32'()} + | {peer, peer_ref()} | detach. diff --git a/lib/diameter/src/base/diameter_capx.erl b/lib/diameter/src/base/diameter_capx.erl index 07a678c617..62b05644b2 100644 --- a/lib/diameter/src/base/diameter_capx.erl +++ b/lib/diameter/src/base/diameter_capx.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2010-2015. All Rights Reserved. +%% 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. @@ -94,6 +94,9 @@ recv_CER(CER, Svc, Dict) -> recv_CEA(CEA, Svc, Dict) -> try_it([fun rCEA/3, CEA, Svc, Dict]). +-spec make_caps(#diameter_caps{}, [{atom(), term()}]) + -> tried(#diameter_caps{}). + make_caps(Caps, Opts) -> try_it([fun mk_caps/2, Caps, Opts]). @@ -110,31 +113,20 @@ try_it([Fun | Args]) -> %% mk_caps/2 mk_caps(Caps0, Opts) -> - {Caps, _} = lists:foldl(fun set_cap/2, - {Caps0, #diameter_caps{_ = false}}, - Opts), - Caps. - --define(SC(K,F), - set_cap({K, Val}, {Caps, #diameter_caps{F = false} = C}) -> - {Caps#diameter_caps{F = cap(K, copy(Val))}, - C#diameter_caps{F = true}}). - -?SC('Origin-Host', origin_host); -?SC('Origin-Realm', origin_realm); -?SC('Host-IP-Address', host_ip_address); -?SC('Vendor-Id', vendor_id); -?SC('Product-Name', product_name); -?SC('Origin-State-Id', origin_state_id); -?SC('Supported-Vendor-Id', supported_vendor_id); -?SC('Auth-Application-Id', auth_application_id); -?SC('Inband-Security-Id', inband_security_id); -?SC('Acct-Application-Id', acct_application_id); -?SC('Vendor-Specific-Application-Id', vendor_specific_application_id); -?SC('Firmware-Revision', firmware_revision); - -set_cap({Key, _}, _) -> - ?THROW({duplicate, Key}). + Fields = diameter_gen_base_rfc3588:'#info-'(diameter_base_CER, fields), + Defs = lists:zip(Fields, tl(tuple_to_list(Caps0))), + Unset = maps:from_list([{F, true} || F <- lists:droplast(Fields)]), %% no 'AVP' + {Caps, _} = lists:foldl(fun set_cap/2, {Defs, Unset}, Opts), + #diameter_caps{} = list_to_tuple([diameter_caps | [V || {_,V} <- Caps]]). + +set_cap({F,V}, {Caps, Unset}) -> + case Unset of + #{F := true} -> + {lists:keyreplace(F, 1, Caps, {F, cap(F, copy(V))}), + maps:remove(F, Unset)}; + _ -> + ?THROW({duplicate, F}) + end. cap(K, V) when K == 'Origin-Host'; @@ -349,7 +341,7 @@ cs(LS, RS) -> cea_from_cer(CER, Dict) -> RecName = Dict:msg2rec('CEA'), [_ | Values] = Dict:'#get-'(CER), - Dict:'#set-'(Values, Dict:'#new-'(RecName)). + Dict:'#new-'([RecName | Values]). %% rCEA/3 @@ -424,7 +416,48 @@ bcaps(N, Caps) -> %% common_applications/3 %% %% Identify the (local) applications to be supported on the connection -%% in question. +%% in question. The RFC says this: +%% +%% 2.4 Application Identifiers +%% +%% Relay and redirect agents MUST advertise the Relay Application ID, +%% while all other Diameter nodes MUST advertise locally supported +%% applications. +%% +%% Taken literally, every Diameter node should then advertise support +%% for the Diameter common messages application, with id 0, since no +%% node can perform capabilities exchange without it. Expecting this, +%% or regarding the support as implicit, renders the Result-Code 5010 +%% (DIAMETER_NO_COMMON_APPLICATION) meaningless however, since every +%% node would regard the common application as being in common with +%% the peer. In practice, nodes may or may not advertise support for +%% Diameter common messages. +%% +%% That only explicitly advertised applications should be considered +%% when computing the intersection with the peer is supported here: +%% +%% 5.3. Capabilities Exchange +%% +%% The receiver of the Capabilities-Exchange-Request (CER) MUST +%% determine common applications by computing the intersection of its +%% own set of supported Application Ids against all of the +%% Application-Id AVPs (Auth-Application-Id, Acct-Application-Id, and +%% Vendor-Specific-Application-Id) present in the CER. +%% +%% The same section also has the following about capabilities exchange +%% messages. +%% +%% The receiver only issues commands to its peers that have advertised +%% support for the Diameter application that defines the command. +%% +%% This statement is also difficult to interpret literally since it +%% would disallow D[WP]R and more when Diameter common messages isn't +%% advertised. In practice, diameter lets requests be sent as long as +%% there's a dictionary configured to support it, peer selection by +%% advertised application being possible to preempt by passing +%% candidate peers directly to diameter:call/4. The peer can always +%% answer 3001 (DIAMETER_COMMAND_UNSUPPORTED) or 3007 +%% (DIAMETER_APPLICATION_UNSUPPORTED) if this is objectionable. common_applications(LCaps, RCaps, #diameter_service{applications = Apps}) -> LA = app_union(LCaps), diff --git a/lib/diameter/src/base/diameter_codec.erl b/lib/diameter/src/base/diameter_codec.erl index 1ea5357924..82fa796e69 100644 --- a/lib/diameter/src/base/diameter_codec.erl +++ b/lib/diameter/src/base/diameter_codec.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2010-2015. All Rights Reserved. +%% 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. @@ -20,11 +20,8 @@ -module(diameter_codec). --export([encode/2, - decode/2, - decode/3, - setopts/1, - getopt/1, +-export([encode/2, encode/3, + decode/2, decode/3, decode/4, collect_avps/1, decode_header/1, sequence_numbers/1, @@ -33,13 +30,17 @@ msg_id/1]). %% Towards generated encoders (from diameter_gen.hrl). --export([pack_avp/1, +-export([pack_data/2, pack_avp/2]). -include_lib("diameter/include/diameter.hrl"). -include("diameter_internal.hrl"). --define(MASK(N,I), ((I) band (1 bsl (N)))). +-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. @@ -62,62 +63,29 @@ %% +-+-+-+-+-+-+-+-+-+-+-+-+- %%% --------------------------------------------------------------------------- -%%% # setopts/1 -%%% # getopt/1 +%%% # encode/2 %%% --------------------------------------------------------------------------- -%% These functions are a compromise in the same vein as the use of the -%% process dictionary in diameter_gen.hrl in generated codec modules. -%% Instead of rewriting the entire dictionary generation to pass -%% encode/decode options around, the calling process sets them by -%% calling setopts/1. At current, the only option is whether or not to -%% decode binaries as strings, which is used by diameter_types. - -setopts(Opts) - when is_list(Opts) -> - lists:foreach(fun setopt/1, Opts). - -%% The default string_decode true is for backwards compatibility. -setopt({K, false = B}) - when K == string_decode; - K == strict_mbit -> - setopt(K, B); - -%% Regard anything but the generated RFC 3588 dictionary as modern. -%% This affects the interpretation of defaults during the decode -%% of values of type DiameterURI, this having changed from RFC 3588. -%% (So much for backwards compatibility.) -setopt({common_dictionary, diameter_gen_base_rfc3588}) -> - setopt(rfc, 3588); - -setopt(_) -> - ok. - -setopt(Key, Value) -> - put({diameter, Key}, Value). - -getopt(Key) -> - case get({diameter, Key}) of - undefined when Key == string_decode; - Key == strict_mbit -> - true; - undefined when Key == rfc -> - 6733; - V -> - V - end. +%% 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/2 +%%% # encode/3 %%% --------------------------------------------------------------------------- --spec encode(module(), Msg :: term()) +-spec encode(module(), + map(), + Msg :: term()) -> #diameter_packet{} | no_return(). -encode(Mod, #diameter_packet{} = Pkt) -> +encode(Mod, Opts, #diameter_packet{} = Pkt) -> try - e(Mod, Pkt) + enc(Mod, Opts, Pkt) catch exit: {Reason, Stack, #diameter_header{} = H} = T -> %% Exit with a header in the reason to let the caller @@ -130,91 +98,97 @@ encode(Mod, #diameter_packet{} = Pkt) -> exit({?MODULE, encode, T}) end; -encode(Mod, Msg) -> +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, #diameter_packet{header = Hdr, - msg = Msg}). + encode(Mod, Opts, #diameter_packet{header = Hdr, + msg = Msg}). + +%% enc/3 -e(_, #diameter_packet{msg = [#diameter_header{} = Hdr | As]} = Pkt) -> - try encode_avps(reorder(As)) of +enc(_, Opts, #diameter_packet{msg = [#diameter_header{} = Hdr | As]} + = Pkt) -> + try encode_avps(reorder(As), Opts) of Avps -> - Length = size(Avps) + 20, + 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, - Flags = make_flags(0, Hdr), - Pkt#diameter_packet{header = Hdr, - bin = <<Vsn:8, Length:24, - Flags:8, Code:24, + bin = <<Vsn:8, Len:24, + ?FLAGS(R,P,E,T), Code:24, Aid:32, Hid:32, Eid:32, - Avps/binary>>} + Bin/binary>>} catch error: Reason -> exit({Reason, diameter_lib:get_stacktrace(), Hdr}) end; -e(Mod, #diameter_packet{header = Hdr0, msg = Msg} = Pkt) -> +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, - MsgName = rec2msg(Mod, Msg), - {Code, Flags0, Aid} = msg_header(Mod, MsgName, Hdr0), - Flags = make_flags(Flags0, Hdr0), - Hdr = Hdr0#diameter_header{cmd_code = Code, - application_id = Aid, - is_request = 0 /= ?MASK(7, Flags), - is_proxiable = 0 /= ?MASK(6, Flags), - is_error = 0 /= ?MASK(5, Flags), - is_retransmitted = 0 /= ?MASK(4, Flags)}, + 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) of + try encode_avps(Mod, MsgName, Values, Opts) of Avps -> - Length = size(Avps) + 20, - Pkt#diameter_packet{header = Hdr#diameter_header{length = Length}, - bin = <<Vsn:8, Length:24, - Flags:8, Code:24, + 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, - Avps/binary>>} + 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. -%% make_flags/2 - -make_flags(Flags0, #diameter_header{is_request = R, - is_proxiable = P, - is_error = E, - is_retransmitted = T}) -> - {Flags, 3} = lists:foldl(fun(B,{F,N}) -> {mf(B,F,N), N-1} end, - {Flags0, 7}, - [R,P,E,T]), - Flags. - -mf(undefined, F, _) -> - F; -mf(B, F, N) -> %% reset the affected bit - (F bxor (F band (1 bsl N))) bor bit(B, N). - -bit(true, N) -> 1 bsl N; -bit(false, _) -> 0. - %% values/1 values([H|T]) @@ -223,7 +197,7 @@ values([H|T]) values(Avps) -> Avps. -%% encode_avps/3 +%% 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 @@ -231,12 +205,12 @@ values(Avps) -> %% these have to be able to resend whatever comes. %% Message as a list of #diameter_avp{} ... -encode_avps(_, _, [#diameter_avp{} | _] = Avps) -> - encode_avps(reorder(Avps)); +encode_avps(_, _, [#diameter_avp{} | _] = Avps, Opts) -> + encode_avps(reorder(Avps), Opts); %% ... or as a tuple list or record. -encode_avps(Mod, MsgName, Values) -> - Mod:encode_avps(MsgName, Values). +encode_avps(Mod, MsgName, Values, Opts) -> + Mod:encode_avps(MsgName, Values, Opts). %% reorder/1 %% @@ -277,10 +251,10 @@ reorder([H | T], Acc) -> reorder([], _) -> false. -%% encode_avps/1 +%% encode_avps/2 -encode_avps(Avps) -> - list_to_binary(lists:map(fun pack_avp/1, Avps)). +encode_avps(Avps, Opts) -> + [pack_avp(A, Opts) || A <- Avps]. %% msg_header/3 @@ -308,38 +282,50 @@ rec2msg(Mod, 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 = #{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()}, #diameter_packet{} | binary()) +-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, and the best way to make -%% this available to the AVP decode in diameter_gen.hrl, without -%% having to rewrite the entire codec generation, is to place it in -%% the process dictionary. It's the code in diameter_gen.hrl (that's -%% included by every generated codec module) that looks for the entry. -%% Not ideal, but it solves the problem relatively simply. -decode({Mod, Mod}, Pkt) -> - decode(Mod, Pkt); -decode({Mod, AppMod}, Pkt) -> - Key = {?MODULE, dictionary}, - put(Key, AppMod), - try - decode(Mod, Pkt) - after - erase(Key) - end; +%% 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, Pkt) -> - decode(Mod:id(), Mod, Pkt). +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/3 +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) -> +decode(?APP_ID_RELAY, _, _, _, #diameter_packet{} = Pkt) -> case collect_avps(Pkt) of {E, As} -> Pkt#diameter_packet{avps = As, @@ -349,7 +335,7 @@ decode(?APP_ID_RELAY, _, #diameter_packet{} = Pkt) -> end; %% Otherwise decode using the dictionary. -decode(_, Mod, #diameter_packet{header = Hdr} = Pkt) -> +decode(_, Mod, AppMod, Opts, #diameter_packet{header = Hdr} = Pkt) -> #diameter_header{cmd_code = CmdCode, is_request = IsRequest, is_error = IsError} @@ -361,29 +347,33 @@ decode(_, Mod, #diameter_packet{header = Hdr} = Pkt) -> Mod:msg_name(CmdCode, IsRequest) end, - decode_avps(MsgName, Mod, Pkt, collect_avps(Pkt)); + decode_avps(MsgName, Mod, AppMod, Opts, Pkt, collect_avps(Pkt)); -decode(Id, Mod, Bin) +decode(Id, Mod, AppMod, Opts, Bin) when is_binary(Bin) -> - decode(Id, Mod, #diameter_packet{header = decode_header(Bin), bin = Bin}). + decode(Id, Mod, AppMod, Opts, #diameter_packet{header = decode_header(Bin), + bin = Bin}). -%% decode_avps/4 +%% decode_avps/6 -decode_avps(MsgName, Mod, Pkt, {E, Avps}) -> +decode_avps(MsgName, Mod, AppMod, Opts, Pkt, {E, Avps}) -> ?LOG(invalid_avp_length, Pkt#diameter_packet.header), #diameter_packet{errors = Failed} = P - = decode_avps(MsgName, Mod, Pkt, Avps), + = decode_avps(MsgName, Mod, AppMod, Opts, Pkt, Avps), P#diameter_packet{errors = [E | Failed]}; -decode_avps('', _, Pkt, Avps) -> %% unknown message ... +decode_avps('', _, _, _, Pkt, Avps) -> %% unknown message ... ?LOG(unknown_message, Pkt#diameter_packet.header), Pkt#diameter_packet{avps = lists:reverse(Avps), errors = [3001]}; %% DIAMETER_COMMAND_UNSUPPORTED %% msg = undefined identifies this case. -decode_avps(MsgName, Mod, Pkt, Avps) -> %% ... or not - {Rec, As, Errors} = Mod:decode_avps(MsgName, Avps), +decode_avps(MsgName, Mod, AppMod, Opts, Pkt, Avps) -> %% ... or not + {Rec, As, Errors} = Mod:decode_avps(MsgName, + Avps, + Opts#{dictionary => AppMod, + failed_avp => false}), ?LOGC([] /= Errors, decode_errors, Pkt#diameter_packet.header), Pkt#diameter_packet{msg = Rec, errors = Errors, @@ -399,14 +389,12 @@ decode_avps(MsgName, Mod, Pkt, Avps) -> %% ... or not decode_header(<<Version:8, MsgLength:24, - CmdFlags:1/binary, + R:1, P:1, E:1, T:1, _:4, CmdCode:24, ApplicationId:32, HopByHopId:32, EndToEndId:32, _/binary>>) -> - <<R:1, P:1, E:1, T:1, _:4>> - = CmdFlags, %% 3588 (ch 3) says that reserved bits MUST be set to 0 and ignored %% by the receiver. @@ -518,7 +506,7 @@ msg_id(#diameter_packet{header = #diameter_header{} = Hdr}) -> msg_id(#diameter_header{application_id = A, cmd_code = C, is_request = R}) -> - {A, C, if R -> 1; true -> 0 end}; + {A, C, ?BIT(R)}; msg_id(<<_:32, Rbit:1, _:7, CmdCode:24, ApplId:32, _/binary>>) -> {ApplId, CmdCode, Rbit}. @@ -537,24 +525,14 @@ msg_id(<<_:32, Rbit:1, _:7, CmdCode:24, ApplId:32, _/binary>>) -> when Avp :: #diameter_avp{}, Error :: {5014, #diameter_avp{}}. -collect_avps(#diameter_packet{bin = Bin}) -> - <<_:20/binary, Avps/binary>> = Bin, - collect_avps(Avps); +collect_avps(#diameter_packet{bin = <<_:20/binary, Avps/binary>>}) -> + collect_avps(Avps, 0, []); collect_avps(Bin) when is_binary(Bin) -> collect_avps(Bin, 0, []). -collect_avps(<<>>, _, Acc) -> - Acc; -collect_avps(Bin, N, Acc) -> - try split_avp(Bin) of - {Rest, AVP} -> - collect_avps(Rest, N+1, [AVP#diameter_avp{index = N} | Acc]) - catch - ?FAILURE(Error) -> - {Error, Acc} - end. +%% collect_avps/3 %% 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 @@ -568,32 +546,65 @@ collect_avps(Bin, N, Acc) -> %% | Data ... %% +-+-+-+-+-+-+-+-+ -%% split_avp/1 +collect_avps(<<Code:32, V:1, M:1, P:1, _:5, Len:24, I:V/unit:32, Rest/binary>>, + N, + Acc) -> + collect_avps(Code, + if 1 == V -> I; 0 == V -> undefined end, + 1 == M, + 1 == P, + Len - 8 - V*4, %% Might be negative, which ensures + ?PAD(Len), %% failure of the Data match below. + Rest, + N, + Acc); -split_avp(Bin) -> - {Code, V, M, P, Len, HdrLen} = split_head(Bin), - - <<_:HdrLen/binary, Rest/binary>> = Bin, - {Data, B} = split_data(Rest, Len - HdrLen), - - {B, #diameter_avp{code = Code, - vendor_id = V, - is_mandatory = 1 == M, - need_encryption = 1 == P, - data = Data}}. - -%% split_head/1 - -split_head(<<Code:32, 1:1, M:1, P:1, _:5, Len:24, V:32, _/binary>>) -> - {Code, V, M, P, Len, 12}; +collect_avps(<<>>, _, Acc) -> + Acc; -split_head(<<Code:32, 0:1, M:1, P:1, _:5, Len:24, _/binary>>) -> - {Code, undefined, M, P, Len, 8}; +%% Header is truncated. pack_avp/1 will pad this at encode if sent in +%% a Failed-AVP. +collect_avps(Bin, _, Acc) -> + {{5014, #diameter_avp{data = Bin}}, Acc}. + +%% collect_avps/9 + +%% Duplicate the diameter_avp creation in each branch below to avoid +%% modifying the record, which profiling has shown to be a relatively +%% costly part of building the list. + +collect_avps(Code, VendorId, M, P, Len, Pad, Rest, N, Acc) -> + case Rest of + <<Data:Len/binary, _:Pad/binary, T/binary>> -> + Avp = #diameter_avp{code = Code, + vendor_id = VendorId, + is_mandatory = M, + need_encryption = P, + data = Data, + index = N}, + collect_avps(T, N+1, [Avp | Acc]); + _ -> + %% Length in header points past the end of the message, or + %% doesn't span the header. As stated in the 6733 text + %% above, it's sufficient to return a zero-filled minimal + %% payload if this is a request. Do this (in cases that we + %% know the type) by inducing a decode failure and letting + %% the dictionary's decode (in diameter_gen) deal with it. + %% + %% Note that the extra bit 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. + Avp = #diameter_avp{code = Code, + vendor_id = VendorId, + is_mandatory = M, + need_encryption = P, + data = {5014, Rest}, + index = N}, + [Avp | Acc] + end. -%% Header is truncated. -split_head(Bin) -> - ?THROW({5014, #diameter_avp{data = Bin}}). -%% Note that pack_avp/1 will pad this at encode if sent in a Failed-AVP. %% 3588: %% @@ -626,35 +637,8 @@ split_head(Bin) -> %% the minimum value mean we might not know the identity of the AVP and %% (2) the last sentence covers this case. -%% split_data/3 - -split_data(Bin, Len) -> - Pad = (4 - (Len rem 4)) rem 4, - - %% Len might be negative here, but that ensures the failure of the - %% binary match. - - case Bin of - <<Data:Len/binary, _:Pad/binary, Rest/binary>> -> - {Data, Rest}; - _ -> - %% Header length points past the end of the message, or - %% doesn't span the header. As stated in the 6733 text - %% above, it's sufficient to return a zero-filled minimal - %% payload if this is a request. Do this (in cases that we - %% know the type) by inducing a decode failure and letting - %% the dictionary's decode (in diameter_gen) deal with it. - %% - %% Note that the extra bit 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, since we don't know the types of the AVPs - %% being extracted. - {<<0:1, Bin/binary>>, <<>>} - end. - %%% --------------------------------------------------------------------------- -%%% # pack_avp/1 +%%% # pack_avp/2 %%% --------------------------------------------------------------------------- %% The normal case here is data as an #diameter_avp{} list or an @@ -664,104 +648,96 @@ split_data(Bin, Len) -> %% Decoded Grouped AVP with decoded components: ignore components %% since they're already encoded in the Grouped AVP. -pack_avp([#diameter_avp{} = Grouped | _Components]) -> - pack_avp(Grouped); +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) -> - pack_avp(Grouped#diameter_avp{data = encode_avps(Components)}); +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) +pack_avp(#diameter_avp{data = {Type, Value}} = A, Opts) when is_atom(Type) -> - pack_avp(A#diameter_avp{data = diameter_types:Type(encode, Value)}); + pack_data(A, diameter_types:Type(encode, Value, Opts)); %% ... with a header in various forms ... -pack_avp(#diameter_avp{data = {{_,_,_} = T, {Type, Value}}}) -> - pack_avp(T, iolist_to_binary(diameter_types:Type(encode, Value))); +pack_avp(#diameter_avp{data = {T, {Type, Value}}}, Opts) -> + pack_data(T, diameter_types:Type(encode, Value, Opts)); -pack_avp(#diameter_avp{data = {{_,_,_} = T, Bin}}) - when is_binary(Bin) -> - pack_avp(T, Bin); +pack_avp(#diameter_avp{data = {T, Data}}, _) -> + pack_data(T, Data); -pack_avp(#diameter_avp{data = {Dict, Name, Value}} = A) -> - {Code, _Flags, Vid} = Hdr = Dict:avp_header(Name), - {Name, Type} = Dict:avp_name(Code, Vid), - pack_avp(A#diameter_avp{data = {Hdr, {Type, Value}}}); +pack_avp(#diameter_avp{data = {Dict, Name, Data}}, Opts) -> + pack_data(Dict:avp_header(Name), Dict:avp(encode, Data, Name, Opts)); %% ... with a truncated header ... -pack_avp(#diameter_avp{code = undefined, data = B}) +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. - Pad = 8*header_length(B) - bit_size(B), - Len = size(<<H:5/binary, _:24, T/binary>> = <<B/binary, 0:Pad>>), - <<H/binary, Len:24, T/binary>>; - -%% ... when ignoring errors in Failed-AVP ... -%% ... during a relay encode ... -pack_avp(#diameter_avp{data = <<0:1, B/binary>>} = A) -> - pack_avp(A#diameter_avp{data = B}); - -%% ... or as an iolist. -pack_avp(#diameter_avp{code = Code, - vendor_id = V, - is_mandatory = M, - need_encryption = P, - data = Data}) -> - Flags = lists:foldl(fun flag_avp/2, 0, [{V /= undefined, 2#10000000}, - {M, 2#01000000}, - {P, 2#00100000}]), - pack_avp({Code, Flags, V}, iolist_to_binary(Data)). - -header_length(<<_:32, 1:1, _/bitstring>>) -> + %% 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. -flag_avp({true, B}, F) -> - F bor B; -flag_avp({false, _}, F) -> - F. - %%% --------------------------------------------------------------------------- -%%% # pack_avp/2 +%%% # pack_data/2 %%% --------------------------------------------------------------------------- -pack_avp({Code, Flags, VendorId}, Bin) - when is_binary(Bin) -> - Sz = size(Bin), - pack_avp(Code, Flags, VendorId, Sz, pad(Sz rem 4, Bin)). - -pad(0, Bin) -> - Bin; -pad(N, Bin) -> - P = 8*(4-N), - <<Bin/binary, 0:P>>. -%% Note that padding is not included in the length field as mandated by -%% the RFC. - -%% pack_avp/5 +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_avp(Code, Flags, Vid, Sz, Bin) +pack(Code, Flags, Sz, _Vid, Data, Pad) when 0 == Flags band 2#10000000 -> - undefined = Vid, %% sanity check - pack_avp(Code, Flags, Sz, Bin); + pack(Code, Flags, Sz, 0, 0, Data, Pad); -pack_avp(Code, Flags, Vid, Sz, Bin) -> - pack_avp(Code, Flags, Sz+4, <<Vid:32, Bin/binary>>). +pack(Code, Flags, Sz, Vid, Data, Pad) -> + pack(Code, Flags, Sz+4, Vid, 1, Data, Pad). -%% pack_avp/4 +%% pack/7 -pack_avp(Code, Flags, Sz, Bin) -> - Length = Sz + 8, - <<Code:32, Flags:8, Length:24, Bin/binary>>. +pack(Code, Flags, Sz, VId, V, Data, Pad) -> + [<<Code:32, Flags:8, (8+Sz):24, VId:V/unit:32>>, Data, <<0:Pad/unit:8>>]. diff --git a/lib/diameter/src/base/diameter_config.erl b/lib/diameter/src/base/diameter_config.erl index e10804c931..34018ae6d3 100644 --- a/lib/diameter/src/base/diameter_config.erl +++ b/lib/diameter/src/base/diameter_config.erl @@ -277,7 +277,7 @@ start_link() -> start_link(T) -> proc_lib:start_link(?MODULE, init, [T], infinity, []). - + state() -> call(state). @@ -535,12 +535,12 @@ stop(SvcName) -> %% restrict applications so that that there's one while the service %% has many. -add(SvcName, Type, Opts) -> +add(SvcName, Type, Opts0) -> %% Ensure acceptable transport options. This won't catch all %% possible errors (faulty callbacks for example) but it catches %% many. diameter_service:merge_service/2 depends on usable %% capabilities for example. - ok = transport_opts(Opts), + Opts = transport_opts(Opts0), Ref = make_ref(), true = diameter_reg:add_new(?TRANSPORT_KEY(Ref)), @@ -560,7 +560,17 @@ add(SvcName, Type, Opts) -> end. transport_opts(Opts) -> - lists:foreach(fun(T) -> opt(T) orelse ?THROW({invalid, T}) end, Opts). + lists:map(fun topt/1, Opts). + +topt(T) -> + case opt(T) of + {value, X} -> + X; + true -> + T; + false -> + ?THROW({invalid, T}) + end. opt({transport_module, M}) -> is_atom(M); @@ -600,8 +610,15 @@ opt({watchdog_timer, Tmo}) -> opt({watchdog_config, L}) -> is_list(L) andalso lists:all(fun wdopt/1, L); -opt({spawn_opt, Opts}) -> - is_list(Opts); +opt({spawn_opt, {M,F,A}}) + when is_atom(M), is_atom(F), is_list(A) -> + true; +opt({spawn_opt = K, Opts}) -> + if is_list(Opts) -> + {value, {K, spawn_opts(Opts)}}; + true -> + false + end; opt({pool_size, N}) -> is_integer(N) andalso 0 < N; @@ -676,7 +693,7 @@ stop_transport(SvcName, Refs) -> make_config(SvcName, Opts) -> AppOpts = [T || {application, _} = T <- Opts], - Apps = init_apps(AppOpts), + Apps = [init_app(T) || T <- AppOpts], [] == Apps andalso ?THROW(no_apps), @@ -725,9 +742,13 @@ opt(incoming_maxlen, N) when 0 =< N, N < 1 bsl 24 -> N; +opt(spawn_opt, {M,F,A} = T) + when is_atom(M), is_atom(F), is_list(A) -> + T; + opt(spawn_opt, L) when is_list(L) -> - L; + spawn_opts(L); opt(K, false = B) when K == share_peers; @@ -789,6 +810,9 @@ opt(sequence = K, F) -> opt(K, _) -> ?THROW({value, K}). +spawn_opts(L) -> + [T || T <- L, T /= link, T /= monitor]. + sequence({H,N} = T) when 0 =< N, N =< 32, 0 =< H, 0 == H bsr (32-N) -> T; @@ -822,10 +846,7 @@ encode_CER(Opts) -> ?THROW(Reason) end. -init_apps(Opts) -> - lists:foldl(fun app_acc/2, [], lists:reverse(Opts)). - -app_acc({application, Opts} = T, Acc) -> +init_app({application, Opts} = T) -> is_list(Opts) orelse ?THROW(T), [Dict, Mod] = get_opt([dictionary, module], Opts), @@ -834,15 +855,14 @@ app_acc({application, Opts} = T, Acc) -> M = get_opt(call_mutates_state, Opts, false, [true]), A = get_opt(answer_errors, Opts, discard, [callback, report]), P = get_opt(request_errors, Opts, answer_3xxx, [answer, callback]), - [#diameter_app{alias = Alias, - dictionary = Dict, - id = cb(Dict, id), - module = init_mod(Mod), - init_state = ModS, - mutable = M, - options = [{answer_errors, A}, - {request_errors, P}]} - | Acc]. + #diameter_app{alias = Alias, + dictionary = Dict, + id = cb(Dict, id), + module = init_mod(Mod), + init_state = ModS, + mutable = M, + options = [{answer_errors, A}, + {request_errors, P}]}. init_mod(#diameter_callback{} = R) -> init_mod([diameter_callback, R]); diff --git a/lib/diameter/src/base/diameter_dict.erl b/lib/diameter/src/base/diameter_dict.erl deleted file mode 100644 index 7db294a1b1..0000000000 --- a/lib/diameter/src/base/diameter_dict.erl +++ /dev/null @@ -1,154 +0,0 @@ -%% -%% %CopyrightBegin% -%% -%% Copyright Ericsson AB 2010-2016. 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% -%% - -%% -%% This module provide OTP's dict interface built on top of ets. -%% -%% Note that while the interface is the same as dict the semantics -%% aren't quite. A Dict here is just a table identifier (although -%% this fact can't be used if you want dict/ets-based implementations -%% to be interchangeable) so changes made to the Dict modify the -%% underlying table. For merge/3, the first argument table is modified. -%% -%% The underlying ets table implementing a dict is deleted when the -%% process from which new() was invoked exits and the dict is only -%% writable from this process. -%% -%% The reason for this is to be able to swap dict/ets-based -%% implementations: the former is easier to debug, the latter is -%% faster for larger tables. It's also just a nice interface even -%% when there's no need for swapability. -%% - --module(diameter_dict). - --export([append/3, - append_list/3, - erase/2, - fetch/2, - fetch_keys/1, - filter/2, - find/2, - fold/3, - from_list/1, - is_key/2, - map/2, - merge/3, - new/0, - store/3, - to_list/1, - update/3, - update/4, - update_counter/3]). - -%%% ---------------------------------------------------------- -%%% EXPORTED INTERNAL FUNCTIONS -%%% ---------------------------------------------------------- - -append(Key, Value, Dict) -> - append_list(Key, [Value], Dict). - -append_list(Key, ValueList, Dict) - when is_list(ValueList) -> - update(Key, fun(V) -> V ++ ValueList end, ValueList, Dict). - -erase(Key, Dict) -> - ets:delete(Dict, Key), - Dict. - -fetch(Key, Dict) -> - {ok, V} = find(Key, Dict), - V. - -fetch_keys(Dict) -> - ets:foldl(fun({K,_}, Acc) -> [K | Acc] end, [], Dict). - -filter(Pred, Dict) -> - lists:foreach(fun({K,V}) -> filter(Pred(K,V), K, Dict) end, to_list(Dict)), - Dict. - -find(Key, Dict) -> - case ets:lookup(Dict, Key) of - [{Key, V}] -> - {ok, V}; - [] -> - error - end. - -fold(Fun, Acc0, Dict) -> - ets:foldl(fun({K,V}, Acc) -> Fun(K, V, Acc) end, Acc0, Dict). - -from_list(List) -> - lists:foldl(fun store/2, new(), List). - -is_key(Key, Dict) -> - ets:member(Dict, Key). - -map(Fun, Dict) -> - lists:foreach(fun({K,V}) -> store(K, Fun(K,V), Dict) end, to_list(Dict)), - Dict. - -merge(Fun, Dict1, Dict2) -> - fold(fun(K2,V2,_) -> - update(K2, fun(V1) -> Fun(K2, V1, V2) end, V2, Dict1) - end, - Dict1, - Dict2). - -new() -> - ets:new(?MODULE, [set]). - -store(Key, Value, Dict) -> - store({Key, Value}, Dict). - -to_list(Dict) -> - ets:tab2list(Dict). - -update(Key, Fun, Dict) -> - store(Key, Fun(fetch(Key, Dict)), Dict). - -update(Key, Fun, Initial, Dict) -> - store(Key, map(Key, Fun, Dict, Initial), Dict). - -update_counter(Key, Increment, Dict) - when is_integer(Increment) -> - update(Key, fun(V) -> V + Increment end, Increment, Dict). - -%%% --------------------------------------------------------- -%%% INTERNAL FUNCTIONS -%%% --------------------------------------------------------- - -store({_,_} = T, Dict) -> - ets:insert(Dict, T), - Dict. - -filter(true, _, _) -> - ok; -filter(false, K, Dict) -> - erase(K, Dict). - -map(Key, Fun, Dict, Error) -> - case find(Key, Dict) of - {ok, V} -> - Fun(V); - error -> - Error - end. - diff --git a/lib/diameter/src/base/diameter_gen.erl b/lib/diameter/src/base/diameter_gen.erl new file mode 100644 index 0000000000..e832832876 --- /dev/null +++ b/lib/diameter/src/base/diameter_gen.erl @@ -0,0 +1,709 @@ +%% +%% %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% +%% + +%% +%% This file contains code that encode/decode modules generated by +%% diameter_codegen.erl calls to implement the functionality. This +%% code does most of the work, the generated code being kept simple. +%% + +-module(diameter_gen). + +-export([encode_avps/3, + decode_avps/3, + grouped_avp/4, + empty_group/2, + empty/2]). + +-include_lib("diameter/include/diameter.hrl"). + +-define(THROW(T), throw({?MODULE, T})). + +-type parent_name() :: atom(). %% parent = Message or AVP +-type parent_record() :: tuple(). %% +-type avp_name() :: atom(). +-type avp_record() :: tuple(). +-type avp_values() :: [{avp_name(), term()}]. + +-type non_grouped_avp() :: #diameter_avp{}. +-type grouped_avp() :: nonempty_improper_list(#diameter_avp{}, [avp()]). +-type avp() :: non_grouped_avp() | grouped_avp(). + +%% --------------------------------------------------------------------------- +%% # encode_avps/3 +%% --------------------------------------------------------------------------- + +-spec encode_avps(parent_name(), parent_record() | avp_values(), map()) + -> iolist() + | no_return(). + +encode_avps(Name, Vals, #{module := Mod} = Opts) -> + try + encode(Name, Vals, Opts, Mod) + catch + throw: {?MODULE, Reason} -> + diameter_lib:log({encode, error}, + ?MODULE, + ?LINE, + {Reason, Name, Vals, Mod}), + erlang:error(list_to_tuple(Reason ++ [Name])); + error: Reason -> + Stack = erlang:get_stacktrace(), + diameter_lib:log({encode, failure}, + ?MODULE, + ?LINE, + {Reason, Name, Vals, Mod, Stack}), + erlang:error({encode_failure, Reason, Name, Stack}) + end. + +%% encode/4 + +encode(Name, Vals, #{ordered_encode := false} = Opts, Mod) + when is_list(Vals) -> + lists:map(fun({F,V}) -> encode(Name, F, V, Opts, Mod) end, Vals); + +encode(Name, Vals, Opts, Mod) + when is_list(Vals) -> + encode(Name, Mod:'#set-'(Vals, newrec(Mod, Name)), Opts, Mod); + +encode(Name, Rec, Opts, Mod) -> + [encode(Name, F, V, Opts, Mod) || {F,V} <- Mod:'#get-'(Rec)]. + +%% encode/5 + +encode(Name, AvpName, Values, Opts, Mod) -> + enc(Name, AvpName, Mod:avp_arity(Name, AvpName), Values, Opts, Mod). + +%% enc/6 + +enc(_, AvpName, 1, undefined, _, _) -> + ?THROW([mandatory_avp_missing, AvpName]); + +enc(Name, AvpName, 1, Value, Opts, Mod) -> + enc(Name, AvpName, [Value], Opts, Mod); + +enc(_, _, {0,_}, [], _, _) -> + []; + +enc(_, AvpName, _, T, _, _) + when not is_list(T) -> + ?THROW([repeated_avp_as_non_list, AvpName, T]); + +enc(_, AvpName, {Min, _}, L, _, _) + when length(L) < Min -> + ?THROW([repeated_avp_insufficient_arity, AvpName, Min, L]); + +enc(_, AvpName, {_, Max}, L, _, _) + when Max < length(L) -> + ?THROW([repeated_avp_excessive_arity, AvpName, Max, L]); + +enc(Name, AvpName, _, Values, Opts, Mod) -> + enc(Name, AvpName, Values, Opts, Mod). + +%% enc/5 + +enc(Name, 'AVP', Values, Opts, Mod) -> + [enc_AVP(Name, A, Opts, Mod) || A <- Values]; + +enc(_, AvpName, Values, Opts, Mod) -> + enc(AvpName, Values, Opts, Mod). + +%% enc/4 + +enc(AvpName, Values, Opts, Mod) -> + H = Mod:avp_header(AvpName), + [diameter_codec:pack_data(H, Mod:avp(encode, V, AvpName, Opts)) + || V <- Values]. + +%% enc_AVP/4 + +%% No value: assume AVP data is already encoded. The normal case will +%% be when this is passed back from #diameter_packet.errors as a +%% consequence of a failed decode. Any AVP can be encoded this way +%% however, which side-steps any arity checks for known AVP's and +%% could potentially encode something unfortunate. +enc_AVP(_, #diameter_avp{value = undefined} = A, Opts, _) -> + diameter_codec:pack_avp(A, Opts); + +%% Missing name for value encode. +enc_AVP(_, #diameter_avp{name = N, value = V}, _, _) + when N == undefined; + N == 'AVP' -> + ?THROW([value_with_nameless_avp, N, V]); + +%% Or not. Ensure that 'AVP' is the appropriate field. Note that if we +%% don't know this AVP at all then the encode will fail. +enc_AVP(Name, #diameter_avp{name = AvpName, value = Data}, Opts, Mod) -> + 0 == Mod:avp_arity(Name, AvpName) + orelse ?THROW([known_avp_as_AVP, Name, AvpName, Data]), + enc(AvpName, [Data], Opts, Mod); + +%% The backdoor ... +enc_AVP(_, {AvpName, Value}, Opts, Mod) -> + enc(AvpName, [Value], Opts, Mod); + +%% ... and the side door. +enc_AVP(_Name, {_Dict, _AvpName, _Data} = T, Opts, _) -> + diameter_codec:pack_avp(#diameter_avp{data = T}, Opts). + +%% --------------------------------------------------------------------------- +%% # decode_avps/3 +%% --------------------------------------------------------------------------- + +-spec decode_avps(parent_name(), [#diameter_avp{}], map()) + -> {parent_record(), [avp()], Failed} + when Failed :: [{5000..5999, #diameter_avp{}}]. + +decode_avps(Name, Recs, #{module := Mod} = Opts) -> + {Avps, {Rec, Failed}} + = mapfoldl(fun(T,A) -> decode(Name, Opts, Mod, T, A) end, + {newrec(Mod, Name), []}, + Recs), + {Rec, Avps, Failed ++ missing(Rec, Name, Failed, Opts, Mod)}. +%% Append 5005 errors so that errors are reported in the order +%% encountered. Failed-AVP should typically contain the first +%% encountered error accordg to the RFC. + +%% mapfoldl/3 +%% +%% Like lists:mapfoldl/3, but don't reverse the list. + +mapfoldl(F, Acc, List) -> + mapfoldl(F, Acc, List, []). + +mapfoldl(F, Acc0, [T|Rest], List) -> + {B, Acc} = F(T, Acc0), + mapfoldl(F, Acc, Rest, [B|List]); +mapfoldl(_, Acc, [], List) -> + {List, Acc}. + +%% 3588: +%% +%% DIAMETER_MISSING_AVP 5005 +%% The request did not contain an AVP that is required by the Command +%% Code definition. If this value is sent in the Result-Code AVP, a +%% Failed-AVP AVP SHOULD be included in the message. The Failed-AVP +%% AVP MUST contain an example of the missing AVP complete with the +%% Vendor-Id if applicable. The value field of the missing AVP +%% should be of correct minimum length and contain zeros. + +missing(Rec, Name, Failed, Opts, Mod) -> + Avps = lists:foldl(fun({_, #diameter_avp{code = C, vendor_id = V}}, A) -> + maps:put({C,V}, true, A) + end, + maps:new(), + Failed), + missing(Mod:avp_arity(Name), tl(tuple_to_list(Rec)), Avps, Opts, Mod, []). + +missing([{Name, Arity} | As], [Value | Vs], Avps, Opts, Mod, Acc) -> + missing(As, + Vs, + Avps, + Opts, + Mod, + case + [H || missing_arity(Arity, Value), + {C,_,V} = H <- [Mod:avp_header(Name)], + not maps:is_key({C,V}, Avps)] + of + [H] -> + [{5005, empty_avp(Name, H, Opts, Mod)} | Acc]; + [] -> + Acc + end); + +missing([], [], _, _, _, Acc) -> + Acc. + +%% Maximum arities have already been checked in building the record. + +missing_arity(1, V) -> + V == undefined; +missing_arity({0, _}, _) -> + false; +missing_arity({1, _}, L) -> + [] == L; +missing_arity({Min, _}, L) -> + not has_prefix(Min, L). + +%% Compare a non-negative integer and the length of a list without +%% computing the length. +has_prefix(0, _) -> + true; +has_prefix(_, []) -> + false; +has_prefix(N, [_|L]) -> + has_prefix(N-1, L). + +%% empty_avp/4 + +empty_avp(Name, {Code, Flags, VId}, Opts, Mod) -> + {Name, Type} = Mod:avp_name(Code, VId), + #diameter_avp{name = Name, + code = Code, + vendor_id = VId, + is_mandatory = 0 /= (Flags band 2#01000000), + need_encryption = 0 /= (Flags band 2#00100000), + data = Mod:empty_value(Name, Opts), + type = Type}. + +%% 3588, ch 7: +%% +%% The Result-Code AVP describes the error that the Diameter node +%% encountered in its processing. In case there are multiple errors, +%% the Diameter node MUST report only the first error it encountered +%% (detected possibly in some implementation dependent order). The +%% specific errors that can be described by this AVP are described in +%% the following section. + +%% decode/5 + +decode(Name, + Opts, + Mod, + #diameter_avp{code = Code, vendor_id = Vid} + = Avp, + Acc) -> + decode(Name, Opts, Mod, Mod:avp_name(Code, Vid), Avp, Acc). + +%% decode/6 + +%% AVP not in dictionary. +decode(Name, Opts, Mod, 'AVP', Avp, Acc) -> + decode_AVP(Name, Avp, Opts, Mod, Acc); + +%% 6733, 4.4: +%% +%% Receivers of a Grouped AVP that does not have the 'M' (mandatory) +%% bit set and one or more of the encapsulated AVPs within the group +%% has the 'M' (mandatory) bit set MAY simply be ignored if the +%% Grouped AVP itself is unrecognized. The rule applies even if the +%% encapsulated AVP with its 'M' (mandatory) bit set is further +%% encapsulated within other sub-groups, i.e., other Grouped AVPs +%% embedded within the Grouped AVP. +%% +%% The first sentence is slightly mangled, but take it to mean this: +%% +%% An unrecognized AVP of type Grouped that does not set the 'M' bit +%% MAY be ignored even if one of its encapsulated AVPs sets the 'M' +%% bit. +%% +%% The text above is a change from RFC 3588, which instead says this: +%% +%% Further, if any of the AVPs encapsulated within a Grouped AVP has +%% the 'M' (mandatory) bit set, the Grouped AVP itself MUST also +%% include the 'M' bit set. +%% +%% Both of these texts have problems. If the AVP is unknown then its +%% type is unknown since the type isn't sent over the wire, so the +%% 6733 text becomes a non-statement: don't know that the AVP not +%% setting the M-bit is of type Grouped, therefore can't know that its +%% data consists of encapsulated AVPs, therefore can't but ignore that +%% one of these might set the M-bit. It should be no worse if we know +%% the AVP to have type Grouped. +%% +%% Similarly, for the 3588 text: if we receive an AVP that doesn't set +%% the M-bit and don't know that the AVP has type Grouped then we +%% can't realize that its data contains an AVP that sets the M-bit, so +%% can't regard the AVP as erroneous on this account. Again, it should +%% be no worse if the type is known to be Grouped, but in this case +%% the RFC forces us to regard the AVP as erroneous. This is +%% inconsistent, and the 3588 text has never been enforced. +%% +%% So, if an AVP doesn't set the M-bit then we're free to ignore it, +%% regardless of the AVP's type. If we know the type to be Grouped +%% then we must ignore the M-bit on an encapsulated AVP. That means +%% packing such an encapsulated AVP into an 'AVP' field if need be, +%% not regarding the lack of a specific field as an error as is +%% otherwise the case. (The lack of an AVP-specific field being how we +%% defined the RFC's "unrecognized", which is slightly stronger than +%% "not defined".) + +decode(Name, Opts0, Mod, {AvpName, Type}, Avp, Acc) -> + #diameter_avp{data = Data, is_mandatory = M} + = Avp, + + %% Whether or not to ignore an M-bit on an encapsulated AVP, or on + %% all AVPs with the service_opt() strict_mbit. + Opts1 = set_strict(Type, M, Opts0), + + %% Whether or not we're decoding within Failed-AVP and should + %% ignore decode errors. + #{dictionary := AppMod, failed_avp := Failed} + = Opts + = set_failed(Name, Opts1), %% Not AvpName or else a failed Failed-AVP + %% decode is packed into 'AVP'. + + %% Reset the dictionary for best-effort decode of Failed-AVP. + DecMod = if Failed -> + AppMod; + true -> + Mod + end, + + %% On decode, a Grouped AVP is represented as a #diameter_avp{} + %% list with AVP as head and component AVPs as tail. On encode, + %% data can be a list of component AVPs. + + try avp_decode(Data, AvpName, Opts, DecMod, Mod) of + {Rec, As} when Type == 'Grouped' -> + A = Avp#diameter_avp{name = AvpName, + value = Rec, + type = Type}, + {[A|As], pack_avp(Name, A, Opts, Mod, Acc)}; + + V when Type /= 'Grouped' -> + A = Avp#diameter_avp{name = AvpName, + value = V, + type = Type}, + {A, pack_avp(Name, A, Opts, Mod, Acc)} + catch + throw: {?MODULE, {grouped, Error, ComponentAvps}} -> + decode_error(Name, + Error, + ComponentAvps, + Opts, + Mod, + Avp#diameter_avp{name = AvpName, + data = trim(Avp#diameter_avp.data), + type = Type}, + Acc); + + error: Reason -> + decode_error(Name, + Reason, + Opts, + Mod, + Avp#diameter_avp{name = AvpName, + data = trim(Avp#diameter_avp.data), + type = Type}, + Acc) + end. + +%% avp_decode/5 + +avp_decode(Data, AvpName, Opts, Mod, Mod) -> + Mod:avp(decode, Data, AvpName, Opts); + +avp_decode(Data, AvpName, Opts, Mod, _) -> + Mod:avp(decode, Data, AvpName, Opts, Mod). + +%% trim/1 +%% +%% Remove any extra bit that was added in diameter_codec to induce a +%% 5014 error. + +trim(#diameter_avp{data = Data} = Avp) -> + Avp#diameter_avp{data = trim(Data)}; + +trim({5014, Bin}) -> + Bin; + +trim(Avps) + when is_list(Avps) -> + lists:map(fun trim/1, Avps); + +trim(Avp) -> + Avp. + +%% decode_error/7 + +decode_error(Name, [_ | Rec], _, #{failed_avp := true} = Opts, Mod, Avp, Acc) -> + decode_AVP(Name, Avp#diameter_avp{value = Rec}, Opts, Mod, Acc); + +decode_error(Name, _, _, #{failed_avp := true} = Opts, Mod, Avp, Acc) -> + decode_AVP(Name, Avp, Opts, Mod, Acc); + +decode_error(_, [Error | _], ComponentAvps, _, _, Avp, Acc) -> + decode_error(Error, Avp, Acc, ComponentAvps); + +decode_error(_, Error, ComponentAvps, _, _, Avp, Acc) -> + decode_error(Error, Avp, Acc, ComponentAvps). + +%% decode_error/5 + +decode_error(Name, _Reason, #{failed_avp := true} = Opts, Mod, Avp, Acc) -> + decode_AVP(Name, Avp, Opts, Mod, Acc); + +decode_error(Name, Reason, Opts, Mod, Avp, {Rec, Failed}) -> + Stack = diameter_lib:get_stacktrace(), + diameter_lib:log(decode_error, + ?MODULE, + ?LINE, + {Reason, Name, Avp#diameter_avp.name, Mod, Stack}), + {Avp, {Rec, [rc(Reason, Avp, Opts, Mod) | Failed]}}. + +%% decode_error/4 + +decode_error({RC, ErrorData}, Avp, {Rec, Failed}, ComponentAvps) -> + E = Avp#diameter_avp{data = [ErrorData]}, + {[Avp | trim(ComponentAvps)], {Rec, [{RC, E} | Failed]}}. + +%% set_strict/3 + +%% Set false as soon as we see a Grouped AVP that doesn't set the +%% M-bit, to ignore the M-bit on an encapsulated AVP. +set_strict('Grouped', false = M, #{strict_mbit := true} = Opts) -> + Opts#{strict_mbit := M}; +set_strict(_, _, Opts) -> + Opts. + +%% set_failed/2 +%% +%% Set true as soon as we see Failed-AVP. Matching on 'Failed-AVP' +%% assumes that this is the RFC AVP. Strictly, this doesn't need to be +%% the case. + +set_failed('Failed-AVP', #{failed_avp := false} = Opts) -> + Opts#{failed_avp := true}; +set_failed(_, Opts) -> + Opts. + +%% decode_AVP/5 +%% +%% Don't know this AVP: see if it can be packed in an 'AVP' field +%% undecoded. Note that the type field is 'undefined' in this case. + +decode_AVP(Name, Avp, Opts, Mod, Acc) -> + {trim(Avp), pack_AVP(Name, Avp, Opts, Mod, Acc)}. + +%% rc/2 + +%% diameter_types will raise an error of this form to communicate +%% DIAMETER_INVALID_AVP_LENGTH (5014). A module specified to a +%% @custom_types tag in a dictionary file can also raise an error of +%% this form. +rc({'DIAMETER', 5014 = RC, _}, #diameter_avp{name = AvpName} = Avp, Opts, Mod) -> + {RC, Avp#diameter_avp{data = Mod:empty_value(AvpName, Opts)}}; + +%% 3588: +%% +%% DIAMETER_INVALID_AVP_VALUE 5004 +%% The request contained an AVP with an invalid value in its data +%% portion. A Diameter message indicating this error MUST include +%% the offending AVPs within a Failed-AVP AVP. +rc(_, Avp, _, _) -> + {5004, Avp}. + +%% pack_avp/5 + +pack_avp(Name, #diameter_avp{name = AvpName} = Avp, Opts, Mod, Acc) -> + pack_avp(Name, Mod:avp_arity(Name, AvpName), Avp, Opts, Mod, Acc). + +%% pack_avp/6 + +pack_avp(Name, 0, Avp, Opts, Mod, Acc) -> + pack_AVP(Name, Avp, Opts, Mod, Acc); + +pack_avp(_, Arity, #diameter_avp{name = AvpName} = Avp, _Opts, Mod, Acc) -> + pack(Arity, AvpName, Avp, Mod, Acc). + +%% pack_AVP/5 + +%% Length failure was induced because of a header/payload length +%% mismatch. The AVP Length is reset to match the received data if +%% this AVP is encoded in an answer message, since the length is +%% computed. +%% +%% Data is a truncated header if command_code = undefined, otherwise +%% payload bytes. The former is padded to the length of a header if +%% the AVP reaches an outgoing encode in diameter_codec. +%% +%% RFC 6733 says that an AVP returned with 5014 can contain a minimal +%% payload for the AVP's type, but in this case we don't know the +%% type. + +pack_AVP(_, #diameter_avp{data = {5014 = RC, Data}} = Avp, _, _, Acc) -> + {Rec, Failed} = Acc, + {Rec, [{RC, Avp#diameter_avp{data = Data}} | Failed]}; + +pack_AVP(Name, Avp, Opts, Mod, Acc) -> + pack_arity(Name, pack_arity(Name, Opts, Mod, Avp), Avp, Mod, Acc). + +%% pack_arity/5 + +pack_arity(_, 0, #diameter_avp{is_mandatory = M} = Avp, _, Acc) -> + {Rec, Failed} = Acc, + {Rec, [{if M -> 5001; true -> 5008 end, Avp} | Failed]}; + +pack_arity(_, Arity, Avp, Mod, Acc) -> + pack(Arity, 'AVP', Avp, Mod, Acc). + +%% Give Failed-AVP special treatment since (1) it'll contain any +%% unrecognized mandatory AVP's and (2) the RFC 3588 grammar failed to +%% allow for Failed-AVP in an answer-message. + +pack_arity(Name, + #{strict_mbit := Strict, + failed_avp := Failed}, + Mod, + #diameter_avp{is_mandatory = M, + name = AvpName}) -> + + %% Not testing just Name /= 'Failed-AVP' means we're changing the + %% packing of AVPs nested within Failed-AVP, but the point of + %% ignoring errors within Failed-AVP is to decode as much as + %% possible, and failing because a mandatory AVP couldn't be + %% packed into a dedicated field defeats that point. + + if Failed == true; + Name == 'Failed-AVP'; + Name == 'answer-message', AvpName == 'Failed-AVP'; + not M; + not Strict -> + Mod:avp_arity(Name, 'AVP'); + true -> + 0 + end. + +%% 3588: +%% +%% DIAMETER_AVP_UNSUPPORTED 5001 +%% The peer received a message that contained an AVP that is not +%% recognized or supported and was marked with the Mandatory bit. A +%% Diameter message with this error MUST contain one or more Failed- +%% AVP AVP containing the AVPs that caused the failure. +%% +%% DIAMETER_AVP_NOT_ALLOWED 5008 +%% A message was received with an AVP that MUST NOT be present. The +%% Failed-AVP AVP MUST be included and contain a copy of the +%% offending AVP. + +%% pack/5 + +pack(Arity, FieldName, Avp, Mod, {Rec, _} = Acc) -> + pack(Mod:'#get-'(FieldName, Rec), Arity, FieldName, Avp, Mod, Acc). + +%% pack/6 + +pack(undefined, 1, 'AVP' = F, Avp, Mod, {Rec, Failed}) -> %% unlikely + {Mod:'#set-'({F, Avp}, Rec), Failed}; + +pack(undefined, 1, F, #diameter_avp{value = V}, Mod, {Rec, Failed}) -> + {Mod:'#set-'({F, V}, Rec), Failed}; + +%% 3588: +%% +%% DIAMETER_AVP_OCCURS_TOO_MANY_TIMES 5009 +%% A message was received that included an AVP that appeared more +%% often than permitted in the message definition. The Failed-AVP +%% AVP MUST be included and contain a copy of the first instance of +%% the offending AVP that exceeded the maximum number of occurrences +%% + +pack(_, 1, _, Avp, _, {Rec, Failed}) -> + {Rec, [{5009, Avp} | Failed]}; + +pack(L, {_, Max}, F, Avp, Mod, {Rec, Failed}) -> + case '*' /= Max andalso has_prefix(Max+1, L) of + true -> + {Rec, [{5009, Avp} | Failed]}; + false when F == 'AVP' -> + {Mod:'#set-'({F, [Avp | L]}, Rec), Failed}; + false -> + {Mod:'#set-'({F, [Avp#diameter_avp.value | L]}, Rec), Failed} + end. + +%% --------------------------------------------------------------------------- +%% # grouped_avp/3 +%% --------------------------------------------------------------------------- + +-spec grouped_avp(decode, avp_name(), binary() | {5014, binary()}, term()) + -> {avp_record(), [avp()]}; + (encode, avp_name(), avp_record() | avp_values(), term()) + -> iolist() + | no_return(). + +%% Length error induced by diameter_codec:collect_avps/1: the AVP +%% length in the header was too short (insufficient for the extracted +%% header) or too long (past the end of the message). An empty payload +%% is sufficient according to the RFC text for 5014. +grouped_avp(decode, _Name, {5014 = RC, _Bin}, _) -> + ?THROW({grouped, {RC, []}, []}); + +grouped_avp(decode, Name, Data, Opts) -> + grouped_decode(Name, diameter_codec:collect_avps(Data), Opts); + +grouped_avp(encode, Name, Data, Opts) -> + encode_avps(Name, Data, Opts). + +%% grouped_decode/2 +%% +%% Note that Grouped is the only AVP type that doesn't just return a +%% decoded value, also returning the list of component diameter_avp +%% records. + +%% Length error in trailing component AVP. +grouped_decode(_Name, {Error, Acc}, _) -> + {5014, Avp} = Error, + ?THROW({grouped, Error, [Avp | Acc]}); + +%% 7.5. Failed-AVP AVP + +%% In the case where the offending AVP is embedded within a Grouped AVP, +%% the Failed-AVP MAY contain the grouped AVP, which in turn contains +%% the single offending AVP. The same method MAY be employed if the +%% grouped AVP itself is embedded in yet another grouped AVP and so on. +%% In this case, the Failed-AVP MAY contain the grouped AVP hierarchy up +%% to the single offending AVP. This enables the recipient to detect +%% the location of the offending AVP when embedded in a group. + +%% An error in decoding a component AVP throws the first faulty +%% component, which the catch in d/3 wraps in the Grouped AVP in +%% question. A partially decoded record is only used when ignoring +%% errors in Failed-AVP. +grouped_decode(Name, ComponentAvps, Opts) -> + {Rec, Avps, Es} = decode_avps(Name, ComponentAvps, Opts), + [] == Es orelse ?THROW({grouped, [{_,_} = hd(Es) | Rec], Avps}), + {Rec, Avps}. + +%% --------------------------------------------------------------------------- +%% # empty_group/2 +%% --------------------------------------------------------------------------- + +empty_group(Name, #{module := Mod} = Opts) -> + list_to_binary([z(F, A, Opts, Mod) || {F,A} <- Mod:avp_arity(Name)]). + +z(Name, 1, Opts, Mod) -> + z(Name, Opts, Mod); +z(_, {0,_}, _, _) -> + []; +z(Name, {Min, _}, Opts, Mod) -> + binary:copy(z(Name, Opts, Mod), Min). + +z('AVP', _, _) -> + <<0:64>>; %% minimal header +z(Name, Opts, Mod) -> + Bin = diameter_codec:pack_data(Mod:avp_header(Name), + Mod:empty_value(Name, Opts)), + Sz = iolist_size(Bin), + <<0:Sz/unit:8>>. + +%% --------------------------------------------------------------------------- +%% # empty/2 +%% --------------------------------------------------------------------------- + +empty(Name, #{module := Mod} = Opts) -> + Mod:avp(encode, zero, Name, Opts). + +%% ------------------------------------------------------------------------------ + +newrec(Mod, Name) -> + Mod:'#new-'(Mod:name2rec(Name)). diff --git a/lib/diameter/src/base/diameter_lib.erl b/lib/diameter/src/base/diameter_lib.erl index 3928769b5e..58b9a29812 100644 --- a/lib/diameter/src/base/diameter_lib.erl +++ b/lib/diameter/src/base/diameter_lib.erl @@ -37,7 +37,6 @@ ipaddr/1, spawn_opts/2, wait/1, - fold_tuple/3, fold_n/3, for_n/2, log/4]). @@ -341,36 +340,6 @@ down(MRef) receive {'DOWN', MRef, process, _, _} = T -> T end. %% --------------------------------------------------------------------------- -%% # fold_tuple/3 -%% --------------------------------------------------------------------------- - --spec fold_tuple(N, T0, T) - -> tuple() - when N :: pos_integer(), - T0 :: tuple(), - T :: tuple() - | undefined. - -%% Replace fields in T0 by those of T starting at index N, unless the -%% new value is 'undefined'. -%% -%% eg. fold_tuple(2, Hdr, #diameter_header{end_to_end_id = 42}) - -fold_tuple(_, T, undefined) -> - T; - -fold_tuple(N, T0, T1) -> - {_, T} = lists:foldl(fun(V, {I,_} = IT) -> {I+1, ft(V, IT)} end, - {N, T0}, - lists:nthtail(N-1, tuple_to_list(T1))), - T. - -ft(undefined, {_, T}) -> - T; -ft(Value, {Idx, T}) -> - setelement(Idx, T, Value). - -%% --------------------------------------------------------------------------- %% # fold_n/3 %% --------------------------------------------------------------------------- diff --git a/lib/diameter/src/base/diameter_peer_fsm.erl b/lib/diameter/src/base/diameter_peer_fsm.erl index 46d231da74..1b0dc417e5 100644 --- a/lib/diameter/src/base/diameter_peer_fsm.erl +++ b/lib/diameter/src/base/diameter_peer_fsm.erl @@ -128,7 +128,12 @@ %% outgoing DPR; boolean says whether or not %% the request was sent explicitly with %% diameter:call/4. + codec :: #{string_decode := boolean(), + strict_mbit := boolean(), + rfc := 3588 | 6733, + ordered_encode := false}, strict :: boolean(), + ack = false :: boolean(), length_errors :: exit | handle | discard, incoming_maxlen :: integer() | infinity}). @@ -159,10 +164,7 @@ %% # start/3 %% --------------------------------------------------------------------------- --spec start(T, [Opt], {[diameter:service_opt()], - [node()], - module(), - #diameter_service{}}) +-spec start(T, [Opt], {map(), [node()], module(), #diameter_service{}}) -> {reference(), pid()} when T :: {connect|accept, diameter:transport_ref()}, Opt :: diameter:transport_opt(). @@ -221,9 +223,10 @@ i({Ack, WPid, {M, Ref} = T, Opts, {SvcOpts, Nodes, Dict0, Svc}}) -> erlang:monitor(process, WPid), wait(Ack, WPid), diameter_stats:reg(Ref), - diameter_codec:setopts([{common_dictionary, Dict0} | SvcOpts]), - {_,_} = Mask = proplists:get_value(sequence, SvcOpts), - Maxlen = proplists:get_value(incoming_maxlen, SvcOpts, 16#FFFFFF), + + #{sequence := Mask, incoming_maxlen := Maxlen} + = SvcOpts, + {[Cs,Ds], Rest} = proplists:split(Opts, [capabilities_cb, disconnect_cb]), putr(?CB_KEY, {Ref, [F || {_,F} <- Cs]}), putr(?DPR_KEY, [F || {_, F} <- Ds]), @@ -235,7 +238,7 @@ i({Ack, WPid, {M, Ref} = T, Opts, {SvcOpts, Nodes, Dict0, Svc}}) -> Tmo = proplists:get_value(capx_timeout, Opts, ?CAPX_TIMEOUT), Strictness = proplists:get_value(capx_strictness, Opts, true), - OnLengthErr = proplists:get_value(length_errors, Opts, exit), + LengthErr = proplists:get_value(length_errors, Opts, exit), {TPid, Addrs} = start_transport(T, Rest, Svc), @@ -247,9 +250,14 @@ i({Ack, WPid, {M, Ref} = T, Opts, {SvcOpts, Nodes, Dict0, Svc}}) -> dictionary = Dict0, mode = M, service = svc(Svc, Addrs), - length_errors = OnLengthErr, + length_errors = LengthErr, strict = Strictness, - incoming_maxlen = Maxlen}. + incoming_maxlen = Maxlen, + codec = maps:with([string_decode, + strict_mbit, + rfc, + ordered_encode], + SvcOpts#{ordered_encode => false})}. %% The transport returns its local ip addresses so that different %% transports on the same service can use different local addresses. %% The local addresses are put into Host-IP-Address avps here when @@ -442,9 +450,18 @@ transition({connection_timeout = T, TPid}, transition({connection_timeout, _}, _) -> ok; +%% Requests for acknowledgements to the transport. +transition({diameter, ack}, S) -> + S#state{ack = true}; + %% Incoming message from the transport. -transition({diameter, {recv, MsgT}}, S) -> - incoming(MsgT, S); +transition({diameter, {recv, Msg}}, S) -> + incoming(recv(Msg, S), S); + +%% Handler of an incoming request is telling of its existence. +transition({handler, Pid}, _) -> + put_route(Pid), + ok; %% Timeout when still in the same state ... transition({timeout = T, PS}, #state{state = PS}) -> @@ -458,7 +475,7 @@ transition({timeout, _}, _) -> transition({send, Msg}, S) -> outgoing(Msg, S); transition({send, Msg, Route}, S) -> - put_route(Route), + route_outgoing(Route), outgoing(Msg, S); %% Request for graceful shutdown at remove_transport, stop_service of @@ -487,12 +504,13 @@ transition({'DOWN', _, process, WPid, _}, transition({'DOWN', _, process, TPid, _}, #state{transport = TPid} = S) -> - start_next(S); + start_next(S#state{ack = false}); %% Transport has died after connection timeout, or handler process has %% died. -transition({'DOWN', _, process, Pid, _}, _) -> - erase_route(Pid), +transition({'DOWN', _, process, Pid, _}, #state{transport = TPid}) -> + is_reference(erase_route(Pid)) + andalso send(TPid, false), %% answer not forthcoming ok; %% State query. @@ -502,37 +520,56 @@ transition({state, Pid}, #state{state = S, transport = TPid}) -> %% Crash on anything unexpected. -%% put_route/1 -%% +%% route_outgoing/1 + %% Map identifiers in an outgoing request to be able to lookup the %% handler process when the answer is received. - -put_route({Pid, Ref, Seqs}) -> +route_outgoing({Pid, Ref, Seqs}) -> %% request MRef = monitor(process, Pid), put(Pid, Seqs), - put(Seqs, {Pid, Ref, MRef}). + put(Seqs, {Pid, Ref, MRef}); -%% get_route/1 +%% Remove a mapping made for an incoming request. +route_outgoing(Pid) + when is_pid(Pid) -> %% answer + MRef = erase_route(Pid), + undefined == MRef orelse demonitor(MRef). -get_route(#diameter_packet{header = #diameter_header{is_request = false}} - = Pkt) -> +%% put_route/1 + +%% Monitor on a handler process for an incoming request. +put_route(Pid) -> + MRef = monitor(process, Pid), + put(Pid, MRef). + +%% get_route/2 + +%% incoming answer +get_route(_, #diameter_packet{header = #diameter_header{is_request = false}} + = Pkt) -> Seqs = diameter_codec:sequence_numbers(Pkt), case erase(Seqs) of {Pid, Ref, MRef} -> demonitor(MRef), erase(Pid), {Pid, Ref, self()}; - undefined -> + undefined -> %% request unknown false end; -get_route(_) -> - false. +%% incoming request +get_route(Ack, _) -> + Ack. %% erase_route/1 erase_route(Pid) -> - erase(erase(Pid)). + case erase(Pid) of + {_,_} = Seqs -> + erase(Seqs); + T -> + T + end. %% capx/1 @@ -560,7 +597,8 @@ send_CER(#state{state = {'Wait-Conn-Ack', Tmo}, mode = {connect, Remote}, service = #diameter_service{capabilities = LCaps}, transport = TPid, - dictionary = Dict} + dictionary = Dict, + codec = Opts} = S) -> OH = LCaps#diameter_caps.origin_host, req_send_CER(OH, Remote) @@ -570,7 +608,7 @@ send_CER(#state{state = {'Wait-Conn-Ack', Tmo}, #diameter_packet{header = #diameter_header{end_to_end_id = Eid, hop_by_hop_id = Hid}} = Pkt - = encode(CER, Dict), + = encode(CER, Opts, Dict), incr(send, Pkt, Dict), send(TPid, Pkt), ?LOG(send, 'CER'), @@ -599,41 +637,36 @@ build_CER(#state{service = #diameter_service{capabilities = LCaps}, {ok, CER} = diameter_capx:build_CER(LCaps, Dict), CER. -%% encode/2 +%% encode/3 -encode(Rec, Dict) -> +encode(Rec, Opts, Dict) -> Seq = diameter_session:sequence({_,_} = getr(?SEQUENCE_KEY)), Hdr = #diameter_header{version = ?DIAMETER_VERSION, end_to_end_id = Seq, hop_by_hop_id = Seq}, - diameter_codec:encode(Dict, #diameter_packet{header = Hdr, - msg = Rec}). + diameter_codec:encode(Dict, Opts, #diameter_packet{header = Hdr, + msg = Rec}). %% incoming/2 -incoming({Msg, NPid}, S) -> - try recv(Msg, S) of - T -> - NPid ! {diameter, discard}, - T - catch - {?MODULE, Name, Pkt} -> - incoming(Name, Pkt, NPid, S) - end; +incoming({recv = T, Name, Pkt}, #state{parent = Pid, ack = Ack} = S) -> + Pid ! {T, self(), get_route(Ack, Pkt), Name, Pkt}, + rcv(Name, Pkt, S); -incoming(Msg, S) -> - try - recv(Msg, S) - catch - {?MODULE, Name, Pkt} -> - incoming(Name, Pkt, false, S) - end. +incoming(#diameter_header{is_request = R}, #state{transport = TPid, + ack = Ack}) -> + R andalso Ack andalso send(TPid, false), + ok; -%% incoming/4 +incoming(<<_:32, 1:1, _/bits>>, #state{ack = true} = S) -> + send(S#state.transport, false), + ok; -incoming(Name, Pkt, NPid, #state{parent = Pid} = S) -> - Pid ! {recv, self(), get_route(Pkt), Name, Pkt, NPid}, - rcv(Name, Pkt, S). +incoming(<<_/bits>>, _) -> + ok; + +incoming(T, _) -> + T. %% recv/2 @@ -658,18 +691,19 @@ recv1(_, #diameter_packet{header = H, bin = Bin}, #state{incoming_maxlen = M}) when M < size(Bin) -> - invalid(false, incoming_maxlen_exceeded, {size(Bin), H}); + invalid(false, incoming_maxlen_exceeded, {size(Bin), H}), + H; %% Ignore anything but an expected CER/CEA if so configured. This is %% non-standard behaviour. -recv1(Name, _, #state{state = {'Wait-CEA', _, _}, - strict = false}) +recv1(Name, #diameter_packet{header = H}, #state{state = {'Wait-CEA', _, _}, + strict = false}) when Name /= 'CEA' -> - ok; -recv1(Name, _, #state{state = recv_CER, - strict = false}) + H; +recv1(Name, #diameter_packet{header = H}, #state{state = recv_CER, + strict = false}) when Name /= 'CER' -> - ok; + H; %% Incoming request after outgoing DPR: discard. Don't discard DPR, so %% both ends don't do so when sending simultaneously. @@ -677,13 +711,15 @@ recv1(Name, #diameter_packet{header = #diameter_header{is_request = true} = H}, #state{dpr = {_,_,_}}) when Name /= 'DPR' -> - invalid(false, recv_after_outgoing_dpr, H); + invalid(false, recv_after_outgoing_dpr, H), + H; %% Incoming request after incoming DPR: discard. recv1(_, #diameter_packet{header = #diameter_header{is_request = true} = H}, #state{dpr = true}) -> - invalid(false, recv_after_incoming_dpr, H); + invalid(false, recv_after_incoming_dpr, H), + H; %% DPA with identifier mismatch, or in response to a DPR initiated by %% the service. @@ -701,7 +737,7 @@ recv1('DPA' = N, %% Any other message with a header and no length errors: send to the %% parent. recv1(Name, Pkt, #state{}) -> - throw({?MODULE, Name, Pkt}). + {recv, Name, Pkt}. %% recv/3 @@ -720,10 +756,12 @@ recv(#diameter_header{} #diameter_packet{bin = Bin}, #state{length_errors = E}) -> T = {size(Bin), bit_size(Bin) rem 8, H}, - invalid(E, message_length_mismatch, T); + invalid(E, message_length_mismatch, T), + Bin; recv(false, #diameter_packet{bin = Bin}, #state{length_errors = E}) -> - invalid(E, truncated_header, Bin). + invalid(E, truncated_header, Bin), + Bin. %% Note that counters here only count discarded messages. invalid(E, Reason, T) -> @@ -767,26 +805,23 @@ rcv('DPA' = N, = Pkt, #state{dictionary = Dict0, transport = TPid, - dpr = {X, Hid, Eid}}) -> + dpr = {X, Hid, Eid}, + codec = Opts}) -> ?LOG(recv, N), X orelse begin %% Only count DPA in response to a DPR sent by the %% service: explicit DPR is counted in the same way %% as other explicitly sent requests. incr(recv, H, Dict0), - incr_rc(recv, diameter_codec:decode(Dict0, Pkt), Dict0) + incr_rc(recv, diameter_codec:decode(Dict0, Opts, Pkt), Dict0) end, diameter_peer:close(TPid), {stop, N}; -%% Ignore anything else, an unsolicited DPA in particular. Note that -%% dpa_timeout deals with the case in which the peer sends the wrong -%% identifiers in DPA. -rcv(N, #diameter_packet{header = H}, _) - when N == 'CER'; - N == 'CEA'; - N == 'DPR'; - N == 'DPA' -> +%% Ignore an unsolicited DPA in particular. Note that dpa_timeout +%% deals with the case in which the peer sends the wrong identifiers +%% in DPA. +rcv('DPA' = N, #diameter_packet{header = H}, _) -> ?LOG(ignored, N), %% Note that these aren't counted in the normal recv counter. diameter_stats:incr({diameter_codec:msg_id(H), recv, ignored}), @@ -839,7 +874,7 @@ outgoing(#diameter_packet{header = #diameter_header{application_id = 0, invalid(false, dpr_after_dpr, H) %% DPR sent: discard end; -%% Explict CER or DWR: discard. These are sent by us. +%% Explicit CER or DWR: discard. These are sent by us. outgoing(#diameter_packet{header = #diameter_header{application_id = 0, cmd_code = C, is_request = true} @@ -875,15 +910,21 @@ header(Bin) -> %% DWR %% Incoming CER or DPR. handle_request(Name, - #diameter_packet{header = H} = Pkt, - #state{dictionary = Dict0} = S) -> + #diameter_packet{header = H} + = Pkt, + #state{dictionary = Dict0, + codec = Opts} + = S) -> ?LOG(recv, Name), incr(recv, H, Dict0), - send_answer(Name, diameter_codec:decode(Dict0, Pkt), S). + send_answer(Name, diameter_codec:decode(Dict0, Opts, Pkt), S). %% send_answer/3 -send_answer(Type, ReqPkt, #state{transport = TPid, dictionary = Dict} = S) -> +send_answer(Type, ReqPkt, #state{transport = TPid, + dictionary = Dict, + codec = Opts} + = S) -> incr_error(recv, ReqPkt, Dict), #diameter_packet{header = H, @@ -902,7 +943,7 @@ send_answer(Type, ReqPkt, #state{transport = TPid, dictionary = Dict} = S) -> msg = Msg, transport_data = TD}, - AnsPkt = diameter_codec:encode(Dict, Pkt), + AnsPkt = diameter_codec:encode(Dict, Opts, Pkt), incr(send, AnsPkt, Dict), incr_rc(send, AnsPkt, Dict), @@ -929,8 +970,6 @@ build_answer('CER', = Pkt, #state{dictionary = Dict0} = S) -> - diameter_codec:setopts([{string_decode, false}]), - {SupportedApps, RCaps, CEA} = recv_CER(CER, S), [RC, IS] = Dict0:'#get-'(['Result-Code', 'Inband-Security-Id'], CEA), @@ -1131,18 +1170,16 @@ recv_CER(CER, #state{service = Svc, dictionary = Dict}) -> handle_CEA(#diameter_packet{header = H} = Pkt, #state{dictionary = Dict0, - service = #diameter_service{capabilities = LCaps}} + service = #diameter_service{capabilities = LCaps}, + codec = Opts} = S) -> incr(recv, H, Dict0), #diameter_packet{} = DPkt - = diameter_codec:decode(Dict0, Pkt), - - diameter_codec:setopts([{string_decode, false}]), + = diameter_codec:decode(Dict0, Opts, Pkt), RC = result_code(incr_rc(recv, DPkt, Dict0)), - {SApps, IS, RCaps} = recv_CEA(DPkt, S), #diameter_caps{origin_host = {OH, DH}} @@ -1330,8 +1367,9 @@ dpr([], [Reason | _], S) -> -record(opts, {cause, timeout}). -send_dpr(Reason, Opts, #state{dictionary = Dict, - service = #diameter_service{capabilities = Caps}} +send_dpr(Reason, DprOpts, #state{dictionary = Dict, + service = #diameter_service{capabilities = Caps}, + codec = Opts} = S) -> #opts{cause = Cause, timeout = Tmo} = lists:foldl(fun opt/2, @@ -1340,7 +1378,7 @@ send_dpr(Reason, Opts, #state{dictionary = Dict, _ -> ?REBOOT end, timeout = dpa_timeout()}, - Opts), + DprOpts), #diameter_caps{origin_host = {OH, _}, origin_realm = {OR, _}} = Caps, @@ -1348,6 +1386,7 @@ send_dpr(Reason, Opts, #state{dictionary = Dict, Pkt = encode(['DPR', {'Origin-Host', OH}, {'Origin-Realm', OR}, {'Disconnect-Cause', Cause}], + Opts, Dict), send_dpr(false, Pkt, Tmo, S). diff --git a/lib/diameter/src/base/diameter_reg.erl b/lib/diameter/src/base/diameter_reg.erl index 9027130063..4910979219 100644 --- a/lib/diameter/src/base/diameter_reg.erl +++ b/lib/diameter/src/base/diameter_reg.erl @@ -137,7 +137,7 @@ match(Pat) -> match(Pat, Pid) -> ets:match_object(?TABLE, {Pat, Pid}). - + %% =========================================================================== %% # wait(Pat) %% diff --git a/lib/diameter/src/base/diameter_service.erl b/lib/diameter/src/base/diameter_service.erl index e4f77e3a24..a976a8b998 100644 --- a/lib/diameter/src/base/diameter_service.erl +++ b/lib/diameter/src/base/diameter_service.erl @@ -88,12 +88,6 @@ %% outside of the service process. -define(STATE_TABLE, ?MODULE). -%% The default sequence mask. --define(NOMASK, {0,32}). - -%% The default restrict_connections. --define(RESTRICT, nodes). - %% Workaround for dialyzer's lack of understanding of match specs. -type match(T) :: T | '_' | '$1' | '$2'. @@ -110,21 +104,17 @@ service :: #diameter_service{}, watchdogT = ets_new(watchdogs) %% #watchdog{} at start :: ets:tid(), - peerT, %% undefined in new code, but remain for upgrade - shared_peers, %% reasons. Replaced by local/remote. - local_peers, %% local :: {ets:tid(), ets:tid(), ets:tid()}, remote :: {ets:tid(), ets:tid(), ets:tid()}, monitor = false :: false | pid(), %% process to die with - options - :: [{sequence, diameter:sequence()} %% sequence mask - | {share_peers, diameter:remotes()} %% broadcast to - | {use_shared_peers, diameter:remotes()} %% use from - | {restrict_connections, diameter:restriction()} - | {strict_mbit, boolean()} - | {string_decode, boolean()} - | {incoming_maxlen, diameter:message_length()}]}). -%% shared_peers reflects the peers broadcast from remote nodes. + options :: #{sequence := diameter:sequence(), %% sequence mask + share_peers := diameter:remotes(),%% broadcast to + use_shared_peers := diameter:remotes(),%% use from + restrict_connections := diameter:restriction(), + incoming_maxlen := diameter:message_length(), + strict_mbit := boolean(), + string_decode := boolean(), + spawn_opt := list() | {module(), atom(), list()}}}). %% Record representing an RFC 3539 watchdog process implemented by %% diameter_watchdog. @@ -284,7 +274,7 @@ whois(SvcName) -> %% --------------------------------------------------------------------------- -spec pick_peer(SvcName, AppOrAlias, Opts) - -> {{TPid, Caps, App}, Mask, SvcOpts} + -> {{{TPid, Caps}, App}, SvcOpts} | false %% no selection | {error, no_service} when SvcName :: diameter:service_name(), @@ -292,14 +282,12 @@ whois(SvcName) -> | {alias, diameter:app_alias()}, Opts :: {fun((Dict :: module()) -> [term()]), diameter:peer_filter(), - Xtra :: list()}, + Xtra :: list(), + [diameter:peer_ref()]}, TPid :: pid(), Caps :: #diameter_caps{}, App :: #diameter_app{}, - Mask :: diameter:sequence(), - SvcOpts :: [diameter:service_opt()]. -%% Extract Mask in the returned tuple so that diameter_traffic doesn't -%% need to know about the ordering of SvcOpts used here. + SvcOpts :: map(). pick_peer(SvcName, App, Opts) -> pick(lookup_state(SvcName), App, Opts). @@ -319,16 +307,16 @@ pick(#state{service = #diameter_service{applications = Apps}} pick(_, false = No, _) -> No; -pick(#state{options = [{_, Mask} | SvcOpts]} +pick(#state{options = SvcOpts} = S, #diameter_app{module = ModX, dictionary = Dict} = App0, - {DestF, Filter, Xtra}) -> + {DestF, Filter, Xtra, TPids}) -> App = App0#diameter_app{module = ModX ++ Xtra}, [_,_] = RealmAndHost = diameter_lib:eval([DestF, Dict]), - case pick_peer(App, RealmAndHost, Filter, S) of - {TPid, Caps} -> - {{TPid, Caps, App}, Mask, SvcOpts}; + case pick_peer(App, RealmAndHost, [Filter | TPids], S) of + {_TPid, _Caps} = TC -> + {{TC, App}, SvcOpts}; false = No -> No end. @@ -556,81 +544,9 @@ terminate(Reason, #state{service_name = Name, local = {PeerT, _, _}} = S) -> %% # code_change/3 %% --------------------------------------------------------------------------- -code_change(_FromVsn, #state{} = S, _Extra) -> - {ok, S}; - -%% Don't support downgrade since we won't in appup. -code_change({down = T, _}, _, _Extra) -> - {error, T}; - -%% Upgrade local/shared peers dicts populated in old code. Don't -code_change(_FromVsn, S0, _Extra) -> - {state, Id, SvcName, Svc, WT, PeerT, SDict, LDict, Monitor, Opts} - = S0, - - init_peers(LT = setelement(1, {PT, _, _} = init_peers(), PeerT), - fun({_,A}) -> A end), - init_peers(init_peers(RT = init_peers(), SDict), - fun(A) -> A end), - - S = #state{id = Id, - service_name = SvcName, - service = Svc, - watchdogT = WT, - peerT = PT, %% empty - shared_peers = SDict, - local_peers = LDict, - local = LT, - remote = RT, - monitor = Monitor, - options = Opts}, - - %% Replacing the table entry and deleting the old shared tables - %% can make outgoing requests return {error, no_connection} until - %% everyone is running new code. Don't delete the tables to avoid - %% crashing request processes. - ets:delete_all_objects(SDict), - ets:delete_all_objects(LDict), - ets:insert(?STATE_TABLE, S), +code_change(_FromVsn, S, _Extra) -> {ok, S}. -%% init_peers/2 - -%% Populate app and identity bags from a new-style #peer{} sets. -init_peers({PeerT, _, _} = T, F) - when is_function(F) -> - ets:foldl(fun(#peer{pid = P, apps = As, caps = C}, N) -> - insert_peer(P, lists:map(F, As), C, T), - N+1 - end, - 0, - PeerT); - -%% Populate #peer{} table given a shared peers dict. -init_peers({PeerT, _, _}, SDict) -> - dict:fold(fun(P, As, N) -> - ets:update_element(PeerT, P, {#peer.apps, As}), - N+1 - end, - 0, - diameter_dict:fold(fun(A, Ps, D) -> - init_peers(A, Ps, PeerT, D) - end, - dict:new(), - SDict)). - -%% init_peers/4 - -init_peers(App, TCs, PeerT, Dict) -> - lists:foldl(fun({P,C}, D) -> - ets:insert(PeerT, #peer{pid = P, - apps = [], - caps = C}), - dict:append(P, App, D) - end, - Dict, - TCs). - %% =========================================================================== %% =========================================================================== @@ -768,7 +684,7 @@ cfg_acc({SvcName, #diameter_service{applications = Apps} = Rec, Opts}, local = init_peers(), remote = init_peers(), monitor = mref(get_value(monitor, Opts)), - options = service_options(Opts)}, + options = service_options(lists:keydelete(monitor, 1, Opts))}, {S, Acc}; cfg_acc({_Ref, Type, _Opts} = T, {S, Acc}) @@ -784,24 +700,14 @@ init_peers() -> %% TPid} service_options(Opts) -> - [{sequence, proplists:get_value(sequence, Opts, ?NOMASK)}, - {share_peers, get_value(share_peers, Opts)}, - {use_shared_peers, get_value(use_shared_peers, Opts)}, - {restrict_connections, proplists:get_value(restrict_connections, - Opts, - ?RESTRICT)}, - {spawn_opt, proplists:get_value(spawn_opt, Opts, [])}, - {string_decode, proplists:get_value(string_decode, Opts, true)}, - {incoming_maxlen, proplists:get_value(incoming_maxlen, Opts, 16#FFFFFF)}, - {strict_mbit, proplists:get_value(strict_mbit, Opts, true)}]. -%% The order of options is significant since we match against the list. + maps:from_list(Opts). mref(false = No) -> No; mref(P) -> monitor(process, P). -init_shared(#state{options = [_, _, {_,T} | _], +init_shared(#state{options = #{use_shared_peers := T}, service_name = Svc}) -> notify(T, Svc, {service, self()}). @@ -899,7 +805,8 @@ start(Ref, Type, Opts, State) -> start(Ref, Type, Opts, N, #state{watchdogT = WatchdogT, local = {PeerT, _, _}, - options = SvcOpts, + options = #{string_decode := SD} + = SvcOpts0, service_name = SvcName, service = Svc0}) when Type == connect; @@ -907,21 +814,25 @@ start(Ref, Type, Opts, N, #state{watchdogT = WatchdogT, #diameter_service{applications = Apps} = Svc1 = merge_service(Opts, Svc0), - Svc = binary_caps(Svc1, proplists:get_value(string_decode, SvcOpts, true)), - RecvData = diameter_traffic:make_recvdata([SvcName, - PeerT, - Apps, - SvcOpts]), - T = {{spawn_opts([Opts, SvcOpts]), RecvData}, Opts, SvcOpts, Svc}, + Svc = binary_caps(Svc1, SD), + SvcOpts = merge_options(Opts, SvcOpts0), + RecvData = diameter_traffic:make_recvdata([SvcName, PeerT, Apps, SvcOpts]), + T = {Opts, SvcOpts, RecvData, Svc}, Rec = #watchdog{type = Type, ref = Ref, options = Opts}, + diameter_lib:fold_n(fun(_,A) -> [wd(Type, Ref, T, WatchdogT, Rec) | A] end, [], N). +merge_options(Opts, SvcOpts) -> + Keys = maps:keys(SvcOpts), + Map = maps:from_list([KV || {K,_} = KV <- Opts, lists:member(K, Keys)]), + maps:merge(SvcOpts, Map). + binary_caps(Svc, true) -> Svc; binary_caps(#diameter_service{capabilities = Caps} = Svc, false) -> @@ -936,12 +847,6 @@ wd(Type, Ref, T, WatchdogT, Rec) -> %% record so that each watchdog may get a different record. This %% record is what is passed back into application callbacks. -spawn_opts(Optss) -> - SpawnOpts = get_value(spawn_opt, Optss, []), - [T || T <- SpawnOpts, - T /= link, - T /= monitor]. - start_watchdog(Type, Ref, T) -> {_MRef, Pid} = diameter_watchdog:start({Type, Ref}, T), Pid. @@ -1154,18 +1059,6 @@ keyfind([Key | Rest], Pos, L) -> T end. -%% get_value/3 - -get_value(_, [], Def) -> - Def; -get_value(Key, [L | Rest], Def) -> - case lists:keyfind(Key, 1, L) of - {_,V} -> - V; - _ -> - get_value(Key, Rest, Def) - end. - %% find_outgoing_app/2 find_outgoing_app(Alias, Apps) -> @@ -1463,19 +1356,19 @@ send_event(#diameter_event{service = SvcName} = E) -> %% # share_peer/5 %% --------------------------------------------------------------------------- -share_peer(up, Caps, Apps, TPid, #state{options = [_, {_,T} | _], +share_peer(up, Caps, Apps, TPid, #state{options = #{share_peers := SP}, service_name = Svc}) -> - notify(T, Svc, {peer, TPid, [A || {_,A} <- Apps], Caps}); + notify(SP, Svc, {peer, TPid, [A || {_,A} <- Apps], Caps}); -share_peer(down, _Caps, _Apps, TPid, #state{options = [_, {_,T} | _], +share_peer(down, _Caps, _Apps, TPid, #state{options = #{share_peers := SP}, service_name = Svc}) -> - notify(T, Svc, {peer, TPid}). + notify(SP, Svc, {peer, TPid}). %% --------------------------------------------------------------------------- %% # share_peers/2 %% --------------------------------------------------------------------------- -share_peers(Pid, #state{options = [_, {_,SP} | _], +share_peers(Pid, #state{options = #{share_peers := SP}, local = {PeerT, AppT, _}}) -> is_remote(Pid, SP) andalso ets:foldl(fun(T, N) -> N + sp(Pid, AppT, T) end, @@ -1507,7 +1400,8 @@ is_remote(Pid, T) -> %% # remote_peer_up/4 %% --------------------------------------------------------------------------- -remote_peer_up(TPid, Aliases, Caps, #state{options = [_, _, {_,T} | _]} = S) -> +remote_peer_up(TPid, Aliases, Caps, #state{options = #{use_shared_peers := T}} + = S) -> is_remote(TPid, T) andalso rpu(TPid, Aliases, Caps, S). rpu(TPid, Aliases, Caps, #state{service = Svc, remote = RT}) -> @@ -1629,8 +1523,14 @@ pick_peer(Local, %% peers/4 -peers(Alias, RH, Filter, T) -> - filter(Alias, RH, Filter, T, true). +%% No peer options pointing at specific peers: search for them. +peers(Alias, RH, [Filter], T) -> + filter(Alias, RH, Filter, T, true); + +%% Or just lookup. +peers(_Alias, RH, [Filter | TPids], {PeerT, _AppT, _IdentT}) -> + {Ts, _} = filter(caps(PeerT, TPids), RH, Filter), + Ts. %% filter/5 %% diff --git a/lib/diameter/src/base/diameter_traffic.erl b/lib/diameter/src/base/diameter_traffic.erl index bc1ccf4feb..85378babea 100644 --- a/lib/diameter/src/base/diameter_traffic.erl +++ b/lib/diameter/src/base/diameter_traffic.erl @@ -30,7 +30,7 @@ -export([send_request/4]). %% towards diameter_watchdog --export([receive_message/6]). +-export([receive_message/5]). %% towards diameter_peer_fsm and diameter_watchdog -export([incr/4, @@ -54,8 +54,7 @@ -define(RELAY, ?DIAMETER_DICT_RELAY). -define(BASE, ?DIAMETER_DICT_COMMON). %% Note: the RFC 3588 dictionary --define(DEFAULT_TIMEOUT, 5000). %% for outgoing requests --define(DEFAULT_SPAWN_OPTS, []). +-define(DEFAULT(V, Def), if V == undefined -> Def; true -> V end). %% Table containing outgoing entries that live and die with %% peer_up/down. The name is historic, since the table used to contain @@ -65,9 +64,10 @@ %% Record diameter:call/4 options are parsed into. -record(options, - {filter = none :: diameter:peer_filter(), + {peers = [] :: [diameter:peer_ref()], + filter = none :: diameter:peer_filter(), extra = [] :: list(), - timeout = ?DEFAULT_TIMEOUT :: 0..16#FFFFFFFF, + timeout = 5000 :: 0..16#FFFFFFFF, %% for outgoing requests detach = false :: boolean()}). %% Term passed back to receive_message/6 with every incoming message. @@ -76,9 +76,9 @@ service_name :: diameter:service_name(), apps :: [#diameter_app{}], sequence :: diameter:sequence(), - codec :: [{string_decode, boolean()} - | {strict_mbit, boolean()} - | {incoming_maxlen, diameter:message_length()}]}). + codec :: #{string_decode := boolean(), + strict_mbit := boolean(), + incoming_maxlen := diameter:message_length()}}). %% Note that incoming_maxlen is currently handled in diameter_peer_fsm, %% so that any message exceeding the maximum is discarded. Retain the %% option in case we want to extend the values and semantics. @@ -88,24 +88,25 @@ {ref :: reference(), %% used to receive answer caller :: pid() | undefined, %% calling process handler :: pid(), %% request process - transport :: pid() | undefined, %% peer process - caps :: #diameter_caps{} | undefined, %% of connection + peer :: undefined | {pid(), #diameter_caps{}}, packet :: #diameter_packet{} | undefined}). %% of request %% --------------------------------------------------------------------------- -%% # make_recvdata/1 +%% make_recvdata/1 %% --------------------------------------------------------------------------- make_recvdata([SvcName, PeerT, Apps, SvcOpts | _]) -> - {_,_} = Mask = proplists:get_value(sequence, SvcOpts), - #recvdata{service_name = SvcName, - peerT = PeerT, - apps = Apps, - sequence = Mask, - codec = [T || {K,_} = T <- SvcOpts, - lists:member(K, [string_decode, - incoming_maxlen, - strict_mbit])]}. + #{sequence := {_,_} = Mask, spawn_opt := Opts} + = SvcOpts, + {Opts, #recvdata{service_name = SvcName, + peerT = PeerT, + apps = Apps, + sequence = Mask, + codec = maps:with([string_decode, + strict_mbit, + ordered_encode, + incoming_maxlen], + SvcOpts)}}. %% --------------------------------------------------------------------------- %% peer_up/1 @@ -206,42 +207,40 @@ incr_rc(Dir, Pkt, TPid, Dict0) -> incr_rc(Dir, Pkt, TPid, {Dict0, Dict0, Dict0}). %% --------------------------------------------------------------------------- -%% # receive_message/6 +%% receive_message/5 %% -%% Handle an incoming Diameter message. +%% Handle an incoming Diameter message in a watchdog process. %% --------------------------------------------------------------------------- -%% Handle an incoming Diameter message in the watchdog process. - -receive_message(TPid, Route, Pkt, false, Dict0, RecvData) -> - incoming(TPid, Route, Pkt, Dict0, RecvData); - -receive_message(TPid, Route, Pkt, NPid, Dict0, RecvData) -> - NPid ! {diameter, incoming(TPid, Route, Pkt, Dict0, RecvData)}. - -%% incoming/4 - -incoming(TPid, Route, Pkt, Dict0, RecvData) - when is_pid(TPid) -> +-spec receive_message(pid(), Route, #diameter_packet{}, module(), RecvData) + -> pid() %% request handler + | boolean() %% answer, known request or not + | discard %% request discarded by MFA + when Route :: {Handler, RequestRef, Seqs} + | Ack, + RecvData :: {[SpawnOpt], #recvdata{}}, + SpawnOpt :: term(), + Handler :: pid(), + RequestRef :: reference(), + Seqs :: {0..16#FFFFFFFF, 0..16#FFFFFFFF}, + Ack :: boolean(). + +receive_message(TPid, Route, Pkt, Dict0, RecvData) -> #diameter_packet{header = #diameter_header{is_request = R}} = Pkt, recv(R, Route, TPid, Pkt, Dict0, RecvData). %% recv/6 %% Incoming request ... -recv(true, false, TPid, Pkt, Dict0, T) -> - try - {request, spawn_request(TPid, Pkt, Dict0, T)} - catch - error: system_limit = E -> %% discard - ?LOG(error, E), - discard - end; +recv(true, Ack, TPid, Pkt, Dict0, T) + when is_boolean(Ack) -> + {Opts, RecvData} = T, + spawn_request(Ack, TPid, Pkt, Dict0, RecvData, Opts); %% ... answer to known request ... recv(false, {Pid, Ref, TPid}, _, Pkt, Dict0, _) -> Pid ! {answer, Ref, TPid, Dict0, Pkt}, - {answer, Pid}; + true; %% Note that failover could have happened prior to this message being %% received and triggering failback. That is, both a failover message @@ -256,69 +255,91 @@ recv(false, {Pid, Ref, TPid}, _, Pkt, Dict0, _) -> recv(false, false, TPid, Pkt, _, _) -> ?LOG(discarded, Pkt#diameter_packet.header), incr(TPid, {{unknown, 0}, recv, discarded}), - discard. + false. -%% spawn_request/4 +%% spawn_request/6 + +%% An MFA should return a pid() or the atom 'discard'. The latter +%% results in an acknowledgment back to the transport process when +%% appropriate, to ensure that send/recv callbacks can count +%% outstanding requests. Acknowledgement is implicit if the +%% handler process dies (in a handle_request callback for example). +spawn_request(Ack, TPid, Pkt, Dict0, RecvData, {M,F,A}) -> + ReqF = fun() -> + ack(Ack, TPid, recv_request(Ack, TPid, Pkt, Dict0, RecvData)) + end, + ack(Ack, TPid, apply(M, F, [ReqF | A])); -spawn_request(TPid, Pkt, Dict0, {Opts, RecvData}) -> - spawn_request(TPid, Pkt, Dict0, Opts, RecvData); -spawn_request(TPid, Pkt, Dict0, RecvData) -> - spawn_request(TPid, Pkt, Dict0, ?DEFAULT_SPAWN_OPTS, RecvData). +%% A spawned process acks implicitly when it dies, so there's no need +%% to handle 'discard'. +spawn_request(Ack, TPid, Pkt, Dict0, RecvData, Opts) -> + spawn_opt(fun() -> + recv_request(Ack, TPid, Pkt, Dict0, RecvData) + end, + Opts). -spawn_request(TPid, Pkt, Dict0, Opts, RecvData) -> - spawn_opt(fun() -> recv_request(TPid, Pkt, Dict0, RecvData) end, Opts). +%% ack/3 + +ack(Ack, TPid, RC) -> + RC == discard andalso Ack andalso (TPid ! {send, false}), + RC. %% --------------------------------------------------------------------------- -%% recv_request/4 +%% recv_request/5 %% --------------------------------------------------------------------------- -recv_request(TPid, +-spec recv_request(Ack :: boolean(), + TPid :: pid(), + #diameter_packet{}, + Dict0 :: module(), + #recvdata{}) + -> ok %% answer was sent + | discard %% or not + | false. %% no transport + +recv_request(Ack, + TPid, #diameter_packet{header = #diameter_header{application_id = Id}} = Pkt, Dict0, #recvdata{peerT = PeerT, - apps = Apps, - codec = Opts} + apps = Apps} = RecvData) -> - diameter_codec:setopts([{common_dictionary, Dict0} | Opts]), - send_A(recv_R(diameter_service:find_incoming_app(PeerT, TPid, Id, Apps), - TPid, - Pkt, - Dict0, - RecvData), - TPid, - Dict0, - RecvData). - -%% recv_R/5 - -recv_R({#diameter_app{id = Id, dictionary = AppDict} = App, Caps}, - TPid, - Pkt0, - Dict0, - RecvData) -> - incr(recv, Pkt0, TPid, AppDict), - Pkt = errors(Id, diameter_codec:decode(Id, AppDict, Pkt0)), - incr_error(recv, Pkt, TPid, AppDict), - {Caps, Pkt, App, recv_R(App, TPid, Dict0, Caps, RecvData, Pkt)}; -%% Note that the decode is different depending on whether or not Id is -%% ?APP_ID_RELAY. - -%% DIAMETER_APPLICATION_UNSUPPORTED 3007 -%% A request was sent for an application that is not supported. - -recv_R(#diameter_caps{} - = Caps, - _TPid, - #diameter_packet{errors = Es} - = Pkt, - _Dict0, - _RecvData) -> - {Caps, Pkt#diameter_packet{avps = collect_avps(Pkt), - errors = [3007 | Es]}}; + Ack andalso (TPid ! {handler, self()}), + case diameter_service:find_incoming_app(PeerT, TPid, Id, Apps) of + {#diameter_app{id = Aid, dictionary = AppDict} = App, Caps} -> + incr(recv, Pkt, TPid, AppDict), + DecPkt = decode(Aid, AppDict, RecvData, Pkt), + incr_error(recv, DecPkt, TPid, AppDict), + send_A(recv_R(App, TPid, Dict0, Caps, RecvData, DecPkt), + TPid, + App, + Dict0, + RecvData, + DecPkt, + Caps); + #diameter_caps{} = Caps -> + %% DIAMETER_APPLICATION_UNSUPPORTED 3007 + %% A request was sent for an application that is not + %% supported. + RC = 3007, + Es = Pkt#diameter_packet.errors, + DecPkt = Pkt#diameter_packet{avps = collect_avps(Pkt), + errors = [RC | Es]}, + send_answer(answer_message(RC, Dict0, Caps, DecPkt), + TPid, + Dict0, + Dict0, + Dict0, + RecvData, + DecPkt, + [[]]); + false = No -> %% transport has gone down + No + end. -recv_R(false = No, _, _, _, _) -> %% transport has gone down - No. +decode(Id, Dict, #recvdata{codec = Opts}, Pkt) -> + errors(Id, diameter_codec:decode(Id, Dict, Opts, Pkt)). collect_avps(Pkt) -> case diameter_codec:collect_avps(Pkt) of @@ -328,6 +349,14 @@ collect_avps(Pkt) -> Avps end. +%% send_A/7 + +send_A([T | Fs], TPid, App, Dict0, RecvData, DecPkt, Caps) -> + send_A(T, TPid, App, Dict0, RecvData, DecPkt, Caps, Fs); + +send_A(discard = No, _, _, _, _, _, _) -> + No. + %% recv_R/6 %% Answer errors ourselves ... @@ -337,9 +366,9 @@ recv_R(#diameter_app{options = [_, {request_errors, E} | _]}, _Caps, _RecvData, #diameter_packet{errors = [RC|_]}) %% a detected 3xxx is hd - when E == answer, (Dict0 /= ?BASE orelse 3 == RC div 1000); + when E == answer, Dict0 /= ?BASE orelse 3 == RC div 1000; E == answer_3xxx, 3 == RC div 1000 -> - {{answer_message, rc(RC)}, [], []}; + [{answer_message, rc(RC)}, []]; %% ... or make a handle_request callback. Note that %% Pkt#diameter_packet.msg = undefined in the 3001 case. @@ -431,24 +460,24 @@ errors(_, Pkt) -> %% command code in this case. It will also then ignore Dict and use %% the base encoder. request_cb({reply, _Ans} = T, _App, EvalPktFs, EvalFs) -> - {T, EvalPktFs, EvalFs}; + [T, EvalPktFs | EvalFs]; %% An 3xxx result code, for which the E-bit is set in the header. request_cb({protocol_error, RC}, _App, EvalPktFs, EvalFs) when 3 == RC div 1000 -> - {{answer_message, RC}, EvalPktFs, EvalFs}; + [{answer_message, RC}, EvalPktFs | EvalFs]; request_cb({answer_message, RC} = T, _App, EvalPktFs, EvalFs) when 3 == RC div 1000; 5 == RC div 1000 -> - {T, EvalPktFs, EvalFs}; + [T, EvalPktFs | EvalFs]; %% RFC 3588 says we must reply 3001 to anything unrecognized or %% unsupported. 'noreply' is undocumented (and inappropriately named) %% backwards compatibility for this, protocol_error the documented %% alternative. request_cb(noreply, _App, EvalPktFs, EvalFs) -> - {{answer_message, 3001}, EvalPktFs, EvalFs}; + [{answer_message, 3001}, EvalPktFs | EvalFs]; %% Relay a request to another peer. This is equivalent to doing an %% explicit call/4 with the message in question except that (1) a loop @@ -469,7 +498,7 @@ request_cb({A, Opts}, #diameter_app{id = Id}, EvalPktFs, EvalFs) when A == relay, Id == ?APP_ID_RELAY; A == proxy, Id /= ?APP_ID_RELAY; A == resend -> - {{call, Opts}, EvalPktFs, EvalFs}; + [{call, Opts}, EvalPktFs | EvalFs]; request_cb(discard = No, _, _, _) -> No; @@ -483,71 +512,95 @@ request_cb({eval, RC, F}, App, EvalPktFs, Fs) -> request_cb(T, App, _, _) -> ?ERROR({invalid_return, T, handle_request, App}). -%% send_A/4 +%% send_A/8 -send_A({Caps, Pkt}, TPid, Dict0, _RecvData) -> %% unsupported application - #diameter_packet{errors = [RC|_]} = Pkt, - send_A(answer_message(RC, Caps, Dict0, Pkt), - TPid, - {Dict0, Dict0}, - Pkt, - [], - []); +send_A({reply, Ans}, TPid, App, Dict0, RecvData, Pkt, _Caps, Fs) -> + AppDict = App#diameter_app.dictionary, + MsgDict = msg_dict(AppDict, Dict0, Ans), + send_answer(Ans, + TPid, + MsgDict, + AppDict, + Dict0, + RecvData, + Pkt, + Fs); + +send_A({call, Opts}, TPid, App, Dict0, RecvData, Pkt, Caps, Fs) -> + AppDict = App#diameter_app.dictionary, + case resend(Opts, Caps, Pkt, App, Dict0, RecvData) of + #diameter_packet{bin = Bin} = Ans -> %% answer: reset hop by hop id + #diameter_packet{header = #diameter_header{hop_by_hop_id = Id}, + transport_data = TD} + = Pkt, + Reset = diameter_codec:hop_by_hop_id(Id, Bin), + MsgDict = msg_dict(AppDict, Dict0, Ans), + send_answer(Ans#diameter_packet{bin = Reset, + transport_data = TD}, + TPid, + MsgDict, + AppDict, + Dict0, + Fs); + RC -> + send_answer(answer_message(RC, Dict0, Caps, Pkt), + TPid, + Dict0, + AppDict, + Dict0, + RecvData, + Pkt, + Fs) + end; + +%% RFC 3588 only allows 3xxx errors in an answer-message. RFC 6733 +%% added the possibility of setting 5xxx. + +send_A({answer_message, RC} = T, TPid, App, Dict0, RecvData, Pkt, Caps, Fs) -> + Dict0 /= ?BASE orelse 3 == RC div 1000 + orelse ?ERROR({invalid_return, T, handle_request, App}), + send_answer(answer_message(RC, Dict0, Caps, Pkt), + TPid, + Dict0, + App#diameter_app.dictionary, + Dict0, + RecvData, + Pkt, + Fs). -send_A({Caps, Pkt, App, {T, EvalPktFs, EvalFs}}, TPid, Dict0, RecvData) -> - send_A(answer(T, Caps, Pkt, App, Dict0, RecvData), - TPid, - {App#diameter_app.dictionary, Dict0}, - Pkt, - EvalPktFs, - EvalFs); +%% send_answer/8 -send_A(_, _, _, _) -> - ok. +%% Skip the setting of Result-Code and Failed-AVP's below. This is +%% undocumented and shouldn't be relied on. +send_answer([Ans], TPid, MsgDict, AppDict, Dict0, RecvData, Pkt, Fs) + when [] == Pkt#diameter_packet.errors -> + send_answer(Ans, TPid, MsgDict, AppDict, Dict0, RecvData, Pkt, Fs); +send_answer([Ans], TPid, MsgDict, AppDict, Dict0, RecvData, Pkt0, Fs) -> + Pkt = Pkt0#diameter_packet{errors = []}, + send_answer(Ans, TPid, MsgDict, AppDict, Dict0, RecvData, Pkt, Fs); + +send_answer(Ans, TPid, MsgDict, AppDict, Dict0, RecvData, DecPkt, Fs) -> + Pkt = encode({MsgDict, AppDict}, + TPid, + RecvData#recvdata.codec, + make_answer_packet(Ans, DecPkt, MsgDict, Dict0)), + send_answer(Pkt, TPid, MsgDict, AppDict, Dict0, Fs). -%% send_A/6 +%% send_answer/6 -send_A(T, TPid, {AppDict, Dict0} = DictT0, ReqPkt, EvalPktFs, EvalFs) -> - {MsgDict, Pkt} = reply(T, TPid, DictT0, EvalPktFs, ReqPkt), +send_answer(Pkt, TPid, MsgDict, AppDict, Dict0, [EvalPktFs | EvalFs]) -> + eval_packet(Pkt, EvalPktFs), incr(send, Pkt, TPid, AppDict), incr_rc(send, Pkt, TPid, {MsgDict, AppDict, Dict0}), %% count outgoing - send(TPid, Pkt), + send(TPid, z(Pkt), _Route = self()), lists:foreach(fun diameter_lib:eval/1, EvalFs). -%% answer/6 - -answer({reply, Ans}, _Caps, _Pkt, App, Dict0, _RecvData) -> - {msg_dict(App#diameter_app.dictionary, Dict0, Ans), Ans}; - -answer({call, Opts}, Caps, Pkt, App, Dict0, RecvData) -> - #diameter_caps{origin_host = {OH,_}} - = Caps, - #diameter_packet{avps = Avps} - = Pkt, - {Code, _Flags, Vid} = Dict0:avp_header('Route-Record'), - resend(is_loop(Code, Vid, OH, Dict0, Avps), - Opts, - Caps, - Pkt, - App, - Dict0, - RecvData); - -%% RFC 3588 only allows 3xxx errors in an answer-message. RFC 6733 -%% added the possibility of setting 5xxx. -answer({answer_message, RC} = T, Caps, Pkt, App, Dict0, _RecvData) -> - Dict0 /= ?BASE orelse 3 == RC div 1000 - orelse ?ERROR({invalid_return, T, handle_request, App}), - answer_message(RC, Caps, Dict0, Pkt). - %% msg_dict/3 %% %% Return the dictionary defining the message grammar in question: the %% application dictionary or the common dictionary. -msg_dict(AppDict, Dict0, [Msg]) - when is_list(Msg); - is_tuple(Msg) -> +msg_dict(AppDict, Dict0, [Msg]) -> msg_dict(AppDict, Dict0, Msg); msg_dict(AppDict, Dict0, Msg) -> @@ -578,14 +631,10 @@ is_answer_message(Rec, Dict) -> error:_ -> false end. -%% answer_message/4 +%% resend/6 -answer_message(RC, - #diameter_caps{origin_host = {OH,_}, - origin_realm = {OR,_}}, - Dict0, - Pkt) -> - {Dict0, answer_message(OH, OR, RC, Dict0, Pkt)}. +resend(Opts, Caps, Pkt, App, Dict0, RecvData) -> + resend(is_loop(Dict0, Caps, Pkt), Opts, Caps, Pkt, App, Dict0, RecvData). %% resend/7 @@ -595,8 +644,8 @@ answer_message(RC, %% if one is available, but the peer reporting the error has %% identified a configuration problem. -resend(true, _Opts, Caps, Pkt, _App, Dict0, _RecvData) -> - answer_message(3005, Caps, Dict0, Pkt); +resend(true, _Opts, _Caps, _Pkt, _App, _Dict0, _RecvData) -> + 3005; %% 6.1.8. Relaying and Proxying Requests %% @@ -606,11 +655,9 @@ resend(true, _Opts, Caps, Pkt, _App, Dict0, _RecvData) -> resend(false, Opts, - #diameter_caps{origin_host = {_,OH}} - = Caps, + #diameter_caps{origin_host = {_,OH}}, #diameter_packet{header = Hdr0, - avps = Avps} - = Pkt, + avps = Avps}, App, Dict0, #recvdata{service_name = SvcName, @@ -619,7 +666,12 @@ resend(false, Seq = diameter_session:sequence(Mask), Hdr = Hdr0#diameter_header{hop_by_hop_id = Seq}, Msg = [Hdr, Route | Avps], %% reordered at encode - resend(send_request(SvcName, App, Msg, Opts), Caps, Dict0, Pkt). + case send_request(SvcName, App, Msg, Opts) of + #diameter_packet{} = Ans -> + Ans; + _ -> + 3002 %% DIAMETER_UNABLE_TO_DELIVER. + end. %% The incoming request is relayed with the addition of a %% Route-Record. Note the requirement on the return from call/4 below, %% which places a requirement on the value returned by the @@ -636,96 +688,38 @@ resend(false, %% RFC 6.3 says that a relay agent does not modify Origin-Host but %% says nothing about a proxy. Assume it should behave the same way. -%% resend/4 -%% -%% Relay a reply to a relayed request. - -%% Answer from the peer: reset the hop by hop identifier. -resend(#diameter_packet{bin = B} - = Pkt, - _Caps, - _Dict0, - #diameter_packet{header = #diameter_header{hop_by_hop_id = Id}, - transport_data = TD}) -> - Pkt#diameter_packet{bin = diameter_codec:hop_by_hop_id(Id, B), - transport_data = TD}; -%% TODO: counters +%% is_loop/3 -%% Or not: DIAMETER_UNABLE_TO_DELIVER. -resend(_, Caps, Dict0, Pkt) -> - answer_message(3002, Caps, Dict0, Pkt). +is_loop(Dict0, + #diameter_caps{origin_host = {OH,_}}, + #diameter_packet{avps = Avps}) -> + {Code, _Flags, Vid} = Dict0:avp_header('Route-Record'), + is_loop(Code, Vid, OH, Avps). -%% is_loop/5 +%% is_loop/4 %% %% Is there a Route-Record AVP with our Origin-Host? -is_loop(Code, - Vid, - Bin, - _Dict0, - [#diameter_avp{code = Code, vendor_id = Vid, data = Bin} | _]) -> +is_loop(Code, Vid, Bin, [#diameter_avp{code = Code, + vendor_id = Vid, + data = Bin} + | _]) -> true; -is_loop(_, _, _, _, []) -> +is_loop(_, _, _, []) -> false; -is_loop(Code, Vid, OH, Dict0, [_ | Avps]) +is_loop(Code, Vid, OH, [_ | Avps]) when is_binary(OH) -> - is_loop(Code, Vid, OH, Dict0, Avps); - -is_loop(Code, Vid, OH, Dict0, Avps) -> - is_loop(Code, Vid, Dict0:avp(encode, OH, 'Route-Record'), Dict0, Avps). - -%% reply/5 - -%% Local answer ... -reply({MsgDict, Ans}, TPid, {AppDict, Dict0}, Fs, ReqPkt) -> - local(Ans, TPid, {MsgDict, AppDict, Dict0}, Fs, ReqPkt); - -%% ... or relayed. -reply(#diameter_packet{} = Pkt, _TPid, {AppDict, Dict0}, Fs, _ReqPkt) -> - eval_packet(Pkt, Fs), - {msg_dict(AppDict, Dict0, Pkt), Pkt}. - -%% local/5 -%% -%% Send a locally originating reply. - -%% Skip the setting of Result-Code and Failed-AVP's below. This is -%% undocumented and shouldn't be relied on. -local([Msg], TPid, DictT, Fs, ReqPkt) - when is_list(Msg); - is_tuple(Msg) -> - local(Msg, TPid, DictT, Fs, ReqPkt#diameter_packet{errors = []}); - -local(Msg, TPid, {MsgDict, AppDict, Dict0}, Fs, ReqPkt) -> - Pkt = encode({MsgDict, AppDict}, - TPid, - reset(make_answer_packet(Msg, ReqPkt), MsgDict, Dict0), - Fs), - {MsgDict, Pkt}. - -%% reset/3 + is_loop(Code, Vid, OH, Avps); -%% Header/avps list: send as is. -reset(#diameter_packet{msg = [#diameter_header{} | _]} = Pkt, _, _) -> - Pkt; - -%% No errors to set or errors explicitly ignored. -reset(#diameter_packet{errors = Es} = Pkt, _, _) - when Es == []; - Es == false -> - Pkt; - -%% Otherwise possibly set Result-Code and/or Failed-AVP. -reset(#diameter_packet{msg = Msg, errors = Es} = Pkt, Dict, Dict0) -> - {RC, Failed} = select_error(Msg, Es, Dict0), - Pkt#diameter_packet{msg = reset(Msg, Dict, RC, Failed)}. +is_loop(Code, Vid, OH, Avps) -> + is_loop(Code, Vid, list_to_binary(OH), Avps). %% select_error/3 %% %% Extract the first appropriate RC or {RC, #diameter_avp{}} -%% pair from an errors list, and accumulate all #diameter_avp{}. +%% pair from an errors list, along with any leading #diameter_avp{}. %% %% RFC 6733: %% @@ -740,95 +734,138 @@ reset(#diameter_packet{msg = Msg, errors = Es} = Pkt, Dict, Dict0) -> %% indicated by the Result-Code AVP. For practical purposes, this %% Failed-AVP would typically refer to the first AVP processing error %% that a Diameter node encounters. +%% +%% 3xxx can only be set in an answer setting the E-bit. RFC 6733 also +%% allows 5xxx, RFC 3588 doesn't. -select_error(Msg, Es, Dict0) -> - {RC, Avps} = lists:foldl(fun(T,A) -> select(T, A, Dict0) end, - {is_answer_message(Msg, Dict0), []}, - Es), - {RC, lists:reverse(Avps)}. +select_error(E, Es, Dict0) -> + select(E, Es, Dict0, []). -%% Only integer() and {integer(), #diameter_avp{}} are the result of -%% decode. #diameter_avp{} can only be set in a reply for encode. +%% select/4 -select(#diameter_avp{} = A, {RC, As}, _) -> - {RC, [A|As]}; +select(E, [{RC, _} = T | Es], Dict0, Avps) -> + select(E, RC, T, Es, Dict0, Avps); -select(_, {RC, _} = Acc, _) - when is_integer(RC) -> - Acc; +select(E, [#diameter_avp{} = A | Es], Dict0, Avps) -> + select(E, Es, Dict0, [A | Avps]); -select({RC, #diameter_avp{} = A}, {IsAns, As} = Acc, Dict0) - when is_integer(RC) -> - case is_result(RC, IsAns, Dict0) of - true -> {RC, [A|As]}; - false -> Acc - end; +select(E, [RC | Es], Dict0, Avps) -> + select(E, RC, RC, Es, Dict0, Avps); -select(RC, {IsAns, As} = Acc, Dict0) - when is_boolean(IsAns), is_integer(RC) -> - case is_result(RC, IsAns, Dict0) of - true -> {RC, As}; - false -> Acc - end. +select(_, [], _, Avps) -> + Avps. -%% reset/4 +%% select/6 + +select(E, RC, T, _, Dict0, Avps) + when E, 3000 =< RC, RC < 4000; %% E-bit with 3xxx + E, ?BASE /= Dict0, 5000 =< RC, RC < 6000; %% E-bit with 5xxx + not E, RC < 3000 orelse 4000 =< RC -> %% no E-bit + [T | Avps]; -reset(Msg, Dict, RC, Avps) -> - FailedAVP = failed_avp(Msg, Avps, Dict), - ResultCode = rc(Msg, RC, Dict), - set(set(Msg, FailedAVP, Dict), ResultCode, Dict). +select(E, _, _, Es, Dict0, Avps) -> + select(E, Es, Dict0, Avps). %% eval_packet/2 eval_packet(Pkt, Fs) -> lists:foreach(fun(F) -> diameter_lib:eval([F,Pkt]) end, Fs). -%% make_answer_packet/2 +%% make_answer_packet/4 %% Use decode errors to set Result-Code and/or Failed-AVP unless the %% the errors field has been explicitly set. Unfortunately, the %% default value is the empty list rather than 'undefined' so use the %% atom 'false' for "set nothing". (This is historical and changing -%% the default value would require modules including diameter.hrl to -%% be recompiled.) -make_answer_packet(#diameter_packet{errors = []} - = Pkt, - #diameter_packet{errors = [_|_] = Es} - = ReqPkt) -> - make_answer_packet(Pkt#diameter_packet{errors = Es}, ReqPkt); +%% the default value would impact anyone expecting relying on the old +%% default.) -%% A reply message clears the R and T flags and retains the P flag. -%% The E flag will be set at encode. 6.2 of 3588 requires the same P -%% flag on an answer as on the request. A #diameter_packet{} returned -%% from a handle_request callback can circumvent this by setting its -%% own header values. make_answer_packet(#diameter_packet{header = Hdr, msg = Msg, errors = Es, transport_data = TD}, - #diameter_packet{header = ReqHdr}) -> - Hdr0 = ReqHdr#diameter_header{version = ?DIAMETER_VERSION, - is_request = false, - is_error = undefined, - is_retransmitted = false}, - #diameter_packet{header = fold_record(Hdr0, Hdr), - msg = Msg, - errors = Es, + #diameter_packet{header = Hdr0, + errors = Es0}, + MsgDict, + Dict0) -> + #diameter_packet{header = make_answer_header(Hdr0, Hdr), + msg = reset(Msg, Es0, Es, MsgDict, Dict0), transport_data = TD}; %% Binaries and header/avp lists are sent as-is. -make_answer_packet(Bin, #diameter_packet{transport_data = TD}) +make_answer_packet(Bin, #diameter_packet{transport_data = TD}, _, _) when is_binary(Bin) -> #diameter_packet{bin = Bin, transport_data = TD}; make_answer_packet([#diameter_header{} | _] = Msg, - #diameter_packet{transport_data = TD}) -> + #diameter_packet{transport_data = TD}, + _, + _) -> #diameter_packet{msg = Msg, transport_data = TD}; -%% Otherwise, preserve transport_data. -make_answer_packet(Msg, #diameter_packet{transport_data = TD} = Pkt) -> - make_answer_packet(#diameter_packet{msg = Msg, transport_data = TD}, Pkt). +make_answer_packet(Msg, + #diameter_packet{header = Hdr, + errors = Es, + transport_data = TD}, + MsgDict, + Dict0) -> + #diameter_packet{header = make_answer_header(Hdr, undefined), + msg = reset(Msg, [], Es, MsgDict, Dict0), + transport_data = TD}. + +%% make_answer_header/2 + +%% A reply message clears the R and T flags and retains the P flag. +%% The E flag will be set at encode. 6.2 of 3588 requires the same P +%% flag on an answer as on the request. A #diameter_packet{} returned +%% from a handle_request callback can circumvent this by setting its +%% own header values. +make_answer_header(ReqHdr, Hdr) -> + Hdr0 = ReqHdr#diameter_header{version = ?DIAMETER_VERSION, + is_request = false, + is_error = undefined, + is_retransmitted = false}, + fold_record(Hdr0, Hdr). + +%% reset/5 + +reset(Msg, [_|_] = Es0, [] = Es, MsgDict, Dict0) -> + reset(Msg, Es, Es0, MsgDict, Dict0); + +reset(Msg, _, Es, _, _) + when Es == false; + Es == [] -> + Msg; + +reset(Msg, _, Es, MsgDict, Dict0) -> + E = is_answer_message(Msg, Dict0), + reset(Msg, select_error(E, Es, Dict0), choose(E, Dict0, MsgDict)). + +%% reset/4 +%% +%% Set Result-Code and/or Failed-AVP (maybe). Only RC and {RC, AVP} +%% are the result of decode. AVP or {RC, [AVP]} can be set in an +%% answer for encode, as a convenience for injecting additional AVPs +%% into Failed-AVP; eg. 5001 = DIAMETER_AVP_UNSUPPORTED. + +reset(Msg, [], _) -> + Msg; + +reset(Msg, [{RC, As} | Avps], Dict) + when is_list(As) -> + reset(Msg, [RC | As ++ Avps], Dict); + +reset(Msg, [{RC, Avp} | Avps], Dict) -> + reset(Msg, [RC, Avp | Avps], Dict); + +reset(Msg, [#diameter_avp{} | _] = Avps, Dict) -> + set(Msg, failed_avp(Msg, Avps, Dict), Dict); + +reset(Msg, [RC | Avps], Dict) -> + set(Msg, rc(Msg, RC, Dict) ++ failed_avp(Msg, Avps, Dict), Dict). + +%% set/3 %% Reply as name and tuple list ... set([_|_] = Ans, Avps, _) -> @@ -842,11 +879,7 @@ set(Rec, Avps, Dict) -> %% %% Turn the result code into a list if its optional and only set it if %% the arity is 1 or {0,1}. In other cases (which probably shouldn't -%% exist in practise) we can't know what's appropriate. - -rc(_, B, _) - when is_boolean(B) -> - []; +%% exist in practice) we can't know what's appropriate. rc([MsgName | _], RC, Dict) -> K = 'Result-Code', @@ -864,8 +897,8 @@ rc(Rec, RC, Dict) -> failed_avp(_, [] = No, _) -> No; -failed_avp(Rec, Avps, Dict) -> - [failed(Rec, [{'AVP', Avps}], Dict)]. +failed_avp(Msg, [_|_] = Avps, Dict) -> + [failed(Msg, [{'AVP', Avps}], Dict)]. %% Reply as name and tuple list ... failed([MsgName | Values], FailedAvp, Dict) -> @@ -962,22 +995,26 @@ failed(Rec, FailedAvp, Dict) -> %% Error-Message AVP is not intended to be useful in real-time, and %% SHOULD NOT be expected to be parsed by network entities. -%% answer_message/5 +%% answer_message/4 -answer_message(OH, OR, RC, Dict0, #diameter_packet{avps = Avps, - errors = Es}) -> +answer_message(RC, + Dict0, + #diameter_caps{origin_host = {OH,_}, + origin_realm = {OR,_}}, + #diameter_packet{avps = Avps, + errors = Es}) -> {Code, _, Vid} = Dict0:avp_header('Session-Id'), ['answer-message', {'Origin-Host', OH}, {'Origin-Realm', OR}, {'Result-Code', RC}] - ++ session_id(Code, Vid, Dict0, Avps) + ++ session_id(Code, Vid, Avps) ++ failed_avp(RC, Es). -session_id(Code, Vid, Dict0, Avps) +session_id(Code, Vid, Avps) when is_list(Avps) -> try #diameter_avp{data = Bin} = find_avp(Code, Vid, Avps), - [{'Session-Id', [Dict0:avp(decode, Bin, 'Session-Id')]}] + [{'Session-Id', [Bin]}] catch error: _ -> [] @@ -1197,8 +1234,6 @@ get_result(Dict, Msg) -> try [throw(A) || N <- ['Result-Code', 'Experimental-Result'], #diameter_avp{} = A <- [get_avp(Dict, N, Msg)]] - of - [] -> false catch #diameter_avp{} = A -> A end. @@ -1207,7 +1242,7 @@ x(T) -> exit(T). %% --------------------------------------------------------------------------- -%% # send_request/4 +%% send_request/4 %% %% Handle an outgoing Diameter request. %% --------------------------------------------------------------------------- @@ -1260,11 +1295,10 @@ answer_rc(_, _, Sent) -> %% %% In the process spawned for the outgoing request. -send_R(SvcName, AppOrAlias, Msg, Opts, Caller) -> - case pick_peer(SvcName, AppOrAlias, Msg, Opts) of - {Transport, Mask, SvcOpts} -> - diameter_codec:setopts(SvcOpts), - send_request(Transport, Mask, Msg, Opts, Caller, SvcName); +send_R(SvcName, AppOrAlias, Msg, CallOpts, Caller) -> + case pick_peer(SvcName, AppOrAlias, Msg, CallOpts) of + {{_,_} = Transport, SvcOpts} -> + send_request(Transport, SvcOpts, Msg, CallOpts, Caller, SvcName); {error, _} = No -> No end. @@ -1272,31 +1306,45 @@ send_R(SvcName, AppOrAlias, Msg, Opts, Caller) -> %% make_options/1 make_options(Options) -> - lists:foldl(fun mo/2, #options{}, Options). - -mo({timeout, T}, Rec) - when is_integer(T), 0 =< T -> - Rec#options{timeout = T}; - -mo({filter, F}, #options{filter = none} = Rec) -> - Rec#options{filter = F}; -mo({filter, F}, #options{filter = {all, Fs}} = Rec) -> - Rec#options{filter = {all, [F | Fs]}}; -mo({filter, F}, #options{filter = F0} = Rec) -> - Rec#options{filter = {all, [F0, F]}}; - -mo({extra, L}, #options{extra = X} = Rec) + make_opts(Options, [], false, [], none, 5000). + +%% Do our own recursion since this is faster than a lists:foldl/3 +%% setting elements in an #options{} accumulator. + +make_opts([], Peers, Detach, Extra, Filter, Tmo) -> + #options{peers = lists:reverse(Peers), + detach = Detach, + extra = Extra, + filter = Filter, + timeout = Tmo}; + +make_opts([{timeout, Tmo} | Rest], Peers, Detach, Extra, Filter, _) + when is_integer(Tmo), 0 =< Tmo -> + make_opts(Rest, Peers, Detach, Extra, Filter, Tmo); + +make_opts([{filter, F} | Rest], Peers, Detach, Extra, none, Tmo) -> + make_opts(Rest, Peers, Detach, Extra, F, Tmo); +make_opts([{filter, F} | Rest], Peers, Detach, Extra, {all, Fs}, Tmo) -> + make_opts(Rest, Peers, Detach, Extra, {all, [F|Fs]}, Tmo); +make_opts([{filter, F} | Rest], Peers, Detach, Extra, F0, Tmo) -> + make_opts(Rest, Peers, Detach, Extra, {all, [F0, F]}, Tmo); + +make_opts([{extra, L} | Rest], Peers, Detach, Extra, Filter, Tmo) when is_list(L) -> - Rec#options{extra = X ++ L}; + make_opts(Rest, Peers, Detach, Extra ++ L, Filter, Tmo); + +make_opts([detach | Rest], Peers, _, Extra, Filter, Tmo) -> + make_opts(Rest, Peers, true, Extra, Filter, Tmo); -mo(detach, Rec) -> - Rec#options{detach = true}; +make_opts([{peer, TPid} | Rest], Peers, Detach, Extra, Filter, Tmo) + when is_pid(TPid) -> + make_opts(Rest, [TPid | Peers], Detach, Extra, Filter, Tmo); -mo(T, _) -> +make_opts([T | _], _, _, _, _, _) -> ?ERROR({invalid_option, T}). %% --------------------------------------------------------------------------- -%% # send_request/6 +%% send_request/6 %% --------------------------------------------------------------------------- %% Send an outgoing request in its dedicated process. @@ -1309,44 +1357,51 @@ mo(T, _) -> %% The module field of the #diameter_app{} here includes any extra %% arguments passed to diameter:call/4. -send_request({TPid, Caps, App} +send_request({{TPid, _Caps} = TC, App} = Transport, - Mask, - Msg, - Opts, + #{sequence := Mask} + = SvcOpts, + Msg0, + CallOpts, Caller, SvcName) -> - Pkt = make_prepare_packet(Mask, Msg), - - send_R(cb(App, prepare_request, [Pkt, SvcName, {TPid, Caps}]), - Pkt, - Transport, - Opts, - Caller, - SvcName, - []). + Pkt = make_prepare_packet(Mask, Msg0), + + case prepare(cb(App, prepare_request, [Pkt, SvcName, TC]), []) of + [Msg | Fs] -> + ReqPkt = make_request_packet(Msg, Pkt), + EncPkt = encode(App#diameter_app.dictionary, + TPid, + SvcOpts, + ReqPkt), + eval_packet(EncPkt, Fs), + T = send_R(ReqPkt, EncPkt, Transport, CallOpts, Caller, SvcName), + Ans = recv_answer(SvcName, App, CallOpts, T), + handle_answer(SvcName, SvcOpts, App, Ans); + {discard, Reason} -> + {error, Reason}; + discard -> + {error, discarded}; + {error, Reason} -> + ?ERROR({invalid_return, Reason, prepare_request, App}) + end. -%% send_R/7 +%% prepare/2 -send_R({send, Msg}, Pkt, Transport, Opts, Caller, SvcName, Fs) -> - send_R(make_request_packet(Msg, Pkt), - Transport, - Opts, - Caller, - SvcName, - Fs); +prepare({send, Msg}, Fs) -> + [Msg | Fs]; -send_R({discard, Reason} , _, _, _, _, _, _) -> - {error, Reason}; +prepare({eval_packet, RC, F}, Fs) -> + prepare(RC, [F|Fs]); -send_R(discard, _, _, _, _, _, _) -> - {error, discarded}; +prepare({discard, _Reason} = RC, _) -> + RC; -send_R({eval_packet, RC, F}, Pkt, T, Opts, Caller, SvcName, Fs) -> - send_R(RC, Pkt, T, Opts, Caller, SvcName, [F|Fs]); +prepare(discard = RC, _) -> + RC; -send_R(E, _, {_, _, App}, _, _, _, _) -> - ?ERROR({invalid_return, E, prepare_request, App}). +prepare(Reason, _) -> + {error, Reason}. %% make_prepare_packet/2 %% @@ -1366,43 +1421,39 @@ make_prepare_packet(Mask, #diameter_packet{msg = [#diameter_header{} = Hdr make_prepare_packet(Mask, #diameter_packet{header = Hdr} = Pkt) -> Pkt#diameter_packet{header = make_prepare_header(Mask, Hdr)}; +make_prepare_packet(Mask, [#diameter_header{} = Hdr | Avps]) -> + #diameter_packet{msg = [make_prepare_header(Mask, Hdr) | Avps]}; + make_prepare_packet(Mask, Msg) -> - make_prepare_packet(Mask, #diameter_packet{msg = Msg}). + #diameter_packet{header = make_prepare_header(Mask, undefined), + msg = Msg}. %% make_prepare_header/2 make_prepare_header(Mask, undefined) -> Seq = diameter_session:sequence(Mask), - make_prepare_header(#diameter_header{end_to_end_id = Seq, - hop_by_hop_id = Seq}); - -make_prepare_header(Mask, #diameter_header{end_to_end_id = undefined, - hop_by_hop_id = undefined} - = H) -> - Seq = diameter_session:sequence(Mask), - make_prepare_header(H#diameter_header{end_to_end_id = Seq, - hop_by_hop_id = Seq}); - -make_prepare_header(Mask, #diameter_header{end_to_end_id = undefined} = H) -> - Seq = diameter_session:sequence(Mask), - make_prepare_header(H#diameter_header{end_to_end_id = Seq}); - -make_prepare_header(Mask, #diameter_header{hop_by_hop_id = undefined} = H) -> - Seq = diameter_session:sequence(Mask), - make_prepare_header(H#diameter_header{hop_by_hop_id = Seq}); - -make_prepare_header(_, Hdr) -> - make_prepare_header(Hdr). - -%% make_prepare_header/1 - -make_prepare_header(#diameter_header{version = undefined} = Hdr) -> - make_prepare_header(Hdr#diameter_header{version = ?DIAMETER_VERSION}); - -make_prepare_header(#diameter_header{} = Hdr) -> - Hdr; - -make_prepare_header(T) -> + #diameter_header{version = ?DIAMETER_VERSION, + end_to_end_id = Seq, + hop_by_hop_id = Seq}; + +make_prepare_header(Mask, #diameter_header{version = V, + end_to_end_id = EI, + hop_by_hop_id = HI} + = H) + when EI == undefined; + HI == undefined -> + Id = diameter_session:sequence(Mask), + H#diameter_header{version = ?DEFAULT(V, ?DIAMETER_VERSION), + end_to_end_id = ?DEFAULT(EI, Id), + hop_by_hop_id = ?DEFAULT(HI, Id)}; + +make_prepare_header(_, #diameter_header{version = undefined} = H) -> + H#diameter_header{version = ?DIAMETER_VERSION}; + +make_prepare_header(_, #diameter_header{} = H) -> + H; + +make_prepare_header(_, T) -> ?ERROR({invalid_header, T}). %% make_request_packet/2 @@ -1446,42 +1497,45 @@ make_retransmit_header(Hdr) -> Hdr#diameter_header{is_retransmitted = true}. %% fold_record/2 +%% +%% Replace elements in the first record by those in the second that +%% differ from undefined. -fold_record(undefined, R) -> - R; -fold_record(Rec, R) -> - diameter_lib:fold_tuple(2, Rec, R). +fold_record(Rec0, undefined) -> + Rec0; +fold_record(Rec0, Rec) -> + list_to_tuple(fold(tuple_to_list(Rec0), tuple_to_list(Rec))). + +fold([], []) -> + []; +fold([H | T0], [undefined | T]) -> + [H | fold(T0, T)]; +fold([_ | T0], [H | T]) -> + [H | fold(T0, T)]. %% send_R/6 -send_R(Pkt0, - {TPid, Caps, #diameter_app{dictionary = AppDict} = App}, - Opts, +send_R(ReqPkt, + EncPkt, + {{TPid, _Caps} = TC, #diameter_app{dictionary = AppDict}}, + #options{timeout = Timeout}, {Pid, Ref}, - SvcName, - Fs) -> - Pkt = encode(AppDict, TPid, Pkt0, Fs), - - #options{timeout = Timeout} - = Opts, - + SvcName) -> Req = #request{ref = Ref, caller = Pid, handler = self(), - transport = TPid, - caps = Caps, - packet = Pkt0}, + peer = TC, + packet = ReqPkt}, - incr(send, Pkt, TPid, AppDict), - {TRef, MRef} = zend_requezt(TPid, Pkt, Req, SvcName, Timeout), + incr(send, EncPkt, TPid, AppDict), + {TRef, MRef} = zend_requezt(TPid, EncPkt, Req, SvcName, Timeout), Pid ! Ref, %% tell caller a send has been attempted - handle_answer(SvcName, - App, - recv_A(Timeout, SvcName, App, Opts, {TRef, MRef, Req})). + {TRef, MRef, Req}. -%% recv_A/5 +%% recv_answer/4 -recv_A(Timeout, SvcName, App, Opts, {TRef, MRef, #request{ref = Ref} = Req}) -> +recv_answer(SvcName, App, CallOpts, {TRef, MRef, #request{ref = Ref} + = Req}) -> %% Matching on TRef below ensures we ignore messages that pertain %% to a previous transport prior to failover. The answer message %% includes the pid of the transport on which it was received, @@ -1492,97 +1546,90 @@ recv_A(Timeout, SvcName, App, Opts, {TRef, MRef, #request{ref = Ref} = Req}) -> {timeout = Reason, TRef, _} -> %% No timely reply {error, Req, Reason}; {'DOWN', MRef, process, _, _} when false /= MRef -> %% local peer_down - failover(SvcName, App, Req, Opts, Timeout); + failover(SvcName, App, Req, CallOpts); {failover, TRef} -> %% local or remote peer_down - failover(SvcName, App, Req, Opts, Timeout) + failover(SvcName, App, Req, CallOpts) end. -%% failover/5 +%% failover/4 -failover(SvcName, App, Req, Opts, Timeout) -> - retransmit(pick_peer(SvcName, App, Req, Opts), - Req, - Opts, - SvcName, - Timeout). +failover(SvcName, App, Req, CallOpts) -> + resend_request(pick_peer(SvcName, App, Req, CallOpts), + Req, + CallOpts, + SvcName). -%% handle_answer/3 +%% handle_answer/4 -handle_answer(SvcName, App, {error, Req, Reason}) -> - handle_error(App, Req, Reason, SvcName); +handle_answer(SvcName, _, App, {error, Req, Reason}) -> + #request{packet = Pkt, + peer = {_TPid, _Caps} = TC} + = Req, + cb(App, handle_error, [Reason, msg(Pkt), SvcName, TC]); handle_answer(SvcName, - #diameter_app{dictionary = AppDict, - id = Id} + SvcOpts, + #diameter_app{id = Id, + dictionary = AppDict, + options = [{answer_errors, AE} | _]} = App, {answer, Req, Dict0, Pkt}) -> MsgDict = msg_dict(AppDict, Dict0, Pkt), - handle_A(errors(Id, diameter_codec:decode({MsgDict, AppDict}, Pkt)), - SvcName, - MsgDict, - Dict0, - App, - Req). - -%% We don't really need to do a full decode if we're a relay and will -%% just resend with a new hop by hop identifier, but might a proxy -%% want to examine the answer? - -handle_A(Pkt, SvcName, Dict, Dict0, App, #request{transport = TPid} = Req) -> - AppDict = App#diameter_app.dictionary, - - incr(recv, Pkt, TPid, AppDict), - - try - incr_result(recv, Pkt, TPid, {Dict, AppDict, Dict0}) %% count incoming - of - _ -> answer(Pkt, SvcName, App, Req) - catch - exit: {no_result_code, _} -> - %% RFC 6733 requires one of Result-Code or - %% Experimental-Result, but the decode will have detected - %% a missing AVP. If both are optional in the dictionary - %% then this isn't a decode error: just continue on. - answer(Pkt, SvcName, App, Req); - exit: {invalid_error_bit, {_, _, _, Avp}} -> - #diameter_packet{errors = Es} - = Pkt, - E = {5004, Avp}, - answer(Pkt#diameter_packet{errors = [E|Es]}, SvcName, App, Req) - end. - -%% answer/4 - -answer(Pkt, - SvcName, - #diameter_app{module = ModX, - options = [{answer_errors, AE} | _]}, - Req) -> - a(Pkt, SvcName, ModX, AE, Req). - --spec a(_, _, _) -> no_return(). %% silence dialyzer - -a(#diameter_packet{errors = Es} - = Pkt, - SvcName, - ModX, - AE, - #request{transport = TPid, - caps = Caps, - packet = P}) - when [] == Es; - callback == AE -> - cb(ModX, handle_answer, [Pkt, msg(P), SvcName, {TPid, Caps}]); - -a(Pkt, SvcName, _, AE, _) -> - a(Pkt#diameter_packet.header, SvcName, AE). - -a(Hdr, SvcName, report) -> + DecPkt = errors(Id, diameter_codec:decode({MsgDict, AppDict}, + SvcOpts, + Pkt)), + #request{peer = {TPid, _}} + = Req, + + incr(recv, DecPkt, TPid, AppDict), + + AnsPkt = try + incr_result(recv, DecPkt, TPid, {MsgDict, AppDict, Dict0}) + of + _ -> DecPkt + catch + exit: {no_result_code, _} -> + %% RFC 6733 requires one of Result-Code or + %% Experimental-Result, but the decode will have + %% detected a missing AVP. If both are optional in + %% the dictionary then this isn't a decode error: + %% just continue on. + DecPkt; + exit: {invalid_error_bit, {_, _, _, Avp}} -> + #diameter_packet{errors = Es} + = DecPkt, + E = {5004, Avp}, + DecPkt#diameter_packet{errors = [E|Es]} + end, + + handle_answer(AnsPkt, SvcName, App, AE, Req). + +%% handle_answer/5 + +handle_answer(#diameter_packet{errors = Es} + = Pkt, + SvcName, + App, + AE, + #request{peer = {_TPid, _Caps} = TC, + packet = P}) + when callback == AE; + [] == Es -> + cb(App, handle_answer, [Pkt, msg(P), SvcName, TC]); + +handle_answer(#diameter_packet{header = H}, SvcName, _, AE, _) -> + handle_error(H, SvcName, AE). + +%% handle_error/3 + +-spec handle_error(_, _, _) -> no_return(). %% silence dialyzer + +handle_error(Hdr, SvcName, report) -> MFA = {?MODULE, handle_answer, [SvcName, Hdr]}, diameter_lib:warning_report(errors, MFA), - a(Hdr, SvcName, discard); + handle_error(Hdr, SvcName, discard); -a(Hdr, SvcName, discard) -> +handle_error(Hdr, SvcName, discard) -> x({answer_errors, {SvcName, Hdr}}). %% Note that we don't check that the application id in the answer's @@ -1593,16 +1640,38 @@ a(Hdr, SvcName, discard) -> %% timer value is ignored. This means that an answer could be accepted %% from a peer after timeout in the case of failover. -%% retransmit/5 +%% resend_request/4 -retransmit({{_,_,App} = Transport, _, _}, Req, Opts, SvcName, Timeout) -> - try retransmit(Transport, Req, SvcName, Timeout) of - T -> recv_A(Timeout, SvcName, App, Opts, T) - catch - ?FAILURE(Reason) -> {error, Req, Reason} +resend_request({{{TPid, _Caps} = TC, App}, SvcOpts}, + Req0, + #options{timeout = Timeout} + = CallOpts, + SvcName) -> + case + undefined == get(TPid) + andalso prepare_retransmit(TC, App, Req0, SvcName) + of + [ReqPkt | Fs] -> + AppDict = App#diameter_app.dictionary, + EncPkt = encode(AppDict, TPid, SvcOpts, ReqPkt), + eval_packet(EncPkt, Fs), + Req = Req0#request{peer = TC, + packet = ReqPkt}, + ?LOG(retransmission, EncPkt#diameter_packet.header), + incr(TPid, {msg_id(EncPkt, AppDict), send, retransmission}), + {TRef, MRef} = zend_requezt(TPid, EncPkt, Req, SvcName, Timeout), + recv_answer(SvcName, App, CallOpts, {TRef, MRef, Req}); + false -> + {error, Req0, timeout}; + {discard, Reason} -> + {error, Req0, Reason}; + discard -> + {error, Req0, discarded}; + {error, T} -> + ?ERROR({invalid_return, T, prepare_retransmit, App}) end; -retransmit(_, Req, _, _, _) -> %% no alternate peer +resend_request(_, Req, _, _) -> %% no alternate peer {error, Req, failover}. %% pick_peer/4 @@ -1612,8 +1681,8 @@ retransmit(_, Req, _, _, _) -> %% no alternate peer pick_peer(SvcName, App, #request{packet = #diameter_packet{msg = Msg}}, - Opts) -> - pick_peer(SvcName, App, Msg, Opts#options{extra = []}); + CallOpts) -> + pick_peer(SvcName, App, Msg, CallOpts#options{extra = []}); pick_peer(_, _, undefined, _) -> {error, no_connection}; @@ -1621,28 +1690,14 @@ pick_peer(_, _, undefined, _) -> pick_peer(SvcName, AppOrAlias, Msg, - #options{filter = Filter, extra = Xtra}) -> - pick(diameter_service:pick_peer(SvcName, - AppOrAlias, - {fun(D) -> get_destination(D, Msg) end, - Filter, - Xtra})). - -pick(false) -> - {error, no_connection}; - -pick(T) -> - T. - -%% handle_error/4 - -handle_error(App, - #request{packet = Pkt, - transport = TPid, - caps = Caps}, - Reason, - SvcName) -> - cb(App, handle_error, [Reason, msg(Pkt), SvcName, {TPid, Caps}]). + #options{peers = TPids, filter = Filter, extra = Xtra}) -> + X = {fun(D) -> get_destination(D, Msg) end, Filter, Xtra, TPids}, + case diameter_service:pick_peer(SvcName, AppOrAlias, X) of + false -> + {error, no_connection}; + T -> + T + end. msg(#diameter_packet{msg = undefined, bin = Bin}) -> Bin; @@ -1651,27 +1706,20 @@ msg(#diameter_packet{msg = Msg}) -> %% encode/4 -encode(Dict, TPid, Pkt, Fs) -> - P = encode(Dict, TPid, Pkt), - eval_packet(P, Fs), - P. - -%% encode/2 - %% Note that prepare_request can return a diameter_packet containing a %% header or transport_data. Even allow the returned record to contain %% an encoded binary. This isn't the usual case and doesn't properly %% support retransmission but is useful for test. -encode(Dict, TPid, Pkt) +encode(Dict, TPid, Opts, Pkt) when is_atom(Dict) -> - encode({Dict, Dict}, TPid, Pkt); + encode({Dict, Dict}, TPid, Opts, Pkt); %% A message to be encoded. -encode(DictT, TPid, #diameter_packet{bin = undefined} = Pkt) -> +encode(DictT, TPid, Opts, #diameter_packet{bin = undefined} = Pkt) -> {Dict, AppDict} = DictT, try - diameter_codec:encode(Dict, Pkt) + diameter_codec:encode(Dict, Opts, Pkt) catch exit: {diameter_codec, encode, T} = Reason -> incr_error(send, T, TPid, AppDict), @@ -1679,7 +1727,7 @@ encode(DictT, TPid, #diameter_packet{bin = undefined} = Pkt) -> end; %% An encoded binary: just send. -encode(_, _, #diameter_packet{} = Pkt) -> +encode(_, _, _, #diameter_packet{} = Pkt) -> Pkt. %% zend_requezt/5 @@ -1745,81 +1793,26 @@ recv(TPid, Pid, TRef, {LocalTRef, MRef}) -> exit({timeout, LocalTRef, TPid} = T) end. -%% send/2 - -send(Pid, Pkt) -> - Pid ! {send, Pkt}. - %% send/3 send(Pid, Pkt, Route) -> Pid ! {send, Pkt, Route}. -%% retransmit/4 +%% prepare_retransmit/4 -retransmit({TPid, Caps, App} - = Transport, - #request{packet = Pkt0} - = Req, - SvcName, - Timeout) -> - undefined == get(TPid) %% Don't failover to a peer we've - orelse ?THROW(timeout), %% already sent to. +prepare_retransmit({_TPid, _Caps} = TC, App, Req, SvcName) -> + Pkt = make_retransmit_packet(Req#request.packet), - Pkt = make_retransmit_packet(Pkt0), + case prepare(cb(App, prepare_retransmit, [Pkt, SvcName, TC]), []) of + [Msg | Fs] -> + [make_request_packet(Msg, Pkt) | Fs]; + No -> + No + end. - retransmit(cb(App, prepare_retransmit, [Pkt, SvcName, {TPid, Caps}]), - Transport, - Req#request{packet = Pkt}, - SvcName, - Timeout, - []). %% When sending a binary, it's up to prepare_retransmit to modify it %% accordingly. -retransmit({send, Msg}, - Transport, - #request{packet = Pkt} - = Req, - SvcName, - Timeout, - Fs) -> - resend_request(make_request_packet(Msg, Pkt), - Transport, - Req, - SvcName, - Timeout, - Fs); - -retransmit({discard, Reason}, _, _, _, _, _) -> - ?THROW(Reason); - -retransmit(discard, _, _, _, _, _) -> - ?THROW(discarded); - -retransmit({eval_packet, RC, F}, Transport, Req, SvcName, Timeout, Fs) -> - retransmit(RC, Transport, Req, SvcName, Timeout, [F|Fs]); - -retransmit(T, {_, _, App}, _, _, _, _) -> - ?ERROR({invalid_return, T, prepare_retransmit, App}). - -resend_request(Pkt0, - {TPid, Caps, #diameter_app{dictionary = AppDict}}, - Req0, - SvcName, - Tmo, - Fs) -> - Pkt = encode(AppDict, TPid, Pkt0, Fs), - - Req = Req0#request{transport = TPid, - packet = Pkt0, - caps = Caps}, - - ?LOG(retransmission, Pkt#diameter_packet.header), - incr(TPid, {msg_id(Pkt, AppDict), send, retransmission}), - {TRef, MRef} = zend_requezt(TPid, Pkt, Req, SvcName, Tmo), - {TRef, MRef, Req}. - %% peer_monitor/2 peer_monitor(TPid, TRef) -> @@ -1919,7 +1912,7 @@ ungroup(Avp) -> avp_decode(Dict, Name, #diameter_avp{value = undefined, data = Bin} = Avp) -> - try Dict:avp(decode, Bin, Name) of + try Dict:avp(decode, Bin, Name, decode_opts(Dict)) of V -> Avp#diameter_avp{value = V} catch @@ -1930,8 +1923,6 @@ avp_decode(_, _, #diameter_avp{} = Avp) -> Avp. cb(#diameter_app{module = [_|_] = M}, F, A) -> - eval(M, F, A); -cb([_|_] = M, F, A) -> eval(M, F, A). eval([M|X], F, A) -> @@ -1939,3 +1930,10 @@ eval([M|X], F, A) -> choose(true, X, _) -> X; choose(false, _, X) -> X. + +%% Decode options sufficient for AVP extraction. +decode_opts(Dict) -> + #{string_decode => false, + strict_mbit => false, + failed_avp => false, + dictionary => Dict}. diff --git a/lib/diameter/src/base/diameter_types.erl b/lib/diameter/src/base/diameter_types.erl index 6ecf385239..86b674dd48 100644 --- a/lib/diameter/src/base/diameter_types.erl +++ b/lib/diameter/src/base/diameter_types.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2010-2015. All Rights Reserved. +%% 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. @@ -26,32 +26,16 @@ %% %% Basic types. --export(['OctetString'/2, - 'Integer32'/2, - 'Integer64'/2, - 'Unsigned32'/2, - 'Unsigned64'/2, - 'Float32'/2, - 'Float64'/2]). - -%% Derived types. --export(['Address'/2, - 'Time'/2, - 'UTF8String'/2, - 'DiameterIdentity'/2, - 'DiameterURI'/2, - 'IPFilterRule'/2, - 'QoSFilterRule'/2]). - -%% Functions taking the AVP name in question as second parameter. -export(['OctetString'/3, 'Integer32'/3, 'Integer64'/3, 'Unsigned32'/3, 'Unsigned64'/3, 'Float32'/3, - 'Float64'/3, - 'Address'/3, + 'Float64'/3]). + +%% Derived types. +-export(['Address'/3, 'Time'/3, 'UTF8String'/3, 'DiameterIdentity'/3, @@ -89,81 +73,80 @@ %% AVP Data Format is needed, a new version of this RFC must be created. %% -------------------- -'OctetString'(decode, Bin) +'OctetString'(decode, Bin, #{string_decode := true}) when is_binary(Bin) -> - case diameter_codec:getopt(string_decode) of - true -> - binary_to_list(Bin); - false -> - Bin - end; - -'OctetString'(decode, B) -> + binary_to_list(Bin); + +'OctetString'(decode, Bin, _) + when is_binary(Bin) -> + Bin; + +'OctetString'(decode, B, _) -> ?INVALID_LENGTH(B); -'OctetString'(encode = M, zero) -> - 'OctetString'(M, []); +'OctetString'(encode, zero, _) -> + <<>>; -'OctetString'(encode, Str) -> +'OctetString'(encode, Str, _) -> iolist_to_binary(Str). %% -------------------- -'Integer32'(decode, <<X:32/signed>>) -> +'Integer32'(decode, <<X:32/signed>>, _) -> X; -'Integer32'(decode, B) -> +'Integer32'(decode, B, _) -> ?INVALID_LENGTH(B); -'Integer32'(encode = M, zero) -> - 'Integer32'(M, 0); +'Integer32'(encode, zero, _) -> + <<0:32/signed>>; -'Integer32'(encode, I) +'Integer32'(encode, I, _) when ?SINT(32,I) -> <<I:32/signed>>. %% -------------------- -'Integer64'(decode, <<X:64/signed>>) -> +'Integer64'(decode, <<X:64/signed>>, _) -> X; -'Integer64'(decode, B) -> +'Integer64'(decode, B, _) -> ?INVALID_LENGTH(B); -'Integer64'(encode = M, zero) -> - 'Integer64'(M, 0); +'Integer64'(encode, zero, _) -> + <<0:64/signed>>; -'Integer64'(encode, I) +'Integer64'(encode, I, _) when ?SINT(64,I) -> <<I:64/signed>>. %% -------------------- -'Unsigned32'(decode, <<X:32>>) -> +'Unsigned32'(decode, <<X:32>>, _) -> X; -'Unsigned32'(decode, B) -> +'Unsigned32'(decode, B, _) -> ?INVALID_LENGTH(B); -'Unsigned32'(encode = M, zero) -> - 'Unsigned32'(M, 0); +'Unsigned32'(encode, zero, _) -> + <<0:32>>; -'Unsigned32'(encode, I) +'Unsigned32'(encode, I, _) when ?UINT(32,I) -> <<I:32>>. %% -------------------- -'Unsigned64'(decode, <<X:64>>) -> +'Unsigned64'(decode, <<X:64>>, _) -> X; -'Unsigned64'(decode, B) -> +'Unsigned64'(decode, B, _) -> ?INVALID_LENGTH(B); -'Unsigned64'(encode = M, zero) -> - 'Unsigned64'(M, 0); +'Unsigned64'(encode, zero, _) -> + <<0:64>>; -'Unsigned64'(encode, I) +'Unsigned64'(encode, I, _) when ?UINT(64,I) -> <<I:64>>. @@ -184,25 +167,25 @@ %% arithmetic is performed on the decoded value. Better to be explicit %% that precision has been lost. -'Float32'(decode, <<S:1, 255:8, _:23>>) -> +'Float32'(decode, <<S:1, 255:8, _:23>>, _) -> choose(S, infinity, '-infinity'); -'Float32'(decode, <<X:32/float>>) -> +'Float32'(decode, <<X:32/float>>, _) -> X; -'Float32'(decode, B) -> +'Float32'(decode, B, _) -> ?INVALID_LENGTH(B); -'Float32'(encode = M, zero) -> - 'Float32'(M, 0.0); +'Float32'(encode, zero, _) -> + <<0.0:32/float>>; -'Float32'(encode, infinity) -> +'Float32'(encode, infinity, _) -> <<0:1, 255:8, 0:23>>; -'Float32'(encode, '-infinity') -> +'Float32'(encode, '-infinity', _) -> <<1:1, 255:8, 0:23>>; -'Float32'(encode, X) +'Float32'(encode, X, _) when is_float(X) -> <<X:32/float>>. %% Note that this could also encode infinity/-infinity for large @@ -222,25 +205,25 @@ %% The 64 bit format is entirely analogous to the 32 bit format. -'Float64'(decode, <<S:1, 2047:11, _:52>>) -> +'Float64'(decode, <<S:1, 2047:11, _:52>>, _) -> choose(S, infinity, '-infinity'); -'Float64'(decode, <<X:64/float>>) -> +'Float64'(decode, <<X:64/float>>, _) -> X; -'Float64'(decode, B) -> +'Float64'(decode, B, _) -> ?INVALID_LENGTH(B); -'Float64'(encode, infinity) -> +'Float64'(encode, infinity, _) -> <<0:1, 2047:11, 0:52>>; -'Float64'(encode, '-infinity') -> +'Float64'(encode, '-infinity', _) -> <<1:1, 2047:11, 0:52>>; -'Float64'(encode = M, zero) -> - 'Float64'(M, 0.0); +'Float64'(encode, zero, _) -> + <<0.0:64/float>>; -'Float64'(encode, X) +'Float64'(encode, X, _) when is_float(X) -> <<X:64/float>>. @@ -256,18 +239,18 @@ %% format. %% -------------------- -'Address'(encode, zero) -> +'Address'(encode, zero, _) -> <<0:48>>; -'Address'(decode, <<A:16, B/binary>>) +'Address'(decode, <<A:16, B/binary>>, _) when 1 == A, 4 == size(B); 2 == A, 16 == size(B) -> list_to_tuple([N || <<N:A/unit:8>> <= B]); -'Address'(decode, B) -> +'Address'(decode, B, _) -> ?INVALID_LENGTH(B); -'Address'(encode, T) -> +'Address'(encode, T, _) -> Ns = tuple_to_list(diameter_lib:ipaddr(T)), %% length 4 or 8 A = length(Ns) div 4, %% 1 or 2 B = << <<N:A/unit:8>> || N <- Ns >>, @@ -278,36 +261,38 @@ %% A DiameterIdentity is a FQDN as definined in RFC 1035, which is at %% least one character. -'DiameterIdentity'(encode = M, zero) -> - 'OctetString'(M, [0]); +'DiameterIdentity'(encode, zero, _) -> + <<0>>; -'DiameterIdentity'(encode = M, X) -> - <<_,_/binary>> = 'OctetString'(M, X); +'DiameterIdentity'(encode = M, X, Opts) -> + <<_,_/binary>> = 'OctetString'(M, X, Opts); -'DiameterIdentity'(decode = M, <<_,_/binary>> = X) -> - 'OctetString'(M, X); +'DiameterIdentity'(decode = M, <<_,_/binary>> = X, Opts) -> + 'OctetString'(M, X, Opts); -'DiameterIdentity'(decode, X) -> +'DiameterIdentity'(decode, X, _) -> ?INVALID_LENGTH(X). %% -------------------- -'DiameterURI'(decode, Bin) +'DiameterURI'(decode, Bin, Opts) when is_binary(Bin) -> - scan_uri(Bin); + scan_uri(Bin, Opts); -'DiameterURI'(decode, B) -> +'DiameterURI'(decode, B, _) -> ?INVALID_LENGTH(B); %% The minimal DiameterURI is "aaa://x", 7 characters. -'DiameterURI'(encode = M, zero) -> - 'OctetString'(M, lists:duplicate(0,7)); - -'DiameterURI'(encode, #diameter_uri{type = Type, - fqdn = DN, - port = PN, - transport = T, - protocol = P}) +'DiameterURI'(encode, zero, _) -> + <<0:7/unit:8>>; + +'DiameterURI'(encode, + #diameter_uri{type = Type, + fqdn = DN, + port = PN, + transport = T, + protocol = P}, + _) when (Type == 'aaa' orelse Type == 'aaas'), is_integer(PN), 0 =< PN, @@ -324,48 +309,47 @@ %% defaults, so it's best to be explicit. Interpret defaults on decode %% since there's no choice. -'DiameterURI'(encode, Str) -> +'DiameterURI'(encode, Str, Opts) -> Bin = iolist_to_binary(Str), - #diameter_uri{} = scan_uri(Bin), %% assert + #diameter_uri{} = scan_uri(Bin, Opts), %% assert Bin. %% -------------------- %% This minimal rule is "deny in 0 from 0.0.0.0 to 0.0.0.0", 33 characters. -'IPFilterRule'(encode = M, zero) -> - 'OctetString'(M, lists:duplicate(0,33)); +'IPFilterRule'(encode, zero, _) -> + <<0:33/unit:8>>; -'IPFilterRule'(M, X) -> - 'OctetString'(M, X). +'IPFilterRule'(M, X, Opts) -> + 'OctetString'(M, X, Opts). %% -------------------- %% This minimal rule is the same as for an IPFilterRule. -'QoSFilterRule'(encode = M, zero = X) -> - 'IPFilterRule'(M, X); +'QoSFilterRule'(encode, zero, _) -> + <<0:33/unit:8>>; -'QoSFilterRule'(M, X) -> - 'OctetString'(M, X). +'QoSFilterRule'(M, X, Opts) -> + 'OctetString'(M, X, Opts). %% -------------------- -'UTF8String'(decode, Bin) +'UTF8String'(decode, Bin, #{string_decode := true}) when is_binary(Bin) -> - case diameter_codec:getopt(string_decode) of - true -> - %% assert list return - tl([0|_] = unicode:characters_to_list([0, Bin])); - false -> - <<_/binary>> = unicode:characters_to_binary(Bin) - end; - -'UTF8String'(decode, B) -> + %% assert list return + tl([0|_] = unicode:characters_to_list([0, Bin])); + +'UTF8String'(decode, Bin, _) + when is_binary(Bin) -> + <<_/binary>> = unicode:characters_to_binary(Bin); + +'UTF8String'(decode, B, _) -> ?INVALID_LENGTH(B); -'UTF8String'(encode = M, zero) -> - 'UTF8String'(M, []); +'UTF8String'(encode, zero, _) -> + <<>>; -'UTF8String'(encode, S) -> +'UTF8String'(encode, S, _) -> <<_/binary>> = unicode:characters_to_binary(S). %% assert binary return %% -------------------- @@ -414,67 +398,23 @@ -define(TIME_MIN, {{1968,1,20},{3,14,8}}). %% TIME_1900 + 1 bsl 31 -define(TIME_MAX, {{2104,2,26},{9,42,24}}). %% TIME_2036 + 1 bsl 31 -'Time'(decode, <<Time:32>>) -> +'Time'(decode, <<Time:32>>, _) -> Offset = msb(1 == Time bsr 31), calendar:gregorian_seconds_to_datetime(Time + Offset); -'Time'(decode, B) -> +'Time'(decode, B, _) -> ?INVALID_LENGTH(B); -'Time'(encode, {{_Y,_M,_D},{_HH,_MM,_SS}} = Datetime) +'Time'(encode, {{_Y,_M,_D},{_HH,_MM,_SS}} = Datetime, _) when ?TIME_MIN =< Datetime, Datetime < ?TIME_MAX -> S = calendar:datetime_to_gregorian_seconds(Datetime), T = S - msb(S < ?TIME_2036), 0 = T bsr 32, %% sanity check <<T:32>>; -'Time'(encode, zero) -> +'Time'(encode, zero, _) -> <<0:32>>. -%% ------------------------------------------------------------------------- - -'OctetString'(M, _, Data) -> - 'OctetString'(M, Data). - -'Integer32'(M, _, Data) -> - 'Integer32'(M, Data). - -'Integer64'(M, _, Data) -> - 'Integer64'(M, Data). - -'Unsigned32'(M, _, Data) -> - 'Unsigned32'(M, Data). - -'Unsigned64'(M, _, Data) -> - 'Unsigned64'(M, Data). - -'Float32'(M, _, Data) -> - 'Float32'(M, Data). - -'Float64'(M, _, Data) -> - 'Float64'(M, Data). - -'Address'(M, _, Data) -> - 'Address'(M, Data). - -'Time'(M, _, Data) -> - 'Time'(M, Data). - -'UTF8String'(M, _, Data) -> - 'UTF8String'(M, Data). - -'DiameterIdentity'(M, _, Data) -> - 'DiameterIdentity'(M, Data). - -'DiameterURI'(M, _, Data) -> - 'DiameterURI'(M, Data). - -'IPFilterRule'(M, _, Data) -> - 'IPFilterRule'(M, Data). - -'QoSFilterRule'(M, _, Data) -> - 'QoSFilterRule'(M, Data). - %% =========================================================================== %% =========================================================================== @@ -564,7 +504,7 @@ msb(false) -> ?TIME_2036. %% %% aaa-protocol = ( "diameter" / "radius" / "tacacs+" ) -scan_uri(Bin) -> +scan_uri(Bin, Opts) -> RE = "^(aaas?)://" "([-a-zA-Z0-9.]{1,255})" "(:0{0,5}([0-9]{1,5}))?" @@ -583,28 +523,30 @@ scan_uri(Bin) -> RE, [{capture, [1,2,4,6,8], binary}]), Type = to_atom(A), - {PN0, T0} = defaults(diameter_codec:getopt(rfc), Type), - PortNr = to_int(PN, PN0), - 0 = PortNr bsr 16, %% assert #diameter_uri{type = Type, - fqdn = 'OctetString'(decode, DN), - port = PortNr, - transport = to_atom(T, T0), + fqdn = 'OctetString'(decode, DN, Opts), + port = portnr(PN, Type, Opts), + transport = transport(T, Opts), protocol = to_atom(P, diameter)}. %% Choose defaults based on the RFC, since 6733 has changed them. -defaults(3588, _) -> - {3868, sctp}; -defaults(6733, aaa) -> - {3868, tcp}; -defaults(6733, aaas) -> - {5658, tcp}. - -to_int(<<>>, N) -> - N; -to_int(B, _) -> + +portnr(<<>>, aaa, #{rfc := 6733}) -> + 3868; +portnr(<<>>, aaas, #{rfc := 6733}) -> + 5868; +portnr(<<>>, _, #{rfc := 3588}) -> + 3868; +portnr(B, _, _) -> binary_to_integer(B). +transport(<<>>, #{rfc := 6733}) -> + tcp; +transport(<<>>, #{rfc := 3588}) -> + sctp; +transport(B, _) -> + to_atom(B). + to_atom(<<>>, A) -> A; to_atom(B, _) -> diff --git a/lib/diameter/src/base/diameter_watchdog.erl b/lib/diameter/src/base/diameter_watchdog.erl index f28b8f2910..a63425d92a 100644 --- a/lib/diameter/src/base/diameter_watchdog.erl +++ b/lib/diameter/src/base/diameter_watchdog.erl @@ -50,10 +50,6 @@ -define(IS_NATURAL(N), (is_integer(N) andalso 0 =< N)). --record(config, - {suspect = 1 :: non_neg_integer(), %% OKAY -> SUSPECT - okay = 3 :: non_neg_integer()}). %% REOPEN -> OKAY - -record(watchdog, {%% PCB - Peer Control Block; see RFC 3539, Appendix A status = initial :: initial | okay | suspect | down | reopen, @@ -70,12 +66,19 @@ | integer() %% monotonic time | undefined, dictionary :: module(), %% common dictionary - receive_data :: term(), - %% term passed into diameter_service with incoming message - sequence :: diameter:sequence(), %% mask - restrict :: {diameter:restriction(), boolean()}, - shutdown = false :: boolean(), - config :: #config{}}). + receive_data :: term(), %% term passed with incoming message + config :: #{sequence := diameter:sequence(), %% mask + restrict_connections := diameter:restriction(), + restrict := boolean(), + suspect := non_neg_integer(), %% OKAY -> SUSPECT + okay := non_neg_integer()}, %% REOPEN -> OKAY + codec :: #{string_decode := false, + strict_mbit := boolean(), + failed_avp := false, + rfc := 3588 | 6733, + ordered_encode := false, + incoming_maxlen := diameter:message_length()}, + shutdown = false :: boolean()}). %% --------------------------------------------------------------------------- %% start/2 @@ -85,12 +88,12 @@ %% reason. %% --------------------------------------------------------------------------- --spec start(Type, {RecvData, [Opt], SvcOpts, #diameter_service{}}) +-spec start(Type, {[Opt], SvcOpts, RecvData, #diameter_service{}}) -> {reference(), pid()} when Type :: {connect|accept, diameter:transport_ref()}, - RecvData :: term(), Opt :: diameter:transport_opt(), - SvcOpts :: [diameter:service_opt()]. + SvcOpts :: map(), + RecvData :: term(). start({_,_} = Type, T) -> Ack = make_ref(), @@ -117,22 +120,28 @@ init(T) -> proc_lib:init_ack({ok, self()}), gen_server:enter_loop(?MODULE, [], i(T)). -i({Ack, T, Pid, {RecvData, - Opts, - SvcOpts, +i({Ack, T, Pid, {Opts, + #{restrict_connections := Restrict} + = SvcOpts0, + RecvData, #diameter_service{applications = Apps, capabilities = Caps} = Svc}}) -> monitor(process, Pid), wait(Ack, Pid), + + Dict0 = common_dictionary(Apps), + SvcOpts = SvcOpts0#{rfc => rfc(Dict0)}, putr(restart, {T, Opts, Svc, SvcOpts}), %% save seeing it in trace putr(dwr, dwr(Caps)), %% - {_,_} = Mask = proplists:get_value(sequence, SvcOpts), - Restrict = proplists:get_value(restrict_connections, SvcOpts), Nodes = restrict_nodes(Restrict), - Dict0 = common_dictionary(Apps), - diameter_codec:setopts([{common_dictionary, Dict0}, - {string_decode, false}]), + CodecKeys = [string_decode, + strict_mbit, + incoming_maxlen, + spawn_opt, + rfc, + ordered_encode], + #watchdog{parent = Pid, transport = start(T, Opts, SvcOpts, Nodes, Dict0, Svc), tw = proplists:get_value(watchdog_timer, @@ -140,9 +149,14 @@ i({Ack, T, Pid, {RecvData, ?DEFAULT_TW_INIT), receive_data = RecvData, dictionary = Dict0, - sequence = Mask, - restrict = {Restrict, lists:member(node(), Nodes)}, - config = config(Opts)}. + config = + maps:without(CodecKeys, + config(SvcOpts#{restrict => restrict(Nodes), + suspect => 1, + okay => 3}, + Opts)), + codec = maps:with(CodecKeys, SvcOpts#{string_decode := false, + ordered_encode => false})}. wait(Ref, Pid) -> receive @@ -152,22 +166,31 @@ wait(Ref, Pid) -> exit({shutdown, D}) end. -%% config/1 +%% Regard anything but the generated RFC 3588 dictionary as modern. +%% This affects the interpretation of defaults during the decode +%% of values of type DiameterURI, this having changed from RFC 3588. +%% (So much for backwards compatibility.) +rfc(?BASE) -> + 3588; +rfc(_) -> + 6733. + +%% config/2 %% %% Could also configure counts for SUSPECT to DOWN and REOPEN to DOWN, %% but don't. -config(Opts) -> +config(Map, Opts) -> Config = proplists:get_value(watchdog_config, Opts, []), - lists:foldl(fun config/2, #config{}, Config). + lists:foldl(fun cfg/2, Map, Config). -config({suspect, N}, Rec) +cfg({suspect, N}, Map) when ?IS_NATURAL(N) -> - Rec#config{suspect = N}; + Map#{suspect := N}; -config({okay, N}, Rec) +cfg({okay, N}, Map) when ?IS_NATURAL(N) -> - Rec#config{okay = N}. + Map#{okay := N}. %% start/6 @@ -283,7 +306,7 @@ event(Msg, ?LOG(transition, {From, To}). data(Msg, TPid, reopen, okay) -> - {recv, TPid, false, 'DWA', _Pkt, _NPid} = Msg, %% assert + {recv, TPid, _, 'DWA', _Pkt} = Msg, %% assert {TPid, T} = eraser(open), [T]; @@ -302,6 +325,8 @@ tpid(_, Pid) tpid(Pid, _) -> Pid. +%% send/2 + send(Pid, T) -> Pid ! T. @@ -375,8 +400,8 @@ transition({accepted = T, TPid}, #watchdog{transport = TPid, transition({open, TPid, Hosts, _} = Open, #watchdog{transport = TPid, status = initial, - restrict = {_,R}, - config = #config{suspect = OS}} + config = #{restrict := R, + suspect := OS}} = S) -> case okay(role(), Hosts, R) of okay -> @@ -394,8 +419,8 @@ transition({open, TPid, Hosts, _} = Open, transition({open = Key, TPid, _Hosts, T}, #watchdog{transport = TPid, status = down, - config = #config{suspect = OS, - okay = RO}} + config = #{suspect := OS, + okay := RO}} = S) -> case RO of 0 -> %% non-standard: skip REOPEN @@ -428,7 +453,7 @@ transition({'DOWN', _, process, TPid, _Reason}, transition({'DOWN', _, process, TPid, _Reason} = D, #watchdog{transport = TPid, status = T, - restrict = {_,R}} + config = #{restrict := R}} = S0) -> S = S0#watchdog{pending = false, transport = undefined}, @@ -447,14 +472,15 @@ transition({'DOWN', _, process, TPid, _Reason} = D, end; %% Incoming message. -transition({recv, TPid, Route, Name, Pkt, NPid}, +transition({recv, TPid, Route, Name, Pkt}, #watchdog{transport = TPid} = S) -> - try - incoming(Name, Pkt, NPid, S) - catch + try incoming(Route, Name, Pkt, S) of #watchdog{dictionary = Dict0, receive_data = T} = NS -> - diameter_traffic:receive_message(TPid, Route, Pkt, NPid, Dict0, T), + diameter_traffic:receive_message(TPid, Route, Pkt, Dict0, T), + NS + catch + #watchdog{} = NS -> NS end; @@ -483,9 +509,9 @@ getr(Key) -> eraser(Key) -> erase({?MODULE, Key}). -%% encode/3 +%% encode/4 -encode(dwr = M, Dict0, Mask) -> +encode(dwr = M, Dict0, Opts, Mask) -> Msg = getr(M), Seq = diameter_session:sequence(Mask), Hdr = #diameter_header{version = ?DIAMETER_VERSION, @@ -493,10 +519,10 @@ encode(dwr = M, Dict0, Mask) -> hop_by_hop_id = Seq}, Pkt = #diameter_packet{header = Hdr, msg = Msg}, - diameter_codec:encode(Dict0, Pkt); + diameter_codec:encode(Dict0, Opts, Pkt); -encode(dwa, Dict0, #diameter_packet{header = H, transport_data = TD} - = ReqPkt) -> +encode(dwa, Dict0, Opts, #diameter_packet{header = H, transport_data = TD} + = ReqPkt) -> AnsPkt = #diameter_packet{header = H#diameter_header{is_request = false, is_error = undefined, @@ -504,7 +530,7 @@ encode(dwa, Dict0, #diameter_packet{header = H, transport_data = TD} msg = dwa(ReqPkt), transport_data = TD}, - diameter_codec:encode(Dict0, AnsPkt). + diameter_codec:encode(Dict0, Opts, AnsPkt). %% okay/3 @@ -574,9 +600,10 @@ tw({M,F,A}) -> send_watchdog(#watchdog{pending = false, transport = TPid, dictionary = Dict0, - sequence = Mask} + config = #{sequence := Mask}, + codec = Opts} = S) -> - #diameter_packet{bin = Bin} = EPkt = encode(dwr, Dict0, Mask), + #diameter_packet{bin = Bin} = EPkt = encode(dwr, Dict0, Opts, Mask), diameter_traffic:incr(send, EPkt, TPid, Dict0), send(TPid, {send, Bin}), ?LOG(send, 'DWR'), @@ -586,41 +613,30 @@ send_watchdog(#watchdog{pending = false, %% incoming/4 -incoming(Name, Pkt, false, S) -> - recv(Name, Pkt, S); - -incoming(Name, Pkt, NPid, S) -> - try - recv(Name, Pkt, S) - after - NPid ! {diameter, discard} - end. - -%% recv/3 - -recv(Name, Pkt, S) -> - try rcv(Name, Pkt, rcv(Name, S)) of - #watchdog{} = NS -> - throw(NS) +incoming(Route, Name, Pkt, S) -> + try rcv(Name, S) of + NS -> rcv(Name, Pkt, NS) catch - #watchdog{} = NS -> %% throwaway - NS + #watchdog{transport = TPid} = NS when Route -> %% incoming request + send(TPid, {send, false}), %% requiring ack + throw(NS) end. %% rcv/3 rcv('DWR', Pkt, #watchdog{transport = TPid, - dictionary = Dict0} + dictionary = Dict0, + codec = Opts} = S) -> ?LOG(recv, 'DWR'), - DPkt = diameter_codec:decode(Dict0, Pkt), + DPkt = diameter_codec:decode(Dict0, Opts, Pkt), diameter_traffic:incr(recv, DPkt, TPid, Dict0), diameter_traffic:incr_error(recv, DPkt, TPid, Dict0), #diameter_packet{header = H, transport_data = T, bin = Bin} = EPkt - = encode(dwa, Dict0, Pkt), + = encode(dwa, Dict0, Opts, Pkt), diameter_traffic:incr(send, EPkt, TPid, Dict0), diameter_traffic:incr_rc(send, EPkt, TPid, Dict0), @@ -632,12 +648,13 @@ rcv('DWR', Pkt, #watchdog{transport = TPid, throw(S); rcv('DWA', Pkt, #watchdog{transport = TPid, - dictionary = Dict0} + dictionary = Dict0, + codec = Opts} = S) -> ?LOG(recv, 'DWA'), diameter_traffic:incr(recv, Pkt, TPid, Dict0), diameter_traffic:incr_rc(recv, - diameter_codec:decode(Dict0, Pkt), + diameter_codec:decode(Dict0, Opts, Pkt), TPid, Dict0), throw(S); @@ -699,12 +716,12 @@ rcv(_, #watchdog{status = okay} = S) -> %% SUSPECT Receive non-DWA Failback() %% SetWatchdog() OKAY -rcv('DWA', #watchdog{status = suspect, config = #config{suspect = OS}} = S) -> +rcv('DWA', #watchdog{status = suspect, config = #{suspect := OS}} = S) -> set_watchdog(S#watchdog{status = okay, num_dwa = OS, pending = false}); -rcv(_, #watchdog{status = suspect, config = #config{suspect = OS}} = S) -> +rcv(_, #watchdog{status = suspect, config = #{suspect := OS}} = S) -> set_watchdog(S#watchdog{status = okay, num_dwa = OS}); @@ -714,8 +731,8 @@ rcv(_, #watchdog{status = suspect, config = #config{suspect = OS}} = S) -> rcv('DWA', #watchdog{status = reopen, num_dwa = N, - config = #config{suspect = OS, - okay = RO}} + config = #{suspect := OS, + okay := RO}} = S) when N+1 == RO -> S#watchdog{status = okay, @@ -846,18 +863,19 @@ restart(S) -> %% reconnect has won race with timeout restart({{connect, _} = T, Opts, Svc, SvcOpts}, #watchdog{parent = Pid, - restrict = {R,_}, + config = #{restrict_connections := R} + = M, dictionary = Dict0} = S) -> send(Pid, {reconnect, self()}), Nodes = restrict_nodes(R), S#watchdog{transport = start(T, Opts, SvcOpts, Nodes, Dict0, Svc), - restrict = {R, lists:member(node(), Nodes)}}; + config = M#{restrict => restrict(Nodes)}}; %% No restriction on the number of connections to the same peer: just %% die. Note that a state machine never enters state REOPEN in this %% case. -restart({{accept, _}, _, _, _}, #watchdog{restrict = {_, false}}) -> +restart({{accept, _}, _, _, _}, #watchdog{config = #{restrict := false}}) -> stop; %% Otherwise hang around until told to die, either by the service or @@ -901,3 +919,8 @@ restrict_nodes(Nodes) restrict_nodes(F) -> diameter_lib:eval(F). + +%% restrict/1 + +restrict(Nodes) -> + lists:member(node(), Nodes). |