%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2010-2013. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% %CopyrightEnd%
%%
%%
%% Tests of traffic between two Diameter nodes, one client, one server.
%%
-module(diameter_traffic_SUITE).
-export([suite/0,
all/0,
groups/0,
init_per_group/2,
end_per_group/2,
init_per_testcase/2,
end_per_testcase/2]).
%% testcases
-export([start/1,
start_services/1,
add_transports/1,
result_codes/1,
send_ok/1,
send_nok/1,
send_eval/1,
send_bad_answer/1,
send_protocol_error/1,
send_arbitrary/1,
send_unknown/1,
send_unknown_mandatory/1,
send_noreply/1,
send_unsupported/1,
send_unsupported_app/1,
send_error_bit/1,
send_unsupported_version/1,
send_invalid_avp_bits/1,
send_invalid_avp_length/1,
send_invalid_reject/1,
send_long/1,
send_nopeer/1,
send_noapp/1,
send_discard/1,
send_any_1/1,
send_any_2/1,
send_all_1/1,
send_all_2/1,
send_timeout/1,
send_error/1,
send_detach/1,
send_encode_error/1,
send_destination_1/1,
send_destination_2/1,
send_destination_3/1,
send_destination_4/1,
send_destination_5/1,
send_destination_6/1,
send_bad_option_1/1,
send_bad_option_2/1,
send_bad_filter_1/1,
send_bad_filter_2/1,
send_bad_filter_3/1,
send_bad_filter_4/1,
send_multiple_filters_1/1,
send_multiple_filters_2/1,
send_multiple_filters_3/1,
send_anything/1,
remove_transports/1,
stop_services/1,
stop/1]).
%% diameter callbacks
-export([peer_up/3,
peer_down/3,
pick_peer/6, pick_peer/7,
prepare_request/5, prepare_request/6,
prepare_retransmit/5,
handle_answer/6, handle_answer/7,
handle_error/6,
handle_request/3]).
-include("diameter.hrl").
-include("diameter_gen_base_rfc3588.hrl").
-include("diameter_gen_base_accounting.hrl").
%% ===========================================================================
-define(util, diameter_util).
-define(ADDR, {127,0,0,1}).
-define(CLIENT, "CLIENT").
-define(SERVER, "SERVER").
-define(REALM, "erlang.org").
-define(HOST(Host, Realm), Host ++ [$.|Realm]).
-define(EXTRA, an_extra_argument).
-define(BASE, ?DIAMETER_DICT_COMMON).
-define(ACCT, ?DIAMETER_DICT_ACCOUNTING).
%% Sequence mask for End-to-End and Hop-by-Hop identifiers.
-define(CLIENT_MASK, {1,26}). %% 1 in top 6 bits
%% How to construct messages, as record or list.
-define(ENCODINGS, [list, record]).
%% How to send answers, in a diameter_packet or not.
-define(CONTAINERS, [pkt, msg]).
%% Send over multiple connections that are mapped onto
%% [{E,P} || E <- ?ENCODINGS, P <- ?CONTAINERS].
-define(CONNECTIONS, [c0,c1,c2,c3]).
%% Not really what we should be setting unless the message is sent in
%% the common application but diameter doesn't care.
-define(APP_ID, ?DIAMETER_APP_ID_COMMON).
%% An Application-ID the server doesn't support.
-define(BAD_APP, 42).
%% Config for diameter:start_service/2.
-define(SERVICE(Name),
[{'Origin-Host', Name ++ "." ++ ?REALM},
{'Origin-Realm', ?REALM},
{'Host-IP-Address', [?ADDR]},
{'Vendor-Id', 12345},
{'Product-Name', "OTP/diameter"},
{'Auth-Application-Id', [?DIAMETER_APP_ID_COMMON]},
{'Acct-Application-Id', [?DIAMETER_APP_ID_ACCOUNTING]},
{restrict_connections, false}
| [{application, [{dictionary, D},
{module, ?MODULE},
{answer_errors, callback}]}
|| D <- [?BASE, ?ACCT]]]).
-define(SUCCESS,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_SUCCESS').
-define(COMMAND_UNSUPPORTED,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_COMMAND_UNSUPPORTED').
-define(TOO_BUSY,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_TOO_BUSY').
-define(APPLICATION_UNSUPPORTED,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_APPLICATION_UNSUPPORTED').
-define(INVALID_HDR_BITS,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_INVALID_HDR_BITS').
-define(INVALID_AVP_BITS,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_INVALID_AVP_BITS').
-define(AVP_UNSUPPORTED,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_AVP_UNSUPPORTED').
-define(UNSUPPORTED_VERSION,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_UNSUPPORTED_VERSION').
-define(REALM_NOT_SERVED,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_REALM_NOT_SERVED').
-define(UNABLE_TO_DELIVER,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_UNABLE_TO_DELIVER').
-define(INVALID_AVP_LENGTH,
?'DIAMETER_BASE_RESULT-CODE_DIAMETER_INVALID_AVP_LENGTH').
-define(EVENT_RECORD,
?'DIAMETER_BASE_ACCOUNTING-RECORD-TYPE_EVENT_RECORD').
-define(AUTHORIZE_ONLY,
?'DIAMETER_BASE_RE-AUTH-REQUEST-TYPE_AUTHORIZE_ONLY').
-define(AUTHORIZE_AUTHENTICATE,
?'DIAMETER_BASE_RE-AUTH-REQUEST-TYPE_AUTHORIZE_AUTHENTICATE').
-define(LOGOUT,
?'DIAMETER_BASE_TERMINATION-CAUSE_DIAMETER_LOGOUT').
-define(BAD_ANSWER,
?'DIAMETER_BASE_TERMINATION-CAUSE_DIAMETER_BAD_ANSWER').
-define(USER_MOVED,
?'DIAMETER_BASE_TERMINATION-CAUSE_DIAMETER_USER_MOVED').
-define(A, list_to_atom).
-define(L, atom_to_list).
-define(NAME(A,B), ?A(?L(A) ++ "," ++ ?L(B))).
%% ===========================================================================
suite() ->
[{timetrap, {seconds, 60}}].
all() ->
[start, start_services, add_transports, result_codes]
++ [{group, ?util:name([R,C,A]), P} || R <- ?ENCODINGS,
C <- ?CONTAINERS,
A <- ?ENCODINGS,
P <- [[], [parallel]]]
++ [remove_transports, stop_services, stop].
groups() ->
Ts = tc(),
[{?util:name([R,C,A]), [], Ts} || R <- ?ENCODINGS,
C <- ?CONTAINERS,
A <- ?ENCODINGS].
init_per_group(Name, Config) ->
[{group, Name} | Config].
end_per_group(_, _) ->
ok.
init_per_testcase(Name, Config) ->
[{testcase, Name} | Config].
end_per_testcase(_, _) ->
ok.
%% Testcases to run when services are started and connections
%% established.
tc() ->
[send_ok,
send_nok,
send_eval,
send_bad_answer,
send_protocol_error,
send_arbitrary,
send_unknown,
send_unknown_mandatory,
send_noreply,
send_unsupported,
send_unsupported_app,
send_error_bit,
send_unsupported_version,
send_invalid_avp_bits,
send_invalid_avp_length,
send_invalid_reject,
send_long,
send_nopeer,
send_noapp,
send_discard,
send_any_1,
send_any_2,
send_all_1,
send_all_2,
send_timeout,
send_error,
send_detach,
send_encode_error,
send_destination_1,
send_destination_2,
send_destination_3,
send_destination_4,
send_destination_5,
send_destination_6,
send_bad_option_1,
send_bad_option_2,
send_bad_filter_1,
send_bad_filter_2,
send_bad_filter_3,
send_bad_filter_4,
send_multiple_filters_1,
send_multiple_filters_2,
send_multiple_filters_3,
send_anything].
%% ===========================================================================
%% start/stop testcases
start(_Config) ->
ok = diameter:start().
start_services(_Config) ->
ok = diameter:start_service(?SERVER, ?SERVICE(?SERVER)),
ok = diameter:start_service(?CLIENT, [{sequence, ?CLIENT_MASK}
| ?SERVICE(?CLIENT)]).
add_transports(Config) ->
LRef = ?util:listen(?SERVER, tcp, [{capabilities_cb, fun capx/2}]),
Cs = [?util:connect(?CLIENT, tcp, LRef, [{id, C},
{capabilities, [osi(C)]}])
|| C <- ?CONNECTIONS],
?util:write_priv(Config, "transport", [LRef | Cs]).
remove_transports(Config) ->
[LRef | Cs] = ?util:read_priv(Config, "transport"),
[?util:disconnect(?CLIENT, C, ?SERVER, LRef) || C <- Cs].
stop_services(_Config) ->
ok = diameter:stop_service(?CLIENT),
ok = diameter:stop_service(?SERVER).
stop(_Config) ->
ok = diameter:stop().
capx(_, #diameter_caps{origin_host = {OH,DH}}) ->
io:format("connection: ~p -> ~p~n", [DH,OH]),
ok.
osi(Id) ->
[$c,N] = atom_to_list(Id),
{'Origin-State-Id', N - $0}.
%% ===========================================================================
%% Ensure that result codes have the expected values.
result_codes(_Config) ->
{2001, 3001, 3002, 3003, 3004, 3007, 3008, 3009, 5001, 5011, 5014}
= {?SUCCESS,
?COMMAND_UNSUPPORTED,
?UNABLE_TO_DELIVER,
?REALM_NOT_SERVED,
?TOO_BUSY,
?APPLICATION_UNSUPPORTED,
?INVALID_HDR_BITS,
?INVALID_AVP_BITS,
?AVP_UNSUPPORTED,
?UNSUPPORTED_VERSION,
?INVALID_AVP_LENGTH}.
%% Send an ACR and expect success.
send_ok(Config) ->
Req = ['ACR', {'Accounting-Record-Type', ?EVENT_RECORD},
{'Accounting-Record-Number', 1}],
#diameter_base_accounting_ACA{'Result-Code' = ?SUCCESS}
= call(Config, Req).
%% Send an accounting ACR that the server answers badly to.
send_nok(Config) ->
Req = ['ACR', {'Accounting-Record-Type', ?EVENT_RECORD},
{'Accounting-Record-Number', 0}],
#'diameter_base_answer-message'{'Result-Code' = ?INVALID_AVP_BITS}
= call(Config, Req).
%% Send an ACR and expect success.
send_eval(Config) ->
Req = ['ACR', {'Accounting-Record-Type', ?EVENT_RECORD},
{'Accounting-Record-Number', 3}],
#diameter_base_accounting_ACA{'Result-Code' = ?SUCCESS}
= call(Config, Req).
%% Send an accounting ACR that the server tries to answer with an
%% inappropriate header, resulting in no answer being sent and the
%% request timing out.
send_bad_answer(Config) ->
Req = ['ACR', {'Accounting-Record-Type', ?EVENT_RECORD},
{'Accounting-Record-Number', 2}],
{error, timeout} = call(Config, Req).
%% Send an ACR that the server callback answers explicitly with a
%% protocol error.
send_protocol_error(Config) ->
Req = ['ACR', {'Accounting-Record-Type', ?EVENT_RECORD},
{'Accounting-Record-Number', 4}],
#'diameter_base_answer-message'{'Result-Code' = ?TOO_BUSY}
= call(Config, Req).
%% Send an ASR with an arbitrary AVP and expect success and the same
%% AVP in the reply.
send_arbitrary(Config) ->
Req = ['ASR', {'AVP', [#diameter_avp{name = 'Class', value = "XXX"}]}],
#diameter_base_ASA{'Result-Code' = ?SUCCESS,
'AVP' = Avps}
= call(Config, Req),
[#diameter_avp{name = 'Class',
value = "XXX"}]
= Avps.
%% Send an unknown AVP (to some client) and check that it comes back.
send_unknown(Config) ->
Req = ['ASR', {'AVP', [#diameter_avp{code = 999,
is_mandatory = false,
data = <<17>>}]}],
#diameter_base_ASA{'Result-Code' = ?SUCCESS,
'AVP' = Avps}
= call(Config, Req),
[#diameter_avp{code = 999,
is_mandatory = false,
data = <<17>>}]
= Avps.
%% Ditto but set the M flag.
send_unknown_mandatory(Config) ->
Req = ['ASR', {'AVP', [#diameter_avp{code = 999,
is_mandatory = true,
data = <<17>>}]}],
#diameter_base_ASA{'Result-Code' = ?AVP_UNSUPPORTED,
'Failed-AVP' = Failed}
= call(Config, Req),
[#'diameter_base_Failed-AVP'{'AVP' = Avps}] = Failed,
[#diameter_avp{code = 999,
is_mandatory = true,
data = <<17>>}]
= Avps.
%% Send an STR that the server ignores.
send_noreply(Config) ->
Req = ['STR', {'Termination-Cause', ?BAD_ANSWER}],
{error, timeout} = call(Config, Req).
%% Send an unsupported command and expect 3001.
send_unsupported(Config) ->
Req = ['STR', {'Termination-Cause', ?BAD_ANSWER}],
#'diameter_base_answer-message'{'Result-Code' = ?COMMAND_UNSUPPORTED}
= call(Config, Req).
%% Send an unsupported application and expect 3007.
send_unsupported_app(Config) ->
Req = ['STR', {'Termination-Cause', ?BAD_ANSWER}],
#'diameter_base_answer-message'{'Result-Code' = ?APPLICATION_UNSUPPORTED}
= call(Config, Req).
%% Send a request with the E bit set and expect 3008.
send_error_bit(Config) ->
Req = ['STR', {'Termination-Cause', ?BAD_ANSWER}],
#'diameter_base_answer-message'{'Result-Code' = ?INVALID_HDR_BITS}
= call(Config, Req).
%% Send a bad version and check that we get 5011.
send_unsupported_version(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
#diameter_base_STA{'Result-Code' = ?UNSUPPORTED_VERSION}
= call(Config, Req).
%% Send a request containing an incorrect AVP length.
send_invalid_avp_bits(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
#'diameter_base_answer-message'{'Result-Code' = ?INVALID_AVP_BITS}
= call(Config, Req).
%% Send a request containing an AVP length that doesn't match the
%% AVP's type.
send_invalid_avp_length(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
#'diameter_base_STA'{'Result-Code' = ?INVALID_AVP_LENGTH}
= call(Config, Req).
%% Send a request containing 5xxx errors that the server rejects with
%% 3xxx.
send_invalid_reject(Config) ->
Req = ['STR', {'Termination-Cause', ?USER_MOVED}],
#'diameter_base_answer-message'{'Result-Code' = ?TOO_BUSY}
= call(Config, Req).
%% Send something long that will be fragmented by TCP.
send_long(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT},
{'User-Name', [lists:duplicate(1 bsl 20, $X)]}],
#diameter_base_STA{'Result-Code' = ?SUCCESS}
= call(Config, Req).
%% Send something for which pick_peer finds no suitable peer.
send_nopeer(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
{error, no_connection} = call(Config, Req, [{extra, [?EXTRA]}]).
%% Send something on an unconfigured application.
send_noapp(_Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
{error, no_connection} = diameter:call(?CLIENT, unknown_alias, Req).
%% Send something that's discarded by prepare_request.
send_discard(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
{error, unprepared} = call(Config, Req).
%% Send with a disjunctive filter.
send_any_1(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
{error, no_connection} = call(Config, Req, [{filter, {any, []}}]).
send_any_2(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT},
{'Destination-Host', [?HOST(?SERVER, "unknown.org")]}],
#'diameter_base_answer-message'{'Result-Code' = ?UNABLE_TO_DELIVER}
= call(Config, Req, [{filter, {any, [host, realm]}}]).
%% Send with a conjunctive filter.
send_all_1(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
Realm = lists:foldr(fun(C,A) -> [C,A] end, [], ?REALM),
#diameter_base_STA{'Result-Code' = ?SUCCESS}
= call(Config, Req, [{filter, {all, [{host, any},
{realm, Realm}]}}]).
send_all_2(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT},
{'Destination-Host', [?HOST(?SERVER, "unknown.org")]}],
{error, no_connection}
= call(Config, Req, [{filter, {all, [host, realm]}}]).
%% Timeout before the server manages an answer.
send_timeout(Config) ->
Req = ['RAR', {'Re-Auth-Request-Type', ?AUTHORIZE_ONLY}],
{error, timeout} = call(Config, Req, [{timeout, 1000}]).
%% Explicitly answer with an answer-message and ensure that we
%% received the Session-Id.
send_error(Config) ->
Req = ['RAR', {'Re-Auth-Request-Type', ?AUTHORIZE_AUTHENTICATE}],
#'diameter_base_answer-message'{'Result-Code' = ?TOO_BUSY,
'Session-Id' = SId}
= call(Config, Req),
undefined /= SId.
%% Send a request with the detached option and receive it as a message
%% from handle_answer instead.
send_detach(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
Ref = make_ref(),
ok = call(Config, Req, [{extra, [{self(), Ref}]}, detach]),
#diameter_packet{msg = Rec, errors = []}
= receive {Ref, T} -> T after 2000 -> false end,
#diameter_base_STA{'Result-Code' = ?SUCCESS}
= Rec.
%% Send a request which can't be encoded and expect {error, encode}.
send_encode_error(Config) ->
{error, encode} = call(Config, ['STR']). %% No Termination-Cause
%% Send with filtering and expect success.
send_destination_1(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT},
{'Destination-Host', [?HOST(?SERVER, ?REALM)]}],
#diameter_base_STA{'Result-Code' = ?SUCCESS}
= call(Config, Req, [{filter, {all, [host, realm]}}]).
send_destination_2(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
#diameter_base_STA{'Result-Code' = ?SUCCESS}
= call(Config, Req, [{filter, {all, [host, realm]}}]).
%% Send with filtering on and expect failure when specifying an
%% unknown host or realm.
send_destination_3(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT},
{'Destination-Realm', "unknown.org"}],
{error, no_connection}
= call(Config, Req, [{filter, {all, [host, realm]}}]).
send_destination_4(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT},
{'Destination-Host', [?HOST(?SERVER, "unknown.org")]}],
{error, no_connection}
= call(Config, Req, [{filter, {all, [host, realm]}}]).
%% Send without filtering and expect an error answer when specifying
%% an unknown host or realm.
send_destination_5(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT},
{'Destination-Realm', "unknown.org"}],
#'diameter_base_answer-message'{'Result-Code' = ?REALM_NOT_SERVED}
= call(Config, Req).
send_destination_6(Config) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT},
{'Destination-Host', [?HOST(?SERVER, "unknown.org")]}],
#'diameter_base_answer-message'{'Result-Code' = ?UNABLE_TO_DELIVER}
= call(Config, Req).
%% Specify an invalid option and expect failure.
send_bad_option_1(Config) ->
send_bad_option(Config, x).
send_bad_option_2(Config) ->
send_bad_option(Config, {extra, false}).
send_bad_option(Config, Opt) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
try call(Config, Req, [Opt]) of
T -> erlang:error({?MODULE, ?LINE, T})
catch
error: _ -> ok
end.
%% Specify an invalid filter and expect no matching peers.
send_bad_filter_1(Config) ->
send_bad_filter(Config, {all, none}).
send_bad_filter_2(Config) ->
send_bad_filter(Config, {host, x}).
send_bad_filter_3(Config) ->
send_bad_filter(Config, {eval, fun() -> true end}).
send_bad_filter_4(Config) ->
send_bad_filter(Config, {eval, {?MODULE, not_exported, []}}).
send_bad_filter(Config, F) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
{error, no_connection} = call(Config, Req, [{filter, F}]).
%% Specify multiple filter options and expect them be conjunctive.
send_multiple_filters_1(Config) ->
Fun = fun(#diameter_caps{}) -> true end,
#diameter_base_STA{'Result-Code' = ?SUCCESS}
= send_multiple_filters(Config, [host, {eval, Fun}]).
send_multiple_filters_2(Config) ->
E = {erlang, is_tuple, []},
{error, no_connection}
= send_multiple_filters(Config, [realm, {neg, {eval, E}}]).
send_multiple_filters_3(Config) ->
E1 = [fun(#diameter_caps{}, ok) -> true end, ok],
E2 = {erlang, is_tuple, []},
E3 = {erlang, is_record, [diameter_caps]},
E4 = [{erlang, is_record, []}, diameter_caps],
#diameter_base_STA{'Result-Code' = ?SUCCESS}
= send_multiple_filters(Config, [{eval, E} || E <- [E1,E2,E3,E4]]).
send_multiple_filters(Config, Fs) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
call(Config, Req, [{filter, F} || F <- Fs]).
%% Ensure that we can pass a request in any form to diameter:call/4,
%% only the return value from the prepare_request callback being
%% significant.
send_anything(Config) ->
#diameter_base_STA{'Result-Code' = ?SUCCESS}
= call(Config, anything).
%% ===========================================================================
call(Config, Req) ->
call(Config, Req, []).
call(Config, Req, Opts) ->
Name = proplists:get_value(testcase, Config),
[Encoding, C, E] = ?util:name(proplists:get_value(group, Config)),
diameter:call(?CLIENT,
dict(Req),
msg(Req, Encoding),
[{extra, [Name, client(E,C)]} | Opts]).
client(E, C) ->
list_to_atom([$c, $0 + 2*codec(E) + container(C)]).
client(N) ->
{codec(N bsr 1), container(N rem 2)}.
codec(record) -> 0;
codec(list) -> 1;
codec(0) -> record;
codec(1) -> list.
%% Here we're just mapping booleans but the readable atoms are part of
%% (constructed) group names, so it's good that they're readable.
container(pkt) -> 0;
container(msg) -> 1;
container(0) -> pkt;
container(1) -> msg.
msg([H|T], record)
when H == 'ACR';
H == 'ACA' ->
?ACCT:'#new-'(?ACCT:msg2rec(H), T);
msg([H|T], record) ->
?BASE:'#new-'(?BASE:msg2rec(H), T);
msg(T, _) ->
T.
dict(['ACR' | _]) ->
?ACCT;
dict(#diameter_base_accounting_ACR{}) ->
?ACCT;
dict(_) ->
?BASE.
%% Set only values that aren't already.
set([H|T], Vs) ->
[H | Vs ++ T];
set(#diameter_base_accounting_ACR{} = Rec, Vs) ->
set(Rec, Vs, ?ACCT);
set(Rec, Vs) ->
set(Rec, Vs, ?BASE).
set(Rec, Vs, Dict) ->
lists:foldl(fun({F,_} = FV, A) ->
set(Dict, Dict:'#get-'(F, A), FV, A)
end,
Rec,
Vs).
set(Dict, E, FV, Rec)
when E == undefined;
E == [] ->
Dict:'#set-'(FV, Rec);
set(_, _, _, Rec) ->
Rec.
%% ===========================================================================
%% diameter callbacks
%% peer_up/3
peer_up(_SvcName, _Peer, State) ->
State.
%% peer_down/3
peer_down(_SvcName, _Peer, State) ->
State.
%% pick_peer/6-7
pick_peer(Peers, _, ?CLIENT, _State, Name, Id)
when Name /= send_detach ->
find(Id, Peers).
pick_peer(_Peers, _, ?CLIENT, _State, send_nopeer, _, ?EXTRA) ->
false;
pick_peer(Peers, _, ?CLIENT, _State, send_detach, Id, {_,_}) ->
find(Id, Peers).
find(Id, Peers) ->
[P] = [P || P <- Peers, id(Id, P)],
{ok, P}.
id(Id, {Pid, _Caps}) ->
[{ref, _}, {type, _}, {options, Opts} | _]
= diameter:service_info(?CLIENT, Pid),
lists:member({id, Id}, Opts).
%% prepare_request/5-6
prepare_request(_Pkt, ?CLIENT, {_Ref, _Caps}, send_discard, _) ->
{discard, unprepared};
prepare_request(Pkt, ?CLIENT, {_Ref, Caps}, Name, _) ->
{send, prepare(Pkt, Caps, Name)}.
prepare_request(Pkt, ?CLIENT, {_Ref, Caps}, send_detach, _, _) ->
{eval_packet, {send, prepare(Pkt, Caps)}, [fun log/2, detach]}.
log(#diameter_packet{} = P, T) ->
io:format("~p: ~p~n", [T,P]).
%% prepare/3
prepare(Pkt, Caps, send_invalid_avp_bits) ->
Req = prepare(Pkt, Caps),
%% Last AVP in our STR is Termination-Cause of type Unsigned32:
%% set its length improperly.
#diameter_packet{header = #diameter_header{length = L},
bin = B}
= E
= diameter_codec:encode(?BASE, Pkt#diameter_packet{msg = Req}),
Offset = L - 7, %% to AVP Length
<<H:Offset/binary, 12:24/integer, T:4/binary>> = B,
E#diameter_packet{bin = <<H/binary, 13:24/integer, T/binary>>};
prepare(Pkt, Caps, N)
when N == send_invalid_avp_length;
N == send_invalid_reject ->
Req = prepare(Pkt, Caps),
%% Second last AVP in our STR is Auth-Application-Id of type
%% Unsigned32: Send a value of length 8.
#diameter_packet{header = #diameter_header{length = L},
bin = B0}
= E
= diameter_codec:encode(?BASE, Pkt#diameter_packet{msg = Req}),
Offset = L - 7 - 12, %% to AVP Length
<<H0:Offset/binary, 12:24/integer, T:16/binary>> = B0,
<<V, L:24/integer, H/binary>> = H0, %% assert
E#diameter_packet{bin = <<V,
(L+4):24/integer,
H/binary,
16:24/integer,
0:32/integer,
T/binary>>};
prepare(Pkt, Caps, send_unsupported) ->
Req = prepare(Pkt, Caps),
#diameter_packet{bin = <<H:5/binary, _CmdCode:3/binary, T/binary>>}
= E
= diameter_codec:encode(?BASE, Pkt#diameter_packet{msg = Req}),
E#diameter_packet{bin = <<H/binary, 42:24/integer, T/binary>>};
prepare(Pkt, Caps, send_unsupported_app) ->
Req = prepare(Pkt, Caps),
#diameter_packet{bin = <<H:8/binary, _ApplId:4/binary, T/binary>>}
= E
= diameter_codec:encode(?BASE, Pkt#diameter_packet{msg = Req}),
E#diameter_packet{bin = <<H/binary, ?BAD_APP:32/integer, T/binary>>};
prepare(Pkt, Caps, send_error_bit) ->
#diameter_packet{header = Hdr} = Pkt,
Pkt#diameter_packet{header = Hdr#diameter_header{is_error = true},
msg = prepare(Pkt, Caps)};
prepare(Pkt, Caps, send_unsupported_version) ->
#diameter_packet{header = Hdr} = Pkt,
Pkt#diameter_packet{header = Hdr#diameter_header{version = 42},
msg = prepare(Pkt, Caps)};
prepare(Pkt, Caps, send_anything) ->
Req = ['STR', {'Termination-Cause', ?LOGOUT}],
prepare(Pkt#diameter_packet{msg = Req}, Caps);
prepare(Pkt, Caps, _Name) ->
prepare(Pkt, Caps).
%% prepare/2
prepare(#diameter_packet{msg = Req}, Caps)
when is_record(Req, diameter_base_accounting_ACR);
'ACR' == hd(Req) ->
#diameter_caps{origin_host = {OH, _},
origin_realm = {OR, DR}}
= Caps,
set(Req, [{'Session-Id', diameter:session_id(OH)},
{'Origin-Host', OH},
{'Origin-Realm', OR},
{'Destination-Realm', DR}]);
prepare(#diameter_packet{msg = Req}, Caps)
when is_record(Req, diameter_base_ASR);
'ASR' == hd(Req) ->
#diameter_caps{origin_host = {OH, DH},
origin_realm = {OR, DR}}
= Caps,
set(Req, [{'Session-Id', diameter:session_id(OH)},
{'Origin-Host', OH},
{'Origin-Realm', OR},
{'Destination-Host', DH},
{'Destination-Realm', DR},
{'Auth-Application-Id', ?APP_ID}]);
prepare(#diameter_packet{msg = Req}, Caps)
when is_record(Req, diameter_base_STR);
'STR' == hd(Req) ->
#diameter_caps{origin_host = {OH, _},
origin_realm = {OR, DR}}
= Caps,
set(Req, [{'Session-Id', diameter:session_id(OH)},
{'Origin-Host', OH},
{'Origin-Realm', OR},
{'Destination-Realm', DR},
{'Auth-Application-Id', ?APP_ID}]);
prepare(#diameter_packet{msg = Req}, Caps)
when is_record(Req, diameter_base_RAR);
'RAR' == hd(Req) ->
#diameter_caps{origin_host = {OH, DH},
origin_realm = {OR, DR}}
= Caps,
set(Req, [{'Session-Id', diameter:session_id(OH)},
{'Origin-Host', OH},
{'Origin-Realm', OR},
{'Destination-Host', DH},
{'Destination-Realm', DR},
{'Auth-Application-Id', ?APP_ID}]).
%% prepare_retransmit/5
prepare_retransmit(_Pkt, false, _Peer, _Name, _Id) ->
discard.
%% handle_answer/6-7
handle_answer(Pkt, Req, ?CLIENT, Peer, Name, _Id) ->
answer(Pkt, Req, Peer, Name).
handle_answer(Pkt, _Req, ?CLIENT, _Peer, send_detach, _Id, {Pid, Ref}) ->
Pid ! {Ref, Pkt}.
answer(Pkt, Req, _Peer, Name) ->
#diameter_packet{header = H, msg = Rec, errors = Es} = Pkt,
ApplId = app(Req, Name),
#diameter_header{application_id = ApplId} = H, %% assert
answer(Rec, Es, Name).
answer(Rec, [_|_], N)
when N == send_invalid_avp_bits;
N == send_invalid_avp_length;
N == send_invalid_reject ->
Rec;
answer(Rec, [], _) ->
Rec.
app(_, send_unsupported_app) ->
?BAD_APP;
app(Req, _) ->
Dict = dict(Req),
Dict:id().
%% handle_error/6
handle_error(Reason, _Req, ?CLIENT, _Peer, _Name, _Id) ->
{error, Reason}.
%% handle_request/3
%% Note that diameter will set Result-Code and Failed-AVPs if
%% #diameter_packet.errors is non-null.
handle_request(#diameter_packet{header = H, msg = M}, ?SERVER, {_Ref, Caps}) ->
#diameter_header{end_to_end_id = EI,
hop_by_hop_id = HI}
= H,
{V,B} = ?CLIENT_MASK,
V = EI bsr B, %% assert
V = HI bsr B, %%
#diameter_caps{origin_state_id = {_,[N]}} = Caps,
answer(client(N), request(M, Caps)).
answer(T, {Tag, Action, Post}) ->
{Tag, answer(T, Action), Post};
answer({E,C}, {reply, Ans}) ->
answer(C, {reply, msg(Ans, E)});
answer(pkt, {reply, Ans}) ->
{reply, #diameter_packet{msg = Ans}};
answer(_, T) ->
T.
%% send_nok
request(#diameter_base_accounting_ACR{'Accounting-Record-Number' = 0},
_) ->
{eval_packet, {protocol_error, ?INVALID_AVP_BITS}, [fun log/2, invalid]};
%% send_bad_answer
request(#diameter_base_accounting_ACR{'Session-Id' = SId,
'Accounting-Record-Type' = RT,
'Accounting-Record-Number' = 2 = RN},
#diameter_caps{origin_host = {OH, _},
origin_realm = {OR, _}}) ->
Ans = ['ACA', {'Result-Code', ?SUCCESS},
{'Session-Id', SId},
{'Origin-Host', OH},
{'Origin-Realm', OR},
{'Accounting-Record-Type', RT},
{'Accounting-Record-Number', RN}],
{reply, #diameter_packet{header = #diameter_header{is_error = true},%% NOT
msg = Ans}};
%% send_eval
request(#diameter_base_accounting_ACR{'Session-Id' = SId,
'Accounting-Record-Type' = RT,
'Accounting-Record-Number' = 3 = RN},
#diameter_caps{origin_host = {OH, _},
origin_realm = {OR, _}}) ->
Ans = ['ACA', {'Result-Code', ?SUCCESS},
{'Session-Id', SId},
{'Origin-Host', OH},
{'Origin-Realm', OR},
{'Accounting-Record-Type', RT},
{'Accounting-Record-Number', RN}],
{eval, {reply, Ans}, {erlang, now, []}};
%% send_ok
request(#diameter_base_accounting_ACR{'Session-Id' = SId,
'Accounting-Record-Type' = RT,
'Accounting-Record-Number' = 1 = RN},
#diameter_caps{origin_host = {OH, _},
origin_realm = {OR, _}}) ->
{reply, ['ACA', {'Result-Code', ?SUCCESS},
{'Session-Id', SId},
{'Origin-Host', OH},
{'Origin-Realm', OR},
{'Accounting-Record-Type', RT},
{'Accounting-Record-Number', RN}]};
%% send_protocol_error
request(#diameter_base_accounting_ACR{'Accounting-Record-Number' = 4},
#diameter_caps{origin_host = {OH, _},
origin_realm = {OR, _}}) ->
Ans = ['answer-message', {'Result-Code', ?TOO_BUSY},
{'Origin-Host', OH},
{'Origin-Realm', OR}],
{reply, Ans};
request(#diameter_base_ASR{'Session-Id' = SId,
'AVP' = Avps},
#diameter_caps{origin_host = {OH, _},
origin_realm = {OR, _}}) ->
{reply, ['ASA', {'Result-Code', ?SUCCESS},
{'Session-Id', SId},
{'Origin-Host', OH},
{'Origin-Realm', OR},
{'AVP', Avps}]};
%% send_invalid_reject
request(#diameter_base_STR{'Termination-Cause' = ?USER_MOVED}, _Caps) ->
{protocol_error, ?TOO_BUSY};
%% send_noreply
request(#diameter_base_STR{'Termination-Cause' = T},
_Caps)
when T /= ?LOGOUT ->
discard;
%% send_destination_5
request(#diameter_base_STR{'Destination-Realm'= R},
#diameter_caps{origin_realm = {OR, _}})
when R /= undefined, R /= OR ->
{protocol_error, ?REALM_NOT_SERVED};
%% send_destination_6
request(#diameter_base_STR{'Destination-Host'= [H]},
#diameter_caps{origin_host = {OH, _}})
when H /= OH ->
{protocol_error, ?UNABLE_TO_DELIVER};
request(#diameter_base_STR{'Session-Id' = SId},
#diameter_caps{origin_host = {OH, _},
origin_realm = {OR, _}}) ->
{reply, ['STA', {'Result-Code', ?SUCCESS},
{'Session-Id', SId},
{'Origin-Host', OH},
{'Origin-Realm', OR}]};
%% send_error
request(#diameter_base_RAR{}, _Caps) ->
receive after 2000 -> ok end,
{protocol_error, ?TOO_BUSY}.