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-rw-r--r--lib/diameter/test/diameter_watchdog_SUITE.erl270
1 files changed, 143 insertions, 127 deletions
diff --git a/lib/diameter/test/diameter_watchdog_SUITE.erl b/lib/diameter/test/diameter_watchdog_SUITE.erl
index e1e166b834..388177a0bf 100644
--- a/lib/diameter/test/diameter_watchdog_SUITE.erl
+++ b/lib/diameter/test/diameter_watchdog_SUITE.erl
@@ -30,7 +30,7 @@
end_per_suite/1]).
%% testcases
--export([reopen/1, reopen/4, reopen/7]).
+-export([reopen/1, reopen/4, reopen/6]).
-export([id/1, %% jitter callback
run1/1]).
@@ -64,7 +64,7 @@
{'Host-IP-Address', [?ADDR]},
{'Vendor-Id', 42},
{'Product-Name', "OTP/diameter"},
- {'Auth-Application-Id', [?DIAMETER_APP_ID_COMMON]},
+ {'Auth-Application-Id', [0 = ?BASE:id()]},
{application, [{alias, Name},
{dictionary, ?BASE},
{module, ?MODULE}]}]).
@@ -72,45 +72,38 @@
%% Watchdog timer as a callback.
-define(WD(T), {?MODULE, id, [T]}).
-%% Watchdog timers used by the testcases. Note that the short timeout
-%% with random jitter is excluded since the reopen/1 isn't smart
-%% enough to deal with it: see ONE_WD below.
--define(WD_TIMERS, [?WD(6000)
- | [F_(T_) || T_ <- [10000, 20000, 30000],
- F_ <- [fun(T__) -> T__ end,
- fun(T__) -> ?WD(T__) end]]]).
-
-%% Watchdog timer of the misbehaving peer.
--define(PEER_WD, 10000).
-
-%% Receive a watchdog event within a specified time.
--define(EVENT(T, Tmo),
- receive #diameter_event{info = T} -> now()
- after Tmo -> ?ERROR({timeout, Tmo})
- end).
-
-%% Receive an event in a given number of watchdogs, plus or minus
-%% half. Note that the call to now_diff assumes left to right
-%% evaluation order.
--define(EVENT(T, N, WdL, WdH),
- [?ERROR({received, _Elapsed_, _LowerBound_, N, WdL})
- || _UpperBound_ <- [(N)*(WdH) + (WdH) div 2],
- _Elapsed_ <- [now_diff(now(), ?EVENT(T, _UpperBound_))],
- _LowerBound_ <- [(N)*(WdL) - (WdL) div 2],
- _Elapsed_ =< _LowerBound_*1000]).
-
--define(EVENT(T, N, Wd),
- ?EVENT(T, N, Wd, Wd)).
-
-%% A timeout that ensures one watchdog. The ensure only one watchdog
+%% Watchdog timers used by the testcases.
+-define(WD_TIMERS, [10000, ?WD(10000)]).
+
+%% Watchdog timer of the misbehaving node. Longer than the peer's so
+%% that DWR is never sent at watchdog timeout.
+-define(PEER_WD, 20000).
+
+%% A timeout that ensures one watchdog. To ensure only one watchdog
%% requires (Wd + 2000) + 1000 < 2*(Wd - 2000) ==> 7000 < Wd for the
%% case with random jitter.
-define(ONE_WD(Wd), jitter(Wd,2000) + 1000).
+%% Receive an event message from diameter.
+-define(EVENT(T),
+ apply(fun() -> %% apply to not bind T_
+ receive #diameter_event{info = T = T_} ->
+ log_event(T_)
+ end
+ end,
+ [])).
+
+%% Receive a watchdog event.
+-define(WD_EVENT(Ref), log_wd(element(4, ?EVENT({watchdog, Ref, _, _, _})))).
+
+%% Log to make failures identifiable.
+-define(LOG(T), ?LOG("~p", [T])).
+-define(LOG(F,A), ct:pal("~p: " ++ F, [self() | A])).
+
%% ===========================================================================
suite() ->
- [{timetrap, {minutes, 10}}].%% enough for 17 watchdogs @ 30 sec plus jitter
+ [{timetrap, {minutes, 5}}]. %% 20 watchdogs @ 15 sec
all() ->
[reopen].
@@ -130,82 +123,67 @@ end_per_suite(_Config) ->
%% and reopen behaviour by examining watchdog events.
reopen(_) ->
- [] = run([[reopen, T, Wd, N, M]
- || Wd <- ?WD_TIMERS, %% watchdog_timer value
- T <- [listen, connect], %% watchdog to test
+ [] = run([[reopen, T, W, N, M]
+ || T <- [listen, connect], %% watchdog to test
+ W <- ?WD_TIMERS, %% watchdog_timer value
N <- [0,1,2], %% DWR's to answer before ignoring
M <- ['DWR', 'DWA', 'RAA']]). %% how to induce failback
-reopen(Type, Wd, N, M) ->
- Server = start_service(),
- Client = start_service(),
-
- %% The peer to the transport whose watchdog is tested is given a
- %% long watchdog timeout so that it doesn't send DWR of its own.
- {Node, Peer} = {{[], Wd}, {[{module, ?MODULE}], ?WD(?PEER_WD)}},
-
- {{LH,LW},{CH,CW}} = case Type of
- listen -> {Node, Peer};
- connect -> {Peer, Node}
- end,
-
- LO = [{transport_module, diameter_tcp},
- {transport_config, LH ++ [{ip, ?ADDR}, {port, 0}]},
- {watchdog_timer, LW}],
-
- {ok, LRef} = diameter:add_transport(Server, {listen, LO}),
+reopen(Test, Wd, N, M) ->
+ %% Publish a ref ensure the connecting transport is added only
+ %% once events from the listening transport are subscribed to.
+ Ref = make_ref(),
+ [] = run([[reopen, T, Test, Ref, Wd, N, M] || T <- [listen, connect]]).
- [LP] = ?util:lport(tcp, LRef, 20),
-
- CO = [{transport_module, diameter_tcp},
- {transport_config, CH ++ [{ip, ?ADDR}, {port, 0},
- {raddr, ?ADDR}, {rport, LP}]},
- {watchdog_timer, CW}],
-
- %% Use a temporary process to ensure the connecting transport is
- %% added only once events from the listening transport are
- %% subscribed to.
- Pid = spawn(fun() -> receive _ -> ok end end),
+%% reopen/6
- [] = run([[reopen, Type, T, LRef, Pid, Wd, N, M]
- || T <- [{listen, Server}, {connect, Client, CO}]]).
+reopen(Type, Test, Ref, Wd, N, M) ->
+ {SvcName, TRef} = start(Type, Ref, opts(Type, Test, Ref, Wd)),
+ reopen(Type, Test, SvcName, TRef, Wd, N, M).
-%% start_service/1
+%% start/3
-start_service() ->
+start(Type, Ref, Opts) ->
Name = hostname(),
+ true = diameter:subscribe(Name),
ok = diameter:start_service(Name, [{monitor, self()} | ?SERVICE(Name)]),
- Name.
-
-%% reopen/7
-
-reopen(Type, {listen = T, SvcName}, Ref, Pid, Wd, N, M) ->
- diameter:subscribe(SvcName),
- Pid ! ok,
- recv(Type, T, SvcName, Ref, Wd, N, M);
+ {ok, TRef} = diameter:add_transport(Name, {Type, Opts}),
+ true = diameter_reg:add_new({Type, Ref, Name}),
+ {Name, TRef}.
+
+opts(Type, Test, Ref, Wd) ->
+ {Timer, Counts, Mod} = opts(Type, Test, Wd),
+ [{transport_module, diameter_tcp},
+ {transport_config, Mod ++ [{ip, ?ADDR}, {port, 0}] ++ cfg(Type, Ref)},
+ {watchdog_timer, Timer},
+ {watchdog_counts, Counts}].
+
+cfg(listen, _) ->
+ [];
+cfg(connect, Ref) ->
+ [{{_, _, SvcName}, _Pid}] = diameter_reg:wait({listen, Ref, '_'}),
+ [[{ref, LRef} | _]] = diameter:service_info(SvcName, transport),
+ [LP] = ?util:lport(tcp, LRef, 20),
+ [{raddr, ?ADDR}, {rport, LP}].
-reopen(Type, {connect = T, SvcName, Opts}, _, Pid, Wd, N, M) ->
- diameter:subscribe(SvcName),
- MRef = erlang:monitor(process, Pid),
- receive {'DOWN', MRef, process, _, _} -> ok end,
- {ok, Ref} = diameter:add_transport(SvcName, {T, Opts}),
- recv(Type, T, SvcName, Ref, Wd, N, M).
+opts(Type, Type, Wd) ->
+ {Wd, [], []};
+opts(_Type, _Test, _Wd) ->
+ {?WD(?PEER_WD), [{open, 0}], [{module, ?MODULE}]}.
-%% recv/7
+%% reopen/7
%% The watchdog to be tested.
-recv(Type, Type, _SvcName, Ref, Wd, N, M) ->
+reopen(Type, Type, SvcName, Ref, Wd, N, M) ->
+ ?LOG("node, ~p, ~p", [Type, Ref]),
+
%% Connection should come up immediately as a consequence of
%% starting the watchdog process. In the accepting case this
%% results in a new watchdog on a transport waiting for a new
%% connection.
- ?EVENT({watchdog, Ref, _, {initial, okay}, _}, 2000),
- ?EVENT({up, Ref, _, _, #diameter_packet{}}, 0),
-
- %% Low/high watchdog timeouts.
- WdL = jitter(Wd, -2000),
- WdH = jitter(Wd, 2000),
+ {initial, okay} = ?WD_EVENT(Ref),
+ ?EVENT({up, Ref, _, _, #diameter_packet{}}),
%% OKAY Timer expires & Failover()
%% Pending SetWatchdog() SUSPECT
@@ -215,8 +193,13 @@ recv(Type, Type, _SvcName, Ref, Wd, N, M) ->
%% the first unanswered DWR. Knowing the min/max watchdog timeout
%% values gives the time interval in which the event is expected.
- ?EVENT({watchdog, Ref, _, {okay, suspect}, _}, N+2, WdL, WdH),
- ?EVENT({down, Ref, _, _}, 0),
+ [0,0,0,0] = wd_counts(SvcName),
+
+ {okay, suspect} = ?WD_EVENT(Ref),
+ ?EVENT({down, Ref, _, _}),
+
+ %% N received DWA's
+ [_,_,_,N] = wd_counts(SvcName),
%% SUSPECT Receive DWA Pending = FALSE
%% Failback()
@@ -228,8 +211,13 @@ recv(Type, Type, _SvcName, Ref, Wd, N, M) ->
%% The peer sends a message before the expiry of another watchdog
%% to induce failback.
- ?EVENT({watchdog, Ref, _, {suspect, okay}, _}, WdH + 2000),
- ?EVENT({up, Ref, _, _}, 0),
+ {suspect, okay} = ?WD_EVENT(Ref),
+ ?EVENT({up, Ref, _, _}),
+
+ %% N+1 sent DWR's, N/N+1 received DWA's
+ R1 = N+1,
+ A1 = choose(M == 'DWA', R1, N),
+ [R1,_,_,A1] = wd_counts(SvcName),
%% OKAY Timer expires & SendWatchdog()
%% !Pending SetWatchdog()
@@ -242,16 +230,19 @@ recv(Type, Type, _SvcName, Ref, Wd, N, M) ->
%% back down after either one or two watchdog expiries, depending
%% on whether or not DWA restored the connection.
- F = choose(M == 'DWA', 2, 1),
- ?EVENT({watchdog, Ref, _, {okay, suspect}, _}, F, WdL, WdH),
- ?EVENT({down, Ref, _, _}, 0),
+ {okay, suspect} = ?WD_EVENT(Ref),
+ ?EVENT({down, Ref, _, _}),
%% SUSPECT Timer expires CloseConnection()
%% SetWatchdog() DOWN
%%
%% Non-response brings the connection down after another timeout.
- ?EVENT({watchdog, Ref, _, {suspect, down}, _}, 1, WdL, WdH),
+ {suspect, down} = ?WD_EVENT(Ref),
+
+ R2 = R1 + choose(M == 'DWA', 1, 0),
+ A2 = A1,
+ [R2,_,_,A2] = wd_counts(SvcName),
%% DOWN Timer expires AttemptOpen()
%% SetWatchdog() DOWN
@@ -263,7 +254,7 @@ recv(Type, Type, _SvcName, Ref, Wd, N, M) ->
%%
%% The connection is reestablished after another timeout.
- recv_reopen(Type, Ref, WdL, WdH),
+ recv_reopen(Type, Ref),
%% REOPEN Receive non-DWA Throwaway() REOPEN
%%
@@ -281,18 +272,27 @@ recv(Type, Type, _SvcName, Ref, Wd, N, M) ->
%% An exchange of 3 watchdogs (the first directly after
%% capabilities exchange) brings the connection back up.
- ?EVENT({watchdog, Ref, _, {reopen, okay}, _}, 2, WdL, WdH),
- ?EVENT({up, Ref, _, _, #diameter_packet{}}, 0),
+ {reopen, okay} = ?WD_EVENT(Ref),
+ ?EVENT({up, Ref, _, _, #diameter_packet{}}),
+
+ %% Three DWR's have been answered.
+ R3 = R2 + 3,
+ A3 = A2 + 3,
+ [R3,_,_,A3] = wd_counts(SvcName),
%% Non-response brings it down again.
- ?EVENT({watchdog, Ref, _, {okay, suspect}, _}, 2, WdL, WdH),
- ?EVENT({down, Ref, _, _}, 0),
- ?EVENT({watchdog, Ref, _, {suspect, down}, _}, 1, WdL, WdH),
+ {okay, suspect} = ?WD_EVENT(Ref),
+ ?EVENT({down, Ref, _, _}),
+ {suspect, down} = ?WD_EVENT(Ref),
+
+ R4 = R3 + 1,
+ A4 = A3,
+ [R4,_,_,A4] = wd_counts(SvcName),
%% Reestablish after another watchdog.
- recv_reopen(Type, Ref, WdL, WdH),
+ recv_reopen(Type, Ref),
%% REOPEN Timer expires & NumDWA = -1
%% Pending & SetWatchdog()
@@ -305,36 +305,57 @@ recv(Type, Type, _SvcName, Ref, Wd, N, M) ->
%% Peer is now ignoring all watchdogs go down again after 2
%% timeouts.
- ?EVENT({watchdog, Ref, _, {reopen, down}, _}, 2, WdL, WdH);
+ {reopen, down} = ?WD_EVENT(Ref);
%% The misbehaving peer.
-recv(_, Type, SvcName, Ref, Wd, N, M) ->
+reopen(Type, _, SvcName, Ref, Wd, N, M) ->
+ ?LOG("peer, ~p, ~p", [Type, Ref]),
+
%% First transport process.
- ?EVENT({watchdog, Ref, _, {initial, okay}, _}, 1000),
- ?EVENT({up, Ref, _, _, #diameter_packet{}}, 0),
+ {initial, okay} = ?WD_EVENT(Ref),
+ ?EVENT({up, Ref, _, _, #diameter_packet{}}),
+
reg(Type, Ref, SvcName, {SvcName, {Wd,N,M}}),
- ?EVENT({watchdog, Ref, _, {okay, down}, _}, infinity),
+
+ {okay, down} = ?WD_EVENT(Ref),
%% Second transport process.
- ?EVENT({watchdog, Ref, _, {_, reopen}, _}, infinity),
+ ?EVENT({watchdog, Ref, _, {_, reopen}, _}),
reg(Type, Ref, SvcName, 3),
- ?EVENT({watchdog, Ref, _, {_, down}, _}, infinity),
+ ?EVENT({watchdog, Ref, _, {_, down}, _}),
%% Third transport process.
- ?EVENT({watchdog, Ref, _, {_, reopen}, _}, infinity),
+ ?EVENT({watchdog, Ref, _, {_, reopen}, _}),
reg(Type, Ref, SvcName, 0),
- ?EVENT({watchdog, Ref, _, {_, down}, _}, infinity),
+ ?EVENT({watchdog, Ref, _, {_, down}, _}),
ok.
-%% recv_reopen/4
+log_wd({From, To} = T) ->
+ ?LOG("~p -> ~p", [From, To]),
+ T.
+
+log_event(E) ->
+ T = element(1,E),
+ T == watchdog orelse ?LOG("~p", [T]),
+ E.
+
+%% wd_counts/1
-recv_reopen(connect, Ref, WdL, WdH) ->
- ?EVENT({watchdog, Ref, _, {_, reopen}, _}, 1, WdL, WdH),
- ?EVENT({reconnect, Ref, _}, 0);
+wd_counts(SvcName) ->
+ [Info] = diameter:service_info(SvcName, transport),
+ {_, Counters} = lists:keyfind(statistics, 1, Info),
+ [proplists:get_value({{0,280,R}, D}, Counters, 0) || D <- [send,recv],
+ R <- [1,0]].
-recv_reopen(listen, Ref, _, _) ->
- ?EVENT({watchdog, Ref, _, {_, reopen}, _}, 1, ?PEER_WD).
+%% recv_reopen/2
+
+recv_reopen(connect, Ref) ->
+ {down, reopen} = ?WD_EVENT(Ref),
+ ?EVENT({reconnect, Ref, _});
+
+recv_reopen(listen, Ref) ->
+ {_, reopen} = ?WD_EVENT(Ref).
%% reg/4
%%
@@ -509,11 +530,6 @@ run1([F|A]) ->
S
end.
-%% now_diff/2
-
-now_diff(T1, T2) ->
- timer:now_diff(T2, T1).
-
%% jitter/2
jitter(?WD(T), _) ->