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Support batch delivery 

- Upgrade the emqx_session module to support batch delivery
- Update emqx_protocol:deliver/2 to support batch delivery
- Update some test cases
This commit is contained in:
Feng Lee 2019-02-22 09:07:50 +08:00 committed by Gilbert
parent 08204fc7a8
commit e3bc8e4f0a
4 changed files with 219 additions and 117 deletions
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12
src/emqx_protocol.erl
View File

@ -586,7 +586,17 @@ puback(?QOS_2, PacketId, {error, ReasonCode}, PState) ->
%% Deliver Packet -> Client
%%------------------------------------------------------------------------------
-spec(deliver(tuple(), state()) -> {ok, state()} | {error, term()}).
-spec(deliver(list(tuple()) | tuple(), state()) -> {ok, state()} | {error, term()}).
deliver([], PState) ->
{ok, PState};
deliver([Pub|More], PState) ->
case deliver(Pub, PState) of
{ok, PState1} ->
deliver(More, PState1);
{error, _} = Error ->
Error
end;
deliver({connack, ReasonCode}, PState) ->
send(?CONNACK_PACKET(ReasonCode), PState);

325
src/emqx_session.erl
View File

@ -71,8 +71,11 @@
%% Clean Start Flag
clean_start = false :: boolean(),
%% Client Binding: local | remote
binding = local :: local | remote,
%% Conn Binding: local | remote
%% binding = local :: local | remote,
%% Deliver fun
deliver_fun :: function(),
%% ClientId: Identifier of Session
client_id :: binary(),
@ -157,6 +160,8 @@
-export_type([attr/0]).
-define(DEFAULT_BATCH_N, 1000).
%% @doc Start a session proc.
-spec(start_link(SessAttrs :: map()) -> {ok, pid()}).
start_link(SessAttrs) ->
@ -196,13 +201,13 @@ attrs(SPid) when is_pid(SPid) ->
gen_server:call(SPid, attrs, infinity);
attrs(#state{clean_start = CleanStart,
binding = Binding,
client_id = ClientId,
conn_pid = ConnPid,
username = Username,
expiry_interval = ExpiryInterval,
created_at = CreatedAt}) ->
[{clean_start, CleanStart},
{binding, Binding},
{binding, binding(ConnPid)},
{client_id, ClientId},
{username, Username},
{expiry_interval, ExpiryInterval div 1000},
@ -342,7 +347,7 @@ init([Parent, #{zone := Zone,
IdleTimout = get_env(Zone, idle_timeout, 30000),
State = #state{idle_timeout = IdleTimout,
clean_start = CleanStart,
binding = binding(ConnPid),
deliver_fun = deliver_fun(ConnPid),
client_id = ClientId,
username = Username,
conn_pid = ConnPid,
@ -376,9 +381,18 @@ init_mqueue(Zone) ->
default_priority => get_env(Zone, mqueue_default_priority)
}).
binding(undefined) -> undefined;
binding(ConnPid) ->
case node(ConnPid) =:= node() of true -> local; false -> remote end.
deliver_fun(ConnPid) when node(ConnPid) == node() ->
fun(Packet) -> ConnPid ! {deliver, Packet}, ok end;
deliver_fun(ConnPid) ->
Node = node(ConnPid),
fun(Packet) ->
emqx_rpc:cast(Node, erlang, send, [ConnPid, {deliver, Packet}])
end.
handle_call(info, _From, State) ->
reply(info(State), State);
@ -539,7 +553,7 @@ handle_cast({resume, #{conn_pid := ConnPid,
true = link(ConnPid),
State1 = State#state{conn_pid = ConnPid,
binding = binding(ConnPid),
deliver_fun = deliver_fun(ConnPid),
old_conn_pid = OldConnPid,
clean_start = false,
retry_timer = undefined,
@ -566,25 +580,11 @@ handle_cast(Msg, State) ->
emqx_logger:error("[Session] unexpected cast: ~p", [Msg]),
{noreply, State}.
%% Batch dispatch
handle_info({dispatch, Topic, Msgs}, State) when is_list(Msgs) ->
noreply(lists:foldl(
fun(Msg, St) ->
element(2, handle_info({dispatch, Topic, Msg}, St))
end, State, Msgs));
handle_info({dispatch, Topic, Msg}, State) when is_record(Msg, message) ->
handle_dispatch([{Topic, Msg}], State);
%% Dispatch message
handle_info({dispatch, Topic, Msg = #message{}}, State) ->
case emqx_shared_sub:is_ack_required(Msg) andalso not has_connection(State) of
true ->
%% Require ack, but we do not have connection
%% negative ack the message so it can try the next subscriber in the group
ok = emqx_shared_sub:nack_no_connection(Msg),
{noreply, State};
false ->
NewState = handle_dispatch(Topic, Msg, State),
noreply(ensure_stats_timer(maybe_gc({1, msg_size(Msg)}, NewState)))
end;
handle_info({dispatch, Topic, Msgs}, State) when is_list(Msgs) ->
handle_dispatch([{Topic, Msg} || Msg <- Msgs], State);
%% Do nothing if the client has been disconnected.
handle_info({timeout, Timer, retry_delivery}, State = #state{conn_pid = undefined, retry_timer = Timer}) ->
@ -684,18 +684,11 @@ maybe_shutdown(Pid, Reason) ->
%% Internal functions
%%------------------------------------------------------------------------------
has_connection(#state{conn_pid = Pid}) ->
is_connection_alive(#state{conn_pid = Pid}) ->
is_pid(Pid) andalso is_process_alive(Pid).
handle_dispatch(Topic, Msg, State = #state{subscriptions = SubMap}) ->
case maps:find(Topic, SubMap) of
{ok, #{nl := Nl, qos := QoS, rap := Rap, subid := SubId}} ->
run_dispatch_steps([{nl, Nl}, {qos, QoS}, {rap, Rap}, {subid, SubId}], Msg, State);
{ok, #{nl := Nl, qos := QoS, rap := Rap}} ->
run_dispatch_steps([{nl, Nl}, {qos, QoS}, {rap, Rap}], Msg, State);
error ->
dispatch(emqx_message:unset_flag(dup, Msg), State)
end.
%%------------------------------------------------------------------------------
%% Suback and unsuback
suback(_From, undefined, _ReasonCodes) ->
ignore;
@ -722,7 +715,6 @@ kick(ClientId, OldConnPid, ConnPid) ->
%%------------------------------------------------------------------------------
%% Replay or Retry Delivery
%%------------------------------------------------------------------------------
%% Redeliver at once if force is true
retry_delivery(Force, State = #state{inflight = Inflight}) ->
@ -766,6 +758,7 @@ retry_delivery(Force, [{Type, Msg0, Ts} | Msgs], Now,
%%------------------------------------------------------------------------------
%% Send Will Message
%%------------------------------------------------------------------------------
send_willmsg(undefined) ->
ignore;
send_willmsg(WillMsg) ->
@ -801,80 +794,73 @@ expire_awaiting_rel([{PacketId, Ts} | More], Now,
is_awaiting_full(#state{max_awaiting_rel = 0}) ->
false;
is_awaiting_full(#state{awaiting_rel = AwaitingRel, max_awaiting_rel = MaxLen}) ->
is_awaiting_full(#state{awaiting_rel = AwaitingRel,
max_awaiting_rel = MaxLen}) ->
maps:size(AwaitingRel) >= MaxLen.
%%------------------------------------------------------------------------------
%% Dispatch Messages
%% Dispatch messages
%%------------------------------------------------------------------------------
run_dispatch_steps([], Msg, State) ->
dispatch(Msg, State);
run_dispatch_steps([{nl, 1}|_Steps], #message{from = ClientId}, State = #state{client_id = ClientId}) ->
State;
run_dispatch_steps([{nl, _}|Steps], Msg, State) ->
run_dispatch_steps(Steps, Msg, State);
run_dispatch_steps([{qos, SubQoS}|Steps], Msg0 = #message{qos = PubQoS}, State = #state{upgrade_qos = false}) ->
%% Ack immediately if a shared dispatch QoS is downgraded to 0
Msg = case SubQoS =:= ?QOS_0 of
true -> emqx_shared_sub:maybe_ack(Msg0);
false -> Msg0
end,
run_dispatch_steps(Steps, Msg#message{qos = min(SubQoS, PubQoS)}, State);
run_dispatch_steps([{qos, SubQoS}|Steps], Msg = #message{qos = PubQoS}, State = #state{upgrade_qos = true}) ->
run_dispatch_steps(Steps, Msg#message{qos = max(SubQoS, PubQoS)}, State);
run_dispatch_steps([{rap, _Rap}|Steps], Msg = #message{flags = Flags, headers = #{retained := true}}, State = #state{}) ->
run_dispatch_steps(Steps, Msg#message{flags = maps:put(retain, true, Flags)}, State);
run_dispatch_steps([{rap, 0}|Steps], Msg = #message{flags = Flags}, State = #state{}) ->
run_dispatch_steps(Steps, Msg#message{flags = maps:put(retain, false, Flags)}, State);
run_dispatch_steps([{rap, _}|Steps], Msg, State) ->
run_dispatch_steps(Steps, Msg, State);
run_dispatch_steps([{subid, SubId}|Steps], Msg, State) ->
run_dispatch_steps(Steps, emqx_message:set_header('Subscription-Identifier', SubId, Msg), State).
handle_dispatch(Msgs, State = #state{inflight = Inflight, subscriptions = SubMap}) ->
%% Drain the mailbox and batch deliver
Msgs1 = drain_m(batch_n(Inflight), Msgs),
%% Ack the messages for shared subscription
Msgs2 = maybe_ack_shared(Msgs1, State),
%% Process suboptions
Msgs3 = lists:foldr(
fun({Topic, Msg}, Acc) ->
SubOpts = find_subopts(Topic, SubMap),
case process_subopts(SubOpts, Msg, State) of
{ok, Msg1} -> [Msg1|Acc];
ignore -> Acc
end
end, [], Msgs2),
NState = batch_process(Msgs3, State),
noreply(ensure_stats_timer(NState)).
%% Enqueue message if the client has been disconnected
dispatch(Msg, State = #state{client_id = ClientId, username = Username, conn_pid = undefined}) ->
case emqx_hooks:run('message.dropped', [#{client_id => ClientId, username => Username}, Msg]) of
ok -> enqueue_msg(Msg, State);
stop -> State
end;
%% Deliver qos0 message directly to client
dispatch(Msg = #message{qos = ?QOS_0} = Msg, State) ->
ok = deliver(undefined, Msg, State),
State;
dispatch(Msg = #message{qos = QoS} = Msg,
State = #state{next_pkt_id = PacketId, inflight = Inflight})
when QoS =:= ?QOS_1 orelse QoS =:= ?QOS_2 ->
case emqx_inflight:is_full(Inflight) of
true ->
enqueue_msg(Msg, State);
false ->
ok = deliver(PacketId, Msg, State),
await(PacketId, Msg, next_pkt_id(State))
batch_n(Inflight) ->
case emqx_inflight:max_size(Inflight) of
0 -> ?DEFAULT_BATCH_N;
Sz -> Sz - emqx_inflight:size(Inflight)
end.
enqueue_msg(Msg, State = #state{mqueue = Q}) ->
emqx_pd:update_counter(enqueue_stats, 1),
{Dropped, NewQ} = emqx_mqueue:in(Msg, Q),
Dropped =/= undefined andalso emqx_shared_sub:maybe_nack_dropped(Dropped),
State#state{mqueue = NewQ}.
drain_m(Cnt, Msgs) when Cnt =< 0 ->
lists:reverse(Msgs);
drain_m(Cnt, Msgs) ->
receive
{dispatch, Topic, Msg} ->
drain_m(Cnt-1, [{Topic, Msg}|Msgs])
after 0 ->
lists:reverse(Msgs)
end.
%%------------------------------------------------------------------------------
%% Deliver
%%------------------------------------------------------------------------------
%% Ack or nack the messages of shared subscription?
maybe_ack_shared(Msgs, State) when is_list(Msgs) ->
lists:foldr(
fun({Topic, Msg}, Acc) ->
case maybe_ack_shared(Msg, State) of
ok -> Acc;
Msg1 -> [{Topic, Msg1}|Acc]
end
end, [], Msgs);
redeliver({PacketId, Msg = #message{qos = QoS}}, State) ->
deliver(PacketId, if QoS =:= ?QOS_2 -> Msg;
true -> emqx_message:set_flag(dup, Msg)
end, State);
maybe_ack_shared(Msg, State) ->
case emqx_shared_sub:is_ack_required(Msg) of
true -> do_ack_shared(Msg, State);
false -> Msg
end.
redeliver({pubrel, PacketId}, #state{conn_pid = ConnPid}) ->
ConnPid ! {deliver, {pubrel, PacketId}}.
deliver(PacketId, Msg, State) ->
emqx_pd:update_counter(deliver_stats, 1),
do_ack_shared(Msg, State = #state{inflight = Inflight}) ->
case {is_connection_alive(State),
emqx_inflight:is_full(Inflight)} of
{false, _} ->
%% Require ack, but we do not have connection
%% negative ack the message so it can try the next subscriber in the group
emqx_shared_sub:nack_no_connection(Msg);
{_, true} ->
emqx_shared_sub:maybe_nack_dropped(Msg);
_ ->
%% Ack QoS1/QoS2 messages when message is delivered to connection.
%% NOTE: NOT to wait for PUBACK because:
%% The sender is monitoring this session process,
@ -882,12 +868,105 @@ deliver(PacketId, Msg, State) ->
%% sender will try to dispatch the message to the next shared subscriber.
%% This violates spec as QoS2 messages are not allowed to be sent to more
%% than one member in the group.
do_deliver(PacketId, emqx_shared_sub:maybe_ack(Msg), State).
emqx_shared_sub:maybe_ack(Msg)
end.
do_deliver(PacketId, Msg, #state{conn_pid = ConnPid, binding = local}) ->
ConnPid ! {deliver, {publish, PacketId, Msg}}, ok;
do_deliver(PacketId, Msg, #state{conn_pid = ConnPid, binding = remote}) ->
emqx_rpc:cast(node(ConnPid), erlang, send, [ConnPid, {deliver, {publish, PacketId, Msg}}]).
process_subopts([], Msg, _State) ->
{ok, Msg};
process_subopts([{nl, 1}|_Opts], #message{from = ClientId}, #state{client_id = ClientId}) ->
ignore;
process_subopts([{nl, _}|Opts], Msg, State) ->
process_subopts(Opts, Msg, State);
process_subopts([{qos, SubQoS}|Opts], Msg = #message{qos = PubQoS}, State = #state{upgrade_qos = false}) ->
process_subopts(Opts, Msg#message{qos = min(SubQoS, PubQoS)}, State);
process_subopts([{qos, SubQoS}|Opts], Msg = #message{qos = PubQoS}, State = #state{upgrade_qos = true}) ->
process_subopts(Opts, Msg#message{qos = max(SubQoS, PubQoS)}, State);
process_subopts([{rap, _Rap}|Opts], Msg = #message{flags = Flags, headers = #{retained := true}}, State = #state{}) ->
process_subopts(Opts, Msg#message{flags = maps:put(retain, true, Flags)}, State);
process_subopts([{rap, 0}|Opts], Msg = #message{flags = Flags}, State = #state{}) ->
process_subopts(Opts, Msg#message{flags = maps:put(retain, false, Flags)}, State);
process_subopts([{rap, _}|Opts], Msg, State) ->
process_subopts(Opts, Msg, State);
process_subopts([{subid, SubId}|Opts], Msg, State) ->
process_subopts(Opts, emqx_message:set_header('Subscription-Identifier', SubId, Msg), State).
find_subopts(Topic, SubMap) ->
case maps:find(Topic, SubMap) of
{ok, #{nl := Nl, qos := QoS, rap := Rap, subid := SubId}} ->
[{nl, Nl}, {qos, QoS}, {rap, Rap}, {subid, SubId}];
{ok, #{nl := Nl, qos := QoS, rap := Rap}} ->
[{nl, Nl}, {qos, QoS}, {rap, Rap}];
error -> []
end.
batch_process(Msgs, State) ->
{ok, Publishes, NState} = process_msgs(Msgs, [], State),
ok = batch_deliver(Publishes, NState),
maybe_gc(msg_cnt(Msgs), NState).
process_msgs([], Publishes, State) ->
{ok, lists:reverse(Publishes), State};
process_msgs([Msg|Msgs], Publishes, State) ->
case process_msg(Msg, State) of
{ok, Publish, NState} ->
process_msgs(Msgs, [Publish|Publishes], NState);
{ignore, NState} ->
process_msgs(Msgs, Publishes, NState)
end.
%% Enqueue message if the client has been disconnected
process_msg(Msg, State = #state{conn_pid = undefined}) ->
{ignore, enqueue_msg(Msg, State)};
%% Prepare the qos0 message delivery
process_msg(Msg = #message{qos = ?QOS_0}, State) ->
{ok, {publish, undefined, Msg}, State};
process_msg(Msg = #message{qos = QoS},
State = #state{next_pkt_id = PacketId, inflight = Inflight})
when QoS =:= ?QOS_1 orelse QoS =:= ?QOS_2 ->
case emqx_inflight:is_full(Inflight) of
true ->
{ignore, enqueue_msg(Msg, State)};
false ->
Publish = {publish, PacketId, Msg},
NState = await(PacketId, Msg, State),
{ok, Publish, next_pkt_id(NState)}
end.
enqueue_msg(Msg, State = #state{mqueue = Q, client_id = ClientId, username = Username}) ->
emqx_pd:update_counter(enqueue_stats, 1),
{Dropped, NewQ} = emqx_mqueue:in(Msg, Q),
if
Dropped =/= undefined ->
SessProps = #{client_id => ClientId, username => Username},
emqx_hooks:run('message.dropped', [SessProps, Msg]);
true -> ok
end,
State#state{mqueue = NewQ}.
%%------------------------------------------------------------------------------
%% Deliver
%%------------------------------------------------------------------------------
redeliver({PacketId, Msg = #message{qos = QoS}}, State) ->
Msg1 = if
QoS =:= ?QOS_2 -> Msg;
true -> emqx_message:set_flag(dup, Msg)
end,
do_deliver(PacketId, Msg1, State);
redeliver({pubrel, PacketId}, #state{deliver_fun = DeliverFun}) ->
DeliverFun({pubrel, PacketId}).
do_deliver(PacketId, Msg, #state{deliver_fun = DeliverFun}) ->
emqx_pd:update_counter(deliver_stats, 1),
DeliverFun({publish, PacketId, Msg}).
batch_deliver(Publishes, #state{deliver_fun = DeliverFun}) ->
emqx_pd:update_counter(deliver_stats, length(Publishes)),
DeliverFun(Publishes).
%%------------------------------------------------------------------------------
%% Awaiting ACK for QoS1/QoS2 Messages
@ -932,24 +1011,31 @@ acked(pubcomp, PacketId, State = #state{inflight = Inflight}) ->
dequeue(State = #state{conn_pid = undefined}) ->
State;
dequeue(State = #state{inflight = Inflight}) ->
case emqx_inflight:is_full(Inflight) of
dequeue(State = #state{inflight = Inflight, mqueue = Q}) ->
case emqx_mqueue:is_empty(Q)
orelse emqx_inflight:is_full(Inflight) of
true -> State;
false -> dequeue2(State)
false ->
{Msgs, Q1} = drain_q(batch_n(Inflight), [], Q),
batch_process(lists:reverse(Msgs), State#state{mqueue = Q1})
end.
dequeue2(State = #state{mqueue = Q}) ->
drain_q(Cnt, Msgs, Q) when Cnt =< 0 ->
{Msgs, Q};
drain_q(Cnt, Msgs, Q) ->
case emqx_mqueue:out(Q) of
{empty, _Q} -> State;
{empty, _Q} -> {Msgs, Q};
{{value, Msg}, Q1} ->
%% Dequeue more
dequeue(dispatch(Msg, State#state{mqueue = Q1}))
io:format("Drain Msg: ~p~n", [Msg]),
drain_q(Cnt-1, [Msg|Msgs], Q1)
end.
%%------------------------------------------------------------------------------
%% Ensure timers
ensure_await_rel_timer(State = #state{await_rel_timer = undefined, await_rel_timeout = Timeout}) ->
ensure_await_rel_timer(State = #state{await_rel_timer = undefined,
await_rel_timeout = Timeout}) ->
ensure_await_rel_timer(Timeout, State);
ensure_await_rel_timer(State) ->
State.
@ -959,7 +1045,8 @@ ensure_await_rel_timer(Timeout, State = #state{await_rel_timer = undefined}) ->
ensure_await_rel_timer(_Timeout, State) ->
State.
ensure_retry_timer(State = #state{retry_timer = undefined, retry_interval = Interval}) ->
ensure_retry_timer(State = #state{retry_timer = undefined,
retry_interval = Interval}) ->
ensure_retry_timer(Interval, State);
ensure_retry_timer(State) ->
State.
@ -969,7 +1056,8 @@ ensure_retry_timer(Interval, State = #state{retry_timer = undefined}) ->
ensure_retry_timer(_Timeout, State) ->
State.
ensure_expire_timer(State = #state{expiry_interval = Interval}) when Interval > 0 andalso Interval =/= 16#ffffffff ->
ensure_expire_timer(State = #state{expiry_interval = Interval})
when Interval > 0 andalso Interval =/= 16#ffffffff ->
State#state{expiry_timer = emqx_misc:start_timer(Interval * 1000, expired)};
ensure_expire_timer(State) ->
State.
@ -996,15 +1084,20 @@ next_pkt_id(State = #state{next_pkt_id = 16#FFFF}) ->
next_pkt_id(State = #state{next_pkt_id = Id}) ->
State#state{next_pkt_id = Id + 1}.
%%------------------------------------------------------------------------------
%% Maybe GC
msg_cnt(Msgs) ->
lists:foldl(fun(Msg, {Cnt, Oct}) ->
{Cnt+1, Oct+msg_size(Msg)}
end, {0, 0}, Msgs).
%% Take only the payload size into account, add other fields if necessary
msg_size(#message{payload = Payload}) -> payload_size(Payload).
%% Payload should be binary(), but not 100% sure. Need dialyzer!
payload_size(Payload) -> erlang:iolist_size(Payload).
%%------------------------------------------------------------------------------
%% Maybe GC
maybe_gc(_, State = #state{gc_state = undefined}) ->
State;
maybe_gc({Cnt, Oct}, State = #state{gc_state = GCSt}) ->

5
test/emqx_session_SUITE.erl
View File

@ -1,4 +1,3 @@
%% Copyright (c) 2013-2019 EMQ Technologies Co., Ltd. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
@ -45,7 +44,7 @@ ignore_loop(_Config) ->
application:set_env(emqx, mqtt_ignore_loop_deliver, false).
t_session_all(_) ->
emqx_zone:set_env(internal, idle_timeout, 100),
emqx_zone:set_env(internal, idle_timeout, 1000),
ClientId = <<"ClientId">>,
{ok, ConnPid} = emqx_mock_client:start_link(ClientId),
{ok, SPid} = emqx_mock_client:open_session(ConnPid, ClientId, internal),
@ -56,7 +55,7 @@ t_session_all(_) ->
[{<<"topic">>, _}] = emqx:subscriptions(SPid),
emqx_session:publish(SPid, 1, Message1),
timer:sleep(200),
{publish, 1, _} = emqx_mock_client:get_last_message(ConnPid),
[{publish, 1, _}] = emqx_mock_client:get_last_message(ConnPid),
Attrs = emqx_session:attrs(SPid),
Info = emqx_session:info(SPid),
Stats = emqx_session:stats(SPid),

10
test/emqx_shared_sub_SUITE.erl
View File

@ -59,7 +59,7 @@ t_random_basic(_) ->
PacketId = 1,
emqx_session:publish(SPid, PacketId, Message1),
?wait(case emqx_mock_client:get_last_message(ConnPid) of
{publish, 1, _} -> true;
[{publish, 1, _}] -> true;
Other -> Other
end, 1000),
emqx_session:pubrec(SPid, PacketId, reasoncode),
@ -105,7 +105,7 @@ t_no_connection_nack(_) ->
fun(PacketId, ConnPid) ->
Payload = MkPayload(PacketId),
case emqx_mock_client:get_last_message(ConnPid) of
{publish, _, #message{payload = Payload}} ->
[{publish, _, #message{payload = Payload}}] ->
CasePid ! {Ref, PacketId, ConnPid},
true;
_Other ->
@ -176,7 +176,7 @@ t_not_so_sticky(_) ->
?wait(subscribed(<<"group1">>, <<"foo/bar">>, SPid1), 1000),
emqx_session:publish(SPid1, 1, Message1),
?wait(case emqx_mock_client:get_last_message(ConnPid1) of
{publish, _, #message{payload = <<"hello1">>}} -> true;
[{publish, _, #message{payload = <<"hello1">>}}] -> true;
Other -> Other
end, 1000),
emqx_mock_client:close_session(ConnPid1),
@ -185,7 +185,7 @@ t_not_so_sticky(_) ->
?wait(subscribed(<<"group1">>, <<"foo/#">>, SPid2), 1000),
emqx_session:publish(SPid2, 2, Message2),
?wait(case emqx_mock_client:get_last_message(ConnPid2) of
{publish, _, #message{payload = <<"hello2">>}} -> true;
[{publish, _, #message{payload = <<"hello2">>}}] -> true;
Other -> Other
end, 1000),
emqx_mock_client:close_session(ConnPid2),
@ -240,7 +240,7 @@ test_two_messages(Strategy, WithAck) ->
last_message(_ExpectedPayload, []) -> <<"not yet?">>;
last_message(ExpectedPayload, [Pid | Pids]) ->
case emqx_mock_client:get_last_message(Pid) of
{publish, _, #message{payload = ExpectedPayload}} -> {true, Pid};
[{publish, _, #message{payload = ExpectedPayload}}] -> {true, Pid};
_Other -> last_message(ExpectedPayload, Pids)
end.