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refactor(stomp): avoid anonymous functions

This commit is contained in:
JianBo He 2020-12-09 19:17:51 +08:00
parent bc8ddb7213
commit 9e47d31f79
6 changed files with 316 additions and 183 deletions
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85
apps/emqx_stomp/src/emqx_stomp_connection.erl
View File

@ -33,8 +33,11 @@
, terminate/2
]).
%% for protocol
-export([send/4, heartbeat/2]).
-record(stomp_client, {transport, socket, peername, conn_name, conn_state,
await_recv, rate_limit, parse_fun, proto_state,
await_recv, rate_limit, parser, proto_state,
proto_env, heartbeat}).
-define(INFO_KEYS, [peername, await_recv, conn_state]).
@ -55,9 +58,12 @@ init([Transport, Sock, ProtoEnv]) ->
{ok, NewSock} ->
{ok, Peername} = Transport:ensure_ok_or_exit(peername, [NewSock]),
ConnName = esockd:format(Peername),
SendFun = send_fun(Transport, Sock),
ParseFun = emqx_stomp_frame:parser(ProtoEnv),
ProtoState = emqx_stomp_protocol:init(Peername, SendFun, ProtoEnv),
SendFun = {fun ?MODULE:send/4, [Transport, Sock, self()]},
HrtBtFun = {fun ?MODULE:heartbeat/2, [Transport, Sock]},
Parser = emqx_stomp_frame:init_parer_state(ProtoEnv),
ProtoState = emqx_stomp_protocol:init(#{peername => Peername,
sendfun => SendFun,
heartfun => HrtBtFun}, ProtoEnv),
RateLimit = init_rate_limit(proplists:get_value(rate_limit, ProtoEnv)),
State = run_socket(#stomp_client{transport = Transport,
socket = NewSock,
@ -66,7 +72,7 @@ init([Transport, Sock, ProtoEnv]) ->
conn_state = running,
await_recv = false,
rate_limit = RateLimit,
parse_fun = ParseFun,
parser = Parser,
proto_env = ProtoEnv,
proto_state = ProtoState}),
gen_server:enter_loop(?MODULE, [{hibernate_after, 5000}], State, 20000);
@ -79,17 +85,17 @@ init_rate_limit(undefined) ->
init_rate_limit({Rate, Burst}) ->
esockd_rate_limit:new(Rate, Burst).
send_fun(Transport, Sock) ->
Self = self(),
fun(Data) ->
try Transport:async_send(Sock, Data) of
ok -> ok;
{error, Reason} -> Self ! {shutdown, Reason}
catch
error:Error -> Self ! {shutdown, Error}
end
send(Data, Transport, Sock, ConnPid) ->
try Transport:async_send(Sock, Data) of
ok -> ok;
{error, Reason} -> ConnPid ! {shutdown, Reason}
catch
error:Error -> ConnPid ! {shutdown, Error}
end.
heartbeat(Transport, Sock) ->
Transport:send(Sock, <<$\n>>).
handle_call(info, _From, State = #stomp_client{transport = Transport,
socket = Sock,
peername = Peername,
@ -124,16 +130,19 @@ handle_info({transaction, {timeout, Id}}, State) ->
emqx_stomp_transaction:timeout(Id),
noreply(State);
handle_info({heartbeat, start, {Cx, Cy}},
State = #stomp_client{transport = Transport, socket = Sock}) ->
Self = self(),
Incomming = {Cx, statfun(recv_oct, State), fun() -> Self ! {heartbeat, timeout} end},
Outgoing = {Cy, statfun(send_oct, State), fun() -> Transport:send(Sock, <<$\n>>) end},
{ok, HbProc} = emqx_stomp_heartbeat:start_link(Incomming, Outgoing),
noreply(State#stomp_client{heartbeat = HbProc});
handle_info({timeout, TRef, TMsg}, State) when TMsg =:= incoming;
TMsg =:= outgoing ->
handle_info({heartbeat, timeout}, State) ->
stop({shutdown, heartbeat_timeout}, State);
Stat = case TMsg of
incoming -> recv_oct;
_ -> send_oct
end,
case getstat(Stat, State) of
{ok, Val} ->
with_proto(timeout, [TRef, {TMsg, Val}], State);
{error, Reason} ->
shutdown({sock_error, Reason}, State)
end;
handle_info({'EXIT', HbProc, Error}, State = #stomp_client{heartbeat = HbProc}) ->
stop(Error, State);
@ -186,14 +195,24 @@ code_change(_OldVsn, State, _Extra) ->
%% Receive and Parse data
%%--------------------------------------------------------------------
with_proto(Fun, Args, State = #stomp_client{proto_state = ProtoState}) ->
case erlang:apply(emqx_stomp_protocol, Fun, Args ++ [ProtoState]) of
{ok, NProtoState} ->
noreply(State#stomp_client{proto_state = NProtoState});
{F, Reason, NProtoState} when F == stop;
F == error;
F == shutdown ->
shutdown(Reason, State#stomp_client{proto_state = NProtoState})
end.
received(<<>>, State) ->
noreply(State);
received(Bytes, State = #stomp_client{parse_fun = ParseFun,
received(Bytes, State = #stomp_client{parser = Parser,
proto_state = ProtoState}) ->
try ParseFun(Bytes) of
{more, NewParseFun} ->
noreply(State#stomp_client{parse_fun = NewParseFun});
try emqx_stomp_frame:parse(Bytes, Parser) of
{more, NewParser} ->
noreply(State#stomp_client{parser = NewParser});
{ok, Frame, Rest} ->
?LOG(info, "RECV Frame: ~s", [emqx_stomp_frame:format(Frame)], State),
case emqx_stomp_protocol:received(Frame, ProtoState) of
@ -216,7 +235,7 @@ received(Bytes, State = #stomp_client{parse_fun = ParseFun,
end.
reset_parser(State = #stomp_client{proto_env = ProtoEnv}) ->
State#stomp_client{parse_fun = emqx_stomp_frame:parser(ProtoEnv)}.
State#stomp_client{parser = emqx_stomp_frame:init_parer_state(ProtoEnv)}.
rate_limit(_Size, State = #stomp_client{rate_limit = undefined}) ->
run_socket(State);
@ -238,12 +257,10 @@ run_socket(State = #stomp_client{transport = Transport, socket = Sock}) ->
Transport:async_recv(Sock, 0, infinity),
State#stomp_client{await_recv = true}.
statfun(Stat, #stomp_client{transport = Transport, socket = Sock}) ->
fun() ->
case Transport:getstat(Sock, [Stat]) of
{ok, [{Stat, Val}]} -> {ok, Val};
{error, Error} -> {error, Error}
end
getstat(Stat, #stomp_client{transport = Transport, socket = Sock}) ->
case Transport:getstat(Sock, [Stat]) of
{ok, [{Stat, Val}]} -> {ok, Val};
{error, Error} -> {error, Error}
end.
noreply(State) ->

64
apps/emqx_stomp/src/emqx_stomp_frame.erl
View File

@ -70,7 +70,8 @@
-include("emqx_stomp.hrl").
-export([ parser/1
-export([ init_parer_state/1
, parse/2
, serialize/1
]).
@ -91,14 +92,18 @@
-record(frame_limit, {max_header_num, max_header_length, max_body_length}).
-type(parser() :: fun((binary()) -> {ok, stomp_frame(), binary()}
| {more, parser()}
| {error, any()})).
-type(result() :: {ok, stomp_frame(), binary()}
| {more, parser()}
| {error, any()}).
-type(parser() :: #{phase := none | command | headers | hdname | hdvalue | body,
pre => binary(),
state := #parser_state{}}).
%% @doc Initialize a parser
-spec parser([proplists:property()]) -> parser().
parser(Opts) ->
fun(Bin) -> parse(none, Bin, #parser_state{limit = limit(Opts)}) end.
-spec init_parer_state([proplists:property()]) -> parser().
init_parer_state(Opts) ->
#{phase => none, state => #parser_state{limit = limit(Opts)}}.
limit(Opts) ->
#frame_limit{max_header_num = g(max_header_num, Opts, ?MAX_HEADER_NUM),
@ -108,29 +113,31 @@ limit(Opts) ->
g(Key, Opts, Val) ->
proplists:get_value(Key, Opts, Val).
%% @doc Parse frame
-spec(parse(Phase :: atom(), binary(), #parser_state{}) ->
{ok, stomp_frame(), binary()} | {more, parser()} | {error, any()}).
parse(none, <<>>, State) ->
{more, fun(Bin) -> parse(none, Bin, State) end};
parse(none, <<?LF, Bin/binary>>, State) ->
parse(none, Bin, State);
parse(none, Bin, State) ->
parse(command, Bin, State);
-spec parse(binary(), parser()) -> result().
parse(<<>>, Parser) ->
{more, Parser};
parse(Phase, <<>>, State) ->
{more, fun(Bin) -> parse(Phase, Bin, State) end};
parse(Phase, <<?CR>>, State) ->
{more, fun(Bin) -> parse(Phase, <<?CR, Bin/binary>>, State) end};
parse(Phase, <<?CR, ?LF, Rest/binary>>, State) ->
parse(Bytes, #{phase := body, len := Len, state := State}) ->
parse(body, Bytes, State, Len);
parse(Bytes, Parser = #{pre := Pre}) ->
parse(<<Pre/binary, Bytes/binary>>, maps:without([pre], Parser));
parse(<<?CR, ?LF, Rest/binary>>, #{phase := Phase, state := State}) ->
parse(Phase, <<?LF, Rest/binary>>, State);
parse(_Phase, <<?CR, _Ch:8, _Rest/binary>>, _State) ->
parse(<<?CR>>, Parser) ->
{more, Parser#{pre => <<?CR>>}};
parse(<<?CR, _Ch:8, _Rest/binary>>, _Parser) ->
{error, linefeed_expected};
parse(Phase, <<?BSL>>, State) when Phase =:= hdname; Phase =:= hdvalue ->
{more, fun(Bin) -> parse(Phase, <<?BSL, Bin/binary>>, State) end};
parse(Phase, <<?BSL, Ch:8, Rest/binary>>, State) when Phase =:= hdname; Phase =:= hdvalue ->
parse(<<?BSL>>, Parser = #{phase := Phase}) when Phase =:= hdname; Phase =:= hdvalue ->
{more, Parser#{pre => <<?BSL>>}};
parse(<<?BSL, Ch:8, Rest/binary>>, #{phase := Phase, state := State}) when Phase =:= hdname; Phase =:= hdvalue ->
parse(Phase, Rest, acc(unescape(Ch), State));
parse(Bytes, #{phase := none, state := State}) ->
parse(command, Bytes, State).
%% @private
parse(command, <<?LF, Rest/binary>>, State = #parser_state{acc = Acc}) ->
parse(headers, Rest, State#parser_state{cmd = Acc, acc = <<>>});
parse(command, <<Ch:8, Rest/binary>>, State) ->
@ -153,20 +160,21 @@ parse(hdvalue, <<?LF, Rest/binary>>, State = #parser_state{headers = Headers, hd
parse(hdvalue, <<Ch:8, Rest/binary>>, State) ->
parse(hdvalue, Rest, acc(Ch, State)).
%% @private
parse(body, <<>>, State, Length) ->
{more, fun(Bin) -> parse(body, Bin, State, Length) end};
{more, #{phase => body, length => Length, state => State}};
parse(body, Bin, State, none) ->
case binary:split(Bin, <<?NULL>>) of
[Chunk, Rest] ->
{ok, new_frame(acc(Chunk, State)), Rest};
[Chunk] ->
{more, fun(More) -> parse(body, More, acc(Chunk, State), none) end}
{more, #{phase => body, length => none, state => acc(Chunk, State)}}
end;
parse(body, Bin, State, Len) when byte_size(Bin) >= (Len+1) ->
<<Chunk:Len/binary, ?NULL, Rest/binary>> = Bin,
{ok, new_frame(acc(Chunk, State)), Rest};
parse(body, Bin, State, Len) ->
{more, fun(More) -> parse(body, More, acc(Bin, State), Len - byte_size(Bin)) end}.
{more, #{phase => body, length => Len - byte_size(Bin), state => acc(Bin, State)}}.
add_header(Name, Value, Headers) ->
case lists:keyfind(Name, 1, Headers) of

126
apps/emqx_stomp/src/emqx_stomp_heartbeat.erl
View File

@ -19,88 +19,74 @@
-include("emqx_stomp.hrl").
-export([ start_link/2
, stop/1
]).
%% callback
-export([ init/1
, loop/3
, check/3
, info/1
, interval/2
]).
-define(MAX_REPEATS, 1).
-record(heartbeater, {interval, statval, repeat}).
-record(heartbeater, {name, cycle, tref, val, statfun, action, repeat = 0}).
-type name() :: incoming | outgoing.
start_link({0, _, _}, {0, _, _}) ->
{ok, none};
-type heartbeat() :: #{incoming => #heartbeater{},
outgoing => #heartbeater{}
}.
start_link(Incoming, Outgoing) ->
Params = [self(), Incoming, Outgoing],
{ok, spawn_link(?MODULE, init, [Params])}.
stop(Pid) ->
Pid ! stop.
%%--------------------------------------------------------------------
%% APIs
%%--------------------------------------------------------------------
init([Parent, Incoming, Outgoing]) ->
loop(Parent, heartbeater(incomming, Incoming), heartbeater(outgoing, Outgoing)).
-spec init({non_neg_integer(), non_neg_integer()}) -> heartbeat().
init({0, 0}) ->
#{};
init({Cx, Cy}) ->
maps:filter(fun(_, V) -> V /= undefined end,
#{incoming => heartbeater(Cx),
outgoing => heartbeater(Cy)
}).
heartbeater(_, {0, _, _}) ->
heartbeater(0) ->
undefined;
heartbeater(I) ->
#heartbeater{
interval = I,
statval = 0,
repeat = 0
}.
heartbeater(InOut, {Cycle, StatFun, ActionFun}) ->
{ok, Val} = StatFun(),
#heartbeater{name = InOut, cycle = Cycle,
tref = timer(InOut, Cycle),
val = Val, statfun = StatFun,
action = ActionFun}.
loop(Parent, Incomming, Outgoing) ->
receive
{heartbeat, incomming} ->
#heartbeater{val = LastVal, statfun = StatFun,
action = Action, repeat = Repeat} = Incomming,
case StatFun() of
{ok, Val} ->
if Val =/= LastVal ->
hibernate([Parent, resume(Incomming, Val), Outgoing]);
Repeat < ?MAX_REPEATS ->
hibernate([Parent, resume(Incomming, Val, Repeat+1), Outgoing]);
true ->
Action()
end;
{error, Error} -> %% einval
exit({shutdown, Error})
end;
{heartbeat, outgoing} ->
#heartbeater{val = LastVal, statfun = StatFun, action = Action} = Outgoing,
case StatFun() of
{ok, Val} ->
if Val =:= LastVal ->
Action(), {ok, NewVal} = StatFun(),
hibernate([Parent, Incomming, resume(Outgoing, NewVal)]);
true ->
hibernate([Parent, Incomming, resume(Outgoing, Val)])
end;
{error, Error} -> %% einval
exit({shutdown, Error})
end;
stop ->
ok;
_Other ->
loop(Parent, Incomming, Outgoing)
-spec check(name(), pos_integer(), heartbeat())
-> {ok, heartbeat()}
| {error, timeout}.
check(Name, NewVal, HrtBt) ->
HrtBter = maps:get(Name, HrtBt),
case check(NewVal, HrtBter) of
{error, _} = R -> R;
{ok, NHrtBter} ->
{ok, HrtBt#{Name => NHrtBter}}
end.
resume(Hb, NewVal) ->
resume(Hb, NewVal, 0).
resume(Hb = #heartbeater{name = InOut, cycle = Cycle}, NewVal, Repeat) ->
Hb#heartbeater{tref = timer(InOut, Cycle), val = NewVal, repeat = Repeat}.
check(NewVal, HrtBter = #heartbeater{statval = OldVal,
repeat = Repeat}) ->
if
NewVal =/= OldVal ->
{ok, HrtBter#heartbeater{statval = NewVal, repeat = 0}};
Repeat < 1 ->
{ok, HrtBter#heartbeater{repeat = Repeat + 1}};
true -> {error, timeout}
end.
timer(_InOut, 0) ->
undefined;
timer(InOut, Cycle) ->
erlang:send_after(Cycle, self(), {heartbeat, InOut}).
hibernate(Args) ->
erlang:hibernate(?MODULE, loop, Args).
-spec info(heartbeat()) -> map().
info(HrtBt) ->
maps:map(fun(_, #heartbeater{interval = Intv,
statval = Val,
repeat = Repeat}) ->
#{interval => Intv, statval => Val, repeat => Repeat}
end, HrtBt).
interval(Type, HrtBt) ->
case maps:get(Type, HrtBt, undefined) of
undefined -> undefined;
#heartbeater{interval = Intv} -> Intv
end.

165
apps/emqx_stomp/src/emqx_stomp_protocol.erl
View File

@ -18,50 +18,58 @@
-module(emqx_stomp_protocol).
-include("emqx_stomp.hrl").
-include_lib("emqx/include/emqx.hrl").
-include_lib("emqx/include/logger.hrl").
-include_lib("emqx/include/emqx_mqtt.hrl").
-logger_header("[Stomp-Proto]").
-import(proplists, [get_value/2, get_value/3]).
%% API
-export([ init/3
-export([ init/2
, info/1
]).
-export([ received/2
, send/2
, shutdown/2
, timeout/3
]).
-record(stomp_proto, {peername,
sendfun,
connected = false,
proto_ver,
proto_name,
heart_beats,
login,
allow_anonymous,
default_user,
subscriptions = []}).
-record(stomp_proto, {
peername,
heartfun,
sendfun,
connected = false,
proto_ver,
proto_name,
heart_beats,
login,
allow_anonymous,
default_user,
subscriptions = [],
timers :: #{atom() => disable | undefined | reference()}
}).
-define(TIMER_TABLE, #{
incoming_timer => incoming,
outgoing_timer => outgoing
}).
-type(stomp_proto() :: #stomp_proto{}).
-define(LOG(Level, Format, Args, State),
emqx_logger:Level("Stomp(~s): " ++ Format, [esockd:format(State#stomp_proto.peername) | Args])).
-define(record_to_proplist(Def, Rec),
lists:zip(record_info(fields, Def), tl(tuple_to_list(Rec)))).
-define(record_to_proplist(Def, Rec, Fields),
[{K, V} || {K, V} <- ?record_to_proplist(Def, Rec),
lists:member(K, Fields)]).
%% @doc Init protocol
init(Peername, SendFun, Env) ->
init(#{peername := Peername,
sendfun := SendFun,
heartfun := HeartFun}, Env) ->
AllowAnonymous = get_value(allow_anonymous, Env, false),
DefaultUser = get_value(default_user, Env),
#stomp_proto{peername = Peername,
heartfun = HeartFun,
sendfun = SendFun,
timers = #{},
allow_anonymous = AllowAnonymous,
default_user = DefaultUser}.
@ -78,9 +86,10 @@ info(#stomp_proto{connected = Connected,
{login, Login},
{subscriptions, Subscriptions}].
-spec(received(stomp_frame(), stomp_proto()) -> {ok, stomp_proto()}
| {error, any(), stomp_proto()}
| {stop, any(), stomp_proto()}).
-spec(received(stomp_frame(), stomp_proto())
-> {ok, stomp_proto()}
| {error, any(), stomp_proto()}
| {stop, any(), stomp_proto()}).
received(Frame = #stomp_frame{command = <<"STOMP">>}, State) ->
received(Frame#stomp_frame{command = <<"CONNECT">>}, State);
@ -92,12 +101,11 @@ received(#stomp_frame{command = <<"CONNECT">>, headers = Headers},
Passc = header(<<"passcode">>, Headers),
case check_login(Login, Passc, AllowAnonymous, DefaultUser) of
true ->
Heartbeats = header(<<"heart-beat">>, Headers, <<"0,0">>),
self() ! {heartbeat, start, parse_heartbeats(Heartbeats)},
NewState = State#stomp_proto{connected = true, proto_ver = Version,
heart_beats = Heartbeats, login = Login},
Heartbeats = parse_heartbeats(header(<<"heart-beat">>, Headers, <<"0,0">>)),
NState = start_heartbeart_timer(Heartbeats, State#stomp_proto{connected = true,
proto_ver = Version, login = Login}),
send(connected_frame([{<<"version">>, Version},
{<<"heart-beat">>, reverse_heartbeats(Heartbeats)}]), NewState);
{<<"heart-beat">>, reverse_heartbeats(Heartbeats)}]), NState);
false ->
send(error_frame(undefined, <<"Login or passcode error!">>), State),
{error, login_or_passcode_error, State}
@ -206,8 +214,8 @@ received(#stomp_frame{command = <<"BEGIN">>, headers = Headers}, State) ->
received(#stomp_frame{command = <<"COMMIT">>, headers = Headers}, State) ->
Id = header(<<"transaction">>, Headers),
case emqx_stomp_transaction:commit(Id, State) of
{ok, NewState} ->
maybe_send_receipt(receipt_id(Headers), NewState);
{ok, NState} ->
maybe_send_receipt(receipt_id(Headers), NState);
{error, not_found} ->
send(error_frame(receipt_id(Headers), ["Transaction ", Id, " not found"]), State)
end;
@ -248,17 +256,40 @@ send(Msg = #message{topic = Topic, headers = Headers, payload = Payload},
body = Payload},
send(Frame, State);
false ->
?LOG(error, "Stomp dropped: ~p", [Msg], State),
?LOG(error, "Stomp dropped: ~p", [Msg]),
{error, dropped, State}
end;
send(Frame, State = #stomp_proto{sendfun = SendFun}) ->
?LOG(info, "SEND Frame: ~s", [emqx_stomp_frame:format(Frame)], State),
send(Frame, State = #stomp_proto{sendfun = {Fun, Args}}) ->
?LOG(info, "SEND Frame: ~s", [emqx_stomp_frame:format(Frame)]),
Data = emqx_stomp_frame:serialize(Frame),
?LOG(debug, "SEND ~p", [Data], State),
SendFun(Data),
?LOG(debug, "SEND ~p", [Data]),
erlang:apply(Fun, [Data] ++ Args),
{ok, State}.
shutdown(_Reason, _State) ->
ok.
timeout(_TRef, {incoming, NewVal},
State = #stomp_proto{heart_beats = HrtBt}) ->
case emqx_stomp_heartbeat:check(incoming, NewVal, HrtBt) of
{error, timeout} ->
{shutdown, heartbeat_timeout, State};
{ok, NHrtBt} ->
{ok, reset_timer(incoming_timer, State#stomp_proto{heart_beats = NHrtBt})}
end;
timeout(_TRef, {outgoing, NewVal},
State = #stomp_proto{heart_beats = HrtBt,
heartfun = {Fun, Args}}) ->
case emqx_stomp_heartbeat:check(outgoing, NewVal, HrtBt) of
{error, timeout} ->
_ = erlang:apply(Fun, Args),
{ok, State};
{ok, NHrtBt} ->
{ok, reset_timer(outgoing_timer, State#stomp_proto{heart_beats = NHrtBt})}
end.
negotiate_version(undefined) ->
{ok, <<"1.0">>};
negotiate_version(Accepts) ->
@ -322,17 +353,6 @@ error_frame(Headers, undefined, Msg) ->
error_frame(Headers, ReceiptId, Msg) ->
emqx_stomp_frame:make(<<"ERROR">>, [{<<"receipt-id">>, ReceiptId} | Headers], Msg).
parse_heartbeats(Heartbeats) ->
CxCy = re:split(Heartbeats, <<",">>, [{return, list}]),
list_to_tuple([list_to_integer(S) || S <- CxCy]).
reverse_heartbeats(Heartbeats) ->
CxCy = re:split(Heartbeats, <<",">>, [{return, list}]),
list_to_binary(string:join(lists:reverse(CxCy), ",")).
shutdown(_Reason, _State) ->
ok.
next_msgid() ->
MsgId = case get(msgid) of
undefined -> 1;
@ -363,3 +383,52 @@ make_mqtt_message(Topic, Headers, Body) ->
receipt_id(Headers) ->
header(<<"receipt">>, Headers).
%%--------------------------------------------------------------------
%% Heartbeat
parse_heartbeats(Heartbeats) ->
CxCy = re:split(Heartbeats, <<",">>, [{return, list}]),
list_to_tuple([list_to_integer(S) || S <- CxCy]).
reverse_heartbeats({Cx, Cy}) ->
iolist_to_binary(io_lib:format("~w,~w", [Cy, Cx])).
start_heartbeart_timer(Heartbeats, State) ->
ensure_timer(
[incoming_timer, outgoing_timer],
State#stomp_proto{heart_beats = emqx_stomp_heartbeat:init(Heartbeats)}).
%%--------------------------------------------------------------------
%% Timer
ensure_timer([Name], State) ->
ensure_timer(Name, State);
ensure_timer([Name | Rest], State) ->
ensure_timer(Rest, ensure_timer(Name, State));
ensure_timer(Name, State = #stomp_proto{timers = Timers}) ->
TRef = maps:get(Name, Timers, undefined),
Time = interval(Name, State),
case TRef == undefined andalso is_integer(Time) andalso Time > 0 of
true -> ensure_timer(Name, Time, State);
false -> State %% Timer disabled or exists
end.
ensure_timer(Name, Time, State = #stomp_proto{timers = Timers}) ->
Msg = maps:get(Name, ?TIMER_TABLE),
TRef = emqx_misc:start_timer(Time, Msg),
State#stomp_proto{timers = Timers#{Name => TRef}}.
reset_timer(Name, State) ->
ensure_timer(Name, clean_timer(Name, State)).
reset_timer(Name, Time, State) ->
ensure_timer(Name, Time, clean_timer(Name, State)).
clean_timer(Name, State = #stomp_proto{timers = Timers}) ->
State#stomp_proto{timers = maps:remove(Name, Timers)}.
interval(incoming_timer, #stomp_proto{heart_beats = HrtBt}) ->
emqx_stomp_heartbeat:interval(incoming, HrtBt);
interval(outgoing_timer, #stomp_proto{heart_beats = HrtBt}) ->
emqx_stomp_heartbeat:interval(outgoing, HrtBt).

6
apps/emqx_stomp/test/emqx_stomp_SUITE.erl
View File

@ -100,7 +100,7 @@ t_heartbeat(_) ->
{<<"host">>, <<"127.0.0.1:61613">>},
{<<"login">>, <<"guest">>},
{<<"passcode">>, <<"guest">>},
{<<"heart-beat">>, <<"500,800">>}])),
{<<"heart-beat">>, <<"1000,800">>}])),
{ok, Data} = gen_tcp:recv(Sock, 0),
{ok, #stomp_frame{command = <<"CONNECTED">>,
headers = _,
@ -345,5 +345,5 @@ parse(Data) ->
ProtoEnv = [{max_headers, 10},
{max_header_length, 1024},
{max_body_length, 8192}],
ParseFun = emqx_stomp_frame:parser(ProtoEnv),
ParseFun(Data).
Parser = emqx_stomp_frame:init_parer_state(ProtoEnv),
emqx_stomp_frame:parse(Data, Parser).

53
apps/emqx_stomp/test/emqx_stomp_heartbeat_SUITE.erl Normal file
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@ -0,0 +1,53 @@
%%--------------------------------------------------------------------
%% Copyright (c) 2020 EMQ Technologies Co., Ltd. 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.
%%--------------------------------------------------------------------
-module(emqx_stomp_heartbeat_SUITE).
-compile(export_all).
-compile(nowarn_export_all).
all() -> emqx_ct:all(?MODULE).
%%--------------------------------------------------------------------
%% Test Cases
%%--------------------------------------------------------------------
t_init(_) ->
#{} = emqx_stomp_heartbeat:init({0, 0}),
#{incoming := _} = emqx_stomp_heartbeat:init({1, 0}),
#{outgoing := _} = emqx_stomp_heartbeat:init({0, 1}).
t_check_1(_) ->
HrtBt = emqx_stomp_heartbeat:init({1, 1}),
{ok, HrtBt1} = emqx_stomp_heartbeat:check(incoming, 0, HrtBt),
{error, timeout} = emqx_stomp_heartbeat:check(incoming, 0, HrtBt1),
{ok, HrtBt2} = emqx_stomp_heartbeat:check(outgoing, 0, HrtBt1),
{error, timeout} = emqx_stomp_heartbeat:check(outgoing, 0, HrtBt2),
ok.
t_check_2(_) ->
HrtBt = emqx_stomp_heartbeat:init({1, 0}),
#{incoming := _} = lists:foldl(fun(I, Acc) ->
{ok, NAcc} = emqx_stomp_heartbeat:check(incoming, I, Acc),
NAcc
end, HrtBt, lists:seq(1,1000)),
ok.
t_info(_) ->
HrtBt = emqx_stomp_heartbeat:init({100, 100}),
#{incoming := _,
outgoing := _} = emqx_stomp_heartbeat:info(HrtBt).