rabbitmq-server/deps/rabbitmq_mqtt/src/rabbit_mqtt_processor.erl

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%% The contents of this file are subject to the Mozilla Public License
%% Version 1.1 (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.mozilla.org/MPL/
%%
%% 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.
%%
%% The Original Code is RabbitMQ.
%%
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%% The Initial Developer of the Original Code is GoPivotal, Inc.
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%% Copyright (c) 2007-2014 GoPivotal, Inc. All rights reserved.
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%%
-module(rabbit_mqtt_processor).
-export([info/2, initial_state/1,
process_frame/2, amqp_pub/2, amqp_callback/2, send_will/1,
close_connection/1]).
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-include_lib("amqp_client/include/amqp_client.hrl").
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-include("rabbit_mqtt_frame.hrl").
-include("rabbit_mqtt.hrl").
-define(FRAME_TYPE(Frame, Type),
Frame = #mqtt_frame{ fixed = #mqtt_frame_fixed{ type = Type }}).
initial_state(Socket) ->
#proc_state{ unacked_pubs = gb_trees:empty(),
awaiting_ack = gb_trees:empty(),
message_id = 1,
subscriptions = dict:new(),
consumer_tags = {undefined, undefined},
channels = {undefined, undefined},
exchange = rabbit_mqtt_util:env(exchange),
socket = Socket }.
info(client_id, #proc_state{ client_id = ClientId }) -> ClientId.
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process_frame(#mqtt_frame{ fixed = #mqtt_frame_fixed{ type = Type }},
PState = #proc_state{ connection = undefined } )
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when Type =/= ?CONNECT ->
{err, connect_expected, PState};
process_frame(Frame = #mqtt_frame{ fixed = #mqtt_frame_fixed{ type = Type }},
PState ) ->
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%%rabbit_log:info("MQTT received frame ~p ~n", [Frame]),
process_request(Type, Frame, PState).
process_request(?CONNECT,
#mqtt_frame{ variable = #mqtt_frame_connect{
username = Username,
password = Password,
proto_ver = ProtoVersion,
clean_sess = CleanSess,
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client_id = ClientId0,
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keep_alive = Keepalive} = Var}, PState) ->
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ClientId = case ClientId0 of
[] -> rabbit_mqtt_util:gen_client_id();
[_|_] -> ClientId0
end,
{ReturnCode, PState1} =
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case {lists:member(ProtoVersion, proplists:get_keys(?PROTOCOL_NAMES)),
ClientId0 =:= [] andalso CleanSess =:= false} of
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{false, _} ->
{?CONNACK_PROTO_VER, PState};
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{_, true} ->
{?CONNACK_INVALID_ID, PState};
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_ ->
case creds(Username, Password) of
nocreds ->
rabbit_log:error("MQTT login failed - no credentials~n"),
{?CONNACK_CREDENTIALS, PState};
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{UserBin, PassBin} ->
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case process_login(UserBin, PassBin, ProtoVersion, PState) of
{?CONNACK_ACCEPT, Conn} ->
link(Conn),
{ok, Ch} = amqp_connection:open_channel(Conn),
ok = rabbit_mqtt_collector:register(
ClientId, self()),
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Prefetch = rabbit_mqtt_util:env(prefetch),
#'basic.qos_ok'{} = amqp_channel:call(
Ch, #'basic.qos'{prefetch_count = Prefetch}),
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rabbit_mqtt_reader:start_keepalive(self(), Keepalive),
{?CONNACK_ACCEPT,
maybe_clean_sess(
PState #proc_state{ will_msg = make_will_msg(Var),
clean_sess = CleanSess,
channels = {Ch, undefined},
connection = Conn,
client_id = ClientId })};
ConnAck ->
{ConnAck, PState}
end
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end
end,
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send_client(#mqtt_frame{ fixed = #mqtt_frame_fixed{ type = ?CONNACK},
variable = #mqtt_frame_connack{
return_code = ReturnCode }}, PState1),
{ok, PState1};
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process_request(?PUBACK,
#mqtt_frame{
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variable = #mqtt_frame_publish{ message_id = MessageId }},
#proc_state{ channels = {Channel, _},
awaiting_ack = Awaiting } = PState) ->
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Tag = gb_trees:get(MessageId, Awaiting),
amqp_channel:cast(
Channel, #'basic.ack'{ delivery_tag = Tag }),
{ok, PState #proc_state{ awaiting_ack = gb_trees:delete( MessageId, Awaiting)}};
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process_request(?PUBLISH,
#mqtt_frame{
fixed = #mqtt_frame_fixed{ qos = ?QOS_2 }}, PState) ->
{err, qos2_not_supported, PState};
process_request(?PUBLISH,
#mqtt_frame{
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fixed = #mqtt_frame_fixed{ qos = Qos,
retain = Retain,
dup = Dup },
variable = #mqtt_frame_publish{ topic_name = Topic,
message_id = MessageId },
payload = Payload }, PState) ->
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{ok, amqp_pub(#mqtt_msg{ retain = Retain,
qos = Qos,
topic = Topic,
dup = Dup,
message_id = MessageId,
payload = Payload }, PState)};
process_request(?SUBSCRIBE,
#mqtt_frame{
variable = #mqtt_frame_subscribe{ message_id = MessageId,
topic_table = Topics },
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payload = undefined },
#proc_state{ channels = {Channel, _},
exchange = Exchange} = PState0) ->
{QosResponse, PState1} =
lists:foldl(fun (#mqtt_topic{ name = TopicName,
qos = Qos }, {QosList, PState}) ->
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SupportedQos = supported_subs_qos(Qos),
{Queue, #proc_state{ subscriptions = Subs } = PState1} =
ensure_queue(SupportedQos, PState),
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Binding = #'queue.bind'{
queue = Queue,
exchange = Exchange,
routing_key = rabbit_mqtt_util:mqtt2amqp(
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TopicName)},
#'queue.bind_ok'{} = amqp_channel:call(Channel, Binding),
{[SupportedQos | QosList],
PState1 #proc_state{ subscriptions =
dict:append(TopicName, SupportedQos, Subs) }}
end, {[], PState0}, Topics),
send_client(#mqtt_frame{ fixed = #mqtt_frame_fixed{ type = ?SUBACK },
variable = #mqtt_frame_suback{
message_id = MessageId,
qos_table = QosResponse }}, PState1),
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{ok, PState1};
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process_request(?UNSUBSCRIBE,
#mqtt_frame{
variable = #mqtt_frame_subscribe{ message_id = MessageId,
topic_table = Topics },
payload = undefined }, #proc_state{ channels = {Channel, _},
exchange = Exchange,
client_id = ClientId,
subscriptions = Subs0} = PState) ->
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Queues = rabbit_mqtt_util:subcription_queue_name(ClientId),
Subs1 =
lists:foldl(
fun (#mqtt_topic{ name = TopicName }, Subs) ->
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QosSubs = case dict:find(TopicName, Subs) of
{ok, Val} when is_list(Val) -> lists:usort(Val);
error -> []
end,
lists:foreach(
fun (QosSub) ->
Queue = element(QosSub + 1, Queues),
Binding = #'queue.unbind'{
queue = Queue,
exchange = Exchange,
routing_key =
rabbit_mqtt_util:mqtt2amqp(TopicName)},
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#'queue.unbind_ok'{} = amqp_channel:call(Channel, Binding)
end, QosSubs),
dict:erase(TopicName, Subs)
end, Subs0, Topics),
send_client(#mqtt_frame{ fixed = #mqtt_frame_fixed { type = ?UNSUBACK },
variable = #mqtt_frame_suback{ message_id = MessageId }},
PState),
{ok, PState #proc_state{ subscriptions = Subs1 }};
process_request(?PINGREQ, #mqtt_frame{}, PState) ->
send_client(#mqtt_frame{ fixed = #mqtt_frame_fixed{ type = ?PINGRESP }},
PState),
{ok, PState};
process_request(?DISCONNECT, #mqtt_frame{}, PState) ->
{stop, PState}.
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%%----------------------------------------------------------------------------
amqp_callback({#'basic.deliver'{ consumer_tag = ConsumerTag,
delivery_tag = DeliveryTag,
routing_key = RoutingKey },
#amqp_msg{ props = #'P_basic'{ headers = Headers },
payload = Payload }} = Delivery,
#proc_state{ channels = {Channel, _},
awaiting_ack = Awaiting,
message_id = MsgId } = PState) ->
case {delivery_dup(Delivery), delivery_qos(ConsumerTag, Headers, PState)} of
{true, {?QOS_0, ?QOS_1}} ->
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amqp_channel:cast(
Channel, #'basic.ack'{ delivery_tag = DeliveryTag }),
{ok, PState};
{true, {?QOS_0, ?QOS_0}} ->
{ok, PState};
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{Dup, {DeliveryQos, _SubQos} = Qos} ->
send_client(
#mqtt_frame{ fixed = #mqtt_frame_fixed{
type = ?PUBLISH,
qos = DeliveryQos,
dup = Dup },
variable = #mqtt_frame_publish{
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message_id =
case DeliveryQos of
?QOS_0 -> undefined;
?QOS_1 -> MsgId
end,
topic_name =
rabbit_mqtt_util:amqp2mqtt(
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RoutingKey) },
payload = Payload}, PState),
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case Qos of
{?QOS_0, ?QOS_0} ->
{ok, PState};
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{?QOS_1, ?QOS_1} ->
{ok,
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next_msg_id(
PState #proc_state{
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awaiting_ack =
gb_trees:insert(MsgId, DeliveryTag, Awaiting)})};
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{?QOS_0, ?QOS_1} ->
amqp_channel:cast(
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Channel, #'basic.ack'{ delivery_tag = DeliveryTag }),
{ok, PState}
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end
end;
amqp_callback(#'basic.ack'{ multiple = true, delivery_tag = Tag } = Ack,
PState = #proc_state{ unacked_pubs = UnackedPubs }) ->
case gb_trees:size(UnackedPubs) > 0 andalso
gb_trees:take_smallest(UnackedPubs) of
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{TagSmall, MsgId, UnackedPubs1} when TagSmall =< Tag ->
send_client(
#mqtt_frame{ fixed = #mqtt_frame_fixed{ type = ?PUBACK },
variable = #mqtt_frame_publish{ message_id = MsgId }},
PState),
amqp_callback(Ack, PState #proc_state{ unacked_pubs = UnackedPubs1 });
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_ ->
{ok, PState}
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end;
amqp_callback(#'basic.ack'{ multiple = false, delivery_tag = Tag },
PState = #proc_state{ unacked_pubs = UnackedPubs }) ->
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send_client(
#mqtt_frame{ fixed = #mqtt_frame_fixed{ type = ?PUBACK },
variable = #mqtt_frame_publish{
message_id = gb_trees:get(
Tag, UnackedPubs) }}, PState),
{ok, PState #proc_state{ unacked_pubs = gb_trees:delete(Tag, UnackedPubs) }}.
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delivery_dup({#'basic.deliver'{ redelivered = Redelivered },
#amqp_msg{ props = #'P_basic'{ headers = Headers }}}) ->
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case rabbit_mqtt_util:table_lookup(Headers, <<"x-mqtt-dup">>) of
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undefined -> Redelivered;
{bool, Dup} -> Redelivered orelse Dup
end.
next_msg_id(PState = #proc_state{ message_id = 16#ffff }) ->
PState #proc_state{ message_id = 1 };
next_msg_id(PState = #proc_state{ message_id = MsgId }) ->
PState #proc_state{ message_id = MsgId + 1 }.
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%% decide at which qos level to deliver based on subscription
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%% and the message publish qos level. non-MQTT publishes are
%% assumed to be qos 1, regardless of delivery_mode.
delivery_qos(Tag, _Headers, #proc_state{ consumer_tags = {Tag, _} }) ->
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{?QOS_0, ?QOS_0};
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delivery_qos(Tag, Headers, #proc_state{ consumer_tags = {_, Tag} }) ->
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case rabbit_mqtt_util:table_lookup(Headers, <<"x-mqtt-publish-qos">>) of
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{byte, Qos} -> {lists:min([Qos, ?QOS_1]), ?QOS_1};
undefined -> {?QOS_1, ?QOS_1}
end.
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maybe_clean_sess(PState = #proc_state { clean_sess = false }) ->
{_Queue, PState1} = ensure_queue(?QOS_1, PState),
PState1;
maybe_clean_sess(PState = #proc_state { clean_sess = true,
connection = Conn,
client_id = ClientId }) ->
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{_, Queue} = rabbit_mqtt_util:subcription_queue_name(ClientId),
{ok, Channel} = amqp_connection:open_channel(Conn),
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try amqp_channel:call(Channel, #'queue.delete'{ queue = Queue }) of
#'queue.delete_ok'{} -> ok = amqp_channel:close(Channel)
catch
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exit:_Error -> ok
end,
PState.
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%%----------------------------------------------------------------------------
make_will_msg(#mqtt_frame_connect{ will_flag = false }) ->
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undefined;
make_will_msg(#mqtt_frame_connect{ will_retain = Retain,
will_qos = Qos,
will_topic = Topic,
will_msg = Msg }) ->
#mqtt_msg{ retain = Retain,
qos = Qos,
topic = Topic,
dup = false,
payload = Msg }.
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process_login(UserBin, PassBin, ProtoVersion,
#proc_state{ channels = {undefined, undefined},
socket = Sock }) ->
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{VHost, UsernameBin} = get_vhost_username(UserBin),
case amqp_connection:start(#amqp_params_direct{
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username = UsernameBin,
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password = PassBin,
virtual_host = VHost,
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adapter_info = adapter_info(Sock, ProtoVersion)}) of
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{ok, Connection} ->
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case rabbit_access_control:check_user_loopback(UsernameBin, Sock) of
ok -> {?CONNACK_ACCEPT, Connection};
not_allowed -> amqp_connection:close(Connection),
rabbit_log:warning(
"MQTT login failed for ~p access_refused "
"(access must be from localhost)~n",
[binary_to_list(UsernameBin)]),
?CONNACK_AUTH
end;
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{error, {auth_failure, Explanation}} ->
rabbit_log:error("MQTT login failed for ~p auth_failure: ~s~n",
[binary_to_list(UserBin), Explanation]),
?CONNACK_CREDENTIALS;
{error, access_refused} ->
rabbit_log:warning("MQTT login failed for ~p access_refused "
"(vhost access not allowed)~n",
[binary_to_list(UserBin)]),
?CONNACK_AUTH
end.
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get_vhost_username(UserBin) ->
%% split at the last colon, disallowing colons in username
case re:split(UserBin, ":(?!.*?:)") of
[Vhost, UserName] -> {Vhost, UserName};
[UserBin] -> {rabbit_mqtt_util:env(vhost), UserBin}
end.
creds(User, Pass) ->
DefaultUser = rabbit_mqtt_util:env(default_user),
DefaultPass = rabbit_mqtt_util:env(default_pass),
Anon = rabbit_mqtt_util:env(allow_anonymous),
U = case {User =/= undefined, is_binary(DefaultUser), Anon =:= true} of
{true, _, _ } -> list_to_binary(User);
{false, true, true} -> DefaultUser;
_ -> nocreds
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end,
case U of
nocreds ->
nocreds;
_ ->
case {Pass =/= undefined, is_binary(DefaultPass), Anon =:= true} of
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{true, _, _ } -> {U, list_to_binary(Pass)};
{false, true, true} -> {U, DefaultPass};
_ -> {U, none}
end
end.
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supported_subs_qos(?QOS_0) -> ?QOS_0;
supported_subs_qos(?QOS_1) -> ?QOS_1;
supported_subs_qos(?QOS_2) -> ?QOS_1.
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delivery_mode(?QOS_0) -> 1;
delivery_mode(?QOS_1) -> 2.
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%% different qos subscriptions are received in different queues
%% with appropriate durability and timeout arguments
%% this will lead to duplicate messages for overlapping subscriptions
%% with different qos values - todo: prevent duplicates
ensure_queue(Qos, #proc_state{ channels = {Channel, _},
client_id = ClientId,
clean_sess = CleanSess,
consumer_tags = {TagQ0, TagQ1} = Tags} = PState) ->
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{QueueQ0, QueueQ1} = rabbit_mqtt_util:subcription_queue_name(ClientId),
Qos1Args = case {rabbit_mqtt_util:env(subscription_ttl), CleanSess} of
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{undefined, _} ->
[];
{Ms, false} when is_integer(Ms) ->
[{<<"x-expires">>, long, Ms}];
_ ->
[]
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end,
QueueSetup =
case {TagQ0, TagQ1, Qos} of
{undefined, _, ?QOS_0} ->
{QueueQ0,
#'queue.declare'{ queue = QueueQ0,
durable = false,
auto_delete = true },
#'basic.consume'{ queue = QueueQ0,
no_ack = true }};
{_, undefined, ?QOS_1} ->
{QueueQ1,
#'queue.declare'{ queue = QueueQ1,
durable = true,
auto_delete = CleanSess,
arguments = Qos1Args },
#'basic.consume'{ queue = QueueQ1,
no_ack = false }};
{_, _, ?QOS_0} ->
{exists, QueueQ0};
{_, _, ?QOS_1} ->
{exists, QueueQ1}
end,
case QueueSetup of
{Queue, Declare, Consume} ->
#'queue.declare_ok'{} = amqp_channel:call(Channel, Declare),
#'basic.consume_ok'{ consumer_tag = Tag } =
amqp_channel:call(Channel, Consume),
{Queue, PState #proc_state{ consumer_tags = setelement(Qos+1, Tags, Tag) }};
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{exists, Q} ->
{Q, PState}
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end.
send_will(PState = #proc_state{ will_msg = WillMsg }) ->
amqp_pub(WillMsg, PState).
amqp_pub(undefined, PState) ->
PState;
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%% set up a qos1 publishing channel if necessary
%% this channel will only be used for publishing, not consuming
amqp_pub(Msg = #mqtt_msg{ qos = ?QOS_1 },
PState = #proc_state{ channels = {ChQos0, undefined},
awaiting_seqno = undefined,
connection = Conn }) ->
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{ok, Channel} = amqp_connection:open_channel(Conn),
#'confirm.select_ok'{} = amqp_channel:call(Channel, #'confirm.select'{}),
amqp_channel:register_confirm_handler(Channel, self()),
amqp_pub(Msg, PState #proc_state{ channels = {ChQos0, Channel},
awaiting_seqno = 1 });
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amqp_pub(#mqtt_msg{ qos = Qos,
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topic = Topic,
dup = Dup,
message_id = MessageId,
payload = Payload },
PState = #proc_state{ channels = {ChQos0, ChQos1},
exchange = Exchange,
unacked_pubs = UnackedPubs,
awaiting_seqno = SeqNo }) ->
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Method = #'basic.publish'{ exchange = Exchange,
routing_key =
rabbit_mqtt_util:mqtt2amqp(Topic)},
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Headers = [{<<"x-mqtt-publish-qos">>, byte, Qos},
{<<"x-mqtt-dup">>, bool, Dup}],
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Msg = #amqp_msg{ props = #'P_basic'{ headers = Headers,
delivery_mode = delivery_mode(Qos)},
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payload = Payload },
{UnackedPubs1, Ch, SeqNo1} =
case Qos =:= ?QOS_1 andalso MessageId =/= undefined of
true -> {gb_trees:enter(SeqNo, MessageId, UnackedPubs), ChQos1,
SeqNo + 1};
false -> {UnackedPubs, ChQos0, SeqNo}
end,
amqp_channel:cast_flow(Ch, Method, Msg),
PState #proc_state{ unacked_pubs = UnackedPubs1,
awaiting_seqno = SeqNo1 }.
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adapter_info(Sock, ProtoVer) ->
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amqp_connection:socket_adapter_info(
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Sock, {'MQTT', integer_to_list(ProtoVer)}).
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send_client(Frame, #proc_state{ socket = Sock }) ->
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%rabbit_log:info("MQTT sending frame ~p ~n", [Frame]),
rabbit_net:port_command(Sock, rabbit_mqtt_frame:serialise(Frame)).
close_connection(PState = #proc_state{ connection = undefined }) ->
PState;
close_connection(PState = #proc_state{ connection = Connection,
client_id = ClientId }) ->
% todo: maybe clean session
case ClientId of
undefined -> ok;
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_ -> ok = rabbit_mqtt_collector:unregister(ClientId, self())
end,
%% ignore noproc or other exceptions to avoid debris
catch amqp_connection:close(Connection),
PState #proc_state{ channels = {undefined, undefined},
connection = undefined }.