--- MQTT client module
-- @module mqtt.client
-- @alias client
local client = {}
-- TODO: list event names
-------
-- load required stuff
local type = type
local error = error
local select = select
local require = require
local tostring = tostring
local os = require("os")
local os_time = os.time
local string = require("string")
local str_format = string.format
local str_gsub = string.gsub
local str_match = string.match
local table = require("table")
local table_remove = table.remove
local coroutine = require("coroutine")
local coroutine_create = coroutine.create
local coroutine_resume = coroutine.resume
local coroutine_yield = coroutine.yield
local math = require("math")
local math_random = math.random
local luamqtt_VERSION
local protocol = require("mqtt.protocol")
local packet_type = protocol.packet_type
local check_qos = protocol.check_qos
local next_packet_id = protocol.next_packet_id
local packet_id_required = protocol.packet_id_required
local protocol4 = require("mqtt.protocol4")
local make_packet4 = protocol4.make_packet
local parse_packet4 = protocol4.parse_packet
local protocol5 = require("mqtt.protocol5")
local make_packet5 = protocol5.make_packet
local parse_packet5 = protocol5.parse_packet
local ioloop = require("mqtt.ioloop")
local ioloop_get = ioloop.get
-------
--- MQTT client instance metatable
-- @type client_mt
local client_mt = {}
client_mt.__index = client_mt
--- Create and initialize MQTT client instance
-- @tparam table args MQTT client creation arguments table
-- @tparam string args.uri MQTT broker uri to connect.
-- Expecting "host:port" or "host" format, in second case the port will be selected automatically:
-- 1883 port for plain or 8883 for secure network connections
-- @tparam string args.clean clean session start flag
-- @tparam[opt=4] number args.version MQTT protocol version to use, either 4 (for MQTT v3.1.1) or 5 (for MQTT v5.0).
-- Also you may use special values mqtt.v311 or mqtt.v50 for this field.
-- @tparam[opt] string args.id MQTT client ID, will be generated by luamqtt library if absent
-- @tparam[opt] string args.username username for authorization on MQTT broker
-- @tparam[opt] string args.password password for authorization on MQTT broker; not acceptable in absence of username
-- @tparam[opt=false] boolean,table args.secure use secure network connection, provided by luasec lua module;
-- set to true to select default params: { mode="client", protocol="tlsv1_2", verify="none", options="all" }
-- or set to luasec-compatible table, for example with cafile="...", certificate="...", key="..."
-- @tparam[opt] table args.will will message table with required fields { topic="...", payload="..." }
-- and optional fields { qos=1...3, retain=true/false }
-- @tparam[opt=60] number args.keep_alive time interval for client to send PINGREQ packets to the server when network connection is inactive
-- @tparam[opt=false] boolean args.reconnect force created MQTT client to reconnect on connection close.
-- Set to number value to provide reconnect timeout in seconds
-- It's not recommended to use values < 3
-- @tparam[opt] table args.connector connector table to open and send/receive packets over network connection.
-- default is require("mqtt.luasocket"), or require("mqtt.luasocket_ssl") if secure argument is set
-- @tparam[opt="ssl"] string args.ssl_module module name for the luasec-compatible ssl module, default is "ssl"
-- may be used in some non-standard lua environments with own luasec-compatible ssl module
-- @treturn client_mt MQTT client instance table
function client_mt:__init(args)
if not luamqtt_VERSION then
luamqtt_VERSION = require("mqtt")._VERSION
end
-- fetch and validate client args
local a = {} -- own client copy of args
for key, value in pairs(args) do
if type(key) ~= "string" then
error("expecting string key in args, got: "..type(key))
end
local value_type = type(value)
if key == "uri" then
assert(value_type == "string", "expecting uri to be a string")
a.uri = value
elseif key == "clean" then
assert(value_type == "boolean", "expecting clean to be a boolean")
a.clean = value
elseif key == "version" then
assert(value_type == "number", "expecting version to be a number")
assert(value == 4 or value == 5, "expecting version to be a value either 4 or 5")
a.version = value
elseif key == "id" then
assert(value_type == "string", "expecting id to be a string")
a.id = value
elseif key == "username" then
assert(value_type == "string", "expecting username to be a string")
a.username = value
elseif key == "password" then
assert(value_type == "string", "expecting password to be a string")
a.password = value
elseif key == "secure" then
assert(value_type == "boolean" or value_type == "table", "expecting secure to be a boolean or table")
a.secure = value
elseif key == "will" then
assert(value_type == "table", "expecting will to be a table")
a.will = value
elseif key == "keep_alive" then
assert(value_type == "number", "expecting keep_alive to be a number")
a.keep_alive = value
elseif key == "properties" then
assert(value_type == "table", "expecting properties to be a table")
a.properties = value
elseif key == "user_properties" then
assert(value_type == "table", "expecting user_properties to be a table")
a.user_properties = value
elseif key == "reconnect" then
assert(value_type == "boolean" or value_type == "number", "expecting reconnect to be a boolean or number")
a.reconnect = value
elseif key == "connector" then
a.connector = value
elseif key == "ssl_module" then
assert(value_type == "string", "expecting ssl_module to be a string")
a.ssl_module = value
else
error("unexpected key in client args: "..key.." = "..tostring(value))
end
end
-- check required arguments
assert(a.uri, 'expecting uri="..." to create MQTT client')
assert(a.clean ~= nil, "expecting clean=true or clean=false to create MQTT client")
assert(not a.password or a.username, "password is not accepted in absence of username")
if not a.id then
-- generate random client id
a.id = str_format("luamqtt-v%s-%07x", str_gsub(luamqtt_VERSION, "[^%d]", "-"), math_random(1, 0xFFFFFFF))
end
-- default connector
if a.connector == nil then
if a.secure then
a.connector = require("mqtt.luasocket_ssl")
else
a.connector = require("mqtt.luasocket")
end
end
-- validate connector content
assert(type(a.connector) == "table", "expecting connector to be a table")
assert(type(a.connector.connect) == "function", "expecting connector.connect to be a function")
assert(type(a.connector.shutdown) == "function", "expecting connector.shutdown to be a function")
assert(type(a.connector.send) == "function", "expecting connector.send to be a function")
assert(type(a.connector.receive) == "function", "expecting connector.receive to be a function")
-- will table content check
if a.will then
assert(type(a.will.topic) == "string", "expecting will.topic to be a string")
assert(type(a.will.payload) == "string", "expecting will.payload to be a string")
if a.will.qos ~= nil then
assert(type(a.will.qos) == "number", "expecting will.qos to be a number")
assert(check_qos(a.will.qos), "expecting will.qos to be a valid QoS value")
end
if a.will.retain ~= nil then
assert(type(a.will.retain) == "boolean", "expecting will.retain to be a boolean")
end
end
-- default keep_alive
if not a.keep_alive then
a.keep_alive = 60
end
-- client args
self.args = a
-- event handlers
self.handlers = {
connect = {},
subscribe = {},
unsubscribe = {},
message = {},
acknowledge = {},
error = {},
close = {},
auth = {},
}
self._handling = {}
self._to_remove_handlers = {}
-- state
self.first_connect = true -- contains true to perform one network connection attemt after client creation
self.send_time = 0 -- time of the last network send from client side
-- packet creation/parse functions according version
if not a.version then
a.version = 4
end
if a.version == 4 then
self._make_packet = make_packet4
self._parse_packet = parse_packet4
elseif a.version == 5 then
self._make_packet = make_packet5
self._parse_packet = parse_packet5
end
-- automatically add client to default ioloop, if it's available and running, then start connecting
local loop = ioloop_get(false)
if loop and loop.running then
loop:add(self)
self:start_connecting()
end
end
--- Add functions as handlers of given events
-- @param ... (event_name, function) or { event1 = func1, event2 = func2 } table
function client_mt:on(...)
local nargs = select("#", ...)
local events
if nargs == 2 then
events = { [select(1, ...)] = select(2, ...) }
elseif nargs == 1 then
events = select(1, ...)
else
error("invalid args: expected only one or two arguments")
end
for event, func in pairs(events) do
assert(type(event) == "string", "expecting event to be a string")
assert(type(func) == "function", "expecting func to be a function")
local handlers = self.handlers[event]
if not handlers then
error("invalid event '"..tostring(event).."' to handle")
end
handlers[#handlers + 1] = func
end
end
-- Remove one item from the list-table with full-iteration
local function remove_item(list, item)
for i, test in ipairs(list) do
if test == item then
table_remove(list, i)
return
end
end
end
--- Remove given function handler for specified event
-- @tparam string event event name to remove handler
-- @tparam function func handler function to remove
function client_mt:off(event, func)
local handlers = self.handlers[event]
if not handlers then
error("invalid event '"..tostring(event).."' to handle")
end
if self._handling[event] then
-- this event is handling now, schedule the function removing to the moment after all handlers will be called for the event
local to_remove = self._to_remove_handlers[event] or {}
to_remove[#to_remove + 1] = func
self._to_remove_handlers[event] = to_remove
else
-- it's ok to remove given function just now
remove_item(handlers, func)
end
return true
end
--- Subscribe to specified topic. Returns the SUBSCRIBE packet id and calls optional callback when subscription will be created on broker
-- @tparam table args subscription arguments
-- @tparam string args.topic topic to subscribe
-- @tparam[opt=0] number args.qos QoS level for subscription
-- @tparam boolean args.no_local for MQTT v5.0 only: no_local flag for subscription
-- @tparam boolean args.retain_as_published for MQTT v5.0 only: retain_as_published flag for subscription
-- @tparam boolean args.retain_handling for MQTT v5.0 only: retain_handling flag for subscription
-- @tparam[opt] table args.properties for MQTT v5.0 only: properties for subscribe operation
-- @tparam[opt] table args.user_properties for MQTT v5.0 only: user properties for subscribe operation
-- @tparam[opt] function args.callback callback function to be called when subscription will be created
-- @return packet id on success or false and error message on failure
function client_mt:subscribe(args)
-- fetch and validate args
assert(type(args) == "table", "expecting args to be a table")
assert(type(args.topic) == "string", "expecting args.topic to be a string")
assert(args.qos == nil or (type(args.qos) == "number" and check_qos(args.qos)), "expecting valid args.qos value")
assert(args.no_local == nil or type(args.no_local) == "boolean", "expecting args.no_local to be a boolean")
assert(args.retain_as_published == nil or type(args.retain_as_published) == "boolean", "expecting args.retain_as_published to be a boolean")
assert(args.retain_handling == nil or type(args.retain_handling) == "boolean", "expecting args.retain_handling to be a boolean")
assert(args.properties == nil or type(args.properties) == "table", "expecting args.properties to be a table")
assert(args.user_properties == nil or type(args.user_properties) == "table", "expecting args.user_properties to be a table")
assert(args.callback == nil or type(args.callback) == "function", "expecting args.callback to be a function")
-- check connection is alive
if not self.connection then
return false, "network connection is not opened"
end
-- create SUBSCRIBE packet
local pargs = {
type = packet_type.SUBSCRIBE,
subscriptions = {
{
topic = args.topic,
qos = args.qos,
no_local = args.no_local,
retain_as_published = args.retain_as_published,
retain_handling = args.retain_handling
},
},
properties = args.properties,
user_properties = args.user_properties,
}
self:_assign_packet_id(pargs)
local packet_id = pargs.packet_id
local subscribe = self._make_packet(pargs)
-- send SUBSCRIBE packet
local ok, err = self:_send_packet(subscribe)
if not ok then
err = "failed to send SUBSCRIBE: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
-- add subscribe callback
local callback = args.callback
if callback then
local function handler(suback, ...)
if suback.packet_id == packet_id then
self:off("subscribe", handler)
callback(suback, ...)
end
end
self:on("subscribe", handler)
end
-- returns assigned packet id
return packet_id
end
--- Unsubscribe from specified topic, and calls optional callback when subscription will be removed on broker
-- @tparam table args subscription arguments
-- @tparam string args.topic topic to unsubscribe
-- @tparam[opt] table args.properties properties for unsubscribe operation
-- @tparam[opt] table args.user_properties user properties for unsubscribe operation
-- @tparam[opt] function args.callback callback function to be called when subscription will be removed on broker
-- @return packet id on success or false and error message on failure
function client_mt:unsubscribe(args)
-- fetch and validate args
assert(type(args) == "table", "expecting args to be a table")
assert(type(args.topic) == "string", "expecting args.topic to be a string")
assert(args.properties == nil or type(args.properties) == "table", "expecting args.properties to be a table")
assert(args.user_properties == nil or type(args.user_properties) == "table", "expecting args.user_properties to be a table")
assert(args.callback == nil or type(args.callback) == "function", "expecting args.callback to be a function")
-- check connection is alive
if not self.connection then
return false, "network connection is not opened"
end
-- create UNSUBSCRIBE packet
local pargs = {
type = packet_type.UNSUBSCRIBE,
subscriptions = {args.topic},
properties = args.properties,
user_properties = args.user_properties,
}
self:_assign_packet_id(pargs)
local packet_id = pargs.packet_id
local unsubscribe = self._make_packet(pargs)
-- send UNSUBSCRIBE packet
local ok, err = self:_send_packet(unsubscribe)
if not ok then
err = "failed to send UNSUBSCRIBE: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
-- add unsubscribe callback
local callback = args.callback
if callback then
local function handler(unsuback, ...)
if unsuback.packet_id == packet_id then
self:off("unsubscribe", handler)
callback(unsuback, ...)
end
end
self:on("unsubscribe", handler)
end
-- returns assigned packet id
return packet_id
end
--- Publish message to broker
-- @tparam table args publish operation arguments table
-- @tparam string args.topic topic to publish message
-- @tparam[opt] string args.payload publish message payload
-- @tparam[opt=0] number args.qos QoS level for message publication
-- @tparam[opt=false] boolean args.retain retain message publication flag
-- @tparam[opt=false] boolean args.dup dup message publication flag
-- @tparam[opt] table args.properties properties for publishing message
-- @tparam[opt] table args.user_properties user properties for publishing message
-- @tparam[opt] function args.callback callback to call when publihsed message will be acknowledged
-- @return true or packet id on success or false and error message on failure
function client_mt:publish(args)
-- fetch and validate args
assert(type(args) == "table", "expecting args to be a table")
assert(type(args.topic) == "string", "expecting args.topic to be a string")
assert(args.payload == nil or type(args.payload) == "string", "expecting args.payload to be a string")
assert(args.qos == nil or type(args.qos) == "number", "expecting args.qos to be a number")
if args.qos then
assert(check_qos(args.qos), "expecting qos to be a valid QoS value")
end
assert(args.retain == nil or type(args.retain) == "boolean", "expecting args.retain to be a boolean")
assert(args.dup == nil or type(args.dup) == "boolean", "expecting args.dup to be a boolean")
assert(args.properties == nil or type(args.properties) == "table", "expecting args.properties to be a table")
assert(args.user_properties == nil or type(args.user_properties) == "table", "expecting args.user_properties to be a table")
assert(args.callback == nil or type(args.callback) == "function", "expecting args.callback to be a function")
-- check connection is alive
local conn = self.connection
if not conn then
return false, "network connection is not opened"
end
-- create PUBLISH packet
args.type = packet_type.PUBLISH
self:_assign_packet_id(args)
local packet_id = args.packet_id
local publish = self._make_packet(args)
-- send PUBLISH packet
local ok, err = self:_send_packet(publish)
if not ok then
err = "failed to send PUBLISH: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
-- record packet id as waited for QoS 2 exchange
if args.qos == 2 then
conn.wait_for_pubrec[packet_id] = true
end
-- add acknowledge callback
local callback = args.callback
if callback then
if packet_id then
local function handler(ack, ...)
if ack.packet_id == packet_id then
self:off("acknowledge", handler)
callback(ack, ...)
end
end
self:on("acknowledge", handler)
else
callback("no ack for QoS 0 message", self)
end
end
-- returns assigned packet id
return packet_id or true
end
--- Acknowledge given received message
-- @tparam packet_mt msg PUBLISH message to acknowledge
-- @tparam[opt=0] number rc The reason code field of PUBACK packet in MQTT v5.0 protocol
-- @tparam[opt] table properties properties for PUBACK/PUBREC packets
-- @tparam[opt] table user_properties user properties for PUBACK/PUBREC packets
-- @return true on success or false and error message on failure
function client_mt:acknowledge(msg, rc, properties, user_properties)
assert(type(msg) == "table" and msg.type == packet_type.PUBLISH, "expecting msg to be a publish packet")
assert(rc == nil or type(rc) == "number", "expecting rc to be a number")
assert(properties == nil or type(properties) == "table", "expecting properties to be a table")
assert(user_properties == nil or type(user_properties) == "table", "expecting user_properties to be a table")
-- check connection is alive
local conn = self.connection
if not conn then
return false, "network connection is not opened"
end
-- check packet needs to be acknowledged
local packet_id = msg.packet_id
if not packet_id then
return true
end
if msg.qos == 1 then
-- PUBACK should be sent
-- create PUBACK packet
local puback = self._make_packet{
type = packet_type.PUBACK,
packet_id = packet_id,
rc = rc or 0,
properties = properties,
user_properties = user_properties,
}
-- send PUBACK packet
local ok, err = self:_send_packet(puback)
if not ok then
err = "failed to send PUBACK: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
elseif msg.qos == 2 then
-- PUBREC should be sent and packet_id should be remembered for PUBREL+PUBCOMP sequence
-- create PUBREC packet
local pubrec = self._make_packet{
type = packet_type.PUBREC,
packet_id = packet_id,
rc = rc or 0,
properties = properties,
user_properties = user_properties,
}
-- send PUBREC packet
local ok, err = self:_send_packet(pubrec)
if not ok then
err = "failed to send PUBREC: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
-- store packet id as waiting for PUBREL
conn.wait_for_pubrel[packet_id] = true
end
return true
end
--- Send DISCONNECT packet to the broker and close the connection
-- @tparam[opt=0] number rc The Disconnect Reason Code value from MQTT v5.0 protocol
-- @tparam[opt] table properties properties for PUBACK/PUBREC packets
-- @tparam[opt] table user_properties user properties for PUBACK/PUBREC packets
-- @return true on success or false and error message on failure
function client_mt:disconnect(rc, properties, user_properties)
-- validate args
assert(rc == nil or type(rc) == "number", "expecting rc to be a number")
assert(properties == nil or type(properties) == "table", "expecting properties to be a table")
assert(user_properties == nil or type(user_properties) == "table", "expecting user_properties to be a table")
-- check connection is alive
if not self.connection then
return false, "network connection is not opened"
end
-- create DISCONNECT packet
local disconnect = self._make_packet{
type = packet_type.DISCONNECT,
rc = rc or 0,
properties = properties,
user_properties = user_properties,
}
-- send DISCONNECT packet
local ok, err = self:_send_packet(disconnect)
if not ok then
err = "failed to send DISCONNECT: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
-- now close connection
self:close_connection("connection closed by client")
return true
end
--- Send AUTH packet to authenticate client on broker, in MQTT v5.0 protocol
-- @tparam[opt=0] number rc Authenticate Reason Code
-- @tparam[opt] table properties properties for PUBACK/PUBREC packets
-- @tparam[opt] table user_properties user properties for PUBACK/PUBREC packets
-- @return true on success or false and error message on failure
function client_mt:auth(rc, properties, user_properties)
-- validate args
assert(rc == nil or type(rc) == "number", "expecting rc to be a number")
assert(properties == nil or type(properties) == "table", "expecting properties to be a table")
assert(user_properties == nil or type(user_properties) == "table", "expecting user_properties to be a table")
assert(self.args.version == 5, "allowed only in MQTT v5.0 protocol")
-- check connection is alive
if not self.connection then
return false, "network connection is not opened"
end
-- create AUTH packet
local auth = self._make_packet{
type = packet_type.AUTH,
rc = rc or 0,
properties = properties,
user_properties = user_properties,
}
-- send AUTH packet
local ok, err = self:_send_packet(auth)
if not ok then
err = "failed to send AUTH: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
return true
end
--- Immediately close established network connection, without graceful session finishing with DISCONNECT packet
-- @tparam[opt] string reason the reasong string of connection close
function client_mt:close_connection(reason)
assert(not reason or type(reason) == "string", "expecting reason to be a string")
local conn = self.connection
if not conn then
return true
end
local args = self.args
args.connector.shutdown(conn)
self.connection = nil
conn.close_reason = reason or "unspecified"
self:handle("close", conn, self)
-- check connection is still closed (self.connection may be re-created in "close" handler)
if not self.connection then
-- remove from ioloop
if self.ioloop and not args.reconnect then
self.ioloop:remove(self)
end
end
return true
end
--- Start connecting to broker
-- @return true on success or false and error message on failure
function client_mt:start_connecting()
-- print("start connecting") -- debug
-- open network connection
local ok, err = self:open_connection()
if not ok then
return false, err
end
-- send CONNECT packet
ok, err = self:send_connect()
if not ok then
return false, err
end
return true
end
--- Low-level methods
-- @section low-level
--- Send PINGREQ packet
-- @return true on success or false and error message on failure
function client_mt:send_pingreq()
-- check connection is alive
if not self.connection then
return false, "network connection is not opened"
end
-- create PINGREQ packet
local pingreq = self._make_packet{
type = packet_type.PINGREQ,
}
-- send PINGREQ packet
local ok, err = self:_send_packet(pingreq)
if not ok then
err = "failed to send PINGREQ: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
return true
end
--- Open network connection to the broker
-- @return true on success or false and error message on failure
function client_mt:open_connection()
if self.connection then
return true
end
local args = self.args
local connector = assert(args.connector, "no connector configured in MQTT client")
-- create connection table
local conn = {
uri = args.uri,
wait_for_pubrec = {}, -- a table with packet_id of parially acknowledged sent packets in QoS 2 exchange process
wait_for_pubrel = {}, -- a table with packet_id of parially acknowledged received packets in QoS 2 exchange process
}
client_mt._parse_uri(args, conn)
client_mt._apply_secure(args, conn)
-- perform connect
local ok, err = connector.connect(conn)
if not ok then
err = "failed to open network connection: "..err
self:handle("error", err, self)
return false, err
end
-- assign connection
self.connection = conn
-- create receive function
local receive = connector.receive
self.connection.recv_func = function(size)
return receive(conn, size)
end
self:_apply_network_timeout()
return true
end
--- Send CONNECT packet into opened network connection
-- @return true on success or false and error message on failure
function client_mt:send_connect()
-- check connection is alive
if not self.connection then
return false, "network connection is not opened"
end
local args = self.args
-- create CONNECT packet
local connect = self._make_packet{
type = packet_type.CONNECT,
id = args.id,
clean = args.clean,
username = args.username,
password = args.password,
will = args.will,
keep_alive = args.keep_alive,
properties = args.properties,
user_properties = args.user_properties,
}
-- send CONNECT packet
local ok, err = self:_send_packet(connect)
if not ok then
err = "failed to send CONNECT: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
-- reset last packet id
self._last_packet_id = nil
return true
end
-- Internal methods
-- Set or rest ioloop for MQTT client
function client_mt:set_ioloop(loop)
self.ioloop = loop
self:_apply_network_timeout()
end
-- Send PUBREL acknowledge packet - second phase of QoS 2 exchange
-- Returns true on success or false and error message on failure
function client_mt:acknowledge_pubrel(packet_id)
-- check connection is alive
if not self.connection then
return false, "network connection is not opened"
end
-- create PUBREL packet
local pubrel = self._make_packet{type=packet_type.PUBREL, packet_id=packet_id, rc=0}
-- send PUBREL packet
local ok, err = self:_send_packet(pubrel)
if not ok then
err = "failed to send PUBREL: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
return true
end
-- Send PUBCOMP acknowledge packet - last phase of QoS 2 exchange
-- Returns true on success or false and error message on failure
function client_mt:acknowledge_pubcomp(packet_id)
-- check connection is alive
if not self.connection then
return false, "network connection is not opened"
end
-- create PUBCOMP packet
local pubcomp = self._make_packet{type=packet_type.PUBCOMP, packet_id=packet_id, rc=0}
-- send PUBCOMP packet
local ok, err = self:_send_packet(pubcomp)
if not ok then
err = "failed to send PUBCOMP: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
return true
end
-- Call specified event handlers
function client_mt:handle(event, ...)
local handlers = self.handlers[event]
if not handlers then
error("invalid event '"..tostring(event).."' to handle")
end
self._handling[event] = true -- protecting self.handlers[event] table from modifications by client_mt:off() when iterating
for _, handler in ipairs(handlers) do
handler(...)
end
self._handling[event] = nil
-- process handlers removing, scheduled by client_mt:off()
local to_remove = self._to_remove_handlers[event]
if to_remove then
for _, func in ipairs(to_remove) do
remove_item(handlers, func)
end
self._to_remove_handlers[event] = nil
end
end
-- Internal methods
-- Assign next packet id for given packet creation args
function client_mt:_assign_packet_id(pargs)
if not pargs.packet_id then
if packet_id_required(pargs) then
self._last_packet_id = next_packet_id(self._last_packet_id)
pargs.packet_id = self._last_packet_id
end
end
end
-- Receive packet function in sync mode
local function sync_recv(self)
return true, self:_receive_packet()
end
-- Perform one input/output iteration, called by sync receiving loop
function client_mt:_sync_iteration()
return self:_io_iteration(sync_recv)
end
-- Receive packet function - from ioloop's coroutine
local function ioloop_recv(self)
return coroutine_resume(self.connection.coro)
end
-- Perform one input/output iteration, called by ioloop
function client_mt:_ioloop_iteration()
-- working according state
local loop = self.ioloop
local args = self.args
local conn = self.connection
if conn then
-- network connection opened
-- perform packet receiving using ioloop receive function
local ok, err
if loop then
ok, err = self:_io_iteration(ioloop_recv)
else
ok, err = self:_sync_iteration()
end
if ok then
-- send PINGREQ if keep_alive interval is reached
if os_time() - self.send_time >= args.keep_alive then
self:send_pingreq()
end
end
return ok, err
else
-- no connection - first connect, reconnect or remove from ioloop
if self.first_connect then
self.first_connect = false
self:start_connecting()
elseif args.reconnect then
if args.reconnect == true then
self:start_connecting()
else
-- reconnect in specified timeout
if self.reconnect_timer_start then
if os_time() - self.reconnect_timer_start >= args.reconnect then
self.reconnect_timer_start = nil
self:start_connecting()
else
if loop then
loop:can_sleep()
end
end
else
self.reconnect_timer_start = os_time()
end
end
else
-- finish working with client
if loop then
loop:remove(self)
end
end
end
end
-- Performing one IO iteration - receive next packet
function client_mt:_io_iteration(recv)
local conn = self.connection
-- first - try to receive packet
local ok, packet, err = recv(self)
-- print("received packet", ok, packet, err)
-- check coroutine resume status
if not ok then
err = "failed to resume receive packet coroutine: "..tostring(packet)
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
-- check for communication error
if packet == false then
if err == "closed" then
self:close_connection("connection closed by broker")
return false, err
else
err = "failed to receive next packet: "..err
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
end
-- check some packet received
if packet ~= "timeout" and packet ~= "wantread" then
if not conn.connack then
-- expecting only CONNACK packet here
if packet.type ~= packet_type.CONNACK then
err = "expecting CONNACK but received "..packet.type
self:handle("error", err, self)
self:close_connection("error")
return false, err
end
-- store connack packet in connection
conn.connack = packet
-- check CONNACK rc
if packet.rc ~= 0 then
err = str_format("CONNECT failed with CONNACK [rc=%d]: %s", packet.rc, packet:reason_string())
self:handle("error", err, self, packet)
self:handle("connect", packet, self)
self:close_connection("connection failed")
return false, err
end
-- fire connect event
self:handle("connect", packet, self)
else
-- connection authorized, so process usual packets
-- handle packet according its type
local ptype = packet.type
if ptype == packet_type.PINGRESP then -- luacheck: ignore
-- PINGREQ answer, nothing to do
-- TODO: break the connectin in absence of this packet in some timeout
elseif ptype == packet_type.SUBACK then
self:handle("subscribe", packet, self)
elseif ptype == packet_type.UNSUBACK then
self:handle("unsubscribe", packet, self)
elseif ptype == packet_type.PUBLISH then
-- check such packet is not waiting for pubrel acknowledge
self:handle("message", packet, self)
elseif ptype == packet_type.PUBACK then
self:handle("acknowledge", packet, self)
elseif ptype == packet_type.PUBREC then
local packet_id = packet.packet_id
if conn.wait_for_pubrec[packet_id] then
conn.wait_for_pubrec[packet_id] = nil
-- send PUBREL acknowledge
if self:acknowledge_pubrel(packet_id) then
-- and fire acknowledge event
self:handle("acknowledge", packet, self)
end
end
elseif ptype == packet_type.PUBREL then
-- second phase of QoS 2 exchange - check we are already acknowledged such packet by PUBREL
local packet_id = packet.packet_id
if conn.wait_for_pubrel[packet_id] then
-- remove packet from waiting for PUBREL packets table
conn.wait_for_pubrel[packet_id] = nil
-- send PUBCOMP acknowledge
self:acknowledge_pubcomp(packet_id)
end
elseif ptype == packet_type.PUBCOMP then --luacheck: ignore
-- last phase of QoS 2 exchange
-- do nothing here
elseif ptype == packet_type.DISCONNECT then
self:close_connection("disconnect received from broker")
elseif ptype == packet_type.AUTH then
self:handle("auth", packet, self)
-- else
-- print("unhandled packet:", packet) -- debug
end
end
end
return true
end
-- Apply ioloop network timeout to already established connection (if any)
function client_mt:_apply_network_timeout()
local conn = self.connection
if conn then
local loop = self.ioloop
if loop then
-- apply connection timeout
self.args.connector.settimeout(conn, loop.args.timeout)
-- connection packets receive loop coroutine
conn.coro = coroutine_create(function()
while true do
local packet, err = self:_receive_packet()
if not packet then
return false, err
else
coroutine_yield(packet)
end
end
end)
-- replace connection recv_func with coroutine-based version
local sync_recv_func = conn.recv_func
conn.recv_func = function(totalSize, ...)
while true do
local allData = ""
while true do
local size = math.min(totalSize, 16384)
local data, err = sync_recv_func(size, ...)
if not data and (err == "timeout" or err == "wantread") then
loop.timeouted = true
coroutine_yield(err)
elseif data then
allData = allData .. data
totalSize = totalSize - size
if totalSize == 0 then
return allData, nil
end
else
return nil, err
end
end
end
end
conn.sync_recv_func = sync_recv_func
else
-- disable connection timeout
self.args.connector.settimeout(conn, nil)
-- replace back usual (blocking) connection recv_func
if conn.sync_recv_func then
conn.recv_func = conn.sync_recv_func
conn.sync_recv_func = nil
end
end
end
end
-- Fill given connection table with host and port according given args
function client_mt._parse_uri(args, conn)
local host, port = str_match(args.uri, "^([^%s]+):(%d+)$")
if not host then
-- trying pattern without port
host = assert(str_match(conn.uri, "^([^%s]+)$"), "invalid uri format: expecting at least host/ip in .uri")
end
if not port then
if args.secure then
port = 8883 -- default MQTT secure connection port
else
port = 1883 -- default MQTT connection port
end
else
port = tonumber(port)
end
conn.host, conn.port = host, port
end
-- Creates the conn.secure_params table and its content according client creation args
function client_mt._apply_secure(args, conn)
local secure = args.secure
if secure then
conn.secure = true
if type(secure) == "table" then
conn.secure_params = secure
else
conn.secure_params = {
mode = "client",
protocol = "tlsv1_2",
verify = "none",
options = "all",
}
end
conn.ssl_module = args.ssl_module or "ssl"
end
end
-- Send given packet to opened network connection
function client_mt:_send_packet(packet)
local conn = self.connection
if not conn then
return false, "network connection is not opened"
end
local data = tostring(packet)
local len = data:len()
if len <= 0 then
return false, "sending empty packet"
end
-- and send binary packet to network connection
local i, err = 1
local send = self.args.connector.send
while i < len do
i, err = send(conn, data, i)
if not i then
return false, "connector.send failed: "..err
end
end
self.send_time = os_time()
return true
end
-- Receive one packet from established network connection
function client_mt:_receive_packet()
local conn = self.connection
if not conn then
return false, "network connection is not opened"
end
-- parse packet
local packet, err = self._parse_packet(conn.recv_func)
if not packet then
return false, err
end
return packet
end
-- Represent MQTT client as string
function client_mt:__tostring()
return str_format("mqtt.client{id=%q}", tostring(self.args.id))
end
-- Garbage collection handler
function client_mt:__gc()
-- close network connection if it's available, without sending DISCONNECT packet
if self.connection then
self:close_connection("garbage")
end
end
--- Exported functions
-- @section exported
--- Create, initialize and return new MQTT client instance
-- @param ... see arguments of client_mt:__init(args)
-- @see client_mt:__init
-- @treturn client_mt MQTT client instance
function client.create(...)
local cl = setmetatable({}, client_mt)
cl:__init(...)
return cl
end
-------
-- export module table
return client
-- vim: ts=4 sts=4 sw=4 noet ft=lua