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ruanhaishen
Nodemcu Firmware
Commits
dd6359e7
Commit
dd6359e7
authored
Mar 06, 2016
by
philip
Browse files
Try to make qos~=0 work better
Added send_if_possible to clean up the code
parent
1b3d8d48
Changes
1
Show whitespace changes
Inline
Side-by-side
app/modules/mqtt.c
View file @
dd6359e7
...
@@ -55,7 +55,6 @@ typedef struct mqtt_state_t
...
@@ -55,7 +55,6 @@ typedef struct mqtt_state_t
typedef
struct
lmqtt_userdata
typedef
struct
lmqtt_userdata
{
{
lua_State
*
L
;
struct
espconn
*
pesp_conn
;
struct
espconn
*
pesp_conn
;
int
self_ref
;
int
self_ref
;
int
cb_connect_ref
;
int
cb_connect_ref
;
...
@@ -92,11 +91,13 @@ static void mqtt_socket_disconnected(void *arg) // tcp only
...
@@ -92,11 +91,13 @@ static void mqtt_socket_disconnected(void *arg) // tcp only
os_timer_disarm
(
&
mud
->
mqttTimer
);
os_timer_disarm
(
&
mud
->
mqttTimer
);
lua_State
*
L
=
lua_getstate
();
if
(
mud
->
connected
){
// call back only called when socket is from connection to disconnection.
if
(
mud
->
connected
){
// call back only called when socket is from connection to disconnection.
mud
->
connected
=
false
;
mud
->
connected
=
false
;
if
(
(
mud
->
L
!=
NULL
)
&&
(
mud
->
cb_disconnect_ref
!=
LUA_NOREF
)
&&
(
mud
->
self_ref
!=
LUA_NOREF
))
{
if
((
mud
->
cb_disconnect_ref
!=
LUA_NOREF
)
&&
(
mud
->
self_ref
!=
LUA_NOREF
))
{
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_disconnect_ref
);
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_disconnect_ref
);
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata(client) to callback func in lua
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata(client) to callback func in lua
call_back
=
true
;
call_back
=
true
;
}
}
}
}
...
@@ -121,18 +122,14 @@ static void mqtt_socket_disconnected(void *arg) // tcp only
...
@@ -121,18 +122,14 @@ static void mqtt_socket_disconnected(void *arg) // tcp only
mud
->
pesp_conn
=
NULL
;
mud
->
pesp_conn
=
NULL
;
}
}
if
(
mud
->
L
==
NULL
)
return
;
lua_gc
(
mud
->
L
,
LUA_GCSTOP
,
0
);
if
(
mud
->
self_ref
!=
LUA_NOREF
){
// TODO: should we unref the client and delete it?
if
(
mud
->
self_ref
!=
LUA_NOREF
){
// TODO: should we unref the client and delete it?
luaL_unref
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
luaL_unref
(
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
mud
->
self_ref
=
LUA_NOREF
;
// unref this, and the mqtt.socket userdata will delete it self
mud
->
self_ref
=
LUA_NOREF
;
// unref this, and the mqtt.socket userdata will delete it self
}
}
lua_gc
(
mud
->
L
,
LUA_GCRESTART
,
0
);
}
}
if
(
(
mud
->
L
!=
NULL
)
&&
call_back
){
if
(
call_back
){
lua_call
(
mud
->
L
,
1
,
0
);
lua_call
(
L
,
1
,
0
);
}
}
NODE_DBG
(
"leave mqtt_socket_disconnected.
\n
"
);
NODE_DBG
(
"leave mqtt_socket_disconnected.
\n
"
);
...
@@ -178,25 +175,58 @@ static void deliver_publish(lmqtt_userdata * mud, uint8_t* message, int length)
...
@@ -178,25 +175,58 @@ static void deliver_publish(lmqtt_userdata * mud, uint8_t* message, int length)
return
;
return
;
if
(
mud
->
self_ref
==
LUA_NOREF
)
if
(
mud
->
self_ref
==
LUA_NOREF
)
return
;
return
;
if
(
mud
->
L
==
NULL
)
lua_State
*
L
=
lua_getstate
();
return
;
if
(
event_data
.
topic
&&
(
event_data
.
topic_length
>
0
)){
if
(
event_data
.
topic
&&
(
event_data
.
topic_length
>
0
)){
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_message_ref
);
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_message_ref
);
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata to callback func in lua
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata to callback func in lua
lua_pushlstring
(
mud
->
L
,
event_data
.
topic
,
event_data
.
topic_length
);
lua_pushlstring
(
L
,
event_data
.
topic
,
event_data
.
topic_length
);
}
else
{
}
else
{
NODE_DBG
(
"get wrong packet.
\n
"
);
NODE_DBG
(
"get wrong packet.
\n
"
);
return
;
return
;
}
}
if
(
event_data
.
data
&&
(
event_data
.
data_length
>
0
)){
if
(
event_data
.
data
&&
(
event_data
.
data_length
>
0
)){
lua_pushlstring
(
mud
->
L
,
event_data
.
data
,
event_data
.
data_length
);
lua_pushlstring
(
L
,
event_data
.
data
,
event_data
.
data_length
);
lua_call
(
mud
->
L
,
3
,
0
);
lua_call
(
L
,
3
,
0
);
}
else
{
}
else
{
lua_call
(
mud
->
L
,
2
,
0
);
lua_call
(
L
,
2
,
0
);
}
}
NODE_DBG
(
"leave deliver_publish.
\n
"
);
NODE_DBG
(
"leave deliver_publish.
\n
"
);
}
}
static
sint8
mqtt_send_if_possible
(
struct
espconn
*
pesp_conn
)
{
if
(
pesp_conn
==
NULL
)
return
ESPCONN_OK
;
lmqtt_userdata
*
mud
=
(
lmqtt_userdata
*
)
pesp_conn
->
reverse
;
if
(
mud
==
NULL
)
return
ESPCONN_OK
;
sint8
espconn_status
=
ESPCONN_OK
;
// This indicates if we have sent something and are waiting for something to
// happen
if
(
mud
->
event_timeout
==
0
)
{
msg_queue_t
*
pending_msg
=
msg_peek
(
&
(
mud
->
mqtt_state
.
pending_msg_q
));
if
(
pending_msg
)
{
mud
->
event_timeout
=
MQTT_SEND_TIMEOUT
;
NODE_DBG
(
"Sent: %d
\n
"
,
pending_msg
->
msg
.
length
);
#ifdef CLIENT_SSL_ENABLE
if
(
mud
->
secure
)
{
espconn_status
=
espconn_secure_send
(
pesp_conn
,
pending_msg
->
msg
.
data
,
pending_msg
->
msg
.
length
);
}
else
#endif
{
espconn_status
=
espconn_send
(
pesp_conn
,
pending_msg
->
msg
.
data
,
pending_msg
->
msg
.
length
);
}
mud
->
keep_alive_tick
=
0
;
}
}
NODE_DBG
(
"receive, queue size: %d
\n
"
,
msg_size
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)));
return
espconn_status
;
}
static
void
mqtt_socket_received
(
void
*
arg
,
char
*
pdata
,
unsigned
short
len
)
static
void
mqtt_socket_received
(
void
*
arg
,
char
*
pdata
,
unsigned
short
len
)
{
{
NODE_DBG
(
"enter mqtt_socket_received.
\n
"
);
NODE_DBG
(
"enter mqtt_socket_received.
\n
"
);
...
@@ -204,7 +234,6 @@ static void mqtt_socket_received(void *arg, char *pdata, unsigned short len)
...
@@ -204,7 +234,6 @@ static void mqtt_socket_received(void *arg, char *pdata, unsigned short len)
uint8_t
msg_type
;
uint8_t
msg_type
;
uint8_t
msg_qos
;
uint8_t
msg_qos
;
uint16_t
msg_id
;
uint16_t
msg_id
;
msg_queue_t
*
node
=
NULL
;
int
length
=
(
int
)
len
;
int
length
=
(
int
)
len
;
// uint8_t in_buffer[MQTT_BUF_SIZE];
// uint8_t in_buffer[MQTT_BUF_SIZE];
uint8_t
*
in_buffer
=
(
uint8_t
*
)
pdata
;
uint8_t
*
in_buffer
=
(
uint8_t
*
)
pdata
;
...
@@ -224,6 +253,7 @@ READPACKET:
...
@@ -224,6 +253,7 @@ READPACKET:
uint8_t
temp_buffer
[
MQTT_BUF_SIZE
];
uint8_t
temp_buffer
[
MQTT_BUF_SIZE
];
mqtt_msg_init
(
&
mud
->
mqtt_state
.
mqtt_connection
,
temp_buffer
,
MQTT_BUF_SIZE
);
mqtt_msg_init
(
&
mud
->
mqtt_state
.
mqtt_connection
,
temp_buffer
,
MQTT_BUF_SIZE
);
mqtt_message_t
*
temp_msg
=
NULL
;
mqtt_message_t
*
temp_msg
=
NULL
;
lua_State
*
L
=
lua_getstate
();
switch
(
mud
->
connState
){
switch
(
mud
->
connState
){
case
MQTT_CONNECT_SENDING
:
case
MQTT_CONNECT_SENDING
:
case
MQTT_CONNECT_SENT
:
case
MQTT_CONNECT_SENT
:
...
@@ -247,11 +277,9 @@ READPACKET:
...
@@ -247,11 +277,9 @@ READPACKET:
break
;
break
;
if
(
mud
->
self_ref
==
LUA_NOREF
)
if
(
mud
->
self_ref
==
LUA_NOREF
)
break
;
break
;
if
(
mud
->
L
==
NULL
)
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_connect_ref
);
break
;
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata(client) to callback func in lua
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_connect_ref
);
lua_call
(
L
,
1
,
0
);
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata(client) to callback func in lua
lua_call
(
mud
->
L
,
1
,
0
);
break
;
break
;
}
}
break
;
break
;
...
@@ -280,11 +308,9 @@ READPACKET:
...
@@ -280,11 +308,9 @@ READPACKET:
break
;
break
;
if
(
mud
->
self_ref
==
LUA_NOREF
)
if
(
mud
->
self_ref
==
LUA_NOREF
)
break
;
break
;
if
(
mud
->
L
==
NULL
)
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_suback_ref
);
break
;
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_suback_ref
);
lua_call
(
L
,
1
,
0
);
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
lua_call
(
mud
->
L
,
1
,
0
);
}
}
break
;
break
;
case
MQTT_MSG_TYPE_UNSUBACK
:
case
MQTT_MSG_TYPE_UNSUBACK
:
...
@@ -296,12 +322,12 @@ READPACKET:
...
@@ -296,12 +322,12 @@ READPACKET:
case
MQTT_MSG_TYPE_PUBLISH
:
case
MQTT_MSG_TYPE_PUBLISH
:
if
(
msg_qos
==
1
){
if
(
msg_qos
==
1
){
temp_msg
=
mqtt_msg_puback
(
&
mud
->
mqtt_state
.
mqtt_connection
,
msg_id
);
temp_msg
=
mqtt_msg_puback
(
&
mud
->
mqtt_state
.
mqtt_connection
,
msg_id
);
node
=
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_id
,
MQTT_MSG_TYPE_PUBACK
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
msg_id
,
MQTT_MSG_TYPE_PUBACK
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
}
}
else
if
(
msg_qos
==
2
){
else
if
(
msg_qos
==
2
){
temp_msg
=
mqtt_msg_pubrec
(
&
mud
->
mqtt_state
.
mqtt_connection
,
msg_id
);
temp_msg
=
mqtt_msg_pubrec
(
&
mud
->
mqtt_state
.
mqtt_connection
,
msg_id
);
node
=
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_id
,
MQTT_MSG_TYPE_PUBREC
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
msg_id
,
MQTT_MSG_TYPE_PUBREC
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
}
}
if
(
msg_qos
==
1
||
msg_qos
==
2
){
if
(
msg_qos
==
1
||
msg_qos
==
2
){
...
@@ -317,11 +343,9 @@ READPACKET:
...
@@ -317,11 +343,9 @@ READPACKET:
break
;
break
;
if
(
mud
->
self_ref
==
LUA_NOREF
)
if
(
mud
->
self_ref
==
LUA_NOREF
)
break
;
break
;
if
(
mud
->
L
==
NULL
)
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_puback_ref
);
break
;
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata to callback func in lua
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_puback_ref
);
lua_call
(
L
,
1
,
0
);
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata to callback func in lua
lua_call
(
mud
->
L
,
1
,
0
);
}
}
break
;
break
;
...
@@ -331,7 +355,7 @@ READPACKET:
...
@@ -331,7 +355,7 @@ READPACKET:
// Note: actrually, should not destroy the msg until PUBCOMP is received.
// Note: actrually, should not destroy the msg until PUBCOMP is received.
msg_destroy
(
msg_dequeue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)));
msg_destroy
(
msg_dequeue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)));
temp_msg
=
mqtt_msg_pubrel
(
&
mud
->
mqtt_state
.
mqtt_connection
,
msg_id
);
temp_msg
=
mqtt_msg_pubrel
(
&
mud
->
mqtt_state
.
mqtt_connection
,
msg_id
);
node
=
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_id
,
MQTT_MSG_TYPE_PUBREL
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
msg_id
,
MQTT_MSG_TYPE_PUBREL
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
NODE_DBG
(
"MQTT: Response PUBREL
\r\n
"
);
NODE_DBG
(
"MQTT: Response PUBREL
\r\n
"
);
}
}
...
@@ -340,7 +364,7 @@ READPACKET:
...
@@ -340,7 +364,7 @@ READPACKET:
if
(
pending_msg
&&
pending_msg
->
msg_type
==
MQTT_MSG_TYPE_PUBREC
&&
pending_msg
->
msg_id
==
msg_id
){
if
(
pending_msg
&&
pending_msg
->
msg_type
==
MQTT_MSG_TYPE_PUBREC
&&
pending_msg
->
msg_id
==
msg_id
){
msg_destroy
(
msg_dequeue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)));
msg_destroy
(
msg_dequeue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)));
temp_msg
=
mqtt_msg_pubcomp
(
&
mud
->
mqtt_state
.
mqtt_connection
,
msg_id
);
temp_msg
=
mqtt_msg_pubcomp
(
&
mud
->
mqtt_state
.
mqtt_connection
,
msg_id
);
node
=
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_id
,
MQTT_MSG_TYPE_PUBCOMP
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
msg_id
,
MQTT_MSG_TYPE_PUBCOMP
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
NODE_DBG
(
"MQTT: Response PUBCOMP
\r\n
"
);
NODE_DBG
(
"MQTT: Response PUBCOMP
\r\n
"
);
}
}
...
@@ -353,16 +377,14 @@ READPACKET:
...
@@ -353,16 +377,14 @@ READPACKET:
break
;
break
;
if
(
mud
->
self_ref
==
LUA_NOREF
)
if
(
mud
->
self_ref
==
LUA_NOREF
)
break
;
break
;
if
(
mud
->
L
==
NULL
)
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_puback_ref
);
break
;
lua_rawgeti
(
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata to callback func in lua
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
cb_puback_ref
);
lua_call
(
L
,
1
,
0
);
lua_rawgeti
(
mud
->
L
,
LUA_REGISTRYINDEX
,
mud
->
self_ref
);
// pass the userdata to callback func in lua
lua_call
(
mud
->
L
,
1
,
0
);
}
}
break
;
break
;
case
MQTT_MSG_TYPE_PINGREQ
:
case
MQTT_MSG_TYPE_PINGREQ
:
temp_msg
=
mqtt_msg_pingresp
(
&
mud
->
mqtt_state
.
mqtt_connection
);
temp_msg
=
mqtt_msg_pingresp
(
&
mud
->
mqtt_state
.
mqtt_connection
);
node
=
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_id
,
MQTT_MSG_TYPE_PINGRESP
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
msg_id
,
MQTT_MSG_TYPE_PINGRESP
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
NODE_DBG
(
"MQTT: Response PINGRESP
\r\n
"
);
NODE_DBG
(
"MQTT: Response PINGRESP
\r\n
"
);
break
;
break
;
...
@@ -391,21 +413,7 @@ READPACKET:
...
@@ -391,21 +413,7 @@ READPACKET:
break
;
break
;
}
}
if
(
node
&&
(
1
==
msg_size
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)))
&&
mud
->
event_timeout
==
0
){
mqtt_send_if_possible
(
pesp_conn
);
mud
->
event_timeout
=
MQTT_SEND_TIMEOUT
;
NODE_DBG
(
"Sent: %d
\n
"
,
node
->
msg
.
length
);
#ifdef CLIENT_SSL_ENABLE
if
(
mud
->
secure
)
{
espconn_secure_send
(
pesp_conn
,
node
->
msg
.
data
,
node
->
msg
.
length
);
}
else
#endif
{
espconn_send
(
pesp_conn
,
node
->
msg
.
data
,
node
->
msg
.
length
);
}
}
NODE_DBG
(
"receive, queue size: %d
\n
"
,
msg_size
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)));
NODE_DBG
(
"leave mqtt_socket_received.
\n
"
);
NODE_DBG
(
"leave mqtt_socket_received.
\n
"
);
return
;
return
;
}
}
...
@@ -452,22 +460,7 @@ static void mqtt_socket_sent(void *arg)
...
@@ -452,22 +460,7 @@ static void mqtt_socket_sent(void *arg)
try_send
=
0
;
try_send
=
0
;
}
}
if
(
try_send
)
{
if
(
try_send
)
{
msg_queue_t
*
node
=
msg_peek
(
&
(
mud
->
mqtt_state
.
pending_msg_q
));
mqtt_send_if_possible
(
mud
->
pesp_conn
);
if
(
node
)
{
mud
->
event_timeout
=
MQTT_SEND_TIMEOUT
;
NODE_DBG
(
"Sent: %d
\n
"
,
node
->
msg
.
length
);
#ifdef CLIENT_SSL_ENABLE
if
(
mud
->
secure
)
{
(
void
)
espconn_secure_send
(
mud
->
pesp_conn
,
node
->
msg
.
data
,
node
->
msg
.
length
);
}
else
#endif
{
(
void
)
espconn_send
(
mud
->
pesp_conn
,
node
->
msg
.
data
,
node
->
msg
.
length
);
}
mud
->
keep_alive_tick
=
0
;
}
}
}
NODE_DBG
(
"sent2, queue size: %d
\n
"
,
msg_size
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)));
NODE_DBG
(
"sent2, queue size: %d
\n
"
,
msg_size
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)));
NODE_DBG
(
"leave mqtt_socket_sent.
\n
"
);
NODE_DBG
(
"leave mqtt_socket_sent.
\n
"
);
...
@@ -561,19 +554,7 @@ void mqtt_socket_timer(void *arg)
...
@@ -561,19 +554,7 @@ void mqtt_socket_timer(void *arg)
}
else
if
(
mud
->
connState
==
MQTT_DATA
){
}
else
if
(
mud
->
connState
==
MQTT_DATA
){
msg_queue_t
*
pending_msg
=
msg_peek
(
&
(
mud
->
mqtt_state
.
pending_msg_q
));
msg_queue_t
*
pending_msg
=
msg_peek
(
&
(
mud
->
mqtt_state
.
pending_msg_q
));
if
(
pending_msg
){
if
(
pending_msg
){
mud
->
event_timeout
=
MQTT_SEND_TIMEOUT
;
mqtt_send_if_possible
(
mud
->
pesp_conn
);
#ifdef CLIENT_SSL_ENABLE
if
(
mud
->
secure
)
{
espconn_secure_send
(
mud
->
pesp_conn
,
pending_msg
->
msg
.
data
,
pending_msg
->
msg
.
length
);
}
else
#endif
{
espconn_send
(
mud
->
pesp_conn
,
pending_msg
->
msg
.
data
,
pending_msg
->
msg
.
length
);
}
mud
->
keep_alive_tick
=
0
;
NODE_DBG
(
"id: %d - qos: %d, length: %d
\n
"
,
pending_msg
->
msg_id
,
pending_msg
->
publish_qos
,
pending_msg
->
msg
.
length
);
}
else
{
}
else
{
// no queued event.
// no queued event.
mud
->
keep_alive_tick
++
;
mud
->
keep_alive_tick
++
;
...
@@ -585,18 +566,7 @@ void mqtt_socket_timer(void *arg)
...
@@ -585,18 +566,7 @@ void mqtt_socket_timer(void *arg)
mqtt_message_t
*
temp_msg
=
mqtt_msg_pingreq
(
&
mud
->
mqtt_state
.
mqtt_connection
);
mqtt_message_t
*
temp_msg
=
mqtt_msg_pingreq
(
&
mud
->
mqtt_state
.
mqtt_connection
);
msg_queue_t
*
node
=
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
msg_queue_t
*
node
=
msg_enqueue
(
&
(
mud
->
mqtt_state
.
pending_msg_q
),
temp_msg
,
0
,
MQTT_MSG_TYPE_PINGREQ
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
0
,
MQTT_MSG_TYPE_PINGREQ
,
(
int
)
mqtt_get_qos
(
temp_msg
->
data
)
);
// only one message in queue, send immediately.
mqtt_send_if_possible
(
mud
->
pesp_conn
);
#ifdef CLIENT_SSL_ENABLE
if
(
mud
->
secure
)
{
espconn_secure_send
(
mud
->
pesp_conn
,
temp_msg
->
data
,
temp_msg
->
length
);
}
else
#endif
{
espconn_send
(
mud
->
pesp_conn
,
temp_msg
->
data
,
temp_msg
->
length
);
}
mud
->
keep_alive_tick
=
0
;
}
}
}
}
}
}
...
@@ -626,7 +596,6 @@ static int mqtt_socket_client( lua_State* L )
...
@@ -626,7 +596,6 @@ static int mqtt_socket_client( lua_State* L )
// create a object
// create a object
mud
=
(
lmqtt_userdata
*
)
lua_newuserdata
(
L
,
sizeof
(
lmqtt_userdata
));
mud
=
(
lmqtt_userdata
*
)
lua_newuserdata
(
L
,
sizeof
(
lmqtt_userdata
));
// pre-initialize it, in case of errors
// pre-initialize it, in case of errors
mud
->
L
=
NULL
;
mud
->
self_ref
=
LUA_NOREF
;
mud
->
self_ref
=
LUA_NOREF
;
mud
->
cb_connect_ref
=
LUA_NOREF
;
mud
->
cb_connect_ref
=
LUA_NOREF
;
mud
->
cb_disconnect_ref
=
LUA_NOREF
;
mud
->
cb_disconnect_ref
=
LUA_NOREF
;
...
@@ -651,8 +620,6 @@ static int mqtt_socket_client( lua_State* L )
...
@@ -651,8 +620,6 @@ static int mqtt_socket_client( lua_State* L )
luaL_getmetatable
(
L
,
"mqtt.socket"
);
luaL_getmetatable
(
L
,
"mqtt.socket"
);
lua_setmetatable
(
L
,
-
2
);
lua_setmetatable
(
L
,
-
2
);
mud
->
L
=
L
;
// L for mqtt module.
if
(
lua_isstring
(
L
,
stack
)
)
// deal with the clientid string
if
(
lua_isstring
(
L
,
stack
)
)
// deal with the clientid string
{
{
clientId
=
luaL_checklstring
(
L
,
stack
,
&
idl
);
clientId
=
luaL_checklstring
(
L
,
stack
,
&
idl
);
...
@@ -1252,21 +1219,7 @@ static int mqtt_socket_subscribe( lua_State* L ) {
...
@@ -1252,21 +1219,7 @@ static int mqtt_socket_subscribe( lua_State* L ) {
sint8
espconn_status
=
ESPCONN_IF
;
sint8
espconn_status
=
ESPCONN_IF
;
if
(
node
&&
(
1
==
msg_size
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)))
&&
mud
->
event_timeout
==
0
){
espconn_status
=
mqtt_send_if_possible
(
mud
->
pesp_conn
);
mud
->
event_timeout
=
MQTT_SEND_TIMEOUT
;
NODE_DBG
(
"Sent: %d
\n
"
,
node
->
msg
.
length
);
#ifdef CLIENT_SSL_ENABLE
if
(
mud
->
secure
)
{
espconn_status
=
espconn_secure_send
(
mud
->
pesp_conn
,
node
->
msg
.
data
,
node
->
msg
.
length
);
}
else
#endif
{
espconn_status
=
espconn_send
(
mud
->
pesp_conn
,
node
->
msg
.
data
,
node
->
msg
.
length
);
}
mud
->
keep_alive_tick
=
0
;
}
if
(
!
node
||
espconn_status
!=
ESPCONN_OK
){
if
(
!
node
||
espconn_status
!=
ESPCONN_OK
){
lua_pushboolean
(
L
,
0
);
lua_pushboolean
(
L
,
0
);
...
@@ -1343,21 +1296,7 @@ static int mqtt_socket_publish( lua_State* L )
...
@@ -1343,21 +1296,7 @@ static int mqtt_socket_publish( lua_State* L )
sint8
espconn_status
=
ESPCONN_OK
;
sint8
espconn_status
=
ESPCONN_OK
;
if
(
node
&&
(
1
==
msg_size
(
&
(
mud
->
mqtt_state
.
pending_msg_q
)))
&&
mud
->
event_timeout
==
0
){
espconn_status
=
mqtt_send_if_possible
(
mud
->
pesp_conn
);
mud
->
event_timeout
=
MQTT_SEND_TIMEOUT
;
NODE_DBG
(
"Sent: %d
\n
"
,
node
->
msg
.
length
);
#ifdef CLIENT_SSL_ENABLE
if
(
mud
->
secure
)
{
espconn_status
=
espconn_secure_send
(
mud
->
pesp_conn
,
node
->
msg
.
data
,
node
->
msg
.
length
);
}
else
#endif
{
espconn_status
=
espconn_send
(
mud
->
pesp_conn
,
node
->
msg
.
data
,
node
->
msg
.
length
);
}
mud
->
keep_alive_tick
=
0
;
}
if
(
!
node
||
espconn_status
!=
ESPCONN_OK
){
if
(
!
node
||
espconn_status
!=
ESPCONN_OK
){
lua_pushboolean
(
L
,
0
);
lua_pushboolean
(
L
,
0
);
...
...
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