/**
* @brief MQTT publish function.
* @param client: MQTT_Client reference
* @param topic: string topic will publish to
* @param data: buffer data send point to
* @param data_length: length of data
* @param qos: qos
* @param retain: retain
* @retval TRUE if success queue
*/
BOOL ICACHE_FLASH_ATTR
MQTT_Publish(MQTT_Client * client, const char *topic, const char *data, int data_length, int qos, int retain) {
uint8_t dataBuffer[MQTT_BUF_SIZE];
uint16_t dataLen;
client->mqtt_state.outbound_message = mqtt_msg_publish(&client->mqtt_state.mqtt_connection,
topic, data, data_length,
qos, retain, &client->mqtt_state.pending_msg_id);
if (client->mqtt_state.outbound_message->length == 0) {
MQTT_INFO("MQTT: Queuing publish failed\r\n");
return FALSE;
}
MQTT_INFO("MQTT: queuing publish, length: %d, queue size(%d/%d)\r\n", client->mqtt_state.outbound_message->length,
client->msgQueue.rb.fill_cnt, client->msgQueue.rb.size);
while (QUEUE_Puts
(&client->msgQueue, client->mqtt_state.outbound_message->data,
client->mqtt_state.outbound_message->length) == -1) {
MQTT_INFO("MQTT: Queue full\r\n");
if (QUEUE_Gets(&client->msgQueue, dataBuffer, &dataLen, MQTT_BUF_SIZE) == -1) {
MQTT_INFO("MQTT: Serious buffer error\r\n");
return FALSE;
}
}
system_os_post(MQTT_TASK_PRIO, 0, (os_param_t) client);
return TRUE;
}
// Publish the specified message
int mqtt_publish_with_length(const char* topic, const char* data, int data_length, int qos, int retain)
{
if(!mqtt_ready())
return -1;
printf("mqtt: sending publish...\n");
mqtt_state.outbound_message = mqtt_msg_publish(&mqtt_state.mqtt_connection,
topic, data, data_length,
qos, retain,
&mqtt_state.pending_msg_id);
mqtt_flags &= ~MQTT_FLAG_READY;
mqtt_state.pending_msg_type = MQTT_MSG_TYPE_PUBLISH;
tcpip_poll_tcp(mqtt_state.tcp_connection);
return 0;
}
BOOL ICACHE_FLASH_ATTR
MQTT_Publish(MQTT_Client *client, const char* topic, const char* data, int data_length, int qos, int retain)
{
mqtt_message_t* outbound_message;
outbound_message = mqtt_msg_publish(&client->mqtt_state.mqtt_connection,
topic, data, data_length,
qos, retain,
&client->mqtt_state.pending_msg_id);
//spam INFO("MQTT: queuing publish, length: %d...\r\n", outbound_message->length);
if(QUEUE_Puts(&client->msgQueue, outbound_message->data, outbound_message->length) == -1){
//spam INFO("MQTT: Exceed the amount of queues\r\n");
return FALSE;
}
system_os_post(MQTT_TASK_PRIO, 0, (os_param_t)client);
return TRUE;
}
static void periodic_timer_cb(void)
{
mqtt_event_data_t event_data;
uint8_t val, frac;
uint16_t temp;
printf("Ping timer %d\n", mqtt.keepalive_error);
if (mqtt.state != MQTT_STATE_CONNECTED)
{
/* Not connected : try to reconnect */
printf("Try to reconnect\n");
mqtt_msg_connect_send(&mqtt);
uip_udp_packet_send(mqtt.udp_connection, mqtt.data, mqtt.len);
return;
}
if (mqtt.keepalive_error >= MAX_KEEPALIVE_ERROR)
{
PRINTF("DISCONNECTED\n");
mqtt.state = MQTT_STATE_CONNECTION_IN_PROGRESS;
event_data.type = MQTT_EVENT_TYPE_DISCONNECTED;
process_post_synch(mqtt.calling_process, mqtt_event, &event_data);
return;
}
else
{
mqtt.keepalive_error++;
}
temp = onewire_temp_read();
val = temp / 100;
frac = temp % 100;
sprintf(temperature, "%d.%d", val, frac);
printf("temperature : %s\n", temperature);
mqtt_msg_publish(topic_name, temperature);
mqtt_msg_ping_send(&mqtt, MQTT_MSG_PINGREQ);
uip_udp_packet_send(mqtt.udp_connection, mqtt.data, mqtt.len);
}
/**
* @brief MQTT publish function.
* @param client: MQTT_Client reference
* @param topic: string topic will publish to
* @param data: buffer data send point to
* @param data_length: length of data
* @param qos: qos
* @param retain: retain
* @retval TRUE if success queue
*/
bool ICACHE_FLASH_ATTR
MQTT_Publish(MQTT_Client* client, const char* topic, const char* data, uint8_t qos, uint8_t retain) {
// estimate the packet size to allocate a buffer
uint16_t topic_length = os_strlen(topic);
uint16_t data_length = os_strlen(data);
// estimate: fixed hdr, pkt-id, topic length, topic, data, fudge
uint16_t buf_len = 3 + 2 + 2 + topic_length + data_length + 16;
PktBuf *buf = PktBuf_New(buf_len);
if (buf == NULL) {
os_printf("MQTT ERROR: Cannot allocate buffer for %d byte publish\n", buf_len);
return FALSE;
}
// use a temporary mqtt_message_t pointing to our buffer, this is a bit of a mess because we
// need to keep track of the message_id that is embedded in it
mqtt_connection_t msg;
msg_conn_init(&msg, &client->mqtt_connection, buf->data, buf_len);
uint16_t msg_id;
if (!mqtt_msg_publish(&msg, topic, data, data_length, qos, retain, &msg_id)){
os_printf("MQTT ERROR: Queuing Publish failed\n");
os_free(buf);
return FALSE;
}
client->mqtt_connection.message_id = msg.message_id;
if (msg.message.data != buf->data)
os_memcpy(buf->data, msg.message.data, msg.message.length);
buf->filled = msg.message.length;
DBG_MQTT("MQTT: Publish, topic: \"%s\", length: %d\n", topic, msg.message.length);
//dumpMem(buf, buf_len);
client->msgQueue = PktBuf_Push(client->msgQueue, buf);
if (!client->sending && client->pending_buffer == NULL) {
mqtt_send_message(client);
}
return TRUE;
}
// Lua: bool = mqtt:publish( topic, payload, qos, retain, function() )
static int mqtt_socket_publish( lua_State* L )
{
NODE_DBG("enter mqtt_socket_publish.\n");
struct espconn *pesp_conn = NULL;
lmqtt_userdata *mud;
size_t l;
uint8_t stack = 1;
uint16_t msg_id = 0;
mud = (lmqtt_userdata *)luaL_checkudata(L, stack, "mqtt.socket");
luaL_argcheck(L, mud, stack, "mqtt.socket expected");
stack++;
if(mud==NULL){
NODE_DBG("userdata is nil.\n");
lua_pushboolean(L, 0);
return 1;
}
if(mud->pesp_conn == NULL){
NODE_DBG("mud->pesp_conn is NULL.\n");
lua_pushboolean(L, 0);
return 1;
}
if(!mud->connected){
luaL_error( L, "not connected" );
lua_pushboolean(L, 0);
return 1;
}
const char *topic = luaL_checklstring( L, stack, &l );
stack ++;
if (topic == NULL){
luaL_error( L, "need topic" );
lua_pushboolean(L, 0);
return 1;
}
const char *payload = luaL_checklstring( L, stack, &l );
stack ++;
uint8_t qos = luaL_checkinteger( L, stack);
stack ++;
uint8_t retain = luaL_checkinteger( L, stack);
stack ++;
uint8_t temp_buffer[MQTT_BUF_SIZE];
mqtt_msg_init(&mud->mqtt_state.mqtt_connection, temp_buffer, MQTT_BUF_SIZE);
mqtt_message_t *temp_msg = mqtt_msg_publish(&mud->mqtt_state.mqtt_connection,
topic, payload, l,
qos, retain,
&msg_id);
if (lua_type(L, stack) == LUA_TFUNCTION || lua_type(L, stack) == LUA_TLIGHTFUNCTION){
lua_pushvalue(L, stack); // copy argument (func) to the top of stack
if(mud->cb_puback_ref != LUA_NOREF)
luaL_unref(L, LUA_REGISTRYINDEX, mud->cb_puback_ref);
mud->cb_puback_ref = luaL_ref(L, LUA_REGISTRYINDEX);
}
msg_queue_t *node = msg_enqueue(&(mud->mqtt_state.pending_msg_q), temp_msg,
msg_id, MQTT_MSG_TYPE_PUBLISH, (int)qos );
if(node && (1==msg_size(&(mud->mqtt_state.pending_msg_q))) && mud->event_timeout == 0){
mud->event_timeout = MQTT_SEND_TIMEOUT;
NODE_DBG("Sent: %d\n", node->msg.length);
if( mud->secure )
espconn_secure_sent( mud->pesp_conn, node->msg.data, node->msg.length );
else
espconn_sent( mud->pesp_conn, node->msg.data, node->msg.length );
mud->keep_alive_tick = 0;
}
if(!node){
lua_pushboolean(L, 0);
} else {
lua_pushboolean(L, 1); // enqueued succeed.
}
NODE_DBG("publish, queue size: %d\n", msg_size(&(mud->mqtt_state.pending_msg_q)));
NODE_DBG("leave mqtt_socket_publish.\n");
return 1;
}
