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Hamonize mqtt drivers

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This commit is contained in:
fvanroie 2021-02-21 20:46:29 +01:00
parent 2223e5722a
commit cc4cc54c22
6 changed files with 64 additions and 485 deletions
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2
src/mqtt/hasp_mqtt.h
View File

@ -21,6 +21,8 @@ void mqttStop();
void mqtt_send_object_state(uint8_t pageid, uint8_t btnid, char* payload);
void mqtt_send_state(const __FlashStringHelper* subtopic, const char* payload);
bool mqttPublish(const char* topic, const char* payload, size_t len, bool retain);
bool mqttIsConnected();
#if HASP_USE_CONFIG > 0

450
src/mqtt/hasp_mqtt.old
View File

@ -1,450 +0,0 @@
/* MIT License - Copyright (c) 2020 Francis Van Roie
For full license information read the LICENSE file in the project folder */
#include "hasp_conf.h"
#if HASP_USE_MQTT > 0
#include "PubSubClient.h"
#include "hasp/hasp.h"
#include "hasp_mqtt.h"
#include "hasp_mqtt_ha.h"
#if defined(ARDUINO_ARCH_ESP32)
#include <WiFi.h>
WiFiClient mqttNetworkClient;
#elif defined(ARDUINO_ARCH_ESP8266)
#include <ESP8266WiFi.h>
#include <EEPROM.h>
#include <Esp.h>
WiFiClient mqttNetworkClient;
#else
#if defined(STM32F4xx) && HASP_USE_WIFI > 0
// #include <WiFi.h>
WiFiSpiClient mqttNetworkClient;
#else
#if defined(W5500_MOSI) && defined(W5500_MISO) && defined(W5500_SCLK)
#define W5500_LAN
#include <Ethernet.h>
#else
#include <STM32Ethernet.h>
#endif
EthernetClient mqttNetworkClient;
#endif
#endif
#include "hasp_hal.h"
#include "log/hasp_debug.h"
#include "hasp_config.h"
#include "../hasp/hasp_dispatch.h"
#ifdef USE_CONFIG_OVERRIDE
#include "user_config_override.h"
#endif
char mqttNodeTopic[24];
char mqttGroupTopic[24];
bool mqttEnabled = false;
bool mqttHAautodiscover = true;
////////////////////////////////////////////////////////////////////////////////////////////////////
// These defaults may be overwritten with values saved by the web interface
#ifndef MQTT_HOST
#define MQTT_HOST "";
#endif
#ifndef MQTT_PORT
#define MQTT_PORT 1883;
#endif
#ifndef MQTT_USER
#define MQTT_USER "";
#endif
#ifndef MQTT_PASSW
#define MQTT_PASSW "";
#endif
#ifndef MQTT_NODENAME
#define MQTT_NODENAME "";
#endif
#ifndef MQTT_GROUPNAME
#define MQTT_GROUPNAME "";
#endif
#ifndef MQTT_PREFIX
#define MQTT_PREFIX "hasp"
#endif
#define LWT_TOPIC "LWT"
char mqttServer[16] = MQTT_HOST;
char mqttUser[23] = MQTT_USER;
char mqttPassword[32] = MQTT_PASSW;
char mqttNodeName[16] = MQTT_NODENAME;
char mqttGroupName[16] = MQTT_GROUPNAME;
uint16_t mqttPort = MQTT_PORT;
PubSubClient mqttClient(mqttNetworkClient);
static bool mqttPublish(const char * topic, const char * payload, size_t len, bool retain = false)
{
if(mqttIsConnected()) {
if(mqttClient.beginPublish(topic, len, retain)) {
mqttClient.write((uint8_t *)payload, len);
mqttClient.endPublish();
LOG_TRACE(TAG_MQTT_PUB, F("%s => %s"), topic, payload);
return true;
} else {
LOG_ERROR(TAG_MQTT_PUB, F(D_MQTT_FAILED " %s => %s"), topic, payload);
}
} else {
LOG_ERROR(TAG_MQTT, F(D_MQTT_NOT_CONNECTED));
}
return false;
}
static bool mqttPublish(const char * topic, const char * payload, bool retain = false)
{
return mqttPublish(topic, payload, strlen(payload), retain);
}
////////////////////////////////////////////////////////////////////////////////////////////////////
// Send changed values OUT
bool mqttIsConnected()
{
return mqttEnabled && mqttClient.connected();
}
void mqtt_send_lwt(bool online)
{
char tmp_payload[8];
char tmp_topic[strlen(mqttNodeTopic) + 4];
strncpy(tmp_topic, mqttNodeTopic, sizeof(tmp_topic));
strncat_P(tmp_topic, PSTR(LWT_TOPIC), sizeof(tmp_topic));
// snprintf_P(tmp_topic, sizeof(tmp_topic), PSTR("%s" LWT_TOPIC), mqttNodeTopic);
size_t len = snprintf_P(tmp_payload, sizeof(tmp_payload), online ? PSTR("online") : PSTR("offline"));
bool res = mqttPublish(tmp_topic, tmp_payload, len, true);
}
void mqtt_send_object_state(uint8_t pageid, uint8_t btnid, char * payload)
{
char tmp_topic[strlen(mqttNodeTopic) + 16];
snprintf_P(tmp_topic, sizeof(tmp_topic), PSTR("%sstate/" HASP_OBJECT_NOTATION), mqttNodeTopic, pageid, btnid);
mqttPublish(tmp_topic, payload);
}
void mqtt_send_state(const __FlashStringHelper * subtopic, const char * payload)
{
char tmp_topic[strlen(mqttNodeTopic) + 20];
snprintf_P(tmp_topic, sizeof(tmp_topic), PSTR("%sstate/%s"), mqttNodeTopic, subtopic);
mqttPublish(tmp_topic, payload);
}
////////////////////////////////////////////////////////////////////////////////////////////////////
// Receive incoming messages
static void mqtt_message_cb(char * topic, byte * payload, unsigned int length)
{ // Handle incoming commands from MQTT
if(length + 1 >= mqttClient.getBufferSize()) {
LOG_ERROR(TAG_MQTT_RCV, F("Payload too long (%d bytes)"), length);
return;
} else {
payload[length] = '\0';
}
LOG_TRACE(TAG_MQTT_RCV, F("%s = %s"), topic, (char *)payload);
if(topic == strstr(topic, mqttNodeTopic)) { // startsWith mqttNodeTopic
// Node topic
topic += strlen(mqttNodeTopic); // shorten topic
} else if(topic == strstr(topic, mqttGroupTopic)) { // startsWith mqttGroupTopic
// Group topic
topic += strlen(mqttGroupTopic); // shorten topic
dispatch_topic_payload(topic, (const char *)payload);
return;
} else if(topic == strstr_P(topic, PSTR("homeassistant/status"))) { // HA discovery topic
if(mqttHAautodiscover && !strcasecmp_P((char *)payload, PSTR("online"))) {
dispatch_current_state();
mqtt_ha_register_auto_discovery();
}
return;
} else {
// Other topic
LOG_ERROR(TAG_MQTT, F(D_MQTT_INVALID_TOPIC));
return;
}
// catch a dangling LWT from a previous connection if it appears
if(!strcmp_P(topic, PSTR(LWT_TOPIC))) { // endsWith LWT
if(!strcasecmp_P((char *)payload, PSTR("offline"))) {
{
char msg[8];
char tmp_topic[strlen(mqttNodeTopic) + 8];
snprintf_P(tmp_topic, sizeof(tmp_topic), PSTR("%s" LWT_TOPIC), mqttNodeTopic);
snprintf_P(msg, sizeof(msg), PSTR("online"));
/*bool res =*/mqttClient.publish(tmp_topic, msg, true);
}
} else {
// LOG_TRACE(TAG_MQTT, F("ignoring LWT = online"));
}
} else {
dispatch_topic_payload(topic, (const char *)payload);
}
}
static void mqttSubscribeTo(const __FlashStringHelper * format, const char * data)
{
char tmp_topic[strlen_P((PGM_P)format) + 2 + strlen(data)];
snprintf_P(tmp_topic, sizeof(tmp_topic), (PGM_P)format, data);
if(mqttClient.subscribe(tmp_topic)) {
LOG_VERBOSE(TAG_MQTT, F(D_BULLET D_MQTT_SUBSCRIBED), tmp_topic);
} else {
LOG_ERROR(TAG_MQTT, F(D_MQTT_NOT_SUBSCRIBED), tmp_topic);
}
}
void mqttStart()
{
char buffer[64];
char mqttClientId[64];
char lastWillPayload[8];
static uint8_t mqttReconnectCount = 0;
// bool mqttFirstConnect = true;
mqttClient.setServer(mqttServer, 1883);
// mqttClient.setSocketTimeout(10); //in seconds
/* Construct unique Client ID*/
{
String mac = halGetMacAddress(3, "");
mac.toLowerCase();
memset(mqttClientId, 0, sizeof(mqttClientId));
snprintf_P(mqttClientId, sizeof(mqttClientId), PSTR(D_MQTT_DEFAULT_NAME), mac.c_str());
LOG_INFO(TAG_MQTT, mqttClientId);
}
// Attempt to connect and set LWT and Clean Session
snprintf_P(buffer, sizeof(buffer), PSTR("%s" LWT_TOPIC), mqttNodeTopic); // lastWillTopic
snprintf_P(lastWillPayload, sizeof(lastWillPayload), PSTR("offline")); // lastWillPayload
haspProgressMsg(F(D_MQTT_CONNECTING));
haspProgressVal(mqttReconnectCount * 5);
if(!mqttClient.connect(mqttClientId, mqttUser, mqttPassword, buffer, 0, true, lastWillPayload, true)) {
// Retry until we give up and restart after connectTimeout seconds
mqttReconnectCount++;
switch(mqttClient.state()) {
case MQTT_CONNECTION_TIMEOUT:
LOG_WARNING(TAG_MQTT, F("Connection timeout"));
break;
case MQTT_CONNECTION_LOST:
LOG_WARNING(TAG_MQTT, F("Connection lost"));
break;
case MQTT_CONNECT_FAILED:
LOG_WARNING(TAG_MQTT, F("Connection failed"));
break;
case MQTT_DISCONNECTED:
snprintf_P(buffer, sizeof(buffer), PSTR(D_MQTT_DISCONNECTED));
break;
case MQTT_CONNECTED:
break;
case MQTT_CONNECT_BAD_PROTOCOL:
LOG_WARNING(TAG_MQTT, F("MQTT version not suported"));
break;
case MQTT_CONNECT_BAD_CLIENT_ID:
LOG_WARNING(TAG_MQTT, F("Client ID rejected"));
break;
case MQTT_CONNECT_UNAVAILABLE:
LOG_WARNING(TAG_MQTT, F("Server unavailable"));
break;
case MQTT_CONNECT_BAD_CREDENTIALS:
LOG_WARNING(TAG_MQTT, F("Bad credentials"));
break;
case MQTT_CONNECT_UNAUTHORIZED:
LOG_WARNING(TAG_MQTT, F("Unauthorized"));
break;
default:
LOG_WARNING(TAG_MQTT, F("Unknown failure"));
}
if(mqttReconnectCount > 20) {
LOG_ERROR(TAG_MQTT, F("Retry count exceeded, rebooting..."));
dispatch_reboot(false);
}
return;
}
LOG_INFO(TAG_MQTT, F(D_MQTT_CONNECTED), mqttServer, mqttClientId);
// Subscribe to our incoming topics
const __FlashStringHelper * F_topic;
F_topic = F("%scommand/#");
mqttSubscribeTo(F_topic, mqttGroupTopic);
mqttSubscribeTo(F_topic, mqttNodeTopic);
F_topic = F("%sconfig/#");
mqttSubscribeTo(F_topic, mqttGroupTopic);
mqttSubscribeTo(F_topic, mqttNodeTopic);
mqttSubscribeTo(F("%slight/#"), mqttNodeTopic);
mqttSubscribeTo(F("%sbrightness/#"), mqttNodeTopic);
// mqttSubscribeTo(F("%s"LWT_TOPIC), mqttNodeTopic);
mqttSubscribeTo(F("hass/status"), mqttClientId);
/* Home Assistant auto-configuration */
if(mqttHAautodiscover) mqttSubscribeTo(F("homeassistant/status"), mqttClientId);
// Force any subscribed clients to toggle offline/online when we first connect to
// make sure we get a full panel refresh at power on. Sending offline,
// "online" will be sent by the mqttStatusTopic subscription action.
mqtt_send_lwt(true);
// mqttFirstConnect = false;
mqttReconnectCount = 0;
haspReconnect();
haspProgressVal(255);
dispatch_current_state();
}
void mqttSetup()
{
mqttEnabled = strlen(mqttServer) > 0 && mqttPort > 0;
if(mqttEnabled) {
mqttClient.setServer(mqttServer, mqttPort);
mqttClient.setCallback(mqtt_message_cb);
// if(!mqttClient.setBufferSize(1024)) {
// LOG_ERROR(TAG_MQTT, F("Buffer allocation failed"));
// } else {
LOG_INFO(TAG_MQTT, F(D_MQTT_STARTED), mqttClient.getBufferSize());
// }
} else {
LOG_WARNING(TAG_MQTT, F(D_MQTT_NOT_CONFIGURED));
}
}
void mqttLoop(void)
{
if(mqttEnabled) mqttClient.loop();
}
void mqttEvery5Seconds(bool networkIsConnected)
{
if(mqttEnabled && networkIsConnected && !mqttClient.connected()) {
LOG_TRACE(TAG_MQTT, F(D_MQTT_RECONNECTING));
mqttStart();
}
}
String mqttGetNodename()
{
return mqttNodeName;
}
void mqttStop()
{
if(mqttEnabled && mqttClient.connected()) {
LOG_TRACE(TAG_MQTT, F(D_MQTT_DISCONNECTING));
mqtt_send_lwt(false);
mqttClient.disconnect();
LOG_INFO(TAG_MQTT, F(D_MQTT_DISCONNECTED));
}
}
#if HASP_USE_CONFIG > 0
bool mqttGetConfig(const JsonObject & settings)
{
bool changed = false;
if(strcmp(mqttNodeName, settings[FPSTR(FP_CONFIG_NAME)].as<String>().c_str()) != 0) changed = true;
settings[FPSTR(FP_CONFIG_NAME)] = mqttNodeName;
if(strcmp(mqttGroupName, settings[FPSTR(FP_CONFIG_GROUP)].as<String>().c_str()) != 0) changed = true;
settings[FPSTR(FP_CONFIG_GROUP)] = mqttGroupName;
if(strcmp(mqttServer, settings[FPSTR(FP_CONFIG_HOST)].as<String>().c_str()) != 0) changed = true;
settings[FPSTR(FP_CONFIG_HOST)] = mqttServer;
if(mqttPort != settings[FPSTR(FP_CONFIG_PORT)].as<uint16_t>()) changed = true;
settings[FPSTR(FP_CONFIG_PORT)] = mqttPort;
if(strcmp(mqttUser, settings[FPSTR(FP_CONFIG_USER)].as<String>().c_str()) != 0) changed = true;
settings[FPSTR(FP_CONFIG_USER)] = mqttUser;
if(strcmp(mqttPassword, settings[FPSTR(FP_CONFIG_PASS)].as<String>().c_str()) != 0) changed = true;
settings[FPSTR(FP_CONFIG_PASS)] = mqttPassword;
if(changed) configOutput(settings, TAG_MQTT);
return changed;
}
/** Set MQTT Configuration.
*
* Read the settings from json and sets the application variables.
*
* @note: data pixel should be formated to uint32_t RGBA. Imagemagick requirements.
*
* @param[in] settings JsonObject with the config settings.
**/
bool mqttSetConfig(const JsonObject & settings)
{
configOutput(settings, TAG_MQTT);
bool changed = false;
changed |= configSet(mqttPort, settings[FPSTR(FP_CONFIG_PORT)], F("mqttPort"));
if(!settings[FPSTR(FP_CONFIG_NAME)].isNull()) {
changed |= strcmp(mqttNodeName, settings[FPSTR(FP_CONFIG_NAME)]) != 0;
strncpy(mqttNodeName, settings[FPSTR(FP_CONFIG_NAME)], sizeof(mqttNodeName));
}
// Prefill node name
if(strlen(mqttNodeName) == 0) {
String mac = halGetMacAddress(3, "");
mac.toLowerCase();
snprintf_P(mqttNodeName, sizeof(mqttNodeName), PSTR(D_MQTT_DEFAULT_NAME), mac.c_str());
changed = true;
}
if(!settings[FPSTR(FP_CONFIG_GROUP)].isNull()) {
changed |= strcmp(mqttGroupName, settings[FPSTR(FP_CONFIG_GROUP)]) != 0;
strncpy(mqttGroupName, settings[FPSTR(FP_CONFIG_GROUP)], sizeof(mqttGroupName));
}
if(strlen(mqttGroupName) == 0) {
strcpy_P(mqttGroupName, PSTR("plates"));
changed = true;
}
if(!settings[FPSTR(FP_CONFIG_HOST)].isNull()) {
changed |= strcmp(mqttServer, settings[FPSTR(FP_CONFIG_HOST)]) != 0;
strncpy(mqttServer, settings[FPSTR(FP_CONFIG_HOST)], sizeof(mqttServer));
}
if(!settings[FPSTR(FP_CONFIG_USER)].isNull()) {
changed |= strcmp(mqttUser, settings[FPSTR(FP_CONFIG_USER)]) != 0;
strncpy(mqttUser, settings[FPSTR(FP_CONFIG_USER)], sizeof(mqttUser));
}
if(!settings[FPSTR(FP_CONFIG_PASS)].isNull() &&
settings[FPSTR(FP_CONFIG_PASS)].as<String>() != String(FPSTR(D_PASSWORD_MASK))) {
changed |= strcmp(mqttPassword, settings[FPSTR(FP_CONFIG_PASS)]) != 0;
strncpy(mqttPassword, settings[FPSTR(FP_CONFIG_PASS)], sizeof(mqttPassword));
}
snprintf_P(mqttNodeTopic, sizeof(mqttNodeTopic), PSTR(MQTT_PREFIX "/%s/"), mqttNodeName);
snprintf_P(mqttGroupTopic, sizeof(mqttGroupTopic), PSTR(MQTT_PREFIX "/%s/"), mqttGroupName);
return changed;
}
#endif // HASP_USE_CONFIG
#endif // HASP_USE_MQTT

55
src/mqtt/hasp_mqtt_ha.cpp
View File

@ -4,24 +4,17 @@
#include "ArduinoJson.h"
#include "hasp_conf.h"
#ifndef WINDOWS
#if HASP_USE_MQTT > 0
#include "PubSubClient.h"
#include "hasp/hasp.h"
#include "hasp/hasp_dispatch.h"
#include "hal/hasp_hal.h"
#include "dev/device.h"
#include "hasp_mqtt.h"
#include "hasp_mqtt_ha.h"
#define RETAINED true
#define HASP_MAC_ADDRESS halGetMacAddress(0, "").c_str()
#define HASP_MAC_ADDRESS_STR halGetMacAddress(0, "")
extern PubSubClient mqttClient;
// extern char mqttNodeName[16];
extern char mqttNodeTopic[24];
extern char mqttGroupTopic[24];
@ -36,12 +29,41 @@ const char FP_MQTT_HA_NAME[] PROGMEM = "name";
const char FP_MQTT_HA_MODEL[] PROGMEM = "mdl";
const char FP_MQTT_HA_MANUFACTURER[] PROGMEM = "mf";
#ifndef WINDOWS
#include "hal/hasp_hal.h"
#define HASP_MAC_ADDRESS halGetMacAddress(0, "").c_str()
#define HASP_MAC_ADDRESS_STR halGetMacAddress(0, "")
// #include "PubSubClient.h"
// extern PubSubClient mqttClient;
#else
#define HASP_MAC_ADDRESS "aabbccddeeff"
#define HASP_MAC_ADDRESS_STR "aabbccddeeff"
#endif
void mqtt_ha_send_json(char* topic, JsonDocument& doc)
{
LOG_VERBOSE(TAG_MQTT_PUB, topic);
mqttClient.beginPublish(topic, measureJson(doc), RETAINED);
serializeJson(doc, mqttClient);
mqttClient.endPublish();
// size_t n;
// LOG_VERBOSE(TAG_MQTT_PUB, " >>> measureJson & serializeJson start ");
// long start = millis();
// mqttClient.beginPublish(topic, measureJson(doc), RETAINED);
// n = serializeJson(doc, mqttClient);
// mqttClient.endPublish();
// LOG_VERBOSE(TAG_MQTT_PUB, " >>> measureJson & serializeJson done, %d bytes in %d millis\n", n, millis() - start);
// LOG_VERBOSE(TAG_MQTT_PUB, " >>> serializeJson start ");
// start = millis();
char buffer[800];
size_t len = serializeJson(doc, buffer, sizeof(buffer));
mqttPublish(topic, buffer, len, RETAINED);
// LOG_VERBOSE(TAG_MQTT_PUB, " >>> serializeJson done, %d bytes in %d millis\n", n, millis() - start);
}
// adds the device identifiers to the HA MQTT auto-discovery message
@ -77,7 +99,7 @@ void mqtt_ha_add_unique_id(JsonDocument& doc, char* item)
void mqtt_ha_register_button(uint8_t page, uint8_t id)
{
StaticJsonDocument<640> doc;
StaticJsonDocument<800> doc;
mqtt_ha_add_device_ids(doc);
char buffer[128];
@ -119,7 +141,7 @@ void mqtt_ha_register_button(uint8_t page, uint8_t id)
void mqtt_ha_register_switch(uint8_t page, uint8_t id)
{
StaticJsonDocument<640> doc;
StaticJsonDocument<800> doc;
mqtt_ha_add_device_ids(doc);
char buffer[128];
@ -140,7 +162,7 @@ void mqtt_ha_register_switch(uint8_t page, uint8_t id)
void mqtt_ha_register_connectivity()
{
StaticJsonDocument<640> doc;
StaticJsonDocument<1024> doc;
char item[16];
snprintf_P(item, sizeof(item), PSTR("connectivity"));
@ -158,7 +180,7 @@ void mqtt_ha_register_connectivity()
void mqtt_ha_register_backlight()
{
StaticJsonDocument<640> doc;
StaticJsonDocument<800> doc;
char item[16];
snprintf_P(item, sizeof(item), PSTR("backlight"));
@ -216,7 +238,7 @@ void mqtt_ha_register_moodlight()
void mqtt_ha_register_idle()
{
StaticJsonDocument<640> doc;
StaticJsonDocument<800> doc;
char item[16];
snprintf_P(item, sizeof(item), PSTR("idle"));
@ -233,7 +255,7 @@ void mqtt_ha_register_idle()
void mqtt_ha_register_activepage()
{
StaticJsonDocument<640> doc;
StaticJsonDocument<800> doc;
char item[16];
snprintf_P(item, sizeof(item), PSTR("page"));
@ -260,7 +282,6 @@ void mqtt_ha_register_auto_discovery()
mqtt_ha_register_connectivity();
}
#endif
#endif
/*

4
src/mqtt/hasp_mqtt_paho_async.cpp
View File

@ -150,8 +150,8 @@ static void mqtt_message_cb(char* topic, char* payload, unsigned int length)
} else if(topic == strstr_P(topic, PSTR("homeassistant/status"))) { // HA discovery topic
if(mqttHAautodiscover && !strcasecmp_P((char*)payload, PSTR("online"))) {
// dispatch_current_state();
// mqtt_ha_register_auto_discovery();
dispatch_current_state();
mqtt_ha_register_auto_discovery();
}
return;

30
src/mqtt/hasp_mqtt_paho_single.cpp
View File

@ -34,7 +34,8 @@
#include "MQTTClient.h"
#include "hasp_mqtt.h" // functions to implement here
#include "hasp_mqtt.h" // functions to implement here
#include "hasp_mqtt_ha.h" // HA functions
#include "hasp/hasp_dispatch.h" // for dispatch_topic_payload
#include "hasp_debug.h" // for logging
@ -49,13 +50,13 @@
#include <OsWrapper.h>
#endif
#define ADDRESS "10.4.0.5:1883"
#define ADDRESS "10.1.0.208:1883"
#define CLIENTID "test1123"
#define TOPIC "hasp/plate35/"
#define QOS 1
#define TIMEOUT 1000L
const char* mqttNodeTopic = "hasp/plate35/";
char mqttNodeTopic[24] = "hasp/plate35/";
const char* mqttGroupTopic = "hasp/plates/";
// char mqttNodeTopic[24];
// char mqttGroupTopic[24];
@ -105,7 +106,7 @@ int disc_finished = 0;
int subscribed = 0;
int connected = 0;
static bool mqttPublish(const char* topic, const char* payload, size_t len, bool retain);
bool mqttPublish(const char* topic, const char* payload, size_t len, bool retain);
/* ===== Paho event callbacks ===== */
@ -144,8 +145,8 @@ static void mqtt_message_cb(char* topic, char* payload, unsigned int length)
} else if(topic == strstr_P(topic, PSTR("homeassistant/status"))) { // HA discovery topic
if(mqttHAautodiscover && !strcasecmp_P((char*)payload, PSTR("online"))) {
// dispatch_current_state();
// mqtt_ha_register_auto_discovery();
dispatch_current_state();
mqtt_ha_register_auto_discovery();
}
return;
@ -197,7 +198,8 @@ void mqtt_subscribe(void* context, const char* topic)
MQTTClient client = (MQTTClient)context;
int rc;
printf("Subscribing to topic %s\nfor client %s using QoS%d\n\n", topic, CLIENTID, QOS);
printf("Subscribing to topic %s\n", topic);
//\nfor client %s using QoS%d\n\n", topic, CLIENTID, QOS);
if((rc = MQTTClient_subscribe(client, topic, QOS)) != MQTTCLIENT_SUCCESS) {
printf("Failed to start subscribe, return code %d\n", rc);
}
@ -266,9 +268,13 @@ static void onConnect(void* context)
printf("Successful connection\n");
mqtt_subscribe(mqtt_client, TOPIC "command/#");
mqtt_subscribe(mqtt_client, TOPIC "command");
mqtt_subscribe(mqtt_client, TOPIC "light");
mqtt_subscribe(mqtt_client, TOPIC "dim");
// mqtt_subscribe(mqtt_client, TOPIC "command");
mqtt_subscribe(mqtt_client, TOPIC "light/#");
mqtt_subscribe(mqtt_client, TOPIC "brightness/#");
mqtt_subscribe(mqtt_client, "hass/status");
/* Home Assistant auto-configuration */
if(mqttHAautodiscover) mqtt_subscribe(mqtt_client, "homeassistant/status");
mqttPublish(TOPIC LWT_TOPIC, "online", 6, false);
@ -305,8 +311,8 @@ void mqttStart()
conn_opts.keepAliveInterval = 20;
conn_opts.cleansession = 1;
// conn_opts.username = "";
// conn_opts.password = "";
conn_opts.username = "hasp";
conn_opts.password = "hasp";
if((rc = MQTTClient_connect(mqtt_client, &conn_opts)) != MQTTCLIENT_SUCCESS) {
printf("Failed to start connect, return code %d\n", rc);

8
src/mqtt/hasp_mqtt_pubsubclient.cpp
View File

@ -89,7 +89,7 @@ char mqttGroupName[16] = MQTT_GROUPNAME;
uint16_t mqttPort = MQTT_PORT;
PubSubClient mqttClient(mqttNetworkClient);
static bool mqttPublish(const char* topic, const char* payload, size_t len, bool retain = false)
bool mqttPublish(const char* topic, const char* payload, size_t len, bool retain)
{
if(mqttIsConnected()) {
if(mqttClient.beginPublish(topic, len, retain)) {
@ -107,7 +107,7 @@ static bool mqttPublish(const char* topic, const char* payload, size_t len, bool
return false;
}
static bool mqttPublish(const char* topic, const char* payload, bool retain = false)
static bool mqttPublish(const char* topic, const char* payload, bool retain)
{
return mqttPublish(topic, payload, strlen(payload), retain);
}
@ -136,14 +136,14 @@ void mqtt_send_object_state(uint8_t pageid, uint8_t btnid, char* payload)
{
char tmp_topic[strlen(mqttNodeTopic) + 16];
snprintf_P(tmp_topic, sizeof(tmp_topic), PSTR("%sstate/" HASP_OBJECT_NOTATION), mqttNodeTopic, pageid, btnid);
mqttPublish(tmp_topic, payload);
mqttPublish(tmp_topic, payload, false);
}
void mqtt_send_state(const __FlashStringHelper* subtopic, const char* payload)
{
char tmp_topic[strlen(mqttNodeTopic) + 20];
snprintf_P(tmp_topic, sizeof(tmp_topic), PSTR("%sstate/%s"), mqttNodeTopic, subtopic);
mqttPublish(tmp_topic, payload);
mqttPublish(tmp_topic, payload, false);
}
////////////////////////////////////////////////////////////////////////////////////////////////////