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publishing_mqtt = false
publishing_http = false
watchdog = tmr.create()
chip_id = string.format("%06X", node.chipid())
device_id = "esp8266_" .. chip_id
mqtt_prefix = "sensor/" .. device_id
mqttclient = mqtt.Client(device_id, 120)
dofile("config.lua")
print("SDS011 " .. chip_id)
ledpin = 4
gpio.mode(ledpin, gpio.OUTPUT)
gpio.write(ledpin, 0)
sds011 = require("sds011")
poll = tmr.create()
polling = false
function log_restart()
print("Network error " .. wifi.sta.status())
end
function setup_client()
print("Connected")
gpio.write(ledpin, 1)
port = softuart.setup(9600, 2, 1)
port:on("data", 10, uart_callback)
publishing_mqtt = true
mqttclient:publish(mqtt_prefix .. "/state", "online", 0, 1, function(client)
publishing_mqtt = false
port:write(sds011.set_work_period(nil))
end)
end
function connect_mqtt()
print("IP address: " .. wifi.sta.getip())
print("Connecting to MQTT " .. mqtt_host)
mqttclient:on("connect", hass_register)
mqttclient:on("message", hass_config)
mqttclient:on("offline", log_restart)
mqttclient:lwt(mqtt_prefix .. "/state", "offline", 0, 1)
mqttclient:connect(mqtt_host)
end
function connect_wifi()
print("WiFi MAC: " .. wifi.sta.getmac())
print("Connecting to ESSID " .. station_cfg.ssid)
wifi.eventmon.register(wifi.eventmon.STA_GOT_IP, connect_mqtt)
wifi.eventmon.register(wifi.eventmon.STA_DHCP_TIMEOUT, log_restart)
wifi.eventmon.register(wifi.eventmon.STA_DISCONNECTED, log_restart)
wifi.setmode(wifi.STATION)
wifi.sta.config(station_cfg)
wifi.sta.connect()
end
function uart_callback(data)
if not sds011.parse_frame(data) then
print("Invalid or data-less SDS011 frame")
return
end
local work_period = "continuous"
if sds011.work_period > 0 then
work_period = string.format("%d min", sds011.work_period)
end
if sds011.work_period == 0 and not polling then
polling = true
port:write(sds011.set_report_mode(false))
poll:start()
end
if sds011.work_period > 0 and polling then
polling = false
port:write(sds011.set_report_mode(true))
poll:stop()
end
local json_str = string.format('{"rssi_dbm":%d,"period":"%s"', wifi.sta.getrssi(), work_period)
local influx_str = ""
if sds011.pm2_5i ~= nil then
json_str = string.format('%s,"pm2_5_ugm3":%d.%d,"pm10_ugm3":%d.%d', json_str, sds011.pm2_5i, sds011.pm2_5f, sds011.pm10i, sds011.pm10f)
influx_str = string.format("pm2_5_ugm3=%d.%d,pm10_ugm3=%d.%d", sds011.pm2_5i, sds011.pm2_5f, sds011.pm10i, sds011.pm10f)
end
json_str = json_str .. '}'
if not publishing_mqtt then
watchdog:start(true)
publishing_mqtt = true
gpio.write(ledpin, 0)
mqttclient:publish(mqtt_prefix .. "/data", json_str, 0, 0, function(client)
publishing_mqtt = false
if influx_url and influx_attr and influx_str then
publish_influx(influx_str)
else
gpio.write(ledpin, 1)
collectgarbage()
end
end)
end
end
function publish_influx(payload)
if not publishing_http then
publishing_http = true
http.post(influx_url, influx_header, "sds011" .. influx_attr .. " " .. payload, function(code, data)
publishing_http = false
gpio.write(ledpin, 1)
collectgarbage()
end)
end
end
function query_data()
port:write(sds011.query())
end
function hass_config(client, topic, message)
if topic == "config/" .. device_id .. "/set/work_period" then
local work_period = 0
local _, _, minutes = string.find(message, "([0-9]+) min")
if minutes ~= nil then
work_period = tonumber(minutes)
end
port:write(sds011.set_work_period(work_period))
end
end
function hass_register()
local hass_device = string.format('{"connections":[["mac","%s"]],"identifiers":["%s"],"model":"ESP8266 + SDS011","name":"SDS011 %s","manufacturer":"derf"}', wifi.sta.getmac(), device_id, chip_id)
local hass_entity_base = string.format('"device":%s,"state_topic":"%s/data","expire_after":1800', hass_device, mqtt_prefix)
local hass_pm2_5 = string.format('{%s,"name":"PM2.5","object_id":"%s_pm2_5","unique_id":"%s_pm2_5","device_class":"pm25","unit_of_measurement":"µg/m³","value_template":"{{value_json.pm2_5_ugm3}}"}', hass_entity_base, device_id, device_id)
local hass_pm10 = string.format('{%s,"name":"PM10","object_id":"%s_pm10","unique_id":"%s_pm10","device_class":"pm10","unit_of_measurement":"µg/m³","value_template":"{{value_json.pm10_ugm3}}"}', hass_entity_base, device_id, device_id)
local hass_rssi = string.format('{%s,"name":"RSSI","object_id":"%s_rssi","unique_id":"%s_rssi","device_class":"signal_strength","unit_of_measurement":"dBm","value_template":"{{value_json.rssi_dbm}}","entity_category":"diagnostic"}', hass_entity_base, device_id, device_id)
local hass_period = string.format('{%s,"name":"Measurement Period","object_id":"%s_period","unique_id":"%s_period","icon":"mdi:clock-outline","command_topic":"config/%s/set/work_period","options":["continuous","1 min","2 min","3 min","4 min","5 min","6 min","7 min","8 min","9 min","10 min"],"value_template":"{{value_json.period}}","entity_category":"config"}', hass_entity_base, device_id, device_id, device_id)
mqttclient:publish("homeassistant/sensor/" .. device_id .. "/pm2_5/config", hass_pm2_5, 0, 1, function(client)
mqttclient:publish("homeassistant/sensor/" .. device_id .. "/pm10/config", hass_pm10, 0, 1, function(client)
mqttclient:publish("homeassistant/sensor/" .. device_id .. "/rssi/config", hass_rssi, 0, 1, function(client)
mqttclient:publish("homeassistant/select/" .. device_id .. "/work_period/config", hass_period, 0, 1, function(client)
client:subscribe("config/" .. device_id .. "/set/work_period", 0, function(client)
collectgarbage()
setup_client()
end)
end)
end)
end)
end)
end
watchdog:register(20 * 60 * 1000, tmr.ALARM_SEMI, node.restart)
poll:register(10 * 1000, tmr.ALARM_AUTO, query_data)
watchdog:start()
connect_wifi()
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