jct/deskcontrol
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jct:v.0.5.1
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9 changed files with 86 additions and 2800 deletions
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11
.drone.yml
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@ -16,17 +16,10 @@ steps:
- name: release - name: release
image: plugins/gitea-release image: plugins/gitea-release
settings: settings:
api_key: api_key: a7f3afc9f77e721951e48b4af66d7565700b7a2e
from_secret: DRONE_ACCESS_TOKEN
base_url: https://code.jcktrue.dk base_url: https://code.jcktrue.dk
files: files:
- .pio/build/nodemcu/firmware.bin - .pio/build/nodemcu/firmware.bin
checksum: - .pio/build/nodemcu/firmware.elf
- md5
- sha1
- sha256
- sha512
- adler32
- crc32
when: when:
event: tag event: tag

5
.gitignore vendored
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@ -1,4 +1,5 @@
.pioenvs
.piolibdeps
.pio .pio
data/homie/config.json data/homie/config.json
.vscode nbproject
output/doxygen

2608
Doxyfile
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File diff suppressed because it is too large Load Diff

3
Makefile
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@ -4,6 +4,3 @@ build:
otaupload: otaupload:
pip install -r .pio/libdeps/nodemcu/Homie/scripts/ota_updater/requirements.txt pip install -r .pio/libdeps/nodemcu/Homie/scripts/ota_updater/requirements.txt
python .pio/libdeps/nodemcu/Homie/scripts/ota_updater/ota_updater.py -l mqtt.jcktrue.dk -i 18fe34f2f987 .pio/build/nodemcu/firmware.bin python .pio/libdeps/nodemcu/Homie/scripts/ota_updater/ota_updater.py -l mqtt.jcktrue.dk -i 18fe34f2f987 .pio/build/nodemcu/firmware.bin
docs:
doxygen .\.doxygen

15
data/homie/config.example.json
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@ -1,15 +0,0 @@
{
"name": "deskcontrol",
"wifi": {
"ssid": "<SSID>",
"password": "<PASS>"
},
"mqtt": {
"host": "<Domain>",
"port": 1883,
"auth": false
},
"ota": {
"enabled": true
}
}

36
include/config.h
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@ -1,36 +0,0 @@
/**
* \file
* \class Config
*/
#ifndef CONFIG_H
#define CONFIG_H
#ifndef VERSION
//SEMVER style version
/**
* \brief Version string.
* Update as needed. Formatted as SEMVER style string.
* See https://semver.org/ for more information.
*/
#define VERSION "0.4.5-Dev"
#endif
/**
* Set the default Serial baudrate in bits/seconds
*/
#define CONFIG_SERIAL_BAUDRATE 115200
/**
* Pin ID of the output relay
*/
#define CONFIG_IO_RELAY D1
/**
* Pin ID of the DHT11 temperature sensor
*/
#define CONFIG_IO_DHT11 D2
/**
* Interval at which the tempreature is sent in seconds
*/
#define CONFIG_TEMPERATURE_SEND_INTERVAL 60
#endif

0
output/FOR_GENERATED_FILES
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27
platformio.ini
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@ -1,12 +1,27 @@
[env] #
platform = espressif8266 # Project Configuration File
framework = arduino #
# A detailed documentation with the EXAMPLES is located here:
# http://docs.platformio.org/en/latest/projectconf.html
#
upload_speed=921600 # A sign `#` at the beginning of the line indicates a comment
# Comment lines are ignored.
build_flags = -DPIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY -DVERSION=${sysenv.DRONE_SEMVER} # Simple and base environment
lib_deps = https://github.com/homieiot/homie-esp8266.git#develop, DHT sensor library for ESPx, HomieLoggerNode # [env:mybaseenv]
# platform = %INSTALLED_PLATFORM_NAME_HERE%
# framework =
# board =
#
# Automatic targets - enable auto-uploading
# targets = upload
[env:nodemcu] [env:nodemcu]
platform = espressif8266
framework = arduino
board = nodemcu board = nodemcu
upload_speed=921600
build_flags = -D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY
lib_deps = https://github.com/homieiot/homie-esp8266.git#develop-v3, Syslog

177
src/main.cpp
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@ -1,70 +1,32 @@
/**
* \brief Entry point
*
* Deskcontrol is a simple on/off timer switch inteded for use with an ATX PSU.
* The theory of operation is turning on and off power by pulling the control line low/high while
* running of the 5V standby line.
*
* Additional features include support for a DHT11 to log the temperature.
* \file
*/
#include "config.h"
#include <Homie.h> #include <Homie.h>
#include <Syslog.h>
#include <WiFiUdp.h>
WiFiUDP udpClient;
Syslog syslog(udpClient, SYSLOG_PROTO_IETF);
#include <LoggerNode.h> const int PIN_RELAY = D1;
LoggerNode LN; ///<Instance of the LoggerNode library #define OUTPUT_SET(x) digitalWrite(PIN_RELAY, x ? LOW : HIGH);
unsigned int timer = 0;
#include "DHTesp.h" unsigned int next_timer_update = 0;
DHTesp dht; ///< Instance of the DHT temperature controller.
#define OUTPUT_SET(x) digitalWrite(CONFIG_IO_RELAY, x ? LOW : HIGH) ///< Macro for controlling the output state.
unsigned int timer = 0; ///< Remaining time when counting down.
unsigned int next_timer_update = 0; ///< Timer used to control when the timer value should be pushed to the server
HomieNode powerNode("power", "Power", "switch"); HomieNode powerNode("power", "Power", "switch");
HomieNode temperatureNode("temperature", "Temperature", "temperature");
/** Power state handler bool powerStateHandler(const HomieRange& range, const String& value) {
* Handles event on the power state MQTT node if (value != "on" && value != "off") return false;
* \param[in] range Currently unused
* \param[in] value New value of the power state. (Either "on" or off")
* \return False if input is invalid. Otherwise true.
*/
bool powerStateHandler(const HomieRange& range, const String& value)
{
if (value != "on" && value != "off")
{
return false;
}
powerNode.setProperty("state").send(value); powerNode.setProperty("state").send(value);
powerNode.setProperty("timer").send("0"); powerNode.setProperty("timer").send("0");
timer = 0; timer = 0;
if(value == "on") {
if(value == "on")
{
OUTPUT_SET(true); OUTPUT_SET(true);
LN.logf(__PRETTY_FUNCTION__, LoggerNode::INFO, "Power ON"); Homie.getLogger() << "Power is on" << endl;
} } else {
else OUTPUT_SET(false);
{ Homie.getLogger() << "Power is off" << endl;
OUTPUT_SET(false); LN.logf(__PRETTY_FUNCTION__, LoggerNode::INFO, "Power OFF");
} }
return true; return true;
} }
/** bool powerTimerHandler(const HomieRange& range, const String& value) {
* \brief powerTimer event handler.
* Handler for events on the powerTimer node.
* \param[in] range Currently unused.
* \param[in] value New value for the timer in minutes. ASCII representation of an integer from 1 to 120.
* \return False if input is invalid. Otherwise true.
*/
bool powerTimerHandler(const HomieRange& range, const String& value)
{
int settimer = value.toInt(); int settimer = value.toInt();
if(settimer == 0 || settimer > 120) if(settimer == 0 || settimer > 120)
return false; return false;
@ -73,108 +35,85 @@ bool powerTimerHandler(const HomieRange& range, const String& value)
next_timer_update = millis() + 60*1000; next_timer_update = millis() + 60*1000;
powerNode.setProperty("timer").send(String(settimer)); powerNode.setProperty("timer").send(String(settimer));
powerNode.setProperty("state").send("on"); powerNode.setProperty("state").send("on");
LN.logf(__PRETTY_FUNCTION__, LoggerNode::INFO, "Power on for %d minutes", settimer); Homie.getLogger() << "Power is on for " << settimer << "minutes" << endl;
OUTPUT_SET(true); OUTPUT_SET(true);
return true; return true;
} }
/**
* setupHandler. Comply with Homie interface void setupHandler() {
*/ pinMode(PIN_RELAY, OUTPUT);
void setupHandler()
{
pinMode(CONFIG_IO_RELAY, OUTPUT);
OUTPUT_SET(false); OUTPUT_SET(false);
powerNode.setProperty("state").send("off"); powerNode.setProperty("state").send("off");
powerNode.setProperty("timer").send("0"); powerNode.setProperty("timer").send("0");
dht.setup(CONFIG_IO_DHT11, DHTesp::DHT11); // Connect DHT sensor to GPIO 17
} }
/** void loopHandler() {
* Handle timer updates from the main event loop
*/
void loopHandleTimer()
{
if(timer) if(timer)
{ {
if(timer < millis()) if(timer < millis())
{ //Timer has expired. (Ignore the wraparound...) {
timer = 0; timer = 0;
OUTPUT_SET(false); OUTPUT_SET(false);
powerNode.setProperty("timer").send("0"); powerNode.setProperty("timer").send("0");
powerNode.setProperty("state").send("off");
} }
if(millis() > next_timer_update) {
if(next_timer_update && millis() > next_timer_update)
{
next_timer_update = millis() + 60*1000; next_timer_update = millis() + 60*1000;
unsigned int time_remaining = timer - millis(); unsigned int time_remaining = timer - millis();
unsigned int min_left = time_remaining / (60*1000); unsigned int min_left = time_remaining / (60*1000);
powerNode.setProperty("timer").send(String(min_left)); powerNode.setProperty("timer").send(String(min_left));
} }
} }
} }
/** void onHomieEvent(const HomieEvent& event) {
* Handle periodic temperature measurements from the main event loop switch(event.type) {
*/ case HomieEventType::OTA_FAILED:
void loopHandleTemperature() syslog.log(LOG_INFO, "OTA failed");
{ // Do whatever you want when OTA is failed
static unsigned long lastTemperatureSent = 0; break;
if (millis() - lastTemperatureSent >= CONFIG_TEMPERATURE_SEND_INTERVAL * 1000UL || lastTemperatureSent == 0) case HomieEventType::OTA_SUCCESSFUL:
{ syslog.log(LOG_INFO, "OTA completed");
float humidity = dht.getHumidity(); break;
float temperature = dht.getTemperature(); case HomieEventType::WIFI_CONNECTED:
LN.logf(__PRETTY_FUNCTION__, LoggerNode::DEBUG, "Temperature: %f C Humidity: %f", temperature, humidity); // Do whatever you want when Wi-Fi is connected in normal mode
temperatureNode.setProperty("temperature").send(String(temperature)); syslog.deviceHostname(Homie.getConfiguration().name);
temperatureNode.setProperty("humidity").send(String(humidity)); syslog.appName("deskcontrol");
lastTemperatureSent = millis(); syslog.defaultPriority(LOG_ERR);
syslog.log(LOG_INFO, "WiFi Connected, software version: 1.0");
break;
case HomieEventType::MQTT_READY:
syslog.log(LOG_INFO, "MQTT connected");
break;
case HomieEventType::MQTT_DISCONNECTED:
syslog.log(LOG_INFO, "MQTT disconnected");
break;
default:
break;
} }
} }
/** void setup() {
* Main event loop. Part of the Homie API. This runs while the device is active and connected. syslog.server("192.168.1.100", 514);
*
* \callgraph
*/
void loopHandler()
{
loopHandleTimer();
loopHandleTemperature();
}
/** Serial.begin(115200);
* Arduino style setup() routine.
* Configure the Homie framework by adding the two nodes "power" and "temperature"
*/
void setup()
{
Homie_setFirmware("deskcontrol", VERSION); Serial << endl << endl;
Homie.setLoggingPrinter(&Serial); Serial << "Firmware 0.0.1" << endl;
Serial.begin(CONFIG_SERIAL_BAUDRATE); Serial << endl << endl;
Homie.disableResetTrigger(); Homie_setFirmware("deskcontrol", "1.0.0");
Homie_setBrand("FuryFire");
//Power
powerNode.advertise("state").settable(powerStateHandler); powerNode.advertise("state").settable(powerStateHandler);
powerNode.advertise("timer").settable(powerTimerHandler); powerNode.advertise("timer").settable(powerTimerHandler);
//Temperature
temperatureNode.advertise("humidity");
temperatureNode.advertise("temperature");
Homie.setSetupFunction(setupHandler); Homie.setSetupFunction(setupHandler);
Homie.onEvent(onHomieEvent); // before Homie.setup()
Homie.setLoopFunction(loopHandler); Homie.setLoopFunction(loopHandler);
Homie.setup(); Homie.setup();
} }
/** void loop() {
* Arduino main loop. Forwarded to Homie framework
*/
void loop()
{
Homie.loop(); Homie.loop();
} }