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13 Commits
v1.2.0 ... master

Author SHA1 Message Date
Lukas Heiligenbrunner
aee4725379 Merge branch 'detach' into 'master' 
detach before call

See merge request lukas/pumpensteuerung!11
 2021-04-10 09:08:52 +00:00
lukas
697ed69d95 add new ticker to check after 500ms if water outage is correct. 2021-04-03 17:16:24 +02:00
lukas
6adfb3c09e detach before call 2021-04-01 17:33:57 +02:00
Lukas Heiligenbrunner
9c782879a5 Merge branch 'pumpcounter' into 'master' 
Total heating time and pump count

See merge request lukas/pumpensteuerung!9
 2021-03-26 22:15:20 +00:00
Lukas Heiligenbrunner
2f38947ea4 add features to show total heating time and percentage on heating tab 
and total pump cycles on homepage
 2021-03-26 22:15:20 +00:00
lukas
910797adaf add new feature to make wifi ap invisible 2021-01-03 17:08:05 +01:00
Lukas Heiligenbrunner
72095dbe3e Merge branch 'newheatingtab' into 'master' 
display information about last heating time in gui

See merge request lukas/pumpensteuerung!7
 2020-12-27 15:41:06 +00:00
Lukas Heiligenbrunner
c185fb7a8e display information about last heating time in gui 
restructurize some jsx classes
 2020-12-27 15:41:06 +00:00
lukas
6291c9311a cache more between builds 2020-12-12 16:10:06 +01:00
lukas
0817fcf492 use host time to calculate the real event time 2020-12-12 15:58:05 +01:00
Lukas Heiligenbrunner
747e7bbbf8 Merge branch 'notimeoverflow' into 'master' 
prevent time variable overflow

See merge request lukas/pumpensteuerung!6
 2020-12-12 14:13:34 +00:00
lukas
cb3850134a remove unneeded files 
use different functions in heater to provide code readability
 2020-12-10 18:51:49 +01:00
lukas
ee91b36c66 prevent time variable overflow 2020-12-09 19:53:59 +01:00
30 changed files with 539 additions and 266 deletions
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8
.gitlab-ci.yml
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@ -6,6 +6,7 @@ stages:
cache:
paths:
- "~/.platformio"
- ./interface/node_modules
before_script:
- "pip install -U platformio"
@ -13,7 +14,10 @@ before_script:
build:
stage: build
script: "platformio run -e esp12e"
script:
- "platformio run -e esp12e"
- vers=$(grep -Po '[0-9]+\.[0-9]+\.[0-9]+[-0-9A-Za-z]*(?=\")' ./src/Pins.h)
- mv .pio/build/esp12e/*.bin Pumpensteuerung-${vers}.bin
artifacts:
paths:
- .pio/build/esp12e/*.bin
- ./*.bin

1
factory_settings.ini
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@ -13,6 +13,7 @@ build_flags =
-D FACTORY_AP_LOCAL_IP=\"192.168.4.1\"
-D FACTORY_AP_GATEWAY_IP=\"192.168.4.1\"
-D FACTORY_AP_SUBNET_MASK=\"255.255.255.0\"
-D FACTORY_AP_VISIBLE=true
; User credentials for admin and guest user
-D FACTORY_ADMIN_USERNAME=\"admin\"

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12
interface/build/app/manifest.json
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@ -1,12 +0,0 @@
{
"name":"ESP8266 React",
"icons":[
{
"src":"/app/icon.png",
"sizes":"48x48 72x72 96x96 128x128 256x256"
}
],
"start_url":"/",
"display":"fullscreen",
"orientation":"any"
}

22
interface/build/css/roboto.css
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@ -1,22 +0,0 @@
/* Just supporting latin due to size constrains on the esp chip */
@font-face {
font-family: 'Roboto';
font-style: normal;
font-weight: 300;
src: local('Roboto Light'), local('Roboto-Light'), url(../fonts/li.woff2) format('woff2');
unicode-range: U+0000-00FF, U+0131, U+0152-0153, U+02BB-02BC, U+02C6, U+02DA, U+02DC, U+2000-206F, U+2074, U+20AC, U+2122, U+2212, U+2215;
}
@font-face {
font-family: 'Roboto';
font-style: normal;
font-weight: 400;
src: local('Roboto'), local('Roboto-Regular'), url(../fonts/re.woff2) format('woff2');
unicode-range: U+0000-00FF, U+0131, U+0152-0153, U+02BB-02BC, U+02C6, U+02DA, U+02DC, U+2000-206F, U+2074, U+20AC, U+2122, U+2212, U+2215;
}
@font-face {
font-family: 'Roboto';
font-style: normal;
font-weight: 500;
src: local('Roboto Medium'), local('Roboto-Medium'), url(../fonts/me.woff2) format('woff2');
unicode-range: U+0000-00FF, U+0131, U+0152-0153, U+02BB-02BC, U+02C6, U+02DA, U+02DC, U+2000-206F, U+2074, U+20AC, U+2122, U+2212, U+2215;
}

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13
interface/src/ap/APSettingsForm.tsx
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@ -3,8 +3,9 @@ import { TextValidator, ValidatorForm, SelectValidator } from 'react-material-ui
import MenuItem from '@material-ui/core/MenuItem';
import SaveIcon from '@material-ui/icons/Save';
import Checkbox from '@material-ui/core/Checkbox';
import { PasswordValidator, RestFormProps, FormActions, FormButton } from '../components';
import {PasswordValidator, RestFormProps, FormActions, FormButton, BlockFormControlLabel} from '../components';
import { isAPEnabled } from './APModes';
import { APSettings, APProvisionMode } from './types';
@ -91,6 +92,16 @@ class APSettingsForm extends React.Component<APSettingsFormProps> {
onChange={handleValueChange('subnet_mask')}
margin="normal"
/>
<BlockFormControlLabel
control={
<Checkbox
value="network_visible"
checked={data.network_visible}
onChange={handleValueChange("network_visible")}
/>
}
label="Network visible?"
/>
</Fragment>
}
<FormActions>

1
interface/src/ap/types.ts
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@ -24,4 +24,5 @@ export interface APSettings {
local_ip: string;
gateway_ip: string;
subnet_mask: string;
network_visible: boolean;
}

62
interface/src/project/GeneralInformation.tsx
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@ -1,15 +1,10 @@
import React, {Component} from 'react';
import {Box, List, ListItem, ListItemText} from '@material-ui/core';
import {
FormButton,
restController,
RestControllerProps,
RestFormLoader,
SectionContent
} from '../components';
import {FormButton, restController, RestControllerProps, RestFormLoader, SectionContent} from '../components';
import {ENDPOINT_ROOT} from "../api";
import {GeneralInformaitonState} from "./types";
import RefreshIcon from "@material-ui/icons/Refresh";
import {getRealTimeString, stringifyTime} from "./Time";
// define api endpoint
export const GENERALINFORMATION_SETTINGS_ENDPOINT = ENDPOINT_ROOT + "generalinfo";
@ -17,20 +12,8 @@ export const GENERALINFORMATION_SETTINGS_ENDPOINT = ENDPOINT_ROOT + "generalinfo
type GeneralInformationRestControllerProps = RestControllerProps<GeneralInformaitonState>;
class GeneralInformation extends Component<GeneralInformationRestControllerProps> {
intervalhandler: number | undefined;
componentDidMount() {
this.props.loadData();
// this.intervalhandler = window.setInterval(() => {
// this.props.loadData();
// console.log("refreshing data");
// console.log(this.props.data)
// }, 10000);
}
componentWillUnmount() {
clearInterval(this.intervalhandler);
}
render() {
@ -44,31 +27,40 @@ class GeneralInformation extends Component<GeneralInformationRestControllerProps
<ListItem>
<ListItemText
primary="Chip läuft seit:"
secondary={this.stringifyTime(props.data.runtime)}
secondary={<>{stringifyTime(props.data.runtime)}
<br/> {getRealTimeString(props.data.runtime)}</>}
/>
</ListItem>
<ListItem>
<ListItemText
primary="Zuletzt zu wenig Wasser:"
secondary={props.data.lastWaterOutage !== 0 ? "vor " + this.stringifyTime(props.data.lastWaterOutage) : "noch nie!"}
secondary={props.data.lastWaterOutage !== 0 ?
<>
vor {stringifyTime(props.data.lastWaterOutage)}<br/>
{getRealTimeString(props.data.lastWaterOutage)}
</> : "noch nie!"}
/>
</ListItem>
<ListItem>
<ListItemText
primary="Letzer Pumpenzyklus"
secondary={props.data.lastpumptime !== 0 ? "vor " + this.stringifyTime(props.data.lastpumptime) : "noch nie!"}
secondary={props.data.lastpumptime !== 0 ?
<>
vor {stringifyTime(props.data.lastpumptime)}<br/>
{getRealTimeString(props.data.lastpumptime)}
</> : "noch nie!"}
/>
</ListItem>
<ListItem>
<ListItemText
primary="Letze Pumpdauer:"
secondary={props.data.lastPumpDuration !== 0 ? this.stringifyTime(props.data.lastPumpDuration) : "-"}
secondary={props.data.lastPumpDuration !== 0 ? stringifyTime(props.data.lastPumpDuration) : "-"}
/>
</ListItem>
<ListItem>
<ListItemText
primary="Temperatur/Luftfeuchtigkeit:"
secondary={(props.data.temp !== -1 ? props.data.temp + "C" : "Auslesefehler!") + " / " + (props.data.hum !== -1 ? props.data.hum + "%" : "Auslesefehler!")}
primary="Pumpzyklen seit Programmstart"
secondary={props.data.pumpcycles}
/>
</ListItem>
<ListItem>
@ -95,26 +87,6 @@ class GeneralInformation extends Component<GeneralInformationRestControllerProps
</SectionContent>
);
}
/**
* stringify seconds to a pretty format
* @param sec number of seconds
*/
stringifyTime(sec: number): string {
if (sec >= 86400) {
// display days
return (Math.trunc(sec / 86400) + "d " + Math.trunc((sec % 86400) / 3600) + "h " + Math.trunc((sec % 3600) / 60) + "min " + sec % 60 + "sec");
} else if (sec >= 3600) {
// display hours
return (Math.trunc(sec / 3600) + "h " + Math.trunc((sec % 3600) / 60) + "min " + sec % 60 + "sec");
} else if (sec >= 60) {
// only seconds and minutes
return (Math.trunc(sec / 60) + "min " + sec % 60 + "sec");
} else {
// only seconds
return (sec + "sec");
}
}
}
export default restController(GENERALINFORMATION_SETTINGS_ENDPOINT, GeneralInformation);

70
interface/src/project/HeatingInformation.tsx Normal file
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@ -0,0 +1,70 @@
import React from "react";
import {FormButton, restController, RestControllerProps, RestFormLoader, SectionContent} from "../components";
import {ENDPOINT_ROOT} from "../api";
import {Box, List, ListItem, ListItemText} from "@material-ui/core";
import RefreshIcon from "@material-ui/icons/Refresh";
import {getRealTimeString, stringifyTime} from "./Time";
import {HeatingInformationState} from "./types";
// define api endpoint
export const HEATING_ENDPOINT = ENDPOINT_ROOT + "heatinginfo";
type HeatingRestcontollerprops = RestControllerProps<HeatingInformationState>;
class HeatingInformation extends React.Component<HeatingRestcontollerprops> {
componentDidMount() {
this.props.loadData();
}
render = () => (
<SectionContent title='Heizung Information' titleGutter>
<RestFormLoader
{...this.props}
render={props => (
<>
<List>
<ListItem>
<ListItemText
primary="Heizung lief zuletzt:"
secondary={props.data.lastheating !== 0 ?
<>
vor {stringifyTime(props.data.lastheating)}<br/>
{getRealTimeString(props.data.lastheating)}
</> : "noch nie!"}
/>
</ListItem>
<ListItem>
<ListItemText
primary="Letze Heizdauer:"
secondary={props.data.lastheatduration === 0 ? "-" : props.data.lastheatduration === -1 ? "läuft gerade!" : stringifyTime(props.data.lastheatduration)}
/>
</ListItem>
<ListItem>
<ListItemText
primary="Gesammte Heizdauer / Prozentuelle Einschaltzeit"
secondary={stringifyTime(props.data.totalheattime) + ' / ' + (props.data.heattimepercent * 100).toFixed(2) + '%'}
/>
</ListItem>
<ListItem>
<ListItemText
primary="Temperatur/Luftfeuchtigkeit:"
secondary={(props.data.temp !== -1 ? props.data.temp + "C" : "Auslesefehler!") + " / " + (props.data.hum !== -1 ? props.data.hum + "%" : "Auslesefehler!")}
/>
</ListItem>
</List>
<Box display="flex" flexWrap="wrap">
<Box flexGrow={1} padding={1}>
<FormButton startIcon={<RefreshIcon/>} variant="contained" color="secondary"
onClick={this.props.loadData}>
Refresh
</FormButton>
</Box>
</Box>
</>
)}
/>
</SectionContent>
);
}
export default restController(HEATING_ENDPOINT, HeatingInformation);

3
interface/src/project/PumpControl.tsx
View File

@ -9,6 +9,7 @@ import { AuthenticatedRoute } from '../authentication';
import GeneralInformation from './GeneralInformation';
import SettingsController from "./SettingsController";
import HeatingInformation from "./HeatingInformation";
class PumpControl extends Component<RouteComponentProps> {
@ -21,10 +22,12 @@ class PumpControl extends Component<RouteComponentProps> {
<MenuAppBar sectionTitle="Wasserpumpensteuerung">
<Tabs value={this.props.match.url} onChange={this.handleTabChange} variant="fullWidth">
<Tab value={`/${PROJECT_PATH}/pumpe/information`} label="Information" />
<Tab value={`/${PROJECT_PATH}/pumpe/heizung`} label="Heizung" />
<Tab value={`/${PROJECT_PATH}/pumpe/settings`} label="Einstellungen" />
</Tabs>
<Switch>
<AuthenticatedRoute exact path={`/${PROJECT_PATH}/pumpe/information`} component={GeneralInformation} />
<AuthenticatedRoute exact path={`/${PROJECT_PATH}/pumpe/heizung`} component={HeatingInformation} />
<AuthenticatedRoute exact path={`/${PROJECT_PATH}/pumpe/settings`} component={SettingsController} />
<Redirect to={`/${PROJECT_PATH}/pumpe/information`} />
</Switch>

33
interface/src/project/Time.ts Normal file
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@ -0,0 +1,33 @@
/**
* stringify seconds to a pretty format
* @param sec number of seconds
*/
export function stringifyTime(sec: number): string {
if (sec >= 86400) {
// display days
return (Math.trunc(sec / 86400) + "d " + Math.trunc((sec % 86400) / 3600) + "h " + Math.trunc((sec % 3600) / 60) + "min " + sec % 60 + "sec");
} else if (sec >= 3600) {
// display hours
return (Math.trunc(sec / 3600) + "h " + Math.trunc((sec % 3600) / 60) + "min " + sec % 60 + "sec");
} else if (sec >= 60) {
// only seconds and minutes
return (Math.trunc(sec / 60) + "min " + sec % 60 + "sec");
} else {
// only seconds
return (sec + "sec");
}
}
export function getRealTimeString(runtime: number): string {
const timestamp = Date.now();
const a = new Date(timestamp - (runtime * 1000));
const months = ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'];
const year = a.getFullYear();
const month = months[a.getMonth()];
const date = a.getDate();
const hour = a.getHours();
const min = "0" + a.getMinutes();
const sec = "0" + a.getSeconds();
return '[' + date + ' ' + month + ' ' + year + ' ' + hour + ':' + min.substr(-2) + ':' + sec.substr(-2) + ']';
}

12
interface/src/project/types.ts
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@ -7,8 +7,6 @@ export interface SettingsState {
}
export interface GeneralInformaitonState {
hum: number;
temp: number;
lastpumptime: number;
lastWaterOutage: number;
lastPumpDuration: number;
@ -16,4 +14,14 @@ export interface GeneralInformaitonState {
watersensor: boolean;
pressuresensor: boolean;
version: string;
pumpcycles: number;
}
export interface HeatingInformationState {
lastheating: number;
lastheatduration: number;
hum: number;
temp: number;
totalheattime: number;
heattimepercent: number;
}

2
lib/framework/APSettingsService.cpp
View File

@ -46,7 +46,7 @@ void APSettingsService::manageAP() {
void APSettingsService::startAP() {
Serial.println(F("Starting software access point"));
WiFi.softAPConfig(_state.localIP, _state.gatewayIP, _state.subnetMask);
WiFi.softAP(_state.ssid.c_str(), _state.password.c_str());
WiFi.softAP(_state.ssid.c_str(), _state.password.c_str(), 1, !_state.networkVisible);
if (!_dnsServer) {
IPAddress apIp = WiFi.softAPIP();
Serial.print(F("Starting captive portal on "));

9
lib/framework/APSettingsService.h
View File

@ -28,6 +28,10 @@
#define FACTORY_AP_PASSWORD "esp-react"
#endif
#ifndef FACTORY_AP_VISIBLE
#define FACTORY_AP_VISIBLE true
#endif
#ifndef FACTORY_AP_LOCAL_IP
#define FACTORY_AP_LOCAL_IP "192.168.4.1"
#endif
@ -53,10 +57,11 @@ class APSettings {
IPAddress localIP;
IPAddress gatewayIP;
IPAddress subnetMask;
bool networkVisible;
bool operator==(const APSettings& settings) const {
return provisionMode == settings.provisionMode && ssid == settings.ssid && password == settings.password &&
localIP == settings.localIP && gatewayIP == settings.gatewayIP && subnetMask == settings.subnetMask;
localIP == settings.localIP && gatewayIP == settings.gatewayIP && subnetMask == settings.subnetMask && networkVisible == settings.networkVisible;
}
static void read(APSettings& settings, JsonObject& root) {
@ -66,6 +71,7 @@ class APSettings {
root["local_ip"] = settings.localIP.toString();
root["gateway_ip"] = settings.gatewayIP.toString();
root["subnet_mask"] = settings.subnetMask.toString();
root["network_visible"] = settings.networkVisible;
}
static StateUpdateResult update(JsonObject& root, APSettings& settings) {
@ -81,6 +87,7 @@ class APSettings {
}
newSettings.ssid = root["ssid"] | FACTORY_AP_SSID;
newSettings.password = root["password"] | FACTORY_AP_PASSWORD;
newSettings.networkVisible = root["network_visible"] | FACTORY_AP_VISIBLE;
JsonUtils::readIP(root, "local_ip", newSettings.localIP, FACTORY_AP_LOCAL_IP);
JsonUtils::readIP(root, "gateway_ip", newSettings.gatewayIP, FACTORY_AP_GATEWAY_IP);

11
platformio.ini
View File

@ -20,11 +20,12 @@ build_flags=
lib_compat_mode = strict
; Uncomment & modify the lines below in order to configure OTA updates
upload_flags =
--port=8266
--auth=esp-react
--host_port=14515
upload_port = 192.168.0.230
;upload_flags =
; --port=8266
; --auth=esp-react
; --host_port=14515
;upload_port = 192.168.0.230
;upload_protocol = espota
framework = arduino
monitor_speed = 115200

31
src/GeneralInfoService.cpp
View File

@ -4,13 +4,13 @@
#include "GeneralInfoService.h"
#include "Pins.h"
#include "Timer.h"
GeneralInfoService::GeneralInfoService(AsyncWebServer *server, float *lasthum, float *lasttemp) :
hum(lasthum),
temp(lasttemp),
GeneralInfoService::GeneralInfoService(AsyncWebServer *server) :
lastPumpTime(0),
lastWaterOutage(0),
lastPumpDuration(0) {
lastPumpDuration(0),
pumpCycles(0) {
server->on(GENERALINFO_SERVICE_PATH, HTTP_GET, std::bind(&GeneralInfoService::reply, this, std::placeholders::_1));
}
@ -18,31 +18,36 @@ void GeneralInfoService::reply(AsyncWebServerRequest *request) {
AsyncJsonResponse *response = new AsyncJsonResponse(false, MAX_FEATURES_SIZE);
JsonObject root = response->getRoot();
root["temp"] = *temp;
root["hum"] = *hum;
const uint32_t systime = Timer::getSystemSeconds();
root["lastpumptime"] = lastPumpTime != 0 ? (millis() - lastPumpTime) / 1000 : 0;
root["lastWaterOutage"] = lastWaterOutage != 0 ? (millis() - lastWaterOutage) / 1000 : 0;
root["lastPumpDuration"] = lastPumpDuration != 0 ? lastPumpDuration / 1000 : 0;
root["runtime"] = millis() / 1000;
root["lastpumptime"] = lastPumpTime != 0 ? systime - lastPumpTime : 0;
root["lastWaterOutage"] = lastWaterOutage != 0 ? systime - lastWaterOutage : 0;
root["lastPumpDuration"] = lastPumpDuration != 0 ? lastPumpDuration : 0;
root["runtime"] = systime;
root["watersensor"] = digitalRead(WasserSensorPin) ? true : false;
root["pressuresensor"] = digitalRead(DruckSensorPin) ? true : false;
root["pumpcycles"] = pumpCycles;
root["version"] = VERSION;
response->setLength();
request->send(response);
}
void GeneralInfoService::setlastPumpTime(unsigned long lastPumpTime) {
void GeneralInfoService::setlastPumpTime(uint32_t lastPumpTime) {
this->lastPumpTime = lastPumpTime;
}
void GeneralInfoService::setlastWaterOutage(unsigned long lastWaterOutage) {
void GeneralInfoService::setlastWaterOutage(uint32_t lastWaterOutage) {
this->lastWaterOutage = lastWaterOutage;
}
void GeneralInfoService::setPumpDuration(unsigned long lastPumpDuration) {
void GeneralInfoService::setPumpDuration(uint32_t lastPumpDuration) {
this->lastPumpDuration = lastPumpDuration;
}
void GeneralInfoService::setPumpCycles(uint32_t cycles) {
this->pumpCycles = cycles;
}

14
src/GeneralInfoService.h
View File

@ -17,34 +17,34 @@
class GeneralInfoService {
public:
GeneralInfoService(AsyncWebServer* server, float* lasthum, float* lasttemp);
GeneralInfoService(AsyncWebServer* server);
/**
* sets the last time when the pump was on
* @param lastPumpTime pump time in ms
*/
void setlastPumpTime(unsigned long lastPumpTime);
void setlastPumpTime(uint32_t lastPumpTime);
/**
* sets the last time of a water outage
* @param lastWaterOutage last wateroutage time in ms
*/
void setlastWaterOutage(unsigned long lastWaterOutage);
void setlastWaterOutage(uint32_t lastWaterOutage);
/**
* sets the duration of the last pump cycle
* @param lastPumpDuration duration in ms
*/
void setPumpDuration(unsigned long lastPumpDuration);
void setPumpDuration(uint32_t lastPumpDuration);
void setPumpCycles(uint32_t i);
private:
void reply(AsyncWebServerRequest* request);
float * hum;
float * temp;
unsigned long lastPumpTime, lastWaterOutage, lastPumpDuration;
uint32_t pumpCycles;
};

180
src/Heating.cpp
View File

@ -4,11 +4,113 @@
#include "Heating.h"
#include "Pins.h"
#include "Timer.h"
Heating::Heating() : mHeizungTicker(),
mLuefterTicker(),
mTurnOffTicker(),
msettings(nullptr),
mheatingservice(nullptr),
mHeatingStatus(false),
lasttemp(0),
lasthum(0),
sensor() {}
void Heating::init(unsigned mode, const SettingState *settings, HeatingInfoService *heatingservice) {
msettings = settings;
mheatingservice = heatingservice;
void Heating::init(unsigned mode, const SettingState* settings) {
switch (mode) {
case TIME: {
this->handleTimeHeater();
break;
}
case HUMIDITY:
mHeatingStatus = false;
sensor.setPin(TempSensorPin);
sensor.onData([this](float hum, float temp) {
schedule_function([hum, temp, this]() {
Serial.printf("Temp: %gdegC\n", temp);
Serial.printf("Humid: %g%%\n", hum);
mheatingservice->setSensorData(hum, temp);
this->lasttemp = temp;
this->lasthum = hum;
this->handleHeatingEvents();
});
});
sensor.onError([this](uint8_t e) {
this->lasttemp = -1.0;
this->lasthum = -1.0;
mheatingservice->setSensorData(-1.0, -1.0);
// emergency turnoff of heating
if (mHeatingStatus) {
digitalWrite(HeizungPin, LOW);
}
schedule_function([e]() {
Serial.printf("Error: %d\n", e);
});
});
mHeizungTicker.attach(10, [this]() {
sensor.read();
});
break;
default:
break;
}
}
void Heating::handleHeatingEvents() {
if (this->lasthum > (float) msettings->heatUp) {
// only turn on if turned off
if (mHeatingStatus == false) {
// turn off active turnoff timers
mLuefterTicker.detach();
Serial.println("heating should run now!");
// turn on heating and fan
digitalWrite(LuefterPin, HIGH);
digitalWrite(HeizungPin, HIGH);
mHeatingStatus = true;
mheatingservice->setLastHeatingStarttime(Timer::getSystemSeconds());
mheatingservice->setLastHetingEndtime(0);
}
} else if (this->lasthum < (float) msettings->heatLow) {
// if humidity too low turn off heating and fan after 60secs
if (mHeatingStatus == true) {
digitalWrite(HeizungPin, LOW);
Serial.println("heating should NOT run now!");
// add the heat time it took to the total
mheatingservice->addHeatTime(Timer::getSystemSeconds() - mheatingservice->getLastHeatingStartTime());
// if heating status in on set ticker to turn of fan in 60sec
if (mHeatingStatus) {
mLuefterTicker.once((float) msettings->fanRuntime, []() {
// turn off fan
digitalWrite(LuefterPin, LOW);
schedule_function([]() {
Serial.println("turning off fan");
});
});
}
mheatingservice->setLastHetingEndtime(Timer::getSystemSeconds());
mHeatingStatus = false;
}
}
}
void Heating::handleTimeHeater() {
const unsigned percentOn = 20;
const unsigned refreshperiod = 900;
@ -36,80 +138,4 @@ void Heating::init(unsigned mode, const SettingState* settings) {
func();
mHeizungTicker.attach(refreshperiod, func);
break;
}
case HUMIDITY:
mHeatingStatus = false;
sensor.setPin(TempSensorPin);
sensor.onData([this, settings](float hum, float temp) {
schedule_function([hum, temp, settings, this]() {
Serial.printf("Temp: %gdegC\n", temp);
Serial.printf("Humid: %g%%\n", hum);
this->lasttemp = temp;
this->lasthum = hum;
if (hum > (float)settings->heatUp) {
// turn off active turnoff timers
mLuefterTicker.detach();
Serial.println("heating should run now!");
// turn on heating and fan
digitalWrite(LuefterPin, HIGH);
digitalWrite(HeizungPin, HIGH);
mHeatingStatus = true;
} else if (hum < (float)settings->heatLow) {
// if humidity too low turn off heating and fan after 60secs
digitalWrite(HeizungPin, LOW);
Serial.println("heating should NOT run now!");
// if heating status in on set ticker to turn of fan in 60sec
if (mHeatingStatus) {
mLuefterTicker.once((float)settings->fanRuntime, []() {
// turn off fan
digitalWrite(LuefterPin, LOW);
schedule_function([]() {
Serial.println("turning off fan");
});
});
}
mHeatingStatus = false;
}
});
});
sensor.onError([this](uint8_t e) {
this->lasttemp = -1.0;
this->lasthum = -1.0;
schedule_function([e]() {
Serial.printf("Error: %d\n", e);
});
});
mHeizungTicker.attach(10, [this]() {
sensor.read();
});
break;
default:
break;
}
}
float *Heating::getLastTemp() {
return &lasttemp;
}
float *Heating::getLastHum() {
return &lasthum;
}
Heating::Heating() : mHeizungTicker(),
mLuefterTicker(),
mTurnOffTicker(),
mHeatingStatus(),
lasttemp(0),
lasthum(0),
sensor() {}

27
src/Heating.h
View File

@ -8,15 +8,18 @@
#include <DHT.h>
#include "Pins.h"
#include "SettingsService.h"
#include "HeatingInfoService.h"
class Heating {
public:
Heating();
void init(unsigned mode, const SettingState* settings);
float* getLastHum();
float* getLastTemp();
/**
* initialize the heater
* @param mode select the operating mode
* @param settings a settings object is needed for HUMIDITY mode to get percent values set by user
*/
void init(unsigned mode, const SettingState* settings, HeatingInfoService *heatingservice);
enum MODES {TIME, HUMIDITY};
private:
@ -24,10 +27,26 @@ private:
Ticker mLuefterTicker;
Ticker mTurnOffTicker;
const SettingState* msettings;
HeatingInfoService *mheatingservice;
bool mHeatingStatus;
float lasttemp;
float lasthum;
DHT22 sensor;
/**
* handle events after successfully received a humidity value
* - turn on/off of heating
* - afterrun of fan
*/
void handleHeatingEvents();
/**
* handle events for time-heating mode
* when to turn on/off heating + fan
*/
void handleTimeHeater();
};

58
src/HeatingInfoService.cpp Normal file
View File

@ -0,0 +1,58 @@
//
// Created by lukas on 19.12.20.
//
#include <AsyncJson.h>
#include "HeatingInfoService.h"
#include "Timer.h"
HeatingInfoService::HeatingInfoService(AsyncWebServer *server) :
hum(-1),
temp(-1),
lastheating(0),
lastheatend(0),
totalHeatTime(0) {
server->on(HEATINGINFO_SERVICE_PATH, HTTP_GET, std::bind(&HeatingInfoService::reply, this, std::placeholders::_1));
}
void HeatingInfoService::reply(AsyncWebServerRequest *request) {
AsyncJsonResponse *response = new AsyncJsonResponse(false, MAX_FEATURES_SIZE);
JsonObject root = response->getRoot();
root["temp"] = temp;
root["hum"] = hum;
const uint32_t systime = Timer::getSystemSeconds();
root["lastheating"] = lastheating != 0 ? systime - lastheating : 0;
// if lastheating == 0 => there was no cycle upon now
// if lastheatend == 0 => heating is currently active
root["lastheatduration"] = lastheating == 0 ? 0 : lastheatend == 0 ? -1 : lastheatend - lastheating;
root["totalheattime"] = this->totalHeatTime;
root["heattimepercent"] = (float)this->totalHeatTime / (float)Timer::getSystemSeconds();
response->setLength();
request->send(response);
}
void HeatingInfoService::setSensorData(float hum, float temp) {
this->hum = hum;
this->temp = temp;
}
void HeatingInfoService::setLastHeatingStarttime(unsigned long time) {
this->lastheating = time;
}
void HeatingInfoService::setLastHetingEndtime(unsigned long time) {
this->lastheatend = time;
}
uint32_t HeatingInfoService::getLastHeatingStartTime() {
return this->lastheating;
}
void HeatingInfoService::addHeatTime(uint32_t time) {
totalHeatTime += time;
}

44
src/HeatingInfoService.h Normal file
View File

@ -0,0 +1,44 @@
//
// Created by lukas on 19.12.20.
//
#ifndef PUMPENSTEUERUNG_HEATINGINFOSERVICE_H
#define PUMPENSTEUERUNG_HEATINGINFOSERVICE_H
#include <ESPAsyncWebServer.h>
#define MAX_FEATURES_SIZE 256
#define HEATINGINFO_SERVICE_PATH "/rest/heatinginfo" // set the api backend path
class HeatingInfoService {
public:
HeatingInfoService(AsyncWebServer* server);
void setSensorData(float hum, float temp);
void setLastHeatingStarttime(unsigned long time);
uint32_t getLastHeatingStartTime();
void setLastHetingEndtime(unsigned long time);
/**
* add time how long the heater heated
* @param time time in seconds
*/
void addHeatTime(uint32_t time);
private:
void reply(AsyncWebServerRequest* request);
float hum;
float temp;
unsigned long lastheating;
unsigned long lastheatend;
uint32_t totalHeatTime;
};
#endif //PUMPENSTEUERUNG_HEATINGINFOSERVICE_H

2
src/Pins.h
View File

@ -16,6 +16,6 @@
#define TempSensorPin D4
// version info
#define VERSION "v1.2.0"
#define VERSION "v1.2.4-Alpha2"
#endif //PUMPENSTEUERUNG_PINS_H

10
src/Timer.cpp Normal file
View File

@ -0,0 +1,10 @@
//
// Created by lukas on 09.12.20.
//
#include <Arduino.h>
#include "Timer.h"
uint32_t Timer::getSystemSeconds() {
return (uint32_t)(micros64() / 1000000);
}

18
src/Timer.h Normal file
View File

@ -0,0 +1,18 @@
//
// Created by lukas on 09.12.20.
//
#ifndef PUMPENSTEUERUNG_TIMER_H
#define PUMPENSTEUERUNG_TIMER_H
class Timer {
public:
/**
* get system time in seconds
* @return system time in seconds
*/
static uint32_t getSystemSeconds();
};
#endif //PUMPENSTEUERUNG_TIMER_H

38
src/main.cpp
View File

@ -5,6 +5,8 @@
#include "Pins.h"
#include "GeneralInfoService.h"
#include "SettingsService.h"
#include "Timer.h"
#include "HeatingInfoService.h"
bool allow;
bool error = false;
@ -13,17 +15,19 @@ bool error = false;
Ticker status;
//pumpendauer maximum ticker
Ticker pumpendauer;
Ticker pumpendauer, wasserSensorDoubleCheck;
//WifiManager mang;
Heating mHeat;
unsigned long turnontime = 0;
uint32_t turnontime = 0;
uint32_t pumpcycles = 0;
AsyncWebServer server(80);
ESP8266React esp8266React(&server);
GeneralInfoService generalinfo = GeneralInfoService(&server, mHeat.getLastHum(), mHeat.getLastTemp());
GeneralInfoService generalinfo = GeneralInfoService(&server);
HeatingInfoService heatinginfo = HeatingInfoService(&server);
SettingsService settingsservice = SettingsService(&server, esp8266React.getSecurityManager());
void pumpeSchalten(bool on) {
@ -31,16 +35,20 @@ void pumpeSchalten(bool on) {
if (on) {
Serial.println("versuche Pumpe EIN zuschalten");
// refresh last pump counter
generalinfo.setlastPumpTime(millis());
generalinfo.setlastPumpTime(Timer::getSystemSeconds());
} else {
Serial.println("versuche Pumpe AUS zuschalten");
}
if (allow && !error) {
if (on) {
pumpcycles++;
generalinfo.setPumpCycles(pumpcycles);
pumpendauer.once((float) settingsservice.getSettings()->maxpumpduration + 1, []() {
//erlaube keine einschaltung von mehr als 60 sek
if (millis() - turnontime >= (unsigned)settingsservice.getSettings()->maxpumpduration * 1000 && turnontime != 0) {
if (Timer::getSystemSeconds() - turnontime >=
(unsigned) settingsservice.getSettings()->maxpumpduration && turnontime != 0) {
//error zu lange
Serial.println("\n\npumpe lief mehr als 10 Minuten durchgaengig");
pumpeSchalten(false);
@ -48,16 +56,17 @@ void pumpeSchalten(bool on) {
}
});
} else {
generalinfo.setPumpDuration(millis() - turnontime);
generalinfo.setPumpDuration(Timer::getSystemSeconds() - turnontime);
}
// save pump start time
turnontime = millis();
turnontime = Timer::getSystemSeconds();
digitalWrite(SchuetzPin, on);
Serial.println("[Erfolg] pumpe wird geschalten");
} else {
Serial.println("[FEHLGESCHLAGEN] Schalten des Schütz gesperrt durch Timeout oder Fehler-- sofortiges ausschalten der pumpe\n");
Serial.println(
"[FEHLGESCHLAGEN] Schalten des Schütz gesperrt durch Timeout oder Fehler-- sofortiges ausschalten der pumpe\n");
turnontime = -1;
digitalWrite(SchuetzPin, LOW);
}
@ -85,12 +94,15 @@ ICACHE_RAM_ATTR void DruckschalterInt() {
int wateroutagewaitduration;
void WasserSensorCheck() {
if (digitalRead(WasserSensorPin) == LOW) {
// check if water sensor is also low after 500ms and lock it then
wasserSensorDoubleCheck.once_ms(500, []() {
if (digitalRead(WasserSensorPin) == LOW) {
Serial.println("Wasser Sensor AUS");
//kein Wasser dh timer auf 10min stellen
// refresh wateroutage counter
generalinfo.setlastWaterOutage(millis());
generalinfo.setlastWaterOutage(Timer::getSystemSeconds());
allow = false;
Serial.println("Schalte pumpe aus");
@ -101,6 +113,8 @@ void WasserSensorCheck() {
status.detach();
wateroutagewaitduration = settingsservice.getSettings()->waterOutageWaitDuration;
status.detach();
status.attach(5, []() {
wateroutagewaitduration -= 5;
Serial.print("noch ");
@ -108,6 +122,7 @@ void WasserSensorCheck() {
Serial.println(" Sekunden verbleibend");
if (wateroutagewaitduration <= 0) {
status.detach();
if (digitalRead(WasserSensorPin)) {
allow = true;
Serial.println("Einschalten der Pumpe wieder erlaubt.");
@ -118,7 +133,8 @@ void WasserSensorCheck() {
Serial.print("wassersensor immer noch kein Wasser --> verlaengern um 120min\n\n");
WasserSensorCheck();
}
status.detach();
}
});
}
});
} else {
@ -179,7 +195,7 @@ void setup() {
// initialize heating control
Serial.println("initializing heating service");
mHeat.init(Heating::HUMIDITY, settingsservice.getSettings());
mHeat.init(Heating::HUMIDITY, settingsservice.getSettings(), &heatinginfo);
Serial.println("startup sequence complete!\n");
}