master #1

Merged
interfisch merged 2 commits from henne/blitzer:master into master 2022-07-25 11:15:33 +00:00
12 changed files with 176 additions and 57 deletions
Showing only changes of commit c8f96c4b69 - Show all commits

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@ -14,3 +14,5 @@ board = d1_mini
framework = arduino framework = arduino
monitor_speed = 115200 monitor_speed = 115200
lib_deps = me-no-dev/ESP Async WebServer@^1.2.3 lib_deps = me-no-dev/ESP Async WebServer@^1.2.3
upload_port=/dev/tty.usbserial-1320
monitor_port=/dev/tty.usbserial-1320

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@ -0,0 +1,32 @@
#include <fluroclock.h>
#include <ESP8266HTTPClient.h>
#include <WiFiClient.h>
#include <string>
String url = "http://151.217.19.22/api/panel/numeric";
WiFiClient client;
HTTPClient http;
void setPanel(int, char);
void displaySpeed(float speed) {
char buffer[6];
dtostrf(speed, 6, 2, buffer);
setPanel(4, buffer[1]);
setPanel(3, buffer[2]);
setPanel(2, buffer[4]);
setPanel(1, buffer[5]);
}
void setPanel(int panel_id, char value) {
http.begin(client, url.c_str());
http.addHeader("Content-Type", "application/json");
String request = "{\"panel_id\":\"";
request.concat(panel_id);
request.concat("\", \"value\": \"");
request.concat(value);
request.concat("\"}");
Serial.println(request);
http.POST(request);
http.end();
}

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@ -0,0 +1,5 @@
#ifndef fluroclock_h
#define fluroclock_h
void displaySpeed(float speed);
#endif

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@ -22,6 +22,7 @@
</head> </head>
<body> <body>
<h1>Blitzercontrol</h1> <h1>Blitzercontrol</h1>
<button onclick="getData()">Refresh</button>
<h2>Highscore</h2> <h2>Highscore</h2>
<span id="highscore">23km/h</span> <span id="highscore">23km/h</span>
<h2>Letzte Messungen</h2> <h2>Letzte Messungen</h2>
@ -54,17 +55,23 @@
fetch('/set?speed=' + thresholdFieldElem.value); fetch('/set?speed=' + thresholdFieldElem.value);
} }
function getData() { function getData() {
fetch('/data.json') const controller = new AbortController();
const id = setTimeout(() => controller.abort(), 1500);
fetch('/data.json', {
signal: controller.signal
})
.then(response => response.json()) .then(response => response.json())
.then(data => { .then(data => {
clearTimeout(id);
highscoreElem.innerText = data.highscore + ' km/h'; highscoreElem.innerText = data.highscore + ' km/h';
let c = lastSpeeds.children; let c = lastSpeeds.children;
for(let i=0; i<data.lastSpeeds.length; i++) { for(let i=0; i<data.lastSpeeds.length; i++) {
c[i].innerText = data.lastSpeeds[i] + ' km/h'; c[i].innerText = data.lastSpeeds[i] + ' km/h';
} }
thresholdFieldElem.value = data.threshold
}); });
} }
window.setInterval(getData, 1000) window.setInterval(getData, 5000)
getData(); getData();
</script> </script>
</body> </body>

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@ -1,11 +1,12 @@
#include <main.h> #include <main.h>
void setup() { void setup() {
handleSetup(); handleSpeedSetup();
handleRemoteSetup();
Serial.begin(115200); Serial.begin(115200);
beginWiFi(); beginWiFi();
} }
void loop() { void loop() {
handleLoop(); handleSpeedLoop();
} }

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@ -3,4 +3,5 @@
#include <Arduino.h> #include <Arduino.h>
#include <speed.h> #include <speed.h>
#include <webserver.h> #include <webserver.h>
#include <remote.h>
#endif #endif

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@ -0,0 +1,31 @@
#include <remote.h>
// Create a struct_message called myData
struct_message recvRemoteData;
// callback function that will be executed when data is received
void OnDataRecv(uint8_t *mac, uint8_t *incomingData, uint8_t len)
{
Serial.println("received data");
String data = String((char *)incomingData);
if (data.equals("flash"))
{
flash();
}
}
void handleRemoteSetup()
{
// Init ESP-NOW
if (esp_now_init() != 0)
{
Serial.println("Error initializing ESP-NOW");
return;
}
// Once ESPNow is successfully Init, we will register for recv CB to
// get recv packer info
esp_now_set_self_role(ESP_NOW_ROLE_SLAVE);
esp_now_register_recv_cb(OnDataRecv);
}

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@ -0,0 +1,13 @@
#ifndef remote_h
#define remote_h
#include <Arduino.h>
#include <espnow.h>
#include <speed.h>
typedef struct struct_message {
int action;
} struct_message;
void handleRemoteSetup();
#endif

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@ -1,7 +1,7 @@
#include <ESPAsyncWebServer.h> #include <ESPAsyncWebServer.h>
const char index_html[] PROGMEM = R"rawliteral( const char index_html[] PROGMEM = R"rawliteral(
<!DOCTYPE html> <!DOCTYPE html>
<html lang="de"> <html lang="de">
<head> <head>
<meta charset="UTF-8"> <meta charset="UTF-8">
@ -25,6 +25,7 @@ const char index_html[] PROGMEM = R"rawliteral(
</head> </head>
<body> <body>
<h1>Blitzercontrol</h1> <h1>Blitzercontrol</h1>
<button onclick="getData()">Refresh</button>
<h2>Highscore</h2> <h2>Highscore</h2>
<span id="highscore">23km/h</span> <span id="highscore">23km/h</span>
<h2>Letzte Messungen</h2> <h2>Letzte Messungen</h2>
@ -57,17 +58,22 @@ const char index_html[] PROGMEM = R"rawliteral(
fetch('/set?speed=' + thresholdFieldElem.value); fetch('/set?speed=' + thresholdFieldElem.value);
} }
function getData() { function getData() {
fetch('/data.json') const controller = new AbortController();
const id = setTimeout(() => controller.abort(), 1500);
fetch('/data.json', {
signal: controller.signal
})
.then(response => response.json()) .then(response => response.json())
.then(data => { .then(data => {
clearTimeout(id);
highscoreElem.innerText = data.highscore + ' km/h'; highscoreElem.innerText = data.highscore + ' km/h';
let c = lastSpeeds.children; let c = lastSpeeds.children;
for(let i=0; i<data.lastSpeeds.length; i++) { for(let i=0; i<data.lastSpeeds.length; i++) {
c[i].innerText = data.lastSpeeds[i] + ' km/h'; c[i].innerText = data.lastSpeeds[i] + ' km/h';
} }
thresholdFieldElem.value = data.threshold
}); });
} }
window.setInterval(getData, 1000)
getData(); getData();
</script> </script>
</body> </body>

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@ -3,94 +3,100 @@
#define PIN_SW1 D6 #define PIN_SW1 D6
#define PIN_SW2 D5 #define PIN_SW2 D5
#define PIN_TRIGGER D7 #define PIN_TRIGGER D7
volatile boolean sw1_flag = false;
volatile boolean sw2_flag = false;
unsigned long sw1_lastTime = 0; unsigned long sw1_lastTime = 0;
unsigned long sw2_lastTime = 0; unsigned long sw2_lastTime = 0;
unsigned long sw1_lastTime_e = 0;
unsigned long sw2_lastTime_e = 0;
float flashspeed = 20; // in kmh float flashspeed = 20; // in kmh
unsigned long flashdeadtime = 1000; // in ms unsigned long flashdeadtime = 1000; // in ms
float calib_distance = 0.062; // distance of sensors in meters float calib_distance = 0.1; // distance of sensors in meters
float lastMeasuredSpeeds[10]; float lastMeasuredSpeeds[10];
float highscore = 0; float highscore = 0;
unsigned long last_flash = 0; unsigned long last_flash = 0;
bool flashNext = false;
#define SWDEBOUNCE 100000 #define SWDEBOUNCE 1000000
ICACHE_RAM_ATTR void interrupt_sw1(); ICACHE_RAM_ATTR void interrupt_sw1();
ICACHE_RAM_ATTR void interrupt_sw2(); ICACHE_RAM_ATTR void interrupt_sw2();
float getLastSpeed1(); float getLastSpeed();
float getLastSpeed2();
void handleSetup() void handleSpeedSetup()
{ {
pinMode(PIN_SW1, INPUT_PULLUP); pinMode(PIN_SW1, INPUT_PULLUP);
pinMode(PIN_SW2, INPUT_PULLUP); pinMode(PIN_SW2, INPUT_PULLUP);
pinMode(PIN_TRIGGER, OUTPUT); pinMode(PIN_TRIGGER, OUTPUT);
attachInterrupt(digitalPinToInterrupt(PIN_SW1), interrupt_sw1, FALLING);
attachInterrupt(digitalPinToInterrupt(PIN_SW2), interrupt_sw2, FALLING); attachInterrupt(digitalPinToInterrupt(PIN_SW2), interrupt_sw2, FALLING);
attachInterrupt(digitalPinToInterrupt(PIN_SW1), interrupt_sw1, FALLING);
digitalWrite(PIN_TRIGGER, HIGH); // active low digitalWrite(PIN_TRIGGER, HIGH); // active low
} }
void handleLoop() void handleSpeedLoop()
{ {
// reset micros within the first half second to care for overflowing micros // reset micros within the first half second to care for overflowing micros
if (micros() < 500000) { if (micros() < 500000)
sw1_flag = false; {
sw1_lastTime = 0; sw1_lastTime = 0;
sw2_flag = false;
sw2_lastTime = 0; sw2_lastTime = 0;
sw1_lastTime_e = 0;
sw2_lastTime_e = 0;
} }
if (millis() < 500) { if (millis() < 500)
{
last_flash = 0; last_flash = 0;
} }
if (sw1_flag) if (sw1_lastTime > 0 && sw2_lastTime > 0 && sw2_lastTime - sw1_lastTime > 1200 && sw2_lastTime - sw1_lastTime < 10000000)
{ {
sw1_flag = false; // 0,036 km/h - 300 km/h und sw2 nach sw1 ausgelöst
sw1_lastTime = micros(); doTrigger(getLastSpeed());
Serial.println("SW1"); sw2_lastTime = 0;
doTrigger(getLastSpeed1()); sw1_lastTime = 0;
} }
if (sw2_flag)
{ {
sw2_flag = false; /* code */
sw2_lastTime = micros(); }
Serial.println("SW2");
doTrigger(getLastSpeed2()); if (flashNext)
{
flashNext = false;
Serial.print("Flashing");
pinMode(PIN_TRIGGER, INPUT); // high impedance
delay(100);
pinMode(PIN_TRIGGER, OUTPUT);
digitalWrite(PIN_TRIGGER, LOW);
Serial.println("..");
} }
} }
void doTrigger(float speed) void doTrigger(float speed)
{ {
if (speed < 0.1)
{
return;
}
if (millis() - last_flash > flashdeadtime) if (millis() - last_flash > flashdeadtime)
{ // deadtime { // deadtime
last_flash = millis(); last_flash = millis();
if (speed >= flashspeed) if (speed >= flashspeed)
{ {
addLastSpeed(speed); addLastSpeed(speed);
Serial.print("> Speed="); Serial.print("> Speed=");
Serial.print(speed); Serial.print(speed);
Serial.println(" km/h"); Serial.println(" km/h - FLASH");
flash(); flash();
} }
else
{
Serial.print(">> Speed=");
Serial.print(speed);
Serial.println(" km/h");
}
} }
} }
void flash() { void flash()
Serial.println("Flash"); {
pinMode(PIN_TRIGGER, INPUT); // high impedance flashNext = true;
delay(100);
pinMode(PIN_TRIGGER, OUTPUT);
digitalWrite(PIN_TRIGGER, LOW);
} }
void addLastSpeed(float speed) void addLastSpeed(float speed)
@ -100,32 +106,39 @@ void addLastSpeed(float speed)
lastMeasuredSpeeds[i] = lastMeasuredSpeeds[i + 1]; lastMeasuredSpeeds[i] = lastMeasuredSpeeds[i + 1];
} }
lastMeasuredSpeeds[9] = speed; lastMeasuredSpeeds[9] = speed;
if (highscore < speed) { displaySpeed(speed);
if (highscore < speed)
{
highscore = speed; highscore = speed;
} }
} }
ICACHE_RAM_ATTR void interrupt_sw1() ICACHE_RAM_ATTR void interrupt_sw1()
{ {
if (sw1_lastTime + SWDEBOUNCE < micros()) if (sw1_lastTime_e + SWDEBOUNCE < micros())
{ {
sw1_flag = true; sw1_lastTime_e = micros();
sw1_lastTime = micros();
Serial.print("SW1 - ");
Serial.println(micros());
} }
} }
ICACHE_RAM_ATTR void interrupt_sw2() ICACHE_RAM_ATTR void interrupt_sw2()
{ {
if (sw2_lastTime + SWDEBOUNCE < micros()) if (sw2_lastTime_e + SWDEBOUNCE < micros())
{ {
sw2_flag = true; sw2_lastTime_e = micros();
Serial.print("SW2 - ");
Serial.println(micros());
if (sw1_lastTime > 0)
{
sw2_lastTime = micros();
}
} }
} }
float getLastSpeed1() float getLastSpeed()
{ {
return calib_distance / ((sw1_lastTime - sw2_lastTime) / 1000000.0) * 3.6; return calib_distance / ((sw2_lastTime - sw1_lastTime + 11404) / 1000000.0) * 3.6; // lichtschranke 1 kaputt, hat delay, brauchen 11404 microsekunden mehr, trust me.
}
float getLastSpeed2()
{
return calib_distance / ((sw2_lastTime - sw1_lastTime) / 1000000.0) * 3.6;
} }

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@ -1,6 +1,7 @@
#ifndef speed_h #ifndef speed_h
#define speed_h #define speed_h
#include <Arduino.h> #include <Arduino.h>
#include <fluroclock.h>
extern float flashspeed; extern float flashspeed;
extern float highscore; extern float highscore;
@ -9,8 +10,8 @@ extern float calib_distance;
extern float lastMeasuredSpeeds[10]; extern float lastMeasuredSpeeds[10];
void flash(); void flash();
void handleLoop(); void handleSpeedLoop();
void handleSetup(); void handleSpeedSetup();
void doTrigger(float speed); void doTrigger(float speed);
void addLastSpeed(float speed); void addLastSpeed(float speed);
#endif #endif

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@ -10,7 +10,12 @@ void beginWiFi() {
Serial.print("."); Serial.print(".");
} }
Serial.println(""); Serial.println("");
Serial.print("ESP8266 Board MAC Address: ");
Serial.println(WiFi.macAddress());
Serial.println("");
Serial.print("ESP822 IP: ");
Serial.println(WiFi.localIP()); Serial.println(WiFi.localIP());
Serial.println(WiFi.channel());
server.on("/", HTTP_GET, [] (AsyncWebServerRequest *request) { server.on("/", HTTP_GET, [] (AsyncWebServerRequest *request) {
request->send(200, "text/html", index_html); request->send(200, "text/html", index_html);
}); });
@ -36,6 +41,8 @@ void beginWiFi() {
server.on("/data.json", HTTP_GET, [] (AsyncWebServerRequest *request) { server.on("/data.json", HTTP_GET, [] (AsyncWebServerRequest *request) {
String response = "{\"highscore\":"; String response = "{\"highscore\":";
response.concat(highscore); response.concat(highscore);
response.concat(", \"threshold\": ");
response.concat(flashspeed);
response.concat(",\"lastSpeeds\": ["); response.concat(",\"lastSpeeds\": [");
for(int i=0;i<10;i++) { for(int i=0;i<10;i++) {
response.concat(lastMeasuredSpeeds[i]); response.concat(lastMeasuredSpeeds[i]);