Airsoft/DarkEmergency-Timer
Airsoft/DarkEmergency-Timer
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replaced 7Seg Library

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This commit is contained in:
Marcel Peterkau 2023-02-15 20:13:36 +01:00
parent 99dc58f3c9
commit 43ab7c6934
2 changed files with 143 additions and 136 deletions
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14
Software/platformio.ini
View File

@ -49,11 +49,11 @@ build_flags=
lib_deps =
;xreef/EByte LoRa E220 library@^1.0.6 ;made Lib local, due to changes for I2C-controller M0,M1-Pins
sstaub/Ticker@^4.4.0
robtillaart/PCF8574 @ ^0.3.7
robtillaart/PCF8574 @ ^0.3.7
adafruit/Adafruit INA219 @ ^1.1.1
plerup/EspSoftwareSerial @ 6.8.5 ; needed exactly this Version as newer ones have Problems with compiling
smougenot/TM1637@0.0.0-alpha+sha.9486982048
me-no-dev/ESPAsyncTCP @ ^1.2.2
robtillaart/I2C_EEPROM @ ^1.5.2
sandeepmistry/LoRa @ ^0.8.0
bblanchon/ArduinoJson @ ^6.19.4
plerup/EspSoftwareSerial @ 6.8.5 ; needed exactly this Version as newer ones have Problems with compiling
akj7/TM1637 Driver @ ^2.1.2
me-no-dev/ESPAsyncTCP @ ^1.2.2
robtillaart/I2C_EEPROM @ ^1.5.2
sandeepmistry/LoRa @ ^0.8.0
bblanchon/ArduinoJson @ ^6.19.4

265
Software/src/main.cpp
View File

@ -1,7 +1,7 @@
#define FREQUENCY_868
#include <Arduino.h>
#include <TM1637Display.h>
#include <TM1637.h>
#include <Ticker.h>
#include <DNSServer.h>
#include <ESP8266WiFi.h>
@ -39,9 +39,9 @@ PCF8574 i2c_io(I2C_IO_ADDRESS);
Adafruit_INA219 ina219;
LoRa_E220 e220ttl(GPIO_LORA_TX, GPIO_LORA_RX, GPIO_LORA_AUX, 3, 4); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX AUX M0 M1
TM1637Display disp_FAC_1(GPIO_7SEG_CLK, GPIO_7SEG_EN_FAC1);
TM1637Display disp_FAC_2(GPIO_7SEG_CLK, GPIO_7SEG_EN_FAC2);
TM1637Display disp_FAC_3(GPIO_7SEG_CLK, GPIO_7SEG_EN_FAC3);
TM1637 disp_FAC_1(GPIO_7SEG_CLK, GPIO_7SEG_EN_FAC1);
TM1637 disp_FAC_2(GPIO_7SEG_CLK, GPIO_7SEG_EN_FAC2);
TM1637 disp_FAC_3(GPIO_7SEG_CLK, GPIO_7SEG_EN_FAC3);
#ifdef CAPTIVE
DNSServer dnsServer;
@ -57,6 +57,7 @@ void SystemShutdown();
void SetBatteryType(batteryType_t type);
void ProcessKeyCombos(bool *btnState);
void OverrideDisplay(const uint8_t *message, uint32_t time);
uint32_t getESPChipID();
void tmrCallback_StatusSender();
Ticker tmrStatusSender(tmrCallback_StatusSender, 30000, 0, MILLIS);
@ -74,24 +75,11 @@ void tmrCallback_WiFiMaintainConnection();
Ticker tmrWiFiMaintainConnection(tmrCallback_WiFiMaintainConnection, 1000, 0, MILLIS);
#endif
uint32_t getESPChipID();
uint8_t Faction_1_dot = 0;
uint8_t Faction_2_dot = 0;
uint8_t Faction_3_dot = 0;
uint32_t DisplayOverrideFlag = 0;
uint8_t *DisplayOverrideValue = 0;
char DisplayOverrideValue[5] = {0};
Globals_t globals;
const uint8_t sevenSeg_bat[] = {0x00, 0b01111100, 0b01110111, 0b01111000};
const uint8_t sevenSeg_low[] = {0b00111000, 0b01011100, 0x00, 0x00};
const uint8_t sevenSeg_net[] = {0b01010100, 0b01111001, 0b01111000, 0x00};
const uint8_t sevenSeg_ota[] = {0x3F, 0x78, 0x77, 0x00};
const uint8_t sevenSeg_flsh[] = {0x71, 0x38, 0x6D, 0x76};
const uint8_t sevenSeg_file[] = {0x71, 0x30, 0x38, 0x79};
void setMPins_Helper(int pin, int status)
{
i2c_io.write(pin, status);
@ -146,7 +134,7 @@ void setup()
ResponseStructContainer cMi;
cMi = e220ttl.getModuleInformation();
// It's important get information pointer before all other operation
ModuleInformation mi = *(ModuleInformation *)cMi.data;
// ModuleInformation mi = *(ModuleInformation *)cMi.data;
Serial.println(cMi.status.getResponseDescription());
Serial.println(cMi.status.code);
@ -203,31 +191,30 @@ void setup()
ArduinoOTA.onStart([]()
{
disp_FAC_1.setBrightness(7);
disp_FAC_2.setBrightness(7);
disp_FAC_3.setBrightness(7);
disp_FAC_1.setSegments(sevenSeg_ota);
disp_FAC_3.clear();
disp_FAC_1.setBrightness(5);
disp_FAC_2.setBrightness(5);
disp_FAC_3.setBrightness(5);
disp_FAC_1.display("OTA ");
disp_FAC_3.clearScreen();
if (ArduinoOTA.getCommand() == U_FLASH)
{
disp_FAC_2.setSegments(sevenSeg_flsh);
disp_FAC_2.display("FLSH");
}
else
{
disp_FAC_2.setSegments(sevenSeg_file);
disp_FAC_2.display("FILE");
LittleFS.end();
} });
ArduinoOTA.onEnd([]()
{
const uint8_t seg_done[] = {0x5E, 0x3F, 0x54, 0x79};
disp_FAC_1.setSegments(seg_done);
disp_FAC_2.clear();
disp_FAC_3.clear(); });
disp_FAC_1.display("DONE");
disp_FAC_2.clearScreen();
disp_FAC_3.clearScreen(); });
ArduinoOTA.onProgress([](unsigned int progress, unsigned int total)
{ disp_FAC_3.showNumberDecEx((progress / (total / 100))); });
{ disp_FAC_3.display((progress / (total / 100))); });
ArduinoOTA.onError([](ota_error_t error)
{
@ -250,6 +237,13 @@ void setup()
initWebUI();
disp_FAC_1.init();
disp_FAC_1.setBrightness(5);
disp_FAC_2.init();
disp_FAC_2.setBrightness(5);
disp_FAC_3.init();
disp_FAC_3.setBrightness(5);
tmrEEPROMCyclicPDS.start();
tmrFactionTicker.start();
tmrInputGetter.start();
@ -258,6 +252,7 @@ void setup()
void loop()
{
if (e220ttl.available() > 1)
{
ResponseContainer rc = e220ttl.receiveMessageRSSI();
@ -279,13 +274,13 @@ void loop()
tmrEEPROMCyclicPDS.update();
tmrFactionTicker.update();
tmrInputGetter.update();
tmrStatusSender.update();
tmrPowerMonitor.update();
ArduinoOTA.handle();
SevenSeg_Output();
EEPROM_Process();
tmrStatusSender.update();
tmrPowerMonitor.update();
#ifdef CAPTIVE
dnsServer.processNextRequest();
#endif
@ -294,6 +289,7 @@ void loop()
#endif
if (globals.systemStatus == sysStat_Shutdown)
SystemShutdown();
yield();
}
@ -307,39 +303,51 @@ String macToString(const unsigned char *mac)
void SevenSeg_Output()
{
char sevenSegBuff[5] = "";
if (DisplayOverrideFlag > millis())
{
disp_FAC_1.setBrightness(7);
disp_FAC_2.setBrightness(7);
disp_FAC_3.setBrightness(7);
disp_FAC_1.setSegments(DisplayOverrideValue);
disp_FAC_2.clear();
disp_FAC_3.clear();
disp_FAC_1.setBrightness(5);
disp_FAC_2.setBrightness(5);
disp_FAC_3.setBrightness(5);
disp_FAC_1.display(String(DisplayOverrideValue));
disp_FAC_2.clearScreen();
disp_FAC_3.clearScreen();
}
else
{
if (globals.battery_level < BAT_LOW_PERCENT && millis() % 10000 > 7000)
{
disp_FAC_1.setBrightness(0);
disp_FAC_2.setBrightness(0);
disp_FAC_3.setBrightness(0);
disp_FAC_1.setSegments(sevenSeg_bat);
disp_FAC_2.setSegments(sevenSeg_low);
if (millis() % 3000 < 1500)
disp_FAC_3.showNumberDec(globals.battery_level);
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", globals.battery_level);
else
disp_FAC_3.showNumberDecEx(globals.loadvoltage * 100, 0x40);
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4s", String(globals.loadvoltage, 1).c_str());
disp_FAC_1.setBrightness(1);
disp_FAC_1.display(" BAT");
disp_FAC_2.setBrightness(1);
disp_FAC_2.display("LOW ");
disp_FAC_3.setBrightness(1);
disp_FAC_3.display(String(sevenSegBuff));
}
else
{
disp_FAC_1.setBrightness(PersistenceData.activeFaction == FACTION_1 ? 7 : 0);
disp_FAC_2.setBrightness(PersistenceData.activeFaction == FACTION_2 ? 7 : 0);
disp_FAC_3.setBrightness(PersistenceData.activeFaction == FACTION_3 ? 7 : 0);
disp_FAC_1.setBrightness(PersistenceData.activeFaction == FACTION_1 ? 5 : 1);
disp_FAC_1.refresh();
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_1_timer / 60);
disp_FAC_1.display(String(sevenSegBuff), false, false);
disp_FAC_1.showNumberDecEx(PersistenceData.faction_1_timer / 60, Faction_1_dot, true, 4, 0);
disp_FAC_2.showNumberDecEx(PersistenceData.faction_2_timer / 60, Faction_2_dot, true, 4, 0);
disp_FAC_3.showNumberDecEx(PersistenceData.faction_3_timer / 60, Faction_3_dot, true, 4, 0);
disp_FAC_2.setBrightness(PersistenceData.activeFaction == FACTION_2 ? 5 : 1);
disp_FAC_2.refresh();
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_2_timer / 60);
disp_FAC_2.display(String(sevenSegBuff), false, false);
disp_FAC_3.setBrightness(PersistenceData.activeFaction == FACTION_3 ? 5 : 1);
disp_FAC_3.refresh();
snprintf(sevenSegBuff, sizeof(sevenSegBuff), "%4d", PersistenceData.faction_3_timer / 60);
disp_FAC_3.display(String(sevenSegBuff), false, false);
}
}
}
@ -350,23 +358,14 @@ void tmrCallback_FactionTicker()
{
case FACTION_1:
PersistenceData.faction_1_timer++;
Faction_1_dot = Faction_1_dot == 0x80 || Faction_1_dot == 0x00 ? 0x10 : Faction_1_dot << 1;
Faction_2_dot = 0;
Faction_3_dot = 0;
break;
case FACTION_2:
PersistenceData.faction_2_timer++;
Faction_2_dot = Faction_2_dot == 0x80 || Faction_2_dot == 0x00 ? 0x10 : Faction_2_dot << 1;
Faction_1_dot = 0;
Faction_3_dot = 0;
break;
case FACTION_3:
PersistenceData.faction_3_timer++;
Faction_3_dot = Faction_3_dot == 0x80 || Faction_3_dot == 0x00 ? 0x10 : Faction_3_dot << 1;
Faction_1_dot = 0;
Faction_2_dot = 0;
break;
default:
@ -377,7 +376,7 @@ void tmrCallback_FactionTicker()
void tmrCallback_InputGetter()
{
static bool btnState[3];
static bool btnlastState[3];
uint8_t keysPressed = 0;
btnState[0] = i2c_io.readButton(I2C_IO_BTN_FAC1);
btnState[1] = i2c_io.readButton(I2C_IO_BTN_FAC2);
@ -385,20 +384,9 @@ void tmrCallback_InputGetter()
ProcessKeyCombos(btnState);
for (int i = 0; i < sizeof(btnState); i++)
{
if (btnlastState[i] != btnState[i])
{
btnlastState[i] = btnState[i];
Serial.printf("Button %d changed to %d\n", i, btnState[i]);
}
}
uint8_t keysPressed = 0;
keysPressed = +btnState[0] == FAC_1_TRG_PRESSED ? 1 : 0;
keysPressed = +btnState[1] == FAC_2_TRG_PRESSED ? 1 : 0;
keysPressed = +btnState[2] == FAC_3_TRG_PRESSED ? 1 : 0;
keysPressed = keysPressed + (btnState[0] == FAC_1_TRG_PRESSED ? 1 : 0);
keysPressed = keysPressed + (btnState[1] == FAC_2_TRG_PRESSED ? 1 : 0);
keysPressed = keysPressed + (btnState[2] == FAC_3_TRG_PRESSED ? 1 : 0);
if (keysPressed > 1)
{
@ -408,13 +396,31 @@ void tmrCallback_InputGetter()
}
if (btnState[0] == FAC_1_TRG_PRESSED)
{
if (PersistenceData.activeFaction != FACTION_1)
{
Serial.println("Faction 1 captured !");
}
PersistenceData.activeFaction = FACTION_1;
}
if (btnState[1] == FAC_2_TRG_PRESSED)
{
if (PersistenceData.activeFaction != FACTION_2)
{
Serial.println("Faction 2 captured !");
}
PersistenceData.activeFaction = FACTION_2;
}
if (btnState[2] == FAC_3_TRG_PRESSED)
{
if (PersistenceData.activeFaction != FACTION_3)
{
Serial.println("Faction 3 captured !");
}
PersistenceData.activeFaction = FACTION_3;
}
}
void printParameters(struct Configuration configuration)
@ -513,15 +519,15 @@ void tmrCallback_PowerMonitor()
const int bat_max_3s = 1260;
float shuntvoltage = 0;
//float current_mA = 0;
// float current_mA = 0;
float busvoltage = 0;
//float power_mW = 0;
// float power_mW = 0;
int battery_level = 0;
shuntvoltage = ina219.getShuntVoltage_mV();
busvoltage = ina219.getBusVoltage_V();
//current_mA = ina219.getCurrent_mA();
//power_mW = ina219.getPower_mW();
// current_mA = ina219.getCurrent_mA();
// power_mW = ina219.getPower_mW();
globals.loadvoltage = busvoltage + (shuntvoltage / 1000);
switch (ConfigData.batteryType)
{
@ -607,10 +613,10 @@ void SetBatteryType(batteryType_t type)
}
}
void OverrideDisplay(const uint8_t *message, uint32_t time)
void OverrideDisplay(const char *message, uint32_t time)
{
DisplayOverrideFlag = millis() + time;
DisplayOverrideValue = (uint8_t *)message;
strcpy(DisplayOverrideValue, message);
}
uint32_t getESPChipID()
@ -629,58 +635,59 @@ uint32_t getESPChipID()
void ProcessKeyCombos(bool *btnState)
{
typedef enum
{
KEY_PRESSED,
KEY_RELEASED
} keyStatus_t;
typedef enum
{
KEY_PRESSED,
KEY_RELEASED
} keyStatus_t;
static keyStatus_t keyStatus_Fac1 = KEY_RELEASED;
static uint8_t keyCount_Fac1 = 0;
static keyStatus_t keyStatus_Fac2 = KEY_RELEASED;
static uint8_t keyCount_Fac2 = 0;
static keyStatus_t keyStatus_Fac3 = KEY_RELEASED;
static keyStatus_t keyStatus_Fac1 = KEY_RELEASED;
static uint8_t keyCount_Fac1 = 0;
static keyStatus_t keyStatus_Fac2 = KEY_RELEASED;
static uint8_t keyCount_Fac2 = 0;
static keyStatus_t keyStatus_Fac3 = KEY_RELEASED;
if (btnState[2] == FAC_3_TRG_PRESSED)
{
keyStatus_Fac3 = KEY_PRESSED;
if (btnState[2] == FAC_3_TRG_PRESSED)
{
keyStatus_Fac3 = KEY_PRESSED;
// Process FactionKey 1 ComboCounter
if (btnState[0] == FAC_1_TRG_PRESSED && keyStatus_Fac1 == KEY_RELEASED)
{
keyStatus_Fac1 = KEY_PRESSED;
keyCount_Fac1++;
}
// Process FactionKey 1 ComboCounter
if (btnState[0] == FAC_1_TRG_PRESSED && keyStatus_Fac1 == KEY_RELEASED)
{
keyStatus_Fac1 = KEY_PRESSED;
keyCount_Fac1++;
}
if (btnState[0] != FAC_1_TRG_PRESSED)
keyStatus_Fac1 = KEY_RELEASED;
if (btnState[0] != FAC_1_TRG_PRESSED)
keyStatus_Fac1 = KEY_RELEASED;
// Process FactionKey 2 ComboCounter
if (btnState[1] == FAC_2_TRG_PRESSED && keyStatus_Fac2 == KEY_RELEASED)
{
keyStatus_Fac2 = KEY_PRESSED;
keyCount_Fac2++;
}
// Process FactionKey 2 ComboCounter
if (btnState[1] == FAC_2_TRG_PRESSED && keyStatus_Fac2 == KEY_RELEASED)
{
keyStatus_Fac2 = KEY_PRESSED;
keyCount_Fac2++;
}
if (btnState[1] != FAC_2_TRG_PRESSED)
keyStatus_Fac2 = KEY_RELEASED;
}
if (btnState[1] != FAC_2_TRG_PRESSED)
keyStatus_Fac2 = KEY_RELEASED;
}
if (btnState[2] != FAC_3_TRG_PRESSED && keyStatus_Fac3 == KEY_PRESSED)
{
Serial.printf("KeyCombo 1: %d | 2: %d\n", keyCount_Fac1, keyCount_Fac2);
if (btnState[2] != FAC_3_TRG_PRESSED && keyStatus_Fac3 == KEY_PRESSED)
{
if (keyCount_Fac1 > 0 || keyCount_Fac2 > 0)
Serial.printf("KeyCombo 1: %d | 2: %d\n", keyCount_Fac1, keyCount_Fac2);
if (keyCount_Fac1 == 2 && keyCount_Fac2 == 2)
{
Serial.println("KeyCombo: WiFi AP ON");
OverrideDisplay(sevenSeg_net, 5000);
toggleWiFiAP(false);
}
if (keyCount_Fac1 == 2 && keyCount_Fac2 == 2)
{
Serial.println("KeyCombo: WiFi AP ON");
OverrideDisplay("NET ", 5000);
toggleWiFiAP(false);
}
keyCount_Fac1 = 0;
keyCount_Fac2 = 0;
keyStatus_Fac1 = KEY_RELEASED;
keyStatus_Fac2 = KEY_RELEASED;
keyStatus_Fac3 = KEY_RELEASED;
}
keyCount_Fac1 = 0;
keyCount_Fac2 = 0;
keyStatus_Fac1 = KEY_RELEASED;
keyStatus_Fac2 = KEY_RELEASED;
keyStatus_Fac3 = KEY_RELEASED;
}
}