acid-drop/src/main.ino

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2024-05-23 22:42:03 +00:00
#include <TFT_eSPI.h>
#include <WiFi.h>
#include <WiFiClientSecure.h>
#include <Wire.h>
#include <Pangodream_18650_CL.h> // POWER MANAGEMENT
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#include <map>
#include <vector>
#include <time.h>
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#include "boot_screen.h"
#include "pins.h"
#define SCREEN_WIDTH 320
#define SCREEN_HEIGHT 240
#define CHAR_HEIGHT 10
#define LINE_SPACING 0
#define INPUT_LINE_HEIGHT (CHAR_HEIGHT + LINE_SPACING)
#define STATUS_BAR_HEIGHT 10
#define MAX_LINES ((SCREEN_HEIGHT - INPUT_LINE_HEIGHT - STATUS_BAR_HEIGHT) / (CHAR_HEIGHT + LINE_SPACING))
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#define BOARD_BAT_ADC 4 // Define the ADC pin used for battery reading
#define CONV_FACTOR 1.8 // Conversion factor for the ADC to voltage conversion
#define READS 20 // Number of readings for averaging
Pangodream_18650_CL BL(BOARD_BAT_ADC, CONV_FACTOR, READS);
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TFT_eSPI tft = TFT_eSPI();
WiFiClientSecure client;
std::map<String, uint32_t> nickColors;
std::vector<String> lines;
std::vector<bool> mentions;
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String inputBuffer = "";
// WiFi credentials
String ssid = "";
String password = "";
String nick = "";
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// IRC connection
const char* server = "irc.supernets.org";
const int port = 6697;
bool useSSL = true;
const char* channel = "#comms";
// IRC identity
const char* user = "tdeck";
const char* realname = "ACID DROP Firmware 1.0.0"; // Need to eventually set this up to use a variable
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unsigned long joinChannelTime = 0;
bool readyToJoinChannel = false;
unsigned long lastStatusUpdateTime = 0;
const unsigned long STATUS_UPDATE_INTERVAL = 15000;
unsigned long lastActivityTime = 0;
const unsigned long INACTIVITY_TIMEOUT = 30000; // 30 seconds
bool screenOn = true;
struct WiFiNetwork {
int index;
int channel;
int rssi;
String encryption;
String ssid;
};
std::vector<WiFiNetwork> wifiNetworks;
int selectedNetworkIndex = 0;
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void debugPrint(String message) {
Serial.println(message);
}
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void setup() {
Serial.begin(115200);
Serial.println("Booting device...");
pinMode(BOARD_POWERON, OUTPUT);
digitalWrite(BOARD_POWERON, HIGH);
pinMode(TFT_BL, OUTPUT);
digitalWrite(TFT_BL, HIGH); // Turn on the backlight initially
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Wire.begin(BOARD_I2C_SDA, BOARD_I2C_SCL);
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tft.begin();
tft.setRotation(1);
tft.invertDisplay(1);
Serial.println("TFT initialized");
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displayXBM();
delay(3000);
displayCenteredText("SCANNING WIFI");
delay(1000);
scanWiFiNetworks();
displayWiFiNetworks();
randomSeed(analogRead(0));
int randomNum = random(1000, 10000);
nick = "ACID_" + String(randomNum);
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}
int renderFormattedMessage(String message, int cursorY, int lineHeight, bool highlightNick = false) {
uint16_t fgColor = TFT_WHITE;
uint16_t bgColor = TFT_BLACK;
bool bold = false;
bool underline = false;
bool nickHighlighted = false; // Track if the nick has been highlighted
for (unsigned int i = 0; i < message.length(); i++) {
char c = message[i];
if (c == '\x02') { // Bold
bold = !bold;
tft.setTextFont(bold ? 2 : 1);
} else if (c == '\x1F') { // Underline
underline = !underline;
// need to add this still
} else if (c == '\x03') { // Color
fgColor = TFT_WHITE;
bgColor = TFT_BLACK;
if (i + 1 < message.length() && (isdigit(message[i + 1]) || message[i + 1] == ',')) {
int colorCode = -1;
if (isdigit(message[i + 1])) {
colorCode = message[++i] - '0';
if (i + 1 < message.length() && isdigit(message[i + 1]))
colorCode = colorCode * 10 + (message[++i] - '0');
}
if (colorCode != -1)
fgColor = getColorFromCode(colorCode);
if (i + 1 < message.length() && message[i + 1] == ',') {
i++;
int bgColorCode = -1;
if (isdigit(message[i + 1])) {
bgColorCode = message[++i] - '0';
if (i + 1 < message.length() && isdigit(message[i + 1]))
bgColorCode = bgColorCode * 10 + (message[++i] - '0');
}
if (bgColorCode != -1)
bgColor = getColorFromCode(bgColorCode);
}
tft.setTextColor(fgColor, bgColor);
}
} else if (c == '\x0F') { // Reset
fgColor = TFT_WHITE;
bgColor = TFT_BLACK;
bold = false;
underline = false;
tft.setTextColor(fgColor, bgColor);
tft.setTextFont(1);
} else {
if (highlightNick && !nickHighlighted && message.substring(i).startsWith(nick)) {
tft.setTextColor(TFT_YELLOW);
for (char nc : nick) {
tft.print(nc);
i++;
}
i--; // Adjust for the loop increment
tft.setTextColor(TFT_WHITE);
nickHighlighted = true;
} else {
if (tft.getCursorX() + tft.textWidth(String(c)) > SCREEN_WIDTH) {
cursorY += lineHeight;
tft.setCursor(0, cursorY);
}
tft.print(c);
}
}
}
cursorY += lineHeight; // Add line height after printing the message
return cursorY; // Return the new cursor Y position for the next line
}
void turnOffScreen() {
Serial.println("Screen turned off");
tft.writecommand(TFT_DISPOFF); // Turn off display
tft.writecommand(TFT_SLPIN); // Put display into sleep mode
digitalWrite(TFT_BL, LOW); // Turn off the backlight (Assuming TFT_BL is the backlight pin)
screenOn = false;
}
void turnOnScreen() {
Serial.println("Screen turned on");
digitalWrite(TFT_BL, HIGH); // Turn on the backlight (Assuming TFT_BL is the backlight pin)
tft.writecommand(TFT_SLPOUT); // Wake up display from sleep mode
tft.writecommand(TFT_DISPON); // Turn on display
screenOn = true;
}
void displayLines() {
tft.fillRect(0, STATUS_BAR_HEIGHT, SCREEN_WIDTH, SCREEN_HEIGHT - STATUS_BAR_HEIGHT - INPUT_LINE_HEIGHT, TFT_BLACK);
int cursorY = STATUS_BAR_HEIGHT;
for (size_t i = 0; i < lines.size(); ++i) {
const String& line = lines[i];
bool mention = mentions[i];
tft.setCursor(0, cursorY);
if (line.startsWith("JOIN ")) {
tft.setTextColor(TFT_GREEN);
tft.print("JOIN ");
int startIndex = 5;
int endIndex = line.indexOf(" has joined ");
String senderNick = line.substring(startIndex, endIndex);
tft.setTextColor(nickColors[senderNick]);
tft.print(senderNick);
tft.setTextColor(TFT_WHITE);
tft.print(" has joined ");
tft.setTextColor(TFT_CYAN);
tft.print(channel);
cursorY += CHAR_HEIGHT;
} else if (line.startsWith("PART ")) {
tft.setTextColor(TFT_RED);
tft.print("PART ");
int startIndex = 5;
int endIndex = line.indexOf(" has EMO-QUIT ");
String senderNick = line.substring(startIndex, endIndex);
tft.setTextColor(nickColors[senderNick]);
tft.print(senderNick);
tft.setTextColor(TFT_WHITE);
tft.print(" has EMO-QUIT ");
tft.setTextColor(TFT_CYAN);
tft.print(channel);
cursorY += CHAR_HEIGHT;
} else if (line.startsWith("QUIT ")) {
tft.setTextColor(TFT_RED);
tft.print("QUIT ");
String senderNick = line.substring(5);
tft.setTextColor(nickColors[senderNick]);
tft.print(senderNick);
cursorY += CHAR_HEIGHT;
} else if (line.startsWith("NICK ")) {
tft.setTextColor(TFT_BLUE);
tft.print("NICK ");
int startIndex = 5;
int endIndex = line.indexOf(" -> ");
String oldNick = line.substring(startIndex, endIndex);
String newNick = line.substring(endIndex + 4);
tft.setTextColor(nickColors[oldNick]);
tft.print(oldNick);
tft.setTextColor(TFT_WHITE);
tft.print(" -> ");
tft.setTextColor(nickColors[newNick]);
tft.print(newNick);
cursorY += CHAR_HEIGHT;
} else if (line.startsWith("KICK ")) {
tft.setTextColor(TFT_RED);
tft.print("KICK ");
int startIndex = 5;
int endIndex = line.indexOf(" by ");
String kickedNick = line.substring(startIndex, endIndex);
String kicker = line.substring(endIndex + 4);
tft.setTextColor(nickColors[kickedNick]);
tft.print(kickedNick);
tft.setTextColor(TFT_WHITE);
tft.print(" by ");
tft.setTextColor(nickColors[kicker]);
tft.print(kicker);
cursorY += CHAR_HEIGHT;
} else if (line.startsWith("MODE ")) {
tft.setTextColor(TFT_BLUE);
tft.print("MODE ");
String modeChange = line.substring(5);
tft.setTextColor(TFT_WHITE);
tft.print(modeChange);
cursorY += CHAR_HEIGHT;
} else {
int colonPos = line.indexOf(':');
String senderNick = line.substring(0, colonPos);
String message = line.substring(colonPos + 2);
tft.setTextColor(nickColors[senderNick]);
tft.print(senderNick + ": ");
tft.setTextColor(TFT_WHITE);
// Check if the message contains the nick and highlight it
int nickPos = message.indexOf(nick);
if (mention && nickPos != -1) {
cursorY = renderFormattedMessage(message, cursorY, CHAR_HEIGHT, true);
} else {
cursorY = renderFormattedMessage(message, cursorY, CHAR_HEIGHT, false);
}
}
}
displayInputLine();
}
void addLine(String senderNick, String message, String type, bool mention = false) {
if (nickColors.find(senderNick) == nickColors.end())
nickColors[senderNick] = generateRandomColor();
String formattedMessage;
if (type == "join") {
formattedMessage = "JOIN " + senderNick + " has joined " + String(channel);
} else if (type == "part") {
formattedMessage = "PART " + senderNick + " has EMO-QUIT " + String(channel);
} else if (type == "quit") {
formattedMessage = "QUIT " + senderNick;
} else if (type == "nick") {
int arrowPos = message.indexOf(" -> ");
String oldNick = senderNick;
String newNick = message.substring(arrowPos + 4);
if (nickColors.find(newNick) == nickColors.end()) {
nickColors[newNick] = generateRandomColor();
}
formattedMessage = "NICK " + oldNick + " -> " + newNick;
} else if (type == "kick") {
formattedMessage = "KICK " + senderNick + message;
} else if (type == "mode") {
formattedMessage = "MODE " + message;
} else {
formattedMessage = senderNick + ": " + message;
}
int linesRequired = calculateLinesRequired(formattedMessage);
while (lines.size() + linesRequired > MAX_LINES) {
lines.erase(lines.begin());
mentions.erase(mentions.begin());
}
lines.push_back(formattedMessage);
mentions.push_back(mention);
displayLines();
}
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void loop() {
if (ssid.isEmpty()) {
char incoming = getKeyboardInput();
if (incoming != 0) {
handleWiFiSelection(incoming);
lastActivityTime = millis(); // Reset activity timer
}
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} else {
if (millis() - lastStatusUpdateTime > STATUS_UPDATE_INTERVAL) {
updateStatusBar();
lastStatusUpdateTime = millis();
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}
if (client.connected()) {
handleIRC();
} else {
if (WiFi.status() == WL_CONNECTED) {
displayCenteredText("CONNECTING TO " + String(server));
if (connectToIRC()) {
displayCenteredText("CONNECTED TO " + String(server));
sendIRC("NICK " + String(nick));
sendIRC("USER " + String(user) + " 0 * :" + String(realname));
} else {
displayCenteredText("CONNECTION FAILED");
delay(1000);
}
} else {
displayCenteredText("RECONNECTING TO WIFI");
WiFi.begin(ssid.c_str(), password.c_str());
}
}
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if (readyToJoinChannel && millis() >= joinChannelTime) {
tft.fillScreen(TFT_BLACK);
updateStatusBar();
sendIRC("JOIN " + String(channel));
readyToJoinChannel = false;
}
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char incoming = getKeyboardInput();
if (incoming != 0) {
handleKeyboardInput(incoming);
lastActivityTime = millis(); // Reset activity timer
}
// Check for inactivity
if (screenOn && millis() - lastActivityTime > INACTIVITY_TIMEOUT) {
turnOffScreen(); // Turn off screen and backlight
}
}
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}
bool connectToIRC() {
Serial.println("Connecting to IRC...");
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if (useSSL) {
client.setInsecure();
return client.connect(server, port);
} else {
WiFiClient nonSecureClient;
return nonSecureClient.connect(server, port);
}
}
void connectToWiFi() {
WiFi.begin(ssid.c_str(), password.c_str());
Serial.println("Connecting to WiFi...");
int attempts = 0;
while (WiFi.status() != WL_CONNECTED && attempts < 10) { // Try to connect for up to 10 seconds
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delay(500);
displayCenteredText("CONNECTING TO " + ssid);
attempts++;
}
if (WiFi.status() == WL_CONNECTED) {
Serial.println("Connected to WiFi network: " + ssid);
displayCenteredText("CONNECTED TO " + ssid);
delay(1000);
updateTimeFromNTP();
} else {
displayCenteredText("WIFI CONNECTION FAILED");
Serial.println("Failed to connect to WiFi.");
}
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}
void sendIRC(String command) {
if (client.println(command))
Serial.println("IRC: >>> " + command);
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else
Serial.println("Failed to send: " + command);
}
void handleIRC() {
while (client.available()) {
String line = client.readStringUntil('\n');
line.trim();
Serial.println("IRC: " + line);
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int firstSpace = line.indexOf(' ');
int secondSpace = line.indexOf(' ', firstSpace + 1);
// Ensure the spaces are found and prevent substring from going out of bounds
if (firstSpace != -1 && secondSpace != -1) {
String prefix = line.substring(0, firstSpace);
String command = line.substring(firstSpace + 1, secondSpace);
// RPL_WELCOME
if (command == "001") {
joinChannelTime = millis() + 2500;
readyToJoinChannel = true;
}
}
if (line.startsWith("PING")) {
String pingResponse = "PONG " + line.substring(line.indexOf(' ') + 1);
sendIRC(pingResponse);
} else {
parseAndDisplay(line);
lastActivityTime = millis(); // Reset activity timer
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}
}
}
void parseAndDisplay(String line) {
int firstSpace = line.indexOf(' ');
int secondSpace = line.indexOf(' ', firstSpace + 1);
if (firstSpace != -1 && secondSpace != -1) {
String command = line.substring(firstSpace + 1, secondSpace);
if (command == "PRIVMSG") {
int thirdSpace = line.indexOf(' ', secondSpace + 1);
String target = line.substring(secondSpace + 1, thirdSpace);
if (target == String(channel)) {
int colonPos = line.indexOf(':', thirdSpace);
String message = line.substring(colonPos + 1);
String senderNick = line.substring(1, line.indexOf('!'));
bool mention = message.indexOf(nick) != -1;
addLine(senderNick, message, "message", mention);
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}
} else if (command == "JOIN" && line.indexOf(channel) != -1) {
String senderNick = line.substring(1, line.indexOf('!'));
addLine(senderNick, " has joined " + String(channel), "join");
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} else if (command == "PART" && line.indexOf(channel) != -1) {
String senderNick = line.substring(1, line.indexOf('!'));
addLine(senderNick, " has EMO-QUIT " + String(channel), "part");
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} else if (command == "QUIT" && line.indexOf(channel) != -1) {
String senderNick = line.substring(1, line.indexOf('!'));
addLine(senderNick, "", "quit");
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} else if (command == "NICK") {
String oldNick = line.substring(1, line.indexOf('!'));
String newNick = line.substring(line.lastIndexOf(':') + 1);
addLine(oldNick, " -> " + newNick, "nick");
} else if (command == "KICK") {
int thirdSpace = line.indexOf(' ', secondSpace + 1);
int fourthSpace = line.indexOf(' ', thirdSpace + 1);
String kicker = line.substring(1, line.indexOf('!'));
String kicked = line.substring(thirdSpace + 1, fourthSpace);
addLine(kicked, " by " + kicker, "kick");
} else if (command == "MODE") {
String modeChange = line.substring(secondSpace + 1);
addLine("", modeChange, "mode");
}
}
}
void handleKeyboardInput(char key) {
if (key == '\n' || key == '\r') { // Enter
if (inputBuffer.startsWith("/raw ")) {
String rawCommand = inputBuffer.substring(5);
sendRawCommand(rawCommand);
} else {
sendIRC("PRIVMSG " + String(channel) + " :" + inputBuffer);
addLine(nick, inputBuffer, "message");
}
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inputBuffer = "";
displayInputLine();
lastActivityTime = millis(); // Reset activity timer
if (!screenOn) {
turnOnScreen(); // Turn on screen and backlight
}
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} else if (key == '\b') { // Backspace
if (inputBuffer.length() > 0) {
inputBuffer.remove(inputBuffer.length() - 1);
displayInputLine();
lastActivityTime = millis(); // Reset activity timer
if (!screenOn) {
turnOnScreen(); // Turn on screen and backlight
}
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}
} else {
inputBuffer += key;
displayInputLine();
lastActivityTime = millis(); // Reset activity timer
if (!screenOn) {
turnOnScreen(); // Turn on screen and backlight
}
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}
}
void sendRawCommand(String command) {
if (client.connected()) {
sendIRC(command);
Serial.println("Sent raw command: " + command);
} else {
Serial.println("Failed to send raw command: Not connected to IRC");
}
}
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char getKeyboardInput() {
char incoming = 0;
Wire.requestFrom(LILYGO_KB_SLAVE_ADDRESS, 1);
if (Wire.available()) {
incoming = Wire.read();
if (incoming != (char)0x00) {
Serial.print("Key: ");
Serial.println(incoming);
return incoming;
}
}
return 0;
}
void displayXBM() {
tft.fillScreen(TFT_BLACK);
int x = (SCREEN_WIDTH - logo_width) / 2;
int y = (SCREEN_HEIGHT - logo_height) / 2;
tft.drawXBitmap(x, y, logo_bits, logo_width, logo_height, TFT_GREEN);
}
void displayInputLine() {
tft.fillRect(0, SCREEN_HEIGHT - INPUT_LINE_HEIGHT, SCREEN_WIDTH, INPUT_LINE_HEIGHT, TFT_BLACK);
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tft.setCursor(0, SCREEN_HEIGHT - INPUT_LINE_HEIGHT);
tft.setTextColor(TFT_WHITE);
tft.setTextSize(1);
tft.print("> " + inputBuffer);
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}
void displayCenteredText(String text) {
tft.fillScreen(TFT_BLACK);
tft.setTextDatum(MC_DATUM);
tft.setTextColor(TFT_GREEN, TFT_BLACK);
tft.drawString(text, SCREEN_WIDTH / 2, (SCREEN_HEIGHT + STATUS_BAR_HEIGHT) / 2);
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}
int calculateLinesRequired(String message) {
int linesRequired = 1;
int lineWidth = 0;
for (char c : message) {
lineWidth += tft.textWidth(String(c));
if (lineWidth > SCREEN_WIDTH) {
linesRequired++;
lineWidth = tft.textWidth(String(c));
}
}
return linesRequired;
}
uint16_t getColorFromCode(int colorCode) {
switch (colorCode) {
case 0: return TFT_WHITE;
case 1: return TFT_BLACK;
case 2: return tft.color565(0, 0, 128); // Dark Blue (Navy)
case 3: return TFT_GREEN;
case 4: return TFT_RED;
case 5: return tft.color565(128, 0, 0); // Brown (Maroon)
case 6: return tft.color565(128, 0, 128); // Purple
case 7: return tft.color565(255, 165, 0); // Orange
case 8: return TFT_YELLOW;
case 9: return tft.color565(144, 238, 144); // Light Green
case 10: return tft.color565(0, 255, 255); // Cyan (Light Blue)
case 11: return tft.color565(224, 255, 255); // Light Cyan (Aqua)
case 12: return TFT_BLUE;
case 13: return tft.color565(255, 192, 203); // Pink (Light Purple)
case 14: return tft.color565(128, 128, 128); // Grey
case 15: return tft.color565(211, 211, 211); // Light Grey
default: return TFT_WHITE;
}
}
uint32_t generateRandomColor() {
return tft.color565(random(0, 255), random(0, 255), random(0, 255));
}
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void handlePasswordInput(char key) {
if (key == '\n' || key == '\r') { // Enter
password = inputBuffer;
inputBuffer = "";
connectToWiFi();
} else if (key == '\b') { // Backspace
if (inputBuffer.length() > 0) {
inputBuffer.remove(inputBuffer.length() - 1);
displayPasswordInputLine();
}
} else {
inputBuffer += key;
displayPasswordInputLine();
}
}
void displayPasswordInputLine() {
tft.fillRect(0, SCREEN_HEIGHT - INPUT_LINE_HEIGHT, SCREEN_WIDTH, INPUT_LINE_HEIGHT, TFT_BLACK);
tft.setCursor(0, SCREEN_HEIGHT - INPUT_LINE_HEIGHT);
tft.setTextColor(TFT_WHITE);
tft.setTextSize(1);
tft.print("> " + inputBuffer);
}
void updateSelectedNetwork(int delta) {
int newIndex = selectedNetworkIndex + delta;
if (newIndex >= 0 && newIndex < wifiNetworks.size()) {
selectedNetworkIndex = newIndex;
displayWiFiNetworks();
}
}
void scanWiFiNetworks() {
Serial.println("Scanning for WiFi networks...");
int n = WiFi.scanNetworks();
Serial.print("Total number of networks found: ");
Serial.println(n);
for (int i = 0; i < n && i < 100; i++) {
WiFiNetwork net;
net.index = i + 1;
net.channel = WiFi.channel(i);
net.rssi = WiFi.RSSI(i);
net.encryption = (WiFi.encryptionType(i) == WIFI_AUTH_OPEN) ? "Open" : "Secured";
net.ssid = WiFi.SSID(i);
wifiNetworks.push_back(net);
}
}
void displayWiFiNetworks() {
tft.fillRect(0, STATUS_BAR_HEIGHT, SCREEN_WIDTH, SCREEN_HEIGHT - STATUS_BAR_HEIGHT, TFT_BLACK);
tft.setTextSize(1);
tft.setTextColor(TFT_CYAN);
tft.setCursor(0, STATUS_BAR_HEIGHT);
tft.printf("# CH RSSI ENC SSID\n");
tft.setTextColor(TFT_WHITE);
int maxDisplayedLines = (SCREEN_HEIGHT - STATUS_BAR_HEIGHT - CHAR_HEIGHT) / (CHAR_HEIGHT + LINE_SPACING);
int startIdx = selectedNetworkIndex >= maxDisplayedLines ? selectedNetworkIndex - maxDisplayedLines + 1 : 0;
for (int i = startIdx; i < wifiNetworks.size() && i < startIdx + maxDisplayedLines; ++i) {
displayWiFiNetwork(i, i - startIdx + 1); // +1 to account for the header
}
}
void displayWiFiNetwork(int index, int displayIndex) {
int y = STATUS_BAR_HEIGHT + displayIndex * (CHAR_HEIGHT + LINE_SPACING);
tft.setCursor(0, y);
if (index == selectedNetworkIndex) {
tft.setTextColor(TFT_GREEN, TFT_BLACK);
} else {
tft.setTextColor(TFT_WHITE, TFT_BLACK);
}
WiFiNetwork net = wifiNetworks[index];
uint16_t rssiColor = getColorFromPercentage((int32_t)net.rssi);
tft.printf("%-2d %-3d ", net.index, net.channel);
tft.setTextColor(rssiColor, TFT_BLACK); // Set RSSI color
tft.printf("%-5d ", net.rssi);
tft.setTextColor(index == selectedNetworkIndex ? TFT_GREEN : TFT_WHITE, TFT_BLACK);
tft.printf("%-8s %s", net.encryption.c_str(), net.ssid.c_str());
}
void handleWiFiSelection(char key) {
if (key == 'u') {
updateSelectedNetwork(-1);
} else if (key == 'd') {
updateSelectedNetwork(1);
} else if (key == '\n' || key == '\r') {
ssid = wifiNetworks[selectedNetworkIndex].ssid;
if (wifiNetworks[selectedNetworkIndex].encryption == "Secured") {
inputBuffer = "";
tft.fillScreen(TFT_BLACK);
tft.setTextSize(1);
tft.setTextColor(TFT_WHITE);
tft.setCursor(0, STATUS_BAR_HEIGHT);
tft.println("ENTER PASSWORD:");
displayPasswordInputLine();
// Switch to password input mode
while (true) {
char incoming = getKeyboardInput();
if (incoming != 0) {
handlePasswordInput(incoming);
if (incoming == '\n' || incoming == '\r') {
break;
}
}
}
} else {
connectToWiFi();
}
}
}
void updateStatusBar() {
Serial.println("Updating status bar...");
uint16_t darkerGrey = tft.color565(25, 25, 25);
tft.fillRect(0, 0, SCREEN_WIDTH, STATUS_BAR_HEIGHT, darkerGrey);
// Display time
struct tm timeinfo;
char timeStr[9];
if (!getLocalTime(&timeinfo)) {
// Default time if NTP sync fails
sprintf(timeStr, "12:00 AM");
} else {
int hour = timeinfo.tm_hour;
char ampm[] = "AM";
if (hour == 0) {
hour = 12;
} else if (hour >= 12) {
if (hour > 12) {
hour -= 12;
}
strcpy(ampm, "PM");
}
sprintf(timeStr, "%02d:%02d %s", hour, timeinfo.tm_min, ampm);
}
tft.setTextDatum(ML_DATUM);
tft.setTextColor(TFT_WHITE, darkerGrey);
tft.drawString(timeStr, 0, STATUS_BAR_HEIGHT / 2);
char wifiStr[15];
int wifiSignal = 0;
if (WiFi.status() != WL_CONNECTED) {
sprintf(wifiStr, "WiFi: N/A");
tft.setTextColor(TFT_PINK, darkerGrey);
tft.setTextDatum(MR_DATUM);
tft.drawString(wifiStr, SCREEN_WIDTH - 100, STATUS_BAR_HEIGHT / 2);
} else {
int32_t rssi = WiFi.RSSI();
if (rssi > -50) wifiSignal = 100;
else if (rssi > -60) wifiSignal = 80;
else if (rssi > -70) wifiSignal = 60;
else if (rssi > -80) wifiSignal = 40;
else if (rssi > -90) wifiSignal = 20;
else wifiSignal = 0;
sprintf(wifiStr, "WiFi: %d%%", wifiSignal);
tft.setTextDatum(MR_DATUM);
tft.setTextColor(TFT_PINK, darkerGrey);
tft.drawString("WiFi:", SCREEN_WIDTH - 120, STATUS_BAR_HEIGHT / 2);
tft.setTextColor(getColorFromPercentage(wifiSignal), darkerGrey);
tft.drawString(wifiStr + 6, SCREEN_WIDTH - 100, STATUS_BAR_HEIGHT / 2);
}
int batteryLevel = BL.getBatteryChargeLevel();
char batteryStr[15];
sprintf(batteryStr, "Batt: %d%%", batteryLevel);
tft.setTextDatum(MR_DATUM);
tft.setTextColor(TFT_CYAN, darkerGrey);
tft.drawString("Batt:", SCREEN_WIDTH - 40, STATUS_BAR_HEIGHT / 2);
tft.setTextColor(getColorFromPercentage(batteryLevel), darkerGrey);
tft.drawString(batteryStr + 5, SCREEN_WIDTH - 5, STATUS_BAR_HEIGHT / 2);
}
uint16_t getColorFromPercentage(int rssi) {
if (rssi > -50) return TFT_GREEN;
else if (rssi > -60) return TFT_YELLOW;
else if (rssi > -70) return TFT_ORANGE;
else return TFT_RED;
}
void updateTimeFromNTP() {
Serial.println("Syncing time with NTP server...");
configTime(-5 * 3600, 0, "pool.ntp.org", "time.nist.gov");
for (int i = 0; i < 10; ++i) { // Try up to 10 times
delay(2000);
struct tm timeinfo;
if (getLocalTime(&timeinfo)) {
Serial.println(&timeinfo, "Time synchronized: %A, %B %d %Y %H:%M:%S");
return;
} else {
Serial.println("Failed to synchronize time, retrying...");
}
}
Serial.println("Failed to synchronize time after multiple attempts.");
}