#include "CrossPointWebServerActivity.h" #include #include #include #include #include #include #include #include "MappedInputManager.h" #include "NetworkModeSelectionActivity.h" #include "WifiSelectionActivity.h" #include "activities/network/CalibreConnectActivity.h" #include "components/UITheme.h" #include "fontIds.h" namespace { // AP Mode configuration constexpr const char* AP_SSID = "CrossPoint-Reader"; constexpr const char* AP_PASSWORD = nullptr; // Open network for ease of use constexpr const char* AP_HOSTNAME = "crosspoint"; constexpr uint8_t AP_CHANNEL = 1; constexpr uint8_t AP_MAX_CONNECTIONS = 4; // DNS server for captive portal (redirects all DNS queries to our IP) DNSServer* dnsServer = nullptr; constexpr uint16_t DNS_PORT = 53; } // namespace void CrossPointWebServerActivity::taskTrampoline(void* param) { auto* self = static_cast(param); self->displayTaskLoop(); } void CrossPointWebServerActivity::onEnter() { ActivityWithSubactivity::onEnter(); LOG_DBG("WEBACT] [MEM", "Free heap at onEnter: %d bytes", ESP.getFreeHeap()); renderingMutex = xSemaphoreCreateMutex(); // Reset state state = WebServerActivityState::MODE_SELECTION; networkMode = NetworkMode::JOIN_NETWORK; isApMode = false; connectedIP.clear(); connectedSSID.clear(); lastHandleClientTime = 0; updateRequired = true; xTaskCreate(&CrossPointWebServerActivity::taskTrampoline, "WebServerActivityTask", 2048, // Stack size this, // Parameters 1, // Priority &displayTaskHandle // Task handle ); // Launch network mode selection subactivity LOG_DBG("WEBACT", "Launching NetworkModeSelectionActivity..."); enterNewActivity(new NetworkModeSelectionActivity( renderer, mappedInput, [this](const NetworkMode mode) { onNetworkModeSelected(mode); }, [this]() { onGoBack(); } // Cancel goes back to home )); } void CrossPointWebServerActivity::onExit() { ActivityWithSubactivity::onExit(); LOG_DBG("WEBACT] [MEM", "Free heap at onExit start: %d bytes", ESP.getFreeHeap()); state = WebServerActivityState::SHUTTING_DOWN; // Stop the web server first (before disconnecting WiFi) stopWebServer(); // Stop mDNS MDNS.end(); // Stop DNS server if running (AP mode) if (dnsServer) { LOG_DBG("WEBACT", "Stopping DNS server..."); dnsServer->stop(); delete dnsServer; dnsServer = nullptr; } // Brief wait for LWIP stack to flush pending packets delay(50); // Disconnect WiFi gracefully if (isApMode) { LOG_DBG("WEBACT", "Stopping WiFi AP..."); WiFi.softAPdisconnect(true); } else { LOG_DBG("WEBACT", "Disconnecting WiFi (graceful)..."); WiFi.disconnect(false); // false = don't erase credentials, send disconnect frame } delay(30); // Allow disconnect frame to be sent LOG_DBG("WEBACT", "Setting WiFi mode OFF..."); WiFi.mode(WIFI_OFF); delay(30); // Allow WiFi hardware to power down LOG_DBG("WEBACT] [MEM", "Free heap after WiFi disconnect: %d bytes", ESP.getFreeHeap()); // Acquire mutex before deleting task LOG_DBG("WEBACT", "Acquiring rendering mutex before task deletion..."); xSemaphoreTake(renderingMutex, portMAX_DELAY); // Delete the display task LOG_DBG("WEBACT", "Deleting display task..."); if (displayTaskHandle) { vTaskDelete(displayTaskHandle); displayTaskHandle = nullptr; LOG_DBG("WEBACT", "Display task deleted"); } // Delete the mutex LOG_DBG("WEBACT", "Deleting mutex..."); vSemaphoreDelete(renderingMutex); renderingMutex = nullptr; LOG_DBG("WEBACT", "Mutex deleted"); LOG_DBG("WEBACT] [MEM", "Free heap at onExit end: %d bytes", ESP.getFreeHeap()); } void CrossPointWebServerActivity::onNetworkModeSelected(const NetworkMode mode) { const char* modeName = "Join Network"; if (mode == NetworkMode::CONNECT_CALIBRE) { modeName = "Connect to Calibre"; } else if (mode == NetworkMode::CREATE_HOTSPOT) { modeName = "Create Hotspot"; } LOG_DBG("WEBACT", "Network mode selected: %s", modeName); networkMode = mode; isApMode = (mode == NetworkMode::CREATE_HOTSPOT); // Exit mode selection subactivity exitActivity(); if (mode == NetworkMode::CONNECT_CALIBRE) { exitActivity(); enterNewActivity(new CalibreConnectActivity(renderer, mappedInput, [this] { exitActivity(); state = WebServerActivityState::MODE_SELECTION; enterNewActivity(new NetworkModeSelectionActivity( renderer, mappedInput, [this](const NetworkMode nextMode) { onNetworkModeSelected(nextMode); }, [this]() { onGoBack(); })); })); return; } if (mode == NetworkMode::JOIN_NETWORK) { // STA mode - launch WiFi selection LOG_DBG("WEBACT", "Turning on WiFi (STA mode)..."); WiFi.mode(WIFI_STA); state = WebServerActivityState::WIFI_SELECTION; LOG_DBG("WEBACT", "Launching WifiSelectionActivity..."); enterNewActivity(new WifiSelectionActivity(renderer, mappedInput, [this](const bool connected) { onWifiSelectionComplete(connected); })); } else { // AP mode - start access point state = WebServerActivityState::AP_STARTING; updateRequired = true; startAccessPoint(); } } void CrossPointWebServerActivity::onWifiSelectionComplete(const bool connected) { LOG_DBG("WEBACT", "WifiSelectionActivity completed, connected=%d", connected); if (connected) { // Get connection info before exiting subactivity connectedIP = static_cast(subActivity.get())->getConnectedIP(); connectedSSID = WiFi.SSID().c_str(); isApMode = false; exitActivity(); // Start mDNS for hostname resolution if (MDNS.begin(AP_HOSTNAME)) { LOG_DBG("WEBACT", "mDNS started: http://%s.local/", AP_HOSTNAME); } // Start the web server startWebServer(); } else { // User cancelled - go back to mode selection exitActivity(); state = WebServerActivityState::MODE_SELECTION; enterNewActivity(new NetworkModeSelectionActivity( renderer, mappedInput, [this](const NetworkMode mode) { onNetworkModeSelected(mode); }, [this]() { onGoBack(); })); } } void CrossPointWebServerActivity::startAccessPoint() { LOG_DBG("WEBACT", "Starting Access Point mode..."); LOG_DBG("WEBACT] [MEM", "Free heap before AP start: %d bytes", ESP.getFreeHeap()); // Configure and start the AP WiFi.mode(WIFI_AP); delay(100); // Start soft AP bool apStarted; if (AP_PASSWORD && strlen(AP_PASSWORD) >= 8) { apStarted = WiFi.softAP(AP_SSID, AP_PASSWORD, AP_CHANNEL, false, AP_MAX_CONNECTIONS); } else { // Open network (no password) apStarted = WiFi.softAP(AP_SSID, nullptr, AP_CHANNEL, false, AP_MAX_CONNECTIONS); } if (!apStarted) { LOG_ERR("WEBACT", "ERROR: Failed to start Access Point!"); onGoBack(); return; } delay(100); // Wait for AP to fully initialize // Get AP IP address const IPAddress apIP = WiFi.softAPIP(); char ipStr[16]; snprintf(ipStr, sizeof(ipStr), "%d.%d.%d.%d", apIP[0], apIP[1], apIP[2], apIP[3]); connectedIP = ipStr; connectedSSID = AP_SSID; LOG_DBG("WEBACT", "Access Point started!"); LOG_DBG("WEBACT", "SSID: %s", AP_SSID); LOG_DBG("WEBACT", "IP: %s", connectedIP.c_str()); // Start mDNS for hostname resolution if (MDNS.begin(AP_HOSTNAME)) { LOG_DBG("WEBACT", "mDNS started: http://%s.local/", AP_HOSTNAME); } else { LOG_DBG("WEBACT", "WARNING: mDNS failed to start"); } // Start DNS server for captive portal behavior // This redirects all DNS queries to our IP, making any domain typed resolve to us dnsServer = new DNSServer(); dnsServer->setErrorReplyCode(DNSReplyCode::NoError); dnsServer->start(DNS_PORT, "*", apIP); LOG_DBG("WEBACT", "DNS server started for captive portal"); LOG_DBG("WEBACT] [MEM", "Free heap after AP start: %d bytes", ESP.getFreeHeap()); // Start the web server startWebServer(); } void CrossPointWebServerActivity::startWebServer() { LOG_DBG("WEBACT", "Starting web server..."); // Create the web server instance webServer.reset(new CrossPointWebServer()); webServer->begin(); if (webServer->isRunning()) { state = WebServerActivityState::SERVER_RUNNING; LOG_DBG("WEBACT", "Web server started successfully"); // Force an immediate render since we're transitioning from a subactivity // that had its own rendering task. We need to make sure our display is shown. xSemaphoreTake(renderingMutex, portMAX_DELAY); render(); xSemaphoreGive(renderingMutex); LOG_DBG("WEBACT", "Rendered File Transfer screen"); } else { LOG_ERR("WEBACT", "ERROR: Failed to start web server!"); webServer.reset(); // Go back on error onGoBack(); } } void CrossPointWebServerActivity::stopWebServer() { if (webServer && webServer->isRunning()) { LOG_DBG("WEBACT", "Stopping web server..."); webServer->stop(); LOG_DBG("WEBACT", "Web server stopped"); } webServer.reset(); } void CrossPointWebServerActivity::loop() { if (subActivity) { // Forward loop to subactivity subActivity->loop(); return; } // Handle different states if (state == WebServerActivityState::SERVER_RUNNING) { // Handle DNS requests for captive portal (AP mode only) if (isApMode && dnsServer) { dnsServer->processNextRequest(); } // STA mode: Monitor WiFi connection health if (!isApMode && webServer && webServer->isRunning()) { static unsigned long lastWifiCheck = 0; if (millis() - lastWifiCheck > 2000) { // Check every 2 seconds lastWifiCheck = millis(); const wl_status_t wifiStatus = WiFi.status(); if (wifiStatus != WL_CONNECTED) { LOG_DBG("WEBACT", "WiFi disconnected! Status: %d", wifiStatus); // Show error and exit gracefully state = WebServerActivityState::SHUTTING_DOWN; updateRequired = true; return; } // Log weak signal warnings const int rssi = WiFi.RSSI(); if (rssi < -75) { LOG_DBG("WEBACT", "Warning: Weak WiFi signal: %d dBm", rssi); } } } // Handle web server requests - maximize throughput with watchdog safety if (webServer && webServer->isRunning()) { const unsigned long timeSinceLastHandleClient = millis() - lastHandleClientTime; // Log if there's a significant gap between handleClient calls (>100ms) if (lastHandleClientTime > 0 && timeSinceLastHandleClient > 100) { LOG_DBG("WEBACT", "WARNING: %lu ms gap since last handleClient", timeSinceLastHandleClient); } // Reset watchdog BEFORE processing - HTTP header parsing can be slow esp_task_wdt_reset(); // Process HTTP requests in tight loop for maximum throughput // More iterations = more data processed per main loop cycle constexpr int MAX_ITERATIONS = 500; for (int i = 0; i < MAX_ITERATIONS && webServer->isRunning(); i++) { webServer->handleClient(); // Reset watchdog every 32 iterations if ((i & 0x1F) == 0x1F) { esp_task_wdt_reset(); } // Yield and check for exit button every 64 iterations if ((i & 0x3F) == 0x3F) { yield(); // Force trigger an update of which buttons are being pressed so be have accurate state // for back button checking mappedInput.update(); // Check for exit button inside loop for responsiveness if (mappedInput.wasPressed(MappedInputManager::Button::Back)) { onGoBack(); return; } } } lastHandleClientTime = millis(); } // Handle exit on Back button (also check outside loop) if (mappedInput.wasPressed(MappedInputManager::Button::Back)) { onGoBack(); return; } } } void CrossPointWebServerActivity::displayTaskLoop() { while (true) { if (updateRequired) { updateRequired = false; xSemaphoreTake(renderingMutex, portMAX_DELAY); render(); xSemaphoreGive(renderingMutex); } vTaskDelay(10 / portTICK_PERIOD_MS); } } void CrossPointWebServerActivity::render() const { // Only render our own UI when server is running // Subactivities handle their own rendering if (state == WebServerActivityState::SERVER_RUNNING) { renderer.clearScreen(); renderServerRunning(); renderer.displayBuffer(); } else if (state == WebServerActivityState::AP_STARTING) { renderer.clearScreen(); const auto pageHeight = renderer.getScreenHeight(); renderer.drawCenteredText(UI_12_FONT_ID, pageHeight / 2 - 20, "Starting Hotspot...", true, EpdFontFamily::BOLD); renderer.displayBuffer(); } } void drawQRCode(const GfxRenderer& renderer, const int x, const int y, const std::string& data) { // Implementation of QR code calculation // The structure to manage the QR code QRCode qrcode; uint8_t qrcodeBytes[qrcode_getBufferSize(4)]; LOG_DBG("WEBACT", "QR Code (%lu): %s", data.length(), data.c_str()); qrcode_initText(&qrcode, qrcodeBytes, 4, ECC_LOW, data.c_str()); const uint8_t px = 6; // pixels per module for (uint8_t cy = 0; cy < qrcode.size; cy++) { for (uint8_t cx = 0; cx < qrcode.size; cx++) { if (qrcode_getModule(&qrcode, cx, cy)) { // Serial.print("**"); renderer.fillRect(x + px * cx, y + px * cy, px, px, true); } else { // Serial.print(" "); } } // Serial.print("\n"); } } void CrossPointWebServerActivity::renderServerRunning() const { // Use consistent line spacing constexpr int LINE_SPACING = 28; // Space between lines renderer.drawCenteredText(UI_12_FONT_ID, 15, "File Transfer", true, EpdFontFamily::BOLD); if (isApMode) { // AP mode display - center the content block int startY = 55; renderer.drawCenteredText(UI_10_FONT_ID, startY, "Hotspot Mode", true, EpdFontFamily::BOLD); std::string ssidInfo = "Network: " + connectedSSID; renderer.drawCenteredText(UI_10_FONT_ID, startY + LINE_SPACING, ssidInfo.c_str()); renderer.drawCenteredText(SMALL_FONT_ID, startY + LINE_SPACING * 2, "Connect your device to this WiFi network"); renderer.drawCenteredText(SMALL_FONT_ID, startY + LINE_SPACING * 3, "or scan QR code with your phone to connect to Wifi."); // Show QR code for URL const std::string wifiConfig = std::string("WIFI:S:") + connectedSSID + ";;"; drawQRCode(renderer, (480 - 6 * 33) / 2, startY + LINE_SPACING * 4, wifiConfig); startY += 6 * 29 + 3 * LINE_SPACING; // Show primary URL (hostname) std::string hostnameUrl = std::string("http://") + AP_HOSTNAME + ".local/"; renderer.drawCenteredText(UI_10_FONT_ID, startY + LINE_SPACING * 3, hostnameUrl.c_str(), true, EpdFontFamily::BOLD); // Show IP address as fallback std::string ipUrl = "or http://" + connectedIP + "/"; renderer.drawCenteredText(SMALL_FONT_ID, startY + LINE_SPACING * 4, ipUrl.c_str()); renderer.drawCenteredText(SMALL_FONT_ID, startY + LINE_SPACING * 5, "Open this URL in your browser"); // Show QR code for URL renderer.drawCenteredText(SMALL_FONT_ID, startY + LINE_SPACING * 6, "or scan QR code with your phone:"); drawQRCode(renderer, (480 - 6 * 33) / 2, startY + LINE_SPACING * 7, hostnameUrl); } else { // STA mode display (original behavior) const int startY = 65; std::string ssidInfo = "Network: " + connectedSSID; if (ssidInfo.length() > 28) { ssidInfo.replace(25, ssidInfo.length() - 25, "..."); } renderer.drawCenteredText(UI_10_FONT_ID, startY, ssidInfo.c_str()); std::string ipInfo = "IP Address: " + connectedIP; renderer.drawCenteredText(UI_10_FONT_ID, startY + LINE_SPACING, ipInfo.c_str()); // Show web server URL prominently std::string webInfo = "http://" + connectedIP + "/"; renderer.drawCenteredText(UI_10_FONT_ID, startY + LINE_SPACING * 2, webInfo.c_str(), true, EpdFontFamily::BOLD); // Also show hostname URL std::string hostnameUrl = std::string("or http://") + AP_HOSTNAME + ".local/"; renderer.drawCenteredText(SMALL_FONT_ID, startY + LINE_SPACING * 3, hostnameUrl.c_str()); renderer.drawCenteredText(SMALL_FONT_ID, startY + LINE_SPACING * 4, "Open this URL in your browser"); // Show QR code for URL drawQRCode(renderer, (480 - 6 * 33) / 2, startY + LINE_SPACING * 6, webInfo); renderer.drawCenteredText(SMALL_FONT_ID, startY + LINE_SPACING * 5, "or scan QR code with your phone:"); } const auto labels = mappedInput.mapLabels("« Exit", "", "", ""); GUI.drawButtonHints(renderer, labels.btn1, labels.btn2, labels.btn3, labels.btn4); }