#include "webserver.hpp" AsyncWebServer server(80); AsyncEventSource events("/events"); TaskHandle_t eventSourceTaskHandle; void setupWebserver() { if (!LittleFS.begin(true)) { Serial.println(F("An Error has occurred while mounting LittleFS")); return; } events.onConnect([](AsyncEventSourceClient *client) { if (client->lastId()) { Serial.printf("Client reconnected! Last message ID that it gat is: %u\n", client->lastId()); } // send event with message "hello!", id current millis // and set reconnect delay to 1 second client->send("welcome",NULL,millis(),1000); }); server.addHandler(&events); server.serveStatic("/css", LittleFS, "/css/"); server.serveStatic("/js", LittleFS, "/js/"); server.serveStatic("/font", LittleFS, "/font/"); server.on("/", HTTP_GET, onIndex); server.on("/api/status", HTTP_GET, onApiStatus); server.on("/api/system_status", HTTP_GET, onApiSystemStatus); server.on("/api/action/pause", HTTP_GET, onApiActionPause); server.on("/api/action/timer_restart", HTTP_GET, onApiActionTimerRestart); server.on("/api/settings", HTTP_GET, onApiSettingsGet); server.on("/api/settings", HTTP_POST, onApiSettingsPost); server.on("/api/show/screen", HTTP_GET, onApiShowScreen); server.on("/api/show/text", HTTP_GET, onApiShowText); server.on("/api/lights/off", HTTP_GET, onApiLightsOff); server.on("/api/lights/color", HTTP_GET, onApiLightsSetColor); // server.on("^\\/api\\/lights\\/([A-Fa-f0-9]{6}|[A-Fa-f0-9]{3})$", HTTP_GET, onApiLightsSetColor); server.on("/api/restart", HTTP_GET, onApiRestart); server.addRewrite(new OneParamRewrite("/api/lights/{color}", "/api/lights/color?c={color}")); server.addRewrite(new OneParamRewrite("/api/show/screen/{s}", "/api/show/screen?s={s}")); server.addRewrite(new OneParamRewrite("/api/show/text/{text}", "/api/show/text?t={text}")); server.addRewrite(new OneParamRewrite("/api/show/number/{number}", "/api/show/text?t={text}")); server.onNotFound(onNotFound); DefaultHeaders::Instance().addHeader("Access-Control-Allow-Origin", "*"); server.begin(); // if (!MDNS.begin(getMyHostname())) // { // Serial.println(F("Error setting up MDNS responder!")); // while (1) // { // delay(1000); // } // } // MDNS.addService("http", "tcp", 80); xTaskCreate(eventSourceTask, "eventSourceTask", 4096, NULL, tskIDLE_PRIORITY, &eventSourceTaskHandle); } void stopWebServer() { server.end(); } StaticJsonDocument<768> getStatusObject() { StaticJsonDocument<768> root; root["currentScreen"] = getCurrentScreen(); root["numScreens"] = NUM_SCREENS; root["timerRunning"] = isTimerActive(); root["espUptime"] = esp_timer_get_time() / 1000000; // root["currentPrice"] = getPrice(); // root["currentBlockHeight"] = getBlockHeight(); root["espFreeHeap"] = ESP.getFreeHeap(); root["espHeapSize"] = ESP.getHeapSize(); // root["espFreePsram"] = ESP.getFreePsram(); // root["espPsramSize"] = ESP.getPsramSize(); JsonObject conStatus = root.createNestedObject("connectionStatus"); conStatus["price"] = isPriceNotifyConnected(); conStatus["blocks"] = isBlockNotifyConnected(); return root; } void eventSourceUpdate() { if (!events.count()) return; StaticJsonDocument<768> root = getStatusObject(); JsonArray data = root.createNestedArray("data"); String epdContent[NUM_SCREENS]; std::array retEpdContent = getCurrentEpdContent(); std::copy(std::begin(retEpdContent), std::end(retEpdContent), epdContent); copyArray(epdContent, data); String bufString; serializeJson(root, bufString); events.send(bufString.c_str(), "status"); } /** * @Api * @Path("/api/status") */ void onApiStatus(AsyncWebServerRequest *request) { AsyncResponseStream *response = request->beginResponseStream("application/json"); StaticJsonDocument<768> root = getStatusObject(); JsonArray data = root.createNestedArray("data"); JsonArray rendered = root.createNestedArray("rendered"); String epdContent[NUM_SCREENS]; std::array retEpdContent = getCurrentEpdContent(); std::copy(std::begin(retEpdContent), std::end(retEpdContent), epdContent); copyArray(epdContent, data); copyArray(epdContent, rendered); serializeJson(root, *response); request->send(response); } /** * @Api * @Path("/api/action/pause") */ void onApiActionPause(AsyncWebServerRequest *request) { setTimerActive(false); Serial.println(F("Update timer paused")); request->send(200); }; /** * @Api * @Path("/api/action/timer_restart") */ void onApiActionTimerRestart(AsyncWebServerRequest *request) { // moment = millis(); setTimerActive(true); Serial.println(F("Update timer restarted")); request->send(200); } void onApiShowScreen(AsyncWebServerRequest *request) { if (request->hasParam("s")) { AsyncWebParameter *p = request->getParam("s"); uint currentScreen = p->value().toInt(); setCurrentScreen(currentScreen); } request->send(200); } void onApiShowText(AsyncWebServerRequest *request) { if (request->hasParam("t")) { AsyncWebParameter *p = request->getParam("t"); String t = p->value(); t.toUpperCase(); // This is needed as long as lowercase letters are glitchy std::array textEpdContent; for (uint i = 0; i < NUM_SCREENS; i++) { textEpdContent[i] = t[i]; } setEpdContent(textEpdContent); } setCurrentScreen(SCREEN_CUSTOM); request->send(200); } void onApiRestart(AsyncWebServerRequest *request) { request->send(200); esp_restart(); } /** * @Api * @Method GET * @Path("/api/settings") */ void onApiSettingsGet(AsyncWebServerRequest *request) { StaticJsonDocument<1536> root; root["numScreens"] = NUM_SCREENS; root["fgColor"] = getFgColor(); root["bgColor"] = getBgColor(); root["timerSeconds"] = getTimerSeconds(); root["timerRunning"] = isTimerActive(); root["minSecPriceUpd"] = preferences.getUInt("minSecPriceUpd", DEFAULT_SECONDS_BETWEEN_PRICE_UPDATE); root["fullRefreshMin"] = preferences.getUInt("fullRefreshMin", 30); root["wpTimeout"] = preferences.getUInt("wpTimeout", 600); root["tzOffset"] = preferences.getInt("gmtOffset", TIME_OFFSET_SECONDS) / 60; root["useBitcoinNode"] = preferences.getBool("useNode", false); // root["rpcPort"] = preferences.getUInt("rpcPort", BITCOIND_PORT); // root["rpcUser"] = preferences.getString("rpcUser", BITCOIND_RPC_USER); // root["rpcHost"] = preferences.getString("rpcHost", BITCOIND_HOST); root["mempoolInstance"] = preferences.getString("mempoolInstance", DEFAULT_MEMPOOL_INSTANCE); root["ledTestOnPower"] = preferences.getBool("ledTestOnPower", true); root["ledFlashOnUpdate"] = preferences.getBool("ledFlashOnUpd", false); root["ledBrightness"] = preferences.getUInt("ledBrightness", 128); root["stealFocusOnBlock"] = preferences.getBool("stealFocus", true); root["mcapBigChar"] = preferences.getBool("mcapBigChar", true); #ifdef GIT_REV root["gitRev"] = String(GIT_REV); #endif #ifdef LAST_BUILD_TIME root["lastBuildTime"] = String(LAST_BUILD_TIME); #endif JsonArray screens = root.createNestedArray("screens"); std::vector screenNameMap = getScreenNameMap(); for (int i = 0; i < screenNameMap.size(); i++) { JsonObject o = screens.createNestedObject(); String key = "screen" + String(i) + "Visible"; o["id"] = i; o["name"] = screenNameMap[i]; o["enabled"] = preferences.getBool(key.c_str(), true); } AsyncResponseStream *response = request->beginResponseStream("application/json"); serializeJson(root, *response); request->send(response); } bool processEpdColorSettings(AsyncWebServerRequest *request) { bool settingsChanged = false; if (request->hasParam("fgColor", true)) { AsyncWebParameter *fgColor = request->getParam("fgColor", true); preferences.putUInt("fgColor", strtol(fgColor->value().c_str(), NULL, 16)); setFgColor(int(strtol(fgColor->value().c_str(), NULL, 16))); Serial.print(F("Setting foreground color to ")); Serial.println(fgColor->value().c_str()); settingsChanged = true; } if (request->hasParam("bgColor", true)) { AsyncWebParameter *bgColor = request->getParam("bgColor", true); preferences.putUInt("bgColor", strtol(bgColor->value().c_str(), NULL, 16)); setBgColor(int(strtol(bgColor->value().c_str(), NULL, 16))); Serial.print(F("Setting background color to ")); Serial.println(bgColor->value().c_str()); settingsChanged = true; } return settingsChanged; } void onApiSettingsPost(AsyncWebServerRequest *request) { bool settingsChanged = false; settingsChanged = processEpdColorSettings(request); if (request->hasParam("ledFlashOnUpd", true)) { AsyncWebParameter *ledFlashOnUpdate = request->getParam("ledFlashOnUpd", true); preferences.putBool("ledFlashOnUpd", ledFlashOnUpdate->value().toInt()); Serial.printf("Setting led flash on update to %d\r\n", ledFlashOnUpdate->value().toInt()); settingsChanged = true; } else { preferences.putBool("ledFlashOnUpd", 0); Serial.print("Setting led flash on update to false"); settingsChanged = true; } if (request->hasParam("stealFocusOnBlock", true)) { AsyncWebParameter *stealFocusOnBlock = request->getParam("stealFocusOnBlock", true); preferences.putBool("stealFocus", stealFocusOnBlock->value().toInt()); Serial.printf("Setting steal focus on new block to %d\r\n", stealFocusOnBlock->value().toInt()); settingsChanged = true; } else { preferences.putBool("stealFocus", 0); Serial.print("Setting steal focus on new block to false"); settingsChanged = true; } if (request->hasParam("mcapBigChar", true)) { AsyncWebParameter *mcapBigChar = request->getParam("mcapBigChar", true); preferences.putBool("mcapBigChar", mcapBigChar->value().toInt()); Serial.printf("Setting big characters for market cap to %d\r\n", mcapBigChar->value().toInt()); settingsChanged = true; } else { preferences.putBool("mcapBigChar", 0); Serial.print("Setting big characters for market cap to false"); settingsChanged = true; } if (request->hasParam("mempoolInstance", true)) { AsyncWebParameter *mempoolInstance = request->getParam("mempoolInstance", true); preferences.putString("mempoolInstance", mempoolInstance->value().c_str()); Serial.printf("Setting mempool instance to %s\r\n", mempoolInstance->value().c_str()); settingsChanged = true; } if (request->hasParam("ledBrightness", true)) { AsyncWebParameter *ledBrightness = request->getParam("ledBrightness", true); preferences.putUInt("ledBrightness", ledBrightness->value().toInt()); Serial.printf("Setting brightness to %d\r\n", ledBrightness->value().toInt()); settingsChanged = true; } if (request->hasParam("fullRefreshMin", true)) { AsyncWebParameter *fullRefreshMin = request->getParam("fullRefreshMin", true); preferences.putUInt("fullRefreshMin", fullRefreshMin->value().toInt()); Serial.printf("Set full refresh minutes to %d\r\n", fullRefreshMin->value().toInt()); settingsChanged = true; } if (request->hasParam("wpTimeout", true)) { AsyncWebParameter *wpTimeout = request->getParam("wpTimeout", true); preferences.putUInt("wpTimeout", wpTimeout->value().toInt()); Serial.printf("Set WiFi portal timeout seconds to %d\r\n", wpTimeout->value().toInt()); settingsChanged = true; } std::vector screenNameMap = getScreenNameMap(); for (int i = 0; i < screenNameMap.size(); i++) { String key = "screen[" + String(i) + "]"; String prefKey = "screen" + String(i) + "Visible"; bool visible = false; if (request->hasParam(key, true)) { AsyncWebParameter *screenParam = request->getParam(key, true); visible = screenParam->value().toInt(); } Serial.printf("Setting screen %d to %d\r\n", i, visible); preferences.putBool(prefKey.c_str(), visible); } if (request->hasParam("tzOffset", true)) { AsyncWebParameter *p = request->getParam("tzOffset", true); int tzOffsetSeconds = p->value().toInt() * 60; preferences.putInt("gmtOffset", tzOffsetSeconds); Serial.printf("Setting tz offset to %d\r\n", tzOffsetSeconds); settingsChanged = true; } if (request->hasParam("minSecPriceUpd", true)) { AsyncWebParameter *p = request->getParam("minSecPriceUpd", true); int minSecPriceUpd = p->value().toInt(); preferences.putUInt("minSecPriceUpd", minSecPriceUpd); Serial.printf("Setting minSecPriceUpd to %d\r\n", minSecPriceUpd); settingsChanged = true; } if (request->hasParam("timePerScreen", true)) { AsyncWebParameter *p = request->getParam("timePerScreen", true); uint timerSeconds = p->value().toInt() * 60; preferences.putUInt("timerSeconds", timerSeconds); settingsChanged = true; } // if (request->hasParam("useBitcoinNode", true)) // { // AsyncWebParameter *p = request->getParam("useBitcoinNode", true); // bool useBitcoinNode = p->value().toInt(); // preferences.putBool("useNode", useBitcoinNode); // settingsChanged = true; // String rpcVars[] = {"rpcHost", "rpcPort", "rpcUser", "rpcPass"}; // for (String v : rpcVars) // { // if (request->hasParam(v, true)) // { // AsyncWebParameter *pv = request->getParam(v, true); // // Don't store an empty password, probably new settings save // if (!(v.equals("rpcPass") && pv->value().length() == 0)) // { // preferences.putString(v.c_str(), pv->value().c_str()); // } // } // } // } // else // { // preferences.putBool("useNode", false); // settingsChanged = true; // } request->send(200); if (settingsChanged) { queueLedEffect(LED_FLASH_SUCCESS); Serial.println(F("Settings changed")); } } void onApiSystemStatus(AsyncWebServerRequest *request) { AsyncResponseStream *response = request->beginResponseStream("application/json"); StaticJsonDocument<128> root; root["espFreeHeap"] = ESP.getFreeHeap(); root["espHeapSize"] = ESP.getHeapSize(); root["espFreePsram"] = ESP.getFreePsram(); root["espPsramSize"] = ESP.getPsramSize(); serializeJson(root, *response); request->send(response); } void onApiLightsOff(AsyncWebServerRequest *request) { setLights(0, 0, 0); request->send(200); } void onApiLightsSetColor(AsyncWebServerRequest *request) { if (request->hasParam("c")) { String rgbColor = request->getParam("c")->value(); uint r, g, b; sscanf(rgbColor.c_str(), "%02x%02x%02x", &r, &g, &b); setLights(r, g, b); request->send(200, "text/plain", rgbColor); } } void onIndex(AsyncWebServerRequest *request) { request->send(LittleFS, "/index.html", String(), false); } void onNotFound(AsyncWebServerRequest *request) { if (request->method() == HTTP_OPTIONS) { request->send(200); } else { request->send(404); } }; void eventSourceTask(void *pvParameters) { for (;;) { ulTaskNotifyTake(pdTRUE, portMAX_DELAY); eventSourceUpdate(); } }