kopia lustrzana https://github.com/Aircoookie/WLED
200 wiersze
6.1 KiB
C++
200 wiersze
6.1 KiB
C++
#include "wled.h"
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/*
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* WebSockets server for bidirectional communication
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*/
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#ifdef WLED_ENABLE_WEBSOCKETS
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uint16_t wsLiveClientId = 0;
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unsigned long wsLastLiveTime = 0;
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//uint8_t* wsFrameBuffer = nullptr;
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#define WS_LIVE_INTERVAL 40
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void wsEvent(AsyncWebSocket * server, AsyncWebSocketClient * client, AwsEventType type, void * arg, uint8_t *data, size_t len)
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{
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if(type == WS_EVT_CONNECT){
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//client connected
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DEBUG_PRINTLN(F("WS client connected."));
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sendDataWs(client);
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} else if(type == WS_EVT_DISCONNECT){
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//client disconnected
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if (client->id() == wsLiveClientId) wsLiveClientId = 0;
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DEBUG_PRINTLN(F("WS client disconnected."));
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} else if(type == WS_EVT_DATA){
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// data packet
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AwsFrameInfo * info = (AwsFrameInfo*)arg;
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if(info->final && info->index == 0 && info->len == len){
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// the whole message is in a single frame and we got all of its data (max. 1450 bytes)
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if(info->opcode == WS_TEXT)
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{
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if (len > 0 && len < 10 && data[0] == 'p') {
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// application layer ping/pong heartbeat.
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// client-side socket layer ping packets are unresponded (investigate)
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client->text(F("pong"));
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return;
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}
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bool verboseResponse = false;
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if (!requestJSONBufferLock(11)) return;
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DeserializationError error = deserializeJson(doc, data, len);
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JsonObject root = doc.as<JsonObject>();
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if (error || root.isNull()) {
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releaseJSONBufferLock();
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return;
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}
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if (root["v"] && root.size() == 1) {
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//if the received value is just "{"v":true}", send only to this client
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verboseResponse = true;
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} else if (root.containsKey("lv")) {
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wsLiveClientId = root["lv"] ? client->id() : 0;
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} else {
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verboseResponse = deserializeState(root);
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}
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releaseJSONBufferLock(); // will clean fileDoc
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// force broadcast in 500ms after updating client
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if (verboseResponse) {
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sendDataWs(client);
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lastInterfaceUpdate = millis() - (INTERFACE_UPDATE_COOLDOWN -500);
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} else {
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// we have to send something back otherwise WS connection closes
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client->text(F("{\"success\":true}"));
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lastInterfaceUpdate = millis() - (INTERFACE_UPDATE_COOLDOWN -500);
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}
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}
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} else {
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//message is comprised of multiple frames or the frame is split into multiple packets
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//if(info->index == 0){
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//if (!wsFrameBuffer && len < 4096) wsFrameBuffer = new uint8_t[4096];
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//}
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//if (wsFrameBuffer && len < 4096 && info->index + info->)
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//{
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//}
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if((info->index + len) == info->len){
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if(info->final){
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if(info->message_opcode == WS_TEXT) {
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client->text(F("{\"error\":9}")); //we do not handle split packets right now
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}
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}
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}
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DEBUG_PRINTLN(F("WS multipart message."));
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}
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} else if(type == WS_EVT_ERROR){
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//error was received from the other end
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DEBUG_PRINTLN(F("WS error."));
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} else if(type == WS_EVT_PONG){
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//pong message was received (in response to a ping request maybe)
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DEBUG_PRINTLN(F("WS pong."));
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}
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}
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void sendDataWs(AsyncWebSocketClient * client)
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{
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if (!ws.count()) return;
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AsyncWebSocketMessageBuffer * buffer;
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if (!requestJSONBufferLock(12)) return;
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JsonObject state = doc.createNestedObject("state");
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serializeState(state);
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JsonObject info = doc.createNestedObject("info");
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serializeInfo(info);
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size_t len = measureJson(doc);
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DEBUG_PRINTF("JSON buffer size: %u for WS request (%u).\n", doc.memoryUsage(), len);
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size_t heap1 = ESP.getFreeHeap();
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buffer = ws.makeBuffer(len); // will not allocate correct memory sometimes on ESP8266
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#ifdef ESP8266
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size_t heap2 = ESP.getFreeHeap();
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#else
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size_t heap2 = 0; // ESP32 variants do not have the same issue and will work without checking heap allocation
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#endif
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if (!buffer || heap1-heap2<len) {
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releaseJSONBufferLock();
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DEBUG_PRINTLN(F("WS buffer allocation failed."));
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ws.closeAll(1013); //code 1013 = temporary overload, try again later
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ws.cleanupClients(0); //disconnect all clients to release memory
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ws._cleanBuffers();
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return; //out of memory
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}
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buffer->lock();
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serializeJson(doc, (char *)buffer->get(), len);
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DEBUG_PRINT(F("Sending WS data "));
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if (client) {
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client->text(buffer);
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DEBUG_PRINTLN(F("to a single client."));
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} else {
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ws.textAll(buffer);
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DEBUG_PRINTLN(F("to multiple clients."));
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}
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buffer->unlock();
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ws._cleanBuffers();
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releaseJSONBufferLock();
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}
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bool sendLiveLedsWs(uint32_t wsClient)
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{
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AsyncWebSocketClient * wsc = ws.client(wsClient);
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if (!wsc || wsc->queueLength() > 0) return false; //only send if queue free
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uint16_t used = strip.getLengthTotal();
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const uint16_t MAX_LIVE_LEDS_WS = strip.isMatrix ? 1024 : 256;
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uint16_t n = ((used -1)/MAX_LIVE_LEDS_WS) +1; //only serve every n'th LED if count over MAX_LIVE_LEDS_WS
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uint16_t pos = (strip.isMatrix ? 4 : 2);
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uint16_t bufSize = pos + (used/n)*3;
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AsyncWebSocketMessageBuffer * wsBuf = ws.makeBuffer(bufSize);
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if (!wsBuf) return false; //out of memory
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uint8_t* buffer = wsBuf->get();
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buffer[0] = 'L';
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buffer[1] = 1; //version
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#ifndef WLED_DISABLE_2D
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if (strip.isMatrix) {
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buffer[1] = 2; //version
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buffer[2] = Segment::maxWidth;
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buffer[3] = Segment::maxHeight;
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}
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#endif
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for (uint16_t i = 0; pos < bufSize -2; i += n)
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{
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uint32_t c = strip.getPixelColor(i);
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buffer[pos++] = qadd8(W(c), R(c)); //R, add white channel to RGB channels as a simple RGBW -> RGB map
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buffer[pos++] = qadd8(W(c), G(c)); //G
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buffer[pos++] = qadd8(W(c), B(c)); //B
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}
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wsc->binary(wsBuf);
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return true;
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}
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void handleWs()
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{
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if (millis() - wsLastLiveTime > WS_LIVE_INTERVAL)
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{
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#ifdef ESP8266
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ws.cleanupClients(3);
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#else
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ws.cleanupClients();
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#endif
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bool success = true;
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if (wsLiveClientId) success = sendLiveLedsWs(wsLiveClientId);
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wsLastLiveTime = millis();
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if (!success) wsLastLiveTime -= 20; //try again in 20ms if failed due to non-empty WS queue
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}
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}
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#else
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void handleWs() {}
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void sendDataWs(AsyncWebSocketClient * client) {}
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#endif |