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flix/flix/wifi.ino
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Oleg Kalachev 52b74afba6 Bring back espnow tx buffering keeping resends disabled 
Buffering is needed for sending large prints, otherwise the espnow internal buffer overflows.
Make onSent always think there was success send, so there won't be any resends.
Print lost espnow packets count on wifi console command.
2026-06-09 03:23:30 +03:00

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4.7 KiB
Arduino
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// Copyright (c) 2023 Oleg Kalachev <okalachev@gmail.com>
// Repository: https://github.com/okalachev/flix
// Wi-Fi and ESP-NOW communication
#include <WiFi.h>
#include <WiFiAP.h>
#include <WiFiUdp.h>
#include <MacAddress.h>
#include <ESP32_NOW_Serial.h>
#include <Preferences.h>
#include "util.h"
extern Preferences storage; // use the main preferences storage
const int W_DISABLED = 0, W_AP = 1, W_STA = 2, W_ESPNOW = 3;
int wifiMode = W_AP;
int wifiLongRange = 0;
int udpLocalPort = 14550;
int udpRemotePort = 14550;
IPAddress udpRemoteIP = "255.255.255.255";
WiFiUDP udp;
ESPNOWSerial espnow(NULL, 0, WIFI_IF_AP);
ESPNOWSerial espnowBroadcast(ESP_NOW.BROADCAST_ADDR, 0, WIFI_IF_AP);
int espnowChannel = 6;
void setupWiFi() {
print("Setup Wi-Fi\n");
WiFi.enableLongRange(wifiLongRange);
if (wifiMode == W_AP) {
WiFi.softAP(storage.getString("WIFI_AP_SSID", "flix").c_str(), storage.getString("WIFI_AP_PASS", "flixwifi").c_str());
udp.begin(udpLocalPort);
}
if (wifiMode == W_STA) {
WiFi.begin(storage.getString("WIFI_STA_SSID", "").c_str(), storage.getString("WIFI_STA_PASS", "").c_str());
udp.begin(udpLocalPort);
}
if (wifiMode == W_ESPNOW) {
WiFi.mode(WIFI_AP);
WiFi.setChannel(espnowChannel);
espnow.addr(MacAddress(storage.getString("ESPNOW_PEER_MAC", "FF:FF:FF:FF:FF:FF").c_str()));
String key = storage.getString("ESPNOW_PEER_KEY", "");
espnow.setKey(key.isEmpty() ? nullptr : (const uint8_t *)key.c_str());
espnow.begin();
espnowBroadcast.begin();
}
WiFi.setSleep(false); // disable power save
}
void sendWiFi(const uint8_t *buf, int len) {
if (espnow) {
espnow.write(buf, len);
static Rate discovery(2);
if (discovery) espnowBroadcast.write((const uint8_t *)"flix", 4); // broadcast message to help finding this device
return;
}
if (WiFi.softAPgetStationNum() == 0 && !WiFi.isConnected()) return;
udp.beginPacket(udpRemoteIP, udpRemotePort);
udp.write(buf, len);
udp.endPacket();
}
int receiveWiFi(uint8_t *buf, int len) {
if (espnow) {
return espnow.read(buf, len);
}
if (WiFi.softAPgetStationNum() == 0 && !WiFi.isConnected()) return 0;
udp.parsePacket();
if (udp.remoteIP()) udpRemoteIP = udp.remoteIP();
return udp.read(buf, len);
}
void printWiFiInfo() {
if (espnow) {
print("Mode: ESP-NOW\n");
print("ESP-NOW version: %d\n", ESP_NOW.getVersion());
print("Max packet size: %d\n", ESP_NOW.getMaxDataLen());
print("MAC: %s\n", WiFi.softAPmacAddress().c_str());
print("Peer MAC: %s\n", MacAddress(espnow.addr()).toString().c_str());
print("Encrypted: %d\n", espnow.isEncrypted());
print("Channel: %d\n", espnow.getChannel());
print("Lost packets: %d\n", espnow.lost);
} else if (WiFi.getMode() == WIFI_MODE_AP) {
print("Mode: Access Point (AP)\n");
print("MAC: %s\n", WiFi.softAPmacAddress().c_str());
print("SSID: %s\n", WiFi.softAPSSID().c_str());
print("Password: ***\n");
print("Channel: %d\n", WiFi.channel());
print("Clients: %d\n", WiFi.softAPgetStationNum());
print("IP: %s\n", WiFi.softAPIP().toString().c_str());
print("Remote IP: %s\n", udpRemoteIP.toString().c_str());
} else if (WiFi.getMode() == WIFI_MODE_STA) {
print("Mode: Client (STA)\n");
print("Connected: %d\n", WiFi.isConnected());
print("MAC: %s\n", WiFi.macAddress().c_str());
print("SSID: %s\n", WiFi.SSID().c_str());
print("Password: ***\n");
print("Channel: %d\n", WiFi.channel());
print("RSSI: %d dBm\n", WiFi.RSSI());
print("IP: %s\n", WiFi.localIP().toString().c_str());
print("Remote IP: %s\n", udpRemoteIP.toString().c_str());
} else {
print("Mode: Disabled\n");
}
print("MAVLink connected: %d\n", mavlinkConnected);
}
void configWiFi(int mode, const char *first, const char *second) {
MacAddress mac;
if (mode == W_AP && strlen(first) > 0 && strlen(second) >= 8) {
storage.putString("WIFI_AP_SSID", first);
storage.putString("WIFI_AP_PASS", second);
} else if (mode == W_STA && strlen(first) > 0 && strlen(second) >= 8) {
storage.putString("WIFI_STA_SSID", first);
storage.putString("WIFI_STA_PASS", second);
} else if (mode == W_ESPNOW && mac.fromString(first)) {
storage.putString("ESPNOW_PEER_MAC", first);
storage.putString("ESPNOW_PEER_KEY", strlen(second) == ESP_NOW_KEY_LEN ? second : "");
} else {
print("Invalid configuration\n");
return;
}
print("✓ Reboot to apply new settings\n");
}
void setWiFiMode(const String& mode) {
if (mode == "ap") {
wifiMode = W_AP;
} else if (mode == "sta") {
wifiMode = W_STA;
} else if (mode == "espnow") {
wifiMode = W_ESPNOW;
} else if (mode == "off") {
wifiMode = W_DISABLED;
} else {
print("Invalid Wi-Fi mode\n");
return;
}
static const char *modes[] = {"Disabled", "Access Point (AP)", "Client (STA)", "ESP-NOW"};
print("✓ Wi-Fi mode set to %s, reboot to apply\n", modes[wifiMode]);
}
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