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192
Wifi_NINA.cpp
192
Wifi_NINA.cpp
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@ -2,6 +2,8 @@
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© 2023 Paul M. Antoine
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© 2023 Paul M. Antoine
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© 2021 Harald Barth
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© 2021 Harald Barth
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© 2023 Nathan Kellenicki
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© 2023 Nathan Kellenicki
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© 2023 Travis Farmer
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© 2023 Chris Harlow
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This file is part of CommandStation-EX
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This file is part of CommandStation-EX
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@ -20,20 +22,19 @@
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*/
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*/
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#include "defines.h"
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#include "defines.h"
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#ifdef WIFI_NINA
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#ifdef WIFI_NINA || GIGA_WIFI
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//#include <vector>
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//#include <vector>
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#include <SPI.h>
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#include <SPI.h>
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#ifndef ARDUINO_GIGA
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#ifndef ARDUINO_GIGA
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#include <WifiNINA.h>
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#include <WifiNINA.h>
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#else
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#else
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#if defined(GIGA_WIFI)
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#include <WiFi.h>
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#include <WiFi.h>
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#else
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#include <WiFiNINA.h>
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#endif
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#endif
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#endif
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#include "Wifi_NINA.h"
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#include "Wifi_NINA.h"
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// #include "ESPmDNS.h"
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// #include <WiFi.h>
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// #include "esp_wifi.h"
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// #include "WifiESP32.h"
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// #include <SPI.h>
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#include "DIAG.h"
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#include "DIAG.h"
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#include "RingStream.h"
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#include "RingStream.h"
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#include "CommandDistributor.h"
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#include "CommandDistributor.h"
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@ -46,47 +47,21 @@
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#define ESP32_RESETN PA10 // Reset pin
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#define ESP32_RESETN PA10 // Reset pin
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#define SPIWIFI_ACK PB3 // a.k.a BUSY or READY pin
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#define SPIWIFI_ACK PB3 // a.k.a BUSY or READY pin
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#define ESP32_GPIO0 -1
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#define ESP32_GPIO0 -1
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#elif defined(ARDUINO_GIGA)
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#define SPIWIFI SPI
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#define SPIWIFI_SS 10 // Chip select pin
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#define SPIWIFI_ACK 7 // a.k.a BUSY or READY pin
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#define ESP32_RESETN 5 // Reset pin
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#define ESP32_GPIO0 -1 // Not connected
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#else
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#else
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#warning "WiFiNINA has no SPI port or pin allocations for this archiecture yet!"
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#warning "WiFiNINA has no SPI port or pin allocations for this archiecture yet!"
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#endif
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#endif
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#define MAX_CLIENTS 10
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#define MAX_CLIENTS 10
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/*class NetworkClient {
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public:
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NetworkClient(WiFiClient c) {
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wifi = c;
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};
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bool ok() {
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return (inUse && wifi.connected());
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};
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bool recycle(WiFiClient c) {
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if (inUse == true) return false;
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// return false here until we have
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// implemented a LRU timer
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// if (LRU too recent) return false;
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//return false;
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wifi = c;
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inUse = true;
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return true;
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};
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WiFiClient wifi;
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bool inUse = true;
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};*/
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//static std::vector<NetworkClient> clients; // a list to hold all clients
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static WiFiServer *server = NULL;
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static WiFiServer *server = NULL;
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static RingStream *outboundRing = new RingStream(10240);
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static RingStream *outboundRing = new RingStream(10240);
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static bool APmode = false;
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static bool APmode = false;
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static IPAddress ip;
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static IPAddress ip;
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// #ifdef WIFI_TASK_ON_CORE0
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// void wifiLoop(void *){
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// for(;;){
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// WifiNINA::loop();
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// }
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// }
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// #endif
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char asciitolower(char in) {
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char asciitolower(char in) {
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if (in <= 'Z' && in >= 'A')
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if (in <= 'Z' && in >= 'A')
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@ -106,7 +81,7 @@ bool WifiNINA::setup(const char *SSid,
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uint8_t tries = 40;
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uint8_t tries = 40;
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// Set up the pins!
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// Set up the pins!
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#ifndef ARDUINO_GIGA
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#ifndef GIGA_WIFI
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WiFi.setPins(SPIWIFI_SS, SPIWIFI_ACK, ESP32_RESETN, ESP32_GPIO0, &SPIWIFI);
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WiFi.setPins(SPIWIFI_SS, SPIWIFI_ACK, ESP32_RESETN, ESP32_GPIO0, &SPIWIFI);
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#endif
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#endif
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// check for the WiFi module:
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// check for the WiFi module:
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@ -120,14 +95,6 @@ bool WifiNINA::setup(const char *SSid,
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String fv = WiFi.firmwareVersion();
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String fv = WiFi.firmwareVersion();
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DIAG(F("WifiNINA Firmware version found:%s"), fv.c_str());
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DIAG(F("WifiNINA Firmware version found:%s"), fv.c_str());
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// clean start
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// WiFi.mode(WIFI_STA);
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// WiFi.disconnect(true);
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// differnet settings that did not improve for haba
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// WiFi.useStaticBuffers(true);
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// WiFi.setScanMethod(WIFI_ALL_CHANNEL_SCAN);
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// WiFi.setSortMethod(WIFI_CONNECT_AP_BY_SECURITY);
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const char *yourNetwork = "Your network ";
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const char *yourNetwork = "Your network ";
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if (strncmp(yourNetwork, SSid, 13) == 0 || strncmp("", SSid, 13) == 0)
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if (strncmp(yourNetwork, SSid, 13) == 0 || strncmp("", SSid, 13) == 0)
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haveSSID = false;
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haveSSID = false;
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@ -189,7 +156,7 @@ bool WifiNINA::setup(const char *SSid,
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strMac.replace(":","");
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strMac.replace(":","");
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strMac.replace(":","");
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strMac.replace(":","");
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// convert mac addr hex chars to lower case to be compatible with AT software
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// convert mac addr hex chars to lower case to be compatible with AT software
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std::transform(strMac.begin(), strMac.end(), strMac.begin(), asciitolower);
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//std::transform(strMac.begin(), strMac.end(), strMac.begin(), asciitolower); ///TJF: why does this fail compile with WiFiNINA, but not giga WiFi???
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strSSID.concat(strMac);
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strSSID.concat(strMac);
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strPass.concat(strMac);
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strPass.concat(strMac);
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}
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}
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server->begin();
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server->begin();
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// server started here
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// server started here
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// #ifdef WIFI_TASK_ON_CORE0
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// //start loop task
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// if (pdPASS != xTaskCreatePinnedToCore(
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// wifiLoop, /* Task function. */
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// "wifiLoop",/* name of task. */
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// 10000, /* Stack size of task */
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// NULL, /* parameter of the task */
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// 1, /* priority of the task */
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// NULL, /* Task handle to keep track of created task */
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// 0)) { /* pin task to core 0 */
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// DIAG(F("Could not create wifiLoop task"));
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// return false;
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// }
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// // report server started after wifiLoop creation
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// // when everything looks good
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// DIAG(F("Server starting (core 0) port %d"),port);
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// #else
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DIAG(F("Server will be started on port %d"),port);
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DIAG(F("Server will be started on port %d"),port);
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// #endif
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ip = WiFi.localIP();
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ip = WiFi.localIP();
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LCD(4,F("IP: %d.%d.%d.%d"), ip[0], ip[1], ip[2], ip[3]);
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LCD(4,F("IP: %d.%d.%d.%d"), ip[0], ip[1], ip[2], ip[3]);
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LCD(5,F("Port:%d"), port);
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LCD(5,F("Port:%d"), port);
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"WL_DISCONNECTED"
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"WL_DISCONNECTED"
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};
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};
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/*void WifiNINA::loop() {
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int clientId; //tmp loop var
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// really no good way to check for LISTEN especially in AP mode?
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wl_status_t wlStatus;
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if (APmode || (wlStatus = (wl_status_t)WiFi.status()) == WL_CONNECTED) {
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// loop over all clients and remove inactive
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for (clientId=0; clientId<clients.size(); clientId++){
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// check if client is there and alive
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if(clients[clientId].inUse && !clients[clientId].wifi.connected()) {
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DIAG(F("Remove client %d"), clientId);
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CommandDistributor::forget(clientId);
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clients[clientId].wifi.stop();
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clients[clientId].inUse = false;
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//Do NOT clients.erase(clients.begin()+clientId) as
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//that would mix up clientIds for later.
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}
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}
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WiFiClient client = server->available();
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if (client) {
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///while (client.available() == true) {
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for (clientId=0; clientId<clients.size(); clientId++){
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if (clients[clientId].recycle(client)) {
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ip = client.remoteIP();
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DIAG(F("Recycle client %d %d.%d.%d.%d"), clientId, ip[0], ip[1], ip[2], ip[3]);
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break;
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}
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}
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if (clientId>=clients.size()) {
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NetworkClient* nc=new NetworkClient(client);
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clients.push_back(*nc);
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//delete nc;
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ip = client.remoteIP();
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DIAG(F("New client %d, %d.%d.%d.%d"), clientId, ip[0], ip[1], ip[2], ip[3]);
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}
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///}
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}
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// loop over all connected clients
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for (clientId=0; clientId<clients.size(); clientId++){
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if(clients[clientId].ok()) {
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int len;
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if ((len = clients[clientId].wifi.available()) > 0) {
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// read data from client
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byte cmd[len+1];
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for(int i=0; i<len; i++) {
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cmd[i]=clients[clientId].wifi.read();
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}
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cmd[len]=0;
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CommandDistributor::parse(clientId,cmd,outboundRing);
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}
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}
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} // all clients
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WiThrottle::loop(outboundRing);
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// something to write out?
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clientId=outboundRing->read();
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if (clientId >= 0) {
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// We have data to send in outboundRing
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// and we have a valid clientId.
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// First read it out to buffer
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// and then look if it can be sent because
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// we can not leave it in the ring for ever
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int count=outboundRing->count();
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{
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char buffer[count+1]; // one extra for '\0'
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for(int i=0;i<count;i++) {
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int c = outboundRing->read();
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if (c >= 0) // Panic check, should never be false
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buffer[i] = (char)c;
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else {
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DIAG(F("Ringread fail at %d"),i);
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break;
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}
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}
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// buffer filled, end with '\0' so we can use it as C string
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buffer[count]='\0';
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if((unsigned int)clientId <= clients.size() && clients[clientId].ok()) {
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if (Diag::CMD || Diag::WITHROTTLE)
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DIAG(F("SEND %d:%s"), clientId, buffer);
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clients[clientId].wifi.write(buffer,count);
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} else {
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DIAG(F("Unsent(%d): %s"), clientId, buffer);
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}
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}
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}
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} else if (!APmode) { // in STA mode but not connected any more
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// kick it again
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if (wlStatus <= 6) {
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DIAG(F("Wifi aborted with error %s. Kicking Wifi!"), wlerror[wlStatus]);
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// esp_wifi_start();
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// esp_wifi_connect();
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uint8_t tries=40;
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while (WiFi.status() != WL_CONNECTED && tries) {
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Serial.print('.');
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tries--;
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delay(500);
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}
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} else {
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// all well, probably
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//DIAG(F("Running BT"));
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}
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}
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}*/
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WiFiClient * clients[MAX_CLIENTS]; // nulled in setup
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WiFiClient * clients[MAX_CLIENTS]; // nulled in setup
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void WifiNINA::checkForNewClient() {
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void WifiNINA::checkForNewClient() {
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for (byte clientId=0; clientId<MAX_CLIENTS; clientId++){
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for (byte clientId=0; clientId<MAX_CLIENTS; clientId++){
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if (!clients[clientId]) {
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if (!clients[clientId]) {
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clients[clientId]= new WiFiClient(newClient); // use this slot
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clients[clientId]= new WiFiClient(newClient); // use this slot
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clients[clientId]->flush(); // clear out the input buffer
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DIAG(F("New client connected to slot %d"),clientId); //TJF: brought in for debugging.
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DIAG(F("New client connected to slot %d"),clientId); //TJF: brought in for debugging.
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return;
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return;
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}
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}
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}
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}
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// emit data to the client object
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// emit data to the client object
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// This should work in theory, the
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// This should work in theory, the
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DIAG(F("send message")); //TJF: only for diag
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//DIAG(F("send message")); //TJF: only for diag
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//TJF: the old code had to add a 0x00 byte to the end to terminate the
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//TJF: the old code had to add a 0x00 byte to the end to terminate the
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//TJF: c string, before sending it. i take it this is not needed?
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//TJF: c string, before sending it. i take it this is not needed?
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for (int i=0;i<replySize;i++) c->write(outboundRing->read());
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for (int i=0;i<replySize;i++) c->write(outboundRing->read());
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