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Abacontrol/lib/ELClient/examples/tcp_client/tcp_client.ino

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/**
* Simple example to demo the El-Client TCP client
* This example sends out a message to a TCP socket server
* and doesn't wait for a response from the server
*/
#include <ELClient.h>
#include <ELClientSocket.h>
// IP address for this demo is a local IP.
// Replace it with the IP address where you have a TCP socket server running
char * const tcpServer PROGMEM = "192.168.0.102";
// Port for this demo is the port used by the TCP socket server.
// Replace it with the port that your TCP socket server is listening to
uint16_t const tcpPort PROGMEM = 7001;
//###########################################################
// For ARDUINO UNO WIFI with I2C to serial chip!
//###########################################################
// Serial port to ESP8266
#include <SC16IS750.h>
SC16IS750 i2cuart = SC16IS750(SC16IS750_PROTOCOL_I2C,SC16IS750_ADDRESS_AA);
// Initialize a connection to esp-link using the I2Cuart chip of the Arduino Uno WiFi board for
// SLIP messages.
ELClient esp(&i2cuart);
//###########################################################
// For boards using the hardware serial port!
//###########################################################
// Initialize a connection to esp-link using the normal hardware serial port both for
// SLIP and for debug messages.
//ELClient esp(&Serial, &Serial);
// Initialize a TCP socket client on the connection to esp-link
ELClientSocket tcp(&esp);
// Connection number for tcp
int tcpConnNum;
// Timer value to send out data
uint32_t wait;
// Time to wait between sending out data
uint32_t waitTime;
// Flag for wifi connection
boolean wifiConnected = false;
// Parse error codes and returns error message as char *
// Definitions from error values from espconn.h (Espressif SDK)
// #define ESPCONN_OK 0 /**< No error, everything OK. */
// #define ESPCONN_MEM -1 /**< Out of memory. */
// #define ESPCONN_TIMEOUT -3 /**< Timeout. */
// #define ESPCONN_RTE -4 /**< Routing problem. */
// #define ESPCONN_INPROGRESS -5 /**< Operation in progress. */
// #define ESPCONN_MAXNUM -7 /**< Total number exceeds the maximum limitation. */
// #define ESPCONN_ABRT -8 /**< Connection aborted. */
// #define ESPCONN_RST -9 /**< Connection reset. */
// #define ESPCONN_CLSD -10 /**< Connection closed. */
// #define ESPCONN_CONN -11 /**< Not connected. */
// #define ESPCONN_ARG -12 /**< Illegal argument. */
// #define ESPCONN_IF -14 /**< UDP send error. */
// #define ESPCONN_ISCONN -15 /**< Already connected. */
char* const errTxt[] PROGMEM = {"No error, everything OK.","Out of memory.","Unknown code.","Timeout.","Routing problem.","Operation in progress.",
"Unknown code.","Total number exceeds the maximum limitation.","Connection aborted.","Connection reset.","Connection closed.",
"Not connected.","Illegal argument.","Unknown code.","UDP send error.","Already connected."};
char * getErrTxt(int16_t commError) {
commError = commError*-1;
if (commError <= 15) {
return (char *) pgm_read_word (&errTxt[commError]);
} else {
return (char *) pgm_read_word (&errTxt[2]); // Unknown code
}
}
// Callback for TCP socket, called if data was sent or received
// Receives socket client number, can be reused for all initialized TCP socket connections
void tcpCb(uint8_t resp_type, uint8_t client_num, uint16_t len, char *data) {
Serial.println("tcpCb connection #"+String(client_num));
if (resp_type == USERCB_SENT) {
Serial.println("\tSent " + String(len) + " bytes over client#" + String(client_num));
} else if (resp_type == USERCB_RECV) {
char recvData[len+1]; // Prepare buffer for the received data
memcpy(recvData, data, len); // Copy received data into the buffer
recvData[len] = '\0'; // Terminate the buffer with 0 for proper printout!
Serial.println("\tReceived " + String(len) + " bytes over the client on connection #" + String(client_num));
Serial.println("\tReceived: " + String(recvData));
} else if (resp_type == USERCB_RECO) {
if (len != -11) { // ignore "not connected" error, handled in USERCB_CONN
Serial.print("\tConnection problem: ");
Serial.println(getErrTxt(len));
}
} else if (resp_type == USERCB_CONN) {
if (len == 0) {
Serial.println("\tDisconnected");
} else {
Serial.println("\tConnected");
}
} else {
Serial.println("Received invalid response type");
}
}
// Callback made from esp-link to notify of wifi status changes
// Here we print something out and set a global flag
void wifiCb(void *response) {
ELClientResponse *res = (ELClientResponse*)response;
if (res->argc() == 1) {
uint8_t status;
res->popArg(&status, 1);
if(status == STATION_GOT_IP) {
Serial.println(F("WIFI CONNECTED"));
wifiConnected = true;
} else {
Serial.print(F("WIFI NOT READY: "));
Serial.println(status);
wifiConnected = false;
}
}
}
void setup() {
Serial.begin(115200);
//###########################################################
// For ARDUINO UNO WIFI with I2C to serial chip!
//###########################################################
i2cuart.begin(9600);
Serial.println(F("EL-Client starting!"));
// Sync-up with esp-link, this is required at the start of any sketch and initializes the
// callbacks to the wifi status change callback. The callback gets called with the initial
// status right after Sync() below completes.
esp.wifiCb.attach(wifiCb); // wifi status change callback, optional (delete if not desired)
bool ok;
do {
ok = esp.Sync(); // sync up with esp-link, blocks for up to 2 seconds
if (!ok) Serial.println(F("EL-Client sync failed!"));
} while(!ok);
Serial.println(F("EL-Client synced!"));
// Wit for WiFi to be connected.
esp.GetWifiStatus();
ELClientPacket *packet;
Serial.print(F("Waiting for WiFi "));
if ((packet=esp.WaitReturn()) != NULL) {
Serial.print(F("."));
Serial.println(packet->value);
}
Serial.println("");
// Set up the TCP socket client for a connection to <tcpServer> on port <>, this doesn't connect to that server,
// it just sets-up stuff on the esp-link side and waits until we send some data
tcpConnNum = tcp.begin(tcpServer, tcpPort, SOCKET_TCP_CLIENT, tcpCb); // SOCKET_CLIENT ==> we don't expect a response
if (tcpConnNum < 0) {
Serial.println(F("TCP socket setup failed, try again in 10 seconds after reboot"));
delay(10000);
asm volatile (" jmp 0");
} else {
Serial.println(String(tcpServer)+":"+String(tcpPort)+" is served over connection number # = "+String(tcpConnNum));
}
Serial.println(F("EL-TCP ready"));
wait = millis()+29000; // Start first sending in 1 second
}
void loop() {
// process any callbacks coming from esp_link
esp.Process();
// if we're connected send data over TCP socket
if(wifiConnected) {
if (millis() - wait > 30000) { // Send some data every 30 seconds
wait = millis();
// Send message to the previously set-up server #1
Serial.print(F("Sending message to "));
Serial.print(tcpServer);
Serial.print(":");
Serial.println(tcpPort);
tcp.send("Message from Arduino Uno WiFi over TCP");
}
} else {
// This is just for demo, you can as well just try to reconnect
// and setup the connection to esp-link again
Serial.println(F("Lost WiFi connection, try to reboot"));
delay(10000);
asm volatile (" jmp 0");
}
}