Arduino: Ethernet TCP Read Data
Revision as of 11:55, 23 February 2016 by Onnowpurbo (talk | contribs)
Sumber: http://forum.arduino.cc/index.php?topic=123756.0
Code
/* Ethernet TCP client/server communications test/proof of concept Programmed by Michael E. Landon on 09/20/2012 (With parts borrowed/stolen from Nick Gammon) This is a primitive example of using the Arduino Uno w/Ethernet Shield with outputs controlled and monitored through a TCP connection. Reading an output's state: Format: rx (where x= output to read. 0-7 valid in this test) Writing to an output: Format: wx:y (where x = output to write to. 0-7 valid in this test) (y = boolian state to write. (0 or 1)) Output 0 = pin 2, Output 1 = pin 3, etc. Only 8 contiguous outputs were available for this test, hence only 8 addressed. Posted in the Arduino Forums to assist those who like me needed to see how it was done! */ #include <SPI.h> #include <Ethernet.h> // Set values below to match your network needs: byte mac[] = {0x54, 0x52, 0x49, 0x41, 0x44, 0x00}; // MAC Address byte ip[] = {192, 168, 0, 4}; // Network Address byte gateway[] = {192, 168, 0, 223}; // Gateway Address byte subnet[] = {255, 255, 255, 0}; // Subnet Mask EthernetServer server(23); // Set Server Port EthernetClient client; // Define client const int MAX_LEN = 10; // Maximum length of a command void setup() { // Open serial communications and wait for port to open: Serial.begin(9600); while (!Serial) { ; // wait for serial port to connect. Needed for native USB port only } Ethernet.begin(mac, ip, gateway, subnet); // Start the Ethernet connection server.begin(); // Begin acting like a server for(int x = 2; x < 9; x++) // Set up pins 2-9 { // (we will call them 0-7 in our commands) pinMode(x, OUTPUT); // Make them all outputs } // This is the maximum we can do with an UNO } // A MEGA could easily handle more void loop() { char command[MAX_LEN]; // Set up the command buffer static int c = 0; // Set up a counter (static so it does not get overwritten outside of this loop char inByte; // Set up a character buffer to grab the input client = server.available(); // Check for server availability if(client) { inByte = client.read(); // Read the character in the buffer switch (inByte) // check for certain types { case 13: // carriage return: process the command command[c] = 0; // make the current position a terminating null byte DoCommand(command); // Process the command c = 0; // reset counter for next time break; // exit when done case 10: // linefeed: Ignore it break; // and skip to the end default: // any character other than a CR or LF if (c < (MAX_LEN - 1)) // put in the command string (until it's full) { command[c] = inByte; // command concactination c++; // Increment our counter } } // end of switch } // end of if statement } // end of main loop void DoCommand(char * cmd) // Command received: process it! { switch (cmd[0]) // Check first character of the command: { case 'r': // r = read pin's state ReadPins(cmd); // Proceed to read the pin break; case 'w': // w = write a state to a pin WritePins(cmd); // Proceed to write to the pin break; default: client.println("ERROR_01"); // ERROR_01 = bad command - only 'r' and 'w' are acceptable } } void ReadPins(char * cmd) // Read a pin state { //Serial.println("Reading"); //debug byte x; x = cmd[1] - 46; // We get an ASCII character of 0-7, which has a value in the range of 48-55 // by subtracting 46, we get a value of 2-9, which represent the pins used as outputs 0-7 for this test. if((x > 9) || (x < 2)) // If the result is outside this range, we throw an error. { client.println("ERROR_02"); // ERROR_02 = invalid pin number return; // and exit before we do any further harm. } client.print("Output "); // send out the TCP connection a message the output in question client.print(x - 2); if(digitalRead(x)) { client.println(" is on."); // is currently on.. } else { client.println(" is off."); // or off (as the case may be) } } // done with reading void WritePins(char * cmd) // Write a pin state { byte x; x = cmd[1] - 46; // We get an ASCII character of 0-7, which is a value in the range of 48-55 // by subtracting 46, we get a value of 2-9, which represent our 0-7 outputs for this test. if((x > 9) || (x < 2)) // If the result is outside this range, we throw an error. { client.println("ERROR_02"); // ERROR_02 = invalid pin number return; // and exit before we do any further harm. } if(cmd[2] != ':') // If the third character is not a colon, we throw an error. { client.println("ERROR_03"); // ERROR_03 = unknown separator return; // and exit before we do any further harm. } switch (cmd[3]) // check the 4th character { case '0': // 0 = turn the output off digitalWrite(x, LOW); // Write to the pin to turn it off client.print("Output "); // Send out the TCP connection a message the output in question client.print(x - 2); client.println(" is off."); // is now turned off. break; case '1': // 1 = turn the output on digitalWrite(x, HIGH); // Write to the pin to turn it on client.print("Output "); // Send out the TCP connection a message the output in question client.print(x - 2); client.println(" is on."); // is now turned on. break; default: client.println("ERROR_04"); // ERROR_04 = Only Boolean states allowed in this test. } }