Difference between revisions of "Ethershield v1.1"

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(Created page with "<code> // Ethersheid Example // 'Read out temperature fra dallas ds18b20 on a webpage' // Licence: LGPLv3 open source // dato: 29-11-2016 // Authour: Michael Pedersen, http://t...")
 
 
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<code>
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Kode eksempel: [https://codebender.cc/sketch:193173#webserver%20ethershield%20v11%20and%20dallas%20ds18b20.ino her (codebender.cc)]
// Ethersheid Example
 
  
// 'Read out temperature fra dallas ds18b20 on a webpage'
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lib: [https://github.com/jonoxer/etherShield github]
  
// Licence: LGPLv3 open source
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Link til kort gennemgang[[file:Arduino_ethershield.pdf]]
// dato: 29-11-2016
 
// Authour: Michael Pedersen, http://techmind.dk
 
  
#include "etherShield.h"
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virker ikke på højere version end v1.0.5!
 
 
// please modify the following two lines. mac and ip have to be unique
 
// in your local area network. You can not have the same numbers in
 
// two devices:
 
static uint8_t mymac[6] = {0x54,0x55,0x58,0x10,0x00,0x24};
 
static uint8_t myip[4]  = {172,16,44,200};
 
static char baseurl[]  = "http://172.16.44.200/";
 
static uint16_t mywwwport = 80; // listen port for tcp/www (max range 1-254)
 
// or on a different port:
 
//static uint16_t mywwwport = 88; // listen port for tcp/www (max range 1-254)
 
 
 
#define BUFFER_SIZE 500
 
static uint8_t buf[BUFFER_SIZE+1];
 
#define STR_BUFFER_SIZE 22
 
static char strbuf[STR_BUFFER_SIZE+1];
 
 
 
//dallas ds18b20 temperature sensor
 
#define TEMP_PIN 7
 
void getCurrentTemp( char *temperature);
 
char sensorData[10];
 
int i;
 
int wholex;
 
 
 
EtherShield es = EtherShield();
 
 
 
// prepare the webpage by writing the data to the tcp send buffer
 
uint16_t print_webpage (uint8_t *buf);
 
int8_t analyse_cmd (char *str);
 
 
 
 
 
void setup() {
 
 
 
  Serial.begin(9600);
 
 
 
  /*initialize enc28j60*/
 
  es.ES_enc28j60Init (mymac);
 
  es.ES_enc28j60clkout (2); // change clkout from 6.25MHz to 12.5MHz
 
  delay (10);
 
 
 
  /* Magjack leds configuration, see enc28j60 datasheet, page 11 */
 
  // LEDA=greed LEDB=yellow
 
 
 
  // 0x880 is PHLCON LEDB=on, LEDA=on
 
  // enc28j60PhyWrite(PHLCON,0b0000 1000 1000 00 00);
 
  es.ES_enc28j60PhyWrite (PHLCON,0x880);
 
  delay (500);
 
 
 
  // 0x990 is PHLCON LEDB=off, LEDA=off
 
  // enc28j60PhyWrite(PHLCON,0b0000 1001 1001 00 00);
 
  es.ES_enc28j60PhyWrite (PHLCON,0x990);
 
  delay (500);
 
 
 
  // 0x880 is PHLCON LEDB=on, LEDA=on
 
  // enc28j60PhyWrite(PHLCON,0b0000 1000 1000 00 00);
 
  es.ES_enc28j60PhyWrite (PHLCON,0x880);
 
  delay (500);
 
 
 
  // 0x990 is PHLCON LEDB=off, LEDA=off
 
  // enc28j60PhyWrite(PHLCON,0b0000 1001 1001 00 00);
 
  es.ES_enc28j60PhyWrite (PHLCON,0x990);
 
  delay (500);
 
 
 
  // 0x476 is PHLCON LEDA=links status, LEDB=receive/transmit
 
  // enc28j60PhyWrite(PHLCON,0b0000 0100 0111 01 10);
 
  es.ES_enc28j60PhyWrite (PHLCON,0x476);
 
  delay (100);
 
 
 
  //init the ethernet/ip layer:
 
  es.ES_init_ip_arp_udp_tcp (mymac, myip, mywwwport);
 
}
 
 
 
 
 
void loop() {
 
 
 
  Serial.println(wholex); //open the seriel monitor to read out the temperature trough the serial port
 
 
 
  uint16_t plen, dat_p;
 
  int8_t cmd;
 
 
 
  plen = es.ES_enc28j60PacketReceive (BUFFER_SIZE, buf);
 
 
 
  /*plen will ne unequal to zero if there is a valid packet (without crc error) */
 
  if (plen != 0) {
 
 
 
  // arp is broadcast if unknown but a host may also verify the mac
 
  // address by sending it to a unicast address.
 
  if (es.ES_eth_type_is_arp_and_my_ip (buf,plen)) {
 
    es.ES_make_arp_answer_from_request (buf);
 
    return;
 
  }
 
 
 
  // check if ip packets are for us:
 
  if (es.ES_eth_type_is_ip_and_my_ip (buf,plen) == 0) {
 
    return;
 
  }
 
 
 
  if (buf[IP_PROTO_P] == IP_PROTO_ICMP_V && buf[ICMP_TYPE_P] == ICMP_TYPE_ECHOREQUEST_V) {
 
    es.ES_make_echo_reply_from_request (buf,plen);
 
    return;
 
  }
 
 
 
  // tcp port www start, compare only the lower byte
 
  if (buf[IP_PROTO_P] == IP_PROTO_TCP_V&&buf[TCP_DST_PORT_H_P] == 0 && buf[TCP_DST_PORT_L_P] == mywwwport) {
 
    if (buf[TCP_FLAGS_P] & TCP_FLAGS_SYN_V) {
 
      es.ES_make_tcp_synack_from_syn (buf); // make_tcp_synack_from_syn does already send the syn,ack
 
      return;
 
    }
 
    if (buf[TCP_FLAGS_P] & TCP_FLAGS_ACK_V) {
 
      es.ES_init_len_info (buf); // init some data structures
 
      dat_p = es.ES_get_tcp_data_pointer();
 
      if (dat_p == 0) { // we can possibly have no data, just ack:
 
        if (buf[TCP_FLAGS_P] & TCP_FLAGS_FIN_V) {
 
          es.ES_make_tcp_ack_from_any(buf);
 
        }
 
      return;
 
      }
 
      if (strncmp ("GET ", (char *) & (buf[dat_p]),4) != 0) {
 
        // head, post and other methods for possible status codes see:
 
        // http://www.w3.org/Protocols/rfc2616/rfc2616-sec10.html
 
        plen = es.ES_fill_tcp_data_p (buf, 0, PSTR("HTTP/1.0 200 OK\r\nContent-Type: text/html\r\n\r\n<h1>200 OK</h1>"));
 
        goto SENDTCP;
 
      }
 
      if (strncmp ("/ ", (char *) & (buf[dat_p+4]), 2) == 0) {
 
        plen = print_webpage (buf);
 
        goto SENDTCP;
 
      }
 
      cmd = analyse_cmd ((char *) & (buf[dat_p+5]));
 
      if (cmd == 1) {
 
        plen = print_webpage (buf);
 
      }
 
SENDTCP:  es.ES_make_tcp_ack_from_any (buf);    // send ack for http get
 
      es.ES_make_tcp_ack_with_data (buf, plen); // send data
 
      }
 
    }
 
  }
 
}
 
 
 
 
 
// The returned value is stored in the global var strbuf
 
uint8_t find_key_val (char *str,char *key) {
 
  uint8_t found = 0;
 
  uint8_t i = 0;
 
  char *kp;
 
  kp = key;
 
  while (*str &&  *str != ' ' && found == 0) {
 
    if (*str == *kp) {
 
      kp++;
 
      if (*kp == '\0') {
 
        str++;
 
        kp = key;
 
        if (*str == '=') {
 
          found = 1;
 
        }
 
      }
 
    } else {
 
      kp = key;
 
    }
 
    str++;
 
  }
 
  if (found == 1) {
 
    // copy the value to a buffer and terminate it with '\0'
 
    while (*str &&  *str!=' ' && *str!='&' && i<STR_BUFFER_SIZE) {
 
      strbuf[i] = *str;
 
      i++;
 
      str++;
 
    }
 
    strbuf[i] = '\0';
 
  }
 
  return (found);
 
}
 
 
 
 
 
int8_t analyse_cmd (char *str)
 
{
 
  int8_t r=-1;
 
 
 
  if (find_key_val(str,"cmd")) {
 
    if (*strbuf < 0x3a && *strbuf > 0x2f) {
 
      // is a ASCII number, return it
 
      r = (*strbuf-0x30);
 
    }
 
  }
 
  return r;
 
}
 
 
 
 
 
uint16_t print_webpage (uint8_t *buf)
 
{
 
  uint16_t plen;
 
  plen = es.ES_fill_tcp_data_p (buf, 0, PSTR("HTTP/1.0 200 OK\r\nContent-Type: text/html\r\n\r\n"));
 
  plen = es.ES_fill_tcp_data_p (buf, plen, PSTR("<center><p><h1>Welcome to Arduino Ethernet Shield V1.1  </h1></p> "));
 
plen = es.ES_fill_tcp_data_p (buf, plen, PSTR("  <br><font><h2> ") );
 
  plen = es.ES_fill_tcp_data_p (buf, plen, PSTR("<br> Temperature: "));
 
  plen = es.ES_fill_tcp_data_p (buf, plen, PSTR("<br>"));
 
  i=0;
 
      getCurrentTemp(sensorData); //get the current temperature
 
      while (sensorData[i]) {
 
                buf[TCP_CHECKSUM_L_P+3+plen]=sensorData[i++];
 
                plen++;
 
        }
 
  //plen = es.ES_fill_tcp_data_p (buf, plen, PSTR(sensorData));
 
 
  plen = es.ES_fill_tcp_data_p (buf, plen, PSTR("  <br></font></h2> ") );
 
 
 
  return (plen);
 
}
 
 
 
//dallas ds18b20 temperatur sensor function
 
void getCurrentTemp(char *temp)
 
 
  int HighByte, LowByte, TReading, Tc_100, sign, whole, fract;
 
 
 
  OneWireReset(TEMP_PIN);
 
  OneWireOutByte(TEMP_PIN, 0xcc);
 
  OneWireOutByte(TEMP_PIN, 0x44); // perform temperature conversion, strong pullup for one sec
 
 
 
  OneWireReset(TEMP_PIN);
 
  OneWireOutByte(TEMP_PIN, 0xcc);
 
  OneWireOutByte(TEMP_PIN, 0xbe);
 
 
 
  LowByte = OneWireInByte(TEMP_PIN);
 
  HighByte = OneWireInByte(TEMP_PIN);
 
  TReading = (HighByte << 8) + LowByte;
 
  sign = TReading & 0x8000;  // test most sig bit
 
  if (sign) // negative
 
  {
 
    TReading = (TReading ^ 0xffff) + 1; // 2's comp
 
  }
 
  Tc_100 = (6 * TReading) + TReading / 4;    // multiply by (100 * 0.0625) or 6.25
 
wholex=whole;
 
  whole = Tc_100 / 100;  // separate off the whole and fractional portions
 
  fract = Tc_100 % 100;
 
 
 
if(sign) temp[2]='-';
 
else temp[2]='+';
 
 
//**database field no 01
 
        temp[0] = 'x';
 
        temp[1] = '1';
 
//temperature       
 
temp[3]= (whole-(whole/100)*100)/10 +'0' ;
 
temp[4]= whole-(whole/10)*10 +'0';
 
 
temp[5]='.';
 
temp[6]=fract/10 +'0';
 
temp[7]=fract-(fract/10)*10 +'0';
 
 
 
}
 
 
 
void OneWireReset(int Pin) // reset.  Should improve to act as a presence pulse
 
{
 
    digitalWrite(Pin, LOW);
 
    pinMode(Pin, OUTPUT); // bring low for 500 us
 
    delayMicroseconds(500);
 
    pinMode(Pin, INPUT);
 
    delayMicroseconds(500);
 
}
 
 
 
void OneWireOutByte(int Pin, byte d) // output byte d (least sig bit first).
 
{
 
  byte n;
 
 
 
  for(n=8; n!=0; n--)
 
  {
 
      if ((d & 0x01) == 1)  // test least sig bit
 
      {
 
        digitalWrite(Pin, LOW);
 
        pinMode(Pin, OUTPUT);
 
        delayMicroseconds(5);
 
        pinMode(Pin, INPUT);
 
        delayMicroseconds(60);
 
      }
 
      else
 
      {
 
        digitalWrite(Pin, LOW);
 
        pinMode(Pin, OUTPUT);
 
        delayMicroseconds(60);
 
        pinMode(Pin, INPUT);
 
      }
 
 
 
      d=d>>1; // now the next bit is in the least sig bit position.
 
  }
 
 
 
}
 
 
 
byte OneWireInByte(int Pin) // read byte, least sig byte first
 
{
 
    byte d, n, b;
 
 
 
    for (n=0; n<8; n++)
 
    {
 
        digitalWrite(Pin, LOW);
 
        pinMode(Pin, OUTPUT);
 
        delayMicroseconds(5);
 
        pinMode(Pin, INPUT);
 
        delayMicroseconds(5);
 
        b = digitalRead(Pin);
 
        delayMicroseconds(50);
 
        d = (d >> 1) | (b<<7); // shift d to right and insert b in most sig bit position
 
    }
 
    return(d);
 
}
 
</code>
 
  
 
[[Category:Elektronik]]
 
[[Category:Elektronik]]

Latest revision as of 10:37, 4 December 2015

Kode eksempel: her (codebender.cc)

lib: github

Link til kort gennemgangFile:Arduino ethershield.pdf

virker ikke på højere version end v1.0.5!