WIZnet_Library - This is WIZnet Ethernet Interface using Hardware …

WIZnet » Code » WIZnet_Library

This is WIZnet Ethernet Interface using Hardware TCP/IP chip, W5500, W5200 and W5100. One of them can be selected by enabling it in wiznet.h.

Dependents: Embedded_web EmailButton EmailButton HTTPClient_Weather ... more

other drivers

for only W5500 / WIZ550io user, you could use

Import library W5500Interface

This is the Interface library for WIZnet W5500 chip which forked of EthernetInterfaceW5500, WIZnetInterface and WIZ550ioInterface. This library has simple name as "W5500Interface". and can be used for Wiz550io users also.

WIZnetInterface/DNSClient/DNSClient.cpp

Committer:: Bongjun
Date:: 2015-05-31
Revision:: 8:cb8808b47e69
Parent:: 0:b72d22e10709

File content as of revision 8:cb8808b47e69:

// DNSClient.cpp 2013/8/27
#include "mbed.h"
#include "mbed_debug.h"
#include "DNSClient.h"
#include "UDPSocket.h"
#include "dnsname.h"
#include "wiznet.h"

#define DBG_DNS 0

#if DBG_DNS
#define DBG2(...) do{debug("[DNS]%p %d %s ", this,__LINE__,__PRETTY_FUNCTION__); debug(__VA_ARGS__); } while(0);
#else
#define DBG2(...) while(0);
#endif

DNSClient::DNSClient(const char* hostname) : m_state(MYNETDNS_START), m_udp(NULL) {
    m_hostname = hostname;
}

DNSClient::DNSClient(Endpoint* pHost) : m_state(MYNETDNS_START), m_udp(NULL) {
}

DNSClient::~DNSClient() {
    if (m_udp) {
        delete m_udp;
    }
}

void DNSClient::callback()
{
    uint8_t buf[512];
    Endpoint host;
    int len = m_udp->receiveFrom(host, (char*)buf, sizeof(buf));
    if (len < 0) {
        return;
    }
    if (memcmp(buf+0, m_id, 2) != 0) { //verify
        return;
    }
    int rcode = response(buf, len);
    if (rcode == 0) {
        m_state = MYNETDNS_OK;
    } else {
        m_state = MYNETDNS_NOTFOUND;
    }
}

int DNSClient::response(uint8_t buf[], int size) {
    int rcode = buf[3] & 0x0f;
    if (rcode != 0) {
        return rcode;
    }
    int qdcount = buf[4]<<8|buf[5];
    int ancount = buf[6]<<8|buf[7];
    int pos = 12;
    while(qdcount-- > 0) {
        dnsname qname(buf);
        pos = qname.decode(pos); // qname
        pos += 4; // qtype qclass
    }
    while(ancount-- > 0) {
        dnsname name(buf);
        pos = name.decode(pos); // name
        int type = buf[pos]<<8|buf[pos+1];
        pos += 8; // type class TTL  
        int rdlength = buf[pos]<<8|buf[pos+1]; pos += 2;
        int rdata_pos = pos;
        pos += rdlength;
        if (type == 1) { // A record
            ip = (buf[rdata_pos]<<24) | (buf[rdata_pos+1]<<16) | (buf[rdata_pos+2]<<8) | buf[rdata_pos+3];
        }
#if DBG_DNS
        printf("%s", name.str.c_str());
        if (type == 1) {
            printf(" A %d.%d.%d.%d\n", 
                buf[rdata_pos],buf[rdata_pos+1],buf[rdata_pos+2],buf[rdata_pos+3]);
        } else if (type == 5) {
            dnsname rdname(buf);
            rdname.decode(rdata_pos);
            printf(" CNAME %s\n", rdname.str.c_str());
        } else {
            printf(" TYPE:%d", type);
            printfBytes(" RDATA:", &buf[rdata_pos], rdlength);
        }
#endif
    }
    return rcode;
}

int DNSClient::query(uint8_t buf[], int size, const char* hostname) {
    const uint8_t header[] = {
        0x00,0x00,0x01,0x00, // id=0x0000 QR=0 rd=1 opcode=0 rcode=0
        0x00,0x01,0x00,0x00, // qdcount=1 ancount=0
        0x00,0x00,0x00,0x00};// nscount=0 arcount=0 
    const uint8_t tail[] = {0x00,0x01,0x00,0x01}; // qtype=A qclass=IN
    memcpy(buf, header, sizeof(header));
    int t = rand();
    m_id[0] = t>>8;
    m_id[1] = t;
    memcpy(buf, m_id, 2); 
    dnsname qname(buf);
    int pos = qname.encode(sizeof(header), (char*)hostname);
    memcpy(buf+pos, tail, sizeof(tail));
    pos += sizeof(tail);
    return pos;
}

void DNSClient::resolve(const char* hostname) {
    if (m_udp == NULL) {
        m_udp = new UDPSocket;
    }
    m_udp->init();
    m_udp->set_blocking(false);
    Endpoint server;
    server.set_address("8.8.8.8", 53); // DNS
    m_udp->bind(rand()&0x7fff);
    uint8_t buf[256];                
    int size = query(buf, sizeof(buf), hostname);
#if DBG_DNS
    printf("hostname:[%s]\n", hostname);
    printHex(buf, size);
#endif
    m_udp->sendTo(server, (char*)buf, size);
    m_interval.reset();
    m_interval.start();
}

void DNSClient::poll() {
#if DBG_DNS
    printf("%p m_state: %d, m_udp: %p\n", this, m_state, m_udp);
    wait_ms(400);
#endif
    switch(m_state) {
        case MYNETDNS_START:
            m_retry = 0;
            resolve(m_hostname);
            m_state = MYNETDNS_PROCESSING;
            break;
        case MYNETDNS_PROCESSING: 
            break;
        case MYNETDNS_NOTFOUND: 
            break;
        case MYNETDNS_ERROR: 
            break;
        case MYNETDNS_OK:
            DBG2("m_retry=%d, m_interval=%d\n", m_retry, m_interval.read_ms());
            break;
    }
    if (m_interval.read_ms() > 1000) {
        m_interval.stop();
        DBG2("timeout m_retry=%d\n", m_retry);
        if (++m_retry >= 2) {
            m_state = MYNETDNS_ERROR;
        } else {
            resolve(m_hostname);
            m_state = MYNETDNS_PROCESSING;
        }
    }
}

bool DNSClient::lookup(const char* hostname) {
    m_hostname = hostname;
    m_state = MYNETDNS_START;
    while(1) {
        poll();
        callback();
        if (m_state != MYNETDNS_PROCESSING) {
            break;
        } 
    }
    return m_state == MYNETDNS_OK;
}