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ETcontroller_ST/WIZnetInterface/DNSClient/DNSClient.cpp

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// 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;
}
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