DNS resolver for captive portal

pull/30/head
Jeroen Domburg 10 years ago
parent c4986a79a2
commit dec1137abc
  1. 207
      user/captdns.c
  2. 5
      user/captdns.h
  3. 3
      user/user_main.c

@ -0,0 +1,207 @@
#include <esp8266.h>
typedef struct __attribute__ ((packed)) {
uint16_t id;
uint8_t flags;
uint8_t rcode;
uint16_t qdcount;
uint16_t ancount;
uint16_t nscount;
uint16_t arcount;
} DnsHeader;
typedef struct __attribute__ ((packed)) {
uint8_t len;
uint8_t data;
} DnsLabel;
typedef struct __attribute__ ((packed)) {
//before: label
uint16_t type;
uint16_t class;
} DnsQuestionFooter;
typedef struct __attribute__ ((packed)) {
//before: label
uint16_t type;
uint16_t class;
uint32_t ttl;
uint16_t rdlength;
//after: rdata
} DnsResourceFooter;
#define FLAG_QR (1<<7)
#define FLAG_AA (1<<2)
#define FLAG_TC (1<<1)
#define FLAG_RD (1<<0)
#define QTYPE_A 1
#define QTYPE_NS 2
#define QTYPE_CNAME 5
#define QTYPE_SOA 6
#define QTYPE_WKS 11
#define QTYPE_PTR 12
#define QTYPE_HINFO 13
#define QTYPE_MINFO 14
#define QTYPE_MX 15
#define QTYPE_TXT 16
#define QCLASS_IN 1
#define QCLASS_ANY 255
//Function to put unaligned 16-bit network values
static void ICACHE_FLASH_ATTR setn16(void *pp, int16_t n) {
char *p=pp;
*p++=(n>>8);
*p++=(n&0xff);
}
//Function to put unaligned 32-bit network values
static void ICACHE_FLASH_ATTR setn32(void *pp, int32_t n) {
char *p=pp;
*p++=(n>>24)&0xff;
*p++=(n>>16)&0xff;
*p++=(n>>8)&0xff;
*p++=(n&0xff);
}
static uint16_t ntohs(uint16_t *in) {
char *p=(char*)in;
return ((p[0]<<8)&0xff00)|(p[1]&0xff);
}
//Parses a label.
//Returns pointer to start of next fields in packet
static char* ICACHE_FLASH_ATTR labelToStr(char *packet, char *labelPtr, int packetSz, char *res, int resMaxLen) {
int i, j, k;
char *endPtr=NULL;
i=0;
do {
if ((*labelPtr&0xC0)==0) {
j=*labelPtr++; //skip past length
//Add separator period if there already is data in res
if (i<resMaxLen && i!=0) res[i++]='.';
//Copy label to res
for (k=0; k<j; k++) {
if ((labelPtr-packet)>packetSz) return NULL;
if (i<resMaxLen) res[i++]=*labelPtr++;
}
} else if ((*labelPtr&0xC0)==0xC0) {
//Compressed label pointer
endPtr=labelPtr+2;
int offset=ntohs(((uint16_t *)labelPtr))&0x3FFF;
//Check if offset points to somewhere outside of the packet
if (offset>packetSz) return NULL;
labelPtr=&packet[offset];
}
//check for out-of-bound-ness
if ((labelPtr-packet)>packetSz) return NULL;
} while (*labelPtr!=0);
res[i]=0; //zero-terminate
if (endPtr==NULL) endPtr=labelPtr+1;
return endPtr;
}
char *strToLabel(char *str, char *label, int maxLen) {
char *len=label; //ptr to len byte
char *p=label+1; //ptr to next label byte to be written
while (1) {
if (*str=='.' || *str==0) {
*len=((p-len)-1); //write len of label bit
len=p; //pos of len for next part
p++; //data ptr is one past len
if (*str==0) break; //done
str++;
} else {
*p++=*str++; //copy byte
// if ((p-label)>maxLen) return NULL; //check out of bounds
}
}
*len=0;
return p; //ptr to first free byte in resp
}
static void ICACHE_FLASH_ATTR captdnsRecv(void* arg, char *pusrdata, unsigned short length) {
struct espconn *conn=(struct espconn *)arg;
char buff[512];
char reply[512];
int i;
char *rend=&reply[length];
char *p=pusrdata;
DnsHeader *hdr=(DnsHeader*)p;
DnsHeader *rhdr=(DnsHeader*)&reply[0];
p+=sizeof(DnsHeader);
os_printf("DNS packet: id 0x%X flags 0x%X rcode 0x%X qcnt %d ancnt %d nscount %d arcount %d len %d\n",
ntohs(&hdr->id), hdr->flags, hdr->rcode, ntohs(&hdr->qdcount), ntohs(&hdr->ancount), ntohs(&hdr->nscount), ntohs(&hdr->arcount), length);
//Some sanity checks:
if (length>512) return; //Packet is longer than DNS implementation allows
if (length<sizeof(DnsHeader)) return; //Packet is too short
if (hdr->ancount || hdr->nscount || hdr->arcount) return; //this is a reply, don't know what to do with it
if (hdr->flags&FLAG_TC) return; //truncated, can't use this
//Reply is basically the request plus the needed data
os_memcpy(reply, pusrdata, length);
rhdr->flags|=FLAG_QR;
for (i=0; i<ntohs(&hdr->qdcount); i++) {
//Grab the labels in the q string
p=labelToStr(pusrdata, p, length, buff, sizeof(buff));
if (p==NULL) return;
DnsQuestionFooter *qf=(DnsQuestionFooter*)p;
p+=sizeof(DnsQuestionFooter);
os_printf("Q %d (type 0x%X class 0x%X) for %s\n", i, ntohs(&qf->type), ntohs(&qf->class), buff);
if (ntohs(&qf->type)==QTYPE_A) {
//They want to know the IPv4 address of something.
//Build the response.
rend=strToLabel(buff, rend, sizeof(reply)-(rend-reply)); //Add the label
if (rend==NULL) return;
DnsResourceFooter *rf=(DnsResourceFooter *)rend;
rend+=sizeof(DnsResourceFooter);
setn16(&rf->type, QTYPE_A);
setn16(&rf->class, QCLASS_IN);
setn32(&rf->ttl, 1);
setn16(&rf->rdlength, 4); //IPv4 addr is 4 bytes;
*rend++=192; //hardcoded :X
*rend++=168;
*rend++=4;
*rend++=1;
setn16(&rhdr->ancount, ntohs(&rhdr->ancount)+1);
os_printf("Added A rec to resp. Resp len is %d\n", (rend-reply));
} else if (ntohs(&qf->type)==QTYPE_NS) {
//Give ns server. Basically is whatever.
rend=strToLabel(buff, rend, sizeof(reply)-(rend-reply)); //Add the label
DnsResourceFooter *rf=(DnsResourceFooter *)rend;
rend+=sizeof(DnsResourceFooter);
setn16(&rf->type, QTYPE_NS);
setn16(&rf->class, QCLASS_IN);
setn16(&rf->ttl, 1);
setn16(&rf->rdlength, 4);
*rend++=2;
*rend++='n';
*rend++='s';
*rend++=0;
setn16(&rhdr->ancount, ntohs(&rhdr->ancount)+1);
os_printf("Added NS rec to resp. Resp len is %d\n", (rend-reply));
}
}
espconn_sent(conn, (uint8*)reply, rend-reply);
}
void ICACHE_FLASH_ATTR captdnsInit(void) {
static struct espconn conn;
static esp_udp udpconn;
conn.type=ESPCONN_UDP;
conn.proto.udp=&udpconn;
conn.proto.udp->local_port = 53;
espconn_regist_recvcb(&conn, captdnsRecv);
espconn_create(&conn);
}

@ -0,0 +1,5 @@
#ifndef CAPTDNS_H
#define CAPTDNS_H
void ICACHE_FLASH_ATTR captdnsInit(void);
#endif

@ -20,6 +20,7 @@
#include "stdout.h" #include "stdout.h"
#include "auth.h" #include "auth.h"
#include "espfs.h" #include "espfs.h"
#include "captdns.h"
//#define SHOW_HEAP_USE //#define SHOW_HEAP_USE
@ -89,6 +90,8 @@ static void ICACHE_FLASH_ATTR prHeapTimerCb(void *arg) {
void user_init(void) { void user_init(void) {
stdoutInit(); stdoutInit();
ioInit(); ioInit();
captdnsInit();
// 0x40200000 is the base address for spi flash memory mapping, ESPFS_POS is the position // 0x40200000 is the base address for spi flash memory mapping, ESPFS_POS is the position
// where image is written in flash that is defined in Makefile. // where image is written in flash that is defined in Makefile.

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