zapret/nfq/darkmagic.c

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19 KiB
C
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#define _GNU_SOURCE
#include "darkmagic.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <arpa/inet.h>
#include <sys/param.h>
#include <errno.h>
#include "helpers.h"
uint32_t net32_add(uint32_t netorder_value, uint32_t cpuorder_increment)
{
return htonl(ntohl(netorder_value)+cpuorder_increment);
}
uint8_t *tcp_find_option(struct tcphdr *tcp, uint8_t kind)
{
uint8_t *t = (uint8_t*)(tcp+1);
uint8_t *end = (uint8_t*)tcp + (tcp->th_off<<2);
while(t<end)
{
switch(*t)
{
case 0: // end
return NULL;
case 1: // noop
t++;
break;
default: // kind,len,data
if ((t+1)>=end || t[1]<2 || (t+t[1])>end)
return NULL;
if (*t==kind)
return t;
t+=t[1];
break;
}
}
return NULL;
}
uint32_t *tcp_find_timestamps(struct tcphdr *tcp)
{
uint8_t *t = tcp_find_option(tcp,8);
return (t && t[1]==10) ? (uint32_t*)(t+2) : NULL;
}
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uint8_t tcp_find_scale_factor(const struct tcphdr *tcp)
{
uint8_t *scale = tcp_find_option((struct tcphdr*)tcp,3); // tcp option 3 - scale factor
if (scale && scale[1]==3) return scale[2];
return SCALE_NONE;
}
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// n prefix (nsport, nwsize) means network byte order
static void fill_tcphdr(struct tcphdr *tcp, uint8_t fooling, uint8_t tcp_flags, uint32_t nseq, uint32_t nack_seq, uint16_t nsport, uint16_t ndport, uint16_t nwsize, uint8_t scale_factor, uint32_t *timestamps)
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{
char *tcpopt = (char*)(tcp+1);
uint8_t t=0;
memset(tcp,0,sizeof(*tcp));
tcp->th_sport = nsport;
tcp->th_dport = ndport;
if (fooling & TCP_FOOL_BADSEQ)
{
tcp->th_seq = net32_add(nseq,0x80000000);
tcp->th_ack = net32_add(nack_seq,0x80000000);
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}
else
{
tcp->th_seq = nseq;
tcp->th_ack = nack_seq;
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}
tcp->th_off = 5;
*((uint8_t*)tcp+13)= tcp_flags;
tcp->th_win = nwsize;
if (fooling & TCP_FOOL_MD5SIG)
{
tcpopt[0] = 19; // kind
tcpopt[1] = 18; // len
*(uint32_t*)(tcpopt+2)=random();
*(uint32_t*)(tcpopt+6)=random();
*(uint32_t*)(tcpopt+10)=random();
*(uint32_t*)(tcpopt+14)=random();
t=18;
}
if (timestamps || (fooling & TCP_FOOL_TS))
{
tcpopt[t] = 8; // kind
tcpopt[t+1] = 10; // len
// forge only TSecr if orig timestamp is present
*(uint32_t*)(tcpopt+t+2) = timestamps ? timestamps[0] : -1;
*(uint32_t*)(tcpopt+t+6) = (timestamps && !(fooling & TCP_FOOL_TS)) ? timestamps[1] : -1;
t+=10;
}
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if (scale_factor!=SCALE_NONE)
{
tcpopt[t++]=3;
tcpopt[t++]=3;
tcpopt[t++]=scale_factor;
}
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while (t&3) tcpopt[t++]=1; // noop
tcp->th_off += t>>2;
}
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static uint16_t tcpopt_len(uint8_t fooling, const uint32_t *timestamps, uint8_t scale_factor)
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{
uint16_t t=0;
if (fooling & TCP_FOOL_MD5SIG) t=18;
if ((fooling & TCP_FOOL_TS) || timestamps) t+=10;
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if (scale_factor!=SCALE_NONE) t+=3;
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return (t+3)&~3;
}
static int rawsend_sock4=-1, rawsend_sock6=-1;
static void rawsend_clean_sock(int *sock)
{
if (sock && *sock!=-1)
{
close(*sock);
*sock=-1;
}
}
void rawsend_cleanup()
{
rawsend_clean_sock(&rawsend_sock4);
rawsend_clean_sock(&rawsend_sock6);
}
static int *rawsend_family_sock(sa_family_t family)
{
switch(family)
{
case AF_INET: return &rawsend_sock4;
case AF_INET6: return &rawsend_sock6;
default: return NULL;
}
}
#ifdef BSD
static int rawsend_socket_divert(sa_family_t family)
{
// HACK HACK HACK HACK HACK HACK HACK HACK
// FreeBSD doesnt allow IP_HDRINCL for IPV6
// OpenBSD doesnt allow rawsending tcp frames
// we either have to go to the link layer (its hard, possible problems arise, compat testing, ...) or use some HACKING
// from my point of view disabling direct ability to send ip frames is not security. its SHIT
int fd = socket(family, SOCK_RAW, IPPROTO_DIVERT);
if (!set_socket_buffers(fd,4096,RAW_SNDBUF))
{
close(fd);
return -1;
}
return fd;
}
static int rawsend_sendto_divert(sa_family_t family, int sock, const void *buf, size_t len)
{
struct sockaddr_storage sa;
socklen_t slen;
memset(&sa,0,sizeof(sa));
sa.ss_family = family;
switch(family)
{
case AF_INET:
slen = sizeof(struct sockaddr_in);
break;
case AF_INET6:
slen = sizeof(struct sockaddr_in6);
break;
default:
return -1;
}
return sendto(sock, buf, len, 0, (struct sockaddr*)&sa, slen);
}
#endif
static int rawsend_socket_raw(int domain, int proto)
{
int fd = socket(domain, SOCK_RAW, proto);
if (fd!=-1)
{
#ifdef __linux__
int s=RAW_SNDBUF/2;
int r=2048;
#else
int s=RAW_SNDBUF;
int r=4096;
#endif
if (!set_socket_buffers(fd,r,s))
{
close(fd);
return -1;
}
}
return fd;
}
static int rawsend_socket(sa_family_t family,uint32_t fwmark)
{
int yes=1;
int *sock = rawsend_family_sock(family);
if (!sock) return -1;
if (*sock==-1)
{
int yes=1,pri=6;
//printf("rawsend_socket: family %d",family);
#ifdef __FreeBSD__
// IPPROTO_RAW with ipv6 in FreeBSD always returns EACCES on sendto.
// must use IPPROTO_TCP for ipv6. IPPROTO_RAW works for ipv4
// divert sockets are always v4 but accept both v4 and v6
*sock = (family==AF_INET) ? rawsend_socket_raw(family, IPPROTO_TCP) : rawsend_socket_divert(AF_INET);
#elif defined(__OpenBSD__) || defined (__APPLE__)
// OpenBSD does not allow sending TCP frames through raw sockets
// I dont know about macos. They have dropped ipfw in recent versions and their PF does not support divert-packet
*sock = rawsend_socket_divert(family);
#else
*sock = rawsend_socket_raw(family, IPPROTO_RAW);
#endif
if (*sock==-1)
{
perror("rawsend: socket()");
return -1;
}
#ifdef BSD
#if !(defined(__OpenBSD__) || defined (__APPLE__))
// HDRINCL not supported for ipv6 in any BSD
if (family==AF_INET && setsockopt(*sock,IPPROTO_IP,IP_HDRINCL,&yes,sizeof(yes)) == -1)
{
perror("rawsend: setsockopt(IP_HDRINCL)");
goto exiterr;
}
#endif
#ifdef SO_USER_COOKIE
if (setsockopt(*sock, SOL_SOCKET, SO_USER_COOKIE, &fwmark, sizeof(fwmark)) == -1)
{
perror("rawsend: setsockopt(SO_MARK)");
goto exiterr;
}
#endif
#endif
#ifdef __linux__
if (setsockopt(*sock, SOL_SOCKET, SO_MARK, &fwmark, sizeof(fwmark)) == -1)
{
perror("rawsend: setsockopt(SO_MARK)");
goto exiterr;
}
if (setsockopt(*sock, SOL_SOCKET, SO_PRIORITY, &pri, sizeof(pri)) == -1)
{
perror("rawsend: setsockopt(SO_PRIORITY)");
goto exiterr;
}
#endif
}
return *sock;
exiterr:
rawsend_clean_sock(sock);
return -1;
}
bool rawsend_preinit(uint32_t fwmark)
{
return rawsend_socket(AF_INET,fwmark)!=-1 && rawsend_socket(AF_INET6,fwmark)!=-1;
}
bool rawsend(const struct sockaddr* dst,uint32_t fwmark,const void *data,size_t len)
{
int sock=rawsend_socket(dst->sa_family,fwmark);
if (sock==-1) return false;
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int salen = dst->sa_family == AF_INET ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6);
struct sockaddr_storage dst2;
memcpy(&dst2,dst,salen);
if (dst->sa_family==AF_INET6)
((struct sockaddr_in6 *)&dst2)->sin6_port = 0; // or will be EINVAL in linux
#ifdef BSD
/*
// this works only for local connections and not working for transit : cant spoof source addr
if (len>=sizeof(struct ip6_hdr))
{
// BSD ipv6 raw socks are limited. cannot pass the whole packet with ip6 header.
struct sockaddr_storage sa_src;
int v;
extract_endpoints(NULL,(struct ip6_hdr *)data,NULL, &sa_src, NULL);
v = ((struct ip6_hdr *)data)->ip6_ctlun.ip6_un1.ip6_un1_hlim;
if (setsockopt(sock, IPPROTO_IPV6, IPV6_UNICAST_HOPS, &v, sizeof(v)) == -1)
perror("rawsend: setsockopt(IPV6_HOPLIMIT)");
// the only way to control source address is bind. make it equal to ip6_hdr
if (bind(sock, (struct sockaddr*)&sa_src, salen) < 0)
perror("rawsend bind: ");
//printf("BSD v6 RAWSEND "); print_sockaddr((struct sockaddr*)&sa_src); printf(" -> "); print_sockaddr((struct sockaddr*)&dst2); printf("\n");
proto_skip_ipv6((uint8_t**)&data, &len, NULL);
}
*/
#if !(defined(__OpenBSD__) || defined (__APPLE__))
// OpenBSD doesnt allow rawsending tcp frames. always use divert socket
if (dst->sa_family==AF_INET6)
#endif
{
ssize_t bytes = rawsend_sendto_divert(dst->sa_family,sock,data,len);
if (bytes==-1)
{
perror("rawsend: sendto_divert");
return false;
}
return true;
}
#endif
#if defined(__FreeBSD__) && __FreeBSD__<=10
// old FreeBSD requires some fields in the host byte order
if (dst->sa_family==AF_INET && len>=sizeof(struct ip))
{
((struct ip*)data)->ip_len = htons(((struct ip*)data)->ip_len);
((struct ip*)data)->ip_off = htons(((struct ip*)data)->ip_off);
}
#endif
// normal raw socket sendto
ssize_t bytes = sendto(sock, data, len, 0, (struct sockaddr*)&dst2, salen);
#if defined(__FreeBSD) && __FreeBSD__<=10
// restore byte order
if (dst->sa_family==AF_INET && len>=sizeof(struct ip))
{
((struct ip*)data)->ip_len = htons(((struct ip*)data)->ip_len);
((struct ip*)data)->ip_off = htons(((struct ip*)data)->ip_off);
}
#endif
if (bytes==-1)
{
perror("rawsend: sendto");
return false;
}
return true;
}
bool prepare_tcp_segment4(
const struct sockaddr_in *src, const struct sockaddr_in *dst,
uint8_t tcp_flags,
uint32_t nseq, uint32_t nack_seq,
uint16_t nwsize,
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uint8_t scale_factor,
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uint32_t *timestamps,
uint8_t ttl,
uint8_t fooling,
const void *data, uint16_t len,
uint8_t *buf, size_t *buflen)
{
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uint16_t tcpoptlen = tcpopt_len(fooling,timestamps, scale_factor);
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uint16_t pktlen = sizeof(struct ip) + sizeof(struct tcphdr) + tcpoptlen + len;
if (pktlen>*buflen)
{
fprintf(stderr,"prepare_tcp_segment : packet len cannot exceed %zu\n",*buflen);
return false;
}
struct ip *ip = (struct ip*) buf;
struct tcphdr *tcp = (struct tcphdr*) (ip+1);
ip->ip_off = 0;
ip->ip_v = 4;
ip->ip_hl = 5;
ip->ip_len = htons(pktlen);
ip->ip_id = 0;
ip->ip_ttl = ttl;
ip->ip_p = IPPROTO_TCP;
ip->ip_src = src->sin_addr;
ip->ip_dst = dst->sin_addr;
fill_tcphdr(tcp,fooling,tcp_flags,nseq,nack_seq,src->sin_port,dst->sin_port,nwsize,scale_factor,timestamps);
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memcpy((char*)tcp+sizeof(struct tcphdr)+tcpoptlen,data,len);
tcp4_fix_checksum(tcp,sizeof(struct tcphdr)+tcpoptlen+len,&ip->ip_src,&ip->ip_dst);
if (fooling & TCP_FOOL_BADSUM) tcp->th_sum^=0xBEAF;
*buflen = pktlen;
return true;
}
bool prepare_tcp_segment6(
const struct sockaddr_in6 *src, const struct sockaddr_in6 *dst,
uint8_t tcp_flags,
uint32_t nseq, uint32_t nack_seq,
uint16_t nwsize,
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uint8_t scale_factor,
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uint32_t *timestamps,
uint8_t ttl,
uint8_t fooling,
const void *data, uint16_t len,
uint8_t *buf, size_t *buflen)
{
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uint16_t tcpoptlen = tcpopt_len(fooling,timestamps, scale_factor);
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uint16_t payloadlen = sizeof(struct tcphdr) + tcpoptlen + len;
uint16_t pktlen = sizeof(struct ip6_hdr) + payloadlen;
if (pktlen>*buflen)
{
fprintf(stderr,"prepare_tcp_segment : packet len cannot exceed %zu\n",*buflen);
return false;
}
struct ip6_hdr *ip6 = (struct ip6_hdr*) buf;
struct tcphdr *tcp = (struct tcphdr*) (ip6+1);
ip6->ip6_ctlun.ip6_un1.ip6_un1_flow = htonl(0x60000000);
ip6->ip6_ctlun.ip6_un1.ip6_un1_plen = htons(payloadlen);
ip6->ip6_ctlun.ip6_un1.ip6_un1_nxt = IPPROTO_TCP;
ip6->ip6_ctlun.ip6_un1.ip6_un1_hlim = ttl;
ip6->ip6_src = src->sin6_addr;
ip6->ip6_dst = dst->sin6_addr;
fill_tcphdr(tcp,fooling,tcp_flags,nseq,nack_seq,src->sin6_port,dst->sin6_port,nwsize,scale_factor,timestamps);
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memcpy((char*)tcp+sizeof(struct tcphdr)+tcpoptlen,data,len);
tcp6_fix_checksum(tcp,sizeof(struct tcphdr)+tcpoptlen+len,&ip6->ip6_src,&ip6->ip6_dst);
if (fooling & TCP_FOOL_BADSUM) tcp->th_sum^=0xBEAF;
*buflen = pktlen;
return true;
}
bool prepare_tcp_segment(
const struct sockaddr *src, const struct sockaddr *dst,
uint8_t tcp_flags,
uint32_t nseq, uint32_t nack_seq,
uint16_t nwsize,
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uint8_t scale_factor,
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uint32_t *timestamps,
uint8_t ttl,
uint8_t fooling,
const void *data, uint16_t len,
uint8_t *buf, size_t *buflen)
{
return (src->sa_family==AF_INET && dst->sa_family==AF_INET) ?
prepare_tcp_segment4((struct sockaddr_in *)src,(struct sockaddr_in *)dst,tcp_flags,nseq,nack_seq,nwsize,scale_factor,timestamps,ttl,fooling,data,len,buf,buflen) :
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(src->sa_family==AF_INET6 && dst->sa_family==AF_INET6) ?
prepare_tcp_segment6((struct sockaddr_in6 *)src,(struct sockaddr_in6 *)dst,tcp_flags,nseq,nack_seq,nwsize,scale_factor,timestamps,ttl,fooling,data,len,buf,buflen) :
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false;
}
void extract_endpoints(const struct ip *ip,const struct ip6_hdr *ip6hdr,const struct tcphdr *tcphdr, struct sockaddr_storage *src, struct sockaddr_storage *dst)
{
if (ip)
{
struct sockaddr_in *si;
if (dst)
{
si = (struct sockaddr_in*)dst;
si->sin_family = AF_INET;
si->sin_port = tcphdr ? tcphdr->th_dport : 0;
si->sin_addr = ip->ip_dst;
}
if (src)
{
si = (struct sockaddr_in*)src;
si->sin_family = AF_INET;
si->sin_port = tcphdr ? tcphdr->th_sport : 0;
si->sin_addr = ip->ip_src;
}
}
else if (ip6hdr)
{
struct sockaddr_in6 *si;
if (dst)
{
si = (struct sockaddr_in6*)dst;
si->sin6_family = AF_INET6;
si->sin6_port = tcphdr ? tcphdr->th_dport : 0;
si->sin6_addr = ip6hdr->ip6_dst;
si->sin6_flowinfo = 0;
si->sin6_scope_id = 0;
}
if (src)
{
si = (struct sockaddr_in6*)src;
si->sin6_family = AF_INET6;
si->sin6_port = tcphdr ? tcphdr->th_sport : 0;
si->sin6_addr = ip6hdr->ip6_src;
si->sin6_flowinfo = 0;
si->sin6_scope_id = 0;
}
}
}
static const char *proto_name(uint8_t proto)
{
switch(proto)
{
case IPPROTO_TCP:
return "tcp";
case IPPROTO_UDP:
return "udp";
case IPPROTO_ICMP:
return "icmp";
case IPPROTO_IGMP:
return "igmp";
case IPPROTO_ESP:
return "esp";
case IPPROTO_AH:
return "ah";
case IPPROTO_IPV6:
return "6in4";
#ifdef IPPROTO_SCTP
case IPPROTO_SCTP:
return "sctp";
#endif
default:
return NULL;
}
}
static void str_proto_name(char *s, size_t s_len, uint8_t proto)
{
const char *name = proto_name(proto);
if (name)
snprintf(s,s_len,"%s",name);
else
snprintf(s,s_len,"%u",proto);
}
static void str_srcdst_ip(char *s, size_t s_len, const void *saddr,const void *daddr)
{
char s_ip[16],d_ip[16];
*s_ip=*d_ip=0;
inet_ntop(AF_INET, saddr, s_ip, sizeof(s_ip));
inet_ntop(AF_INET, daddr, d_ip, sizeof(d_ip));
snprintf(s,s_len,"%s => %s",s_ip,d_ip);
}
static void str_ip(char *s, size_t s_len, const struct ip *ip)
{
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char ss[35],s_proto[16];
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str_srcdst_ip(ss,sizeof(ss),&ip->ip_src,&ip->ip_dst);
str_proto_name(s_proto,sizeof(s_proto),ip->ip_p);
snprintf(s,s_len,"%s proto=%s",ss,s_proto);
}
void print_ip(const struct ip *ip)
{
char s[64];
str_ip(s,sizeof(s),ip);
printf("%s",s);
}
static void str_srcdst_ip6(char *s, size_t s_len, const void *saddr,const void *daddr)
{
char s_ip[40],d_ip[40];
*s_ip=*d_ip=0;
inet_ntop(AF_INET6, saddr, s_ip, sizeof(s_ip));
inet_ntop(AF_INET6, daddr, d_ip, sizeof(d_ip));
snprintf(s,s_len,"%s => %s",s_ip,d_ip);
}
static void str_ip6hdr(char *s, size_t s_len, const struct ip6_hdr *ip6hdr, uint8_t proto)
{
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char ss[83],s_proto[16];
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str_srcdst_ip6(ss,sizeof(ss),&ip6hdr->ip6_src,&ip6hdr->ip6_dst);
str_proto_name(s_proto,sizeof(s_proto),proto);
snprintf(s,s_len,"%s proto=%s",ss,s_proto);
}
void print_ip6hdr(const struct ip6_hdr *ip6hdr, uint8_t proto)
{
char s[128];
str_ip6hdr(s,sizeof(s),ip6hdr,proto);
printf("%s",s);
}
static void str_tcphdr(char *s, size_t s_len, const struct tcphdr *tcphdr)
{
char flags[7],*f=flags;
if (tcphdr->th_flags & TH_SYN) *f++='S';
if (tcphdr->th_flags & TH_ACK) *f++='A';
if (tcphdr->th_flags & TH_RST) *f++='R';
if (tcphdr->th_flags & TH_FIN) *f++='F';
if (tcphdr->th_flags & TH_PUSH) *f++='P';
if (tcphdr->th_flags & TH_URG) *f++='U';
*f=0;
snprintf(s,s_len,"sport=%u dport=%u flags=%s seq=%u ack_seq=%u",htons(tcphdr->th_sport),htons(tcphdr->th_dport),flags,htonl(tcphdr->th_seq),htonl(tcphdr->th_ack));
}
void print_tcphdr(const struct tcphdr *tcphdr)
{
char s[80];
str_tcphdr(s,sizeof(s),tcphdr);
printf("%s",s);
}
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bool proto_check_ipv4(const uint8_t *data, size_t len)
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{
return len >= 20 && (data[0] & 0xF0) == 0x40 &&
len >= ((data[0] & 0x0F) << 2);
}
// move to transport protocol
void proto_skip_ipv4(uint8_t **data, size_t *len)
{
size_t l;
l = (**data & 0x0F) << 2;
*data += l;
*len -= l;
}
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bool proto_check_tcp(const uint8_t *data, size_t len)
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{
return len >= 20 && len >= ((data[12] & 0xF0) >> 2);
}
void proto_skip_tcp(uint8_t **data, size_t *len)
{
size_t l;
l = ((*data)[12] & 0xF0) >> 2;
*data += l;
*len -= l;
}
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bool proto_check_ipv6(const uint8_t *data, size_t len)
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{
return len >= 40 && (data[0] & 0xF0) == 0x60 &&
(len - 40) >= htons(*(uint16_t*)(data + 4)); // payload length
}
// move to transport protocol
// proto_type = 0 => error
void proto_skip_ipv6(uint8_t **data, size_t *len, uint8_t *proto_type)
{
size_t hdrlen;
uint8_t HeaderType;
if (proto_type) *proto_type = 0; // put error in advance
HeaderType = (*data)[6]; // NextHeader field
*data += 40; *len -= 40; // skip ipv6 base header
while (*len > 0) // need at least one byte for NextHeader field
{
switch (HeaderType)
{
case 0: // Hop-by-Hop Options
case 43: // routing
case 51: // authentication
case 60: // Destination Options
case 135: // mobility
case 139: // Host Identity Protocol Version v2
case 140: // Shim6
if (*len < 2) return; // error
hdrlen = 8 + ((*data)[1] << 3);
break;
case 44: // fragment. length fixed to 8, hdrlen field defined as reserved
hdrlen = 8;
break;
case 59: // no next header
return; // error
default:
// we found some meaningful payload. it can be tcp, udp, icmp or some another exotic shit
if (proto_type) *proto_type = HeaderType;
return;
}
if (*len < hdrlen) return; // error
HeaderType = **data;
// advance to the next header location
*len -= hdrlen;
*data += hdrlen;
}
// we have garbage
}
bool tcp_synack_segment(const struct tcphdr *tcphdr)
{
/* check for set bits in TCP hdr */
return ((tcphdr->th_flags & (TH_URG|TH_ACK|TH_PUSH|TH_RST|TH_SYN|TH_FIN)) == (TH_ACK|TH_SYN));
}
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bool tcp_syn_segment(const struct tcphdr *tcphdr)
{
/* check for set bits in TCP hdr */
return ((tcphdr->th_flags & (TH_URG|TH_ACK|TH_PUSH|TH_RST|TH_SYN|TH_FIN)) == TH_SYN);
}
bool tcp_ack_segment(const struct tcphdr *tcphdr)
{
/* check for set bits in TCP hdr */
return ((tcphdr->th_flags & (TH_URG|TH_ACK|TH_PUSH|TH_RST|TH_SYN|TH_FIN)) == TH_ACK);
}
void tcp_rewrite_wscale(struct tcphdr *tcp, uint8_t scale_factor)
{
uint8_t *scale,scale_factor_old;
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if (scale_factor!=SCALE_NONE)
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{
scale = tcp_find_option(tcp,3); // tcp option 3 - scale factor
if (scale && scale[1]==3) // length should be 3
{
scale_factor_old=scale[2];
// do not allow increasing scale factor
if (scale_factor>=scale_factor_old)
DLOG("Scale factor %u unchanged\n", scale_factor_old)
else
{
scale[2]=scale_factor;
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DLOG("Scale factor change %u => %u\n", scale_factor_old, scale_factor)
}
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}
}
}
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// scale_factor=SCALE_NONE - do not change
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void tcp_rewrite_winsize(struct tcphdr *tcp, uint16_t winsize, uint8_t scale_factor)
{
uint16_t winsize_old;
winsize_old = htons(tcp->th_win); // << scale_factor;
tcp->th_win = htons(winsize);
DLOG("Window size change %u => %u\n", winsize_old, winsize)
tcp_rewrite_wscale(tcp, scale_factor);
}