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GoodbyeDPI/src/goodbyedpi.c

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/*
* GoodbyeDPI — Passive DPI blocker and Active DPI circumvention utility.
*/
#include <stdio.h>
#include <stdlib.h>
#include <ctype.h>
#include <signal.h>
#include <unistd.h>
#include <string.h>
#include <getopt.h>
#include <in6addr.h>
#include <ws2tcpip.h>
#include "windivert.h"
#include "goodbyedpi.h"
#include "utils/repl_str.h"
#include "service.h"
#include "dnsredir.h"
#include "ttltrack.h"
#include "blackwhitelist.h"
#include "fakepackets.h"
// My mingw installation does not load inet_pton definition for some reason
WINSOCK_API_LINKAGE INT WSAAPI inet_pton(INT Family, LPCSTR pStringBuf, PVOID pAddr);
#define GOODBYEDPI_VERSION "v0.2.2"
#define die() do { sleep(20); exit(EXIT_FAILURE); } while (0)
#define MAX_FILTERS 4
#define DIVERT_NO_LOCALNETSv4_DST "(" \
"(ip.DstAddr < 127.0.0.1 or ip.DstAddr > 127.255.255.255) and " \
"(ip.DstAddr < 10.0.0.0 or ip.DstAddr > 10.255.255.255) and " \
"(ip.DstAddr < 192.168.0.0 or ip.DstAddr > 192.168.255.255) and " \
"(ip.DstAddr < 172.16.0.0 or ip.DstAddr > 172.31.255.255) and " \
"(ip.DstAddr < 169.254.0.0 or ip.DstAddr > 169.254.255.255)" \
")"
#define DIVERT_NO_LOCALNETSv4_SRC "(" \
"(ip.SrcAddr < 127.0.0.1 or ip.SrcAddr > 127.255.255.255) and " \
"(ip.SrcAddr < 10.0.0.0 or ip.SrcAddr > 10.255.255.255) and " \
"(ip.SrcAddr < 192.168.0.0 or ip.SrcAddr > 192.168.255.255) and " \
"(ip.SrcAddr < 172.16.0.0 or ip.SrcAddr > 172.31.255.255) and " \
"(ip.SrcAddr < 169.254.0.0 or ip.SrcAddr > 169.254.255.255)" \
")"
#define DIVERT_NO_LOCALNETSv6_DST "(" \
"(ipv6.DstAddr > ::1) and " \
"(ipv6.DstAddr < 2001::0 or ipv6.DstAddr > 2001:1::0) and " \
"(ipv6.DstAddr < fc00::0 or ipv6.DstAddr > fe00::0) and " \
"(ipv6.DstAddr < fe80::0 or ipv6.DstAddr > fec0::0) and " \
"(ipv6.DstAddr < ff00::0 or ipv6.DstAddr > ffff::0)" \
")"
#define DIVERT_NO_LOCALNETSv6_SRC "(" \
"(ipv6.SrcAddr > ::1) and " \
"(ipv6.SrcAddr < 2001::0 or ipv6.SrcAddr > 2001:1::0) and " \
"(ipv6.SrcAddr < fc00::0 or ipv6.SrcAddr > fe00::0) and " \
"(ipv6.SrcAddr < fe80::0 or ipv6.SrcAddr > fec0::0) and " \
"(ipv6.SrcAddr < ff00::0 or ipv6.SrcAddr > ffff::0)" \
")"
/* #IPID# is a template to find&replace */
#define IPID_TEMPLATE "#IPID#"
#define MAXPAYLOADSIZE_TEMPLATE "#MAXPAYLOADSIZE#"
#define FILTER_STRING_TEMPLATE \
"(tcp and !impostor and !loopback " MAXPAYLOADSIZE_TEMPLATE " and " \
"((inbound and (" \
"(" \
"(" \
"(ipv6 or (ip.Id >= 0x0 and ip.Id <= 0xF) " IPID_TEMPLATE \
") and " \
"tcp.SrcPort == 80 and tcp.Ack" \
") or " \
"((tcp.SrcPort == 80 or tcp.SrcPort == 443) and tcp.Ack and tcp.Syn)" \
")" \
" and (" DIVERT_NO_LOCALNETSv4_SRC " or " DIVERT_NO_LOCALNETSv6_SRC "))) or " \
"(outbound and " \
"(tcp.DstPort == 80 or tcp.DstPort == 443) and tcp.Ack and " \
"(" DIVERT_NO_LOCALNETSv4_DST " or " DIVERT_NO_LOCALNETSv6_DST "))" \
"))"
#define FILTER_PASSIVE_STRING_TEMPLATE "inbound and ip and tcp and " \
"!impostor and !loopback and " \
"((ip.Id <= 0xF and ip.Id >= 0x0) " IPID_TEMPLATE ") and " \
"(tcp.SrcPort == 443 or tcp.SrcPort == 80) and tcp.Rst and " \
DIVERT_NO_LOCALNETSv4_SRC
#define SET_HTTP_FRAGMENT_SIZE_OPTION(fragment_size) do { \
if (!http_fragment_size) { \
http_fragment_size = (unsigned int)fragment_size; \
} \
else if (http_fragment_size != (unsigned int)fragment_size) { \
printf( \
"WARNING: HTTP fragment size is already set to %u, not changing.\n", \
http_fragment_size \
); \
} \
} while (0)
#define TCP_HANDLE_OUTGOING_TTL_PARSE_PACKET_IF() \
if ((packet_v4 && tcp_handle_outgoing(&ppIpHdr->SrcAddr, &ppIpHdr->DstAddr, \
ppTcpHdr->SrcPort, ppTcpHdr->DstPort, \
&tcp_conn_info, 0)) \
|| \
(packet_v6 && tcp_handle_outgoing(ppIpV6Hdr->SrcAddr, ppIpV6Hdr->DstAddr, \
ppTcpHdr->SrcPort, ppTcpHdr->DstPort, \
&tcp_conn_info, 1)))
#define TCP_HANDLE_OUTGOING_FAKE_PACKET(func) do { \
should_send_fake = 1; \
if (do_auto_ttl || ttl_min_nhops) { \
TCP_HANDLE_OUTGOING_TTL_PARSE_PACKET_IF() { \
if (do_auto_ttl) { \
/* If Auto TTL mode */ \
ttl_of_fake_packet = tcp_get_auto_ttl(tcp_conn_info.ttl, auto_ttl_1, auto_ttl_2, \
ttl_min_nhops, auto_ttl_max); \
if (do_tcp_verb) { \
printf("Connection TTL = %d, Fake TTL = %d\n", tcp_conn_info.ttl, ttl_of_fake_packet); \
} \
} \
else if (ttl_min_nhops) { \
/* If not Auto TTL mode but --min-ttl is set */ \
if (!tcp_get_auto_ttl(tcp_conn_info.ttl, 0, 0, ttl_min_nhops, 0)) { \
/* Send only if nhops >= min_ttl */ \
should_send_fake = 0; \
} \
} \
} \
} \
if (should_send_fake) \
func(w_filter, &addr, packet, packetLen, packet_v6, \
ttl_of_fake_packet, do_wrong_chksum, do_wrong_seq); \
} while (0)
static int running_from_service = 0;
static int exiting = 0;
static HANDLE filters[MAX_FILTERS];
static int filter_num = 0;
static const char http10_redirect_302[] = "HTTP/1.0 302 ";
static const char http11_redirect_302[] = "HTTP/1.1 302 ";
static const char http_host_find[] = "\r\nHost: ";
static const char http_host_replace[] = "\r\nhoSt: ";
static const char http_useragent_find[] = "\r\nUser-Agent: ";
static const char location_http[] = "\r\nLocation: http://";
static const char connection_close[] = "\r\nConnection: close";
static const char *http_methods[] = {
"GET ",
"HEAD ",
"POST ",
"PUT ",
"DELETE ",
"CONNECT ",
"OPTIONS ",
};
static struct option long_options[] = {
{"port", required_argument, 0, 'z' },
{"dns-addr", required_argument, 0, 'd' },
{"dns-port", required_argument, 0, 'g' },
{"dnsv6-addr", required_argument, 0, '!' },
{"dnsv6-port", required_argument, 0, '@' },
{"dns-verb", no_argument, 0, 'v' },
{"blacklist", required_argument, 0, 'b' },
{"allow-no-sni",no_argument, 0, ']' },
{"ip-id", required_argument, 0, 'i' },
{"set-ttl", required_argument, 0, '$' },
{"min-ttl", required_argument, 0, '[' },
{"auto-ttl", optional_argument, 0, '+' },
{"wrong-chksum",no_argument, 0, '%' },
{"wrong-seq", no_argument, 0, ')' },
{"native-frag", no_argument, 0, '*' },
{"reverse-frag",no_argument, 0, '(' },
{"max-payload", optional_argument, 0, '|' },
{0, 0, 0, 0 }
};
static char *filter_string = NULL;
static char *filter_passive_string = NULL;
static void add_filter_str(int proto, int port) {
const char *udp = " or (udp and !impostor and !loopback and " \
"(udp.SrcPort == %d or udp.DstPort == %d))";
const char *tcp = " or (tcp and !impostor and !loopback " MAXPAYLOADSIZE_TEMPLATE " and " \
"(tcp.SrcPort == %d or tcp.DstPort == %d))";
char *current_filter = filter_string;
size_t new_filter_size = strlen(current_filter) +
(proto == IPPROTO_UDP ? strlen(udp) : strlen(tcp)) + 16;
char *new_filter = malloc(new_filter_size);
strcpy(new_filter, current_filter);
if (proto == IPPROTO_UDP)
sprintf(new_filter + strlen(new_filter), udp, port, port);
else
sprintf(new_filter + strlen(new_filter), tcp, port, port);
filter_string = new_filter;
free(current_filter);
}
static void add_ip_id_str(int id) {
char *newstr;
const char *ipid = " or ip.Id == %d";
char *addfilter = malloc(strlen(ipid) + 16);
sprintf(addfilter, ipid, id);
newstr = repl_str(filter_string, IPID_TEMPLATE, addfilter);
free(filter_string);
filter_string = newstr;
newstr = repl_str(filter_passive_string, IPID_TEMPLATE, addfilter);
free(filter_passive_string);
filter_passive_string = newstr;
}
static void add_maxpayloadsize_str(unsigned short maxpayload) {
char *newstr;
/* 0x47455420 is "GET ", 0x504F5354 is "POST", big endian. */
const char *maxpayloadsize_str = "and (tcp.PayloadLength ? tcp.PayloadLength < %hu or tcp.Payload32[0] == 0x47455420 or tcp.Payload32[0] == 0x504F5354 : true)";
char *addfilter = malloc(strlen(maxpayloadsize_str) + 16);
sprintf(addfilter, maxpayloadsize_str, maxpayload);
newstr = repl_str(filter_string, MAXPAYLOADSIZE_TEMPLATE, addfilter);
free(filter_string);
filter_string = newstr;
}
static void finalize_filter_strings() {
char *newstr, *newstr2;
newstr2 = repl_str(filter_string, IPID_TEMPLATE, "");
newstr = repl_str(newstr2, MAXPAYLOADSIZE_TEMPLATE, "");
free(filter_string);
free(newstr2);
filter_string = newstr;
newstr = repl_str(filter_passive_string, IPID_TEMPLATE, "");
free(filter_passive_string);
filter_passive_string = newstr;
}
static char* dumb_memmem(const char* haystack, unsigned int hlen,
const char* needle, unsigned int nlen)
{
// naive implementation
if (nlen > hlen) return NULL;
size_t i;
for (i=0; i<hlen-nlen+1; i++) {
if (memcmp(haystack+i,needle,nlen)==0) {
return (char*)(haystack+i);
}
}
return NULL;
}
unsigned short int atousi(const char *str, const char *msg) {
long unsigned int res = strtoul(str, NULL, 10u);
enum {
limitValue=0xFFFFu
};
if(res > limitValue) {
puts(msg);
exit(EXIT_FAILURE);
}
return (unsigned short int)res;
}
BYTE atoub(const char *str, const char *msg) {
long unsigned int res = strtoul(str, NULL, 10u);
enum {
limitValue=0xFFu
};
if(res > limitValue) {
puts(msg);
exit(EXIT_FAILURE);
}
return (BYTE)res;
}
static HANDLE init(char *filter, UINT64 flags) {
LPTSTR errormessage = NULL;
DWORD errorcode = 0;
filter = WinDivertOpen(filter, WINDIVERT_LAYER_NETWORK, 0, flags);
if (filter != INVALID_HANDLE_VALUE)
return filter;
errorcode = GetLastError();
FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
NULL, errorcode, MAKELANGID(LANG_ENGLISH, SUBLANG_DEFAULT),
(LPTSTR)&errormessage, 0, NULL);
printf("Error opening filter: %s", errormessage);
LocalFree(errormessage);
if (errorcode == 577)
printf("Windows Server 2016 systems must have secure boot disabled to be "
"able to load WinDivert driver.\n"
"Windows 7 systems must be up-to-date or at least have KB3033929 installed.\n"
"https://www.microsoft.com/en-us/download/details.aspx?id=46078\n\n"
"WARNING! If you see this error on Windows 7, it means your system is horribly "
"outdated and SHOULD NOT BE USED TO ACCESS THE INTERNET!\n"
"Most probably, you don't have security patches installed and anyone in you LAN or "
"public Wi-Fi network can get full access to your computer (MS17-010 and others).\n"
"You should install updates IMMEDIATELY.\n");
return NULL;
}
static int deinit(HANDLE handle) {
if (handle) {
WinDivertShutdown(handle, WINDIVERT_SHUTDOWN_BOTH);
WinDivertClose(handle);
return TRUE;
}
return FALSE;
}
void deinit_all() {
for (int i = 0; i < filter_num; i++) {
deinit(filters[i]);
}
}
static void sigint_handler(int sig __attribute__((unused))) {
exiting = 1;
deinit_all();
exit(EXIT_SUCCESS);
}
static void mix_case(char *pktdata, unsigned int pktlen) {
unsigned int i;
if (pktlen <= 0) return;
for (i = 0; i < pktlen; i++) {
if (i % 2) {
pktdata[i] = (char) toupper(pktdata[i]);
}
}
}
static int is_passivedpi_redirect(const char *pktdata, unsigned int pktlen) {
/* First check if this is HTTP 302 redirect */
if (memcmp(pktdata, http11_redirect_302, sizeof(http11_redirect_302)-1) == 0 ||
memcmp(pktdata, http10_redirect_302, sizeof(http10_redirect_302)-1) == 0)
{
/* Then check if this is a redirect to new http site with Connection: close */
if (dumb_memmem(pktdata, pktlen, location_http, sizeof(location_http)-1) &&
dumb_memmem(pktdata, pktlen, connection_close, sizeof(connection_close)-1)) {
return TRUE;
}
}
return FALSE;
}
static int find_header_and_get_info(const char *pktdata, unsigned int pktlen,
const char *hdrname,
char **hdrnameaddr,
char **hdrvalueaddr, unsigned int *hdrvaluelen) {
char *data_addr_rn;
char *hdr_begin;
*hdrvaluelen = 0u;
*hdrnameaddr = NULL;
*hdrvalueaddr = NULL;
/* Search for the header */
hdr_begin = dumb_memmem(pktdata, pktlen,
hdrname, strlen(hdrname));
if (!hdr_begin) return FALSE;
if (pktdata > hdr_begin) return FALSE;
/* Set header address */
*hdrnameaddr = hdr_begin;
*hdrvalueaddr = hdr_begin + strlen(hdrname);
/* Search for header end (\r\n) */
data_addr_rn = dumb_memmem(*hdrvalueaddr,
pktlen - (uintptr_t)(*hdrvalueaddr - pktdata),
"\r\n", 2);
if (data_addr_rn) {
*hdrvaluelen = (uintptr_t)(data_addr_rn - *hdrvalueaddr);
if (*hdrvaluelen >= 3 && *hdrvaluelen <= HOST_MAXLEN)
return TRUE;
}
return FALSE;
}
/**
* Very crude Server Name Indication (TLS ClientHello hostname) extractor.
*/
static int extract_sni(const char *pktdata, unsigned int pktlen,
char **hostnameaddr, unsigned int *hostnamelen) {
unsigned int ptr = 0;
unsigned const char *d = (unsigned const char *)pktdata;
unsigned const char *hnaddr = 0;
int hnlen = 0;
while (ptr + 8 < pktlen) {
/* Search for specific Extensions sequence */
if (d[ptr] == '\0' && d[ptr+1] == '\0' && d[ptr+2] == '\0' &&
d[ptr+4] == '\0' && d[ptr+6] == '\0' && d[ptr+7] == '\0' &&
/* Check Extension length, Server Name list length
* and Server Name length relations
*/
d[ptr+3] - d[ptr+5] == 2 && d[ptr+5] - d[ptr+8] == 3)
{
if (ptr + 8 + d[ptr+8] > pktlen) {
return FALSE;
}
hnaddr = &d[ptr+9];
hnlen = d[ptr+8];
/* Limit hostname size up to 253 bytes */
if (hnlen < 3 || hnlen > HOST_MAXLEN) {
return FALSE;
}
/* Validate that hostname has only ascii lowercase characters */
for (int i=0; i<hnlen; i++) {
if (!( (hnaddr[i] >= '0' && hnaddr[i] <= '9') ||
(hnaddr[i] >= 'a' && hnaddr[i] <= 'z') ||
hnaddr[i] == '.' || hnaddr[i] == '-'))
{
return FALSE;
}
}
*hostnameaddr = (char*)hnaddr;
*hostnamelen = (unsigned int)hnlen;
return TRUE;
}
ptr++;
}
return FALSE;
}
static inline void change_window_size(const PWINDIVERT_TCPHDR ppTcpHdr, unsigned int size) {
if (size >= 1 && size <= 0xFFFFu) {
ppTcpHdr->Window = htons((u_short)size);
}
}
/* HTTP method end without trailing space */
static PVOID find_http_method_end(const char *pkt, unsigned int http_frag, int *is_fragmented) {
unsigned int i;
for (i = 0; i<(sizeof(http_methods) / sizeof(*http_methods)); i++) {
if (memcmp(pkt, http_methods[i], strlen(http_methods[i])) == 0) {
if (is_fragmented)
*is_fragmented = 0;
return (char*)pkt + strlen(http_methods[i]) - 1;
}
/* Try to find HTTP method in a second part of fragmented packet */
if ((http_frag == 1 || http_frag == 2) &&
memcmp(pkt, http_methods[i] + http_frag,
strlen(http_methods[i]) - http_frag) == 0
)
{
if (is_fragmented)
*is_fragmented = 1;
return (char*)pkt + strlen(http_methods[i]) - http_frag - 1;
}
}
return NULL;
}
/** Fragment and send the packet.
*
* This function cuts off the end of the packet (step=0) or
* the beginning of the packet (step=1) with fragment_size bytes.
*/
static void send_native_fragment(HANDLE w_filter, WINDIVERT_ADDRESS addr,
char *packet, UINT packetLen, PVOID packet_data,
UINT packet_dataLen, int packet_v4, int packet_v6,
PWINDIVERT_IPHDR ppIpHdr, PWINDIVERT_IPV6HDR ppIpV6Hdr,
PWINDIVERT_TCPHDR ppTcpHdr,
unsigned int fragment_size, int step) {
char packet_bak[MAX_PACKET_SIZE];
memcpy(packet_bak, packet, packetLen);
UINT orig_packetLen = packetLen;
if (fragment_size >= packet_dataLen) {
if (step == 1)
fragment_size = 0;
else
return;
}
if (step == 0) {
if (packet_v4)
ppIpHdr->Length = htons(
ntohs(ppIpHdr->Length) -
packet_dataLen + fragment_size
);
else if (packet_v6)
ppIpV6Hdr->Length = htons(
ntohs(ppIpV6Hdr->Length) -
packet_dataLen + fragment_size
);
//printf("step0 (%d:%d), pp:%d, was:%d, now:%d\n",
// packet_v4, packet_v6, ntohs(ppIpHdr->Length),
// packetLen, packetLen - packet_dataLen + fragment_size);
packetLen = packetLen - packet_dataLen + fragment_size;
}
else if (step == 1) {
if (packet_v4)
ppIpHdr->Length = htons(
ntohs(ppIpHdr->Length) - fragment_size
);
else if (packet_v6)
ppIpV6Hdr->Length = htons(
ntohs(ppIpV6Hdr->Length) - fragment_size
);
//printf("step1 (%d:%d), pp:%d, was:%d, now:%d\n", packet_v4, packet_v6, ntohs(ppIpHdr->Length),
// packetLen, packetLen - fragment_size);
memmove(packet_data,
(char*)packet_data + fragment_size,
packet_dataLen - fragment_size);
packetLen -= fragment_size;
ppTcpHdr->SeqNum = htonl(ntohl(ppTcpHdr->SeqNum) + fragment_size);
}
addr.IPChecksum = 0;
addr.TCPChecksum = 0;
WinDivertHelperCalcChecksums(
packet, packetLen, &addr, 0
);
WinDivertSend(
w_filter, packet,
packetLen,
NULL, &addr
);
memcpy(packet, packet_bak, orig_packetLen);
//printf("Sent native fragment of %d size (step%d)\n", packetLen, step);
}
int main(int argc, char *argv[]) {
static enum packet_type_e {
unknown,
ipv4_tcp, ipv4_tcp_data, ipv4_udp_data,
ipv6_tcp, ipv6_tcp_data, ipv6_udp_data
} packet_type;
int i, should_reinject, should_recalc_checksum = 0;
int sni_ok = 0;
int opt;
int packet_v4, packet_v6;
HANDLE w_filter = NULL;
WINDIVERT_ADDRESS addr;
char packet[MAX_PACKET_SIZE];
PVOID packet_data;
UINT packetLen;
UINT packet_dataLen;
PWINDIVERT_IPHDR ppIpHdr;
PWINDIVERT_IPV6HDR ppIpV6Hdr;
PWINDIVERT_TCPHDR ppTcpHdr;
PWINDIVERT_UDPHDR ppUdpHdr;
conntrack_info_t dns_conn_info;
tcp_conntrack_info_t tcp_conn_info;
int do_passivedpi = 0, do_fragment_http = 0,
do_fragment_http_persistent = 0,
do_fragment_http_persistent_nowait = 0,
do_fragment_https = 0, do_host = 0,
do_host_removespace = 0, do_additional_space = 0,
do_http_allports = 0,
do_host_mixedcase = 0,
do_dnsv4_redirect = 0, do_dnsv6_redirect = 0,
do_dns_verb = 0, do_tcp_verb = 0, do_blacklist = 0,
do_allow_no_sni = 0,
do_fake_packet = 0,
do_auto_ttl = 0,
do_wrong_chksum = 0,
do_wrong_seq = 0,
do_native_frag = 0, do_reverse_frag = 0;
unsigned int http_fragment_size = 0;
unsigned int https_fragment_size = 0;
unsigned int current_fragment_size = 0;
unsigned short max_payload_size = 0;
BYTE should_send_fake = 0;
BYTE ttl_of_fake_packet = 0;
BYTE ttl_min_nhops = 0;
BYTE auto_ttl_1 = 0;
BYTE auto_ttl_2 = 0;
BYTE auto_ttl_max = 0;
uint32_t dnsv4_addr = 0;
struct in6_addr dnsv6_addr = {0};
struct in6_addr dns_temp_addr = {0};
uint16_t dnsv4_port = htons(53);
uint16_t dnsv6_port = htons(53);
char *host_addr, *useragent_addr, *method_addr;
unsigned int host_len, useragent_len;
int http_req_fragmented;
char *hdr_name_addr = NULL, *hdr_value_addr = NULL;
unsigned int hdr_value_len;
// Make sure to search DLLs only in safe path, not in current working dir.
SetDllDirectory("");
SetSearchPathMode(BASE_SEARCH_PATH_ENABLE_SAFE_SEARCHMODE | BASE_SEARCH_PATH_PERMANENT);
if (!running_from_service) {
running_from_service = 1;
if (service_register(argc, argv)) {
/* We've been called as a service. Register service
* and exit this thread. main() would be called from
* service.c next time.
*
* Note that if service_register() succeedes it does
* not return until the service is stopped.
* That is why we should set running_from_service
* before calling service_register and unset it
* afterwards.
*/
return 0;
}
running_from_service = 0;
}
if (filter_string == NULL)
filter_string = strdup(FILTER_STRING_TEMPLATE);
if (filter_passive_string == NULL)
filter_passive_string = strdup(FILTER_PASSIVE_STRING_TEMPLATE);
printf(
"GoodbyeDPI " GOODBYEDPI_VERSION
": Passive DPI blocker and Active DPI circumvention utility\n"
"https://github.com/ValdikSS/GoodbyeDPI\n\n"
);
if (argc == 1) {
/* enable mode -5 by default */
do_fragment_http = do_fragment_https = 1;
do_reverse_frag = do_native_frag = 1;
http_fragment_size = https_fragment_size = 2;
do_fragment_http_persistent = do_fragment_http_persistent_nowait = 1;
do_fake_packet = 1;
do_auto_ttl = 1;
max_payload_size = 1200;
}
while ((opt = getopt_long(argc, argv, "123456prsaf:e:mwk:n", long_options, NULL)) != -1) {
switch (opt) {
case '1':
do_passivedpi = do_host = do_host_removespace \
= do_fragment_http = do_fragment_https \
= do_fragment_http_persistent \
= do_fragment_http_persistent_nowait = 1;
break;
case '2':
do_passivedpi = do_host = do_host_removespace \
= do_fragment_http = do_fragment_https \
= do_fragment_http_persistent \
= do_fragment_http_persistent_nowait = 1;
https_fragment_size = 40u;
break;
case '3':
do_passivedpi = do_host = do_host_removespace \
= do_fragment_https = 1;
https_fragment_size = 40u;
break;
case '4':
do_passivedpi = do_host = do_host_removespace = 1;
break;
case '5':
do_fragment_http = do_fragment_https = 1;
do_reverse_frag = do_native_frag = 1;
http_fragment_size = https_fragment_size = 2;
do_fragment_http_persistent = do_fragment_http_persistent_nowait = 1;
do_fake_packet = 1;
do_auto_ttl = 1;
max_payload_size = 1200;
break;
case '6':
do_fragment_http = do_fragment_https = 1;
do_reverse_frag = do_native_frag = 1;
http_fragment_size = https_fragment_size = 2;
do_fragment_http_persistent = do_fragment_http_persistent_nowait = 1;
do_fake_packet = 1;
do_wrong_seq = 1;
max_payload_size = 1200;
break;
case 'p':
do_passivedpi = 1;
break;
case 'r':
do_host = 1;
break;
case 's':
do_host_removespace = 1;
break;
case 'a':
do_additional_space = 1;
do_host_removespace = 1;
break;
case 'm':
do_host_mixedcase = 1;
break;
case 'f':
do_fragment_http = 1;
SET_HTTP_FRAGMENT_SIZE_OPTION(atousi(optarg, "Fragment size should be in range [0 - 0xFFFF]\n"));
break;
case 'k':
do_fragment_http_persistent = 1;
do_native_frag = 1;
SET_HTTP_FRAGMENT_SIZE_OPTION(atousi(optarg, "Fragment size should be in range [0 - 0xFFFF]\n"));
break;
case 'n':
do_fragment_http_persistent = 1;
do_fragment_http_persistent_nowait = 1;
do_native_frag = 1;
break;
case 'e':
do_fragment_https = 1;
https_fragment_size = atousi(optarg, "Fragment size should be in range [0 - 65535]\n");
break;
case 'w':
do_http_allports = 1;
break;
case 'z': // --port
/* i is used as a temporary variable here */
i = atoi(optarg);
if (i <= 0 || i > 65535) {
printf("Port parameter error!\n");
exit(EXIT_FAILURE);
}
if (i != 80 && i != 443)
add_filter_str(IPPROTO_TCP, i);
i = 0;
break;
case 'i': // --ip-id
/* i is used as a temporary variable here */
i = atousi(optarg, "IP ID parameter error!\n");
add_ip_id_str(i);
i = 0;
break;
case 'd': // --dns-addr
if ((inet_pton(AF_INET, optarg, dns_temp_addr.s6_addr) == 1) &&
!do_dnsv4_redirect)
{
do_dnsv4_redirect = 1;
if (inet_pton(AF_INET, optarg, &dnsv4_addr) != 1) {
puts("DNS address parameter error!");
exit(EXIT_FAILURE);
}
add_filter_str(IPPROTO_UDP, 53);
flush_dns_cache();
break;
}
puts("DNS address parameter error!");
exit(EXIT_FAILURE);
break;
case '!': // --dnsv6-addr
if ((inet_pton(AF_INET6, optarg, dns_temp_addr.s6_addr) == 1) &&
!do_dnsv6_redirect)
{
do_dnsv6_redirect = 1;
if (inet_pton(AF_INET6, optarg, dnsv6_addr.s6_addr) != 1) {
puts("DNS address parameter error!");
exit(EXIT_FAILURE);
}
add_filter_str(IPPROTO_UDP, 53);
flush_dns_cache();
break;
}
puts("DNS address parameter error!");
exit(EXIT_FAILURE);
break;
case 'g': // --dns-port
if (!do_dnsv4_redirect) {
puts("--dns-port should be used with --dns-addr!\n"
"Make sure you use --dns-addr and pass it before "
"--dns-port");
exit(EXIT_FAILURE);
}
dnsv4_port = atousi(optarg, "DNS port parameter error!");
if (dnsv4_port != 53) {
add_filter_str(IPPROTO_UDP, dnsv4_port);
}
dnsv4_port = htons(dnsv4_port);
break;
case '@': // --dnsv6-port
if (!do_dnsv6_redirect) {
puts("--dnsv6-port should be used with --dnsv6-addr!\n"
"Make sure you use --dnsv6-addr and pass it before "
"--dnsv6-port");
exit(EXIT_FAILURE);
}
dnsv6_port = atousi(optarg, "DNS port parameter error!");
if (dnsv6_port != 53) {
add_filter_str(IPPROTO_UDP, dnsv6_port);
}
dnsv6_port = htons(dnsv6_port);
break;
case 'v':
do_dns_verb = 1;
do_tcp_verb = 1;
break;
case 'b': // --blacklist
do_blacklist = 1;
if (!blackwhitelist_load_list(optarg)) {
printf("Can't load blacklist from file!\n");
exit(EXIT_FAILURE);
}
break;
case ']': // --allow-no-sni
do_allow_no_sni = 1;
break;
case '$': // --set-ttl
do_auto_ttl = auto_ttl_1 = auto_ttl_2 = auto_ttl_max = 0;
do_fake_packet = 1;
ttl_of_fake_packet = atoub(optarg, "Set TTL parameter error!");
break;
case '[': // --min-ttl
do_fake_packet = 1;
ttl_min_nhops = atoub(optarg, "Set Minimum TTL number of hops parameter error!");
break;
case '+': // --auto-ttl
do_fake_packet = 1;
do_auto_ttl = 1;
if (!optarg && argv[optind] && argv[optind][0] != '-')
optarg = argv[optind];
if (optarg) {
char *autottl_copy = strdup(optarg);
if (strchr(autottl_copy, '-')) {
// token "-" found, start X-Y parser
char *autottl_current = strtok(autottl_copy, "-");
auto_ttl_1 = atoub(autottl_current, "Set Auto TTL parameter error!");
autottl_current = strtok(NULL, "-");
if (!autottl_current) {
puts("Set Auto TTL parameter error!");
exit(EXIT_FAILURE);
}
auto_ttl_2 = atoub(autottl_current, "Set Auto TTL parameter error!");
autottl_current = strtok(NULL, "-");
if (!autottl_current) {
puts("Set Auto TTL parameter error!");
exit(EXIT_FAILURE);
}
auto_ttl_max = atoub(autottl_current, "Set Auto TTL parameter error!");
}
else {
// single digit parser
auto_ttl_2 = atoub(optarg, "Set Auto TTL parameter error!");
auto_ttl_1 = auto_ttl_2;
}
free(autottl_copy);
}
break;
case '%': // --wrong-chksum
do_fake_packet = 1;
do_wrong_chksum = 1;
break;
case ')': // --wrong-seq
do_fake_packet = 1;
do_wrong_seq = 1;
break;
case '*': // --native-frag
do_native_frag = 1;
do_fragment_http_persistent = 1;
do_fragment_http_persistent_nowait = 1;
break;
case '(': // --reverse-frag
do_reverse_frag = 1;
do_native_frag = 1;
do_fragment_http_persistent = 1;
do_fragment_http_persistent_nowait = 1;
break;
case '|': // --max-payload
if (!optarg && argv[optind] && argv[optind][0] != '-')
optarg = argv[optind];
if (optarg)
max_payload_size = atousi(optarg, "Max payload size parameter error!");
else
max_payload_size = 1200;
break;
default:
puts("Usage: goodbyedpi.exe [OPTION...]\n"
" -p block passive DPI\n"
" -r replace Host with hoSt\n"
" -s remove space between host header and its value\n"
" -a additional space between Method and Request-URI (enables -s, may break sites)\n"
" -m mix Host header case (test.com -> tEsT.cOm)\n"
" -f <value> set HTTP fragmentation to value\n"
" -k <value> enable HTTP persistent (keep-alive) fragmentation and set it to value\n"
" -n do not wait for first segment ACK when -k is enabled\n"
" -e <value> set HTTPS fragmentation to value\n"
" -w try to find and parse HTTP traffic on all processed ports (not only on port 80)\n"
" --port <value> additional TCP port to perform fragmentation on (and HTTP tricks with -w)\n"
" --ip-id <value> handle additional IP ID (decimal, drop redirects and TCP RSTs with this ID).\n"
" --dns-addr <value> redirect UDPv4 DNS requests to the supplied IPv4 address (experimental)\n"
" --dns-port <value> redirect UDPv4 DNS requests to the supplied port (53 by default)\n"
" --dnsv6-addr <value> redirect UDPv6 DNS requests to the supplied IPv6 address (experimental)\n"
" --dnsv6-port <value> redirect UDPv6 DNS requests to the supplied port (53 by default)\n"
" --dns-verb print verbose DNS redirection messages\n"
" --blacklist <txtfile> perform circumvention tricks only to host names and subdomains from\n"
" supplied text file (HTTP Host/TLS SNI).\n"
" This option can be supplied multiple times.\n"
" --allow-no-sni perform circumvention if TLS SNI can't be detected with --blacklist enabled.\n"
" --set-ttl <value> activate Fake Request Mode and send it with supplied TTL value.\n"
" DANGEROUS! May break websites in unexpected ways. Use with care (or --blacklist).\n"
" --auto-ttl [a1-a2-m] activate Fake Request Mode, automatically detect TTL and decrease\n"
" it based on a distance. If the distance is shorter than a2, TTL is decreased\n"
" by a2. If it's longer, (a1; a2) scale is used with the distance as a weight.\n"
" If the resulting TTL is more than m(ax), set it to m.\n"
" Default (if set): --auto-ttl 1-4-10. Also sets --min-ttl 3.\n"
" DANGEROUS! May break websites in unexpected ways. Use with care (or --blacklist).\n"
" --min-ttl <value> minimum TTL distance (128/64 - TTL) for which to send Fake Request\n"
" in --set-ttl and --auto-ttl modes.\n"
" --wrong-chksum activate Fake Request Mode and send it with incorrect TCP checksum.\n"
" May not work in a VM or with some routers, but is safer than set-ttl.\n"
" Could be combined with --set-ttl\n"
" --wrong-seq activate Fake Request Mode and send it with TCP SEQ/ACK in the past.\n"
" --native-frag fragment (split) the packets by sending them in smaller packets, without\n"
" shrinking the Window Size. Works faster (does not slow down the connection)\n"
" and better.\n"
" --reverse-frag fragment (split) the packets just as --native-frag, but send them in the\n"
" reversed order. Works with the websites which could not handle segmented\n"
" HTTPS TLS ClientHello (because they receive the TCP flow \"combined\").\n"
" --max-payload [value] packets with TCP payload data more than [value] won't be processed.\n"
" Use this option to reduce CPU usage by skipping huge amount of data\n"
" (like file transfers) in already established sessions.\n"
" May skip some huge HTTP requests from being processed.\n"
" Default (if set): --max-payload 1200.\n"
"\n");
puts("LEGACY modesets:\n"
" -1 -p -r -s -f 2 -k 2 -n -e 2 (most compatible mode)\n"
" -2 -p -r -s -f 2 -k 2 -n -e 40 (better speed for HTTPS yet still compatible)\n"
" -3 -p -r -s -e 40 (better speed for HTTP and HTTPS)\n"
" -4 -p -r -s (best speed)"
"\n"
"Modern modesets (more stable, more compatible, faster):\n"
" -5 -f 2 -e 2 --auto-ttl --reverse-frag --max-payload (this is the default)\n"
" -6 -f 2 -e 2 --wrong-seq --reverse-frag --max-payload\n");
exit(EXIT_FAILURE);
}
}
if (!http_fragment_size)
http_fragment_size = 2;
if (!https_fragment_size)
https_fragment_size = 2;
if (!auto_ttl_1)
auto_ttl_1 = 1;
if (!auto_ttl_2)
auto_ttl_2 = 4;
if (do_auto_ttl) {
if (!ttl_min_nhops)
ttl_min_nhops = 3;
if (!auto_ttl_max)
auto_ttl_max = 10;
}
printf("Block passive: %d\n" /* 1 */
"Fragment HTTP: %u\n" /* 2 */
"Fragment persistent HTTP: %u\n" /* 3 */
"Fragment HTTPS: %u\n" /* 4 */
"Native fragmentation (splitting): %d\n" /* 5 */
"Fragments sending in reverse: %d\n" /* 6 */
"hoSt: %d\n" /* 7 */
"Host no space: %d\n" /* 8 */
"Additional space: %d\n" /* 9 */
"Mix Host: %d\n" /* 10 */
"HTTP AllPorts: %d\n" /* 11 */
"HTTP Persistent Nowait: %d\n" /* 12 */
"DNS redirect: %d\n" /* 13 */
"DNSv6 redirect: %d\n" /* 14 */
"Allow missing SNI: %d\n" /* 15 */
"Fake requests, TTL: %s (fixed: %hu, auto: %hu-%hu-%hu, min distance: %hu)\n" /* 16 */
"Fake requests, wrong checksum: %d\n" /* 17 */
"Fake requests, wrong SEQ/ACK: %d\n" /* 18 */
"Max payload size: %hu\n", /* 19 */
do_passivedpi, /* 1 */
(do_fragment_http ? http_fragment_size : 0), /* 2 */
(do_fragment_http_persistent ? http_fragment_size : 0),/* 3 */
(do_fragment_https ? https_fragment_size : 0), /* 4 */
do_native_frag, /* 5 */
do_reverse_frag, /* 6 */
do_host, /* 7 */
do_host_removespace, /* 8 */
do_additional_space, /* 9 */
do_host_mixedcase, /* 10 */
do_http_allports, /* 11 */
do_fragment_http_persistent_nowait, /* 12 */
do_dnsv4_redirect, /* 13 */
do_dnsv6_redirect, /* 14 */
do_allow_no_sni, /* 15 */
do_auto_ttl ? "auto" : (do_fake_packet ? "fixed" : "disabled"), /* 16 */
ttl_of_fake_packet, do_auto_ttl ? auto_ttl_1 : 0, do_auto_ttl ? auto_ttl_2 : 0,
do_auto_ttl ? auto_ttl_max : 0, ttl_min_nhops,
do_wrong_chksum, /* 17 */
do_wrong_seq, /* 18 */
max_payload_size /* 19 */
);
if (do_fragment_http && http_fragment_size > 2 && !do_native_frag) {
puts("\nWARNING: HTTP fragmentation values > 2 are not fully compatible "
"with other options. Please use values <= 2 or disable HTTP fragmentation "
"completely.");
}
if (do_native_frag && !(do_fragment_http || do_fragment_https)) {
puts("\nERROR: Native fragmentation is enabled but fragment sizes are not set.\n"
"Fragmentation has no effect.");
die();
}
if (max_payload_size)
add_maxpayloadsize_str(max_payload_size);
finalize_filter_strings();
puts("\nOpening filter");
filter_num = 0;
if (do_passivedpi) {
/* IPv4 only filter for inbound RST packets with ID [0x0; 0xF] */
filters[filter_num] = init(
filter_passive_string,
WINDIVERT_FLAG_DROP);
if (filters[filter_num] == NULL)
die();
filter_num++;
}
/*
* IPv4 & IPv6 filter for inbound HTTP redirection packets and
* active DPI circumvention
*/
filters[filter_num] = init(filter_string, 0);
w_filter = filters[filter_num];
filter_num++;
for (i = 0; i < filter_num; i++) {
if (filters[i] == NULL)
die();
}
printf("Filter activated, GoodbyeDPI is now running!\n");
signal(SIGINT, sigint_handler);
while (1) {
if (WinDivertRecv(w_filter, packet, sizeof(packet), &packetLen, &addr)) {
debug("Got %s packet, len=%d!\n", addr.Outbound ? "outbound" : "inbound",
packetLen);
should_reinject = 1;
should_recalc_checksum = 0;
ppIpHdr = (PWINDIVERT_IPHDR)NULL;
ppIpV6Hdr = (PWINDIVERT_IPV6HDR)NULL;
ppTcpHdr = (PWINDIVERT_TCPHDR)NULL;
ppUdpHdr = (PWINDIVERT_UDPHDR)NULL;
packet_v4 = packet_v6 = 0;
packet_type = unknown;
// Parse network packet and set it's type
if (WinDivertHelperParsePacket(packet, packetLen, &ppIpHdr,
&ppIpV6Hdr, NULL, NULL, NULL, &ppTcpHdr, &ppUdpHdr, &packet_data, &packet_dataLen,
NULL, NULL))
{
if (ppIpHdr) {
packet_v4 = 1;
if (ppTcpHdr) {
packet_type = ipv4_tcp;
if (packet_data) {
packet_type = ipv4_tcp_data;
}
}
else if (ppUdpHdr && packet_data) {
packet_type = ipv4_udp_data;
}
}
else if (ppIpV6Hdr) {
packet_v6 = 1;
if (ppTcpHdr) {
packet_type = ipv6_tcp;
if (packet_data) {
packet_type = ipv6_tcp_data;
}
}
else if (ppUdpHdr && packet_data) {
packet_type = ipv6_udp_data;
}
}
}
debug("packet_type: %d, packet_v4: %d, packet_v6: %d\n", packet_type, packet_v4, packet_v6);
if (packet_type == ipv4_tcp_data || packet_type == ipv6_tcp_data) {
//printf("Got parsed packet, len=%d!\n", packet_dataLen);
/* Got a TCP packet WITH DATA */
/* Handle INBOUND packet with data and find HTTP REDIRECT in there */
if (!addr.Outbound && packet_dataLen > 16) {
/* If INBOUND packet with DATA (tcp.Ack) */
/* Drop packets from filter with HTTP 30x Redirect */
if (do_passivedpi && is_passivedpi_redirect(packet_data, packet_dataLen)) {
if (packet_v4) {
//printf("Dropping HTTP Redirect packet!\n");
should_reinject = 0;
}
else if (packet_v6 && WINDIVERT_IPV6HDR_GET_FLOWLABEL(ppIpV6Hdr) == 0x0) {
/* Contrary to IPv4 where we get only packets with IP ID 0x0-0xF,
* for IPv6 we got all the incoming data packets since we can't
* filter them in a driver.
*
* Handle only IPv6 Flow Label == 0x0 for now
*/
//printf("Dropping HTTP Redirect packet!\n");
should_reinject = 0;
}
}
}
/* Handle OUTBOUND packet on port 443, search for something that resembles
* TLS handshake, send fake request.
*/
else if (addr.Outbound &&
((do_fragment_https ? packet_dataLen == https_fragment_size : 0) ||
packet_dataLen > 16) &&
ppTcpHdr->DstPort != htons(80) &&
(do_fake_packet || do_native_frag)
)
{
/**
* In case of Window Size fragmentation=2, we'll receive only 2 byte packet.
* But if the packet is more than 2 bytes, check ClientHello byte.
*/
if ((packet_dataLen == 2 && memcmp(packet_data, "\x16\x03", 2) == 0) ||
(packet_dataLen >= 3 && memcmp(packet_data, "\x16\x03\x01", 3) == 0))
{
if (do_blacklist) {
sni_ok = extract_sni(packet_data, packet_dataLen,
&host_addr, &host_len);
}
if (
(do_blacklist && sni_ok &&
blackwhitelist_check_hostname(host_addr, host_len)
) ||
(do_blacklist && !sni_ok && do_allow_no_sni) ||
(!do_blacklist)
)
{
#ifdef DEBUG
char lsni[HOST_MAXLEN + 1] = {0};
extract_sni(packet_data, packet_dataLen,
&host_addr, &host_len);
memcpy(lsni, host_addr, host_len);
printf("Blocked HTTPS website SNI: %s\n", lsni);
#endif
if (do_fake_packet) {
TCP_HANDLE_OUTGOING_FAKE_PACKET(send_fake_https_request);
}
if (do_native_frag) {
// Signal for native fragmentation code handler
should_recalc_checksum = 1;
}
}
}
}
/* Handle OUTBOUND packet on port 80, search for Host header */
else if (addr.Outbound &&
packet_dataLen > 16 &&
(do_http_allports ? 1 : (ppTcpHdr->DstPort == htons(80))) &&
find_http_method_end(packet_data,
(do_fragment_http ? http_fragment_size : 0u),
&http_req_fragmented) &&
(do_host || do_host_removespace ||
do_host_mixedcase || do_fragment_http_persistent ||
do_fake_packet))
{
/* Find Host header */
if (find_header_and_get_info(packet_data, packet_dataLen,
http_host_find, &hdr_name_addr, &hdr_value_addr, &hdr_value_len) &&
hdr_value_len > 0 && hdr_value_len <= HOST_MAXLEN &&
(do_blacklist ? blackwhitelist_check_hostname(hdr_value_addr, hdr_value_len) : 1))
{
host_addr = hdr_value_addr;
host_len = hdr_value_len;
#ifdef DEBUG
char lhost[HOST_MAXLEN + 1] = {0};
memcpy(lhost, host_addr, host_len);
printf("Blocked HTTP website Host: %s\n", lhost);
#endif
if (do_native_frag) {
// Signal for native fragmentation code handler
should_recalc_checksum = 1;
}
if (do_fake_packet) {
TCP_HANDLE_OUTGOING_FAKE_PACKET(send_fake_http_request);
}
if (do_host_mixedcase) {
mix_case(host_addr, host_len);
should_recalc_checksum = 1;
}
if (do_host) {
/* Replace "Host: " with "hoSt: " */
memcpy(hdr_name_addr, http_host_replace, strlen(http_host_replace));
should_recalc_checksum = 1;
//printf("Replaced Host header!\n");
}
/* If removing space between host header and its value
* and adding additional space between Method and Request-URI */
if (do_additional_space && do_host_removespace) {
/* End of "Host:" without trailing space */
method_addr = find_http_method_end(packet_data,
(do_fragment_http ? http_fragment_size : 0),
NULL);
if (method_addr) {
memmove(method_addr + 1, method_addr,
(size_t)(host_addr - method_addr - 1));
should_recalc_checksum = 1;
}
}
/* If just removing space between host header and its value */
else if (do_host_removespace) {
if (find_header_and_get_info(packet_data, packet_dataLen,
http_useragent_find, &hdr_name_addr,
&hdr_value_addr, &hdr_value_len))
{
useragent_addr = hdr_value_addr;
useragent_len = hdr_value_len;
/* We move Host header value by one byte to the left and then
* "insert" stolen space to the end of User-Agent value because
* some web servers are not tolerant to additional space in the
* end of Host header.
*
* Nothing is done if User-Agent header is missing.
*/
if (useragent_addr && useragent_len > 0) {
/* useragent_addr is in the beginning of User-Agent value */
if (useragent_addr > host_addr) {
/* Move one byte to the LEFT from "Host:"
* to the end of User-Agent
*/
memmove(host_addr - 1, host_addr,
(size_t)(useragent_addr + useragent_len - host_addr));
host_addr -= 1;
/* Put space in the end of User-Agent header */
*(char*)((unsigned char*)useragent_addr + useragent_len - 1) = ' ';
should_recalc_checksum = 1;
//printf("Replaced Host header!\n");
}
else {
/* User-Agent goes BEFORE Host header */
/* Move one byte to the RIGHT from the end of User-Agent
* to the "Host:"
*/
memmove(useragent_addr + useragent_len + 1,
useragent_addr + useragent_len,
(size_t)(host_addr - 1 - (useragent_addr + useragent_len)));
/* Put space in the end of User-Agent header */
*(char*)((unsigned char*)useragent_addr + useragent_len) = ' ';
should_recalc_checksum = 1;
//printf("Replaced Host header!\n");
}
} /* if (host_len <= HOST_MAXLEN && useragent_addr) */
} /* if (find_header_and_get_info http_useragent) */
} /* else if (do_host_removespace) */
} /* if (find_header_and_get_info http_host) */
} /* Handle OUTBOUND packet with data */
/*
* should_recalc_checksum mean we have detected a packet to handle and
* modified it in some way.
* Handle native fragmentation here, incl. sending the packet.
*/
if (should_reinject && should_recalc_checksum && do_native_frag)
{
current_fragment_size = 0;
if (do_fragment_http && ppTcpHdr->DstPort == htons(80)) {
current_fragment_size = http_fragment_size;
}
else if (do_fragment_https && ppTcpHdr->DstPort != htons(80)) {
current_fragment_size = https_fragment_size;
}
if (current_fragment_size) {
send_native_fragment(w_filter, addr, packet, packetLen, packet_data,
packet_dataLen,packet_v4, packet_v6,
ppIpHdr, ppIpV6Hdr, ppTcpHdr,
current_fragment_size, do_reverse_frag);
send_native_fragment(w_filter, addr, packet, packetLen, packet_data,
packet_dataLen,packet_v4, packet_v6,
ppIpHdr, ppIpV6Hdr, ppTcpHdr,
current_fragment_size, !do_reverse_frag);
continue;
}
}
} /* Handle TCP packet with data */
/* Else if we got TCP packet without data */
else if (packet_type == ipv4_tcp || packet_type == ipv6_tcp) {
/* If we got INBOUND SYN+ACK packet */
if (!addr.Outbound &&
ppTcpHdr->Syn == 1 && ppTcpHdr->Ack == 1) {
//printf("Changing Window Size!\n");
/*
* Window Size is changed even if do_fragment_http_persistent
* is enabled as there could be non-HTTP data on port 80
*/
if (do_fake_packet && (do_auto_ttl || ttl_min_nhops)) {
if (!((packet_v4 && tcp_handle_incoming(&ppIpHdr->SrcAddr, &ppIpHdr->DstAddr,
ppTcpHdr->SrcPort, ppTcpHdr->DstPort,
0, ppIpHdr->TTL))
||
(packet_v6 && tcp_handle_incoming((uint32_t*)&ppIpV6Hdr->SrcAddr,
(uint32_t*)&ppIpV6Hdr->DstAddr,
ppTcpHdr->SrcPort, ppTcpHdr->DstPort,
1, ppIpV6Hdr->HopLimit))))
{
if (do_tcp_verb)
puts("[TCP WARN] Can't add TCP connection record.");
}
}
if (!do_native_frag) {
if (do_fragment_http && ppTcpHdr->SrcPort == htons(80)) {
change_window_size(ppTcpHdr, http_fragment_size);
should_recalc_checksum = 1;
}
else if (do_fragment_https && ppTcpHdr->SrcPort != htons(80)) {
change_window_size(ppTcpHdr, https_fragment_size);
should_recalc_checksum = 1;
}
}
}
}
/* Else if we got UDP packet with data */
else if ((do_dnsv4_redirect && (packet_type == ipv4_udp_data)) ||
(do_dnsv6_redirect && (packet_type == ipv6_udp_data)))
{
if (!addr.Outbound) {
if ((packet_v4 && dns_handle_incoming(&ppIpHdr->DstAddr, ppUdpHdr->DstPort,
packet_data, packet_dataLen,
&dns_conn_info, 0))
||
(packet_v6 && dns_handle_incoming(ppIpV6Hdr->DstAddr, ppUdpHdr->DstPort,
packet_data, packet_dataLen,
&dns_conn_info, 1)))
{
/* Changing source IP and port to the values
* from DNS conntrack */
if (packet_v4)
ppIpHdr->SrcAddr = dns_conn_info.dstip[0];
else if (packet_v6)
ipv6_copy_addr(ppIpV6Hdr->SrcAddr, dns_conn_info.dstip);
ppUdpHdr->DstPort = dns_conn_info.srcport;
ppUdpHdr->SrcPort = dns_conn_info.dstport;
should_recalc_checksum = 1;
}
else {
if (dns_is_dns_packet(packet_data, packet_dataLen, 0))
should_reinject = 0;
if (do_dns_verb && !should_reinject) {
printf("[DNS] Error handling incoming packet: srcport = %hu, dstport = %hu\n",
ntohs(ppUdpHdr->SrcPort), ntohs(ppUdpHdr->DstPort));
}
}
}
else if (addr.Outbound) {
if ((packet_v4 && dns_handle_outgoing(&ppIpHdr->SrcAddr, ppUdpHdr->SrcPort,
&ppIpHdr->DstAddr, ppUdpHdr->DstPort,
packet_data, packet_dataLen, 0))
||
(packet_v6 && dns_handle_outgoing(ppIpV6Hdr->SrcAddr, ppUdpHdr->SrcPort,
ppIpV6Hdr->DstAddr, ppUdpHdr->DstPort,
packet_data, packet_dataLen, 1)))
{
/* Changing destination IP and port to the values
* from configuration */
if (packet_v4) {
ppIpHdr->DstAddr = dnsv4_addr;
ppUdpHdr->DstPort = dnsv4_port;
}
else if (packet_v6) {
ipv6_copy_addr(ppIpV6Hdr->DstAddr, (uint32_t*)dnsv6_addr.s6_addr);
ppUdpHdr->DstPort = dnsv6_port;
}
should_recalc_checksum = 1;
}
else {
if (dns_is_dns_packet(packet_data, packet_dataLen, 1))
should_reinject = 0;
if (do_dns_verb && !should_reinject) {
printf("[DNS] Error handling outgoing packet: srcport = %hu, dstport = %hu\n",
ntohs(ppUdpHdr->SrcPort), ntohs(ppUdpHdr->DstPort));
}
}
}
}
if (should_reinject) {
//printf("Re-injecting!\n");
if (should_recalc_checksum) {
WinDivertHelperCalcChecksums(packet, packetLen, &addr, (UINT64)0LL);
}
WinDivertSend(w_filter, packet, packetLen, NULL, &addr);
}
}
else {
// error, ignore
if (!exiting)
printf("Error receiving packet!\n");
break;
}
}
}
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