Exemplo n.º 1
0
/*
 * checks for ip address for hit
 */
int hip_hit_to_ip(hip_hit_t *hit, struct in6_addr *retval) {
	struct addrinfo *rp = NULL; // no C99 :(
	char hit_to_ip_hostname[64+HIT_TO_IP_ZONE_MAX_LEN+1];
	int found_addr = 0;
	struct addrinfo hints;
	struct addrinfo *result = NULL;
	int res;

	if ((hit == NULL)||(retval == NULL))
		return ERR;

	if (hip_get_hit_to_ip_hostname(hit, hit_to_ip_hostname, sizeof(hit_to_ip_hostname))!=OK)
		return ERR;

	memset(&hints, 0, sizeof(hints));
	hints.ai_family = AF_UNSPEC;    /* Allow IPv4 or IPv6 */
	hints.ai_socktype = SOCK_DGRAM; /* Datagram socket. Right? */
	hints.ai_flags = AI_PASSIVE;    /* For wildcard IP address */
	hints.ai_protocol = 0;          /* Any protocol */
	hints.ai_canonname = NULL;
	hints.ai_addr = NULL;
	hints.ai_next = NULL;

	/* getaddrinfo is too complex for DNS lookup, but let us use it now */
	res = getaddrinfo( hit_to_ip_hostname, NULL, &hints, &result );
	HIP_DEBUG("getaddrinfo(%s) returned %d\n", hit_to_ip_hostname, res);

	if (res!=0) {
		HIP_DEBUG("getaddrinfo error %s\n", gai_strerror(res));
		return ERR;
	}

	/* Look at the list and return only one address, let us prefer AF_INET */
	for (rp = result; rp != NULL; rp = rp->ai_next) {
		HIP_DEBUG_SOCKADDR("getaddrinfo result", rp->ai_addr);

		if (rp->ai_family == AF_INET) {
			struct sockaddr_in *tmp_sockaddr_in_ptr = (struct sockaddr_in *) (rp->ai_addr);
			IPV4_TO_IPV6_MAP(&(tmp_sockaddr_in_ptr->sin_addr), retval)
			found_addr = 1;
			break;
		} else if (rp->ai_family == AF_INET6) {
			struct sockaddr_in6 *tmp_sockaddr_in6_ptr = (struct sockaddr_in6 *) (rp->ai_addr);
			ipv6_addr_copy(retval, &(tmp_sockaddr_in6_ptr->sin6_addr));
			found_addr = 1;
		}
	}

	if (result)
		freeaddrinfo(result);

	if (found_addr)
		return OK;
	else
		return ERR;
}
Exemplo n.º 2
0
/**
 * Convert a string representation of an IPv6 or IPv4 address to a struct
 * in6_addr.
 * If the string contains an IPv4 address, it is converted to its
 * IPv6-compatible mapping.
 *
 * @param str points to the string to convert.
 * @param ip6 points to a buffer where the function stores the binary address
 *  if it could be converted.
 * @return The return value is 0 if the conversion succeeds. It is a
 *  negative value if str or ip6 are NULL or if str contains neither a
 *  parseable IPv6 or IPv4 address.
 */
int hip_convert_string_to_address(const char *const str,
                                  struct in6_addr *const ip6)
{
    if (str && ip6) {
        if (inet_pton(AF_INET6, str, ip6) == 1) {
            /* IPv6 address conversion was ok */
            return 0;
        } else {
            struct in_addr ip4;

            /* Might be an ipv4 address (ret == 0). Lets catch it here. */
            if (inet_pton(AF_INET, str, &ip4) == 1) {
                IPV4_TO_IPV6_MAP(&ip4, ip6);
                HIP_DEBUG("Mapped v4 to v6.\n");
                HIP_DEBUG_IN6ADDR("mapped v6", ip6);
                return 0;
            }
        }
    }

    return -1;
}
Exemplo n.º 3
0
Arquivo: lsi.c Projeto: surki/hipl
int hip_fw_handle_incoming_hit(ipq_packet_msg_t *m,
			       struct in6_addr *ip_src,
			       struct in6_addr *ip_dst,
			       int lsi_support,
			       int sys_opp_support)
{
        int bind6 = 0, proto4_LSI = 0, proto4_IP = 0, err = 0, verdict = 1;
	int ip_hdr_size = 0, portDest = 0, process_as_lsi;
	char *proto = NULL;
	hip_lsi_t lsi_our = {0}, lsi_peer = {0};
	struct in6_addr src_addr, dst_addr;
	struct in_addr src_v4, dst_v4;
	struct ip6_hdr* ip6_hdr = (struct ip6_hdr*) m->payload;
	firewall_port_cache_hl_t *port_cache_entry = NULL;

	ip_hdr_size = sizeof(struct ip6_hdr);

	switch (ip6_hdr->ip6_nxt) {
	case IPPROTO_UDP:
		portDest = ((struct udphdr*)((m->payload) + ip_hdr_size))->dest;
		proto = "udp6";
		break;
	case IPPROTO_TCP:
		portDest = ((struct tcphdr*)((m->payload) + ip_hdr_size))->dest;
		proto = "tcp6";
		break;
	case IPPROTO_ICMPV6:
		HIP_DEBUG("ICMPv6 packet\n");
		//goto out_err;
		break;
	default:
		HIP_DEBUG("Unhandled packet %d\n", ip6_hdr->ip6_nxt);
		//goto out_err;
		break;
	}

	/* port caching */
	port_cache_entry = firewall_port_cache_db_match(portDest,
							ip6_hdr->ip6_nxt);

	if( port_cache_entry &&
	    (port_cache_entry->traffic_type ==
	     FIREWALL_PORT_CACHE_IPV6_TRAFFIC) ){
		verdict = 1;
		HIP_DEBUG("Cached port, accepting\n");
		goto out_err;
	}

	if (sys_opp_support && lsi_support) {
		/* Currently preferring LSIs over opp. connections */
		process_as_lsi = 1;
	} else if (lsi_support) {
		process_as_lsi = 1;
	} else if (sys_opp_support) {
		process_as_lsi = 0;
	} else {
		HIP_ASSERT(1);
	}

	//HIP_IFEL(firewall_cache_db_match(ip_src, ip_dst,
	HIP_IFEL(firewall_cache_db_match(ip_dst, ip_src,
				&lsi_our, &lsi_peer,
				&dst_addr, &src_addr,
				NULL),
		-1, "Failed to obtain from cache\n");

	if (process_as_lsi) {
		HIP_DEBUG("Trying lsi transformation\n");
		HIP_DEBUG_LSI("lsi_our: ", &lsi_our);
		HIP_DEBUG_LSI("lsi_peer: ", &lsi_peer);
		IPV4_TO_IPV6_MAP(&lsi_our, &src_addr);
		IPV4_TO_IPV6_MAP(&lsi_peer, &dst_addr);
		HIP_IFEL(reinject_packet(&dst_addr, &src_addr, m, 6, 1), -1,
			 "Failed to reinject with LSIs\n");
		HIP_DEBUG("Successful LSI transformation.\n");

		if (ip6_hdr->ip6_nxt == IPPROTO_ICMPV6)
			verdict = 1; /* broadcast: dst may be ipv4 or ipv6 */
		else
			verdict = 0; /* drop original */
	} else {
		HIP_DEBUG("Trying sys opp transformation\n");
		IPV6_TO_IPV4_MAP(&src_addr, &src_v4);
		IPV6_TO_IPV4_MAP(&dst_addr, &dst_v4);
		HIP_DEBUG_IN6ADDR("ip_src: ", &src_addr);
		HIP_DEBUG_IN6ADDR("ip_dst: ", &dst_addr);
		HIP_IFEL(reinject_packet(&src_addr, &dst_addr, m, 6, 1), -1,
			 "Failed to reinject with IP addrs\n");
		HIP_DEBUG("Successfull sysopp transformation. Drop orig\n");
		verdict = 0;
	}

out_err:

	if (err)
		return 1; /* Accept original */
	else
		return verdict;
}
Exemplo n.º 4
0
Arquivo: lsi.c Projeto: surki/hipl
/**
 * Checks if the outgoing packet with lsis has already ESTABLISHED the Base Exchange
 * with the peer host. In case the BEX is not done, it triggers it. Otherwise, it looks up 
 * in the local database the necessary information for doing the packet reinjection with HITs.
 *
 * @param m           pointer to the packet
 * @param lsi_src     source LSI 
 * @param lsi_dst     destination LSI
 * @return	      err during the BEX
 */
int hip_fw_handle_outgoing_lsi(ipq_packet_msg_t *m, struct in_addr *lsi_src,
			       struct in_addr *lsi_dst)
{
	int err = 0, msg_type, state_ha, new_fw_entry_state;
	struct in6_addr src_lsi, dst_lsi;
	struct in6_addr src_hit, dst_hit;
	struct in6_addr src_ip, dst_ip;
	firewall_hl_t *entry_peer = NULL;

	if (lsi_dst) {
		HIP_DEBUG_LSI("lsi dst", lsi_dst);
	}

	memset(&src_lsi, 0, sizeof(struct in6_addr));
	memset(&dst_lsi, 0, sizeof(struct in6_addr));
	memset(&src_hit, 0, sizeof(struct in6_addr));
	memset(&dst_hit, 0, sizeof(struct in6_addr));
	memset(&src_ip, 0, sizeof(struct in6_addr));
	memset(&dst_ip, 0, sizeof(struct in6_addr));

	/* get the corresponding ip address for this lsi,
	   as well as the current ha state */
	if(firewall_cache_db_match(NULL, NULL, lsi_src, lsi_dst,
				   &src_ip, &dst_ip, &state_ha)){
		HIP_DEBUG("No HA found yet\n");
	}

	entry_peer = (firewall_hl_t *) firewall_ip_db_match(&dst_ip);	
	if (entry_peer) {
		/* if the firewall entry is still undefined
		   check whether the base exchange has been established */
		if(entry_peer->bex_state == FIREWALL_STATE_BEX_DEFAULT){
			/* find the correct state for the fw entry state */
			if(state_ha == HIP_STATE_ESTABLISHED)
				new_fw_entry_state = FIREWALL_STATE_BEX_ESTABLISHED;
			else if( (state_ha == HIP_STATE_FAILED)  ||
				 (state_ha == HIP_STATE_CLOSING) ||
				 (state_ha == HIP_STATE_CLOSED)     )
				new_fw_entry_state = FIREWALL_STATE_BEX_NOT_SUPPORTED;
			else
				new_fw_entry_state = FIREWALL_STATE_BEX_DEFAULT;

			/* update fw entry state accordingly */
			firewall_update_entry(NULL, NULL, NULL, &dst_ip,
					      FIREWALL_STATE_BEX_ESTABLISHED);

			/* reobtain the entry in case it has been updated */
			entry_peer = firewall_ip_db_match(&dst_ip);
		}

		/* decide whether to reinject the packet */
		if (entry_peer->bex_state == FIREWALL_STATE_BEX_ESTABLISHED)
			HIP_IFEL(reinject_packet(&entry_peer->hit_our,
						 &entry_peer->hit_peer,
						 m, 4, 0),
				 -1, "Failed to reinject\n");
	} else {
		HIP_DEBUG("no ip db match\n");
		/* add default entry in the firewall db */
		HIP_IFEL(firewall_add_default_entry(&dst_ip), -1,
			 "Adding of fw entry failed\n");

	        /* Check if bex is already established: server case.
		   Get current connection state from hipd */
		state_ha = hip_get_bex_state_from_LSIs(lsi_src, lsi_dst,
						       &src_ip, &dst_ip,
						       &src_hit, &dst_hit);

		if( (state_ha == -1)                     || 
		    (state_ha == HIP_STATE_NONE)         || 
		    (state_ha == HIP_STATE_UNASSOCIATED)    ){
			/* initialize bex */
			IPV4_TO_IPV6_MAP(lsi_src, &src_lsi);
			IPV4_TO_IPV6_MAP(lsi_dst, &dst_lsi);
			HIP_IFEL(hip_trigger_bex(&src_hit, &dst_hit, &src_lsi,
						 &dst_lsi, NULL, NULL),
				 	-1, "Base Exchange Trigger failed\n");
			/* update fw db entry */
			HIP_IFEL(firewall_update_entry(&src_hit, &dst_hit,
						       lsi_dst, &dst_ip,
						       FIREWALL_STATE_BEX_DEFAULT), -1,
				 "Failed to update fw entry\n");
		}
		if(state_ha == HIP_STATE_ESTABLISHED){
			/* update fw db entry */
			HIP_IFEL(firewall_update_entry(&src_hit, &dst_hit,
						       lsi_dst, &dst_ip,
						       FIREWALL_STATE_BEX_ESTABLISHED),
				 -1, "Failed to update fw entry\n");

			HIP_IFEL(reinject_packet(&src_hit, &dst_hit, m, 4, 0),
				 -1, "Reinject failed\n");
		}
	}
out_err: 
	return err;
}
Exemplo n.º 5
0
Arquivo: message.c Projeto: surki/hipl
/* Moved function doxy descriptor to the header file. Lauri 11.03.2008 */
int hip_read_control_msg_all(int socket, struct hip_common *hip_msg,
                             struct in6_addr *saddr,
                             struct in6_addr *daddr,
                             hip_portpair_t *msg_info,
                             int encap_hdr_size, int is_ipv4)
{
	struct sockaddr_storage addr_from, addr_to;
	struct sockaddr_in *addr_from4 = ((struct sockaddr_in *) &addr_from);
	struct sockaddr_in6 *addr_from6 =
		((struct sockaddr_in6 *) &addr_from);
        struct cmsghdr *cmsg;
        struct msghdr msg;
	union {
		struct in_pktinfo *pktinfo_in4;
		struct inet6_pktinfo *pktinfo_in6;
	} pktinfo;
        struct iovec iov;
        char cbuff[CMSG_SPACE(256)];
        int err = 0, len;
	int cmsg_level, cmsg_type;

	HIP_ASSERT(saddr);
	HIP_ASSERT(daddr);

	HIP_DEBUG("hip_read_control_msg_all() invoked.\n");

	HIP_IFEL(((len = hip_peek_recv_total_len(socket, encap_hdr_size, HIP_DEFAULT_MSG_TIMEOUT))<= 0),
		 -1, "Bad packet length (%d)\n", len);

	memset(msg_info, 0, sizeof(hip_portpair_t));
	memset(&msg, 0, sizeof(msg));
	memset(cbuff, 0, sizeof(cbuff));
	memset(&addr_to, 0, sizeof(addr_to));

        /* setup message header with control and receive buffers */
        msg.msg_name = &addr_from;
        msg.msg_namelen = sizeof(struct sockaddr_storage);
        msg.msg_iov = &iov;
        msg.msg_iovlen = 1;

        memset(cbuff, 0, sizeof(cbuff));
        msg.msg_control = cbuff;
        msg.msg_controllen = sizeof(cbuff);
        msg.msg_flags = 0;

        iov.iov_len = len;
        iov.iov_base = hip_msg;

	pktinfo.pktinfo_in4 = NULL;

	len = recvmsg(socket, &msg, 0);

	HIP_IFEL((len < 0), -1, "ICMP%s error: errno=%d, %s\n",
		 (is_ipv4 ? "v4" : "v6"), errno, strerror(errno));

	cmsg_level = (is_ipv4) ? IPPROTO_IP : IPPROTO_IPV6;
	cmsg_type = (is_ipv4) ? IP_PKTINFO : IPV6_2292PKTINFO;

	/* destination address comes from ancillary data passed
	 * with msg due to IPV6_PKTINFO socket option */
	for (cmsg=CMSG_FIRSTHDR(&msg); cmsg; cmsg=CMSG_NXTHDR(&msg,cmsg)){
		if ((cmsg->cmsg_level == cmsg_level) &&
		    (cmsg->cmsg_type == cmsg_type)) {
			/* The structure is a union, so this fills also the
			   pktinfo_in6 pointer */
			pktinfo.pktinfo_in4 =
				(struct in_pktinfo*)CMSG_DATA(cmsg);
			break;
		}
	}

	/* If this fails, change IPV6_2292PKTINFO to IPV6_PKTINFO in
	   hip_init_raw_sock_v6 */
	HIP_IFEL(!pktinfo.pktinfo_in4, -1,
		 "Could not determine dst addr, dropping\n");

	/* UDP port numbers */
	if (is_ipv4 && encap_hdr_size == HIP_UDP_ZERO_BYTES_LEN) {
		HIP_DEBUG("hip_read_control_msg_all() source port = %d\n",
			  ntohs(addr_from4->sin_port));
		msg_info->src_port = ntohs(addr_from4->sin_port);
		/* Destination port is known from the bound socket. */
		msg_info->dst_port = hip_get_local_nat_udp_port();
	}

	/* IPv4 addresses */
	if (is_ipv4) {
		struct sockaddr_in *addr_to4 = (struct sockaddr_in *) &addr_to;
		IPV4_TO_IPV6_MAP(&addr_from4->sin_addr, saddr);
		IPV4_TO_IPV6_MAP(&pktinfo.pktinfo_in4->ipi_addr,
				 daddr);
		addr_to4->sin_family = AF_INET;
		addr_to4->sin_addr = pktinfo.pktinfo_in4->ipi_addr;
		addr_to4->sin_port = msg_info->dst_port;
	} else /* IPv6 addresses */ {
		struct sockaddr_in6 *addr_to6 =
			(struct sockaddr_in6 *) &addr_to;
		memcpy(saddr, &addr_from6->sin6_addr,
		       sizeof(struct in6_addr));
		memcpy(daddr, &pktinfo.pktinfo_in6->ipi6_addr,
		       sizeof(struct in6_addr));
		addr_to6->sin6_family = AF_INET6;
		ipv6_addr_copy(&addr_to6->sin6_addr, daddr);
	}

//added by santtu
	if (hip_read_control_msg_plugin_handler(hip_msg,len, saddr,msg_info->src_port))
		goto out_err;
//endadd

	if (is_ipv4 && (encap_hdr_size == IPV4_HDR_SIZE)) {/* raw IPv4, !UDP */
		/* For some reason, the IPv4 header is always included.
		   Let's remove it here. */
		memmove(hip_msg, ((char *)hip_msg) + IPV4_HDR_SIZE,
			HIP_MAX_PACKET - IPV4_HDR_SIZE);
	} else if (is_ipv4 && encap_hdr_size == HIP_UDP_ZERO_BYTES_LEN) {
		/* remove 32-bits of zeroes between UDP and HIP headers */
		memmove(hip_msg, ((char *)hip_msg) + HIP_UDP_ZERO_BYTES_LEN,
			HIP_MAX_PACKET - HIP_UDP_ZERO_BYTES_LEN);
	}

	HIP_IFEL(hip_verify_network_header(hip_msg,
					   (struct sockaddr *) &addr_from,
					   (struct sockaddr *) &addr_to,
					   len - encap_hdr_size), -1,
		 "verifying network header failed\n");



	if (saddr)
		HIP_DEBUG_IN6ADDR("src", saddr);
	if (daddr)
		HIP_DEBUG_IN6ADDR("dst", daddr);

 out_err:
	return err;
}
Exemplo n.º 6
0
Arquivo: opptcp.c Projeto: surki/hipl
/**
 * Analyzes incoming TCP packets
 * 
 * @param *handle	the handle that has grabbed the packet, needed when allowing or dropping the packet.
 * @param hdr		pointer to the ip packet being examined.
 * @param ip_version	ipv4 or ipv6 type of traffic.
 * @return		nothing
 */
int hip_fw_examine_incoming_tcp_packet(void *hdr,
				       int ip_version,
				       int header_size) {
	int i, optLen, optionsLen, err = 0, state_ha;
	char 	       *hdrBytes = NULL;
	struct tcphdr  *tcphdr;
	struct ip      *iphdr;
	struct ip6_hdr *ip6_hdr;
	//fields for temporary values
	u_int16_t       portTemp;
	struct in_addr  addrTemp;
	struct in6_addr addr6Temp;
	/* the following vars are needed for
	 * sending the i1 - initiating the exchange
	 * in case we see that the peer supports hip*/
	struct in6_addr peer_ip, own_ip;
	struct in6_addr peer_hit;
	in_port_t        src_tcp_port;
	in_port_t        dst_tcp_port;
	/*this is needed for puting in default values
	  for the hits and lsi in the firewall entry*/
	struct in6_addr all_zero_default;
	firewall_hl_t *entry_peer = NULL;
	struct in6_addr src_lsi, dst_lsi;
	struct in6_addr src_hit, dst_hit;

	HIP_DEBUG("\n");

	if(ip_version == 4){
		iphdr = (struct ip *)hdr;
		//get the tcp header
		tcphdr = ((struct tcphdr *) (((char *) iphdr) + header_size));
		hdrBytes = ((char *) iphdr) + header_size;
		HIP_DEBUG_INADDR("the destination", &iphdr->ip_src);
		//peer and local ip needed for sending the i1 through hipd
		IPV4_TO_IPV6_MAP(&iphdr->ip_src, &peer_ip);
		IPV4_TO_IPV6_MAP(&iphdr->ip_dst, &own_ip);
	}
	else if(ip_version == 6){
		ip6_hdr = (struct ip6_hdr *)hdr;
		//get the tcp header
		tcphdr = ((struct tcphdr *) (((char *) ip6_hdr) + header_size));
		hdrBytes = ((char *) ip6_hdr) + header_size;
		//peer and local ip needed for sending the i1 through hipd
		ipv6_addr_copy(&peer_ip, &ip6_hdr->ip6_src);
		ipv6_addr_copy(&own_ip, &ip6_hdr->ip6_dst);
	}

	/* this condition was originally only for SYN 0
	 * but below we added a condition for RST 1 and ACK 1
	 * So, in order for the RST ACK condition to be reachable,
	 * we added the condition for RST 0 here.
	 * The purpose is to process the packets as soon as possible.
	 * Many packets have SYN 0 and RST 0, so they get accepted quickly. 
	 */
	if((tcphdr->syn == 0) && (tcphdr->rst == 0) && (tcphdr->fin == 0)){
		return 1;
	}
	
	/* this shortcut check was removed
	 * because we need to analyze incoming
	 * TCP SYN_ACK, RST_ACK and FIN_ACK packets
	 * even when there are no options
	 * for updating the firewall entry
	 */
	/*//check that there are no options
	if(tcphdr->doff == 5){
		return 1;
	}*/

	if((tcphdr->syn == 1) && (tcphdr->ack == 0)){	//incoming, syn=1 and ack=0
		
		/* We need to create state in the firewall db
		 * if there is no entry for the peer yet. */
		entry_peer = (firewall_hl_t *)firewall_ip_db_match(&peer_ip);
		//if there is no entry in fw, add a default one
		if(!entry_peer){
			firewall_add_default_entry(&peer_ip);
			entry_peer = (firewall_hl_t *)firewall_ip_db_match(&peer_ip);
		}


		if(tcp_packet_has_i1_option(hdrBytes, 4*tcphdr->doff)){
			/*//swap the ports
			portTemp = tcphdr->source;
			tcphdr->source = tcphdr->dest;
			tcphdr->dest = portTemp;
			//swap the ip addresses
			if(ip_version == 4){
				addrTemp = iphdr->ip_src;
				iphdr->ip_src = iphdr->ip_dst;
				iphdr->ip_dst = addrTemp;
			}
			else if(ip_version == 6){
				addr6Temp = ip6_hdr->ip6_src;
				ip6_hdr->ip6_src = ip6_hdr->ip6_dst;
				ip6_hdr->ip6_dst = addr6Temp;
			}
			//set ack field
			tcphdr->ack_seq = tcphdr->seq + 1;
			//set seq field
			tcphdr->seq = htonl(0);
			//set flags
			tcphdr->syn = 1;
			tcphdr->ack = 1;

			// send packet out after adding HIT
			// the option is already there but
			// it has to be added again since
			// if only the HIT is added, it will
			// overwrite the i1 option that is
			// in the options of TCP
			hip_request_send_tcp_packet(hdr, hdr_size + 4*tcphdr->doff, ip_version, 1, 1);
			*/
			//drop original packet
			return 0;
		}
		else{
			/* A SYN packet without option indicates lack of peer
			 * HIP support. Updating the fw db to NOT_SUPPORTED. */
			state_ha = hip_get_bex_state_from_IPs(&own_ip, &peer_ip, &src_hit,
					     &dst_hit, &src_lsi, &dst_lsi);

			if(state_ha != HIP_STATE_ESTABLISHED)
				firewall_update_entry(NULL, NULL, NULL, &peer_ip,
					       FIREWALL_STATE_BEX_NOT_SUPPORTED);

			//allow packet
			return 1;
		}
	}
	else if( ((tcphdr->syn == 1) && (tcphdr->ack == 1)) ||	 //SYN_ACK
		 ((tcphdr->rst == 1) && (tcphdr->ack == 1)) ||   //RST_ACK
		 ((tcphdr->fin == 1) && (tcphdr->ack == 1))   ){ //FIN_ACK
		//with the new implementation, the i1 is sent out directly
		/*if(tcp_packet_has_i1_option(hdrBytes, 4*tcphdr->doff)){
			// tcp header pointer + 20(minimum header length)
			// + 4(i1 option length in the TCP options)
			memcpy(peer_hit, &hdrBytes[20 + 4], 16);
			hip_request_send_i1_to_hip_peer_from_hipd(
					peer_hit,
					peer_ip);
			//the packet is no more needed
			drop_packet(handle, packetId);
			return;
		}
		else{*/

			/* Signal for normal TCP not
			 * to be blocked with this peer.
			 * Blacklist peer in the hipd db*/
			hip_fw_unblock_and_blacklist(&peer_ip);


			/* updating the fw db if necessary*/
			entry_peer = (firewall_hl_t *)firewall_ip_db_match(&peer_ip);
			//if there is no entry in fw, add a default one
			if(!entry_peer){
				firewall_add_default_entry(&peer_ip);
				entry_peer = (firewall_hl_t *)firewall_ip_db_match(&peer_ip);
			}
			if(entry_peer->bex_state != FIREWALL_STATE_BEX_ESTABLISHED){
				//update the firewall db entry
				HIP_DEBUG("updating fw entry state to NOT_SUPPORTED\n");
				firewall_update_entry(NULL, NULL, NULL, &peer_ip,
					      FIREWALL_STATE_BEX_NOT_SUPPORTED);
			}


			//normal traffic connections should be allowed to be created
			return 1;
		/*}*/
	}

out_err:
	/* Allow rest */
	return 1;
}