translate.c - platform/external/android-clat - Git at Google

 /*
  * Copyright 2011 Daniel Drown
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  * http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  * translate.c - CLAT functions / partial implementation of rfc6145
  */
 #include <string.h>
 #include <sys/uio.h>

 #include <netinet/in.h>
 #include <netinet/ip.h>
 #include <netinet/ip_icmp.h>
 #include <netinet/udp.h>
 #include <netinet/tcp.h>
 #include <netinet/ip6.h>
 #include <netinet/icmp6.h>
 #include <linux/icmp.h>

 #include "checksum.h"
 #include "clatd.h"
 #include "config.h"
 #include "logging.h"
 #include "debug.h"

 /* function: fill_tun_header
  * fill in the header for the tun fd
  * tun_header - tunnel header, already allocated
  * proto      - ethernet protocol id: ETH_P_IP(ipv4) or ETH_P_IPV6(ipv6)
  */
 void fill_tun_header(struct tun_pi *tun_header, uint16_t proto) {
   tun_header->flags = 0;
   tun_header->proto = htons(proto);
 }

 /* function: ipv6_src_to_ipv4_src
  * return the corresponding ipv4 address for the given ipv6 address
  * sourceaddr - ipv6 source address
  */
 uint32_t ipv6_src_to_ipv4_src(const struct in6_addr *sourceaddr) {
   // assumes a /96 plat subnet
   return sourceaddr->s6_addr32[3];
 }

 /* function: fill_ip_header
  * generating an ipv4 header from an ipv6 header (called by the layer 4 protocol-specific functions)
  * ip_targ     - (ipv4) target packet header, source addr: original ipv4 addr, dest addr: local subnet addr
  * payload_len - length of other data inside packet
  * protocol    - protocol number (tcp, udp, etc)
  * old_header  - (ipv6) source packet header, source addr: nat64 prefix, dest addr: local subnet prefix
  */
 void fill_ip_header(struct iphdr *ip_targ, uint16_t payload_len, uint8_t protocol, const struct ip6_hdr *old_header) {
   memset(ip_targ, 0, sizeof(ip_targ));

   ip_targ->ihl = 5;
   ip_targ->version = 4;
   ip_targ->tos = 0;
   ip_targ->tot_len = htons(sizeof(struct iphdr) + payload_len);
   ip_targ->id = 0;
   ip_targ->frag_off = htons(IP_DF);
   ip_targ->ttl = old_header->ip6_hlim;
   ip_targ->protocol = protocol;
   ip_targ->check = 0;

   ip_targ->saddr = ipv6_src_to_ipv4_src(&old_header->ip6_src);
   ip_targ->daddr = Global_Clatd_Config.ipv4_local_subnet.s_addr;

   ip_targ->check = ip_checksum(ip_targ, sizeof(struct iphdr));
 }

 /* function: ipv4_dst_to_ipv6_dst
  * return the corresponding ipv6 address for the given ipv4 address
  * destination - ipv4 destination address (network byte order)
  */
 struct in6_addr ipv4_dst_to_ipv6_dst(uint32_t destination) {
   struct in6_addr v6_destination;

   // assumes a /96 plat subnet
   v6_destination = Global_Clatd_Config.plat_subnet;
   v6_destination.s6_addr32[3] = destination;

   return v6_destination;
 }

 /* function: fill_ip6_header
  * generating an ipv6 header from an ipv4 header (called by the layer 4 protocol-specific functions)
  * ip6         - (ipv6) target packet header, source addr: local subnet prefix, dest addr: nat64 prefix
  * payload_len - length of other data inside packet
  * protocol    - protocol number (tcp, udp, etc)
  * old_header  - (ipv4) source packet header, source addr: local subnet addr, dest addr: internet's ipv4 addr
  */
 void fill_ip6_header(struct ip6_hdr *ip6, uint16_t payload_len, uint8_t protocol, const struct iphdr *old_header) {
   memset(ip6, 0, sizeof(struct ip6_hdr));

   ip6->ip6_vfc = 6 << 4;
   ip6->ip6_plen = htons(payload_len);
   ip6->ip6_nxt = protocol;
   ip6->ip6_hlim = old_header->ttl;

   ip6->ip6_src = Global_Clatd_Config.ipv6_local_subnet;
   ip6->ip6_dst = ipv4_dst_to_ipv6_dst(old_header->daddr);
 }

 /* function: icmp_to_icmp6
  * translate ipv4 icmp to ipv6 icmp (only currently supports echo/echo reply)
  * fd           - tun interface fd
  * ip           - source packet ipv4 header
  * icmp         - source packet icmp header
  * payload      - icmp payload
  * payload_size - size of payload
  */
 void icmp_to_icmp6(int fd, const struct iphdr *ip, const struct icmphdr *icmp, const char *payload, size_t payload_size) {
   struct ip6_hdr ip6_targ;
   struct icmp6_hdr icmp6_targ;
   struct iovec io_targ[4];
   struct tun_pi tun_header;
   uint32_t checksum_temp;

   if((icmp->type != ICMP_ECHO) && (icmp->type != ICMP_ECHOREPLY)) {
     logmsg_dbg(ANDROID_LOG_WARN,"icmp_to_icmp6/unhandled icmp type: 0x%x",icmp->type);
     return;
   }

   fill_tun_header(&tun_header,ETH_P_IPV6);

   fill_ip6_header(&ip6_targ,payload_size + sizeof(icmp6_targ),IPPROTO_ICMPV6,ip);

   memset(&icmp6_targ, 0, sizeof(icmp6_targ));
   icmp6_targ.icmp6_type = (icmp->type == ICMP_ECHO) ? ICMP6_ECHO_REQUEST : ICMP6_ECHO_REPLY;
   icmp6_targ.icmp6_code = 0;
   icmp6_targ.icmp6_cksum = 0;
   icmp6_targ.icmp6_id = icmp->un.echo.id;
   icmp6_targ.icmp6_seq = icmp->un.echo.sequence;

   checksum_temp = ipv6_pseudo_header_checksum(0,&ip6_targ);
   checksum_temp = ip_checksum_add(checksum_temp, &icmp6_targ, sizeof(icmp6_targ));
   checksum_temp = ip_checksum_add(checksum_temp, payload, payload_size);
   icmp6_targ.icmp6_cksum = ip_checksum_finish(checksum_temp);

   io_targ[0].iov_base = &tun_header;
   io_targ[0].iov_len = sizeof(tun_header);
   io_targ[1].iov_base = &ip6_targ;
   io_targ[1].iov_len = sizeof(ip6_targ);
   io_targ[2].iov_base = &icmp6_targ;
   io_targ[2].iov_len = sizeof(icmp6_targ);
   io_targ[3].iov_base = (char *)payload;
   io_targ[3].iov_len = payload_size;

   writev(fd, io_targ, 4);
 }

 /* function: icmp6_to_icmp
  * translate ipv6 icmp to ipv4 icmp (only currently supports echo/echo reply)
  * fd           - tun interface fd
  * ip6          - source packet ipv6 header
  * icmp6        - source packet icmp6 header
  * payload      - icmp6 payload
  * payload_size - size of payload
  */
 void icmp6_to_icmp(int fd, const struct ip6_hdr *ip6, const struct icmp6_hdr *icmp6, const char *payload, size_t payload_size) {
   struct iphdr ip_targ;
   struct icmphdr icmp_targ;
   struct iovec io_targ[4];
   struct tun_pi tun_header;
   uint32_t temp_icmp_checksum;

   if((icmp6->icmp6_type != ICMP6_ECHO_REQUEST) && (icmp6->icmp6_type != ICMP6_ECHO_REPLY)) {
     logmsg_dbg(ANDROID_LOG_WARN,"icmp6_to_icmp/unhandled icmp6 type: 0x%x",icmp6->icmp6_type);
     return;
   }

   memset(&icmp_targ, 0, sizeof(icmp_targ));

   fill_tun_header(&tun_header,ETH_P_IP);
   fill_ip_header(&ip_targ,sizeof(icmp_targ) + payload_size, IPPROTO_ICMP, ip6);

   icmp_targ.type = (icmp6->icmp6_type == ICMP6_ECHO_REQUEST) ? ICMP_ECHO : ICMP_ECHOREPLY;
   icmp_targ.code = 0x0;
   icmp_targ.checksum = 0;
   icmp_targ.un.echo.id = icmp6->icmp6_id;
   icmp_targ.un.echo.sequence = icmp6->icmp6_seq;

   temp_icmp_checksum = ip_checksum_add(0, &icmp_targ, sizeof(icmp_targ));
   temp_icmp_checksum = ip_checksum_add(temp_icmp_checksum, (void *)payload, payload_size);
   icmp_targ.checksum = ip_checksum_finish(temp_icmp_checksum);

   io_targ[0].iov_base = &tun_header;
   io_targ[0].iov_len = sizeof(tun_header);
   io_targ[1].iov_base = &ip_targ;
   io_targ[1].iov_len = sizeof(ip_targ);
   io_targ[2].iov_base = &icmp_targ;
   io_targ[2].iov_len = sizeof(icmp_targ);
   io_targ[3].iov_base = (char *)payload;
   io_targ[3].iov_len = payload_size;

   writev(fd, io_targ, 4);
 }

 /* function: udp_translate
  * common between ipv4/ipv6 - setup checksum and send udp packet
  * fd           - tun interface fd
  * udp          - source packet udp header
  * payload      - udp payload
  * payload_size - size of payload
  * io_targ      - iovec with tun and ipv4/ipv6 header (see below)
  *     array position 0 - tun header
  *     array position 1 - ipv4/ipv6 header
  *     array position 2 - empty (will be udp header)
  *     array position 3 - empty (will be payload)
  * checksum     - partial checksum covering ipv4/ipv6 header
  */
 void udp_translate(int fd, const struct udphdr *udp, const char *payload, size_t payload_size, struct iovec *io_targ, uint32_t checksum) {
   struct udphdr udp_targ;

   memcpy(&udp_targ, udp, sizeof(udp_targ));
   udp_targ.check = 0; // reset checksum, to be calculated

   checksum = ip_checksum_add(checksum, &udp_targ, sizeof(struct udphdr));
   checksum = ip_checksum_add(checksum, payload, payload_size);
   udp_targ.check = ip_checksum_finish(checksum);

   io_targ[2].iov_base = &udp_targ;
   io_targ[2].iov_len = sizeof(udp_targ);
   io_targ[3].iov_base = (char *)payload;
   io_targ[3].iov_len = payload_size;

   writev(fd, io_targ, 4);
 }

 /* function: udp_to_udp6
  * translate ipv4 udp to ipv6 udp
  * fd           - tun interface fd
  * ip           - source packet ipv4 header
  * udp          - source packet udp header
  * payload      - udp payload
  * payload_size - size of payload
  */
 void udp_to_udp6(int fd, const struct iphdr *ip, const struct udphdr *udp, const char *payload, size_t payload_size) {
   struct ip6_hdr ip6_targ;
   struct iovec io_targ[4];
   struct tun_pi tun_header;
   uint32_t checksum;

   fill_tun_header(&tun_header,ETH_P_IPV6);

   fill_ip6_header(&ip6_targ,payload_size + sizeof(struct udphdr),IPPROTO_UDP,ip);

   checksum = ipv6_pseudo_header_checksum(0, &ip6_targ);

   io_targ[0].iov_base = &tun_header;
   io_targ[0].iov_len = sizeof(tun_header);
   io_targ[1].iov_base = &ip6_targ;
   io_targ[1].iov_len = sizeof(ip6_targ);

   udp_translate(fd,udp,payload,payload_size,io_targ,checksum);
 }

 /* function: udp6_to_udp
  * translate ipv6 udp to ipv4 udp
  * fd           - tun interface fd
  * ip6          - source packet ipv6 header
  * udp          - source packet udp header
  * payload      - udp payload
  * payload_size - size of payload
  */
 void udp6_to_udp(int fd, const struct ip6_hdr *ip6, const struct udphdr *udp, const char *payload, size_t payload_size) {
   struct iphdr ip_targ;
   struct iovec io_targ[4];
   struct tun_pi tun_header;
   uint32_t checksum;

   fill_tun_header(&tun_header,ETH_P_IP);

   fill_ip_header(&ip_targ,payload_size + sizeof(struct udphdr),IPPROTO_UDP,ip6);

   checksum = ipv4_pseudo_header_checksum(0, &ip_targ);

   io_targ[0].iov_base = &tun_header;
   io_targ[0].iov_len = sizeof(tun_header);
   io_targ[1].iov_base = &ip_targ;
   io_targ[1].iov_len = sizeof(ip_targ);

   udp_translate(fd,udp,payload,payload_size,io_targ,checksum);
 }

 /* function: tcp_translate
  * common between ipv4/ipv6 - setup checksum and send tcp packet
  * fd           - tun interface fd
  * tcp          - source packet tcp header
  * payload      - tcp payload
  * payload_size - size of payload
  * io_targ      - iovec with tun and ipv4/ipv6 header (see below)
  *     array position 0 - tun header
  *     array position 1 - ipv4/ipv6 header
  *     array position 2 - empty (will be tcp header)
  *     array position 3 - empty (will be tcp options or payload)
  *     array position 4 - empty (can be payload)
  * checksum     - partial checksum covering ipv4/ipv6 header
  * options      - pointer to tcp option buffer
  * options_size - size of tcp option buffer
  *
  * TODO: mss rewrite
  * TODO: hosts without pmtu discovery - non DF packets will rely on fragmentation (unimplemented)
  */
 void tcp_translate(int fd, const struct tcphdr *tcp, const char *payload, size_t payload_size, struct iovec *io_targ, uint32_t checksum, const char *options, size_t options_size) {
   struct tcphdr tcp_targ;
   int targ_index = 2;

   memcpy(&tcp_targ, tcp, sizeof(tcp_targ));
   tcp_targ.check = 0;

   checksum = ip_checksum_add(checksum, &tcp_targ, sizeof(tcp_targ));
   if(options) {
     checksum = ip_checksum_add(checksum, options, options_size);
   }
   checksum = ip_checksum_add(checksum, payload, payload_size);
   tcp_targ.check = ip_checksum_finish(checksum);

   io_targ[targ_index].iov_base = &tcp_targ;
   io_targ[targ_index].iov_len = sizeof(tcp_targ);
   targ_index++;

   if(options) {
     io_targ[targ_index].iov_base = (char *)options;
     io_targ[targ_index].iov_len = options_size;
     targ_index++;
   }

   io_targ[targ_index].iov_base = (char *)payload;
   io_targ[targ_index].iov_len = payload_size;
   targ_index++;

   writev(fd, io_targ, targ_index);
 }

 /* function: tcp_to_tcp6
  * translate ipv4 tcp to ipv6 tcp
  * fd           - tun interface fd
  * ip           - source packet ipv4 header
  * tcp          - source packet tcp header
  * payload      - tcp payload
  * payload_size - size of payload
  * options      - tcp options
  * options_size - size of options
  */
 void tcp_to_tcp6(int fd,const struct iphdr *ip, const struct tcphdr *tcp, const char *payload, size_t payload_size, const char *options, size_t options_size) {
   struct ip6_hdr ip6_targ;
   struct iovec io_targ[5];
   struct tun_pi tun_header;
   uint32_t checksum;

   fill_tun_header(&tun_header,ETH_P_IPV6);

   fill_ip6_header(&ip6_targ,payload_size+options_size+sizeof(struct tcphdr),IPPROTO_TCP,ip);

   checksum = ipv6_pseudo_header_checksum(0, &ip6_targ);

   io_targ[0].iov_base = &tun_header;
   io_targ[0].iov_len = sizeof(tun_header);
   io_targ[1].iov_base = &ip6_targ;
   io_targ[1].iov_len = sizeof(ip6_targ);

   tcp_translate(fd,tcp,payload,payload_size,io_targ,checksum,options,options_size);
 }

 /* function: tcp6_to_tcp
  * translate ipv6 tcp to ipv4 tcp
  * fd           - tun interface fd
  * ip6          - source packet ipv6 header
  * tcp          - source packet tcp header
  * payload      - tcp payload
  * payload_size - size of payload
  * options      - tcp options
  * options_size - size of options
  */
 void tcp6_to_tcp(int fd,const struct ip6_hdr *ip6, const struct tcphdr *tcp, const char *payload, size_t payload_size, const char *options, size_t options_size) {
   struct iphdr ip_targ;
   struct iovec io_targ[5];
   struct tun_pi tun_header;
   uint32_t checksum;

   fill_tun_header(&tun_header,ETH_P_IP);

   fill_ip_header(&ip_targ,payload_size+options_size+sizeof(struct tcphdr),IPPROTO_TCP,ip6);

   checksum = ipv4_pseudo_header_checksum(0, &ip_targ);

   io_targ[0].iov_base = &tun_header;
   io_targ[0].iov_len = sizeof(tun_header);
   io_targ[1].iov_base = &ip_targ;
   io_targ[1].iov_len = sizeof(ip_targ);

   tcp_translate(fd,tcp,payload,payload_size,io_targ,checksum,options,options_size);
 }
	/*
	* Copyright 2011 Daniel Drown
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	* translate.c - CLAT functions / partial implementation of rfc6145
	*/
	#include <string.h>
	#include <sys/uio.h>

	#include <netinet/in.h>
	#include <netinet/ip.h>
	#include <netinet/ip_icmp.h>
	#include <netinet/udp.h>
	#include <netinet/tcp.h>
	#include <netinet/ip6.h>
	#include <netinet/icmp6.h>
	#include <linux/icmp.h>

	#include "checksum.h"
	#include "clatd.h"
	#include "config.h"
	#include "logging.h"
	#include "debug.h"

	/* function: fill_tun_header
	* fill in the header for the tun fd
	* tun_header - tunnel header, already allocated
	* proto - ethernet protocol id: ETH_P_IP(ipv4) or ETH_P_IPV6(ipv6)
	*/
	void fill_tun_header(struct tun_pi *tun_header, uint16_t proto) {
	tun_header->flags = 0;
	tun_header->proto = htons(proto);
	}

	/* function: ipv6_src_to_ipv4_src
	* return the corresponding ipv4 address for the given ipv6 address
	* sourceaddr - ipv6 source address
	*/
	uint32_t ipv6_src_to_ipv4_src(const struct in6_addr *sourceaddr) {
	// assumes a /96 plat subnet
	return sourceaddr->s6_addr32[3];
	}

	/* function: fill_ip_header
	* generating an ipv4 header from an ipv6 header (called by the layer 4 protocol-specific functions)
	* ip_targ - (ipv4) target packet header, source addr: original ipv4 addr, dest addr: local subnet addr
	* payload_len - length of other data inside packet
	* protocol - protocol number (tcp, udp, etc)
	* old_header - (ipv6) source packet header, source addr: nat64 prefix, dest addr: local subnet prefix
	*/
	void fill_ip_header(struct iphdr ip_targ, uint16_t payload_len, uint8_t protocol, const struct ip6_hdr old_header) {
	memset(ip_targ, 0, sizeof(ip_targ));

	ip_targ->ihl = 5;
	ip_targ->version = 4;
	ip_targ->tos = 0;
	ip_targ->tot_len = htons(sizeof(struct iphdr) + payload_len);
	ip_targ->id = 0;
	ip_targ->frag_off = htons(IP_DF);
	ip_targ->ttl = old_header->ip6_hlim;
	ip_targ->protocol = protocol;
	ip_targ->check = 0;

	ip_targ->saddr = ipv6_src_to_ipv4_src(&old_header->ip6_src);
	ip_targ->daddr = Global_Clatd_Config.ipv4_local_subnet.s_addr;

	ip_targ->check = ip_checksum(ip_targ, sizeof(struct iphdr));
	}

	/* function: ipv4_dst_to_ipv6_dst
	* return the corresponding ipv6 address for the given ipv4 address
	* destination - ipv4 destination address (network byte order)
	*/
	struct in6_addr ipv4_dst_to_ipv6_dst(uint32_t destination) {
	struct in6_addr v6_destination;

	// assumes a /96 plat subnet
	v6_destination = Global_Clatd_Config.plat_subnet;
	v6_destination.s6_addr32[3] = destination;

	return v6_destination;
	}

	/* function: fill_ip6_header
	* generating an ipv6 header from an ipv4 header (called by the layer 4 protocol-specific functions)
	* ip6 - (ipv6) target packet header, source addr: local subnet prefix, dest addr: nat64 prefix
	* payload_len - length of other data inside packet
	* protocol - protocol number (tcp, udp, etc)
	* old_header - (ipv4) source packet header, source addr: local subnet addr, dest addr: internet's ipv4 addr
	*/
	void fill_ip6_header(struct ip6_hdr ip6, uint16_t payload_len, uint8_t protocol, const struct iphdr old_header) {
	memset(ip6, 0, sizeof(struct ip6_hdr));

	ip6->ip6_vfc = 6 << 4;
	ip6->ip6_plen = htons(payload_len);
	ip6->ip6_nxt = protocol;
	ip6->ip6_hlim = old_header->ttl;

	ip6->ip6_src = Global_Clatd_Config.ipv6_local_subnet;
	ip6->ip6_dst = ipv4_dst_to_ipv6_dst(old_header->daddr);
	}

	/* function: icmp_to_icmp6
	* translate ipv4 icmp to ipv6 icmp (only currently supports echo/echo reply)
	* fd - tun interface fd
	* ip - source packet ipv4 header
	* icmp - source packet icmp header
	* payload - icmp payload
	* payload_size - size of payload
	*/
	void icmp_to_icmp6(int fd, const struct iphdr ip, const struct icmphdr icmp, const char *payload, size_t payload_size) {
	struct ip6_hdr ip6_targ;
	struct icmp6_hdr icmp6_targ;
	struct iovec io_targ[4];
	struct tun_pi tun_header;
	uint32_t checksum_temp;

	if((icmp->type != ICMP_ECHO) && (icmp->type != ICMP_ECHOREPLY)) {
	logmsg_dbg(ANDROID_LOG_WARN,"icmp_to_icmp6/unhandled icmp type: 0x%x",icmp->type);
	return;
	}

	fill_tun_header(&tun_header,ETH_P_IPV6);

	fill_ip6_header(&ip6_targ,payload_size + sizeof(icmp6_targ),IPPROTO_ICMPV6,ip);

	memset(&icmp6_targ, 0, sizeof(icmp6_targ));
	icmp6_targ.icmp6_type = (icmp->type == ICMP_ECHO) ? ICMP6_ECHO_REQUEST : ICMP6_ECHO_REPLY;
	icmp6_targ.icmp6_code = 0;
	icmp6_targ.icmp6_cksum = 0;
	icmp6_targ.icmp6_id = icmp->un.echo.id;
	icmp6_targ.icmp6_seq = icmp->un.echo.sequence;

	checksum_temp = ipv6_pseudo_header_checksum(0,&ip6_targ);
	checksum_temp = ip_checksum_add(checksum_temp, &icmp6_targ, sizeof(icmp6_targ));
	checksum_temp = ip_checksum_add(checksum_temp, payload, payload_size);
	icmp6_targ.icmp6_cksum = ip_checksum_finish(checksum_temp);

	io_targ[0].iov_base = &tun_header;
	io_targ[0].iov_len = sizeof(tun_header);
	io_targ[1].iov_base = &ip6_targ;
	io_targ[1].iov_len = sizeof(ip6_targ);
	io_targ[2].iov_base = &icmp6_targ;
	io_targ[2].iov_len = sizeof(icmp6_targ);
	io_targ[3].iov_base = (char *)payload;
	io_targ[3].iov_len = payload_size;

	writev(fd, io_targ, 4);
	}

	/* function: icmp6_to_icmp
	* translate ipv6 icmp to ipv4 icmp (only currently supports echo/echo reply)
	* fd - tun interface fd
	* ip6 - source packet ipv6 header
	* icmp6 - source packet icmp6 header
	* payload - icmp6 payload
	* payload_size - size of payload
	*/
	void icmp6_to_icmp(int fd, const struct ip6_hdr ip6, const struct icmp6_hdr icmp6, const char *payload, size_t payload_size) {
	struct iphdr ip_targ;
	struct icmphdr icmp_targ;
	struct iovec io_targ[4];
	struct tun_pi tun_header;
	uint32_t temp_icmp_checksum;

	if((icmp6->icmp6_type != ICMP6_ECHO_REQUEST) && (icmp6->icmp6_type != ICMP6_ECHO_REPLY)) {
	logmsg_dbg(ANDROID_LOG_WARN,"icmp6_to_icmp/unhandled icmp6 type: 0x%x",icmp6->icmp6_type);
	return;
	}

	memset(&icmp_targ, 0, sizeof(icmp_targ));

	fill_tun_header(&tun_header,ETH_P_IP);
	fill_ip_header(&ip_targ,sizeof(icmp_targ) + payload_size, IPPROTO_ICMP, ip6);

	icmp_targ.type = (icmp6->icmp6_type == ICMP6_ECHO_REQUEST) ? ICMP_ECHO : ICMP_ECHOREPLY;
	icmp_targ.code = 0x0;
	icmp_targ.checksum = 0;
	icmp_targ.un.echo.id = icmp6->icmp6_id;
	icmp_targ.un.echo.sequence = icmp6->icmp6_seq;

	temp_icmp_checksum = ip_checksum_add(0, &icmp_targ, sizeof(icmp_targ));
	temp_icmp_checksum = ip_checksum_add(temp_icmp_checksum, (void *)payload, payload_size);
	icmp_targ.checksum = ip_checksum_finish(temp_icmp_checksum);

	io_targ[0].iov_base = &tun_header;
	io_targ[0].iov_len = sizeof(tun_header);
	io_targ[1].iov_base = &ip_targ;
	io_targ[1].iov_len = sizeof(ip_targ);
	io_targ[2].iov_base = &icmp_targ;
	io_targ[2].iov_len = sizeof(icmp_targ);
	io_targ[3].iov_base = (char *)payload;
	io_targ[3].iov_len = payload_size;

	writev(fd, io_targ, 4);
	}

	/* function: udp_translate
	* common between ipv4/ipv6 - setup checksum and send udp packet
	* fd - tun interface fd
	* udp - source packet udp header
	* payload - udp payload
	* payload_size - size of payload
	* io_targ - iovec with tun and ipv4/ipv6 header (see below)
	* array position 0 - tun header
	* array position 1 - ipv4/ipv6 header
	* array position 2 - empty (will be udp header)
	* array position 3 - empty (will be payload)
	* checksum - partial checksum covering ipv4/ipv6 header
	*/
	void udp_translate(int fd, const struct udphdr udp, const char payload, size_t payload_size, struct iovec *io_targ, uint32_t checksum) {
	struct udphdr udp_targ;

	memcpy(&udp_targ, udp, sizeof(udp_targ));
	udp_targ.check = 0; // reset checksum, to be calculated

	checksum = ip_checksum_add(checksum, &udp_targ, sizeof(struct udphdr));
	checksum = ip_checksum_add(checksum, payload, payload_size);
	udp_targ.check = ip_checksum_finish(checksum);

	io_targ[2].iov_base = &udp_targ;
	io_targ[2].iov_len = sizeof(udp_targ);
	io_targ[3].iov_base = (char *)payload;
	io_targ[3].iov_len = payload_size;

	writev(fd, io_targ, 4);
	}

	/* function: udp_to_udp6
	* translate ipv4 udp to ipv6 udp
	* fd - tun interface fd
	* ip - source packet ipv4 header
	* udp - source packet udp header
	* payload - udp payload
	* payload_size - size of payload
	*/
	void udp_to_udp6(int fd, const struct iphdr ip, const struct udphdr udp, const char *payload, size_t payload_size) {
	struct ip6_hdr ip6_targ;
	struct iovec io_targ[4];
	struct tun_pi tun_header;
	uint32_t checksum;

	fill_tun_header(&tun_header,ETH_P_IPV6);

	fill_ip6_header(&ip6_targ,payload_size + sizeof(struct udphdr),IPPROTO_UDP,ip);

	checksum = ipv6_pseudo_header_checksum(0, &ip6_targ);

	io_targ[0].iov_base = &tun_header;
	io_targ[0].iov_len = sizeof(tun_header);
	io_targ[1].iov_base = &ip6_targ;
	io_targ[1].iov_len = sizeof(ip6_targ);

	udp_translate(fd,udp,payload,payload_size,io_targ,checksum);
	}

	/* function: udp6_to_udp
	* translate ipv6 udp to ipv4 udp
	* fd - tun interface fd
	* ip6 - source packet ipv6 header
	* udp - source packet udp header
	* payload - udp payload
	* payload_size - size of payload
	*/
	void udp6_to_udp(int fd, const struct ip6_hdr ip6, const struct udphdr udp, const char *payload, size_t payload_size) {
	struct iphdr ip_targ;
	struct iovec io_targ[4];
	struct tun_pi tun_header;
	uint32_t checksum;

	fill_tun_header(&tun_header,ETH_P_IP);

	fill_ip_header(&ip_targ,payload_size + sizeof(struct udphdr),IPPROTO_UDP,ip6);

	checksum = ipv4_pseudo_header_checksum(0, &ip_targ);

	io_targ[0].iov_base = &tun_header;
	io_targ[0].iov_len = sizeof(tun_header);
	io_targ[1].iov_base = &ip_targ;
	io_targ[1].iov_len = sizeof(ip_targ);

	udp_translate(fd,udp,payload,payload_size,io_targ,checksum);
	}

	/* function: tcp_translate
	* common between ipv4/ipv6 - setup checksum and send tcp packet
	* fd - tun interface fd
	* tcp - source packet tcp header
	* payload - tcp payload
	* payload_size - size of payload
	* io_targ - iovec with tun and ipv4/ipv6 header (see below)
	* array position 0 - tun header
	* array position 1 - ipv4/ipv6 header
	* array position 2 - empty (will be tcp header)
	* array position 3 - empty (will be tcp options or payload)
	* array position 4 - empty (can be payload)
	* checksum - partial checksum covering ipv4/ipv6 header
	* options - pointer to tcp option buffer
	* options_size - size of tcp option buffer
	*
	* TODO: mss rewrite
	* TODO: hosts without pmtu discovery - non DF packets will rely on fragmentation (unimplemented)
	*/
	void tcp_translate(int fd, const struct tcphdr tcp, const char payload, size_t payload_size, struct iovec io_targ, uint32_t checksum, const char options, size_t options_size) {
	struct tcphdr tcp_targ;
	int targ_index = 2;

	memcpy(&tcp_targ, tcp, sizeof(tcp_targ));
	tcp_targ.check = 0;

	checksum = ip_checksum_add(checksum, &tcp_targ, sizeof(tcp_targ));
	if(options) {
	checksum = ip_checksum_add(checksum, options, options_size);
	}
	checksum = ip_checksum_add(checksum, payload, payload_size);
	tcp_targ.check = ip_checksum_finish(checksum);

	io_targ[targ_index].iov_base = &tcp_targ;
	io_targ[targ_index].iov_len = sizeof(tcp_targ);
	targ_index++;

	if(options) {
	io_targ[targ_index].iov_base = (char *)options;
	io_targ[targ_index].iov_len = options_size;
	targ_index++;
	}

	io_targ[targ_index].iov_base = (char *)payload;
	io_targ[targ_index].iov_len = payload_size;
	targ_index++;

	writev(fd, io_targ, targ_index);
	}

	/* function: tcp_to_tcp6
	* translate ipv4 tcp to ipv6 tcp
	* fd - tun interface fd
	* ip - source packet ipv4 header
	* tcp - source packet tcp header
	* payload - tcp payload
	* payload_size - size of payload
	* options - tcp options
	* options_size - size of options
	*/
	void tcp_to_tcp6(int fd,const struct iphdr ip, const struct tcphdr tcp, const char payload, size_t payload_size, const char options, size_t options_size) {
	struct ip6_hdr ip6_targ;
	struct iovec io_targ[5];
	struct tun_pi tun_header;
	uint32_t checksum;

	fill_tun_header(&tun_header,ETH_P_IPV6);

	fill_ip6_header(&ip6_targ,payload_size+options_size+sizeof(struct tcphdr),IPPROTO_TCP,ip);

	checksum = ipv6_pseudo_header_checksum(0, &ip6_targ);

	io_targ[0].iov_base = &tun_header;
	io_targ[0].iov_len = sizeof(tun_header);
	io_targ[1].iov_base = &ip6_targ;
	io_targ[1].iov_len = sizeof(ip6_targ);

	tcp_translate(fd,tcp,payload,payload_size,io_targ,checksum,options,options_size);
	}

	/* function: tcp6_to_tcp
	* translate ipv6 tcp to ipv4 tcp
	* fd - tun interface fd
	* ip6 - source packet ipv6 header
	* tcp - source packet tcp header
	* payload - tcp payload
	* payload_size - size of payload
	* options - tcp options
	* options_size - size of options
	*/
	void tcp6_to_tcp(int fd,const struct ip6_hdr ip6, const struct tcphdr tcp, const char payload, size_t payload_size, const char options, size_t options_size) {
	struct iphdr ip_targ;
	struct iovec io_targ[5];
	struct tun_pi tun_header;
	uint32_t checksum;

	fill_tun_header(&tun_header,ETH_P_IP);

	fill_ip_header(&ip_targ,payload_size+options_size+sizeof(struct tcphdr),IPPROTO_TCP,ip6);

	checksum = ipv4_pseudo_header_checksum(0, &ip_targ);

	io_targ[0].iov_base = &tun_header;
	io_targ[0].iov_len = sizeof(tun_header);
	io_targ[1].iov_base = &ip_targ;
	io_targ[1].iov_len = sizeof(ip_targ);

	tcp_translate(fd,tcp,payload,payload_size,io_targ,checksum,options,options_size);
	}