/* Copyright (C) 2007-2013 Open Information Security Foundation * * You can copy, redistribute or modify this Program under the terms of * the GNU General Public License version 2 as published by the Free * Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * version 2 along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ /** * \file * * \author Victor Julien */ #ifndef __DECODE_IPV6_H__ #define __DECODE_IPV6_H__ #define IPV6_HEADER_LEN 40 #define IPV6_MAXPACKET 65535 /* maximum packet size */ #define IPV6_MAX_OPT 40 typedef struct IPV6Hdr_ { union { struct ip6_un1_ { uint32_t ip6_un1_flow; /* 20 bits of flow-ID */ uint16_t ip6_un1_plen; /* payload length */ uint8_t ip6_un1_nxt; /* next header */ uint8_t ip6_un1_hlim; /* hop limit */ } ip6_un1; uint8_t ip6_un2_vfc; /* 4 bits version, top 4 bits class */ } ip6_hdrun; union { struct { uint32_t ip6_src[4]; uint32_t ip6_dst[4]; } ip6_un2; uint16_t ip6_addrs[16]; } ip6_hdrun2; } __attribute__((__packed__)) IPV6Hdr; #define s_ip6_src ip6_hdrun2.ip6_un2.ip6_src #define s_ip6_dst ip6_hdrun2.ip6_un2.ip6_dst #define s_ip6_addrs ip6_hdrun2.ip6_addrs #define s_ip6_vfc ip6_hdrun.ip6_un2_vfc #define s_ip6_flow ip6_hdrun.ip6_un1.ip6_un1_flow #define s_ip6_plen ip6_hdrun.ip6_un1.ip6_un1_plen #define s_ip6_nxt ip6_hdrun.ip6_un1.ip6_un1_nxt #define s_ip6_hlim ip6_hdrun.ip6_un1.ip6_un1_hlim #define IPV6_GET_RAW_VER(ip6h) (((ip6h)->s_ip6_vfc & 0xf0) >> 4) #define IPV6_GET_RAW_CLASS(ip6h) ((ntohl((ip6h)->s_ip6_flow) & 0x0FF00000) >> 20) #define IPV6_GET_RAW_FLOW(ip6h) (ntohl((ip6h)->s_ip6_flow) & 0x000FFFFF) #define IPV6_GET_RAW_NH(ip6h) ((ip6h)->s_ip6_nxt) #define IPV6_GET_RAW_PLEN(ip6h) (ntohs((ip6h)->s_ip6_plen)) #define IPV6_GET_RAW_HLIM(ip6h) ((ip6h)->s_ip6_hlim) #define IPV6_SET_RAW_VER(ip6h, value) ((ip6h)->s_ip6_vfc = (((ip6h)->s_ip6_vfc & 0x0f) | (value << 4))) #define IPV6_SET_RAW_NH(ip6h, value) ((ip6h)->s_ip6_nxt = (value)) #define IPV6_SET_L4PROTO(p,proto) (p)->ip6vars.l4proto = proto /* ONLY call these functions after making sure that: * 1. p->ip6h is set * 2. p->ip6h is valid (len is correct) */ #define IPV6_GET_VER(p) \ IPV6_GET_RAW_VER((p)->ip6h) #define IPV6_GET_CLASS(p) \ IPV6_GET_RAW_CLASS((p)->ip6h) #define IPV6_GET_FLOW(p) \ IPV6_GET_RAW_FLOW((p)->ip6h) #define IPV6_GET_NH(p) \ (IPV6_GET_RAW_NH((p)->ip6h)) #define IPV6_GET_PLEN(p) \ IPV6_GET_RAW_PLEN((p)->ip6h) #define IPV6_GET_HLIM(p) \ (IPV6_GET_RAW_HLIM((p)->ip6h)) /* XXX */ #define IPV6_GET_L4PROTO(p) \ ((p)->ip6vars.l4proto) /** \brief get the highest proto/next header field we know */ //#define IPV6_GET_UPPER_PROTO(p) (p)->ip6eh.ip6_exthdrs_cnt ? // (p)->ip6eh.ip6_exthdrs[(p)->ip6eh.ip6_exthdrs_cnt - 1].next : IPV6_GET_NH((p)) /* helper structure with parsed ipv6 info */ typedef struct IPV6Vars_ { uint8_t ip_opts_len; uint8_t l4proto; /* the proto after the extension headers * store while decoding so we don't have * to loop through the exthdrs all the time */ } IPV6Vars; #define CLEAR_IPV6_PACKET(p) do { \ (p)->ip6h = NULL; \ (p)->ip6vars.ip_opts_len = 0; \ (p)->ip6vars.l4proto = 0; \ (p)->ip6eh.ip6fh = NULL; \ (p)->ip6eh.fh_offset = 0; \ (p)->ip6eh.ip6rh = NULL; \ (p)->ip6eh.ip6eh = NULL; \ (p)->ip6eh.ip6dh1 = NULL; \ (p)->ip6eh.ip6dh2 = NULL; \ (p)->ip6eh.ip6hh = NULL; \ (p)->ip6eh.ip6_exthdrs_cnt = 0; \ } while (0) /* Fragment header */ typedef struct IPV6FragHdr_ { uint8_t ip6fh_nxt; /* next header */ uint8_t ip6fh_reserved; /* reserved field */ uint16_t ip6fh_offlg; /* offset, reserved, and flag */ uint32_t ip6fh_ident; /* identification */ } __attribute__((__packed__)) IPV6FragHdr; #define IPV6_EXTHDR_GET_RAW_FH_NH(p) ((p)->ip6eh.ip6fh->ip6fh_nxt) #define IPV6_EXTHDR_GET_RAW_FH_HDRLEN(p) sizeof(IPV6FragHdr) #define IPV6_EXTHDR_GET_RAW_FH_OFFSET(p) (ntohs((p)->ip6eh.ip6fh->ip6fh_offlg) & 0xFFF8) #define IPV6_EXTHDR_GET_RAW_FH_FLAG(p) (ntohs((p)->ip6eh.ip6fh->ip6fh_offlg) & 0x0001) #define IPV6_EXTHDR_GET_RAW_FH_ID(p) (ntohl((p)->ip6eh.ip6fh->ip6fh_ident)) #define IPV6_EXTHDR_GET_FH_NH(p) IPV6_EXTHDR_GET_RAW_FH_NH((p)) #define IPV6_EXTHDR_GET_FH_HDRLEN(p) IPV6_EXTHDR_GET_RAW_FH_HDRLEN((p)) #define IPV6_EXTHDR_GET_FH_OFFSET(p) IPV6_EXTHDR_GET_RAW_FH_OFFSET((p)) #define IPV6_EXTHDR_GET_FH_FLAG(p) IPV6_EXTHDR_GET_RAW_FH_FLAG((p)) #define IPV6_EXTHDR_GET_FH_ID(p) IPV6_EXTHDR_GET_RAW_FH_ID((p)) /* rfc 1826 */ typedef struct IPV6AuthHdr_ { uint8_t ip6ah_nxt; /* next header */ uint8_t ip6ah_len; /* header length in units of 8 bytes, not including first 8 bytes. */ uint16_t ip6ah_reserved; /* reserved for future use */ uint32_t ip6ah_spi; /* SECURITY PARAMETERS INDEX (SPI) */ uint32_t ip6ah_seq; /* sequence number */ } __attribute__((__packed__)) IPV6AuthHdr; typedef struct IPV6EspHdr_ { uint32_t ip6esph_spi; /* SECURITY PARAMETERS INDEX (SPI) */ uint32_t ip6esph_seq; /* sequence number */ } __attribute__((__packed__)) IPV6EspHdr; typedef struct IPV6RouteHdr_ { uint8_t ip6rh_nxt; /* next header */ uint8_t ip6rh_len; /* header length in units of 8 bytes, not including first 8 bytes. */ uint8_t ip6rh_type; /* routing type */ uint8_t ip6rh_segsleft; /* segments left */ #if 0 struct in6_addr ip6rh0_addr[23]; /* type 0 addresses */ uint8_t ip6rh0_num_addrs; /* number of actual addresses in the array/packet. The array is guarranteed to be filled up to this number. */ #endif } __attribute__((__packed__)) IPV6RouteHdr; #define IPV6_EXTHDR_GET_RAW_RH_NH(p) ((p)->ip6eh.ip6rh->ip6rh_nxt) #define IPV6_EXTHDR_GET_RAW_RH_HDRLEN(p) ((p)->ip6eh.ip6rh->ip6rh_len) #define IPV6_EXTHDR_GET_RAW_RH_TYPE(p) (ntohs((p)->ip6eh.ip6rh->ip6rh_type)) /* XXX */ #define IPV6_EXTHDR_GET_RH_NH(p) IPV6_EXTHDR_GET_RAW_RH_NH((p)) #define IPV6_EXTHDR_GET_RH_HDRLEN(p) IPV6_EXTHDR_GET_RAW_RH_HDRLEN((p)) #define IPV6_EXTHDR_GET_RH_TYPE(p) IPV6_EXTHDR_GET_RAW_RH_TYPE((p)) /* XXX */ /* Hop-by-Hop header and Destination Options header use options that are * defined here. */ #define IPV6OPT_PAD1 0x00 #define IPV6OPT_PADN 0x01 #define IPV6OPT_RA 0x05 #define IPV6OPT_JUMBO 0xC2 #define IPV6OPT_HAO 0xC9 /* Home Address Option */ typedef struct IPV6OptHAO_ { uint8_t ip6hao_type; /* Option type */ uint8_t ip6hao_len; /* Option Data len (excludes type and len) */ struct in6_addr ip6hao_hoa; /* Home address. */ } IPV6OptHAO; /* Router Alert Option */ typedef struct IPV6OptRA_ { uint8_t ip6ra_type; /* Option type */ uint8_t ip6ra_len; /* Option Data len (excludes type and len) */ uint16_t ip6ra_value; /* Router Alert value */ } IPV6OptRA; /* Jumbo Option */ typedef struct IPV6OptJumbo_ { uint8_t ip6j_type; /* Option type */ uint8_t ip6j_len; /* Option Data len (excludes type and len) */ uint32_t ip6j_payload_len; /* Jumbo Payload Length */ } IPV6OptJumbo; typedef struct IPV6HopOptsHdr_ { uint8_t ip6hh_nxt; /* next header */ uint8_t ip6hh_len; /* header length in units of 8 bytes, not including first 8 bytes. */ } __attribute__((__packed__)) IPV6HopOptsHdr; #define IPV6_EXTHDR_GET_RAW_HH_NH(p) ((p)->ip6eh.ip6hh->ip6hh_nxt) #define IPV6_EXTHDR_GET_RAW_HH_HDRLEN(p) ((p)->ip6eh.ip6hh->ip6hh_len) /* XXX */ #define IPV6_EXTHDR_GET_HH_NH(p) IPV6_EXTHDR_GET_RAW_HH_NH((p)) #define IPV6_EXTHDR_GET_HH_HDRLEN(p) IPV6_EXTHDR_GET_RAW_HH_HDRLEN((p)) /* XXX */ typedef struct IPV6DstOptsHdr_ { uint8_t ip6dh_nxt; /* next header */ uint8_t ip6dh_len; /* header length in units of 8 bytes, not including first 8 bytes. */ } __attribute__((__packed__)) IPV6DstOptsHdr; #define IPV6_EXTHDR_GET_RAW_DH1_NH(p) ((p)->ip6eh.ip6dh1->ip6dh_nxt) #define IPV6_EXTHDR_GET_RAW_DH1_HDRLEN(p) ((p)->ip6eh.ip6dh1->ip6dh_len) /* XXX */ #define IPV6_EXTHDR_GET_DH1_NH(p) IPV6_EXTHDR_GET_RAW_DH1_NH((p)) #define IPV6_EXTHDR_GET_DH1_HDRLEN(p) IPV6_EXTHDR_GET_RAW_DH1_HDRLEN((p)) /* XXX */ #define IPV6_EXTHDR_GET_RAW_DH2_NH(p) ((p)->ip6eh.ip6dh2->ip6dh_nxt) #define IPV6_EXTHDR_GET_RAW_DH2_HDRLEN(p) ((p)->ip6eh.ip6dh2->ip6dh_len) /* XXX */ #define IPV6_EXTHDR_GET_DH2_NH(p) IPV6_EXTHDR_GET_RAW_DH2_NH((p)) #define IPV6_EXTHDR_GET_DH2_HDRLEN(p) IPV6_EXTHDR_GET_RAW_DH2_HDRLEN((p)) /* XXX */ typedef struct IPV6GenOptHdr_ { uint8_t type; uint8_t next; uint8_t len; uint8_t *data; } IPV6GenOptHdr; typedef struct IPV6ExtHdrs_ { const IPV6FragHdr *ip6fh; /* In fh_offset we store the offset of this extension into the packet past * the ipv6 header. We use it in defrag for creating a defragmented packet * without the frag header */ uint16_t fh_offset; const IPV6RouteHdr *ip6rh; const IPV6AuthHdr *ip6ah; const IPV6EspHdr *ip6eh; const IPV6DstOptsHdr *ip6dh1; const IPV6DstOptsHdr *ip6dh2; const IPV6HopOptsHdr *ip6hh; /* Hop-By-Hop options */ IPV6OptHAO ip6hh_opt_hao; IPV6OptRA ip6hh_opt_ra; IPV6OptJumbo ip6hh_opt_jumbo; /* Dest Options 1 */ IPV6OptHAO ip6dh1_opt_hao; IPV6OptRA ip6dh1_opt_ra; IPV6OptJumbo ip6dh1_opt_jumbo; /* Dest Options 2 */ IPV6OptHAO ip6dh2_opt_hao; IPV6OptRA ip6dh2_opt_ra; IPV6OptJumbo ip6dh2_opt_jumbo; IPV6GenOptHdr ip6_exthdrs[IPV6_MAX_OPT]; uint8_t ip6_exthdrs_cnt; } IPV6ExtHdrs; #define IPV6_EXTHDR_FH(p) (p)->ip6eh.ip6fh #define IPV6_EXTHDR_RH(p) (p)->ip6eh.ip6rh #define IPV6_EXTHDR_AH(p) (p)->ip6eh.ip6ah #define IPV6_EXTHDR_EH(p) (p)->ip6eh.ip6eh #define IPV6_EXTHDR_DH1(p) (p)->ip6eh.ip6dh1 #define IPV6_EXTHDR_DH2(p) (p)->ip6eh.ip6dh2 #define IPV6_EXTHDR_HH(p) (p)->ip6eh.ip6hh #define IPV6_EXTHDR_HH_HAO(p) (p)->ip6eh.ip6hh_opt_hao #define IPV6_EXTHDR_DH1_HAO(p) (p)->ip6eh.ip6dh1_opt_hao #define IPV6_EXTHDR_DH2_HAO(p) (p)->ip6eh.ip6dh2_opt_hao #define IPV6_EXTHDR_HH_RA(p) (p)->ip6eh.ip6hh_opt_ra #define IPV6_EXTHDR_DH1_RA(p) (p)->ip6eh.ip6dh1_opt_ra #define IPV6_EXTHDR_DH2_RA(p) (p)->ip6eh.ip6dh2_opt_ra #define IPV6_EXTHDR_HH_JUMBO(p) (p)->ip6eh.ip6hh_opt_jumbo #define IPV6_EXTHDR_DH1_JUMBO(p) (p)->ip6eh.ip6dh1_opt_jumbo #define IPV6_EXTHDR_DH2_JUMBO(p) (p)->ip6eh.ip6dh2_opt_jumbo #define IPV6_EXTHDR_SET_FH(p,pkt) IPV6_EXTHDR_FH((p)) = (IPV6FragHdr *)pkt #define IPV6_EXTHDR_ISSET_FH(p) (IPV6_EXTHDR_FH((p)) != NULL) #define IPV6_EXTHDR_SET_RH(p,pkt) IPV6_EXTHDR_RH((p)) = (IPV6RouteHdr *)pkt #define IPV6_EXTHDR_ISSET_RH(p) (IPV6_EXTHDR_RH((p)) != NULL) #define IPV6_EXTHDR_SET_AH(p,pkt) IPV6_EXTHDR_AH((p)) = (IPV6AuthHdr *)pkt #define IPV6_EXTHDR_ISSET_AH(p) (IPV6_EXTHDR_AH((p)) != NULL) #define IPV6_EXTHDR_SET_EH(p,pkt) IPV6_EXTHDR_EH((p)) = (IPV6EspHdr *)pkt #define IPV6_EXTHDR_ISSET_EH(p) (IPV6_EXTHDR_EH((p)) != NULL) #define IPV6_EXTHDR_SET_DH1(p,pkt) IPV6_EXTHDR_DH1((p)) = (IPV6DstOptsHdr *)pkt #define IPV6_EXTHDR_ISSET_DH1(p) (IPV6_EXTHDR_DH1((p)) != NULL) #define IPV6_EXTHDR_SET_DH2(p,pkt) IPV6_EXTHDR_DH2((p)) = (IPV6DstOptsHdr *)pkt #define IPV6_EXTHDR_ISSET_DH2(p) (IPV6_EXTHDR_DH2((p)) != NULL) #define IPV6_EXTHDR_SET_HH(p,pkt) IPV6_EXTHDR_HH((p)) = (IPV6HopOptsHdr *)pkt #define IPV6_EXTHDR_ISSET_HH(p) (IPV6_EXTHDR_HH((p)) != NULL) void DecodeIPV6RegisterTests(void); #endif /* __DECODE_IPV6_H__ */