2 /* $KAME: ip6.h,v 1.18 2001/03/29 05:34:30 itojun Exp $ */
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63 * @(#)ip.h 8.1 (Berkeley) 6/10/93
66 #ifndef _NETINET_IP6_H_
67 #define _NETINET_IP6_H_
70 * Definition for internet protocol version 6.
77 u_int32_t ip6_un1_flow; /* 20 bits of flow-ID */
78 u_int16_t ip6_un1_plen; /* payload length */
79 u_int8_t ip6_un1_nxt; /* next header */
80 u_int8_t ip6_un1_hlim; /* hop limit */
82 u_int8_t ip6_un2_vfc; /* 4 bits version, top 4 bits class */
84 struct in6_addr ip6_src; /* source address */
85 struct in6_addr ip6_dst; /* destination address */
88 #define ip6_vfc ip6_ctlun.ip6_un2_vfc
89 #define ip6_flow ip6_ctlun.ip6_un1.ip6_un1_flow
90 #define ip6_plen ip6_ctlun.ip6_un1.ip6_un1_plen
91 #define ip6_nxt ip6_ctlun.ip6_un1.ip6_un1_nxt
92 #define ip6_hlim ip6_ctlun.ip6_un1.ip6_un1_hlim
93 #define ip6_hops ip6_ctlun.ip6_un1.ip6_un1_hlim
95 #define IPV6_VERSION 0x60
96 #define IPV6_VERSION_MASK 0xf0
98 #if BYTE_ORDER == BIG_ENDIAN
99 #define IPV6_FLOWINFO_MASK 0x0fffffff /* flow info (28 bits) */
100 #define IPV6_FLOWLABEL_MASK 0x000fffff /* flow label (20 bits) */
102 #if BYTE_ORDER == LITTLE_ENDIAN
103 #define IPV6_FLOWINFO_MASK 0xffffff0f /* flow info (28 bits) */
104 #define IPV6_FLOWLABEL_MASK 0xffff0f00 /* flow label (20 bits) */
105 #endif /* LITTLE_ENDIAN */
107 #define IPV6_FLOWLABEL_LEN 20
109 /* ECN bits proposed by Sally Floyd */
110 #define IP6TOS_CE 0x01 /* congestion experienced */
111 #define IP6TOS_ECT 0x02 /* ECN-capable transport */
123 /* Hop-by-Hop options header */
124 /* XXX should we pad it to force alignment on an 8-byte boundary? */
126 u_int8_t ip6h_nxt; /* next header */
127 u_int8_t ip6h_len; /* length in units of 8 octets */
128 /* followed by options */
131 /* Destination options header */
132 /* XXX should we pad it to force alignment on an 8-byte boundary? */
134 u_int8_t ip6d_nxt; /* next header */
135 u_int8_t ip6d_len; /* length in units of 8 octets */
136 /* followed by options */
139 /* Option types and related macros */
140 #define IP6OPT_PAD1 0x00 /* 00 0 00000 */
141 #define IP6OPT_PADN 0x01 /* 00 0 00001 */
142 #define IP6OPT_JUMBO 0xC2 /* 11 0 00010 = 194 */
143 #define IP6OPT_NSAP_ADDR 0xC3 /* 11 0 00011 */
144 #define IP6OPT_TUNNEL_LIMIT 0x04 /* 00 0 00100 */
146 #define IP6OPT_RTALERT 0x05 /* 00 0 00101 (KAME definition) */
148 #define IP6OPT_ROUTER_ALERT 0x05 /* 00 0 00101 (RFC3542, recommended) */
150 #define IP6OPT_RTALERT_LEN 4
151 #define IP6OPT_RTALERT_MLD 0 /* Datagram contains an MLD message */
152 #define IP6OPT_RTALERT_RSVP 1 /* Datagram contains an RSVP message */
153 #define IP6OPT_RTALERT_ACTNET 2 /* contains an Active Networks msg */
154 #define IP6OPT_MINLEN 2
156 #define IP6OPT_EID 0x8a /* 10 0 01010 */
158 #define IP6OPT_TYPE(o) ((o) & 0xC0)
159 #define IP6OPT_TYPE_SKIP 0x00
160 #define IP6OPT_TYPE_DISCARD 0x40
161 #define IP6OPT_TYPE_FORCEICMP 0x80
162 #define IP6OPT_TYPE_ICMP 0xC0
164 #define IP6OPT_MUTABLE 0x20
166 /* IPv6 options: common part */
172 /* Jumbo Payload Option */
173 struct ip6_opt_jumbo {
176 u_int8_t ip6oj_jumbo_len[4];
178 #define IP6OPT_JUMBO_LEN 6
180 /* NSAP Address Option */
181 struct ip6_opt_nsap {
184 u_int8_t ip6on_src_nsap_len;
185 u_int8_t ip6on_dst_nsap_len;
186 /* followed by source NSAP */
187 /* followed by destination NSAP */
190 /* Tunnel Limit Option */
191 struct ip6_opt_tunnel {
194 u_int8_t ip6ot_encap_limit;
197 /* Router Alert Option */
198 struct ip6_opt_router {
201 u_int8_t ip6or_value[2];
203 /* Router alert values (in network byte order) */
204 #if BYTE_ORDER == BIG_ENDIAN
205 #define IP6_ALERT_MLD 0x0000
206 #define IP6_ALERT_RSVP 0x0001
207 #define IP6_ALERT_AN 0x0002
209 #if BYTE_ORDER == LITTLE_ENDIAN
210 #define IP6_ALERT_MLD 0x0000
211 #define IP6_ALERT_RSVP 0x0100
212 #define IP6_ALERT_AN 0x0200
213 #endif /* LITTLE_ENDIAN */
218 u_int8_t ip6r_nxt; /* next header */
219 u_int8_t ip6r_len; /* length in units of 8 octets */
220 u_int8_t ip6r_type; /* routing type */
221 u_int8_t ip6r_segleft; /* segments left */
222 /* followed by routing type specific data */
225 /* Type 0 Routing header, deprecated by RFC 5095. */
227 u_int8_t ip6r0_nxt; /* next header */
228 u_int8_t ip6r0_len; /* length in units of 8 octets */
229 u_int8_t ip6r0_type; /* always zero */
230 u_int8_t ip6r0_segleft; /* segments left */
231 u_int32_t ip6r0_reserved; /* reserved field */
232 /* followed by up to 127 struct in6_addr */
235 /* Fragment header */
237 u_int8_t ip6f_nxt; /* next header */
238 u_int8_t ip6f_reserved; /* reserved field */
239 u_int16_t ip6f_offlg; /* offset, reserved, and flag */
240 u_int32_t ip6f_ident; /* identification */
243 #if BYTE_ORDER == BIG_ENDIAN
244 #define IP6F_OFF_MASK 0xfff8 /* mask out offset from _offlg */
245 #define IP6F_RESERVED_MASK 0x0006 /* reserved bits in ip6f_offlg */
246 #define IP6F_MORE_FRAG 0x0001 /* more-fragments flag */
247 #else /* BYTE_ORDER == LITTLE_ENDIAN */
248 #define IP6F_OFF_MASK 0xf8ff /* mask out offset from _offlg */
249 #define IP6F_RESERVED_MASK 0x0600 /* reserved bits in ip6f_offlg */
250 #define IP6F_MORE_FRAG 0x0100 /* more-fragments flag */
251 #endif /* BYTE_ORDER == LITTLE_ENDIAN */
254 * Internet implementation parameters.
256 #define IPV6_MAXHLIM 255 /* maximum hoplimit */
257 #define IPV6_DEFHLIM 64 /* default hlim */
258 #define IPV6_FRAGTTL 120 /* ttl for fragment packets, in slowtimo tick */
259 #define IPV6_HLIMDEC 1 /* subtracted when forwarding */
261 #define IPV6_MMTU 1280 /* minimal MTU and reassembly. 1024 + 256 */
262 #define IPV6_MAXPACKET 65535 /* ip6 max packet size without Jumbo payload*/
263 #define IPV6_MAXOPTHDR 2048 /* max option header size, 256 64-bit words */
267 * IP6_EXTHDR_CHECK ensures that region between the IP6 header and the
268 * target header (including IPv6 itself, extension headers and
269 * TCP/UDP/ICMP6 headers) are contiguous. KAME requires drivers
270 * to store incoming data into one internal mbuf or one or more external
271 * mbufs(never into two or more internal mbufs). Thus, the third case is
272 * supposed to never be matched but is prepared just in case.
275 #define IP6_EXTHDR_CHECK(m, off, hlen, ret) \
277 if ((m)->m_next != NULL) { \
278 if (((m)->m_flags & M_LOOP) && \
279 ((m)->m_len < (off) + (hlen)) && \
280 (((m) = m_pullup((m), (off) + (hlen))) == NULL)) { \
281 IP6STAT_INC(ip6s_exthdrtoolong); \
284 if ((m)->m_len < (off) + (hlen)) { \
285 IP6STAT_INC(ip6s_exthdrtoolong); \
291 if ((m)->m_len < (off) + (hlen)) { \
292 IP6STAT_INC(ip6s_tooshort); \
293 in6_ifstat_inc(m->m_pkthdr.rcvif, ifs6_in_truncated); \
298 } while (/*CONSTCOND*/ 0)
301 * IP6_EXTHDR_GET ensures that intermediate protocol header (from "off" to
302 * "len") is located in single mbuf, on contiguous memory region.
303 * The pointer to the region will be returned to pointer variable "val",
305 * IP6_EXTHDR_GET0 does the same, except that it aligns the structure at the
306 * very top of mbuf. GET0 is likely to make memory copy than GET.
308 * XXX we're now testing this, needs m_pulldown()
310 #define IP6_EXTHDR_GET(val, typ, m, off, len) \
314 if ((m)->m_len >= (off) + (len)) \
315 (val) = (typ)(mtod((m), caddr_t) + (off)); \
317 t = m_pulldown((m), (off), (len), &tmp); \
319 if (t->m_len < tmp + (len)) \
320 panic("m_pulldown malfunction"); \
321 (val) = (typ)(mtod(t, caddr_t) + tmp); \
327 } while (/*CONSTCOND*/ 0)
329 #define IP6_EXTHDR_GET0(val, typ, m, off, len) \
333 (val) = (typ)mtod(m, caddr_t); \
335 t = m_pulldown((m), (off), (len), NULL); \
337 if (t->m_len < (len)) \
338 panic("m_pulldown malfunction"); \
339 (val) = (typ)mtod(t, caddr_t); \
345 } while (/*CONSTCOND*/ 0)
349 #endif /* not _NETINET_IP6_H_ */