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1 .\" $KAME: inet6_opt_init.3,v 1.7 2004/12/27 05:08:23 itojun Exp $
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30 .\" $FreeBSD: src/lib/libc/net/inet6_opt_init.3,v 1.10.10.1.4.1 2010/06/14 02:09:06 kensmith Exp $
31 .\"
32 .Dd December 23, 2004
33 .Dt INET6_OPT_INIT 3
34 .Os
35 .\"
36 .Sh NAME
37 .Nm inet6_opt_init ,
38 .Nm inet6_opt_append ,
39 .Nm inet6_opt_finish ,
40 .Nm inet6_opt_set_val ,
41 .Nm inet6_opt_next ,
42 .Nm inet6_opt_find ,
43 .Nm inet6_opt_get_val
44 .Nd IPv6 Hop-by-Hop and Destination Options manipulation
45 .\"
46 .Sh SYNOPSIS
47 .In netinet/in.h
48 .Ft "int"
49 .Fn inet6_opt_init "void *extbuf" "socklen_t extlen"
50 .Ft "int"
51 .Fn inet6_opt_append "void *extbuf" "socklen_t extlen" "int offset" "u_int8_t type" "socklen_t len" "u_int8_t align" "void **databufp"
52 .Ft "int"
53 .Fn inet6_opt_finish "void *extbuf" "socklen_t extlen" "int offset"
54 .Ft "int"
55 .Fn inet6_opt_set_val "void *databuf" "int offset" "void *val" "socklen_t vallen"
56 .Ft "int"
57 .Fn inet6_opt_next "void *extbuf" "socklen_t extlen" "int offset" "u_int8_t *typep" "socklen_t *lenp" "void **databufp"
58 .Ft "int"
59 .Fn inet6_opt_find "void *extbuf" "socklen_t extlen" "int offset" "u_int8_t type" "socklen_t *lenp" "void **databufp"
60 .Ft "int"
61 .Fn inet6_opt_get_val "void *databuf" "int offset" "void *val" "socklen_t vallen"
62 .\"
63 .Sh DESCRIPTION
64 Building and parsing the Hop-by-Hop and Destination options is
65 complicated.
66 The advanced sockets API defines a set of functions to
67 help applications create and manipulate Hop-by-Hop and Destination
68 options.
69 This man page describes the functions specified in
70 IETF Draft RFC3542.
71 These functions use the
72 formatting rules specified in Appendix B in RFC2460, i.e., that the
73 largest field is placed last in the option.
74 The function prototypes
75 for these functions are all contained in the
76 .In netinet/in.h
77 header file.
78 .\"
79 .Ss inet6_opt_init
80 The
81 .Fn inet6_opt_init
82 function
83 returns the number of bytes needed for an empty
84 extension header, one without any options.
85 If the
86 .Fa extbuf
87 argument points to a valid section of memory
88 then the
89 .Fn inet6_opt_init
90 function also initializes the extension header's length field.
91 When attempting to initialize an extension buffer passed in the
92 .Fa extbuf
93 argument,
94 .Fa extlen
95 must be a positive multiple of 8 or else the function fails and
96 returns \-1 to the caller.
97 .\"
98 .Ss inet6_opt_append
99 The
100 .Fn inet6_opt_append
101 function can perform two different jobs.
102 When a valid
103 .Fa extbuf
104 argument is supplied it appends an option to the extension buffer and
105 returns the updated total length as well as a pointer to the newly
106 created option in
107 .Fa databufp .
108 If the value
109 of
110 .Fa extbuf
111 is
112 .Dv NULL
113 then the
114 .Fn inet6_opt_append
115 function only reports what the total length would
116 be if the option were actually appended.
117 The
118 .Fa len
119 and
120 .Fa align
121 arguments specify the length of the option and the required data
122 alignment which must be used when appending the option.
123 The
124 .Fa offset
125 argument should be the length returned by the
126 .Fn inet6_opt_init
127 function or a previous call to
128 .Fn inet6_opt_append .
129 .Pp
130 The
131 .Fa type
132 argument is the 8-bit option type.
133 .Pp
134 After
135 .Fn inet6_opt_append
136 has been called, the application can use the buffer pointed to by
137 .Fa databufp
138 directly, or use
139 .Fn inet6_opt_set_val
140 to specify the data to be contained in the option.
141 .Pp
142 Option types of
143 .Li 0
144 and
145 .Li 1
146 are reserved for the
147 .Li Pad1
148 and
149 .Li PadN
150 options.
151 All other values from 2 through 255 may be used by applications.
152 .Pp
153 The length of the option data is contained in an 8-bit value and so
154 may contain any value from 0 through 255.
155 .Pp
156 The
157 .Fa align
158 parameter must have a value of 1, 2, 4, or 8 and cannot exceed the
159 value of
160 .Fa len .
161 The alignment values represent no alignment, 16 bit, 32 bit and 64 bit
162 alignments, respectively.
163 .\"
164 .Ss inet6_opt_finish
165 The
166 .Fn inet6_opt_finish
167 function
168 calculates the final padding necessary to make the extension header a
169 multiple of 8 bytes, as required by the IPv6 extension header
170 specification, and returns the extension header's updated total
171 length.
172 The
173 .Fa offset
174 argument should be the length returned by
175 .Fn inet6_opt_init
176 or
177 .Fn inet6_opt_append .
178 When
179 .Fa extbuf
180 is not
181 .Dv NULL
182 the function also sets up the appropriate padding bytes by inserting a
183 Pad1 or PadN option of the proper length.
184 .Pp
185 If the extension header is too small to contain the proper padding
186 then an error of \-1 is returned to the caller.
187 .\"
188 .Ss inet6_opt_set_val
189 The
190 .Fn inet6_opt_set_val
191 function inserts data items of various sizes into the data portion of
192 the option.
193 The
194 .Fa databuf
195 argument is a pointer to memory that was returned by the
196 .Fn inet6_opt_append
197 call and the
198 .Fa offset
199 argument specifies where the option should be placed in the
200 data buffer.
201 The
202 .Fa val
203 argument points to an area of memory containing the data to be
204 inserted into the extension header, and the
205 .Fa vallen
206 argument indicates how much data to copy.
207 .Pp
208 The caller should ensure that each field is aligned on its natural
209 boundaries as described in Appendix B of RFC2460.
210 .Pp
211 The function returns the offset for the next field which is calculated as
212 .Fa offset
213 +
214 .Fa vallen
215 and is used when composing options with multiple fields.
216 .\"
217 .Ss inet6_opt_next
218 The
219 .Fn inet6_opt_next
220 function parses received extension headers.
221 The
222 .Fa extbuf
223 and
224 .Fa extlen
225 arguments specify the location and length of the extension header
226 being parsed.
227 The
228 .Fa offset
229 argument should either be zero, for the first option, or the length value
230 returned by a previous call to
231 .Fn inet6_opt_next
232 or
233 .Fn inet6_opt_find .
234 The return value specifies the position where to continue scanning the
235 extension buffer.
236 The option is returned in the arguments
237 .Fa typep , lenp ,
238 and
239 .Fa databufp ,
240 which
241 point to the 8-bit option type, the 8-bit option length and the option
242 data, respectively.
243 This function does not return any PAD1 or PADN options.
244 When an error occurs or there are no more options, the return
245 value is \-1.
246 .\"
247 .Ss inet6_opt_find
248 The
249 .Fn inet6_opt_find
250 function searches the extension buffer for a particular option type,
251 passed in through the
252 .Fa type
253 argument.
254 If the option is found then the
255 .Fa lenp
256 and
257 .Fa databufp
258 arguments are updated to point to the option's length and data,
259 respectively.
260 The
261 .Fa extbuf
262 and
263 .Fa extlen
264 arguments
265 must point to a valid extension buffer and give its length.
266 The
267 .Fa offset
268 argument can be used to search from a location anywhere in the
269 extension header.
270 .Ss inet6_opt_get_val
271 The
272 .Fn inet6_opt_get_val
273 function extracts data items of various sizes in the data portion of
274 the option.
275 The
276 .Fa databuf
277 is a pointer returned by the
278 .Fn inet6_opt_next
279 or
280 .Fn inet6_opt_find
281 functions.
282 The
283 .Fa val
284 argument points where the data will be extracted.
285 The
286 .Fa offset
287 argument specifies from where in the data portion of the option the
288 value should be extracted; the first byte of option data is specified
289 by an offset of zero.
290 .Pp
291 It is expected that each field is aligned on its natural boundaries as
292 described in Appendix B of RFC2460.
293 .Pp
294 The function returns the offset for the next field
295 by calculating
296 .Fa offset
297 +
298 .Fa vallen
299 which can be used when extracting option content with multiple fields.
300 Robust receivers must verify alignment before calling this function.
301 .\"
302 .Sh RETURN VALUES
303 All the functions return
304 \-1
305 on an error.
306 .\"
307 .Sh EXAMPLES
308 RFC3542 gives comprehensive examples in Section 23.
309 .Pp
310 KAME also provides examples in the
311 .Pa advapitest
312 directory of its kit.
313 .\"
314 .Sh SEE ALSO
315 .Rs
316 .%A W. Stevens
317 .%A M. Thomas
318 .%A E. Nordmark
319 .%A T. Jinmei
320 .%T "Advanced Sockets API for IPv6"
321 .%N RFC3542
322 .%D October 2002
323 .Re
324 .Rs
325 .%A S. Deering
326 .%A R. Hinden
327 .%T "Internet Protocol, Version 6 (IPv6) Specification"
328 .%N RFC2460
329 .%D December 1998
330 .Re
331 .Sh STANDARDS
332 The functions are documented in
333 .Dq Advanced Sockets API for IPv6
334 .Pq RFC3542 .
335 .\"
336 .Sh HISTORY
337 The implementation first appeared in KAME advanced networking kit.