xref: /titanic_52/usr/src/lib/libdhcputil/README.inittab (revision 03831d35f7499c87d51205817c93e9a8d42c4bae)
1#
2# CDDL HEADER START
3#
4# The contents of this file are subject to the terms of the
5# Common Development and Distribution License, Version 1.0 only
6# (the "License").  You may not use this file except in compliance
7# with the License.
8#
9# You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10# or http://www.opensolaris.org/os/licensing.
11# See the License for the specific language governing permissions
12# and limitations under the License.
13#
14# When distributing Covered Code, include this CDDL HEADER in each
15# file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16# If applicable, add the following below this CDDL HEADER, with the
17# fields enclosed by brackets "[]" replaced with your own identifying
18# information: Portions Copyright [yyyy] [name of copyright owner]
19#
20# CDDL HEADER END
21#
22Copyright (c) 2001 by Sun Microsystems, Inc.
23All rights reserved.
24
25Inittab Purpose, Goals, and Functionality
26Peter Memishian
27ident	"%Z%%M%	%I%	%E% SMI"
28
29PROBLEM STATEMENT
30=================
31
32Currently, each DHCP-related utility that needs to handle DHCP options
33uses ad-hoc methods for learning and using them, ranging from using
34hard-coded internal tables to providing published (but distinct)
35configuration files describing these options.
36
37Originally, when only the DHCP server needed to be concerned with DHCP
38options, not having a standard API for managing and parsing DHCP
39options was understandable.  Now, with four consumers of DHCP options
40in core Solaris (in.dhcpd, dhcpinfo, snoop, and dhcpmgr), the
41situation has spiraled out of control.  In addition to the obvious
42maintenance headache caused by the redundant code, it has also become
43a burden to our customers, who already have to cope with multiple
44places where DHCP option information is stored (dhcptags(4),
45dhcptab(4)).
46
47The inittab API is designed to reduce the confusion, both for the
48customer and the application developer.  Its goal is to provide a
49single configuration for applications to receive their DHCP option
50knowledge from and general routines for encoding and decoding DHCP
51options.
52
53INITTAB
54=======
55
56The inittab file contains information regarding the syntax and (to
57some degree) the semantics of DHCP options.  It is primarily a
58read-only file (like /etc/termcap) and should not need to be changed
59by users.  Experienced sysadmins may need to update this file to add
60new DHCP options, but this should be rare.
61
62The inittab file consists of inittab records, each being one line long
63and describing a particular option.  The format is based heavily on
64the format for defining symbols in dhcptab(4).  Each line has the
65following syntax:
66
67   option_name	category, code, type, granularity, maximum, consumers
68
69where:
70
71   `option_name' is user-interpretable name of the option (for use with
72      dhcpinfo(1M) for instance).  This field should at least be per-
73      category unique and ideally should be unique across all categories.
74      Of particular note is that options names in the STANDARD, SITE, and
75      VENDOR spaces should not overlap, or the behavior is undefined.
76
77   `category' is one of STANDARD, SITE, VENDOR, FIELD, or INTERNAL and
78      identifies the namespace in which the option falls.
79
80   `code' is the code of this option when it is sent over the
81      wire.  (note: in most cases, `code' uniquely identifies the
82      option, without a category.  however, in the case of internal
83      categories like FIELD or INTERNAL, `code' may be used for
84      other purposes and thus may not be globally unique).  This field
85      should be per-category unique and the STANDARD and SITE fields
86      should not have overlapping code fields or the behavior is
87      undefined.
88
89   `type' describes the payload associated with this option.  Valid
90      types are IP, ASCII, OCTET, NUMBER, BOOL, UNUMBER8, UNUMBER16,
91      UNUMBER32, SNUMBER8, SNUMBER16, and SNUMBER32.  For numbers,
92      a preceding `U' or `S' indicates whether the number is unsigned
93      or signed, and the trailing number indicates the number of bits
94      in the number.
95
96   `granularity' describes how many units of `type' payload make
97      up a whole value for this option.  In the case of `NUMBER',
98      granularity describes the number of bytes in the number.  Note
99      that `NUMBER' is preserved for compatibility, but the more
100      descriptive [SU]NUMBER{8,16,32,64} types should preferred.
101
102   `maximum' describes how many whole values are allowed for this
103      option.  0 indicates an infinite number.
104
105   `consumers' describe which programs make use of this information.
106      (`i' for dhcpinfo, `s' for snoop, `d' for in.dhcpd, and
107       `m' for dhcpmgr).
108
109A sample entry would be
110
111  StaticRt	STANDARD, 33, IP, 2, 0, isdm
112
113which describes an option named `StaticRt', that is in the STANDARD
114category (i.e., defined by the DHCP standard), and is option code
11533, which is of type `IP Address', consisting of a potentially
116infinite number of pairs of IP addresses.  Lastly, the consumers of
117option are dhcpinfo, snoop, in.dhcpd and dhcpmgr.
118
119Comments in the inittab file begin with `#', and end with a newline.
120Comments need not start at the beginning of a line.  Lines cannot be
121continued (with `\' for instance).
122
123The inittab file becomes the authoritative source for all DHCP options
124for all DHCP option consumers, with the following exceptions and notes:
125
126   o  The DHCP agent and DHCP server both have their core protocol-
127      related functionality hardcoded into them, so changes to the
128      inittab file do not generally affect their inner workings.
129
130   o  A program can specify which entries it wants from the inittab.
131      This means that some DHCP options will never be used by some
132      programs, even if they are listed as a `consumer' of the given
133      option.  An example of this is that the DHCP server never
134      requests any fields with the VENDOR category. (VENDOR information
135      for the DHCP server comes from dhcptab(4) instead).
136
137   o  In general, changing provided information in a released inittab
138      file is ill-advised.  Adding new entries should be the extent
139      of the modifications that are performed.
140
141   o  The inittab C API also provides functions which allow programs
142      to verify that a given entry in the inittab file is correct
143      (which it does by consulting a compiled-in database of current
144      options).  In general, this functionality is only used where
145      absolutely necessary, since it nullifies some of the advantages
146      of having an inittab.
147
148   o  Where a symbol is defined both in the inittab and in dhcptab(4),
149      inittab is authoritative.  EXTEND symbol definitions in
150      dhcptab(4) will be deprecated in a future release of Solaris.
151
152C-LEVEL API
153===========
154
155Each inittab entry describes a specific DHCP option and is defined as
156a dhcp_symbol_t (as defined in usr/src/lib/libdhcputil/common/dhcp_symbol.h).
157
158In general, it is expected that inittab entries are acquired via
159inittab_load(), inittab_getbyname(), or inittab_getbycode() and passed
160as needed to the remaining inittab_XXX functions.  If consumers need
161to convert the inittab entries into a different format, then the
162fields inside the inittab entry may be read directly.  Some inittab
163functions return dynamically allocated parameters; all such parameters
164can be freed with free(3c).
165
166To get an inittab entry, one of the following API's must be used:
167
168    dhcp_symbol_t *
169    inittab_load(uchar_t categories, char consumer, size_t *n_entries);
170
171    dhcp_symbol_t *
172    inittab_getbyname(uchar_t categories, char consumer, const char *name);
173
174    dhcp_symbol_t *
175    inittab_getbycode(uchar_t categories, char consumer, unsigned int code);
176
177where the `categories' parameter consists of the following values OR'd
178together:
179
180    #define ITAB_CAT_STANDARD	0x01
181    #define ITAB_CAT_FIELD	0x02
182    #define ITAB_CAT_INTERNAL	0x04
183    #define ITAB_CAT_VENDOR	0x08
184    #define ITAB_CAT_SITE	0x10
185
186and the `consumer' field consists of one of the following:
187
188    #define ITAB_CONS_INFO	'i'
189    #define ITAB_CONS_SERVER	'd'
190    #define ITAB_CONS_SNOOP	's'
191    #define ITAB_CONS_MANAGER	'm'
192
193inittab_load() creates and returns an array of dhcp_symbol_t's made
194up of all the entries of the specified categories that are available
195to the provided consumer.  Note that there is no specified order to
196the entries returned.  The array is dynamically allocated, and the
197number of items in the array is returned in the `n_entries' parameter.
198
199inittab_getbyname()/inittab_getbycode() return an dhcp_symbol_t
200matching the given name or code for the provided category and the
201provided consumer.  The dhcp_symbol_t is dynamically allocated.
202
203Some inittab consumers may need to make sure that a given inittab
204entry has not been corrupted in the inittab file.  For those cases,
205inittab_verify() can be used to validate an inittab_entry against an
206internal table compiled into the inittab API:
207
208    int
209    inittab_verify(dhcp_symbol_t *inittab_ent,
210		   dhcp_symbol_t *internal_ent);
211
212where `inittab_ent' is an dhcp_symbol_t previously returned from
213inittab_load() or inittab_getbyX().  inittab_verify() returns
214ITAB_SUCCESS if `inittab_ent' is verified to be correct, ITAB_FAILURE
215if `inittab_ent' is incorrect, and ITAB_UNKNOWN if inittab_verify()
216doesn't know.  If `internal_ent' is non-NULL, it is filled in with the
217value of the option known internally to the inittab API.  Entries are
218verified using the `ds_category' and `ds_code' fields from the
219dhcp_symbol_t.  For ITAB_SUCCESS to be returned, the entry passed in
220and the internal entry both must have the same ds_gran, ds_max, and
221ds_type values.
222
223To perform encoding and decoding of DHCP options, the following
224routines are provided:
225
226    uchar_t *
227    inittab_encode(dhcp_symbol_t *inittab_ent, const char *data,
228		   uint16_t *lengthp, boolean_t just_payload);
229
230    const char *
231    inittab_decode(dhcp_symbol_t *inittab_ent, uchar_t *data,
232		   uint16_t length, boolean_t just_payload);
233
234Both of these routines take an `inittab_ent' that was previously
235returned from inittab_load() or inittab_getbyX().
236
237For inittab_encode(), `data' is an ASCII string to encode, and a
238pointer to a dynamically allocated byte-array representing the encoded
239option is returned.  The size of the resulting data returned is stored
240in `lengthp'.  Note that if the `just_payload' option is set, then
241only the payload of the option is returned (i.e., the option code and
242option length is left off the returned data).  To encode multiple
243items of a given type, separate the items by spaces, such as
244"109.108.21.1 148.232.2.1".  Octal data should be of the form "0xNN"
245where NN is a hexadecimal digit representing the byte.
246
247For inittab_decode(), `data' is a byte-array representing an encoded
248option, which is `length' bytes long.  A pointer to a dynamically
249allocated string representing the option's value in ASCII is returned.
250Note that if the `data' byte-array consists of just the payload of the
251option, then the `just_payload' option should be set.
252
253In addition, the following routines return extended error information
254for reporting parsing errors:
255
256    uchar_t *
257    inittab_encode_e(dhcp_symbol_t *inittab_ent, const char *data,
258		   uint16_t *lengthp, boolean_t just_payload, int *eerrno);
259
260    const char *
261    inittab_decode_e(dhcp_symbol_t *inittab_ent, uchar_t *data,
262		   uint16_t length, boolean_t just_payload, int *eerrno);
263
264
265The extended codes:
266
267/*
268 * DHCP Extended error codes
269 */
270#define ITAB_SYNTAX_ERROR       (-1)
271#define ITAB_BAD_IPADDR         (-2)
272#define ITAB_BAD_STRING         (-3)
273#define ITAB_BAD_OCTET          (-4)
274#define ITAB_BAD_NUMBER         (-5)
275#define ITAB_BAD_BOOLEAN        (-6)
276#define ITAB_NOT_ENOUGH_IP      (-7)
277#define ITAB_BAD_GRAN           (-8)
278
279
280ENVIRONMENT VARIABLES
281=====================
282
283In order to aid in debugging inittab-related problems, two environment
284variables, DHCP_INITTAB_DEBUG, and DHCP_INITTAB_PATH, can be set
285before starting a program which uses the inittab API.
286
287If DHCP_INITTAB_DEBUG is an exported environment variable, then the
288inittab API will print useful diagnostic messages handy in tracking
289down problems in the inittab file.  If DHCP_INITTAB_PATH is an
290exported environment variable, then its value is used as the location
291of the inittab file, instead of /etc/dhcp/inittab.
292
293--
294Peter Memishian, Internet Engineering, Solaris Software (meem@east.sun.com)
295