| blob | c4ca5bb906b0f31062483cbd911294b49626bb4c |
1 /* -------------------------------------------------------------------------- **
2 * Microsoft Network Services for Unix, AKA., Andrew Tridgell's SAMBA.
3 *
4 * This module Copyright (C) 1990-1998 Karl Auer
5 *
6 * Rewritten almost completely by Christopher R. Hertel, 1997.
7 * This module Copyright (C) 1997-1998 by Christopher R. Hertel
8 *
9 * -------------------------------------------------------------------------- **
10 *
11 * This program is free software; you can redistribute it and/or modify
12 * it under the terms of the GNU General Public License as published by
13 * the Free Software Foundation; either version 2 of the License, or
14 * (at your option) any later version.
15 *
16 * This program is distributed in the hope that it will be useful,
17 * but WITHOUT ANY WARRANTY; without even the implied warranty of
18 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 * GNU General Public License for more details.
20 *
21 * You should have received a copy of the GNU General Public License
22 * along with this program; if not, write to the Free Software
23 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
24 *
25 * -------------------------------------------------------------------------- **
26 *
27 * Module name: params
28 *
29 * -------------------------------------------------------------------------- **
30 *
31 * This module performs lexical analysis and initial parsing of a
32 * Windows-like parameter file. It recognizes and handles four token
33 * types: section-name, parameter-name, parameter-value, and
34 * end-of-file. Comments and line continuation are handled
35 * internally.
36 *
37 * The entry point to the module is function pm_process(). This
38 * function opens the source file, calls the Parse() function to parse
39 * the input, and then closes the file when either the EOF is reached
40 * or a fatal error is encountered.
41 *
42 * A sample parameter file might look like this:
43 *
44 * [section one]
45 * parameter one = value string
46 * parameter two = another value
47 * [section two]
48 * new parameter = some value or t'other
49 *
50 * The parameter file is divided into sections by section headers:
51 * section names enclosed in square brackets (eg. [section one]).
52 * Each section contains parameter lines, each of which consist of a
53 * parameter name and value delimited by an equal sign. Roughly, the
54 * syntax is:
55 *
56 * <file> :== { <section> } EOF
57 *
58 * <section> :== <section header> { <parameter line> }
59 *
60 * <section header> :== '[' NAME ']'
61 *
62 * <parameter line> :== NAME '=' VALUE '\n'
63 *
64 * Blank lines and comment lines are ignored. Comment lines are lines
65 * beginning with either a semicolon (';') or a pound sign ('#').
66 *
67 * All whitespace in section names and parameter names is compressed
68 * to single spaces. Leading and trailing whitespace is stipped from
69 * both names and values.
70 *
71 * Only the first equals sign in a parameter line is significant.
72 * Parameter values may contain equals signs, square brackets and
73 * semicolons. Internal whitespace is retained in parameter values,
74 * with the exception of the '\r' character, which is stripped for
75 * historic reasons. Parameter names may not start with a left square
76 * bracket, an equal sign, a pound sign, or a semicolon, because these
77 * are used to identify other tokens.
78 *
79 * -------------------------------------------------------------------------- **
80 */
86 /* -------------------------------------------------------------------------- **
87 * Constants...
88 */
90 #define BUFR_INC 1024
93 /* -------------------------------------------------------------------------- **
94 * Variables...
95 *
96 * DEBUGLEVEL - The ubiquitous DEBUGLEVEL. This determines which DEBUG()
97 * messages will be produced.
98 * bufr - pointer to a global buffer. This is probably a kludge,
99 * but it was the nicest kludge I could think of (for now).
100 * bSize - The size of the global buffer <bufr>.
101 */
106 /* we can't use FILE* due to the 256 fd limit - use this cheap hack
107 instead */
116 {
119 /* be sure to return chars >127 as positive values */
121 }
124 {
129 }
131 /* Find the end of the section. We must use mb functions for this. */
133 {
136 }
139 {
143 }
145 }
147 /* -------------------------------------------------------------------------- **
148 * Functions...
149 */
150 /* ------------------------------------------------------------------------ **
151 * Scan past whitespace (see ctype(3C)) and return the first non-whitespace
152 * character, or newline, or EOF.
153 *
154 * Input: InFile - Input source.
155 *
156 * Output: The next non-whitespace character in the input stream.
157 *
158 * Notes: Because the config files use a line-oriented grammar, we
159 * explicitly exclude the newline character from the list of
160 * whitespace characters.
161 * - Note that both EOF (-1) and the nul character ('\0') are
162 * considered end-of-file markers.
163 *
164 * ------------------------------------------------------------------------ **
165 */
168 {
172 ;
174 }
176 /* ------------------------------------------------------------------------ **
177 * Scan to the end of a comment.
178 *
179 * Input: InFile - Input source.
180 *
181 * Output: The character that marks the end of the comment. Normally,
182 * this will be a newline, but it *might* be an EOF.
183 *
184 * Notes: Because the config files use a line-oriented grammar, we
185 * explicitly exclude the newline character from the list of
186 * whitespace characters.
187 * - Note that both EOF (-1) and the nul character ('\0') are
188 * considered end-of-file markers.
189 *
190 * ------------------------------------------------------------------------ **
191 */
194 {
198 ;
200 }
202 /*****************************************************************************
203 * Scan backards within a string to discover if the last non-whitespace
204 * character is a line-continuation character ('\\').
205 *
206 * Input: line - A pointer to a buffer containing the string to be
207 * scanned.
208 * pos - This is taken to be the offset of the end of the
209 * string. This position is *not* scanned.
210 *
211 * Output: The offset of the '\\' character if it was found, or -1 to
212 * indicate that it was not.
213 *
214 *****************************************************************************/
217 {
218 pos--;
220 pos--;
223 }
225 /* ------------------------------------------------------------------------ **
226 * Scan a section name, and pass the name to function sfunc().
227 *
228 * Input: InFile - Input source.
229 * sfunc - Pointer to the function to be called if the section
230 * name is successfully read.
231 *
232 * Output: True if the section name was read and True was returned from
233 * <sfunc>. False if <sfunc> failed or if a lexical error was
234 * encountered.
235 *
236 * ------------------------------------------------------------------------ **
237 */
240 {
248 /* cases these will be the same, but if the last */
249 /* character written to bufr[] is a space, then <end> */
250 /* will be one less than <i>. */
253 /* Find the end of the section. We must use mb functions for this. */
257 }
260 /* past initial white space. */
263 /* Check that the buffer is big enough for the next character. */
269 }
272 }
274 /* Handle a single character other than section end. */
282 }
289 /* One space per whitespace region. */
297 }
298 }
301 /* Got to the closing bracket. */
304 /* Don't allow an empty name. */
307 }
312 }
314 }
316 /* We arrive here if we've met the EOF before the closing bracket. */
319 }
321 /* ------------------------------------------------------------------------ **
322 * Scan a parameter name and value, and pass these two fields to pfunc().
323 *
324 * Input: InFile - The input source.
325 * pfunc - A pointer to the function that will be called to
326 * process the parameter, once it has been scanned.
327 * c - The first character of the parameter name, which
328 * would have been read by Parse(). Unlike a comment
329 * line or a section header, there is no lead-in
330 * character that can be discarded.
331 *
332 * Output: True if the parameter name and value were scanned and processed
333 * successfully, else False.
334 *
335 * Notes: This function is in two parts. The first loop scans the
336 * parameter name. Internal whitespace is compressed, and an
337 * equal sign (=) terminates the token. Leading and trailing
338 * whitespace is discarded. The second loop scans the parameter
339 * value. When both have been successfully identified, they are
340 * passed to pfunc() for processing.
341 *
342 * ------------------------------------------------------------------------ **
343 */
346 {
352 /* Read the parameter name. */
354 /* Loop until we've found the start of the value. */
356 /* Ensure there's space for next char. */
361 }
364 }
369 /* Don't allow an empty name. */
372 }
385 }
398 /* One ' ' per whitespace region. */
406 }
407 }
408 }
410 /* Now parse the value. */
414 /* Make sure there's enough room. */
419 }
422 }
435 ;
437 }
446 }
447 }
451 }
453 /* ------------------------------------------------------------------------ **
454 * Scan & parse the input.
455 *
456 * Input: InFile - Input source.
457 * sfunc - Function to be called when a section name is scanned.
458 * See Section().
459 * pfunc - Function to be called when a parameter is scanned.
460 * See Parameter().
461 *
462 * Output: True if the file was successfully scanned, else False.
463 *
464 * Notes: The input can be viewed in terms of 'lines'. There are four
465 * types of lines:
466 * Blank - May contain whitespace, otherwise empty.
467 * Comment - First non-whitespace character is a ';' or '#'.
468 * The remainder of the line is ignored.
469 * Section - First non-whitespace character is a '['.
470 * Parameter - The default case.
471 *
472 * ------------------------------------------------------------------------ **
473 */
478 {
508 }
509 }
511 }
513 /* ------------------------------------------------------------------------ **
514 * Open a configuration file.
515 *
516 * Input: FileName - The pathname of the config file to be opened.
517 *
518 * Output: A pointer of type (char **) to the lines of the file
519 *
520 * ------------------------------------------------------------------------ **
521 */
524 {
539 }
544 }
546 /* ------------------------------------------------------------------------ **
547 * Process the named parameter file.
548 *
549 * Input: FileName - The pathname of the parameter file to be opened.
550 * sfunc - A pointer to a function that will be called when
551 * a section name is discovered.
552 * pfunc - A pointer to a function that will be called when
553 * a parameter name and value are discovered.
554 *
555 * Output: TRUE if the file was successfully parsed, else FALSE.
556 *
557 * ------------------------------------------------------------------------ **
558 */
563 {
575 /* If we already have a buffer */
576 /* (recursive call), then just */
577 /* use it. */
586 }
591 }
598 }
601 }