xref: /freebsd/contrib/ntp/sntp/libopts/putshell.c (revision 13014ca04aad1931d41958b56f71a2c65b9a7a2c)
1 
2 /*
3  *  $Id: putshell.c,v 4.18 2007/02/04 17:44:12 bkorb Exp $
4  * Time-stamp:      "2007-01-13 10:29:39 bkorb"
5  *
6  *  This module will interpret the options set in the tOptions
7  *  structure and print them to standard out in a fashion that
8  *  will allow them to be interpreted by the Bourne or Korn shells.
9  */
10 
11 /*
12  *  Automated Options copyright 1992-2007 Bruce Korb
13  *
14  *  Automated Options is free software.
15  *  You may redistribute it and/or modify it under the terms of the
16  *  GNU General Public License, as published by the Free Software
17  *  Foundation; either version 2, or (at your option) any later version.
18  *
19  *  Automated Options is distributed in the hope that it will be useful,
20  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
21  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
22  *  GNU General Public License for more details.
23  *
24  *  You should have received a copy of the GNU General Public License
25  *  along with Automated Options.  See the file "COPYING".  If not,
26  *  write to:  The Free Software Foundation, Inc.,
27  *             51 Franklin Street, Fifth Floor,
28  *             Boston, MA  02110-1301, USA.
29  *
30  * As a special exception, Bruce Korb gives permission for additional
31  * uses of the text contained in his release of AutoOpts.
32  *
33  * The exception is that, if you link the AutoOpts library with other
34  * files to produce an executable, this does not by itself cause the
35  * resulting executable to be covered by the GNU General Public License.
36  * Your use of that executable is in no way restricted on account of
37  * linking the AutoOpts library code into it.
38  *
39  * This exception does not however invalidate any other reasons why
40  * the executable file might be covered by the GNU General Public License.
41  *
42  * This exception applies only to the code released by Bruce Korb under
43  * the name AutoOpts.  If you copy code from other sources under the
44  * General Public License into a copy of AutoOpts, as the General Public
45  * License permits, the exception does not apply to the code that you add
46  * in this way.  To avoid misleading anyone as to the status of such
47  * modified files, you must delete this exception notice from them.
48  *
49  * If you write modifications of your own for AutoOpts, it is your choice
50  * whether to permit this exception to apply to your modifications.
51  * If you do not wish that, delete this exception notice.
52  */
53 
54 /* = = = START-STATIC-FORWARD = = = */
55 /* static forward declarations maintained by :mkfwd */
56 static void
57 putQuotedStr( tCC* pzStr );
58 /* = = = END-STATIC-FORWARD = = = */
59 
60 /*
61  *  Make sure embedded single quotes come out okay.  The initial quote has
62  *  been emitted and the closing quote will be upon return.
63  */
64 static void
65 putQuotedStr( tCC* pzStr )
66 {
67     /*
68      *  Handle empty strings to make the rest of the logic simpler.
69      */
70     if ((pzStr == NULL) || (*pzStr == NUL)) {
71         fputs( "''", stdout );
72         return;
73     }
74 
75     /*
76      *  Emit any single quotes/apostrophes at the start of the string and
77      *  bail if that is all we need to do.
78      */
79     while (*pzStr == '\'') {
80         fputs( "\\'", stdout );
81         pzStr++;
82     }
83     if (*pzStr == NUL)
84         return;
85 
86     /*
87      *  Start the single quote string
88      */
89     fputc( '\'', stdout );
90     for (;;) {
91         tCC* pz = strchr( pzStr, '\'' );
92         if (pz == NULL)
93             break;
94 
95         /*
96          *  Emit the string up to the single quote (apostrophe) we just found.
97          */
98         (void)fwrite( pzStr, (size_t)(pz - pzStr), (size_t)1, stdout );
99         fputc( '\'', stdout );
100         pzStr = pz;
101 
102         /*
103          *  Emit an escaped apostrophe for every one we find.
104          *  If that ends the string, do not re-open the single quotes.
105          */
106         while (*++pzStr == '\'')   fputs( "\\'", stdout );
107         if (*pzStr == NUL)
108             return;
109 
110         fputc( '\'', stdout );
111     }
112 
113     /*
114      *  If we broke out of the loop, we must still emit the remaining text
115      *  and then close the single quote string.
116      */
117     fputs( pzStr, stdout );
118     fputc( '\'', stdout );
119 }
120 
121 
122 /*=export_func  optionPutShell
123  * what:  write a portable shell script to parse options
124  * private:
125  * arg:   tOptions*, pOpts, the program options descriptor
126  * doc:   This routine will emit portable shell script text for parsing
127  *        the options described in the option definitions.
128 =*/
129 void
130 optionPutShell( tOptions* pOpts )
131 {
132     int  optIx = 0;
133     tSCC zOptCtFmt[]  = "OPTION_CT=%d\nexport OPTION_CT\n";
134     tSCC zOptNumFmt[] = "%1$s_%2$s=%3$d # 0x%3$X\nexport %1$s_%2$s\n";
135     tSCC zOptDisabl[] = "%1$s_%2$s=%3$s\nexport %1$s_%2$s\n";
136     tSCC zOptValFmt[] = "%s_%s=";
137     tSCC zOptEnd[]    = "\nexport %s_%s\n";
138     tSCC zFullOptFmt[]= "%1$s_%2$s='%3$s'\nexport %1$s_%2$s\n";
139     tSCC zEquivMode[] = "%1$s_%2$s_MODE='%3$s'\nexport %1$s_%2$s_MODE\n";
140 
141     printf( zOptCtFmt, pOpts->curOptIdx-1 );
142 
143     do  {
144         tOptDesc* pOD = pOpts->pOptDesc + optIx;
145 
146         if (SKIP_OPT(pOD))
147             continue;
148 
149         /*
150          *  Equivalence classes are hard to deal with.  Where the
151          *  option data wind up kind of squishes around.  For the purposes
152          *  of emitting shell state, they are not recommended, but we'll
153          *  do something.  I guess we'll emit the equivalenced-to option
154          *  at the point in time when the base option is found.
155          */
156         if (pOD->optEquivIndex != NO_EQUIVALENT)
157             continue; /* equivalence to a different option */
158 
159         /*
160          *  Equivalenced to a different option.  Process the current option
161          *  as the equivalenced-to option.  Keep the persistent state bits,
162          *  but copy over the set-state bits.
163          */
164         if (pOD->optActualIndex != optIx) {
165             tOptDesc* p   = pOpts->pOptDesc + pOD->optActualIndex;
166             p->optArg     = pOD->optArg;
167             p->fOptState &= OPTST_PERSISTENT_MASK;
168             p->fOptState |= pOD->fOptState & ~OPTST_PERSISTENT_MASK;
169             printf( zEquivMode, pOpts->pzPROGNAME, pOD->pz_NAME, p->pz_NAME );
170             pOD = p;
171         }
172 
173         /*
174          *  If the argument type is a set membership bitmask, then we always
175          *  emit the thing.  We do this because it will always have some sort
176          *  of bitmask value and we need to emit the bit values.
177          */
178         if (OPTST_GET_ARGTYPE(pOD->fOptState) == OPARG_TYPE_MEMBERSHIP) {
179             char const * pz;
180             uintptr_t val = 1;
181             printf( zOptNumFmt, pOpts->pzPROGNAME, pOD->pz_NAME,
182                     (int)(uintptr_t)(pOD->optCookie) );
183             pOD->optCookie = (void*)(uintptr_t)~0UL;
184             (*(pOD->pOptProc))( (tOptions*)2UL, pOD );
185 
186             /*
187              *  We are building the typeset list.  The list returned starts with
188              *  'none + ' for use by option saving stuff.  We must ignore that.
189              */
190             pz = pOD->optArg.argString + 7;
191             while (*pz != NUL) {
192                 printf( "typeset -x -i %s_", pOD->pz_NAME );
193                 pz += strspn( pz, " +\t\n\f" );
194                 for (;;) {
195                     int ch = *(pz++);
196                          if (islower( ch ))  fputc( toupper( ch ), stdout );
197                     else if (isalnum( ch ))  fputc( ch, stdout );
198                     else if (isspace( ch )
199                           || (ch == '+'))    goto name_done;
200                     else if (ch == NUL)      { pz--; goto name_done; }
201                     else fputc( '_', stdout );
202                 } name_done:;
203                 printf( "=%1$lu # 0x%1$lX\n", (unsigned long)val );
204                 val <<= 1;
205             }
206 
207             AGFREE(pOD->optArg.argString);
208             pOD->optArg.argString = NULL;
209             pOD->fOptState &= ~OPTST_ALLOC_ARG;
210             continue;
211         }
212 
213         /*
214          *  IF the option was either specified or it wakes up enabled,
215          *  then we will emit information.  Otherwise, skip it.
216          *  The idea is that if someone defines an option to initialize
217          *  enabled, we should tell our shell script that it is enabled.
218          */
219         if (UNUSED_OPT( pOD ) && DISABLED_OPT( pOD ))
220             continue;
221 
222         /*
223          *  Handle stacked arguments
224          */
225         if (  (pOD->fOptState & OPTST_STACKED)
226            && (pOD->optCookie != NULL) )  {
227             tSCC zOptCookieCt[] = "%1$s_%2$s_CT=%3$d\nexport %1$s_%2$s_CT\n";
228 
229             tArgList*    pAL = (tArgList*)pOD->optCookie;
230             tCC**        ppz = pAL->apzArgs;
231             int          ct  = pAL->useCt;
232 
233             printf( zOptCookieCt, pOpts->pzPROGNAME, pOD->pz_NAME, ct );
234 
235             while (--ct >= 0) {
236                 tSCC numarg_z[] = "%s_%s_%d=";
237                 tSCC end_z[]    = "\nexport %s_%s_%d\n";
238 
239                 printf( numarg_z, pOpts->pzPROGNAME, pOD->pz_NAME,
240                         pAL->useCt - ct );
241                 putQuotedStr( *(ppz++) );
242                 printf( end_z, pOpts->pzPROGNAME, pOD->pz_NAME,
243                         pAL->useCt - ct );
244             }
245         }
246 
247         /*
248          *  If the argument has been disabled,
249          *  Then set its value to the disablement string
250          */
251         else if ((pOD->fOptState & OPTST_DISABLED) != 0)
252             printf( zOptDisabl, pOpts->pzPROGNAME, pOD->pz_NAME,
253                     (pOD->pz_DisablePfx != NULL)
254                     ? pOD->pz_DisablePfx : "false" );
255 
256         /*
257          *  If the argument type is numeric, the last arg pointer
258          *  is really the VALUE of the string that was pointed to.
259          */
260         else if (OPTST_GET_ARGTYPE(pOD->fOptState) == OPARG_TYPE_NUMERIC)
261             printf( zOptNumFmt, pOpts->pzPROGNAME, pOD->pz_NAME,
262                     (int)pOD->optArg.argInt );
263 
264         /*
265          *  If the argument type is an enumeration, then it is much
266          *  like a text value, except we call the callback function
267          *  to emit the value corresponding to the "optArg" number.
268          */
269         else if (OPTST_GET_ARGTYPE(pOD->fOptState) == OPARG_TYPE_ENUMERATION) {
270             printf( zOptValFmt, pOpts->pzPROGNAME, pOD->pz_NAME );
271             fputc( '\'', stdout );
272             (*(pOD->pOptProc))( (tOptions*)1UL, pOD );
273             fputc( '\'', stdout );
274             printf( zOptEnd, pOpts->pzPROGNAME, pOD->pz_NAME );
275         }
276 
277         /*
278          *  If the argument type is numeric, the last arg pointer
279          *  is really the VALUE of the string that was pointed to.
280          */
281         else if (OPTST_GET_ARGTYPE(pOD->fOptState) == OPARG_TYPE_BOOLEAN)
282             printf( zFullOptFmt, pOpts->pzPROGNAME, pOD->pz_NAME,
283                     (pOD->optArg.argBool == 0) ? "false" : "true" );
284 
285         /*
286          *  IF the option has an empty value,
287          *  THEN we set the argument to the occurrence count.
288          */
289         else if (  (pOD->optArg.argString == NULL)
290                 || (pOD->optArg.argString[0] == NUL) )
291 
292             printf( zOptNumFmt, pOpts->pzPROGNAME, pOD->pz_NAME,
293                     pOD->optOccCt );
294 
295         /*
296          *  This option has a text value
297          */
298         else {
299             printf( zOptValFmt, pOpts->pzPROGNAME, pOD->pz_NAME );
300             putQuotedStr( pOD->optArg.argString );
301             printf( zOptEnd, pOpts->pzPROGNAME, pOD->pz_NAME );
302         }
303     } while (++optIx < pOpts->presetOptCt );
304 
305     if (  ((pOpts->fOptSet & OPTPROC_REORDER) != 0)
306        && (pOpts->curOptIdx < pOpts->origArgCt)) {
307         fputs( "set --", stdout );
308         for (optIx = pOpts->curOptIdx; optIx < pOpts->origArgCt; optIx++) {
309             char* pzArg = pOpts->origArgVect[ optIx ];
310             if (strchr( pzArg, '\'' ) == NULL)
311                 printf( " '%s'", pzArg );
312             else {
313                 fputs( " '", stdout );
314                 for (;;) {
315                     char ch = *(pzArg++);
316                     switch (ch) {
317                     case '\'':  fputs( "'\\''", stdout ); break;
318                     case NUL:   goto arg_done;
319                     default:    fputc( ch, stdout ); break;
320                     }
321                 } arg_done:;
322                 fputc( '\'', stdout );
323             }
324         }
325         fputs( "\nOPTION_CT=0\n", stdout );
326     }
327 }
328 
329 /*
330  * Local Variables:
331  * mode: C
332  * c-file-style: "stroustrup"
333  * indent-tabs-mode: nil
334  * End:
335  * end of autoopts/putshell.c */
336