xref: /dragonfly/contrib/ncurses/progs/dump_entry.c (revision 0cadad7e49c6219b0de0675ef6a6f44683d177d4)
1 /****************************************************************************
2  * Copyright 2018-2019,2020 Thomas E. Dickey                                *
3  * Copyright 1998-2016,2017 Free Software Foundation, Inc.                  *
4  *                                                                          *
5  * Permission is hereby granted, free of charge, to any person obtaining a  *
6  * copy of this software and associated documentation files (the            *
7  * "Software"), to deal in the Software without restriction, including      *
8  * without limitation the rights to use, copy, modify, merge, publish,      *
9  * distribute, distribute with modifications, sublicense, and/or sell       *
10  * copies of the Software, and to permit persons to whom the Software is    *
11  * furnished to do so, subject to the following conditions:                 *
12  *                                                                          *
13  * The above copyright notice and this permission notice shall be included  *
14  * in all copies or substantial portions of the Software.                   *
15  *                                                                          *
16  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS  *
17  * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF               *
18  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.   *
19  * IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,   *
20  * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR    *
21  * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR    *
22  * THE USE OR OTHER DEALINGS IN THE SOFTWARE.                               *
23  *                                                                          *
24  * Except as contained in this notice, the name(s) of the above copyright   *
25  * holders shall not be used in advertising or otherwise to promote the     *
26  * sale, use or other dealings in this Software without prior written       *
27  * authorization.                                                           *
28  ****************************************************************************/
29 
30 /****************************************************************************
31  *  Author: Zeyd M. Ben-Halim <zmbenhal@netcom.com> 1992,1995               *
32  *     and: Eric S. Raymond <esr@snark.thyrsus.com>                         *
33  *     and: Thomas E. Dickey                        1996 on                 *
34  ****************************************************************************/
35 
36 #define __INTERNAL_CAPS_VISIBLE
37 #include <progs.priv.h>
38 
39 #include "dump_entry.h"
40 #include "termsort.c"                   /* this C file is generated */
41 #include <parametrized.h>     /* so is this */
42 
43 MODULE_ID("$Id: dump_entry.c,v 1.176 2020/02/02 23:34:34 tom Exp $")
44 
45 #define DISCARD(string) string = ABSENT_STRING
46 #define PRINTF (void) printf
47 #define WRAPPED 32
48 
49 #define OkIndex(index,array) ((int)(index) >= 0 && (int)(index) < (int) SIZEOF(array))
50 #define TcOutput() (outform == F_TERMCAP || outform == F_TCONVERR)
51 
52 typedef struct {
53     char *text;
54     size_t used;
55     size_t size;
56 } DYNBUF;
57 
58 static int tversion;                    /* terminfo version */
59 static int outform;           /* output format to use */
60 static int sortmode;                    /* sort mode to use */
61 static int width = 60;                  /* max line width for listings */
62 static int height = 65535;    /* max number of lines for listings */
63 static int column;            /* current column, limited by 'width' */
64 static int oldcol;            /* last value of column before wrap */
65 static bool pretty;           /* true if we format if-then-else strings */
66 static bool wrapped;                    /* true if we wrap too-long strings */
67 static bool did_wrap;                   /* true if last wrap_concat did wrapping */
68 static bool checking;                   /* true if we are checking for tic */
69 static int quickdump;                   /* true if we are dumping compiled data */
70 
71 static char *save_sgr;
72 
73 static DYNBUF outbuf;
74 static DYNBUF tmpbuf;
75 
76 /* indirection pointers for implementing sort and display modes */
77 static const PredIdx *bool_indirect, *num_indirect, *str_indirect;
78 static NCURSES_CONST char *const *bool_names;
79 static NCURSES_CONST char *const *num_names;
80 static NCURSES_CONST char *const *str_names;
81 
82 static const char *separator = "", *trailer = "";
83 static int indent = 8;
84 
85 /* cover various ports and variants of terminfo */
86 #define V_ALLCAPS   0         /* all capabilities (SVr4, XSI, ncurses) */
87 #define V_SVR1                1         /* SVR1, Ultrix */
88 #define V_HPUX                2         /* HP/UX */
89 #define V_AIX                 3         /* AIX */
90 #define V_BSD                 4         /* BSD */
91 
92 #if NCURSES_XNAMES
93 #define OBSOLETE(n) (!_nc_user_definable && (n[0] == 'O' && n[1] == 'T'))
94 #else
95 #define OBSOLETE(n) (n[0] == 'O' && n[1] == 'T')
96 #endif
97 
98 #define isObsolete(f,n) ((f == F_TERMINFO || f == F_VARIABLE) && (sortmode != S_VARIABLE) && OBSOLETE(n))
99 
100 #if NCURSES_XNAMES
101 #define BoolIndirect(j) ((j >= BOOLCOUNT) ? (j) : ((sortmode == S_NOSORT) ? j : bool_indirect[j]))
102 #define NumIndirect(j)  ((j >= NUMCOUNT)  ? (j) : ((sortmode == S_NOSORT) ? j : num_indirect[j]))
103 #define StrIndirect(j)  ((j >= STRCOUNT)  ? (j) : ((sortmode == S_NOSORT) ? j : str_indirect[j]))
104 #else
105 #define BoolIndirect(j) ((sortmode == S_NOSORT) ? (j) : bool_indirect[j])
106 #define NumIndirect(j)  ((sortmode == S_NOSORT) ? (j) : num_indirect[j])
107 #define StrIndirect(j)  ((sortmode == S_NOSORT) ? (j) : str_indirect[j])
108 #endif
109 
110 static void failed(const char *) GCC_NORETURN;
111 
112 static void
failed(const char * s)113 failed(const char *s)
114 {
115     perror(s);
116     ExitProgram(EXIT_FAILURE);
117 }
118 
119 static void
strncpy_DYN(DYNBUF * dst,const char * src,size_t need)120 strncpy_DYN(DYNBUF * dst, const char *src, size_t need)
121 {
122     size_t want = need + dst->used + 1;
123     if (want > dst->size) {
124           dst->size += (want + 1024);   /* be generous */
125           dst->text = typeRealloc(char, dst->size, dst->text);
126           if (dst->text == 0)
127               failed("strncpy_DYN");
128     }
129     _nc_STRNCPY(dst->text + dst->used, src, need + 1);
130     dst->used += need;
131     dst->text[dst->used] = 0;
132 }
133 
134 static void
strcpy_DYN(DYNBUF * dst,const char * src)135 strcpy_DYN(DYNBUF * dst, const char *src)
136 {
137     if (src == 0) {
138           dst->used = 0;
139           strcpy_DYN(dst, "");
140     } else {
141           strncpy_DYN(dst, src, strlen(src));
142     }
143 }
144 
145 #if NO_LEAKS
146 static void
free_DYN(DYNBUF * p)147 free_DYN(DYNBUF * p)
148 {
149     if (p->text != 0)
150           free(p->text);
151     p->text = 0;
152     p->size = 0;
153     p->used = 0;
154 }
155 
156 void
_nc_leaks_dump_entry(void)157 _nc_leaks_dump_entry(void)
158 {
159     free_DYN(&outbuf);
160     free_DYN(&tmpbuf);
161 }
162 #endif
163 
164 #define NameTrans(check,result) \
165               if ((np->nte_index <= OK_ ## check) \
166                     && check[np->nte_index]) \
167                     return (result[np->nte_index])
168 
169 NCURSES_CONST char *
nametrans(const char * name)170 nametrans(const char *name)
171 /* translate a capability name to termcap from terminfo */
172 {
173     const struct name_table_entry *np;
174 
175     if ((np = _nc_find_entry(name, _nc_get_hash_table(0))) != 0) {
176           switch (np->nte_type) {
177           case BOOLEAN:
178               NameTrans(bool_from_termcap, boolcodes);
179               break;
180 
181           case NUMBER:
182               NameTrans(num_from_termcap, numcodes);
183               break;
184 
185           case STRING:
186               NameTrans(str_from_termcap, strcodes);
187               break;
188           }
189     }
190 
191     return (0);
192 }
193 
194 void
dump_init(const char * version,int mode,int sort,bool wrap_strings,int twidth,int theight,unsigned traceval,bool formatted,bool check,int quick)195 dump_init(const char *version,
196             int mode,
197             int sort,
198             bool wrap_strings,
199             int twidth,
200             int theight,
201             unsigned traceval,
202             bool formatted,
203             bool check,
204             int quick)
205 /* set up for entry display */
206 {
207     width = twidth;
208     height = theight;
209     pretty = formatted;
210     wrapped = wrap_strings;
211     checking = check;
212     quickdump = (quick & 3);
213 
214     did_wrap = (width <= 0);
215 
216     /* versions */
217     if (version == 0)
218           tversion = V_ALLCAPS;
219     else if (!strcmp(version, "SVr1") || !strcmp(version, "SVR1")
220                || !strcmp(version, "Ultrix"))
221           tversion = V_SVR1;
222     else if (!strcmp(version, "HP"))
223           tversion = V_HPUX;
224     else if (!strcmp(version, "AIX"))
225           tversion = V_AIX;
226     else if (!strcmp(version, "BSD"))
227           tversion = V_BSD;
228     else
229           tversion = V_ALLCAPS;
230 
231     /* implement display modes */
232     switch (outform = mode) {
233     case F_LITERAL:
234     case F_TERMINFO:
235           bool_names = boolnames;
236           num_names = numnames;
237           str_names = strnames;
238           separator = (twidth > 0 && theight > 1) ? ", " : ",";
239           trailer = "\n\t";
240           break;
241 
242     case F_VARIABLE:
243           bool_names = boolfnames;
244           num_names = numfnames;
245           str_names = strfnames;
246           separator = (twidth > 0 && theight > 1) ? ", " : ",";
247           trailer = "\n\t";
248           break;
249 
250     case F_TERMCAP:
251     case F_TCONVERR:
252           bool_names = boolcodes;
253           num_names = numcodes;
254           str_names = strcodes;
255           separator = ":";
256           trailer = "\\\n\t:";
257           break;
258     }
259     indent = 8;
260 
261     /* implement sort modes */
262     switch (sortmode = sort) {
263     case S_NOSORT:
264           if (traceval)
265               (void) fprintf(stderr,
266                                  "%s: sorting by term structure order\n", _nc_progname);
267           break;
268 
269     case S_TERMINFO:
270           if (traceval)
271               (void) fprintf(stderr,
272                                  "%s: sorting by terminfo name order\n", _nc_progname);
273           bool_indirect = bool_terminfo_sort;
274           num_indirect = num_terminfo_sort;
275           str_indirect = str_terminfo_sort;
276           break;
277 
278     case S_VARIABLE:
279           if (traceval)
280               (void) fprintf(stderr,
281                                  "%s: sorting by C variable order\n", _nc_progname);
282           bool_indirect = bool_variable_sort;
283           num_indirect = num_variable_sort;
284           str_indirect = str_variable_sort;
285           break;
286 
287     case S_TERMCAP:
288           if (traceval)
289               (void) fprintf(stderr,
290                                  "%s: sorting by termcap name order\n", _nc_progname);
291           bool_indirect = bool_termcap_sort;
292           num_indirect = num_termcap_sort;
293           str_indirect = str_termcap_sort;
294           break;
295     }
296 
297     if (traceval)
298           (void) fprintf(stderr,
299                            "%s: width = %d, tversion = %d, outform = %d\n",
300                            _nc_progname, width, tversion, outform);
301 }
302 
303 static TERMTYPE2 *cur_type;
304 
305 static int
dump_predicate(PredType type,PredIdx idx)306 dump_predicate(PredType type, PredIdx idx)
307 /* predicate function to use for ordinary decompilation */
308 {
309     switch (type) {
310     case BOOLEAN:
311           return (cur_type->Booleans[idx] == FALSE)
312               ? FAIL : cur_type->Booleans[idx];
313 
314     case NUMBER:
315           return (cur_type->Numbers[idx] == ABSENT_NUMERIC)
316               ? FAIL : cur_type->Numbers[idx];
317 
318     case STRING:
319           return (cur_type->Strings[idx] != ABSENT_STRING)
320               ? (int) TRUE : FAIL;
321     }
322 
323     return (FALSE);           /* pacify compiler */
324 }
325 
326 static void set_obsolete_termcaps(TERMTYPE2 *tp);
327 
328 /* is this the index of a function key string? */
329 #define FNKEY(i) \
330     (((i) >= STR_IDX(key_f0) && \
331       (i) <= STR_IDX(key_f9)) || \
332      ((i) >= STR_IDX(key_f11) && \
333       (i) <= STR_IDX(key_f63)))
334 
335 /*
336  * If we configure with a different Caps file, the offsets into the arrays
337  * will change.  So we use an address expression.
338  */
339 #define BOOL_IDX(name) (PredType) (&(name) - &(CUR Booleans[0]))
340 #define NUM_IDX(name)  (PredType) (&(name) - &(CUR Numbers[0]))
341 #define STR_IDX(name)  (PredType) (&(name) - &(CUR Strings[0]))
342 
343 static bool
version_filter(PredType type,PredIdx idx)344 version_filter(PredType type, PredIdx idx)
345 /* filter out capabilities we may want to suppress */
346 {
347     switch (tversion) {
348     case V_ALLCAPS:           /* SVr4, XSI Curses */
349           return (TRUE);
350 
351     case V_SVR1:              /* System V Release 1, Ultrix */
352           switch (type) {
353           case BOOLEAN:
354               return ((idx <= BOOL_IDX(xon_xoff)) ? TRUE : FALSE);
355           case NUMBER:
356               return ((idx <= NUM_IDX(width_status_line)) ? TRUE : FALSE);
357           case STRING:
358               return ((idx <= STR_IDX(prtr_non)) ? TRUE : FALSE);
359           }
360           break;
361 
362     case V_HPUX:              /* Hewlett-Packard */
363           switch (type) {
364           case BOOLEAN:
365               return ((idx <= BOOL_IDX(xon_xoff)) ? TRUE : FALSE);
366           case NUMBER:
367               return ((idx <= NUM_IDX(label_width)) ? TRUE : FALSE);
368           case STRING:
369               if (idx <= STR_IDX(prtr_non))
370                     return (TRUE);
371               else if (FNKEY(idx))      /* function keys */
372                     return (TRUE);
373               else if (idx == STR_IDX(plab_norm)
374                          || idx == STR_IDX(label_on)
375                          || idx == STR_IDX(label_off))
376                     return (TRUE);
377               else
378                     return (FALSE);
379           }
380           break;
381 
382     case V_AIX:               /* AIX */
383           switch (type) {
384           case BOOLEAN:
385               return ((idx <= BOOL_IDX(xon_xoff)) ? TRUE : FALSE);
386           case NUMBER:
387               return ((idx <= NUM_IDX(width_status_line)) ? TRUE : FALSE);
388           case STRING:
389               if (idx <= STR_IDX(prtr_non))
390                     return (TRUE);
391               else if (FNKEY(idx))      /* function keys */
392                     return (TRUE);
393               else
394                     return (FALSE);
395           }
396           break;
397 
398 #define is_termcap(type) (OkIndex(idx, type##_from_termcap) && \
399                                 type##_from_termcap[idx])
400 
401     case V_BSD:               /* BSD */
402           switch (type) {
403           case BOOLEAN:
404               return is_termcap(bool);
405           case NUMBER:
406               return is_termcap(num);
407           case STRING:
408               return is_termcap(str);
409           }
410           break;
411     }
412 
413     return (FALSE);           /* pacify the compiler */
414 }
415 
416 static void
trim_trailing(void)417 trim_trailing(void)
418 {
419     while (outbuf.used > 0 && outbuf.text[outbuf.used - 1] == ' ')
420           outbuf.text[--outbuf.used] = '\0';
421 }
422 
423 static void
force_wrap(void)424 force_wrap(void)
425 {
426     oldcol = column;
427     trim_trailing();
428     strcpy_DYN(&outbuf, trailer);
429     column = indent;
430 }
431 
432 static int
op_length(const char * src,int offset)433 op_length(const char *src, int offset)
434 {
435     int result = 0;
436     int ch;
437     if (offset > 0 && src[offset - 1] == '\\') {
438           result = 0;
439     } else {
440           result++;           /* for '%' mark */
441           ch = src[offset + result];
442           if (TcOutput()) {
443               if (ch == '>') {
444                     result += 3;
445               } else if (ch == '+') {
446                     result += 2;
447               } else {
448                     result++;
449               }
450           } else if (ch == '\'') {
451               result += 3;
452           } else if (ch == L_CURL[0]) {
453               int n = result;
454               while ((ch = src[offset + n]) != '\0') {
455                     if (ch == R_CURL[0]) {
456                         result = ++n;
457                         break;
458                     }
459                     n++;
460               }
461           } else if (strchr("pPg", ch) != 0) {
462               result += 2;
463           } else {
464               result++;                 /* ordinary operator */
465           }
466     }
467     return result;
468 }
469 
470 /*
471  * When wrapping too-long strings, avoid splitting a backslash sequence, or
472  * a terminfo '%' operator.  That will leave things a little ragged, but avoids
473  * a stray backslash at the end of the line, as well as making the result a
474  * little more readable.
475  */
476 static int
find_split(const char * src,int step,int size)477 find_split(const char *src, int step, int size)
478 {
479     int result = size;
480     int n;
481     if (size > 0) {
482           /* check if that would split a backslash-sequence */
483           int mark = size;
484           for (n = size - 1; n > 0; --n) {
485               int ch = UChar(src[step + n]);
486               if (ch == '\\') {
487                     if (n > 0 && src[step + n - 1] == ch)
488                         --n;
489                     mark = n;
490                     break;
491               } else if (!isalnum(ch)) {
492                     break;
493               }
494           }
495           if (mark < size) {
496               result = mark;
497           } else {
498               /* check if that would split a backslash-sequence */
499               for (n = size - 1; n > 0; --n) {
500                     int ch = UChar(src[step + n]);
501                     if (ch == '%') {
502                         int need = op_length(src, step + n);
503                         if ((n + need) > size) {
504                               mark = n;
505                         }
506                         break;
507                     }
508               }
509               if (mark < size) {
510                     result = mark;
511               }
512           }
513     }
514     return result;
515 }
516 
517 /*
518  * If we are going to wrap lines, we cannot leave literal spaces because that
519  * would be ambiguous if we split on that space.
520  */
521 static char *
fill_spaces(const char * src)522 fill_spaces(const char *src)
523 {
524     const char *fill = "\\s";
525     size_t need = strlen(src);
526     size_t size = strlen(fill);
527     char *result = 0;
528     int pass;
529     int s, d;
530     for (pass = 0; pass < 2; ++pass) {
531           for (s = d = 0; src[s] != '\0'; ++s) {
532               if (src[s] == ' ') {
533                     if (pass) {
534                         _nc_STRCPY(&result[d], fill, need + 1 - d);
535                         d += (int) size;
536                     } else {
537                         need += size;
538                     }
539               } else {
540                     if (pass) {
541                         result[d++] = src[s];
542                     } else {
543                         ++d;
544                     }
545               }
546           }
547           if (pass) {
548               result[d] = '\0';
549           } else {
550               result = malloc(need + 1);
551               if (result == 0)
552                     failed("fill_spaces");
553           }
554     }
555     return result;
556 }
557 
558 typedef enum {
559     wOFF = 0
560     ,w1ST = 1
561     ,w2ND = 2
562     ,wEND = 4
563     ,wERR = 8
564 } WRAPMODE;
565 
566 #define wrap_1ST(mode) ((mode)&w1ST)
567 #define wrap_END(mode) ((mode)&wEND)
568 #define wrap_ERR(mode) ((mode)&wERR)
569 
570 static void
wrap_concat(const char * src,int need,unsigned mode)571 wrap_concat(const char *src, int need, unsigned mode)
572 {
573     int gaps = (int) strlen(separator);
574     int want = gaps + need;
575 
576     did_wrap = (width <= 0);
577     if (wrap_1ST(mode)
578           && column > indent
579           && column + want > width) {
580           force_wrap();
581     }
582     if ((wrap_END(mode) && !wrap_ERR(mode)) &&
583           wrapped &&
584           (width >= 0) &&
585           (column + want) > width) {
586           int step = 0;
587           int used = width > WRAPPED ? width : WRAPPED;
588           int size;
589           int base = 0;
590           char *p, align[9];
591           const char *my_t = trailer;
592           char *fill = fill_spaces(src);
593           int last = (int) strlen(fill);
594 
595           need = last;
596 
597           if (TcOutput())
598               trailer = "\\\n\t ";
599 
600           if (!TcOutput() && (p = strchr(fill, '=')) != 0) {
601               base = (int) (p + 1 - fill);
602               if (base > 8)
603                     base = 8;
604               _nc_SPRINTF(align, _nc_SLIMIT(align) "%*s", base, " ");
605           } else if (column > 8) {
606               base = column - 8;
607               if (base > 8)
608                     base = 8;
609               _nc_SPRINTF(align, _nc_SLIMIT(align) "%*s", base, " ");
610           } else {
611               align[base] = '\0';
612           }
613           /* "pretty" overrides wrapping if it already split the line */
614           if (!pretty || strchr(fill, '\n') == 0) {
615               int tag = 0;
616 
617               if (TcOutput() && outbuf.used && !wrap_1ST(mode)) {
618                     tag = 3;
619               }
620 
621               while ((column + (need + gaps)) > used) {
622                     size = used - tag;
623                     if (step) {
624                         strcpy_DYN(&outbuf, align);
625                         size -= base;
626                     }
627                     if (size > (last - step)) {
628                         size = (last - step);
629                     }
630                     size = find_split(fill, step, size);
631                     strncpy_DYN(&outbuf, fill + step, (size_t) size);
632                     step += size;
633                     need -= size;
634                     if (need > 0) {
635                         force_wrap();
636                         did_wrap = TRUE;
637                         tag = 0;
638                     }
639               }
640           }
641           if (need > 0) {
642               if (step)
643                     strcpy_DYN(&outbuf, align);
644               strcpy_DYN(&outbuf, fill + step);
645           }
646           if (wrap_END(mode))
647               strcpy_DYN(&outbuf, separator);
648           trailer = my_t;
649           force_wrap();
650 
651           free(fill);
652     } else {
653           strcpy_DYN(&outbuf, src);
654           if (wrap_END(mode))
655               strcpy_DYN(&outbuf, separator);
656           column += (int) strlen(src);
657     }
658 }
659 
660 static void
wrap_concat1(const char * src)661 wrap_concat1(const char *src)
662 {
663     int need = (int) strlen(src);
664     wrap_concat(src, need, w1ST | wEND);
665 }
666 
667 static void
wrap_concat3(const char * name,const char * eqls,const char * value)668 wrap_concat3(const char *name, const char *eqls, const char *value)
669 {
670     int nlen = (int) strlen(name);
671     int elen = (int) strlen(eqls);
672     int vlen = (int) strlen(value);
673 
674     wrap_concat(name, nlen + elen + vlen, w1ST);
675     wrap_concat(eqls, elen + vlen, w2ND);
676     wrap_concat(value, vlen, wEND);
677 }
678 
679 #define IGNORE_SEP_TRAIL(first,last,sep_trail) \
680           if ((size_t)(last - first) > sizeof(sep_trail)-1 \
681            && !strncmp(first, sep_trail, sizeof(sep_trail)-1)) \
682                     first += sizeof(sep_trail)-2
683 
684 /* Returns the nominal length of the buffer assuming it is termcap format,
685  * i.e., the continuation sequence is treated as a single character ":".
686  *
687  * There are several implementations of termcap which read the text into a
688  * fixed-size buffer.  Generally they strip the newlines from the text, but may
689  * not do it until after the buffer is read.  Also, "tc=" resolution may be
690  * expanded in the same buffer.  This function is useful for measuring the size
691  * of the best fixed-buffer implementation; the worst case may be much worse.
692  */
693 #ifdef TEST_TERMCAP_LENGTH
694 static int
termcap_length(const char * src)695 termcap_length(const char *src)
696 {
697     static const char pattern[] = ":\\\n\t:";
698 
699     int len = 0;
700     const char *const t = src + strlen(src);
701 
702     while (*src != '\0') {
703           IGNORE_SEP_TRAIL(src, t, pattern);
704           src++;
705           len++;
706     }
707     return len;
708 }
709 #else
710 #define termcap_length(src) strlen(src)
711 #endif
712 
713 static void
indent_DYN(DYNBUF * buffer,int level)714 indent_DYN(DYNBUF * buffer, int level)
715 {
716     int n;
717 
718     for (n = 0; n < level; n++)
719           strncpy_DYN(buffer, "\t", (size_t) 1);
720 }
721 
722 /*
723  * Check if the current line which was begun consists only of a tab and the
724  * given leading text.
725  */
726 static bool
leading_DYN(DYNBUF * buffer,const char * leading)727 leading_DYN(DYNBUF * buffer, const char *leading)
728 {
729     bool result = FALSE;
730     size_t need = strlen(leading);
731     if (buffer->used > need) {
732           need = buffer->used - need;
733           if (!strcmp(buffer->text + need, leading)) {
734               result = TRUE;
735               while (--need != 0) {
736                     if (buffer->text[need] == '\n') {
737                         break;
738                     }
739                     if (buffer->text[need] != '\t') {
740                         result = FALSE;
741                         break;
742                     }
743               }
744           }
745     }
746     return result;
747 }
748 
749 bool
has_params(const char * src)750 has_params(const char *src)
751 {
752     bool result = FALSE;
753     int len = (int) strlen(src);
754     int n;
755     bool ifthen = FALSE;
756     bool params = FALSE;
757 
758     for (n = 0; n < len - 1; ++n) {
759           if (!strncmp(src + n, "%p", (size_t) 2)) {
760               params = TRUE;
761           } else if (!strncmp(src + n, "%;", (size_t) 2)) {
762               ifthen = TRUE;
763               result = params;
764               break;
765           }
766     }
767     if (!ifthen) {
768           result = ((len > 50) && params);
769     }
770     return result;
771 }
772 
773 static char *
fmt_complex(TERMTYPE2 * tterm,const char * capability,char * src,int level)774 fmt_complex(TERMTYPE2 *tterm, const char *capability, char *src, int level)
775 {
776     bool percent = FALSE;
777     bool params = has_params(src);
778 
779     while (*src != '\0') {
780           switch (*src) {
781           case '^':
782               percent = FALSE;
783               strncpy_DYN(&tmpbuf, src++, (size_t) 1);
784               break;
785           case '\\':
786               percent = FALSE;
787               strncpy_DYN(&tmpbuf, src++, (size_t) 1);
788               break;
789           case '%':
790               percent = TRUE;
791               break;
792           case '?':           /* "if" */
793           case 't':           /* "then" */
794           case 'e':           /* "else" */
795               if (percent) {
796                     percent = FALSE;
797                     tmpbuf.text[tmpbuf.used - 1] = '\n';
798                     /* treat a "%e" as else-if, on the same level */
799                     if (*src == 'e') {
800                         indent_DYN(&tmpbuf, level);
801                         strncpy_DYN(&tmpbuf, "%", (size_t) 1);
802                         strncpy_DYN(&tmpbuf, src, (size_t) 1);
803                         src++;
804                         params = has_params(src);
805                         if (!params && *src != '\0' && *src != '%') {
806                               strncpy_DYN(&tmpbuf, "\n", (size_t) 1);
807                               indent_DYN(&tmpbuf, level + 1);
808                         }
809                     } else {
810                         indent_DYN(&tmpbuf, level + 1);
811                         strncpy_DYN(&tmpbuf, "%", (size_t) 1);
812                         strncpy_DYN(&tmpbuf, src, (size_t) 1);
813                         if (*src++ == '?') {
814                               src = fmt_complex(tterm, capability, src, level + 1);
815                               if (*src != '\0' && *src != '%') {
816                                   strncpy_DYN(&tmpbuf, "\n", (size_t) 1);
817                                   indent_DYN(&tmpbuf, level + 1);
818                               }
819                         } else if (level == 1) {
820                               if (checking)
821                                   _nc_warning("%s: %%%c without %%? in %s",
822                                                   _nc_first_name(tterm->term_names),
823                                                   *src, capability);
824                         }
825                     }
826                     continue;
827               }
828               break;
829           case ';':           /* "endif" */
830               if (percent) {
831                     percent = FALSE;
832                     if (level > 1) {
833                         tmpbuf.text[tmpbuf.used - 1] = '\n';
834                         indent_DYN(&tmpbuf, level);
835                         strncpy_DYN(&tmpbuf, "%", (size_t) 1);
836                         strncpy_DYN(&tmpbuf, src++, (size_t) 1);
837                         if (src[0] == '%'
838                               && src[1] != '\0'
839                               && (strchr("?e;", src[1])) == 0) {
840                               tmpbuf.text[tmpbuf.used++] = '\n';
841                               indent_DYN(&tmpbuf, level);
842                         }
843                         return src;
844                     }
845                     if (checking)
846                         _nc_warning("%s: %%; without %%? in %s",
847                                         _nc_first_name(tterm->term_names),
848                                         capability);
849               }
850               break;
851           case 'p':
852               if (percent && params && !leading_DYN(&tmpbuf, "%")) {
853                     tmpbuf.text[tmpbuf.used - 1] = '\n';
854                     indent_DYN(&tmpbuf, level + 1);
855                     strncpy_DYN(&tmpbuf, "%", (size_t) 1);
856               }
857               params = FALSE;
858               percent = FALSE;
859               break;
860           case ' ':
861               strncpy_DYN(&tmpbuf, "\\s", (size_t) 2);
862               ++src;
863               continue;
864           default:
865               percent = FALSE;
866               break;
867           }
868           strncpy_DYN(&tmpbuf, src++, (size_t) 1);
869     }
870     return src;
871 }
872 
873 /*
874  * Make "large" numbers a little easier to read by showing them in hexadecimal
875  * if they are "close" to a power of two.
876  */
877 static const char *
number_format(int value)878 number_format(int value)
879 {
880     const char *result = "%d";
881     if ((outform != F_TERMCAP) && (value > 255)) {
882           unsigned long lv = (unsigned long) value;
883           unsigned long mm;
884           int bits = sizeof(unsigned long) * 8;
885           int nn;
886           for (nn = 8; nn < bits; ++nn) {
887               mm = 1UL << nn;
888               if ((mm - 16) <= lv && (mm + 16) > lv) {
889                     result = "%#x";
890                     break;
891               }
892           }
893     }
894     return result;
895 }
896 
897 #define SAME_CAP(n,cap) (&tterm->Strings[n] == &cap)
898 #define EXTRA_CAP 20
899 
900 int
fmt_entry(TERMTYPE2 * tterm,PredFunc pred,int content_only,int suppress_untranslatable,int infodump,int numbers)901 fmt_entry(TERMTYPE2 *tterm,
902             PredFunc pred,
903             int content_only,
904             int suppress_untranslatable,
905             int infodump,
906             int numbers)
907 {
908     PredIdx i, j;
909     char buffer[MAX_TERMINFO_LENGTH + EXTRA_CAP];
910     char *capability;
911     NCURSES_CONST char *name;
912     int predval, len;
913     PredIdx num_bools = 0;
914     PredIdx num_values = 0;
915     PredIdx num_strings = 0;
916     bool outcount = 0;
917 
918 #define WRAP_CONCAT1(s)                 wrap_concat1(s); outcount = TRUE
919 #define WRAP_CONCAT           WRAP_CONCAT1(buffer)
920 
921     len = 12;                           /* terminfo file-header */
922 
923     if (pred == 0) {
924           cur_type = tterm;
925           pred = dump_predicate;
926     }
927 
928     strcpy_DYN(&outbuf, 0);
929     if (content_only) {
930           column = indent;    /* FIXME: workaround to prevent empty lines */
931     } else {
932           strcpy_DYN(&outbuf, tterm->term_names);
933 
934           /*
935            * Colon is legal in terminfo descriptions, but not in termcap.
936            */
937           if (!infodump) {
938               char *p = outbuf.text;
939               while (*p) {
940                     if (*p == ':') {
941                         *p = '=';
942                     }
943                     ++p;
944               }
945           }
946           strcpy_DYN(&outbuf, separator);
947           column = (int) outbuf.used;
948           if (height > 1)
949               force_wrap();
950     }
951 
952     for_each_boolean(j, tterm) {
953           i = BoolIndirect(j);
954           name = ExtBoolname(tterm, (int) i, bool_names);
955           assert(strlen(name) < sizeof(buffer) - EXTRA_CAP);
956 
957           if (!version_filter(BOOLEAN, i))
958               continue;
959           else if (isObsolete(outform, name))
960               continue;
961 
962           predval = pred(BOOLEAN, i);
963           if (predval != FAIL) {
964               _nc_STRCPY(buffer, name, sizeof(buffer));
965               if (predval <= 0)
966                     _nc_STRCAT(buffer, "@", sizeof(buffer));
967               else if (i + 1 > num_bools)
968                     num_bools = i + 1;
969               WRAP_CONCAT;
970           }
971     }
972 
973     if (column != indent && height > 1)
974           force_wrap();
975 
976     for_each_number(j, tterm) {
977           i = NumIndirect(j);
978           name = ExtNumname(tterm, (int) i, num_names);
979           assert(strlen(name) < sizeof(buffer) - EXTRA_CAP);
980 
981           if (!version_filter(NUMBER, i))
982               continue;
983           else if (isObsolete(outform, name))
984               continue;
985 
986           predval = pred(NUMBER, i);
987           if (predval != FAIL) {
988               if (tterm->Numbers[i] < 0) {
989                     _nc_SPRINTF(buffer, _nc_SLIMIT(sizeof(buffer))
990                                   "%s@", name);
991               } else {
992                     size_t nn;
993                     _nc_SPRINTF(buffer, _nc_SLIMIT(sizeof(buffer))
994                                   "%s#", name);
995                     nn = strlen(buffer);
996                     _nc_SPRINTF(buffer + nn, _nc_SLIMIT(sizeof(buffer) - nn)
997                                   number_format(tterm->Numbers[i]),
998                                   tterm->Numbers[i]);
999                     if (i + 1 > num_values)
1000                         num_values = i + 1;
1001               }
1002               WRAP_CONCAT;
1003           }
1004     }
1005 
1006     if (column != indent && height > 1)
1007           force_wrap();
1008 
1009     len += (int) (num_bools
1010                       + num_values * 2
1011                       + strlen(tterm->term_names) + 1);
1012     if (len & 1)
1013           len++;
1014 
1015 #undef CUR
1016 #define CUR tterm->
1017     if (outform == F_TERMCAP) {
1018           if (VALID_STRING(termcap_reset)) {
1019               if (VALID_STRING(init_3string)
1020                     && !strcmp(init_3string, termcap_reset))
1021                     DISCARD(init_3string);
1022 
1023               if (VALID_STRING(reset_2string)
1024                     && !strcmp(reset_2string, termcap_reset))
1025                     DISCARD(reset_2string);
1026           }
1027     }
1028 
1029     for_each_string(j, tterm) {
1030           i = StrIndirect(j);
1031           name = ExtStrname(tterm, (int) i, str_names);
1032           assert(strlen(name) < sizeof(buffer) - EXTRA_CAP);
1033 
1034           capability = tterm->Strings[i];
1035 
1036           if (!version_filter(STRING, i))
1037               continue;
1038           else if (isObsolete(outform, name))
1039               continue;
1040 
1041 #if NCURSES_XNAMES
1042           /*
1043            * Extended names can be longer than 2 characters, but termcap programs
1044            * cannot read those (filter them out).
1045            */
1046           if (outform == F_TERMCAP && (strlen(name) > 2))
1047               continue;
1048 #endif
1049 
1050           if (outform == F_TERMCAP) {
1051               /*
1052                * Some older versions of vi want rmir/smir to be defined
1053                * for ich/ich1 to work.  If they're not defined, force
1054                * them to be output as defined and empty.
1055                */
1056               if (PRESENT(insert_character) || PRESENT(parm_ich)) {
1057                     if (SAME_CAP(i, enter_insert_mode)
1058                         && enter_insert_mode == ABSENT_STRING) {
1059                         _nc_STRCPY(buffer, "im=", sizeof(buffer));
1060                         WRAP_CONCAT;
1061                         continue;
1062                     }
1063 
1064                     if (SAME_CAP(i, exit_insert_mode)
1065                         && exit_insert_mode == ABSENT_STRING) {
1066                         _nc_STRCPY(buffer, "ei=", sizeof(buffer));
1067                         WRAP_CONCAT;
1068                         continue;
1069                     }
1070               }
1071               /*
1072                * termcap applications such as screen will be confused if sgr0
1073                * is translated to a string containing rmacs.  Filter that out.
1074                */
1075               if (PRESENT(exit_attribute_mode)) {
1076                     if (SAME_CAP(i, exit_attribute_mode)) {
1077                         char *trimmed_sgr0;
1078                         char *my_sgr = set_attributes;
1079 
1080                         set_attributes = save_sgr;
1081 
1082                         trimmed_sgr0 = _nc_trim_sgr0(tterm);
1083                         if (strcmp(capability, trimmed_sgr0)) {
1084                               capability = trimmed_sgr0;
1085                         } else {
1086                               if (trimmed_sgr0 != exit_attribute_mode)
1087                                   free(trimmed_sgr0);
1088                         }
1089 
1090                         set_attributes = my_sgr;
1091                     }
1092               }
1093           }
1094 
1095           predval = pred(STRING, i);
1096           buffer[0] = '\0';
1097 
1098           if (predval != FAIL) {
1099               if (VALID_STRING(capability)
1100                     && i + 1 > num_strings)
1101                     num_strings = i + 1;
1102 
1103               if (!VALID_STRING(capability)) {
1104                     _nc_SPRINTF(buffer, _nc_SLIMIT(sizeof(buffer))
1105                                   "%s@", name);
1106                     WRAP_CONCAT;
1107               } else if (TcOutput()) {
1108                     char *srccap = _nc_tic_expand(capability, TRUE, numbers);
1109                     int params = ((i < (int) SIZEOF(parametrized))
1110                                     ? parametrized[i]
1111                                     : ((*srccap == 'k')
1112                                          ? 0
1113                                          : has_params(srccap)));
1114                     char *cv = _nc_infotocap(name, srccap, params);
1115 
1116                     if (cv == 0) {
1117                         if (outform == F_TCONVERR) {
1118                               _nc_SPRINTF(buffer, _nc_SLIMIT(sizeof(buffer))
1119                                             "%s=!!! %s WILL NOT CONVERT !!!",
1120                                             name, srccap);
1121                               WRAP_CONCAT;
1122                         } else if (suppress_untranslatable) {
1123                               continue;
1124                         } else {
1125                               char *s = srccap, *d = buffer;
1126                               int need = 3 + (int) strlen(name);
1127                               while ((*d = *s++) != 0) {
1128                                   if ((d - buffer + 1) >= (int) sizeof(buffer)) {
1129                                         fprintf(stderr,
1130                                                   "%s: value for %s is too long\n",
1131                                                   _nc_progname,
1132                                                   name);
1133                                         *d = '\0';
1134                                         break;
1135                                   }
1136                                   if (*d == ':') {
1137                                         *d++ = '\\';
1138                                         *d = ':';
1139                                   } else if (*d == '\\') {
1140                                         if ((*++d = *s++) == '\0')
1141                                             break;
1142                                   }
1143                                   d++;
1144                                   *d = '\0';
1145                               }
1146                               need += (int) (d - buffer);
1147                               wrap_concat("..", need, w1ST | wERR);
1148                               need -= 2;
1149                               wrap_concat(name, need, wOFF | wERR);
1150                               need -= (int) strlen(name);
1151                               wrap_concat("=", need, w2ND | wERR);
1152                               need -= 1;
1153                               wrap_concat(buffer, need, wEND | wERR);
1154                               outcount = TRUE;
1155                         }
1156                     } else {
1157                         wrap_concat3(name, "=", cv);
1158                     }
1159                     len += (int) strlen(capability) + 1;
1160               } else {
1161                     char *src = _nc_tic_expand(capability,
1162                                                      outform == F_TERMINFO, numbers);
1163 
1164                     strcpy_DYN(&tmpbuf, 0);
1165                     strcpy_DYN(&tmpbuf, name);
1166                     strcpy_DYN(&tmpbuf, "=");
1167                     if (pretty
1168                         && (outform == F_TERMINFO
1169                               || outform == F_VARIABLE)) {
1170                         fmt_complex(tterm, name, src, 1);
1171                     } else {
1172                         strcpy_DYN(&tmpbuf, src);
1173                     }
1174                     len += (int) strlen(capability) + 1;
1175                     WRAP_CONCAT1(tmpbuf.text);
1176               }
1177           }
1178           /* e.g., trimmed_sgr0 */
1179           if (VALID_STRING(capability) &&
1180               capability != tterm->Strings[i])
1181               free(capability);
1182     }
1183     len += (int) (num_strings * 2);
1184 
1185     /*
1186      * This piece of code should be an effective inverse of the functions
1187      * postprocess_terminfo() and postprocess_terminfo() in parse_entry.c.
1188      * Much more work should be done on this to support dumping termcaps.
1189      */
1190     if (tversion == V_HPUX) {
1191           if (VALID_STRING(memory_lock)) {
1192               _nc_SPRINTF(buffer, _nc_SLIMIT(sizeof(buffer))
1193                               "meml=%s", memory_lock);
1194               WRAP_CONCAT;
1195           }
1196           if (VALID_STRING(memory_unlock)) {
1197               _nc_SPRINTF(buffer, _nc_SLIMIT(sizeof(buffer))
1198                               "memu=%s", memory_unlock);
1199               WRAP_CONCAT;
1200           }
1201     } else if (tversion == V_AIX) {
1202           if (VALID_STRING(acs_chars)) {
1203               bool box_ok = TRUE;
1204               const char *acstrans = "lqkxjmwuvtn";
1205               const char *cp;
1206               char *tp, *sp, boxchars[11];
1207 
1208               tp = boxchars;
1209               for (cp = acstrans; *cp; cp++) {
1210                     sp = (strchr) (acs_chars, *cp);
1211                     if (sp)
1212                         *tp++ = sp[1];
1213                     else {
1214                         box_ok = FALSE;
1215                         break;
1216                     }
1217               }
1218               tp[0] = '\0';
1219 
1220               if (box_ok) {
1221                     char *tmp = _nc_tic_expand(boxchars,
1222                                                      (outform == F_TERMINFO),
1223                                                      numbers);
1224                     _nc_STRCPY(buffer, "box1=", sizeof(buffer));
1225                     while (*tmp != '\0') {
1226                         size_t have = strlen(buffer);
1227                         size_t next = strlen(tmp);
1228                         size_t want = have + next + 1;
1229                         size_t last = next;
1230                         char save = '\0';
1231 
1232                         /*
1233                          * If the expanded string is too long for the buffer,
1234                          * chop it off and save the location where we chopped it.
1235                          */
1236                         if (want >= sizeof(buffer)) {
1237                               save = tmp[last];
1238                               tmp[last] = '\0';
1239                         }
1240                         _nc_STRCAT(buffer, tmp, sizeof(buffer));
1241 
1242                         /*
1243                          * If we chopped the buffer, replace the missing piece and
1244                          * shift everything to append the remainder.
1245                          */
1246                         if (save != '\0') {
1247                               next = 0;
1248                               tmp[last] = save;
1249                               while ((tmp[next] = tmp[last + next]) != '\0') {
1250                                   ++next;
1251                               }
1252                         } else {
1253                               break;
1254                         }
1255                     }
1256                     WRAP_CONCAT;
1257               }
1258           }
1259     }
1260 
1261     /*
1262      * kludge: trim off trailer to avoid an extra blank line
1263      * in infocmp -u output when there are no string differences
1264      */
1265     if (outcount) {
1266           bool trimmed = FALSE;
1267           j = (PredIdx) outbuf.used;
1268           if (wrapped && did_wrap) {
1269               /* EMPTY */ ;
1270           } else if (j >= 2
1271                        && outbuf.text[j - 1] == '\t'
1272                        && outbuf.text[j - 2] == '\n') {
1273               outbuf.used -= 2;
1274               trimmed = TRUE;
1275           } else if (j >= 4
1276                        && outbuf.text[j - 1] == ':'
1277                        && outbuf.text[j - 2] == '\t'
1278                        && outbuf.text[j - 3] == '\n'
1279                        && outbuf.text[j - 4] == '\\') {
1280               outbuf.used -= 4;
1281               trimmed = TRUE;
1282           }
1283           if (trimmed) {
1284               outbuf.text[outbuf.used] = '\0';
1285               column = oldcol;
1286               strcpy_DYN(&outbuf, " ");
1287           }
1288     }
1289 #if 0
1290     fprintf(stderr, "num_bools = %d\n", num_bools);
1291     fprintf(stderr, "num_values = %d\n", num_values);
1292     fprintf(stderr, "num_strings = %d\n", num_strings);
1293     fprintf(stderr, "term_names=%s, len=%d, strlen(outbuf)=%d, outbuf=%s\n",
1294               tterm->term_names, len, outbuf.used, outbuf.text);
1295 #endif
1296     /*
1297      * Here's where we use infodump to trigger a more stringent length check
1298      * for termcap-translation purposes.
1299      * Return the length of the raw entry, without tc= expansions,
1300      * It gives an idea of which entries are deadly to even *scan past*,
1301      * as opposed to *use*.
1302      */
1303     return (infodump ? len : (int) termcap_length(outbuf.text));
1304 }
1305 
1306 static bool
kill_string(TERMTYPE2 * tterm,char * cap)1307 kill_string(TERMTYPE2 *tterm, char *cap)
1308 {
1309     unsigned n;
1310     for (n = 0; n < NUM_STRINGS(tterm); ++n) {
1311           if (cap == tterm->Strings[n]) {
1312               tterm->Strings[n] = ABSENT_STRING;
1313               return TRUE;
1314           }
1315     }
1316     return FALSE;
1317 }
1318 
1319 static char *
find_string(TERMTYPE2 * tterm,char * name)1320 find_string(TERMTYPE2 *tterm, char *name)
1321 {
1322     PredIdx n;
1323     for (n = 0; n < NUM_STRINGS(tterm); ++n) {
1324           if (version_filter(STRING, n)
1325               && !strcmp(name, strnames[n])) {
1326               char *cap = tterm->Strings[n];
1327               if (VALID_STRING(cap)) {
1328                     return cap;
1329               }
1330               break;
1331           }
1332     }
1333     return ABSENT_STRING;
1334 }
1335 
1336 /*
1337  * This is used to remove function-key labels from a termcap entry to
1338  * make it smaller.
1339  */
1340 static int
kill_labels(TERMTYPE2 * tterm,int target)1341 kill_labels(TERMTYPE2 *tterm, int target)
1342 {
1343     int n;
1344     int result = 0;
1345     char *cap;
1346     char name[10];
1347 
1348     for (n = 0; n <= 10; ++n) {
1349           _nc_SPRINTF(name, _nc_SLIMIT(sizeof(name)) "lf%d", n);
1350           cap = find_string(tterm, name);
1351           if (VALID_STRING(cap)
1352               && kill_string(tterm, cap)) {
1353               target -= (int) (strlen(cap) + 5);
1354               ++result;
1355               if (target < 0)
1356                     break;
1357           }
1358     }
1359     return result;
1360 }
1361 
1362 /*
1363  * This is used to remove function-key definitions from a termcap entry to
1364  * make it smaller.
1365  */
1366 static int
kill_fkeys(TERMTYPE2 * tterm,int target)1367 kill_fkeys(TERMTYPE2 *tterm, int target)
1368 {
1369     int n;
1370     int result = 0;
1371     char *cap;
1372     char name[10];
1373 
1374     for (n = 60; n >= 0; --n) {
1375           _nc_SPRINTF(name, _nc_SLIMIT(sizeof(name)) "kf%d", n);
1376           cap = find_string(tterm, name);
1377           if (VALID_STRING(cap)
1378               && kill_string(tterm, cap)) {
1379               target -= (int) (strlen(cap) + 5);
1380               ++result;
1381               if (target < 0)
1382                     break;
1383           }
1384     }
1385     return result;
1386 }
1387 
1388 /*
1389  * Check if the given acsc string is a 1-1 mapping, i.e., just-like-vt100.
1390  * Also, since this is for termcap, we only care about the line-drawing map.
1391  */
1392 #define isLine(c) (strchr("lmkjtuvwqxn", c) != 0)
1393 
1394 static bool
one_one_mapping(const char * mapping)1395 one_one_mapping(const char *mapping)
1396 {
1397     bool result = TRUE;
1398 
1399     if (VALID_STRING(mapping)) {
1400           int n = 0;
1401           while (mapping[n] != '\0' && mapping[n + 1] != '\0') {
1402               if (isLine(mapping[n]) &&
1403                     mapping[n] != mapping[n + 1]) {
1404                     result = FALSE;
1405                     break;
1406               }
1407               n += 2;
1408           }
1409     }
1410     return result;
1411 }
1412 
1413 #define FMT_ENTRY() \
1414                     fmt_entry(tterm, pred, \
1415                               0, \
1416                               suppress_untranslatable, \
1417                               infodump, numbers)
1418 
1419 #define SHOW_WHY PRINTF
1420 
1421 static bool
purged_acs(TERMTYPE2 * tterm)1422 purged_acs(TERMTYPE2 *tterm)
1423 {
1424     bool result = FALSE;
1425 
1426     if (VALID_STRING(acs_chars)) {
1427           if (!one_one_mapping(acs_chars)) {
1428               enter_alt_charset_mode = ABSENT_STRING;
1429               exit_alt_charset_mode = ABSENT_STRING;
1430               SHOW_WHY("# (rmacs/smacs removed for consistency)\n");
1431           }
1432           result = TRUE;
1433     }
1434     return result;
1435 }
1436 
1437 static void
encode_b64(char * target,char * source,unsigned state,int * saved)1438 encode_b64(char *target, char *source, unsigned state, int *saved)
1439 {
1440     /* RFC-4648 */
1441     static const char data[] =
1442     "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
1443     "abcdefghijklmnopqrstuvwxyz"
1444     "0123456789" "-_";
1445     int ch = UChar(source[state]);
1446 
1447     switch (state % 3) {
1448     case 0:
1449           *target++ = data[(ch >> 2) & 077];
1450           *saved = (ch << 4);
1451           break;
1452     case 1:
1453           *target++ = data[((ch >> 4) | *saved) & 077];
1454           *saved = (ch << 2);
1455           break;
1456     case 2:
1457           *target++ = data[((ch >> 6) | *saved) & 077];
1458           *target++ = data[ch & 077];
1459           *saved = 0;
1460           break;
1461     }
1462     *target = '\0';
1463 }
1464 
1465 /*
1466  * Dump a single entry.
1467  */
1468 void
dump_entry(TERMTYPE2 * tterm,int suppress_untranslatable,int limited,int numbers,PredFunc pred)1469 dump_entry(TERMTYPE2 *tterm,
1470              int suppress_untranslatable,
1471              int limited,
1472              int numbers,
1473              PredFunc pred)
1474 {
1475     TERMTYPE2 save_tterm;
1476     int len, critlen;
1477     const char *legend;
1478     bool infodump;
1479 
1480     if (quickdump) {
1481           char bigbuf[65536];
1482           unsigned n;
1483           unsigned offset = 0;
1484           separator = "";
1485           trailer = "\n";
1486           indent = 0;
1487           if (_nc_write_object(tterm, bigbuf, &offset, sizeof(bigbuf)) == OK) {
1488               char numbuf[80];
1489               if (quickdump & 1) {
1490                     if (outbuf.used)
1491                         wrap_concat1("\n");
1492                     wrap_concat1("hex:");
1493                     for (n = 0; n < offset; ++n) {
1494                         _nc_SPRINTF(numbuf, _nc_SLIMIT(sizeof(numbuf))
1495                                         "%02X", UChar(bigbuf[n]));
1496                         wrap_concat1(numbuf);
1497                     }
1498               }
1499               if (quickdump & 2) {
1500                     static char padding[] =
1501                     {0, 0};
1502                     int value = 0;
1503                     if (outbuf.used)
1504                         wrap_concat1("\n");
1505                     wrap_concat1("b64:");
1506                     for (n = 0; n < offset; ++n) {
1507                         encode_b64(numbuf, bigbuf, n, &value);
1508                         wrap_concat1(numbuf);
1509                     }
1510                     switch (n % 3) {
1511                     case 0:
1512                         break;
1513                     case 1:
1514                         encode_b64(numbuf, padding, 1, &value);
1515                         wrap_concat1(numbuf);
1516                         wrap_concat1("==");
1517                         break;
1518                     case 2:
1519                         encode_b64(numbuf, padding, 1, &value);
1520                         wrap_concat1(numbuf);
1521                         wrap_concat1("=");
1522                         break;
1523                     }
1524               }
1525           }
1526           return;
1527     }
1528 
1529     if (TcOutput()) {
1530           critlen = MAX_TERMCAP_LENGTH;
1531           legend = "older termcap";
1532           infodump = FALSE;
1533           set_obsolete_termcaps(tterm);
1534     } else {
1535           critlen = MAX_TERMINFO_LENGTH;
1536           legend = "terminfo";
1537           infodump = TRUE;
1538     }
1539 
1540     save_sgr = set_attributes;
1541 
1542     if ((FMT_ENTRY() > critlen)
1543           && limited) {
1544 
1545           save_tterm = *tterm;
1546           if (!suppress_untranslatable) {
1547               SHOW_WHY("# (untranslatable capabilities removed to fit entry within %d bytes)\n",
1548                          critlen);
1549               suppress_untranslatable = TRUE;
1550           }
1551           if (FMT_ENTRY() > critlen) {
1552               /*
1553                * We pick on sgr because it's a nice long string capability that
1554                * is really just an optimization hack.  Another good candidate is
1555                * acsc since it is both long and unused by BSD termcap.
1556                */
1557               bool changed = FALSE;
1558 
1559 #if NCURSES_XNAMES
1560               /*
1561                * Extended names are most likely function-key definitions.  Drop
1562                * those first.
1563                */
1564               unsigned n;
1565               for (n = STRCOUNT; n < NUM_STRINGS(tterm); n++) {
1566                     const char *name = ExtStrname(tterm, (int) n, strnames);
1567 
1568                     if (VALID_STRING(tterm->Strings[n])) {
1569                         set_attributes = ABSENT_STRING;
1570                         /* we remove long names anyway - only report the short */
1571                         if (strlen(name) <= 2) {
1572                               SHOW_WHY("# (%s removed to fit entry within %d bytes)\n",
1573                                          name,
1574                                          critlen);
1575                         }
1576                         changed = TRUE;
1577                         if (FMT_ENTRY() <= critlen)
1578                               break;
1579                     }
1580               }
1581 #endif
1582               if (VALID_STRING(set_attributes)) {
1583                     set_attributes = ABSENT_STRING;
1584                     SHOW_WHY("# (sgr removed to fit entry within %d bytes)\n",
1585                                critlen);
1586                     changed = TRUE;
1587               }
1588               if (!changed || (FMT_ENTRY() > critlen)) {
1589                     if (purged_acs(tterm)) {
1590                         acs_chars = ABSENT_STRING;
1591                         SHOW_WHY("# (acsc removed to fit entry within %d bytes)\n",
1592                                    critlen);
1593                         changed = TRUE;
1594                     }
1595               }
1596               if (!changed || (FMT_ENTRY() > critlen)) {
1597                     int oldversion = tversion;
1598 
1599                     tversion = V_BSD;
1600                     SHOW_WHY("# (terminfo-only capabilities suppressed to fit entry within %d bytes)\n",
1601                                critlen);
1602 
1603                     len = FMT_ENTRY();
1604                     if (len > critlen
1605                         && kill_labels(tterm, len - critlen)) {
1606                         SHOW_WHY("# (some labels capabilities suppressed to fit entry within %d bytes)\n",
1607                                    critlen);
1608                         len = FMT_ENTRY();
1609                     }
1610                     if (len > critlen
1611                         && kill_fkeys(tterm, len - critlen)) {
1612                         SHOW_WHY("# (some function-key capabilities suppressed to fit entry within %d bytes)\n",
1613                                    critlen);
1614                         len = FMT_ENTRY();
1615                     }
1616                     if (len > critlen) {
1617                         (void) fprintf(stderr,
1618                                            "%s: %s entry is %d bytes long\n",
1619                                            _nc_progname,
1620                                            _nc_first_name(tterm->term_names),
1621                                            len);
1622                         SHOW_WHY("# WARNING: this entry, %d bytes long, may core-dump %s libraries!\n",
1623                                    len, legend);
1624                     }
1625                     tversion = oldversion;
1626               }
1627               set_attributes = save_sgr;
1628               *tterm = save_tterm;
1629           }
1630     } else if (!version_filter(STRING, STR_IDX(acs_chars))) {
1631           save_tterm = *tterm;
1632           if (purged_acs(tterm)) {
1633               (void) FMT_ENTRY();
1634           }
1635           *tterm = save_tterm;
1636     }
1637 }
1638 
1639 void
dump_uses(const char * name,bool infodump)1640 dump_uses(const char *name, bool infodump)
1641 /* dump "use=" clauses in the appropriate format */
1642 {
1643     char buffer[MAX_TERMINFO_LENGTH];
1644 
1645     if (TcOutput())
1646           trim_trailing();
1647     _nc_SPRINTF(buffer, _nc_SLIMIT(sizeof(buffer))
1648                     "%s%s", infodump ? "use=" : "tc=", name);
1649     wrap_concat1(buffer);
1650 }
1651 
1652 int
show_entry(void)1653 show_entry(void)
1654 {
1655     /*
1656      * Trim any remaining whitespace.
1657      */
1658     if (outbuf.used != 0) {
1659           bool infodump = !TcOutput();
1660           char delim = (char) (infodump ? ',' : ':');
1661           int j;
1662 
1663           for (j = (int) outbuf.used - 1; j > 0; --j) {
1664               char ch = outbuf.text[j];
1665               if (ch == '\n') {
1666                     ;
1667               } else if (isspace(UChar(ch))) {
1668                     outbuf.used = (size_t) j;
1669               } else if (!infodump && ch == '\\') {
1670                     outbuf.used = (size_t) j;
1671               } else if (ch == delim && (j == 0 || outbuf.text[j - 1] != '\\')) {
1672                     outbuf.used = (size_t) (j + 1);
1673               } else {
1674                     break;
1675               }
1676           }
1677           outbuf.text[outbuf.used] = '\0';
1678     }
1679     if (outbuf.text != 0) {
1680           (void) fputs(outbuf.text, stdout);
1681           putchar('\n');
1682     }
1683     return (int) outbuf.used;
1684 }
1685 
1686 void
compare_entry(PredHook hook,TERMTYPE2 * tp GCC_UNUSED,bool quiet)1687 compare_entry(PredHook hook,
1688                 TERMTYPE2 *tp GCC_UNUSED,
1689                 bool quiet)
1690 /* compare two entries */
1691 {
1692     PredIdx i, j;
1693     NCURSES_CONST char *name;
1694 
1695     if (!quiet)
1696           fputs("    comparing booleans.\n", stdout);
1697     for_each_boolean(j, tp) {
1698           i = BoolIndirect(j);
1699           name = ExtBoolname(tp, (int) i, bool_names);
1700 
1701           if (isObsolete(outform, name))
1702               continue;
1703 
1704           (*hook) (CMP_BOOLEAN, i, name);
1705     }
1706 
1707     if (!quiet)
1708           fputs("    comparing numbers.\n", stdout);
1709     for_each_number(j, tp) {
1710           i = NumIndirect(j);
1711           name = ExtNumname(tp, (int) i, num_names);
1712 
1713           if (isObsolete(outform, name))
1714               continue;
1715 
1716           (*hook) (CMP_NUMBER, i, name);
1717     }
1718 
1719     if (!quiet)
1720           fputs("    comparing strings.\n", stdout);
1721     for_each_string(j, tp) {
1722           i = StrIndirect(j);
1723           name = ExtStrname(tp, (int) i, str_names);
1724 
1725           if (isObsolete(outform, name))
1726               continue;
1727 
1728           (*hook) (CMP_STRING, i, name);
1729     }
1730 
1731     /* (void) fputs("    comparing use entries.\n", stdout); */
1732     (*hook) (CMP_USE, 0, "use");
1733 
1734 }
1735 
1736 #define NOTSET(s)   ((s) == 0)
1737 
1738 /*
1739  * This bit of legerdemain turns all the terminfo variable names into
1740  * references to locations in the arrays Booleans, Numbers, and Strings ---
1741  * precisely what's needed.
1742  */
1743 #undef CUR
1744 #define CUR tp->
1745 
1746 static void
set_obsolete_termcaps(TERMTYPE2 * tp)1747 set_obsolete_termcaps(TERMTYPE2 *tp)
1748 {
1749 #include "capdefaults.c"
1750 }
1751 
1752 /*
1753  * Convert an alternate-character-set string to canonical form: sorted and
1754  * unique.
1755  */
1756 void
repair_acsc(TERMTYPE2 * tp)1757 repair_acsc(TERMTYPE2 *tp)
1758 {
1759     if (VALID_STRING(acs_chars)) {
1760           size_t n, m;
1761           char mapped[256];
1762           char extra = 0;
1763           unsigned source;
1764           unsigned target;
1765           bool fix_needed = FALSE;
1766 
1767           for (n = 0, source = 0; acs_chars[n] != 0; n++) {
1768               target = UChar(acs_chars[n]);
1769               if (source >= target) {
1770                     fix_needed = TRUE;
1771                     break;
1772               }
1773               source = target;
1774               if (acs_chars[n + 1])
1775                     n++;
1776           }
1777           if (fix_needed) {
1778               memset(mapped, 0, sizeof(mapped));
1779               for (n = 0; acs_chars[n] != 0; n++) {
1780                     source = UChar(acs_chars[n]);
1781                     if ((target = (unsigned char) acs_chars[n + 1]) != 0) {
1782                         mapped[source] = (char) target;
1783                         n++;
1784                     } else {
1785                         extra = (char) source;
1786                     }
1787               }
1788               for (n = m = 0; n < sizeof(mapped); n++) {
1789                     if (mapped[n]) {
1790                         acs_chars[m++] = (char) n;
1791                         acs_chars[m++] = mapped[n];
1792                     }
1793               }
1794               if (extra)
1795                     acs_chars[m++] = extra;                 /* garbage in, garbage out */
1796               acs_chars[m] = 0;
1797           }
1798     }
1799 }
1800