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Removed the now unused SOprint().
[mmh] / uip / mhl.c
1 /*
2 ** mhl.c -- the nmh message listing program
3 **
4 ** This code is Copyright (c) 2002, by the authors of nmh.  See the
5 ** COPYRIGHT file in the root directory of the nmh distribution for
6 ** complete copyright information.
7 */
8
9 #include <h/mh.h>
10 #include <h/signals.h>
11 #include <h/addrsbr.h>
12 #include <h/fmt_scan.h>
13 #include <h/tws.h>
14 #include <h/utils.h>
15 #include <setjmp.h>
16 #include <signal.h>
17
18 /*
19 ** MAJOR BUG:
20 ** for a component containing addresses, ADDRFMT, if COMPRESS is also
21 ** set, then addresses get split wrong (not at the spaces between commas).
22 ** To fix this correctly, putstr() should know about "atomic" strings that
23 ** must NOT be broken across lines.  That's too difficult for right now
24 ** (it turns out that there are a number of degernate cases), so in
25 ** oneline(), instead of
26 **
27 **       (*onelp == '\n' && !onelp[1])
28 **
29 ** being a terminating condition,
30 **
31 **       (*onelp == '\n' && (!onelp[1] || (flags & ADDRFMT)))
32 **
33 ** is used instead.  This cuts the line prematurely, and gives us a much
34 ** better chance of getting things right.
35 */
36
37 #define ONECOMP  0
38 #define TWOCOMP  1
39 #define BODYCOMP 2
40
41 #define QUOTE  '\\'
42
43 static struct swit mhlswitches[] = {
44 #define FOLDSW  0
45         { "folder +folder", 0 },
46 #define FORMSW  1
47         { "form formfile", 0 },
48 #define PROGSW  2
49         { "moreproc program", 0 },
50 #define WIDTHSW  3
51         { "width columns", 0 },
52 #define SLEEPSW  4
53         { "sleep seconds",  0 },
54 #define VERSIONSW  5
55         { "version", 0 },
56 #define HELPSW  6
57         { "help", 0 },
58 #define FORW1SW  7
59         { "forward", -7 },
60 #define FORW2SW  8
61         { "forwall", -7 },
62 #define DGSTSW  9
63         { "digest list", -6 },
64 #define VOLUMSW  10
65         { "volume number", -6 },
66 #define ISSUESW  11
67         { "issue number", -5 },
68 #define NBODYSW  12
69         { "nobody", -6 },
70         { NULL, 0 }
71 };
72
73 #define NOCOMPONENT 0x000001  /* don't show component name   */
74 #define UPPERCASE   0x000002  /* display in all upper case   */
75 #define CENTER      0x000004  /* center line                 */
76 #define CLEARTEXT   0x000008  /* cleartext                   */
77 #define EXTRA       0x000010  /* an "extra" component        */
78 #define HDROUTPUT   0x000020  /* already output              */
79 #define LEFTADJUST  0x000040  /* left justify multiple lines */
80 #define COMPRESS    0x000080  /* compress text               */
81 #define ADDRFMT     0x000100  /* contains addresses          */
82 #define DATEFMT     0x000200  /* contains dates              */
83 #define FORMAT      0x000400  /* parse address/date/RFC-2047 field */
84 #define INIT        0x000800  /* initialize component        */
85 #define SPLIT       0x001000  /* split headers (don't concatenate) */
86 #define NONEWLINE   0x002000  /* don't write trailing newline */
87 #define LBITS       "\020\01NOCOMPONENT\02UPPERCASE\03CENTER\04CLEARTEXT\05EXTRA\06HDROUTPUT\07LEFTADJUST\010COMPRESS\011ADDRFMT\012DATEFMT\013FORMAT\014INIT\015SPLIT\016NONEWLINE"
88 #define GFLAGS      (NOCOMPONENT | UPPERCASE | CENTER | LEFTADJUST | COMPRESS | SPLIT)
89
90 struct mcomp {
91         char *c_name;  /* component name */
92         char *c_text;  /* component text */
93         char *c_ovtxt; /* text overflow indicator */
94         char *c_nfs;   /* iff FORMAT */
95         struct format *c_fmt;  /*  .. */
96         int c_offset;  /* left margin indentation */
97         int c_ovoff;   /* overflow indentation */
98         int c_width;   /* width of field */
99         int c_cwidth;  /* width of component */
100         long c_flags;
101         struct mcomp *c_next;
102 };
103
104 static struct mcomp *msghd = NULL;
105 static struct mcomp *msgtl = NULL;
106 static struct mcomp *fmthd = NULL;
107 static struct mcomp *fmttl = NULL;
108
109 static struct mcomp global = {
110         NULL, NULL, "", NULL, NULL, 0, -1, 80, -1, 0, 0
111 };
112
113 static struct mcomp holder = {
114         NULL, NULL, NULL, NULL, NULL, 0, 0, 0, 0, NOCOMPONENT, 0
115 };
116
117 struct pair {
118         char *p_name;
119         long p_flags;
120 };
121
122 static struct pair pairs[] = {
123         { "Date", DATEFMT },
124         { "From", ADDRFMT },
125         { "Sender", ADDRFMT },
126         { "Reply-To", ADDRFMT },
127         { "To", ADDRFMT },
128         { "Cc", ADDRFMT },
129         { "Bcc", ADDRFMT },
130         { "Resent-Date", DATEFMT },
131         { "Resent-From", ADDRFMT },
132         { "Resent-Sender", ADDRFMT },
133         { "Resent-Reply-To", ADDRFMT },
134         { "Resent-To", ADDRFMT },
135         { "Resent-Cc", ADDRFMT },
136         { "Resent-Bcc", ADDRFMT },
137         { NULL, 0 }
138 };
139
140 struct triple {
141         char *t_name;
142         long t_on;
143         long t_off;
144 };
145
146 static struct triple triples[] = {
147         { "nocomponent",  NOCOMPONENT, 0 },
148         { "uppercase", UPPERCASE, 0 },
149         { "nouppercase", 0, UPPERCASE },
150         { "center", CENTER, 0 },
151         { "nocenter", 0, CENTER },
152         { "leftadjust", LEFTADJUST, 0 },
153         { "noleftadjust", 0, LEFTADJUST },
154         { "compress", COMPRESS, 0 },
155         { "nocompress", 0, COMPRESS },
156         { "split", SPLIT, 0 },
157         { "nosplit", 0, SPLIT },
158         { "addrfield", ADDRFMT, DATEFMT },
159         { "datefield", DATEFMT, ADDRFMT },
160         { "newline", 0, NONEWLINE },
161         { "nonewline", NONEWLINE, 0 },
162         { NULL, 0, 0 }
163 };
164
165
166 static int dobody    = 1;
167 static int forwflg   = 0;
168 static int forwall   = 0;
169
170 static int sleepsw = NOTOK;
171
172 static char *digest = NULL;
173 static int volume = 0;
174 static int issue = 0;
175
176 static int exitstat = 0;
177 static int mhldebug = 0;
178
179 #define PITTY  (-1)
180 #define NOTTY  0
181 static int ontty = NOTTY;
182
183 static int column;
184
185 static int lm;
186 static int ovoff;
187 static int term;
188 static int wid;
189
190 static char *ovtxt;
191
192 static unsigned char *onelp;
193
194 static char *parptr;
195
196 static int num_ignores = 0;
197 static char *ignores[MAXARGS];
198
199 static  jmp_buf env;
200 static  jmp_buf mhlenv;
201
202 static char delim3[] =
203 "\n----------------------------------------------------------------------\n\n";
204 static char delim4[] = "\n------------------------------\n\n";
205
206 static FILE *(*mhl_action) () = (FILE *(*) ()) 0;
207
208
209 /*
210 ** Redefine a couple of functions.
211 ** These are undefined later in the code.
212 */
213 #define adios mhladios
214 #define done  mhldone
215
216 /*
217 ** prototypes
218 */
219 static void mhl_format(char *, int);
220 static int evalvar(struct mcomp *);
221 static int ptoi(char *, int *);
222 static int ptos(char *, char **);
223 static char *parse(void);
224 static void process(char *, char *, int, int);
225 static void mhlfile(FILE *, char *, int, int);
226 static int mcomp_flags(char *);
227 static char *mcomp_add(long, char *, char *);
228 static void mcomp_format(struct mcomp *, struct mcomp *);
229 static struct mcomp *add_queue(struct mcomp **, struct mcomp **,
230                 char *, char *, int);
231 static void free_queue(struct mcomp **, struct mcomp **);
232 static void putcomp(struct mcomp *, struct mcomp *, int);
233 static char *oneline(char *, long);
234 static void putstr(char *);
235 static void putch(char);
236 static RETSIGTYPE intrser(int);
237 static RETSIGTYPE pipeser(int);
238 static RETSIGTYPE quitser(int);
239 static void mhladios(char *, char *, ...);
240 static void mhldone(int);
241 static void m_popen(char *);
242
243 void m_pclose(void);
244
245 int sc_width(void);  /* from termsbr.c */
246
247
248 int
249 main(int argc, char **argv)
250 {
251         int i, width = 0, vecp = 0;
252         char *cp, *folder = NULL, *form = NULL;
253         char buf[BUFSIZ], *files[MAXARGS];
254         char **argp, **arguments;
255         char *progsw = NULL;
256
257 #ifdef LOCALE
258         setlocale(LC_ALL, "");
259 #endif
260
261         invo_name = mhbasename(argv[0]);
262
263         /* read user profile/context */
264         context_read();
265
266         arguments = getarguments(invo_name, argc, argv, 1);
267         argp = arguments;
268
269         if ((cp = getenv("MHLDEBUG")) && *cp)
270                 mhldebug++;
271
272         while ((cp = *argp++)) {
273                 if (*cp == '-') {
274                         switch (smatch(++cp, mhlswitches)) {
275                         case AMBIGSW:
276                                 ambigsw(cp, mhlswitches);
277                                 done(1);
278                         case UNKWNSW:
279                                 adios(NULL, "-%s unknown\n", cp);
280
281                         case HELPSW:
282                                 snprintf(buf, sizeof(buf), "%s [switches] [files ...]", invo_name);
283                                 print_help(buf, mhlswitches, 1);
284                                 done(1);
285                         case VERSIONSW:
286                                 print_version(invo_name);
287                                 done(1);
288
289                         case FOLDSW:
290                                 if (!(folder = *argp++) || *folder == '-')
291                                         adios(NULL, "missing argument to %s",
292                                                         argp[-2]);
293                                 continue;
294                         case FORMSW:
295                                 if (!(form = *argp++) || *form == '-')
296                                         adios(NULL, "missing argument to %s",
297                                                         argp[-2]);
298                                 continue;
299
300                         case SLEEPSW:
301                                 if (!(cp = *argp++) || *cp == '-')
302                                         adios(NULL, "missing argument to %s",
303                                                         argp[-2]);
304                                 sleepsw = atoi(cp);  /* ZERO ok! */
305                                 continue;
306
307                         case PROGSW:
308                                 if (!(progsw = *argp++) || *progsw == '-')
309                                         adios(NULL, "missing argument to %s",
310                                                         argp[-2]);
311                                 continue;
312
313                         case WIDTHSW:
314                                 if (!(cp = *argp++) || *cp == '-')
315                                         adios(NULL, "missing argument to %s",
316                                                         argp[-2]);
317                                 if ((width = atoi(cp)) < 1)
318                                         adios(NULL, "bad argument %s %s",
319                                                         argp[-2], cp);
320                                 continue;
321
322                         case DGSTSW:
323                                 if (!(digest = *argp++) ||
324                                                 *digest == '-')
325                                         adios(NULL, "missing argument to %s",
326                                                         argp[-2]);
327                                 continue;
328                         case ISSUESW:
329                                 if (!(cp = *argp++) || *cp == '-')
330                                         adios(NULL, "missing argument to %s",
331                                                         argp[-2]);
332                                 if ((issue = atoi(cp)) < 1)
333                                         adios(NULL, "bad argument %s %s",
334                                                         argp[-2], cp);
335                                 continue;
336                         case VOLUMSW:
337                                 if (!(cp = *argp++) || *cp == '-')
338                                         adios(NULL, "missing argument to %s",
339                                                         argp[-2]);
340                                 if ((volume = atoi(cp)) < 1)
341                                         adios(NULL, "bad argument %s %s",
342                                                         argp[-2], cp);
343                                 continue;
344
345                         case FORW2SW:
346                                 forwall++;  /* fall */
347                         case FORW1SW:
348                                 forwflg++;
349                                 continue;
350
351                         case NBODYSW:
352                                 dobody = 0;
353                                 continue;
354                         }
355                 }
356                 files[vecp++] = cp;
357         }
358
359         if (!folder)
360                 folder = getenv("mhfolder");
361
362         if (isatty(fileno(stdout))) {
363                 if (mhl_action) {
364                         SIGNAL(SIGINT, SIG_IGN);
365                         SIGNAL2(SIGQUIT, quitser);
366                 }
367                 SIGNAL2(SIGPIPE, pipeser);
368                 m_popen(progsw ? progsw : moreproc);
369                 ontty = PITTY;
370         } else {
371                 ontty = NOTTY;
372         }
373
374         mhl_format(form ? form : mhlformat, width);
375
376         if (vecp == 0) {
377                 process(folder, NULL, 1, vecp = 1);
378         } else {
379                 for (i = 0; i < vecp; i++)
380                         process(folder, files[i], i + 1, vecp);
381         }
382
383         if (forwall) {
384                 if (digest) {
385                         printf("%s", delim4);
386                         if (volume == 0) {
387                                 snprintf(buf, sizeof(buf),
388                                         "End of %s Digest\n", digest);
389                         } else {
390                                 snprintf(buf, sizeof(buf), "End of %s Digest [Volume %d Issue %d]\n", digest, volume, issue);
391                         }
392                         i = strlen(buf);
393                         for (cp = buf + i; i > 1; i--)
394                                 *cp++ = '*';
395                         *cp++ = '\n';
396                         *cp = 0;
397                         printf("%s", buf);
398                 } else
399                         printf("\n------- End of Forwarded Message%s\n\n",
400                                 vecp > 1 ? "s" : "");
401         }
402
403         fflush(stdout);
404         if (ferror(stdout)) {
405                 adios("output", "error writing");
406         }
407
408         if (ontty == PITTY)
409                 m_pclose();
410
411         return exitstat;
412 }
413
414
415 static void
416 mhl_format(char *file, int width)
417 {
418         int i;
419         char *bp, *cp, **ip;
420         char *ap, buffer[BUFSIZ], name[NAMESZ];
421         struct mcomp *c1;
422         struct stat st;
423         FILE *fp;
424         static dev_t dev = 0;
425         static ino_t ino = 0;
426         static time_t mtime = 0;
427
428         if (fmthd != NULL) {
429                 if (stat(etcpath(file), &st) != NOTOK
430                         && mtime == st.st_mtime
431                         && dev == st.st_dev
432                         && ino == st.st_ino)
433                         goto out;
434                 else
435                         free_queue(&fmthd, &fmttl);
436         }
437
438         if ((fp = fopen(etcpath(file), "r")) == NULL)
439                 adios(file, "unable to open format file");
440
441         if (fstat(fileno(fp), &st) != NOTOK) {
442                 mtime = st.st_mtime;
443                 dev = st.st_dev;
444                 ino = st.st_ino;
445         }
446
447         global.c_ovtxt = global.c_nfs = NULL;
448         global.c_fmt = NULL;
449         global.c_offset = 0;
450         global.c_ovoff = -1;
451         if ((i = sc_width()) > 5)
452                 global.c_width = i;
453         global.c_cwidth = -1;
454         global.c_flags = 0;
455         *(ip = ignores) = NULL;
456
457         while (vfgets(fp, &ap) == OK) {
458                 bp = ap;
459                 if (*bp == ';')
460                         continue;
461
462                 if ((cp = strchr(bp, '\n')))
463                         *cp = 0;
464
465                 if (*bp == ':') {
466                         c1 = add_queue(&fmthd, &fmttl, NULL, bp + 1,
467                                         CLEARTEXT);
468                         continue;
469                 }
470
471                 parptr = bp;
472                 strncpy(name, parse(), sizeof(name));
473                 switch(*parptr) {
474                 case '\0':
475                 case ',':
476                 case '=':
477                         /*
478                         ** Split this list of fields to ignore, and copy
479                         ** it to the end of the current "ignores" list.
480                         */
481                         if (!mh_strcasecmp(name, "ignores")) {
482                                 char **tmparray, **p;
483                                 int n = 0;
484
485                                 /* split the fields */
486                                 tmparray = brkstring(getcpy(++parptr), ",",
487                                                 NULL);
488
489                                 /* count number of fields split */
490                                 p = tmparray;
491                                 while (*p++)
492                                         n++;
493
494                                 /*
495                                 ** copy pointers to split fields
496                                 ** to ignores array
497                                 */
498                                 ip = copyip(tmparray, ip,
499                                                 MAXARGS - num_ignores);
500                                 num_ignores += n;
501                                 continue;
502                         }
503                         parptr = bp;
504                         while (*parptr) {
505                                 if (evalvar(&global))
506                                         adios(NULL, "format file syntax error: %s", bp);
507                                 if (*parptr)
508                                         parptr++;
509                         }
510                         continue;
511
512                 case ':':
513                         c1 = add_queue(&fmthd, &fmttl, name, NULL, INIT);
514                         while (*parptr == ':' || *parptr == ',') {
515                                 parptr++;
516                                 if (evalvar(c1))
517                                         adios(NULL, "format file syntax error: %s", bp);
518                         }
519                         if (!c1->c_nfs && global.c_nfs) {
520                                 if ((c1->c_flags & DATEFMT) &&
521                                                 (global.c_flags & DATEFMT)) {
522                                         c1->c_nfs = getcpy(global.c_nfs);
523                                 } else if ((c1->c_flags & ADDRFMT) &&
524                                                 (global.c_flags & ADDRFMT)) {
525                                         c1->c_nfs = getcpy(global.c_nfs);
526                                 }
527                         }
528                         continue;
529
530                 default:
531                         adios(NULL, "format file syntax error: %s", bp);
532                 }
533         }
534         fclose(fp);
535
536         if (mhldebug) {
537                 for (c1 = fmthd; c1; c1 = c1->c_next) {
538                         fprintf(stderr, "c1: name=\"%s\" text=\"%s\" ovtxt=\"%s\"\n", c1->c_name, c1->c_text, c1->c_ovtxt);
539                         fprintf(stderr, "\tnfs=0x%x fmt=0x%x\n", (unsigned int)(unsigned long) c1->c_nfs, (unsigned int)(unsigned long) c1->c_fmt);
540                         fprintf(stderr, "\toffset=%d ovoff=%d width=%d cwidth=%d\n", c1->c_offset, c1->c_ovoff, c1->c_width, c1->c_cwidth);
541                         fprintf (stderr, "\tflags=%s\n", snprintb(buffer, sizeof(buffer), (unsigned) c1->c_flags, LBITS));
542                 }
543         }
544
545 out:
546         if (width)
547                 global.c_width = width;
548         if (global.c_width < 5)
549                 global.c_width = 10000;
550 }
551
552
553 static int
554 evalvar(struct mcomp *c1)
555 {
556         char *cp, name[NAMESZ];
557         struct triple *ap;
558
559         if (!*parptr)
560                 return 0;
561         strncpy(name, parse(), sizeof(name));
562
563         if (!mh_strcasecmp(name, "component")) {
564                 if (ptos(name, &c1->c_text))
565                         return 1;
566                 c1->c_flags &= ~NOCOMPONENT;
567                 return 0;
568         }
569
570         if (!mh_strcasecmp(name, "overflowtext"))
571                 return ptos(name, &c1->c_ovtxt);
572
573         if (!mh_strcasecmp(name, "formatfield")) {
574                 char *nfs;
575
576                 if (ptos(name, &cp))
577                         return 1;
578                 cp = concat("=", cp, NULL);
579                 nfs = new_fs(cp, NULL);
580                 free(cp);
581                 c1->c_nfs = getcpy(nfs);
582                 c1->c_flags |= FORMAT;
583                 return 0;
584         }
585
586         if (!mh_strcasecmp(name, "decode")) {
587                 char *nfs;
588
589                 nfs = new_fs("=%(decode{text})", NULL);
590                 c1->c_nfs = getcpy(nfs);
591                 c1->c_flags |= FORMAT;
592                 return 0;
593         }
594
595         if (!mh_strcasecmp(name, "offset"))
596                 return ptoi(name, &c1->c_offset);
597         if (!mh_strcasecmp(name, "overflowoffset"))
598                 return ptoi(name, &c1->c_ovoff);
599         if (!mh_strcasecmp(name, "width"))
600                 return ptoi(name, &c1->c_width);
601         if (!mh_strcasecmp(name, "compwidth"))
602                 return ptoi(name, &c1->c_cwidth);
603
604         for (ap = triples; ap->t_name; ap++)
605                 if (!mh_strcasecmp(ap->t_name, name)) {
606                         c1->c_flags |= ap->t_on;
607                         c1->c_flags &= ~ap->t_off;
608                         return 0;
609                 }
610
611         return 1;
612 }
613
614
615 static int
616 ptoi(char *name, int *i)
617 {
618         char *cp;
619
620         if (*parptr++ != '=' || !*(cp = parse())) {
621                 advise(NULL, "missing argument to variable %s", name);
622                 return 1;
623         }
624
625         *i = atoi(cp);
626         return 0;
627 }
628
629
630 static int
631 ptos(char *name, char **s)
632 {
633         char c, *cp;
634
635         if (*parptr++ != '=') {
636                 advise(NULL, "missing argument to variable %s", name);
637                 return 1;
638         }
639
640         if (*parptr != '"') {
641                 for (cp = parptr; *parptr && *parptr != ':' && *parptr != ',';
642                                 parptr++)
643                         continue;
644         } else {
645                 for (cp = ++parptr; *parptr && *parptr != '"'; parptr++)
646                         if (*parptr == QUOTE)
647                                 if (!*++parptr)
648                                         parptr--;
649         }
650         c = *parptr;
651         *parptr = 0;
652         *s = getcpy(cp);
653         if ((*parptr = c) == '"')
654                 parptr++;
655         return 0;
656 }
657
658
659 static char *
660 parse(void)
661 {
662         int c;
663         char *cp;
664         static char result[NAMESZ];
665
666         for (cp = result; *parptr && (cp - result < NAMESZ); parptr++) {
667                 c = *parptr;
668                 if (isalnum(c)
669                                 || c == '.'
670                                 || c == '-'
671                                 || c == '_'
672                                 || c == '['
673                                 || c == ']')
674                         *cp++ = c;
675                 else
676                         break;
677         }
678         *cp = '\0';
679
680         return result;
681 }
682
683
684 static void
685 process(char *folder, char *fname, int ofilen, int ofilec)
686 {
687         char *cp = NULL;
688         FILE *fp = NULL;
689         struct mcomp *c1;
690
691         switch (setjmp(env)) {
692         case OK:
693                 if (fname) {
694                         fp = mhl_action ? (*mhl_action) (fname) :
695                                         fopen(fname, "r");
696                         if (fp == NULL) {
697                                 advise(fname, "unable to open");
698                                 exitstat++;
699                                 return;
700                         }
701                 } else {
702                         fname = "(stdin)";
703                         fp = stdin;
704                 }
705                 cp = folder ? concat(folder, ":", fname, NULL) : getcpy(fname);
706                 if (ontty != PITTY)
707                         SIGNAL(SIGINT, intrser);
708                 mhlfile(fp, cp, ofilen, ofilec);
709                 /* FALL THROUGH! */
710         default:
711                 if (ontty != PITTY)
712                         SIGNAL(SIGINT, SIG_IGN);
713                 if (mhl_action == NULL && fp != stdin)
714                         fclose(fp);
715                 free(cp);
716                 if (holder.c_text) {
717                         free(holder.c_text);
718                         holder.c_text = NULL;
719                 }
720                 free_queue(&msghd, &msgtl);
721                 for (c1 = fmthd; c1; c1 = c1->c_next)
722                         c1->c_flags &= ~HDROUTPUT;
723                 break;
724         }
725 }
726
727
728 static void
729 mhlfile(FILE *fp, char *mname, int ofilen, int ofilec)
730 {
731         int state;
732         struct mcomp *c1, *c2, *c3;
733         char **ip, name[NAMESZ], buf[BUFSIZ];
734
735         if (forwall) {
736                 if (digest)
737                         printf("%s", ofilen == 1 ? delim3 : delim4);
738                 else {
739                         printf("\n-------");
740                         if (ofilen == 1)
741                                 printf(" Forwarded Message%s",
742                                                 ofilec > 1 ? "s" : "");
743                         else
744                                 printf(" Message %d", ofilen);
745                         printf("\n\n");
746                 }
747         } else if (ofilec > 1) {
748                 if (ofilen > 1) {
749                         printf("\n\n\n");
750                 }
751                 printf(">>> %s\n\n", mname);
752         }
753
754         for (state = FLD;;) {
755                 switch (state = m_getfld(state, name, buf, sizeof(buf), fp)) {
756                 case FLD:
757                 case FLDPLUS:
758                         for (ip = ignores; *ip; ip++)
759                                 if (!mh_strcasecmp(name, *ip)) {
760                                         while (state == FLDPLUS)
761                                                 state = m_getfld(state, name, buf, sizeof(buf), fp);
762                                         break;
763                                 }
764                         if (*ip)
765                                 continue;
766
767                         for (c2 = fmthd; c2; c2 = c2->c_next)
768                                 if (!mh_strcasecmp(c2->c_name, name))
769                                         break;
770                         c1 = NULL;
771                         if (!((c3 = c2 ? c2 : &global)->c_flags & SPLIT))
772                                 for (c1 = msghd; c1; c1 = c1->c_next)
773                                         if (!mh_strcasecmp(c1->c_name,
774                                                         c3->c_name)) {
775                                                 c1->c_text = mcomp_add(c1->c_flags, buf, c1->c_text);
776                                                 break;
777                                         }
778                         if (c1 == NULL)
779                                 c1 = add_queue(&msghd, &msgtl, name, buf, 0);
780                         while (state == FLDPLUS) {
781                                 state = m_getfld(state, name, buf,
782                                                 sizeof(buf), fp);
783                                 c1->c_text = add(buf, c1->c_text);
784                         }
785                         if (c2 == NULL)
786                                 c1->c_flags |= EXTRA;
787                         continue;
788
789                 case BODY:
790                 case FILEEOF:
791                         column = 0;
792                         for (c1 = fmthd; c1; c1 = c1->c_next) {
793                                 if (c1->c_flags & CLEARTEXT) {
794                                         putcomp(c1, c1, ONECOMP);
795                                         continue;
796                                 }
797                                 if (!mh_strcasecmp(c1->c_name, "messagename")) {
798                                         holder.c_text = concat("(Message ",
799                                                         mname, ")\n", NULL);
800                                         putcomp(c1, &holder, ONECOMP);
801                                         free(holder.c_text);
802                                         holder.c_text = NULL;
803                                         continue;
804                                 }
805                                 if (!mh_strcasecmp(c1->c_name, "extras")) {
806                                         for (c2 = msghd; c2; c2 = c2->c_next)
807                                                 if (c2->c_flags & EXTRA)
808                                                         putcomp(c1, c2, TWOCOMP);
809                                         continue;
810                                 }
811                                 if (dobody && !mh_strcasecmp(c1->c_name, "body")) {
812                                         holder.c_text = mh_xmalloc(sizeof(buf));
813                                         strncpy(holder.c_text, buf, sizeof(buf));
814                                         while (state == BODY) {
815                                                 putcomp(c1, &holder, BODYCOMP);
816                                                 state = m_getfld(state, name, holder.c_text, sizeof(buf), fp);
817                                         }
818                                         free(holder.c_text);
819                                         holder.c_text = NULL;
820                                         continue;
821                                 }
822                                 for (c2 = msghd; c2; c2 = c2->c_next)
823                                         if (!mh_strcasecmp(c2->c_name,
824                                                         c1->c_name)) {
825                                                 putcomp(c1, c2, ONECOMP);
826                                                 if (!(c1->c_flags & SPLIT))
827                                                         break;
828                                         }
829                         }
830                         return;
831
832                 case LENERR:
833                 case FMTERR:
834                         advise(NULL, "format error in message %s", mname);
835                         exitstat++;
836                         return;
837
838                 default:
839                         adios(NULL, "getfld() returned %d", state);
840                 }
841         }
842 }
843
844
845 static int
846 mcomp_flags(char *name)
847 {
848         struct pair *ap;
849
850         for (ap = pairs; ap->p_name; ap++)
851                 if (!mh_strcasecmp(ap->p_name, name))
852                         return (ap->p_flags);
853
854         return 0;
855 }
856
857
858 static char *
859 mcomp_add(long flags, char *s1, char *s2)
860 {
861         char *dp;
862
863         if (!(flags & ADDRFMT))
864                 return add(s1, s2);
865
866         if (s2 && *(dp = s2 + strlen(s2) - 1) == '\n')
867                 *dp = 0;
868
869         return add(s1, add(",\n", s2));
870 }
871
872
873 struct pqpair {
874         char *pq_text;
875         char *pq_error;
876         struct pqpair *pq_next;
877 };
878
879
880 static void
881 mcomp_format(struct mcomp *c1, struct mcomp *c2)
882 {
883         int dat[5];
884         char *ap, *cp;
885         char buffer[BUFSIZ], error[BUFSIZ];
886         struct comp *cptr;
887         struct pqpair *p, *q;
888         struct pqpair pq;
889         struct mailname *mp;
890
891         ap = c2->c_text;
892         c2->c_text = NULL;
893         dat[0] = 0;
894         dat[1] = 0;
895         dat[2] = 0;
896         dat[3] = sizeof(buffer) - 1;
897         dat[4] = 0;
898         fmt_compile(c1->c_nfs, &c1->c_fmt);
899
900         if (!(c1->c_flags & ADDRFMT)) {
901                 FINDCOMP(cptr, "text");
902                 if (cptr)
903                         cptr->c_text = ap;
904                 if ((cp = strrchr(ap, '\n')))  /* drop ending newline */
905                         if (!cp[1])
906                                 *cp = 0;
907
908                 fmt_scan(c1->c_fmt, buffer, sizeof(buffer) - 1, dat);
909                 /* Don't need to append a newline, dctime() already did */
910                 c2->c_text = getcpy(buffer);
911
912                 free(ap);
913                 return;
914         }
915
916         (q = &pq)->pq_next = NULL;
917         while ((cp = getname(ap))) {
918                 if ((p = (struct pqpair *)
919                                 calloc((size_t) 1, sizeof(*p))) == NULL)
920                         adios(NULL, "unable to allocate pqpair memory");
921
922                 if ((mp = getm(cp, NULL, 0, AD_NAME, error)) == NULL) {
923                         p->pq_text = getcpy(cp);
924                         p->pq_error = getcpy(error);
925                 } else {
926                         p->pq_text = getcpy(mp->m_text);
927                         mnfree(mp);
928                 }
929                 q = (q->pq_next = p);
930         }
931
932         for (p = pq.pq_next; p; p = q) {
933                 FINDCOMP(cptr, "text");
934                 if (cptr)
935                         cptr->c_text = p->pq_text;
936                 FINDCOMP(cptr, "error");
937                 if (cptr)
938                         cptr->c_text = p->pq_error;
939
940                 fmt_scan(c1->c_fmt, buffer, sizeof(buffer) - 1, dat);
941                 if (*buffer) {
942                         if (c2->c_text)
943                                 c2->c_text = add(",\n", c2->c_text);
944                         if (*(cp = buffer + strlen(buffer) - 1) == '\n')
945                                 *cp = 0;
946                         c2->c_text = add(buffer, c2->c_text);
947                 }
948
949                 free(p->pq_text);
950                 if (p->pq_error)
951                         free(p->pq_error);
952                 q = p->pq_next;
953                 free((char *) p);
954         }
955
956         c2->c_text = add("\n", c2->c_text);
957         free (ap);
958 }
959
960
961 static struct mcomp *
962 add_queue(struct mcomp **head, struct mcomp **tail, char *name,
963                 char *text, int flags)
964 {
965         struct mcomp *c1;
966
967         if ((c1 = (struct mcomp *) calloc((size_t) 1, sizeof(*c1))) == NULL)
968                 adios(NULL, "unable to allocate comp memory");
969
970         c1->c_flags = flags & ~INIT;
971         if ((c1->c_name = name ? getcpy(name) : NULL))
972                 c1->c_flags |= mcomp_flags(c1->c_name);
973         c1->c_text = text ? getcpy(text) : NULL;
974         if (flags & INIT) {
975                 if (global.c_ovtxt)
976                         c1->c_ovtxt = getcpy(global.c_ovtxt);
977                 c1->c_offset = global.c_offset;
978                 c1->c_ovoff = global. c_ovoff;
979                 c1->c_width = 0;
980                 c1->c_cwidth = global.c_cwidth;
981                 c1->c_flags |= global.c_flags & GFLAGS;
982         }
983         if (*head == NULL)
984                 *head = c1;
985         if (*tail != NULL)
986                 (*tail)->c_next = c1;
987         *tail = c1;
988
989         return c1;
990 }
991
992
993 static void
994 free_queue(struct mcomp **head, struct mcomp **tail)
995 {
996         struct mcomp *c1, *c2;
997
998         for (c1 = *head; c1; c1 = c2) {
999                 c2 = c1->c_next;
1000                 if (c1->c_name)
1001                         free(c1->c_name);
1002                 if (c1->c_text)
1003                         free(c1->c_text);
1004                 if (c1->c_ovtxt)
1005                         free(c1->c_ovtxt);
1006                 if (c1->c_nfs)
1007                         free(c1->c_nfs);
1008                 if (c1->c_fmt)
1009                         free((char *) c1->c_fmt);
1010                 free((char *) c1);
1011         }
1012
1013         *head = *tail = NULL;
1014 }
1015
1016
1017 static void
1018 putcomp(struct mcomp *c1, struct mcomp *c2, int flag)
1019 {
1020         int count, cchdr;
1021         unsigned char *cp;
1022
1023         cchdr = 0;
1024         lm = 0;
1025         wid = c1->c_width ? c1->c_width : global.c_width;
1026         ovoff = (c1->c_ovoff >= 0 ? c1->c_ovoff : global.c_ovoff)
1027                         + c1->c_offset;
1028         if ((ovtxt = c1->c_ovtxt ? c1->c_ovtxt : global.c_ovtxt) == NULL)
1029                 ovtxt = "";
1030         if (wid < ovoff + strlen(ovtxt) + 5)
1031                 adios(NULL, "component: %s width(%d) too small for overflow(%d)", c1->c_name, wid, ovoff + strlen(ovtxt) + 5);
1032         onelp = NULL;
1033
1034         if (c1->c_flags & CLEARTEXT) {
1035                 putstr(c1->c_text);
1036                 putstr("\n");
1037                 return;
1038         }
1039
1040         if (c1->c_nfs && (c1->c_flags & (ADDRFMT | DATEFMT | FORMAT)))
1041                 mcomp_format(c1, c2);
1042
1043         if (c1->c_flags & CENTER) {
1044                 count = (c1->c_width ? c1->c_width : global.c_width)
1045                                 - c1->c_offset - strlen(c2->c_text);
1046                 if (!(c1->c_flags & HDROUTPUT) && !(c1->c_flags & NOCOMPONENT))
1047                         count -= strlen(c1->c_text ? c1->c_text : c1->c_name)
1048                                         + 2;
1049                 lm = c1->c_offset + (count / 2);
1050         } else {
1051                 if (c1->c_offset)
1052                         lm = c1->c_offset;
1053         }
1054
1055         if (!(c1->c_flags & HDROUTPUT) && !(c1->c_flags & NOCOMPONENT)) {
1056                 if (c1->c_flags & UPPERCASE)  /* uppercase component also */
1057                         for (cp = (c1->c_text ? c1->c_text : c1->c_name); *cp; cp++)
1058                                 if (islower(*cp))
1059                                         *cp = toupper(*cp);
1060                 putstr(c1->c_text ? c1->c_text : c1->c_name);
1061                 if (flag != BODYCOMP) {
1062                         putstr(": ");
1063                         if (!(c1->c_flags & SPLIT))
1064                                 c1->c_flags |= HDROUTPUT;
1065
1066                 cchdr++;
1067                 if ((count = c1->c_cwidth -
1068                         strlen(c1->c_text ? c1->c_text : c1->c_name) - 2) > 0)
1069                         while (count--)
1070                                 putstr(" ");
1071                 } else
1072                         c1->c_flags |= HDROUTPUT;  /* for BODYCOMP */
1073         }
1074
1075         if (flag == TWOCOMP && !(c2->c_flags & HDROUTPUT)
1076                 && !(c2->c_flags & NOCOMPONENT)) {
1077                 if (c1->c_flags & UPPERCASE)
1078                         for (cp = c2->c_name; *cp; cp++)
1079                                 if (islower(*cp))
1080                                         *cp = toupper(*cp);
1081                 putstr(c2->c_name);
1082                 putstr(": ");
1083                 if (!(c1->c_flags & SPLIT))
1084                         c2->c_flags |= HDROUTPUT;
1085
1086                 cchdr++;
1087                 if ((count = c1->c_cwidth - strlen(c2->c_name) - 2) > 0)
1088                         while (count--)
1089                                 putstr(" ");
1090         }
1091         if (c1->c_flags & UPPERCASE)
1092                 for (cp = c2->c_text; *cp; cp++)
1093                         if (islower(*cp))
1094                                 *cp = toupper(*cp);
1095
1096         count = 0;
1097         if (cchdr) {
1098                 if (flag == TWOCOMP)
1099                         count = (c1->c_cwidth >= 0) ?
1100                                         c1->c_cwidth : strlen(c2->c_name) + 2;
1101                 else
1102                         count = (c1->c_cwidth >= 0) ?
1103                                         c1->c_cwidth : strlen(c1->c_text ?
1104                                         c1->c_text : c1->c_name) + 2;
1105         }
1106         count += c1->c_offset;
1107
1108         if ((cp = oneline(c2->c_text, c1->c_flags)))
1109            putstr(cp);
1110         if (term == '\n')
1111                 putstr("\n");
1112         while ((cp = oneline(c2->c_text, c1->c_flags))) {
1113                 lm = count;
1114                 if (flag == BODYCOMP && !(c1->c_flags & NOCOMPONENT))
1115                         putstr(c1->c_text ? c1->c_text : c1->c_name);
1116                 if (*cp)
1117                         putstr(cp);
1118                 if (term == '\n')
1119                         putstr("\n");
1120         }
1121         if (flag == BODYCOMP && term == '\n')
1122                 c1->c_flags &= ~HDROUTPUT;  /* Buffer ended on a newline */
1123 }
1124
1125
1126 static char *
1127 oneline(char *stuff, long flags)
1128 {
1129         int spc;
1130         char *cp, *ret;
1131
1132         if (onelp == NULL)
1133                 onelp = stuff;
1134         if (*onelp == 0)
1135                 return (onelp = NULL);
1136
1137         ret = onelp;
1138         term = 0;
1139         if (flags & COMPRESS) {
1140                 for (spc = 1, cp = ret; *onelp; onelp++)
1141                         if (isspace(*onelp)) {
1142                                 if (*onelp == '\n' &&
1143                                                 (!onelp[1] ||
1144                                                 (flags & ADDRFMT))) {
1145                                         term = '\n';
1146                                         *onelp++ = 0;
1147                                         break;
1148                                 } else if (!spc) {
1149                                         *cp++ = ' ';
1150                                         spc++;
1151                                 }
1152                         } else {
1153                                 *cp++ = *onelp;
1154                                 spc = 0;
1155                         }
1156
1157                 *cp = 0;
1158         } else {
1159                 while (*onelp && *onelp != '\n')
1160                         onelp++;
1161                 if (*onelp == '\n') {
1162                         term = '\n';
1163                         *onelp++ = 0;
1164                 }
1165                 if (flags & LEFTADJUST)
1166                         while (*ret == ' ' || *ret == '\t')
1167                                 ret++;
1168         }
1169         if (*onelp == 0 && term == '\n' && (flags & NONEWLINE))
1170                 term = 0;
1171
1172         return ret;
1173 }
1174
1175
1176 static void
1177 putstr(char *string)
1178 {
1179         if (!column && lm > 0) {
1180                 while (lm > 0)
1181                         if (lm >= 8) {
1182                                 putch('\t');
1183                                 lm -= 8;
1184                         } else {
1185                                 putch(' ');
1186                                 lm--;
1187                         }
1188         }
1189         lm = 0;
1190         while (*string)
1191                 putch(*string++);
1192 }
1193
1194
1195 static void
1196 putch(char ch)
1197 {
1198         switch (ch) {
1199         case '\t':
1200                 column |= 07;
1201                 column++;
1202                 break;
1203
1204         case '\b':
1205                 column--;
1206                 break;
1207
1208         case '\n':
1209         case '\r':
1210                 column = 0;
1211                 break;
1212
1213         default:
1214                 /*
1215                 ** If we are forwarding this message, and the first
1216                 ** column contains a dash, then add a dash and a space.
1217                 */
1218                 if (column == 0 && forwflg && ch == '-') {
1219                         putchar('-');
1220                         putchar(' ');
1221                 }
1222                 if (ch >= ' ')
1223                         column++;
1224                 break;
1225         }
1226
1227         if (column >= wid) {
1228                 putch('\n');
1229                 if (ovoff > 0)
1230                         lm = ovoff;
1231                 putstr(ovtxt ? ovtxt : "");
1232                 putch(ch);
1233                 return;
1234         }
1235
1236         putchar(ch);
1237 }
1238
1239
1240 static RETSIGTYPE
1241 intrser(int i)
1242 {
1243 #ifndef RELIABLE_SIGNALS
1244         SIGNAL(SIGINT, intrser);
1245 #endif
1246
1247         discard(stdout);
1248         putchar('\n');
1249         longjmp(env, DONE);
1250 }
1251
1252
1253 static RETSIGTYPE
1254 pipeser(int i)
1255 {
1256 #ifndef RELIABLE_SIGNALS
1257         SIGNAL(SIGPIPE, pipeser);
1258 #endif
1259
1260         done(NOTOK);
1261 }
1262
1263
1264 static RETSIGTYPE
1265 quitser(int i)
1266 {
1267 #ifndef RELIABLE_SIGNALS
1268         SIGNAL(SIGQUIT, quitser);
1269 #endif
1270
1271         putchar('\n');
1272         fflush(stdout);
1273         done(NOTOK);
1274 }
1275
1276
1277 #undef adios
1278 #undef done
1279
1280 static void
1281 mhladios(char *what, char *fmt, ...)
1282 {
1283         va_list ap;
1284
1285         va_start(ap, fmt);
1286         advertise(what, NULL, fmt, ap);
1287         va_end(ap);
1288         mhldone(1);
1289 }
1290
1291
1292 static void
1293 mhldone(int status)
1294 {
1295         exitstat = status;
1296         if (mhl_action)
1297                 longjmp(mhlenv, DONE);
1298         else
1299                 done(exitstat);
1300 }
1301
1302
1303 static int m_pid = NOTOK;
1304 static int sd = NOTOK;
1305
1306 static void
1307 m_popen(char *name)
1308 {
1309         int pd[2];
1310
1311         if (mhl_action && (sd = dup(fileno(stdout))) == NOTOK)
1312                 adios("standard output", "unable to dup()");
1313
1314         if (pipe(pd) == NOTOK)
1315                 adios("pipe", "unable to");
1316
1317         switch (m_pid = fork()) {
1318         case NOTOK:
1319                 adios("fork", "unable to");
1320
1321         case OK:
1322                 SIGNAL(SIGINT, SIG_DFL);
1323                 SIGNAL(SIGQUIT, SIG_DFL);
1324
1325                 close(pd[1]);
1326                 if (pd[0] != fileno(stdin)) {
1327                         dup2(pd[0], fileno(stdin));
1328                         close(pd[0]);
1329                 }
1330                 execlp(name, mhbasename(name), NULL);
1331                 fprintf(stderr, "unable to exec ");
1332                 perror(name);
1333                 _exit(-1);
1334
1335         default:
1336                 close(pd[0]);
1337                 if (pd[1] != fileno(stdout)) {
1338                         dup2(pd[1], fileno(stdout));
1339                         close(pd[1]);
1340                 }
1341         }
1342 }
1343
1344
1345 void
1346 m_pclose(void)
1347 {
1348         if (m_pid == NOTOK)
1349                 return;
1350
1351         if (sd != NOTOK) {
1352                 fflush(stdout);
1353                 if (dup2(sd, fileno(stdout)) == NOTOK)
1354                         adios("standard output", "unable to dup2()");
1355
1356                 clearerr(stdout);
1357                 close(sd);
1358                 sd = NOTOK;
1359         }
1360         else
1361                 fclose(stdout);
1362
1363         pidwait(m_pid, OK);
1364         m_pid = NOTOK;
1365 }
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