/* * mhlsbr.c -- main routines for nmh message lister * * This code is Copyright (c) 2002, by the authors of nmh. See the * COPYRIGHT file in the root directory of the nmh distribution for * complete copyright information. */ #include #include #include #include #include #include #include #include /* * MAJOR BUG: * for a component containing addresses, ADDRFMT, if COMPRESS is also * set, then addresses get split wrong (not at the spaces between commas). * To fix this correctly, putstr() should know about "atomic" strings that * must NOT be broken across lines. That's too difficult for right now * (it turns out that there are a number of degernate cases), so in * oneline(), instead of * * (*onelp == '\n' && !onelp[1]) * * being a terminating condition, * * (*onelp == '\n' && (!onelp[1] || (flags & ADDRFMT))) * * is used instead. This cuts the line prematurely, and gives us a much * better chance of getting things right. */ #define ONECOMP 0 #define TWOCOMP 1 #define BODYCOMP 2 #define QUOTE '\\' #define MHL_SWITCHES \ X("bell", 0, BELLSW) \ X("nobell", 0, NBELLSW) \ X("clear", 0, CLRSW) \ X("noclear", 0, NCLRSW) \ X("folder +folder", 0, FOLDSW) \ X("form formfile", 0, FORMSW) \ X("moreproc program", 0, PROGSW) \ X("nomoreproc", 0, NPROGSW) \ X("length lines", 0, LENSW) \ X("width columns", 0, WIDTHSW) \ X("sleep seconds", 0, SLEEPSW) \ X("dashstuffing", -12, BITSTUFFSW) /* interface from forw */ \ X("nodashstuffing", -14, NBITSTUFFSW) /* interface from forw */ \ X("version", 0, VERSIONSW) \ X("help", 0, HELPSW) \ X("forward", -7, FORW1SW) /* interface from forw */ \ X("forwall", -7, FORW2SW) /* interface from forw */ \ X("digest list", -6, DGSTSW) \ X("volume number", -6, VOLUMSW) \ X("issue number", -5, ISSUESW) \ X("nobody", -6, NBODYSW) \ X("fmtproc program", 0, FMTPROCSW) \ X("nofmtproc", 0, NFMTPROCSW) \ #define X(sw, minchars, id) id, DEFINE_SWITCH_ENUM(MHL); #undef X #define X(sw, minchars, id) { sw, minchars, id }, DEFINE_SWITCH_ARRAY(MHL, mhlswitches); #undef X #define NOCOMPONENT 0x000001 /* don't show component name */ #define UPPERCASE 0x000002 /* display in all upper case */ #define CENTER 0x000004 /* center line */ #define CLEARTEXT 0x000008 /* cleartext */ #define EXTRA 0x000010 /* an "extra" component */ #define HDROUTPUT 0x000020 /* already output */ #define CLEARSCR 0x000040 /* clear screen */ #define LEFTADJUST 0x000080 /* left justify multiple lines */ #define COMPRESS 0x000100 /* compress text */ #define ADDRFMT 0x000200 /* contains addresses */ #define BELL 0x000400 /* sound bell at EOP */ #define DATEFMT 0x000800 /* contains dates */ #define FORMAT 0x001000 /* parse address/date/RFC-2047 field */ #define INIT 0x002000 /* initialize component */ #define RTRIM 0x004000 /* trim trailing whitespace */ #define SPLIT 0x010000 /* split headers (don't concatenate) */ #define NONEWLINE 0x020000 /* don't write trailing newline */ #define NOWRAP 0x040000 /* Don't wrap lines ever */ #define FMTFILTER 0x080000 /* Filter through format filter */ #define LBITS "\020\01NOCOMPONENT\02UPPERCASE\03CENTER\04CLEARTEXT\05EXTRA\06HDROUTPUT\07CLEARSCR\010LEFTADJUST\011COMPRESS\012ADDRFMT\013BELL\014DATEFMT\015FORMAT\016INIT\017RTRIM\021SPLIT\022NONEWLINE\023NOWRAP\024FMTFILTER" #define GFLAGS (NOCOMPONENT | UPPERCASE | CENTER | LEFTADJUST | COMPRESS | SPLIT | NOWRAP) /* * A format string to be used as a command-line argument to the body * format filter. */ struct arglist { struct format *a_fmt; char *a_nfs; struct arglist *a_next; }; /* * Linked list of command line arguments for the body format filter. This * USED to be in "struct mcomp", but the format API got cleaned up and even * though it reduced the code we had to do, it make things more complicated * for us. Specifically: * * - The interface to the hash table has been cleaned up, which means the * rooting around in the hash table is no longer necessary (yay!). But * this ALSO means that we have to make sure that we call our format * compilation routines before we process the message, because the * components need to be visible in the hash table so we can save them for * later. So we moved them out of "mcomp" and now compile them right before * header processing starts. * - We also use format strings to handle other components in the mhl * configuration (using "formatfield" and "decode"), but here life * gets complicated: they aren't dealt with in the normal way. Instead * of referring to a component like {from}, each component is processed * using the special {text} component. But these format strings need to be * compiled BEFORE we compile the format arguments; in the previous * implementation they were compiled and scanned as the headers were * read, and that would reset the hash table that we need to populate * the components used by the body format filter. So we are compiling * the formatfield component strings ahead of time and then scanning them * later. * * Okay, fine ... this was broken before. But you know what? Fixing this * the right way will make things easier down the road. * * One side-effect to this change: format strings are now compiled only once * for components specified with "formatfield", but they are compiled for * every message for format arguments. */ static struct arglist *arglist_head; static struct arglist *arglist_tail; static int filter_nargs = 0; /* * Flags/options for each component */ struct mcomp { char *c_name; /* component name */ char *c_text; /* component text */ char *c_ovtxt; /* text overflow indicator */ char *c_nfs; /* iff FORMAT */ struct format *c_fmt; /* .. */ struct comp *c_c_text; /* Ref to {text} in FORMAT */ struct comp *c_c_error; /* Ref to {error} */ int c_offset; /* left margin indentation */ int c_ovoff; /* overflow indentation */ int c_width; /* width of field */ int c_cwidth; /* width of component */ int c_length; /* length in lines */ long c_flags; struct mcomp *c_next; }; static struct mcomp *msghd = NULL; static struct mcomp *msgtl = NULL; static struct mcomp *fmthd = NULL; static struct mcomp *fmttl = NULL; static struct mcomp global = { NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, -1, 80, -1, 40, BELL, NULL }; static struct mcomp holder = { NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, 0, 0, 0, 0, NOCOMPONENT, NULL }; struct pair { char *p_name; long p_flags; }; static struct pair pairs[] = { { "Date", DATEFMT }, { "From", ADDRFMT }, { "Sender", ADDRFMT }, { "Reply-To", ADDRFMT }, { "To", ADDRFMT }, { "cc", ADDRFMT }, { "Bcc", ADDRFMT }, { "Resent-Date", DATEFMT }, { "Resent-From", ADDRFMT }, { "Resent-Sender", ADDRFMT }, { "Resent-Reply-To", ADDRFMT }, { "Resent-To", ADDRFMT }, { "Resent-cc", ADDRFMT }, { "Resent-Bcc", ADDRFMT }, { NULL, 0 } }; struct triple { char *t_name; long t_on; long t_off; }; static struct triple triples[] = { { "nocomponent", NOCOMPONENT, 0 }, { "uppercase", UPPERCASE, 0 }, { "nouppercase", 0, UPPERCASE }, { "center", CENTER, 0 }, { "nocenter", 0, CENTER }, { "clearscreen", CLEARSCR, 0 }, { "noclearscreen", 0, CLEARSCR }, { "noclear", 0, CLEARSCR }, { "leftadjust", LEFTADJUST, 0 }, { "noleftadjust", 0, LEFTADJUST }, { "compress", COMPRESS, 0 }, { "nocompress", 0, COMPRESS }, { "split", SPLIT, 0 }, { "nosplit", 0, SPLIT }, { "rtrim", RTRIM, 0 }, { "nortrim", 0, RTRIM }, { "addrfield", ADDRFMT, DATEFMT }, { "bell", BELL, 0 }, { "nobell", 0, BELL }, { "datefield", DATEFMT, ADDRFMT }, { "newline", 0, NONEWLINE }, { "nonewline", NONEWLINE, 0 }, { "wrap", 0, NOWRAP }, { "nowrap", NOWRAP, 0 }, { "format", FMTFILTER, 0 }, { "noformat", 0, FMTFILTER }, { NULL, 0, 0 } }; static char *addrcomps[] = { "from", "sender", "reply-to", "to", "cc", "bcc", "resent-from", "resent-sender", "resent-reply-to", "resent-to", "resent-cc", "resent-bcc", NULL }; static int bellflg = 0; static int clearflg = 0; static int dashstuff = 0; static int dobody = 1; static int forwflg = 0; static int forwall = 0; static int sleepsw = NOTOK; static char *digest = NULL; static int volume = 0; static int issue = 0; static int exitstat = 0; static int mhldebug = 0; static int filesize = 0; #define PITTY (-1) #define NOTTY 0 #define ISTTY 1 static int ontty = NOTTY; static int row; static unsigned int column; static int lm; static int llim; static int ovoff; static int term; static unsigned int wid; static char *ovtxt; static char *onelp; static char *parptr; static int num_ignores = 0; static char *ignores[MAXARGS]; static jmp_buf env; static jmp_buf mhlenv; static char delim3[] = /* from forw.c */ "\n----------------------------------------------------------------------\n\n"; static char delim4[] = "\n------------------------------\n\n"; static FILE *(*mhl_action) () = (FILE *(*) ()) 0; /* * Redefine a couple of functions. * These are undefined later in the code. */ #define adios mhladios #define done mhldone /* * prototypes */ static void mhl_format (char *, int, int); static int evalvar (struct mcomp *); static int ptoi (char *, int *); static int ptos (char *, char **); static char *parse (void); static void process (char *, char *, int, int); static void mhlfile (FILE *, char *, int, int); static int mcomp_flags (char *); static char *mcomp_add (long, char *, char *); static void mcomp_format (struct mcomp *, struct mcomp *); static struct mcomp *add_queue (struct mcomp **, struct mcomp **, char *, char *, int); static void free_queue (struct mcomp **, struct mcomp **); static void putcomp (struct mcomp *, struct mcomp *, int); static char *oneline (char *, long); static void putstr (char *, long); static void putch (char, long); static void intrser (int); static void pipeser (int); static void quitser (int); static void mhladios (char *, char *, ...); static void mhldone (int); static void filterbody (struct mcomp *, char *, int, int, FILE *, m_getfld_state_t); static void compile_formatfield(struct mcomp *); static void compile_filterargs (void); int mhl (int argc, char **argv) { int length = 0, nomore = 0; unsigned int i, vecp = 0; int width = 0; char *cp, *folder = NULL, *form = NULL; char buf[BUFSIZ], *files[MAXARGS]; char **argp, **arguments; /* Need this if called from main() of show(1). */ invo_name = r1bindex (argv[0], '/'); arguments = getarguments (invo_name, argc, argv, 1); argp = arguments; if ((cp = getenv ("MHLDEBUG")) && *cp) mhldebug++; while ((cp = *argp++)) { if (*cp == '-') { switch (smatch (++cp, mhlswitches)) { case AMBIGSW: ambigsw (cp, mhlswitches); done (1); case UNKWNSW: adios (NULL, "-%s unknown\n", cp); case HELPSW: snprintf (buf, sizeof(buf), "%s [switches] [files ...]", invo_name); print_help (buf, mhlswitches, 1); done (0); case VERSIONSW: print_version(invo_name); done (0); case BELLSW: bellflg = 1; continue; case NBELLSW: bellflg = -1; continue; case CLRSW: clearflg = 1; continue; case NCLRSW: clearflg = -1; continue; case FOLDSW: if (!(folder = *argp++) || *folder == '-') adios (NULL, "missing argument to %s", argp[-2]); continue; case FORMSW: if (!(form = *argp++) || *form == '-') adios (NULL, "missing argument to %s", argp[-2]); continue; case SLEEPSW: if (!(cp = *argp++) || *cp == '-') adios (NULL, "missing argument to %s", argp[-2]); else sleepsw = atoi (cp);/* ZERO ok! */ continue; case PROGSW: if (!(moreproc = *argp++) || *moreproc == '-') adios (NULL, "missing argument to %s", argp[-2]); continue; case NPROGSW: nomore++; continue; case FMTPROCSW: if (!(formatproc = *argp++) || *formatproc == '-') adios (NULL, "missing argument to %s", argp[-2]); continue; case NFMTPROCSW: formatproc = NULL; continue; case LENSW: if (!(cp = *argp++) || *cp == '-') adios (NULL, "missing argument to %s", argp[-2]); else if ((length = atoi (cp)) < 1) adios (NULL, "bad argument %s %s", argp[-2], cp); continue; case WIDTHSW: if (!(cp = *argp++) || *cp == '-') adios (NULL, "missing argument to %s", argp[-2]); else if ((width = atoi (cp)) < 1) adios (NULL, "bad argument %s %s", argp[-2], cp); continue; case DGSTSW: if (!(digest = *argp++) || *digest == '-') adios (NULL, "missing argument to %s", argp[-2]); continue; case ISSUESW: if (!(cp = *argp++) || *cp == '-') adios (NULL, "missing argument to %s", argp[-2]); else if ((issue = atoi (cp)) < 1) adios (NULL, "bad argument %s %s", argp[-2], cp); continue; case VOLUMSW: if (!(cp = *argp++) || *cp == '-') adios (NULL, "missing argument to %s", argp[-2]); else if ((volume = atoi (cp)) < 1) adios (NULL, "bad argument %s %s", argp[-2], cp); continue; case FORW2SW: forwall++; /* fall */ case FORW1SW: forwflg++; clearflg = -1;/* XXX */ continue; case BITSTUFFSW: dashstuff = 1; /* trinary logic */ continue; case NBITSTUFFSW: dashstuff = -1; /* trinary logic */ continue; case NBODYSW: dobody = 0; continue; } } files[vecp++] = cp; } if (!folder) folder = getenv ("mhfolder"); if (isatty (fileno (stdout))) { if (!nomore && moreproc && *moreproc != '\0') { if (mhl_action) { SIGNAL (SIGINT, SIG_IGN); SIGNAL2 (SIGQUIT, quitser); } SIGNAL2 (SIGPIPE, pipeser); m_popen (moreproc, mhl_action != NULL); ontty = PITTY; } else { SIGNAL (SIGINT, SIG_IGN); SIGNAL2 (SIGQUIT, quitser); ontty = ISTTY; } } else { ontty = NOTTY; } mhl_format (form ? form : mhlformat, length, width); if (vecp == 0) { process (folder, NULL, 1, vecp = 1); } else { for (i = 0; i < vecp; i++) process (folder, files[i], i + 1, vecp); } if (forwall) { if (digest) { printf ("%s", delim4); if (volume == 0) { snprintf (buf, sizeof(buf), "End of %s Digest\n", digest); } else { snprintf (buf, sizeof(buf), "End of %s Digest [Volume %d Issue %d]\n", digest, volume, issue); } i = strlen (buf); for (cp = buf + i; i > 1; i--) *cp++ = '*'; *cp++ = '\n'; *cp = 0; printf ("%s", buf); } else printf ("\n------- End of Forwarded Message%s\n", vecp > 1 ? "s" : ""); } fflush(stdout); if(ferror(stdout)){ adios("output", "error writing"); } if (clearflg > 0 && ontty == NOTTY) nmh_clear_screen (); if (ontty == PITTY) m_pclose (); return exitstat; } static void mhl_format (char *file, int length, int width) { int i; char *bp, *cp, **ip; char *ap, name[NAMESZ]; struct mcomp *c1; struct stat st; FILE *fp; static dev_t dev = 0; static ino_t ino = 0; static time_t mtime = 0; if (fmthd != NULL) { if (stat (etcpath (file), &st) != NOTOK && mtime == st.st_mtime && dev == st.st_dev && ino == st.st_ino) goto out; else free_queue (&fmthd, &fmttl); } if ((fp = fopen (etcpath (file), "r")) == NULL) adios (file, "unable to open format file"); if (fstat (fileno (fp), &st) != NOTOK) { mtime = st.st_mtime; dev = st.st_dev; ino = st.st_ino; } global.c_ovtxt = global.c_nfs = NULL; global.c_fmt = NULL; global.c_offset = 0; global.c_ovoff = -1; if ((i = sc_width ()) > 5) global.c_width = i; global.c_cwidth = -1; if ((i = sc_length ()) > 5) global.c_length = i - 1; global.c_flags = BELL; /* BELL is default */ *(ip = ignores) = NULL; filter_nargs = 0; while (vfgets (fp, &ap) == OK) { bp = ap; if (*bp == ';') continue; if ((cp = strchr(bp, '\n'))) *cp = 0; if (*bp == ':') { (void) add_queue (&fmthd, &fmttl, NULL, bp + 1, CLEARTEXT); continue; } parptr = bp; strncpy (name, parse(), sizeof(name)); switch (*parptr) { case '\0': case ',': case '=': /* * Split this list of fields to ignore, and copy * it to the end of the current "ignores" list. */ if (!strcasecmp (name, "ignores")) { char **tmparray, **p; int n = 0; /* split the fields */ tmparray = brkstring (getcpy (++parptr), ",", NULL); /* count number of fields split */ p = tmparray; while (*p++) n++; /* copy pointers to split fields to ignores array */ ip = copyip (tmparray, ip, MAXARGS - num_ignores); num_ignores += n; continue; } parptr = bp; while (*parptr) { if (evalvar (&global)) adios (NULL, "format file syntax error: %s", bp); if (*parptr) parptr++; } continue; case ':': c1 = add_queue (&fmthd, &fmttl, name, NULL, INIT); while (*parptr == ':' || *parptr == ',') { parptr++; if (evalvar (c1)) adios (NULL, "format file syntax error: %s", bp); } if (!c1->c_nfs && global.c_nfs) { if (c1->c_flags & DATEFMT) { if (global.c_flags & DATEFMT) { c1->c_nfs = getcpy (global.c_nfs); compile_formatfield(c1); } } else if (c1->c_flags & ADDRFMT) { if (global.c_flags & ADDRFMT) { c1->c_nfs = getcpy (global.c_nfs); compile_formatfield(c1); } } } continue; default: adios (NULL, "format file syntax error: %s", bp); } } fclose (fp); if (mhldebug) { for (c1 = fmthd; c1; c1 = c1->c_next) { char buffer[BUFSIZ]; fprintf (stderr, "c1: name=\"%s\" text=\"%s\" ovtxt=\"%s\"\n", c1->c_name, c1->c_text, c1->c_ovtxt); fprintf (stderr, "\tnfs=0x%x fmt=0x%x\n", (unsigned int)(unsigned long) c1->c_nfs, (unsigned int)(unsigned long) c1->c_fmt); fprintf (stderr, "\toffset=%d ovoff=%d width=%d cwidth=%d length=%d\n", c1->c_offset, c1->c_ovoff, c1->c_width, c1->c_cwidth, c1->c_length); fprintf (stderr, "\tflags=%s\n", snprintb (buffer, sizeof(buffer), (unsigned) c1->c_flags, LBITS)); } } out: if (clearflg == 1) { global.c_flags |= CLEARSCR; } else { if (clearflg == -1) global.c_flags &= ~CLEARSCR; } switch (bellflg) { /* command line may override format file */ case 1: global.c_flags |= BELL; break; case -1: global.c_flags &= ~BELL; break; } if (length) global.c_length = length; if (width) global.c_width = width; if (global.c_length < 5) global.c_length = 10000; if (global.c_width < 5) global.c_width = 10000; } static int evalvar (struct mcomp *c1) { char *cp, name[NAMESZ]; struct triple *ap; if (!*parptr) return 0; strncpy (name, parse(), sizeof(name)); if (!strcasecmp (name, "component")) { if (ptos (name, &c1->c_text)) return 1; c1->c_flags &= ~NOCOMPONENT; return 0; } if (!strcasecmp (name, "overflowtext")) return ptos (name, &c1->c_ovtxt); if (!strcasecmp (name, "formatfield")) { if (ptos (name, &cp)) return 1; c1->c_nfs = getcpy (new_fs (NULL, NULL, cp)); compile_formatfield(c1); c1->c_flags |= FORMAT; return 0; } if (!strcasecmp (name, "decode")) { c1->c_nfs = getcpy (new_fs (NULL, NULL, "%(decode{text})")); compile_formatfield(c1); c1->c_flags |= FORMAT; return 0; } if (!strcasecmp (name, "offset")) return ptoi (name, &c1->c_offset); if (!strcasecmp (name, "overflowoffset")) return ptoi (name, &c1->c_ovoff); if (!strcasecmp (name, "width")) return ptoi (name, &c1->c_width); if (!strcasecmp (name, "compwidth")) return ptoi (name, &c1->c_cwidth); if (!strcasecmp (name, "length")) return ptoi (name, &c1->c_length); if (!strcasecmp (name, "nodashstuffing")) return (dashstuff = -1); for (ap = triples; ap->t_name; ap++) if (!strcasecmp (ap->t_name, name)) { c1->c_flags |= ap->t_on; c1->c_flags &= ~ap->t_off; return 0; } if (!strcasecmp (name, "formatarg")) { struct arglist *args; if (ptos (name, &cp)) return 1; if (! c1->c_name || strcasecmp (c1->c_name, "body")) { advise (NULL, "format filters are currently only supported on " "the \"body\" component"); return 1; } args = (struct arglist *) mh_xcalloc ((size_t) 1, sizeof(struct arglist)); if (arglist_tail) arglist_tail->a_next = args; arglist_tail = args; if (! arglist_head) arglist_head = args; args->a_nfs = getcpy (new_fs (NULL, NULL, cp)); filter_nargs++; return 0; } return 1; } static int ptoi (char *name, int *i) { char *cp; if (*parptr++ != '=' || !*(cp = parse ())) { advise (NULL, "missing argument to variable %s", name); return 1; } *i = atoi (cp); return 0; } static int ptos (char *name, char **s) { char c, *cp; if (*parptr++ != '=') { advise (NULL, "missing argument to variable %s", name); return 1; } if (*parptr != '"') { for (cp = parptr; *parptr && *parptr != ':' && *parptr != ','; parptr++) continue; } else { for (cp = ++parptr; *parptr && *parptr != '"'; parptr++) if (*parptr == QUOTE) if (!*++parptr) parptr--; } c = *parptr; *parptr = 0; *s = getcpy (cp); if ((*parptr = c) == '"') parptr++; return 0; } static char * parse (void) { int c; char *cp; static char result[NAMESZ]; for (cp = result; *parptr && (cp - result < NAMESZ); parptr++) { c = *parptr; if (isalnum (c) || c == '.' || c == '-' || c == '_' || c =='[' || c == ']') *cp++ = c; else break; } *cp = '\0'; return result; } /* * Process one file/message */ static void process (char *folder, char *fname, int ofilen, int ofilec) { /* static to prevent "might be clobbered" warning from gcc 4.9.2: */ static char *cp; static FILE *fp; struct mcomp *c1; struct stat st; struct arglist *ap; /* volatile to prevent "might be clobbered" warning from gcc: */ char *volatile fname2 = fname ? fname : "(stdin)"; cp = NULL; fp = NULL; switch (setjmp (env)) { case OK: if (fname) { fp = mhl_action ? (*mhl_action) (fname) : fopen (fname, "r"); if (fp == NULL) { advise (fname, "unable to open"); exitstat++; return; } } else { fp = stdin; } if (fstat(fileno(fp), &st) == 0) { filesize = st.st_size; } else { filesize = 0; } cp = folder ? concat (folder, ":", fname2, NULL) : getcpy (fname2); if (ontty != PITTY) SIGNAL (SIGINT, intrser); mhlfile (fp, cp, ofilen, ofilec); /* FALL THROUGH! */ free (cp); for (ap = arglist_head; ap; ap = ap->a_next) { fmt_free(ap->a_fmt, 0); ap->a_fmt = NULL; } if (arglist_head) fmt_free(NULL, 1); default: if (ontty != PITTY) SIGNAL (SIGINT, SIG_IGN); if (mhl_action == NULL && fp != stdin && fp != NULL) fclose (fp); if (holder.c_text) { free (holder.c_text); holder.c_text = NULL; } free_queue (&msghd, &msgtl); for (c1 = fmthd; c1; c1 = c1->c_next) c1->c_flags &= ~HDROUTPUT; break; } } static void mhlfile (FILE *fp, char *mname, int ofilen, int ofilec) { int state, bucket; struct mcomp *c1, *c2, *c3; char **ip, name[NAMESZ], buf[BUFSIZ]; m_getfld_state_t gstate = 0; compile_filterargs(); if (forwall) { if (digest) printf ("%s", ofilen == 1 ? delim3 : delim4); else { printf ("\n-------"); if (ofilen == 1) printf (" Forwarded Message%s", ofilec > 1 ? "s" : ""); else printf (" Message %d", ofilen); printf ("\n\n"); } } else { switch (ontty) { case PITTY: if (ofilec > 1) { if (ofilen > 1) { if ((global.c_flags & CLEARSCR)) nmh_clear_screen (); else printf ("\n\n\n"); } printf (">>> %s\n\n", mname); } break; case ISTTY: strncpy (buf, "\n", sizeof(buf)); if (ofilec > 1) { if (SOprintf ("Press to list \"%s\"...", mname)) { if (ofilen > 1) printf ("\n\n\n"); printf ("Press to list \"%s\"...", mname); } fflush (stdout); buf[0] = 0; if (read (fileno (stdout), buf, sizeof(buf)) < 0) { advise ("stdout", "read"); } } if (strchr(buf, '\n')) { if ((global.c_flags & CLEARSCR)) nmh_clear_screen (); } else printf ("\n"); break; default: if (ofilec > 1) { if (ofilen > 1) { printf ("\n\n\n"); if (clearflg > 0) nmh_clear_screen (); } printf (">>> %s\n\n", mname); } break; } } for (;;) { int bufsz = sizeof buf; switch (state = m_getfld (&gstate, name, buf, &bufsz, fp)) { case FLD: case FLDPLUS: bucket = fmt_addcomptext(name, buf); for (ip = ignores; *ip; ip++) if (!strcasecmp (name, *ip)) { while (state == FLDPLUS) { bufsz = sizeof buf; state = m_getfld (&gstate, name, buf, &bufsz, fp); fmt_appendcomp(bucket, name, buf); } break; } if (*ip) continue; for (c2 = fmthd; c2; c2 = c2->c_next) if (!strcasecmp (c2->c_name ? c2->c_name : "", name)) break; c1 = NULL; if (!((c3 = c2 ? c2 : &global)->c_flags & SPLIT)) for (c1 = msghd; c1; c1 = c1->c_next) if (!strcasecmp (c1->c_name ? c1->c_name : "", c3->c_name ? c3->c_name : "")) { c1->c_text = mcomp_add (c1->c_flags, buf, c1->c_text); break; } if (c1 == NULL) c1 = add_queue (&msghd, &msgtl, name, buf, 0); while (state == FLDPLUS) { bufsz = sizeof buf; state = m_getfld (&gstate, name, buf, &bufsz, fp); c1->c_text = add (buf, c1->c_text); fmt_appendcomp(bucket, name, buf); } if (c2 == NULL) c1->c_flags |= EXTRA; continue; case BODY: case FILEEOF: row = column = 0; for (c1 = fmthd; c1; c1 = c1->c_next) { if (c1->c_flags & CLEARTEXT) { putcomp (c1, c1, ONECOMP); continue; } if (!c1->c_name || !strcasecmp (c1->c_name, "messagename")) { holder.c_text = concat ("(Message ", mname, ")\n", NULL); putcomp (c1, &holder, ONECOMP); free (holder.c_text); holder.c_text = NULL; continue; } if (!c1->c_name || !strcasecmp (c1->c_name, "extras")) { for (c2 = msghd; c2; c2 = c2->c_next) if (c2->c_flags & EXTRA) putcomp (c1, c2, TWOCOMP); continue; } if (dobody && (!c1->c_name || !strcasecmp (c1->c_name, "body"))) { if (c1->c_flags & FMTFILTER && state == BODY && formatproc != NULL) { filterbody(c1, buf, sizeof(buf), state, fp, gstate); } else { holder.c_text = mh_xmalloc (sizeof(buf)); strncpy (holder.c_text, buf, sizeof(buf)); while (state == BODY) { putcomp (c1, &holder, BODYCOMP); bufsz = sizeof buf; state = m_getfld (&gstate, name, holder.c_text, &bufsz, fp); } free (holder.c_text); holder.c_text = NULL; } continue; } for (c2 = msghd; c2; c2 = c2->c_next) if (!strcasecmp (c2->c_name ? c2->c_name : "", c1->c_name ? c1->c_name : "")) { putcomp (c1, c2, ONECOMP); if (!(c1->c_flags & SPLIT)) break; } } m_getfld_state_destroy (&gstate); return; case LENERR: case FMTERR: advise (NULL, "format error in message %s", mname); exitstat++; m_getfld_state_destroy (&gstate); return; default: adios (NULL, "getfld() returned %d", state); } } } static int mcomp_flags (char *name) { struct pair *ap; for (ap = pairs; ap->p_name; ap++) if (!strcasecmp (ap->p_name, name)) return (ap->p_flags); return 0; } static char * mcomp_add (long flags, char *s1, char *s2) { char *dp; if (!(flags & ADDRFMT)) return add (s1, s2); if (s2 && *(dp = s2 + strlen (s2) - 1) == '\n') *dp = 0; return add (s1, add (",\n", s2)); } struct pqpair { char *pq_text; char *pq_error; struct pqpair *pq_next; }; static void mcomp_format (struct mcomp *c1, struct mcomp *c2) { int dat[5]; char *ap, *cp; char error[BUFSIZ]; struct pqpair *p, *q; struct pqpair pq; struct mailname *mp; ap = c2->c_text; c2->c_text = NULL; dat[0] = 0; dat[1] = 0; dat[2] = filesize; dat[3] = BUFSIZ - 1; dat[4] = 0; if (!(c1->c_flags & ADDRFMT)) { charstring_t scanl = charstring_create (BUFSIZ); if (c1->c_c_text) c1->c_c_text->c_text = ap; if ((cp = strrchr(ap, '\n'))) /* drop ending newline */ if (!cp[1]) *cp = 0; fmt_scan (c1->c_fmt, scanl, BUFSIZ - 1, dat, NULL); /* Don't need to append a newline, dctime() already did */ c2->c_text = charstring_buffer_copy (scanl); charstring_free (scanl); /* ap is now owned by the component struct, so do NOT free it here */ return; } (q = &pq)->pq_next = NULL; while ((cp = getname (ap))) { if ((p = (struct pqpair *) mh_xcalloc ((size_t) 1, sizeof(*p))) == NULL) adios (NULL, "unable to allocate pqpair memory"); else { if ((mp = getm (cp, NULL, 0, error, sizeof(error))) == NULL) { p->pq_text = getcpy (cp); p->pq_error = getcpy (error); } else { p->pq_text = getcpy (mp->m_text); mnfree (mp); } q = (q->pq_next = p); } } for (p = pq.pq_next; p; p = q) { charstring_t scanl = charstring_create (BUFSIZ); char *buffer; if (c1->c_c_text) { c1->c_c_text->c_text = p->pq_text; p->pq_text = NULL; } if (c1->c_c_error) { c1->c_c_error->c_text = p->pq_error; p->pq_error = NULL; } fmt_scan (c1->c_fmt, scanl, BUFSIZ - 1, dat, NULL); buffer = charstring_buffer_copy (scanl); if (strlen (buffer) > 0) { if (c2->c_text) c2->c_text = add (",\n", c2->c_text); if (*(cp = buffer + strlen (buffer) - 1) == '\n') *cp = 0; c2->c_text = add (buffer, c2->c_text); } charstring_free (scanl); if (p->pq_text) free (p->pq_text); if (p->pq_error) free (p->pq_error); q = p->pq_next; free ((char *) p); } c2->c_text = add ("\n", c2->c_text); free (ap); } static struct mcomp * add_queue (struct mcomp **head, struct mcomp **tail, char *name, char *text, int flags) { struct mcomp *c1; if ((c1 = (struct mcomp *) mh_xcalloc ((size_t) 1, sizeof(*c1))) == NULL) adios (NULL, "unable to allocate comp memory"); else { c1->c_flags = flags & ~INIT; if ((c1->c_name = name ? getcpy (name) : NULL)) c1->c_flags |= mcomp_flags (c1->c_name); c1->c_text = text ? getcpy (text) : NULL; if (flags & INIT) { if (global.c_ovtxt) c1->c_ovtxt = getcpy (global.c_ovtxt); c1->c_offset = global.c_offset; c1->c_ovoff = global. c_ovoff; c1->c_width = c1->c_length = 0; c1->c_cwidth = global.c_cwidth; c1->c_flags |= global.c_flags & GFLAGS; } } if (*head == NULL) *head = c1; if (*tail != NULL) (*tail)->c_next = c1; *tail = c1; return c1; } static void free_queue (struct mcomp **head, struct mcomp **tail) { struct mcomp *c1, *c2; for (c1 = *head; c1; c1 = c2) { c2 = c1->c_next; if (c1->c_name) free (c1->c_name); if (c1->c_text) free (c1->c_text); if (c1->c_ovtxt) free (c1->c_ovtxt); if (c1->c_nfs) free (c1->c_nfs); if (c1->c_fmt) fmt_free (c1->c_fmt, 0); free ((char *) c1); } *head = *tail = NULL; } static void putcomp (struct mcomp *c1, struct mcomp *c2, int flag) { int count, cchdr; char *cp; /* * Create a copy of c1->c_text with trailing whitespace * trimmed, for use with blank lines. */ char *trimmed_prefix = rtrim (add (c1->c_text ? c1->c_text : c1->c_name, NULL)); cchdr = 0; lm = 0; llim = c1->c_length ? c1->c_length : -1; wid = c1->c_width ? c1->c_width : global.c_width; ovoff = (c1->c_ovoff >= 0 ? c1->c_ovoff : global.c_ovoff) + c1->c_offset; if ((ovtxt = c1->c_ovtxt ? c1->c_ovtxt : global.c_ovtxt) == NULL) ovtxt = ""; if (wid < ovoff + strlen (ovtxt) + 5) adios (NULL, "component: %s width(%d) too small for overflow(%d)", c1->c_name, wid, ovoff + strlen (ovtxt) + 5); onelp = NULL; if (c1->c_flags & CLEARTEXT) { putstr (c1->c_flags & RTRIM ? rtrim (c1->c_text) : c1->c_text, c1->c_flags); putstr ("\n", c1->c_flags); return; } if (c1->c_nfs && (c1->c_flags & (ADDRFMT | DATEFMT | FORMAT))) mcomp_format (c1, c2); if (c1->c_flags & CENTER) { count = (c1->c_width ? c1->c_width : global.c_width) - c1->c_offset - strlen (c2->c_text); if (!(c1->c_flags & HDROUTPUT) && !(c1->c_flags & NOCOMPONENT)) count -= strlen (c1->c_text ? c1->c_text : c1->c_name) + 2; lm = c1->c_offset + (count / 2); } else { if (c1->c_offset) lm = c1->c_offset; } if (!(c1->c_flags & HDROUTPUT) && !(c1->c_flags & NOCOMPONENT)) { if (c1->c_flags & UPPERCASE) /* uppercase component also */ for (cp = (c1->c_text ? c1->c_text : c1->c_name); *cp; cp++) if (islower ((unsigned char) *cp)) *cp = toupper ((unsigned char) *cp); putstr (c1->c_text ? c1->c_text : c1->c_name, c1->c_flags); if (flag != BODYCOMP) { putstr (": ", c1->c_flags); if (!(c1->c_flags & SPLIT)) c1->c_flags |= HDROUTPUT; cchdr++; if ((count = c1->c_cwidth - strlen (c1->c_text ? c1->c_text : c1->c_name) - 2) > 0) while (count--) putstr (" ", c1->c_flags); } else c1->c_flags |= HDROUTPUT; /* for BODYCOMP */ } if (flag == TWOCOMP && !(c2->c_flags & HDROUTPUT) && !(c2->c_flags & NOCOMPONENT)) { if (c1->c_flags & UPPERCASE) for (cp = c2->c_name; *cp; cp++) if (islower ((unsigned char) *cp)) *cp = toupper ((unsigned char) *cp); putstr (c2->c_name, c1->c_flags); putstr (": ", c1->c_flags); if (!(c1->c_flags & SPLIT)) c2->c_flags |= HDROUTPUT; cchdr++; if ((count = c1->c_cwidth - strlen (c2->c_name) - 2) > 0) while (count--) putstr (" ", c1->c_flags); } if (c1->c_flags & UPPERCASE) for (cp = c2->c_text; *cp; cp++) if (islower ((unsigned char) *cp)) *cp = toupper ((unsigned char) *cp); count = 0; if (cchdr) { if (flag == TWOCOMP) count = (c1->c_cwidth >= 0) ? c1->c_cwidth : (int) strlen (c2->c_name) + 2; else count = (c1->c_cwidth >= 0) ? (size_t) c1->c_cwidth : strlen (c1->c_text ? c1->c_text : c1->c_name) + 2; } count += c1->c_offset; if ((cp = oneline (c2->c_text, c1->c_flags))) /* Output line, trimming trailing whitespace if requested. */ putstr (c1->c_flags & RTRIM ? rtrim (cp) : cp, c1->c_flags); if (term == '\n') putstr ("\n", c1->c_flags); while ((cp = oneline (c2->c_text, c1->c_flags))) { lm = count; if (flag == BODYCOMP && !(c1->c_flags & NOCOMPONENT)) { /* Output component, trimming trailing whitespace if there is no text on the line. */ if (*cp) { putstr (c1->c_text ? c1->c_text : c1->c_name, c1->c_flags); } else { putstr (trimmed_prefix, c1->c_flags); } } if (*cp) { /* Output line, trimming trailing whitespace if requested. */ putstr (c1->c_flags & RTRIM ? rtrim (cp) : cp, c1->c_flags); } if (term == '\n') putstr ("\n", c1->c_flags); } if (flag == BODYCOMP && term == '\n') c1->c_flags &= ~HDROUTPUT; /* Buffer ended on a newline */ free (trimmed_prefix); } static char * oneline (char *stuff, long flags) { int spc; char *cp, *ret; if (onelp == NULL) onelp = stuff; if (*onelp == 0) return (onelp = NULL); ret = onelp; term = 0; if (flags & COMPRESS) { for (spc = 1, cp = ret; *onelp; onelp++) if (isspace ((unsigned char) *onelp)) { if (*onelp == '\n' && (!onelp[1] || (flags & ADDRFMT))) { term = '\n'; *onelp++ = 0; break; } else if (!spc) { *cp++ = ' '; spc++; } } else { *cp++ = *onelp; spc = 0; } *cp = 0; } else { while (*onelp && *onelp != '\n') onelp++; if (*onelp == '\n') { term = '\n'; *onelp++ = 0; } if (flags & LEFTADJUST) while (*ret == ' ' || *ret == '\t') ret++; } if (*onelp == 0 && term == '\n' && (flags & NONEWLINE)) term = 0; return ret; } static void putstr (char *string, long flags) { if (!column && lm > 0) { while (lm > 0) if (lm >= 8) { putch ('\t', flags); lm -= 8; } else { putch (' ', flags); lm--; } } lm = 0; while (*string) putch (*string++, flags); } static void putch (char ch, long flags) { char buf[BUFSIZ]; if (llim == 0) return; switch (ch) { case '\n': if (llim > 0) llim--; column = 0; row++; if (ontty != ISTTY || row != global.c_length) break; if (global.c_flags & BELL) putchar ('\007'); fflush (stdout); buf[0] = 0; if (read (fileno (stdout), buf, sizeof(buf)) < 0) { advise ("stdout", "read"); } if (strchr(buf, '\n')) { if (global.c_flags & CLEARSCR) nmh_clear_screen (); row = 0; } else { putchar ('\n'); row = global.c_length / 3; } return; case '\t': column |= 07; column++; break; case '\b': column--; break; case '\r': column = 0; break; default: /* * If we are forwarding this message, and the first * column contains a dash, then add a dash and a space. */ if (column == 0 && forwflg && (dashstuff >= 0) && ch == '-') { putchar ('-'); putchar (' '); } if (ch >= ' ') column++; break; } if (column >= wid && (flags & NOWRAP) == 0) { putch ('\n', flags); if (ovoff > 0) lm = ovoff; putstr (ovtxt ? ovtxt : "", flags); putch (ch, flags); return; } putchar (ch); } static void intrser (int i) { NMH_UNUSED (i); discard (stdout); putchar ('\n'); longjmp (env, DONE); } static void pipeser (int i) { NMH_UNUSED (i); done (NOTOK); } static void quitser (int i) { NMH_UNUSED (i); putchar ('\n'); fflush (stdout); done (NOTOK); } #undef adios #undef done static void mhladios (char *what, char *fmt, ...) { va_list ap; va_start(ap, fmt); advertise (what, NULL, fmt, ap); va_end(ap); mhldone (1); } static void mhldone (int status) { exitstat = status; if (mhl_action) longjmp (mhlenv, DONE); else done (exitstat); } /* * Compile a format string used by the formatfield option and save it * for later. * * We will want the {text} (and possibly {error}) components for later, * so look for them and save them if we find them. */ static void compile_formatfield(struct mcomp *c1) { fmt_compile(c1->c_nfs, &c1->c_fmt, 1); /* * As a note to myself and any other poor bastard who is looking through * this code in the future .... * * When the format hash table is reset later on (as it almost certainly * will be), there will still be references to these components in the * compiled format instructions. Thus these component references will * be free'd when the format instructions are free'd (by fmt_free()). * * So, in other words ... don't go free'ing them yourself! */ c1->c_c_text = fmt_findcomp("text"); c1->c_c_error = fmt_findcomp("error"); } /* * Compile all of the arguments for our format list. * * Iterate through the linked list of format strings and compile them. * Note that we reset the format hash table before we start, but we do NOT * reset it between calls to fmt_compile(). * */ static void compile_filterargs (void) { struct arglist *arg = arglist_head; struct comp *cptr; char **ap; fmt_free(NULL, 1); while (arg) { fmt_compile(arg->a_nfs, &arg->a_fmt, 0); arg = arg->a_next; } /* * Search through and mark any components that are address components */ for (ap = addrcomps; *ap; ap++) { cptr = fmt_findcomp (*ap); if (cptr) cptr->c_type |= CT_ADDR; } } /* * Filter the body of a message through a specified format program */ static void filterbody (struct mcomp *c1, char *buf, int bufsz, int state, FILE *fp, m_getfld_state_t gstate) { struct mcomp holder; char name[NAMESZ]; int fdinput[2], fdoutput[2], waitstat; ssize_t cc; pid_t writerpid, filterpid; /* * Create pipes so we can communicate with our filter process. */ if (pipe(fdinput) < 0) { adios(NULL, "Unable to create input pipe"); } if (pipe(fdoutput) < 0) { adios(NULL, "Unable to create output pipe"); } /* * Here's what we're doing to do. * * - Fork ourselves and start writing data to the write side of the * input pipe (fdinput[1]). * * - Fork and exec our filter program. We set the standard input of * our filter program to be the read side of our input pipe (fdinput[0]). * Standard output is set to the write side of our output pipe * (fdoutput[1]). * * - We read from the read side of the output pipe (fdoutput[0]). * * We're forking because that's the simplest way to prevent any deadlocks. * (without doing something like switching to non-blocking I/O and using * select or poll, and I'm not interested in doing that). */ switch (writerpid = fork()) { case 0: /* * Our child process - just write to the filter input (fdinput[1]). * Close all other descriptors that we don't need. */ close(fdinput[0]); close(fdoutput[0]); close(fdoutput[1]); /* * Call m_getfld() until we're no longer in the BODY state */ while (state == BODY) { int bufsz2 = bufsz; if (write(fdinput[1], buf, strlen(buf)) < 0) { advise ("pipe output", "write"); } state = m_getfld (&gstate, name, buf, &bufsz2, fp); } /* * We should be done; time to exit. */ close(fdinput[1]); /* * Make sure we call _exit(), otherwise we may flush out the stdio * buffers that we have duplicated from the parent. */ _exit(0); case -1: adios(NULL, "Unable to fork for filter writer process"); break; } /* * Fork and exec() our filter program, after redirecting standard in * and standard out appropriately. */ switch (filterpid = fork()) { char **args, *program; struct arglist *a; int i, dat[5], s, argp; case 0: /* * Configure an argument array for us */ args = argsplit(formatproc, &program, &argp); args[argp + filter_nargs] = NULL; dat[0] = 0; dat[1] = 0; dat[2] = 0; dat[3] = BUFSIZ; dat[4] = 0; /* * Pull out each argument and scan them. */ for (a = arglist_head, i = argp; a != NULL; a = a->a_next, i++) { charstring_t scanl = charstring_create (BUFSIZ); fmt_scan(a->a_fmt, scanl, BUFSIZ, dat, NULL); args[i] = charstring_buffer_copy (scanl); charstring_free (scanl); /* * fmt_scan likes to put a trailing newline at the end of the * format string. If we have one, get rid of it. */ s = strlen(args[i]); if (args[i][s - 1] == '\n') args[i][s - 1] = '\0'; if (mhldebug) fprintf(stderr, "filterarg: fmt=\"%s\", output=\"%s\"\n", a->a_nfs, args[i]); } if (dup2(fdinput[0], STDIN_FILENO) < 0) { adios("formatproc", "Unable to dup2() standard input"); } if (dup2(fdoutput[1], STDOUT_FILENO) < 0) { adios("formatproc", "Unable to dup2() standard output"); } /* * Close everything (especially the old input and output * descriptors, since they've been dup'd to stdin and stdout), * and exec the formatproc. */ close(fdinput[0]); close(fdinput[1]); close(fdoutput[0]); close(fdoutput[1]); execvp(formatproc, args); adios(formatproc, "Unable to execute filter"); break; case -1: adios(NULL, "Unable to fork format program"); } /* * Close everything except our reader (fdoutput[0]); */ close(fdinput[0]); close(fdinput[1]); close(fdoutput[1]); /* * As we read in this data, send it to putcomp */ holder.c_text = buf; while ((cc = read(fdoutput[0], buf, bufsz - 1)) > 0) { buf[cc] = '\0'; putcomp(c1, &holder, BODYCOMP); } if (cc < 0) { adios(NULL, "reading from formatproc"); } /* * See if we got any errors along the way. I'm a little leery of calling * waitpid() without WNOHANG, but it seems to be the most correct solution. */ if (waitpid(filterpid, &waitstat, 0) < 0) { if (errno != ECHILD) { adios("filterproc", "Unable to determine status"); } } else { if (! (WIFEXITED(waitstat) && WEXITSTATUS(waitstat) == 0)) { pidstatus(waitstat, stderr, "filterproc"); } } if (waitpid(writerpid, &waitstat, 0) < 0) { if (errno != ECHILD) { adios("writer process", "Unable to determine status"); done(1); } } else { if (! (WIFEXITED(waitstat) && WEXITSTATUS(waitstat) == 0)) { pidstatus(waitstat, stderr, "writer process"); done(1); } } close(fdoutput[0]); }