/* * Copyright (c) Stichting Mathematisch Centrum, Amsterdam, 1985. */ #ifndef lint static char rcsid[] = "$NetBSD: hack.pager.c,v 1.4 1995/03/23 08:31:16 cgd Exp $"; #endif /* not lint */ /* This file contains the command routine dowhatis() and a pager. */ /* Also readmail() and doshell(), and generally the things that contact the outside world. */ #include #include #include #include #include #include "hack.h" extern int CO, LI; /* usually COLNO and ROWNO+2 */ extern char *CD; extern char quitchars[]; void done1(); dowhatis() { FILE *fp; char bufr[BUFSZ+6]; register char *buf = &bufr[6], *ep, q; extern char readchar(); if(!(fp = fopen(DATAFILE, "r"))) pline("Cannot open data file!"); else { pline("Specify what? "); q = readchar(); if(q != '\t') while(fgets(buf,BUFSZ,fp)) if(*buf == q) { ep = strchr(buf, '\n'); if(ep) *ep = 0; /* else: bad data file */ /* Expand tab 'by hand' */ if(buf[1] == '\t'){ buf = bufr; buf[0] = q; (void) strncpy(buf+1, " ", 7); } pline(buf); if(ep[-1] == ';') { pline("More info? "); if(readchar() == 'y') { page_more(fp,1); /* does fclose() */ return(0); } } (void) fclose(fp); /* kopper@psuvax1 */ return(0); } pline("I've never heard of such things."); (void) fclose(fp); } return(0); } /* make the paging of a file interruptible */ static int got_intrup; void intruph(){ got_intrup++; } /* simple pager, also used from dohelp() */ page_more(fp,strip) FILE *fp; int strip; /* nr of chars to be stripped from each line (0 or 1) */ { register char *bufr, *ep; sig_t prevsig = signal(SIGINT, intruph); set_pager(0); bufr = (char *) alloc((unsigned) CO); bufr[CO-1] = 0; while(fgets(bufr,CO-1,fp) && (!strip || *bufr == '\t') && !got_intrup){ ep = strchr(bufr, '\n'); if(ep) *ep = 0; if(page_line(bufr+strip)) { set_pager(2); goto ret; } } set_pager(1); ret: free(bufr); (void) fclose(fp); (void) signal(SIGINT, prevsig); got_intrup = 0; } static boolean whole_screen = TRUE; #define PAGMIN 12 /* minimum # of lines for page below level map */ set_whole_screen() { /* called in termcap as soon as LI is known */ whole_screen = (LI-ROWNO-2 <= PAGMIN || !CD); } #ifdef NEWS readnews() { register int ret; whole_screen = TRUE; /* force a docrt(), our first */ ret = page_file(NEWS, TRUE); set_whole_screen(); return(ret); /* report whether we did docrt() */ } #endif NEWS set_pager(mode) register int mode; /* 0: open 1: wait+close 2: close */ { static boolean so; if(mode == 0) { if(!whole_screen) { /* clear topline */ clrlin(); /* use part of screen below level map */ curs(1, ROWNO+4); } else { cls(); } so = flags.standout; flags.standout = 1; } else { if(mode == 1) { curs(1, LI); more(); } flags.standout = so; if(whole_screen) docrt(); else { curs(1, ROWNO+4); cl_eos(); } } } page_line(s) /* returns 1 if we should quit */ register char *s; { extern char morc; if(cury == LI-1) { if(!*s) return(0); /* suppress blank lines at top */ putchar('\n'); cury++; cmore("q\033"); if(morc) { morc = 0; return(1); } if(whole_screen) cls(); else { curs(1, ROWNO+4); cl_eos(); } } puts(s); cury++; return(0); } /* * Flexible pager: feed it with a number of lines and it will decide * whether these should be fed to the pager above, or displayed in a * corner. * Call: * cornline(0, title or 0) : initialize * cornline(1, text) : add text to the chain of texts * cornline(2, morcs) : output everything and cleanup * cornline(3, 0) : cleanup */ cornline(mode, text) int mode; char *text; { static struct line { struct line *next_line; char *line_text; } *texthead, *texttail; static int maxlen; static int linect; register struct line *tl; if(mode == 0) { texthead = 0; maxlen = 0; linect = 0; if(text) { cornline(1, text); /* title */ cornline(1, ""); /* blank line */ } return; } if(mode == 1) { register int len; if(!text) return; /* superfluous, just to be sure */ linect++; len = strlen(text); if(len > maxlen) maxlen = len; tl = (struct line *) alloc((unsigned)(len + sizeof(struct line) + 1)); tl->next_line = 0; tl->line_text = (char *)(tl + 1); (void) strcpy(tl->line_text, text); if(!texthead) texthead = tl; else texttail->next_line = tl; texttail = tl; return; } /* --- now we really do it --- */ if(mode == 2 && linect == 1) /* topline only */ pline(texthead->line_text); else if(mode == 2) { register int curline, lth; if(flags.toplin == 1) more(); /* ab@unido */ remember_topl(); lth = CO - maxlen - 2; /* Use full screen width */ if (linect < LI && lth >= 10) { /* in a corner */ home (); cl_end (); flags.toplin = 0; curline = 1; for (tl = texthead; tl; tl = tl->next_line) { curs (lth, curline); if(curline > 1) cl_end (); putsym(' '); putstr (tl->line_text); curline++; } curs (lth, curline); cl_end (); cmore (text); home (); cl_end (); docorner (lth, curline-1); } else { /* feed to pager */ set_pager(0); for (tl = texthead; tl; tl = tl->next_line) { if (page_line (tl->line_text)) { set_pager(2); goto cleanup; } } if(text) { cgetret(text); set_pager(2); } else set_pager(1); } } cleanup: while(tl = texthead) { texthead = tl->next_line; free((char *) tl); } } dohelp() { char c; pline ("Long or short help? "); while (((c = readchar ()) != 'l') && (c != 's') && !strchr(quitchars,c)) bell (); if (!strchr(quitchars, c)) (void) page_file((c == 'l') ? HELP : SHELP, FALSE); return(0); } page_file(fnam, silent) /* return: 0 - cannot open fnam; 1 - otherwise */ register char *fnam; boolean silent; { #ifdef DEF_PAGER /* this implies that UNIX is defined */ { /* use external pager; this may give security problems */ register int fd = open(fnam, 0); if(fd < 0) { if(!silent) pline("Cannot open %s.", fnam); return(0); } if(child(1)){ extern char *catmore; /* Now that child() does a setuid(getuid()) and a chdir(), we may not be able to open file fnam anymore, so make it stdin. */ (void) close(0); if(dup(fd)) { if(!silent) printf("Cannot open %s as stdin.\n", fnam); } else { execl(catmore, "page", (char *) 0); if(!silent) printf("Cannot exec %s.\n", catmore); } exit(1); } (void) close(fd); } #else DEF_PAGER { FILE *f; /* free after Robert Viduya */ if ((f = fopen (fnam, "r")) == (FILE *) 0) { if(!silent) { home(); perror (fnam); flags.toplin = 1; pline ("Cannot open %s.", fnam); } return(0); } page_more(f, 0); } #endif DEF_PAGER return(1); } #ifdef UNIX #ifdef SHELL dosh(){ register char *str; if(child(0)) { if(str = getenv("SHELL")) execl(str, str, (char *) 0); else execl("/bin/sh", "sh", (char *) 0); pline("sh: cannot execute."); exit(1); } return(0); } #endif SHELL #ifdef NOWAITINCLUDE union wait { /* used only for the cast (union wait *) 0 */ int w_status; struct { unsigned short w_Termsig:7; unsigned short w_Coredump:1; unsigned short w_Retcode:8; } w_T; }; #else #ifdef BSD #include #else #include #endif BSD #endif NOWAITINCLUDE child(wt) { int status; register int f; f = fork(); if(f == 0){ /* child */ settty((char *) 0); /* also calls end_screen() */ /* revoke */ setegid(getgid()); setgid(getgid()); #ifdef CHDIR (void) chdir(getenv("HOME")); #endif CHDIR return(1); } if(f == -1) { /* cannot fork */ pline("Fork failed. Try again."); return(0); } /* fork succeeded; wait for child to exit */ (void) signal(SIGINT,SIG_IGN); (void) signal(SIGQUIT,SIG_IGN); (void) wait(&status); gettty(); setftty(); (void) signal(SIGINT,done1); #ifdef WIZARD if(wizard) (void) signal(SIGQUIT,SIG_DFL); #endif WIZARD if(wt) getret(); docrt(); return(0); } #endif UNIX