/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1982-2008 AT&T Intellectual Property * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Intellectual Property * * * * A copy of the License is available at * * http://www.opensource.org/licenses/cpl1.0.txt * * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * David Korn * * * ***********************************************************************/ #pragma prototyped /* * edit.c - common routines for vi and emacs one line editors in shell * * David Korn P.D. Sullivan * AT&T Labs * * Coded April 1983. */ #include #include #include #include #include "FEATURE/options" #include "FEATURE/time" #include "FEATURE/cmds" #ifdef _hdr_utime # include # include #endif #if KSHELL # include "defs.h" # include "variables.h" #else extern char ed_errbuf[]; char e_version[] = "\n@(#)$Id: Editlib version 1993-12-28 r $\0\n"; #endif /* KSHELL */ #include "io.h" #include "terminal.h" #include "history.h" #include "edit.h" static char CURSOR_UP[20] = { ESC, '[', 'A', 0 }; #if SHOPT_MULTIBYTE # define is_cntrl(c) ((c<=STRIP) && iscntrl(c)) # define is_print(c) ((c&~STRIP) || isprint(c)) #else # define is_cntrl(c) iscntrl(c) # define is_print(c) isprint(c) #endif #if (CC_NATIVE == CC_ASCII) # define printchar(c) ((c) ^ ('A'-cntl('A'))) #else static int printchar(int c) { switch(c) { case cntl('A'): return('A'); case cntl('B'): return('B'); case cntl('C'): return('C'); case cntl('D'): return('D'); case cntl('E'): return('E'); case cntl('F'): return('F'); case cntl('G'): return('G'); case cntl('H'): return('H'); case cntl('I'): return('I'); case cntl('J'): return('J'); case cntl('K'): return('K'); case cntl('L'): return('L'); case cntl('M'): return('M'); case cntl('N'): return('N'); case cntl('O'): return('O'); case cntl('P'): return('P'); case cntl('Q'): return('Q'); case cntl('R'): return('R'); case cntl('S'): return('S'); case cntl('T'): return('T'); case cntl('U'): return('U'); case cntl('V'): return('V'); case cntl('W'): return('W'); case cntl('X'): return('X'); case cntl('Y'): return('Y'); case cntl('Z'): return('Z'); case cntl(']'): return(']'); case cntl('['): return('['); } return('?'); } #endif #define MINWINDOW 15 /* minimum width window */ #define DFLTWINDOW 80 /* default window width */ #define RAWMODE 1 #define ALTMODE 2 #define ECHOMODE 3 #define SYSERR -1 #if SHOPT_OLDTERMIO # undef tcgetattr # undef tcsetattr #endif /* SHOPT_OLDTERMIO */ #ifdef RT # define VENIX 1 #endif /* RT */ #ifdef _hdr_sgtty # ifdef TIOCGETP static int l_mask; static struct tchars l_ttychars; static struct ltchars l_chars; static char l_changed; /* set if mode bits changed */ # define L_CHARS 4 # define T_CHARS 2 # define L_MASK 1 # endif /* TIOCGETP */ #endif /* _hdr_sgtty */ #if KSHELL static int keytrap(Edit_t *,char*, int, int, int); #else Edit_t editb; #endif /* KSHELL */ #ifndef _POSIX_DISABLE # define _POSIX_DISABLE 0 #endif #ifdef future static int compare(const char*, const char*, int); #endif /* future */ #if SHOPT_VSH || SHOPT_ESH # define ttyparm (ep->e_ttyparm) # define nttyparm (ep->e_nttyparm) static const char bellchr[] = "\a"; /* bell char */ #endif /* SHOPT_VSH || SHOPT_ESH */ /* * This routine returns true if fd refers to a terminal * This should be equivalent to isatty */ int tty_check(int fd) { register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); struct termios tty; ep->e_savefd = -1; return(tty_get(fd,&tty)==0); } /* * Get the current terminal attributes * This routine remembers the attributes and just returns them if it * is called again without an intervening tty_set() */ int tty_get(register int fd, register struct termios *tty) { register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); if(fd == ep->e_savefd) *tty = ep->e_savetty; else { while(tcgetattr(fd,tty) == SYSERR) { if(errno !=EINTR) return(SYSERR); errno = 0; } /* save terminal settings if in cannonical state */ if(ep->e_raw==0) { ep->e_savetty = *tty; ep->e_savefd = fd; } } return(0); } /* * Set the terminal attributes * If fd<0, then current attributes are invalidated */ int tty_set(int fd, int action, struct termios *tty) { register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); if(fd >=0) { #ifdef future if(ep->e_savefd>=0 && compare(&ep->e_savetty,tty,sizeof(struct termios))) return(0); #endif while(tcsetattr(fd, action, tty) == SYSERR) { if(errno !=EINTR) return(SYSERR); errno = 0; } ep->e_savetty = *tty; } ep->e_savefd = fd; return(0); } #if SHOPT_ESH || SHOPT_VSH /*{ TTY_COOKED( fd ) * * This routine will set the tty in cooked mode. * It is also called by error.done(). * }*/ void tty_cooked(register int fd) { register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); if(ep->e_raw==0) return; if(fd < 0) fd = ep->e_savefd; #ifdef L_MASK /* restore flags */ if(l_changed&L_MASK) ioctl(fd,TIOCLSET,&l_mask); if(l_changed&T_CHARS) /* restore alternate break character */ ioctl(fd,TIOCSETC,&l_ttychars); if(l_changed&L_CHARS) /* restore alternate break character */ ioctl(fd,TIOCSLTC,&l_chars); l_changed = 0; #endif /* L_MASK */ /*** don't do tty_set unless ttyparm has valid data ***/ if(tty_set(fd, TCSANOW, &ttyparm) == SYSERR) return; ep->e_raw = 0; return; } /*{ TTY_RAW( fd ) * * This routine will set the tty in raw mode. * }*/ int tty_raw(register int fd, int echomode) { int echo = echomode; #ifdef L_MASK struct ltchars lchars; #endif /* L_MASK */ register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); if(ep->e_raw==RAWMODE) return(echo?-1:0); else if(ep->e_raw==ECHOMODE) return(echo?0:-1); #if !SHOPT_RAWONLY if(ep->e_raw != ALTMODE) #endif /* SHOPT_RAWONLY */ { if(tty_get(fd,&ttyparm) == SYSERR) return(-1); } #if L_MASK || VENIX if(ttyparm.sg_flags&LCASE) return(-1); if(!(ttyparm.sg_flags&ECHO)) { if(!echomode) return(-1); echo = 0; } nttyparm = ttyparm; if(!echo) nttyparm.sg_flags &= ~(ECHO | TBDELAY); # ifdef CBREAK nttyparm.sg_flags |= CBREAK; # else nttyparm.sg_flags |= RAW; # endif /* CBREAK */ ep->e_erase = ttyparm.sg_erase; ep->e_kill = ttyparm.sg_kill; ep->e_eof = cntl('D'); ep->e_werase = cntl('W'); ep->e_lnext = cntl('V'); if( tty_set(fd, TCSADRAIN, &nttyparm) == SYSERR ) return(-1); ep->e_ttyspeed = (ttyparm.sg_ospeed>=B1200?FAST:SLOW); # ifdef TIOCGLTC /* try to remove effect of ^V and ^Y and ^O */ if(ioctl(fd,TIOCGLTC,&l_chars) != SYSERR) { lchars = l_chars; lchars.t_lnextc = -1; lchars.t_flushc = -1; lchars.t_dsuspc = -1; /* no delayed stop process signal */ if(ioctl(fd,TIOCSLTC,&lchars) != SYSERR) l_changed |= L_CHARS; } # endif /* TIOCGLTC */ #else if (!(ttyparm.c_lflag & ECHO )) { if(!echomode) return(-1); echo = 0; } # ifdef FLUSHO ttyparm.c_lflag &= ~FLUSHO; # endif /* FLUSHO */ nttyparm = ttyparm; # ifndef u370 nttyparm.c_iflag &= ~(IGNPAR|PARMRK|INLCR|IGNCR|ICRNL); nttyparm.c_iflag |= BRKINT; # else nttyparm.c_iflag &= ~(IGNBRK|PARMRK|INLCR|IGNCR|ICRNL|INPCK); nttyparm.c_iflag |= (BRKINT|IGNPAR); # endif /* u370 */ if(echo) nttyparm.c_lflag &= ~ICANON; else nttyparm.c_lflag &= ~(ICANON|ECHO|ECHOK); nttyparm.c_cc[VTIME] = 0; nttyparm.c_cc[VMIN] = 1; # ifdef VREPRINT nttyparm.c_cc[VREPRINT] = _POSIX_DISABLE; # endif /* VREPRINT */ # ifdef VDISCARD nttyparm.c_cc[VDISCARD] = _POSIX_DISABLE; # endif /* VDISCARD */ # ifdef VDSUSP nttyparm.c_cc[VDSUSP] = _POSIX_DISABLE; # endif /* VDSUSP */ # ifdef VWERASE if(ttyparm.c_cc[VWERASE] == _POSIX_DISABLE) ep->e_werase = cntl('W'); else ep->e_werase = nttyparm.c_cc[VWERASE]; nttyparm.c_cc[VWERASE] = _POSIX_DISABLE; # else ep->e_werase = cntl('W'); # endif /* VWERASE */ # ifdef VLNEXT if(ttyparm.c_cc[VLNEXT] == _POSIX_DISABLE ) ep->e_lnext = cntl('V'); else ep->e_lnext = nttyparm.c_cc[VLNEXT]; nttyparm.c_cc[VLNEXT] = _POSIX_DISABLE; # else ep->e_lnext = cntl('V'); # endif /* VLNEXT */ ep->e_eof = ttyparm.c_cc[VEOF]; ep->e_erase = ttyparm.c_cc[VERASE]; ep->e_kill = ttyparm.c_cc[VKILL]; if( tty_set(fd, TCSADRAIN, &nttyparm) == SYSERR ) return(-1); ep->e_ttyspeed = (cfgetospeed(&ttyparm)>=B1200?FAST:SLOW); #endif ep->e_raw = (echomode?ECHOMODE:RAWMODE); return(0); } #if !SHOPT_RAWONLY /* * * Get tty parameters and make ESC and '\r' wakeup characters. * */ # ifdef TIOCGETC int tty_alt(register int fd) { register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); int mask; struct tchars ttychars; switch(ep->e_raw) { case ECHOMODE: return(-1); case ALTMODE: return(0); case RAWMODE: tty_cooked(fd); } l_changed = 0; if( ep->e_ttyspeed == 0) { if((tty_get(fd,&ttyparm) != SYSERR)) ep->e_ttyspeed = (ttyparm.sg_ospeed>=B1200?FAST:SLOW); ep->e_raw = ALTMODE; } if(ioctl(fd,TIOCGETC,&l_ttychars) == SYSERR) return(-1); if(ioctl(fd,TIOCLGET,&l_mask)==SYSERR) return(-1); ttychars = l_ttychars; mask = LCRTBS|LCRTERA|LCTLECH|LPENDIN|LCRTKIL; if((l_mask|mask) != l_mask) l_changed = L_MASK; if(ioctl(fd,TIOCLBIS,&mask)==SYSERR) return(-1); if(ttychars.t_brkc!=ESC) { ttychars.t_brkc = ESC; l_changed |= T_CHARS; if(ioctl(fd,TIOCSETC,&ttychars) == SYSERR) return(-1); } return(0); } # else # ifndef PENDIN # define PENDIN 0 # endif /* PENDIN */ # ifndef IEXTEN # define IEXTEN 0 # endif /* IEXTEN */ int tty_alt(register int fd) { register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); switch(ep->e_raw) { case ECHOMODE: return(-1); case ALTMODE: return(0); case RAWMODE: tty_cooked(fd); } if((tty_get(fd, &ttyparm)==SYSERR) || (!(ttyparm.c_lflag&ECHO))) return(-1); # ifdef FLUSHO ttyparm.c_lflag &= ~FLUSHO; # endif /* FLUSHO */ nttyparm = ttyparm; ep->e_eof = ttyparm.c_cc[VEOF]; # ifdef ECHOCTL /* escape character echos as ^[ */ nttyparm.c_lflag |= (ECHOE|ECHOK|ECHOCTL|PENDIN|IEXTEN); nttyparm.c_cc[VEOL] = ESC; # else /* switch VEOL2 and EOF, since EOF isn't echo'd by driver */ nttyparm.c_lflag |= (ECHOE|ECHOK); nttyparm.c_cc[VEOF] = ESC; /* make ESC the eof char */ # ifdef VEOL2 nttyparm.c_iflag &= ~(IGNCR|ICRNL); nttyparm.c_iflag |= INLCR; nttyparm.c_cc[VEOL] = '\r'; /* make CR an eol char */ nttyparm.c_cc[VEOL2] = ep->e_eof; /* make EOF an eol char */ # else nttyparm.c_cc[VEOL] = ep->e_eof; /* make EOF an eol char */ # endif /* VEOL2 */ # endif /* ECHOCTL */ # ifdef VREPRINT nttyparm.c_cc[VREPRINT] = _POSIX_DISABLE; # endif /* VREPRINT */ # ifdef VDISCARD nttyparm.c_cc[VDISCARD] = _POSIX_DISABLE; # endif /* VDISCARD */ # ifdef VWERASE if(ttyparm.c_cc[VWERASE] == _POSIX_DISABLE) nttyparm.c_cc[VWERASE] = cntl('W'); ep->e_werase = nttyparm.c_cc[VWERASE]; # else ep->e_werase = cntl('W'); # endif /* VWERASE */ # ifdef VLNEXT if(ttyparm.c_cc[VLNEXT] == _POSIX_DISABLE ) nttyparm.c_cc[VLNEXT] = cntl('V'); ep->e_lnext = nttyparm.c_cc[VLNEXT]; # else ep->e_lnext = cntl('V'); # endif /* VLNEXT */ ep->e_erase = ttyparm.c_cc[VERASE]; ep->e_kill = ttyparm.c_cc[VKILL]; if( tty_set(fd, TCSADRAIN, &nttyparm) == SYSERR ) return(-1); ep->e_ttyspeed = (cfgetospeed(&ttyparm)>=B1200?FAST:SLOW); ep->e_raw = ALTMODE; return(0); } # endif /* TIOCGETC */ #endif /* SHOPT_RAWONLY */ /* * ED_WINDOW() * * return the window size */ int ed_window(void) { int rows,cols; register char *cp = nv_getval(COLUMNS); if(cp) cols = (int)strtol(cp, (char**)0, 10)-1; else { astwinsize(2,&rows,&cols); if(--cols <0) cols = DFLTWINDOW-1; } if(cols < MINWINDOW) cols = MINWINDOW; else if(cols > MAXWINDOW) cols = MAXWINDOW; return(cols); } /* E_FLUSH() * * Flush the output buffer. * */ void ed_flush(Edit_t *ep) { register int n = ep->e_outptr-ep->e_outbase; register int fd = ERRIO; if(n<=0) return; write(fd,ep->e_outbase,(unsigned)n); ep->e_outptr = ep->e_outbase; } /* * send the bell character ^G to the terminal */ void ed_ringbell(void) { write(ERRIO,bellchr,1); } /* * send a carriage return line feed to the terminal */ void ed_crlf(register Edit_t *ep) { #ifdef cray ed_putchar(ep,'\r'); #endif /* cray */ #ifdef u370 ed_putchar(ep,'\r'); #endif /* u370 */ #ifdef VENIX ed_putchar(ep,'\r'); #endif /* VENIX */ ed_putchar(ep,'\n'); ed_flush(ep); } /* ED_SETUP( max_prompt_size ) * * This routine sets up the prompt string * The following is an unadvertised feature. * Escape sequences in the prompt can be excluded from the calculated * prompt length. This is accomplished as follows: * - if the prompt string starts with "%\r, or contains \r%\r", where % * represents any char, then % is taken to be the quote character. * - strings enclosed by this quote character, and the quote character, * are not counted as part of the prompt length. */ void ed_setup(register Edit_t *ep, int fd, int reedit) { Shell_t *shp = ep->sh; register char *pp; register char *last, *prev; char *ppmax; int myquote = 0, n; register int qlen = 1, qwid; char inquote = 0; ep->e_fd = fd; ep->e_multiline = sh_isoption(SH_MULTILINE)!=0; #ifdef SIGWINCH if(!(shp->sigflag[SIGWINCH]&SH_SIGFAULT)) { signal(SIGWINCH,sh_fault); shp->sigflag[SIGWINCH] |= SH_SIGFAULT; } pp = shp->st.trapcom[SIGWINCH]; shp->st.trapcom[SIGWINCH] = 0; sh_fault(SIGWINCH); shp->st.trapcom[SIGWINCH] = pp; ep->sh->winch = 0; #endif #if KSHELL ep->e_stkptr = stakptr(0); ep->e_stkoff = staktell(); if(!(last = shp->prompt)) last = ""; shp->prompt = 0; #else last = ep->e_prbuff; #endif /* KSHELL */ if(shp->hist_ptr) { register History_t *hp = shp->hist_ptr; ep->e_hismax = hist_max(hp); ep->e_hismin = hist_min(hp); } else { ep->e_hismax = ep->e_hismin = ep->e_hloff = 0; } ep->e_hline = ep->e_hismax; if(!sh_isoption(SH_VI) && !sh_isoption(SH_EMACS) && !sh_isoption(SH_GMACS)) ep->e_wsize = MAXLINE; else ep->e_wsize = ed_window()-2; ep->e_winsz = ep->e_wsize+2; ep->e_crlf = 1; ep->e_plen = 0; pp = ep->e_prompt; ppmax = pp+PRSIZE-1; *pp++ = '\r'; { register int c; while(prev = last, c = mbchar(last)) switch(c) { case ESC: { int skip=0; ep->e_crlf = 0; *pp++ = c; for(n=1; c = *last++; n++) { if(pp < ppmax) *pp++ = c; if(c=='\a' || c==ESC || c=='\r') break; if(skip || (c>='0' && c<='9')) continue; if(n>1 && c==';') skip = 1; else if(n>2 || (c!= '[' && c!= ']')) break; } if(c==0 || c==ESC || c=='\r') last--; qlen += (n+1); break; } case '\b': if(pp>ep->e_prompt+1) pp--; break; case '\r': if(pp == (ep->e_prompt+2)) /* quote char */ myquote = *(pp-1); /*FALLTHROUGH*/ case '\n': /* start again */ ep->e_crlf = 1; qlen = 1; inquote = 0; pp = ep->e_prompt+1; break; case '\t': /* expand tabs */ while((pp-ep->e_prompt)%TABSIZE) { if(pp >= ppmax) break; *pp++ = ' '; } break; case '\a': /* cut out bells */ break; default: if(c==myquote) { qlen += inquote; inquote ^= 1; } if(pp < ppmax) { if(inquote) qlen++; else if(!is_print(c)) ep->e_crlf = 0; if((qwid = last - prev) > 1) qlen += qwid - mbwidth(c); while(prev < last && pp < ppmax) *pp++ = *prev++; } break; } } if(pp-ep->e_prompt > qlen) ep->e_plen = pp - ep->e_prompt - qlen; *pp = 0; if(!ep->e_multiline && (ep->e_wsize -= ep->e_plen) < 7) { register int shift = 7-ep->e_wsize; ep->e_wsize = 7; pp = ep->e_prompt+1; strcpy(pp,pp+shift); ep->e_plen -= shift; last[-ep->e_plen-2] = '\r'; } sfsync(sfstderr); if(fd == sffileno(sfstderr)) { /* can't use output buffer when reading from stderr */ static char *buff; if(!buff) buff = (char*)malloc(MAXLINE); ep->e_outbase = ep->e_outptr = buff; ep->e_outlast = ep->e_outptr + MAXLINE; return; } qlen = sfset(sfstderr,SF_READ,0); /* make sure SF_READ not on */ ep->e_outbase = ep->e_outptr = (char*)sfreserve(sfstderr,SF_UNBOUND,SF_LOCKR); ep->e_outlast = ep->e_outptr + sfvalue(sfstderr); if(qlen) sfset(sfstderr,SF_READ,1); sfwrite(sfstderr,ep->e_outptr,0); ep->e_eol = reedit; if(ep->e_multiline) { #ifdef _cmd_tput char *term; if(!ep->e_term) ep->e_term = nv_search("TERM",shp->var_tree,0); if(ep->e_term && (term=nv_getval(ep->e_term)) && strlen(term)e_termname) && strcmp(term,ep->e_termname)) { sh_trap(".sh.subscript=$(tput cuu1 2>/dev/null)",0); if(pp=nv_getval(SH_SUBSCRNOD)) strncpy(CURSOR_UP,pp,sizeof(CURSOR_UP)-1); nv_unset(SH_SUBSCRNOD); strcpy(ep->e_termname,term); } #endif ep->e_wsize = MAXLINE - (ep->e_plen+1); } if(ep->e_default && (pp = nv_getval(ep->e_default))) { n = strlen(pp); if(n > LOOKAHEAD) n = LOOKAHEAD; ep->e_lookahead = n; while(n-- > 0) ep->e_lbuf[n] = *pp++; ep->e_default = 0; } } static void ed_putstring(register Edit_t *ep, const char *str) { register int c; while(c = *str++) ed_putchar(ep,c); } static void ed_nputchar(register Edit_t *ep, int n, int c) { while(n-->0) ed_putchar(ep,c); } /* * Do read, restart on interrupt unless SH_SIGSET or SH_SIGTRAP is set * Use sfpkrd() to poll() or select() to wait for input if possible * Unfortunately, systems that get interrupted from slow reads update * this access time for for the terminal (in violation of POSIX). * The fixtime() macro, resets the time to the time at entry in * this case. This is not necessary for systems that can handle * sfpkrd() correctly (i,e., those that support poll() or select() */ int ed_read(void *context, int fd, char *buff, int size, int reedit) { register Edit_t *ep = (Edit_t*)context; register int rv= -1; register int delim = (ep->e_raw==RAWMODE?'\r':'\n'); Shell_t *shp = ep->sh; int mode = -1; int (*waitevent)(int,long,int) = shp->waitevent; if(ep->e_raw==ALTMODE) mode = 1; if(size < 0) { mode = 1; size = -size; } sh_onstate(SH_TTYWAIT); errno = EINTR; shp->waitevent = 0; while(rv<0 && errno==EINTR) { if(shp->trapnote&(SH_SIGSET|SH_SIGTRAP)) goto done; if(ep->sh->winch) { Edpos_t lastpos; int n, rows, newsize; /* move cursor to start of first line */ ed_putchar(ep,'\r'); ed_flush(ep); astwinsize(2,&rows,&newsize); n = (ep->e_plen+ep->e_cur)/++ep->e_winsz; while(n--) ed_putstring(ep,CURSOR_UP); if(ep->e_multiline && newsize>ep->e_winsz && (lastpos.line=(ep->e_plen+ep->e_peol)/ep->e_winsz)) { /* clear the current command line */ n = lastpos.line; while(lastpos.line--) { ed_nputchar(ep,ep->e_winsz,' '); ed_putchar(ep,'\n'); } ed_nputchar(ep,ep->e_winsz,' '); while(n--) ed_putstring(ep,CURSOR_UP); } ep->sh->winch = 0; ed_flush(ep); sh_delay(.05); astwinsize(2,&rows,&newsize); ep->e_winsz = newsize-1; if(!ep->e_multiline && ep->e_wsize < MAXLINE) ep->e_wsize = ep->e_winsz-2; ep->e_nocrnl=1; if(*ep->e_vi_insert) { buff[0] = ESC; buff[1] = cntl('L'); buff[2] = 'a'; return(3); } buff[0] = cntl('L'); return(1); } /* an interrupt that should be ignored */ errno = 0; if(!waitevent || (rv=(*waitevent)(fd,-1L,0))>=0) rv = sfpkrd(fd,buff,size,delim,-1L,mode); } if(rv < 0) { #ifdef _hdr_utime # define fixtime() if(isdevtty)utime(ep->e_tty,&utimes) int isdevtty=0; struct stat statb; struct utimbuf utimes; if(errno==0 && !ep->e_tty) { if((ep->e_tty=ttyname(fd)) && stat(ep->e_tty,&statb)>=0) { ep->e_tty_ino = statb.st_ino; ep->e_tty_dev = statb.st_dev; } } if(ep->e_tty_ino && fstat(fd,&statb)>=0 && statb.st_ino==ep->e_tty_ino && statb.st_dev==ep->e_tty_dev) { utimes.actime = statb.st_atime; utimes.modtime = statb.st_mtime; isdevtty=1; } #else # define fixtime() #endif /* _hdr_utime */ while(1) { rv = read(fd,buff,size); if(rv>=0 || errno!=EINTR) break; if(shp->trapnote&(SH_SIGSET|SH_SIGTRAP)) goto done; /* an interrupt that should be ignored */ fixtime(); } } else if(rv>=0 && mode>0) rv = read(fd,buff,rv>0?rv:1); done: shp->waitevent = waitevent; sh_offstate(SH_TTYWAIT); return(rv); } /* * put of length onto lookahead stack * if is non-zero, the negation of the character is put * onto the stack so that it can be checked for KEYTRAP * putstack() returns 1 except when in the middle of a multi-byte char */ static int putstack(Edit_t *ep,char string[], register int nbyte, int type) { register int c; #if SHOPT_MULTIBYTE char *endp, *p=string; int size, offset = ep->e_lookahead + nbyte; *(endp = &p[nbyte]) = 0; endp = &p[nbyte]; do { c = (int)((*p) & STRIP); if(c< 0x80 && c!='<') { if (type) c = -c; # ifndef CBREAK if(c == '\0') { /*** user break key ***/ ep->e_lookahead = 0; # if KSHELL sh_fault(SIGINT); siglongjmp(ep->e_env, UINTR); # endif /* KSHELL */ } # endif /* CBREAK */ } else { again: if((c=mbchar(p)) >=0) { p--; /* incremented below */ if(type) c = -c; } #ifdef EILSEQ else if(errno == EILSEQ) errno = 0; #endif else if((endp-p) < mbmax()) { if ((c=ed_read(ep,ep->e_fd,endp, 1,0)) == 1) { *++endp = 0; goto again; } return(c); } else { ed_ringbell(); c = -(int)((*p) & STRIP); offset += mbmax()-1; } } ep->e_lbuf[--offset] = c; p++; } while (p < endp); /* shift lookahead buffer if necessary */ if(offset -= ep->e_lookahead) { for(size=offset;size < nbyte;size++) ep->e_lbuf[ep->e_lookahead+size-offset] = ep->e_lbuf[ep->e_lookahead+size]; } ep->e_lookahead += nbyte-offset; #else while (nbyte > 0) { c = string[--nbyte] & STRIP; ep->e_lbuf[ep->e_lookahead++] = (type?-c:c); # ifndef CBREAK if( c == '\0' ) { /*** user break key ***/ ep->e_lookahead = 0; # if KSHELL sh_fault(SIGINT); siglongjmp(ep->e_env, UINTR); # endif /* KSHELL */ } # endif /* CBREAK */ } #endif /* SHOPT_MULTIBYTE */ return(1); } /* * routine to perform read from terminal for vi and emacs mode * can be one of the following: * -2 vi insert mode - key binding is in effect * -1 vi control mode - key binding is in effect * 0 normal command mode - key binding is in effect * 1 edit keys not mapped * 2 Next key is literal */ int ed_getchar(register Edit_t *ep,int mode) { register int n, c; char readin[LOOKAHEAD+1]; if(!ep->e_lookahead) { ed_flush(ep); ep->e_inmacro = 0; /* The while is necessary for reads of partial multbyte chars */ *ep->e_vi_insert = (mode==-2); if((n=ed_read(ep,ep->e_fd,readin,-LOOKAHEAD,0)) > 0) n = putstack(ep,readin,n,1); *ep->e_vi_insert = 0; } if(ep->e_lookahead) { /* check for possible key mapping */ if((c = ep->e_lbuf[--ep->e_lookahead]) < 0) { if(mode<=0 && ep->sh->st.trap[SH_KEYTRAP]) { n=1; if((readin[0]= -c) == ESC) { while(1) { if(!ep->e_lookahead) { if((c=sfpkrd(ep->e_fd,readin+n,1,'\r',(mode?400L:-1L),0))>0) putstack(ep,readin+n,c,1); } if(!ep->e_lookahead) break; if((c=ep->e_lbuf[--ep->e_lookahead])>=0) { ep->e_lookahead++; break; } c = -c; readin[n++] = c; if(c>='0' && c<='9' && n>2) continue; if(n>2 || (c!= '[' && c!= 'O')) break; } } if(n=keytrap(ep,readin,n,LOOKAHEAD-n,mode)) { putstack(ep,readin,n,0); c = ep->e_lbuf[--ep->e_lookahead]; } else c = ed_getchar(ep,mode); } else c = -c; } /*** map '\r' to '\n' ***/ if(c == '\r' && mode!=2) c = '\n'; if(ep->e_tabcount && !(c=='\t'||c==ESC || c=='\\' || c=='=' || c==cntl('L') || isdigit(c))) ep->e_tabcount = 0; } else siglongjmp(ep->e_env,(n==0?UEOF:UINTR)); return(c); } void ed_ungetchar(Edit_t *ep,register int c) { if (ep->e_lookahead < LOOKAHEAD) ep->e_lbuf[ep->e_lookahead++] = c; return; } /* * put a character into the output buffer */ void ed_putchar(register Edit_t *ep,register int c) { char buf[8]; register char *dp = ep->e_outptr; register int i,size=1; if(!dp) return; buf[0] = c; #if SHOPT_MULTIBYTE /* check for place holder */ if(c == MARKER) return; if((size = mbconv(buf, (wchar_t)c)) > 1) { for (i = 0; i < (size-1); i++) *dp++ = buf[i]; c = buf[i]; } else { buf[0] = c; size = 1; } #endif /* SHOPT_MULTIBYTE */ if (buf[0] == '_' && size==1) { *dp++ = ' '; *dp++ = '\b'; } *dp++ = c; *dp = '\0'; if(dp >= ep->e_outlast) ed_flush(ep); else ep->e_outptr = dp; } /* * returns the line and column corresponding to offset in the physical buffer * if is non-zero and <= , then correspodning will start the search */ Edpos_t ed_curpos(Edit_t *ep,genchar *phys, int off, int cur, Edpos_t curpos) { register genchar *sp=phys; register int c=1, col=ep->e_plen; Edpos_t pos; #if SHOPT_MULTIBYTE char p[16]; #endif /* SHOPT_MULTIBYTE */ if(cur && off>=cur) { sp += cur; off -= cur; pos = curpos; col = pos.col; } else { pos.line = 0; while(col > ep->e_winsz) { pos.line++; col -= (ep->e_winsz+1); } } while(off-->0) { if(c) c = *sp++; #if SHOPT_MULTIBYTE if(c && (mbconv(p, (wchar_t)c))==1 && p[0]=='\n') #else if(c=='\n') #endif /* SHOPT_MULTIBYTE */ col = 0; else col++; if(col > ep->e_winsz) col = 0; if(col==0) pos.line++; } pos.col = col; return(pos); } int ed_setcursor(register Edit_t *ep,genchar *physical,register int old,register int new,int first) { static int oldline; register int delta; int clear = 0; Edpos_t newpos; delta = new - old; if(first < 0) { first = 0; clear = 1; } if( delta == 0 && !clear) return(new); if(ep->e_multiline) { ep->e_curpos = ed_curpos(ep, physical, old,0,ep->e_curpos); if(clear && old>=ep->e_peol && (clear=ep->e_winsz-ep->e_curpos.col)>0) { ed_nputchar(ep,clear,' '); ed_nputchar(ep,clear,'\b'); return(new); } newpos = ed_curpos(ep, physical, new,old,ep->e_curpos); if(ep->e_curpos.col==0 && ep->e_curpos.line>0 && oldlinee_curpos.line && delta<0) ed_putstring(ep,"\r\n"); oldline = newpos.line; if(ep->e_curpos.line > newpos.line) { int n,pline,plen=ep->e_plen; for(;ep->e_curpos.line > newpos.line; ep->e_curpos.line--) ed_putstring(ep,CURSOR_UP); pline = plen/(ep->e_winsz+1); if(newpos.line <= pline) plen -= pline*(ep->e_winsz+1); else plen = 0; if((n=plen- ep->e_curpos.col)>0) { ep->e_curpos.col += n; ed_putchar(ep,'\r'); if(!ep->e_crlf && pline==0) ed_putstring(ep,ep->e_prompt); else { int m = ep->e_winsz+1-plen; ed_putchar(ep,'\n'); n = plen; if(m < ed_genlen(physical)) { while(physical[m] && n-->0) ed_putchar(ep,physical[m++]); } ed_nputchar(ep,n,' '); ed_putstring(ep,CURSOR_UP); } } } else if(ep->e_curpos.line < newpos.line) { ed_nputchar(ep, newpos.line-ep->e_curpos.line,'\n'); ep->e_curpos.line = newpos.line; ed_putchar(ep,'\r'); ep->e_curpos.col = 0; } delta = newpos.col - ep->e_curpos.col; old = new - delta; } else newpos.line=0; if(delta<0) { int bs= newpos.line && ep->e_plen>ep->e_winsz; /*** move to left ***/ delta = -delta; /*** attempt to optimize cursor movement ***/ if(!ep->e_crlf || bs || (2*delta <= ((old-first)+(newpos.line?0:ep->e_plen))) ) { ed_nputchar(ep,delta,'\b'); delta = 0; } else { if(newpos.line==0) ed_putstring(ep,ep->e_prompt); else { first = 1+(newpos.line*ep->e_winsz - ep->e_plen); ed_putchar(ep,'\r'); } old = first; delta = new-first; } } while(delta-->0) ed_putchar(ep,physical[old++]); return(new); } /* * copy virtual to physical and return the index for cursor in physical buffer */ int ed_virt_to_phys(Edit_t *ep,genchar *virt,genchar *phys,int cur,int voff,int poff) { register genchar *sp = virt; register genchar *dp = phys; register int c; genchar *curp = sp + cur; genchar *dpmax = phys+MAXLINE; int d, r; sp += voff; dp += poff; for(r=poff;c= *sp;sp++) { if(curp == sp) r = dp - phys; #if SHOPT_MULTIBYTE d = mbwidth((wchar_t)c); if(d==1 && is_cntrl(c)) d = -1; if(d>1) { /* multiple width character put in place holders */ *dp++ = c; while(--d >0) *dp++ = MARKER; /* in vi mode the cursor is at the last character */ if(dp>=dpmax) break; continue; } else #else d = (is_cntrl(c)?-1:1); #endif /* SHOPT_MULTIBYTE */ if(d<0) { if(c=='\t') { c = dp-phys; if(sh_isoption(SH_VI)) c += ep->e_plen; c = TABSIZE - c%TABSIZE; while(--c>0) *dp++ = ' '; c = ' '; } else { *dp++ = '^'; c = printchar(c); } /* in vi mode the cursor is at the last character */ if(curp == sp && sh_isoption(SH_VI)) r = dp - phys; } *dp++ = c; if(dp>=dpmax) break; } *dp = 0; ep->e_peol = dp-phys; return(r); } #if SHOPT_MULTIBYTE /* * convert external representation to an array of genchars * and can be the same * returns number of chars in dest */ int ed_internal(const char *src, genchar *dest) { register const unsigned char *cp = (unsigned char *)src; register int c; register wchar_t *dp = (wchar_t*)dest; if(dest == (genchar*)roundof(cp-(unsigned char*)0,sizeof(genchar))) { genchar buffer[MAXLINE]; c = ed_internal(src,buffer); ed_gencpy((genchar*)dp,buffer); return(c); } while(*cp) *dp++ = mbchar(cp); *dp = 0; return(dp-(wchar_t*)dest); } /* * convert internal representation into character array . * The and may be the same. * returns number of chars in dest. */ int ed_external(const genchar *src, char *dest) { register genchar wc; register int c,size; register char *dp = dest; char *dpmax = dp+sizeof(genchar)*MAXLINE-2; if((char*)src == dp) { char buffer[MAXLINE*sizeof(genchar)]; c = ed_external(src,buffer); #ifdef _lib_wcscpy wcscpy((wchar_t *)dest,(const wchar_t *)buffer); #else strcpy(dest,buffer); #endif return(c); } while((wc = *src++) && dp to */ void ed_gencpy(genchar *dp,const genchar *sp) { dp = (genchar*)roundof((char*)dp-(char*)0,sizeof(genchar)); sp = (const genchar*)roundof((char*)sp-(char*)0,sizeof(genchar)); while(*dp++ = *sp++); } /* * copy at most items from to */ void ed_genncpy(register genchar *dp,register const genchar *sp, int n) { dp = (genchar*)roundof((char*)dp-(char*)0,sizeof(genchar)); sp = (const genchar*)roundof((char*)sp-(char*)0,sizeof(genchar)); while(n-->0 && (*dp++ = *sp++)); } /* * find the string length of */ int ed_genlen(register const genchar *str) { register const genchar *sp = str; sp = (const genchar*)roundof((char*)sp-(char*)0,sizeof(genchar)); while(*sp++); return(sp-str-1); } #endif /* SHOPT_MULTIBYTE */ #endif /* SHOPT_ESH || SHOPT_VSH */ #ifdef future /* * returns 1 when bytes starting at and are equal */ static int compare(register const char *a,register const char *b,register int n) { while(n-->0) { if(*a++ != *b++) return(0); } return(1); } #endif #if SHOPT_OLDTERMIO # include #ifndef ECHOCTL # define ECHOCTL 0 #endif /* !ECHOCTL */ #define ott ep->e_ott /* * For backward compatibility only * This version will use termios when possible, otherwise termio */ int tcgetattr(int fd, struct termios *tt) { register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); register int r,i; ep->e_tcgeta = 0; ep->e_echoctl = (ECHOCTL!=0); if((r=ioctl(fd,TCGETS,tt))>=0 || errno!=EINVAL) return(r); if((r=ioctl(fd,TCGETA,&ott)) >= 0) { tt->c_lflag = ott.c_lflag; tt->c_oflag = ott.c_oflag; tt->c_iflag = ott.c_iflag; tt->c_cflag = ott.c_cflag; for(i=0; ic_cc[i] = ott.c_cc[i]; ep->e_tcgeta++; ep->e_echoctl = 0; } return(r); } int tcsetattr(int fd,int mode,struct termios *tt) { register Edit_t *ep = (Edit_t*)(sh_getinterp()->ed_context); register int r; if(ep->e_tcgeta) { register int i; ott.c_lflag = tt->c_lflag; ott.c_oflag = tt->c_oflag; ott.c_iflag = tt->c_iflag; ott.c_cflag = tt->c_cflag; for(i=0; ic_cc[i]; if(tt->c_lflag&ECHOCTL) { ott.c_lflag &= ~(ECHOCTL|IEXTEN); ott.c_iflag &= ~(IGNCR|ICRNL); ott.c_iflag |= INLCR; ott.c_cc[VEOF]= ESC; /* ESC -> eof char */ ott.c_cc[VEOL] = '\r'; /* CR -> eol char */ ott.c_cc[VEOL2] = tt->c_cc[VEOF]; /* EOF -> eol char */ } switch(mode) { case TCSANOW: mode = TCSETA; break; case TCSADRAIN: mode = TCSETAW; break; case TCSAFLUSH: mode = TCSETAF; } return(ioctl(fd,mode,&ott)); } return(ioctl(fd,mode,tt)); } #endif /* SHOPT_OLDTERMIO */ #if KSHELL /* * Execute keyboard trap on given buffer of given size * < 0 for vi insert mode */ static int keytrap(Edit_t *ep,char *inbuff,register int insize, int bufsize, int mode) { register char *cp; int savexit; Shell_t *shp = ep->sh; #if SHOPT_MULTIBYTE char buff[MAXLINE]; ed_external(ep->e_inbuf,cp=buff); #else cp = ep->e_inbuf; #endif /* SHOPT_MULTIBYTE */ inbuff[insize] = 0; ep->e_col = ep->e_cur; if(mode== -2) { ep->e_col++; *ep->e_vi_insert = ESC; } else *ep->e_vi_insert = 0; nv_putval(ED_CHRNOD,inbuff,NV_NOFREE); nv_putval(ED_COLNOD,(char*)&ep->e_col,NV_NOFREE|NV_INTEGER); nv_putval(ED_TXTNOD,(char*)cp,NV_NOFREE); nv_putval(ED_MODENOD,ep->e_vi_insert,NV_NOFREE); savexit = shp->savexit; sh_trap(shp->st.trap[SH_KEYTRAP],0); shp->savexit = savexit; if((cp = nv_getval(ED_CHRNOD)) == inbuff) nv_unset(ED_CHRNOD); else if(bufsize>0) { strncpy(inbuff,cp,bufsize); inbuff[bufsize-1]='\0'; insize = strlen(inbuff); } else insize = 0; nv_unset(ED_TXTNOD); return(insize); } #endif /* KSHELL */ void *ed_open(Shell_t *shp) { Edit_t *ed = newof(0,Edit_t,1,0); ed->sh = shp; strcpy(ed->e_macro,"_??"); return((void*)ed); }