/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright (c) 1996, by Sun Microsystems, Inc. * All rights reserved. */ #pragma ident "%Z%%M% %I% %E% SMI" /* SVr4.0 1.11.2.2 */ /* * UNIX shell */ #include "defs.h" #include "sym.h" #include #include static int readb(struct fileblk *, int, int); /* ======== character handling for command lines ======== */ word() { register unsigned int c, d, cc; struct argnod *arg = (struct argnod *)locstak(); register unsigned char *argp = arg->argval; unsigned char *oldargp; int alpha = 1; unsigned char *pc; wdnum = 0; wdset = 0; while (1) { while (c = nextwc(), space(c)) /* skipc() */ ; if (c == COMCHAR) { while ((c = readwc()) != NL && c != EOF); peekc = c; } else { break; /* out of comment - white space loop */ } } if (!eofmeta(c)) { do { if (c == LITERAL) { oldargp = argp; while ((c = readwc()) && c != LITERAL){ /* * quote each character within * single quotes */ pc = readw(c); if (argp >= brkend) growstak(argp); *argp++='\\'; /* Pick up rest of multibyte character */ if (c == NL) chkpr(); while (c = *pc++) { if (argp >= brkend) growstak(argp); *argp++ = (unsigned char)c; } } if (argp == oldargp) { /* null argument - '' */ /* * Word will be represented by quoted null * in macro.c if necessary */ if (argp >= brkend) growstak(argp); *argp++ = '"'; if (argp >= brkend) growstak(argp); *argp++ = '"'; } } else { if (c == 0) { if (argp >= brkend) growstak(argp); *argp++ = 0; } else { pc = readw(c); while (*pc) { if (argp >= brkend) growstak(argp); *argp++ = *pc++; } } if (c == '\\') { if ((cc = readwc()) == 0) { if (argp >= brkend) growstak(argp); *argp++ = 0; } else { pc = readw(cc); while (*pc) { if (argp >= brkend) growstak(argp); *argp++ = *pc++; } } } if (c == '=') wdset |= alpha; if (!alphanum(c)) alpha = 0; if (qotchar(c)) { d = c; for (;;) { if ((c = nextwc()) == 0) { if (argp >= brkend) growstak(argp); *argp++ = 0; } else { pc = readw(c); while (*pc) { if (argp >= brkend) growstak(argp); *argp++ = *pc++; } } if (c == 0 || c == d) break; if (c == NL) chkpr(); /* * don't interpret quoted * characters */ if (c == '\\') { if ((cc = readwc()) == 0) { if (argp >= brkend) growstak(argp); *argp++ = 0; } else { pc = readw(cc); while (*pc) { if (argp >= brkend) growstak(argp); *argp++ = *pc++; } } } } } } } while ((c = nextwc(), !eofmeta(c))); argp = endstak(argp); if (!letter(arg->argval[0])) wdset = 0; peekn = c | MARK; if (arg->argval[1] == 0 && (d = arg->argval[0], digit(d)) && (c == '>' || c == '<')) { word(); wdnum = d - '0'; }else{ /* check for reserved words */ if (reserv == FALSE || (wdval = syslook(arg->argval, reserved, no_reserved)) == 0) { wdval = 0; } /* set arg for reserved words too */ wdarg = arg; } }else if (dipchar(c)){ if ((d = nextwc()) == c) { wdval = c | SYMREP; if (c == '<') { if ((d = nextwc()) == '-') wdnum |= IOSTRIP; else peekn = d | MARK; } } else { peekn = d | MARK; wdval = c; } } else { if ((wdval = c) == EOF) wdval = EOFSYM; if (iopend && eolchar(c)) { struct ionod *tmp_iopend; tmp_iopend = iopend; iopend = 0; copy(tmp_iopend); } } reserv = FALSE; return (wdval); } unsigned int skipwc() { register unsigned int c; while (c = nextwc(), space(c)) ; return (c); } unsigned int nextwc() { register unsigned int c, d; retry: if ((d = readwc()) == ESCAPE) { if ((c = readwc()) == NL) { chkpr(); goto retry; } peekc = c | MARK; } return (d); } unsigned char *readw(d) wchar_t d; { static unsigned char c[MULTI_BYTE_MAX + 1]; int length; wchar_t l; if (isascii(d)) { c[0] = d; c[1] = '\0'; return (c); } length = wctomb((char *)c, d); if (length <= 0) { c[0] = (unsigned char)d; length = 1; } c[length] = '\0'; return (c); } unsigned int readwc() { wchar_t c; int len; struct fileblk *f; int mbmax = MB_CUR_MAX; int i, mlen; if (peekn) { c = peekn & 0x7fffffff; peekn = 0; return (c); } if (peekc) { c = peekc & 0x7fffffff; peekc = 0; return (c); } f = standin; retry: if (f->fend > f->fnxt) { /* * something in buffer */ if (*f->fnxt == 0) { f->fnxt++; f->nxtoff++; if (f->feval == 0) goto retry; /* = c = readc(); */ if (estabf(*f->feval++)) c = EOF; else c = SPACE; if (flags & readpr && standin->fstak == 0) prc(c); if (c == NL) f->flin++; return (c); } if (isascii(c = (unsigned char)*f->fnxt)) { f->fnxt++; f->nxtoff++; if (flags & readpr && standin->fstak == 0) prc(c); if (c == NL) f->flin++; return (c); } for (i = 1; i <= mbmax; i++) { int rest; if ((rest = f->fend - f->fnxt) < i) { /* * not enough bytes available * f->fsiz could be BUFFERSIZE or 1 * since mbmax is enough smaller than BUFFERSIZE, * this loop won't overrun the f->fbuf buffer. */ len = readb(f, (f->fsiz == 1) ? 1 : (f->fsiz - rest), rest); if (len == 0) break; } mlen = mbtowc(&c, (char *)f->fnxt, i); if (mlen > 0) break; } if (i > mbmax) { /* * enough bytes available but cannot be converted to * a valid wchar. */ c = (unsigned char)*f->fnxt; mlen = 1; } f->fnxt += mlen; f->nxtoff += mlen; if (flags & readpr && standin->fstak == 0) prwc(c); if (c == NL) f->flin++; return (c); } if (f->feof || f->fdes < 0){ c = EOF; f->feof++; return (c); } if (readb(f, f->fsiz, 0) <= 0){ if (f->fdes != input || !isatty(input)) { close(f->fdes); f->fdes = -1; } f->feof++; c = EOF; return (c); } goto retry; } static int readb(struct fileblk *f, int toread, int rest) { int len; int fflags; if (rest) { /* * copies the remaining 'rest' bytes from f->fnxt * to f->fbuf */ (void) memcpy(f->fbuf, f->fnxt, rest); f->fnxt = f->fbuf; f->fend = f->fnxt + rest; f->nxtoff = 0; f->endoff = rest; if (f->fbuf[rest - 1] == '\n') { /* * if '\n' found, it should be * a bondary of multibyte char. */ return (rest); } } retry: do { if (trapnote & SIGSET) { newline(); sigchk(); } else if ((trapnote & TRAPSET) && (rwait > 0)) { newline(); chktrap(); clearup(); } } while ((len = read(f->fdes, f->fbuf + rest, toread)) < 0 && trapnote); /* * if child sets O_NDELAY or O_NONBLOCK on stdin * and exited then turn the modes off and retry */ if (len == 0) { if (((flags & intflg) || ((flags & oneflg) == 0 && isatty(input) && (flags & stdflg))) && ((fflags = fcntl(f->fdes, F_GETFL, 0)) & O_NDELAY)) { fflags &= ~O_NDELAY; fcntl(f->fdes, F_SETFL, fflags); goto retry; } } else if (len < 0) { if (errno == EAGAIN) { fflags = fcntl(f->fdes, F_GETFL, 0); fflags &= ~O_NONBLOCK; fcntl(f->fdes, F_SETFL, fflags); goto retry; } len = 0; } f->fnxt = f->fbuf; f->fend = f->fnxt + (len + rest); f->nxtoff = 0; f->endoff = len + rest; return (len + rest); }