/* * 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 2003 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* SVr4.0 1.22.5.1 */ /* * UNIX shell */ #include "defs.h" #include #include #include "sh_policy.h" #define ARGMK 01 static unsigned char *execs(); static int gsort(); static int split(); extern const char *sysmsg[]; extern short topfd; /* * service routines for `execute' */ initio(iop, save) struct ionod *iop; int save; { register unsigned char *ion; register int iof, fd; int ioufd; short lastfd; int newmode; lastfd = topfd; while (iop) { iof = iop->iofile; ion = mactrim(iop->ioname); ioufd = iof & IOUFD; if (*ion && (flags&noexec) == 0) { if (save) { fdmap[topfd].org_fd = ioufd; fdmap[topfd++].dup_fd = savefd(ioufd); } if (iof & IODOC) { struct tempblk tb; subst(chkopen(ion, 0), (fd = tmpfil(&tb))); /* * pushed in tmpfil() -- * bug fix for problem with * in-line scripts */ poptemp(); fd = chkopen(tmpout, 0); unlink((const char *)tmpout); } else if (iof & IOMOV) { if (eq(minus, ion)) { fd = -1; close(ioufd); } else if ((fd = stoi(ion)) >= USERIO) { failed(ion, badfile); } else fd = dup(fd); } else if (((iof & IOPUT) == 0) && ((iof & IORDW) == 0)) fd = chkopen(ion, 0); else if (iof & IORDW) /* For <> */ { newmode = O_RDWR|O_CREAT; fd = chkopen(ion, newmode); } else if (flags & rshflg) { failed(ion, restricted); } else if (iof & IOAPP && (fd = open((char *)ion, 1)) >= 0) { lseek(fd, (off_t)0, SEEK_END); } else { fd = create(ion); } if (fd >= 0) renamef(fd, ioufd); } iop = iop->ionxt; } return (lastfd); } unsigned char * simple(s) unsigned char *s; { unsigned char *sname; sname = s; while (1) { if (any('/', sname)) while (*sname++ != '/') ; else return (sname); } } unsigned char * getpath(s) unsigned char *s; { register unsigned char *path, *newpath; register int pathlen; if (any('/', s)) { if (flags & rshflg) failed(s, restricted); else return ((unsigned char *)nullstr); } else if ((path = pathnod.namval) == 0) return ((unsigned char *)defpath); else { pathlen = length(path)-1; /* Add extra ':' if PATH variable ends in ':' */ if (pathlen > 2 && path[pathlen - 1] == ':' && path[pathlen - 2] != ':') { newpath = locstak(); (void) memcpystak(newpath, path, pathlen); newpath[pathlen] = ':'; endstak(newpath + pathlen + 1); return (newpath); } else return (cpystak(path)); } } pathopen(path, name) register unsigned char *path, *name; { register int f; do { path = catpath(path, name); } while ((f = open((char *)curstak(), 0)) < 0 && path); return (f); } unsigned char * catpath(path, name) register unsigned char *path; unsigned char *name; { /* * leaves result on top of stack */ register unsigned char *scanp = path; register unsigned char *argp = locstak(); while (*scanp && *scanp != COLON) { if (argp >= brkend) growstak(argp); *argp++ = *scanp++; } if (scanp != path) { if (argp >= brkend) growstak(argp); *argp++ = '/'; } if (*scanp == COLON) scanp++; path = (*scanp ? scanp : 0); scanp = name; do { if (argp >= brkend) growstak(argp); } while (*argp++ = *scanp++); return (path); } unsigned char * nextpath(path) register unsigned char *path; { register unsigned char *scanp = path; while (*scanp && *scanp != COLON) scanp++; if (*scanp == COLON) scanp++; return (*scanp ? scanp : 0); } static unsigned char *xecmsg; static unsigned char **xecenv; int execa(at, pos) unsigned char *at[]; short pos; { register unsigned char *path; register unsigned char **t = at; int cnt; if ((flags & noexec) == 0) { xecmsg = (unsigned char *)notfound; path = getpath(*t); xecenv = local_setenv(); if (pos > 0) { cnt = 1; while (cnt != pos) { ++cnt; path = nextpath(path); } execs(path, t); path = getpath(*t); } while (path = execs(path, t)) ; failed(*t, xecmsg); } } static unsigned char * execs(ap, t) unsigned char *ap; register unsigned char *t[]; { register int pfstatus = NOATTRS; register unsigned char *p, *prefix; unsigned char *savptr; prefix = catpath(ap, t[0]); trim(p = curstak()); sigchk(); if (flags & pfshflg) { /* * Need to save the stack information, or the * first memory allocation in secpolicy_profile_lookup() * will clobber it. */ savptr = endstak(p + strlen((const char *)p) + 1); pfstatus = secpolicy_pfexec((const char *)p, (char **)t, (const char **)xecenv); if (pfstatus != NOATTRS) { errno = pfstatus; } tdystak(savptr); } if (pfstatus == NOATTRS) { execve((const char *)p, (char *const *)&t[0], (char *const *)xecenv); } switch (errno) { case ENOEXEC: /* could be a shell script */ funcnt = 0; flags = 0; *flagadr = 0; comdiv = 0; ioset = 0; clearup(); /* remove open files and for loop junk */ if (input) close(input); input = chkopen(p, 0); #ifdef ACCT preacct(p); /* reset accounting */ #endif /* * set up new args */ setargs(t); longjmp(subshell, 1); case ENOMEM: failed(p, toobig); case E2BIG: failed(p, arglist); case ETXTBSY: failed(p, txtbsy); case ELIBACC: failed(p, libacc); case ELIBBAD: failed(p, libbad); case ELIBSCN: failed(p, libscn); case ELIBMAX: failed(p, libmax); default: xecmsg = (unsigned char *)badexec; case ENOENT: return (prefix); } } BOOL nosubst; trim(at) unsigned char *at; { register unsigned char *last; register unsigned char *current; register unsigned char c; int len; wchar_t wc; nosubst = 0; if (current = at) { last = at; while (c = *current) { if ((len = mbtowc(&wc, (char *)current, MB_LEN_MAX)) <= 0) { *last++ = c; current++; continue; } if (wc != '\\') { memcpy(last, current, len); last += len; current += len; continue; } /* remove \ and quoted nulls */ nosubst = 1; current++; if (c = *current) { if ((len = mbtowc(&wc, (char *)current, MB_LEN_MAX)) <= 0) { *last++ = c; current++; continue; } memcpy(last, current, len); last += len; current += len; } else current++; } *last = 0; } } /* Same as trim, but only removes backlashes before slashes */ trims(at) unsigned char *at; { register unsigned char *last; register unsigned char *current; register unsigned char c; int len; wchar_t wc; if (current = at) { last = at; while (c = *current) { if ((len = mbtowc(&wc, (char *)current, MB_LEN_MAX)) <= 0) { *last++ = c; current++; continue; } if (wc != '\\') { memcpy(last, current, len); last += len; current += len; continue; } /* remove \ and quoted nulls */ current++; if (!(c = *current)) { current++; continue; } if (c == '/') { *last++ = c; current++; continue; } *last++ = '\\'; if ((len = mbtowc(&wc, (char *)current, MB_LEN_MAX)) <= 0) { *last++ = c; current++; continue; } memcpy(last, current, len); last += len; current += len; } *last = 0; } } unsigned char * mactrim(s) unsigned char *s; { register unsigned char *t = macro(s); trim(t); return (t); } unsigned char ** scan(argn) int argn; { register struct argnod *argp = (struct argnod *)(Rcheat(gchain) & ~ARGMK); register unsigned char **comargn, **comargm; comargn = (unsigned char **)getstak(BYTESPERWORD * argn + BYTESPERWORD); comargm = comargn += argn; *comargn = ENDARGS; while (argp) { *--comargn = argp->argval; trim(*comargn); argp = argp->argnxt; if (argp == 0 || Rcheat(argp) & ARGMK) { gsort(comargn, comargm); comargm = comargn; } argp = (struct argnod *)(Rcheat(argp) & ~ARGMK); } return (comargn); } static int gsort(from, to) unsigned char *from[], *to[]; { int k, m, n; register int i, j; if ((n = to - from) <= 1) return; for (j = 1; j <= n; j *= 2) ; for (m = 2 * j - 1; m /= 2; ) { k = n - m; for (j = 0; j < k; j++) { for (i = j; i >= 0; i -= m) { register unsigned char **fromi; fromi = &from[i]; if (cf(fromi[m], fromi[0]) > 0) { break; } else { unsigned char *s; s = fromi[m]; fromi[m] = fromi[0]; fromi[0] = s; } } } } } /* * Argument list generation */ getarg(ac) struct comnod *ac; { register struct argnod *argp; register int count = 0; register struct comnod *c; if (c = ac) { argp = c->comarg; while (argp) { count += split(macro(argp->argval), 1); argp = argp->argnxt; } } return (count); } static int split(s) /* blank interpretation routine */ unsigned char *s; { register unsigned char *argp; register int c; int count = 0; for (;;) { register int length; sigchk(); argp = locstak() + BYTESPERWORD; while (c = *s) { wchar_t wc; if ((length = mbtowc(&wc, (char *)s, MB_LEN_MAX)) <= 0) { wc = (unsigned char)*s; length = 1; } if (c == '\\') { /* skip over quoted characters */ if (argp >= brkend) growstak(argp); *argp++ = c; s++; /* get rest of multibyte character */ if ((length = mbtowc(&wc, (char *)s, MB_LEN_MAX)) <= 0) { wc = (unsigned char)*s; length = 1; } if (argp >= brkend) growstak(argp); *argp++ = *s++; while (--length > 0) { if (argp >= brkend) growstak(argp); *argp++ = *s++; } continue; } if (anys(s, ifsnod.namval)) { /* skip to next character position */ s += length; break; } if (argp >= brkend) growstak(argp); *argp++ = c; s++; while (--length > 0) { if (argp >= brkend) growstak(argp); *argp++ = *s++; } } if (argp == staktop + BYTESPERWORD) { if (c) { continue; } else { return (count); } } /* * file name generation */ argp = endstak(argp); trims(((struct argnod *)argp)->argval); if ((flags & nofngflg) == 0 && (c = expand(((struct argnod *)argp)->argval, 0))) count += c; else { makearg(argp); count++; } gchain = (struct argnod *)((int)gchain | ARGMK); } } #ifdef ACCT #include #include #include struct acct sabuf; struct tms buffer; static clock_t before; static int shaccton; /* 0 implies do not write record on exit */ /* 1 implies write acct record on exit */ /* * suspend accounting until turned on by preacct() */ suspacct() { shaccton = 0; } preacct(cmdadr) unsigned char *cmdadr; { unsigned char *simple(); if (acctnod.namval && *acctnod.namval) { sabuf.ac_btime = time((time_t *)0); before = times(&buffer); sabuf.ac_uid = getuid(); sabuf.ac_gid = getgid(); movstrn(simple(cmdadr), sabuf.ac_comm, sizeof (sabuf.ac_comm)); shaccton = 1; } } doacct() { int fd; clock_t after; if (shaccton) { after = times(&buffer); sabuf.ac_utime = compress(buffer.tms_utime + buffer.tms_cutime); sabuf.ac_stime = compress(buffer.tms_stime + buffer.tms_cstime); sabuf.ac_etime = compress(after - before); if ((fd = open((char *)acctnod.namval, O_WRONLY | O_APPEND | O_CREAT, 0666)) != -1) { write(fd, &sabuf, sizeof (sabuf)); close(fd); } } } /* * Produce a pseudo-floating point representation * with 3 bits base-8 exponent, 13 bits fraction */ compress(t) register clock_t t; { register exp = 0; register rund = 0; while (t >= 8192) { exp++; rund = t & 04; t >>= 3; } if (rund) { t++; if (t >= 8192) { t >>= 3; exp++; } } return ((exp << 13) + t); } #endif